SIMPLE = T / file does conform to FITS standard BITPIX = 16 / number of bits per data pixel NAXIS = 0 / number of data axes EXTEND = T / FITS dataset may contain extensions COMMENT FITS (Flexible Image Transport System) format is defined in 'AstronomyCOMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H HISTORY TASK: FEXTRACT on FILENAME: sw01185673000b140x001.hk[0] TSTART = 713894060.24746 TSTOP = 713896266.5962 DATE-OBS= '2023-08-16T15:54:15' DATE-END= '2023-08-16T16:31:01' PROCVER = '3.19.02 ' / Processing script version TIMESYS = 'TT ' / time system MJDREFI = 51910 / MJD reference day 01 Jan 2001 00:00:00 MJDREFF = 0.00074287037 / MJD reference (fraction of day) 01 Jan 2001 00:CLOCKAPP= F / If clock correction are applied (F/T) TIMEUNIT= 's ' / Time unit for timing header keywords OBS_ID = '01185673000' / Observation ID SEQPNUM = 11 / Number of times the dataset processed TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART CHECKSUM= '4KVe6HTZ4HTb4HTZ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = ' 0' / data unit checksum updated 2023-08-26T09:08:07 END XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 72 / width of table in bytes NAXIS2 = 17 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 10 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKEVENTSSYS' / Real Time Software Event Subsystem TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKEVENTSEV' / Real Time Software Event Severity TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKEVENTHUB' / Real Time Software Event Hub Id TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BHKEVENTCODE' / Real Time Software Event Code TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BHKEVENTDAT1' / Real Time Software Event Data Parameter number TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BHKEVENTDAT2' / Real Time Software Event Data Parameter number TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BHKEVENTDAT3' / Real Time Software Event Data Parameter number TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BHKEVENTDAT4' / Real Time Software Event Data Parameter number TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BHKEVENTSTR' / Real Time Software Event String Data Parameter TFORM10 = '40A ' / data format of field: ASCII Character EXTNAME = 'hk123x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894108.67698 TSTOP = 713896265.57248 DATE-OBS= '2023-08-16T15:55:03' DATE-END= '2023-08-16T16:31:00' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2156.89549994469 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 291 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZYagaYadTYadZYad' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3261602468' / data unit checksum updated 2023-08-26T08:43:44 COMMENT Column 2 = BHKEVENTSSYS - Discrete value COMMENT 0 = EX = no description COMMENT 1 = CI = no description COMMENT 2 = HK = no description COMMENT 3 = TO = no description COMMENT 4 = SM = no description COMMENT 5 = FM = no description COMMENT 6 = RI = no description COMMENT 7 = SH = no description COMMENT 8 = SB = no description COMMENT 9 = MS = no description COMMENT 10 = TM = no description COMMENT 11 = ST = no description COMMENT 12 = CS = no description COMMENT 13 = SC = no description COMMENT 14 = FT = no description COMMENT 15 = SE = no description COMMENT 16 = FO = no description COMMENT 17 = PW = no description COMMENT 18 = ?? = no description COMMENT 19 = ?? = no description COMMENT 20 = IH = no description COMMENT 21 = DM = no description COMMENT 22 = PD = no description COMMENT 23 = ?? = no description COMMENT 24 = ?? = no description COMMENT 25 = DI = no description COMMENT 26 = TG = no description COMMENT 27 = BR = no description COMMENT 28 = SP = no description COMMENT 29 = CA = no description COMMENT 30 = ?? = no description COMMENT 31 = ?? = no description COMMENT 32 = BG = no description COMMENT 33 = RO = no description COMMENT 34 = ID = no description COMMENT Column 3 = BHKEVENTSEV - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = INFO = no description COMMENT 2 = OPERROR = no description COMMENT 3 = SWWARN = no description COMMENT 4 = HWWARN = no description COMMENT 5 = SWERROR = no description COMMENT 6 = HWERROR = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 4 = BHKEVENTHUB - Discrete value COMMENT 0 = ???? = no description COMMENT 1 = COMP = no description COMMENT 2 = EPIC = no description COMMENT 3-255 = ???? = no description COMMENT Column 5 = BHKEVENTCODE - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueHISTORY TASK: FAPPND on FILENAME: sw01185673000b123x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:46 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�nV�H��e�Ԁ��./src/sciencedata.cpp:faultDUMP A�F�r�� ΀\��\��\��ONSLEWMC A�F��q� �Ȁ\��\��\��targ/nram/scripts/onslewmc.gz A�F�� ʀ��\��ONFALS3 A�F��F� �΀\��\��\��ONFALS3 A�F�~ᜀ��Հ��./src/sourceCatTbl.cpp:faultSOURCETABLE A�F��r� �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�F�� ʀ��\��ONBURQ20 A�F� �Ǐ� �ʀ��\��ONSLEWMC A�F�!�BĀ��f�ր�./src/sci_dumpable.cpp:faultDUMP A�F�/�n� �΀\��\��\��ONSLEWMC A�F�&�ʀ�� ׀��./src/di_scheduler.cpp:faultNOSURVEYFREEA�F�V;�� Ȁ\��\��\��targ/nram/scripts/onslewmc.gz A�F�VV�X� �ʀ��\��ONFALS3 A�F�Xɉ߀ �΀\��\��\��ONFALS3 A�F��`�� ΀\��\��\��ONBURQ20 A�F��G��/|�\��\��\�� XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 152 / width of table in bytes NAXIS2 = 6 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 11 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BSMTABLEID' / Info Packet Table ID TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BSMTBLFLAGS' / Table flag word TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BSMTBLCXSUM' / Checksum of currently loaded table data TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BSMTBLIXSUM' / Checksum of initial default table data TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BSMTLOADTIME' / System time of last table load TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TSCAL6 = 1 / data are not scaled TTYPE7 = 'BSMTABLESIZE' / Total size of table in bytes TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BSMTNEWITEM' / Item Number to be loaded at next update TFORM8 = '1J ' / data format of field: 4-byte INTEGER TTYPE9 = 'BSMTCURRNAME' / Name of currently loaded table data file TFORM9 = '40A ' / data format of field: ASCII Character TTYPE10 = 'BSMTNEWNAME' / Name of load file to be loaded at next update TFORM10 = '40A ' / data format of field: ASCII Character TTYPE11 = 'BSMTINITNAME' / Name of initial default table data file TFORM11 = '40A ' / data format of field: ASCII Character EXTNAME = 'hk125x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894066.1037 TSTOP = 713894986.01464 DATE-OBS= '2023-08-16T15:54:21' DATE-END= '2023-08-16T16:09:41' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 919.91093993187 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 293 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'K3XLK1WIK1WIK1WI' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3861412485' / data unit checksum updated 2023-08-26T08:43:44 COMMENT Column 2 = BSMTABLEID - Discrete value COMMENT 0 = SM_TOT = Software Manager Table of Tables COMMENT 1 = TM_EVENTS = Task Manager Event/Response Table COMMENT 2 = HK_PKT_DEFN = Housekeeping Packet Definition Table COMMENT 3 = TO_FILTER = Telemetry Output Packet Filter Table COMMENT 4 = SS_TABLE04 = Spare Table COMMENT 5 = SY_MEM_CFG = Bulk Memory Configuration Table COMMENT 6 = HK_MEM_DEFN = HK Memory-Mapped Packet Defn Table COMMENT 7 = SS_TABLE07 = Spare Table COMMENT 8 = SS_TABLE08 = Spare Table COMMENT 9 = SH_SCHEDULE = System Schedule Table COMMENT 10 = SH_COMMAND = Scheduler Command Table COMMENT 11 = SS_TABLE11 = Spare Table COMMENT 12 = SM_DWELL = Memory Dwell Definition Table COMMENT 13 = SS_TABLE13 = Spare Table COMMENT 14 = TM_MODE_LOG = Mode Transition Log Table COMMENT 15 = MS_MEM_SCRUB = Memory Scrub Map Table COMMENT 16 = SB_PIPES = Software Bus Pipe Definition Table COMMENT 17 = SB_CMD_ROUTE = SB Command Packet Routing Table COMMENT 18 = SB_TLM_ROUTE = SB Telemetry Packet Routing Table COMMENT 19 = SS_TABLE19 = Spare Table COMMENT 20 = PD_MIC_CFG = MIC Configuration Settings Table COMMENT 21 = PD_BCDH_CFG = BCDH Configuration Settings Table COMMENT 22 = PD_DM_CFG = Detector Module Configuration Settings Table COMMENT 23 = PD_DMS_CFG = DM Side Configuration Settings Table COMMENT 24 = IH_PKT_DEFN = Instrument Health Limits Table COMMENT 25 = FO_MERIT_WT = Target Merit Weights Table COMMENT 26 = FO_OBS_HIST = Observation History Table COMMENT 27 = SS_TABLE27 = Spare Table COMMENT 28 = SS_TABLE28 = Spare Table COMMENT 29 = SS_TABLE29 = Spare Table COMMENT 30 = BR_SOURCE_CAT = Source Catalog Table COMMENT 31 = TG_LONG_CRIT = Long Trigger Criteria Table COMMENT 32 = TG_SHORT_CRIT = Short Trigger Criteria Table COMMENT 33 = TG_TRIG_VETO = Trigger Veto Table COMMENT 34-49 = SS_SPARE_TBL = Spare Tables COMMENT 50-65535 = ERROR = Illegal Table IDs HISTORY TASK: FAPPND on FILENAME: sw01185673000b125x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:46 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Y F� ��&�c�p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�F�]�x�!��&�h��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A�F�!.bx��&ˀ�&�V��targ/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A�F�"�ˀ��&�Z�Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�F�#[� ��&�c�p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�F�%߹�!��&�h��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 3615 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk129x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894060.24746 TSTOP = 713896266.5962 DATE-OBS= '2023-08-16T15:54:15' DATE-END= '2023-08-16T16:31:01' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2206.34873998165 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 297 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9HUEEEUD9EUDEEUD' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3210042279' / data unit checksum updated 2023-08-26T08:43:44 HISTORY TASK: FAPPND on FILENAME: sw01185673000b129x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:46 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�V��A�F�V�*�A�F�V�GoA�F�W�fA�F�W�s�A�F�X�7A�F�XBM+A�F�X��$A�F�X�A�F�Yt�A�F�Y$��A�F�YD��A�F�Yd�A�F�Y��A�F�Y�-A�F�Z�QA�F�Z�`�A�F�[�yA�F�['�A�F�[��A�F�[�ǤA�F�\�A�F�\��)A�F�]}�A�F�]L1{A�F�]�nA�F�]��A�F�]��A�F�^{A�F�^6PA�F�^��A�F�^�@�A�F�_T�A�F�_��A�F�`��A�F�`x��A�F�`�#�A�F�aԕA�F�a�mHA�F�b�A�F�b;$ A�F�b{rA�F�b��A�F�c�LA�F�c�!A�F�c�]�A�F�d�A�F�d}�1A�F�d��A�F�e^�A�F�eK�A�F�e��}A�F�e��A�F�e߻0A�F�e�ɛA�F�f B�A�F�f@5�A�F�fa-wA�F�f��CA�F�f��PA�F�f��A�F�f�) A�F�gM�A�F�gB�A�F�gb�PA�F�g��A�F�g�X�A�F�g�xBA�F�g��A�F�h��A�F�h$�A�F�heQ/A�F�h�[A�F�h��^A�F�hŴ$A�F�h��TA�F�i WA�F�i&1QA�F�iFYKA�F�if��A�F�i�ݭA�F�i��A�F�i��EA�F�i��A�F�j7vA�F�j']yA�F�jG��A�F�jg�mA�F�j��MA�F�j��A�F�j�-�A�F�kY!A�F�k(~|A�F�kH�A�F�kh�FA�F�k�;�A�F�k�=�A�F�k�A�F�lxA�F�l,R�A�F�lLy�A�F�ll��A�F�l�n�A�F�l�!A�F�l�/�A�F�m U�A�F�mm� A�F�m� WA�F�m�L�A�F�n�IA�F�nO�A�F�no?�A�F�n�}�A�F�n��A�F�nϰ�A�F�n��A�F�oL�A�F�op}�A�F�o��A�F�p��A�F�p7��A�F�pXZA�F�p�x�A�F�q�PA�F�q9$�A�F�qYL�A�F�q��3A�F�r!�A�F�r�u�A�F�r��A�F�r��A�F�r�0A�F�sY!A�F�s(}�A�F�sH�hA�F�shѷA�F�s��A�F�s��UA�F�t oTA�F�t-��A�F�t��A�F�uپA�F�u��A�F�vf�A�F�v0U2A�F�v�a=A�F�w?�A�F�w1laA�F�w��WA�F�w�^5A�F�x{A�F�x2��A�F�xS�A�F�xr�@A�F�x�MjA�F�x��A�F�y�bA�F�y3ջA�F�yS��A�F�yt'�A�F�y�O�A�F�y�xBA�F�z�A�F�zUO�A�F�z��jA�F�z��nA�F�z�4A�F�z�_A�F�{.�A�F�{��9A�F�{��"A�F�{�6&A�F�|e�A�F�|�$A�F�}�A�F�}�^�A�F�~�A�F�~��A�F�*A�F��A�F�� 8A�F��pA�F��A�F��rGA�F��#�NA�F��A�F��v�A�F��6�A�F�� A�F��DA�F��&OvA�F��A�F��g�A�F��3�A�F��E�A�F��N�5A�F��n�/A�F��A�F��?A�F��/�0A�F��p/0A�F��^_A�F��"A�F��cA�F��A�F��FA�F��h�A�F�� A�F��A�F��<�A�F��A�F��A�F��6&A�F��A�F��{5A�F��A�F�� A�F��)A�F��A�F��ŗA�F��h�A�F��}�:A�F��8�A�F��+A�F��$MA�F��A�F��:*A�F�� A�F��*-A�F��A�F��A�F��X�A�F��}A�F��A�F�� [A�F��_�A�F��A�F��&A�F��_�A�F��0��A�F��q�A�F��A�F��KA�F��lA�F��n�A�F��A�F��5A�F��U�A�F��A�F��?A�F��C�A�F��UA�F��A�F��q7A�F��wA�F��A�F��;ߏA�F��[��A�F��|\A�F��S�A�F��A�F��A�F��~*A�F��4A�F��A�F��&-A�F��~��A�F��$tA�F��Z�A�F��agA�F��?�#A�F��_�&A�F��oA�F��jA�F��:TA�F��{�A�F�� vA�F��dA�F��ZA�F��A�F��!�A�F��^5A�F��A�F��A�F��$lvA�F��A�F��6�A�F��A�F��%��A�F��1�A�F��Y�A�F��A�F��&��A�F��`A�F�� A�F�� A�F��{�A�F��A�F�� sCA�F��QA�F��VA�F��|A�F��A�F��/�^A�F��_�A�F��A�F��AA�F��KA�F��A�F��_A�F��wA�F��rA�F��@%A�F��A�F��o�A�F��#%A�F��A�F��n�A�F��A�F��A�F��&�A�F��5A�F��w\A�F��A�F��XA�F��S�A�F��}�SA�F��A�F��A�F��A�F��3�A�F��.�A�F��A�F��A�F��S;A�F��i�A�F��A�F��!cA�F��A�F��A�F��6;A�F��"L�A�F��A�F��/�A�F��A�F��$��A�F��M�A�F��inA�F��A�F��&$5A�F��oA�F��A�F��=\A�F��'e�A�F��ܜA�F��A�F��sXA�F��(�AA�F��A A�F��pA�F��,~�A�F��L��A�F��l�mA�F��sCA�F��A�F��:?A�F�� A�F��:~A�F��A�F��#A�F��A�F��XyA�F��01�A�F��PW�A�F��p$A�F��A�F��VA�F��OA�F��?�A�F��AA�F��A�F��J#A�F��̎A�F�peA�F��zA�F�Õ��A�F��U\A�F�Ė��A�F��A�F�Řc�A�F��`A�F�ƙ��A�F��eA�F�ǚ�4A�F��hIA�F�Ȝ oA�F��rA�F�ɝHA�F��A�F��MA�F��~h^A�F�ʞ��A�F��rA�F��%A�F�� A�F�˟�]A�F��0A�F�� W�A�F�̀��A�F�̠��A�F��y}A�F��!��A�F�͂�A�F�͢@�A�F��A�F��$�A�F�΄��A�F�Τ� A�F��J�A�F��%W�A�F�υ�A�F�Ϧ+A�F��A�F��&�[A�F�Ї.�A�F�ЧX:A�F��UA�F��'�A�F�шmrA�F�� A A�F�Ҍ�!A�F�Ҭa�A�F�� y�A�F��,��A�F�Ӎs�A�F��(�A�F��.K�A�F�Ԏ�/A�F��xWA�F�Տ�A�F��uA�F�֑��A�F��A�F�גs.A�F��UA�F�ؓ�#A�F��K A�F�ٔ�]A�F��A�F�ږ7�A�F��]A�F�ۗw�A�F��/�A�F��X�bA�F��x��A�F�ܘ�!A�F�ܸٔA�F��A�F��WiA�F�ݙ�-A�F��A�F�ޛ>�A�F��4A�F��A�F��<1A�F��\D|A�F��|{�A�F�ߥ�uA�F��ň�A�F��A�F��&D�A�F��A�F�,��MA�F�- �GA�F�-�VA�F�.�)A�F�.�� A�F�/]�A�F�/��A�F�0��A�F�0��A�F�1��A�F�1�n�A�F�2�A�F�2��>A�F�3S&A�F�3�=A�F�4�,A�F�4�8�A�F�5�MA�F�5��A�F�6k�A�F�6� �A�F�7ߏA�F�7��A�F�8MA�F�8=�A�F�8��xA�F�8�A�F�9gA�F�9~��A�F�9�gMA�F�9�G0A�F�:�tA�F�:ޔA�F�:�QDA�F�;��A�F�; �A�F�;�%�A�F�;��JA�F�<�A�F�<"A�F��A�F�>%��A�F�>�"�A�F�>�N'A�F�?��A�F�?0[�A�F�?P>A�F�?p?�A�F�?�dEA�F�?��HA�F�?��zA�F�?��"A�F�@�YA�F�@1"SA�F�@��A�F�@��*A�F�A0UA�F�A2o�A�F�A��jA�F�A�\A�F�Bo~A�F�B3�DA�F�B�'�A�F�B�R?A�F�B�z�A�F�C�A�F�C4�A�F�C��A�F�D �A�F�D��$A�F�EKA�F�E��A�F�F��A�F�F�1fA�F�G��A�F�G��A�F�H"�A�F�H��XA�F�IZA�F�I��A�F�I��#A�F�J�}A�F�J~A�F�o�gA�F�o~iA�F�o��OA�F�o��A�F�p)�A�F�p��A�F�p��A�F�q3A�F�q U�A�F�q��VA�F�q��A�F�r��A�F�r!�:A�F�r�'(A�F�r�QA�F�s��A�F�s$-�A�F�s��FA�F�s�ڐA�F�tN�A�F�t%y)A�F�t��A�F�t�;�A�F�uپA�F�u&�A�F�u�>A�F�u�gMA�F�vܜA�F�v'��A�F�v�uOA�F�v��8A�F�w @yA�F�w)E�A�F�w�{�A�F�w��A�F�x oTA�F�x-3A�F�x��qA�F�y?�A�F�y��A�F�z�jA�F�z�P�A�F�z�-8A�F�{�]A�F�{��A�F�|'A�F�|R�@A�F�|rgbA�F�|��A�F�|��A�F�|��PA�F�}1�A�F�}��tA�F�~��A�F�~�+�A�F�~��A�F�A�F�5��A�F�V�A�F�v7�A�F��[BA�F��A�F�־�A�F��(A�F��A�F��PA�F��K^A�F��"A�F��z�A�F�� A�F��A�F��hIA�F�� A�F��A�F��HA�F��}��A�F��gA�F��gA�F��A�F��~�"A�F��!�A�F��A�F��ŬA�F��1�A�F��U�A�F��A�F�� A�F��x-A�F��'A�F��A�F��"F�A�F��A�F��#�A�F��EA�F��$ɆA�F��I�A�F��[�A�F��1A�F��&{A�F��A�F��A�F��6&A�F��'\)A�F��ܜA�F��#A�F��y�A�F��(�'A�F��?�A�F��T�A�F��|1A�F��,��A�F��oTA�F��O�A�F�� A�F��A�A�F��gA�F��/*ZA�F��A�F��KA�F��^_A�F��hA�F��nYA�F��A�F��iA�F��g�A�F��A�F��A�F��j�A�F��A�F��A�F��:�A�F��gA�F��kA�F��'�A�F��ԕA�F��M+A�F��SA�F��hIA�F��udA�F��A�F��;�PA�F��R�A�F��A�F��A�F��A�F�� A�F��^xA�F��~�QA�F��oA�F��A�F��`A�F��CBA�F��P]A�F��A�F��+A�F��^_A�F�� YA�F��6A�F��-wA�F��A�F��!�A�F��A�A�F��b �A�F��F�A�F��UA�F��Ɔ�A�F��A�F��&۶A�F��^ A�F��A�F��`A�F��(,�A�F��'A�F��A�F��z:A�F��+�0A�F��q�A�F�� +A�F��-A�F��U\A�F��.|�A�F��EA�F��A�F��A�F��/�A�F��O�MA�F��p�A�F��x�A�F��A�F��z�A�F��!�A�F��A�F��c�A�F��CA�F��>A�F��U�A�F��=A�F��A�F��8A�F��MA�F��$A�F��A�F��A�F��I=A�F��A�F��A�F��zA�F��8A�F��hA�F��~�A�F��/ZA�F��.A�F��2A�F��I(A�F��rqA�F��EA�F�� +�A�F��A�F��A�F��]�A�F��!v6A�F��A�F��A�F��|A�F��)"�A�F��A�F��A�F�� '(A�F��#A�F��A�F��,�UA�F��q�A�F�� DA�F��A�F��P]A�F��/��A�F��A�F�� A�F��kA�F��A�F��pA�F��csA�F��JA�F��A�F��8�A�F��T�`A�F��t��A�F��A�F�� gA�F��'=A�F��A�F��u�A�F��A�F��A�F��F�A�F��A�F��!A�F��8�A�F��XĜA�F��y��A�F��A�F��&A�F��xlA�F��:�A�F��Z�A�F��{�A�F��CA�F��zA�F��U�A�F��A�F��4A�F��0A�F��_A�F��=�A�F��>]:A�F��^��A�F��~�6A�F�Þ��A�F�þ�A�F��$tA�F��4A�F��"A�F�Ă�8A�F�Ĭ8 A�F��>A�F��,<�A�F�ōl�A�F�Ŭ��A�F�� Q/A�F�ƍ��A�F��7LA�F�ǒA�F��u�A�F�ȓ�A�F��A�F�ɔjA�F��A�F�ʕ��A�F��.�A�F�˖�]A�F��~�A�F�̘"�A�F��A�F�͙d�A�F��A�F�Κ�VA�F��J#A�F�ϛ�A�F��~(A�F�Н!�A�F�� A�F��A�F��~D�A�F�ўnDA�F��A�F��-�A�F��4A�F�ҟ�/A�F��)JA�F�� F A�F�Ӏ�VA�F�Ӡ�HA�F��s�A�F��!�SA�F�Ԃ�A�F�Ԣ>�A�F��wA�F��$ qA�F�Մ�hA�F�դ��A�F��N�A�F��%j�A�F�օ�A�F�֦�A�F��A�F��&� A�F�ׇ�A�F�קNfA�F��gA�F��'��A�F�؈nA�F�ب�cA�F��;A�F��+��A�F�ٍ��A�F�٭�PA�F��:~A�F�ڎ�A�F��,A�F�ېL�A�F��WiA�F��0�hA�F��P�A�F��q A�F�ܑ.�A�F�ܱUqA�F��{tA�F��ίA�F�ݒ}A�F��!�A�F�ޓ�7A�F��,�A�F��V.A�F��t�PA�F�ߔ�A�F�ߵ"A�F��KIA�F��v�A�F��NA�F��5��A�F��V�A�F��&�A�F��eA�F��X:A�F��aA�F�☥'A�F��GA�F��A�F��A�F��A�F��QA�F��peA�F��#OA�F��}��A�F��A�F��6�A�F��A�F��~��A�F��AJA�F�� A�F��A�F��+�A�F�蠯�A�F��A�F��!"SA�F��s�A�F�顴xA�F�� A�F��"jA�F�ꄇUA�F��^A�F��!A�F��$�A�F��HA�F��@dA�F��A�F��%�xA�F��F($A�F�솏�A�F�즗�A�F��A�F��':A�F��TA�F��ڥA�F��N�A�F��A�F��$�A�F�� A�F��)�HA�F��x�A�F�﫱�A�F�� p�A�F��-��A�F�� EA�F��bA�F��q"A�F��A�F��ϟ�A�F��A�F��0"A�F��PH�A�F��pp�A�F��lA�F��A�F��A�F��A�F��dA�F��1BpA�F��QhsA�F�󑹶A�F��\>A�F��A�F��A�F��3��A�F��SݘA�F��t:A�F��/�A�F��`�A�F��ԓ!A�F��A�F��?A�F��A�F��A�F��HA�F��>�A�F��A�F��A�F��<�A�F��4A�F��o�A�F��A�F��A�F��ZA�F��A�F��A�F��~NA�F��$5A�F��oA�F��A�F��W�A�F��d�A�F��A�F�� d�A�F�� A�F��RA�F�)�A�F�!A A�F��A�F��6A�F�s.A�F�#��A�F��W~A�F��`A�F�ڐA�F�%�A�F��A�F��A�F�~�A�F�'�&A�F��z:A�F��%�A�F� s�A�F�,ǏA�F��A�F� ��A�F��h^A�F�A�F��7A�F�]�A�F��A�F��uA�F�1�hA�F��#:A�F��u�A�F� ��A�F� �cA�F� ��A�F� ��A�F�P�A�F�� A�F��A�F��6&A�F� �xA�F� �~|A�F� lA�F��A�F�@�A�F��A�F��fA�F��2A�F��+A�F��bA�F��_A�F��A�F��6�A�F� XdA�F�-�A�F�M�XA�F�m��A�F��A�F��3�A�F��N�A�F��g�A�F��A�F�/˒A�F�P&�A�F�p`WA�F��wGA�F��A�F��A�F��XA�F��A�F�1=2A�F�Qy}A�F�q�0A�F��A�F��A�F��A�F��!�A�F�S�A�F�2�hA�F�R�(A�F�rɰA�F��A�F��]A�F��(�A�F��A�F�5yA�F�U.sA�F�uVmA�F��A�F��A�F��A�F��DA�F�#A�F�64�A�F�V��A�F�ṿA�F��A�F��A�F��EA�F��28A�F�E9A�F�7��A�F�W�7A�F�wԿA�F��4A�F��~A�F��F�A�F��A�F��A�F�8�A�F�X��A�F�yIA�F��9�A�F��c5A�F�ً/A�F��zA�F��+A�F��s.A�F��)A�F��A�F��A�F�"ӄA�F�CSA�F�c*A�F��A�F��VA�F��A�F��ClA�F�F�A�F�%�qA�F�Es�A�F�e�@A�F��ZA�F��A�F�� WA�F��CA�F�[�A�F�&̣A�F�F�.A�F�� =A�F��F�A�F��`A�F��A�F��A�F�+��A�F��^A�F��A�F��A�F� �A�F� '#%A�F� F�uA�F� fΚA�F� ��A�F� ��A�F� ߄#A�F�!D{�A�F�!d?�A�F�!��A�F�!�u�A�F�!��;A�F�"1IA�F�"P��A�F�"p�bA�F�"��A�F�"�#�A�F�##A�F�#/I(A�F�#O�PA�F�#p7�A�F�#��A�F�#��A�F�#�HA�F�#�GoA�F�$��A�F�$0��A�F�$P��A�F�$p�sA�F�$��A�F�$��kA�F�%��A�F�%+X�A�F�%K��A�F�%k�$A�F�%��>A�F�%�� A�F�%�o�A�F�%�f�A�F�&��A�F�&,�5A�F�&L��A�F�&m�A�F�&�(�A�F�&��A�F�&�oTA�F�&�4A�F�' �QA�F�'-��A�F�'N�A�F�'nR�A�F�'�SeA�F�'��EA�F�'ΥQA�F�'��A�F�(�A�F�(/7vA�F�(Ox�A�F�(o��A�F�(��/A�F�(��^A�F�(��rA�F�(�)JA�F�)y>A�F�)0{5A�F�)P��A�F�)p�!�KA�F�>��A�F�>��A�F�>��A�F�?D�A�F�?%�A�F�?��A�F�?��{A�F�?��7A�F�@�A�F�@+QYA�F�@��tA�F�AvKA�F�A��9A�F�BtA�F�B�u�A�F�B�/oA�F�Bь~A�F�C�CA�F�C�4DA�F�D�A�F�D��A�F�E1{A�F�E��A�F�FinA�F�F�+A�F�F�5�A�F�G��A�F�G�E9A�F�H��A�F�H��7A�F�I�KA�F�I�.�A�F�JײA�F�J�v�A�F�K!�A�F�K}�jA�F�K��uA�F�K�G�A�F�Lp;A�F�L~��A�F�L��A�F�M�XA�F�M+$ A�F�M��NA�F�NmA�F�N�3A�F�N��A�F�O ��A�F�O�C�A�F�P�sA�F�P��A�F�Q`�A�F�Q�x�A�F�Q�~A�F�Q�oA�F�Q�A�F�R�@A�F�R1��A�F�RQ�A�F�Rr�A�F�R�/�A�F�S� A�F�S��7A�F�T+�A�F�T�ǏA�F�UqLA�F�U�A�F�U�A�A�F�V��A�F�V�TLA�F�W�A�F�W��uA�F�X�BA�F��xx�A�F�ꘂkA�F��!A�F��ԕA�F��m�A�F��CA�F��`A�F��V�A�F��A�F��A�F��A�F��B[A�F��~�RA�F��A�F��}�A�F��Y�A�F��A�F��&�A�F��}�A�F��#�0A�F��AA�F��A�F��A�F��T[lA�F��Z�A�F��A�F�󕩨A�F��A�F��A�F��MA�F� ��A�F� �E�A�F�!��A�F�!��A�F�!�� A�F�"7�A�F�"~� A�F�"�پA�F�"�zNA�F�#bA�F�#�ZA�F�#�c�A�F�$w�A�F�$$��A�F�$f+A�F�$�9.A�F�$��HA�F�$��A�F�$�-#A�F�% R~A�F�%��DA�F�%�5�A�F�&�A�F�&.�A�F�&N��A�F�&o#A�F�&�5~A�F�&��A�F�&ϋYA�F�&劉A�F�'� A�F�'/�XA�F�'P3A�F�'p_�A�F�'��A�F�'��A�F�'��A�F�'��A�F�(�A�F�(18�A�F�(Q�A�F�(q��A�F�(��>A�F�(��rA�F�(�eA�F�(�KA�F�)>�A�F�)��A�F�*��A�F�*�=GA�F�+�?A�F�+�\SA�F�,�A�F�,��A�F�-S�A�F�-��A�F�.�sA�F�.�$�A�F�/؄A�F�/zs�A�F�/�}A�F�0J�A�F�0~'|A�F�0�eVA�F�1��A�F�1'�A�F�1��A�F�1��,A�F�2��A�F�2-ӮA�F�>'V�A�F�>��A�F�>�|A�F�?��A�F�?/bA�F�?��A�F�@[A�F�@0^_A�F�@��A�F�A�uA�F�A�2MA�F�AවA�F�BʂA�F�B �zA�F�B�m A�F�B��A�F�C,RA�F�C'X:A�F�C��A�F�C��A�F�D ��A�F�D-��A�F�D�?A�F�E�A�F�E�� A�F�F\hA�F�F�i�A�F�GJMA�F�G��A�F�H��A�F�H2�_A�F�H�/EA�F�I�A�F�I�eAA�F�J�fA�F�J��A�F�K?A�F�K��CA�F�K�FA�F�K�<A�F�K�NfA�F�LtiA�F�L7��A�F�LW�3A�F�Lw�4A�F�L��A�F�L�O�A�F�L�ҞA�F�M�A�F�M��LA�F�N<`A�F�N��A�F�O rA�F�O��A�F�O��A�F�P�A�F�P&�'A�F�P�C�A�F�P��"A�F�Q A�A�F�Q)R*A�F�Q��A�F�Q��A�F�R �A�F�R��|A�F�R��A�F�S �MA�F�S-}�A�F�S��A�F�TD�A�F�T.t�A�F�Tn�fA�F�T�`A�F�T�,�A�F�T�TLA�F�T�A�F�U�$A�F�U/�wA�F�UO�A�F�Up*�A�F�U�d�A�F�U�g�A�F�UА.A�F�U��yA�F�VզA�F�VQ|�A�F�Vqq�A�F�V��wA�F�V��A�F�V�� A�F�V�8�A�F�W!�A�F�W2��A�F�WSoA�F�Wr��A�F�W��iA�F�W��ZA�F�W��A�F�W�X�A�F�Xj�A�F�X3�wA�F�XS��A�F�Xs��A�F�X�� A�F�X�&WA�F�X�Q�A�F�X�y�A�F�Y��A�F�Y4ǏA�F�YT�UA�F�Y�\�A�F�Z=A�F�Z��A�F�[G�A�F�[7�eA�F�[W�$A�F�[w�A�F�[��A�F�[�&A�F�[��A�F�\d�A�F�\�,(A�F�].�A�F�]zNA�F�]�QA�F�]�i�A�F�^��A�F�^'ޔA�F�^�e�A�F�^��A�F�^��UA�F�^��OA�F�_��A�F�_- �A�F�_��A�F�`=�A�F�`.E�A�F�`��A�F�a�,A�F�a�F�A�F�bb�A�F�b�7LA�F�c~A�F�c��A�F�d*A�F�d3a�A�F�d��A�F�e��A�F�e6;�A�F�e�5�A�F�f�A�F�f��A�F�g8\A�F�g��A�F�hXA�F�h��A�F�i��A�F�i�1�A�F�j� A�F�j�i/A�F�k#OA�F�k}�A�F�k�� A�F�k�]�A�F�le�A�F�l~��A�F�l��A�F�m~�A�F�m�+VA�F�n̎A�F�n��A�F�o2A�F�o��#A�F�o�(�A�F�pRA�F�p~��A�F�p��yA�F�p�|�A�F�q$;A�F�q��A�F�q��A�F�rJA�F�r+A�F�r��A�F�r��A�F�s��A�F�s,b�A�F�s�p�A�F�t u�A�F�t-ՑA�F�t�-bA�F�u��A�F�u��A�F�vY!A�F�v09�A�F�vPdEA�F�vp�7A�F�v��A�F�v��A�F�wGA�F�w��A�F�x�A�F�x2��A�F�xR�tA�F�xs\A�F�x�G�A�F�x�]�A�F�x�eA�F�y�wA�F�y3�@A�F�yTA�F�yt8�A�F�y�`A�F�y��A�F�yԻA�F�y�YA�F�z_A�F�z53�A�F�zU^�A�F�zu��A�F�z��A�F�z��A�F�z�{A�F�z��A�F�{=�A�F�{6c�A�F�{v�A�F�{��A�F�{��EA�F�{�=\A�F�{�I�A�F�|uA�F�|7��A�F�|W�NA�F�|�=�A�F�}�A�F�}�^�A�F�~�6A�F�~��xA�F�LA�F��A�F��A�F�� A�F��A�F��cA�F��~`�A�F��|A�F��!A�F��%VmA�F��E��A�F��e��A�F��MA�F��-�A�F��'(A�F��csA�F�� o�A�F��*�A�F��A�F��rA�F��+�A�F��A�F��A�F�� m]A�F��-%�A�F��A�F��DRA�F��jA�F��6A�F��^_A�F��"A�F��A�F�� A�F��ǹA�F��Z�A�F��i�A�F��A�F��jA�F��l�A�F�� A�F��A�F��D�A�F��A�F��7A�F��=�A�F��4A�F��8A�F��")A�F��.A�F��|1A�F��<�A�F��]�A�F��|�A�F��A�F��A�F��&D�A�F�� A�F��A�F��A�F��LNQA�F��l(�A�F��A�F��vKA�F�� A�F��-A�F��A�F��;�A�F��~�A�F��:~A�F��A�F�� R�A�F��A�F��*ZA�F��A�F��.�A�F��A�F��o�A�F��V��A�F��L0A�F��v!A�F��֖�A�F��]A�F��;A�F��7�A�F��x�A�F��!lA�F��A�F��kA�F��9��A�F��&A�F��u�A�F��cA�F��eA�F��?��A�F��`$A�F��F A�F��J�A�F��A�F��םA�F��rA�F��&{A�F��FX�A�F��f��A�F��A�F��'A�F��B�A�F��'� A�F��G�$A�F��g�xA�F��ܜA�F��n�A�F��A�F��*}A�F��J%�A�F��jj�A�F��o�A�F��A�F��zA�F��%A�F��,��A�F��t�A�F�� 4A�F��A�A�F��yA�F��A�F��ǤA�F��]�A�F��զA�F��oA�F��cA�F��#:A�F��A�F��f�A�F��A�F��rA�F��Q/A�F�� A�F��A�F��7vA�F��A�F��wA�F��"��A�F��ʗA�F��|�A�F��J�A�F��A�F��e,A�F�� A�F��)�HA�F��A�F��NA�F�� q�A�F��-�aA�F��M�-A�F��m��A�F��hA�F��5A�F��H�A�F��l�A�F��A�F��.��A�F��P]A�F��;A�F��0 -A�F��A�F��/A�F��1?)A�F��A�F��f�A�F�� A�F��A�F��3�A�F��:�A�F��ŗA�F��A�F�� A�F��A�F��?�A�F��\)A�F��7�WA�F��W��A�F��wԿA�F��A�F��3A�F��DA�F��A�F��\A�F��&�A�F��GA�F��cIA�F��]��A�F��|�9A�F��A�F��<�A�F��e�A�F��A�F��">A�F��~77A�F��SA�F�� A A�F��A�F��A�F�� u%A�F��*��A�F��J͟A�F��kJA�F��CA�F��A�F��̵5A�F��0A�F�� nA�F��-%�A�F��A�F��B[A�F��n�\A�F��gA�F��A�F��]A�F��A�F��A�F��&A�F��A�F��_�A�F��A�F��rA�F�F�A�F�� A�F�Ö}VA�F��0@A�F�ė�A�F��y�A�F�ř�A�F��A�F�ƚ$�A�F��zA�F�Ǜi�A�F��A�F�Ȝ�`A�F��@%A�F��}� A�F�ɞ"�A�F��_�A�F��{A�F��~��A�F�ʟ5A�F��#A�F��%��A�F�˅L�A�F�˦DRA�F��oA�F��&�A�F�̆�>A�F�̭�wA�F�� sA�F��-˼A�F�͎D�A�F�ͮdoA�F��fA�F�Ώ� A�F��]A�F�ϐ��A�F��pPA�F��1v�A�F�В�A�F��KA�F�ѓQYA�F��A�F�ҔtTA�F�Ҵ��A�F��MA�F�ӕ��A�F��YKA�F��V�8A�F��v�A�F�ԗ&lA�F�Է<A�F��?�A�F��d�A�F��A�F��7�xA�F��W�zA�F�՘8\A�F��A�F�֚�bA�F��j�A�F�ל�A�F��EA�F��],|A�F��};�A�F�؝7�A�F�ؽqLA�F��ݧ�A�F��A�F��3HA�F��~[BA�F�ٞ��A�F��pA�F��$��A�F�ڄ�FA�F�ڤ��A�F��S&A�F��'�A�F��G<�A�F��g9mA�F�ۇLnA�F�ۧs�A�F��ǝ�A�F��5A�F��-�A�F�܍�-A�F��@dA�F��D�A�F�ݎ�LA�F��?A�F�ސ_�A�F��q�A�F�ߑz%A�F��!BA�F��A�F��_�A�F��nA�F��A�F��iA�F��A�F��`�A�F��gA�F�䗖}A�F��8\A�F��A�F��A�F��A�F��A�F��(�A�F�牢�A�F��x�A�F�� A�F��*4DA�F��!A�F�譔�A�F�� A�F��gA�F��5A�F�ꏶ�A�F��l"A�F��0�A�F��P�A�F��p�A�F��q�A�F��pA�F�� A�F��t?A�F��KA�F��A�F��2��A�F��h�A�F��A�F��4%�A�F�rA�F��3 A�F�� A�F��A�F��G0A�F��?SA�F��\�A�F��A�F��uA�F��7�A�F��QDA�F��A�F��A�F��9�A�F��A�F��hIA�F�� qA�F��xBA�F��ahsA�F��%�A�F��,�A�F��JA�F��`݃A�F��`A�F��A�F��A�F��$�A�F��A�F��KA�F��f�A�F��'��A�F��g:�A�F��=\A�F��c^A�F��ǌA�F��ŬA�F��DA�F��)0�A�F��A�F��uA�F��A�F��-�A�F�� A�F��VA�F��IT"A�F��iu�A�F��A�F��A�F��A�F��8�A�F�� kQA�F��*u%A�F��J�oA�F��k�A�F��A�F��^�A�F�� nA�F��-�A�F��n�A�F��4A�F��oA�F��Y�A�F��`A�F��cA�F��JA�F��A�F��u%A�F��A�F��8A�F�T�A�F��yA�F��>A�F��?A�F��;A�F��x�A�F�>BA�F�x�oA�F��&A�F��A�F��N-A�F� }�aA�F� �agA�F� ��uA�F��A�F��LA�F��"SA�F��A�F�%f'A�F��f'A�F��E�A�F� ��A�F� (�!A�F� �BpA�F� �a�A�F��A�F�,�A�F�2�hIA�F�3"hA�F�3��,A�F�4^JA�F�4�=A�F�5�5A�F�5�?�A�F�6�qA�F�6��kA�F�7�A�F�7�֌A�F�8\>A�F�8Z�;A�F�8z��A�F�8��A�F�8�oA�F�8�1�A�F�9�'A�F�9�=�A�F�:�sA�F�:�l�A�F�:�ՑA�F�;$MA�F�;��A�F�;��aA�F�;�gA�F�;��A�F�<�yA�F�<$oA�F� u�A�F�>��A�F�>�M�A�F�>��A�F�?��A�F�?/�nA�F�?O�WA�F�?p2vA�F�?�_�A�F�@��A�F�@1�A�F�@��&A�F�A1�A�F�A��BA�F�MdEA�F�M0��A�F�M��A�F�N��A�F�N�K4A�F�O��A�F�O3�A�F�O��A�F�P"hA�F�P��FA�F�Ql�A�F�Q��A�F�R��A�F�R�C�A�F�S��A�F�S��A�F�T,(A�F�T��A�F�U`�A�F�U��A�F�V�A�F�V�T�A�F�W�&A�F�W��A�F�W��A�F�X5?A�F�X^�4A�F�X~��A�F�X��2A�F�X��A�F�X�A�F�X�~=A�F�Y"dA�F�Y��A�F�Y�FtA�F�Z�A�F�Z��A�F�Z��A�F�[ f'A�F�[-��A�F�[M�-A�F�[m�A�F�[��A�F�[�A�F��A�F��A�F��_[A�F��A�F��A�F�� cA�F��L0A�F��uyA�F��A�F��/#�A�F��OLnA�F��o��A�F��A�F��A�F��A�F��_�A�F��םA�F��~A�F��A�F��A�F��2� A�F��aA�F��7A�F��A�F��44�A�F��TJbA�F��t�A�F��A�F��A�F��A�F��BA�F��-�A�F��5Q/A�F��Uy�A�F��u�A�F��A�F��_1A�F��*ZA�F��A�F��A�F��A�F��cA�F��+�A�F��Z~�A�F��z��A�F��͟A�F��h�A�F�� oA�F��A�F��j��H�� p�X��L� ��'��/t>��A�F�Ћ�j�Ɋ�� p�� $� ��U��( ��/z>��A�F��¹��̀�� p��L�p��(*��/�>��A�F�ߋı�� p��,𖼖��d��(E��/�?� ��A�F��¹��P�� p��ؕ��(f��/�?� ��A�F��j�ʒ�� p�O ��D��ۀ��(��/�?� ��A�F��ı��Ԁ�� p��D�p��ߖC��(��/�?� ��A�F�� p�؈��؈��򖞀��(��/�@�""��A�F��j��X�� p�v��j��8��ߗB��(��/�@�$$��A�F��ı�˚�� p�h��h��<��)��/�@�$$��A�F��܀�� p��,� ��p��)1��/�@�$$��A�F�� p �� ,� Ԗ��f��)N��/�@�$$��A�F�#¹��`�� p �W<�� W<��I�΀��)o��/�B�++��A�F�*��̢�� p � �� $�Ė��)��)��/�C�11��A�F�2�a�� p ��(�� l��b��)��/�C�11��A�F�9�¹��&�� p �f�� f��]��)ƀ��/�C�11��A�F�A�X��h�� p �.l�� #�\��ŚT��)��/�D�55��A�F�H�¹�ͪ�� p �� D��*��0�D�55��A�F�P¹�� p ՜�� Ր؀얽��,��*#��0�D�55��A�F�W�¹��.�� p �0�� 0Ѐ��r��*>��0�D�55��A�F�_�j��p�� p �� ڀ��*_��0�E�77��A�F�f��β�� p �� Ж��.�5��*z��0�E�::��A�F�nı�� p2��&��x��*��0E�::��A�F�u��j��6�� p �� *��0E�::��A�F�}�j��x�� pu`��i<�$��`��*׀��0F�<<��A�F��a�Ϻ�� p �� I��*��0F�??��A�F��¹�� p*��*�l� ��̞#��+��0F�??��A�F�� >�� p54H��54H��~��+.��0!F�??��A�F��a�Ѐ�� p@��@��┟"��+f��0'F�??��A�F��j�� pK6��K*L�Ж��}��+��0.G�CC��A�F��X�� pUŀ��U��d��+��04G�CC��A�F��¹��F�� p`A��`A��,�@��+��0:G�CC��A�F��ш�� pj��j�؀$��+ހ��0@G�CC��A�F��X��ʀ�� pu9t��u9t��+��0GH�GG��A�F��¹�� p��A�k��,��0NI�LL��A�F�ϋ¹��N�� p�5��*X�H��ƀ��,5��0TI�LL��A�F��X�Ґ�� p��`��`��.��,V��0ZI�LL��A�F�ދ�j��Ҁ�� p�*h��l��-��,q��0aJ�NN��A�F��a�� p��ܖ��(��,��0gJ�QQ��A�F��V�� p�0��0��L��,��0mJ�QQ��A�F��ı�Ә�� p��<��|��,΀��0tK�SS��A�F��¹��ڀ�� p�34��34��,��0zK�UU��A�F��a�� pӸ��ӭ$�t��W�w��- ��0�K�UU��A�F�� ^�� p�!��<�T��ۄҀ��-%��0�K�UU��A�F�¹�Ԡ�� p��Ԁ��:��-F��0�K�UU��A�F��j�� p��P��셕��-a��0�M�[[��A�F�"¹��$�� p�]��QԀԖ��-��1�P�ff��A�F�)��f�� p��X��-��1�P�ii��A�F�1��ը�� pZ��O��H��-��2�P�ii��A�F�8��X�� p��u��-ـ��2�P�ii��A�F�@�t��,�� p(|4��(w�$��P��-��2�P�ii��A�F�G��a��n�� p3��3�L�X��.,��2�P�ii��A�F�Oʗ�ְ�� p>��>z,��5��.M��2�P�ii��A�F�V�� pI|��I�� ݀��.h��2�P�ii��A�F�^��4�� pS��S�؀ؖ��ՉE��.��2�P�ii��A�F�e��a��v�� p^68��^68��.��2�P�ii��A�F�m�j�׸�� ph�L��h��`��>��.ŀ��2�P�ii��A�F�t�ı�� psh��s]�Ԗ��7�c��.��2�P�ii��A�F�|��<�� p}��}��ˀ��/��2�P�ii��A�F��a��~�� p�vT��j��t��&��/��2�P�ii��A�F��ı�� p��̀��/=��2�P�ii��A�F�� p�}L��q�`��/X��2P�ii��A�F��j��D�� p��p��1�Q��/y��2 P�ii��A�F��a�ن�� p��/��2P�ii��A�F��Q��Ȁ�� p��4�Ж��Y��/��2P�ii��A�F�� pǡ��Ǖ��p��D�o��/Ѐ��2P�ii��A�F��X��L�� p�4��4��׀��/��2!P�ii��A�F��j�ڎ�� pܹ��ܮ��(��'�2��0��2'P�ii��A�F��X��Ѐ�� p��Ȁ��܎ր��0D��2-P�ii��A�F�΋�� p�|��$� X��1��0_��23P�ii��A�F��a��T�� p�3L��'P��W��0��29P�ii��A�F�݋�P�ۖ�� p �� #��0��2?P�ii��A�F��؀�� p =�� 3$� ��\��0��2EP�ii��A�F��ı�� p �@�� @��8��0׀��2KP�ii��A�F��\�� p 'R�� 'R��0��2QP�ii��A�F��j�ܞ�� p 1�L�� 1�܀p��-�z��1��2WP�ii��A�F�ı�� p Z��A�F��j��(�� p��p�t��ـ��5��2DZ��A�F��j�� p�#��k��5��2JZ��A�F� ƨ�欀�� p͗��͗؀��Ӏ��5ր��2Q[��A�F�'�� p��@��+�.��5��2W[��A�F�/¹��0�� p��|� 䖽��6��2][��A�F�6�ı��r�� p��8��8��R��6-��2c[��A�F�>ı�紀�� p�g\��\D��Y��6N��2k]��A�F�E��a�� p�<��<��6i��2q]��A�F�M�j��8�� pB��7�� ̖��6��2w]��A�F�T�� z�� p��؀��(�w��6��2}]��A�F�\��輀�� p!��!��߀��6ƀ��2�^��A�F�c�� p+�t��+u��:��6��2�^��A�F�k¹��@�� p5��5��Ė��m��7��2�^��A�F�r�� 邀�� p@H$��@H$��7��2�^��A�F�z�j��Ā�� pJ�8��J��=�e��7>��2�_��A�F��¹�� pU��U�� 7Y��2�_��A�F��H�� p`[P��`PȀ ��d��7��2�_��A�F��X�ꊀ�� pj�4��j��Ć��7��2�_��A�F��j��̀�� pu��u��'��7̀��2�_��A�F��j�� pO��D�� ̖��L��7��2�`��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 218 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 59 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK131SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BSMFILENAME' / SM name of last file dumped TFORM3 = '40A ' / data format of field: ASCII Character TTYPE4 = 'BSMFILESIZE' / SM size of last file dumped TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BSMTBLSIZE' / SM size of last table dumped TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BSMTBLID' / SM ID of last table dumped TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BSMTBLXSUM' / SM checksum of last table dumped TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BSMSYMADDR' / SM address of last symbol accessed TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BSMDWPKTCNT' / SM dwell packet output count TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BSMSLPKTCNT' / SM shell output packet count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BSMFLAGS' / SM Flags byte TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BSMACTION' / SM last action performed TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BSHPRIMCLK' / SH Free Running Flag TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BSHCURRSLOT' / SH Current Slot Number TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BSHCMDORCNT' / SH BAT Cmd Buffer Overrun Error Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSHCURRCYCLE' / SH Current Cycle Number TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BSHTOTSLOTS' / SH Total Number of Slots TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BSHTOTPKTSENT' / SH Total Number of Packets Sent TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BSHSECSLAST' / SH MET At Last 1 Hz TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BSHTCCMDCNT' / SH Count of Ground Commands to TC TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSHTCERRCNT' / SH Count of Error in Ground Command to TC TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BSHUTCOFFSET' / SH UTC MET Offset TFORM22 = '1D ' / data format of field: 8-byte DOUBLE TTYPE23 = 'BSHPITISRCNT' / SH PIT ISR Count TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BSHMETSECS' / SH Hardware MET seconds TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TUNIT24 = 's ' / physical unit of field TTYPE25 = 'BSHTMISRCNT' / SH S/C time message ISR Count TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BSHCURRTTIME' / SH UTC & MET Time TFORM26 = '1D ' / data format of field: 8-byte DOUBLE TUNIT26 = 's ' / physical unit of field TTYPE27 = 'BSH1PPSISRCNT' / SH 1 Hz ISR Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHMETTIME' / SH MET Time TFORM28 = '1D ' / data format of field: 8-byte DOUBLE TUNIT28 = 's ' / physical unit of field TTYPE29 = 'BSHBBADISRCNT' / SH BAT Bad 1 Hz ISR Count TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BSHPULSE' / SH Source of the 1Hz Pulse TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BSBCUMMEVENTS' / Cummulative Count of Events in the SB Event LogTFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BSBCURREVENTS' / Count of Events currently in the SB Event Log TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BSBCUMMOFLOWS' / Cummulative Count of OverFlow Errors that SB haTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BSBOVRNERRCNT' / Overrun Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BSBQFULERRCNT' / Queue Full Error Count TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BSBEVENTSENAB' / Boolean, Is the Display of the Event currently TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'undocumented1' / Byte field not in ITOS database TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'undocumented2' / Byte field not in ITOS database TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BXRSCNETFLAG' / XR Flag indicating whether packet came from S/CTFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BXRROEXECNT' / XR Execution Count for SubSystem RO TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BXRISREXECNT' / XR Execution Count for ISR TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BXRTAKEERR' / XR Count of Errors encountered when RO Took itsTFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BXRTLMDONE' / XR Count of Activity on the BAT Rcv SA 26. TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BXRCMDRCVD' / XR Count of Activity on the BAT Rcv SA 27. TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BXRWRAPRCVD' / XR Count of Activity on the BAT Rcv SA 30. TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BXRSPARE1' / XR Count of Activity on the BAT Xmt SA 11-25. TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BXRRTRTXMTD' / XR Count of Activity on the BAT Xmt SA 29. TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BXRWRAPXMTD' / XR Count of Activity on the BAT Xmt SA 30. TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BXRINACTSA' / XR Count of times ISR fired but indicated No AcTFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BXRTOPKTREAD' / XR Count of number of packets read from the TO TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'BXRTLMXFER' / XR Transfer Request Count for BAT Tlm Packets TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BXRRTRTXFER' / XR Transfer Request Count for BAT RT-RT Cmd PacTFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BXRREG0 ' / XR Value programmed into 1553 Chip Register 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BXRSEMTIMOUT' / XR Count of Semaphore TimeOuts due to lack of 1TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BXREMPTYINTRPT' / XR Count of Interrupts received when we sensed TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BXRTOPKTSFLUSH' / XR Count of Interrupts received when we sensed TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BXRMODECODES' / XR Count of Mode Codes Handled (both RCV and XMTFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BXRYOUFAILCOUNT' / XR Count of YOU FAILED Interrupts TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BXRYOUFAILBITS' / XR 4 Status Bits of reason for YouFail InterrupTFORM59 = '1B ' / data format of field: BYTE EXTNAME = 'hk131x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894065.09288 TSTOP = 713896255.09266 DATE-OBS= '2023-08-16T15:54:20' DATE-END= '2023-08-16T16:30:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2189.99977993965 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 305 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'EekIHehIEehIEehI' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '4027076672' / data unit checksum updated 2023-08-26T08:43:44 COMMENT Column 6 = BSMTBLID - Discrete value COMMENT 0 = SM_TOT = Software Manager Table of Tables COMMENT 1 = TM_EVENTS = Task Manager Event/Response Table COMMENT 2 = HK_PKT_DEFN = Housekeeping Packet Definition Table COMMENT 3 = TO_FILTER = Telemetry Output Packet Filter Table COMMENT 4 = SS_TABLE04 = Spare Table COMMENT 5 = SY_MEM_CFG = Bulk Memory Configuration Table COMMENT 6 = HK_MEM_DEFN = HK Memory-Mapped Packet Defn Table COMMENT 7 = SS_TABLE07 = Spare Table COMMENT 8 = SS_TABLE08 = Spare Table COMMENT 9 = SH_SCHEDULE = System Schedule Table COMMENT 10 = SH_COMMAND = Scheduler Command Table COMMENT 11 = SS_TABLE11 = Spare Table COMMENT 12 = SM_DWELL = Memory Dwell Definition Table COMMENT 13 = SS_TABLE13 = Spare Table COMMENT 14 = TM_MODE_LOG = Mode Transition Log Table COMMENT 15 = MS_MEM_SCRUB = Memory Scrub Map Table COMMENT 16 = SB_PIPES = Software Bus Pipe Definition Table COMMENT 17 = SB_CMD_ROUTE = SB Command Packet Routing Table COMMENT 18 = SB_TLM_ROUTE = SB Telemetry Packet Routing Table COMMENT 19 = SS_TABLE19 = Spare Table COMMENT 20 = PD_MIC_CFG = MIC Configuration Settings Table COMMENT 21 = PD_BCDH_CFG = BCDH Configuration Settings Table COMMENT 22 = PD_DM_CFG = Detector Module Configuration Settings Table COMMENT 23 = PD_DMS_CFG = DM Side Configuration Settings Table COMMENT 24 = IH_PKT_DEFN = Instrument Health Limits Table COMMENT 25 = FO_MERIT_WT = Target Merit Weights Table COMMENT 26 = FO_OBS_HIST = Observation History Table COMMENT 27 = SS_TABLE27 = Spare Table COMMENT 28 = SS_TABLE28 = Spare Table COMMENT 29 = SS_TABLE29 = Spare Table COMMENT 30 = BR_SOURCE_CAT = Source Catalog Table COMMENT 31 = TG_LONG_CRIT = Long Trigger Criteria Table COMMENT 32 = TG_SHORT_CRIT = Short Trigger Criteria Table COMMENT 33 = TG_TRIG_VETO = Trigger Veto Table COMMENT 34-49 = SS_SPARE_TBL = Spare Tables COMMENT 50-65535 = ERROR = Illegal Table IDs COMMENT Column 12 = BSMACTION - Discrete value COMMENT 0 = NONE = SM hasn't executed a command since last reset COMMENT 1 = MEM PEEK = last command was a memory peek COMMENT 2 = MEM POKE = last command was a memory poke COMMENT 3 = MEM DUMP = last command was a memory dump COMMENT 4 = MEM LOAD = last command was a memory load COMMENT 5 = MEM FILL = last command was a memory fill COMMENT 6 = TBL DUMP = last command was a table dump COMMENT 7 = TBL LOAD = last command was a table load COMMENT 8-255 = ERROR = unknown last action COMMENT Column 13 = BSHPRIMCLK - Discrete value COMMENT 0 = UNDEFINED = System Clock is undefined COMMENT 1 = S/C TIME MSG = System Clock is Time Message from S/C COMMENT 2 = S/C 1PPS = System Clock is S/C one hertz hardware COMMENT 3 = BAT 1PPS = System Clock is BAT one hertz hardware COMMENT 4 = VXWORKS = System Clock is vxWorks clock ( PowerPC ) COMMENT 5 = R6K PIT = System Clock is Processor's PIT timer COMMENT 6 = CYGWIN = System Clock is cygwin clock ( PowerPC ) COMMENT 7 = LINUX = System Clock is Linux clock ( PowerPC ) COMMENT 8 = DEBUG = System Clock is debug clock ( PowerPC ) COMMENT 9-255 = UNDEFINED = System Clock is undefined TRDHI21 = 2 / BSHTCERRCNT Red upper limit = BSH_TCERRCNT_LIM TYEHI21 = 1 / BSHTCERRCNT Yellow upper limit = BSH_TCERRCNT_LCOMMENT Column 30 = BSHPULSE - Discrete value COMMENT 0 = UNDEFINED = 1 PPS Pulse is undefined COMMENT 1 = PRIMARY EXTERNAL = 1 PPS Pulse is primary external COMMENT 2 = REDUNDANT EXTERNAL = 1 PPS Pulse is redundant external COMMENT 4 = MIC INTERNAL = 1 PPS Pulse is MIC internal TRDHI30 = 4 / BSHPULSE Red upper limit = B_SHPULSE_LIM TYEHI30 = 3 / BSHPULSE Yellow upper limit = B_SHPULSE_LIM TRDHI34 = 2 / BSBOVRNERRCNT Red upper limit = BSB_OVRNERRCNT_TYEHI34 = 1 / BSBOVRNERRCNT Yellow upper limit = BSB_OVRNERRCTRDHI35 = 2 / BSBQFULERRCNT Red upper limit = BSB_QFULERRCNT_TYEHI35 = 1 / BSBQFULERRCNT Yellow upper limit = BSB_QFULERRCCOMMENT Column 36 = BSBEVENTSENAB - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 39 = BXRSCNETFLAG - Discrete value COMMENT 0 = NETWORK = no description COMMENT 1-4294967296 = SPACECRAFT = no description TRDHI42 = 2 / BXRTAKEERR Red upper limit = BXR_TAKEERR_LIM TYEHI42 = 1 / BXRTAKEERR Yellow upper limit = BXR_TAKEERR_LIMTRDHI58 = 2 / BXRYOUFAILCOUNT Red upper limit = BXR_YOUFAILERTYEHI58 = 1 / BXRYOUFAILCOUNT Yellow upper limit = BXR_YOUFAIHISTORY TASK: FAPPND on FILENAME: sw01185673000b131x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�X��~�targ/temp/onslew.lng �Ԁ�Ԁ�� g�4|#Ɲ2!\��(��(��g�H��7f��hq��A�F��7�targ/temp/onslew.vet ��!,� ��g��|X��2,V��)7��)7�g��A�F��4�A�F��ǲ��ǀ�t�r>��7��q��A�F��@�targ/temp/onslew.vet ��!,� ��g��|^^�2-��)F��)F�g��A�F��A�F��㲗��r>��7��]�Xq��A�F��targ/temp/onslew.vet ��!,� ��g��|d:�2.ƪ�)U��)U�g��A�F��ۀA�F��b�r?V��8G��ի�zq��A�F��targ/temp/onslew.vet ��!,� ��g��|j�2/��)d��)d�g��A�F��ۀA�F��وr?��8��q��A�F��@�targ/temp/onslew.vet ��!,� ��g��|o�216��)s��)s�g��A�F��ӀA�F��7��7��P�r@ ��8݀��K��q��A�F��targ/temp/onslew.vet ��!,� ��g�|uΝ22m��)��)��g�A�F��ۀA�F��S��S��ǈr@d��9(��ޚq��A�F��@�targ/temp/onslew.vet ��!,� ��g�|{��23��)��)��g�A�F�Ȇ��A�F�Ȁ��o��o��>�r@��9s��.q��A�F�Ћ�H�targ/temp/onslew.vet ��!,� ��g�$|��24ݪ�)��)��g�,A�F��+�A�F�� rA��9��y�Xq��A�F��@�targ/temp/onslew.vet ��!,� ��g�3|�b�26��)��)��g�;A�F�׆�ۀA�F�׀��",�rAr��: ��Śzq��A�F�ߋߏ�targ/temp/onslew.vet ��!,� ��g�B|�>�27M��)��)��g�JA�F��A�F��ò��À�#��rÀ��:T��q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g�Q|��28��)̀��)́g�YA�F�憈{�A�F��߲��߀�%�rB&��:��؜��q��A�F��H�targ/temp/onslew.vet ��!,� ��g�`|��29��)܀��)܁g�hA�F��ۀA�F��&��rB��:�� q��A�F��7�targ/temp/onslew.vet ��!,� ��g�o|�ҝ2:��)��)�g�wA�F��<�A�F��(�rBڀ��;5��B�5q��A�F��targ/temp/onslew.vet ��!,� ��g�~|��2<-��)��)��g��A�F��ۀA�F��3��3��)�rC4��;��٠�]q��A�F�ۡ�targ/temp/onslew.vet ��!,� ��g��|��2=g��* ��* �g��A�F��A�F��O��O��*��rC��;ˀ��q��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g��|�f�2>��*��*�g��A�F��A�F��k��k��,m�rC��<��ڝ��q��A�F��7�targ/temp/onslew.vet ��!,� ��g��|�B�2?ת�*'��*'�g��A�F��4�A�F��-�rDB��#��ᙡ`q��A�F�H�ݘ�targ/temp/onslew.vet ��!,� ��g�|�F�2H^��*��*��g�A�F�H�ۀA�F�H��W��W��8%�rFĀ��>n��q��A�F�Pݘ�targ/temp/onslew.vet ��!,� ��g�#|�"�2I��*��*��g�+A�F�O��ۀA�F�O��s��s��9��rG��>��D��q��A�F�W�ݘ�targ/temp/onslew.vet ��!,� ��g�2|��2JΪ�*��*��g�:A�F�W��A�F�W��;�rGx��?��➡�q��A�F�_�H�targ/temp/onslew.vet ��!,� ��g�A|�ڝ2L��*��*��g�IA�F�^��ʀA�F�^��ë��ë��<��rGҀ��?O��q��A�F�f��targ/temp/onslew.vet ��!,� ��g�P|��2M>��*̀��*́g�XA�F�f�ۀA�F�f��ǲ��ǀ�>�rH,��?��q�Cq��A�F�nߏ�targ/temp/onslew.vet ��!,� ��g�_|��2Nw��*ۀ��*ہg�gA�F�m��A�F�m��㲗��?x�rH��?��㰢`q��A�F�u��H�targ/temp/onslew.vet ��!,� ��g�n}n�2O��*��*�g�vA�F�u�{�A�F�u��@�rH��@0��q��A�F�}�H�targ/temp/onslew.vet ��!,� ��g�}}J�2P窍*��*��g��A�F�|��4�A�F�|��Bf�rI:��@{��i��q��A�F��߀targ/temp/onslew.vet ��!,� ��g��}&�2R��+��+�g��A�F��4�A�F��7��7��C݈rI��@ƀ��q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��}�2SW��+��+�g��A�F��{�A�F��S��S��ET�rI��A��?�*q��A�F��targ/temp/onslew.vet ��!,� ��g��}ޝ2T��+&��+&�g��A�F��A�F��o��o��FˈrJH��A\��坣Pq��A�F��targ/temp/onslew.vet ��!,� ��g��}��2UȪ�+5��+5�g��A�F��A�F��ԋ��ԋ��HB�rJ��A��rq��A�F��H�targ/temp/onslew.vet ��!,� ��g��}%��2V��+D��+D�g��A�F��ۀA�F��֧��֧��I��rJ��A��檣�q��A�F��7�targ/temp/onslew.vet ��!,� ��g��}+r�2X8��+S��+S�g��A�F��A�F��ò��À�K0�rKV��B=��q��A�F��targ/temp/onslew.vet ��!,� ��g��}1N�2Yo��+b��+b�g��A�F��A�F��߲��߀�L��rK��B��A�3q��A�F��ۡ�targ/temp/onslew.vet ��!,� ��g��}7*�2Z��+q��+q�g��A�F��4�A�F��N�rL ��BӀ��w�1q��A�F��7�targ/temp/onslew.vet ��!,� ��g�}=�2[ߪ�+��+��g�A�F��4�A�F��O��rLd��C��/��q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g�}B�2]��+��+��g�A�F�ǆ�ۀA�F�ǀ��3��3��Q�rL��Ci��q��A�F�ϋݘ�targ/temp/onslew.vet ��!,� ��g�"}H��2^O��+��+��g�*A�F��A�F��O��O��R��rM��C��c�]q��A�F��߀targ/temp/onslew.vet ��!,� ��g�1}N��2_��+��+��g�9A�F�ֆ�4�A�F�ր��k��k��S��rMr��C��컨�q��A�F�ދ�H�targ/temp/onslew.vet ��!,� ��g�@}Tv�2`��+��+��g�HA�F��4�A�F��燲�燀�Uq�rM̀��DJ��q��A�F��@�targ/temp/onslew.vet ��!,� ��g�O}ZR�2a��+ˀ��+ˁg�WA�F�円��A�F��飲�飀�V�rN&��D��함�q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g�^}`.�2c/��+ڀ��+ځg�fA�F��ۀA�F��뿲�뿀�X_�rN��D��*q��A�F��targ/temp/onslew.vet ��!,� ��g�m}f �2dh��+��+�g�uA�F��ۀA�F��۲��ۀ�YֈrNڀ��E+��`�Zq��A�F��targ/temp/onslew.vet ��!,� ��g�|}k�2e��+��+��g��A�F��4�A�F��[M�rO4��Ev��թ�q��A�F��@�targ/temp/onslew.vet ��!,� ��g��}q2fت�,��,�g��A�F��A�F��\ĈrO��E��/��q��A�F��targ/temp/onslew.vet ��!,� ��g��}w��2h��,��,�g��A�F��A�F��/��/��^;�rO��F���q��A�F�ـtarg/temp/onslew.vet ��!,� ��g��}}z�2iH��,%��,%�g��A�F��ۀA�F��K��K��_��rPB��FW��Ԫq��A�F��H�targ/temp/onslew.vet ��!,� ��g��}�V�2j��,4��,4�g��A�F��ӀA�F��g��g��a)�rP��F��`�-q��A�F�"ݘ�targ/temp/onslew.sou �� g��}�2�2k��,C��,C�g��A�F�!��4�A�F�!��b��rP��F��M��q��A�F�)��7�targ/temp/onslew.vet ��!,� ��g��}��2l揄,R��,R�g��A�F�)�4�A�F�)��d�rQR��G8��q��A�F�1ݘ�targ/temp/onslew.vet ��!,� ��g��}��2n)��,a��,a�g��A�F�0��ӀA�F�0��e��rQ��G��ݭkq��A�F�8��7�targ/temp/onslew.vet ��!,� ��g��}�Ɲ2o`��,p��,p�g��A�F�8��A�F�8��ٲ�ـ�g�rR��G΀��q��A�F�@쫀targ/temp/onslew.vet ��!,� ��g�}��2p��,��,�g�A�F�?��ۀA�F�?��h|�rR`��H��h�Tq��A�F�G��@�targ/temp/onslew.vet ��!,� ��g�}�~�2qЪ�,��,��g�A�F�G��A�F�G��i�rR��Hd��6��q��A�F�O�u�targ/temp/onslew.vet ��!,� ��g�!}�Z�2s ��,��,��g�)A�F�N��4�A�F�N��.��.��kj�rS��H��:q��A�F�V��targ/temp/onslew.vet ��!,� ��g�0}�6�2t@��,��,��g�8A�F�V�ۀA�F�V�� J�� J��l�rSo��H��q��A�F�^��targ/temp/onslew.vet ��!,� ��g�?}��2uy��,��,��g�GA�F�]��{�A�F�]��f��f��nX�rSɀ��IE��F�q��A�F�e��@�targ/temp/onslew.vet ��!,� ��g�N}��2v��,ʀ��,ʁg�VA�F�e�4�A�F�e�� oψrT#��I��q��A�F�m�H�targ/temp/onslew.vet ��!,� ��g�]}�ʝ2w骍,ـ��,فg�eA�F�l��ӀA�F�l��qF�rT}��Iۀ��q��A�F�t�ߏ�targ/temp/onslew.vet ��!,� ��g�l}ɦ�2y ��,��,�g�tA�F�t�4�A�F�t��r��rT׀��J&��S�vq��A�F�|��targ/temp/onslew.vet ��!,� ��g�{}ς�2zY��,��,��g��A�F�{��{�A�F�{��ֲ�ր�t4�rU1��Jq�� q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��}�^�2{��-��-�g��A�F��A�F��u��rU��J��Xq��A�F��targ/temp/onslew.vet ��!,� ��g��}�:�2|ɪ�-��-�g��A�F��ӀA�F��w"�rU��K�� b��q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��}��2~��-$��-$�g��A�F��ۀA�F��*��*��x��rV?��KR��@q��A�F��H�targ/temp/onslew.vet ��!,� ��g��}��29��-3��-3�g��A�F��4�A�F��F��F��z�rV��K��q��A�F��@�targ/temp/onslew.vet ��!,� ��g��}�Ν2�p��-B��-B�g��A�F��ۀA�F��b��b��{��rV��K��-q��A�F��؀targ/temp/onslew.vet ��!,� ��g��}�2��-Q��-Q�g��A�F��4�A�F�� ~�� ~��|��rWM��L3��3ģq��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��}��2�ઍ-`��-`�g��A�F��A�F��"��"��~u�rW��L~��q��A�F��7�targ/temp/onslew.vet ��!,� ��g��}�b�2��-o��-o�g��A�F��4�A�F��$��$��rX��Lɀ��Ǐq��A�F��targ/temp/onslew.vet ��!,� ��g�~>�2�P��-~��-~�g� A�F��"�A�F��&Ҳ�&Ҁ��c�rX[��M��F��q��A�F��7�targ/temp/onslew.vet ��!,� ��g�~ �2��-��-��g�A�F�Ɔ��A�F�ƀ��((��ڈrX��M_��tq��A�F�΋��targ/temp/onslew.vet ��!,� ��g� ~��2��-��-��g�(A�F��+�A�F��+ ��+ ��Q�rY��M��q��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g�/~ҝ2��-��-��g�7A�F�Ն�4�A�F�Հ��-&��-&��ȈrYi��M��D�Zq��A�F�݋�.�targ/temp/onslew.vet ��!,� ��g�>~��2�1��-��-��g�FA�F��ۀA�F��/B��/B��?�rYÀ��N@��q��A�F��targ/temp/onslew.vet ��!,� ��g�M~!��2�j��-ɀ��-Ɂg�UA�F�䆅ۀA�F��1^��1^��rZ��N��@q��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g�\~'f�2��-؀��-؁g�dA�F��4�A�F��3z��3z��-�rZw��Nր��WѶq��A�F��ـtarg/temp/onslew.vet ��!,� ��g�k~-B�2�ڪ�-��-�g�sA�F��4�A�F��5��5��rZр��O!��!�)q��A�F��H�targ/temp/onslew.vet ��!,� ��g�z~3�2��-��-��g��A�F��+�A�F��7��7��r[+��Ol��"�ԗq��A�F�ߏ�targ/temp/onslew.vet ��!,� ��g��~8��2�J��.��.�g��A�F��A�F��9β�9΀��r[��O��$\�q��A�F� ��targ/temp/onslew.vet ��!,� ��g��~>֝2��.��.�g��A�F� �ۀA�F� ��;겘;�� r[߀��P��&&�~q��A�F��@�targ/temp/onslew.vet ��!,� ��g��~D��2��.#��.#�g��A�F��A�F��>��>��r\9��PM��'��q��A�F��߀targ/temp/onslew.vet ��!,� ��g��~J��2��.2��.2�g��A�F��A�F��@"��@"��r\��P��)��iq��A�F�!ۡ�targ/temp/onslew.vet ��!,� ��g��~Pj�2�*��.A��.A�g��A�F� ��ۀA�F� ��B>��B>��n�r\��P��+*��q��A�F�(��&�targ/temp/onslew.vet ��!,� ��g��~VF�2�a��.P��.P�g��A�F�(�4�A�F�(��DZ��DZ��r]G��Q.��,��Rq��A�F�0�@�targ/temp/onslew.vet ��!,� ��g��~\"�2��._��._�g��A�F�/��ۀA�F�/��Fv��Fv��\�r]��Qy��.��q��A�F�7��targ/temp/onslew.vet ��!,� ��g��~a��2�Ѫ�.n��.n�g��A�F�7��A�F�7��H��H��ӈr]��QĀ��0a�7q��A�F�?ݘ�targ/temp/onslew.vet ��!,� ��g�~gڝ2� ��.}��.}�g� A�F�>��+�A�F�>��J��J��J�r^U��R��2�q��A�F�F��targ/temp/onslew.vet ��!,� ��g�~m��2�A��.��.��g�A�F�F�ۀA�F�F��Lʲ�Lʀ��r^��RZ��3��q��A�F�N�'�targ/temp/onslew.vet ��!,� ��g�~s��2�z��.��.��g�'A�F�M��A�F�M��N沘N��8�r_ ��R��5��q��A�F�U��@�targ/temp/onslew.vet ��!,� ��g�.~yn�2��.��.��g�6A�F�U�+�A�F�U��Q��Q��r_c��R��7=��q��A�F�]�߀targ/temp/onslew.vet ��!,� ��g�=~J�2�몍.��.��g�EA�F�\��ۀA�F�\��S��S��&�r_��S;��9!�sq��A�F�d��targ/temp/onslew.vet ��!,� ��g�L~�&�2�"��.Ȁ��.ȁg�TA�F�d��A�F�d��U:��U:��r`��S��:��q��A�F�lݘ�targ/temp/onslew.vet ��!,� ��g�[~��2�[��.׀��.ׁg�cA�F�k��+�A�F�k��WV��WV��r`q��Sр��<|�]q��A�F�s��H�targ/temp/onslew.vet ��!,� ��g�j~�ޝ2��.��.�g�rA�F�s�4�A�F�s��Yr��Yr��r`ˀ��T��>-��q��A�F�{ߏ�targ/temp/onslew.vet ��!,� ��g�y~��2�˪�.��.��g��A�F�z��4�A�F�z��[��[��ra&��Tg��?��>q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��~��2��/��/�g��A�F��{�A�F��]��]��y�ra��T��A��q��A�F��@�targ/temp/onslew.vet ��!,� ��g��~�r�2�;��/��/�g��A�F��A�F��_ǲ�_ǀ��raڀ��T��CX�q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��~�N�2�r��/"��/"�g��A�F��A�F��a㲘a��g�rb4��UH��E�q��A�F��targ/temp/onslew.vet ��!,� ��g��~�*�2��/1��/1�g��A�F��A�F��c��c��ވrb��U��F��q��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g��~��2�⪍/@��/@�g��A�F��A�F��f��f��U�rb��Uހ��H��dq��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��~��2��/O��/O�g��A�F��{�A�F��h7��h7��̈rcB��V)��J.��q��A�F��targ/temp/onslew.vet ��!,� ��g��~��2�R��/^��/^�g��A�F��ۀA�F��jS��jS��C�rc��Vt��K��Fq��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g��~Ś�2��/m��/m�g��A�F��ۀA�F��lo��lo��rc��V��M��q��A�F��ۡ�targ/temp/onslew.vet ��!,� ��g�~�v�2�ª�/|��/|�g�A�F��ӀA�F��n��n��1�rdP��W ��O^�-q��A�F��H�targ/temp/onslew.vet ��!,� ��g�~�R�2��/��/��g�A�F�ņ��A�F�ŀ��p��p��rd��WU��P��q��A�F�͋��targ/temp/onslew.vet ��!,� ��g�~�.�2�2��/��/��g�&A�F��4�A�F��rò�rÀ��re��W��R��q��A�F��ߏ�targ/temp/onslew.vet ��!,� ��g�-~� �2�k��/��/��g�5A�F�Ԇ�ۀA�F�Ԁ��t߲�t߀��re^��W��T^��q��A�F�܋ݘ�targ/temp/onslew.vet ��!,� ��g�<~��2��/��/��g�DA�F��{�A�F��v��v�� re��X6��V��q��A�F��H�targ/temp/onslew.vet ��!,� ��g�K~�2�۪�/ǀ��/ǁg�SA�F�ㆅۀA�F��y��y��rf��X��W�lq��A�F��7�targ/temp/onslew.vet ��!,� ��g�Z~2��/ր��/ցg�bA�F��ۀA�F��{3��{3��rfl��X̀��Yn�q��A�F��targ/temp/onslew.vet ��!,� ��g�i~�z�2�L��/��/�g�qA�F��4�A�F��}P��}P��r�rfǀ��Y��[Eq��A�F��H�targ/temp/onslew.vet ��!,� ��g�x~�V�2��/��/�g��A�F��ӀA�F��l��l��rg!��Yb��\��q��A�F�ݘ�targ/temp/onslew.vet ��!,� ��g��2�2��0��0�g��A�F��A�F��`�rg{��Y��^�)q��A�F� ��πtarg/temp/onslew.vet ��!,� ��g��2��0��0�g��A�F� �ۀA�F� ��׈rgՀ��Y��`F�q��A�F�ۡ�targ/temp/onslew.vet ��!,� ��g��2�,��0!��0!�g��A�F��{�A�F��N�rh/��ZC��a� q��A�F��targ/temp/onslew.vet ��!,� ��g��Ɲ2�c��00��00�g��A�F��4�A�F��ܲ��܀��ňrh��Z��c��q��A�F� �.�targ/temp/onslew.vet ��!,� ��g��2��0?��0?�g��A�F��4�A�F��<�rh��Zـ��eh�q��A�F�'�ݘ�targ/temp/onslew.vet ��!,� ��g��~�2�Ӫ�0N��0N�g��A�F�'�ۀA�F�'��ǳ�ri>��[$��gdq��A�F�/�@�targ/temp/onslew.vet ��!,� ��g��#Z�2��0]��0]�g��A�F�.��A�F�.��1��1��*�ri��[o��h��q��A�F�6��7�targ/temp/onslew.vet ��!,� ��g��)6�2�C��0l��0l�g��A�F�6�ۀA�F�6��M��M��ʡ�ri��[��jqLq��A�F�>�7�targ/temp/onslew.vet ��!,� ��g��/�2�|��0{��0{�g�A�F�=��A�F�=��i��i��rjL��\��l-�q��A�F�E��@�targ/temp/onslew.vet ��!,� ��g�4�2ĳ��0��0��g�A�F�E�ۀA�F�E��͏�rj��\P��m�,q��A�F�M�H�targ/temp/onslew.vet ��!,� ��g�:ʝ2�쪍0��0��g�%A�F�L��ۀA�F�L��rk��\��o��q��A�F�T��targ/temp/onslew.vet ��!,� ��g�,@��2�#��0��0��g�4A�F�T�4�A�F�T��}�rk[��\��q6q��A�F�\��targ/temp/onslew.vet ��!,� ��g�;F��2�\��0��0��g�CA�F�[��4�A�F�[��ڲ��ڀ��rk��]1��r��q��A�F�c��H�targ/temp/onslew.vet ��!,� ��g�JL^�2ɓ��0ƀ��0Ɓg�RA�F�c�ӀA�F�c��k�rl��]|��t��q��A�F�kݘ�targ/temp/onslew.vet ��!,� ��g�YR:�2�̪�0Հ��0Ձg�aA�F�j��A�F�j��rli��]ǀ��vBfq��A�F�r��targ/temp/onslew.vet ��!,� ��g�hX�2��0��0�g�pA�F�r�ۀA�F�r��.��.��Y�rlÀ��^��w��q��A�F�z�H�targ/temp/onslew.vet ��!,� ��g�w]�2�<��0��0�g�A�F�y��A�F�y��K��K��Јrm��^]��y�Nq��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��cΝ2�s��1��1�g��A�F��ۀA�F��g��g��G�rmx��^��{\�q��A�F��ݘ�targ/temp/onslew.vet ��!,� ��g��i��2ϭ��1��1�g��A�F��ۀA�F��ھ�rmҀ��^��}!.q��A�F��߀targ/temp/onslew.vet ��!,� ��g��o��2�䪍1 ��1 �g��A�F��A�F��5�rn,��_>��~�"�q��A�F��H�targ/temp/onslew.vet ��!,� ��g��ub�2��1/��1/�g��A�F��ӀA�F��ݬ�rn��_��U$q��A�F��H�targ/temp/onslew.vet ��!,� ��g��{>�2�T��1>��1>�g��A�F��ۀA�F��ز��؀��#�rn��_Ԁ��%|q��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 194 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 75 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK132SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BTMMAXWRESET' / TM Maximum Number of Warm Resets Before a Cold TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BTMEVENTCNT' / TM Count of All Events TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BTMSEVERRCNT' / TM Count of Events with Invalid Severity TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BTMSEVER1CNT' / TM Count of Events with Severity = 1 TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMSEVER2CNT' / TM Count of Events with Severity = 2 TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMSEVER3CNT' / TM Count of Events with Severity = 3 TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BTMSEVER4CNT' / TM Count of Events with Severity = 4 TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTMSEVER5CNT' / TM Count of Events with Severity = 5 TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BTMCURRMODE' / TM Current Software Mode TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTMPREVMODE' / TM Previous Software Mode TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BTMSRESETCNT' / TM System Reset Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'undocumented1' / Byte field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM25 = '1D ' / data format of field: 8-byte DOUBLE TTYPE26 = 'BTMPLOGPRVMOD' / TM Log of Previous Mode Change: The Mode We EntTFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BTMPLOGNEWMOD' / TM Log of Previous Mode Change: The Mode We CamTFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BTMPRESETTYPE' / TM Log of Previous Mode Change: The Reset Type TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'undocumented2' / Byte field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BTMPLOGEVENT' / TM Log of Previous Mode Change: Event that CausTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BTMPLOGTIME' / TM Log of Previous Mode Change: The Time It HapTFORM31 = '1D ' / data format of field: 8-byte DOUBLE TTYPE32 = 'BTMSSWARMRST' / TM Count of Task Level Warm Resets TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BTMSSCOLDRST' / TM Count of Task Level Cold Resets TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BTMEXHOOKCNT' / TM Exception Hook Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BTMEXDBLFLTS' / TM Exception Double Fault Count TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BTMNUMALLOCS' / TM Current TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BTMBADALLOCS' / TM TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BTMPERCUSED1' / TM Percent Used in Partition TFORM38 = '1I ' / data format of field: 2-byte INTEGER TTYPE39 = 'BTMPERCUSED2' / TM Percent Used in Partition TFORM39 = '1I ' / data format of field: 2-byte INTEGER TTYPE40 = 'BTMPERCUSED3' / TM Percent Used in Partition TFORM40 = '1I ' / data format of field: 2-byte INTEGER TTYPE41 = 'BTMPERCUSED4' / TM Percent Used in Partition TFORM41 = '1I ' / data format of field: 2-byte INTEGER TTYPE42 = 'BTMPERCUSED5' / TM Percent Used in Partition TFORM42 = '1I ' / data format of field: 2-byte INTEGER TTYPE43 = 'BTMPERCUSED6' / TM Percent Used in Partition TFORM43 = '1I ' / data format of field: 2-byte INTEGER TTYPE44 = 'BTMPERCUSED7' / TM Percent Used in Partition TFORM44 = '1I ' / data format of field: 2-byte INTEGER TTYPE45 = 'BTMPERCUSED8' / TM The number of Memory Blocks In Use in this OTFORM45 = '1I ' / data format of field: 2-byte INTEGER TTYPE46 = 'BTMSYSDBGSTR' / TM System Debug Stream Setting TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BTMSYSDBGLVL' / TM System Debug Level TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL50 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE51 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMUNUSED' / TM spare TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BCISCNETFLAG' / CI Flag indicating whether packet came from S/CTFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCICLCWDWORD' / CI CLCW in raw form (all 4 bytes) TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BCIPKTCNT' / CI Packet Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCIPKTERRCNT' / CI Packet Error Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BCIUPLNKHWST' / CI Uplink Hardware Status TFORM62 = '1J ' / data format of field: 4-byte INTEGER TZERO62 = 2147483648 / offset for unsigned integers TTYPE63 = 'BCISWCBCNT' / CI Software Version of CodeBlock Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BCITAILSEQCNT' / CI Count of CLTU Tail Sequences TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BCISWCBERRS' / CI Software Version of CodeBlock Error Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BXCSEGSTATE' / XC segmentation reconstruction state TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BXCREJECTREASON' / XC command reject reason TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BCIREJREASON' / CI Reason for Rejecting Command Transfer Frame TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BCISIUCMDNUM' / CI Last SIU control command received TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BCIWBASKET1' / CI Buffer holding the most recent Rejected TranTFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'BCIWBASKET2' / CI Buffer holding the most recent Rejected TranTFORM72 = '1J ' / data format of field: 4-byte INTEGER TZERO72 = 2147483648 / offset for unsigned integers TTYPE73 = 'BCIWBASKET3' / CI Buffer holding the most recent Rejected TranTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TTYPE74 = 'BCIWBASKET4' / CI Buffer holding the most recent Rejected TranTFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TTYPE75 = 'BCIWBASKET5' / CI Buffer holding the most recent Rejected TranTFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers EXTNAME = 'hk132x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894066.2914 TSTOP = 713896256.29138 DATE-OBS= '2023-08-16T15:54:21' DATE-END= '2023-08-16T16:30:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2189.99998009205 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 306 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'V8VmW8SlV8SlV8Sl' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3969308341' / data unit checksum updated 2023-08-26T08:43:44 TRDHI5 = 2 / BTMSEVERRCNT Red upper limit = BTM_SEVERRCNT_LITYEHI5 = 1 / BTMSEVERRCNT Yellow upper limit = BTM_SEVERRCNTCOMMENT Column 12 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 13 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 20 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 21 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 22 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 24 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 26 = BTMPLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 27 = BTMPLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 28 = BTMPRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 30 = BTMPLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 46 = BTMSYSDBGSTR - Discrete value COMMENT 0 = CLOSE = no description COMMENT 1 = OPEN = no description COMMENT Column 51 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 58 = BCISCNETFLAG - Discrete value COMMENT 0 = NETWORK = no description COMMENT 1-4294967296 = SPACECRAFT = no description TRDHI61 = 2 / BCIPKTERRCNT Red upper limit = BCI_PKTERR_LIM TYEHI61 = 1 / BCIPKTERRCNT Yellow upper limit = BCI_PKTERR_LICOMMENT Column 68 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress COMMENT Column 69 = BCIREJREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = UPLINK HW RESET = The uplink hardware interface has been reset COMMENT 2 = BAD CB PARITY = The uplink hardware detected a codeblock with paCOMMENT 3 = CDU DROPOUT = The uplink hardware reported a dropout in uplink cCOMMENT 4 = FRM TOO SHORT = The cmd frame length field is too short for a coCOMMENT 5 = FRM SEQ TOO LOW = The recvd seq count was in negative edge of thCOMMENT 6 = FRM SEQ TOO HIGH = The recvd seq count was in positive edge of tCOMMENT 7 = FRM SEQ WAY OFF = The recieved seq count was outside of the slidCOMMENT 8 = CMDS IN LOCKOUT = Cmd rejected because we are in lockout mode COMMENT 9 = BAD FRM VERSION = The cmd frame version number was wrong COMMENT 10 = BAD SPACRAFT ID = The cmd frame spacecraft ID was wrong for thiCOMMENT 11 = BAD FRAME TYPE = The cmd frame type field was wrong COMMENT 12 = BAD VIRTUAL CHNL = The cmd frame virtual channel number was wroCOMMENT 13 = BYPASS CMD NUM = A bypass cmd frame was received with an unknowCOMMENT 14 = BAD SEGMENT ID = The cmd frame segment ID number was wrong COMMENT 15 = SB SEND ERROR = The software bus reported an error on the cmd pCOMMENT 16 = PKT TOO LONG = The cmd pkt length field was too large COMMENT 17 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt dataCOMMENT 18-255 = UNDEFINED = An unknown CI error occurred COMMENT Column 70 = BCISIUCMDNUM - Discrete value COMMENT 90 = ENABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0x5A COMMENT 160 = DISABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0xA0 COMMENT 132 = ENABLE INHIBIT B: Transmitter 28V A = SIU Command 0x84 COMMENT 9 = DISABLE INHIBIT B: Transmitter 28V A = SIU Command 0x09 COMMENT 240 = ENABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xF0 COMMENT 165 = DISABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xA5 COMMENT 101 = ENABLE INHIBIT B: Spare = SIU Command 0x65 COMMENT 204 = DISABLE INHIBIT B: Spare = SIU Command 0xCC COMMENT 0 = ENABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x00 COMMENT 85 = DISABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x55 COMMENT 51 = ENABLE INHIBIT B: Transmitter 28V B = SIU Command 0x33 COMMENT 102 = DISABLE INHIBIT B: Transmitter 28V B = SIU Command 0x66 COMMENT 15 = ENABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x0F COMMENT 5 = DISABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x05 COMMENT 60 = ENABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x3C COMMENT 105 = DISABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x69 COMMENT 195 = ENABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xC3 COMMENT 207 = DISABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xCF COMMENT 63 = ENABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x3F COMMENT 149 = DISABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x95 COMMENT 89 = ENABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0x59 COMMENT 243 = DISABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0xF3 COMMENT 86 = ENABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0x56 COMMENT 252 = DISABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0xFC COMMENT 154 = ENABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x9A COMMENT 48 = DISABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x30 COMMENT 106 = ENABLE INHIBIT A: S/A Deploy #1 = SIU Command 0x6A COMMENT 192 = DISABLE INHIBIT A: S/A Deploy #1 = SIU Command 0xC0 COMMENT 169 = ENABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0xA9 COMMENT 80 = DISABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0x50 COMMENT 166 = ENABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0xA6 COMMENT 12 = DISABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0x0C COMMENT 3 = ENABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x03 COMMENT 10 = DISABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x0A COMMENT 72 = ENABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x48 COMMENT 144 = DISABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x90 COMMENT 255 = ENABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xFF COMMENT 170 = DISABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xAA COMMENT 150 = ENABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x96 COMMENT 153 = DISABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x99 COMMENT 175 = ENABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xAF COMMENT 245 = DISABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xF5 COMMENT 183 = ENABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0xB7 COMMENT 111 = DISABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0x6F HISTORY TASK: FAPPND on FILENAME: sw01185673000b132x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Y%L��_��ɀ�܀��'��qAĒ�*�΅��AĒ��=ŀ��&��JH^J@F%��ˠ��"��p��h@�@��3��R�"""�"""�"""�"""�"""A�F�`�L��_��ɀ�܀��'��qAĒ�*�΅��AĒ��=ŀ��'�JH^J@F%��ˠ��!��p��h@�@�� """�"""�"""�"""�"""A�F�h%L��_��ɀ�܀��'��qAĒ�*�΅��AĒ��=ŀ��&��JH^J@F%��ˠ��/��p��h@�@��"""�"""�"""�"""�"""A�F�p��_��ɀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'�KH^JAF% ��B��[��eP��h@�@��A��y�"""�"""�"""�"""�"""A�F�w%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��''�JH_JCF%�� N��p��h@�@�� 0�"""�"""�"""�"""�"""A�F�~��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'T�JH_JCF=��&��p��Ѐ��`�@��"""�"""�"""�"""�"""A�F��,��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'/�JH_JCF4��N��p��xP�@��O��"""�"""�"""�"""�"""A�F��"��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'K�JH_JCF<��&��ր��p��Ѐ��`�@�� W�"""�"""�"""�"""�"""A�F��%��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'�JH^JCF%��&��p��Ѐ��`�@��"""�"""�"""�"""�"""A�F��O7��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^JAF%��/ ��p��`�@��]��Ǣ"""�"""�"""�"""�"""A�F��%K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��·�� ~�"""�"""�"""�"""�"""A�F��L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��7�"""�"""�"""�"""�"""A�F��%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��x��p��`�@��k��"""�"""�"""�"""�"""A�F��N��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��7��p��`�@��"""�"""�"""�"""�"""A�F��%M@��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��^�"""�"""�"""�"""�"""A�F�ɥl��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��y�� """�"""�"""�"""�"""A�F��%N��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��͢"""�"""�"""�"""�"""A�F�إKI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��_��p��`�@��-��"""�"""�"""�"""�"""A�F��%M@��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'6�JH_J@F=��&��>��p��Ѐ��`�@��Ň�� <�"""�"""�"""�"""�"""A�F�祆��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��"""�"""�"""�"""�"""A�F��%L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JG^J@F%��/ ��ƀ��p��`�@��;��"""�"""�"""�"""�"""A�F��KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��J��p��`�@��ƕ�� c�"""�"""�"""�"""�"""A�F��%O7��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��̀��p��`�@�� """�"""�"""�"""�"""A�F��L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'<�JH_JCF7��&��g��p��Ѐ��`�@��I��Ӣ"""�"""�"""�"""�"""A�F� %KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ �� p��`�@��ǣ�� """�"""�"""�"""�"""A�F��O߀�_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JH^J@F%��p��`�@�� B�"""�"""�"""�"""�"""A�F�%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JG^J@F%��p��`�@��W��"""�"""�"""�"""�"""A�F�#��e��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'3�JH_JCF/��&��p��Ѐ��`�@��ȱ�� """�"""�"""�"""�"""A�F�+)7L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'Q�JH_JCF>��E��p��`�@��j�"""�"""�"""�"""�"""A�F�2�e��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'�JH^JCF+��&��p��Ѐ��`�@��e�� !�"""�"""�"""�"""�"""A�F�:%K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��ɿ��٢"""�"""�"""�"""�"""A�F�A�KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��5��p��`�@��"""�"""�"""�"""�"""A�F�I%��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��s��a�"""�"""�"""�"""�"""A�F�P�K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]JAF%��/ ��p��`�@��"""�"""�"""�"""�"""A�F�X%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��'��Ѣ"""�"""�"""�"""�"""A�F�_��o��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��ހ��p��`�@��ˁ��"""�"""�"""�"""�"""A�F�g%L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��@�"""�"""�"""�"""�"""A�F�n�KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��0��p��`�@��5��"""�"""�"""�"""�"""A�F�v%L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��O��p��`�@��̏��"""�"""�"""�"""�"""A�F�}�L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��}��p��`�@��g�"""�"""�"""�"""�"""A�F��%L��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��C��"""�"""�"""�"""�"""A�F��N��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^JAF%��/ ��p��`�@��͝��֢"""�"""�"""�"""�"""A�F��%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��8��p��`�@��"""�"""�"""�"""�"""A�F��M@��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'$�JH^JCF0��&��p��Ѐ��`�@��Q��F�"""�"""�"""�"""�"""A�F��%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��Ϋ��"""�"""�"""�"""�"""A�F��K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JH^J@F%��ր��p��`�@��"""�"""�"""�"""�"""A�F��%O7��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JG^J@F%��0��p��`�@��_��m�"""�"""�"""�"""�"""A�F��8ŀ�_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'(�JH_JCF,��&��p��Ѐ��`�@��Ϲ��%�"""�"""�"""�"""�"""A�F��%Uŀ�_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��&��p��Ѐ��`�@��ݢ"""�"""�"""�"""�"""A�F�ȥKI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��'*�JH_JFF+��&��p��Ѐ��`�@��m��"""�"""�"""�"""�"""A�F��%KI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��L�"""�"""�"""�"""�"""A�F�ץKI��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��!��"""�"""�"""�"""�"""A�F��%K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��{��"""�"""�"""�"""�"""A�F��K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��p��`�@��s�"""�"""�"""�"""�"""A�F��%K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��/��+�"""�"""�"""�"""�"""A�F��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��J��p��`�@��҉��"""�"""�"""�"""�"""A�F��%O߀�_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG^J@F%��/ ��ˀ��p��`�@��"""�"""�"""�"""�"""A�F��M@��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]JAF%��/ ��p��`�@��=��R�"""�"""�"""�"""�"""A�F�%K��_��ʀ�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%��/ ��p��`�@��ӗ�� """�"""�"""�"""�"""A�F�� _��̀�݀��'��qAĒ�*�΅��AĒ��=ŀ��&�JG]J@F%�� p��`�@��"""�"""�"""�"""�"""A�F�%�X��_��̀�݀��'��qAĒ�*�΅��AĒ��=ŀ��&��JG^J@F%��2��p��`�@��K��y�"""�"""�"""�"""�"""A�F�"�kπ�_��Ѐ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JEF:��#`��&��P�w��h@�@��Ԧ�� 4�"""�"""�"""�"""�"""A�F�*%M@��_��Ѐ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'9�KH^JAF& ��M@��P��h@�@��"""�"""�"""�"""�"""A�F�1�K��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'S�KH^JDF& ��p��`�@��Z��"""�"""�"""�"""�"""A�F�9%M@��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'m�KH_JAF6 ��v`��ʀ��p��xP�@��մ��\�"""�"""�"""�"""�"""A�F�@�K��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'<�KH^JBG& ��v0��D��p��h@�@��"""�"""�"""�"""�"""A�F�H+ײ��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'z�KH_JCF9 ��p��h@�@��h��͢"""�"""�"""�"""�"""A�F�O�Q/��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'S�KH_JDF+ ��p��h@�@��"""�"""�"""�"""�"""A�F�W%KI��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'S�KH_JCF, ��t��p�x��h@�@��=�"""�"""�"""�"""�"""A�F�^��-��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'Z�KH_JDF+��| ��p�h��X0�@��v��"""�"""�"""�"""�"""A�F�f-�d��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'t�KH_JCG4��| ��m��p�h��X0�@��"""�"""�"""�"""�"""A�F�m��X��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'T�KH^JDF, ��p�x��h@�@��*��d�"""�"""�"""�"""�"""A�F�u+?��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JCF6��| ��.��p�h��X0�@��؄�� """�"""�"""�"""�"""A�F�|�L��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JGG5��| ��*��p�h��X0�@��Ӣ"""�"""�"""�"""�"""A�F��,ڀ�_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'|�KH_JCF5 ��p�x��h@�@��8��"""�"""�"""�"""�"""A�F��L��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'d�KH_JDF. ��p�x��h@�@��ْ�� B�"""�"""�"""�"""�"""A�F��(�V��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JCF? ��#��p�x��h@�@��"""�"""�"""�"""�"""A�F��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'_�KH^JDF,��| �� p�h��X0�@��F��"""�"""�"""�"""�"""A�F��,��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'n�KH_JCF4 ��p�x��h@�@��ڠ�� i�"""�"""�"""�"""�"""A�F��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'W�KH^JDF+ ��p��h@�@�� !�"""�"""�"""�"""�"""A�F��%KI��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��']�KH^JAF3 ��A��p��h@�@��T��٢"""�"""�"""�"""�"""A�F��܀�_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JGG3��p�x��h@�@��ۮ��"""�"""�"""�"""�"""A�F��)f{��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JCF9 ��L��p��h@�@��I�"""�"""�"""�"""�"""A�F�ǧ�N��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JDF: ��p�x��h@�@��b�� """�"""�"""�"""�"""A�F��%K��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'{�KH_JCF4 ��@��π��p�h��X0�@��ܼ��"""�"""�"""�"""�"""A�F�֥M@��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'|�KH_JDG. ��'��p�x��X0�@��p�"""�"""�"""�"""�"""A�F��%L��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'`�KH_JCF, ��c��p��xP�@��p�� '�"""�"""�"""�"""�"""A�F��C��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JDF>��`��ـ��p��h@�@��ߢ"""�"""�"""�"""�"""A�F��%L��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'S�KH^JCF& ��J��p�x��h@�@��$��"""�"""�"""�"""�"""A�F��M@��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JGG5 ��p�x��h@�@��~�� N�"""�"""�"""�"""�"""A�F��%K��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JCF3 �� p��xP�@�� """�"""�"""�"""�"""A�F��/Z��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JDF> �� p��xP�@��2��"""�"""�"""�"""�"""A�F�,�S��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KH_JCF/��`��p��xP�@��ߌ�� u�"""�"""�"""�"""�"""A�F��L��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'s�KH_JDF, ��!��p�x��h@�@�� -�"""�"""�"""�"""�"""A�F�%K��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'v�KH_JCF. ��p�x��h@�@��@��"""�"""�"""�"""�"""A�F�!�zx��_��р�߀��'��qAĒ�*�΅��AĒ��=ŀ��'|�KH_JDF/ �� p��`�@�� """�"""�"""�"""�"""A�F�)%M��_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'t�KH^JAF0��`��p��xP�@�� T�"""�"""�"""�"""�"""A�F�0�Pƀ�_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGF7 ��"��p�x��h@�@��N�� """�"""�"""�"""�"""A�F�8%K��_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'�KI_KCF) ��]��p�x��h@�@�� â"""�"""�"""�"""�"""A�F�?�3��_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'u�KI^JDF( ��e��p�x��h@�@��|�"""�"""�"""�"""�"""A�F�G+=��_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF7 �� p��`�@��\�� 3�"""�"""�"""�"""�"""A�F�N��Ԁ�_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'}�KH_JDF,��`��p��xP�@��"""�"""�"""�"""�"""A�F�V%O߀�_��Ҁ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JAF3��`��L��p��xP�@��"""�"""�"""�"""�"""A�F�]�;%��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI`JDG@��p��xP�@��j�� Z�"""�"""�"""�"""�"""A�F�e%M��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'}�KI_JCG& ��p��d��p�x��h@�@�� """�"""�"""�"""�"""A�F�l�ᜀ�_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGG* ��p��V��p�x��h@�@��ʢ"""�"""�"""�"""�"""A�F�t%M@��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCG( ��(��p��`�@��x�� """�"""�"""�"""�"""A�F�{�L��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_KDG7��؀��p��h@�@�� ;�"""�"""�"""�"""�"""A�F��&�l��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF,��?��p��xP�@��,��"""�"""�"""�"""�"""A�F��K��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF* ��׀��p��`�@�� """�"""�"""�"""�"""A�F��%O7��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF, ��p��p�x��h@�@�� b�"""�"""�"""�"""�"""A�F��K��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF0 ��p��T��p�x��h@�@��:�� """�"""�"""�"""�"""A�F��+��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'ǀKI`JCF9 ��p��5��p�x��h@�@�� Ѣ"""�"""�"""�"""�"""A�F��c ��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGG. ��Y��p��`�@�� """�"""�"""�"""�"""A�F��'M��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF=��p��xP�@��H�� A�"""�"""�"""�"""�"""A�F��M@��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'~�KI^JDF+��p��xP�@�� """�"""�"""�"""�"""A�F��%��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'{�KI^JCF, ��>��p��`�@��"""�"""�"""�"""�"""A�F�ƪs.��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF= ��p��`�@��V��i�"""�"""�"""�"""�"""A�F��&��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF< ��\��p��`�@��!�"""�"""�"""�"""�"""A�F�լ(N��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_KDF4��p��xP�@�� ٢"""�"""�"""�"""�"""A�F��+8q��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF:��p��xP�@��d��"""�"""�"""�"""�"""A�F��K��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGF, ��ۀ��p��`�@��H�"""�"""�"""�"""�"""A�F��+��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF4 ��p��p�x��h@�@��"""�"""�"""�"""�"""A�F��d��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'KI_JDF= ��p��'��p�x��h@�@��r��"""�"""�"""�"""�"""A�F��%P��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF4 ��p��g��p�x��h@�@��q�"""�"""�"""�"""�"""A�F��e��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDG> �� p��`�@��&��)�"""�"""�"""�"""�"""A�F� &�)��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JCF,��p��xP�@��"""�"""�"""�"""�"""A�F��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JDF- ��p��`�@��"""�"""�"""�"""�"""A�F�%L��_��Հ�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JBF*��F��p��xP�@��4��P�"""�"""�"""�"""�"""A�F� �K��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_KGG- ��Ѐ�c��p��`�@�� """�"""�"""�"""�"""A�F�(+bc��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF: ��Ѐ��p��`�@��"""�"""�"""�"""�"""A�F�/�׀�_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF* ��Ѐ��p��`�@��B��y�"""�"""�"""�"""�"""A�F�7%O7��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF? ��p��I��p��Ѐ��`�@�� 0�"""�"""�"""�"""�"""A�F�>�KI��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF2 ��p��h��p��Ѐ��`�@��"""�"""�"""�"""�"""A�F�F%O7��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JCF, ��p��p��Ѐ��`�@��P��"""�"""�"""�"""�"""A�F�M��2��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_KDF7 ��p��#��p��Ѐ��`�@��X�"""�"""�"""�"""�"""A�F�U%M@��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'v�KI^JCF& ��p��a��p��Ѐ��`�@��"""�"""�"""�"""�"""A�F�\�k��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGF3 ��p��p��Ѐ��`�@��^��ɢ"""�"""�"""�"""�"""A�F�d,��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF5 ��0��Y��p��xP�@��"""�"""�"""�"""�"""A�F�k��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'ŀKI_JDF: ��0��p��xP�@��9�"""�"""�"""�"""�"""A�F�s*�N��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'ȀKI_JCF: ��0��p��xP�@��l��"""�"""�"""�"""�"""A�F�z��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JDF0 ��p��p��Ѐ��`�@��"""�"""�"""�"""�"""A�F��%L��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JCF, ��p��p��Ѐ��`�@�� b�"""�"""�"""�"""�"""A�F��c��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'ɀKI_JDF< ��Ѐ�>��p��`�@��z�� """�"""�"""�"""�"""A�F��'��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JCF@ ��p��F��p��Ѐ��`�@��Ѣ"""�"""�"""�"""�"""A�F��ZĀ�_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI_JGF2 ��p��΀��p��Ѐ��`�@��.��"""�"""�"""�"""�"""A�F��%K��_��ր�߀��'��qAĒ�*�΅��AĒ��=ŀ��'��KI^JCF+ ��p��i��p��Ѐ��`�@�� B�"""�"""�"""�"""�"""XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 103 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK133SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BPWRESPVERIFY' / PW count of Cmd Responses that Verified SuccessTFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BPWRESPFAILED' / PW count of Cmd Responses that Failed VerificatTFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BPWRESPTIMEOUT' / PW count of Cmd Responses that TimedOut TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BPWHKCMDSENT' / PW count of HK Cmds sent to PCB TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BPWDIAGCMDSENT' / PW count of Diag Cmds sent to PCB TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BPWOTHERCMDSENT' / PW count of anything other than HK or Diag CmdsTFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BPWHKRESPRCVD' / PW count of HK packet Responses Received TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BPWDIAGRESPRCVD' / PW count of Diagnostic Packet Responses ReceiveTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BPWSTATRESPRCVD' / PW count of Status packet Responses Received TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BPWSTATPKTTOGND' / PW Flag as to whether Status Pkt comes to the GTFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BPWEVENTSDISPLD' / PW Flag as to whether Timeout Events get displaTFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BPWLASTCMD0' / PW byte TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BPWLASTCMD1' / PW byte TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BPWLASTCMD2' / PW byte TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BPWLASTCMD3' / PW byte TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BPWLASTCMD4' / PW byte TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BPWLASTCMD5' / PW byte TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BPWACTCHAN' / PW the currently Active UART Channel TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BPWPASSCHAN' / PW the currently Passive UART Channel TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BPWISRCNTRCVA' / PW count of ISR Firing caused by Channel A RcvsTFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BPWISRCNTXMTA' / PW count of ISR Firing caused by Channel A XmtsTFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BPWISRCNTRCVB' / PW count of ISR Firing caused by Channel B RcvsTFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BPWISRCNTXMTB' / PW count of ISR Firing caused by Channel B XmtsTFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BPWISRCNTPARA' / PW count of ISR Firing caused by Channel A PariTFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BPWISRCNTPARB' / PW count of ISR Firing caused by Channel B PariTFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BPWISRCNTOVRA' / PW count of ISR Firing caused by Channel A OverTFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BPWISRCNTOVRB' / PW count of ISR Firing caused by Channel B OverTFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BPWISRCNTUNDA' / PW count of ISR Firing caused by Channel A UndeTFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BPWISRCNTUNDB' / PW count of ISR Firing caused by Channel B UndeTFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'undocumented1' / Byte field not in ITOS database TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'undocumented2' / Byte field not in ITOS database TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'FOMEVTCNT' / Fom Error Event Count TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'FOUPDASSESSNEED' / Fom Target Update Assessment Needed Flag TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'FOMSLEWINQSTAT' / Fom Slew Inquiry Status Flag TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'FOMSLEWREQSTAT' / Fom Slew Request Status Flag TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'FOMSLEWMODESTAT' / Fom Slew Mode Enable Status TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'FOMATMODESTAT' / Fom AT Mode Enable Status TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'FOMPPTMODESTAT' / Fom PPT Mode Enable Status TFORM40 = '1B ' / data format of field: BYTE TTYPE41 = 'FOMOTTYPE' / Current Observed Target Target Type TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'FOMOTOBSNUM' / Current Observed Target Observation Num TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'FOMOTMERIT' / Current Observed Target Merit TFORM43 = '1E ' / data format of field: 4-byte REAL TTYPE44 = 'FOMOTOBSSECS' / Current Observed Target Secs Until View ConstraTFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TUNIT44 = 's ' / physical unit of field TTYPE45 = 'FOMOTPASTOBSS' / Current Observed Target Past Observed Secs TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TUNIT45 = 's ' / physical unit of field TTYPE46 = 'FOMOTLASTOBST' / Current Observed Target Last Obs Time (in TIME4TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TSCAL46 = 1 / data are not scaled TUNIT46 = 's ' / physical unit of field TTYPE47 = 'FOMLASTSIOBSNUM' / Last Slew Info Obs Num TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'FOMLASTSROBSNUM' / Last Slew Request Obs Num TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'FOLASTSIROBSNUM' / Last Slew Info Reply Obs Num TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'FOLASTSRROBSNUM' / Last Slew Request Reply Obs Num TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'FOMPPTOBSNUM' / Current Fom PPT Observation Num TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'FOMPPTMERIT' / Current Fom PPT Merit TFORM52 = '1E ' / data format of field: 4-byte REAL TTYPE53 = 'FOMPPTWAITSECS' / Current Fom PPT Secs Until in View TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TUNIT53 = 's ' / physical unit of field TTYPE54 = 'FOMPPTOBSSECS' / Current Fom PPT Secs Until View Constraint TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TUNIT54 = 's ' / physical unit of field TTYPE55 = 'FOMATOBSNUM' / Current Fom AT Observation Num TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'FOMATMERIT' / Current Fom AT Merit TFORM56 = '1E ' / data format of field: 4-byte REAL TTYPE57 = 'FOMATWAITSECS' / Current Fom AT Secs Until in View TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TUNIT57 = 's ' / physical unit of field TTYPE58 = 'FOMATOBSSECS' / Current Fom AT Secs Until View Constraint TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TUNIT58 = 's ' / physical unit of field TTYPE59 = 'FOMACSOBSNUM' / ACS Info Observation Num TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'FOMAISLEWSTATE' / ACS Info Slew State TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'FOMACSINSAA' / ACS Info In SAA Flag TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'FOMLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'FOMLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'FOMPPTREQCNT' / FOM PPT Request Count TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'FOMATUPDCNT' / FOM AT Update Count TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'FOMGRBREQCNT' / GRB Request Count TFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'FOMTOOREQCNT' / TOO Request Count TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'FOMCTUPDCNT' / Fom Observed Target UpdateCount TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'FOMSLEWREQCNT' / Fom Slew Request Sent Count TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'FOMSLEWINQCNT' / Fom Slew Inquiry Sent Count TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'FOMSLWREPLYCNT' / Fom Slew Reply Received Count TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'FOSLWINQREPCNT' / Fom Slew Info Reply Received Count TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'FOATTARGSTATUS' / Fom AT Target Availability 0None 1Unk 2OutOfVieTFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'FOPPTTARGSTATUS' / Fom PPT Target Availability 0None 1Unk 2OutOfViTFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'undocumented3' / Byte field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BSTDSPREC' / ST Math Coprocessor Computed Test Expected ValuTFORM76 = '1E ' / data format of field: 4-byte REAL TTYPE77 = 'BSTDSPEXP' / ST Math Coprocessor Computed Test Expected ValuTFORM77 = '1E ' / data format of field: 4-byte REAL TTYPE78 = 'BSTFPSTATUS' / ST Floating Point Control Word Test Received VaTFORM78 = '1J ' / data format of field: 4-byte INTEGER TZERO78 = 2147483648 / offset for unsigned integers TTYPE79 = 'BSTBCRTSTATUS' / ST 1553 Chip Status TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BSTMEMERRCNT' / ST Count of Memory Test Cmds that Failed due toTFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'BSTFPHWERRCNT' / ST floating point hardware failure count TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BSTCOMPERRCNT' / ST floating point Arithmetic Computations failuTFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BSTONEERRCNT' / ST EDAC One-Error Test Failure Count TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BSTMULTERRCNT' / ST EDAC Multi-Error Test Failure Count TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BSTNOERRCNT' / ST EDAC No-Error Test Failure Count TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BSTDMAERRCNT' / ST Test Error Count due to DMA Failures TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BSTDMADEVICE' / ST Test channel TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BSTBCRTB' / ST 1553 Built-In-Test Test Results for Channel TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'BSTBCRTA' / ST 1553 Built-In-Test Test Results for Channel TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BSTFPTEST' / ST Floating Point Test Result TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BSTEDACTEST' / ST EDAC Test Result TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BSTDMATEST' / ST DMA Test Result TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'BSTMEMTEST' / ST Memeory Test Result TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BSTDSPTEST' / ST DSP Test Result TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BSTSUMERRCNT' / ST Test Error Count due to DMA Failures TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BSTDSPERRCNT' / ST Test Error Count due to DMA Failures TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'undocumented4' / Byte field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BDMPACKETS' / data packets copied to circular buffer TFORM98 = '1J ' / data format of field: 4-byte INTEGER TZERO98 = 2147483648 / offset for unsigned integers TTYPE99 = 'BDMDWORDS' / dwords copied to circular buffer TFORM99 = '1J ' / data format of field: 4-byte INTEGER TZERO99 = 2147483648 / offset for unsigned integers TTYPE100= 'BDMSOCKET' / input data network socket handle TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 32768 / offset for unsigned integers TTYPE101= 'BDMEMPTY' / count of empty reads with short task delay TFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 32768 / offset for unsigned integers TTYPE102= 'BDMDELAY' / tick count for task delay TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 32768 / offset for unsigned integers TTYPE103= 'BDMSTATE' / state machine index TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers EXTNAME = 'hk133x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894066.29222 TSTOP = 713896256.2922 DATE-OBS= '2023-08-16T15:54:21' DATE-END= '2023-08-16T16:30:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2189.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 307 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'QG6TTE5RQE5RQE5R' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2902370482' / data unit checksum updated 2023-08-26T08:43:44 TRDHI4 = 2 / BPWRESPFAILED Red upper limit = BPW_RESPFAIL_LITYEHI4 = 1 / BPWRESPFAILED Yellow upper limit = BPW_RESPFAILTRDHI5 = 2 / BPWRESPTIMEOUT Red upper limit = BPW_RESPTOUT_LTYEHI5 = 1 / BPWRESPTIMEOUT Yellow upper limit = BPW_RESPTOUCOMMENT Column 12 = BPWSTATPKTTOGND - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 13 = BPWEVENTSDISPLD - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 20 = BPWACTCHAN - Discrete value COMMENT 0 = A = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT 1 = B = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT 2 = X = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT Column 21 = BPWPASSCHAN - Discrete value COMMENT 0 = A = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT 1 = B = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT 2 = X = PW Channel Conversion 0="A", 1="B", 2="X Doesn't Exist COMMENT Column 35 = FOUPDASSESSNEED - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 36 = FOMSLEWINQSTAT - Discrete value COMMENT 0 = NEEDASSESS = Slew Inquiry Assessment Needed COMMENT 1 = SENT = Slew Inquiry Sent - awaiting Reply COMMENT 2 = SIACQ = Slew Inquiry ACQ COMMENT 3 = SINACQ = Slew Inquiry NACQ COMMENT 4 = BADSI = Reply indicates Bad Slew Inquiry COMMENT 5 = BADREPLY = Bad Slew Inquiry Received COMMENT 6 = INQTIMEOUT = Slew Inquiry Time out with no Reply COMMENT 7 = NONE = No Slew Inquiry Needed COMMENT 8 = SLEWDISA = Fom Slew Mode Disabled COMMENT 9 = ERROR = Error COMMENT 10 = BADSITARG = Slew Info Reply is for wrong ObsNum COMMENT 11 = UNREQUESTEDREPLY = Slew Info Reply Received without Request COMMENT Column 37 = FOMSLEWREQSTAT - Discrete value COMMENT 0 = NEEDASSESS = Slew Request Assessment Needed COMMENT 1 = SENT = Slew Request Sent - awaiting Reply COMMENT 2 = ACQ = Slew Reply ACQ rcvd - awaiting slew COMMENT 3 = NACQ = Slew Reply NACQ received COMMENT 4 = BADSR = Reply indicates Bad Slew Request COMMENT 5 = BADREPLY = Bad Slew Request Received COMMENT 6 = REQTIMEOUT = Slew Request Time out with no Reply COMMENT 7 = SLEWTIMEOUT = Slew Start Time out after Reply ACQ COMMENT 8 = NEWOT = Requested Target Is New Obs Target COMMENT 9 = SLEWERROR = Slewing to wrong target COMMENT 10 = NONE = No Slew Request Needed COMMENT 11 = SLEWDISA = Fom Slew Mode Disabled COMMENT 12 = ERROR = Error COMMENT 13 = SLEWABORT = No Slew - Aborted COMMENT 14 = BADSRTARG = Slew Reply is for wrong ObsNum COMMENT 15 = SLEWING = ACS is slewing COMMENT 16 = UNREQUESTEDREPLY = Slew Reply Received without Request COMMENT 17 = SETTLETIMEOUT = SC Still Slewing after excessive wait COMMENT Column 38 = FOMSLEWMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 39 = FOMATMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 40 = FOMPPTMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 41 = FOMOTTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 60 = FOMAISLEWSTATE - Discrete value COMMENT 0 = ERROR = ACS Info Slew State Error COMMENT 1 = SLEWING = ACS Info Slewing and not within 10 ArcMin of Target COMMENT 2 = IN10ARCMIN = ACS Info Slewing and within 10 ArcMin of Target COMMENT 3 = SETTLED = ACS Info Settled on Target COMMENT 4 = SAFEMODE = ACS Info SC Safemode COMMENT 5 = InSAA = ACS Info In SAA COMMENT 6 = OutOfSAA = ACS Info Outside SAA COMMENT Column 61 = FOMACSINSAA - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 73 = FOATTARGSTATUS - Discrete value COMMENT 0 = NONE = No Target Exists COMMENT 1 = UNK = Target InView Status Unknown COMMENT 2 = OUTOFVIEW = Target is Currently OutOfView COMMENT 3 = INVIEW = Target is Currently InView COMMENT Column 74 = FOPPTTARGSTATUS - Discrete value COMMENT 0 = NONE = No Target Exists COMMENT 1 = UNK = Target InView Status Unknown COMMENT 2 = OUTOFVIEW = Target is Currently OutOfView COMMENT 3 = INVIEW = Target is Currently InView TRDHI80 = 2 / BSTMEMERRCNT Red upper limit = BST_MEMERRCNT_LITYEHI80 = 1 / BSTMEMERRCNT Yellow upper limit = BST_MEMERRCNTTRDHI81 = 2 / BSTFPHWERRCNT Red upper limit = BST_FPHWERRCNT_TYEHI81 = 1 / BSTFPHWERRCNT Yellow upper limit = BST_FPHWERRCTRDHI82 = 2 / BSTCOMPERRCNT Red upper limit = BST_COMPERRCNT_TYEHI82 = 1 / BSTCOMPERRCNT Yellow upper limit = BST_COMPERRCTRDHI83 = 2 / BSTONEERRCNT Red upper limit = BST_ONEERRCNT_LITYEHI83 = 1 / BSTONEERRCNT Yellow upper limit = BST_ONEERRCNTTRDHI84 = 2 / BSTMULTERRCNT Red upper limit = BST_MULTERRCNT_TYEHI84 = 1 / BSTMULTERRCNT Yellow upper limit = BST_MULTERRCTRDHI85 = 2 / BSTNOERRCNT Red upper limit = BST_NOERRCNT_LIM TYEHI85 = 1 / BSTNOERRCNT Yellow upper limit = BST_NOERRCNT_LTRDHI86 = 2 / BSTDMAERRCNT Red upper limit = BST_DMAERRCNT_LITYEHI86 = 1 / BSTDMAERRCNT Yellow upper limit = BST_DMAERRCNTCOMMENT Column 88 = BSTBCRTB - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 89 = BSTBCRTA - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 90 = BSTFPTEST - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 91 = BSTEDACTEST - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 92 = BSTDMATEST - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 93 = BSTMEMTEST - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete COMMENT Column 94 = BSTDSPTEST - Discrete value COMMENT 0 = FAILED = ST subsystem Test failed COMMENT 1 = PASSED = ST subsystem Test passed COMMENT 2 = DEFAULT = ST subsystem no test was called COMMENT 3 = INCOMPLT = ST subsystem test was incomplete TRDHI95 = 2 / BSTSUMERRCNT Red upper limit = BST_SUMERRCNT_LITYEHI95 = 1 / BSTSUMERRCNT Yellow upper limit = BST_SUMERRCNTTRDHI96 = 2 / BSTDSPERRCNT Red upper limit = BST_DSPERRCNT_LITYEHI96 = 1 / BSTDSPERRCNT Yellow upper limit = BST_DSPERRCNTHISTORY TASK: FAPPND on FILENAME: sw01185673000b133x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Y%gw�m��m��m��pp��9�>�B�� ڀ(��Щ��>��>�>�B�� ـ��>��DDD�DDD�D�D�D�DA�F�`�h�m��m��m��pp��!�9�>�B�� ڀ(��Щ��>��>�>�B�� ـ��>��DDD�DDD�D�D�D�DA�F�h%gw�m��m��m��pp��Z�9�>�B�� ڀ(��Щ��>��>�>�B�� ـ��>��DDD�DDD�D�D�D�DA�F�pp�m��m��m��pp��&�&��9�>�B�� ڀ(��Щ��>��>�>�B�� ـ��>��DDD�DDD�D�D�D�DA�F�w%e��m��m��m��pp�8�8��9�>�B�� ڀ(��Щ��>��>�>�B�� ـ��>��DDD�DDD�D�D�D�DA�F�~��΀m��m��m��pp �J�J��9�>�B�� Ѐ2��(��>��>�>�B�� π��>��DDD�DDD�D�D�D�DA�F��,�%�m��m��m��pp�\�\�>�9�>�B�� A��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��O"�m��m��m��pp�n�n�w�9�>�B�� P��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��%��m��m��m��pp��9�>�B�� _��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��j�mÀ�m��m��pp%v��9�>�B�� n��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��%fπmƀ�m�m��pp,l��"�9�>�B�� }��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��hǀmɀ�mŀ�mŀ��pp3b��[�9�>�B�� v��(��>��>�>�B�� u��>��DDD�DDD�D�D�D�DA�F��%e��m̀�mȀ�mȀ��pp:XȀ��9�>�B�� g��(��>��>�>�B�� f��>��DDD�DDD�D�D�D�DA�F��j�mπ�mˀ�mˀ��ppANڀ��9�>�B�� X��(��>��>�>�B�� W��>��DDD�DDD�D�D�D�DA�F��%hǀmҀ�m΀�m΀��ppHD��9�>�B�� I��(��>��>�>�B�� H��>��DDD�DDD�D�D�D�DA�F�ɥ�<�mՀ�mр�mр��ppO:��A�9�>�B�� :�Ȫ�(��>��>�>�B�� 9��>��DDD�DDD�D�D�D�DA�F��%in�m؀�mԀ�mԀ��ppV0��|�9�>�B�� +�ת�(��>��>�>�B�� *��>��DDD�DDD�D�D�D�DA�F�إfπmۀ�m׀�m׀��pp]&"�"��9�>�B�� 檍(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F��%h�mހ�mڀ�mڀ��ppd4�4��9�>�B�� (��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F�祡ˀm��m݀�m݀��ppkF�F�'�9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%h�m��m��m��pprX�X�`�9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��fπm��m��m��ppx�j�j��9�>�B��"��(��>��>�>�B��߀��>��DDD�DDD�D�D�D�DA�F��%j��m��m��m��pp�|�|��9�>�B��р1��(��>��>�>�B��Ѐ��>��DDD�DDD�D�D�D�DA�F��gw�m��m��m��pp�� 9�>�B��@��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F� %f'�m��m��m��pp��C�9�>�B��O��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��j��m��m��m��pp��|�9�>�B��^��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�%fπm��m��m��pp��Ā��9�>�B��m��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�#��m��m��m��pp��ր��9�>�B��|��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�+)RҀm��m��m��pp��'�9�>�B��w��(��>��>�>�B��v��>��DDD�DDD�D�D�D�DA�F�2��^�m��m��m��pp��`�9�>�B��h��(��>��>�>�B��g��>��DDD�DDD�D�D�D�DA�F�:%gw�n��m��m��pp��9�>�B��Y��(��>��>�>�B��X��>��DDD�DDD�D�D�D�DA�F�A�f'�n��n��n��pp��9�>�B��J��(��>��>�>�B��I��>��DDD�DDD�D�D�D�DA�F�I%�7�n��n��n��ppŐ0�0��9�>�B��;�Ǫ�(��>��>�>�B��:��>��DDD�DDD�D�D�D�DA�F�P�h�n��n��n��pp̆B�B�J�9�>�B��,�֪�(��>��>�>�B��+��>��DDD�DDD�D�D�D�DA�F�X%fπn��n ��n ��pp�|T�T��9�>�B��媍(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�_��M�n��n ��n ��pp�rf�f��9�>�B��(��>��>�>�B�� >��DDD�DDD�D�D�D�DA�F�g%h�n��n��n��pp�hx�x��9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�n�f'�n��n��n��pp�^��/�9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�v%�a�n��n��n��pp�T��h�9�>�B��!��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�}�gw�n��n��n��pp�J��9�>�B��Ҁ0��(��>��>�>�B��р��>��DDD�DDD�D�D�D�DA�F��%gw�n ��n��n��pp�@��9�>�B��À?��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��j�n#��n��n��pp6Ҁ��9�>�B��N��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%f'�n&��n"��n"��pp,��L�9�>�B��]��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��hǀn)��n%��n%��pp"��9�>�B��l��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%h�n,��n(��n(��pp��9�>�B��{��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��gw�n/��n+��n+��pp ��9�>�B��x��(��>��>�>�B��w��>��DDD�DDD�D�D�D�DA�F��%j�n2��n.��n.��pp',�,�2�9�>�B��i��(��>��>�>�B��h��>��DDD�DDD�D�D�D�DA�F��TL�n5��n1��n1��pp-�>�>�j�9�>�B��Z��(��>��>�>�B��Y��>��DDD�DDD�D�D�D�DA�F��%qL�n8��n4��n4��pp4�P�P��9�>�B��K��(��>��>�>�B��J��>��DDD�DDD�D�D�D�DA�F�ȥfπn;��n7��n7��pp;�b�b��9�>�B��<�ƪ�(��>��>�>�B��;��>��DDD�DDD�D�D�D�DA�F��%Ց�n>��n:��n:��ppB�t�t��9�>�B��-�ժ�(��>��>�>�B��,��>��DDD�DDD�D�D�D�DA�F�ץfπnA��n=��n=��ppI��N�9�>�B��䪍(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%fπnD��n@��n@��ppP��9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��in�nG��nC��nC��ppW��9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%gw�nJ��nF��nF��pp^��9�>�B��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��3�nM��nI��nI��ppe�΀��2�9�>�B�� (��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��%kf�nP��nL��nL��ppl��k�9�>�B��Ӏ/��(��>��>�>�B��Ҁ��>��DDD�DDD�D�D�D�DA�F��h�nS��nO��nO��pps��9�>�B��Ā>��(��>��>�>�B��À��>��DDD�DDD�D�D�D�DA�F�%fπnV��nR��nR��ppz��9�>�B��M��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F��;�nY��nU��nU��pp��9�>�B��\��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�%ć�n\��nX��nX��pp�x(�(�T�9�>�B��k��(��>��>�>�B��>��DDD�DDD�D�D�D�DA�F�"��n_��n[��n[��pp�n:�:��9��B��z��,?��>�B��B��y��DDD�DDD�D�D�D�DA�F�*%h�nb��n^��n^��pp�dL�L��9��B��z��,?��>�B��x��B��y��DDD�DDD�D�D�D�DA�F�1�j�ne��na��na��pp�Z^�^��9��B��z��,?��>�B��i��B��y��DDD�DDD�D�D�D�DA�F�9%h�nh��nd��nd��pp�Pp�p�:�9��B��z��,?��>�B��Z��B��y��DDD�DDD�D�D�D�DA�F�@�fπnk��ng��ng��pp�F��s�9��B��z��,?��>�B��K��B��y��DDD�DDD�D�D�D�DA�F�H+�nn��nj��nj��pp�<��9��B��p� ��,��>�B��<��B��o��DDD�DDD�D�D�D�DA�F�O�kf�nq��nm��nm��pp�2��9��B��a��,��>�B��-��B��`��DDD�DDD�D�D�D�DA�F�W%f'�nt��np��np��pp�(��9��B��R�(��,��>�B��B��Q��DDD�DDD�D�D�D�DA�F�^�ͳ�nw��ns��ns��pp�ʀ��W�9��B��C�7��,��>�B��B��B��DDD�DDD�D�D�D�DA�F�f-��nz��nv��nv��pp�܀��9��B��4�F��,��>�B��B��3��DDD�DDD�D�D�D�DA�F�m��߀n}��ny��ny��pp� ��9��B��%�U��,��>�B��B��$��DDD�DDD�D�D�D�DA�F�u+Z��n��n|��n|��pp��9��B��d��,��>�B��B��DDD�DDD�D�D�D�DA�F�|�j�n��n��n��pp��<�9��B��s��,��>�B��Ӏ�B��DDD�DDD�D�D�D�DA�F��,6��n��n��n��pp��$�$�u�9��B��,��>�B��Ā�B��DDD�DDD�D�D�D�DA�F��j��n��n��n��pp��6�6��9��B��,��>�B��B��DDD�DDD�D�D�D�DA�F��(��n��n��n��pp��H�H��9��B��ڀ��,��>�B��B��ـ��DDD�DDD�D�D�D�DA�F��n��n��n��pp��Z�Z� �9��B��ˀ��,��>�B��B��ʀ��DDD�DDD�D�D�D�DA�F��,.4�n��n��n��pp�l�l�Y�9��B��,��>�B��B��DDD�DDD�D�D�D�DA�F��n��n��n��pp�~�~��9��B��ͪ�,��>�B��y��B��DDD�DDD�D�D�D�DA�F��%j�n��n��n��pp��9��B��ܪ�,��>�B��j��B��DDD�DDD�D�D�D�DA�F��c�n��n��n��pp��9��B��몍,��>�B��[��B��DDD�DDD�D�D�D�DA�F��)��n��n��n��pp!��>�9��B��,��>�B��L��B��DDD�DDD�D�D�D�DA�F�ǨY!�n��n��n��pp(�ƀ��w�9��B��q� ��,��>�B��=��B��p��DDD�DDD�D�D�D�DA�F��-��n��n��n��pp/�؀��9��B��b��,��>�B��.��B��a��DDD�DDD�D�D�D�DA�F�֥hǀn��n��n��pp6~��9��B��S�'��,��>�B��B��R��DDD�DDD�D�D�D�DA�F��%h�n��n��n��pp=t��"�9��B��D�6��,��>�B��B��C��DDD�DDD�D�D�D�DA�F��8q�n��n��n��ppDj��]�9��B��5�E��,��>�B��B��4��DDD�DDD�D�D�D�DA�F��%gw�n��n��n��ppK` � ��9��B��&�T��,��>�B��B��%��DDD�DDD�D�D�D�DA�F��hǀn��n��n��ppRV2�2��9��B��c��,��>�B��B��DDD�DDD�D�D�D�DA�F��%j�n��n��n��ppYLD�D��9��B��r��,��>�B��Ԁ�B��DDD�DDD�D�D�D�DA�F��J8�n��n��n��pp`BV�V�A�9��B��,��>�B��ŀ�B��DDD�DDD�D�D�D�DA�F�-ڀn��n��n��ppg8h�h�z�9��B��,��>�B��B��DDD�DDD�D�D�D�DA�F��j�n��n��n��ppn.z�z��9��B��ۀ��,��>�B��B��ڀ��DDD�DDD�D�D�D�DA�F�%fπn�n��n��ppu$��9��B��̀��,��>�B��B��ˀ��DDD�DDD�D�D�D�DA�F�!��N�nŀ�n��n��pp|��%�9��B��,��>�B��B��DDD�DDD�D�D�D�DA�F�)%hǀnȀ�nĀ�nĀ��pp��^�9��B��̪�,��>�B��z��B��DDD�DDD�D�D�D�DA�F�0�~��nˀ�nǀ�nǀ��pp��9��B��۪�,��>�B��k��B��DDD�DDD�D�D�D�DA�F�8%gw�n΀�nʀ�nʀ��pp��Ԁ��9��B��ꪍ,��>�B��\��B��DDD�DDD�D�D�D�DA�F�?�Nπnр�ǹ�ǹ��pp��9��B��,��>�B��M��B��DDD�DDD�D�D�D�DA�F�G+X��nԀ�nЀ�nЀ��pp��B�9��B��r��,��>�B��>��B��q��DDD�DDD�D�D�D�DA�F�N��[�n׀�nӀ�nӀ��pp�� }�9��B��c��,��>�B��/��B��b��DDD�DDD�D�D�D�DA�F�V%j��nڀ�nր�nր��pp��9��B��T�&��,��>�B�� B��S��DDD�DDD�D�D�D�DA�F�]�V�n݀�nـ�nـ��pp��.�.��9��B��E�5��,��>�B��B��D��DDD�DDD�D�D�D�DA�F�e%hǀn��n܀�n܀��pp��@�@�*�9��B��6�D��,��>�B��B��5��DDD�DDD�D�D�D�DA�F�l��"�n��n߀�n߀��pp��R�R�c�9��B��'�S��,��>�B��B��&��DDD�DDD�D�D�D�DA�F�t%h�n��n��n��ppȬd�d��9��B��b��,��>�B��B��DDD�DDD�D�D�D�DA�F�{�5Ҁn��n��n��ppϢv�v��9 ��B�� q��,��/y"B��B��DDD�DDD�D�D�D�DA�F��&�K�n��n��n��pp֘��9 ��B��,��/y"B��B��DDD�DDD�D�D�D�DA�F��h�n��n��n��ppݎ��G�9 ��B��,��/y"B��B��DDD�DDD�D�D�D�DA�F��%j��n��n��n��pp��9 ��B��܀��,��/y"B��B��ۀ��DDD�DDD�D�D�D�DA�F��fπn��n��n��pp�z��9 ��B��̀��,��/y"B��B��̀��DDD�DDD�D�D�D�DA�F��+ۡ�n��n��n��pp�pЀ��9 ��B��,��/y"B��B��DDD�DDD�D�D�D�DA�F��~��n��n��n��pp�f��+�9 ��B��˪�,��/y"B��B��DDD�DDD�D�D�D�DA�F��'g��n��n��n��pp\��d�9 ��B��ڪ�,��/y"B��B��DDD�DDD�D�D�D�DA�F��hǀo��n��n��ppR��9 ��B��骍,��/y"B��B��DDD�DDD�D�D�D�DA�F��%�d�o��o��o��ppH��9 ��B��,��/y"B��B��DDD�DDD�D�D�D�DA�F�ƪ� �o��o��o��pp>*�*��9 ��B��s��,��/y"B��B��r��DDD�DDD�D�D�D�DA�F��&Ԁ�o ��o��o��pp4<�<�N�9 ��B��d��,��/y"B��B��c��DDD�DDD�D�D�D�DA�F�լC-�o ��o ��o ��pp#*N�N��9 ��B��U�%��,��/y"B��B��T��DDD�DDD�D�D�D�DA�F��+S��o��o��o��pp* `�`��9 ��B��F�4��,��/y"B��B��E��DDD�DDD�D�D�D�DA�F��fπo��o��o��pp1r�r��9 ��B��7�C��,��/y"B��B��6��DDD�DDD�D�D�D�DA�F��+8q�o��o��o��pp8��3�9 ��B��(�R��,��/y"B��B��'��DDD�DDD�D�D�D�DA�F��o��o��o��pp?��l�9 ��B��a��,��/y-B��B��DDD�DDD�D�D�D�DA�F��%kf�o��o��o��ppE��9 ��B�� p��,��/y-B��B�� DDD�DDD�D�D�D�DA�F��o��o��o��ppL��9 ��B��,��/y-B��B��DDD�DDD�D�D�D�DA�F� '��o"��o��o��ppS�̀��9 ��B��,��/y-B��B��DDD�DDD�D�D�D�DA�F��o%��o!��o!��ppZ�ހ��O�9 ��B��݀��,��/y-B��B��܀��DDD�DDD�D�D�D�DA�F�%h�o(��o$��o$��ppa��9 ��B��΀��,��/y-B��B��̀��DDD�DDD�D�D�D�DA�F� �g��o+��o'��o'��pph��9 ��B��,��/y-B��B��DDD�DDD�D�D�D�DA�F�(+��o.��o*��o*��ppo��9 ��B��ʪ�,��/y.B��B��DDD�DDD�D�D�D�DA�F�/�3]�o1��o-��o-��ppv�&�&�5�9 ��B��٪�,��/y.B��B��DDD�DDD�D�D�D�DA�F�7%j�o4��o0��o0��pp}�8�8�n�9 ��B��認,��/y.B��B��DDD�DDD�D�D�D�DA�F�>�fπo7��o3��o3��pp��J�J��9 ��B��,��/y.B��B��DDD�DDD�D�D�D�DA�F�F%j��o:��o6��o6��pp��\�\��9 ��B��t��,��/y.B��B��s��DDD�DDD�D�D�D�DA�F�M�ǹ�o=��o9��o9��pp��n�n��9 ��B��e��,��/y/B��B��d��DDD�DDD�D�D�D�DA�F�U%h�o@��o<��o<��pp��R�9 ��B��V�$��,��/y/B��B��U��DDD�DDD�D�D�D�DA�F�\�� oC��o?��o?��pp�v��9 ��B��G�3��,��/y/B��B��F��DDD�DDD�D�D�D�DA�F�d,-��oF��oB��oB��pp�l��9 ��B��8�B��,��/y/B��B��7��DDD�DDD�D�D�D�DA�F�k��s�oI��oE��oE��pp�b��9 ��B��)�Q��,��/y/B��B��(��DDD�DDD�D�D�D�DA�F�s*�,�oL��oH��oH��pp�XȀ��6�9 ��B��`��,��/y/B��B��DDD�DDD�D�D�D�DA�F�z��oO��oK��oK��pp�Nڀ��o�9 ��B��o��,��/y0B��B�� DDD�DDD�D�D�D�DA�F��%j�oR��oN��oN��pp�D��9 ��B��~��,��/y0B��B��DDD�DDD�D�D�D�DA�F��x�oU��oQ��oQ��pp�:��9 ��B��,��/y0B��B��DDD�DDD�D�D�D�DA�F��'3��oX��oT��oT��pp�0��9 ��B��ހ��,��/y0B��B��݀��DDD�DDD�D�D�D�DA�F��vK�o[��oW��oW��pp�&"�"�V�9 ��B��π��,��/y0B��B��΀��DDD�DDD�D�D�D�DA�F��%fπo^��oZ��oZ��pp�4�4��9 ��B��,��/y1B��B��DDD�DDD�D�D�D�DXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 212 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 139 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK134SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BSCSTARTCNT' / SC Script START Commands Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BSCTERMCNT' / SC Script STOP Command Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BSCCOMPLCNT' / SC Script BREAK Command Count TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BSCNUMSCRIPTS' / SC Number of Scripts Currently Active TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BSCUNSPECSLOT' / SC Minimum Slot for Scripts with Unspecified SlTFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BSCTLMPKTCNT' / SC Script CLEAR Command Count TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BSCCMDSENT' / SC Script STEP Command Count TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BSCBOOLFLAGS0' / SC Boolean Flag 0-31 squished together TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BSCBOOLFLAGS1' / SC Boolean Flag 32-63 squished together TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BSCINTVAR00' / SC Integer Varaible 0 TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BSCINTVAR01' / SC Integer Varaible 1 TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BSCINTVAR02' / SC Integer Varaible 2 TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BSCINTVAR03' / SC Integer Varaible 3 TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BSCINTVAR04' / SC Integer Varaible 4 TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BSCINTVAR05' / SC Integer Varaible 5 TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BSCINTVAR06' / SC Integer Varaible 6 TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BSCINTVAR07' / SC Integer Varaible 7 TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BSCINTVAR08' / SC Integer Varaible 8 TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BSCINTVAR09' / SC Integer Varaible 9 TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BSCINTVAR10' / SC Integer Varaible 10 TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BSCINTVAR11' / SC Integer Varaible 11 TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BSCINTVAR12' / SC Integer Varaible 12 TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BSCINTVAR13' / SC Integer Varaible 13 TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BSCINTVAR14' / SC Integer Varaible 14 TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BSCINTVAR15' / SC Integer Varaible 15 TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BSCINTVAR16' / SC Integer Varaible 16 TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BSCINTVAR17' / SC Integer Varaible 17 TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BSCINTVAR18' / SC Integer Varaible 18 TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BSCINTVAR19' / SC Integer Varaible 19 TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BSCINTVAR20' / SC Integer Varaible 20 TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BSCINTVAR21' / SC Integer Varaible 21 TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BSCINTVAR22' / SC Integer Varaible 22 TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BSCINTVAR23' / SC Integer Varaible 23 TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BSCINTVAR24' / SC Integer Varaible 24 TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BSCINTVAR25' / SC Integer Varaible 25 TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BSCINTVAR26' / SC Integer Varaible 26 TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BSCINTVAR27' / SC Integer Varaible 27 TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BSCINTVAR28' / SC Integer Varaible 28 TFORM40 = '1B ' / data format of field: BYTE TTYPE41 = 'BSCINTVAR29' / SC Integer Varaible 29 TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BSCINTVAR30' / SC Integer Varaible 30 TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BSCINTVAR31' / SC Integer Varaible 31 TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BSCCURSTATE00' / SE Script TFORM44 = '1B ' / data format of field: BYTE TTYPE45 = 'BSCLINEEXEC00' / SE Script TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BSCCURRLINE00' / SE Script TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BSCCMDSSENT00' / SE Script TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCCURSTATE01' / SE Script TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BSCLINEEXEC01' / SE Script TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BSCCURRLINE01' / SE Script TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BSCCMDSSENT01' / SE Script TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BSCCURSTATE02' / SE Script TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BSCLINEEXEC02' / SE Script TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BSCCURRLINE02' / SE Script TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BSCCMDSSENT02' / SE Script TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BSCCURSTATE03' / SE Script TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'BSCLINEEXEC03' / SE Script TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BSCCURRLINE03' / SE Script TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 32768 / offset for unsigned integers TTYPE59 = 'BSCCMDSSENT03' / SE Script TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BSCCURSTATE04' / SE Script TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BSCLINEEXEC04' / SE Script TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BSCCURRLINE04' / SE Script TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BSCCMDSSENT04' / SE Script TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BSCCURSTATE05' / SE Script TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BSCLINEEXEC05' / SE Script TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BSCCURRLINE05' / SE Script TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSCCMDSSENT05' / SE Script TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BSCCURSTATE06' / SE Script TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BSCLINEEXEC06' / SE Script TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BSCCURRLINE06' / SE Script TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BSCCMDSSENT06' / SE Script TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BSCCURSTATE07' / SE Script TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'BSCLINEEXEC07' / SE Script TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BSCCURRLINE07' / SE Script TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BSCCMDSSENT07' / SE Script TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'BSCCURSTATE08' / SE Script TFORM76 = '1B ' / data format of field: BYTE TTYPE77 = 'BSCLINEEXEC08' / SE Script TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BSCCURRLINE08' / SE Script TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 32768 / offset for unsigned integers TTYPE79 = 'BSCCMDSSENT08' / SE Script TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BSCCURSTATE09' / SE Script TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'BSCLINEEXEC09' / SE Script TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BSCCURRLINE09' / SE Script TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 32768 / offset for unsigned integers TTYPE83 = 'BSCCMDSSENT09' / SE Script TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 32768 / offset for unsigned integers TTYPE84 = 'BSCCURSTATE10' / SE Script TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BSCLINEEXEC10' / SE Script TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BSCCURRLINE10' / SE Script TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BSCCMDSSENT10' / SE Script TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BSCCURSTATE11' / SE Script TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'BSCLINEEXEC11' / SE Script TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BSCCURRLINE11' / SE Script TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BSCCMDSSENT11' / SE Script TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BSCCURSTATE12' / SE Script TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'BSCLINEEXEC12' / SE Script TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BSCCURRLINE12' / SE Script TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 32768 / offset for unsigned integers TTYPE95 = 'BSCCMDSSENT12' / SE Script TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 32768 / offset for unsigned integers TTYPE96 = 'BSCCURSTATE13' / SE Script TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'BSCLINEEXEC13' / SE Script TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BSCCURRLINE13' / SE Script TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 32768 / offset for unsigned integers TTYPE99 = 'BSCCMDSSENT13' / SE Script TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 32768 / offset for unsigned integers TTYPE100= 'BSCCURSTATE14' / SE Script TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'BSCLINEEXEC14' / SE Script TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BSCCURRLINE14' / SE Script TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 32768 / offset for unsigned integers TTYPE103= 'BSCCMDSSENT14' / SE Script TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BSCCURSTATE15' / SE Script TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BSCLINEEXEC15' / SE Script TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BSCCURRLINE15' / SE Script TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BSCCMDSSENT15' / SE Script TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 32768 / offset for unsigned integers TTYPE108= 'BSCCURSTATE16' / SE Script TFORM108= '1B ' / data format of field: BYTE TTYPE109= 'BSCLINEEXEC16' / SE Script TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BSCCURRLINE16' / SE Script TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BSCCMDSSENT16' / SE Script TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 32768 / offset for unsigned integers TTYPE112= 'BSCCURSTATE17' / SE Script TFORM112= '1B ' / data format of field: BYTE TTYPE113= 'BSCLINEEXEC17' / SE Script TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BSCCURRLINE17' / SE Script TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 32768 / offset for unsigned integers TTYPE115= 'BSCCMDSSENT17' / SE Script TFORM115= '1I ' / data format of field: 2-byte INTEGER TZERO115= 32768 / offset for unsigned integers TTYPE116= 'BSCCURSTATE18' / SE Script TFORM116= '1B ' / data format of field: BYTE TTYPE117= 'BSCLINEEXEC18' / SE Script TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BSCCURRLINE18' / SE Script TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 32768 / offset for unsigned integers TTYPE119= 'BSCCMDSSENT18' / SE Script TFORM119= '1I ' / data format of field: 2-byte INTEGER TZERO119= 32768 / offset for unsigned integers TTYPE120= 'BSCCURSTATE19' / SE Script TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BSCLINEEXEC19' / SE Script TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BSCCURRLINE19' / SE Script TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 32768 / offset for unsigned integers TTYPE123= 'BSCCMDSSENT19' / SE Script TFORM123= '1I ' / data format of field: 2-byte INTEGER TZERO123= 32768 / offset for unsigned integers TTYPE124= 'BSCCURSTATE20' / SE Script TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'BSCLINEEXEC20' / SE Script TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BSCCURRLINE20' / SE Script TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 32768 / offset for unsigned integers TTYPE127= 'BSCCMDSSENT20' / SE Script TFORM127= '1I ' / data format of field: 2-byte INTEGER TZERO127= 32768 / offset for unsigned integers TTYPE128= 'BSCCURSTATE21' / SE Script TFORM128= '1B ' / data format of field: BYTE TTYPE129= 'BSCLINEEXEC21' / SE Script TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BSCCURRLINE21' / SE Script TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 32768 / offset for unsigned integers TTYPE131= 'BSCCMDSSENT21' / SE Script TFORM131= '1I ' / data format of field: 2-byte INTEGER TZERO131= 32768 / offset for unsigned integers TTYPE132= 'BSCCURSTATE22' / SE Script TFORM132= '1B ' / data format of field: BYTE TTYPE133= 'BSCLINEEXEC22' / SE Script TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BSCCURRLINE22' / SE Script TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 32768 / offset for unsigned integers TTYPE135= 'BSCCMDSSENT22' / SE Script TFORM135= '1I ' / data format of field: 2-byte INTEGER TZERO135= 32768 / offset for unsigned integers TTYPE136= 'BSCCURSTATE23' / SE Script TFORM136= '1B ' / data format of field: BYTE TTYPE137= 'BSCLINEEXEC23' / SE Script TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BSCCURRLINE23' / SE Script TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 32768 / offset for unsigned integers TTYPE139= 'BSCCMDSSENT23' / SE Script TFORM139= '1I ' / data format of field: 2-byte INTEGER TZERO139= 32768 / offset for unsigned integers EXTNAME = 'hk134x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894072.4415 TSTOP = 713896262.44146 DATE-OBS= '2023-08-16T15:54:27' DATE-END= '2023-08-16T16:30:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2189.99996006489 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 308 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:44' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'hFaaiERUhEXahEXU' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3648952246' / data unit checksum updated 2023-08-26T08:43:44 COMMENT Column 44 = BSCCURSTATE00 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 48 = BSCCURSTATE01 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 52 = BSCCURSTATE02 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 56 = BSCCURSTATE03 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 60 = BSCCURSTATE04 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 64 = BSCCURSTATE05 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 68 = BSCCURSTATE06 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 72 = BSCCURSTATE07 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 76 = BSCCURSTATE08 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 80 = BSCCURSTATE09 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 84 = BSCCURSTATE10 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 88 = BSCCURSTATE11 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 92 = BSCCURSTATE12 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 96 = BSCCURSTATE13 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 100 = BSCCURSTATE14 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 104 = BSCCURSTATE15 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 108 = BSCCURSTATE16 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 112 = BSCCURSTATE17 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 116 = BSCCURSTATE18 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 120 = BSCCURSTATE19 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 124 = BSCCURSTATE20 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 128 = BSCCURSTATE21 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 132 = BSCCURSTATE22 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description COMMENT Column 136 = BSCCURSTATE23 - Discrete value COMMENT 0 = DOESNT_EXIST = no description COMMENT 1 = CONSTRUCTED = no description COMMENT 2 = RUNNING = no description COMMENT 3 = DELAY_WAIT = no description COMMENT 4 = ABSTIME_WAIT = no description COMMENT 5 = 1ST_TLM_WAIT = no description COMMENT 6 = CVT_REGISTER = no description COMMENT 7 = CVT_UNREGISTER = no description COMMENT 8 = CVT_GET = no description COMMENT 9 = SENDING_CMD = no description COMMENT 10 = DEBUG_PAUSE = no description COMMENT 11 = COMPLETED = no description COMMENT 12 = TERMINATED = no description COMMENT 13 = SUSPENED = no description COMMENT 14 = RESUMED = no description COMMENT 15-255 = UNDEFINED = no description HISTORY TASK: FAPPND on FILENAME: sw01185673000b134x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�\8��ˀ��V�,��A�F�c��k��ˀ��Y�.��A�F�k8��ˀ��\�.��A�F�r��?��ˀ��_�2��A�F�z8��ˀ��b�3��A�F��ˀ��e�3��A�F��8��ˀ��h�3��A�F��ˀ��k�3��A�F��8��ˀ��n�3��A�F��ˀ��q�3��A�F��8�À�ˀ��t�3��A�F��ˀ��w�3��A�F��8�b��ˀ��z�3��A�F��ހ�ˀ��}�3��A�F��8�À�ˀ��3��A�F�̸�À�ˀ��3��A�F��8�?��ˀ��3��A�F�۸�À�ˀ��3��A�F��8�k��ˀ��3��A�F�긐.��ˀ��3��A�F��8�À�ˀ��3��A�F��ˀ��3��A�F�8�I��ˀ��3��A�F��À�ˀ��3��A�F�8��ˀ��3��A�F�� ˀ��3��A�F�8�À�ˀ��3��A�F�&��ˀ��3��A�F�.8�À�ˀ��3��A�F�5��ˀ��3��A�F�=8�k��ˀ��3��A�F�D��À�ˀ��3��A�F�L8�}��ˀ��3��A�F�S��À�ˀ��3��A�F�[8�k��ˀ��3��A�F�b��}��ˀ��3��A�F�j8�k��ˀ��3��A�F�q��ˀ��ŀ3��A�F�y8�ހ�ˀ��Ȁ3��A�F��k��ˀ��ˀ3��A�F��8��ˀ��΀3��A�F��À�ˀ��р3��A�F��8�k��ˀ��Ԁ3��A�F��ˀ��׀3��A�F��8�k��ˀ��ڀ3��A�F��ˀ��݀3��A�F��8��ˀ��3��A�F��k��ˀ��3��A�F��8��ˀ��3��A�F�˸��ˀ��3��A�F��8�À�ˀ��3��A�F�ڸ�Y��ˀ��3��A�F��8�À�ˀ��3��A�F�鸃��ˀ��3��A�F��8�Y��ˀ��3��A�F��k��ˀ��3��A�F�8�H��ˀ��3��A�F��À�ˀ��3��A�F�8�À�ˀ��3��A�F��À�̀��4��A�F�8��̀�� 4��A�F�%��΀��<��A�F�-8��΀��C��A�F�4��À�΀��#�E��A�F�<8��΀��,�E��A�F�C��k��΀��5�E��A�F�K8�À�΀��>�E��A�F�R��΀��G�F��A�F�Z8�À�΀��P�F��A�F�a��À�΀��Y�G��A�F�i8��΀��b�H��A�F�p��%��΀��k�I��A�F�x8�À�΀��t�I��A�F��À�΀��}�K��A�F��8�k��΀��L��A�F��ր�΀��L��A�F��8�k��΀��P��A�F��΀��P��A�F��8�k��΀��P��A�F��k��΀��P��A�F��8��΀��Q��A�F��΀��ŀQ��A�F��8�k��΀��΀Q��A�F�ʸ��΀��׀Q��A�F��8��΀��Q��A�F�ٸ�À�΀��R��A�F��8��΀��S��A�F�踃��΀��T��A�F��8�k��΀��T��A�F��΀�� U��A�F��8�À�΀��U��A�F��΀��U��A�F�8��΀��(�U��A�F��k��΀��1�V��A�F�8��΀��:�W��A�F�$��΀��C�W��A�F�,8��΀��L�W��A�F�3��k��΀��U�X��A�F�;8��΀��^�X��A�F�B��΀��g�X��A�F�J8��΀��p�X��A�F�Q��b��΀��y�X��A�F�Y8��π��Z��A�F�`��k��π��[��A�F�h8�k��π��[��A�F�o��΀�π��[��A�F�w8� ��π��\��A�F�~��π��\��A�F��8�k��π��\��A�F��k��π��\��A�F��< q��π��ʀ]��A�F��k��π��Ӏ]��A�F��8�À�π��܀^��A�F��π��^��A�F��8�k��π��_��A�F��π��_��A�F��8�7��π��_��A�F�ɸ� ��π�� _��A�F��8��π��_��A�F�ظ��π��`��A�F��8��π��$�`��A�F�縄b��π��-�`��A�F��8��π��6�`��A�F��π��>�a��A�F��8��π��H�a��A�F��π��Q�a��A�F� 8��π��Z�a��A�F��ր�π��c�a��A�F�8��π��l�b��A�F�#��k��π��u�d��A�F�+8�c��π��~�d��A�F�2��π��d��A�F�:8��π��d��A�F�A��k��π��d��A�F�I8� ��π��d��A�F�P��π��d��A�F�X8�À�π��d��A�F�_��π��d��A�F�g8��π��ƀd��A�F�n��π��πd��A�F�v8��π��؀d��A�F�}��k��π��d��A�F��8��π��d��A�F��π��d��A�F��8�À�π��d��A�F��}��π��d��A�F��8�À�π��d��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 181 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 50 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK135SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BFMBOOTSPACE' / Free space on the Boot EEPROM disk, targ/boot TFORM3 = '1J ' / data format of field: 4-byte INTEGER TTYPE4 = 'BFMNORMSPACE' / Free space on the Normal EEPROM disk, targ/normTFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BFMTEMPSPACE' / Free space on the scratch RAM disk, targ/temp TFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BFMNRAMSPACE' / Free space on the Normal DRAM disk, targ/nram TFORM6 = '1J ' / data format of field: 4-byte INTEGER TTYPE7 = 'BFMUPLFILESZ' / File Size last loaded or currently being loadedTFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BFMUPLCURBTS' / Number of bytes loaded so far in the current fiTFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BFMUPLTOTBTS' / Total number of bytes in all uploaded files sinTFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BFMUPLFILECT' / Total number of files loaded since the last resTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BFMUPLERRORS' / Total number of file load errors since the lastTFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BFMUPLHDRSCT' / Number of invalid file headers seen since the lTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BFMUPLSTATE' / Current state of the file load operations TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BFMUPLNAME' / Name of the file last loaded or currently beingTFORM14 = '40A ' / data format of field: ASCII Character TTYPE15 = 'BFMOPENFILECT' / Number of Currently Opened Files TFORM15 = '1I ' / data format of field: 2-byte INTEGER TTYPE16 = 'BDEREQRCVCNT' / DSP Request Received Count TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDEREQERRCNT' / DSP Request Error Count TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDELASTERROR' / DSP Last Error - ignores cancel or success TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDERCVINTCNT' / DSP Count of Received Interrupts TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDERUNTIME' / DSP Runtime of Last Process (usecs) TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TUNIT20 = 'us ' / physical unit of field TTYPE21 = 'BDERTNVALUE' / DSP Return Value of Last Process TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDEFUNCTION' / DSP Functioncode of Last Process TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDEXSERRSEG' / DSP Checksum Error Index TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDEXSERRCNT' / DSP Total Count of Checksum Errors TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDETXINTCNT' / DSP Spare0 for Science Code TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BDESWRESETCNT' / DSP Spare0 for Science Code TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BDEXSCYCLES' / DSP Spare0 for Science Code TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BDECONTROLFLG' / DSP Current Control flag set by dsp object TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDEACTIVITYFLG' / DSP Current Activity flag set by the dsp TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDESPARE15' / DSP Spare TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BDESWTESTCOUNT' / DSP Count test TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BDESWTESTITER' / DSP Count of iterations for test TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BDESWTESTFLOAT' / DSP Result of average test TFORM33 = '1E ' / data format of field: 4-byte REAL TTYPE34 = 'BDESWTESTINT' / DSP Result of sum test TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BDEHALTCNT' / DSP Count of halts received TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BDEPKTERRCNT' / DSP transmit packet error count TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDEPKTERRTYP' / DSP transmit packet last error type TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BDExx32x1' / DSP board science ??? status TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BDExx32x2' / DSP board science ??? status TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BDExx32x3' / DSP board science ??? status TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BDExx32x4' / DSP board science ??? status TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BDExx32x5' / DSP board science ??? status TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BDExx32x6' / DSP board science ??? status TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BDExx32x7' / DSP board science ??? status TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BDExx32x8' / DSP board science ??? status TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BDExx32x9' / DSP board science ??? status TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BDExx32x10' / DSP board science ??? status TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BDExx32x11' / DSP board science ??? status TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BDExx32x12' / DSP board science ??? status TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BDExx32x13' / DSP board science ??? status TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers EXTNAME = 'hk135x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894072.44242 TSTOP = 713896262.44238 DATE-OBS= '2023-08-16T15:54:27' DATE-END= '2023-08-16T16:30:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2189.99995994568 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 309 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'NLa4OLS3NLY3NLY3' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '4186291057' / data unit checksum updated 2023-08-26T08:43:45 TRDLO5 = 10000 / BFMTEMPSPACE Red lower limit = BTEMPSPACE_LIM TRDHI5 = 1000000 / BFMTEMPSPACE Red upper limit = BTEMPSPACE_LIM TYELO5 = 60000 / BFMTEMPSPACE Yellow lower limit = BTEMPSPACE_LITYEHI5 = 900000 / BFMTEMPSPACE Yellow upper limit = BTEMPSPACE_LITRDHI11 = 2 / BFMUPLERRORS Red upper limit = BFM_UPLERR_LIM TYEHI11 = 1 / BFMUPLERRORS Yellow upper limit = BFM_UPLERR_LICOMMENT Column 13 = BFMUPLSTATE - Discrete value COMMENT 0 = INACTIVE = no description COMMENT 1-255 = ACTIVE = no description TRDLO15 = -2 / BFMOPENFILECT Red lower limit = B_FM_OFILE_LIM TRDHI15 = 18 / BFMOPENFILECT Red upper limit = B_FM_OFILE_LIM TYELO15 = -1 / BFMOPENFILECT Yellow lower limit = B_FM_OFILE_LTYEHI15 = 15 / BFMOPENFILECT Yellow upper limit = B_FM_OFILE_LTRDHI17 = 2 / BDEREQERRCNT Red upper limit = BPD_DEREQERR_LIMTYEHI17 = 1 / BDEREQERRCNT Yellow upper limit = BPD_DEREQERR_TRDHI24 = 2 / BDEXSERRCNT Red upper limit = BPD_DEXSERR_LIM TYEHI24 = 1 / BDEXSERRCNT Yellow upper limit = BPD_DEXSERR_LITRDHI36 = 2 / BDEPKTERRCNT Red upper limit = BPD_DEPKTERR_LIMTYEHI36 = 1 / BDEPKTERRCNT Yellow upper limit = BPD_DEPKTERR_HISTORY TASK: FAPPND on FILENAME: sw01185673000b135x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�\8�8��6 s=��targ/nram/pntplan.txt 2 ;�OM(�� A�F�c��6 s=��targ/nram/pntplan.txt 2 ;�OM(�� A�F�k8�8��6 s=��targ/nram/pntplan.txt 2 ;�OM(�� A�F�r��ƀ�6 s=��targ/nram/pntplan.txt 2 ;�OM(�� A�F�z8�/��6 s=��targ/nram/pntplan.txt 2 <�OM(�� A�F��8��6 s=��targ/nram/pntplan.txt 4 =�#��)�� A�F��8� ��6 s=��targ/nram/pntplan.txt 4 =�#��)�� A�F��8��6 s=��targ/nram/pntplan.txt 4 =�#��)�� A�F��8�8��6 s=��targ/nram/pntplan.txt 4 =�#��)�� A�F��6 s=��targ/nram/pntplan.txt 4 >�#��)�� A�F��8��6 s=��targ/nram/pntplan.txt 5 >�O0�(�� A�F��6 s=��targ/nram/pntplan.txt 5 >�O0�(�� A�F��8��6 s=��targ/nram/pntplan.txt 5 >�O0�(�� A�F��6 s=��targ/nram/pntplan.txt 5 >�O0�(�� A�F��8��6 s=��targ/nram/pntplan.txt 6 ?�O3N(�� A�F�̸��6 s=��targ/nram/pntplan.txt 6 ?�O3N(�� A�F��8��6 s=��targ/nram/pntplan.txt 6 ?�O3N(�� A�F�۸�A��6 s=��targ/nram/pntplan.txt 6 ?�O3N(�� A�F��8��6 s=��targ/nram/pntplan.txt 7 @�O0�("�� A�F�긭��6 s=��targ/nram/pntplan.txt 7 @�O0�("�� A�F��8�A��6 s=��targ/nram/pntplan.txt 7 @�O0�("�� A�F��8��6 s=��targ/nram/pntplan.txt 7 @�O0�("�� A�F�8�ǀ�6 s=��targ/nram/pntplan.txt 8 A�O>�(&�� A�F��\��6 s=��targ/nram/pntplan.txt 8 A�O>�(&�� A�F�8��6 s=��targ/nram/pntplan.txt 8 A�O>�(&�� A�F��6 s=��targ/nram/pntplan.txt 8 A�O>�(&�� A�F�8��6 s=��targ/nram/pntplan.txt 8 B�O>�((�� A�F�&��A��6 s=��targ/nram/pntplan.txt : D�e6�(2�� A�F�.8�A��6 s=��targ/nram/pntplan.txt ; D�$ h*3�� A�F�5��6 s=��targ/nram/pntplan.txt ; D�$ h*3�� A�F�=8��6 s=��targ/nram/pntplan.txt ; D�$ h*3�� A�F�D��6 s=��targ/nram/pntplan.txt < E�O01(7�� A�F�L8��6 s=��targ/nram/pntplan.txt < E�O01(7�� A�F�S��6 s=��targ/nram/pntplan.txt < E�O01(7�� A�F�[8��6 s=��targ/nram/pntplan.txt < E�O01(7�� A�F�b��6 s=��targ/nram/pntplan.txt = F�\'�(<�� A�F�j8��6 s=��targ/nram/pntplan.txt = F�\'�(<�� A�F�q��6 s=��targ/nram/pntplan.txt = F�\'�(<�� A�F�y8��6 s=��targ/nram/pntplan.txt = F�\'�(<�� A�F��6 s=��targ/nram/pntplan.txt = G�\'�(?�� A�F��8��6 s=��targ/nram/pntplan.txt > G�U��(A�� A�F��S��6 s=��targ/nram/pntplan.txt > G�U��(A�� A�F��8��6 s=��targ/nram/pntplan.txt > G�U��(A�� A�F��8��6 s=��targ/nram/pntplan.txt > H�U��(C�� A�F��8��6 s=��targ/nram/pntplan.txt ? H�O8z(E�� A�F��8��6 s=��targ/nram/pntplan.txt ? H�O8z(E�� A�F��8�f��6 s=��targ/nram/pntplan.txt ? H�O8z(E�� A�F��6 s=��targ/nram/pntplan.txt ? H�O8z(E�� A�F��8�8��6 s=��targ/nram/pntplan.txt @ J�O2A(K�� A�F�˸��6 s=��targ/nram/pntplan.txt A J�\?�(N�� A�F��8�S��6 s=��targ/nram/pntplan.txt A J�\?�(N�� A�F�ڸ�8��6 s=��targ/nram/pntplan.txt A J�\?�(N�� A�F��8�A��6 s=��targ/nram/pntplan.txt B K�[��(S�� A�F�鸰K��6 s=��targ/nram/pntplan.txt B K�[��(S�� A�F��8��6 s=��targ/nram/pntplan.txt B K�[��(S�� A�F��6 s=��targ/nram/pntplan.txt C L�M�g(W�� A�F�8�΀�6 s=��targ/nram/pntplan.txt C L�M�g(W�� A�F��S��6 s=��targ/nram/pntplan.txt C L�M�g(W�� A�F�8�A��6 s=��targ/nram/pntplan.txt C L�M�g(W�� A�F��6 s=��targ/nram/pntplan.txt C M�M�g(Y�� A�F�8��6 s=��targ/nram/pntplan.txt E O�fh(c�� A�F�%��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�-8�8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�4��S��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�<8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�C��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�K8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�R��K��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�Z8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�a��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�i8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�p��K��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�x8�A��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��S��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��e��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��A��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8ם��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8�S��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�ʸ��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8�K��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�ٸ�A��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8�р�6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F�踭��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��8�V��6 s=��targ/nram/pntplan.txt H Q�&#;)k�� A�F��6 s=��targ/nram/pntplan.txt H R�&#;)m�� A�F�8�ƀ�6 s=��targ/nram/pntplan.txt I R�O>�(o�� A�F��6 s=��targ/nram/pntplan.txt I R�O>�(o�� A�F�8��6 s=��targ/nram/pntplan.txt I R�O>�(o�� A�F�$��6 s=��targ/nram/pntplan.txt I R�O>�(o�� A�F�,8��6 s=��targ/nram/pntplan.txt J S�O.\(s�� A�F�3��6 s=��targ/nram/pntplan.txt J S�O.\(s�� A�F�;8��6 s=��targ/nram/pntplan.txt J T�O.\(u�� A�F�B�� 6 s=��targ/nram/pntplan.txt K T�M�(w�� A�F�J8��6 s=��targ/nram/pntplan.txt K T�M�(w�� A�F�Q��6 s=��targ/nram/pntplan.txt K T�M�(w�� A�F�Y8氀�6 s=��targ/nram/pntplan.txt K T�M�(w�� A�F�`��6 s=��targ/nram/pntplan.txt L U�O.3({�� A�F�h8��6 s=��targ/nram/pntplan.txt L U�O.3({�� A�F�o��6 s=��targ/nram/pntplan.txt L U�O.3({�� A�F�w8�/��6 s=��targ/nram/pntplan.txt L U�O.3({�� A�F�~��6 s=��targ/nram/pntplan.txt M V�YԒ(�� A�F��8��6 s=��targ/nram/pntplan.txt M V�YԒ(�� A�F��6 s=��targ/nram/pntplan.txt M V�YԒ(�� A�F��7��e��z��ɀ � G �x,�� A��5�A�F��R��targ/mode/tables/toflttbl.gzo ��5��&��9�8��?��7��$��z�@�ɀ � G �x,�� A��5�A�F��targ/mode/tables/toflttbl.gzo ��Ր��&��9�8��?��7��@{��ɀ � G �x,�� A��5�A�F��R1��targ/mode/tables/toflttbl.gzo ��ڍ�&��9�8��?��7��Q�{J@�ɀ � G �x,�� A��5�A�F�� targ/mode/tables/toflttbl.gzo ��'��&��9�8��?��7��y��{��ɀ � G �x,�� A��5�A�F��Re�targ/mode/tables/toflttbl.gzo ��֎��&��9�8��?��7��,��{��ɀ � G �x,�� A��5�A�F��targ/mode/tables/toflttbl.gzo �� &��9�8��@��7��{��ɀ � G �x,�� A��5�A�F��R �targ/mode/tables/toflttbl.gzo ��Z� �&��9�8��@��7��F��-@|��ʀ � G �x,�p�� A��5�A�F��targ/mode/tables/toflttbl.gzo ��״� �&��9�8��@��7��h@|��ʀ � G �x,�p�� A��5�A�F��RK�targ/mode/tables/toflttbl.gzo �� &��9�8��@��7��}��ʀ � G �x,�p�� A��5�A�F��e�targ/mode/tables/toflttbl.gzo ��&��9�8��A��7��}A@�ʀ � G �x,�p�� A��5�A�F��R��targ/mode/tables/toflttbl.gzo ��ˍ�&��9�8��A��7��I��}�ʀ � G �x,�p�� A��5�A�F��targ/mode/tables/toflttbl.gzo ��&��9�8��A��7��T}��ʀ � G �x,�p�� A��5�A�F��Re�targ/mode/tables/toflttbl.gzo ��{��&��9�8��A��7��V��}�@�ʀ � G �x,�p�� A��5�A�F��\�targ/mode/tables/toflttbl.gzo ��&��9�8��B��7��~.��ʀ � G �x,�p�� A��5�A�F� Re�targ/mode/tables/toflttbl.gzo ��~��&��9�8��B��7��~f�ʀ � G �x,��p�� A��5�A�F��targ/mode/tables/toflttbl.gzo ��܍�&��9�8��B��7��P��9~��ʀ � G �x,��p�� A��5�A�F�R\�targ/mode/tables/toflttbl.gzo ��&��9�8��B��7��q��A~��ʀ � G �x,��p�� A��5�A�F��\�targ/mode/tables/toflttbl.gzo ��@��ۮ��&��9�8��B��7��C�~��ʀ � G �x,��p�� A��5�A�F�'R��targ/mode/tables/toflttbl.gzo ��0��w��&��9�8��B��7��f�~��ʀ � G �x,��p�� A��5�A�F�.��targ/mode/tables/toflttbl.gzo ��0��!��&��9�8��B��7��J��@��ʀ � G �x,��p�� A��5�A�F�6Re�targ/mode/tables/toflttbl.gzo ��p��ˍ�&��9�8��D��7��,��@;��ʀ � G �x,��p�� A��5�A�F�=��targ/mode/tables/toflttbl.gzo ��D��&��9�8��E��7��v��@t��ʀ � G �x,��p�� A��5�A�F�ER��targ/mode/tables/toflttbl.gzo ��ۍ�&��9�8��F��7��@��ʀ � G �x,��p�� A��5�A�F�L�e�targ/mode/tables/toflttbl.gzo ��'��&��9�8��F��7��|@��ʀ � G �x,�p�� A��5�A�F�TRT�targ/mode/tables/toflttbl.gzo ��₍�&��9�8��F��7��|�� @�ʀ � G �x,�p�� A��5�A�F�[� �targ/mode/tables/toflttbl.gzo ��Ǎ�&��9�8��F��7��\�ʀ � G �x,�p�� A��5�A�F�cRe�targ/mode/tables/toflttbl.gzo ��U��&��9�8��G��7��'��ʀ � G �x,�p�� A��5�A�F�j�\�targ/mode/tables/toflttbl.gzo ��㘍�&��9�8��G��7��b��ʀ � G �x,�p�� A��5�A�F�rRe�targ/mode/tables/toflttbl.gzo ��&��9�8��G��7��^��ʀ � G �x,�p�� A��5�A�F�y� �targ/mode/tables/toflttbl.gzo ��I��&��9�8��G��7��ڀ�C�ʀ � G �x,�p�� A��5�A�F��R��targ/mode/tables/toflttbl.gzo ��ԍ�&��9�8��H��7��t@��ʀ � G �x,��p�� A��5�A�F��targ/mode/tables/toflttbl.gzo ��"��&��9�8��H��7��8��ʀ � G �x,��p�� A��5�A�F��R �targ/mode/tables/toflttbl.gzo ��&��9�8��H��7��R��ʀ � G �x,��p�� A��5~A�F��e�targ/mode/tables/toflttbl.gzo ��ƍ�&��9�8��H��7�� &��ʀ � G �x,��p�� A��5~A�F��R#:�targ/mode/tables/toflttbl.gzo ��U��&��9�8��H��7��Z��@�ʀ � G �x,��p�� A��5~A�F��e�targ/mode/tables/toflttbl.gzo ��ݍ�&��9�8��I��7��@��ʀ � G �x,��p�� A��5~A�F��R �targ/mode/tables/toflttbl.gzo ��$��&��9�8��I��7��ʀ � G �x,��p�� A��5~A�F��targ/mode/tables/toflttbl.gzo ��P��؍�&��9�8��I��7��-��@�ʀ � G �x,��p�� A��5~A�F��R��targ/mode/tables/toflttbl.gzo ��P��鐍�&��9�8��I��7��̀�6�ʀ � G �x,��p�� A��5~A�F��2�targ/mode/tables/toflttbl.gzo ��0��K��&��:8��I��7��]@�ʀ � G �x,�p�� A��5~A�F��R��targ/mode/tables/toflttbl.gzo ��I��&��:8��L��7��*��@�ʀ � G �x,�p�� A��5~A�F��e�targ/mode/tables/toflttbl.gzo ��얍�&��:8��L��7��g�π�ʀ � G �x,�p�� A��5~A�F��R��targ/mode/tables/toflttbl.gzo ��&��:8��L��7��ʀ � G �x,�� A��5~A�F�� targ/mode/tables/toflttbl.gzo ��}� �&��:8��M��7��?@�ʀ � G �x,�� A��5~A�F��Re�targ/mode/tables/toflttbl.gzo ��ҍ �&��:8��M��7��{��ʀ � G �x,�� A��5~A�F��Qtarg/mode/tables/toflttbl.gzo ��0� �&��:8��M��7��N��@�ʀ � G �x,�� A��5~A�F��R��targ/mode/tables/toflttbl.gzo ��!�&��:8��M��7��}��}��ʀ � G �x,�� A��5~A�F�� targ/mode/tables/toflttbl.gzo ��!�&��:8��M��7��@�ʀ � G �x,�� A��5~A�F�R �targ/mode/tables/toflttbl.gzo ��e�!�&��:8��M��7��g��T@�ʀ � G �x,�� A��5~A�F��\�targ/mode/tables/toflttbl.gzo ��﬍!�&��:8��M��7��"��@�ʀ � G �x,�� A��5~A�F�R �targ/mode/tables/toflttbl.gzo ��0��!�&��:8��M��7��B@��ʀ � G �x,�� A��5~A�F��targ/mode/tables/toflttbl.gzo ��ލ$�&��:8��O��7��"��h@��ʀ � G �x,�� A��5TA�F�&R>�targ/mode/tables/toflttbl.gzo ��i�)�&��:8��O��7��&��y��ʀ � G �x,�� A��5TA�F�-��targ/mode/tables/toflttbl.gzo ��0��X�,�&��:8��P��7��^��|��@�ʀ � G �x,�� A��5TA�F�5Re�targ/mode/tables/toflttbl.gzo ��,�&��:8��P��7��=��@��ʀ � G �x,�� A��5TA�F�<��targ/mode/tables/toflttbl.gzo �ՠ��.�&��:8��P��7��6@�ʀ � G �x,�� A��5TA�F�DR/�targ/mode/tables/toflttbl.gzo ��/�&��:8��P��7��@�Y��ʀ � G �x,�� A��5TA�F�K� �targ/mode/tables/toflttbl.gzo ��A�/�&��:8��P��7��3@��ʀ � G �x,�� A��5TA�F�SR �targ/mode/tables/toflttbl.gzo ��@��/�&��:8��P��7��p��@�ʀ � G �x,�� A��5TA�F�Z��targ/mode/tables/toflttbl.gzo ��/�&��:8��P��7��Q��@��ʀ � G �x,�� A��5TA�F�bR,g�targ/mode/tables/toflttbl.gzo �u��X�/�&��:8��P��7��ʀ � G �x,�� A��5TA�F�i��targ/mode/tables/toflttbl.gzo �X��/�&��:8��P��7��Ѐ�9�ʀ � G �x,�� A��5TA�F�qRe�targ/mode/tables/toflttbl.gzo �@@��/�&��:8��P��7��}��@�`��ʀ � G �x,�� A��5TA�F�x�e�targ/mode/tables/toflttbl.gzo �`��`�/�&��:8��P��7��@��ˀ � G �x,�� A��5TA�F��R �targ/mode/tables/toflttbl.gzo � ��/�&��:8��P��7��4��ˀ � G �x,�p�� A��5TA�F��targ/mode/tables/toflttbl.gzo � `��ɍ0�&��:8��P��7��U��.�ˀ � G �x,�p�� A��5TA�F��Re�targ/mode/tables/toflttbl.gzo ��@�� {�0�&��:8��P��7��u��N�ˀ � G �x,�p�� A��5TA�F��targ/mode/tables/toflttbl.gzo ��5�0�&��:8��P��7��d��@��ˀ � G �x,�p�� A��5TA�F��R �targ/mode/tables/toflttbl.gzo �� 0�&��:8��P��7��ɀ��ˀ � G �x,�p�� A��5TA�F��targ/mode/tables/toflttbl.gzo ��0�&��:8��P��7��@��ˀ � G �x,�p�� A��5TA�F��Re�targ/mode/tables/toflttbl.gzo ��G�1�&��:8��P��7��M@�%��ˀ � G �x,�p�� A��5TA�F��e�targ/mode/tables/toflttbl.gzo ��1�&��:8��P��7��n��g��ˀ � G �x,�p�� A��5+A�F��R��targ/mode/tables/toflttbl.gzo ��1�&��:8��P��7��@�}��ˀ � G �x,�p�� A��5+A�F��e�targ/mode/tables/toflttbl.gzo ��O�1�&��:8��P��7��E��ˀ � G �x,�p�� A��5+A�F��Re�targ/mode/tables/toflttbl.gzo ��2�&��:8��P��7��'��ˀ � G �x,��p�� A��5+A�F��targ/mode/tables/toflttbl.gzo ��2�&��:8��P��7��A@��ˀ � G �x,��p�� A��5+A�F��R�targ/mode/tables/toflttbl.gzo ��Z�4�&��:8��P��7��J��#�ˀ � G �x,��p�� A��5+A�F��e�targ/mode/tables/toflttbl.gzo ��0��4�&��:8��P��7��_@�ˀ � G �x,��p�� A��5+A�F��R��targ/mode/tables/toflttbl.gzo ��5�'��:8��P��7��e��ˀ � G �x,��p�� A��5+A�F��targ/mode/tables/toflttbl.gzo �� c�5�'��:8��P��7��@�k��ˀ � G �x,��p�� A��5+A�F��R��targ/mode/tables/toflttbl.gzo ��p��"�5�'��:8��P��7��n@�ˀ � G �x,��p�� A��5+A�F��e�targ/mode/tables/toflttbl.gzo �� #��5�'��:8��P��7��@�ˀ � G �x,��p�� A��5+A�F�R��targ/mode/tables/toflttbl.gzo ��%x�5�'��:8��P��7��ˀ � G �x,��p�� A��5+A�F�� targ/mode/tables/toflttbl.gzo �qP��'4�5�'��:8��P��7��р��ˀ � G �x,��p�� A��5+A�F�R��targ/mode/tables/toflttbl.gzo �k��(�5�'��:8��P��7��@��ˀ � G �x,��p�� A��5+A�F��e�targ/mode/tables/toflttbl.gzo �f`��*��5�'��:8��P��7��:��@��ˀ � G �x,��p�� A��5+A�F�%R �targ/mode/tables/toflttbl.gzo ��,J�6�'��:8��P��7��u��ˀ � G �x,��p�� A��5+A�F�,�e�targ/mode/tables/toflttbl.gzo �x��. �6�'��:8��P��7�� w��ˀ � G �x,��p�� A��5+A�F�4R �targ/mode/tables/toflttbl.gzo �c��/6�'��:8��P��7�� ˀ � G �x,��p�� A��5+A�F�;��targ/mode/tables/toflttbl.gzo �^��1}�6�'��:8��P��7�� ˀ � G �x,��p�� A��5+A�F�CRe�targ/mode/tables/toflttbl.gzo �Y��31�6�'��:8��P��7��@��ˀ � G �x,��p�� A��5A�F�J�T�targ/mode/tables/toflttbl.gzo �Y��4ۍ6�'��:8��P��7��8��ˀ � G �x,��p�� A��5A�F�RR �targ/mode/tables/toflttbl.gzo �:0��6��6�'��:8��P��7��K��$�ˀ � G �x,��p�� A��5A�F�Y��targ/mode/tables/toflttbl.gzo �p��8~�6�'��:8��P��7��M��&@�ˀ � G �x,��p�� A��5A�F�aR��targ/mode/tables/toflttbl.gzo �*��:>�7�'��: 8��P��7��T��O�'��ˀ � G �x,��p�� A��5A�F�h� �targ/mode/tables/toflttbl.gzo �%P��;�7�'��: 8��P��7��R�*��ˀ � G �x,��p�� A��5A�F�pR��targ/mode/tables/toflttbl.gzo � ��=��7�'��: 8��P��7��T�,��ˀ � G �x,��p�� A��5A�F�w�e�targ/mode/tables/toflttbl.gzo � ��?E�7�'��: 8��P��7��R��Z��ˀ � G �x,�p�� A��5A�F�R��targ/mode/tables/toflttbl.gzo ��A�8�'��: 8��P��7��@�i��ˀ � G �x,�p�� A��5A�F��targ/mode/tables/toflttbl.gzo �� B��8�'��: 8��P��7��|��l@�ˀ � G �x,�p�� A��5A�F��Re�targ/mode/tables/toflttbl.gzo ��@��De�8�'��: 8��P��7��&��ˀ � G �x,�p�� A��5A�F��targ/mode/tables/toflttbl.gzo ��@��F�8�'��: 8��P��7��@�ˀ � G �x,�p�� A��5A�F��R �targ/mode/tables/toflttbl.gzo ��`��GЍ8�'��: 8��P��7��@��ˀ � G �x,�p�� A��5A�F��e�targ/mode/tables/toflttbl.gzo ��I��8�'��: 8��P��7��t��ɀ��ˀ � G �x,�p�� A��5A�F��R �targ/mode/tables/toflttbl.gzo ��K@�@�'��:8��P��7�� ǀ�ˀ � G �x,�p�� A��5A�F��targ/mode/tables/toflttbl.gzo ��`��L��A�'��:8��P��7��`��ۀ�ˀ � G �x,�p�� A��5A�F��R��targ/mode/tables/toflttbl.gzo ��N��A�'��:8��P��7��B��@��ˀ � G �x,�p�� A��5A�F�� targ/mode/tables/toflttbl.gzo ��Pc�A�'��:8��P��7�� @�ˀ � G �x,�p�� A��5A�F��R��targ/mode/tables/toflttbl.gzo ��R�A�'��:8��P��7��M��&@�ˀ � G �x,�p�� A��5A�F��targ/mode/tables/toflttbl.gzo ��S��A�'��:8��P��7��@�W��ˀ � G �x,�p�� A��5A�F��R��targ/mode/tables/toflttbl.gzo �t��U|�A�'��:8��P��7��%��x@�ˀ � G �x,�p�� A��4�A�F��targ/mode/tables/toflttbl.gzo �_��W*�A�'��:8��P��7��O��@�ˀ � G �x,�p�� A��4�A�F��R\�targ/mode/tables/toflttbl.gzo �_��XҍA�'��:8��P��7��ˀ � G �x,�p�� A��4�A�F��targ/mode/tables/toflttbl.gzo ��0��Z�B�'��:8��P��7��e��>�ˀ � G �x,��p�� A��4�A�F��R �targ/mode/tables/toflttbl.gzo ��\)�B�'��:8��P��7��U��g�?��ˀ � G �x,��p�� A��4�A�F��e�targ/mode/tables/toflttbl.gzo �~p��]�B�'��:8��P��7��i�A��ˀ � G �x,��p�� A��4�A�F�R/�targ/mode/tables/toflttbl.gzo �~p��_��B�'��:8��P��7��o��ˀ � G �x,��p�� A��4�A�F� � �targ/mode/tables/toflttbl.gzo �Y��aX�D�'��:8��P��7��ˀ � G �x,��p�� A��4�A�F�R��targ/mode/tables/toflttbl.gzo �RP��c�D�'��:8��P��7��@�ˀ � G �x,��p�� A��4�A�F��.^�targ/mode/tables/toflttbl.gzo �,��dƍD�'��:8��P��7��Ҁ��ˀ � G �x,��p�� A��4�A�F�$Re�targ/mode/tables/toflttbl.gzo �%��fy�D�'��:8��P��7�� @�ˀ � G �x,��p�� A��4�A�F�+��targ/mode/tables/toflttbl.gzo �%��h&�D�'��:8��P��7�� V��,��ˀ � G �x,��p�� A��4�A�F�3Re�targ/mode/tables/toflttbl.gzo �R��i׍E�'��:8��P��7�� ^�6��ˀ � G �x,��p�� A��4�A�F�:��targ/mode/tables/toflttbl.gzo �^��k|�F�'��:8��Q��7��d@�ˀ � G �x,��p�� A��4�A�F�BR��targ/mode/tables/toflttbl.gzo �]`��mD�F�'��:8��Q��7��!��@�ˀ � G �x,��p�� A��4�A�F�I�e�targ/mode/tables/toflttbl.gzo �]`��n�F�'��:8��Q��7��!��S��ˀ � G �x,�p�� A��4�A�F�QR��targ/mode/tables/toflttbl.gzo �]`��p��F�'��:8��Q��7��!��@��ˀ � G �x,�p�� A��4�A�F�X��targ/mode/tables/toflttbl.gzo �]`��r>�F�'��:8��Q��7��!��J@�"��ˀ � G �x,�p�� A��4�A�F�`Re�targ/mode/tables/toflttbl.gzo �\��s��F�'��:8��Q��7��"��v�N��ˀ � G �x,�p�� A��4�A�F�g� �targ/mode/tables/toflttbl.gzo �Y��u��F�'��:8��Q��7��"��f��ˀ � G �x,�� A��4�A�F�oR,g�targ/mode/tables/toflttbl.gzo �T��wP�F�'��:8��Q��7��"��"��i@�ˀ � G �x,�� A��4�A�F�v�e�targ/mode/tables/toflttbl.gzo �P`��x��F�'��:8��Q��7��#��y��k@�ˀ � G �x,�� A��4�A�F�~Re�targ/mode/tables/toflttbl.gzo �|��z��G�'��:8��R��7��#��[��ˀ � G �x,�� A��4�A�F��e�targ/mode/tables/toflttbl.gzo �|��|^�H�'��:8��R��7��#��ˀ � G �x,�� A��4�A�F��R��targ/mode/tables/toflttbl.gzo �|��~�I�'��:8��R��7��#��ˀ � G �x,�� A��4�A�F��e�targ/mode/tables/toflttbl.gzo �|��I�'��:8��R��7��#��F��M�%��ˀ � G �x,�� A��4�A�F��R �targ/mode/tables/toflttbl.gzo �|��m�I�'��:8��R��7��#��{�S��ˀ � G �x,�� A��4�A�F��targ/mode/tables/toflttbl.gzo �{��I�'��:8��R��7��$��`��@�ˀ � G �x,�� A��4�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 225 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 99 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK138SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BBRHKTRIGTIME42' / BR HK trigger time (time42) TFORM3 = '1D ' / data format of field: 8-byte DOUBLE TUNIT3 = 's ' / physical unit of field TTYPE4 = 'undocumented1' / Byte field not in ITOS database TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BBRHKTRIGDUR' / BR HK trigger duration TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 8590065.664 / data offset (2G shift B_BR_4MS_A conversion) TSCAL5 = 0.004 / data scaling (B_BR_4MS_A conversion) TTYPE6 = 'BBRHKSOURCETYPE' / BR HK source type TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BBRHKTHETA' / BR HK burst/transient location in radial coord.TFORM7 = '1E ' / data format of field: 4-byte REAL TUNIT7 = 'rad ' / physical unit of field TTYPE8 = 'BBRHKPHI' / BR HK burst/transient location in azimuthal cooTFORM8 = '1E ' / data format of field: 4-byte REAL TUNIT8 = 'rad ' / physical unit of field TTYPE9 = 'BBRHKSTRENGTH' / BR HK burst/transient strength in image units TFORM9 = '1E ' / data format of field: 4-byte REAL TTYPE10 = 'BBRHKLOCSIGMA' / BR HK burst/transient rms near src location TFORM10 = '1E ' / data format of field: 4-byte REAL TTYPE11 = 'BBRHKCATNUM' / BR HK burst/transient catalog number of src (-1TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BBRHKTECHNIQUE' / BR HK burst/transient technique to get the src TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BBRHKINTRSGSTR' / BR HK burst/transient source brightness for intTFORM13 = '1E ' / data format of field: 4-byte REAL TTYPE14 = 'BBRHKRARAD' / BR HK R.A. in radians TFORM14 = '1E ' / data format of field: 4-byte REAL TUNIT14 = 'rad ' / physical unit of field TTYPE15 = 'BBRHKDECRAD' / BR HK Declination in radians TFORM15 = '1E ' / data format of field: 4-byte REAL TUNIT15 = 'rad ' / physical unit of field TTYPE16 = 'BBRHKFBURST' / BR HK burst flag TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BBRHKFINTERSTING' / BR HK interesting flag TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BBRHKFIMAGETRIG' / BR HK image trigger flag TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BBRHKFCONTINUOUS' / BR HK continuous observation flag TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BBRHKERANGE' / BR HK Trigger energy TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BBRHKFINRATETRIG' / BR HK processing new rate trigger TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BBRHKTIMESINCE' / BR HK time since trigger TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BBRHKMERIT0' / BR HK Merit item 0 TFORM23 = '1I ' / data format of field: 2-byte INTEGER TTYPE24 = 'BBRHKMERIT1' / BR HK Merit item 1 TFORM24 = '1I ' / data format of field: 2-byte INTEGER TTYPE25 = 'BBRHKMERIT2' / BR HK Merit item 2 TFORM25 = '1I ' / data format of field: 2-byte INTEGER TTYPE26 = 'BBRHKMERIT3' / BR HK Merit item 3 TFORM26 = '1I ' / data format of field: 2-byte INTEGER TTYPE27 = 'BBRHKMERIT4' / BR HK Merit item 4 TFORM27 = '1I ' / data format of field: 2-byte INTEGER TTYPE28 = 'BBRHKMERIT5' / BR HK Merit item 5 TFORM28 = '1I ' / data format of field: 2-byte INTEGER TTYPE29 = 'BBRHKMERIT6' / BR HK Merit item 6 TFORM29 = '1I ' / data format of field: 2-byte INTEGER TTYPE30 = 'BBRHKMERIT7' / BR HK Merit item 7 TFORM30 = '1I ' / data format of field: 2-byte INTEGER TTYPE31 = 'BBRHKMERIT8' / BR HK Merit item 8 TFORM31 = '1I ' / data format of field: 2-byte INTEGER TTYPE32 = 'BBRHKMERIT9' / BR HK Merit item 9 TFORM32 = '1I ' / data format of field: 2-byte INTEGER TTYPE33 = 'undocumented2' / Byte field not in ITOS database TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BBRHKTRIGNUM' / BR HK trigger number TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BBRHKTRYINGTRIG' / BR HK triggers tried since TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BBRHKTRYINGMET' / BR HK triggers tried at MET TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TUNIT36 = 's ' / physical unit of field TTYPE37 = 'undocumented3' / Byte field not in ITOS database TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'undocumented4' / Byte field not in ITOS database TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'undocumented5' / Byte field not in ITOS database TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'undocumented6' / Byte field not in ITOS database TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'undocumented7' / Byte field not in ITOS database TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'undocumented8' / Byte field not in ITOS database TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BCAHKCALTYPE' / Calibration Type, 0=none,1=offset,2=gain,other=TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BCAHKPULDAC' / Value to set the pulser TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BCAHKPULPER' / Period of the pulser (500 ns units) TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 32768 / offset for unsigned integers TTYPE46 = 'BCAHKDWELLCNT' / Dwell Count TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BCAHKCALMODE' / Cal Mode TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BCAHKENDMODE' / End Mode TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BCAHKCALDONE' / This command has been completed TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BCAHKBLOCKWISE' / If true, do blocks sequentially, otherwise simuTFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BCAHKLONGCAL' / If true, calibration events are long TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BCAHKCALTM' / Send pulseheight calibration to the ground TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BCAHKSEGSTRIPTM' / send segment/strip results to the ground TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BCAHKSLEWONLY' / Only run during slew TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BCAHKTRUMPSAUTO' / Run even if automatic run (gain/offset) TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BCAHKEVENSAA' / Do calibration even if in SAA TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'undocumented9' / Byte field not in ITOS database TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'undocumented10' / Bit field not in ITOS database TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BCAHKCALTYPEN' / Calibration Type, 0=none,1=offset,2=gain,other=TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAHKPULDACN' / Value to set the pulser TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAHKPULPERN' / Period of the pulser (500 ns units) TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BCAHKDWELLCNTN' / Dwell Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BCAHKCALMODEN' / Cal Mode TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BCAHKENDMODEN' / End Mode TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BCAHKCALDONEN' / This command has been completed TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BCAHKBLOCKWISEN' / If true, do blocks sequentially, otherwise simuTFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'BCAHKLONGCALN' / If true, calibration events are long TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BCAHKCALTMN' / Send pulseheight calibration to the ground TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BCAHKSEGSTRIPTMN' / send segment/strip results to the ground TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BCAHKSLEWONLYN' / Only run during slew TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BCAHKTRUMPSAUTON' / Run even if automatic run (gain/offset) TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BCAHKEVENSAAN' / Do calibration even if in SAA TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'undocumented11' / Byte field not in ITOS database TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'undocumented12' / Bit field not in ITOS database TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BCAHKLASTOFFMET' / Last Offset time, U1234 format TFORM75 = '1J ' / data format of field: 4-byte INTEGER TTYPE76 = 'BCAHKLASTGAINMET' / Last Gain time, U1234 format TFORM76 = '1J ' / data format of field: 4-byte INTEGER TTYPE77 = 'BCAHKLASTOINDEX' / Last Offset Index TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 32768 / offset for unsigned integers TTYPE78 = 'BCAHKLASTGINDEX' / Last Gain Index TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 32768 / offset for unsigned integers TTYPE79 = 'BCAHKMODDONE01' / Done flags for modules in block 01 TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BCAHKMODDONE00' / Done flags for modules in block 00 TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 32768 / offset for unsigned integers TTYPE81 = 'BCAHKMODDONE03' / Done flags for modules in block 03 TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 32768 / offset for unsigned integers TTYPE82 = 'BCAHKMODDONE02' / Done flags for modules in block 02 TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 32768 / offset for unsigned integers TTYPE83 = 'BCAHKMODDONE05' / Done flags for modules in block 05 TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 32768 / offset for unsigned integers TTYPE84 = 'BCAHKMODDONE04' / Done flags for modules in block 04 TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BCAHKMODDONE07' / Done flags for modules in block 07 TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BCAHKMODDONE06' / Done flags for modules in block 06 TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BCAHKMODDONE09' / Done flags for modules in block 09 TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BCAHKMODDONE08' / Done flags for modules in block 08 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BCAHKMODDONE11' / Done flags for modules in block 11 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BCAHKMODDONE10' / Done flags for modules in block 10 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BCAHKMODDONE13' / Done flags for modules in block 13 TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BCAHKMODDONE12' / Done flags for modules in block 12 TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BCAHKMODDONE15' / Done flags for modules in block 15 TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 32768 / offset for unsigned integers TTYPE94 = 'BCAHKMODDONE14' / Done flags for modules in block 14 TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 32768 / offset for unsigned integers TTYPE95 = 'BCAHKDOINGBLK' / Which block are we currently calibrating TFORM95 = '1I ' / data format of field: 2-byte INTEGER TTYPE96 = 'BCAHKPAD' / Padding TFORM96 = '1I ' / data format of field: 2-byte INTEGER TTYPE97 = 'BCAHKUSEDMET' / What time did we start to use current gain:offsTFORM97 = '1J ' / data format of field: 4-byte INTEGER TTYPE98 = 'BCAHKUSEDGAIN' / Index of currently-used gain values TFORM98 = '1I ' / data format of field: 2-byte INTEGER TTYPE99 = 'BCAHKUSEDOFF' / Index of currently used offset values TFORM99 = '1I ' / data format of field: 2-byte INTEGER EXTNAME = 'hk138x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894073.6423 TSTOP = 713896263.64234 DATE-OBS= '2023-08-16T15:54:28' DATE-END= '2023-08-16T16:30:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2190.00003993511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 312 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3X2A4X073X0A3X07' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3048701550' / data unit checksum updated 2023-08-26T08:43:45 COMMENT Column 6 = BBRHKSOURCETYPE - Discrete value COMMENT 0 = Empty = BR HK, Source Type, 0=Empty COMMENT 1 = New = BR HK, Source Type, 1=New COMMENT 2 = AutoGRB = BR HK, Source Type, 2=AutoGRB COMMENT 3 = OldGRB = BR HK, Source Type, 3=OldGRB COMMENT 4 = X-ray Binary = BR HK, Source Type, 4=X-ray Binary COMMENT 5 = Black Hole = BR HK, Source Type, 5=Black Hole COMMENT 6 = Pulsar = BR HK, Source Type, 6=Pulsar COMMENT 7 = Soft Gamma Repeater = BR HK, Source Type, 7=Soft Gamma Repeater COMMENT 8 = X-ray Nova = BR HK, Source Type, 8=X-ray Nova COMMENT 9 = Active Galactic Nucleus = BR HK, Source Type, 9=Active Galactic COMMENT 10 = Rapid Burster = BR HK, Source Type, 10=Rapid Burster COMMENT 11 = X-ray Burster = BR HK, Source Type, 11=X-ray Burster COMMENT 12 = Other = BR HK, Source Type, 12=Other COMMENT 13 = Unknown = BR HK, Source Type, 13=Unknown COMMENT 14 = Special1 = BR HK, Source Type, 14=Special1 COMMENT 15 = Special2 = BR HK, Source Type, 15=Special2 COMMENT 16 = Special3 = BR HK, Source Type, 16=Special3 COMMENT 17 = Special4 = BR HK, Source Type, 17=Special4 COMMENT 18 = Special5 = BR HK, Source Type, 18=Special5 COMMENT 19 = Special6 = BR HK, Source Type, 19=Special6 COMMENT 20 = Special7 = BR HK, Source Type, 20=Special7 COMMENT 21 = Special8 = BR HK, Source Type, 21=Special8 COMMENT 22 = Special9 = BR HK, Source Type, 22=Special9 COMMENT 23 = Aversion = BR HK, Source Type, 23=Aversion COMMENT Column 12 = BBRHKTECHNIQUE - Discrete value COMMENT 0 = Clean = BR HK, Technique Used, 0=Clean COMMENT 1 = Back_project = BR HK, Technique Used, 0=Back_project COMMENT 2 = FFT 1 pixel = BR HK, Technique Used, 0=FFT 1 pixel COMMENT 3 = FFT 2 pixel = BR HK, Technique Used, 0=FFT 2 pixel COMMENT 4 = FFT 4 pixel = BR HK, Technique Used, 0=FFT 4 pixel COMMENT 5 = Other = BR HK, Technique Used, 0=Other COMMENT Column 43 = BCAHKCALTYPE - Discrete value COMMENT 0 = None = CA Calibration Type, 0=None COMMENT 1 = Offset = CA Calibration Type, 1=Offset COMMENT 2 = Gain = CA Calibration Type, 2=Gain COMMENT 3-255 = Ground = CA Calibration Type, >2=Ground COMMENT Column 49 = BCAHKCALDONE - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 50 = BCAHKBLOCKWISE - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 51 = BCAHKLONGCAL - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 52 = BCAHKCALTM - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 53 = BCAHKSEGSTRIPTM - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 54 = BCAHKSLEWONLY - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 55 = BCAHKTRUMPSAUTO - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 56 = BCAHKEVENSAA - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 59 = BCAHKCALTYPEN - Discrete value COMMENT 0 = None = CA Calibration Type, 0=None COMMENT 1 = Offset = CA Calibration Type, 1=Offset COMMENT 2 = Gain = CA Calibration Type, 2=Gain COMMENT 3-255 = Ground = CA Calibration Type, >2=Ground COMMENT Column 65 = BCAHKCALDONEN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 66 = BCAHKBLOCKWISEN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 67 = BCAHKLONGCALN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 68 = BCAHKCALTMN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 69 = BCAHKSEGSTRIPTMN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 70 = BCAHKSLEWONLYN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 71 = BCAHKTRUMPSAUTON - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 72 = BCAHKEVENSAAN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False HISTORY TASK: FAPPND on FILENAME: sw01185673000b138x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�\�6�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd��πd�N*�$b*��O��*�$�O#A�F�dR6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd��πd�N*�$b*��O��*�$�O#A�F�k�7��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd��πd�N*�$b*��O��*�$�O#A�F�sR4�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�z�7��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R7��A�E��S��?s4Z�Ac�C�\�A��@Nde��.��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�E��S��?s4Z�Ac�C�\�A��@Nde��=��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��L��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��[��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��RM+�A�E��S��?s4Z�Ac�C�\�A��@Nde��j��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�E��S��?s4Z�Ac�C�\�A��@Nde��y��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��82�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R:ҀA�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��82�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F� R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�E��S��?s4Z�Ac�C�\�A��@Nde��-��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��<��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��K��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�'R7��A�E��S��?s4Z�Ac�C�\�A��@Nde��Z��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�.�6�A�E��S��?s4Z�Ac�C�\�A��@Nde��i��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�6R3��A�E��S��?s4Z�Ac�C�\�A��@Nde��x��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�=�6�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�ER4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�L�4�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�TR82�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�[�5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�cR4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�j�6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�rR3��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�y�5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�E��S��?s4Z�Ac�C�\�A��@Nde��,��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��;��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R=q�A�E��S��?s4Z�Ac�C�\�A��@Nde��J��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�E��S��?s4Z�Ac�C�\�A��@Nde��Y��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6�A�E��S��?s4Z�Ac�C�\�A��@Nde��h��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��w��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��N{�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R8ڀA�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��l��A�E��S��?s4Z�Ac�C�\�A��@Nde��'��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��+��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�E��S��?s4Z�Ac�C�\�A��@Nde�� +��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R5��A�E��S��?s4Z�Ac�C�\�A��@Nde��+��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��7��A�E��S��?s4Z�Ac�C�\�A��@Nde��+��+��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R4D�A�E��S��?s4Z�Ac�C�\�A��@Nde��:��+��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�E��S��?s4Z�Ac�C�\�A��@Nde��I��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�&RX��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�-�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��*��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�5R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��9��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�<�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��H��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�DRI�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��W��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�K�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��f��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�SR4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��u��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�Z�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�bRG�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�i�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�qR4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�x�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��82�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��8��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��G��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��V��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��e��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��t��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R8ڀA�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��:*�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��`-�A�F�bN��>c1;@L�C(a�A�y��@�f0?)�� >��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�%R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�,�4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��(��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�4R82�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��7��>��,0��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�;�5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��F��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�CR4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��U��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�J�8ڀA�F�bN��>c1;@L�C(a�A�y��@�f0?)��d��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�RR5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��s��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�Y�4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�aR7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�h�4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�pR5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�w�7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��6�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)�� >��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��'��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��6��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��E��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��T��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��c��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��r��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��82�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�RJ��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F� �4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�R6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��I=�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�$R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�+�6;�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��&��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�3R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��5��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�:�7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��D��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�BR3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��S��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�I�4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��b��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�QR5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��q��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�X�6�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�`R4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�g�4�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�oRGE�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�v�7��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F�~R3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��3��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R9��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��4D�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��R5��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#A�F��82�A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l��Ѐd�u��πd�N*�$b*�(��P��*�(�P#XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 199 / width of table in bytes NAXIS2 = 441 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 67 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK139SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BDIHKDATAMET' / Data MET time, U1234 format TFORM3 = '1J ' / data format of field: 4-byte INTEGER TUNIT3 = 's ' / physical unit of field TTYPE4 = 'BDIHKLAG' / How far DI is lagging, TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BDIHKNFAULTS' / Number of data/software faults found TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BDIHKLASTFAULT' / Identity of last fault TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BDIHKBLKRATE' TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL7 = 16 / data scaling (BDICONVTIMES16 conversion) TUNIT7 = 'count ' / physical unit of field TTYPE8 = 'BDIHKBLKRATE64S' TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL8 = 16 / data scaling (BDICONVTIMES16 conversion) TUNIT8 = 'count ' / physical unit of field TTYPE9 = 'BDIHKNGOODDETS' / Number of detectors functioning TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BDIHKBCDHVER' / Count of BCDH command verifies TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BDIHKDMVER' / Count of DM command verifies TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BDIHKBCDHEXC' / Count of BCDH command exceptions TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BDIHKDMEXC' / Count of DM command exceptions TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BDIHKDMPARITY' / Count of DM parity errors TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BDIHKDMALARMS' / Count of DM alarms TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BDIHKMICERRORS' / Count of MIC errors TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BDIHKTIMELAG' / How far DI is lagging, seconds TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TUNIT17 = 's ' / physical unit of field TTYPE18 = 'BDIHKGRBFOLLOW' / Is DI doing a GRB follow-up TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDIHKFORCEINVAL' / Is data forced to be invalid? TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDIHKSLEWING' / Is DI in slew mode TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDIHKSAA' / Is DI in SAA mode TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDIHKVALID' / Is DI producing valid data TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDIHKTRIGGERABLE' / Is DI producing triggerable data TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDIHKDAPSAA' / Is DAP believed to be in SAA state? TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDIHKUVOTFILTMV' / Is UVOT filter moving? TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'undocumented1' / Byte field not in ITOS database TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'undocumented2' / Byte field not in ITOS database TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'undocumented3' / Byte field not in ITOS database TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'undocumented4' / Byte field not in ITOS database TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'undocumented5' / Byte field not in ITOS database TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'undocumented6' / Byte field not in ITOS database TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'undocumented7' / Byte field not in ITOS database TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'undocumented8' / Byte field not in ITOS database TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'undocumented9' / Byte field not in ITOS database TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'undocumented10' / Byte field not in ITOS database TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'undocumented11' / Byte field not in ITOS database TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'undocumented12' / Byte field not in ITOS database TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'undocumented13' / Byte field not in ITOS database TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'undocumented14' / Byte field not in ITOS database TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'undocumented15' / Byte field not in ITOS database TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'undocumented16' / Byte field not in ITOS database TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'undocumented17' / Byte field not in ITOS database TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BTGHKTYPE' / Trigger Status Type TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BTGHKAFTERBURN' / Trigger afterburners running TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BTGHKSCORE' / Trigger Status Score TFORM45 = '1E ' / data format of field: 4-byte REAL TTYPE46 = 'BTGHKTRIGID' / Trigger Status Trigger ID TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BTGHKTRIGEXPTICK' / Trigger Status Trigger Expire, tTICK TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BTGHKBESTSCORE' / Trigger Status best trigger strength TFORM48 = '1E ' / data format of field: 4-byte REAL TTYPE49 = 'BTGHKRATCHET' / Trigger Status number of trigger ratchets TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BTGHKNEW' / Trigger Status new trigger found TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'BTGHKBSHSER' / Trigger Status best short series TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BTGHKBSHTICK' / Trigger Status best short time, tTICK TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTGHKBSHTIMESCAL' / Trigger Status best short timescale TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BTGHKBLNGSERIES' / Trigger Status best long series TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BTGHKBLNGNTRIG' / Trigger Status criterion TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTGHKBGSTARTTICK' / Trigger Status best long background start, tTICTFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTGHKBGENDTICK' / Trigger Status best long background stop, tTICKTFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BTGHKFGSTARTTICK' / Trigger Status best long foreground start, tTICTFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BTGHKFGENDTICK' / Trigger Status best long foreground stop, tTICKTFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BTGHKFOREBACK' / Trigger Status best long foreback ratio TFORM60 = '1E ' / data format of field: 4-byte REAL TTYPE61 = 'BTGHKHARDNESS' / Trigger Status best long hardness ratio TFORM61 = '1E ' / data format of field: 4-byte REAL TTYPE62 = 'BTGHKLEVALPER8' / Long trigger evaluations/8 seconds TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BTGHKDITGCPU' / CPU usage by DI+TG TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 327.68 / data offset (32k shift B_TG_PERCENT conversion)TSCAL63 = 0.01 / data scaling (B_TG_PERCENT conversion) TTYPE64 = 'BTGHKNTHROTTLED' / Trigger criteria throttled for CPU usage TFORM64 = '1I ' / data format of field: 2-byte INTEGER TTYPE65 = 'BTGHKVETONUM' / What source catnum is being vetoed TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BTGHKCANCELNUM' / What source catnum is being cancelled TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BTGHKMODY2K' / What gets added to tick count to fix 'Y2k' typeTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers EXTNAME = 'hk139x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894064.84144 TSTOP = 713896264.84146 DATE-OBS= '2023-08-16T15:54:19' DATE-END= '2023-08-16T16:30:59' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2200.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 313 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'a5GKc2FJa2FJa2FJ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '1485293712' / data unit checksum updated 2023-08-26T08:43:45 TRDHI12 = 50 / BDIHKBCDHEXC Red upper limit = BDI_BCDHEXC_LIM TYEHI12 = 49 / BDIHKBCDHEXC Yellow upper limit = BDI_BCDHEXC_LTRDHI16 = 2 / BDIHKMICERRORS Red upper limit = BDI_MICERR_LIMTYEHI16 = 1 / BDIHKMICERRORS Yellow upper limit = BDI_MICERR_COMMENT Column 43 = BTGHKTYPE - Discrete value COMMENT 0 = None = TG Status Type, 0=None COMMENT 1 = Long = TG Status Type, 1=Long COMMENT 2 = Short = TG Status Type, 2=Short COMMENT 3-4294967294 = Unknown = TG Status Type, >2=Unknown COMMENT Column 53 = BTGHKBSHTIMESCAL - Discrete value COMMENT 0 = 4 ms = TG Status Timescale, 0=4ms COMMENT 1 = 8 ms = TG Status Timescale, 1=8ms COMMENT 2 = 16 ms = TG Status Timescale, 2=16ms COMMENT 3 = 32 ms = TG Status Timescale, 3=32ms COMMENT 4 = 64 ms = TG Status Timescale, 4=64ms COMMENT 5-4294967294 = Unknown = TG Status Timescale, >4=Unknown HISTORY TASK: FAPPND on FILENAME: sw01185673000b139x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TNULL26 = 2147483647 TNULL8 = 32767 TNULL29 = 2147483647 TNULL47 = 2147483647 TNULL36 = 2147483647 TNULL46 = 2147483647 TNULL30 = 2147483647 TNULL15 = 32767 TNULL66 = 32767 TNULL57 = 2147483647 TNULL56 = 2147483647 TNULL9 = 32767 TNULL31 = 2147483647 TNULL39 = 2147483647 TNULL67 = 32767 TNULL14 = 32767 TNULL64 = 32767 TNULL51 = 2147483647 TNULL40 = 2147483647 TNULL11 = 32767 TNULL17 = 32767 TNULL58 = 2147483647 TNULL2 = 2147483647 TNULL33 = 2147483647 TNULL38 = 2147483647 TNULL28 = 2147483647 TNULL3 = 2147483647 TNULL16 = 32767 TNULL59 = 2147483647 TNULL32 = 2147483647 TNULL65 = 32767 TNULL13 = 32767 TNULL50 = 2147483647 TNULL35 = 2147483647 TNULL41 = 2147483647 TNULL10 = 32767 TNULL4 = 32767 TNULL53 = 2147483647 TNULL55 = 2147483647 TNULL44 = 32767 TNULL52 = 2147483647 TNULL62 = 32767 TNULL27 = 2147483647 TNULL12 = 32767 TNULL7 = 32767 TNULL37 = 2147483647 TNULL43 = 32767 TNULL63 = 32767 TNULL54 = 2147483647 TNULL34 = 2147483647 TNULL49 = 2147483647 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Xk�N�*�(��V��͐� �� D2�̀�ݓ�@ި��ݐ��U�[��\A�F�Z�N�*�(��5��͠� �� I��D2�̀�ݓ�@ި��ݐ��U��\A�F�]k�N�*�(�� D2�̀�ݓ�@ި��ݐ��U�i��\A�F�_�N�*�(�� D2�̀�ݓ�@ި��ݐ��U��\A�F�bk��*�(��\�� M��D2�̀�ݓ�@ި��ݐ��\A�F�d�N�*�(��P� �� N��D2�̀�ݓ�@ި��ݐ��2��\A�F�gk��*�(��7��C� ��D2�̀�ݓ�@ި��ݐ��\A�F�i��*�(À��ف��Р� �� D2�̀�ݓ�@ި��ݐ��\A�F�lk��*�(Ӏ2��Ё��@� �� D2�̀�ݓ�@ި��ݐ��D��\A�F�n�N�*�(܀��ā�� D2�̀�ݓ�@ި��ݐ��8��\A�F�qk��*�(��́��p�"�� D2�̀�ݓ�@ި��ݐ��\A�F�s�N�*�(��́��"�� D2�̀�ݓ�@ި��ݐ��\A�F�vk��*�(��ā��`�"�� D2�̀�ݓ�@ި��ݐ��y��\A�F�x��*�(��΁�� D2�̀�ݓ�@ި��ݐ��\A�F�{k�N�*�(��ȁ��P�"�� L��D2�̀�ݓ�@ި��ݐ��B��\A�F�}뷕�*�(��"�� |��D2�̀�ݓ�@ި��ݐ��\A�F��k�N�*�(��Ł��@�"�� )��D2�̀�ݓ�@ި��ݐ��m��\A�F��볧�*�)��ԁ��"�� M��D2�̀�ݓ�@ި��ݐ��G��\A�F��k��*�) ��"�� D2�̀�ݓ�@ި��ݐ��\A�F��*�)��Ɓ��`�"�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�)��ρ��ذ�"�� X��D2�̀�ݓ�@ި��ݐ��^��\A�F��*�)��Ɓ��P�"�� W��D2�̀�ݓ�@ި��ݐ��^��\A�F��k�F�*�)��ف��٠�"�� D2�̀�ݓ�@ި��ݐ��u��\A�F��*�)"��ҁ��@�"�� "��D2�̀�ݓ�@ި��ݐ��u� ��\A�F��k�N�*�)'��ȁ��ڐ�"�� D2�̀�ݓ�@ި��ݐ��u�+��\A�F��볧�*�),��Ё��0�"�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�)1��ۀ�"�� D2�̀�ݓ�@ި��ݐ��\A�F��볧�*�)6�� "�� D2�̀�ݓ�@ި��ݐ��8��\A�F��k�N�*�);��ā��p�"�� [��D2�̀�ݓ�@ި��ݐ��\A�F��*�)@��с��"�� i��D2�̀�ݓ�@ި��ݐ��8��\A�F��k�N�*�)E��Ł��`�"�� D2�̀�ݓ�@ި��ݐ��,��\A�F��*�)J��΁��"�� >��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�)O��P�"�� D2�̀�ݓ�@ި��ݐ��K��\A�F��N�*�)T��Á��"�� D2�̀�ݓ�@ި��ݐ��v��\A�F��k��*�)Y��ā��@�"�� D2�̀�ݓ�@ި��ݐ��\A�F��볧�*�)^��ʁ��"�� D2�̀�ݓ�@ި��ݐ��\A�F��k�F�*�)c��Ձ��0�"�� D2�̀�ݓ�@ި��ݐ��\A�F��*�)h��Ɓ��"�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�)m��с�� "�� D2�̀�ݓ�@ި��ݐ��a��\A�F��*�)r��́��"�� D2�̀�ݓ�@ި��ݐ��k��\A�F��k�N�*�)w��"�� E��D2�̀�ݓ�@ި��ݐ��_��\A�F��*�)|��"�� J��D2�̀�ݓ�@ި��ݐ��C��\A�F��k��*�)��"�� D2�̀�ݓ�@ި��ݐ��C��\A�F��*�)��Ɓ��"�� D2�̀�ݓ�@ި��ݐ��g��\A�F��k��*�)��΁��"�� D2�̀�ݓ�@ި��ݐ��Y��\A�F��*�)��ρ��"�� D2�̀�ݓ�@ި��ݐ��Y�3��\A�F��k��*�)��ҁ�� "�� D2�̀�ݓ�@ި��ݐ��^��\A�F��܀*�)��"�� D2�̀�ݓ�@ި��ݐ��}��\A�F��k��*�)��ʁ��"�� D2�̀�ݓ�@ި��ݐ��}�f��\A�F��볧�*�)��ˁ��p"�� D2�̀�ݓ�@ި��ݐ��|��\A�F��k��*�)��߁��"��m��D2�̀�ݓ�@ި��ݐ��|�{��\A�F��N�*�)��Ӂ��`"�� v��D2�̀�ݓ�@ި��ݐ��|�A��\A�F��k��*�)��"��D2�̀�ݓ�@ި��ݐ��G��\A�F��*�)��P"�� '��D2�̀�ݓ�@ި��ݐ��\A�F��k�N�*�)��ā��!"�� D2�̀�ݓ�@ި��ݐ��=��\A�F��*�)��Ɂ��@$"�� D2�̀�ݓ�@ި��ݐ��1�g��\A�F��k��*�)ǀ��ˁ��&"�� D2�̀�ݓ�@ި��ݐ��1��\A�F��볧�*�)̀��Á��0)"�� D2�̀�ݓ�@ި��ݐ��%��\A�F��k��*�)р��́��+"�� D2�̀�ݓ�@ި��ݐ��Ŏv��\A�F��볧�*�)ր�� ."�� D2�̀�ݓ�@ި��ݐ��ŎW��\A�F��k��*�)ۀ��́��p0"�� s��D2�̀�ݓ�@ި��ݐ��\A�F��*�)��3"�� q��D2�̀�ݓ�@ި��ݐ��펹��\A�F��k��*�)��ǁ��`5"��G��D2�̀�ݓ�@ި��ݐ��鎹��\A�F��뵞�*�)��΁��8"�� d��D2�̀�ݓ�@ި��ݐ��F��\A�F��k��*�)��ǁ��P:"��"��D2�̀�ݓ�@ި��ݐ��+��\A�F��볧�*�)��="��,��D2�̀�ݓ�@ި��ݐ��Y��\A�F��k��*�)��@?"�� D2�̀�ݓ�@ި��ݐ��\A�F��*�)��Ɓ��B"��D2�̀�ݓ�@ި��ݐ��\A�F�k��*�*��0D"�� D2�̀�ݓ�@ި��ݐ��|��\A�F�볧�*�*��`U"�� L��D2�̀�ݓ�@ި��ݐ��|�L��\A�F�k��*�* ��Ɓ��W"�� D2�̀�ݓ�@ި��ݐ��\A�F� ��*�*��PZ"�� "��D2�̀�ݓ�@ި��ݐ��O��\A�F�k�N�*�*��ȁ��\"�� D2�̀�ݓ�@ި��ݐ��e��\A�F��*�*��ā��@_"�� D2�̀�ݓ�@ި��ݐ��Ӑ'��\A�F�k��*�*!��ʁ��a"�� D2�̀�ݓ�@ި��ݐ��a��\A�F��N�*�*&��Á��0d"�� D2�̀�ݓ�@ި��ݐ��a��\A�F�k��*�*+��ǁ��f"�� D2�̀�ݓ�@ި��ݐ��k��\A�F�뷕�*�*0��Ɓ�� i"�� D2�̀�ݓ�@ި��ݐ��k�d��\A�F�k�N�*�*5��pk"�� k��D2�̀�ݓ�@ި��ݐ��_��\A�F�뷕�*�*:��n$�� m��D2�̀�ݓ�@ި��ݐ��X��\A�F� k�N�*�*?��Ł��`oԀ��D2�̀�ݓ�@ި��ݐ��X��\A�F�"�W�*�*D��s$�� D2�̀�ݓ�@ި��ݐ��@#��\A�F�%k��*�*I��ȁ��Pu$�� D2�̀�ݓ�@ި��ݐ��s��\A�F�'볧�*�*N��x$�� D2�̀�ݓ�@ި��ݐ��Q��\A�F�*k��*�*S��@z$�� D2�̀�ݓ�@ި��ݐ��a��\A�F�,�N�*�*X��Ł��}$��D2�̀�ݓ�@ި��ݐ��\A�F�/k�F�*�*]��0$�� w��D2�̀�ݓ�@ި��ݐ��-��\A�F�1��*�*b��Ђ$�� {��D2�̀�ݓ�@ި��ݐ��\A�F�4k�N�*�*g�� $�� :��D2�̀�ݓ�@ި��ݐ��\A�F�6볧�*�*l��$�� ?��D2�̀�ݓ�@ި��ݐ��^��\A�F�9k��*�*q��$�� D2�̀�ݓ�@ި��ݐ��u�Q��\A�F�;볧�*�*v��Ł��$�� D2�̀�ݓ�@ި��ݐ��u�~��\A�F�>k��*�*{��ǁ��$�� D2�̀�ݓ�@ި��ݐ��u�^��\A�F�@�F�*�*��́��$�� D2�̀�ݓ�@ި��ݐ��u��\A�F�Ck��*�*��ʁ��$�� D2�̀�ݓ�@ި��ݐ��\A�F�E��*�*��$�� D2�̀�ݓ�@ި��ݐ��\A�F�Hk��*�*��ȁ��$�� q��D2�̀�ݓ�@ި��ݐ��\A�F�J�N�*�*��ȁ��$�� D2�̀�ݓ�@ި��ݐ��\A�F�Mk��*�*��ˁ��Н$�� I��D2�̀�ݓ�@ި��ݐ��Ύ\��\A�F�O��*�*��ǁ��p�$�� [��D2�̀�ݓ�@ި��ݐ��Ώ'��\A�F�Rk��*�*��ā��$��D2�̀�ݓ�@ި��ݐ��\A�F�T볧�*�*��`�$�� D2�̀�ݓ�@ި��ݐ��A��\A�F�Wk��*�*��$�� D2�̀�ݓ�@ި��ݐ��K��\A�F�Y�N�*�*��P�$�� D2�̀�ݓ�@ި��ݐ��\A�F�\k�F�*�*��Á��$�� D2�̀�ݓ�@ި��ݐ��d��\A�F�^볧�*�*��@�$�� D2�̀�ݓ�@ި��ݐ��\A�F�ak��*�*��$�� x��D2�̀�ݓ�@ި��ݐ��\A�F�c��*�*ƀ��Ё��0�$�� D2�̀�ݓ�@ި��ݐ��\A�F�fk��*�*ˀ��$�� O��D2�̀�ݓ�@ި��ݐ��w��\A�F�h��*�*Ѐ�� $�� \��D2�̀�ݓ�@ި��ݐ��\A�F�kk��*�*Հ��p�$��D2�̀�ݓ�@ި��ݐ��C�H��\A�F�m��*�*ڀ��Á��$�� :��D2�̀�ݓ�@ި��ݐ��b�q��\A�F�pk�N�*�*߀��`�$�� D2�̀�ݓ�@ި��ݐ��b�o��\A�F�r뵞�*�*��$�� D2�̀�ݓ�@ި��ݐ��Y�E��\A�F�uk��*�*��P�$�� D2�̀�ݓ�@ި��ݐ��`�9��\A�F�w��*�*��$��D2�̀�ݓ�@ި��ݐ��`�D��\A�F�zk��*�*��@�$�� D2�̀�ݓ�@ި��ݐ��}��\A�F�|��*�*��$��D2�̀�ݓ�@ި��ݐ��}�!��\A�F�k�N�*�*��0�$�� b��D2�̀�ݓ�@ި��ݐ��|��\A�F��*�+��$�� c��D2�̀�ݓ�@ި��ݐ��|��\A�F��kȟ�*�+�� $�� -��D2�̀�ݓ�@ި��ݐ��|�_��\A�F��볧�*�+��$�� B��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+�� $�� D2�̀�ݓ�@ި��ݐ��E��\A�F��볧�*�+�� $�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+��ȁ�� $�� D2�̀�ݓ�@ި��ݐ��\A�F��*�+ �� $�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+%�� $�� D2�̀�ݓ�@ި��ݐ��E��\A�F��볧�*�+*��$�� D2�̀�ݓ�@ި��ݐ��[��\A�F��k��*�+/��$�� |��D2�̀�ݓ�@ި��ݐ��\A�F��*�+4�� $�� 9��D2�̀�ݓ�@ި��ݐ��\A�F��k�N�*�+9��Ɓ�� `�$�� D2�̀�ݓ�@ި��ݐ��u��\A�F��*�+>��$�� D2�̀�ݓ�@ި��ݐ��h ��\A�F��k��*�+C��ā��P$�� D2�̀�ݓ�@ި��ݐ��\A�F��볧�*�+H��$�� D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+M��@$�� D2�̀�ݓ�@ި��ݐ��v��\A�F��볧�*�+R��$��D2�̀�ݓ�@ި��ݐ��x�4��\A�F��k�N�*�+W��Ɓ��0 $�� d��D2�̀�ݓ�@ި��ݐ��x�\��\A�F��N�*�+\�� $��c��D2�̀�ݓ�@ި��ݐ��\A�F��k�N�*�+a�� $�� (��D2�̀�ݓ�@ި��ݐ��/��\A�F��*�+f��$��>��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+k��$�� D2�̀�ݓ�@ި��ݐ��e�A��\A�F��볧�*�+p��$�� D2�̀�ݓ�@ި��ݐ��e��\A�F��k�F�*�+u��$�� D2�̀�ݓ�@ި��ݐ��4��\A�F��볧�*�+z��$�� D2�̀�ݓ�@ި��ݐ��/��\A�F��k�N�*�+��$��a��D2�̀�ݓ�@ި��ݐ��K��\A�F��뵞�*�+��!$��V��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+��#$�� D2�̀�ݓ�@ި��ݐ��w��\A�F��볧�*�+��&$��D2�̀�ݓ�@ި��ݐ��w��\A�F��k��*�+��($��D2�̀�ݓ�@ި��ݐ��w��\A�F��뵞�*�+��p+$�� D2�̀�ݓ�@ި��ݐ��w��\A�F��k��*�+��-$��D2�̀�ݓ�@ި��ݐ��t�@��\A�F��*�+��`0$�� D2�̀�ݓ�@ި��ݐ��v��\A�F��k��*�+��2$��l��D2�̀�ݓ�@ި��ݐ��v�I��\A�F��*�+��P5$��D2�̀�ݓ�@ި��ݐ��v�;��\A�F��k��*�+��7$��S��D2�̀�ݓ�@ި��ݐ��x��\A�F��*�+��@:$��R��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+��<$��D2�̀�ݓ�@ި��ݐ��p��\A�F��볧�*�+��0?$��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+ŀ��Ł��A$��D2�̀�ݓ�@ި��ݐ��\A�F��N�*�+ʀ�� D$�� D2�̀�ݓ�@ި��ݐ��;��\A�F��k��*�+π��pF$��D2�̀�ݓ�@ި��ݐ��{��\A�F��=�*�+Ԁ��Á��I$�� D2�̀�ݓ�@ި��ݐ��\A�F��k�W�*�+ـ��`K$��D2�̀�ݓ�@ި��ݐ��X��\A�F��볧�*�+ހ��N$��D2�̀�ݓ�@ި��ݐ��\A�F��k��*�+��PP$��b��D2�̀�ݓ�@ި��ݐ��\A�F��*�+��ǁ��S$��b��BQ̀��ѡ@p��͹��\A�F��k��*�+��@U$��BQ̀��ѡ@p��͹��S��\A�F��*�+��X$��BQ̀��ѡ@p��͹��\A�F��k�N�*�+��0Z$��BQ̀��ѡ@p��͹��`��\A�F��*�+��]$��BQ̀��ѡ@p��͹��~��\A�F�k��*�,�� _$�� BQ̀��ѡ@p��͹��;��\A�F�볧�*�,�� b$��BQ̀��ѡ@p��͹��;��\A�F�k�F�*�,��!d$�� S��BQ̀��ѡ@p��͹��\A�F��*�,��!�g$��_��BQ̀��ѡ@p��͹��\A�F�k��*�,��"i$�� '��BQ̀��ѡ@p��͹��\A�F� �N�*�,��"�l$��+��BQ̀��ѡ@p��͹��\A�F�k�N�*�,��"�n$��BQ̀��ѡ@p��͹��Q��\A�F�뷕�*�,$��#�q$�� BQ̀��ѡ@p��͹��B��\A�F�k��*�,)��#�s$��BQ̀��ѡ@p��͹��U�@��\A�F��*�,.��́��$�v$��BQ̀��ѡ@p��͹��U�#��\A�F�k��*�,3��$�x$�� Bն(��6B ��t��@��O?��\A�F�볧�*�,8��ၽ��%`z$��Y��Cb�.��6BM�� t��p��?��S&��\A�F�k��*�,=��%�}$��Cb�.��6BM�� t��p��?��ߞ��\A�F�!�N�*�,B��&`�$��?��CgFJ��6B+�� z��g�҆?��(�h��\A�F�$k��*�,G��&��$��CgFJ��6B+�� z��g�҆?��(�h��\A�F�&�N�*�,L��'P�$�� CgFJ��6B+�� z��g�҆?��(�p�)��\A�F�)k��*�,Q��'��$��CgFJ��6B+�� z��g�҆?��(��\A�F�+��*�,V��(@�$�� CgFJ��6B+�� z��g�҆?��(��6��\A�F�.k�N�*�,[��(��$��CgFJ��6B+�� z��g�҆?��(��U��\A�F�0��*�,`��)0�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�3k�P�*�,e��)��$��CgFJ��6B+�� z��g�҆?��(��\A�F�5볧�*�,j��* �$�� CgFJ��6B+�� z��g�҆?��(��\A�F�8k�F�*�,o��*p�$��CgFJ��6B+�� z��g�҆?��(��m��\A�F�:볧�*�,t��+�$�� CgFJ��6B+�� z��g�҆?��(��j��\A�F�=k��*�,y��+`�$��CgFJ��6B+�� z��g�҆?��(��\A�F�?�N�*�,~��,�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�Bk��*�,��,�$��H��CgFJ��6B+�� z��g�҆?��(��p��\A�F�D볧�*�,��ā��-��$�� X��CgFJ��6B+�� z��g�҆?��(��\A�F�Gk��*�,��-г$��+��CgFJ��6B+�� z��g�҆?��(��\A�F�I��*�,��.p�$�� J��CgFJ��6B+�� z��g�҆?��(��\A�F�Lk��*�,��.��$��CgFJ��6B+�� z��g�҆?��(��\A�F�N��*�,��/`�$�� G��CgFJ��6B+�� z��g�҆?��(��\A�F�Qk��*�,��/��$��CgFJ��6B+�� z��g�҆?��(��\A�F�S��*�,��ā��0P�$�� E��CgFJ��6B+�� z��g�҆?��(��\A�F�Vk�F�*�,��0��$��CgFJ��6B+�� z��g�҆?��(��\A�F�X��*�,��́��1@�$�� D��CgFJ��6B+�� z��g�҆?��(�� \A�F�[k��*�,��1��$�� CgFJ��6B+�� z��g�҆?��(��\A�F�]�N�*�,��20�$�� #��CgFJ��6B+�� z��g�҆?��(��\A�F�`k�G�*�,��2��$�� CgFJ��6B+�� z��g�҆?��(��x��\A�F�b볧�*�,Ā��3 �$��CgFJ��6B+�� z��g�҆?��(��\A�F�ek�r�*�,ɀ��3p�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�g��*�,΀��Ɓ��4�$��(��CgFJ��6B+�� z��g�҆?��(��\A�F�jk��*�,Ӏ��4`�$�� CgFJ��6B+�� z��g�҆?��(�� \A�F�l��*�,؀��5�$��CgFJ��6B+�� z��g�҆?��(��'��\A�F�ok��*�,݀��5P�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�q�N�*�,��5��$�� CgFJ��6B+�� z��g�҆?��(��~��\A�F�tk��*�,��6@�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�v��*�,��6��$��CgFJ��6B+�� z��g�҆?��(��\A�F�yk��*�,��70�$�� CgFJ��6B+�� z��g�҆?��(��\A�F�{볧�*�,��7��$�� CgFJ��6B+�� z��g�҆?��(��%��\A�F�~k�*�,��8 �$�� CgFJ��6B+�� z��g�҆?��(��a��\A�F��*�-��8��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��9�$��CgFJ��6B+�� z��g�҆?��(��\A�F��*�- ��9��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-��:�$��CgFJ��6B+�� z��g�҆?��(��Y��\A�F��뷕�*�-��:��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k�W�*�-��:��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-��;��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-#��;��$�� CgFJ��6B+�� z��g�҆?��(��\A�F��N�*�-(��<�$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�--��<�$�� CgFJ��6B+�� z��g�҆?��(��\A�F��N�*�-2��=p$�� CgFJ��6B+�� z��g�҆?��(��f��\A�F��k�N�*�-7��=�$�� CgFJ��6B+�� z��g�҆?��(��\A�F��*�-<��>`$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-A��ā��>� $�� CgFJ��6B+�� z��g�҆?��(��\A�F��F�*�-F��?P$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-K��?�$�� CgFJ��6B+�� z��g�҆?��(��Q��\A�F��F�*�-P��@@$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-U��ā��@�$�� CgFJ��6B+�� z��g�҆?��(��#��\A�F��*�-Z��A0$�� CgFJ��6B+�� z��g�҆?��(��+��\A�F��k��*�-_��A�$�� CgFJ��6B+�� z��g�҆?��(��\A�F��*�-d��B $�� CgFJ��6B+�� z��g�҆?��(��6��\A�F��k�N�*�-i��Bp!$�� CgFJ��6B+�� z��g�҆?��(��x��\A�F��N�*�-n��C$$�� CgFJ��6B+�� z��g�҆?��(��$��\A�F��k��*�-s��C`&$�� CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-x��D)$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-}��DP+$�� k��CgFJ��6B+�� z��g�҆?��(�� \A�F��*�-��D�.$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-��E@0$�� j��CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-��FpA$�� 1��CgFJ��6B+�� z��g�҆?��(��^��\A�F��k�N�*�-��F�C$��CgFJ��6B+�� z��g�҆?��(��r��\A�F��N�*�-��G`F$�� "��CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��G�H$��CgFJ��6B+�� z��g�҆?��(��\A�F��*�-��HPK$�� #��CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��H�M$�� CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-��I@P$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��I�R$�� CgFJ��6B+�� z��g�҆?��(��]��\A�F��W�*�-��J0U$�� CgFJ��6B+�� z��g�҆?��(��o��\A�F��k��*�-��J�W$�� CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-��K Z$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-À��Kp\$�� CgFJ��6B+�� z��g�҆?��(��\A�F��N�*�-Ȁ��L_$�� CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-̀��L`a$�� w��CgFJ��6B+�� z��g�҆?��(��?��\A�F��뵞�*�-Ҁ��Md$�� q��CgFJ��6B+�� z��g�҆?��(��\A�F��k��*�-׀��MPf$��-��CgFJ��6B+�� z��g�҆?��(��|��\A�F��뵞�*�-܀��M�i$��3��CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��N@k$�� CgFJ��6B+�� z��g�҆?��(��\A�F��*�-��ǁ��N�n$��CgFJ��6B+�� z��g�҆?��(��\A�F��k�N�*�-��O0p$�� CgFJ��6B+�� z��g�҆?��(��r��\A�F��*�-��O�s$��CgFJ��6B+�� z��g�҆?��(��_��\A�F��k��*�-��P u$��<��CgFJ��6B+�� z��g�҆?��(��\A�F��볧�*�-��P�x$��R��CgFJ��6B+�� z��g�҆?��(��\A�F�k�N�*�-��Qz$�� CgFJ��6B+�� z��g�҆?��(��\A�F��N�*�.��Q�}$�� CgFJ��6B+�� z��g�҆?��(��z��\A�F�k�F�*�. ��R$�� CgFJ��6B+�� z��g�҆?��(��I��\A�F�볧�*�.��R��$�� CgFJ��6B+�� z��g�҆?��(��\A�F� k�N�*�.��Ł��R��$�� r��CgFJ��6B+�� z��g�҆?��(��\A�F��*�.��S��$�� m��CgFJ��6B+�� z��g�҆?��(��-��\A�F�k�N�*�.��S��$�� (��CgFJ��6B+�� z��g�҆?��(��L��\A�F��*�."��T��$�� <��CgFJ��6B+�� z��g�҆?��(��"��\A�F�k��*�.'��TЎ$�� CgFJ��6B+�� z��g�҆?��(��p��\A�F�볧�*�.,��Up�$�� CgFJ��6B+�� z��g�҆?��(��>��\A�F�k��*�.1��U��$�� CgFJ��6B+�� z��g�҆?��(�~��\A�F�볧�*�.6��V`�$�� CgFJ��6B+�� z��g�҆?��(�~�O��\A�F�k��*�.;��V��$�� )��CgFJ��6B+�� z��g�҆?��(�w�l��\A�F� 볧�*�.@��WP�$�� G��CgFJ��6B+�� z��g�҆?��(�w��\A�F�#k��*�.E��W��$�� CgFJ��6B+�� z��g�҆?��(�t��\A�F�%��*�.J��X@�$�� CgFJ��6B+�� z��g�҆?��(�v��\A�F�(k�N�*�.O�� ́��X��$�� CgFJ��6B+�� z��g�҆?��(�v�G��\A�F�*뷕�*�.T�� Y0�$�� CgFJ��6B+�� z��g�҆?��(�v�P��\A�F�-k�N�*�.Y�� Á��Y��$�� d��CgFJ��6B+�� z��g�҆?��(�}��\A�F�/�N�*�.^�� ā��Z �$�� r��CgFJ��6B+�� z��g�҆?��(�}�;��\A�F�2k��*�.c�� Á��Zp�$�� (��CgFJ��6B+�� z��g�҆?��(��\A�F�4�N�*�.h�� [�$�� CgFJ��6B+�� z��g�҆?��(��-��\A�F�7k��*�.n�� [m�$�� CgFJ��6B+�� z��g�҆?��(��O��\A�F�9�N�*�.r�� \�$�� B0S��BA@��Z��\A�F�볧�*�.|�� ā��\�$�� x��B0S��BA@��Z��\A�F�Ak�a�*�.�� ]@�$�� B0S��BA@��Z��m��\A�F�C볧�*�.�� ]�$��B0S��BA@��Z��*��\A�F�Fk��*�.�� ^0�$�� B0S��BA@��Z��/��\A�F�H볧�*�.�� ^��$�� B0S��BA@��Z��/��\A�F�Kk��*�.�� _ �$�� h��B0S��BA@��Z��x��\A�F�M뷕�*�.�� _��$�� Q��B0S��BA@��Z��\A�F�Pk��*�.�� `�$�� B0S��BA@��Z��\A�F�R��*�.�� `��$��B0S��BA@��Z��\A�F�Uk�N�*�.�� a�$�� B0S��BA@��Z��\A�F�W�N�*�.�� a��$�� B0S��BA@��Z��\A�F�Zk��*�.�� a��$��R��B0S��BA@��Z��N��\A�F�\�N�*�.�� b��$�� [��B0S��BA@��Z��N�)��\A�F�_k��*�.�� b��$��B0S��BA@��Z��.��\A�F�a�N�*�.� �Ɂ��c��$��(��B0S��BA@��Z��S��\A�F�dk�N�*�.ǀ� ��c��$�� B0S��BA@��Z��\A�F�f볧�*�.̀� ��dp�$�� B0S��BA@��Z��\A�F�ik��*�.р� ��d��$��z��B0S��BA@��Z��e��\A�F�k�N�*�.ր� ��e`�$�� B0S��BA@��Z��<��\A�F�nk�N�*�.ۀ� ��e��$��-��B0S��BA@��Z��B��\A�F�p볧�*�.�� fP�$��=��B0S��BA@��Z��\A�F�sk�N�*�.�� f��$�� B0S��BA@��Z��}�K��\A�F�u��*�.�� g@�$�� B0S��BA@��Z��~�K��\A�F�xk��*�.�� g��$��B0S��BA@��Z��~��\A�F�z��6�*�.�� h�$��J��B0S��BA@��Z��}�z��\A�F�}k��*�.�� i$�� B0S��BA@��Z��|��\A�F��*�.�� i�$��B0S��BA@��Z��|�N��\A�F��k�N�*�/�� ρ��j $�� B0S��BA@��Z��|�m��\A�F��N�*�/�� j� $�� B0S��BA@��Z��|��\A�F��k��*�/ �� j�$�� e��B0S��BA@��Z��\A�F��N�*�/�� k�$�� r��B0S��BA@��Z��I��\A�F��k�N�*�/�� k�$��5��B0S��BA@��Z��]��\A�F��*�/�� l�$�� 9��B0S��BA@��Z��l��\A�F��k��*�/!�� l�$�� B0S��BA@��Z��<��\A�F��N�*�/&�� mp$�� B0S��BA@��Z��1��\A�F��k�N�*�/+�� m�$�� B0S��BA@��Z��\A�F��뵞�*�/0�� n`!$�� B0S��BA@��Z��\A�F��k��*�/5�� Á��n�#$��X��B0S��BA@��Z��\A�F��N�*�/:�� oP&$�� /��B0S��BA@��Z��\A�F��k��*�/?�� o�($�� B0S��BA@��Z��)��\A�F��N�*�/D�� p@+$�� B0S��BA@��Z��>��\A�F��k�N�*�/I�� p�-$�� B0S��BA@��Z��\A�F��볧�*�/N�� q00$�� B0S��BA@��Z��/��\A�F��k��*�/S�� q�2$��G��B0S��BA@��Z��\A�F��볧�*�/X�� r 5$�� C��B0S��BA@��Z��R��\A�F��k�N�*�/]�� rp7$�� B0S��BA@��Z��$��\A�F��뷕�*�/b�� s:$��B0S��BA@��Z��'��\A�F��k��*�/g�� s`<$�� B0S��BA@��Z��;��\A�F��N�*�/l�� t?$�� B0S��BA@��Z��\A�F��k��*�/q�� tPA$�� v��B0S��BA@��Z��\A�F��뻄�*�/v�� t�D$��z��B0S��BA@��Z��\A�F��k��*�/{�� u@F$��B0S��BA@��Z��\A�F��볧�*�/�� u�I$��+��B0S��BA@��Z��\A�F��k��*�/�� v0K$�� B0S��BA@��Z��\A�F��*�/�� v�N$��B0S��BA@��Z��w�%��\A�F��k��*�/�� w P$�� B0S��BA@��Z��w�E��\A�F��N�*�/�� w�S$��B0S��BA@��Z��w��\A�F��k��*�/�� xU$��c��B0S��BA@��Z��t�`��\A�F��*�/�� x�X$��l��B0S��BA@��Z��t�9��\A�F��k��*�/�� yZ$��.��B0S��BA@��Z��v�&��\A�F��΅�*�/�� ā��y�]$��=��B0S��BA@��Z��v��\A�F��k��*�/�� ā��y�_$��B0S��BA@��Z��v��\A�F��6�*�/�� z�b$��B0S��BA@��Z��\A�F��k��*�/�� z�d$��B0S��BA@��Z��\A�F��N�*�/�� {�g$��B0S��BA@��Z��\A�F��k��*�/�� {�i$��C��B0S��BA@��Z��x��\A�F��*�/ƀ� ��|pl$��U��B0S��BA@��Z��L��\A�F��k��*�/ˀ� ��|�n$��B0S��BA@��Z��\A�F��*�/Ѐ� ��}`q$��!��B0S��BA@��Z��\A�F��kȟ�*�/Հ� ��}�s$��B0S��BA@��Z��\A�F��*�/ڀ� ��~Pv$��B0S��BA@��Z��j��\A�F��k��*�/߀� ��~�x$��Y��B0S��BA@��Z��\A�F��*�/�� @{$��\��B0S��BA@��Z��\A�F��k��*�/�� }$��B0S��BA@��Z��\A�F��G�*�/�� 0�$�� B0S��BA@��Z��s��\A�F��k�N�*�/�� 򀀂$�� B0S��BA@��Z��\A�F��볧�*�/�� $�� B0S��BA@��Z��O��\A�F��k��*�/�� p�$�� >��B0S��BA@��Z��\A�F��*�0�� $��G��B0S��BA@��Z��\A�F�k��*�0�� `�$�� B0S��BA@��Z��B��\A�F�볧�*�0�� $�� B0S��BA@��Z��\A�F� k�F�*�0�� $�� [��B0S��BA@��Z��3��\A�F��W�*�0�� 򄀢$�� a��B0S��BA@��Z��w��\A�F�k��*�0�� Ф$�� B0S��BA@��Z��M��\A�F�볧�*�0 �� p�$�� B0S��BA@��Z��\A�F�k��*�0%�� $�� B0S��BA@��Z��D��\A�F��N�*�0*�� `�$��B0S��BA@��Z��\A�F�k��*�0/�� 򆰮$�� B0S��BA@��Z��w��\A�F�뷕�*�04�� P�$�� B0S��BA@��Z��\A�F�k��*�09�� 򇠳$�� 9��B0S��BA@��Z��\A�F��*�0>�� @�$�� 9��B0S��BA@��Z��}�h��\A�F�"k��*�0C�� 򈐸$�� B0S��BA@��Z��}��\A�F�$��*�0H�� 0�$�� B0S��BA@��Z��}��\A�F�'k��*�0M�� 򉀽$�� B0S��BA@��Z��}��\A�F�)��*�0R�� $�� B0S��BA@��Z��|��\A�F�,k��*�0W�� p�$�� B0S��BA@��Z��|�k��\A�F�.��*�0\�� $�� B0S��BA@��Z��\A�F�1k��*�0a�� `�$�� F��B0S��BA@��Z�� \A�F�3��*�0f�� $�� N��B0S��BA@��Z��\A�F�6k��*�0k�� P�$�� B0S��BA@��Z��\A�F�8볧�*�0q�� $�� B0S��BA@��Z��\A�F�;k�N�*�0u�� @�$�� B0S��BA@��Z��|��\A�F�=��*�0z�� $�� B0S��BA@��Z��\A�F�@k��*�0�� 0�$�� J��B0S��BA@��Z��\A�F�B볧�*�0�� $�� [��B0S��BA@��Z��\A�F�Ek�N�*�0�� $�� B0S��BA@��Z��\A�F�G�N�*�0�� $�� B0S��BA@��Z��\A�F�Jk�F�*�0�� $�� B0S��BA@��Z��w��\A�F�L볧�*�0�� $�� B0S��BA@��Z��\A�F�Ok�F�*�0�� $�� B0S��BA@��Z��.��\A�F�Q��*�0�� $�� B0S��BA@��Z��\A�F�Tk��*�0�� $��U��B0S��BA@��Z��\A�F�V�N�*�0�� $�� [��B0S��BA@��Z��7��\A�F�Yk�N�*�0�� $�� B0S��BA@��Z��\A�F�[볧�*�0�� $�� B0S��BA@��Z��\A�F�^k��*�0�� $�� B0S��BA@��Z��\A�F�`��*�0�� p�$�� B0S��BA@��Z��\A�F�ck��*�0ŀ� ��$�� m��B0S��BA@��Z��\A�F�e�N�*�0ʀ� ��`�$�� B0S��BA@��Z��\A�F�hk��*�0π� ��$��2��B0S��BA@��Z��\A�F�j�N�*�0Ԁ� ��P$�� @��B0S��BA@��Z��b��\A�F�mkȟ�*�0ـ� ��$��B0S��BA@��Z��\A�F�o볧�*�0ހ� ��@$�� B0S��BA@��Z��5��\A�F�rk��*�0�� $�� B0S��BA@��Z��w��\A�F�t볧�*�0�� 0$�� B0S��BA@��Z��w�3��\A�F�wk�N�*�0�� $�� h��B0S��BA@��Z��v��\A�F�y��*�0�� $�� g��B0S��BA@��Z��u�:��\A�F�|k��*�0�� p$��B0S��BA@��Z��u��\A�F�~�F�*�0�� $�� B0S��BA@��Z��v��\A�F��k��*�1�� `$�� B0S��BA@��Z��v��\A�F��볧�*�1�� $�� B0S��BA@��Z��v�^��\A�F��k��*�1�� P$�� B0S��BA@��Z��\A�F��*�1�� -$�� &��B0S��BA@��Z��\A�F��k��*�1�� /$�� B0S��BA@��Z��\A�F��N�*�1�� p2$�� B0S��BA@��Z��)��\A�F��k�F�*�1�� 4$�� B0S��BA@��Z��$��\A�F��*�1$�� `7$�� B0S��BA@��Z��/��\A�F��k��*�1)�� 9$�� g��B0S��BA@��Z��`��\A�F��*�1.�� P<$�� t��B0S��BA@��Z��\A�F��k�N�*�13�� >$�� $��B0S��BA@��Z��n��\A�F��*�18�� @A$�� B0S��BA@��Z��/��\A�F��k��*�1=�� C$�� B0S��BA@��Z��\A�F��뵞�*�1B�� 0F$�� B0S��BA@��Z��\A�F��k��*�1G�� H$�� B0S��BA@��Z��x��\XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 92 / width of table in bytes NAXIS2 = 147 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 31 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK13ASSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BSPHKCURRNAME' / Filename completed or being dumped now TFORM3 = '12A ' / data format of field: ASCII Character TTYPE4 = 'BSPHKPREVNAME' / Filename of most recent dump completed TFORM4 = '12A ' / data format of field: ASCII Character TTYPE5 = 'BSPHKSTARTMET' / MET of last start, U1234 TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BSPHKNSURVEY' / Survey dump counter TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BSPHKNAM241MAP' / Am-241 Map dump counter TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BSPHKNAM241SPECT' / Am-241 Spectra dump counter TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BSPHKNFOURCH' / 4-channel map dump counter TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BSPHKNONECH' / 1-channel map dump counter TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BSPHKNBACKSUB' / Back subtraction dump counter TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BSPHKNGAINMAP' / Gain map dump counter TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BSPHKNOFFMAP' / Offset map dump counter TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BSPHKNCALMAP' / Cal map dump counter TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BSPHKNSTRPSEGMAP' / Strip segment map dump counter TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSPHKNMASKWTS' / Mask weight map dump counter TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSPHKNEVDUMP' / Event dump counter TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BSPHKNACSDUMP' / ACS dump counter TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BSPHKNPULSAR' / Pulsar bins dump counter TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BSPHKNDETEN' / Det enabled dump counter TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSPHKNDETIM' / Det imaged dump counter TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BSPHKNSCALEDMAP' / Strip map dump counter TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BSPHKNSEGMAP' / Segment map dump counter TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BSPHKNGAINOFF' / Gain offset map dump counter TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSPHKNCMDBLS' / DI commandables dump counter TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSPHKNDAPHK' / DAP HK (pigeonholed data) dump counter TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BSPHKNSPARE1' / Spare 1 dump counter TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSPHKNSPARE2' / Spare 2 dump counter TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSPHKNSPARE3' / Spare 3 dump counter TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 32768 / offset for unsigned integers TTYPE30 = 'BSPHKNSPARE4' / Spare 4 dump counter TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BSPHKNOTHER' / Spare 5 (catch-all) dump counter TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers EXTNAME = 'hk13ax001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894064.84224 TSTOP = 713896254.84232 DATE-OBS= '2023-08-16T15:54:19' DATE-END= '2023-08-16T16:30:49' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2190.00007998943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 314 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'FhKjIeKgFeKgFeKg' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '325486834' / data unit checksum updated 2023-08-26T08:43:45 HISTORY TASK: FAPPND on FILENAME: sw01185673000b13ax001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Xk΅�sl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F�_��-�sl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F�gk�̀sl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F�n��-�sl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F�vk�Հsl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F�}��t�sl8qa1oz.sdmsl8q9ugz.sdm��(8��X�'�0�f�CZ��'��A�F��k�݀ml8qa7lz.wgtml8qa7lz.wgt��(��Y�'�0�f�C\��'��A�F��݀ml8qa7lz.wgtml8qa7lz.wgt��(��Y�'�0�f�C\��'��A�F��k�Հml8qa7lz.wgtml8qa7lz.wgt��(��Y�'�0�f�C\��'��A�F��΅�ml8qa7lz.wgtml8qa7lz.wgt��(��Y�'�0�f�C\��'��A�F��k�Հsl8qa7oz.sdmml8qa7lz.wgt��(��Y�'�0�f�C\��(��A�F��-�sl8qa7oz.sdmml8qa7lz.wgt��(��Y�'�0�f�C\��(��A�F��k�̀sl8qa7oz.sdmml8qa7lz.wgt��(��Y�'�0�f�C\��(��A�F��΅�sl8qa7oz.sdmml8qa7lz.wgt��(��Y�'�0�f�C\��(��A�F��k΅�sl8qa9oz.sdmsl8qa7oz.sdm��)8��Y�'�0�f�C\��)��A�F��̀sl8qa9oz.sdmsl8qa7oz.sdm��)8��Y�'�0�f�C\��)��A�F��k�Հsl8qa9oz.sdmsl8qa7oz.sdm��)8��Y�'�0�f�C\��)��A�F��Հsl8qa9oz.sdmsl8qa7oz.sdm��)8��Y�'�0�f�C\��)��A�F��k�-�sl8qaboz.sdmsl8qa9oz.sdm��)x��Y�'�0�f�C\��*��A�F��΅�sl8qaboz.sdmsl8qa9oz.sdm��)x��Y�'�0�f�C\��*��A�F��k�݀sl8qaboz.sdmsl8qa9oz.sdm��)x��Y�'�0�f�C\��*��A�F��$�sl8qaboz.sdmsl8qa9oz.sdm��)x��Y�'�0�f�C\��*��A�F��k�݀sl8qaboz.sdmsl8qa9oz.sdm��)x��Y�'�0�f�C\��*��A�F��΅�hl8qag7z.dhksl8qadoz.sdm��*��Y�'�0�f�C\��+��A�F�k�-�hl8qag7z.dhksl8qadoz.sdm��*��Y�'�0�f�C\��+��A�F��Հhl8qag7z.dhksl8qadoz.sdm��*��Y�'�0�f�C\��+��A�F�k�Հhl8qag7z.dhksl8qadoz.sdm��*��Y�'�0�f�C\��+��A�F�"��6�hl8qag7z.dhksl8qadoz.sdm��*��Y�'�0�f�C\��+��A�F�*k�}�al8qa7iz.spcal8qa7iz.spc��(򴫐��Y�'�0�f�C]��-��A�F�1��Հml8qai9z.wgtml8qai9z.wgt��*I��Y�'�0�f�C]��-��A�F�9k΅�ml8qai9z.wgtml8qai9z.wgt��*I��Y�'�0�f�C]��-��A�F�@��̀sl8qahoz.sdmml8qai9z.wgt��*8��Y�'�0�f�C]��.��A�F�Hk΅�sl8qahoz.sdmml8qai9z.wgt��*8��Y�'�0�f�C]��.��A�F�O�΅�sl8qahoz.sdmml8qai9z.wgt��*8��Y�'�0�f�C]��.��A�F�Wk��sl8qahoz.sdmml8qai9z.wgt��*8��Y�'�0�f�C]��.��A�F�^�΅�sl8qahoz.sdmml8qai9z.wgt��*8��Y�'�0�f�C]��.��A�F�fk�-�sl8qajoz.sdmsl8qahoz.sdm��*x��Y�'�0�f�C]��/��A�F�m��̀sl8qajoz.sdmsl8qahoz.sdm��*x��Y�'�0�f�C]��/��A�F�uk΅�sl8qajoz.sdmsl8qahoz.sdm��*x��Y�'�0�f�C]��/��A�F�|��Հsl8qajoz.sdmsl8qahoz.sdm��*x��Y�'�0�f�C]��/��A�F��k�~�sl8qaloz.sdmsl8qajoz.sdm��*��Y�'�0�f�C]��0��A�F��΅�sl8qaloz.sdmsl8qajoz.sdm��*��Y�'�0�f�C]��0��A�F��k΅�sl8qaloz.sdmsl8qajoz.sdm��*��Y�'�0�f�C]��0��A�F��Հhl8qapjz.dhksl8qaloz.sdm��+3��Y�'�0�f�C]��0��A�F��k΅�sl8qanoz.sdmhl8qapjz.dhk��*��Y�'�0�f�C]��1��A�F��΅�sl8qanoz.sdmhl8qapjz.dhk��*��Y�'�0�f�C]��1��A�F��k΅�sl8qanoz.sdmhl8qapjz.dhk��*��Y�'�0�f�C]��1��A�F��΅�sl8qanoz.sdmhl8qapjz.dhk��*��Y�'�0�f�C]��1��A�F��k΅�sl8qapoz.sdmal8qaguz.spc��+8��Y�'�0�f�C]��2��A�F��}�sl8qahoz.sdmsl8qapoz.sdm��*8��Y�'�0�f�C]��3��A�F��k�}�sl8qahoz.sdmsl8qapoz.sdm��*8��Y�'�0�f�C]��3��A�F��΅�sl8qahoz.sdmsl8qapoz.sdm��*8��Y�'�0�f�C]��3��A�F��k�n�sl8qahoz.sdmsl8qapoz.sdm��*8��Y�'�0�f�C]��3��A�F��Հsl8qaroz.sdmsl8qahoz.sdm��+x��Y�'�0�f�C]��4��A�F��k�݀sl8qaroz.sdmsl8qahoz.sdm��+x��Y�'�0�f�C]��4��A�F��Հsl8qaroz.sdmsl8qahoz.sdm��+x��Y�'�0�f�C]��4��A�F��k�-�sl8qav2z.sdmsl8qaroz.sdm��+⴬��Y�'�0�f�C]��5��A�F��΅�sl8qav2z.sdmsl8qaroz.sdm��+⴬��Y�'�0�f�C]��5��A�F�k�݀sl8qav2z.sdmsl8qaroz.sdm��+⴬��Y�'�0�f�C]��5��A�F��t�sl8qav2z.sdmsl8qaroz.sdm��+⴬��Y�'�0�f�C]��5��A�F�k�݀sl8qatoz.sdmel8qav1z.evl��+��Y�'�0 �f�C]��6��A�F�!��ml8qb1uz.wgtml8qb1uz.wgt��,>��Y�'�0 �f�C]��9��A�F�)k�̀ml8qb1uz.wgtml8qb1uz.wgt��,>��Y�'�0 �f�C]��9��A�F�0��ml8qb1uz.wgtml8qb1uz.wgt��,>��Y�'�0 �f�C]��9��A�F�8k�k�al8qaqaz.spcal8qaqaz.spc��+J��Y�'�0 �g�C^��9��A�F�?��t�gl8qb2lz.gnogl8qb2lz.gno��,U��Y�'�0�g�C^��9��A�F�Gk�Àhl8qb3vz.dhkgl8qb2lz.gno��,��Y�'�0�g�C^��9��A�F�N��̀hl8qb3vz.dhkgl8qb2lz.gno��,��Y�'�0�g�C^��9��A�F�Vk�k�el8qb15z.evlhl8qb3vz.dhk��,%��Y�'�0�g�C^��9��A�F�]��el8qb15z.evlhl8qb3vz.dhk��,%��Y�'�0�g�C^��9��A�F�ekݘ�el8qaq0z.evlel8qb15z.evl��+@��Y�'�0�g�C^��9��A�F�l��$�el8qarsz.evlel8qaq0z.evl��+|��Y�'�0�g�C^��9��A�F�tk�Àel8qarsz.evlel8qaq0z.evl��+|��Y�'�0�g�C^��9��A�F�{��̀el8qatoz.evlel8qarsz.evl��+��Y�'�0�g�C^��9��A�F��k��el8qb2ez.evlel8qatoz.evl��,N��Y�'�0�g�C^��9��A�F�� el8qb3cz.evlel8qb2ez.evl��,l��Y�'�0�g�C^��9��A�F��k�$�el8qb3cz.evlel8qb2ez.evl��,l��Y�'�0�g�C^��9��A�F��el8qb3cz.evlel8qb2ez.evl��,l��Y�'�0�g�C^��9��A�F��k�t�el8qb58z.evlel8qb3cz.evl��,��Y�'�0�g�C^��9��A�F��el8qb58z.evlel8qb3cz.evl��,��Y�'�0�g�C^��9��A�F��k�̀el8qb58z.evlel8qb3cz.evl��,��Y�'�0�g�C^��9��A�F��el8qb58z.evlel8qb3cz.evl��,��Y�'�0�g�C^��9��A�F��k�̀el8qb74z.evlel8qb58z.evl��,䴭��Y�'�0�g�C^��9��A�F��̀hl8qbcbz.dhkel8qb74z.evl��-��Y�'�0�g�C^��9��A�F��k�Àhl8qbcbz.dhkel8qb74z.evl��-��Y�'�0�g�C^��9��A�F��̀hl8qbcbz.dhkel8qb74z.evl��-��Y�'�0�g�C^��9��A�F��k�k�hl8qbcbz.dhkel8qb74z.evl��-��Y�'�0�g�C^��9��A�F��al8qbasz.spcal8qbasz.spc��-\��Y�'�0�h�C^��9��A�F��k�k�el8qb90z.evlal8qbasz.spc��- ��Y�'�0�h�C^��9��A�F��b�el8qb90z.evlal8qbasz.spc��- ��Y�'�0�h�C^��9��A�F��k�t�el8qb90z.evlal8qbasz.spc��- ��Y�'�0�h�C^��9��A�F��t�el8qb90z.evlal8qbasz.spc��- ��Y�'�0�h�C^��9��A�F� k�t�al8qbcoz.spcal8qbcoz.spc��-��Y�'�0�h�C^��9��A�F��sl8qbe8z.sdmel8qbasz.evl��-ȴ��Y�'�0�h�C^��:��A�F�k��sl8qbe8z.sdmel8qbasz.evl��-ȴ��Y�'�0�h�C^��:��A�F� �ջ�sl8qbe8z.sdmel8qbasz.evl��-ȴ��Y�'�0�h�C^��:��A�F�(k��al8qbekz.spcal8qbekz.spc��-Դ��Y�'�0�h�C^��;��A�F�/��t�el8qbcoz.evlal8qbekz.spc��-��Y�'�0�h�C^��;��A�F�7k��el8qbcoz.evlal8qbekz.spc��-��Y�'�0�h�C^��;��A�F�>��t�el8qbcoz.evlal8qbekz.spc��-��Y�'�0�h�C^��;��A�F�Fk�$�el8qbcoz.evlal8qbekz.spc��-��Y�'�0�h�C^��;��A�F�M��b�al8qbggz.spcal8qbggz.spc��.��Y�'�0�h�C^��<��A�F�Uk��el8qbekz.evlal8qbggz.spc��-Դ��Y�'�0�h�C^��<��A�F�\��el8qbekz.evlal8qbggz.spc��-Դ��Y�'�0�h�C^��<��A�F�dk��sl8qbi8z.sdmel8qbggz.evl��.H��Y�'�0�h�C^��=��A�F�k��sl8qbi8z.sdmel8qbggz.evl��.H��Y�'�0�h�C^��=��A�F�sk�Àsl8qbi8z.sdmel8qbggz.evl��.H��Y�'�0�h�C^��=��A�F�z�쫀hl8qbnjz.dhkel8qbjbz.evl��.󴲐��Y�'�0�h�C^��=��A�F��k�t�sl8qblgz.sdmel8qbicz.evl��.��Y�'�0�h�C^��>��A�F��el8qbk8z.evlsl8qblgz.sdm��.��Y�'�0�h�C^��>��A�F��k�Z�el8qbk8z.evlsl8qblgz.sdm��.��Y�'�0�h�C^��>��A�F��el8qbk8z.evlsl8qblgz.sdm��.��Y�'�0�h�C^��>��A�F��k٩�el8qbk8z.evlsl8qblgz.sdm��.��Y�'�0�h�C^��>��A�F��̀el8qbk8z.evlsl8qblgz.sdm��.��Y�'�0�h�C^��>��A�F��k��al8qblaz.spcal8qblaz.spc��.��Y�'�0�h�C^��@��A�F��el8qbm4z.evlal8qblaz.spc��.Ĵ��Y�'�0�h�C^��@��A�F��k�̀sl8qbpgz.sdmel8qbo0z.evl��/0��Y�'�0 �h�C^��A��A�F��$�sl8qbpgz.sdmel8qbo0z.evl��/0��Y�'�0 �h�C^��A��A�F��k�t�sl8qbpgz.sdmel8qbo0z.evl��/0��Y�'�0 �h�C^��A��A�F��R�sl8qbpgz.sdmel8qbo0z.evl��/0��Y�'�0 �h�C^��A��A�F��k�Àsl8qbpgz.sdmel8qbo0z.evl��/0��Y�'�0 �h�C^��A��A�F��t�sl8qbrgz.sdmel8qbpsz.evl��/p��Y�'�0!�h�C^��B��A�F��k�m�sl8qbrgz.sdmel8qbpsz.evl��/p��Y�'�0!�h�C^��B��A�F��sl8qbrgz.sdmel8qbpsz.evl��/p��Y�'�0!�h�C^��B��A�F��k��sl8qbrgz.sdmel8qbpsz.evl��/p��Y�'�0!�h�C^��B��A�F��̀sl8qbrgz.sdmel8qbpsz.evl��/p��Y�'�0!�h�C^��B��A�F� k�k�hl8qc0cz.dhkal8qbp2z.spc��0��Y�'�0!�h�C^��C��A�F��t�el8qbroz.evlhl8qc0cz.dhk��/x��Y�'�0"�h�C^��C��A�F�k�Àel8qbroz.evlhl8qc0cz.dhk��/x��Y�'�0"�h�C^��C��A�F��sl8qbvgz.sdmel8qbtkz.evl��/𴴐��Y�'�0#�h�C^��D��A�F�'k� �sl8qbvgz.sdmel8qbtkz.evl��/𴴐��Y�'�0#�h�C^��D��A�F�.��sl8qbvgz.sdmel8qbtkz.evl��/𴴐��Y�'�0#�h�C^��D��A�F�6k�$�sl8qbvgz.sdmel8qbtkz.evl��/𴴐��Y�'�0#�h�C^��D��A�F�=�ջ�sl8qc1gz.sdmsl8qbvgz.sdm��00��Y�'�0#�h�C^��E��A�F�Ek�t�sl8qbpgz.sdmsl8qc1gz.sdm��/0��Y�'�0#�h�C^��F��A�F�L��t�sl8qbpgz.sdmsl8qc1gz.sdm��/0��Y�'�0#�h�C^��F��A�F�Tk�t�sl8qbpgz.sdmsl8qc1gz.sdm��/0��Y�'�0#�h�C^��F��A�F�[��sl8qbpgz.sdmsl8qc1gz.sdm��/0��Y�'�0#�h�C^��F��A�F�ck�̀sl8qc3gz.sdmsl8qbpgz.sdm��0p��Y�'�0#�h�C^��G��A�F�j��Àsl8qc3gz.sdmsl8qbpgz.sdm��0p��Y�'�0#�h�C^��G��A�F�rk�̀sl8qc3gz.sdmsl8qbpgz.sdm��0p��Y�'�0#�h�C^��G��A�F�y��sl8qc3gz.sdmsl8qbpgz.sdm��0p��Y�'�0#�h�C^��G��A�F��k�Àal8qbumz.spcal8qbumz.spc��/ִ��Y�'�0#�h�C^��H��A�F��̀hl8qc8fz.dhkal8qbumz.spc��1��Y�'�0#�h�C^��H��A�F��k�Àhl8qc8fz.dhkal8qbumz.spc��1��Y�'�0#�h�C^��H��A�F��$�hl8qc8fz.dhkal8qbumz.spc��1��Y�'�0#�h�C^��H��A�F��k�$�sl8qc7gz.sdmhl8qc8fz.dhk��0𴵐��Y�'�0#�h�C^��I��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 441 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK13BSSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk13bx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894064.84306 TSTOP = 713896264.84316 DATE-OBS= '2023-08-16T15:54:19' DATE-END= '2023-08-16T16:30:59' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2200.00010001659 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 315 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZNiAeMf9ZMfAdMf9' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2875948064' / data unit checksum updated 2023-08-26T08:43:45 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw01185673000b13bx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Xk�d�ݿ��޲$��fⶀ��r;x�/��5*��$nF��k��n��?ܺ%�- ��#r��!�N��#�U��t�(��ʀ�� |��e{�2�2�222�s��1l��Œ�q��Du27��Bc8�0��ChA�F�Z��[�ݿ��޲`��f��r;��/��52��$pF��k��o��?�%�-��#t��!�R��#�U��t�f��ʀ�� 䄓��e}�2�2�222�s��1n��Ŕ�q��À��Du27��Bct�0��CjA�F�]k�m�ݿ��޲��f�΀��r;��/��58��$rF��k��o��?�%�-��#v��!�V��0��#�U��t��ʀ��L��e}�2�2�222�s��1p��Ŗ�q��ڀ��Du27��Bc��0��ClA�F�_��d�ݿ��޲؀��f�ڀ��r;҂/��5@��$tF��k��p��?�%�-��#x��!�Z��H��#�U��t��ʀ��e�2�2�222�s��1r��Ř�q��Du27��Bc�0��CnA�F�bk쫀ݿ��޳��f��r;��/��5F��$vF��+��k��p��?�%�-{��#z��!�^��`��# �U��t� ��ʀ��e�2�2�222�s��1t��Ś�q��Du27��Bd"�0��CpA�F�d��ݿ��޳R��f��r<�/��5N��$xF��M��k��p��?�%�-u��#|��!�b��x��#�U��t�^��ʀ��e�2�2�222�s��1v��Ŝ�r��Du27��BdZ�0��CrA�F�gk�R�տ��޳��f��r<,�/��5T��$zF��c��k��p��?�%�-o��#~��!�f��#�U��t��ʀ��섔��e�2�2�222�s��1x��Ŝ�r��3��Du27��Bd��0��CtA�F�i��d�տ��޳Ȁ��f� ��r7��Br@�0��C�A�F��m��޶ƀ��f㞀��r=��0��5��$�F��-��m��p��@�%�-3!��#��!��Ȁ��#(�V��t��ʀ��6��e�2�2�222�s��1��ž�r��Du?7��Br��0��C�A�F��k��޷��f㪀��r=Ђ0��5��$�F��'��m��p��@�%�-5��#��!��#*�V��t��ʀ��e�2�2�222�s��1��r��Du@7��Bs��0��C�A�F��d��޷F��f㶀��r=�0��5��$�F��n�p��@ �%�-7��#��!��#,�V��t�D��ʀ��e�2�2�222�s��1��r��k��DuA7��Btx�0��C�A�F��k곀��޷��f��r>�0��5ƀ��$�F��n^�p��@�%�-9��#��!��#.�V��t��ʀ��n��e�2�2�222�s��1��ār��ʀ��DuB7��Bu4�0��C�A�F��޷ƀ��f�΀��r>*�0��5΀��$�F�� n��p��@�%�-; ��#��!��(��#0�V��t��ʀ��ք��e�2�2�222�s��1��Ɓr��)��DuC7��Bu�0��C�A�F��k곀��޸��f�ڀ��r>H�0��5Ԁ��$�F��n��p��@�%�-=��#��!��@��#2�V��t��ʀ��>��e�2�2�222�s��1��ȁr��DuD7��Bv��0��C�A�F��޸F��f��r>f�0��5܀��$�F��o$�p��@�%�->��#��!��X��#4�V��t�<��ʀ��e�2�2�222�s��1��ʁr��DuE7��Bwl�0��C�A�F��k곀��޸��f��r>��0��5��$�F��os�p��@�%�-@��#��!��p��#6�V��t�z��ʀ��e�2�2�222�s��1��́r��Q��DuF7��Bx,�0��C�A�F��d��޸ƀ��f��r>��0��5��$�F��o��p��@�%�-B��#��!��#8�V��t��ʀ��v��e�2�2�222�s��1��΁r��DuG7��Bx�0��C�A�F��k輀��޹��f� ��r>��0��5��$�F�� p�p��@�%�-D��#��!��#:�V��t��ʀ��ބ��e�2�2�222�s��1��Ёr��DuH7��By��0��C�A�F��곀��޹F��f��r>ނ0��5��$�F��D��pD�p��@�%�-F��#��!��#<�V��t�4��ʀ��F��e�2�2�222�s��1��ҁr��n��DuI7��Bzd�0��C�A�F��k곀��޹��f�"��r>��0��5��$�F��`��p��p��@�%�-H߀��#��!�ƀ��Ѐ��#>�V��t�r��ʀ��e�2�2�222�s��1��ԁr��ڀ��DuJ7��B{"�0��C�A�F��޹ƀ��f�.��r?�0��6��$�F��v��p��p��@�%�-Jـ��#��!�ʀ��#@�V��t��ʀ��e�2�2�222�s��1��ցr��D��DuK7��B{ހ0��C�A�F��k��޺��f�:��r?8�0��6��$�F��r��q3�p��@ �%�-LӀ��#��!�΀��#B�V��t��ʀ��~��e�2�2�222�s��1��؁r��DuL7��B|��0��C�A�F��޺F��f�F��r?V�0��6��$�F��v��q��p��@"�%�-Ǹ��#��!�Ҁ��#D�V��t�,��ʀ��愔��e�2�2�222�s��1��ځr��DuM7��B}Z�0��C�A�F��k곀��޺��f�R��r?t�0��6��$�F��੄��q��p��@$�%�-Pǀ��#��!�ր��0��#F�V��t�j��ʀ��N��e�2�2�222�s��1��܁r��DuN7��B~�0��C�A�F��޺ƀ��f�^��r?��0��6"��$�F��~��r"�p��@&�%�-R��#��!�ڀ��H��#H�V��t��ʀ��e�2�2�222�s��1��ށr��DuO7��B~Ԁ0��C�A�F��k쫀��޻��f�j��r?��0��6(��$�F��ૂ��rr�p��@(�%�-T��#��!�ހ��`��#J�V��t��ʀ��e�2�2�222�s��1��r��U��DuP7��B��0��C�A�F��ŀ��޻F��f�v��r?΂0��60��$�F��~��r��p��@*�%�-V��#��!��x��#L�V��t�$��ʀ��e�2�2�222�s��1Ā��r��DuQ7��B�P�0��C�A�F��k�d��޻��f䂀��r?�0��66��$�F��୔��s�p��@,�%�-X��#��!��#N�V��t�b��ʀ����e�2�2�222�s��1ƀ��r��(��DuR7��B��0��C�A�F��輀��޻ƀ��f䎀��r@ �0��6>��$�F��த��s_�p��@.�%�-Z��#��!��#P�V��t��ʀ��V��e�2�2�222�s��1Ȁ��r��DuS7��B�ʀ0��C�A�F��k輀��޼��f䚀��r@(�0��6D��$�F��௶��s��p��@0�%�-\��#��!��#R�V��t��ʀ��e�2�2�222�s��1ʀ��r��DuT7��B��0��C�A�F��޼F��f䦀��r@F�0��6L��$�F��ڀ��s��p��@2�%�-^��#Ā��!��؀��#T�V��t��ʀ��&��e�2�2�222�s��1΀��r��T��DuU7��B�F�0��C�A�F��k�d��޼��f䲀��r@d�0��6R��$�F��t,�p��@4�%�-`��#ƀ��!��#V�V��t�Z��ʀ��e�2�2�222�s��1Ҁ��r��ë��DuV7��B��0��C�A�F��޼ƀ��f侀��r@��0��6Z��$�F��t|�p��@6�%�-b��#Ȁ��!��#X�V��t��ʀ��e�2�2�222�s��1Ԁ��r��DuW7��B��0��C�A�F��k�ŀ��޽��f�ʀ��r@��0��6`��$�F��v_�p��@8�%�-d��#ʀ��!�� #Z�V��t��ʀ��^��e�2�2�222�s��1ր��r��}��DuX7��B�~�0��C�A�F��޽F��f�ր��r@��0��6h��$�F��v��p��@:�%�-f��#̀��"��8��#\�V��t��ʀ��Ƅ��e�2�2�222�s��1؀��r��DuY7��B�<�0��C�A�F��k輀��޽��f��r@܂0��6n��$�F��v��p��@<�%�-h��#΀��"��P��#^�V��t�R��ʀ��.��e�2�2�222�s��1ڀ��r��Q��DuZ7��B��0��C�A�F��޽ƀ��f��r@��0��6v��$�F��wM�p��@>�%�-jy��#Ѐ��" ��h��#`�V��t��ʀ��e�2�2�222�s��1܀��r��ź��Du[7��B��0��C�A�F��k��޾��f��rA�0��6|��$�F��w��p��@@�%�-ls��#Ҁ��"��#b�V��t��ʀ��e�2�2�222�s��1ހ��r��%��Du\7��B�t�0��C�A�F��ŀ��޾F��f��rA6�0��6��$�F��4��w��p��@B�%�-nm��#Ԁ��"��#d�V��t��ʀ��f��e�2�2�222�s��1��r��Ə��Du]7��B�2�0��C�A�F��k��޾��f��rAT�0��6��$�F��D��x:�p��@D�%�-pg��#ր��"��#f�V��t�J��ʀ��΄��e�2�2�222�s��1��r��Du^7��B��0��C�A�F��곀��޾ƀ��f��rAr�0��6��$�F��6��x��p��@F�%�-ra��#؀��"��Ȁ��#h�V��t��ʀ��6��e�2�2�222�s��1��r��a��Du_7��B��0��C�A�F��k�d��޿��f�*��rA��0��6��$�F��>��x��p��@H�%�-t[��#ڀ��"��#j�V��t��ʀ��e�2�2�222�s��1��r��ʀ��Du`7��B�j�0��C�A�F��m��޿F��f�6��rA��0��6��$�F��B��y�p��@J�%�-vU��#܀��""��#l�V��t��ʀ�� e�2�2�222�s��1��r��(��Dua7��B�(�0��C�A�F��k��޿��f�B��rÂ0��6��$�F��Z��yi�p��@L�%�-xO��#ހ��"&��#n�V��t�B��ʀ�� n��e�2�2�222�s��1��r��ȏ��Dub7��B��0��C�A�F��d��޿ƀ��f�N��rA�0��6��$�F��y��p��@N�%�-zI��#��"*��(��#p�V��t��ʀ�� ք��e�2�2�222�s��1��r��Duc7��B��0��C�A�F��k�m��f�Z��rB�0��6��$�F��{��z�p��@P�%�-|C��#��".��@��#r�V��t��ʀ��!>��e�2�2�222�s��1��r��W��Dud7��B�b�0��C�A�F��F��f�f��rB&�0��6��$�F��zQ�p��@R�%�-~=��#��"2��X��#t�V��t��ʀ��!��e�2�2�222�s��1�� r��Due7��B��0��C�A�F��k��f�r��rBD�0��6��$�F��z��p��@T�%�-�7��#��"6��p��#v�V��u:��ʀ��"��e�2�2�222�s��1��r��,��Duf7��B�܀0��C�A�F��ƀ��f�~��rBb�0��6ʀ��$�F��Ï��z��p��@V�%�-�1��#��":��#x�V��ux��ʀ��"v��e�2�2�222�s��1��r��ʘ��Dug7��B��0��C�A�F��k�d��f劀��rB��0��6Ѐ��$�F��ď��{I�p��@X�%�-�+��#��">��#z�V��u��ʀ��"ބ��e�2�2�222�s��1��r��Duh7��B�V�0��C�A�F��[��F��f喀��rB��0��6؀��$�F��ŗ��{��p��@Z�%�-�%��#��"B��#|�V��u��ʀ��#F��e�2�2�222�s��1��r��n��Dui7��B��0��C�A�F��k輀��f墀��rB��0��6ހ��$�F��ƭ��{��p��@\�%�-��#��"F��Ѐ��#~�V��u2��ʀ��#��e�2�2�222�s��1��r��ڀ��Duj7��B�Ҁ0��C�A�F��[��ƀ��f宀��rBڂ0��6��$�F��|<�p��@^�%�-��#��"J��#��V��up��ʀ��$��e�2�2�222�s��2��r��E��Duk7��B��0��C�A�F��k�m��f庀��rB��0��6��$�F��ˀ��|��p��@`�%�-��#��"N��#��V��u��ʀ��$~��e�2�2�222�s��2��r��̲��Dul7��B�J�0��C�A�F��m��F��f�ƀ��rC�0��6��$�F��߀��|��p��@b�%�-� ��#��"R��#��V��u��ʀ��$愔��e�2�2�222�s��2��r��Dum7��B��0��C�A�F��k輀ݿ��f�Ҁ��rC4�0��6��$�F��}�p��@d�%�-��#��"V��0��#��V��u*��ʀ��%N��e�2�2�222�s��2��r��r��Dum7��B�Ȁ0��C�A�F��ŀ��ƀ��f�ހ��rCR�0��7��$�F��}b�p��@f�%�-��#��"Z��H��#��V��uh��ʀ��%��e�2�2�222�s��2 ��r��Ѐ��Dun7��B��0��C�A�F�k�[��f��rCp�0��7��$�F��}��p��@h�%�-��#��"^��`��#��V��u��ʀ��&��e�2�2�222�s��2�� r��6��Duo7��B�@�0��C�A�F��d��F��f��rC��0��7��$�F��}��p��@j�%�-��#��"b��x��#��V��u��ʀ��&��e�2�2�222�s��2��"�r��Λ��Dur7��B��0��C�A�F�k�[��È��f��rC��0��7��$�F�� ~@�p��@l�%�-��#��"f��#��V��u"��ʀ��&��e�2�2�222�s��2��$�r��Dus7��B��0��C�A�F� ��m��Ȁ��f��rCʂ0��7��$�F��-��~��p��@n�%�-��$��"j��#��V��u`��ʀ��'V��e�2�2�222�s��2��&�r��l��Dut7��B�|�0��C�A�F�k��f��rC�0��7$��$�F��3��~��p��@p�%�-��$��"n��#��V��u��ʀ��'��e�2�2�222�s��2��(�r��؀��Duu7��B�:�0��C�A�F��m��H��f�&��rD�0��7,��%F��M��.�p��@r�%�-�݀��$��"r��؀��#��V��u��ʀ��(&��e�2�2�222�s��2��*�r��B��Duv7��B��0��C�A�F�k�d�ݿ��Ĉ��f�2��rD$�0��72��%F��a��.�p��@t�%�-�׀��$��"v��#��V��u��ʀ��(��e�2�2�222�s��2��.�r��Ъ��Duv7��B��0��C�A�F��ݿ��Ā��f�>��rDB�0��7:��%F��S��D�p��@v�%�-�р��$��"z��#��V��uX��ʀ��(��e�2�2�222�s��2��0�r��Duv7��B�p�0��C�A�F�k�d�ݿ��f�J��rD`�0��7@��%F��[��I�p��@x�%�-�ˀ��$ ��"~�� #��V��u��ʀ��)^��e�2�2�222�s��2��2�r��{��Duv7��B�.�0��DA�F��곀ݿ��@��f�V��rD~�0��7H��%F��_��N�p��@z�%�-�ŀ��$��"��8��#��V��u��ʀ��)Ƅ��e�2�2�222�s��2 ��4�r��Duv7��B��0��DA�F�k��ݿ��~��f�b��rD��0��7N��% F��c��S�p��@|�%�-��$��"��P��#��V��u��ʀ��*.��e�2�2�222�s��2"��6�r��Q��Duv7��B��0��DA�F��곀ݿ��ż��f�n��rD��0��7V��%F��؁��X�p��@~�%�-��$��"��h��#��V��uP��ʀ��*��e�2�2�222�s��2&��8�r��Ҩ��Duv7��B�f�0��DA�F� k��տ��f�z��rD؂0��7\��%F��ً��X�p��@��%�-��$��"��#��V��u��ʀ��*��e�2�2�222�s��2(��8�r��ۀ��Duv7��B�&�0��DA�F�"��ݿ��6��f憀��rD��0��7d��%F��گ��Z�p��@��%�-��$��"��#��V��u��ʀ��+f��e�2�2�222�s��20��<�r��7��Duv7��B��0��D A�F�%k곀ݿ��v��f撀��rE�0��7j��%F��р��p��@��%�-��$��"��#��V��u ��ʀ��+΄��e�2�2�222�s��24��>�r��ӕ��Duv7��B��0��DA�F�'��m�ݿ��ƴ��f枀��rE2�0��7r��%F��ހ��p��@��%�-��$��"��Ȁ��#��V��uH��ʀ��,6��e�2�2�222�s��28��@�r��Duv7��B�`�0��DA�F�*k�[��f檀��rEP�0��7x��%F��ڀ��1�p��@��%�-��$��"��#��V��u��ʀ��,��e�2�2�222�s��2:��B�r��w��Duz7��B��0��DA�F�,��8��f涀��rEn�0��7��%F��ˀ��{�p��@��%�-��$��"��#��V��u��ʀ��-��e�2�2�222�s��2<��D�r��Du|7��B�ڀ0��DA�F�/k�d��z��f��rE��0��7��%F��̀��p��@��%�-��$��"��#��V��u��ʀ��-n��e�2�2�222�s��2>��F�r��T��Du}7��B��0��DA�F�1�곀��Ǻ��f�΀��rE��0��7��%F��p��@��%�-��$ ��"��(��#��V��u@��ʀ��-ք��e�2�2�222�s��2@��H�r��յ��Du~7��B�V�0��DA�F�4k輀��f�ڀ��rEȂ0��7��%F��᱀��T�p��@��%�-��$"��"��@��#��V��u~��ʀ��.>��e�2�2�222�s��2B��J�r��Du7��B��0��DA�F�6��m��:��f��rE�0��7��% F��⯀��p��@��%�-�}��$$��"��X��#��V��u��ʀ��.��e�2�2�222�s��2D��L�r��t��Du�7��B�Ҁ0��DA�F�9k�d��z��f��rF�0��7��%"F��㹀��p��@��%�-�w��$&��"��p��#��V��u��ʀ��/��e�2�2�222�s��2F��N�r��܀��Du�7��B��0��DA�F�;�곀��Ⱥ��f��rF"�0��7��%$F��佀��+�p��@��%�-�q��$(��"��#��V��u8��ʀ��/v��e�2�2�222�s��2H��P�r��F��Du�7��B�L�0��DA�F�>k��f� ��rF@�0��7��%&F��{�p��@��%�-�k��$*��"��#��V��uv��ʀ��/ބ��e�2�2�222�s��2L��R�r��ע��Du�7��B��0��D A�F�@��[��:��f��rFc�0��7��%(F��p��@��%�-�e��$,��"��#��V��u��ʀ��0F��e�2�2�222�s��2P��T�r��Du�7��B�Ȁ0��D"A�F�Ck�d��z��f�"��rF��0��7��%*F��0��p��@��&�-�`��$.��"ƀ��Ѐ��#��V��u��ʀ��0��e�2�2�222�s��2R��V�s��c��Du�7��B��0��D$A�F�E�곀��ɺ��f�.��rF��1��7Ȁ��%,F��N��J�p��@��&�-�Z��$0��"ʀ��#��W��u 2��ʀ��1��e�2�2�222�s��2T��X�s��̀��Du�7��B�B�0��D&A�F�Hk輀��f�:��rFĂ1��7΀��%.F��D��p��@��&�-�T��$2��"΀��#W��u p��ʀ��1~��e�2�2�222�s��2V��Z�s��9��Du�7��B��0��D(A�F�J�輀��:��f�F��rF�1��7ր��%0F��J��p��@��&�-�N��$4��"Ҁ��#ĂW��u ��ʀ��1愔��e�2�2�222�s��2X��\�s��٢��Du�7��B��0��D*A�F�Mk��z��f�R��rG�1��7܀��%2F��^��;�p��@��&�-�H��$6��"ր��0��#ƂW��u ��ʀ��2N��e�2�2�222�s��2Z��^�s��Du�7��B�|�0��D,A�F�O��d��ʸ��f�^��rG�1��7��%4F��d��p��@��&�-�B��$8��"ڀ��H��#ȂW��u *��ʀ��2��e�2�2�222�s��2\��`�s��w��Du�7��B�8�0��D.A�F�Rk곀��f�j��rG<�1��7��%6F����p��@��&�-�<��$:��"ހ��`��#ʂW��u h��ʀ��3��e�2�2�222�s��2^��b�s��߀��Du�7��B��0��D0A�F�T��m��:��f�v��rGZ�1��7��%8F����)�p��@��&�-�6��$<��"��x��#̂W��u ��ʀ��3��e�2�2�222�s��2`��d�s��G��Du�7��B��0��D2A�F�Wl��z��f炀��rGx�1��7��%:F��w�p��@��&�-�0��$>��"��#΂W��u ��ʀ��3��e�2�2�222�s��2b��f�s��۳��Du�7��B�p�0��D4A�F�Y��d��˺��f玀��rG��1��8��%F��p��@��&�-�$��$B��"��#҂W��u`��ʀ��4��e�2�2�222�s��2f��j�s��܉��Du�7��B��0��D8A�F�^�輀��8��f禀��rG҂1��8��%@F��Y�p��@��&�-��$D��"��؀��#ԂW��u��ʀ��5&��e�2�2�222�s��2j��l�s��Du�7��B��0��D:A�F�ak�d��z��f粀��rG��1��8��%BF��Ȁ��p��@��&�-��$F��"��#ւW��u��ʀ��5��e�2�2�222�s��2n��n�s��9��Du�7��B�h�0��DA�F�fk��f�ʀ��rH,�1��8"��%FF��ڀ��5�p��@��&�-��$J��"�� #ڂW��uX��ʀ��6^��e�2�2�222�s��2r��r�s��Du�7��B��0��D@A�F�h��[��:��f�ր��rHJ�1��8*��%HF��΀��p��@��&�-��$L��"��8��#܂W��u��ʀ��6Ƅ��e�2�2�222�s��2t��t�s��w��Du�7��B��0��DBA�F�kk�d��z��f��rHh�1��80��%JF��Ѐ��p��@��&�-��$N��"��P��#ނW��u��ʀ��7.��e�2�2�222�s��2v��v�s��Du�7��B�\�0��DDA�F�m�쫀��ͺ��f��rH��1��88��%LF��Ѐ��&�p��@��&�-��$P��" ��h��#��W��u ��ʀ��7��e�2�2�222�s��2x��x�s��L��Du�7��B��0��DFA�F�pk��f��rH��1��8>��%NF��Ҁ��u�p��@��&�-��$R��"��#�W��u P��ʀ��7��e�2�2�222�s��2z��z�s��߷��Du�7��B�ր0��DHA�F�r��:��f��rH1��8F��%PF��p��@º&�-��$T��"��#�W��u ��ʀ��8f��e�2�2�222�s��2|��|�s�� Du�7��B��0��DJA�F�uk�d��z��f��rH��1��8L��%RF��p��@ĺ&�-��$V��"��#�W��u ��ʀ��8΄��e�2�2�222�s��2~��~�s��Du�7��B�T�0��DLA�F�w��m��κ��f��rH��1��8T��%TF��c�p��@ƺ&�-��$X��"��Ȁ��#�W��u ��ʀ��96��e�2�2�222�s��2��ƀ�s��Du�7��B��0��DNA�F�zlU��f�*��rI�1��8Z��%VF��"��p��@Ⱥ&�-�܀��$Z��"��#�W��uH��ʀ��9��e�2�2�222�s��2��Ƃ�s��\��Du�7��B�΀0��DPA�F�|�곀��:��f�6��rI:�1��8b��%XF��p��@ʺ&�-�ր��$\��""��#�W��u��ʀ��:��e�2�2�222�s��2��Ƅ�s��Ṁ��Du�7��B��0��DRA�F�k�[��z��f�B��rIX�1��8h��%ZF��8��p��@̺&�-�Ѐ��$^��"&��#�W��u��ʀ��:n��e�2�2�222�s��2��Ɔ�s��Du�7��B�H�0��DTA�F��輀��Ϻ��f�N��rIv�1��8p��%\F��e��p��@κ&�-�ʀ��$`��"*��(��#��W��u��ʀ��:ք��e�2�2�222�s��2��ƈ�s��w��Du�7��B��0��DVA�F��k��f�Z��rI��1��8v��%^F��W��d�p��@к&�-�Ā��$b��".��@��#�W��u@��ʀ��;>��e�2�2�222�s��2��Ɗ�s��Du�7��B�0��DXA�F��:��f�f��rI��1��8~��%`F��a��p��@Һ&�-��$d��"2��X��#�W��u~��ʀ��;��e�2�2�222�s��2��ƌ�s��L��Du�7��B��0��DZA�F��k��z��f�r��rIЂ1��8��%bF��y��p��@Ժ&�-��$f��"6��p��#��W��u��ʀ��<��e�2�2�222�s��2��Ǝ�s��㶀��Du�7��B�@�0��D\A�F��d��к��f�~��rI�1��8��%dF��S�p��@ֺ&�.��$h��":��#��W��u��ʀ��#��W��u8��ʀ��<ބ��e�2�2�222�s��2��ƒ�s��䋀��Du�7��B��0��D`A�F��輀��:��f薀��rJ*�1��8��%hF��p��@ں&�.��$l��"B��#��W��uv��ʀ��=F��e�2�2�222�s��2��Ɣ�s��Du�7��B�x�0��DbA�F��k�d��z��f袀��rJH�1��8��%jF�� A�p��@ܺ&�.��$n��"F��Ѐ��#��W��u��ʀ��=��e�2�2�222�s��2��Ɩ�s��`��Du�7��B�4�0��DdA�F��Ѻ��f讀��rJf�1��8��%lF�� p��@޺&�.��$p��"J��$�W��u��ʀ��>��e�2�2�222�s��2��Ƙ�s��ɀ��Du�7��B��0��DfA�F��k�m��f躀��rJ��1��8��%nF��p��@�&�. ��$r��"N��$�W��u0��ʀ��>~��e�2�2�222�s��2��ƚ�s��5��Du�7��Bî�0��DhA�F��R��:��f�ƀ��rJ��1��8��%pF��2�p��@�&�.��$t��"R��$�W��un��ʀ��>愔��e�2�2�222�s��2��Ɯ�s��最��Du�7��B�n�0��DjA�F��k��|��f�Ҁ��rJ��1��8��%rF�� ̀��y�p��@�&�.��$v��"V��0��$�W��u��ʀ��?N��e�2�2�222�s��2��ƞ�s��Du�7��B�,�0��DlA�F��Ҽ��f�ހ��rJނ1��8Ā��%tF��p��@�&�.��$x��"Z��H��$�W��u��ʀ��?��e�2�2�222�s��2��Ơ�s��M��Du�7��B��0��DnA�F��k�d��f��rJ��1��8ʀ��%vF��p��@�&�.|��$z��"^��`��$ �W��u(��ʀ��@��e�2�2�222�s��2��Ƣ�s��絀��Du�7��BƤ�0��DpA�F��<��f��rK�1��8Ҁ��%xF��G�p��@�&�.v��$|��"b��x��$�W��uf��ʀ��@��e�2�2�222�s��2��Ƥ�s��Du�7��B�d�0��DrA�F��k��ݿ��|��f��rK8�1��8؀��%zF��'��p��@�&�.p��$~��"f��$�W��u��ʀ��@��e�2�2�222�s��2��ƨ�s��艀��Du�7��B� �0��DtA�F��d�ݿ��Ӹ��f��rKV�1��8��%|F��'��p��@�&�.j��$��"j��$�W��u��ʀ��AV��e�2�2�222�s��2��ƪ�s��Du�7��B��0��DvA�F��k�m�ݿ��f��rKt�1��8��%~F��!��p��@�&�.d��$��"n��$�W��u ��ʀ��A��e�2�2�222�s��2��Ƭ�s��_��Du�7��Bɚ�0��DxA�F��m�ݿ��4��f�&��rK��1��8��%�F��-��p��@�&�.^��$��"r��؀��$�W��u^��ʀ��B&��e�2�2�222�s��2��Ʈ�s��ʀ��Du�7��B�X�0��DzA�F��k�[�ݿ��r��f�2��rK��1��8��%�F��3��p��@��&�.X��$��"v��$�W��u��ʀ��B��e�2�2�222�s��2��ư�s��5��Du�7��B��0��D|A�F��m�ݿ��԰��f�>��rK΂1��8��%�F��;��p��@��&�. R��$��"z��$�W��u��ʀ��B��e�2�2�222�s��2��Ʋ�s��ꡀ��Du�7��B�Ԁ0��D~A�F��lU�ݿ��f�J��rK�1��9��%�F��I��p��@��&�."L��$��"~�� $�W��u��ʀ��C^��e�2�2�222�s��2��ƴ�s��Du�7��B̒�0��D�A�F��輀ݿ��,��f�V��rL �1��9 ��%�F��7��p��@��&�.$F��$��"��8��$�W��uV��ʀ��CƄ��e�2�2�222�s��2��ƶ�s��`��Du�7��B�P�0��D�A�F��k곀ݿ��j��f�b��rL(�1��9��%�F��=��B�p��@��&�.&@��$��"��P��$�W��u��ʀ��D.��e�2�2�222�s��2��Ƹ�s��Du�7��B��0��D�A�F��m��ը��f�n��rLF�1��9��%�F��T��p��@��&�.(:��$��"��h��$ �W��u��ʀ��D��e�2�2�222�s��2��ƺ�s��Du�7��B�ʀ0��D�A�F��k��f�z��rLd�1��9��%�F��N��p��A�&�.*4��$��"��$"�W��u��ʀ��D��e�2�2�222�s��2ƀ��Ƽ�s��_��Du�7��Bϊ�0��D�A�F��M��.��f醀��rL��1��9&��%�F��h��p��A�&�.,.��$��"��$$�W��uN��ʀ��Ef��e�2�2�222�s��2ʀ��ƾ�s��챀��Du�7��B�D�0��D�A�F��k�m��n��f钀��rL��1��9,��%�F��p��A�&�..(��$��"��$&�W��u��ʀ��E΄��e�2�2�222�s��2΀��s��Du�7��B��0��D�A�F��֮��f鞀��rL��1��94��%�F��{��`�p��A�&�.0"��$��"��Ȁ��$(�W��u��ʀ��F6��e�2�2�222�s��2Ѐ��s��`��Du�7��B��0��D�A�F��k��f骀��rL܂1��9:��%�F�� p��A�&�.2��$��"��$*�W��u��ʀ��F��e�2�2�222�s��2Ҁ��ās��ǀ��Du�7��B�~�0��D�A�F��d��.��f鶀��rL��1��9B��%�F��!��p��A �&�.4��$��"��$,�W��uF��ʀ��G��e�2�2�222�s��2Ԁ��Ɓs��0��Du�7��B�<�0��D�A�F��k�[��n��f��rM�1��9H��%�F��"��E�p��A�&�.6��$��"��$.�W��u��ʀ��Gn��e�2�2�222�s��2ր��ȁs����Du�7��B��0��D�A�F��d��׮��f�΀��rM6�1��9P��%�F��#��p��A�&�.8 ��$��"��(��$0�W��u��ʀ��Gք��e�2�2�222�s��2؀��ʁs��Du�7��BԸ�0��D�A�F��k輀��f�ڀ��rMT�1��9V��%�F��$��p��A�&�.:��$��"��@��$2�W��u��ʀ��H>��e�2�2�222�s��2ڀ��́s��p��Du�7��B�v�0��D�A�F��d��.��f��rMr�1��9^��%�F��%��5�p��A�&�.;��$��"��X��$4�W��u>��ʀ��H��e�2�2�222�s��2܀��΁s��ۀ��Du�7��B�0�0��D�A�F��k��n��f��rM��1��9d��%�F��&ˀ��p��A�&�.=��$��"��p��$6�W��u|��ʀ��I��e�2�2�222�s��2ހ��Ёs��E��Du�7��B��0��D�A�F��ŀ��خ��f��rM��1��9l��%�F��'Հ��p��A�&�.?��$��"��$8�W��u��ʀ��Iv��e�2�2�222�s��2��ҁs��Du�7��B׬�0��D�A�F��l��f� ��rM̂1��9r��%�F��(��p��A�&�.A��$��"��$:�W��u��ʀ��Iބ��e�2�2�222�s��2��ԁs��Du�7��B�f�0��D�A�F��.��f��rM�1��9z��%�F��)��a�p��A�&�.C��$��"��$<�W��u6��ʀ��JF��e�2�2�222�s��2��ցs��c��Du�7��B�(�0��D�A�F��k��n��f�"��rN�1��9��%�F��+��p��A�&�.E��$��"ƀ��Ѐ��$>�W��ut��ʀ��J��e�2�2�222�s��2��؁s��΀��Du�7��B��0��D�A�F��곀��ٮ��f�.��rN&�1��9��%�F��,��p��A�&�.Gڀ��$��"ʀ��$@�W��u��ʀ��K��e�2�2�222�s��2��ځs��8��Du�7��Bڢ�0��D�A�F��k�m��f�:��rND�1��9��%�F��- ��F�p��A �&�.IԀ��$��"΀��$B�W��u��ʀ��K~��e�2�2�222�s��2��܁s��Du�7��B�`�0��D�A�F��쫀��.��f�F��rNb�1��9��%�F��.*��p��A"�&�.K΀��$��"Ҁ��$D�W��u.��ʀ��K愔��e�2�2�222�s��2��ށs��Du�7��B��0��D�A�F��k輀��n��f�R��rN��1��9��%�F��/H��p��A$�&�.MȀ��$��"ր��0��$F�W��ul��ʀ��LN��e�2�2�222�s��2��s��w��Du�7��B�܀0��D�A�F��[��ڮ��f�^��rN��1��9��%�F��0P��5�p��A&�&�.O��$��"ڀ��H��$H�W��u��ʀ��L��e�2�2�222�s��2��s��Du�7��Bݘ�0��D�A�F��k�ŀݿ��f�j��rN��1��9��%�F��1^��p��A(�&�.Q��$��"ހ��`��$J�W��u��ʀ��M��e�2�2�222�s��2��s��J��Du�7��B�V�0��D�A�F��,��f�v��rNڂ1��9��%�F��2��p��A*�&�.S��$��"��x��$L�W��u&��ʀ��M��e�2�2�222�s��2��s��Du�7��B��0��D�A�F��k��l��fꂀ��rN��1��9��%�F��3��p��A,�&�.U��$��"��$N�W��ud��ʀ��M��e�2�2�222�s��2��s��Du�7��B�Ѐ0��D�A�F��d��۬��fꎀ��rO�1��9��%�F��4��>�p��A.�&�.W��$��"��$P�W��u��ʀ��NV��e�2�2�222�s��3��s��K��Du�7��B��0��D�A�F��k�d��fꚀ��rO4�1��9ƀ��%�F��5��p��A0�&�.Y��$��"��$R�W��u��ʀ��N��e�2�2�222�s��3��s��Du�7��B�P�0��D�A�F��m��,��fꦀ��rOR�1��9΀��%�F��6��p��A2�&�.[��$Ā��"��؀��$T�W��u��ʀ��O&��e�2�2�222�s��3��s��Du�7��B��0��D�A�F�k�[��l��f검��rOp�1��9Ԁ��%�F��7Ā��p��A4�&�.]��$ƀ��"��$V�W��u\��ʀ��O��e�2�2�222�s��3��s��w��Du�7��B�Ȁ0��D�A�F��輀��ܬ��f꾀��rO��1��9܀��%�F��8ƀ��e�p��A6�&�._��$Ȁ��"��$X�W��u��ʀ��O��e�2�2�222�s��3��s��܀��Du�7��Bㆀ0��D�A�F�k��f�ʀ��rO��1��9��%�F��9ހ��p��A8�&�.a��$ʀ��"�� $Z�W��u��ʀ��P^��e�2�2�222�s��3 ��s��=��Du�7��B�D�0��D�A�F��m��,��f�ր��rOʂ1��9��%�F��:��p��A:�&�.c��$̀��"��8��$\�W��u��ʀ��PƄ��e�2�2�222�s��3��s��Du�7��B��0��D�A�F�k輀��l��f��rO�1��9��%�F��;��B�p��A<�&�.e��$΀��"��P��$^�W��uT��ʀ��Q.��e�2�2�222�s��3��s��Du�7��B往0��D�A�F� �M��ݬ��f��rP�1��9��%�F��<��p��A>�&�.gz��$Ѐ��" ��h��$`�W��u��ʀ��Q��e�2�2�222�s��3��s��i��Du�7��B�|�0��D�A�F�k�d��f��rP$�1��9��%�F��=��p��A@�&�.it��$Ҁ��"��$b�W��u��ʀ��Q��e�2�2�222�s��3��s��΀��Du�7��B�:�0��D�A�F��R��,��f��rPB�1��:��%�F��>��p��AD�&�.ko��$ր��"��$d�W��u��ʀ��Rf��e�2�2�222�s��3��s��+��Du�7��B��0��D�A�F�k��p��f��rP`�1��:��%�F��@6��T�p��AF�&�.mi��$؀��"��$h�W��uN��ˀ��RԄ��e��2�2�222�s��3��s��x��Du�7��B踀0��D�A�F��e��ް��f�$��rP~�1��:��%�F��AL��p��AH�&�.oc��$ڀ��"��ʀ��$j�W��u��ˀ��S<��e��2�2�222�s��3��s��ɀ��Du�7��B�t�0��D�A�F�k輀��f�0��rP��1��:��%�F��B��p��AJ�&�.q]��$܀��" ��$l�W��u��ˀ��S��e��2�2�222�s��3$��s��Du�7��B��0��D�A�F��輀��0��f�<��rP��1��:$��%�F��Cʀ��p��AL�&�.sW��$ހ��"$��$n�W��u��ˀ��T��e��2�2�222�s��3(��s��R��Du�7��B��0��D�A�F�k��l��f�H��rP؂1��:*��%�F��E��p��AN�&�.uQ��$��"(��$p�W��uF��ˀ��Tt��e��2�2�222�s��3,�� s��Du�7��B뒀0��D�A�F�!��߮��f�V��rP��2��:6��%�F��FP��,�q��AT�&�.wL��$��",��,��$r�W��u��̀��T��e��2�2�222�s��36��s��Du�7��B�`�0��D�A�F�$k��ݿ��f�j��rQ�2��:<��%�F��G��2�s��AZ�&�.yF��$��"2��@��$v�W��u��̀��UL��e��2�2�222�s��3@��s��Du�7��B��0��D�A�F�&��[�ݿ��2��f�v��rQ4�2��:D��%�F��HÀ��4�t��A^�&�.{@��$��"6��\��$x�W��u ��̀��U��e��2�2�222�t��3D��u��]��Du�7��B��0��D�A�F�)k쫀ݿ��p��f낀��rQR�2��:J��%�F��J��9�t��A`�&�.}:��$��":��t��$z�W��uH��̀��V&��e��2�2�222�t��3F��v��݀��Du�7��B0��D�A�F�+��ݿ��஀��f뎀��rQp�2��:R��%�F��KC��9�t��Ab�&�.4��$��">��$|�W��u��̀��V��e��2�2�222�t��3H��v��c��Du�7��B�h�0��D�A�F�.k쫀ݿ��f뚀��rQ��2��:X��%�F��L��?�t��Ad�&�.�.��$��"B��$~�W��u��̀��V��e��2�2�222�t��3J��v��Du�7��B�(�0��D�A�F�0��ݿ��(��f릀��rQ��3��:b��%�F��M��D�t��Af�&�.�(��$��"F��$��X��u ��̀��Wl��e��2�2�222�t��3L��v��f��Du�7��B��0��D�A�F�3k�]�ݿ��f��f봀��rQʂ3��:h��%�F��Nڀ��t��Ah�&�.�"��$��"J��Ԁ��$��X��u B��̀��W؄��e��2�2�222�t��3N�� v��Du�7��B�0��D�A�F�5��[�ݿ��ᤀ��f��rQ�3��:p��%�F��O��t��Aj�&�.��$��"N��$��X��u ��̀��XD��e��2�2�222�t��3P��"�v��^��Du�7��B�b�0��D�A�F�8k��f�̀��rR�3��:v��%�F��P��:�t��Al�&�.��$��"R��$��X��u ��̀��X��e��2�2�222�t��3R��$�v��؀��Du�7��B��0��D�A�F�:��(��f�؀��rR$�3��:~��%�F��R��t��An�&�.��$��"V��$��X��u ��̀��Y��e��2�2�222�t��3T��&�v��S��Du�7��B�܀0��D�A�F�=k�J�ݿ��j��f��rRB�3��:��%�F��S��t��Ap�&�.� ��$��"Z��4��$��X��u!:��̀��Y��e��2�2�222�t��3V��(�v��ˀ��Du�7��B��0��D�A�F�?��R��⨀��f��rR`�3��:��%�F��T)��t��Ar�&�.��$��"^��L��$��X��u!z��̀��Y􄘀�e��2�2�222�t��3X��*�v��G��Du�7��B�V�0��D�A�F�Bk쫀��f��rR~�3��:��%�F��Ue��t��At�&�.��$��"b��d��$��X��u!��̀��Z`��e��2�2�222�t��3Z��,�v��Du�7��B��0��D�A�F�D��[��.��f��rR��3��:��%�F��V��t��Av�&�.��%��"f��|��$��X��u!��̀��Z̄��e��2�2�222�t��3^��0�v��9��Du�7��B�Ҁ0��D�A�F�Gk��n��f��rR��3��:��%�F��Ww��i�t��Ax�&�.��%��"j��$��X��u"6��̀��[8��e��2�2�222�t��3`��2�v��Du�7��B��0��D�A�F�I��[��㮀��f� ��rRق3��:��&F��Xy��t��Az�&�.��%��"n��$��X��u"t��̀��[��e��2�2�222�t��3b��4�v��2��Du�7��B�N�0��D�A�F�Lk��f�,��rR��3��:��&F��Ye��t��A|�&�.��%��"r��Ā��$��X��u"��̀��\��e��2�2�222�t��3d��6�v��Du�7��B��0��D�A�F�N�쫀��.��f�8��rS�3��:��&F��Zl��o�t��A~�&�.��%��"v��܀��$��X��u"��̀��\|��e��2�2�222�t��3f��8�v��'��Du�7��B�ƀ0��D�A�F�Qk곀��n��f�D��rS3�3��:��&F��[s��t��A��&�.�ڀ��% ��"z��$��X��u#.��̀��\脘��e��2�2�222�t��3h��:�v��Du�7��B��0��EA�F�S��ݿ��䮀��f�P��rSQ�3��:Ā��&F��\}��t��A��&�.�Ԁ��%��"~��$��X��u#l��̀��]T��e��2�2�222�t��3j��<�v��Du�7��B�B�0��EA�F�Vk�J��f�\��rSo�3��:ʀ��& F��]u��t��A��&�.�΀��%��"��$��$��X��u#��̀��]��e��2�2�222�t��3l��>�v��Du�7��B��0��EA�F�X��,��f�h��rS��3��:Ҁ��&F��^i��Y�t��A��&�.�Ȁ��%��"��<��$��X��u#��̀��^,��e��2�2�222�t��3n��@�v��Du�7��B��0��EA�F�[k곀��l��f�t��rS��3��:؀��&F��_i��t��A��&�.��%��"��T��$��X��u$&��̀��^��e��2�2�222�t��3p��B�v��Du�7��B�z�0��EA�F�]��ݿ��嬀��f쀀��rSɂ3��:��&F��`}��t��A��&�.��%��"��l��$��X��u$d��̀��_��e��2�2�222�t��3r��D�v��Du�7��B�:�0��E A�F�`l��ݿ��f쌀��rS�3��:��&F��aq��t��A��&�.��%��"��$��X��u$��̀��_p��e��2�2�222�t��3t��F�v��Du�7��B��0��EA�F�b��(��f였��rT�3��:��&F��b�� t��A��&�.��%��"��$��X��u$��̀��_܄��e��2�2�222�t��3v��H�v��Du�7��B��0��EA�F�ek�π��h��f준��rT#�3��:��&F��c��b�t��A��&�.��%��"��$��X��u%��̀��`H��e��2�2�222�t��3x��J�v��v��Du�7��Cr�0��EA�F�g��ݿ��樀��f찀��rTA�3��:��&F��d��t��A��&�.��%��"��̀��$��X��u%\��̀��`��e��2�2�222�t��3z��L�v��Du�7��C.�0��EA�F�jk�[�ݿ��f케��rT_�3��;��&F��e��t��A��&�.��%��"��$��X��u%��̀��a ��e��2�2�222�t��3|��N�v��n��Du�7��C�0��EA�F�l��$��f�Ȁ��rT}�3��; ��&F��fr��t��A��&�.��% ��"��$��X��u%��̀��a��e��2�2�222�t��3~��P�v��Du�7��C��0��EA�F�ok��d��f�Ԁ��rT��3��;��&F��gp��t��A��&�.��%"��"��$��X��u&��̀��a��e��2�2�222�t��3��R�v�� e��Du�7��Cf�0��EA�F�q�곀ݿ��礀��f��rT��3��;��& F��h��-�t��A��&�.��%$��"��,��$��X��u&T��̀��bd��e��2�2�222�t��3��T�v�� Du�7��C$�0��EA�F�tkݿ��f��rTׂ3��;��&"F��ix��2�t��A��&�.��%&��"��D��$��X��u&��̀��bЄ��e��2�2�222�t��3��V�v�� [��Du�7��C��0��EA�F�v��[�� f��rT��3��;&��&$F��j��Q�t��A��&�.��%(��"��\��$��X��u&��̀��c<��e��2�2�222�t��3��X�v�� ր��Du�7��C��0��EA�F�yk�[��`��f��rU�3��;,��&&F��k|��9�t��A��&�.�z��%*��"��t��$��X��u'��̀��c��e��2�2�222�t��3��Z�v��Q��Du�7��C^�0��E A�F�{��R�ݿ��蠀��f��rU1�3��;4��&(F��l��e�t��A��&�.�t��%,��"��$��X��u'L��̀��d��e��2�2�222�t��3��\�v��̀��Du�7��C�0��E"A�F�~k�π��ހ��f��rUO�3��;:��&*F��m��t��A��&�.�n��%.��"��$��X��u'��̀��d��e��2�2�222�t��3��^�v��G��Du�7��C؀0��E$A�F��R��f�(��rUm�3��;B��&,F��n��t��A��&�.�h��%0��"ƀ��$��X��u'��̀��d섘��e��2�2�222�t��3��`�v��À��Dv7��C��0��E&A�F��k��^��f�4��rU��3��;H��&.F��o��5�t��A��&�.�b��%2��"ʀ��Ԁ��$X��u(��̀��eX��e��2�2�222�t��3��b�v�� =��Dv7��C R�0��E(A�F��ݿ��鞀��f�@��rU��3��;P��&0F��p��b�t��A��&�.�\��%4��"΀��$ĂX��u(D��̀��eĄ��e��2�2�222�t��3��d�v�� Dv7��C �0��E*A�F��kݿ��܀��f�L��rUǂ3��;V��&2F��q��b�t��A��&�.�V��%6��"Ҁ��$ƂX��u(��̀��f0��e��2�2�222�t��3��f�v��1��Dv7��C ̀0��E,A�F��f�X��rU�3��;^��&4F��r��t��A��&�.�P��%8��"ր��$ȂX��u(��̀��f��e��2�2�222�t��3��h�v��Dv7��C��0��E.A�F��k��Z��f�d��rV�3��;d��&6F��s��t��A��&�.�J��%:��"ڀ��4��$ʂX��u(��̀��g��e��2�2�222�t��3��j�v��(��Dv7��CJ�0��E0A�F��[��Ꚁ��f�p��rV!�3��;l��&8F��t��;�t��A��&�.�D��%<��"ހ��L��$̂X��u)<��̀��gt��e��2�2�222�t��3��l�v��Dv7��C �0��E2A�F��k��ڀ��f�|��rV?�3��;r��&:F��u��t��A��&�.�>��%>��"��d��$΂X��u)z��̀��g��e��2�2�222�t��3��n�v��"��Dv7��C Ā0��E4A�F��f툀��rV]�3��;z��&F��w��t��A��&�.�2��%B��"��$҂X��u)��̀��h��e��2�2�222�t��3��r�v��Dv7��C>�0��E8A�F��ݿ��똀��f��rV��3��;��&@F��x��t��A��&�.�,��%D��"��$ԂX��u*4��̀��i$��e��2�2�222�t��3��t�v��Dv7��C��0��E:A�F��k��ր��f��rV��3��;��&BF��y��2�t��A��&�.�&��%F��"��Ā��$ւX��u*r��̀��i��e��2�2�222�t��3��v�v��Dv 7��C��0��EA�F��k�R��V��f�Ā��rV�3��;��&FF��{��t��A��&�.��%J��"��$ڂX��u*��̀��jh��e��2�2�222�t��3��z�v��Dv7��C4�0��E@A�F��R��얀��f�Ѐ��rW�3��;��&HF��|��9�t��Aº&�.��%L��"��$܂X��u+,��̀��jԄ��e��2�2�222�t��3��|�v��z��Dv7��C�0��EBA�F��k곀��ր��f�܀��rW/�3��;��&JF��}��t��Aĺ&�.��%N��"��$��$ނX��u+j��̀��k@��e��2�2�222�t��3��~�v��Dv 7��C��0��EDA�F��f��rWM�3��;��&LF��~��t��Aƺ&�.��%P��"��<��$��X��u+��̀��k��e��2�2�222�t��3��ǀ�v��n��Dv7��Cn�0��EFA�F��k쫀��V��f��rWk�3��;��&NF��A�t��AȺ&�.��%R��" ��T��$�X��u+��̀��l��e��2�2�222�t��3��ǂ�v��Dv7��C*�0��EHA�F��햀��f��rW��3��;��&PF��မ��t��Aʺ&�.��%T��"��l��$�X��u,$��̀��l��e��2�2�222�t��3��Ǆ�v��g��Dv7��C�0��EJA�F��k쫀��ր��f��rW��3��;ƀ��&RF��။��t��A̺&�.��%V��"��$�X��u,b��̀��l��e��2�2�222�t��3��ǈ�v��Dv7��C��0��ELA�F��곀��f��rWł3��;΀��&TF��ႉ��H�t��Aκ&�.��%X��"��$�X��u,��̀��m\��e��2�2�222�t��3��Ǌ�v��_��Dv7��Cb�0��ENA�F��k쫀ݿ��V��f�$��rW�3��;Ԁ��&VF��ო��H�t��Aк&�.��%Z��"��$�X��u,��̀��mȄ��e��2�2�222�t��3��ǌ�v��ـ��Dv7��C"�0��EPA�F��ݿ����f�0��rX�3��;܀��&XF��ᄇ��[�t��AҺ&�.��%\��"��̀��$�X��u-��̀��n4��e��2�2�222�t��3��ǎ�v��T��Dv7��Cހ0��ERA�F��k�[��Ѐ��f�<��rX�3��;��&ZF��ᅘ��`�t��AԺ&�.�ހ��%^��""��$�X��u-Z��̀��n��e��2�2�222�t��3Ā��ǐ�v��р��Dv7��C��0��ETA�F��곀��f�H��rX=�3��;��&\F��ᆚ��t��Aֺ&�.�؀��%`��"&��$��X��u-��̀��o��e��2�2�222�t��3ƀ��ǒ�v��J��Dv7��CZ�0��EVA�F��k쫀��R��f�T��rX[�3��;��&^F��ᇖ��t��Aغ&�.�Ҁ��%b��"*��$�X��u-��̀��ox��e��2�2�222�t��3Ȁ��ǔ�v��ƀ��Dv7��C�0��EXA�F��쫀����f�`��rXy�3��;��&`F��መ��Q�t��Aں&�.�̀��%d��".��,��$�X��u.��̀��o䄘��e��2�2�222�t��3ʀ��ǖ�v��B��Dv7��CԀ0��EZA�F��k쫀��Ҁ��f�l��rX��3��;��&bF��ቄ��t��Aܺ&�.�ƀ��%f��"2��D��$��X��u.R��̀��pP��e��2�2�222�t��3̀��ǘ�v��Dv7��C��0��E\A�F��R��f�x��rX��3��<��&dF��t��A޺&�.��%h��"6��\��$��X��u.��̀��p��e��2�2�222�t��3΀��ǚ�v��5��Dv7��CN�0��E^A�F��k�[��V��f��rXӂ3��<��&fF��ዊ��R�t��A�&�.��%j��":��t��$��X��u.��̀��q(��e��2�2�222�t��3Ѐ��ǜ�v��Dv7��C�0��E`A�F��f��rX�3��<��&hF��ጀ��t��A�&�.��%l��">��$��X��u/��̀��q��e��2�2�222�t��3Ҁ��Ǟ�v��*��Dv7��Cʀ0��EbA�F��k�J�ݿ��ր��f��rY�3��<��&jF��ፄ��t��A�&�.��%n��"B��$��X��u/J��̀��r��e��2�2�222�t��3Ԁ��Ǣ�v��Dv7��C��0��EdA�F��곀ݿ��f��rY-�3��<"��&lF��t�� t��A�&�/��%p��"F��%�X��u/��̀��rl��e��2�2�222�t��3ր��Ǥ�v��!��Dv7��C F�0��EfA�F��k쫀ݿ��P��f��rYK�3��<(��&nF��f��t��A�&�/��%r��"J��Ԁ��%�X��u/��̀��r؄��e��2�2�222�t��3؀��Ǧ�v��Dv7��C!�0��EhA�F��R�ݿ��f��rYi�3��<0��&pF��b��t��A�&�/��%t��"N��%�X��u0��̀��sD��e��2�2�222�t��3ڀ��Ǩ�v��Dv7��C!��0��EjA�F��kݿ��̀��f�̀��rY��3��<6��&rF��^��t��A�&�/��%v��"R��%�X��u0B��̀��s��e��2�2�222�t��3܀��Ǫ�v��r��Dv7��C"|�0��ElA�F��곀ݿ�� f�؀��rY��3��<>��&tF��d��6�t��A�&�/ ��%x��"V��%�X��u0��̀��t��e��2�2�222�t��3ހ��Ǭ�v��Dv7��C#:�0��EnA�F��k�J�ݿ��H��f��rYÂ3��%��"��%>�X��u7 ��̀��e��2�2�222�u��4��v��'��Dv)7��C74�0��E�A�F� ��A�ݿ��f�(��r\�3��=��&�F��U��~�t��B&�&�/@��%��"ƀ��%@�X��u7H��̀��섘��e��2�2�222�u��4 ��v��(��Dv)7��C7��0��E�A�F�#k곀ݿ�� f�4��r]�3��=��&�F��_��t��B(�&�/B��%��"ʀ��Ԁ��%B�X��u7��̀��X��e��2�2�222�u��4"��v��(u��Dv)7��C8��0��E�A�F�%�ݿ��^��f�@��r])�3��=��&�F��x��t��B*�&�/D܀��%��"΀��%D�X��u7��̀��Ą��e��2�2�222�u��4&��v��(��Dv)7��C9p�0��E�A�F�(k�R��f�N��r]G�3��=��&�F��᱑��'�t��B,�&�/Fր��%��"Ҁ��%F�X��u8��̀��0��e��2�2�222�u��4*��v��)��Dv-7��C:,�0��E�A�F�*�ݿ��f�Z��r]e�3��=��&�F��Ჴ��H�t��B.�&�/HЀ��%��"ր��%H�X��u8@��̀�遜��e��2�2�222�u��4,��v��)m��Dv-7��C:�0��E�A�F�-k쫀ݿ��f�f��r]��3��=$��&�F��ᳬ��J�t��B0�&�/Jʀ��%��"ڀ��4��%J�X��u8~��̀��e��2�2�222�u��4.��v��)̀��Dv-7��C;��0��E�A�F�/�쫀��\��f�r��r]��3��=,��&�F��ᴖ��N�t��B2�&�/LĀ��%��"ހ��L��%L�X��u8��̀��t��e��2�2�222�u��40��v��*.��Dv/7��C��0��E�A�F�9�쫀ݿ��T��f��r^�3��=H��&�F��Ҁ��Z�t��B:�&�/T��%Ā��"��%T�X��u9��̀��$��e��2�2�222�u��4:��v��+��Dv/7��C?\�0��E�A�F��v��+Ԁ��Dv/7��C@�0��E�A�F�>��R�ݿ��Ѐ��f��r^U�3��=V��&�F��Ҁ��^�t��B>�&�/X��%Ȁ��"��܀��%X�X��u:0��̀��e��2�2�222�u��4@��v��,-��Dv/7��C@؀0��E�A�F�Ak�n�ݿ��f�ƀ��r^s�3��=\��&�F��a�t��B@�&�/Z��%ʀ��"��%Z�X��u:n��̀��h��e��2�2�222�u��4B��v��,��Dv/7��CA��0��E�A�F�C��[�ݿ��L��f�Ҁ��r^��3��=d��&�F��t��BB�&�/\��%̀��"��%\�X��u:��̀��Ԅ��e��2�2�222�u��4D��v��,Ā��Dv/7��CBT�0��E�A�F�Fk쫀ݿ��f�ހ��r^��3��=j��&�F��t��BD�&�/^��%΀��"��$��%^�X��u:��̀��@��e��2�2�222�u��4F��v��-��Dv/7��CC�0��E�A�F�H��ݿ��Ȁ��f��r^͂3��=r��&�F��ۀ��t��BF�&�/`��%Ѐ��"��<��%`�X��u;(��̀�醬��e��2�2�222�u��4H�� v��-o��Dv/7��CCЀ0��E�A�F�Kk�[�ݿ��f��r^�3��=x��&�F��Ҁ��&�t��BH�&�/b��%Ҁ��" ��T��%b�X��u;f��̀��e��2�2�222�u��4J��v��-ŀ��Dv/7��CD��0��E�A�F�M��A��D��f��r_ �3��=��&�F��&�t��BJ�&�/d|��%Ԁ��"��l��%d�X��u;��̀�釄��e��2�2�222�u��4L��v��.��Dv37��CEJ�0��E�A�F�Pk��ݿ��f��r_'�3��=��&�F��ڀ��7�t��BL�&�/fv��%ր��"��%f�X��u;��̀��e��2�2�222�u��4N��v��.n��Dv37��CF�0��E�A�F�R��[�ݿ��ƀ��f��r_E�3��=��&�F��:�t��BN�&�/hp��%؀��"��%h�X��u< ��̀��\��e��2�2�222�u��4P��v��.Ā��Dv37��CFĀ0��E�A�F�Uk��f�&��r_c�3��=��&�F��<�t��BP�&�/jj��%ڀ��"��%j�X��u<^��̀��Ȅ��e��2�2�222�u��4R��v��/��Dv57��CG��0��E�A�F�W��[�ݿ��D��f�2��r_��3��=��&�F��'��A�t��BT�&�/le��%ހ��"��΀��%l�X��u<��΀��8��e��2�2�222�u��4X��v��/l��Dv57��CH@�0��E�A�F�Zk�J�ݿ��f�B��r_��3��=��&�F��\��D�t��BV�&�/n_��%��"$��%p�X��u<��΀�鉤��e��2�2�222�u��4\��v��/��Dv57��CH��0��E�A�F�\�ݿ��f�P��r_��3��=��&�F��^��G�t��BX�&�/pY��%��"(��%r�X��u=��΀��e��2�2�222�u��4`��v��0��Dv57��CI��0��E�A�F�_k쫀��f�\��r_ۂ3��=��&�F��m��I�t��BZ�&�/rS��%��",��%t�X��u=X��΀��~��e��2�2�222�u��4b�� v��0i��Dv77��CJz�0��E�A�F�a��[�ݿ��@��f�h��r_��3��=��&�F��Ƀ��I�t��B\�&�/tM��%��"0��.��%v�X��u=��΀��ꄘ��e��2�2�222�u��4d��"�v��0ƀ��Dv77��CK8�0��E�A�F�dk��ݿ��~��f�t��r`�3��=��&�F��q��M�t��B^�&�/vG��%��"4��F��%x�X��u=��΀��V��e��2�2�222�u��4f��$�v��1$��Dv77��CK�0��E�A�F�f�곀ݿ��f��r`5�3��=Ȁ��&�F��s��Q�t��B`�&�/xA��%��"8��^��%z�X��u>��΀��e��2�2�222�u��4h��&�v��1l��Dv77��CL��0��E�A�F�ik�J�ݿ��f��r`S�3��=΀��&�F��o��U�t��Bb�&�/z;��%��"<��v��%|�X��u>P��΀��.��e��2�2�222�u��4j��(�v��1ʀ��Dv77��CMr�0��E�A�F�k��ݿ��6��f��r`q�3��=ր��&�F��U��X�t��Bd�&�/|5��%��"@��%~�X��u>��΀�錚��e��2�2�222�u��4l��*�v��2*��Dv77��CN,�0��E�A�F�nk��ݿ��t��f��r`��3��=܀��&�F��`��X�t��Bf�&�/~/��%��"D��%��X��u>��΀��e��2�2�222�u��4n��,�v��2��Dv77��CN�0��E�A�F�p�곀ݿ��f��r`��3��=��&�F��X��]�t��Bh�&�/�)��%��"H��%��X��u? ��΀��r��e��2�2�222�u��4p��.�v��2��Dv77��CO��0��E�A�F�skݿ��f��r`˂3��=��&�F��h��t��Bj�&�/�#��%��"L��ր��%��X��u?H��΀��ބ��e��2�2�222�u��4r��0�v��3?��Dv77��CPf�0��E�A�F�u�ݿ��,��f�Ȁ��r`�3��=��&�F��r��t��Bl�&�/��%��"P��%��X��u?��΀��J��e��2�2�222�u��4t��2�v��3��Dv77��CQ$�0��E�A�F�xk�R�ݿ��j��f�Ԁ��ra�3��=��&�F��l��t��Bn�&�/��%��"T��%��Y��u?��΀�鎶��e��2�2�222�u��4v��4�v��3��Dv77��CQ��0��E�A�F�z��f��ra&�3��>��&�F��ӏ��D�t��Bp�&�/��%��"X��%��Y��u@��΀��"��e��2�2�222�u��4z��6�v��4G��DvA7��CR��0��E�A�F�}k쫀ݿ��f��raD�3��>��&�F��ǀ��O�t��Br�&�/��%��"\��6��%��Y��u@B��΀�鏎��e��2�2�222�u��4~��8�v��4��DvA7��CS^�0��E�A�F��ݿ��4��f��rab�3��>��&�F��ս��R�t��Bt�&�/��%��"`��N��%��Y��u@��΀��e��2�2�222�u��4��:�v��4��DvA7��CT�0��E�A�F��k��r��f��ra��3��>��&�F��U�t��Bv�&�/��&��"d��f��%��Y��u@��΀��f��e��2�2�222�u��4��<�v��5W��DvC7��CT؀0��E�A�F��쫀ݿ��f��ra��3��>��&�F��ˀ��Y�t��Bx�&�/��&��"h��~��%��Y��u@��΀��҄��e��2�2�222�u��4��>�v��5��DvC7��CU��0��E�A�F��k쫀ݿ��f��ra��3��>"��'F��р��\�t��Bz�&�/��&��"l��%��Y��uA:��΀��>��e��2�2�222�u��4��@�v��6��DvC7��CVR�0��E�A�F��.��f�(��raڂ3��>*��'F��ŀ��`�t��B|�&�/��&��"p��%��Y��uAx��΀�鑪��e��2�2�222�u��4��B�v��6q��DvE7��CW�0��E�A�F��k�[�ݿ��n��f�4��ra��3��>0��'F��ڿ��s�t��B~�&�/��&��"t��ƀ��%��Y��uA��΀��e��2�2�222�u��4��D�v��6Ӏ��DvE7��CẀ0��E�A�F��R��f�@��rb�3��>8��'F��ۿ��t��B��&�/��& ��"x��ހ��%��Y��uA��΀�钂��e��2�2�222�u��4��F�v��73��DvF7��CX��0��FA�F��k�8��f�L��rb4�3��>>��'F��ܽ��t��B��&�/�ۀ��&��"|��%��Y��uB2��΀����e��2�2�222�u��4��H�v��7��DvG7��CYH�0��FA�F��ݿ��,��f�X��rbR�3��>F��' F��ݻ�� t��B��&�/�Հ��&��"��%��Y��uBp��΀��Z��e��2�2�222�u��4��L�v��7��DvG7��CZ�0��FA�F��k��ݿ��j��f�d��rbp�3��>L��'F��&�t��B��&�/�π��&��"��&��%��Y��uB��΀��Ƅ��e��2�2�222�u��4��N�v��8J��DvG7��CZĀ0��FA�F��ݿ��f�p��rb��3��>T��'F��ߺ��&�t��B��&�/�ɀ��&��"��>��%��Y��uB��΀��2��e��2�2�222�u��4��P�v��8��DvG7��C[��0��FA�F��k��ݿ��f�|��rb��3��>Z��'F��ˀ��*�t��B��&�/�À��&��"��V��%��Y��uC*��΀�锞��e��2�2�222�u��4��R�v��8��DvG7��C\>�0��F A�F��[�ݿ��"��f��rbʂ3��>b��'F��.�t��B��&�/��&��"��n��%��Y��uCh��΀�� e��2�2�222�u��4��T�v��9-��DvG7��C\��0��FA�F��k�0�ݿ��`��f��rb�3��>h��'F��.�t��B��&�/��&��"��%��Y��uC��΀��t��e��2�2�222�u��4��V�v��9j��DvG7��C]��0��FA�F��ݿ��f��rc�3��>p��'F�� 3�t��B��&�/��&��"��%��Y��uC��΀��℘��e��2�2�222�u��4��X�v��9Ȁ��DvG7��C^x�0��FA�F��k�[�ݿ��܀��f��rc$�3��>v��'F��$��O�t��B��&�/��&��"��%��Y��uD"��΀��N��e��2�2�222�u��4��Z�v��:&��DvG7��C_4�0��FA�F��쫀ݿ��f��rcB�3��>~��'F�� t��B��&�/��&��"��΀��%��Y��uD`��΀�閺��e��2�2�222�u��4��\�v��:��DvG7��C_�0��FA�F��k�[�ݿ��X��f�Ā��rc`�3��>��'F��t��B��&�/��& ��"��%��Y��uD��΀��&��e��2�2�222�u��4��^�v��:݀��DvG7��C`��0��FA�F��ݿ��f�Ѐ��rc~�3��>��'F��t��B��&�/��&"��"��%��Y��uD��΀�闒��e��2�2�222�u��4��`�v��;;��DvG7��Can�0��FA�F��k��Ԁ��f�܀��rc��3��>��' F��"��t��B��&�/��&$��"��%��Y��uE��΀��e��2�2�222�u��4��b�v��;��DvK7��Cb*�0��FA�F��ݿ��f��rc��3��>��'"F��"��t��B��&�/��&&��"��.��%��Y��uEX��΀��j��e��2�2�222�u��4��d�v��;��DvK7��Cb�0��FA�F��k�[�ݿ��X��f��rc؂3��>��'$F��t��B��&�/��&(��"��F��%��Y��uE��΀��ք��e��2�2�222�u��4��f�v��'&F�� t��B��&�/��&*��"��^��%��Y��uE��΀��B��e��2�2�222�u��4��h�v��<��DvM7��Cdb�0��F A�F��k��ݿ��ր��f��rd�3��>��'(F��(��"�t��B��&�/�{��&,��"��v��%��Y��uF��΀�陮��e��2�2�222�u��4��j�v��=��DvM7��Ce �0��F"A�F��ݿ��f��rd2�3��>��'*F��6��%�t��B��&�/�u��&.��"��%��Y��uFP��΀��e��2�2�222�u��4��l�v��=X��DvM7��Ceހ0��F$A�F��k�R��R��f�$��rdP�3��>��',F��N��9�t��B��&�/�o��&0��"Ā��%��Y��uF��΀�隆��e��2�2�222�u��4��n�v��=��DvO7��Cf��0��F&A�F��[��f�0��rdn�3��>Ā��'.F��>��|�t��B��&�/�i��&2��"Ȁ��%Y��uF��΀��򄘀�e��2�2�222�u��4��p�v��>��DvP7��CgZ�0��F(A�F��k��Ҁ��f�<��rd��3��>ʀ��'0F��<��t��B��&�/�c��&4��"̀��ր��%ĂY��uG ��΀��^��e��2�2�222�u��4Ā��r�v��>q��DvQ7��Ch�0��F*A�F��[�� f�H��rd��3��>Ҁ��'2F��4��t��B��&�/�]��&6��"Ѐ��%ƂY��uGH��΀��ʄ��e��2�2�222�u��4ƀ��t�v��>΀��DvR7��ChԀ0��F,A�F��k�� R��f�T��rdȂ3��>؀��'4F��$��D�t��B��&�/�W��&8��"Ԁ��%ȂY��uG��΀��6��e��2�2�222�u��4Ȁ��v�v��?.��DvS7��Ci��0��F.A�F��쫀�� f�`��rd�3��>��'6F��(��t��B��&�/�Q��&:��"؀��%ʂY��uG��΀�霢��e��2�2�222�u��4ʀ��x�v��?��DvT7��CjP�0��F0A�F��k�R�� Ҁ��f�l��re�3��>��'8F��9��t��B��&�/�K��&<��"܀��6��%̂Y��uH��΀��e��2�2�222�u��4̀��z�v��?��DvU7��Ck�0��F2A�F�� f�x��re"�3��>��':F��1�� t��B��&�/�E��&>��"��N��%΂Y��uH@��΀��z��e��2�2�222�u��4΀��|�v��@L��DvV7��CkȀ0��F4A�F��k곀�� R��f��re@�3��>��'��'>F��M�t��B��&�/�9��&B��"��~��%҂Y��uH��΀��R��e��2�2�222�u��4Ҁ��Ȁ�v��A��DvX7��CmF�0��F8A�F��k��ݿ�� Ҁ��f��re|�3��?��'@F��:��t��B��&�/�3��&D��"��%ԂY��uH��΀�鞾��e��2�2�222�u��4Ԁ��Ȃ�v��Ah��DvX7��Cn�0��F:A�F��ݿ��f��re��3��? ��'BF��H��t��B��&�/�-��&F��"��%ւY��uI8��΀��*��e��2�2�222�u��4؀��Ȅ�v��A��DvX7��Cn��0��FA�F��f��reւ3��?��'FF��_��t��B��&�/�!��&J��"��ހ��%ڂY��uI��΀��e��2�2�222�u��4ހ��Ȉ�v��Be��DvZ7��Cp<�0��F@A�F��k�R��̀��f�̀��re�3��?��'HF��_��t��Bº&�/��&L��"��%܂Y��uI��΀��n��e��2�2�222�u��4��Ȋ�v��Bŀ��Dv[7��Cp��0��FBA�F��R��f�؀��rf�3��?&��'JF��E��t��Bĺ&�/��&N��"��%ނY��uJ0��΀��ڄ��e��2�2�222�u��4��Ȍ�v��C)��Dv\7��Cq��0��FDA�F��k��L��f��rf0�3��?,��'LF��I��Q�t��Bƺ&�/��&P��"��&��%��Y��uJn��΀��F��e��2�2�222�u��4��Ȏ�v��C��Dv]7��Crt�0��FFA�F��곀��f��rfN�3��?4��'NF��G��t��BȺ&�/� ��&R��"��>��%�Y��uJ��΀�顲��e��2�2�222�u��4��Ȑ�v��C��Dv^7��Cs2�0��FHA�F��lK��̀��f��rfl�3��?:��'PF��J��"�t��Bʺ&�/��&T��"��V��%�Y��uJ��΀��e��2�2�222�u��4��Ȓ�v��DG��Dv_7��Cs�0��FJA�F��ݿ�� f��rf��3��?B��'RF��W��t��B̺&�/��&V��"��n��%�Y��uK(��΀�颊��e��2�2�222�u��4��Ȗ�v��D��Dv_7��Ct��0��FLA�F��k�[�ݿ�� H��f��rf��3��?H��'TF��F��t��Bκ&�/��&X��"��%�Y��uKf��΀��e��2�2�222�u��4��Ș�v��Dր��Dv_7��CuZ�0��FNA�F��ݿ�� f� ��rfǂ3��?P��'VF��J��t��Bк&�/��&Z��"��%�Z��uK��΀��b��e��2�2�222�u��4��Ț�v��E2��Dv_7��Cv&�0��FPA�F��k�R�ݿ�� Ā��f�,��rf�3��?V��'XF��N��t��BҺ&�/��&\��"��%�Z��uK��΀��΄��e��2�2�222�u��4��Ȝ�v��E��Dv_7��Cv�0��FRA�F��ݿ��f�8��rg�3��?^��'ZF��J��t��BԺ&�/��&^��" ��ʀ��%�Z��uL"��΀��8��e��2�2�222�u��4��Ȟ�v��EЀ��Dv_7��Cw��0��FTA�F��k��ݿ��@��f�D��rg!�3��?d��'\F��g��t��Bֺ&�/�߀��&`��"$��%��Z��uL`��΀�餦��e��2�2�222�u��4��Ƞ�v��F��Dv_7��Cx\�0��FVA�F��ݿ��~��f�P��rg?�3��?l��'^F��q��t��Bغ&�/�ـ��&b��"(��%�Z��uL��΀��e��2�2�222�u��4��Ȣ�v��FL��Dv_7��Cy�0��FXA�F��k��ݿ��f�\��rg]�3��?r��'`F�� t��Bں&�/�Ӏ��&d��",��%�Z��uL��΀��~��e��2�2�222�u��4��Ȥ�v��F��Dv_7��Cyڀ0��FZA�F��쫀ݿ��f�h��rg{�3��?z��'bF�� {��t��Bܺ&�/�̀��&f��"0��.��%��Z��uM��΀��ꄘ��e��2�2�222�u��4��Ȧ�v��G ��Dv_7��Cz��0��F\A�F�lC�ݿ��8��f�t��rg��3��?��'dF��k��,�t��B޺&�/�ǀ��&h��"4��F��%��Z��uMX��΀��V��e��2�2�222�u��5��Ȩ�v��Gm��Dv_7��C{T�0��F^A�F��[��v��f��rg��3��?��'fF��o��i�t��B�&�/��&j��"8��^��%��Z��uM��΀��e��2�2�222�u��5��Ȫ�v��Gʀ��Dvc7��C|�0��F`A�F� k�J��f��rgՂ3��?��'hF�� t��B�&�/��&l��"<��v��%��Z��uM��΀��.��e��2�2�222�u��5��Ȭ�v��H$��Dve7��C|Ҁ0��FbA�F��ݿ��f��rg�3��?��'jF��x��t��B�&�/��&n��"@��%��Z��uN��΀�駚��e��2�2�222�u��5��Ȯ�v��H��Dve7��C}��0��FdA�F�lK�ݿ��:��f��rh�3��?��'lF��t��B�&�/��&p��"D��&�Z��uNP��΀��e��2�2�222�u��5��Ȱ�v��H��Dve7��C~J�0��FfA�F��x��f��rh/�3��?��'nF��}��t��B�&�/��&r��"H��&�Z��uN��΀��r��e��2�2�222�u��5 ��Ȳ�v��IA��Dvg7��C �0��FhA�F�k�[��f��rhM�3��?��'pF��t��B�&�0��&t��"L��ր��&�Z��uN��΀��ބ��e��2�2�222�u��5��ȴ�v��I��Dvh7��Cƀ0��FjA�F��[��f�Ȁ��rhk�3��?��'rF��8�t��B�&�0��&v��"P��&�Z��uO ��΀��J��e��2�2�222�u��5��ȶ�v��J��Dvi7��C��0��FlA�F�kݿ��8��f�Ԁ��rh��3��?��'tF��Q�t��B�&�0��&x��"T��&�Z��uOH��΀�驶��e��2�2�222�u��5��ȸ�v��Jb��Dvi7��C�@�0��FnA�F��ݿ��v��f��rh��3��?��'vF��T�t��B�&�0��&z��"X��& �Z��uO��΀��"��e��2�2�222�u��5��Ⱥ�v��J��Dvi7��C��0��FpA�F�k��ݿ��f��rhł3��?ƀ��'xF��W�t��B�&�0��&|��"\��6��&�Z��uO��΀�骎��e��2�2�222�u��5��ȼ�v��J��Dvi7��C��0��FrA�F��f��rh�3��?΀��'zF��t�t��B��&�0 ��&~��"`��N��&�Z��uP��΀��e��2�2�222�u��5��Ⱦ�v��K_��Dvk7��C�z�0��FtA�F�"k�[��2��f��ri�3��?Ԁ��'|F��t��B��&�0��&��"d��f��&�Z��uP@��΀��h��e��2�2�222�u��5��w��KÀ��Dvl7��C�8�0��FvA�F�$��d��r��f��ri�3��?܀��'~F��t��B��&�0y��&��"h��~��&�Z��uP~��΀��Ԅ��e��2�2�222�u��5 ��w��L��Dvm7��C��0��FxA�F�'k��f��ri>�3��?��'�F��Ȁ��9�t��B��&�0s��&��"l��&�Z��uP��΀��@��e��2�2�222�u��5"��āw��L��Dvn7��C��0��FzA�F�)��R��f�*��ri\�3��?��'�F��|�t��B��&�0m��&��"p��&�[��uP��΀�鬬��e��2�2�222�u��5$��Ɓw��Lހ��Dvo7��C�p�0��F|A�F�,k��2��f�6��riz�3��?��'�F��t��B��&�0g��&��"t��ƀ��&�[��uQ:��΀��e��2�2�222�u��5&��ȁw��M?��Dvp7��C�,�0��F~A�F�.��r��f�B��ri��3��?��'�F��t��C�&�0a��&��"x��ހ��&�[��uQx��΀�魄��e��2�2�222�u��5(��ʁw��M��Dvq7��C��0��F�A�F�1k쫀��f�N��ri��3��?��'�F��B�t��C�&�0[��&��"|��&�[��uQ��΀��e��2�2�222�u��5*��́w��M��Dvr7��C��0��F�A�F�3�곀��f�Z��riԂ3��@��'�F��t��C�&�0U��&��"��&�[��uQ��΀��\��e��2�2�222�u��5,��΁w��N_��Dvs7��C�f�0��F�A�F�6k��2��f�f��ri�3��@��'�F��t��C�&�0O��&��"��&��& �[��uR2��΀��Ȅ��e��2�2�222�u��5.��Ёw��N��Dvt7��C�$�0��F�A�F�8��r��f�r��rj�3��@��'�F�� t��C�&�0I��&��"��>��&"�[��uRp��΀��4��e��2�2�222�u��50��ҁw��O��Dvu7��C��0��F�A�F�;k��f�~��rj.�3��@��'�F��!��<�t��C �&�0 C��&��"��V��&$�[��uR��΀�鯠��e��2�2�222�u��54��ԁw��Og��Dvv7��C��0��F�A�F�=��f��rjL�3��@"��'�F��"Ā��f�t��C�&�0"=��&��"��n��&&�[��uR��΀��e��2�2�222�u��5:��ցw��O��Dvw7��C�J�0��F�A�F�@k�[��2��f��rjj�3��@(��'�F��#ր��t��C�&�0$7��&��"��&(�[��uS*��΀��x��e��2�2�222�u��5>��؁w��O��Dvx7��C��0��F�A�F�B��r��f��rj��3��@0��'�F��$��t��C�&�0&1��&��"��&*�[��uSh��΀��䄘��e��2�2�222�u��5@��ځw��P\��Dvy7��C�ր0��F�A�F�Ek��f��rj��3��@6��'�F��%��"�t��C�&�0(+��&��"��&,�[��uS��΀��P��e��2�2�222�u��5B��܁w��P��Dvz7��C��0��F�A�F�G��f��rjĂ3��@>��'�F��&Ѐ��e�t��C�&�0*%��&��"��΀��&.�[��uS��΀�鱼��e��2�2�222�u��5D��ށw��Q��Dv{7��C�R�0��F�A�F�Jk��2��f�ƀ��rj�3��@D��'�F��'΀��t��C�&�0,��&��"��&0�[��uT"��΀��(��e��2�2�222�u��5F��w��Q{��Dv|7��C��0��F�A�F�L��R��r��f�Ҁ��rk�3��@L��'�F��(��t��C�&�0.��&��"��&2�[��uT`��΀�鲔��e��2�2�222�u��5H��w��Q׀��Dv}7��C�΀0��F�A�F�Ok��f�ހ��rk�3��@R��'�F��)Ҁ��,�t��C�&�00��&��"��&4�\��uT��΀��e��2�2�222�u��5J��w��R7��Dv~7��C��0��F�A�F�Q��[��f��rk=�3��@Z��'�F��*Ԁ��n�t��C�&�02 ��&��"��.��&6�\��uT��΀��l��e��2�2�222�u��5L��w��R��Dv7��C�H�0��F�A�F�Tk��2��f��rk[�3��@`��'�F��+��t��C�&�04��&��"��F��&8�\��uU��΀��؄��e��2�2�222�u��5N��w��R��Dv�7��C��0��F�A�F�V��r��f��rky�3��@h��'�F��,��t��C �&�06��&��"��^��&:�\��uUZ��΀��D��e��2�2�222�u��5P��w��SV��Dv�7��C�Ā0��F�A�F�Yk��f��rk��3��@n��'�F��-��6�t��C"�&�07��&��"��v��&<�\��uU��΀�鴰��e��2�2�222�u��5T��w��S��Dv�7��C��0��F�A�F�[��f��rk��3��@v��'�F��.��k�t��C$�&�09��&��"��&>�\��uU��΀��e��2�2�222�u��5V��w��S��Dv�7��C�>�0��F�A�F�^k�J��2��f�&��rkӂ3��@|��'�F��/��t��C&�&�0;��&��"Ā��&@�\��uV��΀�鵈��e��2�2�222�u��5Z��w��TW��Dv�7��C��0��F�A�F�`�곀��r��f�2��rk�3��@��'�F��0܀��t��C(�&�0=��&��"Ȁ��&B�\��uVR��΀��􄘀�e��2�2�222�u��5\��w��T��Dv�7��C��0��F�A�F�ck쫀��f�>��rl�3��@��'�F��1؀��'�t��C*�&�0?��&��"̀��ր��&D�\��uV��΀��`��e��2�2�222�u��5^��w��U��Dv�7��C�t�0��F�A�F�e��[�ݿ��f�J��rl-�3��@��'�F��2��E�t��C,�&�0A݀��&��"Ѐ��&F�\��uV��΀��̄��e��2�2�222�u��5`��w��Ut��Dv�7��C�4�0��F�A�F�hkݿ��0��f�V��rlK�3��@��'�F��3΀��E�t��C.�&�0C׀��&��"Ԁ��&H�\��uW��΀��8��e��2�2�222�u��5b��w��UՀ��Dv�7��C��0��F�A�F�j�ݿ��l��f�b��rli�3��@��'�F��4ـ��J�t��C0�&�0Eр��&��"؀��&J�\��uWJ��΀�鷤��e��2�2�222�u��5d��w��V3��Dv�7��C��0��F�A�F�mlT�ݿ��f�n��rl��3��@��'�F��5��L�t��C2�&�0Gˀ��&��"܀��6��&L�\��uW��΀��e��2�2�222�u��5f��w��V��Dv�7��C�l�0��F�A�F�o��[�ݿ��f�z��rl��3��@��'�F��6Հ��P�t��C4�&�0Iŀ��&��"��N��&N�\��uW��΀��|��e��2�2�222�u��5h��w��V��Dv�7��C�*�0��F�A�F�rk��ݿ��&��f��rlÂ3��@��'�F��7р��R�t��C6�&�0K��&��"��f��&P�\��uX��΀��脘��e��2�2�222�u��5j��w��WQ��Dv�7��C��0��F�A�F�t��[�ݿ��d��f��rl�3��@��'�F��8��X�t��C8�&�0M��&��"��~��&R�\��uXB��΀��T��e��2�2�222�u��5l��w��W��Dv�7��C��0��F�A�F�wk�[�ݿ��f��rm�3��@��'�F��9À��t��C:�&�0O��&Ā��"��&T�\��uX��΀��e��2�2�222�u��5n��w��X��Dv�7��C�b�0��F�A�F�y��ݿ��f��rm�3��@ʀ��'�F��:Ӏ��t��C<�&�0Q��&ƀ��"��&V�]��uX��΀��,��e��2�2�222�u��5r��w��XW��Dv�7��C� �0��F�A�F�|k�[�ݿ��f��rm<�3��@Ѐ��'�F��;߀��t��C>�&�0S��&Ȁ��"��ƀ��&X�]��uX��΀�麘��e��2�2�222�u��5v�� w��X��Dv�7��C�܀0��F�A�F�~��R��\��f��rmZ�3��@؀��'�F��<��4�t��C@�&�0U��&ʀ��"��ހ��&Z�]��uY<��΀��e��2�2�222�u��5x��w��Y��Dv�7��C��0��F�A�F��k��f�΀��rmx�3��@ހ��'�F��=��t�t��CB�&�0W��&̀��"��&\�]��uYz��΀��p��e��2�2�222�u��5z��w��Yd��Dv�7��C�X�0��F�A�F��[��f�ڀ��rm��3��@��'�F��>��÷�t��CD�&�0Y��&΀��"��&^�]��uY��΀��܄��e��2�2�222�u��5|��w��Yƀ��Dv�7��C��0��F�A�F��k�d��"��f��rm��3��@��'�F��?��t��CF�&�0[��&Ѐ��"��&��&`�]��uY��΀��H��e��2�2�222�u��5~��w��Z%��Dv�7��C�Ԁ0��F�A�F��b��f��rm҂3��@��'�F��@Հ��6�t��CH�&�0]��&Ҁ��"��>��&b�]��uZ4��΀�鼴��e��2�2�222�u��5��w��Z��Dv�7��C��0��F�A�F��k��f��rm��3��@��'�F��A��y�t��CJ�&�0_��&Ԁ��"��V��&d�]��uZr��΀�� e��2�2�222�u��5��w��Z��Dv�7��C�N�0��F�A�F��f� ��rn�3��A��'�F��B��Ļ�t��CL�&�0a}��&ր��"��n��&f�]��uZ��΀�齌��e��2�2�222�u��5��w��[<��Dv�7��C��0��F�A�F��k�J��$��f��rn,�3��A��'�F��Cـ��t��CN�&�0cw��&؀��"��&h�]��uZ��΀��e��2�2�222�u��5��w��[��Dv�7��C�Ȁ0��F�A�F��[��d��f�"��rnJ�3��A��'�F��DӀ��A�t��CP�&�0eq��&ڀ��"��&j�]��u[,��΀��d��e��2�2�222�u��5��w��[��Dv�7��C��0��F�A�F��k��f�.��rnh�3��A��'�F��EҀ��Ń�t��CR�&�0gk��&܀��"��&l�]��u[j��΀��Є��e��2�2�222�u��5��w��\\��Dv�7��C�F�0��F�A�F��f�:��rn��3��A��'�F��FȀ��t��CT�&�0ie��&ހ��" ��΀��&n�]��u[��΀��<��e��2�2�222�u��5�� w��\��Dv�7��C��0��F�A�F��k��$��f�F��rn��3��A$��'�F��G��t��CV�&�0k_��&��"$��&p�]��u[��΀�鿨��e��2�2�222�u��5��"�w��] ��Dv�7��C��0��F�A�F��d��f�R��rn3��A,��'�F��H��-�t��CX�&�0mY��&��"(��&r�]��u\$��΀��e��2�2�222�u��5��$�w��]]��Dv�7��C�~�0��F�A�F��k�[��f�^��rn�3��A2��'�F��J ��q�t��CZ�&�0oS��&��",��&t�^��u\d��΀��e��2�2�222�u��5��&�w��]��Dv�7��C�:�0��F�A�F��쫀��f�j��ro�3��A:��'�F��K��ƴ�t��C\�&�0qM��&��"0��.��&v�^��u\��΀��섘��e��2�2�222�u��5��(�w��^��Dv�7��C��0��F�A�F��k쫀��$��f�v��ro�3��A@��'�F��L��t��C^�&�0sG��&��"4��F��&x�_��u\��΀��X��e��2�2�222�u��5��*�w��^}��Dv�7��C��0��F�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 111 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKSYNC' / PW HK Packet Sync Mark TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKPKTID' / PW HK Packet Packet ID TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BPWHKLASTCMD' / PW HK Packet Last Command TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BPWHKCMDDATA' / PW HK Packet Last Command Data 16-bit TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BPWHKIPESTATUS' / PW HK Packet IPE Interface Status TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BPWHKPIPESTATUS' / PW HK Packet Heat Pipe Switch Status TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BPWHKBLKCONV' / PW HK Packet Block Conversion Switch Status TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BPWHKBLKHEAT' / PW HK Packet Block Heater Switch Status TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BPWHKADCTRAP' / PW HK Packet ADC SEL Trap Status TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BPWHKSTATUS1' / PW HK Packet Various Status Bits TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BPWHKSTATUS2' / PW HK Packet Various Status Bits TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BPWHKSTATUS3' / PW HK Packet Various Status Bits TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'undocumented1' / Byte field not in ITOS database TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BPWHKB00PRITEMP' / PW HK Pkt; Block 00 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB00SECTEMP' / PW HK Pkt; Block 00 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKLHP0PRITEMP' / PW HK Pkt; Pipe 00 SetPointTemp for Loop Heat TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB00SPARE' / PW HK Pkt; Block 00 Spare TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB00INPUTI' / PW HK Pkt; Block 00 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB0025GND' / PW HK Pkt; Block 00 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB00P25VLT' / PW HK Pkt; Block 00 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB00M25VLT' / PW HK Pkt; Block 00 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB00P35VLT' / PW HK Pkt; Block 00 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB00M35VLT' / PW HK Pkt; Block 00 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB00P50VLT' / PW HK Pkt; Block 00 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB00P75VLT' / PW HK Pkt; Block 00 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB00M75VLT' / PW HK Pkt; Block 00 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB00CVTTEMP' / PW HK Pkt; Block 00 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB00TEMP' / PW HK Pkt; Block 00 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPA0TEMP' / PW HK Pkt; LHP 0 (+Y) Comp Chamber (CC) TemperaTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKLHPB6TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ Cond Outlet TemTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKTAGFRNTHVLT' / PW HK Pkt; Tagged Source (Front) High Voltage TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL32 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT32 = 'V ' / physical unit of field TTYPE33 = 'BPWHKB01PRITEMP' / PW HK Pkt; Block 01 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB01SECTEMP' / PW HK Pkt; Block 01 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKLHP1PRITEMP' / PW HK Pkt; Pipe 01 SetPointTemp for Loop Heat TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB01SPARE' / PW HK Pkt; Block 01 Spare TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB01INPUTI' / PW HK Pkt; Block 01 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB0125GND' / PW HK Pkt; Block 01 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB01P25VLT' / PW HK Pkt; Block 01 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB01M25VLT' / PW HK Pkt; Block 01 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB01P35VLT' / PW HK Pkt; Block 01 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB01M35VLT' / PW HK Pkt; Block 01 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB01P50VLT' / PW HK Pkt; Block 01 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB01P75VLT' / PW HK Pkt; Block 01 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB01M75VLT' / PW HK Pkt; Block 01 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB01CVTTEMP' / PW HK Pkt; Block 01 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB01TEMP' / PW HK Pkt; Block 01 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPA1TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKLHPB7TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Evap Outlet TemTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKTAGFRNTTVLT' / PW HK Pkt; Tagged Source (Front) Threshold VoltTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL50 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT50 = 'V ' / physical unit of field TTYPE51 = 'BPWHKB02PRITEMP' / PW HK Pkt; Block 02 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB02SECTEMP' / PW HK Pkt; Block 02 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKLHP0SECTEMP' / PW HK Pkt; Pipe 02; SetPointTemp for Loop HeatTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB02SPARE' / PW HK Pkt; Block 02 Spare TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB02INPUTI' / PW HK Pkt; Block 02 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB0225GND' / PW HK Pkt; Block 02 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB02P25VLT' / PW HK Pkt; Block 02 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB02M25VLT' / PW HK Pkt; Block 02 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB02P35VLT' / PW HK Pkt; Block 02 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB02M35VLT' / PW HK Pkt; Block 02 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB02P50VLT' / PW HK Pkt; Block 02 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB02P75VLT' / PW HK Pkt; Block 02 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB02M75VLT' / PW HK Pkt; Block 02 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB02CVTTEMP' / PW HK Pkt; Block 02 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB02TEMP' / PW HK Pkt; Block 02 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPA2TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKLHPB8TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Cond Outlet TemTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKTAGREARHVLT' / PW HK Pkt; Tagged Source (Rear) High Voltage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL68 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT68 = 'V ' / physical unit of field TTYPE69 = 'BPWHKB03PRITEMP' / PW HK Pkt; Block 03 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB03SECTEMP' / PW HK Pkt; Block 03 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKLHP1SECTEMP' / PW HK Pkt; Pipe 03; SetPointTemp for Loop HeatTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB03SPARE' / PW HK Pkt; Block 03 Spare TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB03INPUTI' / PW HK Pkt; Block 03 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB0325GND' / PW HK Pkt; Block 03 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB03P25VLT' / PW HK Pkt; Block 03 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB03M25VLT' / PW HK Pkt; Block 03 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB03P35VLT' / PW HK Pkt; Block 03 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB03M35VLT' / PW HK Pkt; Block 03 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB03P50VLT' / PW HK Pkt; Block 03 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB03P75VLT' / PW HK Pkt; Block 03 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB03M75VLT' / PW HK Pkt; Block 03 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB03CVTTEMP' / PW HK Pkt; Block 03 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB03TEMP' / PW HK Pkt; Block 03 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPA3TEMP' / PW HK Pkt; LHP 0 (+Y) Condenser Temperature, -XTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKLHPB9TEMP' / PW HK Pkt; LHP 1 (-Y) BLock/DM Temperature (B9)TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKTAGREARTVLT' / PW HK Pkt; Tagged Source (Rear) Threshold VoltaTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL86 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT86 = 'V ' / physical unit of field TTYPE87 = 'BPWHKB04PRITEMP' / PW HK Pkt; Block 04 SetPointTemp Primary HeaterTFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB04SECTEMP' / PW HK Pkt; Block 04 SetPointTemp 2ndary Heater TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB04SPARE0' / PW HK Pkt; Block 04 Spare 0 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWHKB04SPARE1' / PW HK Pkt; Block 04 Spare 1 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB04INPUTI' / PW HK Pkt; Block 04 Input Current for DC-DC ConTFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL91 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT91 = 'A ' / physical unit of field TTYPE92 = 'BPWHKB0425GND' / PW HK Pkt; Block 04 Voltage on 2.5 Ground ReturTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWHKB04P25VLT' / PW HK Pkt; Block 04 +2.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL93 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB04M25VLT' / PW HK Pkt; Block 04 -2.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL94 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB04P35VLT' / PW HK Pkt; Block 04 +3.5 Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL95 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB04M35VLT' / PW HK Pkt; Block 04 -3.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL96 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB04P50VLT' / PW HK Pkt; Block 04 +5.0 Digital Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL97 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB04P75VLT' / PW HK Pkt; Block 04 +7.5 Voltage TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL98 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT98 = 'V ' / physical unit of field TTYPE99 = 'BPWHKB04M75VLT' / PW HK Pkt; Block 04 -7.5 Voltage TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL99 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT99 = 'V ' / physical unit of field TTYPE100= 'BPWHKB04CVTTEMP' / PW HK Pkt; Block 04 DC-DC Converter Module TempTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKB04TEMP' / PW HK Pkt; Block 04 Temperature TFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKLHPA4TEMP' / PW HK Pkt; LHP 1 (+Y) Condenser Temperature, +XTFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL102= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'BPWHKMASK0TEMP' / PW HK Pkt; Mask Temperature (top center) TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL103= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT103= 'Celsius ' / physical unit of field TTYPE104= 'BPWHKSPARE04TMP' / PW HK Pkt; Block 04 Spare Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL104= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'BPWHKB05PRITEMP' / PW HK Pkt; Block 05 SetPointTemp Primary HeaterTFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB05SECTEMP' / PW HK Pkt; Block 05 SetPointTemp 2ndary Heater TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB05SPARE0' / PW HK Pkt; Block 05 Spare 0 TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 32768 / offset for unsigned integers TTYPE108= 'BPWHKB05SPARE1' / PW HK Pkt; Block 05 Spare 1 TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BPWHKB05INPUTI' / PW HK Pkt; Block 05 Input Current for DC-DC ConTFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL109= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT109= 'A ' / physical unit of field TTYPE110= 'BPWHKB0525GND' / PW HK Pkt; Block 05 Voltage on 2.5 Ground ReturTFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BPWHKB05P25VLT' / PW HK Pkt; Block 05 +2.5 Voltage TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL111= 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT111= 'V ' / physical unit of field EXTNAME = 'hk140x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.94478 TSTOP = 713896242.9412 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99642002583 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 320 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '5b44Ab118b11Ab11' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2605608815' / data unit checksum updated 2023-08-26T08:43:45 TRDLO19 = -0.2 / BPWHKB00INPUTI Red lower limit = B_PCB_B00_INPITRDHI19 = 0.9 / BPWHKB00INPUTI Red upper limit = B_PCB_B00_INPITYELO19 = -0.1 / BPWHKB00INPUTI Yellow lower limit = B_PCB_B00_ITYEHI19 = 0.8 / BPWHKB00INPUTI Yellow upper limit = B_PCB_B00_ITRDLO20 = -2 / BPWHKB0025GND Red lower limit = B_PCB_B00_2_5G_TRDHI20 = 15 / BPWHKB0025GND Red upper limit = B_PCB_B00_2_5G_TYELO20 = -1 / BPWHKB0025GND Yellow lower limit = B_PCB_B00_2_TYEHI20 = 10 / BPWHKB0025GND Yellow upper limit = B_PCB_B00_2_TRDLO21 = 2.55 / BPWHKB00P25VLT Red lower limit = B_PCB_B00_2_7VTRDHI21 = 2.84 / BPWHKB00P25VLT Red upper limit = B_PCB_B00_2_7VTYELO21 = 2.62 / BPWHKB00P25VLT Yellow lower limit = B_PCB_B00_2TYEHI21 = 2.78 / BPWHKB00P25VLT Yellow upper limit = B_PCB_B00_2TRDLO22 = 2.55 / BPWHKB00M25VLT Red lower limit = B_PCB_B00_2_7VTRDHI22 = 2.84 / BPWHKB00M25VLT Red upper limit = B_PCB_B00_2_7VTYELO22 = 2.62 / BPWHKB00M25VLT Yellow lower limit = B_PCB_B00_2TYEHI22 = 2.78 / BPWHKB00M25VLT Yellow upper limit = B_PCB_B00_2TRDLO23 = 3.65 / BPWHKB00P35VLT Red lower limit = B_PCB_B00_3_8VTRDHI23 = 4.05 / BPWHKB00P35VLT Red upper limit = B_PCB_B00_3_8VTYELO23 = 3.73 / BPWHKB00P35VLT Yellow lower limit = B_PCB_B00_3TYEHI23 = 3.97 / BPWHKB00P35VLT Yellow upper limit = B_PCB_B00_3TRDLO24 = 3.65 / BPWHKB00M35VLT Red lower limit = B_PCB_B00_3_8VTRDHI24 = 4.05 / BPWHKB00M35VLT Red upper limit = B_PCB_B00_3_8VTYELO24 = 3.73 / BPWHKB00M35VLT Yellow lower limit = B_PCB_B00_3TYEHI24 = 3.97 / BPWHKB00M35VLT Yellow upper limit = B_PCB_B00_3TRDLO25 = 4.75 / BPWHKB00P50VLT Red lower limit = B_PCB_B00_5_0VTRDHI25 = 5.25 / BPWHKB00P50VLT Red upper limit = B_PCB_B00_5_0VTYELO25 = 4.85 / BPWHKB00P50VLT Yellow lower limit = B_PCB_B00_5TYEHI25 = 5.15 / BPWHKB00P50VLT Yellow upper limit = B_PCB_B00_5TRDLO26 = 7.12 / BPWHKB00P75VLT Red lower limit = B_PCB_B00_7_5VTRDHI26 = 7.85 / BPWHKB00P75VLT Red upper limit = B_PCB_B00_7_5VTYELO26 = 7.27 / BPWHKB00P75VLT Yellow lower limit = B_PCB_B00_7TYEHI26 = 7.72 / BPWHKB00P75VLT Yellow upper limit = B_PCB_B00_7TRDLO27 = 7.12 / BPWHKB00M75VLT Red lower limit = B_PCB_B00_7_5VTRDHI27 = 7.85 / BPWHKB00M75VLT Red upper limit = B_PCB_B00_7_5VTYELO27 = 7.27 / BPWHKB00M75VLT Yellow lower limit = B_PCB_B00_7TYEHI27 = 7.72 / BPWHKB00M75VLT Yellow upper limit = B_PCB_B00_7TRDLO28 = -20 / BPWHKB00CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB00CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB00CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB00CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB00TEMP Red lower limit = B_TBLK_00_LIM TRDHI29 = 45 / BPWHKB00TEMP Red upper limit = B_TBLK_00_LIM TYELO29 = -10 / BPWHKB00TEMP Yellow lower limit = B_TBLK_00_LIMTYEHI29 = 40 / BPWHKB00TEMP Yellow upper limit = B_TBLK_00_LIMTRDLO30 = -25 / BPWHKLHPA0TEMP Red lower limit = B_TLHP_A0_LIM TRDHI30 = 60 / BPWHKLHPA0TEMP Red upper limit = B_TLHP_A0_LIM TYELO30 = -20 / BPWHKLHPA0TEMP Yellow lower limit = B_TLHP_A0_LTYEHI30 = 55 / BPWHKLHPA0TEMP Yellow upper limit = B_TLHP_A0_LTRDHI31 = 60 / BPWHKLHPB6TEMP Red upper limit = B_TLHP_B6_LIM TYEHI31 = 55 / BPWHKLHPB6TEMP Yellow upper limit = B_TLHP_B6_LTRDLO32 = 149 / BPWHKTAGFRNTHVLT Red lower limit = B_PCB_TAGHV_TRDHI32 = 153 / BPWHKTAGFRNTHVLT Red upper limit = B_PCB_TAGHV_TYELO32 = 150 / BPWHKTAGFRNTHVLT Yellow lower limit = B_PCB_TAGTYEHI32 = 152 / BPWHKTAGFRNTHVLT Yellow upper limit = B_PCB_TAGTRDLO37 = -0.2 / BPWHKB01INPUTI Red lower limit = B_PCB_B01_INPITRDHI37 = 0.9 / BPWHKB01INPUTI Red upper limit = B_PCB_B01_INPITYELO37 = -0.1 / BPWHKB01INPUTI Yellow lower limit = B_PCB_B01_ITYEHI37 = 0.8 / BPWHKB01INPUTI Yellow upper limit = B_PCB_B01_ITRDLO38 = -2 / BPWHKB0125GND Red lower limit = B_PCB_B01_2_5G_TRDHI38 = 15 / BPWHKB0125GND Red upper limit = B_PCB_B01_2_5G_TYELO38 = -1 / BPWHKB0125GND Yellow lower limit = B_PCB_B01_2_TYEHI38 = 10 / BPWHKB0125GND Yellow upper limit = B_PCB_B01_2_TRDLO39 = 2.55 / BPWHKB01P25VLT Red lower limit = B_PCB_B01_2_7VTRDHI39 = 2.84 / BPWHKB01P25VLT Red upper limit = B_PCB_B01_2_7VTYELO39 = 2.62 / BPWHKB01P25VLT Yellow lower limit = B_PCB_B01_2TYEHI39 = 2.78 / BPWHKB01P25VLT Yellow upper limit = B_PCB_B01_2TRDLO40 = 2.55 / BPWHKB01M25VLT Red lower limit = B_PCB_B01_2_7VTRDHI40 = 2.84 / BPWHKB01M25VLT Red upper limit = B_PCB_B01_2_7VTYELO40 = 2.62 / BPWHKB01M25VLT Yellow lower limit = B_PCB_B01_2TYEHI40 = 2.78 / BPWHKB01M25VLT Yellow upper limit = B_PCB_B01_2TRDLO41 = 3.65 / BPWHKB01P35VLT Red lower limit = B_PCB_B01_3_8VTRDHI41 = 4.05 / BPWHKB01P35VLT Red upper limit = B_PCB_B01_3_8VTYELO41 = 3.73 / BPWHKB01P35VLT Yellow lower limit = B_PCB_B01_3TYEHI41 = 3.97 / BPWHKB01P35VLT Yellow upper limit = B_PCB_B01_3TRDLO42 = 3.65 / BPWHKB01M35VLT Red lower limit = B_PCB_B01_3_8VTRDHI42 = 4.05 / BPWHKB01M35VLT Red upper limit = B_PCB_B01_3_8VTYELO42 = 3.73 / BPWHKB01M35VLT Yellow lower limit = B_PCB_B01_3TYEHI42 = 3.97 / BPWHKB01M35VLT Yellow upper limit = B_PCB_B01_3TRDLO43 = 4.75 / BPWHKB01P50VLT Red lower limit = B_PCB_B01_5_0VTRDHI43 = 5.25 / BPWHKB01P50VLT Red upper limit = B_PCB_B01_5_0VTYELO43 = 4.85 / BPWHKB01P50VLT Yellow lower limit = B_PCB_B01_5TYEHI43 = 5.15 / BPWHKB01P50VLT Yellow upper limit = B_PCB_B01_5TRDLO44 = 7.12 / BPWHKB01P75VLT Red lower limit = B_PCB_B01_7_5VTRDHI44 = 7.85 / BPWHKB01P75VLT Red upper limit = B_PCB_B01_7_5VTYELO44 = 7.27 / BPWHKB01P75VLT Yellow lower limit = B_PCB_B01_7TYEHI44 = 7.72 / BPWHKB01P75VLT Yellow upper limit = B_PCB_B01_7TRDLO45 = 7.12 / BPWHKB01M75VLT Red lower limit = B_PCB_B01_7_5VTRDHI45 = 7.85 / BPWHKB01M75VLT Red upper limit = B_PCB_B01_7_5VTYELO45 = 7.27 / BPWHKB01M75VLT Yellow lower limit = B_PCB_B01_7TYEHI45 = 7.72 / BPWHKB01M75VLT Yellow upper limit = B_PCB_B01_7TRDLO46 = -20 / BPWHKB01CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB01CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB01CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB01CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB01TEMP Red lower limit = B_TBLK_01_LIM TRDHI47 = 45 / BPWHKB01TEMP Red upper limit = B_TBLK_01_LIM TYELO47 = -10 / BPWHKB01TEMP Yellow lower limit = B_TBLK_01_LIMTYEHI47 = 40 / BPWHKB01TEMP Yellow upper limit = B_TBLK_01_LIMTRDLO48 = -30 / BPWHKLHPA1TEMP Red lower limit = B_TLHP_A1_LIM TRDHI48 = 60 / BPWHKLHPA1TEMP Red upper limit = B_TLHP_A1_LIM TYELO48 = -25 / BPWHKLHPA1TEMP Yellow lower limit = B_TLHP_A1_LTYEHI48 = 55 / BPWHKLHPA1TEMP Yellow upper limit = B_TLHP_A1_LTRDLO49 = -30 / BPWHKLHPB7TEMP Red lower limit = B_TLHP_B7_LIM TRDHI49 = 60 / BPWHKLHPB7TEMP Red upper limit = B_TLHP_B7_LIM TYELO49 = -25 / BPWHKLHPB7TEMP Yellow lower limit = B_TLHP_B7_LTYEHI49 = 55 / BPWHKLHPB7TEMP Yellow upper limit = B_TLHP_B7_LTRDLO50 = 1.89 / BPWHKTAGFRNTTVLT Red lower limit = B_PCB_FTAGTHTRDHI50 = 1.906 / BPWHKTAGFRNTTVLT Red upper limit = B_PCB_FTAGTHTYELO50 = 1.894 / BPWHKTAGFRNTTVLT Yellow lower limit = B_PCB_FTATYEHI50 = 1.9 / BPWHKTAGFRNTTVLT Yellow upper limit = B_PCB_FTATRDLO55 = -0.2 / BPWHKB02INPUTI Red lower limit = B_PCB_B02_INPITRDHI55 = 0.9 / BPWHKB02INPUTI Red upper limit = B_PCB_B02_INPITYELO55 = -0.1 / BPWHKB02INPUTI Yellow lower limit = B_PCB_B02_ITYEHI55 = 0.8 / BPWHKB02INPUTI Yellow upper limit = B_PCB_B02_ITRDLO56 = -2 / BPWHKB0225GND Red lower limit = B_PCB_B02_2_5G_TRDHI56 = 15 / BPWHKB0225GND Red upper limit = B_PCB_B02_2_5G_TYELO56 = -1 / BPWHKB0225GND Yellow lower limit = B_PCB_B02_2_TYEHI56 = 10 / BPWHKB0225GND Yellow upper limit = B_PCB_B02_2_TRDLO57 = 2.55 / BPWHKB02P25VLT Red lower limit = B_PCB_B02_2_7VTRDHI57 = 2.84 / BPWHKB02P25VLT Red upper limit = B_PCB_B02_2_7VTYELO57 = 2.62 / BPWHKB02P25VLT Yellow lower limit = B_PCB_B02_2TYEHI57 = 2.78 / BPWHKB02P25VLT Yellow upper limit = B_PCB_B02_2TRDLO58 = 2.55 / BPWHKB02M25VLT Red lower limit = B_PCB_B02_2_7VTRDHI58 = 2.84 / BPWHKB02M25VLT Red upper limit = B_PCB_B02_2_7VTYELO58 = 2.62 / BPWHKB02M25VLT Yellow lower limit = B_PCB_B02_2TYEHI58 = 2.78 / BPWHKB02M25VLT Yellow upper limit = B_PCB_B02_2TRDLO59 = 3.65 / BPWHKB02P35VLT Red lower limit = B_PCB_B02_3_8VTRDHI59 = 4.05 / BPWHKB02P35VLT Red upper limit = B_PCB_B02_3_8VTYELO59 = 3.73 / BPWHKB02P35VLT Yellow lower limit = B_PCB_B02_3TYEHI59 = 3.97 / BPWHKB02P35VLT Yellow upper limit = B_PCB_B02_3TRDLO60 = 3.65 / BPWHKB02M35VLT Red lower limit = B_PCB_B02_3_8VTRDHI60 = 4.05 / BPWHKB02M35VLT Red upper limit = B_PCB_B02_3_8VTYELO60 = 3.73 / BPWHKB02M35VLT Yellow lower limit = B_PCB_B02_3TYEHI60 = 3.97 / BPWHKB02M35VLT Yellow upper limit = B_PCB_B02_3TRDLO61 = 4.75 / BPWHKB02P50VLT Red lower limit = B_PCB_B02_5_0VTRDHI61 = 5.25 / BPWHKB02P50VLT Red upper limit = B_PCB_B02_5_0VTYELO61 = 4.85 / BPWHKB02P50VLT Yellow lower limit = B_PCB_B02_5TYEHI61 = 5.15 / BPWHKB02P50VLT Yellow upper limit = B_PCB_B02_5TRDLO62 = 7.12 / BPWHKB02P75VLT Red lower limit = B_PCB_B02_7_5VTRDHI62 = 7.85 / BPWHKB02P75VLT Red upper limit = B_PCB_B02_7_5VTYELO62 = 7.27 / BPWHKB02P75VLT Yellow lower limit = B_PCB_B02_7TYEHI62 = 7.72 / BPWHKB02P75VLT Yellow upper limit = B_PCB_B02_7TRDLO63 = 7.12 / BPWHKB02M75VLT Red lower limit = B_PCB_B02_7_5VTRDHI63 = 7.85 / BPWHKB02M75VLT Red upper limit = B_PCB_B02_7_5VTYELO63 = 7.27 / BPWHKB02M75VLT Yellow lower limit = B_PCB_B02_7TYEHI63 = 7.72 / BPWHKB02M75VLT Yellow upper limit = B_PCB_B02_7TRDLO64 = -20 / BPWHKB02CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB02CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB02CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB02CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB02TEMP Red lower limit = B_TBLK_02_LIM TRDHI65 = 45 / BPWHKB02TEMP Red upper limit = B_TBLK_02_LIM TYELO65 = -10 / BPWHKB02TEMP Yellow lower limit = B_TBLK_02_LIMTYEHI65 = 40 / BPWHKB02TEMP Yellow upper limit = B_TBLK_02_LIMTRDLO66 = -30 / BPWHKLHPA2TEMP Red lower limit = B_TLHP_A2_LIM TRDHI66 = 60 / BPWHKLHPA2TEMP Red upper limit = B_TLHP_A2_LIM TYELO66 = -25 / BPWHKLHPA2TEMP Yellow lower limit = B_TLHP_A2_LTYEHI66 = 55 / BPWHKLHPA2TEMP Yellow upper limit = B_TLHP_A2_LTRDHI67 = 60 / BPWHKLHPB8TEMP Red upper limit = B_TLHP_B8_LIM TYEHI67 = 55 / BPWHKLHPB8TEMP Yellow upper limit = B_TLHP_B8_LTRDLO68 = 149 / BPWHKTAGREARHVLT Red lower limit = B_PCB_TAGHV_TRDHI68 = 153 / BPWHKTAGREARHVLT Red upper limit = B_PCB_TAGHV_TYELO68 = 150 / BPWHKTAGREARHVLT Yellow lower limit = B_PCB_TAGTYEHI68 = 152 / BPWHKTAGREARHVLT Yellow upper limit = B_PCB_TAGTRDLO73 = -0.2 / BPWHKB03INPUTI Red lower limit = B_PCB_B03_INPITRDHI73 = 0.9 / BPWHKB03INPUTI Red upper limit = B_PCB_B03_INPITYELO73 = -0.1 / BPWHKB03INPUTI Yellow lower limit = B_PCB_B03_ITYEHI73 = 0.8 / BPWHKB03INPUTI Yellow upper limit = B_PCB_B03_ITRDLO74 = -2 / BPWHKB0325GND Red lower limit = B_PCB_B03_2_5G_TRDHI74 = 15 / BPWHKB0325GND Red upper limit = B_PCB_B03_2_5G_TYELO74 = -1 / BPWHKB0325GND Yellow lower limit = B_PCB_B03_2_TYEHI74 = 10 / BPWHKB0325GND Yellow upper limit = B_PCB_B03_2_TRDLO75 = 2.55 / BPWHKB03P25VLT Red lower limit = B_PCB_B03_2_7VTRDHI75 = 2.84 / BPWHKB03P25VLT Red upper limit = B_PCB_B03_2_7VTYELO75 = 2.62 / BPWHKB03P25VLT Yellow lower limit = B_PCB_B03_2TYEHI75 = 2.78 / BPWHKB03P25VLT Yellow upper limit = B_PCB_B03_2TRDLO76 = 2.55 / BPWHKB03M25VLT Red lower limit = B_PCB_B03_2_7VTRDHI76 = 2.84 / BPWHKB03M25VLT Red upper limit = B_PCB_B03_2_7VTYELO76 = 2.62 / BPWHKB03M25VLT Yellow lower limit = B_PCB_B03_2TYEHI76 = 2.78 / BPWHKB03M25VLT Yellow upper limit = B_PCB_B03_2TRDLO77 = 3.65 / BPWHKB03P35VLT Red lower limit = B_PCB_B03_3_8VTRDHI77 = 4.05 / BPWHKB03P35VLT Red upper limit = B_PCB_B03_3_8VTYELO77 = 3.73 / BPWHKB03P35VLT Yellow lower limit = B_PCB_B03_3TYEHI77 = 3.97 / BPWHKB03P35VLT Yellow upper limit = B_PCB_B03_3TRDLO78 = 3.65 / BPWHKB03M35VLT Red lower limit = B_PCB_B03_3_8VTRDHI78 = 4.05 / BPWHKB03M35VLT Red upper limit = B_PCB_B03_3_8VTYELO78 = 3.73 / BPWHKB03M35VLT Yellow lower limit = B_PCB_B03_3TYEHI78 = 3.97 / BPWHKB03M35VLT Yellow upper limit = B_PCB_B03_3TRDLO79 = 4.75 / BPWHKB03P50VLT Red lower limit = B_PCB_B03_5_0VTRDHI79 = 5.25 / BPWHKB03P50VLT Red upper limit = B_PCB_B03_5_0VTYELO79 = 4.85 / BPWHKB03P50VLT Yellow lower limit = B_PCB_B03_5TYEHI79 = 5.15 / BPWHKB03P50VLT Yellow upper limit = B_PCB_B03_5TRDLO80 = 7.12 / BPWHKB03P75VLT Red lower limit = B_PCB_B03_7_5VTRDHI80 = 7.85 / BPWHKB03P75VLT Red upper limit = B_PCB_B03_7_5VTYELO80 = 7.27 / BPWHKB03P75VLT Yellow lower limit = B_PCB_B03_7TYEHI80 = 7.72 / BPWHKB03P75VLT Yellow upper limit = B_PCB_B03_7TRDLO81 = 7.12 / BPWHKB03M75VLT Red lower limit = B_PCB_B03_7_5VTRDHI81 = 7.85 / BPWHKB03M75VLT Red upper limit = B_PCB_B03_7_5VTYELO81 = 7.27 / BPWHKB03M75VLT Yellow lower limit = B_PCB_B03_7TYEHI81 = 7.72 / BPWHKB03M75VLT Yellow upper limit = B_PCB_B03_7TRDLO82 = -20 / BPWHKB03CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB03CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB03CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB03CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB03TEMP Red lower limit = B_TBLK_03_LIM TRDHI83 = 45 / BPWHKB03TEMP Red upper limit = B_TBLK_03_LIM TYELO83 = -10 / BPWHKB03TEMP Yellow lower limit = B_TBLK_03_LIMTYEHI83 = 40 / BPWHKB03TEMP Yellow upper limit = B_TBLK_03_LIMTRDHI84 = 60 / BPWHKLHPA3TEMP Red upper limit = B_TLHP_A3_LIM TYEHI84 = 55 / BPWHKLHPA3TEMP Yellow upper limit = B_TLHP_A3_LTRDLO85 = -25 / BPWHKLHPB9TEMP Red lower limit = B_TLHP_B9_LIM TRDHI85 = 40 / BPWHKLHPB9TEMP Red upper limit = B_TLHP_B9_LIM TYELO85 = -20 / BPWHKLHPB9TEMP Yellow lower limit = B_TLHP_B9_LTYEHI85 = 35 / BPWHKLHPB9TEMP Yellow upper limit = B_TLHP_B9_LTRDLO86 = 1.96 / BPWHKTAGREARTVLT Red lower limit = B_PCB_RTAGTHTRDHI86 = 1.99 / BPWHKTAGREARTVLT Red upper limit = B_PCB_RTAGTHTYELO86 = 1.977 / BPWHKTAGREARTVLT Yellow lower limit = B_PCB_RTATYEHI86 = 1.982 / BPWHKTAGREARTVLT Yellow upper limit = B_PCB_RTATRDLO91 = -0.2 / BPWHKB04INPUTI Red lower limit = B_PCB_B04_INPITRDHI91 = 0.9 / BPWHKB04INPUTI Red upper limit = B_PCB_B04_INPITYELO91 = -0.1 / BPWHKB04INPUTI Yellow lower limit = B_PCB_B04_ITYEHI91 = 0.8 / BPWHKB04INPUTI Yellow upper limit = B_PCB_B04_ITRDLO92 = -2 / BPWHKB0425GND Red lower limit = B_PCB_B04_2_5G_TRDHI92 = 15 / BPWHKB0425GND Red upper limit = B_PCB_B04_2_5G_TYELO92 = -1 / BPWHKB0425GND Yellow lower limit = B_PCB_B04_2_TYEHI92 = 10 / BPWHKB0425GND Yellow upper limit = B_PCB_B04_2_TRDLO93 = 2.55 / BPWHKB04P25VLT Red lower limit = B_PCB_B04_2_7VTRDHI93 = 2.84 / BPWHKB04P25VLT Red upper limit = B_PCB_B04_2_7VTYELO93 = 2.62 / BPWHKB04P25VLT Yellow lower limit = B_PCB_B04_2TYEHI93 = 2.78 / BPWHKB04P25VLT Yellow upper limit = B_PCB_B04_2TRDLO94 = 2.55 / BPWHKB04M25VLT Red lower limit = B_PCB_B04_2_7VTRDHI94 = 2.84 / BPWHKB04M25VLT Red upper limit = B_PCB_B04_2_7VTYELO94 = 2.62 / BPWHKB04M25VLT Yellow lower limit = B_PCB_B04_2TYEHI94 = 2.78 / BPWHKB04M25VLT Yellow upper limit = B_PCB_B04_2TRDLO95 = 3.65 / BPWHKB04P35VLT Red lower limit = B_PCB_B04_3_8VTRDHI95 = 4.05 / BPWHKB04P35VLT Red upper limit = B_PCB_B04_3_8VTYELO95 = 3.73 / BPWHKB04P35VLT Yellow lower limit = B_PCB_B04_3TYEHI95 = 3.97 / BPWHKB04P35VLT Yellow upper limit = B_PCB_B04_3TRDLO96 = 3.65 / BPWHKB04M35VLT Red lower limit = B_PCB_B04_3_8VTRDHI96 = 4.05 / BPWHKB04M35VLT Red upper limit = B_PCB_B04_3_8VTYELO96 = 3.73 / BPWHKB04M35VLT Yellow lower limit = B_PCB_B04_3TYEHI96 = 3.97 / BPWHKB04M35VLT Yellow upper limit = B_PCB_B04_3TRDLO97 = 4.75 / BPWHKB04P50VLT Red lower limit = B_PCB_B04_5_0VTRDHI97 = 5.25 / BPWHKB04P50VLT Red upper limit = B_PCB_B04_5_0VTYELO97 = 4.85 / BPWHKB04P50VLT Yellow lower limit = B_PCB_B04_5TYEHI97 = 5.15 / BPWHKB04P50VLT Yellow upper limit = B_PCB_B04_5TRDLO98 = 7.12 / BPWHKB04P75VLT Red lower limit = B_PCB_B04_7_5VTRDHI98 = 7.85 / BPWHKB04P75VLT Red upper limit = B_PCB_B04_7_5VTYELO98 = 7.27 / BPWHKB04P75VLT Yellow lower limit = B_PCB_B04_7TYEHI98 = 7.72 / BPWHKB04P75VLT Yellow upper limit = B_PCB_B04_7TRDLO99 = 7.12 / BPWHKB04M75VLT Red lower limit = B_PCB_B04_7_5VTRDHI99 = 7.85 / BPWHKB04M75VLT Red upper limit = B_PCB_B04_7_5VTYELO99 = 7.27 / BPWHKB04M75VLT Yellow lower limit = B_PCB_B04_7TYEHI99 = 7.72 / BPWHKB04M75VLT Yellow upper limit = B_PCB_B04_7TRDLO100= -20 / BPWHKB04CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI100= 61 / BPWHKB04CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO100= -15 / BPWHKB04CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI100= 56 / BPWHKB04CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO101= -15 / BPWHKB04TEMP Red lower limit = B_TBLK_04_LIM TRDHI101= 45 / BPWHKB04TEMP Red upper limit = B_TBLK_04_LIM TYELO101= -10 / BPWHKB04TEMP Yellow lower limit = B_TBLK_04_LIMTYEHI101= 40 / BPWHKB04TEMP Yellow upper limit = B_TBLK_04_LIMTRDHI102= 60 / BPWHKLHPA4TEMP Red upper limit = B_TLHP_A4_LIM TYEHI102= 55 / BPWHKLHPA4TEMP Yellow upper limit = B_TLHP_A4_LTRDLO103= -55 / BPWHKMASK0TEMP Red lower limit = B_TMASK_0_LIM TRDHI103= 55 / BPWHKMASK0TEMP Red upper limit = B_TMASK_0_LIM TYELO103= -50 / BPWHKMASK0TEMP Yellow lower limit = B_TMASK_0_LTYEHI103= 50 / BPWHKMASK0TEMP Yellow upper limit = B_TMASK_0_LTRDLO109= -0.2 / BPWHKB05INPUTI Red lower limit = B_PCB_B05_INPITRDHI109= 0.9 / BPWHKB05INPUTI Red upper limit = B_PCB_B05_INPITYELO109= -0.1 / BPWHKB05INPUTI Yellow lower limit = B_PCB_B05_ITYEHI109= 0.8 / BPWHKB05INPUTI Yellow upper limit = B_PCB_B05_ITRDLO110= -2 / BPWHKB0525GND Red lower limit = B_PCB_B05_2_5G_TRDHI110= 15 / BPWHKB0525GND Red upper limit = B_PCB_B05_2_5G_TYELO110= -1 / BPWHKB0525GND Yellow lower limit = B_PCB_B05_2_TYEHI110= 10 / BPWHKB0525GND Yellow upper limit = B_PCB_B05_2_TRDLO111= 2.55 / BPWHKB05P25VLT Red lower limit = B_PCB_B05_2_7VTRDHI111= 2.84 / BPWHKB05P25VLT Red upper limit = B_PCB_B05_2_7VTYELO111= 2.62 / BPWHKB05P25VLT Yellow lower limit = B_PCB_B05_2TYEHI111= 2.78 / BPWHKB05P25VLT Yellow upper limit = B_PCB_B05_2HISTORY TASK: FAPPND on FILENAME: sw01185673000b140x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ax�k�q��W��f��݌��ω��{� ��Z��|��։��?�[��Y��z��)�u�� :�P�"��Y�� k��X��񉷅��Y��U��A�F�py|k�q��X��}��n��ތ��ω��z� ��\��y��؉��?�o��[��q�� ~��;�h�"��Z��ڎ��k��Z��򉷅��[��V��A�F�y"Sk�q��Y��q��,�a��Ή��z� ��[��|��ى��>�~��Z��m��+�x�� ;�q�#��Z��k��Z��񉸄��[��[��A�F��x��k�q��X��ƀ��"�e��ߌ��ω��u� ��[��z��։��@�a��[��(�x�� :�Q�$��Z��1��݉k��Z��@��"��􈑀��Z��A�F��y�mk�q��Y��i��i��ߌ��Ή�� l� ��[��̀�� u�� ؉��?�W��[��.��)�{�� <�*�#��Z��l��Z��Ѐ��눓��[��'��A�F��x��k�q��Y��p��ތ��̉��k��[��y��׉��?�I��[��!�� <�)�$��Z��5��ڎ��m��Z��!���刑��[��A�F��xy>k�q��Y��Ҁ�� j��Ή��k� ��[��G��}�� ։��B�E��Z��ŀ��(�z��;�(�"��Y��Z�� k��Y��G��񉸄ሑ��Z��A�F��y<�k�q��Y�� f��ތ��͉��b� ��[��J��{��։��@�=��Z��ۀ��(�y��=��$��Y��n��(�n��Z��J��ވ��Z��̀��A�F��x��k�q��W��ߎ:�X��ʉ��]� ��Z��Ӊ��@�2��Z��܀��*�x��:��#��Y��-�k��Y��|��"���܈��Z��Ԁ��A�F��xpk�q��Y��j��ߌ��͉��Z� ��\��}��Չ��A�/��[��+�z�� <��%��Z��p��3�m��Z��_���܈��[��A�F��y@yk�q��Y��j��ʉ��[�!��\��q��}�� Չ��>�,��[��+�x�� =��%��Z��<�l��[��퉸�܈��[��A�F�x�k�q��Y��i��ɉ��X�!��[��|��ԉ��?�0��[��+�y��;��$��Z��/�k��Z��뉸�܈��Z��A�F�y�k�q��X��j��ߌ��ʉ��M�!��[��~��҉��@�3��[��*�{��;� �$��Z��m��Z��뉶�Ո��[��A�F�$x�Vk�q��X��!�� f��ތ��ǉ��J�!��Z��{��҉��@�6��Z��(�x��:�+�$��Y��Ā����k��Y��뉹�҈��Z��A�F�3x��k�q��X��0��e��ތ��ǉ��D�!��[��y��щ��>�B��[��1��.�u��9�7�$��Z��l��Z��Ā��#��鉷�ʈ��Z�� A�F�By \k�q��Y��6��i��ߌ��Ɖ��?�"��[��z��Љ��>�Q��[��$��,�v��;�H�%��Z��ωl��Z�� ꉸ��Z��A�F�Qx�zk�q��Y��3��i��ߌ��ĉ��<�"��\��z�� ω��>�c��[��1��,�z�� :�Y�%��Z��ߎ��k��[��뉸��[��A�F�`xy>k�q��X��H��0�X��݌��ŉ��6� ��[��Љ��?�k��[��4��1�w��:�^�$��Y��ǀ��m��Z�� 牵��Z��A�F�oy=2k�q��X��<��i��ތ��É��-�"��[��{�� ω��=�Z��Z��2��*�x�� ;�D�%��Y��π��k��Y��ŀ��艹��Z��,��A�F�~x��D��Y��7��*�y�� ;�#�%��X��܀��ȉl��X��ր��扸��Y��+��A�F��yo�k�q��X��V��ߎ2�W��݌��"��[��ˉ��>�=��[��]��/�x��:��%��Z��݉k��Z��!��牷��[��0��A�F��x�jk�q��Y��^��j��ߌ��"��\��#�Ή��>�/��[��H��&��;��%��Z��ێ��l��Y��܀��㉸��[��8��A�F��x��k�q��X��K��h��݌��"��Z��{��ɉ��@�.��Z��C��)�x��􉹉;��&��Y��ߎ��n��Y��䉶��Z��G��A�F��y_Fk�q��X��s��j��ތ��"��[��z��ɉ��>�.��Z��_��%�{��򉺉;��%��Y��l��Y��≷��Z��M��A�F��x��k�q��Z��j��.�_��ߌ��#��\��ȉ��?�1��\��n��+�z�� 򉺉;��&��[��Չn��[��≷��\��A��A�F��x�7k�q��W��}��5�]��"��Z��"�Ɖ��>�2��Y��e��'�y��񉸉:�#�&��Y��k��X��Y��I��A�F��y,(k�q��X��X��#�g��ߌ��#��[�� ȉ��<�7��Z��h��+�x��񉺉9�.�%��Y�� j��Y��ቸ�~��Z��Q��A�F�x�Yk�q��Y��k��݌��"��\��~�� ȉ��>�E��[��^��)�|�� �:�<�&��Z��j��Z��܀��މ��w��[��Z��A�F�y@yk�q��Y��s��k��ߌ��"��[��~��ŉ��?�R��[��e��)�{���:�I�%��Z�� q�k��Z��މ��m��[��L��A�F�#xy�k�q��X��y��B�b��'��"��[��%�ŉ��=�[��Z��(�y��8�N�&��Y�� \�k��Z�� b��Z��X��A�F�2x|�k�q��X��m��i��ތ��#��[��}�� É��<�O��Z��^��'�z�� �:�:�&��Y��O�j��Y��߉��Z��Z��T��A�F�A|eAk�q��X��j��݌��#��Z��x��?�J��Z��"�}��뉹�9�!�&��X�� v�l��Y��܉��S��Z��S��A�F�Pxy>k�q��X��h��܌��"��Z��z��?�?��Y��+�y�� ꉸ�8��&��Y�� n��Y��ډ��N��Z��X��A�F�_x�Ak�q��X��[��f��݌��"��Z��{��>�2��Z��[��.�u�� 뉸�7��%��Y�� m��Y��!��ۉ��L��Z��s��A�F�nx��k�q��X��m��m��߉#��Z��z��>�)��Z��v��$�}��ꉹ�8��&��X��l��Y��ډ��O��Y��[��A�F�}x��k�q��W��p�� ډ#��Z��w��>�*��Y��&�|��鉷�7��&��X��$��ߎ��l��X��ى��O��Y��S��A�F��xx�k�q��Y��}��j��ߌ��ۉ#��\��{��;�*��[��l��)�z�� 艺�7��'��Z��ߎ�� i��Z��؉��O��[��l��A�F��y��k�q��X�� g��݌��؉#��[��{��<�,��Z��/�w�� 牺�9��&��Y��#��j��Z��#��։��M��[��[��A�F��yNk�q��X�� l��ތ��|�%��\��~��:�6��Z��*�z�� Չ��4� �'��Z�� 򉲅�i��Z��d��Ɖ��[��̀��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 107 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB05M25VLT' / PW HK Pkt; Block 05 -2.5 Voltage TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL2 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT2 = 'V ' / physical unit of field TTYPE3 = 'BPWHKB05P35VLT' / PW HK Pkt; Block 05 +3.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL3 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB05M35VLT' / PW HK Pkt; Block 05 -3.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL4 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB05P50VLT' / PW HK Pkt; Block 05 +5.0 Digital Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL5 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB05P75VLT' / PW HK Pkt; Block 05 +7.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL6 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB05M75VLT' / PW HK Pkt; Block 05 -7.5 Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL7 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB05CVTTEMP' / PW HK Pkt; Block 05 DC-DC Converter Module TempTFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL8 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'BPWHKB05TEMP' / PW HK Pkt; Block 05 Temperature TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL9 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT9 = 'Celsius ' / physical unit of field TTYPE10 = 'BPWHKLHPA5TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ CC inlet TemperTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKMASK1TEMP' / PW HK Pkt; Mask Temperature (top, +Y/+Z) TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKSPARE05TMP' / PW HK Pkt; Block 05 Spare Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKB06PRITEMP' / PW HK Pkt; Block 06 SetPointTemp Primary HeaterTFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPWHKB06SECTEMP' / PW HK Pkt; Block 06 SetPointTemp 2ndary Heater TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB06SPARE0' / PW HK Pkt; Block 06 Spare 0 TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB06SPARE1' / PW HK Pkt; Block 06 Spare 1 TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB06INPUTI' / PW HK Pkt; Block 06 Input Current for DC-DC ConTFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL17 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT17 = 'A ' / physical unit of field TTYPE18 = 'BPWHKB0625GND' / PW HK Pkt; Block 06 Voltage on 2.5 Ground ReturTFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB06P25VLT' / PW HK Pkt; Block 06 +2.5 Voltage TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL19 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT19 = 'V ' / physical unit of field TTYPE20 = 'BPWHKB06M25VLT' / PW HK Pkt; Block 06 -2.5 Voltage TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL20 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT20 = 'V ' / physical unit of field TTYPE21 = 'BPWHKB06P35VLT' / PW HK Pkt; Block 06 +3.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL21 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB06M35VLT' / PW HK Pkt; Block 06 -3.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL22 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB06P50VLT' / PW HK Pkt; Block 06 +5.0 Digital Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL23 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB06P75VLT' / PW HK Pkt; Block 06 +7.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL24 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB06M75VLT' / PW HK Pkt; Block 06 -7.5 Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL25 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB06CVTTEMP' / PW HK Pkt; Block 06 DC-DC Converter Module TempTFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL26 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'BPWHKB06TEMP' / PW HK Pkt; Block 06 Temperature TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL27 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT27 = 'Celsius ' / physical unit of field TTYPE28 = 'BPWHKLHPA6TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ Cond Outlet TemTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKMASK2TEMP' / PW HK Pkt; Mask Temperature (top, -Y/+Z) TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKSPARE06TMP' / PW HK Pkt; Block 06 Spare Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKB07PRITEMP' / PW HK Pkt; Block 07 SetPointTemp Primary HeaterTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BPWHKB07SECTEMP' / PW HK Pkt; Block 07 SetPointTemp 2ndary Heater TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB07SPARE0' / PW HK Pkt; Block 07 Spare 0 TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB07SPARE1' / PW HK Pkt; Block 07 Spare 1 TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB07INPUTI' / PW HK Pkt; Block 07 Input Current for DC-DC ConTFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL35 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT35 = 'A ' / physical unit of field TTYPE36 = 'BPWHKB0725GND' / PW HK Pkt; Block 07 Voltage on 2.5 Ground ReturTFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB07P25VLT' / PW HK Pkt; Block 07 +2.5 Voltage TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL37 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT37 = 'V ' / physical unit of field TTYPE38 = 'BPWHKB07M25VLT' / PW HK Pkt; Block 07 -2.5 Voltage TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL38 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT38 = 'V ' / physical unit of field TTYPE39 = 'BPWHKB07P35VLT' / PW HK Pkt; Block 07 +3.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL39 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB07M35VLT' / PW HK Pkt; Block 07 -3.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL40 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB07P50VLT' / PW HK Pkt; Block 07 +5.0 Digital Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL41 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB07P75VLT' / PW HK Pkt; Block 07 +7.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL42 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB07M75VLT' / PW HK Pkt; Block 07 -7.5 Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL43 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB07CVTTEMP' / PW HK Pkt; Block 07 DC-DC Converter Module TempTFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL44 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'BPWHKB07TEMP' / PW HK Pkt; Block 07 Temperature TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL45 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT45 = 'Celsius ' / physical unit of field TTYPE46 = 'BPWHKLHPA7TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Evap Outlet TemTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKMASK3TEMP' / PW HK Pkt; Mask Temperature (top, -Y,-Z) TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKSPARE07TMP' / PW HK Pkt; Block 07 Spare Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKB08PRITEMP' / PW HK Pkt; Block 08 SetPointTemp Primary HeaterTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BPWHKB08SECTEMP' / PW HK Pkt; Block 08 SetPointTemp 2ndary Heater TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB08SPARE0' / PW HK Pkt; Block 08 Spare 0 TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB08SPARE1' / PW HK Pkt; Block 08 Spare 1 TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB08INPUTI' / PW HK Pkt; Block 08 Input Current for DC-DC ConTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL53 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT53 = 'A ' / physical unit of field TTYPE54 = 'BPWHKB0825GND' / PW HK Pkt; Block 08 Voltage on 2.5 Ground ReturTFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB08P25VLT' / PW HK Pkt; Block 08 +2.5 Voltage TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL55 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT55 = 'V ' / physical unit of field TTYPE56 = 'BPWHKB08M25VLT' / PW HK Pkt; Block 08 -2.5 Voltage TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL56 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT56 = 'V ' / physical unit of field TTYPE57 = 'BPWHKB08P35VLT' / PW HK Pkt; Block 08 +3.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL57 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB08M35VLT' / PW HK Pkt; Block 08 -3.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL58 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB08P50VLT' / PW HK Pkt; Block 08 +5.0 Digital Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL59 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB08P75VLT' / PW HK Pkt; Block 08 +7.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL60 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB08M75VLT' / PW HK Pkt; Block 08 -7.5 Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL61 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB08CVTTEMP' / PW HK Pkt; Block 08 DC-DC Converter Module TempTFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL62 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'BPWHKB08TEMP' / PW HK Pkt; Block 08 Temperature TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL63 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT63 = 'Celsius ' / physical unit of field TTYPE64 = 'BPWHKLHPA8TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Cond Outlet TemTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKMASK4TEMP' / PW HK Pkt; Mask Temperature (top, +Y,-Z) TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKIPPRI0TEMP' / PW HK Pkt; IP Primary LVPC TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BPWHKB09PRITEMP' / PW HK Pkt; Block 09 SetPointTemp Primary HeaterTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BPWHKB09SECTEMP' / PW HK Pkt; Block 09 SetPointTemp 2ndary Heater TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB09SPARE0' / PW HK Pkt; Block 09 Spare 0 TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB09SPARE1' / PW HK Pkt; Block 09 Spare 1 TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB09INPUTI' / PW HK Pkt; Block 09 Input Current for DC-DC ConTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL71 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT71 = 'A ' / physical unit of field TTYPE72 = 'BPWHKB0925GND' / PW HK Pkt; Block 09 Voltage on 2.5 Ground ReturTFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB09P25VLT' / PW HK Pkt; Block 09 +2.5 Voltage TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL73 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT73 = 'V ' / physical unit of field TTYPE74 = 'BPWHKB09M25VLT' / PW HK Pkt; Block 09 -2.5 Voltage TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL74 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT74 = 'V ' / physical unit of field TTYPE75 = 'BPWHKB09P35VLT' / PW HK Pkt; Block 09 +3.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL75 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB09M35VLT' / PW HK Pkt; Block 09 -3.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL76 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB09P50VLT' / PW HK Pkt; Block 09 +5.0 Digital Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL77 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB09P75VLT' / PW HK Pkt; Block 09 +7.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL78 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB09M75VLT' / PW HK Pkt; Block 09 -7.5 Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL79 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB09CVTTEMP' / PW HK Pkt; Block 09 DC-DC Converter Module TempTFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL80 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'BPWHKB09TEMP' / PW HK Pkt; Block 09 Temperature TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL81 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT81 = 'Celsius ' / physical unit of field TTYPE82 = 'BPWHKLHPA9TEMP' / PW HK Pkt; LHP 0 (+Y) Block/DM Temperature (A9)TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKPLATE0TEMP' / PW HK Pkt; DAP Temperature (top, +Y/+Z) TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKIPPRI1TEMP' / PW HK Pkt; IP Primary LVPC TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BPWHKB10PRITEMP' / PW HK Pkt; Block 10 SetPointTemp Primary HeaterTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWHKB10SECTEMP' / PW HK Pkt; Block 10 SetPointTemp 2ndary Heater TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKB10SPARE0' / PW HK Pkt; Block 10 Spare 0 TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB10SPARE1' / PW HK Pkt; Block 10 Spare 1 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB10INPUTI' / PW HK Pkt; Block 10 Input Current for DC-DC ConTFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL89 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT89 = 'A ' / physical unit of field TTYPE90 = 'BPWHKB1025GND' / PW HK Pkt; Block 10 Voltage on 2.5 Ground ReturTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB10P25VLT' / PW HK Pkt; Block 10 +2.5 Voltage TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL91 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT91 = 'V ' / physical unit of field TTYPE92 = 'BPWHKB10M25VLT' / PW HK Pkt; Block 10 -2.5 Voltage TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL92 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT92 = 'V ' / physical unit of field TTYPE93 = 'BPWHKB10P35VLT' / PW HK Pkt; Block 10 +3.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL93 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB10M35VLT' / PW HK Pkt; Block 10 -3.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL94 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB10P50VLT' / PW HK Pkt; Block 10 +5.0 Digital Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL95 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB10P75VLT' / PW HK Pkt; Block 10 +7.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL96 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB10M75VLT' / PW HK Pkt; Block 10 -7.5 Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL97 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB10CVTTEMP' / PW HK Pkt; Block 10 DC-DC Converter Module TempTFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL98 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'BPWHKB10TEMP' / PW HK Pkt; Block 10 Temperature TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL99 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT99 = 'Celsius ' / physical unit of field TTYPE100= 'BPWHKLHPB0TEMP' / PW HK Pkt; LHP 1 (-Y) Comp Chamber (CC) TemperaTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKPLATE1TEMP' / PW HK Pkt; DAP Temperature (Block Htr ControlleTFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKIPPRI2TEMP' / PW HK Pkt; IP Primary MIC Board Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 32768 / offset for unsigned integers TTYPE103= 'BPWHKB11PRITEMP' / PW HK Pkt; Block 11 SetPointTemp Primary HeaterTFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BPWHKB11SECTEMP' / PW HK Pkt; Block 11 SetPointTemp 2ndary Heater TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 32768 / offset for unsigned integers TTYPE105= 'BPWHKB11SPARE0' / PW HK Pkt; Block 11 Spare 0 TFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB11SPARE1' / PW HK Pkt; Block 11 Spare 1 TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB11INPUTI' / PW HK Pkt; Block 11 Input Current for DC-DC ConTFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL107= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT107= 'A ' / physical unit of field EXTNAME = 'hk141x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.94636 TSTOP = 713896242.94278 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99642002583 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 321 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'j5JQl4IQj4IQj4IQ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '284351512' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = 2.55 / BPWHKB05M25VLT Red lower limit = B_PCB_B05_2_7VTRDHI2 = 2.84 / BPWHKB05M25VLT Red upper limit = B_PCB_B05_2_7VTYELO2 = 2.62 / BPWHKB05M25VLT Yellow lower limit = B_PCB_B05_2TYEHI2 = 2.78 / BPWHKB05M25VLT Yellow upper limit = B_PCB_B05_2TRDLO3 = 3.65 / BPWHKB05P35VLT Red lower limit = B_PCB_B05_3_8VTRDHI3 = 4.05 / BPWHKB05P35VLT Red upper limit = B_PCB_B05_3_8VTYELO3 = 3.73 / BPWHKB05P35VLT Yellow lower limit = B_PCB_B05_3TYEHI3 = 3.97 / BPWHKB05P35VLT Yellow upper limit = B_PCB_B05_3TRDLO4 = 3.65 / BPWHKB05M35VLT Red lower limit = B_PCB_B05_3_8VTRDHI4 = 4.05 / BPWHKB05M35VLT Red upper limit = B_PCB_B05_3_8VTYELO4 = 3.73 / BPWHKB05M35VLT Yellow lower limit = B_PCB_B05_3TYEHI4 = 3.97 / BPWHKB05M35VLT Yellow upper limit = B_PCB_B05_3TRDLO5 = 4.75 / BPWHKB05P50VLT Red lower limit = B_PCB_B05_5_0VTRDHI5 = 5.25 / BPWHKB05P50VLT Red upper limit = B_PCB_B05_5_0VTYELO5 = 4.85 / BPWHKB05P50VLT Yellow lower limit = B_PCB_B05_5TYEHI5 = 5.15 / BPWHKB05P50VLT Yellow upper limit = B_PCB_B05_5TRDLO6 = 7.12 / BPWHKB05P75VLT Red lower limit = B_PCB_B05_7_5VTRDHI6 = 7.85 / BPWHKB05P75VLT Red upper limit = B_PCB_B05_7_5VTYELO6 = 7.27 / BPWHKB05P75VLT Yellow lower limit = B_PCB_B05_7TYEHI6 = 7.72 / BPWHKB05P75VLT Yellow upper limit = B_PCB_B05_7TRDLO7 = 7.12 / BPWHKB05M75VLT Red lower limit = B_PCB_B05_7_5VTRDHI7 = 7.85 / BPWHKB05M75VLT Red upper limit = B_PCB_B05_7_5VTYELO7 = 7.27 / BPWHKB05M75VLT Yellow lower limit = B_PCB_B05_7TYEHI7 = 7.72 / BPWHKB05M75VLT Yellow upper limit = B_PCB_B05_7TRDLO8 = -20 / BPWHKB05CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI8 = 61 / BPWHKB05CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO8 = -15 / BPWHKB05CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI8 = 56 / BPWHKB05CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO9 = -15 / BPWHKB05TEMP Red lower limit = B_TBLK_05_LIM TRDHI9 = 45 / BPWHKB05TEMP Red upper limit = B_TBLK_05_LIM TYELO9 = -10 / BPWHKB05TEMP Yellow lower limit = B_TBLK_05_LIMTYEHI9 = 40 / BPWHKB05TEMP Yellow upper limit = B_TBLK_05_LIMTRDLO10 = -30 / BPWHKLHPA5TEMP Red lower limit = B_TLHP_A5_LIM TRDHI10 = 60 / BPWHKLHPA5TEMP Red upper limit = B_TLHP_A5_LIM TYELO10 = -25 / BPWHKLHPA5TEMP Yellow lower limit = B_TLHP_A5_LTYEHI10 = 55 / BPWHKLHPA5TEMP Yellow upper limit = B_TLHP_A5_LTRDLO11 = -55 / BPWHKMASK1TEMP Red lower limit = B_TMASK_1_LIM TRDHI11 = 55 / BPWHKMASK1TEMP Red upper limit = B_TMASK_1_LIM TYELO11 = -50 / BPWHKMASK1TEMP Yellow lower limit = B_TMASK_1_LTYEHI11 = 50 / BPWHKMASK1TEMP Yellow upper limit = B_TMASK_1_LTRDLO17 = -0.2 / BPWHKB06INPUTI Red lower limit = B_PCB_B06_INPITRDHI17 = 0.9 / BPWHKB06INPUTI Red upper limit = B_PCB_B06_INPITYELO17 = -0.1 / BPWHKB06INPUTI Yellow lower limit = B_PCB_B06_ITYEHI17 = 0.8 / BPWHKB06INPUTI Yellow upper limit = B_PCB_B06_ITRDLO18 = -2 / BPWHKB0625GND Red lower limit = B_PCB_B06_2_5G_TRDHI18 = 15 / BPWHKB0625GND Red upper limit = B_PCB_B06_2_5G_TYELO18 = -1 / BPWHKB0625GND Yellow lower limit = B_PCB_B06_2_TYEHI18 = 10 / BPWHKB0625GND Yellow upper limit = B_PCB_B06_2_TRDLO19 = 2.55 / BPWHKB06P25VLT Red lower limit = B_PCB_B06_2_7VTRDHI19 = 2.84 / BPWHKB06P25VLT Red upper limit = B_PCB_B06_2_7VTYELO19 = 2.62 / BPWHKB06P25VLT Yellow lower limit = B_PCB_B06_2TYEHI19 = 2.78 / BPWHKB06P25VLT Yellow upper limit = B_PCB_B06_2TRDLO20 = 2.55 / BPWHKB06M25VLT Red lower limit = B_PCB_B06_2_7VTRDHI20 = 2.84 / BPWHKB06M25VLT Red upper limit = B_PCB_B06_2_7VTYELO20 = 2.62 / BPWHKB06M25VLT Yellow lower limit = B_PCB_B06_2TYEHI20 = 2.78 / BPWHKB06M25VLT Yellow upper limit = B_PCB_B06_2TRDLO21 = 3.65 / BPWHKB06P35VLT Red lower limit = B_PCB_B06_3_8VTRDHI21 = 4.05 / BPWHKB06P35VLT Red upper limit = B_PCB_B06_3_8VTYELO21 = 3.73 / BPWHKB06P35VLT Yellow lower limit = B_PCB_B06_3TYEHI21 = 3.97 / BPWHKB06P35VLT Yellow upper limit = B_PCB_B06_3TRDLO22 = 3.65 / BPWHKB06M35VLT Red lower limit = B_PCB_B06_3_8VTRDHI22 = 4.05 / BPWHKB06M35VLT Red upper limit = B_PCB_B06_3_8VTYELO22 = 3.73 / BPWHKB06M35VLT Yellow lower limit = B_PCB_B06_3TYEHI22 = 3.97 / BPWHKB06M35VLT Yellow upper limit = B_PCB_B06_3TRDLO23 = 4.75 / BPWHKB06P50VLT Red lower limit = B_PCB_B06_5_0VTRDHI23 = 5.25 / BPWHKB06P50VLT Red upper limit = B_PCB_B06_5_0VTYELO23 = 4.85 / BPWHKB06P50VLT Yellow lower limit = B_PCB_B06_5TYEHI23 = 5.15 / BPWHKB06P50VLT Yellow upper limit = B_PCB_B06_5TRDLO24 = 7.12 / BPWHKB06P75VLT Red lower limit = B_PCB_B06_7_5VTRDHI24 = 7.85 / BPWHKB06P75VLT Red upper limit = B_PCB_B06_7_5VTYELO24 = 7.27 / BPWHKB06P75VLT Yellow lower limit = B_PCB_B06_7TYEHI24 = 7.72 / BPWHKB06P75VLT Yellow upper limit = B_PCB_B06_7TRDLO25 = 7.12 / BPWHKB06M75VLT Red lower limit = B_PCB_B06_7_5VTRDHI25 = 7.85 / BPWHKB06M75VLT Red upper limit = B_PCB_B06_7_5VTYELO25 = 7.27 / BPWHKB06M75VLT Yellow lower limit = B_PCB_B06_7TYEHI25 = 7.72 / BPWHKB06M75VLT Yellow upper limit = B_PCB_B06_7TRDLO26 = -20 / BPWHKB06CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI26 = 61 / BPWHKB06CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO26 = -15 / BPWHKB06CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI26 = 56 / BPWHKB06CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO27 = -15 / BPWHKB06TEMP Red lower limit = B_TBLK_06_LIM TRDHI27 = 45 / BPWHKB06TEMP Red upper limit = B_TBLK_06_LIM TYELO27 = -10 / BPWHKB06TEMP Yellow lower limit = B_TBLK_06_LIMTYEHI27 = 40 / BPWHKB06TEMP Yellow upper limit = B_TBLK_06_LIMTRDHI28 = 60 / BPWHKLHPA6TEMP Red upper limit = B_TLHP_A6_LIM TYEHI28 = 55 / BPWHKLHPA6TEMP Yellow upper limit = B_TLHP_A6_LTRDLO29 = -55 / BPWHKMASK2TEMP Red lower limit = B_TMASK_2_LIM TRDHI29 = 55 / BPWHKMASK2TEMP Red upper limit = B_TMASK_2_LIM TYELO29 = -50 / BPWHKMASK2TEMP Yellow lower limit = B_TMASK_2_LTYEHI29 = 50 / BPWHKMASK2TEMP Yellow upper limit = B_TMASK_2_LTRDLO35 = -0.2 / BPWHKB07INPUTI Red lower limit = B_PCB_B07_INPITRDHI35 = 0.9 / BPWHKB07INPUTI Red upper limit = B_PCB_B07_INPITYELO35 = -0.1 / BPWHKB07INPUTI Yellow lower limit = B_PCB_B07_ITYEHI35 = 0.8 / BPWHKB07INPUTI Yellow upper limit = B_PCB_B07_ITRDLO36 = -2 / BPWHKB0725GND Red lower limit = B_PCB_B07_2_5G_TRDHI36 = 15 / BPWHKB0725GND Red upper limit = B_PCB_B07_2_5G_TYELO36 = -1 / BPWHKB0725GND Yellow lower limit = B_PCB_B07_2_TYEHI36 = 10 / BPWHKB0725GND Yellow upper limit = B_PCB_B07_2_TRDLO37 = 2.55 / BPWHKB07P25VLT Red lower limit = B_PCB_B07_2_7VTRDHI37 = 2.84 / BPWHKB07P25VLT Red upper limit = B_PCB_B07_2_7VTYELO37 = 2.62 / BPWHKB07P25VLT Yellow lower limit = B_PCB_B07_2TYEHI37 = 2.78 / BPWHKB07P25VLT Yellow upper limit = B_PCB_B07_2TRDLO38 = 2.55 / BPWHKB07M25VLT Red lower limit = B_PCB_B07_2_7VTRDHI38 = 2.84 / BPWHKB07M25VLT Red upper limit = B_PCB_B07_2_7VTYELO38 = 2.62 / BPWHKB07M25VLT Yellow lower limit = B_PCB_B07_2TYEHI38 = 2.78 / BPWHKB07M25VLT Yellow upper limit = B_PCB_B07_2TRDLO39 = 3.65 / BPWHKB07P35VLT Red lower limit = B_PCB_B07_3_8VTRDHI39 = 4.05 / BPWHKB07P35VLT Red upper limit = B_PCB_B07_3_8VTYELO39 = 3.73 / BPWHKB07P35VLT Yellow lower limit = B_PCB_B07_3TYEHI39 = 3.97 / BPWHKB07P35VLT Yellow upper limit = B_PCB_B07_3TRDLO40 = 3.65 / BPWHKB07M35VLT Red lower limit = B_PCB_B07_3_8VTRDHI40 = 4.05 / BPWHKB07M35VLT Red upper limit = B_PCB_B07_3_8VTYELO40 = 3.73 / BPWHKB07M35VLT Yellow lower limit = B_PCB_B07_3TYEHI40 = 3.97 / BPWHKB07M35VLT Yellow upper limit = B_PCB_B07_3TRDLO41 = 4.75 / BPWHKB07P50VLT Red lower limit = B_PCB_B07_5_0VTRDHI41 = 5.25 / BPWHKB07P50VLT Red upper limit = B_PCB_B07_5_0VTYELO41 = 4.85 / BPWHKB07P50VLT Yellow lower limit = B_PCB_B07_5TYEHI41 = 5.15 / BPWHKB07P50VLT Yellow upper limit = B_PCB_B07_5TRDLO42 = 7.12 / BPWHKB07P75VLT Red lower limit = B_PCB_B07_7_5VTRDHI42 = 7.85 / BPWHKB07P75VLT Red upper limit = B_PCB_B07_7_5VTYELO42 = 7.27 / BPWHKB07P75VLT Yellow lower limit = B_PCB_B07_7TYEHI42 = 7.72 / BPWHKB07P75VLT Yellow upper limit = B_PCB_B07_7TRDLO43 = 7.12 / BPWHKB07M75VLT Red lower limit = B_PCB_B07_7_5VTRDHI43 = 7.85 / BPWHKB07M75VLT Red upper limit = B_PCB_B07_7_5VTYELO43 = 7.27 / BPWHKB07M75VLT Yellow lower limit = B_PCB_B07_7TYEHI43 = 7.72 / BPWHKB07M75VLT Yellow upper limit = B_PCB_B07_7TRDLO44 = -20 / BPWHKB07CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI44 = 61 / BPWHKB07CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO44 = -15 / BPWHKB07CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI44 = 56 / BPWHKB07CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO45 = -15 / BPWHKB07TEMP Red lower limit = B_TBLK_07_LIM TRDHI45 = 45 / BPWHKB07TEMP Red upper limit = B_TBLK_07_LIM TYELO45 = -10 / BPWHKB07TEMP Yellow lower limit = B_TBLK_07_LIMTYEHI45 = 40 / BPWHKB07TEMP Yellow upper limit = B_TBLK_07_LIMTRDLO46 = -30 / BPWHKLHPA7TEMP Red lower limit = B_TLHP_A7_LIM TRDHI46 = 60 / BPWHKLHPA7TEMP Red upper limit = B_TLHP_A7_LIM TYELO46 = -25 / BPWHKLHPA7TEMP Yellow lower limit = B_TLHP_A7_LTYEHI46 = 55 / BPWHKLHPA7TEMP Yellow upper limit = B_TLHP_A7_LTRDLO47 = -55 / BPWHKMASK3TEMP Red lower limit = B_TMASK_3_LIM TRDHI47 = 55 / BPWHKMASK3TEMP Red upper limit = B_TMASK_3_LIM TYELO47 = -50 / BPWHKMASK3TEMP Yellow lower limit = B_TMASK_3_LTYEHI47 = 50 / BPWHKMASK3TEMP Yellow upper limit = B_TMASK_3_LTRDLO53 = -0.2 / BPWHKB08INPUTI Red lower limit = B_PCB_B08_INPITRDHI53 = 0.9 / BPWHKB08INPUTI Red upper limit = B_PCB_B08_INPITYELO53 = -0.1 / BPWHKB08INPUTI Yellow lower limit = B_PCB_B08_ITYEHI53 = 0.8 / BPWHKB08INPUTI Yellow upper limit = B_PCB_B08_ITRDLO54 = -2 / BPWHKB0825GND Red lower limit = B_PCB_B08_2_5G_TRDHI54 = 15 / BPWHKB0825GND Red upper limit = B_PCB_B08_2_5G_TYELO54 = -1 / BPWHKB0825GND Yellow lower limit = B_PCB_B08_2_TYEHI54 = 10 / BPWHKB0825GND Yellow upper limit = B_PCB_B08_2_TRDLO55 = 2.55 / BPWHKB08P25VLT Red lower limit = B_PCB_B08_2_7VTRDHI55 = 2.84 / BPWHKB08P25VLT Red upper limit = B_PCB_B08_2_7VTYELO55 = 2.62 / BPWHKB08P25VLT Yellow lower limit = B_PCB_B08_2TYEHI55 = 2.78 / BPWHKB08P25VLT Yellow upper limit = B_PCB_B08_2TRDLO56 = 2.55 / BPWHKB08M25VLT Red lower limit = B_PCB_B08_2_7VTRDHI56 = 2.84 / BPWHKB08M25VLT Red upper limit = B_PCB_B08_2_7VTYELO56 = 2.62 / BPWHKB08M25VLT Yellow lower limit = B_PCB_B08_2TYEHI56 = 2.78 / BPWHKB08M25VLT Yellow upper limit = B_PCB_B08_2TRDLO57 = 3.65 / BPWHKB08P35VLT Red lower limit = B_PCB_B08_3_8VTRDHI57 = 4.05 / BPWHKB08P35VLT Red upper limit = B_PCB_B08_3_8VTYELO57 = 3.73 / BPWHKB08P35VLT Yellow lower limit = B_PCB_B08_3TYEHI57 = 3.97 / BPWHKB08P35VLT Yellow upper limit = B_PCB_B08_3TRDLO58 = 3.65 / BPWHKB08M35VLT Red lower limit = B_PCB_B08_3_8VTRDHI58 = 4.05 / BPWHKB08M35VLT Red upper limit = B_PCB_B08_3_8VTYELO58 = 3.73 / BPWHKB08M35VLT Yellow lower limit = B_PCB_B08_3TYEHI58 = 3.97 / BPWHKB08M35VLT Yellow upper limit = B_PCB_B08_3TRDLO59 = 4.75 / BPWHKB08P50VLT Red lower limit = B_PCB_B08_5_0VTRDHI59 = 5.25 / BPWHKB08P50VLT Red upper limit = B_PCB_B08_5_0VTYELO59 = 4.85 / BPWHKB08P50VLT Yellow lower limit = B_PCB_B08_5TYEHI59 = 5.15 / BPWHKB08P50VLT Yellow upper limit = B_PCB_B08_5TRDLO60 = 7.12 / BPWHKB08P75VLT Red lower limit = B_PCB_B08_7_5VTRDHI60 = 7.85 / BPWHKB08P75VLT Red upper limit = B_PCB_B08_7_5VTYELO60 = 7.27 / BPWHKB08P75VLT Yellow lower limit = B_PCB_B08_7TYEHI60 = 7.72 / BPWHKB08P75VLT Yellow upper limit = B_PCB_B08_7TRDLO61 = 7.12 / BPWHKB08M75VLT Red lower limit = B_PCB_B08_7_5VTRDHI61 = 7.85 / BPWHKB08M75VLT Red upper limit = B_PCB_B08_7_5VTYELO61 = 7.27 / BPWHKB08M75VLT Yellow lower limit = B_PCB_B08_7TYEHI61 = 7.72 / BPWHKB08M75VLT Yellow upper limit = B_PCB_B08_7TRDLO62 = -20 / BPWHKB08CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI62 = 61 / BPWHKB08CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO62 = -15 / BPWHKB08CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI62 = 56 / BPWHKB08CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO63 = -15 / BPWHKB08TEMP Red lower limit = B_TBLK_08_LIM TRDHI63 = 45 / BPWHKB08TEMP Red upper limit = B_TBLK_08_LIM TYELO63 = -10 / BPWHKB08TEMP Yellow lower limit = B_TBLK_08_LIMTYEHI63 = 40 / BPWHKB08TEMP Yellow upper limit = B_TBLK_08_LIMTRDHI64 = 60 / BPWHKLHPA8TEMP Red upper limit = B_TLHP_A8_LIM TYEHI64 = 55 / BPWHKLHPA8TEMP Yellow upper limit = B_TLHP_A8_LTRDLO65 = -55 / BPWHKMASK4TEMP Red lower limit = B_TMASK_4_LIM TRDHI65 = 55 / BPWHKMASK4TEMP Red upper limit = B_TMASK_4_LIM TYELO65 = -50 / BPWHKMASK4TEMP Yellow lower limit = B_TMASK_4_LTYEHI65 = 50 / BPWHKMASK4TEMP Yellow upper limit = B_TMASK_4_LTRDLO71 = -0.2 / BPWHKB09INPUTI Red lower limit = B_PCB_B09_INPITRDHI71 = 0.9 / BPWHKB09INPUTI Red upper limit = B_PCB_B09_INPITYELO71 = -0.1 / BPWHKB09INPUTI Yellow lower limit = B_PCB_B09_ITYEHI71 = 0.8 / BPWHKB09INPUTI Yellow upper limit = B_PCB_B09_ITRDLO72 = -2 / BPWHKB0925GND Red lower limit = B_PCB_B09_2_5G_TRDHI72 = 15 / BPWHKB0925GND Red upper limit = B_PCB_B09_2_5G_TYELO72 = -1 / BPWHKB0925GND Yellow lower limit = B_PCB_B09_2_TYEHI72 = 10 / BPWHKB0925GND Yellow upper limit = B_PCB_B09_2_TRDLO73 = 2.55 / BPWHKB09P25VLT Red lower limit = B_PCB_B09_2_7VTRDHI73 = 2.84 / BPWHKB09P25VLT Red upper limit = B_PCB_B09_2_7VTYELO73 = 2.62 / BPWHKB09P25VLT Yellow lower limit = B_PCB_B09_2TYEHI73 = 2.78 / BPWHKB09P25VLT Yellow upper limit = B_PCB_B09_2TRDLO74 = 2.55 / BPWHKB09M25VLT Red lower limit = B_PCB_B09_2_7VTRDHI74 = 2.84 / BPWHKB09M25VLT Red upper limit = B_PCB_B09_2_7VTYELO74 = 2.62 / BPWHKB09M25VLT Yellow lower limit = B_PCB_B09_2TYEHI74 = 2.78 / BPWHKB09M25VLT Yellow upper limit = B_PCB_B09_2TRDLO75 = 3.65 / BPWHKB09P35VLT Red lower limit = B_PCB_B09_3_8VTRDHI75 = 4.05 / BPWHKB09P35VLT Red upper limit = B_PCB_B09_3_8VTYELO75 = 3.73 / BPWHKB09P35VLT Yellow lower limit = B_PCB_B09_3TYEHI75 = 3.97 / BPWHKB09P35VLT Yellow upper limit = B_PCB_B09_3TRDLO76 = 3.65 / BPWHKB09M35VLT Red lower limit = B_PCB_B09_3_8VTRDHI76 = 4.05 / BPWHKB09M35VLT Red upper limit = B_PCB_B09_3_8VTYELO76 = 3.73 / BPWHKB09M35VLT Yellow lower limit = B_PCB_B09_3TYEHI76 = 3.97 / BPWHKB09M35VLT Yellow upper limit = B_PCB_B09_3TRDLO77 = 4.75 / BPWHKB09P50VLT Red lower limit = B_PCB_B09_5_0VTRDHI77 = 5.25 / BPWHKB09P50VLT Red upper limit = B_PCB_B09_5_0VTYELO77 = 4.85 / BPWHKB09P50VLT Yellow lower limit = B_PCB_B09_5TYEHI77 = 5.15 / BPWHKB09P50VLT Yellow upper limit = B_PCB_B09_5TRDLO78 = 7.12 / BPWHKB09P75VLT Red lower limit = B_PCB_B09_7_5VTRDHI78 = 7.85 / BPWHKB09P75VLT Red upper limit = B_PCB_B09_7_5VTYELO78 = 7.27 / BPWHKB09P75VLT Yellow lower limit = B_PCB_B09_7TYEHI78 = 7.72 / BPWHKB09P75VLT Yellow upper limit = B_PCB_B09_7TRDLO79 = 7.12 / BPWHKB09M75VLT Red lower limit = B_PCB_B09_7_5VTRDHI79 = 7.85 / BPWHKB09M75VLT Red upper limit = B_PCB_B09_7_5VTYELO79 = 7.27 / BPWHKB09M75VLT Yellow lower limit = B_PCB_B09_7TYEHI79 = 7.72 / BPWHKB09M75VLT Yellow upper limit = B_PCB_B09_7TRDLO80 = -20 / BPWHKB09CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI80 = 61 / BPWHKB09CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO80 = -15 / BPWHKB09CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI80 = 56 / BPWHKB09CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO81 = -15 / BPWHKB09TEMP Red lower limit = B_TBLK_09_LIM TRDHI81 = 45 / BPWHKB09TEMP Red upper limit = B_TBLK_09_LIM TYELO81 = -10 / BPWHKB09TEMP Yellow lower limit = B_TBLK_09_LIMTYEHI81 = 40 / BPWHKB09TEMP Yellow upper limit = B_TBLK_09_LIMTRDLO82 = -25 / BPWHKLHPA9TEMP Red lower limit = B_TLHP_A9_LIM TRDHI82 = 40 / BPWHKLHPA9TEMP Red upper limit = B_TLHP_A9_LIM TYELO82 = -20 / BPWHKLHPA9TEMP Yellow lower limit = B_TLHP_A9_LTYEHI82 = 35 / BPWHKLHPA9TEMP Yellow upper limit = B_TLHP_A9_LTRDLO83 = -20 / BPWHKPLATE0TEMP Red lower limit = B_TPLATE_0_LITRDHI83 = 40 / BPWHKPLATE0TEMP Red upper limit = B_TPLATE_0_LITYELO83 = -15 / BPWHKPLATE0TEMP Yellow lower limit = B_TPLATE_0TYEHI83 = 35 / BPWHKPLATE0TEMP Yellow upper limit = B_TPLATE_0TRDLO89 = -0.2 / BPWHKB10INPUTI Red lower limit = B_PCB_B10_INPITRDHI89 = 0.9 / BPWHKB10INPUTI Red upper limit = B_PCB_B10_INPITYELO89 = -0.1 / BPWHKB10INPUTI Yellow lower limit = B_PCB_B10_ITYEHI89 = 0.8 / BPWHKB10INPUTI Yellow upper limit = B_PCB_B10_ITRDLO90 = -2 / BPWHKB1025GND Red lower limit = B_PCB_B10_2_5G_TRDHI90 = 15 / BPWHKB1025GND Red upper limit = B_PCB_B10_2_5G_TYELO90 = -1 / BPWHKB1025GND Yellow lower limit = B_PCB_B10_2_TYEHI90 = 10 / BPWHKB1025GND Yellow upper limit = B_PCB_B10_2_TRDLO91 = 2.55 / BPWHKB10P25VLT Red lower limit = B_PCB_B10_2_7VTRDHI91 = 2.84 / BPWHKB10P25VLT Red upper limit = B_PCB_B10_2_7VTYELO91 = 2.62 / BPWHKB10P25VLT Yellow lower limit = B_PCB_B10_2TYEHI91 = 2.78 / BPWHKB10P25VLT Yellow upper limit = B_PCB_B10_2TRDLO92 = 2.55 / BPWHKB10M25VLT Red lower limit = B_PCB_B10_2_7VTRDHI92 = 2.84 / BPWHKB10M25VLT Red upper limit = B_PCB_B10_2_7VTYELO92 = 2.62 / BPWHKB10M25VLT Yellow lower limit = B_PCB_B10_2TYEHI92 = 2.78 / BPWHKB10M25VLT Yellow upper limit = B_PCB_B10_2TRDLO93 = 3.65 / BPWHKB10P35VLT Red lower limit = B_PCB_B10_3_8VTRDHI93 = 4.05 / BPWHKB10P35VLT Red upper limit = B_PCB_B10_3_8VTYELO93 = 3.73 / BPWHKB10P35VLT Yellow lower limit = B_PCB_B10_3TYEHI93 = 3.97 / BPWHKB10P35VLT Yellow upper limit = B_PCB_B10_3TRDLO94 = 3.65 / BPWHKB10M35VLT Red lower limit = B_PCB_B10_3_8VTRDHI94 = 4.05 / BPWHKB10M35VLT Red upper limit = B_PCB_B10_3_8VTYELO94 = 3.73 / BPWHKB10M35VLT Yellow lower limit = B_PCB_B10_3TYEHI94 = 3.97 / BPWHKB10M35VLT Yellow upper limit = B_PCB_B10_3TRDLO95 = 4.75 / BPWHKB10P50VLT Red lower limit = B_PCB_B10_5_0VTRDHI95 = 5.25 / BPWHKB10P50VLT Red upper limit = B_PCB_B10_5_0VTYELO95 = 4.85 / BPWHKB10P50VLT Yellow lower limit = B_PCB_B10_5TYEHI95 = 5.15 / BPWHKB10P50VLT Yellow upper limit = B_PCB_B10_5TRDLO96 = 7.12 / BPWHKB10P75VLT Red lower limit = B_PCB_B10_7_5VTRDHI96 = 7.85 / BPWHKB10P75VLT Red upper limit = B_PCB_B10_7_5VTYELO96 = 7.27 / BPWHKB10P75VLT Yellow lower limit = B_PCB_B10_7TYEHI96 = 7.72 / BPWHKB10P75VLT Yellow upper limit = B_PCB_B10_7TRDLO97 = 7.12 / BPWHKB10M75VLT Red lower limit = B_PCB_B10_7_5VTRDHI97 = 7.85 / BPWHKB10M75VLT Red upper limit = B_PCB_B10_7_5VTYELO97 = 7.27 / BPWHKB10M75VLT Yellow lower limit = B_PCB_B10_7TYEHI97 = 7.72 / BPWHKB10M75VLT Yellow upper limit = B_PCB_B10_7TRDLO98 = -20 / BPWHKB10CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI98 = 61 / BPWHKB10CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO98 = -15 / BPWHKB10CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI98 = 56 / BPWHKB10CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO99 = -15 / BPWHKB10TEMP Red lower limit = B_TBLK_10_LIM TRDHI99 = 45 / BPWHKB10TEMP Red upper limit = B_TBLK_10_LIM TYELO99 = -10 / BPWHKB10TEMP Yellow lower limit = B_TBLK_10_LIMTYEHI99 = 40 / BPWHKB10TEMP Yellow upper limit = B_TBLK_10_LIMTRDLO101= -25 / BPWHKPLATE1TEMP Red lower limit = B_TPLATE_1_LITRDHI101= 40 / BPWHKPLATE1TEMP Red upper limit = B_TPLATE_1_LITYELO101= -20 / BPWHKPLATE1TEMP Yellow lower limit = B_TPLATE_1TYEHI101= 35 / BPWHKPLATE1TEMP Yellow upper limit = B_TPLATE_1TRDLO107= -0.2 / BPWHKB11INPUTI Red lower limit = B_PCB_B11_INPITRDHI107= 0.9 / BPWHKB11INPUTI Red upper limit = B_PCB_B11_INPITYELO107= -0.1 / BPWHKB11INPUTI Yellow lower limit = B_PCB_B11_ITYEHI107= 0.8 / BPWHKB11INPUTI Yellow upper limit = B_PCB_B11_IHISTORY TASK: FAPPND on FILENAME: sw01185673000b141x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ay"S�%�y��ٍ�'��L�{��Y��&��W��َ��+��g�W��X��)��b�t��Y��ڌ��l�/�バ�Y��߀��!��{�6��X��A�F�py��$�|��ٍ�'� ��Y�{��[��(��Y��Ȁ�܎�� *��e�W��Z��+� ��d�s��Z��،��Ép�1�䃑�[��!��~�7��Z��A�F�yT"�'�{��ۍ�)� ��]�|��[��)�� Y��ڎ��!�+��e�W��Z��+��e�u��Z��ڌ��Én�1�僐�[�� "��~�7��Z��A�F��x��-�t��ٍ�%��[�}��[��X�� (�� Z��L��ގ�� *��i�X��Z��+��d�u��Z��]��ٌ��m�3�僒�[��l��#��~�9��Z��aA�F��y֌� ��ڍ�)� ��K�{��\��ʀ��)�� Z��؀�܎ ��!�)��m�W��X��*��a�u��[��ŀ��ڌ��Éo�1�僒�\��"��}�9��[��A�F��y�$�}��ڍ�(� ��2�|��[��E��)��Z��'��ێ �� )��p�X��Z��*��,��^�t��Z��*��ٌ��ĉo�2�惑�[�� "��~�:��Z��,A�F��x��)�y��ٍ�'��|��[��Y��(�� Y��I��ێ �� )��y�W��Y��f��+��\�s��Z��]��ގ��ٌ��ĉp�0�惑�Z��N��}�:��Z��NA�F��yo�%�x��؍�&��|��[��j��'��Y��w��֎�� (��X��Z��K�� +��Z�t��Y��o��ڌ��Én�/�惑�[��^��ێ*��!��}�<��Z��UA�F��x��*�z��ۍ�(��|��Z��^��)��Y��h��ڎ�� '��X��Z��j�� +��X�s��Y��ڌ��Éo�.�僐�Y��b��!��}�;��Y��mA�F��x��*�z��ۍ�*��{��\��'��Y��~��ߎ��!�%��Y��Z��ݎ#�� ,��V�t��[��ڎ��ڌ��Éo�/�烑�[��t��"��}�=��Z��UA�F��yq��%�z��ٍ�'��~��\��)��[��e��؎��!�'��V��Z��+��Y�t��Z��ڌ��ĉo�/�僑�[��w��"��"��}�=��[��|A�F�x�Ў+�{��܍�)��}��[��(��Y��!�&��W��Z��ގ#��,��Y�s��Z��ڎ��ٌ��ŉp�/�䃑�[��"��=��Z��A�F�y�܎%�}��ۍ�)��z��[�� (��Y��֎��"�#��X��Y��&��Z�u��Z��ٌ��Ém�.�僐�Z��i��֎/�� "��|�=��Z��A�F�$y͎,�p��Ս�!��}��Z��&��Y��َ��$��Y��Y��ݎ ��!��X�r��Y��ߎ��׌��Én�.�僑�Z�� ~�=��Z��A�F�3x��)�y��ڍ�(��|��[��'��Z��؎ ��!�#��W��Z��Ā�� +��Y�t��Z��ڌ��Én�-�ヒ�[��"��}�=��Z��A�F�ByRҎ��ڍ�(��#�~��[��&��Y��Ҏ��$��X��Z��ǀ�� +��V�t��Z��׌��ĉn�-�䃑�[��~�=��Z��A�F�Qy@� ��ڍ�)��8�|��\��(��!��Z��ڎ ��!�#��Y��Z��À��*��T�u��Z��،��Ém�0�䃑�\�� ~�=��[��A�F�`x��)�{��ۍ�(��D�|��[��)��"��Z��َ��!�#��V��Z�� -��Q�t��Z��Ā��ڌ��Én�0�バ�Z��#��}�:��Z��A�F�oyo� ��܍ �+��M�}��[��ƀ��(��$��Y��ŀ�ю��"��Y��Y��-��J�r��Y��ƀ��،��ĉo�1�䃑�Z��!��}�;��Z��A�F�~y��'�{��ٍ�(��M�|��Z��Ȁ��(��&��X��ʀ�َ ��!�"��W��X��Ԁ��*��G�t��Y��܀�ގ��ٌ��ĉn�0�パ�Z�� ~�:��Y��A�F��x��(�z��؍�'��G�}��Z��ʀ��&��'��X�� Y��Y��܎�� +��?�r��X��ˀ�ڎ��ٌ��Éo�/�バ�Z��ǀ��!��|�8��X��A�F��y�x�+�{��ۍ�)��B�}��\��,��)��Z��ێ��!� ��Y��Y�� ,��;�t��Z��ڌ��Ép�0�バ�[��Ȁ��#��8��Z��A�F��y(�!��ۍ�(��8�}��[��ƀ��)��+��Y��׎�� Y��Z�� -��5�r��Z��ڌ� ��Éo�.�パ�[��ŀ�� %��|�7��Z��A�F��xӮ�!��ލ �-��-�}��[��(� ��+��X��Ў��X��Y�� +��1�t��Z��֌��ŉp�/�⃑�Z��Ѐ�� }�6��Z��A�F��y��%�y��؍�%��$�}��[��%� ��-��X��Ӏ�׎ �� W��Y��)��-�r��Z��ݎ��׌��ĉn�-�⃒�[��׀�� |�4��Z��A�F��y)��&�|��ڍ�'��}��\��)��-��[��׎��"��X��Y�� +��+�t��[��،��ĉo�.�ヒ�\�� "� ��}�3��[��A�F��x��'�|��ۍ�(��|��Z��'��.��W��Վ �� W��X�� ,��&�r��Y��ٌ��ĉn�,�⃑�Z��!� ��|�1��Y��A�F��y]��%�|��ڍ�(�� }��Y�� '� ��1��X��߀�Վ �� X��W��*��$�u��Z��ڌ��m�.�⃑�Z�� }�/��Y��A�F�x�ǎ%�|��ٍ�(��}��[��(� ��0��Z��Ԏ��"��X��Z��*��u��Z��ٌ��m�,�⃒�[��׎,�� "��}�0��Z��A�F�yr�'�z��ٍ�'��}��[��(� ��2��Z��׎�� X��Z��)��u��Z��ێ��ٌ��Ém�.�⃑�[�� "��|�/��Z��A�F�#x��)�z��ٍ�'��~��[��(��3��Y��֎��X��Z��+��t��Z��،�� ĉo�0�დ�Z��!��}�,��Y��A�F�2x�S�#�{��׍�%��}��Z�� '� ��4��Y��Ҏ ��Y��Y�� *��t��Y��׌��ĉo�1�ბ�Z��Վ*�� }�+��Y��A�F�A|��$�y��؍�%��Z��'��2��Y��֎ ��Y��Y��*�􉼅�t��Y��ގ��،��Én�0�ბ�Z�� |�*��Z��A�F�Px��$�{��؍�&��Z��'��3��X��Վ��Y��Y��*�󉼅�t��Y��׌��ĉn�.�ბ�Z�� {�(��X��A�F�_xѷ�%�|��ڍ�'��~��[��(��4��Y��׎��"��W��Z��.�󉽄��r��Z��ی� � �Ém�-��[��"��{�'��Z��A�F�nx�]�'�|��ٍ�(�􉵇��Z��'��4��Y��׎��Y��Y��*�󉽄��t��Z�� ݎ��ٌ�� Ém�-��Z��!��}�%��Y��A�F�}x��!��؍�(�󉶇��~��Y��'��4��X��֎ ��Y��Y��*��u��Y��ݎ��،�� Ém�-�߃��Y�� |�#��X��A�F��x�e��ڍ�)�􉷇�|��[��)��8��Z��ώ��!��V��Z�� -�񉽄�t��Z��!��،�� ŉl�*�߃��[��!��}�#��Z��A�F��y�$�|��ڍ�(�򉷇��}��[��'��9��Z��֎ ��"��X��Z�� -���u��Z��!��ڌ� ��ĉn�*�ރ��Z��!��}�!��Z�� A�F��y��ݍ �+��~��[�� '��8��Y��ώ��X��Y�� +���t��Y��.��׌��ĉm�,�ރ��Z��!��|��Y��A�F��yi�(�z��ڍ�(��"�|��Z�� '��:��Y��֎��!��V��Y��+���t��Y��ٌ��k�*�ރ��Z�� !��|��Y�� A�F��ySz�/�z��܍ �*��0�~��[��'��:��X��َ��X��Y�� +��ۈt��Z��،��ĉn�-�ރ��[��"��{��Z��A�F��y��$�~��׍�&��5�}��Y��%��:��X��Ҏ��X��X��B��+�뉽�ֈt��X��֌��ĉn�.�ރ��X��|��X��A�F��x��'�y��ٍ�&�퉴�7�}��Y��%��;��X��Վ��X��Y��#��*�쉼�шv��Y��،��l�/�݃��Y��~��X��A�F��y�Q��u��ӌ��!�퉶�5�~��[��+��&��=��Y��ێ��X��Y��)� ��!��2�뉽�̈v��Z��7��َ��،��n�/�݃��Z�� }��Z��A�F�y=َ&��ٍ�(��%�~��[��(��'��;��Y��+��Վ��W��Z��,�퉾�Ĉs��Z�� ،��Ém�.�܃��Z��!��z��Z��A�F�x�9�#�~��؍�(�퉵��{��Y��%��<��X��7��ӎ��V��X�� +�뉽��t��Y��׌��ĉm�+�܃��Y�� |��X��A�F�"y�� v��ԍ�#�쉵��|��[��$��(��<��Z��ӎ��!��W��Z��,��+�ꉼ��u��Z��*��ٌ��ĉl�,�݃��[�� !��}��Z��%A�F�1y2��u��Ҍ��!�뉷��}��[��)��'��<��Y��"��ێ��X��Y��2� �� 2�艾��t��Z��َ��׌��ĉn�-�݃��[�� |��Z��A�F�@x�\�-�~��ݍ �+�퉷�׈}��Z��%��'��:��Z��%��X��Z��ߎ�� +�鉽��t��X��'��َ��׌��Ém�,�܃��[�� z��Z��A�F�Oy]��*�}��ڍ�)�鉶�ˈ��]��*��;��[��#��َ ��#��X��[��+�鉿��v��[��,��ގ��ڌ��Él�+�ڃ��\��$�� $��|� ��[��A�F�^y"��,�~��ݍ �+�艷�È��Z��3��'��9��Y��%��X��Y��ߎ��*�艾��t��X��:��َ��׌��Ém�+�ۃ��Z��|��Z��A�F�mx��+��ݍ �+�ꉷ�͈~��[��B��'��9��Z��ώ�� X��Z��*�鉾��s��X��;��֌��Él�+�ۃ��[�� {� ��Z��A�F�|y��#�z��֍�$�艵�ʈ~��Z��-��&��8��X��,��Ԏ �� X��U��G��)�牼��v��Z��&��ގ��׌��k�,�ڃ��Z�� }��Y��A�F��yHV�&�x��؍�%�艶�ň}��Z��"��(��7��X��+��Վ �� W��Y��/��)�牼��t��Y��2��ߎ��׌��k�.�ڃ��Z�� |��X��&A�F��x�y��܍�+�創��}��Y��"��&��8��X��1��͎�� V��X��;��+�剽��u��Y��0��֌��ĉl�,�ك��Y��"��z��X��*A�F��y城#�|��ڍ�&�扷��~��[��E��&��8��Z��5��Վ�� X��Z��4��)�剼��t��Z��ߎ��׌��Ém�.�ك��[��"��z��Z��%A�F��y?ю$�{��׍�'�扴��~��[��9��(��6��Z��Ԏ �� W��Y��(�䉻��u��Z��׌��n�/�ك��[��ڎ#��!�􉻀��{��Z��.A�F��x�3�(�{��ٍ�&�創�҈~��Z��P��*��7��X��;��َ �� W��Y��*��*�剽�~�u��Y��7��׌��k�-�؃��Z�� z��Y�� A�F��y��*�z��ڍ�)�創�ш~��[��C��'��7��Z��6��ێ�� X��Y��>�� +�≽�w�t��Z��6��ߎ��،��ĉn�.�ك��\��!��z��Z��/A�F��x�ݎ!��ڍ�(�㉴�ψ}��[��L��(��5��Z��@��Վ�� W��Y��R��-�ቻ�q�t��Z��A��ٌ��Én�-�؃��Z��U��"�򉼀��z��Z��%A�F��y��!��׍�%�䉵�Ĉ}��Z��R��%��5��Y��:��Ҏ��U��Y��L��*�㉼�k�s��Y��,��ߎ��Ռ��Él�+�؃��Z��,��򉺀��z��Y��6A�F�x� �$�|��؍�&�剷��}��[��,��(�􉳄4��Y��U��؎�� W��Y��W��*�㉻�d�r��Y��N��ߎ��֌��l�*�׃��Z�� 􉼀��z��Y��HA�F�x��$�~��ٍ�(�㉶�ӈ|��[��J��(�󉳄3��Y��Q��Ԏ��!��X��Z��c��(�≻�_�u��Y��N��ٌ��l�+�׃��Z��ێ'��!�󉻀��z��Y��/A�F�!yv6�#�~��׍�'�ቴ��~��Y��2��&�󉳄2��W��N��Ԏ ��V��Y��J��*��[�t�􃑄Y��Q��ݎ��،��ĉm�+�փ��Y��\�� z�􃑄X��GA�F�0x��"�z��׍�%�ት��Z��=��%�󉳄1��X��2��ӎ ��W��X��B��(�ቼ�W�u�􃒄Y��A��֌��k�*�փ��Y��;��ގ��񉽀��z�󃓄Y��?A�F�?yJ��'�|��ٍ�'�≶��}��Z��@��(�󉵄3��Y��P��֎��!��U��Y��K��(�ቼ�Q�s�􃑄Y��c��܎��ٌ��Él�+�Ճ��Z��?��"��{�񃑄Y��9A�F�Nx�o�&��ڍ�*�≵��|��[��`��*�򉳄2��Z��a��ێ ��!��V��Z��_��ގ��'��K�t�󃑄[��G��ݎ��ڌ��j�-�Ճ��[��E��"��{��Z��5A�F�]y��%�|��ٍ�(�ቴ��}��[��z��(��1��[��H��֎��!��X��Y��h��+��H�t�򃒄Z��D��،��Él�-�Ճ��\��T��#�񉽀��y��[��RA�F�lx��$�|��؍�'�߉��}��Z��d��&�񉳄/��X��p��Վ��V��Y��G��+�ቼ�A�r�񃑄Y��|��،��k�,�ԃ��Y��Q�� z�탒�Y��=A�F�{y�/�%�~��ۍ�)�߉��~��[��h��)��.��Y��L��Վ��!��W��Z�� ,�߉��=�s�񃐄Z��t��ڌ��k�-�Ӄ��[��[��#��z�ꃐ�Z��oA�F��y�!�{��֍�$�݉��͈}��Z��w��&��/��Y��Ԏ��V��Z��)�߉��7�s�񃒄Z��r��܎��֌��m�,�ԃ��Z��l��!��x�ꃑ�Y��wA�F��x��&�z��؍�'�މ��~��[��(��,��Z��}��!��V��Z��*�މ��3�t�񃑄Y��܎��،��Ém�,�Ӄ��[��I��"��x�胑�Z��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 87 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB1125GND' / PW HK Pkt; Block 11 Voltage on 2.5 Ground ReturTFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKB11P25VLT' / PW HK Pkt; Block 11 +2.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL3 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB11M25VLT' / PW HK Pkt; Block 11 -2.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL4 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB11P35VLT' / PW HK Pkt; Block 11 +3.5 Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL5 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB11M35VLT' / PW HK Pkt; Block 11 -3.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL6 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB11P50VLT' / PW HK Pkt; Block 11 +5.0 Digital Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL7 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB11P75VLT' / PW HK Pkt; Block 11 +7.5 Voltage TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL8 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT8 = 'V ' / physical unit of field TTYPE9 = 'BPWHKB11M75VLT' / PW HK Pkt; Block 11 -7.5 Voltage TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL9 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'BPWHKB11CVTTEMP' / PW HK Pkt; Block 11 DC-DC Converter Module TempTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKB11TEMP' / PW HK Pkt; Block 11 Temperature TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKLHPB1TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKRADTEMP' / PW HK Pkt; Radiator Temperature (back, +Y,-X) TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL13 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT13 = 'Celsius ' / physical unit of field TTYPE14 = 'BPWHKIPPRI3TEMP' / PW HK Pkt; IP Primary DSP Board Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB12PRITEMP' / PW HK Pkt; Block 12 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB12SECTEMP' / PW HK Pkt; Block 12 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB12SPARE0' / PW HK Pkt; Block 12 Spare 0 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB12SPARE1' / PW HK Pkt; Block 12 Spare 1 TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB12INPUTI' / PW HK Pkt; Block 12 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB1225GND' / PW HK Pkt; Block 12 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB12P25VLT' / PW HK Pkt; Block 12 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB12M25VLT' / PW HK Pkt; Block 12 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB12P35VLT' / PW HK Pkt; Block 12 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB12M35VLT' / PW HK Pkt; Block 12 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB12P50VLT' / PW HK Pkt; Block 12 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB12P75VLT' / PW HK Pkt; Block 12 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB12M75VLT' / PW HK Pkt; Block 12 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB12CVTTEMP' / PW HK Pkt; Block 12 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB12TEMP' / PW HK Pkt; Block 12 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPB2TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKTSFRONTEMP' / PW HK Pkt; Front Tagged Source Temperature TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKIPRED0TEMP' / PW HK Pkt; IP Redundant LVPC TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB13PRITEMP' / PW HK Pkt; Block 13 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB13SECTEMP' / PW HK Pkt; Block 13 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB13SPARE0' / PW HK Pkt; Block 13 Spare 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB13SPARE1' / PW HK Pkt; Block 13 Spare 1 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB13INPUTI' / PW HK Pkt; Block 13 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB1325GND' / PW HK Pkt; Block 13 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB13P25VLT' / PW HK Pkt; Block 13 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB13M25VLT' / PW HK Pkt; Block 13 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB13P35VLT' / PW HK Pkt; Block 13 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB13M35VLT' / PW HK Pkt; Block 13 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB13P50VLT' / PW HK Pkt; Block 13 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB13P75VLT' / PW HK Pkt; Block 13 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB13M75VLT' / PW HK Pkt; Block 13 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB13CVTTEMP' / PW HK Pkt; Block 13 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB13TEMP' / PW HK Pkt; Block 13 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPB3TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, -XTFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKTSREARTEMP' / PW HK Pkt; Rear Tagged Source Temperature TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKIPRED1TEMP' / PW HK Pkt; IP Redundant LVPC TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB14PRITEMP' / PW HK Pkt; Block 14 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB14SECTEMP' / PW HK Pkt; Block 14 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB14SPARE0' / PW HK Pkt; Block 14 Spare 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB14SPARE1' / PW HK Pkt; Block 14 Spare 1 TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB14INPUTI' / PW HK Pkt; Block 14 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB1425GND' / PW HK Pkt; Block 14 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB14P25VLT' / PW HK Pkt; Block 14 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB14M25VLT' / PW HK Pkt; Block 14 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB14P35VLT' / PW HK Pkt; Block 14 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB14M35VLT' / PW HK Pkt; Block 14 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB14P50VLT' / PW HK Pkt; Block 14 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB14P75VLT' / PW HK Pkt; Block 14 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB14M75VLT' / PW HK Pkt; Block 14 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB14CVTTEMP' / PW HK Pkt; Block 14 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB14TEMP' / PW HK Pkt; Block 14 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPB4TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, +XTFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKSPARE14TMP' / PW HK Pkt; Block 14 Spare Temperature TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKIPRED2TEMP' / PW HK Pkt; IP Redundant MIC Board Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB15PRITEMP' / PW HK Pkt; Block 15 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB15SECTEMP' / PW HK Pkt; Block 15 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB15SPARE0' / PW HK Pkt; Block 15 Spare 0 TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB15SPARE1' / PW HK Pkt; Block 15 Spare 1 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB15INPUTI' / PW HK Pkt; Block 15 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB1525GND' / PW HK Pkt; Block 15 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB15P25VLT' / PW HK Pkt; Block 15 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB15M25VLT' / PW HK Pkt; Block 15 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB15P35VLT' / PW HK Pkt; Block 15 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB15M35VLT' / PW HK Pkt; Block 15 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB15P50VLT' / PW HK Pkt; Block 15 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB15P75VLT' / PW HK Pkt; Block 15 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB15M75VLT' / PW HK Pkt; Block 15 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB15CVTTEMP' / PW HK Pkt; Block 15 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB15TEMP' / PW HK Pkt; Block 15 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPB5TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ CC Inlet TemperTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKSPARE15TMP' / PW HK Pkt; Block 15 Spare Temperature TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKIPRED3TEMP' / PW HK Pkt; IP Redundant DSP Board Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKADCXSUM' / PW HK Power Box Packet CheckSum, not CCSDS XSumTFORM87 = '1B ' / data format of field: BYTE EXTNAME = 'hk142x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.94784 TSTOP = 713896242.94426 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99642002583 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 322 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'FdWGGaV9FaVGFaV9' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3603750666' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -2 / BPWHKB1125GND Red lower limit = B_PCB_B11_2_5G_TRDHI2 = 15 / BPWHKB1125GND Red upper limit = B_PCB_B11_2_5G_TYELO2 = -1 / BPWHKB1125GND Yellow lower limit = B_PCB_B11_2_TYEHI2 = 10 / BPWHKB1125GND Yellow upper limit = B_PCB_B11_2_TRDLO3 = 2.55 / BPWHKB11P25VLT Red lower limit = B_PCB_B11_2_7VTRDHI3 = 2.84 / BPWHKB11P25VLT Red upper limit = B_PCB_B11_2_7VTYELO3 = 2.62 / BPWHKB11P25VLT Yellow lower limit = B_PCB_B11_2TYEHI3 = 2.78 / BPWHKB11P25VLT Yellow upper limit = B_PCB_B11_2TRDLO4 = 2.55 / BPWHKB11M25VLT Red lower limit = B_PCB_B11_2_7VTRDHI4 = 2.84 / BPWHKB11M25VLT Red upper limit = B_PCB_B11_2_7VTYELO4 = 2.62 / BPWHKB11M25VLT Yellow lower limit = B_PCB_B11_2TYEHI4 = 2.78 / BPWHKB11M25VLT Yellow upper limit = B_PCB_B11_2TRDLO5 = 3.65 / BPWHKB11P35VLT Red lower limit = B_PCB_B11_3_8VTRDHI5 = 4.05 / BPWHKB11P35VLT Red upper limit = B_PCB_B11_3_8VTYELO5 = 3.73 / BPWHKB11P35VLT Yellow lower limit = B_PCB_B11_3TYEHI5 = 3.97 / BPWHKB11P35VLT Yellow upper limit = B_PCB_B11_3TRDLO6 = 3.65 / BPWHKB11M35VLT Red lower limit = B_PCB_B11_3_8VTRDHI6 = 4.05 / BPWHKB11M35VLT Red upper limit = B_PCB_B11_3_8VTYELO6 = 3.73 / BPWHKB11M35VLT Yellow lower limit = B_PCB_B11_3TYEHI6 = 3.97 / BPWHKB11M35VLT Yellow upper limit = B_PCB_B11_3TRDLO7 = 4.75 / BPWHKB11P50VLT Red lower limit = B_PCB_B11_5_0VTRDHI7 = 5.25 / BPWHKB11P50VLT Red upper limit = B_PCB_B11_5_0VTYELO7 = 4.85 / BPWHKB11P50VLT Yellow lower limit = B_PCB_B11_5TYEHI7 = 5.15 / BPWHKB11P50VLT Yellow upper limit = B_PCB_B11_5TRDLO8 = 7.12 / BPWHKB11P75VLT Red lower limit = B_PCB_B11_7_5VTRDHI8 = 7.85 / BPWHKB11P75VLT Red upper limit = B_PCB_B11_7_5VTYELO8 = 7.27 / BPWHKB11P75VLT Yellow lower limit = B_PCB_B11_7TYEHI8 = 7.72 / BPWHKB11P75VLT Yellow upper limit = B_PCB_B11_7TRDLO9 = 7.12 / BPWHKB11M75VLT Red lower limit = B_PCB_B11_7_5VTRDHI9 = 7.85 / BPWHKB11M75VLT Red upper limit = B_PCB_B11_7_5VTYELO9 = 7.27 / BPWHKB11M75VLT Yellow lower limit = B_PCB_B11_7TYEHI9 = 7.72 / BPWHKB11M75VLT Yellow upper limit = B_PCB_B11_7TRDLO10 = -20 / BPWHKB11CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI10 = 61 / BPWHKB11CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO10 = -15 / BPWHKB11CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI10 = 56 / BPWHKB11CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO11 = -15 / BPWHKB11TEMP Red lower limit = B_TBLK_11_LIM TRDHI11 = 45 / BPWHKB11TEMP Red upper limit = B_TBLK_11_LIM TYELO11 = -10 / BPWHKB11TEMP Yellow lower limit = B_TBLK_11_LIMTYEHI11 = 40 / BPWHKB11TEMP Yellow upper limit = B_TBLK_11_LIMTRDLO12 = -30 / BPWHKLHPB1TEMP Red lower limit = B_TLHP_B1_LIM TRDHI12 = 60 / BPWHKLHPB1TEMP Red upper limit = B_TLHP_B1_LIM TYELO12 = -25 / BPWHKLHPB1TEMP Yellow lower limit = B_TLHP_B1_LTYEHI12 = 55 / BPWHKLHPB1TEMP Yellow upper limit = B_TLHP_B1_LTRDHI13 = 60 / BPWHKRADTEMP Red upper limit = B_TRAD_LIM TYEHI13 = 55 / BPWHKRADTEMP Yellow upper limit = B_TRAD_LIM TRDLO19 = -0.2 / BPWHKB12INPUTI Red lower limit = B_PCB_B12_INPITRDHI19 = 0.9 / BPWHKB12INPUTI Red upper limit = B_PCB_B12_INPITYELO19 = -0.1 / BPWHKB12INPUTI Yellow lower limit = B_PCB_B12_ITYEHI19 = 0.8 / BPWHKB12INPUTI Yellow upper limit = B_PCB_B12_ITRDLO20 = -2 / BPWHKB1225GND Red lower limit = B_PCB_B12_2_5G_TRDHI20 = 15 / BPWHKB1225GND Red upper limit = B_PCB_B12_2_5G_TYELO20 = -1 / BPWHKB1225GND Yellow lower limit = B_PCB_B12_2_TYEHI20 = 10 / BPWHKB1225GND Yellow upper limit = B_PCB_B12_2_TRDLO21 = 2.55 / BPWHKB12P25VLT Red lower limit = B_PCB_B12_2_7VTRDHI21 = 2.84 / BPWHKB12P25VLT Red upper limit = B_PCB_B12_2_7VTYELO21 = 2.62 / BPWHKB12P25VLT Yellow lower limit = B_PCB_B12_2TYEHI21 = 2.78 / BPWHKB12P25VLT Yellow upper limit = B_PCB_B12_2TRDLO22 = 2.55 / BPWHKB12M25VLT Red lower limit = B_PCB_B12_2_7VTRDHI22 = 2.84 / BPWHKB12M25VLT Red upper limit = B_PCB_B12_2_7VTYELO22 = 2.62 / BPWHKB12M25VLT Yellow lower limit = B_PCB_B12_2TYEHI22 = 2.78 / BPWHKB12M25VLT Yellow upper limit = B_PCB_B12_2TRDLO23 = 3.65 / BPWHKB12P35VLT Red lower limit = B_PCB_B12_3_8VTRDHI23 = 4.05 / BPWHKB12P35VLT Red upper limit = B_PCB_B12_3_8VTYELO23 = 3.73 / BPWHKB12P35VLT Yellow lower limit = B_PCB_B12_3TYEHI23 = 3.97 / BPWHKB12P35VLT Yellow upper limit = B_PCB_B12_3TRDLO24 = 3.65 / BPWHKB12M35VLT Red lower limit = B_PCB_B12_3_8VTRDHI24 = 4.05 / BPWHKB12M35VLT Red upper limit = B_PCB_B12_3_8VTYELO24 = 3.73 / BPWHKB12M35VLT Yellow lower limit = B_PCB_B12_3TYEHI24 = 3.97 / BPWHKB12M35VLT Yellow upper limit = B_PCB_B12_3TRDLO25 = 4.75 / BPWHKB12P50VLT Red lower limit = B_PCB_B12_5_0VTRDHI25 = 5.25 / BPWHKB12P50VLT Red upper limit = B_PCB_B12_5_0VTYELO25 = 4.85 / BPWHKB12P50VLT Yellow lower limit = B_PCB_B12_5TYEHI25 = 5.15 / BPWHKB12P50VLT Yellow upper limit = B_PCB_B12_5TRDLO26 = 7.12 / BPWHKB12P75VLT Red lower limit = B_PCB_B12_7_5VTRDHI26 = 7.85 / BPWHKB12P75VLT Red upper limit = B_PCB_B12_7_5VTYELO26 = 7.27 / BPWHKB12P75VLT Yellow lower limit = B_PCB_B12_7TYEHI26 = 7.72 / BPWHKB12P75VLT Yellow upper limit = B_PCB_B12_7TRDLO27 = 7.12 / BPWHKB12M75VLT Red lower limit = B_PCB_B12_7_5VTRDHI27 = 7.85 / BPWHKB12M75VLT Red upper limit = B_PCB_B12_7_5VTYELO27 = 7.27 / BPWHKB12M75VLT Yellow lower limit = B_PCB_B12_7TYEHI27 = 7.72 / BPWHKB12M75VLT Yellow upper limit = B_PCB_B12_7TRDLO28 = -20 / BPWHKB12CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB12CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB12CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB12CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB12TEMP Red lower limit = B_TBLK_12_LIM TRDHI29 = 45 / BPWHKB12TEMP Red upper limit = B_TBLK_12_LIM TYELO29 = -10 / BPWHKB12TEMP Yellow lower limit = B_TBLK_12_LIMTYEHI29 = 40 / BPWHKB12TEMP Yellow upper limit = B_TBLK_12_LIMTRDLO30 = -30 / BPWHKLHPB2TEMP Red lower limit = B_TLHP_B2_LIM TRDHI30 = 60 / BPWHKLHPB2TEMP Red upper limit = B_TLHP_B2_LIM TYELO30 = -25 / BPWHKLHPB2TEMP Yellow lower limit = B_TLHP_B2_LTYEHI30 = 55 / BPWHKLHPB2TEMP Yellow upper limit = B_TLHP_B2_LTRDLO31 = -20 / BPWHKTSFRONTEMP Red lower limit = B_PCB_TAGTEMPTRDHI31 = 40 / BPWHKTSFRONTEMP Red upper limit = B_PCB_TAGTEMPTYELO31 = -15 / BPWHKTSFRONTEMP Yellow lower limit = B_PCB_TAGTTYEHI31 = 35 / BPWHKTSFRONTEMP Yellow upper limit = B_PCB_TAGTTRDLO37 = -0.2 / BPWHKB13INPUTI Red lower limit = B_PCB_B13_INPITRDHI37 = 0.9 / BPWHKB13INPUTI Red upper limit = B_PCB_B13_INPITYELO37 = -0.1 / BPWHKB13INPUTI Yellow lower limit = B_PCB_B13_ITYEHI37 = 0.8 / BPWHKB13INPUTI Yellow upper limit = B_PCB_B13_ITRDLO38 = -2 / BPWHKB1325GND Red lower limit = B_PCB_B13_2_5G_TRDHI38 = 15 / BPWHKB1325GND Red upper limit = B_PCB_B13_2_5G_TYELO38 = -1 / BPWHKB1325GND Yellow lower limit = B_PCB_B13_2_TYEHI38 = 10 / BPWHKB1325GND Yellow upper limit = B_PCB_B13_2_TRDLO39 = 2.55 / BPWHKB13P25VLT Red lower limit = B_PCB_B13_2_7VTRDHI39 = 2.84 / BPWHKB13P25VLT Red upper limit = B_PCB_B13_2_7VTYELO39 = 2.62 / BPWHKB13P25VLT Yellow lower limit = B_PCB_B13_2TYEHI39 = 2.78 / BPWHKB13P25VLT Yellow upper limit = B_PCB_B13_2TRDLO40 = 2.55 / BPWHKB13M25VLT Red lower limit = B_PCB_B13_2_7VTRDHI40 = 2.84 / BPWHKB13M25VLT Red upper limit = B_PCB_B13_2_7VTYELO40 = 2.62 / BPWHKB13M25VLT Yellow lower limit = B_PCB_B13_2TYEHI40 = 2.78 / BPWHKB13M25VLT Yellow upper limit = B_PCB_B13_2TRDLO41 = 3.65 / BPWHKB13P35VLT Red lower limit = B_PCB_B13_3_8VTRDHI41 = 4.05 / BPWHKB13P35VLT Red upper limit = B_PCB_B13_3_8VTYELO41 = 3.73 / BPWHKB13P35VLT Yellow lower limit = B_PCB_B13_3TYEHI41 = 3.97 / BPWHKB13P35VLT Yellow upper limit = B_PCB_B13_3TRDLO42 = 3.65 / BPWHKB13M35VLT Red lower limit = B_PCB_B13_3_8VTRDHI42 = 4.05 / BPWHKB13M35VLT Red upper limit = B_PCB_B13_3_8VTYELO42 = 3.73 / BPWHKB13M35VLT Yellow lower limit = B_PCB_B13_3TYEHI42 = 3.97 / BPWHKB13M35VLT Yellow upper limit = B_PCB_B13_3TRDLO43 = 4.75 / BPWHKB13P50VLT Red lower limit = B_PCB_B13_5_0VTRDHI43 = 5.25 / BPWHKB13P50VLT Red upper limit = B_PCB_B13_5_0VTYELO43 = 4.85 / BPWHKB13P50VLT Yellow lower limit = B_PCB_B13_5TYEHI43 = 5.15 / BPWHKB13P50VLT Yellow upper limit = B_PCB_B13_5TRDLO44 = 7.12 / BPWHKB13P75VLT Red lower limit = B_PCB_B13_7_5VTRDHI44 = 7.85 / BPWHKB13P75VLT Red upper limit = B_PCB_B13_7_5VTYELO44 = 7.27 / BPWHKB13P75VLT Yellow lower limit = B_PCB_B13_7TYEHI44 = 7.72 / BPWHKB13P75VLT Yellow upper limit = B_PCB_B13_7TRDLO45 = 7.12 / BPWHKB13M75VLT Red lower limit = B_PCB_B13_7_5VTRDHI45 = 7.85 / BPWHKB13M75VLT Red upper limit = B_PCB_B13_7_5VTYELO45 = 7.27 / BPWHKB13M75VLT Yellow lower limit = B_PCB_B13_7TYEHI45 = 7.72 / BPWHKB13M75VLT Yellow upper limit = B_PCB_B13_7TRDLO46 = -20 / BPWHKB13CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB13CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB13CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB13CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB13TEMP Red lower limit = B_TBLK_13_LIM TRDHI47 = 45 / BPWHKB13TEMP Red upper limit = B_TBLK_13_LIM TYELO47 = -10 / BPWHKB13TEMP Yellow lower limit = B_TBLK_13_LIMTYEHI47 = 40 / BPWHKB13TEMP Yellow upper limit = B_TBLK_13_LIMTRDHI48 = 60 / BPWHKLHPB3TEMP Red upper limit = B_TLHP_B3_LIM TYEHI48 = 55 / BPWHKLHPB3TEMP Yellow upper limit = B_TLHP_B3_LTRDLO49 = -20 / BPWHKTSREARTEMP Red lower limit = B_PCB_TAGTEMPTRDHI49 = 40 / BPWHKTSREARTEMP Red upper limit = B_PCB_TAGTEMPTYELO49 = -15 / BPWHKTSREARTEMP Yellow lower limit = B_PCB_TAGTTYEHI49 = 35 / BPWHKTSREARTEMP Yellow upper limit = B_PCB_TAGTTRDLO55 = -0.2 / BPWHKB14INPUTI Red lower limit = B_PCB_B14_INPITRDHI55 = 0.9 / BPWHKB14INPUTI Red upper limit = B_PCB_B14_INPITYELO55 = -0.1 / BPWHKB14INPUTI Yellow lower limit = B_PCB_B14_ITYEHI55 = 0.8 / BPWHKB14INPUTI Yellow upper limit = B_PCB_B14_ITRDLO56 = -2 / BPWHKB1425GND Red lower limit = B_PCB_B14_2_5G_TRDHI56 = 15 / BPWHKB1425GND Red upper limit = B_PCB_B14_2_5G_TYELO56 = -1 / BPWHKB1425GND Yellow lower limit = B_PCB_B14_2_TYEHI56 = 10 / BPWHKB1425GND Yellow upper limit = B_PCB_B14_2_TRDLO57 = 2.55 / BPWHKB14P25VLT Red lower limit = B_PCB_B14_2_7VTRDHI57 = 2.84 / BPWHKB14P25VLT Red upper limit = B_PCB_B14_2_7VTYELO57 = 2.62 / BPWHKB14P25VLT Yellow lower limit = B_PCB_B14_2TYEHI57 = 2.78 / BPWHKB14P25VLT Yellow upper limit = B_PCB_B14_2TRDLO58 = 2.55 / BPWHKB14M25VLT Red lower limit = B_PCB_B14_2_7VTRDHI58 = 2.84 / BPWHKB14M25VLT Red upper limit = B_PCB_B14_2_7VTYELO58 = 2.62 / BPWHKB14M25VLT Yellow lower limit = B_PCB_B14_2TYEHI58 = 2.78 / BPWHKB14M25VLT Yellow upper limit = B_PCB_B14_2TRDLO59 = 3.65 / BPWHKB14P35VLT Red lower limit = B_PCB_B14_3_8VTRDHI59 = 4.05 / BPWHKB14P35VLT Red upper limit = B_PCB_B14_3_8VTYELO59 = 3.73 / BPWHKB14P35VLT Yellow lower limit = B_PCB_B14_3TYEHI59 = 3.97 / BPWHKB14P35VLT Yellow upper limit = B_PCB_B14_3TRDLO60 = 3.65 / BPWHKB14M35VLT Red lower limit = B_PCB_B14_3_8VTRDHI60 = 4.05 / BPWHKB14M35VLT Red upper limit = B_PCB_B14_3_8VTYELO60 = 3.73 / BPWHKB14M35VLT Yellow lower limit = B_PCB_B14_3TYEHI60 = 3.97 / BPWHKB14M35VLT Yellow upper limit = B_PCB_B14_3TRDLO61 = 4.75 / BPWHKB14P50VLT Red lower limit = B_PCB_B14_5_0VTRDHI61 = 5.25 / BPWHKB14P50VLT Red upper limit = B_PCB_B14_5_0VTYELO61 = 4.85 / BPWHKB14P50VLT Yellow lower limit = B_PCB_B14_5TYEHI61 = 5.15 / BPWHKB14P50VLT Yellow upper limit = B_PCB_B14_5TRDLO62 = 7.12 / BPWHKB14P75VLT Red lower limit = B_PCB_B14_7_5VTRDHI62 = 7.85 / BPWHKB14P75VLT Red upper limit = B_PCB_B14_7_5VTYELO62 = 7.27 / BPWHKB14P75VLT Yellow lower limit = B_PCB_B14_7TYEHI62 = 7.72 / BPWHKB14P75VLT Yellow upper limit = B_PCB_B14_7TRDLO63 = 7.12 / BPWHKB14M75VLT Red lower limit = B_PCB_B14_7_5VTRDHI63 = 7.85 / BPWHKB14M75VLT Red upper limit = B_PCB_B14_7_5VTYELO63 = 7.27 / BPWHKB14M75VLT Yellow lower limit = B_PCB_B14_7TYEHI63 = 7.72 / BPWHKB14M75VLT Yellow upper limit = B_PCB_B14_7TRDLO64 = -20 / BPWHKB14CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB14CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB14CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB14CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB14TEMP Red lower limit = B_TBLK_14_LIM TRDHI65 = 45 / BPWHKB14TEMP Red upper limit = B_TBLK_14_LIM TYELO65 = -10 / BPWHKB14TEMP Yellow lower limit = B_TBLK_14_LIMTYEHI65 = 40 / BPWHKB14TEMP Yellow upper limit = B_TBLK_14_LIMTRDHI66 = 60 / BPWHKLHPB4TEMP Red upper limit = B_TLHP_B4_LIM TYEHI66 = 55 / BPWHKLHPB4TEMP Yellow upper limit = B_TLHP_B4_LTRDLO73 = -0.2 / BPWHKB15INPUTI Red lower limit = B_PCB_B15_INPITRDHI73 = 0.9 / BPWHKB15INPUTI Red upper limit = B_PCB_B15_INPITYELO73 = -0.1 / BPWHKB15INPUTI Yellow lower limit = B_PCB_B15_ITYEHI73 = 0.8 / BPWHKB15INPUTI Yellow upper limit = B_PCB_B15_ITRDLO74 = -2 / BPWHKB1525GND Red lower limit = B_PCB_B15_2_5G_TRDHI74 = 15 / BPWHKB1525GND Red upper limit = B_PCB_B15_2_5G_TYELO74 = -1 / BPWHKB1525GND Yellow lower limit = B_PCB_B15_2_TYEHI74 = 10 / BPWHKB1525GND Yellow upper limit = B_PCB_B15_2_TRDLO75 = 2.55 / BPWHKB15P25VLT Red lower limit = B_PCB_B15_2_7VTRDHI75 = 2.84 / BPWHKB15P25VLT Red upper limit = B_PCB_B15_2_7VTYELO75 = 2.62 / BPWHKB15P25VLT Yellow lower limit = B_PCB_B15_2TYEHI75 = 2.78 / BPWHKB15P25VLT Yellow upper limit = B_PCB_B15_2TRDLO76 = 2.55 / BPWHKB15M25VLT Red lower limit = B_PCB_B15_2_7VTRDHI76 = 2.84 / BPWHKB15M25VLT Red upper limit = B_PCB_B15_2_7VTYELO76 = 2.62 / BPWHKB15M25VLT Yellow lower limit = B_PCB_B15_2TYEHI76 = 2.78 / BPWHKB15M25VLT Yellow upper limit = B_PCB_B15_2TRDLO77 = 3.65 / BPWHKB15P35VLT Red lower limit = B_PCB_B15_3_8VTRDHI77 = 4.05 / BPWHKB15P35VLT Red upper limit = B_PCB_B15_3_8VTYELO77 = 3.73 / BPWHKB15P35VLT Yellow lower limit = B_PCB_B15_3TYEHI77 = 3.97 / BPWHKB15P35VLT Yellow upper limit = B_PCB_B15_3TRDLO78 = 3.65 / BPWHKB15M35VLT Red lower limit = B_PCB_B15_3_8VTRDHI78 = 4.05 / BPWHKB15M35VLT Red upper limit = B_PCB_B15_3_8VTYELO78 = 3.73 / BPWHKB15M35VLT Yellow lower limit = B_PCB_B15_3TYEHI78 = 3.97 / BPWHKB15M35VLT Yellow upper limit = B_PCB_B15_3TRDLO79 = 4.75 / BPWHKB15P50VLT Red lower limit = B_PCB_B15_5_0VTRDHI79 = 5.25 / BPWHKB15P50VLT Red upper limit = B_PCB_B15_5_0VTYELO79 = 4.85 / BPWHKB15P50VLT Yellow lower limit = B_PCB_B15_5TYEHI79 = 5.15 / BPWHKB15P50VLT Yellow upper limit = B_PCB_B15_5TRDLO80 = 7.12 / BPWHKB15P75VLT Red lower limit = B_PCB_B15_7_5VTRDHI80 = 7.85 / BPWHKB15P75VLT Red upper limit = B_PCB_B15_7_5VTYELO80 = 7.27 / BPWHKB15P75VLT Yellow lower limit = B_PCB_B15_7TYEHI80 = 7.72 / BPWHKB15P75VLT Yellow upper limit = B_PCB_B15_7TRDLO81 = 7.12 / BPWHKB15M75VLT Red lower limit = B_PCB_B15_7_5VTRDHI81 = 7.85 / BPWHKB15M75VLT Red upper limit = B_PCB_B15_7_5VTYELO81 = 7.27 / BPWHKB15M75VLT Yellow lower limit = B_PCB_B15_7TYEHI81 = 7.72 / BPWHKB15M75VLT Yellow upper limit = B_PCB_B15_7TRDLO82 = -20 / BPWHKB15CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB15CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB15CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB15CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB15TEMP Red lower limit = B_TBLK_15_LIM TRDHI83 = 45 / BPWHKB15TEMP Red upper limit = B_TBLK_15_LIM TYELO83 = -10 / BPWHKB15TEMP Yellow lower limit = B_TBLK_15_LIMTYEHI83 = 40 / BPWHKB15TEMP Yellow upper limit = B_TBLK_15_LIMTRDLO84 = -30 / BPWHKLHPB5TEMP Red lower limit = B_TLHP_B5_LIM TRDHI84 = 60 / BPWHKLHPB5TEMP Red upper limit = B_TLHP_B5_LIM TYELO84 = -25 / BPWHKLHPB5TEMP Yellow lower limit = B_TLHP_B5_LTYEHI84 = 55 / BPWHKLHPB5TEMP Yellow upper limit = B_TLHP_B5_LHISTORY TASK: FAPPND on FILENAME: sw01185673000b142x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ayRҀ�Վ��-��V�a��X�� x��(��M�ˍ.��Y�� 덑��'��.��Y�� q��#�ȉ��̀��Y�� 4�ʉ��؀��&A�F�py�k��ڎ ��-��j�]��X��}��'��a�Ǎ/��Z��򍐍��)��.��[��(�n��#�ǉ��Ȁ��[�� 5�ɉ��A�F�y�Q��׎�� .��u�Y��X��ހ��}��(��l�Ǎ/��Z��ހ��ꍒ��(��.��[��t��#�ȉ��Z�� 4�ɉ��hA�F��y�� /��[�U��Y��N��(��O�č/��Z��׀��򍏍��)��/��[��%�o��#�ǉ��Z��4�ʉ��L��A�F��z#:��-��5�R��Z��Ā��&��&�Í0��[��􍎍��+��/��\��Ȁ��*�m��$�ǉ��[��ߎ�� 4�ʉ��A�F��yJM��ێ�� .��/�N�!��Y��%��(��'�č/��Z��3��󍐍��*��Í/��[��3��(�n��$�Ɖ��[��8�� 5�ˉ��j��A�F��x��ގ��*��.�J��Y��F��'��#�Í/��Z��U� �� 1��/��Z��b��$�o��!�ŉ��Z��]��َ�� 3�ǉ��׶A�F��y��֎�� -��!�G�$��Y��d��'��č0��Y��X����(��ō/��[��n��#�t��%�ŉ��[��K��5�ǉ��ʀ��A�F��y��׎��-��B��X��m��(�􉱈 �č/��Y��獖��*��č/��Z��u��{��#�ĉ��Y��4�Ɖ��A�F��xѷ��ڎ��-��=�'��Y��F��'�􉵈�ō0��[��~��򍒍��.��ɍ/��[��y��'�o��#�ĉ��[��ގ�� 5�ǉ��۩A�F��y�)��ώ�� .��!�:�"��Y��x��)�􉳈�ƍ1��[��썔��(��ȍ0��[��~��"�v��&�ĉ��\�� 8�ǉ��ۣA�F�x觀�َ��.��4�(��Y�� (��Ǎ1��Z��󍕍��/��ʍ0��[��b��%�n��#�ĉ��[��ގ��4�ŉ��k��A�F�z#��Ȏ!�� .��$�/�$��Y��(�󉴈�Ǎ0��Z��썏��&��ʍ/��[��)�s��$��Z��ߎ��4�É��*��ܺA�F�$y5��َ��,��/�(�0��Y��%�򉵈&�ɍ1��Z��썋��%��̍0��Z��$�n��!��Z��ێ��2�É��A�F�3x얀�׎��.��=�%�,��Y��(��2�ʍ/��Z��񍒍��*��΍/��[��%�q��#��[��ގ �� 5�ĉ��Հ��ݒA�F�By��Ў��*��M��.��Y��&�񉵈D�ˍ1��Z����)��}�ύ0��[��&�o��"��[��܎ ��3�É��񀥅ށA�F�QyC��Վ��-��[��*��Y��̀��(�񉴈S�ˍ2��Z��񍑍��*��y�ύ0��\��)�p��$��[��5��ޥA�F�`x�<��׎�� .� ��d��+��Y��ǀ��)��Z�̍0��Z����*��t�ҍ0��[��'�q��#��~��Z��5��퀥��TA�F�oy�1��Ԏ�� -��N��)��X��΀��(��B�͍2��Y��À��񍔍��,�􉾅o�э/��Z��%�p��#��{��Y��ۀ�܎ �� 4��:��ޠA�F�~y;��-��2� �%��X��&�퉴�'�ύ2��Y��Ӏ��'��l�Ӎ0��Z��"�o��#��y��Y��ߎ ��3��޸A�F��x�,��֎��+� ��+��)��X��Հ��'�퉳��ύ1��Y��+��i�ҍ0��Y��#�o��!��w��X��π�ڎ��3��D��sA�F��y�P��֎�� .��#��Z��ڀ�� )�퉴��ύ2��Z��ـ����,�􉿅e�ҍ0��[��ǀ��(�q��$��u��Z��ڀ��6��ဦ��aA�F��yX��َ�� /��(��Y��*�퉳� �Ѝ1��Z��􍓍��+��c�֍1��[��Ѐ��)�p��$��t��[��ŀ�ݎ�� 5��eA�F��y��Ҏ��+� ��!��Y��'�뉴��ҍ2��Z��*�󉾅]�֍0��Z��ŀ��&�o��"��m��Z��ڎ �� 4��ܜA�F��y�4��+� ��0��Y��&�ꉳ��ҍ2��Y��'��Z�׍1��Z��ـ��%�n��!��h��Z��ގ �� 2��"��TA�F��yX��ю��.� �� %��Y��(�鉵��ԍ2��[��؍��*�򉿅T�׍1��\��؀��"�v��$��c��\��5��#��ۯA�F��x�5��Ў��-� ��&��*��X��Ӏ��(�뉴��ԍ1��Y��ۍ��*��P�؍0��Z��w��#��]��Y��2��A�F��y�΀�Ў��,��1��'��Y��~��(�ꉴ�'�Ӎ1��Z�� *��L�׍0��Z��݀��t��#��X��Z�� 2��Ҁ��،A�F�x��$�� -��>�܉$��Y��~��(�鉴�6�֍2��[��Ҁ��񍓍��*��I�ٍ0��[��(�s��$��W��[��ގ ��4����A�F�y� ��܎��/��L�ى��Y��&�鉵�C�Ս1��Z����*��G�ڍ1��\��&�p��$��Q��[��܎ �� 7�� A�F�#x��ӎ��-��V�ԉ4��Y��(�割�J�؍1��Z��퍑��(��C�܍1��[��!�v��#��L��Z��,�� 4��逥��A�F�2x�+��Ď��*��D�Љ'��X��Ԁ��&�割�6�؍2��Y�� 1�퉿�@�܍0��Z��$�p��#��F��Z��ـ�܎ ��1��;��A�F�A|�}��+��*�̉��X��񍋍��(�䉴��׍1��Z��)��?�ۍ0��Z��-�m��"��I��Z��܎ ��4��SA�F�Px��̎��,��ȉ��X��w��'�䉳��؍1��Y��5��獓��'��>�܍1��Z��s��!��I��Z��܎ ��2��0��A�F�_y��Վ�� .��Ɖ��Y��)�䉳��ٍ1��Z��򍒍��*��=�܍0��[�� &�p��%��J��Z��ގ�� 5��ˀ��MA�F�nx�5��,��Y��'�䉴��ٍ0��Y��)��9�܍0��Z��'�m��!��F��Z��ߎ ��4��XA�F�}x�݀�׎ ��,��X��<��~��'�ቲ��ۍ1��Y��򍐍��)��5�ݍ0��Y��(�k��"��B��Y��َ�� 3��?��ρA�F��x��ӎ�� -��Y�� (�≵��܍1��[��+��1�ލ0��\��'�p��$��?��[��ڎ�� 5��.��ΆA�F��z`-��Ԏ��.��!��X��'�߉��ލ0��Z�� 񍒍��*�艿�/�ލ/��[��%�r��#��<��Z��ݎ �� 5��fA�F��yË��Վ�� .��/��X��'�߉��$�ݍ0��Z�� *��-�ߍ/��Z��Ȁ��$�o��$��9��Z��ڎ��4��ɀ��̠A�F��y�A��ю��.��:�� X��)��2�ލ1��Y��荗��*�牾�(�ݍ0��Z��|��#��5��Z��5��怤��A�F��y�Q��׎��.��J��Y��5��'�߉��?�ލ0��Y��򍒍��)��)��/��[��%�q��"��1��Z��*��ێ��4�� A�F��yE��Ԏ��+��V��W��'�݉��L�ߍ0��X��򍐍��(��%��/��X��!�o��!��-��X��%��؎ ��2��,A�F��x��ю��,��P��X��'�݉��G��0��Y��鍔��)�䉽��.��Z��z��!��%��Y�� 4��耤��A�F��y�*��׎��-��;��X��3��&�݉��/��1��Z��!�� 4�剽��.��[��(�m��!��"��Z��܎��4��'��A�F�ym��֎��.��"��Z��(�މ��/��Z��􍒍��*�剿��.��Z��&�q��$��#��Z��"��ڎ�� 5��u��QA�F�x��Ԏ��,��W��(�ۉ��/��Y��񍐍��)��ߍ.��Y�� "�o��!��!��X��َ ��3��A�F�"y�݀�َ�� .��Y��#��*�ډ��/��Z��񍓍��)�㉿��.��[��ǀ��"�u��%��!��Z��>��ߎ ��5��A�F�1yc܀�׎��,��Y��&�ډ��/��Z�� 3��.��[��(�n��#��!��Z��(��ݎ��4��;A�F�@xی��Վ ��+�� Y��~��$�ۉ�� 0��Z��퍏��'�≿��.��[��$�o��"��Z��%��ڎ ��3��F��CA�F�Oy�&��1��Z�� )�ډ��/��\����)��.��\��'�t��&��\��%��ێ��9��3��A�F�^yRҀ�ӎ ��*��$��Y��#�ډ��/��Z��H��퍐��'�≿��.��Z��%�o��"��Z��.��ڎ ��3��JA�F�mx�z��Վ��,��0��Y��"��~��(�ى��(��/��Z��퍏��(��.��Z��$�q��"��Z��܎ �� 4��Ȁ��AA�F�|y��׎��+��=��X��)��%�׉��4��.��Y��2��'�߉�� -��Z��*�n��!��Z��F��֎ ��2��ꀥ��A�F��yvހ�Ҏ ��+��J��X��(��~��&�׉��B��.��Z��/��퍐��(�މ��-��Y��)�n��"��Z��-��4��QA�F��x��ю��*��W�}��W��)�։��L��.��Y��E��+�މ��,��Y��$�n��"��X��-��َ�� 3��A�F��ziY��Ԏ��-��W�|��Y��0��)�׉��L��.��Z��<��*�މ��-��[��$�p��#��}��Z��F��܎ ��5��[A�F��ynY��#��,�􉹈G�z��Y��!��w��(�Չ��9��.��Z��0��썓��&�܉��,��[��%�t��"��|��[��5��ݎ�� 3��n��A�F��yc��ю��-��(�v��X��)��'�ԉ��.��Y��D����)�݉��,��Y��%�m��"��y��Y��;��3��CA�F��y��Ԏ��.�􉹈�v�􃒄Y��5��&�։��.��Z��N��􍒍��+�܉��-��[��%�q��$��y��[��O��ێ �� 5��A�F��y \��֎�� -�󉹈�t��Y��8��)�Չ��-��Z��H��􍓍��+�ۉ��+��[��&�p��$��w��Z��E��ێ��6��A�F��y�F��ӎ��*�򉸈�p�񃑄X��=��~��&�ԉ�� ,��Y��R��񍐍��(�ى��+��Z��"�o��!��v��Y��P��׎ ��3��A�F�y)��Ў��,�񉸈�o��X��K��&�Ӊ��-��Z��H����)�ى��+��Z��2��#�p��"��s��Z��4��َ��3��b��A�F�x��Ŏ�� -��k��Y��0��(�҉��,��Z��H��鍏��$�ۉ��+��Z��3��'�t��%��r��Z��[��ݎ ��5��>��~A�F�!y��׎ ��,�񉹈%�h�󃑄X��E��'�Չ��,��X��O��򍐍��)�ډ��*��Z��(�k��"��p��Y��Q��׎�� 6��A�F�0x��*�򉺈2�f�냓�X��E��u��'�҉��&��-��Y��=��鍔��&�ډ��+��Z��.��r��"��o��Y��L��܎��2��̀��A�F�?yz̀�َ��-��;�d��X��S�� (�҉��3��+��Z��0��썐��&�׉��*��Z��.��(�r��#��l��Z��Y��ߎ��8����A�F�NxꞀ�ڎ �� /��J�b��Y��_�� (�Љ��A��,��[��Q����(�ډ��*��\��:��)�p��$��k��Z��g��ݎ�� 6��/A�F�]y�q��ڎ �� .��S�_��Z��t��(�҉��J��,��[��P��*�ى��*��\��.��*�q��$���i��[��`��֎�� 5��uA�F�lx��Ȏ��-��M�]�胑�X��Z�� x��'�Љ��D��+��Y��m��鍔��'�׉��*��Y��M��v��$��値�g��Y��n��ގ��3��뀤��A�F�{yί��Ҏ�� /��:�[�惑�Y��^��)�ω��-��+��Z�� ڍ��+�׉��*��[��6��x��%��e��[��a��4��*��A�F��y/o��Վ��+��!�\�僒�X��&�Љ��+��Z��w����(�։��)��Z��B��'�n��"��倣�e��Z��}��Ԏ��3��f��A�F��x݃��Ԏ��-�퉸��Z�߃��Y��'�Љ�� +��Z��w��*�׉��)��[��n��$�r��#��値�c��[��ڎ �� 5��ဥ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 50 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BMICHWCMDREG' / MIC last internal command TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BMICHWTIMDMA' / MIC DMA data collect timeout TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BMICHWINTENA' / MIC interrupt enable bits TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BMICHWINTRST' / MIC last interrupt reset TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BMICHWSTATUS' / MIC status register (not used) TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BMICHWDMABEG' / Circular buf start address TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BMICHWDMAEND' / Circular buf end address TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BMICHWDMA1ST' / Circular buf 1st write address TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BMICHWDMAENA' / Circular buf auto dma enable TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BMICHWDMAVAL' / Circular buf prev lap valid TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BMICHWDMALAP' / Circular buf lap count register TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BMICHWDMACUR' / Circular buf next write register TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BMICHWCMDIDX' / BCDH cmd buf index of next read TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BMICHWCMDLFT' / BCDH cmd buf unread dwords TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BMICHWCMDTIM' / BCDH cmd buf transmit timeout TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BMICHWCMDMAX' / BCDH cmd buf max packet length TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BMICHWCMDSTA' / BCDH cmd buf status bits TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BMICHWLNK00A' / 1355 link status register 00 (A) TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BMICHWLNK01A' / 1355 link status register 01 (A) TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMICHWLNK02A' / 1355 link status register 02 (A) TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'BMICHWLNK03A' / 1355 link status register 03 (A) TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BMICHWLNK04A' / 1355 link status register 04 (A) TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BMICHWLNK05A' / 1355 link status register 05 (A) TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BMICHWLNK06A' / 1355 link status register 06 (A) TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMICHWLNK07A' / 1355 link status register 07 (A) TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMICHWLNK08A' / 1355 link status register 08 (A) TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMICHWLNK09A' / 1355 link status register 09 (A) TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMICHWLNK10A' / 1355 link status register 10 (A) TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMICHWLNK11A' / 1355 link status register 11 (A) TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMICHWLNK12A' / 1355 link status register 12 (A) TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMICHWLNK13A' / 1355 link status register 13 (A) TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMICHWLNK14A' / 1355 link status register 14 (A) TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMICHWLNK15A' / 1355 link status register 15 (A) TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMICHWLNK00B' / 1355 link status register 00 (B) TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BMICHWLNK01B' / 1355 link status register 01 (B) TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BMICHWLNK02B' / 1355 link status register 02 (B) TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BMICHWLNK03B' / 1355 link status register 03 (B) TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BMICHWLNK04B' / 1355 link status register 04 (B) TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BMICHWLNK05B' / 1355 link status register 05 (B) TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BMICHWLNK06B' / 1355 link status register 06 (B) TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BMICHWLNK07B' / 1355 link status register 07 (B) TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BMICHWLNK08B' / 1355 link status register 08 (B) TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BMICHWLNK09B' / 1355 link status register 09 (B) TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BMICHWLNK10B' / 1355 link status register 10 (B) TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BMICHWLNK11B' / 1355 link status register 11 (B) TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BMICHWLNK12B' / 1355 link status register 12 (B) TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BMICHWLNK13B' / 1355 link status register 13 (B) TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BMICHWLNK14B' / 1355 link status register 14 (B) TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BMICHWLNK15B' / 1355 link status register 15 (B) TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers EXTNAME = 'hk143x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894117.57326 TSTOP = 713895006.0726 DATE-OBS= '2023-08-16T15:55:12' DATE-END= '2023-08-16T16:10:01' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 888.499340057373 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 323 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ifdGidZ9idbEidZ9' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '1243528223' / data unit checksum updated 2023-08-26T08:43:45 HISTORY TASK: FAPPND on FILENAME: sw01185673000b143x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�r�`��B�@�� Ȁ��f��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F�C�x��B�@�� ă��u��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F� ��s�B�@�� D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F�/ J��B�@�� 7��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 120 / width of table in bytes NAXIS2 = 5 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 29 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BBRCLNSTRBS0' / BR Clean Stategy: backsub image clean-balance sTFORM2 = '1J ' / data format of field: 4-byte INTEGER TTYPE3 = 'BBRCLNSTRBS1' / BR Clean Stategy: backsub image clean-balance sTFORM3 = '1J ' / data format of field: 4-byte INTEGER TTYPE4 = 'BBRCLNSTRBS2' / BR Clean Stategy: backsub image clean-balance sTFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BBRCLNSTRBS3' / BR Clean Stategy: backsub image clean-balance sTFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BBRCLNSTRBS4' / BR Clean Stategy: backsub image clean-balance sTFORM6 = '1J ' / data format of field: 4-byte INTEGER TTYPE7 = 'BBRCLNSTRBS5' / BR Clean Stategy: backsub image clean-balance sTFORM7 = '1J ' / data format of field: 4-byte INTEGER TTYPE8 = 'BBRCLNSTRBS6' / BR Clean Stategy: backsub image clean-balance sTFORM8 = '1J ' / data format of field: 4-byte INTEGER TTYPE9 = 'BBRCLNSTRBS7' / BR Clean Stategy: backsub image clean-balance sTFORM9 = '1J ' / data format of field: 4-byte INTEGER TTYPE10 = 'BBRCLNSTRBS8' / BR Clean Stategy: backsub image clean-balance sTFORM10 = '1J ' / data format of field: 4-byte INTEGER TTYPE11 = 'BBRCLNSTRBS9' / BR Clean Stategy: backsub image clean-balance sTFORM11 = '1J ' / data format of field: 4-byte INTEGER TTYPE12 = 'BBRCLNSTRNBS0' / BR Clean Stategy: non-backsub image clean-balanTFORM12 = '1J ' / data format of field: 4-byte INTEGER TTYPE13 = 'BBRCLNSTRNBS1' / BR Clean Stategy: non-backsub image clean-balanTFORM13 = '1J ' / data format of field: 4-byte INTEGER TTYPE14 = 'BBRCLNSTRNBS2' / BR Clean Stategy: non-backsub image clean-balanTFORM14 = '1J ' / data format of field: 4-byte INTEGER TTYPE15 = 'BBRCLNSTRNBS3' / BR Clean Stategy: non-backsub image clean-balanTFORM15 = '1J ' / data format of field: 4-byte INTEGER TTYPE16 = 'BBRCLNSTRNBS4' / BR Clean Stategy: non-backsub image clean-balanTFORM16 = '1J ' / data format of field: 4-byte INTEGER TTYPE17 = 'BBRCLNSTRNBS5' / BR Clean Stategy: non-backsub image clean-balanTFORM17 = '1J ' / data format of field: 4-byte INTEGER TTYPE18 = 'BBRCLNSTRNBS6' / BR Clean Stategy: non-backsub image clean-balanTFORM18 = '1J ' / data format of field: 4-byte INTEGER TTYPE19 = 'BBRCLNSTRNBS7' / BR Clean Stategy: non-backsub image clean-balanTFORM19 = '1J ' / data format of field: 4-byte INTEGER TTYPE20 = 'BBRCLNSTRNBS8' / BR Clean Stategy: non-backsub image clean-balanTFORM20 = '1J ' / data format of field: 4-byte INTEGER TTYPE21 = 'BBRCLNSTRNBS9' / BR Clean Stategy: non-backsub image clean-balanTFORM21 = '1J ' / data format of field: 4-byte INTEGER TTYPE22 = 'BBRCLNSTRCI1' / BR Clean Stategy: Clean Item1 TFORM22 = '1J ' / data format of field: 4-byte INTEGER TTYPE23 = 'BBRCLNSTRCI2' / BR Clean Stategy: Clean Item2 TFORM23 = '1J ' / data format of field: 4-byte INTEGER TTYPE24 = 'BBRCLNSTRCI3' / BR Clean Stategy: Clean Item3 TFORM24 = '1J ' / data format of field: 4-byte INTEGER TTYPE25 = 'BBRCLNSTRCI4' / BR Clean Stategy: Clean Item4 TFORM25 = '1J ' / data format of field: 4-byte INTEGER TTYPE26 = 'BBRCLNSTRCI5' / BR Clean Stategy: Clean Item5 TFORM26 = '1J ' / data format of field: 4-byte INTEGER TTYPE27 = 'BBRCLNSTRCI6' / BR Clean Stategy: Clean Item6 TFORM27 = '1J ' / data format of field: 4-byte INTEGER TTYPE28 = 'BBRCLNSTRASPECT' / BR Clean Stategy: Hump aspect ratio TFORM28 = '1E ' / data format of field: 4-byte REAL TTYPE29 = 'BBRCLNSTRWEIGHT' / BR Clean Stategy: Weight to use for shielded deTFORM29 = '1E ' / data format of field: 4-byte REAL EXTNAME = 'hk160x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894130.22406 TSTOP = 713894981.08584 DATE-OBS= '2023-08-16T15:55:25' DATE-END= '2023-08-16T16:09:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 850.861779928207 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 352 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9afMIRdJ9XdJGXdJ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '426601468' / data unit checksum updated 2023-08-26T08:43:45 COMMENT Column 2 = BBRCLNSTRBS0 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 3 = BBRCLNSTRBS1 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 4 = BBRCLNSTRBS2 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 5 = BBRCLNSTRBS3 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 6 = BBRCLNSTRBS4 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 7 = BBRCLNSTRBS5 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 8 = BBRCLNSTRBS6 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 9 = BBRCLNSTRBS7 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 10 = BBRCLNSTRBS8 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 11 = BBRCLNSTRBS9 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 12 = BBRCLNSTRNBS0 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 13 = BBRCLNSTRNBS1 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 14 = BBRCLNSTRNBS2 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 15 = BBRCLNSTRNBS3 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 16 = BBRCLNSTRNBS4 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 17 = BBRCLNSTRNBS5 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 18 = BBRCLNSTRNBS6 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 19 = BBRCLNSTRNBS7 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 20 = BBRCLNSTRNBS8 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 21 = BBRCLNSTRNBS9 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 22 = BBRCLNSTRCI1 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 23 = BBRCLNSTRCI2 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 24 = BBRCLNSTRCI3 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 25 = BBRCLNSTRCI4 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 26 = BBRCLNSTRCI5 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 27 = BBRCLNSTRCI6 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned HISTORY TASK: FAPPND on FILENAME: sw01185673000b160x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�y��?�=��A�F�{��?�=��A�F�%{��?�=��A�F�!K��?�=��A�F�"��?�=��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / width of table in bytes NAXIS2 = 5 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 52 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BBRIIMGFIMINIT' / BR Rest of DSP State: Has Image been InitializeTFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BBRIIMGFWTINIT' / BR Rest of DSP State: Have Weights been InitialTFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BBRIIMGFFFTCLR' / BR Rest of DSP State: Is FFT Working Area ClearTFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BBRIIMGNDETENA' / BR Rest of DSP State: TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'undocumented1' / Byte field not in ITOS database TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'undocumented2' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BBRIIMGNFOUND' / BR Rest of DSP State: TFORM8 = '1I ' / data format of field: 2-byte INTEGER TTYPE9 = 'BBRIIMGNCAT' / BR Rest of DSP State: TFORM9 = '1I ' / data format of field: 2-byte INTEGER TTYPE10 = 'BBRIIMGNCLEAN' / BR Rest of DSP State: TFORM10 = '1I ' / data format of field: 2-byte INTEGER TTYPE11 = 'undocumented3' / Byte field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BBRIIMGDBGMASK' / BR Rest of DSP State: Debug Mask TFORM12 = '1J ' / data format of field: 4-byte INTEGER TTYPE13 = 'BBRIIMGXCENT' / BR Rest of DSP State: Mask Center (long directiTFORM13 = '1E ' / data format of field: 4-byte REAL TTYPE14 = 'BBRIIMGYCENT' / BR Rest of DSP State: Mask Center (short directTFORM14 = '1E ' / data format of field: 4-byte REAL TTYPE15 = 'BBRIIMGINVDIST' / BR Rest of DSP State: 1/mask-source distance (mTFORM15 = '1E ' / data format of field: 4-byte REAL TTYPE16 = 'BBRIIMGFLENGTH' / BR Rest of DSP State: mask-detector distance (mTFORM16 = '1E ' / data format of field: 4-byte REAL TTYPE17 = 'BBRIIMGPOSTOL' / BR Rest of DSP State: Position tolerance for imTFORM17 = '1E ' / data format of field: 4-byte REAL TTYPE18 = 'BBRIIMGWOFFSET' / BR Rest of DSP State: Mask Weight Offset TFORM18 = '1E ' / data format of field: 4-byte REAL TTYPE19 = 'BBRIIMGWSCALE' / BR Rest of DSP State: Mask Weight scale TFORM19 = '1E ' / data format of field: 4-byte REAL TTYPE20 = 'BBRIIMGX0' / BR Rest of DSP State: Mask Warp coefficients TFORM20 = '1E ' / data format of field: 4-byte REAL TTYPE21 = 'BBRIIMGXY' / BR Rest of DSP State: Mask Warp coefficients TFORM21 = '1E ' / data format of field: 4-byte REAL TTYPE22 = 'BBRIIMGXX' / BR Rest of DSP State: Mask Warp coefficients TFORM22 = '1E ' / data format of field: 4-byte REAL TTYPE23 = 'BBRIIMGXY2' / BR Rest of DSP State: Mask Warp coefficients TFORM23 = '1E ' / data format of field: 4-byte REAL TTYPE24 = 'BBRIIMGXXY' / BR Rest of DSP State: Mask Warp coefficients TFORM24 = '1E ' / data format of field: 4-byte REAL TTYPE25 = 'BBRIIMGXX2' / BR Rest of DSP State: Mask Warp coefficients TFORM25 = '1E ' / data format of field: 4-byte REAL TTYPE26 = 'BBRIIMGXY3' / BR Rest of DSP State: Mask Warp coefficients TFORM26 = '1E ' / data format of field: 4-byte REAL TTYPE27 = 'BBRIIMGXXY2' / BR Rest of DSP State: Mask Warp coefficients TFORM27 = '1E ' / data format of field: 4-byte REAL TTYPE28 = 'BBRIIMGXX2Y' / BR Rest of DSP State: Mask Warp coefficients TFORM28 = '1E ' / data format of field: 4-byte REAL TTYPE29 = 'BBRIIMGXX3' / BR Rest of DSP State: Mask Warp coefficients TFORM29 = '1E ' / data format of field: 4-byte REAL TTYPE30 = 'BBRIIMGXY4' / BR Rest of DSP State: Mask Warp coefficients TFORM30 = '1E ' / data format of field: 4-byte REAL TTYPE31 = 'BBRIIMGXXY3' / BR Rest of DSP State: Mask Warp coefficients TFORM31 = '1E ' / data format of field: 4-byte REAL TTYPE32 = 'BBRIIMGXX2Y2' / BR Rest of DSP State: Mask Warp coefficients TFORM32 = '1E ' / data format of field: 4-byte REAL TTYPE33 = 'BBRIIMGXX3Y' / BR Rest of DSP State: Mask Warp coefficients TFORM33 = '1E ' / data format of field: 4-byte REAL TTYPE34 = 'BBRIIMGXX4' / BR Rest of DSP State: Mask Warp coefficients TFORM34 = '1E ' / data format of field: 4-byte REAL TTYPE35 = 'BBRIIMGY0' / BR Rest of DSP State: Mask Warp coefficients TFORM35 = '1E ' / data format of field: 4-byte REAL TTYPE36 = 'BBRIIMGYY' / BR Rest of DSP State: Mask Warp coefficients TFORM36 = '1E ' / data format of field: 4-byte REAL TTYPE37 = 'BBRIIMGYX' / BR Rest of DSP State: Mask Warp coefficients TFORM37 = '1E ' / data format of field: 4-byte REAL TTYPE38 = 'BBRIIMGYY2' / BR Rest of DSP State: Mask Warp coefficients TFORM38 = '1E ' / data format of field: 4-byte REAL TTYPE39 = 'BBRIIMGYXY' / BR Rest of DSP State: Mask Warp coefficients TFORM39 = '1E ' / data format of field: 4-byte REAL TTYPE40 = 'BBRIIMGYX2' / BR Rest of DSP State: Mask Warp coefficients TFORM40 = '1E ' / data format of field: 4-byte REAL TTYPE41 = 'BBRIIMGYY3' / BR Rest of DSP State: Mask Warp coefficients TFORM41 = '1E ' / data format of field: 4-byte REAL TTYPE42 = 'BBRIIMGYXY2' / BR Rest of DSP State: Mask Warp coefficients TFORM42 = '1E ' / data format of field: 4-byte REAL TTYPE43 = 'BBRIIMGYX2Y' / BR Rest of DSP State: Mask Warp coefficients TFORM43 = '1E ' / data format of field: 4-byte REAL TTYPE44 = 'BBRIIMGYX3' / BR Rest of DSP State: Mask Warp coefficients TFORM44 = '1E ' / data format of field: 4-byte REAL TTYPE45 = 'BBRIIMGYY4' / BR Rest of DSP State: Mask Warp coefficients TFORM45 = '1E ' / data format of field: 4-byte REAL TTYPE46 = 'BBRIIMGYXY3' / BR Rest of DSP State: Mask Warp coefficients TFORM46 = '1E ' / data format of field: 4-byte REAL TTYPE47 = 'BBRIIMGYX2Y2' / BR Rest of DSP State: Mask Warp coefficients TFORM47 = '1E ' / data format of field: 4-byte REAL TTYPE48 = 'BBRIIMGYX3Y' / BR Rest of DSP State: Mask Warp coefficients TFORM48 = '1E ' / data format of field: 4-byte REAL TTYPE49 = 'BBRIIMGYX4' / BR Rest of DSP State: Mask Warp coefficients TFORM49 = '1E ' / data format of field: 4-byte REAL TTYPE50 = 'BBRIIMGWNRNOISE' / BR Rest of DSP State: Wiener Noise coefficient TFORM50 = '1E ' / data format of field: 4-byte REAL TTYPE51 = 'BBRIIMGWNRSCALE' / BR Rest of DSP State: Wiener Scale TFORM51 = '1E ' / data format of field: 4-byte REAL TTYPE52 = 'BBRIIMGHIGHPASS' / BR Rest of DSP State: High pass frequency, cyclTFORM52 = '1E ' / data format of field: 4-byte REAL EXTNAME = 'hk161x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894130.22484 TSTOP = 713894981.08664 DATE-OBS= '2023-08-16T15:55:25' DATE-END= '2023-08-16T16:09:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 850.861799955368 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 353 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'BiXVEhVTBhVTBhVT' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '40005685' / data unit checksum updated 2023-08-26T08:43:45 HISTORY TASK: FAPPND on FILENAME: sw01185673000b161x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�yǏ�F�(+Cs5�B�t�?�;ě�Ap?�A�F�{�D�F�(+Cs5�B�t�?�;ě�Ap?�A�F�%{̎�F�(+Cs5�B�t�?�;ě�Ap?�A�F�!K�P�F�(+Cs5�B�t�?�;ě�Ap?�A�F�"��F�(+Cs5�B�t�?�;ě�Ap?�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 294 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 191 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'undocumented1' / Bit field not in ITOS database TFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BHKP215VBLK00' / +2.15 Volt Regulators, Block 0 TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL3 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'undocumented2' / Bit field not in ITOS database TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BHKP215VBLK01' / +2.15 Volt Regulators, Block 1 TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL5 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'undocumented3' / Bit field not in ITOS database TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BHKP215VBLK02' / +2.15 Volt Regulators, Block 2 TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL7 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'undocumented4' / Bit field not in ITOS database TFORM8 = '1B ' / data format of field: BYTE TTYPE9 = 'BHKP215VBLK03' / +2.15 Volt Regulators, Block 3 TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL9 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'undocumented5' / Bit field not in ITOS database TFORM10 = '1B ' / data format of field: BYTE TTYPE11 = 'BHKP215VBLK04' / +2.15 Volt Regulators, Block 4 TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL11 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT11 = 'V ' / physical unit of field TTYPE12 = 'undocumented6' / Bit field not in ITOS database TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BHKP215VBLK05' / +2.15 Volt Regulators, Block 5 TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL13 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT13 = 'V ' / physical unit of field TTYPE14 = 'undocumented7' / Bit field not in ITOS database TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BHKP215VBLK06' / +2.15 Volt Regulators, Block 6 TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL15 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT15 = 'V ' / physical unit of field TTYPE16 = 'undocumented8' / Bit field not in ITOS database TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BHKP215VBLK07' / +2.15 Volt Regulators, Block 7 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL17 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT17 = 'V ' / physical unit of field TTYPE18 = 'undocumented9' / Bit field not in ITOS database TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BHKP215VBLK08' / +2.15 Volt Regulators, Block 8 TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL19 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT19 = 'V ' / physical unit of field TTYPE20 = 'undocumented10' / Bit field not in ITOS database TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BHKP215VBLK09' / +2.15 Volt Regulators, Block 9 TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL21 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'undocumented11' / Bit field not in ITOS database TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BHKP215VBLK10' / +2.15 Volt Regulators, Block 10 TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL23 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'undocumented12' / Bit field not in ITOS database TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BHKP215VBLK11' / +2.15 Volt Regulators, Block 11 TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL25 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'undocumented13' / Bit field not in ITOS database TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BHKP215VBLK12' / +2.15 Volt Regulators, Block 12 TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL27 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'undocumented14' / Bit field not in ITOS database TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BHKP215VBLK13' / +2.15 Volt Regulators, Block 13 TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL29 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT29 = 'V ' / physical unit of field TTYPE30 = 'undocumented15' / Bit field not in ITOS database TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BHKP215VBLK14' / +2.15 Volt Regulators, Block 14 TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL31 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT31 = 'V ' / physical unit of field TTYPE32 = 'undocumented16' / Bit field not in ITOS database TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BHKP215VBLK15' / +2.15 Volt Regulators, Block 15 TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 25.00611277 / data offset (32k shift B_BCDH_P215V_C conversioTSCAL33 = 0.000763126 / data scaling (B_BCDH_P215V_C conversion) TUNIT33 = 'V ' / physical unit of field TTYPE34 = 'undocumented17' / Bit field not in ITOS database TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BHKM215VBLK00' / -2.15 Volt Regulators, Block 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL35 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT35 = 'V ' / physical unit of field TTYPE36 = 'undocumented18' / Bit field not in ITOS database TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BHKM215VBLK01' / -2.15 Volt Regulators, Block 1 TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL37 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT37 = 'V ' / physical unit of field TTYPE38 = 'undocumented19' / Bit field not in ITOS database TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BHKM215VBLK02' / -2.15 Volt Regulators, Block 2 TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL39 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'undocumented20' / Bit field not in ITOS database TFORM40 = '1B ' / data format of field: BYTE TTYPE41 = 'BHKM215VBLK03' / -2.15 Volt Regulators, Block 3 TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL41 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'undocumented21' / Bit field not in ITOS database TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BHKM215VBLK04' / -2.15 Volt Regulators, Block 4 TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL43 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'undocumented22' / Bit field not in ITOS database TFORM44 = '1B ' / data format of field: BYTE TTYPE45 = 'BHKM215VBLK05' / -2.15 Volt Regulators, Block 5 TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL45 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'undocumented23' / Bit field not in ITOS database TFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BHKM215VBLK06' / -2.15 Volt Regulators, Block 6 TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL47 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT47 = 'V ' / physical unit of field TTYPE48 = 'undocumented24' / Bit field not in ITOS database TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BHKM215VBLK07' / -2.15 Volt Regulators, Block 7 TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL49 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT49 = 'V ' / physical unit of field TTYPE50 = 'undocumented25' / Bit field not in ITOS database TFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BHKM215VBLK08' / -2.15 Volt Regulators, Block 8 TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL51 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT51 = 'V ' / physical unit of field TTYPE52 = 'undocumented26' / Bit field not in ITOS database TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BHKM215VBLK09' / -2.15 Volt Regulators, Block 9 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL53 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT53 = 'V ' / physical unit of field TTYPE54 = 'undocumented27' / Bit field not in ITOS database TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BHKM215VBLK10' / -2.15 Volt Regulators, Block 10 TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL55 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT55 = 'V ' / physical unit of field TTYPE56 = 'undocumented28' / Bit field not in ITOS database TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'BHKM215VBLK11' / -2.15 Volt Regulators, Block 11 TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL57 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'undocumented29' / Bit field not in ITOS database TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BHKM215VBLK12' / -2.15 Volt Regulators, Block 12 TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL59 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'undocumented30' / Bit field not in ITOS database TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BHKM215VBLK13' / -2.15 Volt Regulators, Block 13 TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL61 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'undocumented31' / Bit field not in ITOS database TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BHKM215VBLK14' / -2.15 Volt Regulators, Block 14 TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL63 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'undocumented32' / Bit field not in ITOS database TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BHKM215VBLK15' / -2.15 Volt Regulators, Block 15 TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = -24.87507354 / data offset (32k shift B_BCDH_M215V_C conversioTSCAL65 = -0.000759127 / data scaling (B_BCDH_M215V_C conversion) TUNIT65 = 'V ' / physical unit of field TTYPE66 = 'BHKBRDTEMPBLK00' / Board Temperatures, Block 0 TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL66 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKBRDTEMPBLK01' / Board Temperatures, Block 1 TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL68 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKBRDTEMPBLK02' / Board Temperatures, Block 2 TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL70 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKBRDTEMPBLK03' / Board Temperatures, Block 3 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL72 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKBRDTEMPBLK04' / Board Temperatures, Block 4 TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL74 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKBRDTEMPBLK05' / Board Temperatures, Block 5 TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL76 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKBRDTEMPBLK06' / Board Temperatures, Block 6 TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL78 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKBRDTEMPBLK07' / Board Temperatures, Block 7 TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL80 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKBRDTEMPBLK08' / Board Temperatures, Block 8 TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL82 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKBRDTEMPBLK09' / Board Temperatures, Block 9 TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL84 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKBRDTEMPBLK10' / Board Temperatures, Block 10 TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL86 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKBRDTEMPBLK11' / Board Temperatures, Block 11 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL88 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKBRDTEMPBLK12' / Board Temperatures, Block 12 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL90 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKBRDTEMPBLK13' / Board Temperatures, Block 13 TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL92 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKBRDTEMPBLK14' / Board Temperatures, Block 14 TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL94 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKBRDTEMPBLK15' / Board Temperatures, Block 15 TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 950.2435277 / data offset (32k shift B_BCDH_BTEMP_C conversioTSCAL96 = 0.03052501 / data scaling (B_BCDH_BTEMP_C conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Byte field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKVREFTEMPBLK00' / V Ref Temperatures, Block 0 TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL98 = 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKVREFTEMPBLK01' / V Ref Temperatures, Block 1 TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL100= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKVREFTEMPBLK02' / V Ref Temperatures, Block 2 TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL102= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKVREFTEMPBLK03' / V Ref Temperatures, Block 3 TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL104= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKVREFTEMPBLK04' / V Ref Temperatures, Block 4 TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL106= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKVREFTEMPBLK05' / V Ref Temperatures, Block 5 TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL108= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKVREFTEMPBLK06' / V Ref Temperatures, Block 6 TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL110= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKVREFTEMPBLK07' / V Ref Temperatures, Block 7 TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL112= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKVREFTEMPBLK08' / V Ref Temperatures, Block 8 TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL114= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKVREFTEMPBLK09' / V Ref Temperatures, Block 9 TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL116= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKVREFTEMPBLK10' / V Ref Temperatures, Block 10 TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL118= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKVREFTEMPBLK11' / V Ref Temperatures, Block 11 TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL120= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKVREFTEMPBLK12' / V Ref Temperatures, Block 12 TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL122= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKVREFTEMPBLK13' / V Ref Temperatures, Block 13 TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL124= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKVREFTEMPBLK14' / V Ref Temperatures, Block 14 TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL126= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKVREFTEMPBLK15' / V Ref Temperatures, Block 15 TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 2807.288488 / data offset (32k shift B_BCDH_VRTEMP_C conversiTSCAL128= 0.09399501 / data scaling (B_BCDH_VRTEMP_C conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'BHKBVRTEMPBLK00' / BVR Temperatures, Block 0 TFORM129= '1I ' / data format of field: 2-byte INTEGER TZERO129= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL129= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT129= 'Celsius ' / physical unit of field TTYPE130= 'undocumented64' / Bit field not in ITOS database TFORM130= '1B ' / data format of field: BYTE TTYPE131= 'BHKBVRTEMPBLK01' / BVR Temperatures, Block 1 TFORM131= '1I ' / data format of field: 2-byte INTEGER TZERO131= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL131= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT131= 'Celsius ' / physical unit of field TTYPE132= 'undocumented65' / Bit field not in ITOS database TFORM132= '1B ' / data format of field: BYTE TTYPE133= 'BHKBVRTEMPBLK02' / BVR Temperatures, Block 2 TFORM133= '1I ' / data format of field: 2-byte INTEGER TZERO133= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL133= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT133= 'Celsius ' / physical unit of field TTYPE134= 'undocumented66' / Bit field not in ITOS database TFORM134= '1B ' / data format of field: BYTE TTYPE135= 'BHKBVRTEMPBLK03' / BVR Temperatures, Block 3 TFORM135= '1I ' / data format of field: 2-byte INTEGER TZERO135= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL135= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT135= 'Celsius ' / physical unit of field TTYPE136= 'undocumented67' / Bit field not in ITOS database TFORM136= '1B ' / data format of field: BYTE TTYPE137= 'BHKBVRTEMPBLK04' / BVR Temperatures, Block 4 TFORM137= '1I ' / data format of field: 2-byte INTEGER TZERO137= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL137= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT137= 'Celsius ' / physical unit of field TTYPE138= 'undocumented68' / Bit field not in ITOS database TFORM138= '1B ' / data format of field: BYTE TTYPE139= 'BHKBVRTEMPBLK05' / BVR Temperatures, Block 5 TFORM139= '1I ' / data format of field: 2-byte INTEGER TZERO139= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL139= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT139= 'Celsius ' / physical unit of field TTYPE140= 'undocumented69' / Bit field not in ITOS database TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BHKBVRTEMPBLK06' / BVR Temperatures, Block 6 TFORM141= '1I ' / data format of field: 2-byte INTEGER TZERO141= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL141= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT141= 'Celsius ' / physical unit of field TTYPE142= 'undocumented70' / Bit field not in ITOS database TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BHKBVRTEMPBLK07' / BVR Temperatures, Block 7 TFORM143= '1I ' / data format of field: 2-byte INTEGER TZERO143= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL143= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT143= 'Celsius ' / physical unit of field TTYPE144= 'undocumented71' / Bit field not in ITOS database TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BHKBVRTEMPBLK08' / BVR Temperatures, Block 8 TFORM145= '1I ' / data format of field: 2-byte INTEGER TZERO145= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL145= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT145= 'Celsius ' / physical unit of field TTYPE146= 'undocumented72' / Bit field not in ITOS database TFORM146= '1B ' / data format of field: BYTE TTYPE147= 'BHKBVRTEMPBLK09' / BVR Temperatures, Block 9 TFORM147= '1I ' / data format of field: 2-byte INTEGER TZERO147= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL147= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT147= 'Celsius ' / physical unit of field TTYPE148= 'undocumented73' / Bit field not in ITOS database TFORM148= '1B ' / data format of field: BYTE TTYPE149= 'BHKBVRTEMPBLK10' / BVR Temperatures, Block 10 TFORM149= '1I ' / data format of field: 2-byte INTEGER TZERO149= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL149= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT149= 'Celsius ' / physical unit of field TTYPE150= 'undocumented74' / Bit field not in ITOS database TFORM150= '1B ' / data format of field: BYTE TTYPE151= 'BHKBVRTEMPBLK11' / BVR Temperatures, Block 11 TFORM151= '1I ' / data format of field: 2-byte INTEGER TZERO151= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL151= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT151= 'Celsius ' / physical unit of field TTYPE152= 'undocumented75' / Bit field not in ITOS database TFORM152= '1B ' / data format of field: BYTE TTYPE153= 'BHKBVRTEMPBLK12' / BVR Temperatures, Block 12 TFORM153= '1I ' / data format of field: 2-byte INTEGER TZERO153= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL153= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT153= 'Celsius ' / physical unit of field TTYPE154= 'undocumented76' / Bit field not in ITOS database TFORM154= '1B ' / data format of field: BYTE TTYPE155= 'BHKBVRTEMPBLK13' / BVR Temperatures, Block 13 TFORM155= '1I ' / data format of field: 2-byte INTEGER TZERO155= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL155= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT155= 'Celsius ' / physical unit of field TTYPE156= 'undocumented77' / Bit field not in ITOS database TFORM156= '1B ' / data format of field: BYTE TTYPE157= 'BHKBVRTEMPBLK14' / BVR Temperatures, Block 14 TFORM157= '1I ' / data format of field: 2-byte INTEGER TZERO157= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL157= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT157= 'Celsius ' / physical unit of field TTYPE158= 'undocumented78' / Bit field not in ITOS database TFORM158= '1B ' / data format of field: BYTE TTYPE159= 'BHKBVRTEMPBLK15' / BVR Temperatures, Block 15 TFORM159= '1I ' / data format of field: 2-byte INTEGER TZERO159= 950.2435277 / data offset (32k shift B_BVR_BTEMP_C conversionTSCAL159= 0.03052501 / data scaling (B_BVR_BTEMP_C conversion) TUNIT159= 'Celsius ' / physical unit of field TTYPE160= 'undocumented79' / Byte field not in ITOS database TFORM160= '1B ' / data format of field: BYTE TTYPE161= 'BHKXA1VRTMPBLK00' / XA1VR Temperatures, Block 0 TFORM161= '1I ' / data format of field: 2-byte INTEGER TZERO161= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL161= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT161= 'Celsius ' / physical unit of field TTYPE162= 'undocumented80' / Bit field not in ITOS database TFORM162= '1B ' / data format of field: BYTE TTYPE163= 'BHKXA1VRTMPBLK01' / XA1VR Temperatures, Block 1 TFORM163= '1I ' / data format of field: 2-byte INTEGER TZERO163= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL163= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT163= 'Celsius ' / physical unit of field TTYPE164= 'undocumented81' / Bit field not in ITOS database TFORM164= '1B ' / data format of field: BYTE TTYPE165= 'BHKXA1VRTMPBLK02' / XA1VR Temperatures, Block 2 TFORM165= '1I ' / data format of field: 2-byte INTEGER TZERO165= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL165= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT165= 'Celsius ' / physical unit of field TTYPE166= 'undocumented82' / Bit field not in ITOS database TFORM166= '1B ' / data format of field: BYTE TTYPE167= 'BHKXA1VRTMPBLK03' / XA1VR Temperatures, Block 3 TFORM167= '1I ' / data format of field: 2-byte INTEGER TZERO167= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL167= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT167= 'Celsius ' / physical unit of field TTYPE168= 'undocumented83' / Bit field not in ITOS database TFORM168= '1B ' / data format of field: BYTE TTYPE169= 'BHKXA1VRTMPBLK04' / XA1VR Temperatures, Block 4 TFORM169= '1I ' / data format of field: 2-byte INTEGER TZERO169= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL169= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT169= 'Celsius ' / physical unit of field TTYPE170= 'undocumented84' / Bit field not in ITOS database TFORM170= '1B ' / data format of field: BYTE TTYPE171= 'BHKXA1VRTMPBLK05' / XA1VR Temperatures, Block 5 TFORM171= '1I ' / data format of field: 2-byte INTEGER TZERO171= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL171= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT171= 'Celsius ' / physical unit of field TTYPE172= 'undocumented85' / Bit field not in ITOS database TFORM172= '1B ' / data format of field: BYTE TTYPE173= 'BHKXA1VRTMPBLK06' / XA1VR Temperatures, Block 6 TFORM173= '1I ' / data format of field: 2-byte INTEGER TZERO173= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL173= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT173= 'Celsius ' / physical unit of field TTYPE174= 'undocumented86' / Bit field not in ITOS database TFORM174= '1B ' / data format of field: BYTE TTYPE175= 'BHKXA1VRTMPBLK07' / XA1VR Temperatures, Block 7 TFORM175= '1I ' / data format of field: 2-byte INTEGER TZERO175= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL175= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT175= 'Celsius ' / physical unit of field TTYPE176= 'undocumented87' / Bit field not in ITOS database TFORM176= '1B ' / data format of field: BYTE TTYPE177= 'BHKXA1VRTMPBLK08' / XA1VR Temperatures, Block 8 TFORM177= '1I ' / data format of field: 2-byte INTEGER TZERO177= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL177= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT177= 'Celsius ' / physical unit of field TTYPE178= 'undocumented88' / Bit field not in ITOS database TFORM178= '1B ' / data format of field: BYTE TTYPE179= 'BHKXA1VRTMPBLK09' / XA1VR Temperatures, Block 9 TFORM179= '1I ' / data format of field: 2-byte INTEGER TZERO179= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL179= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT179= 'Celsius ' / physical unit of field TTYPE180= 'undocumented89' / Bit field not in ITOS database TFORM180= '1B ' / data format of field: BYTE TTYPE181= 'BHKXA1VRTMPBLK10' / XA1VR Temperatures, Block 10 TFORM181= '1I ' / data format of field: 2-byte INTEGER TZERO181= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL181= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT181= 'Celsius ' / physical unit of field TTYPE182= 'undocumented90' / Bit field not in ITOS database TFORM182= '1B ' / data format of field: BYTE TTYPE183= 'BHKXA1VRTMPBLK11' / XA1VR Temperatures, Block 11 TFORM183= '1I ' / data format of field: 2-byte INTEGER TZERO183= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL183= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT183= 'Celsius ' / physical unit of field TTYPE184= 'undocumented91' / Bit field not in ITOS database TFORM184= '1B ' / data format of field: BYTE TTYPE185= 'BHKXA1VRTMPBLK12' / XA1VR Temperatures, Block 12 TFORM185= '1I ' / data format of field: 2-byte INTEGER TZERO185= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL185= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT185= 'Celsius ' / physical unit of field TTYPE186= 'undocumented92' / Bit field not in ITOS database TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BHKXA1VRTMPBLK13' / XA1VR Temperatures, Block 13 TFORM187= '1I ' / data format of field: 2-byte INTEGER TZERO187= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL187= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT187= 'Celsius ' / physical unit of field TTYPE188= 'undocumented93' / Bit field not in ITOS database TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BHKXA1VRTMPBLK14' / XA1VR Temperatures, Block 14 TFORM189= '1I ' / data format of field: 2-byte INTEGER TZERO189= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL189= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT189= 'Celsius ' / physical unit of field TTYPE190= 'undocumented94' / Bit field not in ITOS database TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BHKXA1VRTMPBLK15' / XA1VR Temperatures, Block 15 TFORM191= '1I ' / data format of field: 2-byte INTEGER TZERO191= 950.2435277 / data offset (32k shift B_XA1VR_BTEMP_C conversiTSCAL191= 0.03052501 / data scaling (B_XA1VR_BTEMP_C conversion) TUNIT191= 'Celsius ' / physical unit of field EXTNAME = 'hk171x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894080.09466 TSTOP = 713896240.09454 DATE-OBS= '2023-08-16T15:54:35' DATE-END= '2023-08-16T16:30:35' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99987995625 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 369 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Bm2bCj1ZBj1bBj1Z' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2414236718' / data unit checksum updated 2023-08-26T08:43:45 HISTORY TASK: FAPPND on FILENAME: sw01185673000b171x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�`��ˉV�@�h�z�6�e��@�U�m�z�~�s�d��cƌk�r�i �d�n�x��w�o �� {�~�e�m�d�� (�� A�F�o��ˉW�@�i�y�8�f��A�T�m�{��p�c��dǌj�p �j �e�o�y ��x�o ��{�}�f�k�d�� '�� A�F�~��ˉW�?�g�z�8�f��A�U�n�z�~�p�d��dǌk�p�i �e�n�z ��w�n�� z�}�f �l�e�� &�� A�F��̉X�@�i�{�8�f��B�S�o�|�~�q�e��cȌk�q �j�e�n�x��w�n��z�}�g �m�e�� '�� A�F��!��̉V�?�i�z�7�f��A�V�n�{�~�s�c��eƌk�r �i �d�o�x ��w�n��z�~�e �l�e�� (�� A�F��*��̉W�?�h�y�7�h��A�T�l�{��s�d��eǌk�r�j �e�n�x ��w�n��{�~�f�l�e�� '�� A�F��̉W�@�j�z�8�d��B�T�o�y��q�b��eǌl�p �j �e�o�y��x�o�� {�~�f�m�e�� (�� A�F��̉W�@�g�z�7�d��C�V�p�{��q�d��dǌk�q�j �e�o�z ��x�o��{�~�f�m�e�� (�� A�F��̉W�A�g�{�8�f��B�V�n�{�~�q�c��dǌk�p�i�e�n�x��w�n��z�}�f�k�e�� '�� A�F��̉X�@�h�z�9�g��B�T�m�{��t�c��dȌl�q�j �e �o�y ��w�o ��|�~�f�m�d�� (�� A�F��y��̉W�A�i�y�6�f��B�V�n�|��q�d��eǌl�p �j �e�n�y ��x�n��z�~�f�l�e�� '�� A�F��ˉ^�E�m��>�m��H�[�t��x�j��mΌs�w �q�m�v ��~�w�� n�s �m�� -�� "�� A�F�!��ˉU�@�j�{�7�f��B�U�m�{��r�d��fŌl�q �j�e�n�y ��w�o ��{�~�f�m�e�� &�� A�F�#��ˉX�A�i�{�8�f��A�U�n�|�~�r�e��fȌk�p �j�e�n�z ��x�p��|�}�f�k�e�� (�� A�F�2��ˉX�A�j�z�8�f��B�V�o�|��t�f��eȌk�r �j �d�o�y ��w�o��{�~�g�m�e�� )�� A�F�Ay��ˉX�A�h�{�7�e��C�U�n�{�~�s�e��gȌl�q�i�d�o�z ��w�o��z�~�f �m�e�� )�� A�F�P3��ˉW�@�h�z�7�f��B�U�l�|�~�s�c��dǌk�q�j �e�o�y ��w�o��z�~�f�m�e�� '�� A�F�_��ˉX�B�j�z�7�e��C�V�n�{��t�d��eȌl�p �j �e�o�z ��x�o��{�~�g�m�e�� '�� A�F�n*��ˉX�A�j�y�8�f��A�T�n�}��r�d��dȌl�r �j �e�o�z ��w�o�� {�}�e�m�e�� )�� A�F�}��ˉY�A�i�y�7�h��C�W�o�|��r�d��fɌl�p �k �e�o�z ��w�o��{�~�g�k�e�� '�� A�F��ˉY�A�h�{�8�h��B�U�o�}��p�g��eɌk�p�j�e�n�y��x�o�� {�}�g�l�f�� '�� A�F��ˉ^�E�n��?�m��J�\�t��y�k��lΌr�y�q�l�v �� v�� m�s�m�� ,� �� "�� A�F��ˉY�B�i�z�9�g��B�V�o�|�~�r�c��fɌl�q �j �e �o�z ��x�o��{�}�f�m�e�� (�� A�F��;��ˉU�B�j�{�8�f��A�U�n�|��u�e��fŌl�p �j�e�o�x ��w�o��{��f�l�f�� )�� A�F��*��ˉW�A�j�y�7�h��D�V�p�}��s�d��eǌk�q �j �f�p�z ��x�o�� {�~�g�l�e�� (�� A�F��!��ˉW�A�j�{�7�f��A�U�p�z��u�f��fǌk�q �j�e�o�y ��w�o�� |��f�m�e�� )�� A�F��3��ˉY�A�h�z�8�e��D�U�o�|�~�q�e��gɌk�r�i �e�n�y ��w�o��z�~�f�l�f�� (�� A�F��ˉX�A�j�z�9�g��B�V�q�{��s�d��hȌl�p �j �e �o�z��x�o��{�~�f �m�e�� )�� A�F��ˉX�@�g�z�9�g��B�U�o�|��r�e��gȌj�p�j �e �o�z ��w�o��{�~�f�l�f�� (�� A�F�G��ˉW�A�i�{�8�g��B�W�n�}�~�r�f��hǌk�q �j�f�o�x ��w�o�� {�~�f �l�f�� )�� A�F�"3��ˉW�A�h�z�8�h��B�W�n�|��s�d��hǌk�p�i �e�n�x ��x�o��z�~�f �l�f�� (�� A�F�1��ˉX�@�g�{�7�f��B�U�n�{��t�d��hȌk�q�j�e�p�x ��w�p��{�~�f�m�e�� (�� A�F�@*��ˉ_�G�m��<�m��H�[�v��y�i��lόs�x �q�m�v ��v�� n�s�n�� .� �� #�� A�F�O#��ˉW�?�i�|�8�g��C�V�o�}�~�r�f��hǌk�p �j�e�o�z ��x�p�� {�~�f�l�f�� )�� A�F�^��ˉX�?�k�{�8�f��D�V�n�|��s�e��fȌl�r�j�e�o�z��x�p��|��f�m�e�� )�� A�F�m��ˉW�@�h�{�8�g��B�T�n�{��q�e��eǌj�q�i�e�o�y ��w�o��|�~�f �l�e�� )�� A�F�|��ˉY�B�i�{�8�g��C�X�o�|��q�f��fɌk�p �j�f�o�z ��x�o��{�~�g�m�f�� )�� A�F��ˉX�@�i�}�8�h��C�V�q�|��r�f��gȌk�p �j �f�o�x��w�o��{�~�f�l�f�� )�� A�F��ˉX�A�f�{�8�f��C�W�p�}�~�q�e��hȌk�p�i�f�o�z ��w�o�� {�~�g�m�f�� )�� A�F��4��ˉW�A�h�|�9�e��D�T�p�{��t�e��fǌl�q�j�e �p�z ��x�o��|��f�m�e�� (�� A�F��y��ˉY�A�i�z�:�f��B�V�q�}��s�e��eɌl�q �j �e �o�z ��x�o�� {�~�f �l�f�� )�� A�F��*��̉`�F�m��?�m��G�[�u��x�j��l��r�y �q�m�v ��v�� n�t�m�� -�� #�� A�F��*��̉Y�@�k�z�:�h��C�V�n�{��q�h��eɌl�p�j �f �o�z��x�o��{�~�f�m�e�� (�� A�F��3��̉Y�@�i�{�:�i��B�T�o�~�~�r�f��eɌk�r �i�e �o �y ��w�o��z�~�g �l�g�� (�� A�F��Ft��̉Y�@�h�|�7�h��C�V�o�|��r�f��iɌk�p�i�e�n�x ��w�o��{�}�f�l �f�� (�� A�F��̉X�A�i�|�9�f��B�X�p�}��r�f��hȌk�p �j�e �o�x ��x�o�� z�~�g�l�e�� (�� A�F�!��̉X�?�i�z�8�h��D�U�o�|��s�e��gȌj�q �j �f�o�z ��w�o��{�~�f�l�f�� '�� A�F�!3��̉X�@�h�{�9�g��B�W�o�}��r�f��gȌj�p�j�e �o�y��w�o�� {�~�g�l�f�� )�� A�F�0��̉W�@�i�|�8�g��D�V�o�{��s�d��gǌj�p �j�e�o�x ��w�o��{�~�f �l�f�� )�� A�F�?��̉X�B�j�{�9�g��C�V�o�|��q�e��gȌl�p �j�e �o�z��x�o��|�~�f �l�f�� *�� A�F�N5i��̉X�A�k�{�8�g��D�W�o�|�~�q�g��hȌk�q�j�f�o�x ��x�o��{�~�g �l�f�� )�� A�F�]!��̉Y�@�i�y�9�g��B�V�o�~��u�e��gɌl�q �j �e �o�z��x�o��{��g �m�e�� (�� A�F�l3��̉Y�A�j�z�8�f��B�V�n�}��t�f��fɌk�r �i �f�o�x ��w�o�� {��f �n�e�� *�� A�F�{��ˉ\�G�o��<�m��F�\�t��y�j��m̌s�y�q�l�v ��u�� m�t �n�� .� �� "��A�F��ˉW�B�h�|�7�f��B�S�o�{��s�g��gǌj�q�i�e�o�y ��w�p��{�~�g�n�f�� '�� A�F��ˉV�@�g�y�7�e��A�U�n�{��s�e��fƌk�q�k �e�o�y��x�o��{��f�l�e�� (�� A�F��3��ˉY�@�g�z�8�f��D�W�p�|��q�e��hɌk�p�j �e�o�z ��x�o��|�~�g �n�f�� *�� A�F��ˉV�?�i�z�9�f��B�U�o�|��s�e��fƌk�r �j �e �o�y ��w�o��{�~�f�n�e�� )�� A�F��ˉW�A�h�y�8�g��A�W�p�|��r�e��hǌl�p�j �e�o�z ��x�o��|�~�f �m�f�� )�� A�F��y��ˉX�B�i�{�9�h��B�W�q�{�~�r�d��gȌk�p �j�e �o�y ��w�o��z�}�f �l�f�� (�� A�F��ˉW�A�i�z�8�f��B�V�m�|��t�e��gǌk�q �j �e�n�y��w�o ��{�~�f�n�f�� (�� A�F��ˉW�B�i�{�7�h��B�V�p�{��s�e��eǌl�p �j�e�o�y ��x�o��|��g �m�e�� '�� A�F�3��ˉX�?�i�y�8�f��B�W�o�}��q�e��gȌk�p �j �f�n�z ��w�o�� z�~�g�l�f�� )�� A�F�;��ˉX�@�i�{�9�g��B�V�o�{��t�e��fȌk�r �i�e �o�y ��x�o��{��g�m�e�� )�� A�F� ��ˉX�@�h�{�9�g��A�V�o�{��s�e��fȌk�p�j�f �o�y ��x�o��{��f�n�e�� )�� A�F�/��ˉY�B�j�z�7�g��C�U�q�z��p�e��fɌl�q �j �e�o�y ��x�o�� {�}�g�m�e�� )�� A�F�>y��ˉX�B�h�{�8�h��B�V�q�|�~�r�f��hȌk�p�i�f�o�z ��w�o��z�~�g �l�f�� (�� A�F�M��ˉW�A�i�z�6�h��B�T�n�z��t�c��fǌl�p �j �e�o�z ��x�o�� {�~�f�m�e�� )�� A�F�\��ˉX�A�i�y�8�e��B�V�p�{��s�d��fȌj�q �j �e�o�z ��x�n��{��g �l�e�� (�� A�F�k��ˉW�A�i�x�8�g��B�V�n�|��t�f��fǌk�q �j�e�o�y ��w�o��{��f�l�e�� )�� A�F�z��ˉY�@�i�y�8�h��B�U�p�{��s�e��eɌl�q �j �e�o�z��w�o��|�~�g�n�f�� (�� A�F��3��ˉ^�E�n��<�l��K�\�u��x�j��mΌr�x�q�m�u��~�v�� n�s �m�� ,� �� "�� A�F��ˉX�A�g�|�8�e��B�U�q�|�~�q�e��gȌl�p�i�e�o�z ��w�o��z�~�f�l�e�� )�� XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 194 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKLCBLK0DM0A' / Block 0, DM 0, Side A Leakage Current TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL2 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT2 = 'nA ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKLCBLK0DM0B' / Block 0, DM 0, Side B Leakage Current TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL4 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT4 = 'nA ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKLCBLK0DM1A' / Block 0, DM 1, Side A Leakage Current TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL6 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT6 = 'nA ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKLCBLK0DM1B' / Block 0, DM 1, Side B Leakage Current TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL8 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT8 = 'nA ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKLCBLK0DM2A' / Block 0, DM 2, Side A Leakage Current TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL10 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT10 = 'nA ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKLCBLK0DM2B' / Block 0, DM 2, Side B Leakage Current TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL12 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT12 = 'nA ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKLCBLK0DM3A' / Block 0, DM 3, Side A Leakage Current TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL14 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT14 = 'nA ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKLCBLK0DM3B' / Block 0, DM 3, Side B Leakage Current TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL16 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT16 = 'nA ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKLCBLK0DM4A' / Block 0, DM 4, Side A Leakage Current TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL18 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT18 = 'nA ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKLCBLK0DM4B' / Block 0, DM 4, Side B Leakage Current TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL20 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT20 = 'nA ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKLCBLK0DM5A' / Block 0, DM 5, Side A Leakage Current TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL22 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT22 = 'nA ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKLCBLK0DM5B' / Block 0, DM 5, Side B Leakage Current TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL24 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT24 = 'nA ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKLCBLK0DM6A' / Block 0, DM 6, Side A Leakage Current TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL26 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT26 = 'nA ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKLCBLK0DM6B' / Block 0, DM 6, Side B Leakage Current TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL28 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT28 = 'nA ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKLCBLK0DM7A' / Block 0, DM 7, Side A Leakage Current TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL30 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT30 = 'nA ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKLCBLK0DM7B' / Block 0, DM 7, Side B Leakage Current TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL32 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT32 = 'nA ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKLCBLK1DM0A' / Block 1, DM 0, Side A Leakage Current TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL34 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT34 = 'nA ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKLCBLK1DM0B' / Block 1, DM 0, Side B Leakage Current TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL36 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT36 = 'nA ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKLCBLK1DM1A' / Block 1, DM 1, Side A Leakage Current TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL38 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT38 = 'nA ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKLCBLK1DM1B' / Block 1, DM 1, Side B Leakage Current TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL40 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT40 = 'nA ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKLCBLK1DM2A' / Block 1, DM 2, Side A Leakage Current TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL42 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT42 = 'nA ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKLCBLK1DM2B' / Block 1, DM 2, Side B Leakage Current TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL44 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT44 = 'nA ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKLCBLK1DM3A' / Block 1, DM 3, Side A Leakage Current TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL46 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT46 = 'nA ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKLCBLK1DM3B' / Block 1, DM 3, Side B Leakage Current TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL48 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT48 = 'nA ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKLCBLK1DM4A' / Block 1, DM 4, Side A Leakage Current TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL50 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT50 = 'nA ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKLCBLK1DM4B' / Block 1, DM 4, Side B Leakage Current TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL52 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT52 = 'nA ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKLCBLK1DM5A' / Block 1, DM 5, Side A Leakage Current TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL54 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT54 = 'nA ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKLCBLK1DM5B' / Block 1, DM 5, Side B Leakage Current TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL56 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT56 = 'nA ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKLCBLK1DM6A' / Block 1, DM 6, Side A Leakage Current TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL58 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT58 = 'nA ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKLCBLK1DM6B' / Block 1, DM 6, Side B Leakage Current TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL60 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT60 = 'nA ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKLCBLK1DM7A' / Block 1, DM 7, Side A Leakage Current TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL62 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT62 = 'nA ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKLCBLK1DM7B' / Block 1, DM 7, Side B Leakage Current TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL64 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT64 = 'nA ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKLCBLK2DM0A' / Block 2, DM 0, Side A Leakage Current TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL66 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT66 = 'nA ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKLCBLK2DM0B' / Block 2, DM 0, Side B Leakage Current TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL68 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT68 = 'nA ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKLCBLK2DM1A' / Block 2, DM 1, Side A Leakage Current TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL70 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT70 = 'nA ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKLCBLK2DM1B' / Block 2, DM 1, Side B Leakage Current TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL72 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT72 = 'nA ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKLCBLK2DM2A' / Block 2, DM 2, Side A Leakage Current TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL74 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT74 = 'nA ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKLCBLK2DM2B' / Block 2, DM 2, Side B Leakage Current TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL76 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT76 = 'nA ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKLCBLK2DM3A' / Block 2, DM 3, Side A Leakage Current TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL78 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT78 = 'nA ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKLCBLK2DM3B' / Block 2, DM 3, Side B Leakage Current TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL80 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT80 = 'nA ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKLCBLK2DM4A' / Block 2, DM 4, Side A Leakage Current TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL82 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT82 = 'nA ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKLCBLK2DM4B' / Block 2, DM 4, Side B Leakage Current TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL84 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT84 = 'nA ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKLCBLK2DM5A' / Block 2, DM 5, Side A Leakage Current TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL86 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT86 = 'nA ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKLCBLK2DM5B' / Block 2, DM 5, Side B Leakage Current TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL88 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT88 = 'nA ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKLCBLK2DM6A' / Block 2, DM 6, Side A Leakage Current TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL90 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT90 = 'nA ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKLCBLK2DM6B' / Block 2, DM 6, Side B Leakage Current TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL92 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT92 = 'nA ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKLCBLK2DM7A' / Block 2, DM 7, Side A Leakage Current TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL94 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT94 = 'nA ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKLCBLK2DM7B' / Block 2, DM 7, Side B Leakage Current TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL96 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT96 = 'nA ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKLCBLK3DM0A' / Block 3, DM 0, Side A Leakage Current TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL98 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT98 = 'nA ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKLCBLK3DM0B' / Block 3, DM 0, Side B Leakage Current TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL100= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT100= 'nA ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKLCBLK3DM1A' / Block 3, DM 1, Side A Leakage Current TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL102= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT102= 'nA ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKLCBLK3DM1B' / Block 3, DM 1, Side B Leakage Current TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL104= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT104= 'nA ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKLCBLK3DM2A' / Block 3, DM 2, Side A Leakage Current TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL106= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT106= 'nA ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKLCBLK3DM2B' / Block 3, DM 2, Side B Leakage Current TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL108= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT108= 'nA ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKLCBLK3DM3A' / Block 3, DM 3, Side A Leakage Current TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL110= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT110= 'nA ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKLCBLK3DM3B' / Block 3, DM 3, Side B Leakage Current TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL112= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT112= 'nA ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKLCBLK3DM4A' / Block 3, DM 4, Side A Leakage Current TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL114= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT114= 'nA ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKLCBLK3DM4B' / Block 3, DM 4, Side B Leakage Current TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL116= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT116= 'nA ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKLCBLK3DM5A' / Block 3, DM 5, Side A Leakage Current TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL118= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT118= 'nA ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKLCBLK3DM5B' / Block 3, DM 5, Side B Leakage Current TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL120= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT120= 'nA ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKLCBLK3DM6A' / Block 3, DM 6, Side A Leakage Current TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL122= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT122= 'nA ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKLCBLK3DM6B' / Block 3, DM 6, Side B Leakage Current TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL124= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT124= 'nA ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKLCBLK3DM7A' / Block 3, DM 7, Side A Leakage Current TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL126= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT126= 'nA ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKLCBLK3DM7B' / Block 3, DM 7, Side B Leakage Current TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL128= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT128= 'nA ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKLCBLK4DM0A' / Block 4, DM 0, Side A Leakage Current TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL130= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT130= 'nA ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKLCBLK4DM0B' / Block 4, DM 0, Side B Leakage Current TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL132= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT132= 'nA ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKLCBLK4DM1A' / Block 4, DM 1, Side A Leakage Current TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL134= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT134= 'nA ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKLCBLK4DM1B' / Block 4, DM 1, Side B Leakage Current TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL136= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT136= 'nA ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKLCBLK4DM2A' / Block 4, DM 2, Side A Leakage Current TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL138= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT138= 'nA ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKLCBLK4DM2B' / Block 4, DM 2, Side B Leakage Current TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL140= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT140= 'nA ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKLCBLK4DM3A' / Block 4, DM 3, Side A Leakage Current TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL142= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT142= 'nA ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKLCBLK4DM3B' / Block 4, DM 3, Side B Leakage Current TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL144= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT144= 'nA ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKLCBLK4DM4A' / Block 4, DM 4, Side A Leakage Current TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL146= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT146= 'nA ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKLCBLK4DM4B' / Block 4, DM 4, Side B Leakage Current TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL148= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT148= 'nA ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKLCBLK4DM5A' / Block 4, DM 5, Side A Leakage Current TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL150= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT150= 'nA ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKLCBLK4DM5B' / Block 4, DM 5, Side B Leakage Current TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL152= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT152= 'nA ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKLCBLK4DM6A' / Block 4, DM 6, Side A Leakage Current TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL154= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT154= 'nA ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKLCBLK4DM6B' / Block 4, DM 6, Side B Leakage Current TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL156= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT156= 'nA ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKLCBLK4DM7A' / Block 4, DM 7, Side A Leakage Current TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL158= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT158= 'nA ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKLCBLK4DM7B' / Block 4, DM 7, Side B Leakage Current TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL160= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT160= 'nA ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKLCBLK5DM0A' / Block 5, DM 0, Side A Leakage Current TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL162= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT162= 'nA ' / physical unit of field TTYPE163= 'undocumented81' / Bit field not in ITOS database TFORM163= '1B ' / data format of field: BYTE TTYPE164= 'BHKLCBLK5DM0B' / Block 5, DM 0, Side B Leakage Current TFORM164= '1I ' / data format of field: 2-byte INTEGER TZERO164= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL164= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT164= 'nA ' / physical unit of field TTYPE165= 'undocumented82' / Bit field not in ITOS database TFORM165= '1B ' / data format of field: BYTE TTYPE166= 'BHKLCBLK5DM1A' / Block 5, DM 1, Side A Leakage Current TFORM166= '1I ' / data format of field: 2-byte INTEGER TZERO166= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL166= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT166= 'nA ' / physical unit of field TTYPE167= 'undocumented83' / Bit field not in ITOS database TFORM167= '1B ' / data format of field: BYTE TTYPE168= 'BHKLCBLK5DM1B' / Block 5, DM 1, Side B Leakage Current TFORM168= '1I ' / data format of field: 2-byte INTEGER TZERO168= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL168= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT168= 'nA ' / physical unit of field TTYPE169= 'undocumented84' / Bit field not in ITOS database TFORM169= '1B ' / data format of field: BYTE TTYPE170= 'BHKLCBLK5DM2A' / Block 5, DM 2, Side A Leakage Current TFORM170= '1I ' / data format of field: 2-byte INTEGER TZERO170= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL170= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT170= 'nA ' / physical unit of field TTYPE171= 'undocumented85' / Bit field not in ITOS database TFORM171= '1B ' / data format of field: BYTE TTYPE172= 'BHKLCBLK5DM2B' / Block 5, DM 2, Side B Leakage Current TFORM172= '1I ' / data format of field: 2-byte INTEGER TZERO172= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL172= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT172= 'nA ' / physical unit of field TTYPE173= 'undocumented86' / Bit field not in ITOS database TFORM173= '1B ' / data format of field: BYTE TTYPE174= 'BHKLCBLK5DM3A' / Block 5, DM 3, Side A Leakage Current TFORM174= '1I ' / data format of field: 2-byte INTEGER TZERO174= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL174= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT174= 'nA ' / physical unit of field TTYPE175= 'undocumented87' / Bit field not in ITOS database TFORM175= '1B ' / data format of field: BYTE TTYPE176= 'BHKLCBLK5DM3B' / Block 5, DM 3, Side B Leakage Current TFORM176= '1I ' / data format of field: 2-byte INTEGER TZERO176= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL176= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT176= 'nA ' / physical unit of field TTYPE177= 'undocumented88' / Bit field not in ITOS database TFORM177= '1B ' / data format of field: BYTE TTYPE178= 'BHKLCBLK5DM4A' / Block 5, DM 4, Side A Leakage Current TFORM178= '1I ' / data format of field: 2-byte INTEGER TZERO178= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL178= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT178= 'nA ' / physical unit of field TTYPE179= 'undocumented89' / Bit field not in ITOS database TFORM179= '1B ' / data format of field: BYTE TTYPE180= 'BHKLCBLK5DM4B' / Block 5, DM 4, Side B Leakage Current TFORM180= '1I ' / data format of field: 2-byte INTEGER TZERO180= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL180= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT180= 'nA ' / physical unit of field TTYPE181= 'undocumented90' / Bit field not in ITOS database TFORM181= '1B ' / data format of field: BYTE TTYPE182= 'BHKLCBLK5DM5A' / Block 5, DM 5, Side A Leakage Current TFORM182= '1I ' / data format of field: 2-byte INTEGER TZERO182= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL182= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT182= 'nA ' / physical unit of field TTYPE183= 'undocumented91' / Bit field not in ITOS database TFORM183= '1B ' / data format of field: BYTE TTYPE184= 'BHKLCBLK5DM5B' / Block 5, DM 5, Side B Leakage Current TFORM184= '1I ' / data format of field: 2-byte INTEGER TZERO184= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL184= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT184= 'nA ' / physical unit of field TTYPE185= 'undocumented92' / Bit field not in ITOS database TFORM185= '1B ' / data format of field: BYTE TTYPE186= 'BHKLCBLK5DM6A' / Block 5, DM 6, Side A Leakage Current TFORM186= '1I ' / data format of field: 2-byte INTEGER TZERO186= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL186= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT186= 'nA ' / physical unit of field TTYPE187= 'undocumented93' / Bit field not in ITOS database TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BHKLCBLK5DM6B' / Block 5, DM 6, Side B Leakage Current TFORM188= '1I ' / data format of field: 2-byte INTEGER TZERO188= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL188= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT188= 'nA ' / physical unit of field TTYPE189= 'undocumented94' / Bit field not in ITOS database TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BHKLCBLK5DM7A' / Block 5, DM 7, Side A Leakage Current TFORM190= '1I ' / data format of field: 2-byte INTEGER TZERO190= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL190= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT190= 'nA ' / physical unit of field TTYPE191= 'undocumented95' / Bit field not in ITOS database TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BHKLCBLK5DM7B' / Block 5, DM 7, Side B Leakage Current TFORM192= '1I ' / data format of field: 2-byte INTEGER TZERO192= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL192= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT192= 'nA ' / physical unit of field TTYPE193= 'undocumented96' / Bit field not in ITOS database TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BHKLCSPARE0' / Leakage Current Packets Spare Word 0 TFORM194= '1I ' / data format of field: 2-byte INTEGER TZERO194= 32768 / offset for unsigned integers EXTNAME = 'hk173x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894081.29412 TSTOP = 713896241.34922 DATE-OBS= '2023-08-16T15:54:36' DATE-END= '2023-08-16T16:30:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2160.05510008335 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 371 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'jJATmG3RjG9RjG9R' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3007249516' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -1097 / BHKLCBLK0DM0A Red lower limit = B_HK_B00D0A_LC_TRDHI2 = 1300 / BHKLCBLK0DM0A Red upper limit = B_HK_B00D0A_LC_TYELO2 = -1097 / BHKLCBLK0DM0A Yellow lower limit = B_HK_B00D0A_TYEHI2 = 1000 / BHKLCBLK0DM0A Yellow upper limit = B_HK_B00D0A_TRDLO4 = -1097 / BHKLCBLK0DM0B Red lower limit = B_HK_B00D0B_LC_TRDHI4 = 1300 / BHKLCBLK0DM0B Red upper limit = B_HK_B00D0B_LC_TYELO4 = -1097 / BHKLCBLK0DM0B Yellow lower limit = B_HK_B00D0B_TYEHI4 = 1000 / BHKLCBLK0DM0B Yellow upper limit = B_HK_B00D0B_TRDLO6 = -1097 / BHKLCBLK0DM1A Red lower limit = B_HK_B00D1A_LC_TRDHI6 = 1300 / BHKLCBLK0DM1A Red upper limit = B_HK_B00D1A_LC_TYELO6 = -1097 / BHKLCBLK0DM1A Yellow lower limit = B_HK_B00D1A_TYEHI6 = 1000 / BHKLCBLK0DM1A Yellow upper limit = B_HK_B00D1A_TRDLO8 = -1097 / BHKLCBLK0DM1B Red lower limit = B_HK_B00D1B_LC_TRDHI8 = 1300 / BHKLCBLK0DM1B Red upper limit = B_HK_B00D1B_LC_TYELO8 = -1097 / BHKLCBLK0DM1B Yellow lower limit = B_HK_B00D1B_TYEHI8 = 1000 / BHKLCBLK0DM1B Yellow upper limit = B_HK_B00D1B_TRDLO10 = -1097 / BHKLCBLK0DM2A Red lower limit = B_HK_B00D2A_LC_TRDHI10 = 1300 / BHKLCBLK0DM2A Red upper limit = B_HK_B00D2A_LC_TYELO10 = -1097 / BHKLCBLK0DM2A Yellow lower limit = B_HK_B00D2A_TYEHI10 = 1000 / BHKLCBLK0DM2A Yellow upper limit = B_HK_B00D2A_TRDLO12 = -1097 / BHKLCBLK0DM2B Red lower limit = B_HK_B00D2B_LC_TRDHI12 = 1300 / BHKLCBLK0DM2B Red upper limit = B_HK_B00D2B_LC_TYELO12 = -1097 / BHKLCBLK0DM2B Yellow lower limit = B_HK_B00D2B_TYEHI12 = 1000 / BHKLCBLK0DM2B Yellow upper limit = B_HK_B00D2B_TRDLO14 = -1097 / BHKLCBLK0DM3A Red lower limit = B_HK_B00D3A_LC_TRDHI14 = 1300 / BHKLCBLK0DM3A Red upper limit = B_HK_B00D3A_LC_TYELO14 = -1097 / BHKLCBLK0DM3A Yellow lower limit = B_HK_B00D3A_TYEHI14 = 1000 / BHKLCBLK0DM3A Yellow upper limit = B_HK_B00D3A_TRDLO16 = -1097 / BHKLCBLK0DM3B Red lower limit = B_HK_B00D3B_LC_TRDHI16 = 1300 / BHKLCBLK0DM3B Red upper limit = B_HK_B00D3B_LC_TYELO16 = -1097 / BHKLCBLK0DM3B Yellow lower limit = B_HK_B00D3B_TYEHI16 = 1000 / BHKLCBLK0DM3B Yellow upper limit = B_HK_B00D3B_TRDLO18 = -1097 / BHKLCBLK0DM4A Red lower limit = B_HK_B00D4A_LC_TRDHI18 = 1300 / BHKLCBLK0DM4A Red upper limit = B_HK_B00D4A_LC_TYELO18 = -1097 / BHKLCBLK0DM4A Yellow lower limit = B_HK_B00D4A_TYEHI18 = 1000 / BHKLCBLK0DM4A Yellow upper limit = B_HK_B00D4A_TRDLO20 = -1097 / BHKLCBLK0DM4B Red lower limit = B_HK_B00D4B_LC_TRDHI20 = 1300 / BHKLCBLK0DM4B Red upper limit = B_HK_B00D4B_LC_TYELO20 = -1097 / BHKLCBLK0DM4B Yellow lower limit = B_HK_B00D4B_TYEHI20 = 1000 / BHKLCBLK0DM4B Yellow upper limit = B_HK_B00D4B_TRDLO22 = -1097 / BHKLCBLK0DM5A Red lower limit = B_HK_B00D5A_LC_TRDHI22 = 1300 / BHKLCBLK0DM5A Red upper limit = B_HK_B00D5A_LC_TYELO22 = -1097 / BHKLCBLK0DM5A Yellow lower limit = B_HK_B00D5A_TYEHI22 = 1000 / BHKLCBLK0DM5A Yellow upper limit = B_HK_B00D5A_TRDLO24 = -1097 / BHKLCBLK0DM5B Red lower limit = B_HK_B00D5B_LC_TRDHI24 = 1300 / BHKLCBLK0DM5B Red upper limit = B_HK_B00D5B_LC_TYELO24 = -1097 / BHKLCBLK0DM5B Yellow lower limit = B_HK_B00D5B_TYEHI24 = 1000 / BHKLCBLK0DM5B Yellow upper limit = B_HK_B00D5B_TRDLO26 = -1097 / BHKLCBLK0DM6A Red lower limit = B_HK_B00D6A_LC_TRDHI26 = 1300 / BHKLCBLK0DM6A Red upper limit = B_HK_B00D6A_LC_TYELO26 = -1097 / BHKLCBLK0DM6A Yellow lower limit = B_HK_B00D6A_TYEHI26 = 1000 / BHKLCBLK0DM6A Yellow upper limit = B_HK_B00D6A_TRDLO28 = -1097 / BHKLCBLK0DM6B Red lower limit = B_HK_B00D6B_LC_TRDHI28 = 1300 / BHKLCBLK0DM6B Red upper limit = B_HK_B00D6B_LC_TYELO28 = -1097 / BHKLCBLK0DM6B Yellow lower limit = B_HK_B00D6B_TYEHI28 = 1000 / BHKLCBLK0DM6B Yellow upper limit = B_HK_B00D6B_TRDLO30 = -1097 / BHKLCBLK0DM7A Red lower limit = B_HK_B00D7A_LC_TRDHI30 = 1300 / BHKLCBLK0DM7A Red upper limit = B_HK_B00D7A_LC_TYELO30 = -1097 / BHKLCBLK0DM7A Yellow lower limit = B_HK_B00D7A_TYEHI30 = 1000 / BHKLCBLK0DM7A Yellow upper limit = B_HK_B00D7A_TRDLO32 = -1097 / BHKLCBLK0DM7B Red lower limit = B_HK_B00D7B_LC_TRDHI32 = 1300 / BHKLCBLK0DM7B Red upper limit = B_HK_B00D7B_LC_TYELO32 = -1097 / BHKLCBLK0DM7B Yellow lower limit = B_HK_B00D7B_TYEHI32 = 1000 / BHKLCBLK0DM7B Yellow upper limit = B_HK_B00D7B_TRDLO34 = -1097 / BHKLCBLK1DM0A Red lower limit = B_HK_B01D0A_LC_TRDHI34 = 1300 / BHKLCBLK1DM0A Red upper limit = B_HK_B01D0A_LC_TYELO34 = -1097 / BHKLCBLK1DM0A Yellow lower limit = B_HK_B01D0A_TYEHI34 = 1000 / BHKLCBLK1DM0A Yellow upper limit = B_HK_B01D0A_TRDLO36 = -1097 / BHKLCBLK1DM0B Red lower limit = B_HK_B01D0B_LC_TRDHI36 = 1300 / BHKLCBLK1DM0B Red upper limit = B_HK_B01D0B_LC_TYELO36 = -1097 / BHKLCBLK1DM0B Yellow lower limit = B_HK_B01D0B_TYEHI36 = 1000 / BHKLCBLK1DM0B Yellow upper limit = B_HK_B01D0B_TRDLO38 = -1097 / BHKLCBLK1DM1A Red lower limit = B_HK_B01D1A_LC_TRDHI38 = 1300 / BHKLCBLK1DM1A Red upper limit = B_HK_B01D1A_LC_TYELO38 = -1097 / BHKLCBLK1DM1A Yellow lower limit = B_HK_B01D1A_TYEHI38 = 1000 / BHKLCBLK1DM1A Yellow upper limit = B_HK_B01D1A_TRDLO40 = -1097 / BHKLCBLK1DM1B Red lower limit = B_HK_B01D1B_LC_TRDHI40 = 1300 / BHKLCBLK1DM1B Red upper limit = B_HK_B01D1B_LC_TYELO40 = -1097 / BHKLCBLK1DM1B Yellow lower limit = B_HK_B01D1B_TYEHI40 = 1000 / BHKLCBLK1DM1B Yellow upper limit = B_HK_B01D1B_TRDLO42 = -1097 / BHKLCBLK1DM2A Red lower limit = B_HK_B01D2A_LC_TRDHI42 = 1300 / BHKLCBLK1DM2A Red upper limit = B_HK_B01D2A_LC_TYELO42 = -1097 / BHKLCBLK1DM2A Yellow lower limit = B_HK_B01D2A_TYEHI42 = 1000 / BHKLCBLK1DM2A Yellow upper limit = B_HK_B01D2A_TRDLO44 = -1097 / BHKLCBLK1DM2B Red lower limit = B_HK_B01D2B_LC_TRDHI44 = 1300 / BHKLCBLK1DM2B Red upper limit = B_HK_B01D2B_LC_TYELO44 = -1097 / BHKLCBLK1DM2B Yellow lower limit = B_HK_B01D2B_TYEHI44 = 1000 / BHKLCBLK1DM2B Yellow upper limit = B_HK_B01D2B_TRDLO46 = -1097 / BHKLCBLK1DM3A Red lower limit = B_HK_B01D3A_LC_TRDHI46 = 1300 / BHKLCBLK1DM3A Red upper limit = B_HK_B01D3A_LC_TYELO46 = -1097 / BHKLCBLK1DM3A Yellow lower limit = B_HK_B01D3A_TYEHI46 = 1000 / BHKLCBLK1DM3A Yellow upper limit = B_HK_B01D3A_TRDLO48 = -1097 / BHKLCBLK1DM3B Red lower limit = B_HK_B01D3B_LC_TRDHI48 = 1300 / BHKLCBLK1DM3B Red upper limit = B_HK_B01D3B_LC_TYELO48 = -1097 / BHKLCBLK1DM3B Yellow lower limit = B_HK_B01D3B_TYEHI48 = 1000 / BHKLCBLK1DM3B Yellow upper limit = B_HK_B01D3B_TRDLO50 = -1097 / BHKLCBLK1DM4A Red lower limit = B_HK_B01D4A_LC_TRDHI50 = 1300 / BHKLCBLK1DM4A Red upper limit = B_HK_B01D4A_LC_TYELO50 = -1097 / BHKLCBLK1DM4A Yellow lower limit = B_HK_B01D4A_TYEHI50 = 1000 / BHKLCBLK1DM4A Yellow upper limit = B_HK_B01D4A_TRDLO52 = -1097 / BHKLCBLK1DM4B Red lower limit = B_HK_B01D4B_LC_TRDHI52 = 1300 / BHKLCBLK1DM4B Red upper limit = B_HK_B01D4B_LC_TYELO52 = -1097 / BHKLCBLK1DM4B Yellow lower limit = B_HK_B01D4B_TYEHI52 = 1000 / BHKLCBLK1DM4B Yellow upper limit = B_HK_B01D4B_TRDLO54 = -1097 / BHKLCBLK1DM5A Red lower limit = B_HK_B01D5A_LC_TRDHI54 = 1300 / BHKLCBLK1DM5A Red upper limit = B_HK_B01D5A_LC_TYELO54 = -1097 / BHKLCBLK1DM5A Yellow lower limit = B_HK_B01D5A_TYEHI54 = 1000 / BHKLCBLK1DM5A Yellow upper limit = B_HK_B01D5A_TRDLO56 = -1097 / BHKLCBLK1DM5B Red lower limit = B_HK_B01D5B_LC_TRDHI56 = 1300 / BHKLCBLK1DM5B Red upper limit = B_HK_B01D5B_LC_TYELO56 = -1097 / BHKLCBLK1DM5B Yellow lower limit = B_HK_B01D5B_TYEHI56 = 1000 / BHKLCBLK1DM5B Yellow upper limit = B_HK_B01D5B_TRDLO58 = -1097 / BHKLCBLK1DM6A Red lower limit = B_HK_B01D6A_LC_TRDHI58 = 1300 / BHKLCBLK1DM6A Red upper limit = B_HK_B01D6A_LC_TYELO58 = -1097 / BHKLCBLK1DM6A Yellow lower limit = B_HK_B01D6A_TYEHI58 = 1000 / BHKLCBLK1DM6A Yellow upper limit = B_HK_B01D6A_TRDLO60 = -1097 / BHKLCBLK1DM6B Red lower limit = B_HK_B01D6B_LC_TRDHI60 = 1300 / BHKLCBLK1DM6B Red upper limit = B_HK_B01D6B_LC_TYELO60 = -1097 / BHKLCBLK1DM6B Yellow lower limit = B_HK_B01D6B_TYEHI60 = 1000 / BHKLCBLK1DM6B Yellow upper limit = B_HK_B01D6B_TRDLO62 = -1097 / BHKLCBLK1DM7A Red lower limit = B_HK_B01D7A_LC_TRDHI62 = 1300 / BHKLCBLK1DM7A Red upper limit = B_HK_B01D7A_LC_TYELO62 = -1097 / BHKLCBLK1DM7A Yellow lower limit = B_HK_B01D7A_TYEHI62 = 1000 / BHKLCBLK1DM7A Yellow upper limit = B_HK_B01D7A_TRDLO64 = -1097 / BHKLCBLK1DM7B Red lower limit = B_HK_B01D7B_LC_TRDHI64 = 1300 / BHKLCBLK1DM7B Red upper limit = B_HK_B01D7B_LC_TYELO64 = -1097 / BHKLCBLK1DM7B Yellow lower limit = B_HK_B01D7B_TYEHI64 = 1000 / BHKLCBLK1DM7B Yellow upper limit = B_HK_B01D7B_TRDLO66 = -1097 / BHKLCBLK2DM0A Red lower limit = B_HK_B02D0A_LC_TRDHI66 = 1300 / BHKLCBLK2DM0A Red upper limit = B_HK_B02D0A_LC_TYELO66 = -1097 / BHKLCBLK2DM0A Yellow lower limit = B_HK_B02D0A_TYEHI66 = 1000 / BHKLCBLK2DM0A Yellow upper limit = B_HK_B02D0A_TRDLO68 = -1097 / BHKLCBLK2DM0B Red lower limit = B_HK_B02D0B_LC_TRDHI68 = 1300 / BHKLCBLK2DM0B Red upper limit = B_HK_B02D0B_LC_TYELO68 = -1097 / BHKLCBLK2DM0B Yellow lower limit = B_HK_B02D0B_TYEHI68 = 1000 / BHKLCBLK2DM0B Yellow upper limit = B_HK_B02D0B_TRDLO70 = -1097 / BHKLCBLK2DM1A Red lower limit = B_HK_B02D1A_LC_TRDHI70 = 1300 / BHKLCBLK2DM1A Red upper limit = B_HK_B02D1A_LC_TYELO70 = -1097 / BHKLCBLK2DM1A Yellow lower limit = B_HK_B02D1A_TYEHI70 = 1000 / BHKLCBLK2DM1A Yellow upper limit = B_HK_B02D1A_TRDLO72 = -1097 / BHKLCBLK2DM1B Red lower limit = B_HK_B02D1B_LC_TRDHI72 = 1300 / BHKLCBLK2DM1B Red upper limit = B_HK_B02D1B_LC_TYELO72 = -1097 / BHKLCBLK2DM1B Yellow lower limit = B_HK_B02D1B_TYEHI72 = 1000 / BHKLCBLK2DM1B Yellow upper limit = B_HK_B02D1B_TRDLO74 = -1097 / BHKLCBLK2DM2A Red lower limit = B_HK_B02D2A_LC_TRDHI74 = 1300 / BHKLCBLK2DM2A Red upper limit = B_HK_B02D2A_LC_TYELO74 = -1097 / BHKLCBLK2DM2A Yellow lower limit = B_HK_B02D2A_TYEHI74 = 1000 / BHKLCBLK2DM2A Yellow upper limit = B_HK_B02D2A_TRDLO76 = -1097 / BHKLCBLK2DM2B Red lower limit = B_HK_B02D2B_LC_TRDHI76 = 1300 / BHKLCBLK2DM2B Red upper limit = B_HK_B02D2B_LC_TYELO76 = -1097 / BHKLCBLK2DM2B Yellow lower limit = B_HK_B02D2B_TYEHI76 = 1000 / BHKLCBLK2DM2B Yellow upper limit = B_HK_B02D2B_TRDLO78 = -1097 / BHKLCBLK2DM3A Red lower limit = B_HK_B02D3A_LC_TRDHI78 = 1300 / BHKLCBLK2DM3A Red upper limit = B_HK_B02D3A_LC_TYELO78 = -1097 / BHKLCBLK2DM3A Yellow lower limit = B_HK_B02D3A_TYEHI78 = 1000 / BHKLCBLK2DM3A Yellow upper limit = B_HK_B02D3A_TRDLO80 = -1097 / BHKLCBLK2DM3B Red lower limit = B_HK_B02D3B_LC_TRDHI80 = 1300 / BHKLCBLK2DM3B Red upper limit = B_HK_B02D3B_LC_TYELO80 = -1097 / BHKLCBLK2DM3B Yellow lower limit = B_HK_B02D3B_TYEHI80 = 1000 / BHKLCBLK2DM3B Yellow upper limit = B_HK_B02D3B_TRDLO82 = -1097 / BHKLCBLK2DM4A Red lower limit = B_HK_B02D4A_LC_TRDHI82 = 1300 / BHKLCBLK2DM4A Red upper limit = B_HK_B02D4A_LC_TYELO82 = -1097 / BHKLCBLK2DM4A Yellow lower limit = B_HK_B02D4A_TYEHI82 = 1000 / BHKLCBLK2DM4A Yellow upper limit = B_HK_B02D4A_TRDLO84 = -1097 / BHKLCBLK2DM4B Red lower limit = B_HK_B02D4B_LC_TRDHI84 = 1300 / BHKLCBLK2DM4B Red upper limit = B_HK_B02D4B_LC_TYELO84 = -1097 / BHKLCBLK2DM4B Yellow lower limit = B_HK_B02D4B_TYEHI84 = 1000 / BHKLCBLK2DM4B Yellow upper limit = B_HK_B02D4B_TRDLO86 = -1097 / BHKLCBLK2DM5A Red lower limit = B_HK_B02D5A_LC_TRDHI86 = 1300 / BHKLCBLK2DM5A Red upper limit = B_HK_B02D5A_LC_TYELO86 = -1097 / BHKLCBLK2DM5A Yellow lower limit = B_HK_B02D5A_TYEHI86 = 1000 / BHKLCBLK2DM5A Yellow upper limit = B_HK_B02D5A_TRDLO88 = -1097 / BHKLCBLK2DM5B Red lower limit = B_HK_B02D5B_LC_TRDHI88 = 1300 / BHKLCBLK2DM5B Red upper limit = B_HK_B02D5B_LC_TYELO88 = -1097 / BHKLCBLK2DM5B Yellow lower limit = B_HK_B02D5B_TYEHI88 = 1000 / BHKLCBLK2DM5B Yellow upper limit = B_HK_B02D5B_TRDLO90 = -1097 / BHKLCBLK2DM6A Red lower limit = B_HK_B02D6A_LC_TRDHI90 = 1300 / BHKLCBLK2DM6A Red upper limit = B_HK_B02D6A_LC_TYELO90 = -1097 / BHKLCBLK2DM6A Yellow lower limit = B_HK_B02D6A_TYEHI90 = 1000 / BHKLCBLK2DM6A Yellow upper limit = B_HK_B02D6A_TRDLO92 = -1097 / BHKLCBLK2DM6B Red lower limit = B_HK_B02D6B_LC_TRDHI92 = 1300 / BHKLCBLK2DM6B Red upper limit = B_HK_B02D6B_LC_TYELO92 = -1097 / BHKLCBLK2DM6B Yellow lower limit = B_HK_B02D6B_TYEHI92 = 1000 / BHKLCBLK2DM6B Yellow upper limit = B_HK_B02D6B_TRDLO94 = -1097 / BHKLCBLK2DM7A Red lower limit = B_HK_B02D7A_LC_TRDHI94 = 1300 / BHKLCBLK2DM7A Red upper limit = B_HK_B02D7A_LC_TYELO94 = -1097 / BHKLCBLK2DM7A Yellow lower limit = B_HK_B02D7A_TYEHI94 = 1000 / BHKLCBLK2DM7A Yellow upper limit = B_HK_B02D7A_TRDLO96 = -1097 / BHKLCBLK2DM7B Red lower limit = B_HK_B02D7B_LC_TRDHI96 = 1300 / BHKLCBLK2DM7B Red upper limit = B_HK_B02D7B_LC_TYELO96 = -1097 / BHKLCBLK2DM7B Yellow lower limit = B_HK_B02D7B_TYEHI96 = 1000 / BHKLCBLK2DM7B Yellow upper limit = B_HK_B02D7B_TRDLO98 = -1097 / BHKLCBLK3DM0A Red lower limit = B_HK_B03D0A_LC_TRDHI98 = 1300 / BHKLCBLK3DM0A Red upper limit = B_HK_B03D0A_LC_TYELO98 = -1097 / BHKLCBLK3DM0A Yellow lower limit = B_HK_B03D0A_TYEHI98 = 1000 / BHKLCBLK3DM0A Yellow upper limit = B_HK_B03D0A_TRDLO100= -1097 / BHKLCBLK3DM0B Red lower limit = B_HK_B03D0B_LC_TRDHI100= 1300 / BHKLCBLK3DM0B Red upper limit = B_HK_B03D0B_LC_TYELO100= -1097 / BHKLCBLK3DM0B Yellow lower limit = B_HK_B03D0B_TYEHI100= 1000 / BHKLCBLK3DM0B Yellow upper limit = B_HK_B03D0B_TRDLO102= -1097 / BHKLCBLK3DM1A Red lower limit = B_HK_B03D1A_LC_TRDHI102= 1300 / BHKLCBLK3DM1A Red upper limit = B_HK_B03D1A_LC_TYELO102= -1097 / BHKLCBLK3DM1A Yellow lower limit = B_HK_B03D1A_TYEHI102= 1000 / BHKLCBLK3DM1A Yellow upper limit = B_HK_B03D1A_TRDLO104= -1097 / BHKLCBLK3DM1B Red lower limit = B_HK_B03D1B_LC_TRDHI104= 1300 / BHKLCBLK3DM1B Red upper limit = B_HK_B03D1B_LC_TYELO104= -1097 / BHKLCBLK3DM1B Yellow lower limit = B_HK_B03D1B_TYEHI104= 1000 / BHKLCBLK3DM1B Yellow upper limit = B_HK_B03D1B_TRDLO106= -1097 / BHKLCBLK3DM2A Red lower limit = B_HK_B03D2A_LC_TRDHI106= 1300 / BHKLCBLK3DM2A Red upper limit = B_HK_B03D2A_LC_TYELO106= -1097 / BHKLCBLK3DM2A Yellow lower limit = B_HK_B03D2A_TYEHI106= 1000 / BHKLCBLK3DM2A Yellow upper limit = B_HK_B03D2A_TRDLO108= -1097 / BHKLCBLK3DM2B Red lower limit = B_HK_B03D2B_LC_TRDHI108= 1300 / BHKLCBLK3DM2B Red upper limit = B_HK_B03D2B_LC_TYELO108= -1097 / BHKLCBLK3DM2B Yellow lower limit = B_HK_B03D2B_TYEHI108= 1000 / BHKLCBLK3DM2B Yellow upper limit = B_HK_B03D2B_TRDLO110= -1097 / BHKLCBLK3DM3A Red lower limit = B_HK_B03D3A_LC_TRDHI110= 1300 / BHKLCBLK3DM3A Red upper limit = B_HK_B03D3A_LC_TYELO110= -1097 / BHKLCBLK3DM3A Yellow lower limit = B_HK_B03D3A_TYEHI110= 1000 / BHKLCBLK3DM3A Yellow upper limit = B_HK_B03D3A_TRDLO112= -1097 / BHKLCBLK3DM3B Red lower limit = B_HK_B03D3B_LC_TRDHI112= 1300 / BHKLCBLK3DM3B Red upper limit = B_HK_B03D3B_LC_TYELO112= -1097 / BHKLCBLK3DM3B Yellow lower limit = B_HK_B03D3B_TYEHI112= 1000 / BHKLCBLK3DM3B Yellow upper limit = B_HK_B03D3B_TRDLO114= -1097 / BHKLCBLK3DM4A Red lower limit = B_HK_B03D4A_LC_TRDHI114= 1300 / BHKLCBLK3DM4A Red upper limit = B_HK_B03D4A_LC_TYELO114= -1097 / BHKLCBLK3DM4A Yellow lower limit = B_HK_B03D4A_TYEHI114= 1000 / BHKLCBLK3DM4A Yellow upper limit = B_HK_B03D4A_TRDLO116= -1097 / BHKLCBLK3DM4B Red lower limit = B_HK_B03D4B_LC_TRDHI116= 1300 / BHKLCBLK3DM4B Red upper limit = B_HK_B03D4B_LC_TYELO116= -1097 / BHKLCBLK3DM4B Yellow lower limit = B_HK_B03D4B_TYEHI116= 1000 / BHKLCBLK3DM4B Yellow upper limit = B_HK_B03D4B_TRDLO118= -1097 / BHKLCBLK3DM5A Red lower limit = B_HK_B03D5A_LC_TRDHI118= 1300 / BHKLCBLK3DM5A Red upper limit = B_HK_B03D5A_LC_TYELO118= -1097 / BHKLCBLK3DM5A Yellow lower limit = B_HK_B03D5A_TYEHI118= 1000 / BHKLCBLK3DM5A Yellow upper limit = B_HK_B03D5A_TRDLO120= -1097 / BHKLCBLK3DM5B Red lower limit = B_HK_B03D5B_LC_TRDHI120= 1300 / BHKLCBLK3DM5B Red upper limit = B_HK_B03D5B_LC_TYELO120= -1097 / BHKLCBLK3DM5B Yellow lower limit = B_HK_B03D5B_TYEHI120= 1000 / BHKLCBLK3DM5B Yellow upper limit = B_HK_B03D5B_TRDLO122= -1097 / BHKLCBLK3DM6A Red lower limit = B_HK_B03D6A_LC_TRDHI122= 1300 / BHKLCBLK3DM6A Red upper limit = B_HK_B03D6A_LC_TYELO122= -1097 / BHKLCBLK3DM6A Yellow lower limit = B_HK_B03D6A_TYEHI122= 1000 / BHKLCBLK3DM6A Yellow upper limit = B_HK_B03D6A_TRDLO124= -1097 / BHKLCBLK3DM6B Red lower limit = B_HK_B03D6B_LC_TRDHI124= 1300 / BHKLCBLK3DM6B Red upper limit = B_HK_B03D6B_LC_TYELO124= -1097 / BHKLCBLK3DM6B Yellow lower limit = B_HK_B03D6B_TYEHI124= 1000 / BHKLCBLK3DM6B Yellow upper limit = B_HK_B03D6B_TRDLO126= -1097 / BHKLCBLK3DM7A Red lower limit = B_HK_B03D7A_LC_TRDHI126= 1300 / BHKLCBLK3DM7A Red upper limit = B_HK_B03D7A_LC_TYELO126= -1097 / BHKLCBLK3DM7A Yellow lower limit = B_HK_B03D7A_TYEHI126= 1000 / BHKLCBLK3DM7A Yellow upper limit = B_HK_B03D7A_TRDLO128= -1097 / BHKLCBLK3DM7B Red lower limit = B_HK_B03D7B_LC_TRDHI128= 1300 / BHKLCBLK3DM7B Red upper limit = B_HK_B03D7B_LC_TYELO128= -1097 / BHKLCBLK3DM7B Yellow lower limit = B_HK_B03D7B_TYEHI128= 1000 / BHKLCBLK3DM7B Yellow upper limit = B_HK_B03D7B_TRDLO130= -1097 / BHKLCBLK4DM0A Red lower limit = B_HK_B04D0A_LC_TRDHI130= 1300 / BHKLCBLK4DM0A Red upper limit = B_HK_B04D0A_LC_TYELO130= -1097 / BHKLCBLK4DM0A Yellow lower limit = B_HK_B04D0A_TYEHI130= 1000 / BHKLCBLK4DM0A Yellow upper limit = B_HK_B04D0A_TRDLO132= -1097 / BHKLCBLK4DM0B Red lower limit = B_HK_B04D0B_LC_TRDHI132= 1300 / BHKLCBLK4DM0B Red upper limit = B_HK_B04D0B_LC_TYELO132= -1097 / BHKLCBLK4DM0B Yellow lower limit = B_HK_B04D0B_TYEHI132= 1000 / BHKLCBLK4DM0B Yellow upper limit = B_HK_B04D0B_TRDLO134= -1097 / BHKLCBLK4DM1A Red lower limit = B_HK_B04D1A_LC_TRDHI134= 1300 / BHKLCBLK4DM1A Red upper limit = B_HK_B04D1A_LC_TYELO134= -1097 / BHKLCBLK4DM1A Yellow lower limit = B_HK_B04D1A_TYEHI134= 1000 / BHKLCBLK4DM1A Yellow upper limit = B_HK_B04D1A_TRDLO136= -1097 / BHKLCBLK4DM1B Red lower limit = B_HK_B04D1B_LC_TRDHI136= 1300 / BHKLCBLK4DM1B Red upper limit = B_HK_B04D1B_LC_TYELO136= -1097 / BHKLCBLK4DM1B Yellow lower limit = B_HK_B04D1B_TYEHI136= 1000 / BHKLCBLK4DM1B Yellow upper limit = B_HK_B04D1B_TRDLO138= -1097 / BHKLCBLK4DM2A Red lower limit = B_HK_B04D2A_LC_TRDHI138= 1300 / BHKLCBLK4DM2A Red upper limit = B_HK_B04D2A_LC_TYELO138= -1097 / BHKLCBLK4DM2A Yellow lower limit = B_HK_B04D2A_TYEHI138= 1000 / BHKLCBLK4DM2A Yellow upper limit = B_HK_B04D2A_TRDLO140= -1097 / BHKLCBLK4DM2B Red lower limit = B_HK_B04D2B_LC_TRDHI140= 1300 / BHKLCBLK4DM2B Red upper limit = B_HK_B04D2B_LC_TYELO140= -1097 / BHKLCBLK4DM2B Yellow lower limit = B_HK_B04D2B_TYEHI140= 1000 / BHKLCBLK4DM2B Yellow upper limit = B_HK_B04D2B_TRDLO142= -1097 / BHKLCBLK4DM3A Red lower limit = B_HK_B04D3A_LC_TRDHI142= 1300 / BHKLCBLK4DM3A Red upper limit = B_HK_B04D3A_LC_TYELO142= -1097 / BHKLCBLK4DM3A Yellow lower limit = B_HK_B04D3A_TYEHI142= 1000 / BHKLCBLK4DM3A Yellow upper limit = B_HK_B04D3A_TRDLO144= -1097 / BHKLCBLK4DM3B Red lower limit = B_HK_B04D3B_LC_TRDHI144= 1300 / BHKLCBLK4DM3B Red upper limit = B_HK_B04D3B_LC_TYELO144= -1097 / BHKLCBLK4DM3B Yellow lower limit = B_HK_B04D3B_TYEHI144= 1000 / BHKLCBLK4DM3B Yellow upper limit = B_HK_B04D3B_TRDLO146= -1097 / BHKLCBLK4DM4A Red lower limit = B_HK_B04D4A_LC_TRDHI146= 1300 / BHKLCBLK4DM4A Red upper limit = B_HK_B04D4A_LC_TYELO146= -1097 / BHKLCBLK4DM4A Yellow lower limit = B_HK_B04D4A_TYEHI146= 1000 / BHKLCBLK4DM4A Yellow upper limit = B_HK_B04D4A_TRDLO148= -1097 / BHKLCBLK4DM4B Red lower limit = B_HK_B04D4B_LC_TRDHI148= 1300 / BHKLCBLK4DM4B Red upper limit = B_HK_B04D4B_LC_TYELO148= -1097 / BHKLCBLK4DM4B Yellow lower limit = B_HK_B04D4B_TYEHI148= 1000 / BHKLCBLK4DM4B Yellow upper limit = B_HK_B04D4B_TRDLO150= -1097 / BHKLCBLK4DM5A Red lower limit = B_HK_B04D5A_LC_TRDHI150= 1300 / BHKLCBLK4DM5A Red upper limit = B_HK_B04D5A_LC_TYELO150= -1097 / BHKLCBLK4DM5A Yellow lower limit = B_HK_B04D5A_TYEHI150= 1000 / BHKLCBLK4DM5A Yellow upper limit = B_HK_B04D5A_TRDLO152= -1097 / BHKLCBLK4DM5B Red lower limit = B_HK_B04D5B_LC_TRDHI152= 1300 / BHKLCBLK4DM5B Red upper limit = B_HK_B04D5B_LC_TYELO152= -1097 / BHKLCBLK4DM5B Yellow lower limit = B_HK_B04D5B_TYEHI152= 1000 / BHKLCBLK4DM5B Yellow upper limit = B_HK_B04D5B_TRDLO154= -1097 / BHKLCBLK4DM6A Red lower limit = B_HK_B04D6A_LC_TRDHI154= 1300 / BHKLCBLK4DM6A Red upper limit = B_HK_B04D6A_LC_TYELO154= -1097 / BHKLCBLK4DM6A Yellow lower limit = B_HK_B04D6A_TYEHI154= 1000 / BHKLCBLK4DM6A Yellow upper limit = B_HK_B04D6A_TRDLO156= -1097 / BHKLCBLK4DM6B Red lower limit = B_HK_B04D6B_LC_TRDHI156= 1300 / BHKLCBLK4DM6B Red upper limit = B_HK_B04D6B_LC_TYELO156= -1097 / BHKLCBLK4DM6B Yellow lower limit = B_HK_B04D6B_TYEHI156= 1000 / BHKLCBLK4DM6B Yellow upper limit = B_HK_B04D6B_TRDLO158= -1097 / BHKLCBLK4DM7A Red lower limit = B_HK_B04D7A_LC_TRDHI158= 1300 / BHKLCBLK4DM7A Red upper limit = B_HK_B04D7A_LC_TYELO158= -1097 / BHKLCBLK4DM7A Yellow lower limit = B_HK_B04D7A_TYEHI158= 1000 / BHKLCBLK4DM7A Yellow upper limit = B_HK_B04D7A_TRDLO160= -1097 / BHKLCBLK4DM7B Red lower limit = B_HK_B04D7B_LC_TRDHI160= 1300 / BHKLCBLK4DM7B Red upper limit = B_HK_B04D7B_LC_TYELO160= -1097 / BHKLCBLK4DM7B Yellow lower limit = B_HK_B04D7B_TYEHI160= 1000 / BHKLCBLK4DM7B Yellow upper limit = B_HK_B04D7B_TRDLO162= -1097 / BHKLCBLK5DM0A Red lower limit = B_HK_B05D0A_LC_TRDHI162= 1300 / BHKLCBLK5DM0A Red upper limit = B_HK_B05D0A_LC_TYELO162= -1097 / BHKLCBLK5DM0A Yellow lower limit = B_HK_B05D0A_TYEHI162= 1000 / BHKLCBLK5DM0A Yellow upper limit = B_HK_B05D0A_TRDLO164= -1097 / BHKLCBLK5DM0B Red lower limit = B_HK_B05D0B_LC_TRDHI164= 1300 / BHKLCBLK5DM0B Red upper limit = B_HK_B05D0B_LC_TYELO164= -1097 / BHKLCBLK5DM0B Yellow lower limit = B_HK_B05D0B_TYEHI164= 1000 / BHKLCBLK5DM0B Yellow upper limit = B_HK_B05D0B_TRDLO166= -1097 / BHKLCBLK5DM1A Red lower limit = B_HK_B05D1A_LC_TRDHI166= 1300 / BHKLCBLK5DM1A Red upper limit = B_HK_B05D1A_LC_TYELO166= -1097 / BHKLCBLK5DM1A Yellow lower limit = B_HK_B05D1A_TYEHI166= 1000 / BHKLCBLK5DM1A Yellow upper limit = B_HK_B05D1A_TRDLO168= -1097 / BHKLCBLK5DM1B Red lower limit = B_HK_B05D1B_LC_TRDHI168= 1300 / BHKLCBLK5DM1B Red upper limit = B_HK_B05D1B_LC_TYELO168= -1097 / BHKLCBLK5DM1B Yellow lower limit = B_HK_B05D1B_TYEHI168= 1000 / BHKLCBLK5DM1B Yellow upper limit = B_HK_B05D1B_TRDLO170= -1097 / BHKLCBLK5DM2A Red lower limit = B_HK_B05D2A_LC_TRDHI170= 1300 / BHKLCBLK5DM2A Red upper limit = B_HK_B05D2A_LC_TYELO170= -1097 / BHKLCBLK5DM2A Yellow lower limit = B_HK_B05D2A_TYEHI170= 1000 / BHKLCBLK5DM2A Yellow upper limit = B_HK_B05D2A_TRDLO172= -1097 / BHKLCBLK5DM2B Red lower limit = B_HK_B05D2B_LC_TRDHI172= 1300 / BHKLCBLK5DM2B Red upper limit = B_HK_B05D2B_LC_TYELO172= -1097 / BHKLCBLK5DM2B Yellow lower limit = B_HK_B05D2B_TYEHI172= 1000 / BHKLCBLK5DM2B Yellow upper limit = B_HK_B05D2B_TRDLO174= -1097 / BHKLCBLK5DM3A Red lower limit = B_HK_B05D3A_LC_TRDHI174= 1300 / BHKLCBLK5DM3A Red upper limit = B_HK_B05D3A_LC_TYELO174= -1097 / BHKLCBLK5DM3A Yellow lower limit = B_HK_B05D3A_TYEHI174= 1000 / BHKLCBLK5DM3A Yellow upper limit = B_HK_B05D3A_TRDLO176= -1097 / BHKLCBLK5DM3B Red lower limit = B_HK_B05D3B_LC_TRDHI176= 1300 / BHKLCBLK5DM3B Red upper limit = B_HK_B05D3B_LC_TYELO176= -1097 / BHKLCBLK5DM3B Yellow lower limit = B_HK_B05D3B_TYEHI176= 1000 / BHKLCBLK5DM3B Yellow upper limit = B_HK_B05D3B_TRDLO178= -1097 / BHKLCBLK5DM4A Red lower limit = B_HK_B05D4A_LC_TRDHI178= 1300 / BHKLCBLK5DM4A Red upper limit = B_HK_B05D4A_LC_TYELO178= -1097 / BHKLCBLK5DM4A Yellow lower limit = B_HK_B05D4A_TYEHI178= 1000 / BHKLCBLK5DM4A Yellow upper limit = B_HK_B05D4A_TRDLO180= -1097 / BHKLCBLK5DM4B Red lower limit = B_HK_B05D4B_LC_TRDHI180= 1300 / BHKLCBLK5DM4B Red upper limit = B_HK_B05D4B_LC_TYELO180= -1097 / BHKLCBLK5DM4B Yellow lower limit = B_HK_B05D4B_TYEHI180= 1000 / BHKLCBLK5DM4B Yellow upper limit = B_HK_B05D4B_TRDLO182= -1097 / BHKLCBLK5DM5A Red lower limit = B_HK_B05D5A_LC_TRDHI182= 1300 / BHKLCBLK5DM5A Red upper limit = B_HK_B05D5A_LC_TYELO182= -1097 / BHKLCBLK5DM5A Yellow lower limit = B_HK_B05D5A_TYEHI182= 1000 / BHKLCBLK5DM5A Yellow upper limit = B_HK_B05D5A_TRDLO184= -1097 / BHKLCBLK5DM5B Red lower limit = B_HK_B05D5B_LC_TRDHI184= 1300 / BHKLCBLK5DM5B Red upper limit = B_HK_B05D5B_LC_TYELO184= -1097 / BHKLCBLK5DM5B Yellow lower limit = B_HK_B05D5B_TYEHI184= 1000 / BHKLCBLK5DM5B Yellow upper limit = B_HK_B05D5B_TRDLO186= -1097 / BHKLCBLK5DM6A Red lower limit = B_HK_B05D6A_LC_TRDHI186= 1300 / BHKLCBLK5DM6A Red upper limit = B_HK_B05D6A_LC_TYELO186= -1097 / BHKLCBLK5DM6A Yellow lower limit = B_HK_B05D6A_TYEHI186= 1000 / BHKLCBLK5DM6A Yellow upper limit = B_HK_B05D6A_TRDLO188= -1097 / BHKLCBLK5DM6B Red lower limit = B_HK_B05D6B_LC_TRDHI188= 1300 / BHKLCBLK5DM6B Red upper limit = B_HK_B05D6B_LC_TYELO188= -1097 / BHKLCBLK5DM6B Yellow lower limit = B_HK_B05D6B_TYEHI188= 1000 / BHKLCBLK5DM6B Yellow upper limit = B_HK_B05D6B_TRDLO190= -1097 / BHKLCBLK5DM7A Red lower limit = B_HK_B05D7A_LC_TRDHI190= 1500 / BHKLCBLK5DM7A Red upper limit = B_HK_B05D7A_LC_TYELO190= -1097 / BHKLCBLK5DM7A Yellow lower limit = B_HK_B05D7A_TYEHI190= 1200 / BHKLCBLK5DM7A Yellow upper limit = B_HK_B05D7A_TRDLO192= -1097 / BHKLCBLK5DM7B Red lower limit = B_HK_B05D7B_LC_TRDHI192= 1300 / BHKLCBLK5DM7B Red upper limit = B_HK_B05D7B_LC_TYELO192= -1097 / BHKLCBLK5DM7B Yellow lower limit = B_HK_B05D7B_TYEHI192= 1000 / BHKLCBLK5DM7B Yellow upper limit = B_HK_B05D7B_HISTORY TASK: FAPPND on FILENAME: sw01185673000b173x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�`��v��{��/��g��p��c��F��g��6��U��8��O�X��#��n� ��P� ��x��>��Q�,��L��w��&��8�s�YA�F�pD��w��{��2��m��p��c��G��g��6��S��8��N�U��#��k��w�M�� w��>��P�+��L��x��+��7�gܯA�F�~��r��w��{�� 1��m��p��a��G��j��7��T��9��N�X��"��k� ��N�"��w��A��T�+��M��}�w��#��7�g�rA�F��v��{��5�1��q��q��b��H��l��7��T��8��N�V��#��n��L�$��x��?��V�+��L��|�w��"��8�vھA�F�� v��{��0��s��p��c��C��i��7��R��9��M�Y��"��l� ��~�M��w��A��S�+��M��|�w��+��8�b��A�F��w��{��5�/��x��p��b��I��j��7��S��9��M�X��#��o��|�L��w��@��W�,��M��x��$��6�c�?A�F�� w��{��B�0��x��p��b��I��g��6��U��9��N�W��#��h��L��x��=��U�,��J��}�x��$��7�e�A�F�ɥ�օ��w��{��0��y��q��b��F��g��7��V��9��N�S��"��k��M��x��?��U�+��K��}�w��)��{��7�eޱA�F�إ��w��{��/��|��q��c��K��i��6��V��9��N�Z��#��i��M�� x��C��T�+��M��~�x��!��6�k�'A�F��޾��v��{�� 2��~��q��a��K��j��6��V��9��N�Y��#��k��O��w��=��V�+��L��w��%��6�mޔA�F��w��{��1��q��b��F��j��7��U��9��N�Y��"��l� ��M��w��:��S�+��L��w��#��7�jڰA�F��a��w��|��.��~��p��b��H��h��7��V��8��O�X��#��l��w�P��x��;��T�+��K��w�� 5�k�A�F��X��w��{��/��q��b��G��h��8��U��9��O�Y��"��k� ��t�M��x��9�� R�+��K��x��$��8�i� A�F�#��h��w��{��6�.��~��p��b��I��h��8��U��9��O�Y��#��j� ��z�O��w��7��P�+��L��w��%��6�f��A�F�2��w��{��P�*��~��p��c��K��j��7��W��9��O�X��"��l��b�Q��w��<��S�+��L��w��&��6�l��A�F�A��w��{��1��|��p��c��F��g��8��X��9��N�Y��#��l��P��w��6��U�+��M��x��!��6�WٱA�F�P��j��w��|��0��p��d��I��f��8��W��8��N�W��#��k��L��x��5��V�+��M��~�v��)��6�b�2A�F�_�1��w��{��4�.��o��d��J��i��7��U��9��N�W��#��j� ��M��w��5��T�,��M��w��6�Q�{A�F�n��w��{��1��p��c��K��h��8��W��9��O�V��#��i��_�N�� x��9��S�,��L��w��"��6�]ܽA�F�}��j��v��{��/��p��c��K��g��7��X��9��O�V��#��k��L�� x��6��R�+��K��x�� 7�f�GA�F��a��v��|��0��}��o��c��E��i��7��U��9��N�Y��#��l��M�� w��3��U�+��M��w��%��~��8�kټA�F��w��{��1��}��o��c��I��f��8��V��9��O�Y��#��m��M��w��6��T�+��M��w��'��8�n��A�F��w��|��%�1��}��o��d��M��e��8��V��8��N�Z��"��o��M�� x��;��Q�+��M��w��(��8�g��A�F����w��{��4�4��}��o��c��I��g��8��T��9��O�W��"��k��M��w��3��U�+��M��w��(��8�s�yA�F�ȥ��w��{��1��|��p��c��O��e��7��U��9��O�V��#��m��L��w��5��S�,��L��w��$��9�p��A�F�ץ�j��v��{��8�1��|��p��c��I��h��8��V��9��N�V��#��n��|�O�$��w��5��R�+��M��x��9�l�>A�F�楦a��w��|��2��{��o��b��J��g��8��W��8��N�W��#��p� ��N��x��5��T�+��M��x��%��8�k�TA�F��w��|��3��z��p��c��G��e��7��U��9��O�W��#��l��N�� w��;��P�+��L��w��!��9�h�%A�F�� w��|��H�1��|��o��c��F��e��8��U��9��O�W��#��m��y�L��w��<��S�*��M��w��#��9�oۃA�F��g��v��|��0��|��o��c��F��i��8��W��9��N�T��#��l� ��K��x��<��T�+��K��~�x��8�k�WA�F�"�à��w��|��N�/��{��p��b��J��g��7��W��9��N�Y��#��k��P��w��<��R�+��L��w��#��8�cیA�F�1��a��w��|��/�� {��p��b��G��g��7��X��8��N�Y��#��m� ��R�� w��=��S�+��J��x�� 7�k܉A�F�@��w��|�� -��{��p��c��G��f��7��W��8��N�Z��#��k��O��x��=��T�+��L��w��"��8�`��A�F�O��X��w��{��)�/��{��o��b��F��e��8��V��9��N�Z��"��k��O��w��>��U�+��L��x��9�j�A�F�^� W��w��|��0��z��p��c��I��e��8��U��9��N�Z��"��l� ��L��x��9��S�+��L��~�w��9�j��A�F�m�*��w��{��-��p��c��C��h��7��V��9��N�X��"��l��N��w��9��S�+��N��w��8�b�UA�F�|�� w��|��/�.��p��c��I��j��8��V��9��O�W��#��m��N�� x��9��U�+��M��~�w�� 9�h��A�F��w��{��.��o��b��I��h��8��X��8��N�Y��#��n��K��x��=��R�,��L��w��$��7�e��A�F��w��{��+�.��|��p��c��O��i��9��W��9��N�W��$��l� ��K�� x��>��Q�*��N��w��%��9�j��A�F��w��|��/��|��o��b��I��h��9��W��8��O�W��#��l� ��N��x��;��T�+��N��x��+��:�c��A�F��^��w��|��3�0��z��n��c��M��d��9��W��8��O�X��#��l��N�� w��;��R�+��M��x��,��:�[�hA�F�Ǩ��w��|��+�0��o��b��L��f��7��T��9��O�Y��#��o��L��x��<��O�+��K��w��(��9�j��A�F�֥��w��|��t�/��o��c��J��f��8��U��9��N�X��"��n� ��y�J��w��=��T�+��L��x��-��8�\�|A�F��t��w��{��/��p��b��O��e��7��V��8��O�Z��#��k� ��M��w��=��T�+��M��w��'��7�i��A�F��w��{��0��o��b��M��d��8��V��9��O�W��#��m��M��w��:��R�+��L��w��#��8�f�A�F��w��|��2��o��b��K��e��7��U��9��O�X��#��l��P��w��A��V�+��L��w��&��:�i��A�F��w��|��.��o��b��L��e��7��V��9��O�X��#��j��N��w��@��T�+��L��x��&��7�[��A�F�!��A��w��{��1��o��b��G��b��7��U��9��N�Y��#��m��O��w��>��V�+��M��x��%�� 8�XܷA�F�0��I��v��|��0�/��o��c��N��e��8��U��9��N�X��#��m��Q��x��>��U�+��M��w��%��9�s��A�F�?��w��{��2��o��b��L��e��7��U��9��O�Y��#��l��R�"� �w��9��T�+��M��w��(��:�j�FA�F�N��v��|��1��p��c��T��d��8��T��9��N�W��#��l� ��h�P� ��w��<��T�+��K��w��&��7�uثA�F�]��w��{��?�0��o��b��K��e��8��S��9��N�V��"��m� ��P�!� �w��A��V�+��L��w��&��7�dܚA�F�l��D��w��{��d�0��o��b��N��e��7��U��9��N�W��"��n� ��~�M�$��w��:��T�+��J��w��7�t��A�F�{�t��v��{��,�0��o��b��L��d��7��V��:��N�X��"��m� ��L�$� �w��<��S�+��L��x��)��9�r�A�F��j��v��|��0��o��c��P��d��7��W��9��N�X��"��k� ��]�P�&��w��>��T�+��L��w��&��5�v�+A�F��5煡��w��{��5�/��p��b��R��d��6��V��9��M�W��#��j��R� ��x��<��V�*��L��w��#��8�o�5A�F��v��|��0��o��b��H��f��6��S��9��N�W��"��k��Q� ��x��>��V�*��K��x��&��6�Q�PA�F��v��{��2��o��b��J��d��7��W��9��N�X��"��o��Q�� w��?��S�*��J��y��7�o�CA�F�ƪ��w��{��1��n��b��I��d��7��V��7��N�X��"��n��N��w��;��T�*��K��}��7�`ܟA�F�լ��w��{��1��o��b��I��e��6��V��8��N�W��!��k� ��O��w��:��S�)��J��z�� :�pڠA�F�䥦a��v��{��2��n��b��J��e��7��V��8��M�W��"��k��N�� w��@��P�+��K��{��!��7�g�6A�F��6ㅥ��v��{��;�/��n��a��C��d��7��W��8��N�W��#��j� ��O�!� �w��A��S�*��K��{�� 8�_ڎA�F��6��w��{��;�2��n��b��I��g��7��V��8��M�V��"��j��t�Q�&��w��=��O�+��K��{��#��7�e��A�F��4��w��{�� 1��o��a��H��c��7��V��8��N�U��"��k��V� � �w��9��S�+��K��{�� 7�l��A�F� ��@��v��{��0��n��a��F��g��6��V��8��N�U��"��k��w�Z�"��w��A��Q�*��I��{��$��9�r��A�F�/�q��v��{��1��n��`��G��d��7��W��8��N�U��"��h��Y�� w��E��R�+��K��z��8�X� A�F�>��w��{��1��m��a��H��f��6��U��8��M�V��"��k��N�"� �w��F��S�+��L��x��7�q�jA�F�M�\��w��{��1��n��`��I��f��8��T��8��M�V��"��i��}�M�)��w��@��R�+��L��x��8�h��A�F�\��U��v��z��*�0��o��a��J��e��7��T��8��L�U��"��k��}�J�&��w��?��T�*��K��x��7�g�A�F�k��w��{��0��m��a��I��f��7��T��9��L�V��"��f��K�$� �w��?��Q�*��K��w��7�SڙA�F�z�� v��{��N�.��l��a��O��g��8��U��8��M�W��"��h��P�� w��F��W�*��L��w��4�X��A�F��v��{��[�0��l��b��H��d��7��U��8��M�V��#��i��{�N�� w��L��R�*��J��}�w��9�a��A�F��>��v��{��1�-��l��b��K��i��7��S��8��M�T��#��m��~�N�"��w��G��Q�+��K��w�� 6�e�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKLCBLK6DM0A' / Block 6, DM 0, Side A Leakage Current TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL2 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT2 = 'nA ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKLCBLK6DM0B' / Block 6, DM 0, Side B Leakage Current TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL4 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT4 = 'nA ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKLCBLK6DM1A' / Block 6, DM 1, Side A Leakage Current TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL6 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT6 = 'nA ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKLCBLK6DM1B' / Block 6, DM 1, Side B Leakage Current TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL8 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT8 = 'nA ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKLCBLK6DM2A' / Block 6, DM 2, Side A Leakage Current TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL10 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT10 = 'nA ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKLCBLK6DM2B' / Block 6, DM 2, Side B Leakage Current TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL12 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT12 = 'nA ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKLCBLK6DM3A' / Block 6, DM 3, Side A Leakage Current TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL14 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT14 = 'nA ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKLCBLK6DM3B' / Block 6, DM 3, Side B Leakage Current TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL16 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT16 = 'nA ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKLCBLK6DM4A' / Block 6, DM 4, Side A Leakage Current TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL18 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT18 = 'nA ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKLCBLK6DM4B' / Block 6, DM 4, Side B Leakage Current TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL20 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT20 = 'nA ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKLCBLK6DM5A' / Block 6, DM 5, Side A Leakage Current TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL22 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT22 = 'nA ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKLCBLK6DM5B' / Block 6, DM 5, Side B Leakage Current TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL24 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT24 = 'nA ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKLCBLK6DM6A' / Block 6, DM 6, Side A Leakage Current TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL26 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT26 = 'nA ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKLCBLK6DM6B' / Block 6, DM 6, Side B Leakage Current TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL28 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT28 = 'nA ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKLCBLK6DM7A' / Block 6, DM 7, Side A Leakage Current TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL30 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT30 = 'nA ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKLCBLK6DM7B' / Block 6, DM 7, Side B Leakage Current TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL32 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT32 = 'nA ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKLCBLK7DM0A' / Block 7, DM 0, Side A Leakage Current TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL34 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT34 = 'nA ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKLCBLK7DM0B' / Block 7, DM 0, Side B Leakage Current TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL36 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT36 = 'nA ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKLCBLK7DM1A' / Block 7, DM 1, Side A Leakage Current TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL38 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT38 = 'nA ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKLCBLK7DM1B' / Block 7, DM 1, Side B Leakage Current TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL40 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT40 = 'nA ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKLCBLK7DM2A' / Block 7, DM 2, Side A Leakage Current TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL42 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT42 = 'nA ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKLCBLK7DM2B' / Block 7, DM 2, Side B Leakage Current TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL44 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT44 = 'nA ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKLCBLK7DM3A' / Block 7, DM 3, Side A Leakage Current TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL46 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT46 = 'nA ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKLCBLK7DM3B' / Block 7, DM 3, Side B Leakage Current TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL48 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT48 = 'nA ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKLCBLK7DM4A' / Block 7, DM 4, Side A Leakage Current TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL50 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT50 = 'nA ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKLCBLK7DM4B' / Block 7, DM 4, Side B Leakage Current TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL52 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT52 = 'nA ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKLCBLK7DM5A' / Block 7, DM 5, Side A Leakage Current TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL54 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT54 = 'nA ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKLCBLK7DM5B' / Block 7, DM 5, Side B Leakage Current TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL56 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT56 = 'nA ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKLCBLK7DM6A' / Block 7, DM 6, Side A Leakage Current TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL58 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT58 = 'nA ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKLCBLK7DM6B' / Block 7, DM 6, Side B Leakage Current TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL60 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT60 = 'nA ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKLCBLK7DM7A' / Block 7, DM 7, Side A Leakage Current TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL62 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT62 = 'nA ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKLCBLK7DM7B' / Block 7, DM 7, Side B Leakage Current TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL64 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT64 = 'nA ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKLCBLK8DM0A' / Block 8, DM 0, Side A Leakage Current TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL66 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT66 = 'nA ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKLCBLK8DM0B' / Block 8, DM 0, Side B Leakage Current TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL68 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT68 = 'nA ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKLCBLK8DM1A' / Block 8, DM 1, Side A Leakage Current TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL70 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT70 = 'nA ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKLCBLK8DM1B' / Block 8, DM 1, Side B Leakage Current TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL72 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT72 = 'nA ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKLCBLK8DM2A' / Block 8, DM 2, Side A Leakage Current TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL74 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT74 = 'nA ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKLCBLK8DM2B' / Block 8, DM 2, Side B Leakage Current TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL76 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT76 = 'nA ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKLCBLK8DM3A' / Block 8, DM 3, Side A Leakage Current TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL78 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT78 = 'nA ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKLCBLK8DM3B' / Block 8, DM 3, Side B Leakage Current TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL80 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT80 = 'nA ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKLCBLK8DM4A' / Block 8, DM 4, Side A Leakage Current TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL82 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT82 = 'nA ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKLCBLK8DM4B' / Block 8, DM 4, Side B Leakage Current TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL84 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT84 = 'nA ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKLCBLK8DM5A' / Block 8, DM 5, Side A Leakage Current TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL86 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT86 = 'nA ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKLCBLK8DM5B' / Block 8, DM 5, Side B Leakage Current TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL88 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT88 = 'nA ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKLCBLK8DM6A' / Block 8, DM 6, Side A Leakage Current TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL90 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT90 = 'nA ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKLCBLK8DM6B' / Block 8, DM 6, Side B Leakage Current TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL92 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT92 = 'nA ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKLCBLK8DM7A' / Block 8, DM 7, Side A Leakage Current TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL94 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT94 = 'nA ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKLCBLK8DM7B' / Block 8, DM 7, Side B Leakage Current TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL96 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT96 = 'nA ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKLCBLK9DM0A' / Block 9, DM 0, Side A Leakage Current TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL98 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT98 = 'nA ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKLCBLK9DM0B' / Block 9, DM 0, Side B Leakage Current TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL100= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT100= 'nA ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKLCBLK9DM1A' / Block 9, DM 1, Side A Leakage Current TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL102= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT102= 'nA ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKLCBLK9DM1B' / Block 9, DM 1, Side B Leakage Current TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL104= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT104= 'nA ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKLCBLK9DM2A' / Block 9, DM 2, Side A Leakage Current TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL106= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT106= 'nA ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKLCBLK9DM2B' / Block 9, DM 2, Side B Leakage Current TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL108= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT108= 'nA ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKLCBLK9DM3A' / Block 9, DM 3, Side A Leakage Current TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL110= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT110= 'nA ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKLCBLK9DM3B' / Block 9, DM 3, Side B Leakage Current TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL112= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT112= 'nA ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKLCBLK9DM4A' / Block 9, DM 4, Side A Leakage Current TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL114= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT114= 'nA ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKLCBLK9DM4B' / Block 9, DM 4, Side B Leakage Current TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL116= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT116= 'nA ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKLCBLK9DM5A' / Block 9, DM 5, Side A Leakage Current TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL118= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT118= 'nA ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKLCBLK9DM5B' / Block 9, DM 5, Side B Leakage Current TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL120= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT120= 'nA ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKLCBLK9DM6A' / Block 9, DM 6, Side A Leakage Current TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL122= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT122= 'nA ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKLCBLK9DM6B' / Block 9, DM 6, Side B Leakage Current TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL124= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT124= 'nA ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKLCBLK9DM7A' / Block 9, DM 7, Side A Leakage Current TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL126= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT126= 'nA ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKLCBLK9DM7B' / Block 9, DM 7, Side B Leakage Current TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL128= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT128= 'nA ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKLCBLK10DM0A' / Block 10, DM 0, Side A Leakage Current TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL130= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT130= 'nA ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKLCBLK10DM0B' / Block 10, DM 0, Side B Leakage Current TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL132= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT132= 'nA ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKLCBLK10DM1A' / Block 10, DM 1, Side A Leakage Current TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL134= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT134= 'nA ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKLCBLK10DM1B' / Block 10, DM 1, Side B Leakage Current TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL136= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT136= 'nA ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKLCBLK10DM2A' / Block 10, DM 2, Side A Leakage Current TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL138= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT138= 'nA ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKLCBLK10DM2B' / Block 10, DM 2, Side B Leakage Current TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL140= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT140= 'nA ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKLCBLK10DM3A' / Block 10, DM 3, Side A Leakage Current TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL142= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT142= 'nA ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKLCBLK10DM3B' / Block 10, DM 3, Side B Leakage Current TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL144= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT144= 'nA ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKLCBLK10DM4A' / Block 10, DM 4, Side A Leakage Current TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL146= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT146= 'nA ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKLCBLK10DM4B' / Block 10, DM 4, Side B Leakage Current TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL148= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT148= 'nA ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKLCBLK10DM5A' / Block 10, DM 5, Side A Leakage Current TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL150= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT150= 'nA ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKLCBLK10DM5B' / Block 10, DM 5, Side B Leakage Current TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL152= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT152= 'nA ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKLCBLK10DM6A' / Block 10, DM 6, Side A Leakage Current TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL154= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT154= 'nA ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKLCBLK10DM6B' / Block 10, DM 6, Side B Leakage Current TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL156= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT156= 'nA ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKLCBLK10DM7A' / Block 10, DM 7, Side A Leakage Current TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL158= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT158= 'nA ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKLCBLK10DM7B' / Block 10, DM 7, Side B Leakage Current TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL160= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT160= 'nA ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKLCSPARE4' / Leakage Current Packets Spare Word 4 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk174x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894081.29586 TSTOP = 713896241.35152 DATE-OBS= '2023-08-16T15:54:36' DATE-END= '2023-08-16T16:30:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2160.05565989017 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 372 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'GZMNGWMNGWMNGWMN' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '4199319423' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -1097 / BHKLCBLK6DM0A Red lower limit = B_HK_B06D0A_LC_TRDHI2 = 1300 / BHKLCBLK6DM0A Red upper limit = B_HK_B06D0A_LC_TYELO2 = -1097 / BHKLCBLK6DM0A Yellow lower limit = B_HK_B06D0A_TYEHI2 = 1000 / BHKLCBLK6DM0A Yellow upper limit = B_HK_B06D0A_TRDLO4 = -1097 / BHKLCBLK6DM0B Red lower limit = B_HK_B06D0B_LC_TRDHI4 = 1300 / BHKLCBLK6DM0B Red upper limit = B_HK_B06D0B_LC_TYELO4 = -1097 / BHKLCBLK6DM0B Yellow lower limit = B_HK_B06D0B_TYEHI4 = 1000 / BHKLCBLK6DM0B Yellow upper limit = B_HK_B06D0B_TRDLO6 = -1097 / BHKLCBLK6DM1A Red lower limit = B_HK_B06D1A_LC_TRDHI6 = 1300 / BHKLCBLK6DM1A Red upper limit = B_HK_B06D1A_LC_TYELO6 = -1097 / BHKLCBLK6DM1A Yellow lower limit = B_HK_B06D1A_TYEHI6 = 1000 / BHKLCBLK6DM1A Yellow upper limit = B_HK_B06D1A_TRDLO8 = -1097 / BHKLCBLK6DM1B Red lower limit = B_HK_B06D1B_LC_TRDHI8 = 1300 / BHKLCBLK6DM1B Red upper limit = B_HK_B06D1B_LC_TYELO8 = -1097 / BHKLCBLK6DM1B Yellow lower limit = B_HK_B06D1B_TYEHI8 = 1000 / BHKLCBLK6DM1B Yellow upper limit = B_HK_B06D1B_TRDLO10 = -1097 / BHKLCBLK6DM2A Red lower limit = B_HK_B06D2A_LC_TRDHI10 = 1300 / BHKLCBLK6DM2A Red upper limit = B_HK_B06D2A_LC_TYELO10 = -1097 / BHKLCBLK6DM2A Yellow lower limit = B_HK_B06D2A_TYEHI10 = 1000 / BHKLCBLK6DM2A Yellow upper limit = B_HK_B06D2A_TRDLO12 = -1097 / BHKLCBLK6DM2B Red lower limit = B_HK_B06D2B_LC_TRDHI12 = 1300 / BHKLCBLK6DM2B Red upper limit = B_HK_B06D2B_LC_TYELO12 = -1097 / BHKLCBLK6DM2B Yellow lower limit = B_HK_B06D2B_TYEHI12 = 1000 / BHKLCBLK6DM2B Yellow upper limit = B_HK_B06D2B_TRDLO14 = -1097 / BHKLCBLK6DM3A Red lower limit = B_HK_B06D3A_LC_TRDHI14 = 1300 / BHKLCBLK6DM3A Red upper limit = B_HK_B06D3A_LC_TYELO14 = -1097 / BHKLCBLK6DM3A Yellow lower limit = B_HK_B06D3A_TYEHI14 = 1000 / BHKLCBLK6DM3A Yellow upper limit = B_HK_B06D3A_TRDLO16 = -1097 / BHKLCBLK6DM3B Red lower limit = B_HK_B06D3B_LC_TRDHI16 = 1300 / BHKLCBLK6DM3B Red upper limit = B_HK_B06D3B_LC_TYELO16 = -1097 / BHKLCBLK6DM3B Yellow lower limit = B_HK_B06D3B_TYEHI16 = 1000 / BHKLCBLK6DM3B Yellow upper limit = B_HK_B06D3B_TRDLO18 = -1097 / BHKLCBLK6DM4A Red lower limit = B_HK_B06D4A_LC_TRDHI18 = 1300 / BHKLCBLK6DM4A Red upper limit = B_HK_B06D4A_LC_TYELO18 = -1097 / BHKLCBLK6DM4A Yellow lower limit = B_HK_B06D4A_TYEHI18 = 1000 / BHKLCBLK6DM4A Yellow upper limit = B_HK_B06D4A_TRDLO20 = -1097 / BHKLCBLK6DM4B Red lower limit = B_HK_B06D4B_LC_TRDHI20 = 1300 / BHKLCBLK6DM4B Red upper limit = B_HK_B06D4B_LC_TYELO20 = -1097 / BHKLCBLK6DM4B Yellow lower limit = B_HK_B06D4B_TYEHI20 = 1000 / BHKLCBLK6DM4B Yellow upper limit = B_HK_B06D4B_TRDLO22 = -1097 / BHKLCBLK6DM5A Red lower limit = B_HK_B06D5A_LC_TRDHI22 = 1300 / BHKLCBLK6DM5A Red upper limit = B_HK_B06D5A_LC_TYELO22 = -1097 / BHKLCBLK6DM5A Yellow lower limit = B_HK_B06D5A_TYEHI22 = 1000 / BHKLCBLK6DM5A Yellow upper limit = B_HK_B06D5A_TRDLO24 = -1097 / BHKLCBLK6DM5B Red lower limit = B_HK_B06D5B_LC_TRDHI24 = 1300 / BHKLCBLK6DM5B Red upper limit = B_HK_B06D5B_LC_TYELO24 = -1097 / BHKLCBLK6DM5B Yellow lower limit = B_HK_B06D5B_TYEHI24 = 1000 / BHKLCBLK6DM5B Yellow upper limit = B_HK_B06D5B_TRDLO26 = -1097 / BHKLCBLK6DM6A Red lower limit = B_HK_B06D6A_LC_TRDHI26 = 1300 / BHKLCBLK6DM6A Red upper limit = B_HK_B06D6A_LC_TYELO26 = -1097 / BHKLCBLK6DM6A Yellow lower limit = B_HK_B06D6A_TYEHI26 = 1000 / BHKLCBLK6DM6A Yellow upper limit = B_HK_B06D6A_TRDLO28 = -1097 / BHKLCBLK6DM6B Red lower limit = B_HK_B06D6B_LC_TRDHI28 = 1300 / BHKLCBLK6DM6B Red upper limit = B_HK_B06D6B_LC_TYELO28 = -1097 / BHKLCBLK6DM6B Yellow lower limit = B_HK_B06D6B_TYEHI28 = 1000 / BHKLCBLK6DM6B Yellow upper limit = B_HK_B06D6B_TRDLO30 = -1097 / BHKLCBLK6DM7A Red lower limit = B_HK_B06D7A_LC_TRDHI30 = 1300 / BHKLCBLK6DM7A Red upper limit = B_HK_B06D7A_LC_TYELO30 = -1097 / BHKLCBLK6DM7A Yellow lower limit = B_HK_B06D7A_TYEHI30 = 1000 / BHKLCBLK6DM7A Yellow upper limit = B_HK_B06D7A_TRDLO32 = -1097 / BHKLCBLK6DM7B Red lower limit = B_HK_B06D7B_LC_TRDHI32 = 1300 / BHKLCBLK6DM7B Red upper limit = B_HK_B06D7B_LC_TYELO32 = -1097 / BHKLCBLK6DM7B Yellow lower limit = B_HK_B06D7B_TYEHI32 = 1000 / BHKLCBLK6DM7B Yellow upper limit = B_HK_B06D7B_TRDLO34 = -1097 / BHKLCBLK7DM0A Red lower limit = B_HK_B07D0A_LC_TRDHI34 = 1300 / BHKLCBLK7DM0A Red upper limit = B_HK_B07D0A_LC_TYELO34 = -1097 / BHKLCBLK7DM0A Yellow lower limit = B_HK_B07D0A_TYEHI34 = 1000 / BHKLCBLK7DM0A Yellow upper limit = B_HK_B07D0A_TRDLO36 = -1097 / BHKLCBLK7DM0B Red lower limit = B_HK_B07D0B_LC_TRDHI36 = 1300 / BHKLCBLK7DM0B Red upper limit = B_HK_B07D0B_LC_TYELO36 = -1097 / BHKLCBLK7DM0B Yellow lower limit = B_HK_B07D0B_TYEHI36 = 1000 / BHKLCBLK7DM0B Yellow upper limit = B_HK_B07D0B_TRDLO38 = -1097 / BHKLCBLK7DM1A Red lower limit = B_HK_B07D1A_LC_TRDHI38 = 1300 / BHKLCBLK7DM1A Red upper limit = B_HK_B07D1A_LC_TYELO38 = -1097 / BHKLCBLK7DM1A Yellow lower limit = B_HK_B07D1A_TYEHI38 = 1000 / BHKLCBLK7DM1A Yellow upper limit = B_HK_B07D1A_TRDLO40 = -1097 / BHKLCBLK7DM1B Red lower limit = B_HK_B07D1B_LC_TRDHI40 = 1300 / BHKLCBLK7DM1B Red upper limit = B_HK_B07D1B_LC_TYELO40 = -1097 / BHKLCBLK7DM1B Yellow lower limit = B_HK_B07D1B_TYEHI40 = 1000 / BHKLCBLK7DM1B Yellow upper limit = B_HK_B07D1B_TRDLO42 = -1097 / BHKLCBLK7DM2A Red lower limit = B_HK_B07D2A_LC_TRDHI42 = 1300 / BHKLCBLK7DM2A Red upper limit = B_HK_B07D2A_LC_TYELO42 = -1097 / BHKLCBLK7DM2A Yellow lower limit = B_HK_B07D2A_TYEHI42 = 1000 / BHKLCBLK7DM2A Yellow upper limit = B_HK_B07D2A_TRDLO44 = -1097 / BHKLCBLK7DM2B Red lower limit = B_HK_B07D2B_LC_TRDHI44 = 1300 / BHKLCBLK7DM2B Red upper limit = B_HK_B07D2B_LC_TYELO44 = -1097 / BHKLCBLK7DM2B Yellow lower limit = B_HK_B07D2B_TYEHI44 = 1000 / BHKLCBLK7DM2B Yellow upper limit = B_HK_B07D2B_TRDLO46 = -1097 / BHKLCBLK7DM3A Red lower limit = B_HK_B07D3A_LC_TRDHI46 = 1300 / BHKLCBLK7DM3A Red upper limit = B_HK_B07D3A_LC_TYELO46 = -1097 / BHKLCBLK7DM3A Yellow lower limit = B_HK_B07D3A_TYEHI46 = 1000 / BHKLCBLK7DM3A Yellow upper limit = B_HK_B07D3A_TRDLO48 = -1097 / BHKLCBLK7DM3B Red lower limit = B_HK_B07D3B_LC_TRDHI48 = 1300 / BHKLCBLK7DM3B Red upper limit = B_HK_B07D3B_LC_TYELO48 = -1097 / BHKLCBLK7DM3B Yellow lower limit = B_HK_B07D3B_TYEHI48 = 1000 / BHKLCBLK7DM3B Yellow upper limit = B_HK_B07D3B_TRDLO50 = -1097 / BHKLCBLK7DM4A Red lower limit = B_HK_B07D4A_LC_TRDHI50 = 1300 / BHKLCBLK7DM4A Red upper limit = B_HK_B07D4A_LC_TYELO50 = -1097 / BHKLCBLK7DM4A Yellow lower limit = B_HK_B07D4A_TYEHI50 = 1000 / BHKLCBLK7DM4A Yellow upper limit = B_HK_B07D4A_TRDLO52 = -1097 / BHKLCBLK7DM4B Red lower limit = B_HK_B07D4B_LC_TRDHI52 = 1300 / BHKLCBLK7DM4B Red upper limit = B_HK_B07D4B_LC_TYELO52 = -1097 / BHKLCBLK7DM4B Yellow lower limit = B_HK_B07D4B_TYEHI52 = 1000 / BHKLCBLK7DM4B Yellow upper limit = B_HK_B07D4B_TRDLO54 = -1097 / BHKLCBLK7DM5A Red lower limit = B_HK_B07D5A_LC_TRDHI54 = 1300 / BHKLCBLK7DM5A Red upper limit = B_HK_B07D5A_LC_TYELO54 = -1097 / BHKLCBLK7DM5A Yellow lower limit = B_HK_B07D5A_TYEHI54 = 1000 / BHKLCBLK7DM5A Yellow upper limit = B_HK_B07D5A_TRDLO56 = -1097 / BHKLCBLK7DM5B Red lower limit = B_HK_B07D5B_LC_TRDHI56 = 1300 / BHKLCBLK7DM5B Red upper limit = B_HK_B07D5B_LC_TYELO56 = -1097 / BHKLCBLK7DM5B Yellow lower limit = B_HK_B07D5B_TYEHI56 = 1000 / BHKLCBLK7DM5B Yellow upper limit = B_HK_B07D5B_TRDLO58 = -1097 / BHKLCBLK7DM6A Red lower limit = B_HK_B07D6A_LC_TRDHI58 = 1300 / BHKLCBLK7DM6A Red upper limit = B_HK_B07D6A_LC_TYELO58 = -1097 / BHKLCBLK7DM6A Yellow lower limit = B_HK_B07D6A_TYEHI58 = 1000 / BHKLCBLK7DM6A Yellow upper limit = B_HK_B07D6A_TRDLO60 = -1097 / BHKLCBLK7DM6B Red lower limit = B_HK_B07D6B_LC_TRDHI60 = 1300 / BHKLCBLK7DM6B Red upper limit = B_HK_B07D6B_LC_TYELO60 = -1097 / BHKLCBLK7DM6B Yellow lower limit = B_HK_B07D6B_TYEHI60 = 1000 / BHKLCBLK7DM6B Yellow upper limit = B_HK_B07D6B_TRDLO62 = -1097 / BHKLCBLK7DM7A Red lower limit = B_HK_B07D7A_LC_TRDHI62 = 1300 / BHKLCBLK7DM7A Red upper limit = B_HK_B07D7A_LC_TYELO62 = -1097 / BHKLCBLK7DM7A Yellow lower limit = B_HK_B07D7A_TYEHI62 = 1000 / BHKLCBLK7DM7A Yellow upper limit = B_HK_B07D7A_TRDLO64 = -1097 / BHKLCBLK7DM7B Red lower limit = B_HK_B07D7B_LC_TRDHI64 = 1300 / BHKLCBLK7DM7B Red upper limit = B_HK_B07D7B_LC_TYELO64 = -1097 / BHKLCBLK7DM7B Yellow lower limit = B_HK_B07D7B_TYEHI64 = 1000 / BHKLCBLK7DM7B Yellow upper limit = B_HK_B07D7B_TRDLO66 = -1097 / BHKLCBLK8DM0A Red lower limit = B_HK_B08D0A_LC_TRDHI66 = 1300 / BHKLCBLK8DM0A Red upper limit = B_HK_B08D0A_LC_TYELO66 = -1097 / BHKLCBLK8DM0A Yellow lower limit = B_HK_B08D0A_TYEHI66 = 1000 / BHKLCBLK8DM0A Yellow upper limit = B_HK_B08D0A_TRDLO68 = -1097 / BHKLCBLK8DM0B Red lower limit = B_HK_B08D0B_LC_TRDHI68 = 1300 / BHKLCBLK8DM0B Red upper limit = B_HK_B08D0B_LC_TYELO68 = -1097 / BHKLCBLK8DM0B Yellow lower limit = B_HK_B08D0B_TYEHI68 = 1000 / BHKLCBLK8DM0B Yellow upper limit = B_HK_B08D0B_TRDLO70 = -1097 / BHKLCBLK8DM1A Red lower limit = B_HK_B08D1A_LC_TRDHI70 = 1300 / BHKLCBLK8DM1A Red upper limit = B_HK_B08D1A_LC_TYELO70 = -1097 / BHKLCBLK8DM1A Yellow lower limit = B_HK_B08D1A_TYEHI70 = 1000 / BHKLCBLK8DM1A Yellow upper limit = B_HK_B08D1A_TRDLO72 = -1097 / BHKLCBLK8DM1B Red lower limit = B_HK_B08D1B_LC_TRDHI72 = 1300 / BHKLCBLK8DM1B Red upper limit = B_HK_B08D1B_LC_TYELO72 = -1097 / BHKLCBLK8DM1B Yellow lower limit = B_HK_B08D1B_TYEHI72 = 1000 / BHKLCBLK8DM1B Yellow upper limit = B_HK_B08D1B_TRDLO74 = -1097 / BHKLCBLK8DM2A Red lower limit = B_HK_B08D2A_LC_TRDHI74 = 1300 / BHKLCBLK8DM2A Red upper limit = B_HK_B08D2A_LC_TYELO74 = -1097 / BHKLCBLK8DM2A Yellow lower limit = B_HK_B08D2A_TYEHI74 = 1000 / BHKLCBLK8DM2A Yellow upper limit = B_HK_B08D2A_TRDLO76 = -1097 / BHKLCBLK8DM2B Red lower limit = B_HK_B08D2B_LC_TRDHI76 = 1300 / BHKLCBLK8DM2B Red upper limit = B_HK_B08D2B_LC_TYELO76 = -1097 / BHKLCBLK8DM2B Yellow lower limit = B_HK_B08D2B_TYEHI76 = 1000 / BHKLCBLK8DM2B Yellow upper limit = B_HK_B08D2B_TRDLO78 = -1097 / BHKLCBLK8DM3A Red lower limit = B_HK_B08D3A_LC_TRDHI78 = 1300 / BHKLCBLK8DM3A Red upper limit = B_HK_B08D3A_LC_TYELO78 = -1097 / BHKLCBLK8DM3A Yellow lower limit = B_HK_B08D3A_TYEHI78 = 1000 / BHKLCBLK8DM3A Yellow upper limit = B_HK_B08D3A_TRDLO80 = -1097 / BHKLCBLK8DM3B Red lower limit = B_HK_B08D3B_LC_TRDHI80 = 1300 / BHKLCBLK8DM3B Red upper limit = B_HK_B08D3B_LC_TYELO80 = -1097 / BHKLCBLK8DM3B Yellow lower limit = B_HK_B08D3B_TYEHI80 = 1000 / BHKLCBLK8DM3B Yellow upper limit = B_HK_B08D3B_TRDLO82 = -1097 / BHKLCBLK8DM4A Red lower limit = B_HK_B08D4A_LC_TRDHI82 = 1300 / BHKLCBLK8DM4A Red upper limit = B_HK_B08D4A_LC_TYELO82 = -1097 / BHKLCBLK8DM4A Yellow lower limit = B_HK_B08D4A_TYEHI82 = 1000 / BHKLCBLK8DM4A Yellow upper limit = B_HK_B08D4A_TRDLO84 = -1097 / BHKLCBLK8DM4B Red lower limit = B_HK_B08D4B_LC_TRDHI84 = 1300 / BHKLCBLK8DM4B Red upper limit = B_HK_B08D4B_LC_TYELO84 = -1097 / BHKLCBLK8DM4B Yellow lower limit = B_HK_B08D4B_TYEHI84 = 1000 / BHKLCBLK8DM4B Yellow upper limit = B_HK_B08D4B_TRDLO86 = -1097 / BHKLCBLK8DM5A Red lower limit = B_HK_B08D5A_LC_TRDHI86 = 1300 / BHKLCBLK8DM5A Red upper limit = B_HK_B08D5A_LC_TYELO86 = -1097 / BHKLCBLK8DM5A Yellow lower limit = B_HK_B08D5A_TYEHI86 = 1000 / BHKLCBLK8DM5A Yellow upper limit = B_HK_B08D5A_TRDLO88 = -1097 / BHKLCBLK8DM5B Red lower limit = B_HK_B08D5B_LC_TRDHI88 = 1300 / BHKLCBLK8DM5B Red upper limit = B_HK_B08D5B_LC_TYELO88 = -1097 / BHKLCBLK8DM5B Yellow lower limit = B_HK_B08D5B_TYEHI88 = 1000 / BHKLCBLK8DM5B Yellow upper limit = B_HK_B08D5B_TRDLO90 = -1097 / BHKLCBLK8DM6A Red lower limit = B_HK_B08D6A_LC_TRDHI90 = 1300 / BHKLCBLK8DM6A Red upper limit = B_HK_B08D6A_LC_TYELO90 = -1097 / BHKLCBLK8DM6A Yellow lower limit = B_HK_B08D6A_TYEHI90 = 1000 / BHKLCBLK8DM6A Yellow upper limit = B_HK_B08D6A_TRDLO92 = -1097 / BHKLCBLK8DM6B Red lower limit = B_HK_B08D6B_LC_TRDHI92 = 1300 / BHKLCBLK8DM6B Red upper limit = B_HK_B08D6B_LC_TYELO92 = -1097 / BHKLCBLK8DM6B Yellow lower limit = B_HK_B08D6B_TYEHI92 = 1000 / BHKLCBLK8DM6B Yellow upper limit = B_HK_B08D6B_TRDLO94 = -1097 / BHKLCBLK8DM7A Red lower limit = B_HK_B08D7A_LC_TRDHI94 = 1300 / BHKLCBLK8DM7A Red upper limit = B_HK_B08D7A_LC_TYELO94 = -1097 / BHKLCBLK8DM7A Yellow lower limit = B_HK_B08D7A_TYEHI94 = 1000 / BHKLCBLK8DM7A Yellow upper limit = B_HK_B08D7A_TRDLO96 = -1097 / BHKLCBLK8DM7B Red lower limit = B_HK_B08D7B_LC_TRDHI96 = 1300 / BHKLCBLK8DM7B Red upper limit = B_HK_B08D7B_LC_TYELO96 = -1097 / BHKLCBLK8DM7B Yellow lower limit = B_HK_B08D7B_TYEHI96 = 1000 / BHKLCBLK8DM7B Yellow upper limit = B_HK_B08D7B_TRDLO98 = -1097 / BHKLCBLK9DM0A Red lower limit = B_HK_B09D0A_LC_TRDHI98 = 1300 / BHKLCBLK9DM0A Red upper limit = B_HK_B09D0A_LC_TYELO98 = -1097 / BHKLCBLK9DM0A Yellow lower limit = B_HK_B09D0A_TYEHI98 = 1000 / BHKLCBLK9DM0A Yellow upper limit = B_HK_B09D0A_TRDLO100= -1097 / BHKLCBLK9DM0B Red lower limit = B_HK_B09D0B_LC_TRDHI100= 1300 / BHKLCBLK9DM0B Red upper limit = B_HK_B09D0B_LC_TYELO100= -1097 / BHKLCBLK9DM0B Yellow lower limit = B_HK_B09D0B_TYEHI100= 1000 / BHKLCBLK9DM0B Yellow upper limit = B_HK_B09D0B_TRDLO102= -1097 / BHKLCBLK9DM1A Red lower limit = B_HK_B09D1A_LC_TRDHI102= 1300 / BHKLCBLK9DM1A Red upper limit = B_HK_B09D1A_LC_TYELO102= -1097 / BHKLCBLK9DM1A Yellow lower limit = B_HK_B09D1A_TYEHI102= 1000 / BHKLCBLK9DM1A Yellow upper limit = B_HK_B09D1A_TRDLO104= -1097 / BHKLCBLK9DM1B Red lower limit = B_HK_B09D1B_LC_TRDHI104= 1300 / BHKLCBLK9DM1B Red upper limit = B_HK_B09D1B_LC_TYELO104= -1097 / BHKLCBLK9DM1B Yellow lower limit = B_HK_B09D1B_TYEHI104= 1000 / BHKLCBLK9DM1B Yellow upper limit = B_HK_B09D1B_TRDLO106= -1097 / BHKLCBLK9DM2A Red lower limit = B_HK_B09D2A_LC_TRDHI106= 1300 / BHKLCBLK9DM2A Red upper limit = B_HK_B09D2A_LC_TYELO106= -1097 / BHKLCBLK9DM2A Yellow lower limit = B_HK_B09D2A_TYEHI106= 1000 / BHKLCBLK9DM2A Yellow upper limit = B_HK_B09D2A_TRDLO108= -1097 / BHKLCBLK9DM2B Red lower limit = B_HK_B09D2B_LC_TRDHI108= 1300 / BHKLCBLK9DM2B Red upper limit = B_HK_B09D2B_LC_TYELO108= -1097 / BHKLCBLK9DM2B Yellow lower limit = B_HK_B09D2B_TYEHI108= 1000 / BHKLCBLK9DM2B Yellow upper limit = B_HK_B09D2B_TRDLO110= -1097 / BHKLCBLK9DM3A Red lower limit = B_HK_B09D3A_LC_TRDHI110= 1300 / BHKLCBLK9DM3A Red upper limit = B_HK_B09D3A_LC_TYELO110= -1097 / BHKLCBLK9DM3A Yellow lower limit = B_HK_B09D3A_TYEHI110= 1000 / BHKLCBLK9DM3A Yellow upper limit = B_HK_B09D3A_TRDLO112= -1097 / BHKLCBLK9DM3B Red lower limit = B_HK_B09D3B_LC_TRDHI112= 1300 / BHKLCBLK9DM3B Red upper limit = B_HK_B09D3B_LC_TYELO112= -1097 / BHKLCBLK9DM3B Yellow lower limit = B_HK_B09D3B_TYEHI112= 1000 / BHKLCBLK9DM3B Yellow upper limit = B_HK_B09D3B_TRDLO114= -1097 / BHKLCBLK9DM4A Red lower limit = B_HK_B09D4A_LC_TRDHI114= 1300 / BHKLCBLK9DM4A Red upper limit = B_HK_B09D4A_LC_TYELO114= -1097 / BHKLCBLK9DM4A Yellow lower limit = B_HK_B09D4A_TYEHI114= 1000 / BHKLCBLK9DM4A Yellow upper limit = B_HK_B09D4A_TRDLO116= -1097 / BHKLCBLK9DM4B Red lower limit = B_HK_B09D4B_LC_TRDHI116= 1300 / BHKLCBLK9DM4B Red upper limit = B_HK_B09D4B_LC_TYELO116= -1097 / BHKLCBLK9DM4B Yellow lower limit = B_HK_B09D4B_TYEHI116= 1000 / BHKLCBLK9DM4B Yellow upper limit = B_HK_B09D4B_TRDLO118= -1097 / BHKLCBLK9DM5A Red lower limit = B_HK_B09D5A_LC_TRDHI118= 1300 / BHKLCBLK9DM5A Red upper limit = B_HK_B09D5A_LC_TYELO118= -1097 / BHKLCBLK9DM5A Yellow lower limit = B_HK_B09D5A_TYEHI118= 1000 / BHKLCBLK9DM5A Yellow upper limit = B_HK_B09D5A_TRDLO120= -1097 / BHKLCBLK9DM5B Red lower limit = B_HK_B09D5B_LC_TRDHI120= 1300 / BHKLCBLK9DM5B Red upper limit = B_HK_B09D5B_LC_TYELO120= -1097 / BHKLCBLK9DM5B Yellow lower limit = B_HK_B09D5B_TYEHI120= 1000 / BHKLCBLK9DM5B Yellow upper limit = B_HK_B09D5B_TRDLO122= -1097 / BHKLCBLK9DM6A Red lower limit = B_HK_B09D6A_LC_TRDHI122= 1300 / BHKLCBLK9DM6A Red upper limit = B_HK_B09D6A_LC_TYELO122= -1097 / BHKLCBLK9DM6A Yellow lower limit = B_HK_B09D6A_TYEHI122= 1000 / BHKLCBLK9DM6A Yellow upper limit = B_HK_B09D6A_TRDLO124= -1097 / BHKLCBLK9DM6B Red lower limit = B_HK_B09D6B_LC_TRDHI124= 1300 / BHKLCBLK9DM6B Red upper limit = B_HK_B09D6B_LC_TYELO124= -1097 / BHKLCBLK9DM6B Yellow lower limit = B_HK_B09D6B_TYEHI124= 1000 / BHKLCBLK9DM6B Yellow upper limit = B_HK_B09D6B_TRDLO126= -1097 / BHKLCBLK9DM7A Red lower limit = B_HK_B09D7A_LC_TRDHI126= 1300 / BHKLCBLK9DM7A Red upper limit = B_HK_B09D7A_LC_TYELO126= -1097 / BHKLCBLK9DM7A Yellow lower limit = B_HK_B09D7A_TYEHI126= 1000 / BHKLCBLK9DM7A Yellow upper limit = B_HK_B09D7A_TRDLO128= -1097 / BHKLCBLK9DM7B Red lower limit = B_HK_B09D7B_LC_TRDHI128= 1300 / BHKLCBLK9DM7B Red upper limit = B_HK_B09D7B_LC_TYELO128= -1097 / BHKLCBLK9DM7B Yellow lower limit = B_HK_B09D7B_TYEHI128= 1000 / BHKLCBLK9DM7B Yellow upper limit = B_HK_B09D7B_TRDLO130= -1097 / BHKLCBLK10DM0A Red lower limit = B_HK_B10D0A_LCTRDHI130= 1300 / BHKLCBLK10DM0A Red upper limit = B_HK_B10D0A_LCTYELO130= -1097 / BHKLCBLK10DM0A Yellow lower limit = B_HK_B10D0ATYEHI130= 1000 / BHKLCBLK10DM0A Yellow upper limit = B_HK_B10D0ATRDLO132= -1097 / BHKLCBLK10DM0B Red lower limit = B_HK_B10D0B_LCTRDHI132= 1300 / BHKLCBLK10DM0B Red upper limit = B_HK_B10D0B_LCTYELO132= -1097 / BHKLCBLK10DM0B Yellow lower limit = B_HK_B10D0BTYEHI132= 1000 / BHKLCBLK10DM0B Yellow upper limit = B_HK_B10D0BTRDLO134= -1097 / BHKLCBLK10DM1A Red lower limit = B_HK_B10D1A_LCTRDHI134= 1300 / BHKLCBLK10DM1A Red upper limit = B_HK_B10D1A_LCTYELO134= -1097 / BHKLCBLK10DM1A Yellow lower limit = B_HK_B10D1ATYEHI134= 1000 / BHKLCBLK10DM1A Yellow upper limit = B_HK_B10D1ATRDLO136= -1097 / BHKLCBLK10DM1B Red lower limit = B_HK_B10D1B_LCTRDHI136= 1300 / BHKLCBLK10DM1B Red upper limit = B_HK_B10D1B_LCTYELO136= -1097 / BHKLCBLK10DM1B Yellow lower limit = B_HK_B10D1BTYEHI136= 1000 / BHKLCBLK10DM1B Yellow upper limit = B_HK_B10D1BTRDLO138= -1097 / BHKLCBLK10DM2A Red lower limit = B_HK_B10D2A_LCTRDHI138= 1300 / BHKLCBLK10DM2A Red upper limit = B_HK_B10D2A_LCTYELO138= -1097 / BHKLCBLK10DM2A Yellow lower limit = B_HK_B10D2ATYEHI138= 1000 / BHKLCBLK10DM2A Yellow upper limit = B_HK_B10D2ATRDLO140= -1097 / BHKLCBLK10DM2B Red lower limit = B_HK_B10D2B_LCTRDHI140= 1300 / BHKLCBLK10DM2B Red upper limit = B_HK_B10D2B_LCTYELO140= -1097 / BHKLCBLK10DM2B Yellow lower limit = B_HK_B10D2BTYEHI140= 1000 / BHKLCBLK10DM2B Yellow upper limit = B_HK_B10D2BTRDLO142= -1097 / BHKLCBLK10DM3A Red lower limit = B_HK_B10D3A_LCTRDHI142= 1300 / BHKLCBLK10DM3A Red upper limit = B_HK_B10D3A_LCTYELO142= -1097 / BHKLCBLK10DM3A Yellow lower limit = B_HK_B10D3ATYEHI142= 1000 / BHKLCBLK10DM3A Yellow upper limit = B_HK_B10D3ATRDLO144= -1097 / BHKLCBLK10DM3B Red lower limit = B_HK_B10D3B_LCTRDHI144= 1300 / BHKLCBLK10DM3B Red upper limit = B_HK_B10D3B_LCTYELO144= -1097 / BHKLCBLK10DM3B Yellow lower limit = B_HK_B10D3BTYEHI144= 1000 / BHKLCBLK10DM3B Yellow upper limit = B_HK_B10D3BTRDLO146= -1097 / BHKLCBLK10DM4A Red lower limit = B_HK_B10D4A_LCTRDHI146= 1300 / BHKLCBLK10DM4A Red upper limit = B_HK_B10D4A_LCTYELO146= -1097 / BHKLCBLK10DM4A Yellow lower limit = B_HK_B10D4ATYEHI146= 1000 / BHKLCBLK10DM4A Yellow upper limit = B_HK_B10D4ATRDLO148= -1097 / BHKLCBLK10DM4B Red lower limit = B_HK_B10D4B_LCTRDHI148= 1300 / BHKLCBLK10DM4B Red upper limit = B_HK_B10D4B_LCTYELO148= -1097 / BHKLCBLK10DM4B Yellow lower limit = B_HK_B10D4BTYEHI148= 1000 / BHKLCBLK10DM4B Yellow upper limit = B_HK_B10D4BTRDLO150= -1097 / BHKLCBLK10DM5A Red lower limit = B_HK_B10D5A_LCTRDHI150= 1300 / BHKLCBLK10DM5A Red upper limit = B_HK_B10D5A_LCTYELO150= -1097 / BHKLCBLK10DM5A Yellow lower limit = B_HK_B10D5ATYEHI150= 1000 / BHKLCBLK10DM5A Yellow upper limit = B_HK_B10D5ATRDLO152= -1097 / BHKLCBLK10DM5B Red lower limit = B_HK_B10D5B_LCTRDHI152= 1300 / BHKLCBLK10DM5B Red upper limit = B_HK_B10D5B_LCTYELO152= -1097 / BHKLCBLK10DM5B Yellow lower limit = B_HK_B10D5BTYEHI152= 1000 / BHKLCBLK10DM5B Yellow upper limit = B_HK_B10D5BTRDLO154= -1097 / BHKLCBLK10DM6A Red lower limit = B_HK_B10D6A_LCTRDHI154= 1300 / BHKLCBLK10DM6A Red upper limit = B_HK_B10D6A_LCTYELO154= -1097 / BHKLCBLK10DM6A Yellow lower limit = B_HK_B10D6ATYEHI154= 1000 / BHKLCBLK10DM6A Yellow upper limit = B_HK_B10D6ATRDLO156= -1097 / BHKLCBLK10DM6B Red lower limit = B_HK_B10D6B_LCTRDHI156= 1300 / BHKLCBLK10DM6B Red upper limit = B_HK_B10D6B_LCTYELO156= -1097 / BHKLCBLK10DM6B Yellow lower limit = B_HK_B10D6BTYEHI156= 1000 / BHKLCBLK10DM6B Yellow upper limit = B_HK_B10D6BTRDLO158= -1097 / BHKLCBLK10DM7A Red lower limit = B_HK_B10D7A_LCTRDHI158= 1300 / BHKLCBLK10DM7A Red upper limit = B_HK_B10D7A_LCTYELO158= -1097 / BHKLCBLK10DM7A Yellow lower limit = B_HK_B10D7ATYEHI158= 1000 / BHKLCBLK10DM7A Yellow upper limit = B_HK_B10D7ATRDLO160= -1097 / BHKLCBLK10DM7B Red lower limit = B_HK_B10D7B_LCTRDHI160= 1300 / BHKLCBLK10DM7B Red upper limit = B_HK_B10D7B_LCTYELO160= -1097 / BHKLCBLK10DM7B Yellow lower limit = B_HK_B10D7BTYEHI160= 1000 / BHKLCBLK10DM7B Yellow upper limit = B_HK_B10D7BHISTORY TASK: FAPPND on FILENAME: sw01185673000b174x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�`�޾� ��x��r�}�� }��\��F��q��L��f�� 5�� k��e��x�� K��L��h��I��s��(�'�*�K��S��%�*��k�:��r�5��΀A�F�p{ � ��y��q�~�� \��C��q��L��f��6�� k��f��u�� K��S��k��J��u��(�'�*�O��T��%�)��k�9��r�5��]A�F�~�� w��q�}�� \��M��q��L��e�� 5�� o��g��t�� H��Q��i��G��t��&�"�(�Q��T��$�)��k�:��r�6��,A�F��i� ��x��s�}��|��\��H��p��L��h��6�� m��e��u�� J��P��j��G��t��&�-�)�R��S��$�*��k�:��r�6�� A�F�� x��q�}�� \��I��q��L��g�� 5�� o��h��s�� % �� M��N��k��G��s��'�-�+�O��S��%�'��k�;��r�6��A�F�� y��r�~��]��F��o��M��g�� 7�� n��g��t�� K��R��j��F��r��'�*�+�T��R��&�(��k�;��r�6��@A�F��e� ��y��q�}��]��L��q��L��h�� 7�� n��f��r�� + �� I��Q��k��G��r��'�0�)�O��Q��%�*��k�;��q�6��A�F�ɥ�3� ��y��p�}�� ^��J��q��L��f��5�� m��e��s�� I��T��j��G��p��'�'�-�O��R��$�)��k�:��r�6��ˑA�F�إ޾� ��x��o�~��^��O��q��L��d�� 4�� l��e��q�� O��N��j��H��q��%� �+�Q��S��$�*� �k�;��r�5��A�F�� z��p�~�� \��H��s��L��g�� 6�� n��g��q�� I��P��i��G��q��(�+�,�R��S��$�(� �k�:��r�5��A�F�� y��p�}��\��K��s��L��g�� 5�� l��f��q�� J��P��j��G��p��'�,�+�R��T��$�+��k�;��r�6��A�F��e� ��z��p�}��}��]��L��r��L� �e�� 5�� j��h��q�� I��N��j��H��q��&�,�-�Q��V��$�*��k�:��r�7��A�F��]� ��y��q�~��]��J��s��M��f�� 7�� k��h��q�� # �� L��P��j��E��r��'�+�+�Q��R��&�)��k�:��r�6��nA�F�#�� z��r�}��~��\��G��t��M��d�� 7�� o��h��t�� J��P��l��E��s��'�-�.�O��T��&�*��k�<��r�7��A�F�2�� z��s�~��]��Q��q��L��f�� 7�� o��f��u�� J��N��i��D��r��&�(�/�L��U��%�(��k�:��r�7��"A�F�A�� y��q��~��]��L��t��M��f�� 8�� i��j��v�� K��M��k��D��r��%�)�,�K��R��$�*��k�;��r�7��!A�F�P�޾� ��y��r�}��~��^��M��t��M��d�� 8�� k��g��t�� I��P��j��D��r��&�'�+�K��R��%�+��k�;��q�6��A�F�_�i� ��y��q��]��D��r��M� �f�� 6�� k��h��w�� L��M��j��D��s��#�'�.�E��Q��%�*��k�;��r�5��A�F�n��ƅ ��z��o��_��L��r��M��g�� 8�� n��f��x�� H��P��j��E��s��)�(�-�M��R��$�*� �k�:��r�6��lA�F�}�� x��p�~��]��B��q��M� �f�� 4�� o��g��x�� H��P��i��C��r��&�2�/�P��T��$�+��k�:��q�6��ȊA�F��e� ��y��q��_��K��o��M��g��7�� n��j��w�� K��P��h��@��r��(�1�+�R��S��$�.� �k�;��r�5��qA�F��޾� ��w��o��^��E��t��M��e�� 7�� m��k��u�� L��N��h��C��s��)�3�-�S��R��%�-��k�;��r�5��mA�F��޾� ��y��p��^��J��q��M� �f�� 7�� p��i��y�� J��O��j��B��s��*�6�+�M��S��%�,��k�;��r�7��A�F��ڥ� ��y��p��^��K��q��M��f�� 5�� l��i��x�� J��P��j��C��t��*�7�,�P��S��&�+� �k�;��r�5��ˢA�F�ȥ�� y��q�~��]��J��q��M��d�� 9�� m��k��y�� J��S��i��D��s��*�6�*�Q��Q��&�+��k�;��r�6��zA�F�ץ�ƅ��z��s�~��^��L��q��M��g��8�� m��h��y�� L��Q��i��C��s��*�%�-�J��R��%�+��k�;��r�6��pA�F�� z��r��]��N��q��M��f�� 8�� o��i��x�� H��P��j��C��q��(�1�+�U��R��%�*��k�<��r�6��ɆA�F��൅ ��z��p�� _��N��r��M��g�� 5�� o��h��z�� H��S��h��C��r��+�*�+�P��R��%�-��l�;��r�7��A�F��൅��y��r�~��~��^��D��q��M��e�� 7�� n��g��v�� H��T��i��A��t��*�/�,�S��R��%�.��k�<��r�7��.A�F��z��s�� ^��N��o��M��e�� 6�� m��j��z�� I��R��h��A��s��)�5�*�O��P��%�/��k�;��q�7��;A�F�"� ��z��s��^��B��q��M��e�� 7�� q��i��w�� % �� I��R��i��A�� v��*�0�(�P��Q��%�-��k�<��r�7��EA�F�1��e��z��s��^��F��s��M��d�� 8�� m��h��v�� I��R��j��A��u��+�(�*�R��R��&�-��k�<��r�6��gA�F�@�޾��z��s�~��^��G��r��M��e�� 6�� p��i��u�� I��Q��h��C��u��)�3�*�L��T��%�-��k�<��r�6��A�F�O��]��y��s��~��^��E��s��M��f�� 9�� o��l��w�� K��P��h��E��t��(�5�)�P��Q��$�*��k�;��r�6��˄A�F�^�A��z��r��~��]��F��r��M��e�� 9�� n��j��w�� H��M��k��F��v��)�/�)�N��Q��%�*��k�<��r�7��6A�F�m�9.��y��q��]��I��o��M��f��7�� p��n��v�� % �� I��Q��j��E��t��*�4�'�R��O��%�.��k�<��s�7��̳A�F�|��e��y��s��\��H��q��M��g�� 7�� n��k��z�� I��Q��i��D��t��)�6�'�O��S��%�-��k�<��q�7��ˬA�F�� y��p��\��M��r��M��h�� 7�� n��j��y�� J��M��h��G��s��*�(�(�K��P��&�,��j�<��r�7��A�F��j��z��q��|��^��I��r��M� �f��9�� p��m��{�� I��N��i��D��u��(�+�*�N��O��%�.��k�<��s�7��JA�F��R��y��r��~��]��H��q��M��f��9�� s��j��z�� H��O��i��I��s��+�4�)�M��Q��%�,��k�<��r�7��͘A�F��.�� x��s��~�� \��P��r��M��f��9�� p��j��|�� G��P��k��H��r��,�/�)�P��P��%�+��k�=��r�7��:A�F�Ǩ�� x��r�~�� [��I��s��M��e�� 7�� q��m��}�� K��N��i��I��s��)�2�&�Q��Q��%�+��k�=��r�7��ɤA�F�֥� ��y��s�� ]��Z��t��L��d��9�� o��k��z�� H��O��j��H��r��)�0�(�U��P��&�,��k�=��r�7��A�F�� y��q��^��J��q��L��e�� :�� p��l��|�� H��M��j��G��s��)�0�*�U��U��&�-��k�=��r�7��9A�F��e��y��s�� ]��J��r��M��f�� 8�� q��l��{�� L��M��i��G��t��*�-�*�R��P��&�+��k�=��r�6��A�F��҉� ��x��q�� \��H��p��L��e��8�� r��l��y�� # �� Q��N��i��G��t��%�2�*�S��P��%�+��k�<��r�7��A�F��൅ ��x��s��~�� ]��K��q��M��f�� 6�� r��p��{�� M��M��j��G��t��*�,�)�N��O��%�+��k�=��r�6��ͦA�F�!��y��r�~�� ]��E��q��L��h�� 6�� p��k��z�� N��M��i��F��t��+�,�)�S��M��$�+��k�<��r�7��BA�F�0��M��w��p��]��M��q��M��f�� 6�� q��m��|�� N��M��i��I��t��*�+�)�K��S��$�*� �k�<��r�7��!A�F�?��x��s��]��E��p��M��f�� 7�� l��k��y�� Q��P��j��G��s��*�-�*�T��U��%�+��k�<��r�7��̜A�F�N�*Z��x��r��\��K��p��M��e��5�� j��l��y�� O��N��j��C��s��+�*�)�Q��S��%�-��k�;��r�6��̽A�F�]�ݭ��w��s�� ]��J��p��M��e��4�� i��i��{�� O��Q��j��F��s��-�'�+�R��T��&�+��k�<��r�7��A�F�l��x��r��]��M��q��M��f�� 5�� i��m��y�� N��O��k��G��s��)�(�)�N��Q��&�,��k�=��r�6��SA�F�{��r��w��r�~��~��\��T��o��L��d��3�� i��j��z�� O��P��i��F��t��)�,�*�K��S��%�)��k�<��r�6��A�F��n��x��r�~�� \��O��q��L��e�� 5�� j��j��y�� N��P��j��H��s��(�+�,�I��P��%�)��k�<��r�6��A�F��n��x��q�~�� ]��F��s��L��e��6�� j��k��y�� N��N��i��G��r��+�&�+�H��S��$�+� �k�<��r�6��A�F�� x��s�~�� ^��J��p��L��e��4�� j��k��z�� M��M��j��E��s��*�!�,�H��S��$�*��k�=��r�6��A�F��޾��w��r�~�� ^��G��r��L��f��3�� k��l��y�� N��Q��k��H��t��)�&�)�H��R��%�(��k�<��q�6�� A�F�ƫJ��x��u�~�� ^��=��r��L��d��4�� j��h��y�� M��P��i��G��t��)�.�)�O��V��&�(� �k�=��r�6��΅A�F�լ�Å��x��u�� ]��J��p��L��d��5�� j��g��y�� L��L��j��H��t��)�(�)�M��V��&�*��k�=��r�6��jA�F�� w��t�� ]��>��r��L��d��2�� i��j��z�� P��O��i��I��s��)�)�(�R��R��%�(��k�=��r�6��ˍA�F�󪁙� ��x��r�}��\��K��r��L��d�� 4�� g��i��y�� ' �� M��O��i��G��s��(�)�(�N��Q��%�*��k�<��r�6��KA�F��<� ��x��s�� ]��Q��t��L��c�� 3�� i��h��y�� N��M��j��I��s��)�+�+�P��T��$�(��k�=��r�6��A�F�� w��q�~�� ]��L��q��L��f��0�� k��f��{�� M��R��h��H��s��)�-�)�T��U��$�(��k�<��r�6��oA�F� � ��x��q�� [��K��p��L��f�� 5�� h��f��y�� O��Q��i��G��q��(�/�,�T��Q��$�*��k�<��q�6��A�F�/�� x��q�~�� \��K��q��L��e��2�� h��g��|�� L��P��i��G��q��)�)�+�Q��P��%�)��k�>��r�5��A�F�>�� x��q�|�� \��G��p��L��e��3�� j��j��z�� M��N��h��E��r��&�/�)�W��O��%�(��k�<��r�5��/A�F�M�<`� ��w��o�|�� \��K��p��L��f��0�� j��h��y�� M��L��i��G��q��)�*�,�V��P��&�'��k�<��r�6��A�F�\�g�� x��q�|�� \��L��r��L��e��1�� i��k��x�� N��N��j��H��r��)�4�*�Q��O��%�(��k�;��r�6��A�F�k�r� ��y��q��\��N��s��K��f��5�� i��j��w�� M��I��j��G��r��)�,�+�R��O��%�(��k�;��r�6��A�F�z�5i� ��y��r�~�� \��N��r��K��e��3�� j��h��x�� K��M��j��I��r��)�'�*�S��R��$�(��k�;��r�7��A�F��y� ��x��q�� \��F��p��K��h��4�� q��h��z�� L��M��k��I��r��*�7�+�T��P��$�'��k�>��r�6��A�F�� x��p�~�� \��H��p��K��h��5�� l��i��y�� N��L��k��G��r��)�1�*�R��P��$�&��k�=��q�6��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKLCBLK11DM0A' / Block 11, DM 0, Side A Leakage Current TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL2 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT2 = 'nA ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKLCBLK11DM0B' / Block 11, DM 0, Side B Leakage Current TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL4 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT4 = 'nA ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKLCBLK11DM1A' / Block 11, DM 1, Side A Leakage Current TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL6 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT6 = 'nA ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKLCBLK11DM1B' / Block 11, DM 1, Side B Leakage Current TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL8 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT8 = 'nA ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKLCBLK11DM2A' / Block 11, DM 2, Side A Leakage Current TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL10 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT10 = 'nA ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKLCBLK11DM2B' / Block 11, DM 2, Side B Leakage Current TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL12 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT12 = 'nA ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKLCBLK11DM3A' / Block 11, DM 3, Side A Leakage Current TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL14 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT14 = 'nA ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKLCBLK11DM3B' / Block 11, DM 3, Side B Leakage Current TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL16 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT16 = 'nA ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKLCBLK11DM4A' / Block 11, DM 4, Side A Leakage Current TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL18 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT18 = 'nA ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKLCBLK11DM4B' / Block 11, DM 4, Side B Leakage Current TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL20 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT20 = 'nA ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKLCBLK11DM5A' / Block 11, DM 5, Side A Leakage Current TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL22 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT22 = 'nA ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKLCBLK11DM5B' / Block 11, DM 5, Side B Leakage Current TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL24 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT24 = 'nA ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKLCBLK11DM6A' / Block 11, DM 6, Side A Leakage Current TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL26 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT26 = 'nA ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKLCBLK11DM6B' / Block 11, DM 6, Side B Leakage Current TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL28 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT28 = 'nA ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKLCBLK11DM7A' / Block 11, DM 7, Side A Leakage Current TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL30 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT30 = 'nA ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKLCBLK11DM7B' / Block 11, DM 7, Side B Leakage Current TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL32 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT32 = 'nA ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKLCBLK12DM0A' / Block 12, DM 0, Side A Leakage Current TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL34 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT34 = 'nA ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKLCBLK12DM0B' / Block 12, DM 0, Side B Leakage Current TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL36 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT36 = 'nA ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKLCBLK12DM1A' / Block 12, DM 1, Side A Leakage Current TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL38 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT38 = 'nA ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKLCBLK12DM1B' / Block 12, DM 1, Side B Leakage Current TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL40 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT40 = 'nA ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKLCBLK12DM2A' / Block 12, DM 2, Side A Leakage Current TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL42 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT42 = 'nA ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKLCBLK12DM2B' / Block 12, DM 2, Side B Leakage Current TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL44 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT44 = 'nA ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKLCBLK12DM3A' / Block 12, DM 3, Side A Leakage Current TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL46 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT46 = 'nA ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKLCBLK12DM3B' / Block 12, DM 3, Side B Leakage Current TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL48 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT48 = 'nA ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKLCBLK12DM4A' / Block 12, DM 4, Side A Leakage Current TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL50 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT50 = 'nA ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKLCBLK12DM4B' / Block 12, DM 4, Side B Leakage Current TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL52 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT52 = 'nA ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKLCBLK12DM5A' / Block 12, DM 5, Side A Leakage Current TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL54 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT54 = 'nA ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKLCBLK12DM5B' / Block 12, DM 5, Side B Leakage Current TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL56 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT56 = 'nA ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKLCBLK12DM6A' / Block 12, DM 6, Side A Leakage Current TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL58 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT58 = 'nA ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKLCBLK12DM6B' / Block 12, DM 6, Side B Leakage Current TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL60 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT60 = 'nA ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKLCBLK12DM7A' / Block 12, DM 7, Side A Leakage Current TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL62 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT62 = 'nA ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKLCBLK12DM7B' / Block 12, DM 7, Side B Leakage Current TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL64 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT64 = 'nA ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKLCBLK13DM0A' / Block 13, DM 0, Side A Leakage Current TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL66 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT66 = 'nA ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKLCBLK13DM0B' / Block 13, DM 0, Side B Leakage Current TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL68 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT68 = 'nA ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKLCBLK13DM1A' / Block 13, DM 1, Side A Leakage Current TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL70 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT70 = 'nA ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKLCBLK13DM1B' / Block 13, DM 1, Side B Leakage Current TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL72 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT72 = 'nA ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKLCBLK13DM2A' / Block 13, DM 2, Side A Leakage Current TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL74 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT74 = 'nA ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKLCBLK13DM2B' / Block 13, DM 2, Side B Leakage Current TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL76 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT76 = 'nA ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKLCBLK13DM3A' / Block 13, DM 3, Side A Leakage Current TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL78 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT78 = 'nA ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKLCBLK13DM3B' / Block 13, DM 3, Side B Leakage Current TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL80 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT80 = 'nA ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKLCBLK13DM4A' / Block 13, DM 4, Side A Leakage Current TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL82 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT82 = 'nA ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKLCBLK13DM4B' / Block 13, DM 4, Side B Leakage Current TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL84 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT84 = 'nA ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKLCBLK13DM5A' / Block 13, DM 5, Side A Leakage Current TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL86 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT86 = 'nA ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKLCBLK13DM5B' / Block 13, DM 5, Side B Leakage Current TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL88 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT88 = 'nA ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKLCBLK13DM6A' / Block 13, DM 6, Side A Leakage Current TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL90 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT90 = 'nA ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKLCBLK13DM6B' / Block 13, DM 6, Side B Leakage Current TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL92 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT92 = 'nA ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKLCBLK13DM7A' / Block 13, DM 7, Side A Leakage Current TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL94 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT94 = 'nA ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKLCBLK13DM7B' / Block 13, DM 7, Side B Leakage Current TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL96 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT96 = 'nA ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKLCBLK14DM0A' / Block 14, DM 0, Side A Leakage Current TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL98 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT98 = 'nA ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKLCBLK14DM0B' / Block 14, DM 0, Side B Leakage Current TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL100= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT100= 'nA ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKLCBLK14DM1A' / Block 14, DM 1, Side A Leakage Current TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL102= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT102= 'nA ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKLCBLK14DM1B' / Block 14, DM 1, Side B Leakage Current TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL104= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT104= 'nA ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKLCBLK14DM2A' / Block 14, DM 2, Side A Leakage Current TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL106= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT106= 'nA ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKLCBLK14DM2B' / Block 14, DM 2, Side B Leakage Current TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL108= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT108= 'nA ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKLCBLK14DM3A' / Block 14, DM 3, Side A Leakage Current TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL110= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT110= 'nA ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKLCBLK14DM3B' / Block 14, DM 3, Side B Leakage Current TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL112= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT112= 'nA ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKLCBLK14DM4A' / Block 14, DM 4, Side A Leakage Current TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL114= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT114= 'nA ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKLCBLK14DM4B' / Block 14, DM 4, Side B Leakage Current TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL116= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT116= 'nA ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKLCBLK14DM5A' / Block 14, DM 5, Side A Leakage Current TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL118= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT118= 'nA ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKLCBLK14DM5B' / Block 14, DM 5, Side B Leakage Current TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL120= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT120= 'nA ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKLCBLK14DM6A' / Block 14, DM 6, Side A Leakage Current TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL122= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT122= 'nA ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKLCBLK14DM6B' / Block 14, DM 6, Side B Leakage Current TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL124= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT124= 'nA ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKLCBLK14DM7A' / Block 14, DM 7, Side A Leakage Current TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL126= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT126= 'nA ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKLCBLK14DM7B' / Block 14, DM 7, Side B Leakage Current TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL128= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT128= 'nA ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKLCBLK15DM0A' / Block 15, DM 0, Side A Leakage Current TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL130= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT130= 'nA ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKLCBLK15DM0B' / Block 15, DM 0, Side B Leakage Current TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL132= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT132= 'nA ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKLCBLK15DM1A' / Block 15, DM 1, Side A Leakage Current TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL134= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT134= 'nA ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKLCBLK15DM1B' / Block 15, DM 1, Side B Leakage Current TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL136= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT136= 'nA ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKLCBLK15DM2A' / Block 15, DM 2, Side A Leakage Current TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL138= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT138= 'nA ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKLCBLK15DM2B' / Block 15, DM 2, Side B Leakage Current TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL140= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT140= 'nA ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKLCBLK15DM3A' / Block 15, DM 3, Side A Leakage Current TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL142= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT142= 'nA ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKLCBLK15DM3B' / Block 15, DM 3, Side B Leakage Current TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL144= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT144= 'nA ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKLCBLK15DM4A' / Block 15, DM 4, Side A Leakage Current TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL146= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT146= 'nA ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKLCBLK15DM4B' / Block 15, DM 4, Side B Leakage Current TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL148= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT148= 'nA ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKLCBLK15DM5A' / Block 15, DM 5, Side A Leakage Current TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL150= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT150= 'nA ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKLCBLK15DM5B' / Block 15, DM 5, Side B Leakage Current TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL152= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT152= 'nA ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKLCBLK15DM6A' / Block 15, DM 6, Side A Leakage Current TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL154= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT154= 'nA ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKLCBLK15DM6B' / Block 15, DM 6, Side B Leakage Current TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL156= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT156= 'nA ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKLCBLK15DM7A' / Block 15, DM 7, Side A Leakage Current TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL158= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT158= 'nA ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKLCBLK15DM7B' / Block 15, DM 7, Side B Leakage Current TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL160= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT160= 'nA ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKLCSPARE14' / Leakage Current Packets Spare Word 14 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk175x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894087.44504 TSTOP = 713896247.44542 DATE-OBS= '2023-08-16T15:54:42' DATE-END= '2023-08-16T16:30:42' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2160.00038003922 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 373 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'D5KeD4IZD4IdD4IZ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '4204796166' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -1097 / BHKLCBLK11DM0A Red lower limit = B_HK_B11D0A_LCTRDHI2 = 1300 / BHKLCBLK11DM0A Red upper limit = B_HK_B11D0A_LCTYELO2 = -1097 / BHKLCBLK11DM0A Yellow lower limit = B_HK_B11D0ATYEHI2 = 1000 / BHKLCBLK11DM0A Yellow upper limit = B_HK_B11D0ATRDLO4 = -1097 / BHKLCBLK11DM0B Red lower limit = B_HK_B11D0B_LCTRDHI4 = 1300 / BHKLCBLK11DM0B Red upper limit = B_HK_B11D0B_LCTYELO4 = -1097 / BHKLCBLK11DM0B Yellow lower limit = B_HK_B11D0BTYEHI4 = 1000 / BHKLCBLK11DM0B Yellow upper limit = B_HK_B11D0BTRDLO6 = -1097 / BHKLCBLK11DM1A Red lower limit = B_HK_B11D1A_LCTRDHI6 = 1300 / BHKLCBLK11DM1A Red upper limit = B_HK_B11D1A_LCTYELO6 = -1097 / BHKLCBLK11DM1A Yellow lower limit = B_HK_B11D1ATYEHI6 = 1000 / BHKLCBLK11DM1A Yellow upper limit = B_HK_B11D1ATRDLO8 = -1097 / BHKLCBLK11DM1B Red lower limit = B_HK_B11D1B_LCTRDHI8 = 1300 / BHKLCBLK11DM1B Red upper limit = B_HK_B11D1B_LCTYELO8 = -1097 / BHKLCBLK11DM1B Yellow lower limit = B_HK_B11D1BTYEHI8 = 1000 / BHKLCBLK11DM1B Yellow upper limit = B_HK_B11D1BTRDLO10 = -1097 / BHKLCBLK11DM2A Red lower limit = B_HK_B11D2A_LCTRDHI10 = 1300 / BHKLCBLK11DM2A Red upper limit = B_HK_B11D2A_LCTYELO10 = -1097 / BHKLCBLK11DM2A Yellow lower limit = B_HK_B11D2ATYEHI10 = 1000 / BHKLCBLK11DM2A Yellow upper limit = B_HK_B11D2ATRDLO12 = -1097 / BHKLCBLK11DM2B Red lower limit = B_HK_B11D2B_LCTRDHI12 = 1300 / BHKLCBLK11DM2B Red upper limit = B_HK_B11D2B_LCTYELO12 = -1097 / BHKLCBLK11DM2B Yellow lower limit = B_HK_B11D2BTYEHI12 = 1000 / BHKLCBLK11DM2B Yellow upper limit = B_HK_B11D2BTRDLO14 = -1097 / BHKLCBLK11DM3A Red lower limit = B_HK_B11D3A_LCTRDHI14 = 1300 / BHKLCBLK11DM3A Red upper limit = B_HK_B11D3A_LCTYELO14 = -1097 / BHKLCBLK11DM3A Yellow lower limit = B_HK_B11D3ATYEHI14 = 1000 / BHKLCBLK11DM3A Yellow upper limit = B_HK_B11D3ATRDLO16 = -1097 / BHKLCBLK11DM3B Red lower limit = B_HK_B11D3B_LCTRDHI16 = 1300 / BHKLCBLK11DM3B Red upper limit = B_HK_B11D3B_LCTYELO16 = -1097 / BHKLCBLK11DM3B Yellow lower limit = B_HK_B11D3BTYEHI16 = 1000 / BHKLCBLK11DM3B Yellow upper limit = B_HK_B11D3BTRDLO18 = -1097 / BHKLCBLK11DM4A Red lower limit = B_HK_B11D4A_LCTRDHI18 = 1300 / BHKLCBLK11DM4A Red upper limit = B_HK_B11D4A_LCTYELO18 = -1097 / BHKLCBLK11DM4A Yellow lower limit = B_HK_B11D4ATYEHI18 = 1000 / BHKLCBLK11DM4A Yellow upper limit = B_HK_B11D4ATRDLO20 = -1097 / BHKLCBLK11DM4B Red lower limit = B_HK_B11D4B_LCTRDHI20 = 1300 / BHKLCBLK11DM4B Red upper limit = B_HK_B11D4B_LCTYELO20 = -1097 / BHKLCBLK11DM4B Yellow lower limit = B_HK_B11D4BTYEHI20 = 1000 / BHKLCBLK11DM4B Yellow upper limit = B_HK_B11D4BTRDLO22 = -1097 / BHKLCBLK11DM5A Red lower limit = B_HK_B11D5A_LCTRDHI22 = 1300 / BHKLCBLK11DM5A Red upper limit = B_HK_B11D5A_LCTYELO22 = -1097 / BHKLCBLK11DM5A Yellow lower limit = B_HK_B11D5ATYEHI22 = 1000 / BHKLCBLK11DM5A Yellow upper limit = B_HK_B11D5ATRDLO24 = -1097 / BHKLCBLK11DM5B Red lower limit = B_HK_B11D5B_LCTRDHI24 = 1300 / BHKLCBLK11DM5B Red upper limit = B_HK_B11D5B_LCTYELO24 = -1097 / BHKLCBLK11DM5B Yellow lower limit = B_HK_B11D5BTYEHI24 = 1000 / BHKLCBLK11DM5B Yellow upper limit = B_HK_B11D5BTRDLO26 = -1097 / BHKLCBLK11DM6A Red lower limit = B_HK_B11D6A_LCTRDHI26 = 1300 / BHKLCBLK11DM6A Red upper limit = B_HK_B11D6A_LCTYELO26 = -1097 / BHKLCBLK11DM6A Yellow lower limit = B_HK_B11D6ATYEHI26 = 1000 / BHKLCBLK11DM6A Yellow upper limit = B_HK_B11D6ATRDLO28 = -1097 / BHKLCBLK11DM6B Red lower limit = B_HK_B11D6B_LCTRDHI28 = 1300 / BHKLCBLK11DM6B Red upper limit = B_HK_B11D6B_LCTYELO28 = -1097 / BHKLCBLK11DM6B Yellow lower limit = B_HK_B11D6BTYEHI28 = 1000 / BHKLCBLK11DM6B Yellow upper limit = B_HK_B11D6BTRDLO30 = -1097 / BHKLCBLK11DM7A Red lower limit = B_HK_B11D7A_LCTRDHI30 = 1300 / BHKLCBLK11DM7A Red upper limit = B_HK_B11D7A_LCTYELO30 = -1097 / BHKLCBLK11DM7A Yellow lower limit = B_HK_B11D7ATYEHI30 = 1000 / BHKLCBLK11DM7A Yellow upper limit = B_HK_B11D7ATRDLO32 = -1097 / BHKLCBLK11DM7B Red lower limit = B_HK_B11D7B_LCTRDHI32 = 1300 / BHKLCBLK11DM7B Red upper limit = B_HK_B11D7B_LCTYELO32 = -1097 / BHKLCBLK11DM7B Yellow lower limit = B_HK_B11D7BTYEHI32 = 1000 / BHKLCBLK11DM7B Yellow upper limit = B_HK_B11D7BTRDLO34 = -1097 / BHKLCBLK12DM0A Red lower limit = B_HK_B12D0A_LCTRDHI34 = 1300 / BHKLCBLK12DM0A Red upper limit = B_HK_B12D0A_LCTYELO34 = -1097 / BHKLCBLK12DM0A Yellow lower limit = B_HK_B12D0ATYEHI34 = 1000 / BHKLCBLK12DM0A Yellow upper limit = B_HK_B12D0ATRDLO36 = -1097 / BHKLCBLK12DM0B Red lower limit = B_HK_B12D0B_LCTRDHI36 = 1300 / BHKLCBLK12DM0B Red upper limit = B_HK_B12D0B_LCTYELO36 = -1097 / BHKLCBLK12DM0B Yellow lower limit = B_HK_B12D0BTYEHI36 = 1000 / BHKLCBLK12DM0B Yellow upper limit = B_HK_B12D0BTRDLO38 = -1097 / BHKLCBLK12DM1A Red lower limit = B_HK_B12D1A_LCTRDHI38 = 1300 / BHKLCBLK12DM1A Red upper limit = B_HK_B12D1A_LCTYELO38 = -1097 / BHKLCBLK12DM1A Yellow lower limit = B_HK_B12D1ATYEHI38 = 1000 / BHKLCBLK12DM1A Yellow upper limit = B_HK_B12D1ATRDLO40 = -1097 / BHKLCBLK12DM1B Red lower limit = B_HK_B12D1B_LCTRDHI40 = 1300 / BHKLCBLK12DM1B Red upper limit = B_HK_B12D1B_LCTYELO40 = -1097 / BHKLCBLK12DM1B Yellow lower limit = B_HK_B12D1BTYEHI40 = 1000 / BHKLCBLK12DM1B Yellow upper limit = B_HK_B12D1BTRDLO42 = -1097 / BHKLCBLK12DM2A Red lower limit = B_HK_B12D2A_LCTRDHI42 = 1300 / BHKLCBLK12DM2A Red upper limit = B_HK_B12D2A_LCTYELO42 = -1097 / BHKLCBLK12DM2A Yellow lower limit = B_HK_B12D2ATYEHI42 = 1000 / BHKLCBLK12DM2A Yellow upper limit = B_HK_B12D2ATRDLO44 = -1097 / BHKLCBLK12DM2B Red lower limit = B_HK_B12D2B_LCTRDHI44 = 1300 / BHKLCBLK12DM2B Red upper limit = B_HK_B12D2B_LCTYELO44 = -1097 / BHKLCBLK12DM2B Yellow lower limit = B_HK_B12D2BTYEHI44 = 1000 / BHKLCBLK12DM2B Yellow upper limit = B_HK_B12D2BTRDLO46 = -1097 / BHKLCBLK12DM3A Red lower limit = B_HK_B12D3A_LCTRDHI46 = 1300 / BHKLCBLK12DM3A Red upper limit = B_HK_B12D3A_LCTYELO46 = -1097 / BHKLCBLK12DM3A Yellow lower limit = B_HK_B12D3ATYEHI46 = 1000 / BHKLCBLK12DM3A Yellow upper limit = B_HK_B12D3ATRDLO48 = -1097 / BHKLCBLK12DM3B Red lower limit = B_HK_B12D3B_LCTRDHI48 = 1300 / BHKLCBLK12DM3B Red upper limit = B_HK_B12D3B_LCTYELO48 = -1097 / BHKLCBLK12DM3B Yellow lower limit = B_HK_B12D3BTYEHI48 = 1000 / BHKLCBLK12DM3B Yellow upper limit = B_HK_B12D3BTRDLO50 = -1097 / BHKLCBLK12DM4A Red lower limit = B_HK_B12D4A_LCTRDHI50 = 1300 / BHKLCBLK12DM4A Red upper limit = B_HK_B12D4A_LCTYELO50 = -1097 / BHKLCBLK12DM4A Yellow lower limit = B_HK_B12D4ATYEHI50 = 1000 / BHKLCBLK12DM4A Yellow upper limit = B_HK_B12D4ATRDLO52 = -1097 / BHKLCBLK12DM4B Red lower limit = B_HK_B12D4B_LCTRDHI52 = 1300 / BHKLCBLK12DM4B Red upper limit = B_HK_B12D4B_LCTYELO52 = -1097 / BHKLCBLK12DM4B Yellow lower limit = B_HK_B12D4BTYEHI52 = 1000 / BHKLCBLK12DM4B Yellow upper limit = B_HK_B12D4BTRDLO54 = -1097 / BHKLCBLK12DM5A Red lower limit = B_HK_B12D5A_LCTRDHI54 = 1300 / BHKLCBLK12DM5A Red upper limit = B_HK_B12D5A_LCTYELO54 = -1097 / BHKLCBLK12DM5A Yellow lower limit = B_HK_B12D5ATYEHI54 = 1000 / BHKLCBLK12DM5A Yellow upper limit = B_HK_B12D5ATRDLO56 = -1097 / BHKLCBLK12DM5B Red lower limit = B_HK_B12D5B_LCTRDHI56 = 1300 / BHKLCBLK12DM5B Red upper limit = B_HK_B12D5B_LCTYELO56 = -1097 / BHKLCBLK12DM5B Yellow lower limit = B_HK_B12D5BTYEHI56 = 1000 / BHKLCBLK12DM5B Yellow upper limit = B_HK_B12D5BTRDLO58 = -1097 / BHKLCBLK12DM6A Red lower limit = B_HK_B12D6A_LCTRDHI58 = 1300 / BHKLCBLK12DM6A Red upper limit = B_HK_B12D6A_LCTYELO58 = -1097 / BHKLCBLK12DM6A Yellow lower limit = B_HK_B12D6ATYEHI58 = 1000 / BHKLCBLK12DM6A Yellow upper limit = B_HK_B12D6ATRDLO60 = -1097 / BHKLCBLK12DM6B Red lower limit = B_HK_B12D6B_LCTRDHI60 = 1300 / BHKLCBLK12DM6B Red upper limit = B_HK_B12D6B_LCTYELO60 = -1097 / BHKLCBLK12DM6B Yellow lower limit = B_HK_B12D6BTYEHI60 = 1000 / BHKLCBLK12DM6B Yellow upper limit = B_HK_B12D6BTRDLO62 = -1097 / BHKLCBLK12DM7A Red lower limit = B_HK_B12D7A_LCTRDHI62 = 1300 / BHKLCBLK12DM7A Red upper limit = B_HK_B12D7A_LCTYELO62 = -1097 / BHKLCBLK12DM7A Yellow lower limit = B_HK_B12D7ATYEHI62 = 1000 / BHKLCBLK12DM7A Yellow upper limit = B_HK_B12D7ATRDLO64 = -1097 / BHKLCBLK12DM7B Red lower limit = B_HK_B12D7B_LCTRDHI64 = 1300 / BHKLCBLK12DM7B Red upper limit = B_HK_B12D7B_LCTYELO64 = -1097 / BHKLCBLK12DM7B Yellow lower limit = B_HK_B12D7BTYEHI64 = 1000 / BHKLCBLK12DM7B Yellow upper limit = B_HK_B12D7BTRDLO66 = -1097 / BHKLCBLK13DM0A Red lower limit = B_HK_B13D0A_LCTRDHI66 = 1300 / BHKLCBLK13DM0A Red upper limit = B_HK_B13D0A_LCTYELO66 = -1097 / BHKLCBLK13DM0A Yellow lower limit = B_HK_B13D0ATYEHI66 = 1000 / BHKLCBLK13DM0A Yellow upper limit = B_HK_B13D0ATRDLO68 = -1097 / BHKLCBLK13DM0B Red lower limit = B_HK_B13D0B_LCTRDHI68 = 1300 / BHKLCBLK13DM0B Red upper limit = B_HK_B13D0B_LCTYELO68 = -1097 / BHKLCBLK13DM0B Yellow lower limit = B_HK_B13D0BTYEHI68 = 1000 / BHKLCBLK13DM0B Yellow upper limit = B_HK_B13D0BTRDLO70 = -1097 / BHKLCBLK13DM1A Red lower limit = B_HK_B13D1A_LCTRDHI70 = 1300 / BHKLCBLK13DM1A Red upper limit = B_HK_B13D1A_LCTYELO70 = -1097 / BHKLCBLK13DM1A Yellow lower limit = B_HK_B13D1ATYEHI70 = 1000 / BHKLCBLK13DM1A Yellow upper limit = B_HK_B13D1ATRDLO72 = -1097 / BHKLCBLK13DM1B Red lower limit = B_HK_B13D1B_LCTRDHI72 = 1300 / BHKLCBLK13DM1B Red upper limit = B_HK_B13D1B_LCTYELO72 = -1097 / BHKLCBLK13DM1B Yellow lower limit = B_HK_B13D1BTYEHI72 = 1000 / BHKLCBLK13DM1B Yellow upper limit = B_HK_B13D1BTRDLO74 = -1097 / BHKLCBLK13DM2A Red lower limit = B_HK_B13D2A_LCTRDHI74 = 1300 / BHKLCBLK13DM2A Red upper limit = B_HK_B13D2A_LCTYELO74 = -1097 / BHKLCBLK13DM2A Yellow lower limit = B_HK_B13D2ATYEHI74 = 1000 / BHKLCBLK13DM2A Yellow upper limit = B_HK_B13D2ATRDLO76 = -1097 / BHKLCBLK13DM2B Red lower limit = B_HK_B13D2B_LCTRDHI76 = 1300 / BHKLCBLK13DM2B Red upper limit = B_HK_B13D2B_LCTYELO76 = -1097 / BHKLCBLK13DM2B Yellow lower limit = B_HK_B13D2BTYEHI76 = 1000 / BHKLCBLK13DM2B Yellow upper limit = B_HK_B13D2BTRDLO78 = -1097 / BHKLCBLK13DM3A Red lower limit = B_HK_B13D3A_LCTRDHI78 = 1300 / BHKLCBLK13DM3A Red upper limit = B_HK_B13D3A_LCTYELO78 = -1097 / BHKLCBLK13DM3A Yellow lower limit = B_HK_B13D3ATYEHI78 = 1000 / BHKLCBLK13DM3A Yellow upper limit = B_HK_B13D3ATRDLO80 = -1097 / BHKLCBLK13DM3B Red lower limit = B_HK_B13D3B_LCTRDHI80 = 1300 / BHKLCBLK13DM3B Red upper limit = B_HK_B13D3B_LCTYELO80 = -1097 / BHKLCBLK13DM3B Yellow lower limit = B_HK_B13D3BTYEHI80 = 1000 / BHKLCBLK13DM3B Yellow upper limit = B_HK_B13D3BTRDLO82 = -1097 / BHKLCBLK13DM4A Red lower limit = B_HK_B13D4A_LCTRDHI82 = 1300 / BHKLCBLK13DM4A Red upper limit = B_HK_B13D4A_LCTYELO82 = -1097 / BHKLCBLK13DM4A Yellow lower limit = B_HK_B13D4ATYEHI82 = 1000 / BHKLCBLK13DM4A Yellow upper limit = B_HK_B13D4ATRDLO84 = -1097 / BHKLCBLK13DM4B Red lower limit = B_HK_B13D4B_LCTRDHI84 = 1300 / BHKLCBLK13DM4B Red upper limit = B_HK_B13D4B_LCTYELO84 = -1097 / BHKLCBLK13DM4B Yellow lower limit = B_HK_B13D4BTYEHI84 = 1000 / BHKLCBLK13DM4B Yellow upper limit = B_HK_B13D4BTRDLO86 = -1097 / BHKLCBLK13DM5A Red lower limit = B_HK_B13D5A_LCTRDHI86 = 1300 / BHKLCBLK13DM5A Red upper limit = B_HK_B13D5A_LCTYELO86 = -1097 / BHKLCBLK13DM5A Yellow lower limit = B_HK_B13D5ATYEHI86 = 1000 / BHKLCBLK13DM5A Yellow upper limit = B_HK_B13D5ATRDLO88 = -1097 / BHKLCBLK13DM5B Red lower limit = B_HK_B13D5B_LCTRDHI88 = 1300 / BHKLCBLK13DM5B Red upper limit = B_HK_B13D5B_LCTYELO88 = -1097 / BHKLCBLK13DM5B Yellow lower limit = B_HK_B13D5BTYEHI88 = 1000 / BHKLCBLK13DM5B Yellow upper limit = B_HK_B13D5BTRDLO90 = -1097 / BHKLCBLK13DM6A Red lower limit = B_HK_B13D6A_LCTRDHI90 = 1300 / BHKLCBLK13DM6A Red upper limit = B_HK_B13D6A_LCTYELO90 = -1097 / BHKLCBLK13DM6A Yellow lower limit = B_HK_B13D6ATYEHI90 = 1000 / BHKLCBLK13DM6A Yellow upper limit = B_HK_B13D6ATRDLO92 = -1097 / BHKLCBLK13DM6B Red lower limit = B_HK_B13D6B_LCTRDHI92 = 1300 / BHKLCBLK13DM6B Red upper limit = B_HK_B13D6B_LCTYELO92 = -1097 / BHKLCBLK13DM6B Yellow lower limit = B_HK_B13D6BTYEHI92 = 1000 / BHKLCBLK13DM6B Yellow upper limit = B_HK_B13D6BTRDLO94 = -1097 / BHKLCBLK13DM7A Red lower limit = B_HK_B13D7A_LCTRDHI94 = 1300 / BHKLCBLK13DM7A Red upper limit = B_HK_B13D7A_LCTYELO94 = -1097 / BHKLCBLK13DM7A Yellow lower limit = B_HK_B13D7ATYEHI94 = 1000 / BHKLCBLK13DM7A Yellow upper limit = B_HK_B13D7ATRDLO96 = -1097 / BHKLCBLK13DM7B Red lower limit = B_HK_B13D7B_LCTRDHI96 = 1300 / BHKLCBLK13DM7B Red upper limit = B_HK_B13D7B_LCTYELO96 = -1097 / BHKLCBLK13DM7B Yellow lower limit = B_HK_B13D7BTYEHI96 = 1000 / BHKLCBLK13DM7B Yellow upper limit = B_HK_B13D7BTRDLO98 = -1097 / BHKLCBLK14DM0A Red lower limit = B_HK_B14D0A_LCTRDHI98 = 1300 / BHKLCBLK14DM0A Red upper limit = B_HK_B14D0A_LCTYELO98 = -1097 / BHKLCBLK14DM0A Yellow lower limit = B_HK_B14D0ATYEHI98 = 1000 / BHKLCBLK14DM0A Yellow upper limit = B_HK_B14D0ATRDLO100= -1097 / BHKLCBLK14DM0B Red lower limit = B_HK_B14D0B_LCTRDHI100= 1300 / BHKLCBLK14DM0B Red upper limit = B_HK_B14D0B_LCTYELO100= -1097 / BHKLCBLK14DM0B Yellow lower limit = B_HK_B14D0BTYEHI100= 1000 / BHKLCBLK14DM0B Yellow upper limit = B_HK_B14D0BTRDLO102= -1097 / BHKLCBLK14DM1A Red lower limit = B_HK_B14D1A_LCTRDHI102= 1300 / BHKLCBLK14DM1A Red upper limit = B_HK_B14D1A_LCTYELO102= -1097 / BHKLCBLK14DM1A Yellow lower limit = B_HK_B14D1ATYEHI102= 1000 / BHKLCBLK14DM1A Yellow upper limit = B_HK_B14D1ATRDLO104= -1097 / BHKLCBLK14DM1B Red lower limit = B_HK_B14D1B_LCTRDHI104= 1300 / BHKLCBLK14DM1B Red upper limit = B_HK_B14D1B_LCTYELO104= -1097 / BHKLCBLK14DM1B Yellow lower limit = B_HK_B14D1BTYEHI104= 1000 / BHKLCBLK14DM1B Yellow upper limit = B_HK_B14D1BTRDLO106= -1097 / BHKLCBLK14DM2A Red lower limit = B_HK_B14D2A_LCTRDHI106= 1300 / BHKLCBLK14DM2A Red upper limit = B_HK_B14D2A_LCTYELO106= -1097 / BHKLCBLK14DM2A Yellow lower limit = B_HK_B14D2ATYEHI106= 1000 / BHKLCBLK14DM2A Yellow upper limit = B_HK_B14D2ATRDLO108= -1097 / BHKLCBLK14DM2B Red lower limit = B_HK_B14D2B_LCTRDHI108= 1300 / BHKLCBLK14DM2B Red upper limit = B_HK_B14D2B_LCTYELO108= -1097 / BHKLCBLK14DM2B Yellow lower limit = B_HK_B14D2BTYEHI108= 1000 / BHKLCBLK14DM2B Yellow upper limit = B_HK_B14D2BTRDLO110= -1097 / BHKLCBLK14DM3A Red lower limit = B_HK_B14D3A_LCTRDHI110= 1300 / BHKLCBLK14DM3A Red upper limit = B_HK_B14D3A_LCTYELO110= -1097 / BHKLCBLK14DM3A Yellow lower limit = B_HK_B14D3ATYEHI110= 1000 / BHKLCBLK14DM3A Yellow upper limit = B_HK_B14D3ATRDLO112= -1097 / BHKLCBLK14DM3B Red lower limit = B_HK_B14D3B_LCTRDHI112= 1300 / BHKLCBLK14DM3B Red upper limit = B_HK_B14D3B_LCTYELO112= -1097 / BHKLCBLK14DM3B Yellow lower limit = B_HK_B14D3BTYEHI112= 1000 / BHKLCBLK14DM3B Yellow upper limit = B_HK_B14D3BTRDLO114= -1097 / BHKLCBLK14DM4A Red lower limit = B_HK_B14D4A_LCTRDHI114= 1300 / BHKLCBLK14DM4A Red upper limit = B_HK_B14D4A_LCTYELO114= -1097 / BHKLCBLK14DM4A Yellow lower limit = B_HK_B14D4ATYEHI114= 1000 / BHKLCBLK14DM4A Yellow upper limit = B_HK_B14D4ATRDLO116= -1097 / BHKLCBLK14DM4B Red lower limit = B_HK_B14D4B_LCTRDHI116= 1300 / BHKLCBLK14DM4B Red upper limit = B_HK_B14D4B_LCTYELO116= -1097 / BHKLCBLK14DM4B Yellow lower limit = B_HK_B14D4BTYEHI116= 1000 / BHKLCBLK14DM4B Yellow upper limit = B_HK_B14D4BTRDLO118= -1097 / BHKLCBLK14DM5A Red lower limit = B_HK_B14D5A_LCTRDHI118= 1300 / BHKLCBLK14DM5A Red upper limit = B_HK_B14D5A_LCTYELO118= -1097 / BHKLCBLK14DM5A Yellow lower limit = B_HK_B14D5ATYEHI118= 1000 / BHKLCBLK14DM5A Yellow upper limit = B_HK_B14D5ATRDLO120= -1097 / BHKLCBLK14DM5B Red lower limit = B_HK_B14D5B_LCTRDHI120= 1300 / BHKLCBLK14DM5B Red upper limit = B_HK_B14D5B_LCTYELO120= -1097 / BHKLCBLK14DM5B Yellow lower limit = B_HK_B14D5BTYEHI120= 1000 / BHKLCBLK14DM5B Yellow upper limit = B_HK_B14D5BTRDLO122= -1097 / BHKLCBLK14DM6A Red lower limit = B_HK_B14D6A_LCTRDHI122= 1300 / BHKLCBLK14DM6A Red upper limit = B_HK_B14D6A_LCTYELO122= -1097 / BHKLCBLK14DM6A Yellow lower limit = B_HK_B14D6ATYEHI122= 1000 / BHKLCBLK14DM6A Yellow upper limit = B_HK_B14D6ATRDLO124= -1097 / BHKLCBLK14DM6B Red lower limit = B_HK_B14D6B_LCTRDHI124= 1300 / BHKLCBLK14DM6B Red upper limit = B_HK_B14D6B_LCTYELO124= -1097 / BHKLCBLK14DM6B Yellow lower limit = B_HK_B14D6BTYEHI124= 1000 / BHKLCBLK14DM6B Yellow upper limit = B_HK_B14D6BTRDLO126= -1097 / BHKLCBLK14DM7A Red lower limit = B_HK_B14D7A_LCTRDHI126= 1300 / BHKLCBLK14DM7A Red upper limit = B_HK_B14D7A_LCTYELO126= -1097 / BHKLCBLK14DM7A Yellow lower limit = B_HK_B14D7ATYEHI126= 1000 / BHKLCBLK14DM7A Yellow upper limit = B_HK_B14D7ATRDLO128= -1097 / BHKLCBLK14DM7B Red lower limit = B_HK_B14D7B_LCTRDHI128= 1300 / BHKLCBLK14DM7B Red upper limit = B_HK_B14D7B_LCTYELO128= -1097 / BHKLCBLK14DM7B Yellow lower limit = B_HK_B14D7BTYEHI128= 1000 / BHKLCBLK14DM7B Yellow upper limit = B_HK_B14D7BTRDLO130= -1097 / BHKLCBLK15DM0A Red lower limit = B_HK_B15D0A_LCTRDHI130= 1300 / BHKLCBLK15DM0A Red upper limit = B_HK_B15D0A_LCTYELO130= -1097 / BHKLCBLK15DM0A Yellow lower limit = B_HK_B15D0ATYEHI130= 1000 / BHKLCBLK15DM0A Yellow upper limit = B_HK_B15D0ATRDLO132= -1097 / BHKLCBLK15DM0B Red lower limit = B_HK_B15D0B_LCTRDHI132= 1300 / BHKLCBLK15DM0B Red upper limit = B_HK_B15D0B_LCTYELO132= -1097 / BHKLCBLK15DM0B Yellow lower limit = B_HK_B15D0BTYEHI132= 1000 / BHKLCBLK15DM0B Yellow upper limit = B_HK_B15D0BTRDLO134= -1097 / BHKLCBLK15DM1A Red lower limit = B_HK_B15D1A_LCTRDHI134= 1300 / BHKLCBLK15DM1A Red upper limit = B_HK_B15D1A_LCTYELO134= -1097 / BHKLCBLK15DM1A Yellow lower limit = B_HK_B15D1ATYEHI134= 1000 / BHKLCBLK15DM1A Yellow upper limit = B_HK_B15D1ATRDLO136= -1097 / BHKLCBLK15DM1B Red lower limit = B_HK_B15D1B_LCTRDHI136= 1300 / BHKLCBLK15DM1B Red upper limit = B_HK_B15D1B_LCTYELO136= -1097 / BHKLCBLK15DM1B Yellow lower limit = B_HK_B15D1BTYEHI136= 1000 / BHKLCBLK15DM1B Yellow upper limit = B_HK_B15D1BTRDLO138= -1097 / BHKLCBLK15DM2A Red lower limit = B_HK_B15D2A_LCTRDHI138= 1300 / BHKLCBLK15DM2A Red upper limit = B_HK_B15D2A_LCTYELO138= -1097 / BHKLCBLK15DM2A Yellow lower limit = B_HK_B15D2ATYEHI138= 1000 / BHKLCBLK15DM2A Yellow upper limit = B_HK_B15D2ATRDLO140= -1097 / BHKLCBLK15DM2B Red lower limit = B_HK_B15D2B_LCTRDHI140= 1300 / BHKLCBLK15DM2B Red upper limit = B_HK_B15D2B_LCTYELO140= -1097 / BHKLCBLK15DM2B Yellow lower limit = B_HK_B15D2BTYEHI140= 1000 / BHKLCBLK15DM2B Yellow upper limit = B_HK_B15D2BTRDLO142= -1097 / BHKLCBLK15DM3A Red lower limit = B_HK_B15D3A_LCTRDHI142= 1300 / BHKLCBLK15DM3A Red upper limit = B_HK_B15D3A_LCTYELO142= -1097 / BHKLCBLK15DM3A Yellow lower limit = B_HK_B15D3ATYEHI142= 1000 / BHKLCBLK15DM3A Yellow upper limit = B_HK_B15D3ATRDLO144= -1097 / BHKLCBLK15DM3B Red lower limit = B_HK_B15D3B_LCTRDHI144= 1300 / BHKLCBLK15DM3B Red upper limit = B_HK_B15D3B_LCTYELO144= -1097 / BHKLCBLK15DM3B Yellow lower limit = B_HK_B15D3BTYEHI144= 1000 / BHKLCBLK15DM3B Yellow upper limit = B_HK_B15D3BTRDLO146= -1097 / BHKLCBLK15DM4A Red lower limit = B_HK_B15D4A_LCTRDHI146= 1300 / BHKLCBLK15DM4A Red upper limit = B_HK_B15D4A_LCTYELO146= -1097 / BHKLCBLK15DM4A Yellow lower limit = B_HK_B15D4ATYEHI146= 1000 / BHKLCBLK15DM4A Yellow upper limit = B_HK_B15D4ATRDLO148= -1097 / BHKLCBLK15DM4B Red lower limit = B_HK_B15D4B_LCTRDHI148= 1300 / BHKLCBLK15DM4B Red upper limit = B_HK_B15D4B_LCTYELO148= -1097 / BHKLCBLK15DM4B Yellow lower limit = B_HK_B15D4BTYEHI148= 1000 / BHKLCBLK15DM4B Yellow upper limit = B_HK_B15D4BTRDLO150= -1097 / BHKLCBLK15DM5A Red lower limit = B_HK_B15D5A_LCTRDHI150= 1300 / BHKLCBLK15DM5A Red upper limit = B_HK_B15D5A_LCTYELO150= -1097 / BHKLCBLK15DM5A Yellow lower limit = B_HK_B15D5ATYEHI150= 1000 / BHKLCBLK15DM5A Yellow upper limit = B_HK_B15D5ATRDLO152= -1097 / BHKLCBLK15DM5B Red lower limit = B_HK_B15D5B_LCTRDHI152= 1300 / BHKLCBLK15DM5B Red upper limit = B_HK_B15D5B_LCTYELO152= -1097 / BHKLCBLK15DM5B Yellow lower limit = B_HK_B15D5BTYEHI152= 1000 / BHKLCBLK15DM5B Yellow upper limit = B_HK_B15D5BTRDLO154= -1097 / BHKLCBLK15DM6A Red lower limit = B_HK_B15D6A_LCTRDHI154= 1300 / BHKLCBLK15DM6A Red upper limit = B_HK_B15D6A_LCTYELO154= -1097 / BHKLCBLK15DM6A Yellow lower limit = B_HK_B15D6ATYEHI154= 1000 / BHKLCBLK15DM6A Yellow upper limit = B_HK_B15D6ATRDLO156= -1097 / BHKLCBLK15DM6B Red lower limit = B_HK_B15D6B_LCTRDHI156= 1300 / BHKLCBLK15DM6B Red upper limit = B_HK_B15D6B_LCTYELO156= -1097 / BHKLCBLK15DM6B Yellow lower limit = B_HK_B15D6BTYEHI156= 1000 / BHKLCBLK15DM6B Yellow upper limit = B_HK_B15D6BTRDLO158= -1097 / BHKLCBLK15DM7A Red lower limit = B_HK_B15D7A_LCTRDHI158= 1300 / BHKLCBLK15DM7A Red upper limit = B_HK_B15D7A_LCTYELO158= -1097 / BHKLCBLK15DM7A Yellow lower limit = B_HK_B15D7ATYEHI158= 1000 / BHKLCBLK15DM7A Yellow upper limit = B_HK_B15D7ATRDLO160= -1097 / BHKLCBLK15DM7B Red lower limit = B_HK_B15D7B_LCTRDHI160= 1300 / BHKLCBLK15DM7B Red upper limit = B_HK_B15D7B_LCTYELO160= -1097 / BHKLCBLK15DM7B Yellow lower limit = B_HK_B15D7BTYEHI160= 1000 / BHKLCBLK15DM7B Yellow upper limit = B_HK_B15D7BHISTORY TASK: FAPPND on FILENAME: sw01185673000b175x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�c��9�g��U��*�8�7��!��<�r��`�`� �� J�D��C��?�#�i�I�O��"��1��Q�� d��o�Z��[�2�K�\�Z�Z�7��M��rA�F�r��8�f��Q��'�9�6�� %�t��a�_� ��J�C��D�� @�!�k�L�O��!��/��L��v��o�[��]�4�K�Z�Q�Z�.��N��͍A�F�� 9�g��M��,�9�7�� >�s��d�}�!�� L�C��U�}�� >�#�i�J�Q�� "��1��C��e��o�Z��^�3�M�\�[�[�3��N��=A�F��9�d��L��+�9�7�� ?�s��c�R�!��I�C��m�� D�"�k�Q�M�� #��2��R��k��p�Z��\�3�J�\�\�X�3��L��A�F��H�9�g��L��%�:�7�� :�r��a�a�!��G�9��a�� ^�"�l�O�N��#��1��H��s��p�Z��\�2�J�\�_�W�4��K��A�F��Յ9�g��M��(�;�8�� '�t��b�a�!��J�9��e�|� �� B�!�j�V�O�� 3��M��q��o�[��^�5�K�\�W�W�2��M��A�F��9�f��J��(�8�8�� C�r��b�i�"��O�A��k�}��C�"�k�L�N�� "��0��N��n��o�Z��\�3�J�]�U�[�3��J��ͧA�F�̸��9�e��J��$�9�7�� <�r��b�h�!��M�<��l�|�� <�"�k�J�M��"��1��V��u��p�Z��]�3�K�]�Z�[�4��M��A�F�۹ޅ9�f��I��)�8�7��!��r��b�l�!��J�8��S�|��;�#�k�H�M�� "��1��T��e��q�Z��^�3�K�[�^�[�5��K��RA�F��6�9�f��I��%�9�9�� r��c�l�!��H�@��T�|��A�#�k�I�N�� /��X�~��l��o�Z��[�2�K�]�^�W�5��J��CA�F��b�8�e��M��(�:�8�� @�r��b�� I�B��h�}� �� <�!�k�O�M��0��R�y��g��p�Z��\�4�J�Z�\�W�3��K��nA�F��:�f��L��'�:�8��!��>�r��c�w�!��I�C��N�}� �� B�!�l�N�L�� 0��D��g��p�[��]�4�J�[�^�V�5��K��A�F�� :�g��I��&�9�7�� "�s��a�g�!��J�=��n�|��B�#�i�S�L��!��/��B�� f��q�Z��[�3�J�]�Z�U�<��L��UA�F�&�Q��:�e��J��%�8�7�� @�s��b�S�!�� R�A��p�~�� >�!�k�S�N��"��1��O�� m��p�[��\�3�J�[�Y�T�9��N��ɴA�F�5�/�9�e��J��'�9�7��!��=�r��c�t�!��L�C��D�|��?�"�h�I�M�� 3��N��m��q�Z��\�3�K�\�Y�W�6��O��zA�F�D��:�d��d��&�:�8��!��#�s��a�b�!��O�G��?�~� ��A�$�i�K�L�� 1��P��n��p�Z��\�4�K�]�Y�V�5��M��~A�F�S�.�:�e��U��,�9�8��!��@�u��d�t�!�� B�G��_�� A�"�j�J�K��2��O��n��p�Z��^�3�K�]�[�W�1��M��lA�F�b�ޅ9�d��U��)�9�8�� @�s��a�k�!�� L�G��B�~�� C�#�k�Q�M��1��I��d��q�Z��_�3�I�\�Z�X�1��M��A�F�q��;�f��T��)�8�7�� $�r��b�j� ��I�F��a��B�$�j�S�M�� 0��T��u��q�Z��]�4�J�\�]�U�6��N��ǒA�F��.�:�d��S��&�9�7�� C�s��c�� M�@��h��I�#�i�J�N��0��L��j��p�[��\�2�J�^�^�S�3��M��kA�F��ޅ:�d��O��+�:�8�� D�q��a�h�!��F�=��f�|� ��D�#�n�P�L��1��G��t��q�Z��\�3�K�^�a�S�5��O��A�F��Y�;�f��K��)�8�7�� )�r��_�j� ��E�>��B��@�"�k�G�L�� 0��>�� r��p�[��\�4�K�]�`�U�2��L��A�F��b�:�f��K��)�:�7��!��"�r��b�b�!��F�?��Y�~�� =�"�n�E�N�� 1��M��i��p�[��[�4�K�a�`�V�7��K��*A�F��:�f��N��&�:�7��!��A�t��b�`�!��A�C��h�~��A�!�r�J�L�� 2��L��i��q�[��]�4�K�`�^�T�3��N��A�F�˸��:�e��O��)�9�8��!��=�t��b��!��G�>��h��B�"�n�Q�L�� 2��C��o��p�Z��^�3�K�]�Z�U�;��M��A�F�ڸ� �:�f��N��(�:�7�� s��b�_�"��F�>��E�~��#��?�"�n�R�L��2��G�� u��q�Z��\�4�K�_�a�U�7��M��A�F��}�;�g��L��)�9�7��!��,�q��`�_�!��H�F��C�|��L�#�o�L�L�� 2��R��m��q�Z��_�3�J�`�^�T�4��N��#A�F��:�f��L��%�9�7��!��>�r��`��!��C�E��e��>�"�o�N�K�� 3��E��{��p�Z��_�2�J�_�_�T�0��M��ˣA�F��.�:�i��N��&�;�8�� ;�t��a�Q�!��@�K��O��F�%�n�P�K��4��;��r��p�Z��_�3�K�^�Y�R�2��N��]A�F��:�h��K��,�=�7��!��#�t��a�g�!��?�G��g�� A�#�p�M�K��3��@��h��p�[��`�2�K�]�\�R�7��O��A�F�%�ͅ;�i��K��*�:�7��!��>�s��a�S�!��H�E��I��;�#�n�N�I�� 3��D��q��q�[��a�4�J�_�`�R�4��Q��A�F�4�.�;�i��K��+�<�8�� :�s��a�v�!��G�C��i��?�$�m�L�I��4��@��n��q�Z��^�5�J�^�_�S�7��Q��ɺA�F�C��;�f��]��+�<�:�� u��a�Y�!��J�E��V��A�#�n�S�I��3��:��h��q�Z��]�2�K�_�W�U�4��N��̈A�F�R�ͅ:�h��\��,�<�8��!��t��`��!��H�H��K��=�%�o�J�I��4��A��s��p�Z��\�4�K�^�Z�V�;��P��ʸA�F�a��:�g��X��*�<�8�� ?�v��b�T�!��C�G��?��:�$�n�Q�K�� 4��D��s��q�Z��]�3�J�\�X�V�0��P��aA�F�p�.�:�h��U��(�;�9�� >�u��b�g�!��B�G��?��H�%�m�P�K�� 3��G�� o��q�[��^�3�K�\�]�T�6��O��A�F��:�g��W��(�9�8��!��#�x��b�a�!��A�@��j��I�$�l�S�J��2��@�� s��q�[��_�3�K�`�g�V�5��N��.A�F��:�i��W��(�;�8��!��B�v��a�s�!��?�D��?��:�%�n�K�K�� 2��5��p��p�[��_�3�J�]�g�V�1��M��A�F��:�j��R��&�;�8��!��<�w��a�{�!��>�F��i�� >�$�o�I�L�� 2��A��v��q�[��^�3�K�`�c�V�6��M��3A�F��j�:�j��P��+�9�8�� 9�v��_�b�!��@�C��g��>�"�o�P�J�� 4��C��k��q�Z��^�2�K�b�^�V�4��N��ɩA�F�� :�i��P��(�;�7�� &�v��`�o�!��?�C��B�� ;�!�n�R�K�� 1��9��p��q�[��[�2�K�`�[�U�3��L��A�F�ʸ��9�i��M��&�9�7��!��@�w��b�a�!��>�B��L��K�!�k�L�K�� 3��C��}��q�[��]�2�K�a�`�V�5��M��A�F�ٸ��9�i��N��(�8�8��"��A�v��b�g�!��<�F��Z��C�#�j�L�J��1��6��}��q�[��[�3�K�_�^�S�5��N��3A�F��}�9�j��I��(�9�7��!�� x��a��!��B�D��E��=�"�n�G�K�� 2��C��v��r�[��]�2�K�_�]�V�7��O��A�F��b�:�k��L��+�;�7��"��x��a�~�!��C�H��f�� <�$�n�G�K�� 1��4��r��q�Z��Z�2�J�a�^�X�9��O��A�F��b�9�j��O��+�:�8��!��A�u��b�e�!��C�@��r��>�$�m�G�K�� 1��;��w��q�Z��\�1�K�a�`�W�7��P��A�F��:�h��N��*�:�8�� >�x��b�^�!��B�:��>��<�#�p�P�K�� !��1��@�� |��q�Z��\�2�K�b�Y�W�3��O��˶A�F�$��:�i��N��(�<�7��!��,�w��a�[�!��?�@��Z��9�$�l�N�J�� 1��F��q�[��\�2�J�a�^�T�6��N��`A�F�3��:�k��N��&�;�:��!��D�v��b�b�!��@�A��Z��9�"�i�K�J�� 2��:�}��y��p�[��[�1�K�c�a�U�3��N��A�F�B�ޅ9�j��I��%�<�7��"��B�u��a�r� ��;�@��j�~��B�"�j�N�K��"��0��E�~��}��q�[��\�2�J�_�\�U�5��L��bA�F�Q��Y�:�k��a��(�:�7��!��8�x��b�`� ��?�?��q��?�$�k�K�K��#��2��6�~��u��p�Z��\�2�K�a�`�S�6��N��̸A�F�`��:�j��Z��&�:�7��!��&�t��a�j� ��<�?��W��>�#�l�L�K��#��1��G�� s��q�[��[�1�J�`�Y�V�3��M��A�F�o�~�9�m��T��*�:�8��"��A�u��a�W� ��@�=��;��D�$�l�M�M�� "��1��G��f��p�[��[�2�K�^�_�U�4��L��˪A�F�~��b�:�m��U��)�:�;�� ?�t��d�x� ��:�;��j��A�$�m�Q�L�� "��1��A�~��e��q�[��Z�3�J�c�]�U�5��K��AA�F��:�l��T��$�;�7��!�� t��a�[� ��5�;��m��?�$�k�T�J�� #��2��B��g��p�[��Z�2�K�a�_�S�3��M��ɱA�F��.�9�m��R��%�<�7�� A�u��b�`� �� =�:��j�� ;�!�m�O�J�� 3��A��j��p�Z��Y�2�J�_�c�V�2��M��gA�F��9�l��P��!�9�7��!��=�t��b�Z�!��D�@��<�� 7�"�i�P�J��!��3��H�~��n��q�Z��Z�1�K�a�g�T�7��I��xA�F��:�l��M��'�9�6��!��s��a�b� ��?�8��Y��A� �j�P�K��3��<��u��p�Z��\�0�J�`�d�U�3��L��!A�F�ɹ=م9�l��L��!�8�6��!��q��a�� >�<��J��<�"�k�I�K�� 4��?�~��`��p�[��[�1�J�`�a�U�4��M��ȽA�F�ظ�j�9�l��K��"�;�7��!��@�r��`�_�!��;�8��h�� 7�!�l�I�J�� 3��@�|�� i��o�[��Z�1�J�`�^�T�6��L��A�F��%�9�m��J��"�:�6��!��<�r��a�m� ��>�:��l�� :�"�i�N�K��4��I�~��j��p�[��Y�1�J�^�b�S�6��J��A�F��b�9�k��J��"�:�7��!��r��`�k� ��@�;��=��?�!�m�Q�I�� 2��E�~��s��q�Z��Z�1�J�]�`�S�7��N��ɯA�F��Յ9�k��K��"�9�6��!��?�q��b�}�!��@�6��I��=� �n�J�J�� 2��>��l��p�[��Y�2�I�\�a�Q�1��M��GA�F��ޅ9�j��M��$�<�6��!��=�q��a�v� ��D�8��h��<� �k�J�I�� 0��H��b��p�Z��Z�0�I�^�c�R�6��N��7A�F�#��9�j��I��$�;�6��"��-�s��a�� D�7��_��9�!�m�L�I�� 2��K�}��q��p�[��\�2�I�_�f�R�0��L��nA�F�2�6�9�j��K��&�<�4��"��s��b�[� ��A�7��j�� ?�!�l�J�I�� !��2��C��f��p�[��\�2�J�a�i�P�1��J��ɝA�F�A��9�m��L��&�;�6��!��r��`�c� ��B�8��;��B�!�i�L�I�� 1��F��d��p�Z��\�0�I�]�d�Q�7��K��1A�F�P�}�9�k��N��(�:�6��!��<�q��b��C�9��H��F�!�j�N�I�� /��E��i��p�Z��[�1�I�^�^�Q�8��K��kA�F�_�� 8�l��\��"�9�:�� 1�q��_��I�:��e��8�!�j�R�I�� .��E��a��o�[��\�1�J�]�e�R�4��M��A�F�n�Յ9�k��R��+�9�6�� $�r��`�r� ��B�7��Z�� 9��n�J�J�� 0��P��d��p�[��^�0�I�]�c�S�5��M��eA�F�}��9�i��R��)�8�6��!��<�p��`�[� ��C�7��G�� ;��k�S�J��!��1��N��l��o�[��]�1�I�Y�d�Q�5��N��PA�F��E�9�k��S��(�9�6��!��5�q��a�s� ��F�7��b��<� �i�O�L�� !��1��M��s��p�Z��_�0�J�_�c�P�5��M��4A�F��9�j��R��*�9�6��"��!�r��b�� =�5��n��=�!�k�L�K�� "��0��G��o�Z��[�1�H�^�i�Q�3��O��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 194 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKXA1TBLK0DM0A' / Block 0, DM 0, Side A XA1 Temperature TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL2 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT2 = 'Celsius ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKXA1TBLK0DM0B' / Block 0, DM 0, Side B XA1 Temperature TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL4 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT4 = 'Celsius ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKXA1TBLK0DM1A' / Block 0, DM 1, Side A XA1 Temperature TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL6 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT6 = 'Celsius ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKXA1TBLK0DM1B' / Block 0, DM 1, Side B XA1 Temperature TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL8 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKXA1TBLK0DM2A' / Block 0, DM 2, Side A XA1 Temperature TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL10 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKXA1TBLK0DM2B' / Block 0, DM 2, Side B XA1 Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL12 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKXA1TBLK0DM3A' / Block 0, DM 3, Side A XA1 Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL14 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT14 = 'Celsius ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKXA1TBLK0DM3B' / Block 0, DM 3, Side B XA1 Temperature TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL16 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT16 = 'Celsius ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKXA1TBLK0DM4A' / Block 0, DM 4, Side A XA1 Temperature TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL18 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT18 = 'Celsius ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKXA1TBLK0DM4B' / Block 0, DM 4, Side B XA1 Temperature TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL20 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT20 = 'Celsius ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKXA1TBLK0DM5A' / Block 0, DM 5, Side A XA1 Temperature TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL22 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT22 = 'Celsius ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKXA1TBLK0DM5B' / Block 0, DM 5, Side B XA1 Temperature TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL24 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT24 = 'Celsius ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKXA1TBLK0DM6A' / Block 0, DM 6, Side A XA1 Temperature TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL26 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKXA1TBLK0DM6B' / Block 0, DM 6, Side B XA1 Temperature TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL28 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKXA1TBLK0DM7A' / Block 0, DM 7, Side A XA1 Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL30 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKXA1TBLK0DM7B' / Block 0, DM 7, Side B XA1 Temperature TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL32 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT32 = 'Celsius ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKXA1TBLK1DM0A' / Block 1, DM 0, Side A XA1 Temperature TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL34 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT34 = 'Celsius ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKXA1TBLK1DM0B' / Block 1, DM 0, Side B XA1 Temperature TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL36 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT36 = 'Celsius ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKXA1TBLK1DM1A' / Block 1, DM 1, Side A XA1 Temperature TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL38 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT38 = 'Celsius ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKXA1TBLK1DM1B' / Block 1, DM 1, Side B XA1 Temperature TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL40 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT40 = 'Celsius ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKXA1TBLK1DM2A' / Block 1, DM 2, Side A XA1 Temperature TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL42 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT42 = 'Celsius ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKXA1TBLK1DM2B' / Block 1, DM 2, Side B XA1 Temperature TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL44 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKXA1TBLK1DM3A' / Block 1, DM 3, Side A XA1 Temperature TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL46 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKXA1TBLK1DM3B' / Block 1, DM 3, Side B XA1 Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL48 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKXA1TBLK1DM4A' / Block 1, DM 4, Side A XA1 Temperature TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL50 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT50 = 'Celsius ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKXA1TBLK1DM4B' / Block 1, DM 4, Side B XA1 Temperature TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL52 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT52 = 'Celsius ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKXA1TBLK1DM5A' / Block 1, DM 5, Side A XA1 Temperature TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL54 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT54 = 'Celsius ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKXA1TBLK1DM5B' / Block 1, DM 5, Side B XA1 Temperature TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL56 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT56 = 'Celsius ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKXA1TBLK1DM6A' / Block 1, DM 6, Side A XA1 Temperature TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL58 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT58 = 'Celsius ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKXA1TBLK1DM6B' / Block 1, DM 6, Side B XA1 Temperature TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL60 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT60 = 'Celsius ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKXA1TBLK1DM7A' / Block 1, DM 7, Side A XA1 Temperature TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL62 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKXA1TBLK1DM7B' / Block 1, DM 7, Side B XA1 Temperature TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL64 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKXA1TBLK2DM0A' / Block 2, DM 0, Side A XA1 Temperature TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL66 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKXA1TBLK2DM0B' / Block 2, DM 0, Side B XA1 Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL68 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKXA1TBLK2DM1A' / Block 2, DM 1, Side A XA1 Temperature TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL70 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKXA1TBLK2DM1B' / Block 2, DM 1, Side B XA1 Temperature TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL72 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKXA1TBLK2DM2A' / Block 2, DM 2, Side A XA1 Temperature TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL74 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKXA1TBLK2DM2B' / Block 2, DM 2, Side B XA1 Temperature TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL76 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKXA1TBLK2DM3A' / Block 2, DM 3, Side A XA1 Temperature TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL78 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKXA1TBLK2DM3B' / Block 2, DM 3, Side B XA1 Temperature TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL80 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKXA1TBLK2DM4A' / Block 2, DM 4, Side A XA1 Temperature TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL82 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKXA1TBLK2DM4B' / Block 2, DM 4, Side B XA1 Temperature TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL84 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKXA1TBLK2DM5A' / Block 2, DM 5, Side A XA1 Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL86 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKXA1TBLK2DM5B' / Block 2, DM 5, Side B XA1 Temperature TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL88 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKXA1TBLK2DM6A' / Block 2, DM 6, Side A XA1 Temperature TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL90 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKXA1TBLK2DM6B' / Block 2, DM 6, Side B XA1 Temperature TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL92 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKXA1TBLK2DM7A' / Block 2, DM 7, Side A XA1 Temperature TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL94 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKXA1TBLK2DM7B' / Block 2, DM 7, Side B XA1 Temperature TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL96 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKXA1TBLK3DM0A' / Block 3, DM 0, Side A XA1 Temperature TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL98 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKXA1TBLK3DM0B' / Block 3, DM 0, Side B XA1 Temperature TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL100= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKXA1TBLK3DM1A' / Block 3, DM 1, Side A XA1 Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL102= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKXA1TBLK3DM1B' / Block 3, DM 1, Side B XA1 Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL104= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKXA1TBLK3DM2A' / Block 3, DM 2, Side A XA1 Temperature TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL106= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKXA1TBLK3DM2B' / Block 3, DM 2, Side B XA1 Temperature TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL108= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKXA1TBLK3DM3A' / Block 3, DM 3, Side A XA1 Temperature TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL110= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKXA1TBLK3DM3B' / Block 3, DM 3, Side B XA1 Temperature TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL112= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKXA1TBLK3DM4A' / Block 3, DM 4, Side A XA1 Temperature TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL114= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKXA1TBLK3DM4B' / Block 3, DM 4, Side B XA1 Temperature TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL116= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKXA1TBLK3DM5A' / Block 3, DM 5, Side A XA1 Temperature TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL118= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKXA1TBLK3DM5B' / Block 3, DM 5, Side B XA1 Temperature TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL120= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKXA1TBLK3DM6A' / Block 3, DM 6, Side A XA1 Temperature TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL122= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKXA1TBLK3DM6B' / Block 3, DM 6, Side B XA1 Temperature TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL124= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKXA1TBLK3DM7A' / Block 3, DM 7, Side A XA1 Temperature TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL126= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKXA1TBLK3DM7B' / Block 3, DM 7, Side B XA1 Temperature TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL128= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKXA1TBLK4DM0A' / Block 4, DM 0, Side A XA1 Temperature TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL130= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT130= 'Celsius ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKXA1TBLK4DM0B' / Block 4, DM 0, Side B XA1 Temperature TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL132= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT132= 'Celsius ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKXA1TBLK4DM1A' / Block 4, DM 1, Side A XA1 Temperature TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL134= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT134= 'Celsius ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKXA1TBLK4DM1B' / Block 4, DM 1, Side B XA1 Temperature TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL136= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT136= 'Celsius ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKXA1TBLK4DM2A' / Block 4, DM 2, Side A XA1 Temperature TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL138= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT138= 'Celsius ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKXA1TBLK4DM2B' / Block 4, DM 2, Side B XA1 Temperature TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL140= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT140= 'Celsius ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKXA1TBLK4DM3A' / Block 4, DM 3, Side A XA1 Temperature TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL142= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT142= 'Celsius ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKXA1TBLK4DM3B' / Block 4, DM 3, Side B XA1 Temperature TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL144= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT144= 'Celsius ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKXA1TBLK4DM4A' / Block 4, DM 4, Side A XA1 Temperature TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL146= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT146= 'Celsius ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKXA1TBLK4DM4B' / Block 4, DM 4, Side B XA1 Temperature TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL148= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT148= 'Celsius ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKXA1TBLK4DM5A' / Block 4, DM 5, Side A XA1 Temperature TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL150= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT150= 'Celsius ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKXA1TBLK4DM5B' / Block 4, DM 5, Side B XA1 Temperature TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL152= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT152= 'Celsius ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKXA1TBLK4DM6A' / Block 4, DM 6, Side A XA1 Temperature TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL154= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT154= 'Celsius ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKXA1TBLK4DM6B' / Block 4, DM 6, Side B XA1 Temperature TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL156= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT156= 'Celsius ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKXA1TBLK4DM7A' / Block 4, DM 7, Side A XA1 Temperature TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL158= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT158= 'Celsius ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKXA1TBLK4DM7B' / Block 4, DM 7, Side B XA1 Temperature TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL160= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT160= 'Celsius ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKXA1TBLK5DM0A' / Block 5, DM 0, Side A XA1 Temperature TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL162= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT162= 'Celsius ' / physical unit of field TTYPE163= 'undocumented81' / Bit field not in ITOS database TFORM163= '1B ' / data format of field: BYTE TTYPE164= 'BHKXA1TBLK5DM0B' / Block 5, DM 0, Side B XA1 Temperature TFORM164= '1I ' / data format of field: 2-byte INTEGER TZERO164= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL164= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT164= 'Celsius ' / physical unit of field TTYPE165= 'undocumented82' / Bit field not in ITOS database TFORM165= '1B ' / data format of field: BYTE TTYPE166= 'BHKXA1TBLK5DM1A' / Block 5, DM 1, Side A XA1 Temperature TFORM166= '1I ' / data format of field: 2-byte INTEGER TZERO166= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL166= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT166= 'Celsius ' / physical unit of field TTYPE167= 'undocumented83' / Bit field not in ITOS database TFORM167= '1B ' / data format of field: BYTE TTYPE168= 'BHKXA1TBLK5DM1B' / Block 5, DM 1, Side B XA1 Temperature TFORM168= '1I ' / data format of field: 2-byte INTEGER TZERO168= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL168= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT168= 'Celsius ' / physical unit of field TTYPE169= 'undocumented84' / Bit field not in ITOS database TFORM169= '1B ' / data format of field: BYTE TTYPE170= 'BHKXA1TBLK5DM2A' / Block 5, DM 2, Side A XA1 Temperature TFORM170= '1I ' / data format of field: 2-byte INTEGER TZERO170= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL170= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT170= 'Celsius ' / physical unit of field TTYPE171= 'undocumented85' / Bit field not in ITOS database TFORM171= '1B ' / data format of field: BYTE TTYPE172= 'BHKXA1TBLK5DM2B' / Block 5, DM 2, Side B XA1 Temperature TFORM172= '1I ' / data format of field: 2-byte INTEGER TZERO172= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL172= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT172= 'Celsius ' / physical unit of field TTYPE173= 'undocumented86' / Bit field not in ITOS database TFORM173= '1B ' / data format of field: BYTE TTYPE174= 'BHKXA1TBLK5DM3A' / Block 5, DM 3, Side A XA1 Temperature TFORM174= '1I ' / data format of field: 2-byte INTEGER TZERO174= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL174= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT174= 'Celsius ' / physical unit of field TTYPE175= 'undocumented87' / Bit field not in ITOS database TFORM175= '1B ' / data format of field: BYTE TTYPE176= 'BHKXA1TBLK5DM3B' / Block 5, DM 3, Side B XA1 Temperature TFORM176= '1I ' / data format of field: 2-byte INTEGER TZERO176= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL176= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT176= 'Celsius ' / physical unit of field TTYPE177= 'undocumented88' / Bit field not in ITOS database TFORM177= '1B ' / data format of field: BYTE TTYPE178= 'BHKXA1TBLK5DM4A' / Block 5, DM 4, Side A XA1 Temperature TFORM178= '1I ' / data format of field: 2-byte INTEGER TZERO178= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL178= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT178= 'Celsius ' / physical unit of field TTYPE179= 'undocumented89' / Bit field not in ITOS database TFORM179= '1B ' / data format of field: BYTE TTYPE180= 'BHKXA1TBLK5DM4B' / Block 5, DM 4, Side B XA1 Temperature TFORM180= '1I ' / data format of field: 2-byte INTEGER TZERO180= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL180= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT180= 'Celsius ' / physical unit of field TTYPE181= 'undocumented90' / Bit field not in ITOS database TFORM181= '1B ' / data format of field: BYTE TTYPE182= 'BHKXA1TBLK5DM5A' / Block 5, DM 5, Side A XA1 Temperature TFORM182= '1I ' / data format of field: 2-byte INTEGER TZERO182= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL182= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT182= 'Celsius ' / physical unit of field TTYPE183= 'undocumented91' / Bit field not in ITOS database TFORM183= '1B ' / data format of field: BYTE TTYPE184= 'BHKXA1TBLK5DM5B' / Block 5, DM 5, Side B XA1 Temperature TFORM184= '1I ' / data format of field: 2-byte INTEGER TZERO184= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL184= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT184= 'Celsius ' / physical unit of field TTYPE185= 'undocumented92' / Bit field not in ITOS database TFORM185= '1B ' / data format of field: BYTE TTYPE186= 'BHKXA1TBLK5DM6A' / Block 5, DM 6, Side A XA1 Temperature TFORM186= '1I ' / data format of field: 2-byte INTEGER TZERO186= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL186= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT186= 'Celsius ' / physical unit of field TTYPE187= 'undocumented93' / Bit field not in ITOS database TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BHKXA1TBLK5DM6B' / Block 5, DM 6, Side B XA1 Temperature TFORM188= '1I ' / data format of field: 2-byte INTEGER TZERO188= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL188= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT188= 'Celsius ' / physical unit of field TTYPE189= 'undocumented94' / Bit field not in ITOS database TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BHKXA1TBLK5DM7A' / Block 5, DM 7, Side A XA1 Temperature TFORM190= '1I ' / data format of field: 2-byte INTEGER TZERO190= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL190= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT190= 'Celsius ' / physical unit of field TTYPE191= 'undocumented95' / Bit field not in ITOS database TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BHKXA1TBLK5DM7B' / Block 5, DM 7, Side B XA1 Temperature TFORM192= '1I ' / data format of field: 2-byte INTEGER TZERO192= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL192= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT192= 'Celsius ' / physical unit of field TTYPE193= 'undocumented96' / Bit field not in ITOS database TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BHKXA1TSPARE0' / XA1 Temperature Packets Spare Word 0 TFORM194= '1I ' / data format of field: 2-byte INTEGER TZERO194= 32768 / offset for unsigned integers EXTNAME = 'hk176x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894087.44744 TSTOP = 713896247.44742 DATE-OBS= '2023-08-16T15:54:42' DATE-END= '2023-08-16T16:30:42' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 374 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Zdr9aZo9Udo9ZZo9' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '1104422203' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -51 / BHKXA1TBLK0DM0A Red lower limit = B_HK_B00D0A_XTRDHI2 = 28 / BHKXA1TBLK0DM0A Red upper limit = B_HK_B00D0A_XTYELO2 = -51 / BHKXA1TBLK0DM0A Yellow lower limit = B_HK_B00D0TYEHI2 = 25 / BHKXA1TBLK0DM0A Yellow upper limit = B_HK_B00D0TRDLO4 = -51 / BHKXA1TBLK0DM0B Red lower limit = B_HK_B00D0B_XTRDHI4 = 28 / BHKXA1TBLK0DM0B Red upper limit = B_HK_B00D0B_XTYELO4 = -51 / BHKXA1TBLK0DM0B Yellow lower limit = B_HK_B00D0TYEHI4 = 25 / BHKXA1TBLK0DM0B Yellow upper limit = B_HK_B00D0TRDLO6 = -51 / BHKXA1TBLK0DM1A Red lower limit = B_HK_B00D1A_XTRDHI6 = 28 / BHKXA1TBLK0DM1A Red upper limit = B_HK_B00D1A_XTYELO6 = -51 / BHKXA1TBLK0DM1A Yellow lower limit = B_HK_B00D1TYEHI6 = 25 / BHKXA1TBLK0DM1A Yellow upper limit = B_HK_B00D1TRDLO8 = -51 / BHKXA1TBLK0DM1B Red lower limit = B_HK_B00D1B_XTRDHI8 = 28 / BHKXA1TBLK0DM1B Red upper limit = B_HK_B00D1B_XTYELO8 = -51 / BHKXA1TBLK0DM1B Yellow lower limit = B_HK_B00D1TYEHI8 = 25 / BHKXA1TBLK0DM1B Yellow upper limit = B_HK_B00D1TRDLO10 = -51 / BHKXA1TBLK0DM2A Red lower limit = B_HK_B00D2A_XTRDHI10 = 28 / BHKXA1TBLK0DM2A Red upper limit = B_HK_B00D2A_XTYELO10 = -51 / BHKXA1TBLK0DM2A Yellow lower limit = B_HK_B00D2TYEHI10 = 25 / BHKXA1TBLK0DM2A Yellow upper limit = B_HK_B00D2TRDLO12 = -51 / BHKXA1TBLK0DM2B Red lower limit = B_HK_B00D2B_XTRDHI12 = 28 / BHKXA1TBLK0DM2B Red upper limit = B_HK_B00D2B_XTYELO12 = -51 / BHKXA1TBLK0DM2B Yellow lower limit = B_HK_B00D2TYEHI12 = 25 / BHKXA1TBLK0DM2B Yellow upper limit = B_HK_B00D2TRDLO14 = -51 / BHKXA1TBLK0DM3A Red lower limit = B_HK_B00D3A_XTRDHI14 = 28 / BHKXA1TBLK0DM3A Red upper limit = B_HK_B00D3A_XTYELO14 = -51 / BHKXA1TBLK0DM3A Yellow lower limit = B_HK_B00D3TYEHI14 = 25 / BHKXA1TBLK0DM3A Yellow upper limit = B_HK_B00D3TRDLO16 = -51 / BHKXA1TBLK0DM3B Red lower limit = B_HK_B00D3B_XTRDHI16 = 28 / BHKXA1TBLK0DM3B Red upper limit = B_HK_B00D3B_XTYELO16 = -51 / BHKXA1TBLK0DM3B Yellow lower limit = B_HK_B00D3TYEHI16 = 25 / BHKXA1TBLK0DM3B Yellow upper limit = B_HK_B00D3TRDLO18 = -51 / BHKXA1TBLK0DM4A Red lower limit = B_HK_B00D4A_XTRDHI18 = 28 / BHKXA1TBLK0DM4A Red upper limit = B_HK_B00D4A_XTYELO18 = -51 / BHKXA1TBLK0DM4A Yellow lower limit = B_HK_B00D4TYEHI18 = 25 / BHKXA1TBLK0DM4A Yellow upper limit = B_HK_B00D4TRDLO20 = -51 / BHKXA1TBLK0DM4B Red lower limit = B_HK_B00D4B_XTRDHI20 = 28 / BHKXA1TBLK0DM4B Red upper limit = B_HK_B00D4B_XTYELO20 = -51 / BHKXA1TBLK0DM4B Yellow lower limit = B_HK_B00D4TYEHI20 = 25 / BHKXA1TBLK0DM4B Yellow upper limit = B_HK_B00D4TRDLO22 = -51 / BHKXA1TBLK0DM5A Red lower limit = B_HK_B00D5A_XTRDHI22 = 28 / BHKXA1TBLK0DM5A Red upper limit = B_HK_B00D5A_XTYELO22 = -51 / BHKXA1TBLK0DM5A Yellow lower limit = B_HK_B00D5TYEHI22 = 25 / BHKXA1TBLK0DM5A Yellow upper limit = B_HK_B00D5TRDLO24 = -51 / BHKXA1TBLK0DM5B Red lower limit = B_HK_B00D5B_XTRDHI24 = 28 / BHKXA1TBLK0DM5B Red upper limit = B_HK_B00D5B_XTYELO24 = -51 / BHKXA1TBLK0DM5B Yellow lower limit = B_HK_B00D5TYEHI24 = 25 / BHKXA1TBLK0DM5B Yellow upper limit = B_HK_B00D5TRDLO26 = -51 / BHKXA1TBLK0DM6A Red lower limit = B_HK_B00D6A_XTRDHI26 = 28 / BHKXA1TBLK0DM6A Red upper limit = B_HK_B00D6A_XTYELO26 = -51 / BHKXA1TBLK0DM6A Yellow lower limit = B_HK_B00D6TYEHI26 = 25 / BHKXA1TBLK0DM6A Yellow upper limit = B_HK_B00D6TRDLO28 = -51 / BHKXA1TBLK0DM6B Red lower limit = B_HK_B00D6B_XTRDHI28 = 28 / BHKXA1TBLK0DM6B Red upper limit = B_HK_B00D6B_XTYELO28 = -51 / BHKXA1TBLK0DM6B Yellow lower limit = B_HK_B00D6TYEHI28 = 25 / BHKXA1TBLK0DM6B Yellow upper limit = B_HK_B00D6TRDLO30 = -51 / BHKXA1TBLK0DM7A Red lower limit = B_HK_B00D7A_XTRDHI30 = 28 / BHKXA1TBLK0DM7A Red upper limit = B_HK_B00D7A_XTYELO30 = -51 / BHKXA1TBLK0DM7A Yellow lower limit = B_HK_B00D7TYEHI30 = 25 / BHKXA1TBLK0DM7A Yellow upper limit = B_HK_B00D7TRDLO32 = -51 / BHKXA1TBLK0DM7B Red lower limit = B_HK_B00D7B_XTRDHI32 = 28 / BHKXA1TBLK0DM7B Red upper limit = B_HK_B00D7B_XTYELO32 = -51 / BHKXA1TBLK0DM7B Yellow lower limit = B_HK_B00D7TYEHI32 = 25 / BHKXA1TBLK0DM7B Yellow upper limit = B_HK_B00D7TRDLO34 = -51 / BHKXA1TBLK1DM0A Red lower limit = B_HK_B01D0A_XTRDHI34 = 28 / BHKXA1TBLK1DM0A Red upper limit = B_HK_B01D0A_XTYELO34 = -51 / BHKXA1TBLK1DM0A Yellow lower limit = B_HK_B01D0TYEHI34 = 25 / BHKXA1TBLK1DM0A Yellow upper limit = B_HK_B01D0TRDLO36 = -51 / BHKXA1TBLK1DM0B Red lower limit = B_HK_B01D0B_XTRDHI36 = 28 / BHKXA1TBLK1DM0B Red upper limit = B_HK_B01D0B_XTYELO36 = -51 / BHKXA1TBLK1DM0B Yellow lower limit = B_HK_B01D0TYEHI36 = 25 / BHKXA1TBLK1DM0B Yellow upper limit = B_HK_B01D0TRDLO38 = -51 / BHKXA1TBLK1DM1A Red lower limit = B_HK_B01D1A_XTRDHI38 = 28 / BHKXA1TBLK1DM1A Red upper limit = B_HK_B01D1A_XTYELO38 = -51 / BHKXA1TBLK1DM1A Yellow lower limit = B_HK_B01D1TYEHI38 = 25 / BHKXA1TBLK1DM1A Yellow upper limit = B_HK_B01D1TRDLO40 = -51 / BHKXA1TBLK1DM1B Red lower limit = B_HK_B01D1B_XTRDHI40 = 28 / BHKXA1TBLK1DM1B Red upper limit = B_HK_B01D1B_XTYELO40 = -51 / BHKXA1TBLK1DM1B Yellow lower limit = B_HK_B01D1TYEHI40 = 25 / BHKXA1TBLK1DM1B Yellow upper limit = B_HK_B01D1TRDLO42 = -51 / BHKXA1TBLK1DM2A Red lower limit = B_HK_B01D2A_XTRDHI42 = 28 / BHKXA1TBLK1DM2A Red upper limit = B_HK_B01D2A_XTYELO42 = -51 / BHKXA1TBLK1DM2A Yellow lower limit = B_HK_B01D2TYEHI42 = 25 / BHKXA1TBLK1DM2A Yellow upper limit = B_HK_B01D2TRDLO44 = -51 / BHKXA1TBLK1DM2B Red lower limit = B_HK_B01D2B_XTRDHI44 = 28 / BHKXA1TBLK1DM2B Red upper limit = B_HK_B01D2B_XTYELO44 = -51 / BHKXA1TBLK1DM2B Yellow lower limit = B_HK_B01D2TYEHI44 = 25 / BHKXA1TBLK1DM2B Yellow upper limit = B_HK_B01D2TRDLO46 = -51 / BHKXA1TBLK1DM3A Red lower limit = B_HK_B01D3A_XTRDHI46 = 28 / BHKXA1TBLK1DM3A Red upper limit = B_HK_B01D3A_XTYELO46 = -51 / BHKXA1TBLK1DM3A Yellow lower limit = B_HK_B01D3TYEHI46 = 25 / BHKXA1TBLK1DM3A Yellow upper limit = B_HK_B01D3TRDLO48 = -51 / BHKXA1TBLK1DM3B Red lower limit = B_HK_B01D3B_XTRDHI48 = 28 / BHKXA1TBLK1DM3B Red upper limit = B_HK_B01D3B_XTYELO48 = -51 / BHKXA1TBLK1DM3B Yellow lower limit = B_HK_B01D3TYEHI48 = 25 / BHKXA1TBLK1DM3B Yellow upper limit = B_HK_B01D3TRDLO50 = -51 / BHKXA1TBLK1DM4A Red lower limit = B_HK_B01D4A_XTRDHI50 = 28 / BHKXA1TBLK1DM4A Red upper limit = B_HK_B01D4A_XTYELO50 = -51 / BHKXA1TBLK1DM4A Yellow lower limit = B_HK_B01D4TYEHI50 = 25 / BHKXA1TBLK1DM4A Yellow upper limit = B_HK_B01D4TRDLO52 = -51 / BHKXA1TBLK1DM4B Red lower limit = B_HK_B01D4B_XTRDHI52 = 28 / BHKXA1TBLK1DM4B Red upper limit = B_HK_B01D4B_XTYELO52 = -51 / BHKXA1TBLK1DM4B Yellow lower limit = B_HK_B01D4TYEHI52 = 25 / BHKXA1TBLK1DM4B Yellow upper limit = B_HK_B01D4TRDLO54 = -51 / BHKXA1TBLK1DM5A Red lower limit = B_HK_B01D5A_XTRDHI54 = 28 / BHKXA1TBLK1DM5A Red upper limit = B_HK_B01D5A_XTYELO54 = -51 / BHKXA1TBLK1DM5A Yellow lower limit = B_HK_B01D5TYEHI54 = 25 / BHKXA1TBLK1DM5A Yellow upper limit = B_HK_B01D5TRDLO56 = -51 / BHKXA1TBLK1DM5B Red lower limit = B_HK_B01D5B_XTRDHI56 = 28 / BHKXA1TBLK1DM5B Red upper limit = B_HK_B01D5B_XTYELO56 = -51 / BHKXA1TBLK1DM5B Yellow lower limit = B_HK_B01D5TYEHI56 = 25 / BHKXA1TBLK1DM5B Yellow upper limit = B_HK_B01D5TRDLO58 = -51 / BHKXA1TBLK1DM6A Red lower limit = B_HK_B01D6A_XTRDHI58 = 28 / BHKXA1TBLK1DM6A Red upper limit = B_HK_B01D6A_XTYELO58 = -51 / BHKXA1TBLK1DM6A Yellow lower limit = B_HK_B01D6TYEHI58 = 25 / BHKXA1TBLK1DM6A Yellow upper limit = B_HK_B01D6TRDLO60 = -51 / BHKXA1TBLK1DM6B Red lower limit = B_HK_B01D6B_XTRDHI60 = 28 / BHKXA1TBLK1DM6B Red upper limit = B_HK_B01D6B_XTYELO60 = -51 / BHKXA1TBLK1DM6B Yellow lower limit = B_HK_B01D6TYEHI60 = 25 / BHKXA1TBLK1DM6B Yellow upper limit = B_HK_B01D6TRDLO62 = -51 / BHKXA1TBLK1DM7A Red lower limit = B_HK_B01D7A_XTRDHI62 = 28 / BHKXA1TBLK1DM7A Red upper limit = B_HK_B01D7A_XTYELO62 = -51 / BHKXA1TBLK1DM7A Yellow lower limit = B_HK_B01D7TYEHI62 = 25 / BHKXA1TBLK1DM7A Yellow upper limit = B_HK_B01D7TRDLO64 = -51 / BHKXA1TBLK1DM7B Red lower limit = B_HK_B01D7B_XTRDHI64 = 28 / BHKXA1TBLK1DM7B Red upper limit = B_HK_B01D7B_XTYELO64 = -51 / BHKXA1TBLK1DM7B Yellow lower limit = B_HK_B01D7TYEHI64 = 25 / BHKXA1TBLK1DM7B Yellow upper limit = B_HK_B01D7TRDLO66 = -51 / BHKXA1TBLK2DM0A Red lower limit = B_HK_B02D0A_XTRDHI66 = 28 / BHKXA1TBLK2DM0A Red upper limit = B_HK_B02D0A_XTYELO66 = -51 / BHKXA1TBLK2DM0A Yellow lower limit = B_HK_B02D0TYEHI66 = 25 / BHKXA1TBLK2DM0A Yellow upper limit = B_HK_B02D0TRDLO68 = -51 / BHKXA1TBLK2DM0B Red lower limit = B_HK_B02D0B_XTRDHI68 = 28 / BHKXA1TBLK2DM0B Red upper limit = B_HK_B02D0B_XTYELO68 = -51 / BHKXA1TBLK2DM0B Yellow lower limit = B_HK_B02D0TYEHI68 = 25 / BHKXA1TBLK2DM0B Yellow upper limit = B_HK_B02D0TRDLO70 = -51 / BHKXA1TBLK2DM1A Red lower limit = B_HK_B02D1A_XTRDHI70 = 28 / BHKXA1TBLK2DM1A Red upper limit = B_HK_B02D1A_XTYELO70 = -51 / BHKXA1TBLK2DM1A Yellow lower limit = B_HK_B02D1TYEHI70 = 25 / BHKXA1TBLK2DM1A Yellow upper limit = B_HK_B02D1TRDLO72 = -51 / BHKXA1TBLK2DM1B Red lower limit = B_HK_B02D1B_XTRDHI72 = 28 / BHKXA1TBLK2DM1B Red upper limit = B_HK_B02D1B_XTYELO72 = -51 / BHKXA1TBLK2DM1B Yellow lower limit = B_HK_B02D1TYEHI72 = 25 / BHKXA1TBLK2DM1B Yellow upper limit = B_HK_B02D1TRDLO74 = -51 / BHKXA1TBLK2DM2A Red lower limit = B_HK_B02D2A_XTRDHI74 = 28 / BHKXA1TBLK2DM2A Red upper limit = B_HK_B02D2A_XTYELO74 = -51 / BHKXA1TBLK2DM2A Yellow lower limit = B_HK_B02D2TYEHI74 = 25 / BHKXA1TBLK2DM2A Yellow upper limit = B_HK_B02D2TRDLO76 = -51 / BHKXA1TBLK2DM2B Red lower limit = B_HK_B02D2B_XTRDHI76 = 28 / BHKXA1TBLK2DM2B Red upper limit = B_HK_B02D2B_XTYELO76 = -51 / BHKXA1TBLK2DM2B Yellow lower limit = B_HK_B02D2TYEHI76 = 25 / BHKXA1TBLK2DM2B Yellow upper limit = B_HK_B02D2TRDLO78 = -51 / BHKXA1TBLK2DM3A Red lower limit = B_HK_B02D3A_XTRDHI78 = 28 / BHKXA1TBLK2DM3A Red upper limit = B_HK_B02D3A_XTYELO78 = -51 / BHKXA1TBLK2DM3A Yellow lower limit = B_HK_B02D3TYEHI78 = 25 / BHKXA1TBLK2DM3A Yellow upper limit = B_HK_B02D3TRDLO80 = -51 / BHKXA1TBLK2DM3B Red lower limit = B_HK_B02D3B_XTRDHI80 = 28 / BHKXA1TBLK2DM3B Red upper limit = B_HK_B02D3B_XTYELO80 = -51 / BHKXA1TBLK2DM3B Yellow lower limit = B_HK_B02D3TYEHI80 = 25 / BHKXA1TBLK2DM3B Yellow upper limit = B_HK_B02D3TRDLO82 = -51 / BHKXA1TBLK2DM4A Red lower limit = B_HK_B02D4A_XTRDHI82 = 28 / BHKXA1TBLK2DM4A Red upper limit = B_HK_B02D4A_XTYELO82 = -51 / BHKXA1TBLK2DM4A Yellow lower limit = B_HK_B02D4TYEHI82 = 25 / BHKXA1TBLK2DM4A Yellow upper limit = B_HK_B02D4TRDLO84 = -51 / BHKXA1TBLK2DM4B Red lower limit = B_HK_B02D4B_XTRDHI84 = 28 / BHKXA1TBLK2DM4B Red upper limit = B_HK_B02D4B_XTYELO84 = -51 / BHKXA1TBLK2DM4B Yellow lower limit = B_HK_B02D4TYEHI84 = 25 / BHKXA1TBLK2DM4B Yellow upper limit = B_HK_B02D4TRDLO86 = -51 / BHKXA1TBLK2DM5A Red lower limit = B_HK_B02D5A_XTRDHI86 = 28 / BHKXA1TBLK2DM5A Red upper limit = B_HK_B02D5A_XTYELO86 = -51 / BHKXA1TBLK2DM5A Yellow lower limit = B_HK_B02D5TYEHI86 = 25 / BHKXA1TBLK2DM5A Yellow upper limit = B_HK_B02D5TRDLO88 = -51 / BHKXA1TBLK2DM5B Red lower limit = B_HK_B02D5B_XTRDHI88 = 28 / BHKXA1TBLK2DM5B Red upper limit = B_HK_B02D5B_XTYELO88 = -51 / BHKXA1TBLK2DM5B Yellow lower limit = B_HK_B02D5TYEHI88 = 25 / BHKXA1TBLK2DM5B Yellow upper limit = B_HK_B02D5TRDLO90 = -51 / BHKXA1TBLK2DM6A Red lower limit = B_HK_B02D6A_XTRDHI90 = 28 / BHKXA1TBLK2DM6A Red upper limit = B_HK_B02D6A_XTYELO90 = -51 / BHKXA1TBLK2DM6A Yellow lower limit = B_HK_B02D6TYEHI90 = 25 / BHKXA1TBLK2DM6A Yellow upper limit = B_HK_B02D6TRDLO92 = -51 / BHKXA1TBLK2DM6B Red lower limit = B_HK_B02D6B_XTRDHI92 = 28 / BHKXA1TBLK2DM6B Red upper limit = B_HK_B02D6B_XTYELO92 = -51 / BHKXA1TBLK2DM6B Yellow lower limit = B_HK_B02D6TYEHI92 = 25 / BHKXA1TBLK2DM6B Yellow upper limit = B_HK_B02D6TRDLO94 = -51 / BHKXA1TBLK2DM7A Red lower limit = B_HK_B02D7A_XTRDHI94 = 28 / BHKXA1TBLK2DM7A Red upper limit = B_HK_B02D7A_XTYELO94 = -51 / BHKXA1TBLK2DM7A Yellow lower limit = B_HK_B02D7TYEHI94 = 25 / BHKXA1TBLK2DM7A Yellow upper limit = B_HK_B02D7TRDLO96 = -51 / BHKXA1TBLK2DM7B Red lower limit = B_HK_B02D7B_XTRDHI96 = 28 / BHKXA1TBLK2DM7B Red upper limit = B_HK_B02D7B_XTYELO96 = -51 / BHKXA1TBLK2DM7B Yellow lower limit = B_HK_B02D7TYEHI96 = 25 / BHKXA1TBLK2DM7B Yellow upper limit = B_HK_B02D7TRDLO98 = -51 / BHKXA1TBLK3DM0A Red lower limit = B_HK_B03D0A_XTRDHI98 = 28 / BHKXA1TBLK3DM0A Red upper limit = B_HK_B03D0A_XTYELO98 = -51 / BHKXA1TBLK3DM0A Yellow lower limit = B_HK_B03D0TYEHI98 = 25 / BHKXA1TBLK3DM0A Yellow upper limit = B_HK_B03D0TRDLO100= -51 / BHKXA1TBLK3DM0B Red lower limit = B_HK_B03D0B_XTRDHI100= 28 / BHKXA1TBLK3DM0B Red upper limit = B_HK_B03D0B_XTYELO100= -51 / BHKXA1TBLK3DM0B Yellow lower limit = B_HK_B03D0TYEHI100= 25 / BHKXA1TBLK3DM0B Yellow upper limit = B_HK_B03D0TRDLO102= -51 / BHKXA1TBLK3DM1A Red lower limit = B_HK_B03D1A_XTRDHI102= 28 / BHKXA1TBLK3DM1A Red upper limit = B_HK_B03D1A_XTYELO102= -51 / BHKXA1TBLK3DM1A Yellow lower limit = B_HK_B03D1TYEHI102= 25 / BHKXA1TBLK3DM1A Yellow upper limit = B_HK_B03D1TRDLO104= -51 / BHKXA1TBLK3DM1B Red lower limit = B_HK_B03D1B_XTRDHI104= 28 / BHKXA1TBLK3DM1B Red upper limit = B_HK_B03D1B_XTYELO104= -51 / BHKXA1TBLK3DM1B Yellow lower limit = B_HK_B03D1TYEHI104= 25 / BHKXA1TBLK3DM1B Yellow upper limit = B_HK_B03D1TRDLO106= -51 / BHKXA1TBLK3DM2A Red lower limit = B_HK_B03D2A_XTRDHI106= 28 / BHKXA1TBLK3DM2A Red upper limit = B_HK_B03D2A_XTYELO106= -51 / BHKXA1TBLK3DM2A Yellow lower limit = B_HK_B03D2TYEHI106= 25 / BHKXA1TBLK3DM2A Yellow upper limit = B_HK_B03D2TRDLO108= -51 / BHKXA1TBLK3DM2B Red lower limit = B_HK_B03D2B_XTRDHI108= 28 / BHKXA1TBLK3DM2B Red upper limit = B_HK_B03D2B_XTYELO108= -51 / BHKXA1TBLK3DM2B Yellow lower limit = B_HK_B03D2TYEHI108= 25 / BHKXA1TBLK3DM2B Yellow upper limit = B_HK_B03D2TRDLO110= -51 / BHKXA1TBLK3DM3A Red lower limit = B_HK_B03D3A_XTRDHI110= 28 / BHKXA1TBLK3DM3A Red upper limit = B_HK_B03D3A_XTYELO110= -51 / BHKXA1TBLK3DM3A Yellow lower limit = B_HK_B03D3TYEHI110= 25 / BHKXA1TBLK3DM3A Yellow upper limit = B_HK_B03D3TRDLO112= -51 / BHKXA1TBLK3DM3B Red lower limit = B_HK_B03D3B_XTRDHI112= 28 / BHKXA1TBLK3DM3B Red upper limit = B_HK_B03D3B_XTYELO112= -51 / BHKXA1TBLK3DM3B Yellow lower limit = B_HK_B03D3TYEHI112= 25 / BHKXA1TBLK3DM3B Yellow upper limit = B_HK_B03D3TRDLO114= -51 / BHKXA1TBLK3DM4A Red lower limit = B_HK_B03D4A_XTRDHI114= 28 / BHKXA1TBLK3DM4A Red upper limit = B_HK_B03D4A_XTYELO114= -51 / BHKXA1TBLK3DM4A Yellow lower limit = B_HK_B03D4TYEHI114= 25 / BHKXA1TBLK3DM4A Yellow upper limit = B_HK_B03D4TRDLO116= -51 / BHKXA1TBLK3DM4B Red lower limit = B_HK_B03D4B_XTRDHI116= 28 / BHKXA1TBLK3DM4B Red upper limit = B_HK_B03D4B_XTYELO116= -51 / BHKXA1TBLK3DM4B Yellow lower limit = B_HK_B03D4TYEHI116= 25 / BHKXA1TBLK3DM4B Yellow upper limit = B_HK_B03D4TRDLO118= -51 / BHKXA1TBLK3DM5A Red lower limit = B_HK_B03D5A_XTRDHI118= 28 / BHKXA1TBLK3DM5A Red upper limit = B_HK_B03D5A_XTYELO118= -51 / BHKXA1TBLK3DM5A Yellow lower limit = B_HK_B03D5TYEHI118= 25 / BHKXA1TBLK3DM5A Yellow upper limit = B_HK_B03D5TRDLO120= -51 / BHKXA1TBLK3DM5B Red lower limit = B_HK_B03D5B_XTRDHI120= 28 / BHKXA1TBLK3DM5B Red upper limit = B_HK_B03D5B_XTYELO120= -51 / BHKXA1TBLK3DM5B Yellow lower limit = B_HK_B03D5TYEHI120= 25 / BHKXA1TBLK3DM5B Yellow upper limit = B_HK_B03D5TRDLO122= -51 / BHKXA1TBLK3DM6A Red lower limit = B_HK_B03D6A_XTRDHI122= 28 / BHKXA1TBLK3DM6A Red upper limit = B_HK_B03D6A_XTYELO122= -51 / BHKXA1TBLK3DM6A Yellow lower limit = B_HK_B03D6TYEHI122= 25 / BHKXA1TBLK3DM6A Yellow upper limit = B_HK_B03D6TRDLO124= -51 / BHKXA1TBLK3DM6B Red lower limit = B_HK_B03D6B_XTRDHI124= 28 / BHKXA1TBLK3DM6B Red upper limit = B_HK_B03D6B_XTYELO124= -51 / BHKXA1TBLK3DM6B Yellow lower limit = B_HK_B03D6TYEHI124= 25 / BHKXA1TBLK3DM6B Yellow upper limit = B_HK_B03D6TRDLO126= -51 / BHKXA1TBLK3DM7A Red lower limit = B_HK_B03D7A_XTRDHI126= 28 / BHKXA1TBLK3DM7A Red upper limit = B_HK_B03D7A_XTYELO126= -51 / BHKXA1TBLK3DM7A Yellow lower limit = B_HK_B03D7TYEHI126= 25 / BHKXA1TBLK3DM7A Yellow upper limit = B_HK_B03D7TRDLO128= -51 / BHKXA1TBLK3DM7B Red lower limit = B_HK_B03D7B_XTRDHI128= 28 / BHKXA1TBLK3DM7B Red upper limit = B_HK_B03D7B_XTYELO128= -51 / BHKXA1TBLK3DM7B Yellow lower limit = B_HK_B03D7TYEHI128= 25 / BHKXA1TBLK3DM7B Yellow upper limit = B_HK_B03D7TRDLO130= -51 / BHKXA1TBLK4DM0A Red lower limit = B_HK_B04D0A_XTRDHI130= 28 / BHKXA1TBLK4DM0A Red upper limit = B_HK_B04D0A_XTYELO130= -51 / BHKXA1TBLK4DM0A Yellow lower limit = B_HK_B04D0TYEHI130= 25 / BHKXA1TBLK4DM0A Yellow upper limit = B_HK_B04D0TRDLO132= -51 / BHKXA1TBLK4DM0B Red lower limit = B_HK_B04D0B_XTRDHI132= 28 / BHKXA1TBLK4DM0B Red upper limit = B_HK_B04D0B_XTYELO132= -51 / BHKXA1TBLK4DM0B Yellow lower limit = B_HK_B04D0TYEHI132= 25 / BHKXA1TBLK4DM0B Yellow upper limit = B_HK_B04D0TRDLO134= -51 / BHKXA1TBLK4DM1A Red lower limit = B_HK_B04D1A_XTRDHI134= 28 / BHKXA1TBLK4DM1A Red upper limit = B_HK_B04D1A_XTYELO134= -51 / BHKXA1TBLK4DM1A Yellow lower limit = B_HK_B04D1TYEHI134= 25 / BHKXA1TBLK4DM1A Yellow upper limit = B_HK_B04D1TRDLO136= -51 / BHKXA1TBLK4DM1B Red lower limit = B_HK_B04D1B_XTRDHI136= 28 / BHKXA1TBLK4DM1B Red upper limit = B_HK_B04D1B_XTYELO136= -51 / BHKXA1TBLK4DM1B Yellow lower limit = B_HK_B04D1TYEHI136= 25 / BHKXA1TBLK4DM1B Yellow upper limit = B_HK_B04D1TRDLO138= -51 / BHKXA1TBLK4DM2A Red lower limit = B_HK_B04D2A_XTRDHI138= 28 / BHKXA1TBLK4DM2A Red upper limit = B_HK_B04D2A_XTYELO138= -51 / BHKXA1TBLK4DM2A Yellow lower limit = B_HK_B04D2TYEHI138= 25 / BHKXA1TBLK4DM2A Yellow upper limit = B_HK_B04D2TRDLO140= -51 / BHKXA1TBLK4DM2B Red lower limit = B_HK_B04D2B_XTRDHI140= 28 / BHKXA1TBLK4DM2B Red upper limit = B_HK_B04D2B_XTYELO140= -51 / BHKXA1TBLK4DM2B Yellow lower limit = B_HK_B04D2TYEHI140= 25 / BHKXA1TBLK4DM2B Yellow upper limit = B_HK_B04D2TRDLO142= -51 / BHKXA1TBLK4DM3A Red lower limit = B_HK_B04D3A_XTRDHI142= 28 / BHKXA1TBLK4DM3A Red upper limit = B_HK_B04D3A_XTYELO142= -51 / BHKXA1TBLK4DM3A Yellow lower limit = B_HK_B04D3TYEHI142= 25 / BHKXA1TBLK4DM3A Yellow upper limit = B_HK_B04D3TRDLO144= -51 / BHKXA1TBLK4DM3B Red lower limit = B_HK_B04D3B_XTRDHI144= 28 / BHKXA1TBLK4DM3B Red upper limit = B_HK_B04D3B_XTYELO144= -51 / BHKXA1TBLK4DM3B Yellow lower limit = B_HK_B04D3TYEHI144= 25 / BHKXA1TBLK4DM3B Yellow upper limit = B_HK_B04D3TRDLO146= -51 / BHKXA1TBLK4DM4A Red lower limit = B_HK_B04D4A_XTRDHI146= 28 / BHKXA1TBLK4DM4A Red upper limit = B_HK_B04D4A_XTYELO146= -51 / BHKXA1TBLK4DM4A Yellow lower limit = B_HK_B04D4TYEHI146= 25 / BHKXA1TBLK4DM4A Yellow upper limit = B_HK_B04D4TRDLO148= -51 / BHKXA1TBLK4DM4B Red lower limit = B_HK_B04D4B_XTRDHI148= 28 / BHKXA1TBLK4DM4B Red upper limit = B_HK_B04D4B_XTYELO148= -51 / BHKXA1TBLK4DM4B Yellow lower limit = B_HK_B04D4TYEHI148= 25 / BHKXA1TBLK4DM4B Yellow upper limit = B_HK_B04D4TRDLO150= -51 / BHKXA1TBLK4DM5A Red lower limit = B_HK_B04D5A_XTRDHI150= 28 / BHKXA1TBLK4DM5A Red upper limit = B_HK_B04D5A_XTYELO150= -51 / BHKXA1TBLK4DM5A Yellow lower limit = B_HK_B04D5TYEHI150= 25 / BHKXA1TBLK4DM5A Yellow upper limit = B_HK_B04D5TRDLO152= -51 / BHKXA1TBLK4DM5B Red lower limit = B_HK_B04D5B_XTRDHI152= 28 / BHKXA1TBLK4DM5B Red upper limit = B_HK_B04D5B_XTYELO152= -51 / BHKXA1TBLK4DM5B Yellow lower limit = B_HK_B04D5TYEHI152= 25 / BHKXA1TBLK4DM5B Yellow upper limit = B_HK_B04D5TRDLO154= -51 / BHKXA1TBLK4DM6A Red lower limit = B_HK_B04D6A_XTRDHI154= 28 / BHKXA1TBLK4DM6A Red upper limit = B_HK_B04D6A_XTYELO154= -51 / BHKXA1TBLK4DM6A Yellow lower limit = B_HK_B04D6TYEHI154= 25 / BHKXA1TBLK4DM6A Yellow upper limit = B_HK_B04D6TRDLO156= -51 / BHKXA1TBLK4DM6B Red lower limit = B_HK_B04D6B_XTRDHI156= 28 / BHKXA1TBLK4DM6B Red upper limit = B_HK_B04D6B_XTYELO156= -51 / BHKXA1TBLK4DM6B Yellow lower limit = B_HK_B04D6TYEHI156= 25 / BHKXA1TBLK4DM6B Yellow upper limit = B_HK_B04D6TRDLO158= -51 / BHKXA1TBLK4DM7A Red lower limit = B_HK_B04D7A_XTRDHI158= 28 / BHKXA1TBLK4DM7A Red upper limit = B_HK_B04D7A_XTYELO158= -51 / BHKXA1TBLK4DM7A Yellow lower limit = B_HK_B04D7TYEHI158= 25 / BHKXA1TBLK4DM7A Yellow upper limit = B_HK_B04D7TRDLO160= -51 / BHKXA1TBLK4DM7B Red lower limit = B_HK_B04D7B_XTRDHI160= 28 / BHKXA1TBLK4DM7B Red upper limit = B_HK_B04D7B_XTYELO160= -51 / BHKXA1TBLK4DM7B Yellow lower limit = B_HK_B04D7TYEHI160= 25 / BHKXA1TBLK4DM7B Yellow upper limit = B_HK_B04D7TRDLO162= -51 / BHKXA1TBLK5DM0A Red lower limit = B_HK_B05D0A_XTRDHI162= 28 / BHKXA1TBLK5DM0A Red upper limit = B_HK_B05D0A_XTYELO162= -51 / BHKXA1TBLK5DM0A Yellow lower limit = B_HK_B05D0TYEHI162= 25 / BHKXA1TBLK5DM0A Yellow upper limit = B_HK_B05D0TRDLO164= -51 / BHKXA1TBLK5DM0B Red lower limit = B_HK_B05D0B_XTRDHI164= 28 / BHKXA1TBLK5DM0B Red upper limit = B_HK_B05D0B_XTYELO164= -51 / BHKXA1TBLK5DM0B Yellow lower limit = B_HK_B05D0TYEHI164= 25 / BHKXA1TBLK5DM0B Yellow upper limit = B_HK_B05D0TRDLO166= -51 / BHKXA1TBLK5DM1A Red lower limit = B_HK_B05D1A_XTRDHI166= 28 / BHKXA1TBLK5DM1A Red upper limit = B_HK_B05D1A_XTYELO166= -51 / BHKXA1TBLK5DM1A Yellow lower limit = B_HK_B05D1TYEHI166= 25 / BHKXA1TBLK5DM1A Yellow upper limit = B_HK_B05D1TRDLO168= -51 / BHKXA1TBLK5DM1B Red lower limit = B_HK_B05D1B_XTRDHI168= 28 / BHKXA1TBLK5DM1B Red upper limit = B_HK_B05D1B_XTYELO168= -51 / BHKXA1TBLK5DM1B Yellow lower limit = B_HK_B05D1TYEHI168= 25 / BHKXA1TBLK5DM1B Yellow upper limit = B_HK_B05D1TRDLO170= -51 / BHKXA1TBLK5DM2A Red lower limit = B_HK_B05D2A_XTRDHI170= 28 / BHKXA1TBLK5DM2A Red upper limit = B_HK_B05D2A_XTYELO170= -51 / BHKXA1TBLK5DM2A Yellow lower limit = B_HK_B05D2TYEHI170= 25 / BHKXA1TBLK5DM2A Yellow upper limit = B_HK_B05D2TRDLO172= -51 / BHKXA1TBLK5DM2B Red lower limit = B_HK_B05D2B_XTRDHI172= 28 / BHKXA1TBLK5DM2B Red upper limit = B_HK_B05D2B_XTYELO172= -51 / BHKXA1TBLK5DM2B Yellow lower limit = B_HK_B05D2TYEHI172= 25 / BHKXA1TBLK5DM2B Yellow upper limit = B_HK_B05D2TRDLO174= -51 / BHKXA1TBLK5DM3A Red lower limit = B_HK_B05D3A_XTRDHI174= 28 / BHKXA1TBLK5DM3A Red upper limit = B_HK_B05D3A_XTYELO174= -51 / BHKXA1TBLK5DM3A Yellow lower limit = B_HK_B05D3TYEHI174= 25 / BHKXA1TBLK5DM3A Yellow upper limit = B_HK_B05D3TRDLO176= -51 / BHKXA1TBLK5DM3B Red lower limit = B_HK_B05D3B_XTRDHI176= 28 / BHKXA1TBLK5DM3B Red upper limit = B_HK_B05D3B_XTYELO176= -51 / BHKXA1TBLK5DM3B Yellow lower limit = B_HK_B05D3TYEHI176= 25 / BHKXA1TBLK5DM3B Yellow upper limit = B_HK_B05D3TRDLO178= -51 / BHKXA1TBLK5DM4A Red lower limit = B_HK_B05D4A_XTRDHI178= 28 / BHKXA1TBLK5DM4A Red upper limit = B_HK_B05D4A_XTYELO178= -51 / BHKXA1TBLK5DM4A Yellow lower limit = B_HK_B05D4TYEHI178= 25 / BHKXA1TBLK5DM4A Yellow upper limit = B_HK_B05D4TRDLO180= -51 / BHKXA1TBLK5DM4B Red lower limit = B_HK_B05D4B_XTRDHI180= 28 / BHKXA1TBLK5DM4B Red upper limit = B_HK_B05D4B_XTYELO180= -51 / BHKXA1TBLK5DM4B Yellow lower limit = B_HK_B05D4TYEHI180= 25 / BHKXA1TBLK5DM4B Yellow upper limit = B_HK_B05D4TRDLO182= -51 / BHKXA1TBLK5DM5A Red lower limit = B_HK_B05D5A_XTRDHI182= 28 / BHKXA1TBLK5DM5A Red upper limit = B_HK_B05D5A_XTYELO182= -51 / BHKXA1TBLK5DM5A Yellow lower limit = B_HK_B05D5TYEHI182= 25 / BHKXA1TBLK5DM5A Yellow upper limit = B_HK_B05D5TRDLO184= -51 / BHKXA1TBLK5DM5B Red lower limit = B_HK_B05D5B_XTRDHI184= 28 / BHKXA1TBLK5DM5B Red upper limit = B_HK_B05D5B_XTYELO184= -51 / BHKXA1TBLK5DM5B Yellow lower limit = B_HK_B05D5TYEHI184= 25 / BHKXA1TBLK5DM5B Yellow upper limit = B_HK_B05D5TRDLO186= -51 / BHKXA1TBLK5DM6A Red lower limit = B_HK_B05D6A_XTRDHI186= 28 / BHKXA1TBLK5DM6A Red upper limit = B_HK_B05D6A_XTYELO186= -51 / BHKXA1TBLK5DM6A Yellow lower limit = B_HK_B05D6TYEHI186= 25 / BHKXA1TBLK5DM6A Yellow upper limit = B_HK_B05D6TRDLO188= -51 / BHKXA1TBLK5DM6B Red lower limit = B_HK_B05D6B_XTRDHI188= 28 / BHKXA1TBLK5DM6B Red upper limit = B_HK_B05D6B_XTYELO188= -51 / BHKXA1TBLK5DM6B Yellow lower limit = B_HK_B05D6TYEHI188= 25 / BHKXA1TBLK5DM6B Yellow upper limit = B_HK_B05D6TRDLO190= -51 / BHKXA1TBLK5DM7A Red lower limit = B_HK_B05D7A_XTRDHI190= 28 / BHKXA1TBLK5DM7A Red upper limit = B_HK_B05D7A_XTYELO190= -51 / BHKXA1TBLK5DM7A Yellow lower limit = B_HK_B05D7TYEHI190= 25 / BHKXA1TBLK5DM7A Yellow upper limit = B_HK_B05D7TRDLO192= -51 / BHKXA1TBLK5DM7B Red lower limit = B_HK_B05D7B_XTRDHI192= 28 / BHKXA1TBLK5DM7B Red upper limit = B_HK_B05D7B_XTYELO192= -51 / BHKXA1TBLK5DM7B Yellow lower limit = B_HK_B05D7TYEHI192= 25 / BHKXA1TBLK5DM7B Yellow upper limit = B_HK_B05D7HISTORY TASK: FAPPND on FILENAME: sw01185673000b176x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�c�E��h�n��x�o�{�k��d�|�?�H��k�v��r�t�~�w�|�y�n�t�x�k�}��{�u��t��e�q�r��z�g�q�Y�J�e�v��l�{�n�t�y��k�x��x�y�s�x��p�_�v�|�u��j�i��q�}�t��q��s��g�z�c�p��m�v�y�G�IɸA�F�r�AȄh�n��w�p�z�l��d�}�?�H��l�v��q�t�~�v�|�z�n�t�x�k�}��{�u��t��e�q�r��z�g�q�Y�J�e�v��l�{�n�t�x��j�x��x�y�s�w��p�_�v�{�u��j�j��r�}�t��r��s��f�z�c�p��m�v�y�H�IɆA�F��G��h�n��x�p�z�l��d�}�?�H��k�v��q�s�~�w�|�y�n�t�x�k�|��z�u��t��e�p�r��y�f�p�X�J�e�v��k�{�o�t�x��j�x��x�y�t�x��p�_�v�|�u��i�j��q�}�t��p��r��g�z�c�p��m�v�y�G�I�3A�F��F_�h�n��x�o�z�k��d�}�?�H��k�v��q�t�~�v�|�y�n�s�x�k�|��{�u��t��e�p�r��z�f�q�Y�J�e�v��k�|�o�t�x��j�x��x�y�s�x��q�_�v�|�u��i�j��q�}�t��q��s��g�z�c�p��m�v�y�G�I�eA�F��A �h�n��w�o�z�l��d�|�?�H��k�v��q�s�~�w�|�z�n�t�y�k�|��{�u��t��e�p�s��z�f�p�Y�J�e�u��l�{�o�t�x��j�x��y�y�s�w��o�_�v�|�u��i�i��q�}�s��r��s��g�z�c�p��m�v�y�G�IʀA�F��G��h�n��x�p�{�k��d�}�?�H��k�v��r�t�~�w�|�y�o�t�x�k�}��{�u��t��f�p�r��y�f�q�Y�J�f�v��l�|�o�u�y��k�w��x�z�s�w��p�_�v�{�u��i�j��q�}�t��r��s��g�z�d�p��n�v�y�H�JʯA�F��Dg�h�n��x�p�z�l��d�}�?�H��l�v��r�s�}�w�|�y�n�s�y�k�|��{�u��t��f�q�r��z�f�q�Y�J�e�v��k�{�n�t�x��j�x��x�y�s�x��p�_�v�|�u��i�j��q�}�t��q��s��g�z�c�p��m�v�y�H�I�OA�F�̹9�h�n��x�p�z�l��d�}�@�I��k�v��r�t�~�v�|�y�o�s�y�l�}��{�u��t��f�q�r��z�f�q�X�J�e�v��l�{�o�t�y��k�x��x�z�s�w��p�_�v�|�v�~��i�i��q�~�t��q��r��g�z�c�p��n�w�z�G�I�A�F�۹E��h�n��x�p�z�l��d�}�@�H��k�v��r�t�~�w�}�z�n�t�y�k�}��{�u��t��f�p�s��z�f�q�Y�J�e�w��k�|�n�u�x��j�x��y�y�s�x��p�_�v�{�u��i�j��q�}�t��q��s��g�z�c�p��n�v�y�H�I�kA�F��E�h�n��w�o�z�k��d�}�?�H��k�v��q�t�~�w�|�z�n�s�y�k�}��{�u��t��f�p�r��y�f�q�Y�J�f�v��l�|�o�u�x��j�x��y�z�s�x��p�_�v�|�u��j�j��r�}�t��r��r��g�z�c�q��n�v�y�H�I��H��j�v��q�s�}�w�|�y�n�r�x�k�|��z�u��s��e�p�r��y�f�p�X�J�e�v��l�|�n�u�x��j�w��w�y�s�x��p�_�v�{�u��i�i��q�}�t��q��s��g�z�c�p��m�v�y�H�IǦA�F�p�F_�h�n��w�o�y�k��c�|�?�H��l�u��q�s�~�v�|�z�n�s�x�k�|��z�t��t��f�p�r��y�f�q�Y�I�e�v��k�{�o�u�x��j�x��x�y�s�w��p�^�v�|�u��i�i��q�}�t��q��s��g�z�b�p��m�v�y�H�I��A�F��F_�h�n��x�o�z�k��d�}�>�H��k�u��q�t�~�v�|�y�n�s�x�k�|��{�u��t��e�p�r��y�f�p�Y�J�d�u��k�z�n�u�x��j�x��x�y�s�w��o�_�v�|�u��i�i��q�}�t��q��r��f�z�b�o��m�v�y�G�I��A�F��F_�g�n��w�p�z�k��c�}�>�H��j�v��q�t�}�v�|�y�n�s�x�k�}��{�t��s��e�p�r��y�f�p�Y�J�d�u��k�|�n�t�y��j�x��x�y�s�x��o�_�u�{�u��i�i��q�}�t��q��r��f�z�b�p��m�v�y�G�I��A�F��AȄh�n��w�p�z�k��d�|�?�H��k�v��q�s�}�v�|�y�n�t�x�k�|��{�t��s��e�q�q��y�f�p�Y�J�e�v��l�{�n�t�x��j�x��x�y�s�w��p�_�v�{�u��i�i��q�|�s��q��r��f�z�c�p��m�v�y�G�I�A�F��9�g�n��w�o�z�k��c�|�>�H��k�v��q�t�}�w�|�y�n�s�x�k�|��{�t��t��e�p�r��y�f�p�X�I�e�u��l�{�n�t�x��j�w��x�y�r�w��p�_�u�|�u��i�i��q�}�s��q��s��g�y�b�p��m�v�y�G�IǇA�F��;�g�m��w�o�z�k��c�|�>�G��k�u��q�s�}�v�|�y�n�s�x�k�|��z�t��s��e�p�r��y�f�p�X�J�d�u��k�{�o�t�x��j�x��x�y�r�w��o�_�u�{�u�~��i�i��q�}�s��q��r��f�z�b�p��m�v�y�G�I��A�F�ʹ9C�g�n��w�o�z�k��c�{�>�H��k�u��q�s�}�u�|�y�m�s�x�k�|��{�t��s��e�p�q��y�e�p�X�I�d�v��k�{�n�t�x��j�w��w�y�r�v��o�_�v�{�t��i�i��q�}�s��q��r��f�y�b�p��m�u�x�G�I�lA�F�ٹE��g�m��w�o�z�k��b�|�>�H��j�u��q�s�}�u�|�x�n�r�x�j�|��z�t��s��e�p�q��z�e�p�X�I�e�v��k�{�n�t�y��j�w��x�y�r�x��o�_�v�{�t��h�i��q�}�s��q��r��f�y�b�o��m�v�x�G�IɒA�F��G��g�m��w�o�y�j��c�|�>�G��j�u��p�s�~�t�{�y�n�s�x�k�|��{�t��s��e�o�r��y�f�p�X�I�d�v��j�{�n�t�x��j�w��w�y�r�w��o�_�u�{�u�~��i�h��q�}�s��p��r��f�y�b�p��m�v�x�G�H�:A�F��;�g�n��w�o�y�k��c�|�?�H��j�u��q�s�}�u�|�y�n�r�x�j�|��{�t��s��e�o�q��y�f�q�X�I�d�v��k�{�o�t�x��j�w��w�x�s�x��o�^�u�{�u�~��i�i��p�}�s��q��r��f�z�b�p��m�v�x�H�I��A�F��:��g�n��w�o�y�k��c�|�>�H��j�u��q�s�}�t�|�y�n�s�x�j�|��{�t��s��e�p�q��x�f�p�X�I�e�u��k�z�n�t�x��j�w��w�x�s�v��o�^�u�{�u��i�i��p�|�s��r��r��f�y�b�p��m�v�x�G�H��A�F��E��g�m��w�o�z�k��c�|�>�H��k�u��q�s�}�u�{�y�n�s�x�j�|��z�t��s��e�o�q��y�f�p�X�I�d�u��k�|�o�t�x��j�w��x�y�s�w��p�^�v�{�t��i�i��q�}�s��q��r��f�y�b�p��m�u�y�G�I�uA�F�$�9�g�n��w�o�z�k��c�|�>�G��j�u��p�s�}�t�|�y�n�s�x�j�|��{�t��s��e�o�q��y�f�p�X�I�d�v��k�{�n�t�x��j�x��w�x�s�v��o�_�u�{�u�~��i�i��q�}�s��q��r��f�y�b�o��m�u�x�G�I�%A�F�3�G�g�m��w�o�z�k��c�|�>�G��k�v��p�s�}�u�|�y�n�s�x�j�|��z�s��s��e�p�q��y�f�q�X�I�d�u��k�{�n�t�x��i�w��w�y�r�w��o�^�u�{�t�~��i�i��q�|�s��q��r��f�y�b�p��m�u�y�G�I�.A�F�B�F_�g�n��w�o�y�k��c�|�>�H��k�u��q�s�}�u�{�y�m�s�x�j�{��z�t��s��e�p�r��y�f�p�X�I�d�u��k�{�o�s�y��j�w��w�y�r�w��o�_�v�{�u�~��i�i��q�}�s��q��r��f�y�b�p��m�v�x�G�HȑA�F�Q�=2�g�m��x�o�y�k��c�|�>�G��k�u��q�s�}�t�|�y�n�s�w�j�|��z�t��t��e�o�q��y�f�p�X�J�d�u��k�{�n�t�x��j�w��x�y�r�w��o�_�u�{�u��h�i��q�|�s��p��r��f�y�b�p��m�u�y�G�H�TA�F�`�G�g�m��w�o�z�j��d�|�>�G��j�u��p�r�}�t�{�y�m�s�w�j�|��z�t��s��d�p�q��y�f�p�Y�I�e�u��k�{�n�s�x��j�w��w�y�r�w��o�^�u�{�t�~��h�i��p�|�s��q��r��f�y�b�p��l�u�x�G�I��A�F�o�[W�g�m��v�o�y�k��c�|�?�G��j�u��p�s�}�u�|�y�m�r�x�j�{��z�t��t��e�o�q��y�f�p�X�I�d�u��l�{�n�t�x��j�w��w�y�r�w��o�^�u�{�t�~��h�i��p�|�s��p��r��f�y�b�o��m�v�x�G�H��A�F�~�:��g�m��w�o�y�k��b�|�>�G��k�u��q�s�}�t�{�y�m�r�x�j�{��z�t��s��e�o�q��y�f�p�X�I�d�u��k�z�n�t�x��j�w��w�x�r�w��o�_�u�{�t�~��i�i��q�|�s��q��r��f�y�b�o��l�u�x�G�H�{A�F��9C�g�m��v�n�y�j��c�|�>�G��j�u��p�s�}�t�{�y�m�s�w�j�|��z�t��s��e�o�r��x�f�p�X�I�d�u��j�{�n�s�w��j�x��w�x�r�v��o�^�u�z�t�~��h�i��p�}�s��p��r��f�y�b�o��m�u�x�G�H�NA�F��G�g�m��w�n�y�j��c�|�>�H��k�u��q�r�}�u�{�x�m�r�x�j�|��z�t��s��e�o�q��y�f�p�X�I�d�u��k�z�n�s�x��i�w��w�x�r�w��o�^�u�{�t�~��h�i��p�|�s��q��r��f�y�b�o��m�u�x�F�H�hA�F��C��g�m��w�o�y�k��c�|�>�G��j�u��p�r�}�t�{�y�m�s�w�j�{��z�t��s��e�p�q��x�f�p�X�I�d�u��k�{�n�t�w��j�w��w�y�r�w��o�^�u�{�t�~��h�i��p�|�s��q��r��f�y�b�o��l�u�x�F�HɷA�F��;�g�m��v�o�y�k��c�|�>�G��k�u��p�r�|�u�{�x�m�s�x�j�{��z�s��r��e�p�q��y�f�p�X�I�d�u��k�z�n�s�x��j�w��w�x�r�v��o�^�u�{�t�~��h�h��o�|�s��q��r��f�y�b�o��m�u�x�F�H�-A�F�ɹ�Z�g�m��w�n�y�k��c�|�?�G��j�t��q�s�}�t�{�y�m�s�w�j�{��z�t��s��e�p�q��x�e�o�X�I�d�u��k�z�m�t�x��i�w��w�x�r�w��o�^�u�{�t�~��h�h��p�|�s��p��r��f�y�b�o��m�v�x�G�H� A�F�ع8��g�m��w�n�y�k��c�|�>�G��j�t��p�s�|�t�{�y�m�r�x�j�|��z�t��s��e�o�q��y�e�o�X�I�c�u��j�{�n�s�x��i�w��w�x�s�v��o�^�u�z�t�~��h�i��p�|�s��p��r��f�y�b�o��m�u�x�G�HɲA�F��N�g�m��v�o�y�k��b�|�>�G��j�u��p�r�|�u�{�y�m�s�x�j�{��z�t��r��d�o�q��y�e�p�X�I�d�u��k�z�n�t�w��j�w��w�w�r�v��o�^�u�{�t�~��h�i��p�|�s��p��r��f�y�b�o��m�u�x�F�HȹA�F��:��g�m��w�o�y�j��b�|�>�H��j�u��p�r�|�t�{�x�m�s�w�j�{��z�t��s��d�o�p��y�e�p�X�I�d�t��k�{�n�s�x��i�w��x�x�r�w��o�^�u�{�t�~��i�i��p�|�s��p��r��f�y�b�o��l�u�x�F�H�A�F��G��g�m��w�o�y�k��c�{�>�H��k�u��p�r�}�u�{�x�n�r�x�j�|��z�t��s��e�o�q��y�f�p�X�I�d�u��k�{�n�t�x��j�w��x�x�r�v��o�^�u�{�t�~��i�i��o�|�r��q��q��f�y�b�o��l�u�x�F�H�5A�F��E�g�m��v�o�y�j��b�{�>�G��j�u��p�s�|�u�{�x�m�r�w�j�{��z�t��s��d�o�q��y�e�p�X�I�d�u��k�z�n�s�w��i�w��w�x�r�v��o�^�u�{�t�~��h�i��p�|�s��p��r��f�y�b�o��l�u�x�G�H��A�F�#�:��g�m��v�o�y�k��c�|�>�G��j�u��p�r�}�t�{�x�m�t�w�j�{��z�s��s��d�p�p��y�e�o�X�I�d�u��k�{�m�s�w��j�w��w�x�r�v��o�^�u�{�t�~��h�i��p�|�r��p��r��f�x�a�o��l�u�x�F�HȪA�F�2�Dg�g�m��w�o�y�j��b�{�>�G��j�t��p�s�}�t�{�x�m�r�w�j�|��z�t��s��d�o�q��x�e�p�X�H�d�u��k�z�m�s�x��i�w��w�x�r�v��o�^�u�z�t�~��h�i��p�|�s��p��q��f�y�a�o��l�u�x�F�HɜA�F�A�F_�g�m��v�o�y�j��c�|�=�G��j�u��p�r�|�t�{�x�m�r�w�j�{��z�s��r��d�o�q��x�e�o�X�H�c�t��k�z�n�s�w��i�w��w�x�r�v��o�^�u�z�t�~��h�i��p�|�s��p��q��f�y�b�o��l�u�x�F�H�CA�F�P�HV�g�m��v�n�y�j��b�|�>�G��k�t��q�r�|�t�z�x�m�r�w�j�{��z�t��s��d�o�q��x�e�o�X�I�d�t��k�{�n�t�w��i�w��w�y�r�v��o�^�u�z�t�~��h�h��p�|�r��p��q��f�y�a�o��l�u�x�G�HɺA�F�_�:��f�m��w�n�y�k��b�{�=�G��j�t��p�r�|�t�z�x�m�r�w�j�{��z�s��s��d�o�q��y�e�p�X�I�d�u��k�{�n�t�w��h�v��w�x�r�v��o�^�t�z�t�~��h�h��o�|�r��p��r��e�y�b�o��l�u�x�F�H�(A�F�n�G��f�m��v�n�y�j��b�|�>�G��i�u��p�r�}�t�{�x�m�r�w�j�{��y�t��s��e�o�p��y�e�p�X�H�e�u��j�z�m�t�x��i�v��w�x�q�v��o�^�t�{�t�~��h�h��q�|�s��p��q��f�x�b�o��l�t�x�F�HȂA�F�}�9C�g�m��w�n�y�j��b�|�>�G��i�t��p�s�|�t�{�x�m�r�w�j�{��z�s��s��d�o�q��x�e�o�X�I�c�u��k�z�m�s�w��i�w��w�x�r�v��n�^�u�{�t�~��h�h��p�{�r��p��q��e�x�b�o��m�u�x�F�H�A�F��f�l��v�n�y�k��b�{�>�F��j�t��p�r�|�s�{�x�m�s�w�j�{��z�s��r��d�o�q��x�e�p�X�I�c�u��k�z�n�s�x��i�v��v�x�q�v��o�^�u�{�t�}��h�h��p�|�s��p��r��f�y�b�o��l�t�x�F�H��A�F��E�f�m��w�n�x�k��b�|�=�F��i�t��p�r�|�t�{�x�m�r�w�j�{��z�t��s��d�o�p��y�e�p�X�H�d�t��k�z�m�s�w��i�v��w�x�r�v��o�^�u�z�t�}��h�i��p�|�r��p��q��e�x�b�o��l�u�x�F�H�:XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKXA1TBLK6DM0A' / Block 6, DM 0, Side A XA1 Temperature TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL2 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT2 = 'Celsius ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKXA1TBLK6DM0B' / Block 6, DM 0, Side B XA1 Temperature TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL4 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT4 = 'Celsius ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKXA1TBLK6DM1A' / Block 6, DM 1, Side A XA1 Temperature TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL6 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT6 = 'Celsius ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKXA1TBLK6DM1B' / Block 6, DM 1, Side B XA1 Temperature TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL8 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKXA1TBLK6DM2A' / Block 6, DM 2, Side A XA1 Temperature TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL10 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKXA1TBLK6DM2B' / Block 6, DM 2, Side B XA1 Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL12 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKXA1TBLK6DM3A' / Block 6, DM 3, Side A XA1 Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL14 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT14 = 'Celsius ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKXA1TBLK6DM3B' / Block 6, DM 3, Side B XA1 Temperature TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL16 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT16 = 'Celsius ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKXA1TBLK6DM4A' / Block 6, DM 4, Side A XA1 Temperature TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL18 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT18 = 'Celsius ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKXA1TBLK6DM4B' / Block 6, DM 4, Side B XA1 Temperature TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL20 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT20 = 'Celsius ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKXA1TBLK6DM5A' / Block 6, DM 5, Side A XA1 Temperature TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL22 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT22 = 'Celsius ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKXA1TBLK6DM5B' / Block 6, DM 5, Side B XA1 Temperature TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL24 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT24 = 'Celsius ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKXA1TBLK6DM6A' / Block 6, DM 6, Side A XA1 Temperature TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL26 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKXA1TBLK6DM6B' / Block 6, DM 6, Side B XA1 Temperature TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL28 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKXA1TBLK6DM7A' / Block 6, DM 7, Side A XA1 Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL30 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKXA1TBLK6DM7B' / Block 6, DM 7, Side B XA1 Temperature TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL32 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT32 = 'Celsius ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKXA1TBLK7DM0A' / Block 7, DM 0, Side A XA1 Temperature TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL34 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT34 = 'Celsius ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKXA1TBLK7DM0B' / Block 7, DM 0, Side B XA1 Temperature TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL36 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT36 = 'Celsius ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKXA1TBLK7DM1A' / Block 7, DM 1, Side A XA1 Temperature TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL38 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT38 = 'Celsius ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKXA1TBLK7DM1B' / Block 7, DM 1, Side B XA1 Temperature TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL40 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT40 = 'Celsius ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKXA1TBLK7DM2A' / Block 7, DM 2, Side A XA1 Temperature TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL42 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT42 = 'Celsius ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKXA1TBLK7DM2B' / Block 7, DM 2, Side B XA1 Temperature TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL44 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKXA1TBLK7DM3A' / Block 7, DM 3, Side A XA1 Temperature TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL46 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKXA1TBLK7DM3B' / Block 7, DM 3, Side B XA1 Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL48 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKXA1TBLK7DM4A' / Block 7, DM 4, Side A XA1 Temperature TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL50 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT50 = 'Celsius ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKXA1TBLK7DM4B' / Block 7, DM 4, Side B XA1 Temperature TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL52 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT52 = 'Celsius ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKXA1TBLK7DM5A' / Block 7, DM 5, Side A XA1 Temperature TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL54 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT54 = 'Celsius ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKXA1TBLK7DM5B' / Block 7, DM 5, Side B XA1 Temperature TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL56 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT56 = 'Celsius ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKXA1TBLK7DM6A' / Block 7, DM 6, Side A XA1 Temperature TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL58 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT58 = 'Celsius ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKXA1TBLK7DM6B' / Block 7, DM 6, Side B XA1 Temperature TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL60 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT60 = 'Celsius ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKXA1TBLK7DM7A' / Block 7, DM 7, Side A XA1 Temperature TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL62 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKXA1TBLK7DM7B' / Block 7, DM 7, Side B XA1 Temperature TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL64 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKXA1TBLK8DM0A' / Block 8, DM 0, Side A XA1 Temperature TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL66 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKXA1TBLK8DM0B' / Block 8, DM 0, Side B XA1 Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL68 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKXA1TBLK8DM1A' / Block 8, DM 1, Side A XA1 Temperature TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL70 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKXA1TBLK8DM1B' / Block 8, DM 1, Side B XA1 Temperature TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL72 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKXA1TBLK8DM2A' / Block 8, DM 2, Side A XA1 Temperature TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL74 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKXA1TBLK8DM2B' / Block 8, DM 2, Side B XA1 Temperature TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL76 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKXA1TBLK8DM3A' / Block 8, DM 3, Side A XA1 Temperature TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL78 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKXA1TBLK8DM3B' / Block 8, DM 3, Side B XA1 Temperature TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL80 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKXA1TBLK8DM4A' / Block 8, DM 4, Side A XA1 Temperature TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL82 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKXA1TBLK8DM4B' / Block 8, DM 4, Side B XA1 Temperature TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL84 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKXA1TBLK8DM5A' / Block 8, DM 5, Side A XA1 Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL86 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKXA1TBLK8DM5B' / Block 8, DM 5, Side B XA1 Temperature TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL88 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKXA1TBLK8DM6A' / Block 8, DM 6, Side A XA1 Temperature TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL90 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKXA1TBLK8DM6B' / Block 8, DM 6, Side B XA1 Temperature TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL92 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKXA1TBLK8DM7A' / Block 8, DM 7, Side A XA1 Temperature TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL94 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKXA1TBLK8DM7B' / Block 8, DM 7, Side B XA1 Temperature TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL96 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKXA1TBLK9DM0A' / Block 9, DM 0, Side A XA1 Temperature TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL98 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKXA1TBLK9DM0B' / Block 9, DM 0, Side B XA1 Temperature TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL100= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKXA1TBLK9DM1A' / Block 9, DM 1, Side A XA1 Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL102= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKXA1TBLK9DM1B' / Block 9, DM 1, Side B XA1 Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL104= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKXA1TBLK9DM2A' / Block 9, DM 2, Side A XA1 Temperature TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL106= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKXA1TBLK9DM2B' / Block 9, DM 2, Side B XA1 Temperature TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL108= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKXA1TBLK9DM3A' / Block 9, DM 3, Side A XA1 Temperature TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL110= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKXA1TBLK9DM3B' / Block 9, DM 3, Side B XA1 Temperature TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL112= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKXA1TBLK9DM4A' / Block 9, DM 4, Side A XA1 Temperature TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL114= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKXA1TBLK9DM4B' / Block 9, DM 4, Side B XA1 Temperature TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL116= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKXA1TBLK9DM5A' / Block 9, DM 5, Side A XA1 Temperature TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL118= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKXA1TBLK9DM5B' / Block 9, DM 5, Side B XA1 Temperature TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL120= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKXA1TBLK9DM6A' / Block 9, DM 6, Side A XA1 Temperature TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL122= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKXA1TBLK9DM6B' / Block 9, DM 6, Side B XA1 Temperature TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL124= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKXA1TBLK9DM7A' / Block 9, DM 7, Side A XA1 Temperature TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL126= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKXA1TBLK9DM7B' / Block 9, DM 7, Side B XA1 Temperature TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL128= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKXA1TBLK10DM0A' / Block 10, DM 0, Side A XA1 Temperature TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL130= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT130= 'Celsius ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKXA1TBLK10DM0B' / Block 10, DM 0, Side B XA1 Temperature TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL132= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT132= 'Celsius ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKXA1TBLK10DM1A' / Block 10, DM 1, Side A XA1 Temperature TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL134= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT134= 'Celsius ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKXA1TBLK10DM1B' / Block 10, DM 1, Side B XA1 Temperature TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL136= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT136= 'Celsius ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKXA1TBLK10DM2A' / Block 10, DM 2, Side A XA1 Temperature TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL138= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT138= 'Celsius ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKXA1TBLK10DM2B' / Block 10, DM 2, Side B XA1 Temperature TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL140= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT140= 'Celsius ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKXA1TBLK10DM3A' / Block 10, DM 3, Side A XA1 Temperature TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL142= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT142= 'Celsius ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKXA1TBLK10DM3B' / Block 10, DM 3, Side B XA1 Temperature TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL144= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT144= 'Celsius ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKXA1TBLK10DM4A' / Block 10, DM 4, Side A XA1 Temperature TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL146= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT146= 'Celsius ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKXA1TBLK10DM4B' / Block 10, DM 4, Side B XA1 Temperature TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL148= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT148= 'Celsius ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKXA1TBLK10DM5A' / Block 10, DM 5, Side A XA1 Temperature TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL150= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT150= 'Celsius ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKXA1TBLK10DM5B' / Block 10, DM 5, Side B XA1 Temperature TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL152= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT152= 'Celsius ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKXA1TBLK10DM6A' / Block 10, DM 6, Side A XA1 Temperature TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL154= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT154= 'Celsius ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKXA1TBLK10DM6B' / Block 10, DM 6, Side B XA1 Temperature TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL156= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT156= 'Celsius ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKXA1TBLK10DM7A' / Block 10, DM 7, Side A XA1 Temperature TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL158= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT158= 'Celsius ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKXA1TBLK10DM7B' / Block 10, DM 7, Side B XA1 Temperature TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL160= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT160= 'Celsius ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKXA1TSPARE4' / XA1 Temperature Packets Spare Word 4 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk177x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894088.64388 TSTOP = 713896248.64396 DATE-OBS= '2023-08-16T15:54:43' DATE-END= '2023-08-16T16:30:43' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2160.00007998943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 375 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:45' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '79MJ87LJ77LJ77LJ' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '4115682299' / data unit checksum updated 2023-08-26T08:43:45 TRDLO2 = -51 / BHKXA1TBLK6DM0A Red lower limit = B_HK_B06D0A_XTRDHI2 = 28 / BHKXA1TBLK6DM0A Red upper limit = B_HK_B06D0A_XTYELO2 = -51 / BHKXA1TBLK6DM0A Yellow lower limit = B_HK_B06D0TYEHI2 = 25 / BHKXA1TBLK6DM0A Yellow upper limit = B_HK_B06D0TRDLO4 = -51 / BHKXA1TBLK6DM0B Red lower limit = B_HK_B06D0B_XTRDHI4 = 28 / BHKXA1TBLK6DM0B Red upper limit = B_HK_B06D0B_XTYELO4 = -51 / BHKXA1TBLK6DM0B Yellow lower limit = B_HK_B06D0TYEHI4 = 25 / BHKXA1TBLK6DM0B Yellow upper limit = B_HK_B06D0TRDLO6 = -51 / BHKXA1TBLK6DM1A Red lower limit = B_HK_B06D1A_XTRDHI6 = 28 / BHKXA1TBLK6DM1A Red upper limit = B_HK_B06D1A_XTYELO6 = -51 / BHKXA1TBLK6DM1A Yellow lower limit = B_HK_B06D1TYEHI6 = 25 / BHKXA1TBLK6DM1A Yellow upper limit = B_HK_B06D1TRDLO8 = -51 / BHKXA1TBLK6DM1B Red lower limit = B_HK_B06D1B_XTRDHI8 = 28 / BHKXA1TBLK6DM1B Red upper limit = B_HK_B06D1B_XTYELO8 = -51 / BHKXA1TBLK6DM1B Yellow lower limit = B_HK_B06D1TYEHI8 = 25 / BHKXA1TBLK6DM1B Yellow upper limit = B_HK_B06D1TRDLO10 = -51 / BHKXA1TBLK6DM2A Red lower limit = B_HK_B06D2A_XTRDHI10 = 28 / BHKXA1TBLK6DM2A Red upper limit = B_HK_B06D2A_XTYELO10 = -51 / BHKXA1TBLK6DM2A Yellow lower limit = B_HK_B06D2TYEHI10 = 25 / BHKXA1TBLK6DM2A Yellow upper limit = B_HK_B06D2TRDLO12 = -51 / BHKXA1TBLK6DM2B Red lower limit = B_HK_B06D2B_XTRDHI12 = 28 / BHKXA1TBLK6DM2B Red upper limit = B_HK_B06D2B_XTYELO12 = -51 / BHKXA1TBLK6DM2B Yellow lower limit = B_HK_B06D2TYEHI12 = 25 / BHKXA1TBLK6DM2B Yellow upper limit = B_HK_B06D2TRDLO14 = -51 / BHKXA1TBLK6DM3A Red lower limit = B_HK_B06D3A_XTRDHI14 = 28 / BHKXA1TBLK6DM3A Red upper limit = B_HK_B06D3A_XTYELO14 = -51 / BHKXA1TBLK6DM3A Yellow lower limit = B_HK_B06D3TYEHI14 = 25 / BHKXA1TBLK6DM3A Yellow upper limit = B_HK_B06D3TRDLO16 = -51 / BHKXA1TBLK6DM3B Red lower limit = B_HK_B06D3B_XTRDHI16 = 28 / BHKXA1TBLK6DM3B Red upper limit = B_HK_B06D3B_XTYELO16 = -51 / BHKXA1TBLK6DM3B Yellow lower limit = B_HK_B06D3TYEHI16 = 25 / BHKXA1TBLK6DM3B Yellow upper limit = B_HK_B06D3TRDLO18 = -51 / BHKXA1TBLK6DM4A Red lower limit = B_HK_B06D4A_XTRDHI18 = 28 / BHKXA1TBLK6DM4A Red upper limit = B_HK_B06D4A_XTYELO18 = -51 / BHKXA1TBLK6DM4A Yellow lower limit = B_HK_B06D4TYEHI18 = 25 / BHKXA1TBLK6DM4A Yellow upper limit = B_HK_B06D4TRDLO20 = -51 / BHKXA1TBLK6DM4B Red lower limit = B_HK_B06D4B_XTRDHI20 = 28 / BHKXA1TBLK6DM4B Red upper limit = B_HK_B06D4B_XTYELO20 = -51 / BHKXA1TBLK6DM4B Yellow lower limit = B_HK_B06D4TYEHI20 = 25 / BHKXA1TBLK6DM4B Yellow upper limit = B_HK_B06D4TRDLO22 = -51 / BHKXA1TBLK6DM5A Red lower limit = B_HK_B06D5A_XTRDHI22 = 28 / BHKXA1TBLK6DM5A Red upper limit = B_HK_B06D5A_XTYELO22 = -51 / BHKXA1TBLK6DM5A Yellow lower limit = B_HK_B06D5TYEHI22 = 25 / BHKXA1TBLK6DM5A Yellow upper limit = B_HK_B06D5TRDLO24 = -51 / BHKXA1TBLK6DM5B Red lower limit = B_HK_B06D5B_XTRDHI24 = 28 / BHKXA1TBLK6DM5B Red upper limit = B_HK_B06D5B_XTYELO24 = -51 / BHKXA1TBLK6DM5B Yellow lower limit = B_HK_B06D5TYEHI24 = 25 / BHKXA1TBLK6DM5B Yellow upper limit = B_HK_B06D5TRDLO26 = -51 / BHKXA1TBLK6DM6A Red lower limit = B_HK_B06D6A_XTRDHI26 = 28 / BHKXA1TBLK6DM6A Red upper limit = B_HK_B06D6A_XTYELO26 = -51 / BHKXA1TBLK6DM6A Yellow lower limit = B_HK_B06D6TYEHI26 = 25 / BHKXA1TBLK6DM6A Yellow upper limit = B_HK_B06D6TRDLO28 = -51 / BHKXA1TBLK6DM6B Red lower limit = B_HK_B06D6B_XTRDHI28 = 28 / BHKXA1TBLK6DM6B Red upper limit = B_HK_B06D6B_XTYELO28 = -51 / BHKXA1TBLK6DM6B Yellow lower limit = B_HK_B06D6TYEHI28 = 25 / BHKXA1TBLK6DM6B Yellow upper limit = B_HK_B06D6TRDLO30 = -51 / BHKXA1TBLK6DM7A Red lower limit = B_HK_B06D7A_XTRDHI30 = 28 / BHKXA1TBLK6DM7A Red upper limit = B_HK_B06D7A_XTYELO30 = -51 / BHKXA1TBLK6DM7A Yellow lower limit = B_HK_B06D7TYEHI30 = 25 / BHKXA1TBLK6DM7A Yellow upper limit = B_HK_B06D7TRDLO32 = -51 / BHKXA1TBLK6DM7B Red lower limit = B_HK_B06D7B_XTRDHI32 = 28 / BHKXA1TBLK6DM7B Red upper limit = B_HK_B06D7B_XTYELO32 = -51 / BHKXA1TBLK6DM7B Yellow lower limit = B_HK_B06D7TYEHI32 = 25 / BHKXA1TBLK6DM7B Yellow upper limit = B_HK_B06D7TRDLO34 = -51 / BHKXA1TBLK7DM0A Red lower limit = B_HK_B07D0A_XTRDHI34 = 28 / BHKXA1TBLK7DM0A Red upper limit = B_HK_B07D0A_XTYELO34 = -51 / BHKXA1TBLK7DM0A Yellow lower limit = B_HK_B07D0TYEHI34 = 25 / BHKXA1TBLK7DM0A Yellow upper limit = B_HK_B07D0TRDLO36 = -51 / BHKXA1TBLK7DM0B Red lower limit = B_HK_B07D0B_XTRDHI36 = 28 / BHKXA1TBLK7DM0B Red upper limit = B_HK_B07D0B_XTYELO36 = -51 / BHKXA1TBLK7DM0B Yellow lower limit = B_HK_B07D0TYEHI36 = 25 / BHKXA1TBLK7DM0B Yellow upper limit = B_HK_B07D0TRDLO38 = -51 / BHKXA1TBLK7DM1A Red lower limit = B_HK_B07D1A_XTRDHI38 = 28 / BHKXA1TBLK7DM1A Red upper limit = B_HK_B07D1A_XTYELO38 = -51 / BHKXA1TBLK7DM1A Yellow lower limit = B_HK_B07D1TYEHI38 = 25 / BHKXA1TBLK7DM1A Yellow upper limit = B_HK_B07D1TRDLO40 = -51 / BHKXA1TBLK7DM1B Red lower limit = B_HK_B07D1B_XTRDHI40 = 28 / BHKXA1TBLK7DM1B Red upper limit = B_HK_B07D1B_XTYELO40 = -51 / BHKXA1TBLK7DM1B Yellow lower limit = B_HK_B07D1TYEHI40 = 25 / BHKXA1TBLK7DM1B Yellow upper limit = B_HK_B07D1TRDLO42 = -51 / BHKXA1TBLK7DM2A Red lower limit = B_HK_B07D2A_XTRDHI42 = 28 / BHKXA1TBLK7DM2A Red upper limit = B_HK_B07D2A_XTYELO42 = -51 / BHKXA1TBLK7DM2A Yellow lower limit = B_HK_B07D2TYEHI42 = 25 / BHKXA1TBLK7DM2A Yellow upper limit = B_HK_B07D2TRDLO44 = -51 / BHKXA1TBLK7DM2B Red lower limit = B_HK_B07D2B_XTRDHI44 = 28 / BHKXA1TBLK7DM2B Red upper limit = B_HK_B07D2B_XTYELO44 = -51 / BHKXA1TBLK7DM2B Yellow lower limit = B_HK_B07D2TYEHI44 = 25 / BHKXA1TBLK7DM2B Yellow upper limit = B_HK_B07D2TRDLO46 = -51 / BHKXA1TBLK7DM3A Red lower limit = B_HK_B07D3A_XTRDHI46 = 28 / BHKXA1TBLK7DM3A Red upper limit = B_HK_B07D3A_XTYELO46 = -51 / BHKXA1TBLK7DM3A Yellow lower limit = B_HK_B07D3TYEHI46 = 25 / BHKXA1TBLK7DM3A Yellow upper limit = B_HK_B07D3TRDLO48 = -51 / BHKXA1TBLK7DM3B Red lower limit = B_HK_B07D3B_XTRDHI48 = 28 / BHKXA1TBLK7DM3B Red upper limit = B_HK_B07D3B_XTYELO48 = -51 / BHKXA1TBLK7DM3B Yellow lower limit = B_HK_B07D3TYEHI48 = 25 / BHKXA1TBLK7DM3B Yellow upper limit = B_HK_B07D3TRDLO50 = -51 / BHKXA1TBLK7DM4A Red lower limit = B_HK_B07D4A_XTRDHI50 = 28 / BHKXA1TBLK7DM4A Red upper limit = B_HK_B07D4A_XTYELO50 = -51 / BHKXA1TBLK7DM4A Yellow lower limit = B_HK_B07D4TYEHI50 = 25 / BHKXA1TBLK7DM4A Yellow upper limit = B_HK_B07D4TRDLO52 = -51 / BHKXA1TBLK7DM4B Red lower limit = B_HK_B07D4B_XTRDHI52 = 28 / BHKXA1TBLK7DM4B Red upper limit = B_HK_B07D4B_XTYELO52 = -51 / BHKXA1TBLK7DM4B Yellow lower limit = B_HK_B07D4TYEHI52 = 25 / BHKXA1TBLK7DM4B Yellow upper limit = B_HK_B07D4TRDLO54 = -51 / BHKXA1TBLK7DM5A Red lower limit = B_HK_B07D5A_XTRDHI54 = 28 / BHKXA1TBLK7DM5A Red upper limit = B_HK_B07D5A_XTYELO54 = -51 / BHKXA1TBLK7DM5A Yellow lower limit = B_HK_B07D5TYEHI54 = 25 / BHKXA1TBLK7DM5A Yellow upper limit = B_HK_B07D5TRDLO56 = -51 / BHKXA1TBLK7DM5B Red lower limit = B_HK_B07D5B_XTRDHI56 = 28 / BHKXA1TBLK7DM5B Red upper limit = B_HK_B07D5B_XTYELO56 = -51 / BHKXA1TBLK7DM5B Yellow lower limit = B_HK_B07D5TYEHI56 = 25 / BHKXA1TBLK7DM5B Yellow upper limit = B_HK_B07D5TRDLO58 = -51 / BHKXA1TBLK7DM6A Red lower limit = B_HK_B07D6A_XTRDHI58 = 28 / BHKXA1TBLK7DM6A Red upper limit = B_HK_B07D6A_XTYELO58 = -51 / BHKXA1TBLK7DM6A Yellow lower limit = B_HK_B07D6TYEHI58 = 25 / BHKXA1TBLK7DM6A Yellow upper limit = B_HK_B07D6TRDLO60 = -51 / BHKXA1TBLK7DM6B Red lower limit = B_HK_B07D6B_XTRDHI60 = 28 / BHKXA1TBLK7DM6B Red upper limit = B_HK_B07D6B_XTYELO60 = -51 / BHKXA1TBLK7DM6B Yellow lower limit = B_HK_B07D6TYEHI60 = 25 / BHKXA1TBLK7DM6B Yellow upper limit = B_HK_B07D6TRDLO62 = -51 / BHKXA1TBLK7DM7A Red lower limit = B_HK_B07D7A_XTRDHI62 = 28 / BHKXA1TBLK7DM7A Red upper limit = B_HK_B07D7A_XTYELO62 = -51 / BHKXA1TBLK7DM7A Yellow lower limit = B_HK_B07D7TYEHI62 = 25 / BHKXA1TBLK7DM7A Yellow upper limit = B_HK_B07D7TRDLO64 = -51 / BHKXA1TBLK7DM7B Red lower limit = B_HK_B07D7B_XTRDHI64 = 28 / BHKXA1TBLK7DM7B Red upper limit = B_HK_B07D7B_XTYELO64 = -51 / BHKXA1TBLK7DM7B Yellow lower limit = B_HK_B07D7TYEHI64 = 25 / BHKXA1TBLK7DM7B Yellow upper limit = B_HK_B07D7TRDLO66 = -51 / BHKXA1TBLK8DM0A Red lower limit = B_HK_B08D0A_XTRDHI66 = 28 / BHKXA1TBLK8DM0A Red upper limit = B_HK_B08D0A_XTYELO66 = -51 / BHKXA1TBLK8DM0A Yellow lower limit = B_HK_B08D0TYEHI66 = 25 / BHKXA1TBLK8DM0A Yellow upper limit = B_HK_B08D0TRDLO68 = -51 / BHKXA1TBLK8DM0B Red lower limit = B_HK_B08D0B_XTRDHI68 = 28 / BHKXA1TBLK8DM0B Red upper limit = B_HK_B08D0B_XTYELO68 = -51 / BHKXA1TBLK8DM0B Yellow lower limit = B_HK_B08D0TYEHI68 = 25 / BHKXA1TBLK8DM0B Yellow upper limit = B_HK_B08D0TRDLO70 = -51 / BHKXA1TBLK8DM1A Red lower limit = B_HK_B08D1A_XTRDHI70 = 28 / BHKXA1TBLK8DM1A Red upper limit = B_HK_B08D1A_XTYELO70 = -51 / BHKXA1TBLK8DM1A Yellow lower limit = B_HK_B08D1TYEHI70 = 25 / BHKXA1TBLK8DM1A Yellow upper limit = B_HK_B08D1TRDLO72 = -51 / BHKXA1TBLK8DM1B Red lower limit = B_HK_B08D1B_XTRDHI72 = 28 / BHKXA1TBLK8DM1B Red upper limit = B_HK_B08D1B_XTYELO72 = -51 / BHKXA1TBLK8DM1B Yellow lower limit = B_HK_B08D1TYEHI72 = 25 / BHKXA1TBLK8DM1B Yellow upper limit = B_HK_B08D1TRDLO74 = -51 / BHKXA1TBLK8DM2A Red lower limit = B_HK_B08D2A_XTRDHI74 = 28 / BHKXA1TBLK8DM2A Red upper limit = B_HK_B08D2A_XTYELO74 = -51 / BHKXA1TBLK8DM2A Yellow lower limit = B_HK_B08D2TYEHI74 = 25 / BHKXA1TBLK8DM2A Yellow upper limit = B_HK_B08D2TRDLO76 = -51 / BHKXA1TBLK8DM2B Red lower limit = B_HK_B08D2B_XTRDHI76 = 28 / BHKXA1TBLK8DM2B Red upper limit = B_HK_B08D2B_XTYELO76 = -51 / BHKXA1TBLK8DM2B Yellow lower limit = B_HK_B08D2TYEHI76 = 25 / BHKXA1TBLK8DM2B Yellow upper limit = B_HK_B08D2TRDLO78 = -51 / BHKXA1TBLK8DM3A Red lower limit = B_HK_B08D3A_XTRDHI78 = 28 / BHKXA1TBLK8DM3A Red upper limit = B_HK_B08D3A_XTYELO78 = -51 / BHKXA1TBLK8DM3A Yellow lower limit = B_HK_B08D3TYEHI78 = 25 / BHKXA1TBLK8DM3A Yellow upper limit = B_HK_B08D3TRDLO80 = -51 / BHKXA1TBLK8DM3B Red lower limit = B_HK_B08D3B_XTRDHI80 = 28 / BHKXA1TBLK8DM3B Red upper limit = B_HK_B08D3B_XTYELO80 = -51 / BHKXA1TBLK8DM3B Yellow lower limit = B_HK_B08D3TYEHI80 = 25 / BHKXA1TBLK8DM3B Yellow upper limit = B_HK_B08D3TRDLO82 = -51 / BHKXA1TBLK8DM4A Red lower limit = B_HK_B08D4A_XTRDHI82 = 28 / BHKXA1TBLK8DM4A Red upper limit = B_HK_B08D4A_XTYELO82 = -51 / BHKXA1TBLK8DM4A Yellow lower limit = B_HK_B08D4TYEHI82 = 25 / BHKXA1TBLK8DM4A Yellow upper limit = B_HK_B08D4TRDLO84 = -51 / BHKXA1TBLK8DM4B Red lower limit = B_HK_B08D4B_XTRDHI84 = 28 / BHKXA1TBLK8DM4B Red upper limit = B_HK_B08D4B_XTYELO84 = -51 / BHKXA1TBLK8DM4B Yellow lower limit = B_HK_B08D4TYEHI84 = 25 / BHKXA1TBLK8DM4B Yellow upper limit = B_HK_B08D4TRDLO86 = -51 / BHKXA1TBLK8DM5A Red lower limit = B_HK_B08D5A_XTRDHI86 = 28 / BHKXA1TBLK8DM5A Red upper limit = B_HK_B08D5A_XTYELO86 = -51 / BHKXA1TBLK8DM5A Yellow lower limit = B_HK_B08D5TYEHI86 = 25 / BHKXA1TBLK8DM5A Yellow upper limit = B_HK_B08D5TRDLO88 = -51 / BHKXA1TBLK8DM5B Red lower limit = B_HK_B08D5B_XTRDHI88 = 28 / BHKXA1TBLK8DM5B Red upper limit = B_HK_B08D5B_XTYELO88 = -51 / BHKXA1TBLK8DM5B Yellow lower limit = B_HK_B08D5TYEHI88 = 25 / BHKXA1TBLK8DM5B Yellow upper limit = B_HK_B08D5TRDLO90 = -51 / BHKXA1TBLK8DM6A Red lower limit = B_HK_B08D6A_XTRDHI90 = 28 / BHKXA1TBLK8DM6A Red upper limit = B_HK_B08D6A_XTYELO90 = -51 / BHKXA1TBLK8DM6A Yellow lower limit = B_HK_B08D6TYEHI90 = 25 / BHKXA1TBLK8DM6A Yellow upper limit = B_HK_B08D6TRDLO92 = -51 / BHKXA1TBLK8DM6B Red lower limit = B_HK_B08D6B_XTRDHI92 = 28 / BHKXA1TBLK8DM6B Red upper limit = B_HK_B08D6B_XTYELO92 = -51 / BHKXA1TBLK8DM6B Yellow lower limit = B_HK_B08D6TYEHI92 = 25 / BHKXA1TBLK8DM6B Yellow upper limit = B_HK_B08D6TRDLO94 = -51 / BHKXA1TBLK8DM7A Red lower limit = B_HK_B08D7A_XTRDHI94 = 28 / BHKXA1TBLK8DM7A Red upper limit = B_HK_B08D7A_XTYELO94 = -51 / BHKXA1TBLK8DM7A Yellow lower limit = B_HK_B08D7TYEHI94 = 25 / BHKXA1TBLK8DM7A Yellow upper limit = B_HK_B08D7TRDLO96 = -51 / BHKXA1TBLK8DM7B Red lower limit = B_HK_B08D7B_XTRDHI96 = 28 / BHKXA1TBLK8DM7B Red upper limit = B_HK_B08D7B_XTYELO96 = -51 / BHKXA1TBLK8DM7B Yellow lower limit = B_HK_B08D7TYEHI96 = 25 / BHKXA1TBLK8DM7B Yellow upper limit = B_HK_B08D7TRDLO98 = -51 / BHKXA1TBLK9DM0A Red lower limit = B_HK_B09D0A_XTRDHI98 = 28 / BHKXA1TBLK9DM0A Red upper limit = B_HK_B09D0A_XTYELO98 = -51 / BHKXA1TBLK9DM0A Yellow lower limit = B_HK_B09D0TYEHI98 = 25 / BHKXA1TBLK9DM0A Yellow upper limit = B_HK_B09D0TRDLO100= -51 / BHKXA1TBLK9DM0B Red lower limit = B_HK_B09D0B_XTRDHI100= 28 / BHKXA1TBLK9DM0B Red upper limit = B_HK_B09D0B_XTYELO100= -51 / BHKXA1TBLK9DM0B Yellow lower limit = B_HK_B09D0TYEHI100= 25 / BHKXA1TBLK9DM0B Yellow upper limit = B_HK_B09D0TRDLO102= -51 / BHKXA1TBLK9DM1A Red lower limit = B_HK_B09D1A_XTRDHI102= 28 / BHKXA1TBLK9DM1A Red upper limit = B_HK_B09D1A_XTYELO102= -51 / BHKXA1TBLK9DM1A Yellow lower limit = B_HK_B09D1TYEHI102= 25 / BHKXA1TBLK9DM1A Yellow upper limit = B_HK_B09D1TRDLO104= -51 / BHKXA1TBLK9DM1B Red lower limit = B_HK_B09D1B_XTRDHI104= 28 / BHKXA1TBLK9DM1B Red upper limit = B_HK_B09D1B_XTYELO104= -51 / BHKXA1TBLK9DM1B Yellow lower limit = B_HK_B09D1TYEHI104= 25 / BHKXA1TBLK9DM1B Yellow upper limit = B_HK_B09D1TRDLO106= -51 / BHKXA1TBLK9DM2A Red lower limit = B_HK_B09D2A_XTRDHI106= 28 / BHKXA1TBLK9DM2A Red upper limit = B_HK_B09D2A_XTYELO106= -51 / BHKXA1TBLK9DM2A Yellow lower limit = B_HK_B09D2TYEHI106= 25 / BHKXA1TBLK9DM2A Yellow upper limit = B_HK_B09D2TRDLO108= -51 / BHKXA1TBLK9DM2B Red lower limit = B_HK_B09D2B_XTRDHI108= 28 / BHKXA1TBLK9DM2B Red upper limit = B_HK_B09D2B_XTYELO108= -51 / BHKXA1TBLK9DM2B Yellow lower limit = B_HK_B09D2TYEHI108= 25 / BHKXA1TBLK9DM2B Yellow upper limit = B_HK_B09D2TRDLO110= -51 / BHKXA1TBLK9DM3A Red lower limit = B_HK_B09D3A_XTRDHI110= 28 / BHKXA1TBLK9DM3A Red upper limit = B_HK_B09D3A_XTYELO110= -51 / BHKXA1TBLK9DM3A Yellow lower limit = B_HK_B09D3TYEHI110= 25 / BHKXA1TBLK9DM3A Yellow upper limit = B_HK_B09D3TRDLO112= -51 / BHKXA1TBLK9DM3B Red lower limit = B_HK_B09D3B_XTRDHI112= 28 / BHKXA1TBLK9DM3B Red upper limit = B_HK_B09D3B_XTYELO112= -51 / BHKXA1TBLK9DM3B Yellow lower limit = B_HK_B09D3TYEHI112= 25 / BHKXA1TBLK9DM3B Yellow upper limit = B_HK_B09D3TRDLO114= -51 / BHKXA1TBLK9DM4A Red lower limit = B_HK_B09D4A_XTRDHI114= 28 / BHKXA1TBLK9DM4A Red upper limit = B_HK_B09D4A_XTYELO114= -51 / BHKXA1TBLK9DM4A Yellow lower limit = B_HK_B09D4TYEHI114= 25 / BHKXA1TBLK9DM4A Yellow upper limit = B_HK_B09D4TRDLO116= -51 / BHKXA1TBLK9DM4B Red lower limit = B_HK_B09D4B_XTRDHI116= 28 / BHKXA1TBLK9DM4B Red upper limit = B_HK_B09D4B_XTYELO116= -51 / BHKXA1TBLK9DM4B Yellow lower limit = B_HK_B09D4TYEHI116= 25 / BHKXA1TBLK9DM4B Yellow upper limit = B_HK_B09D4TRDLO118= -51 / BHKXA1TBLK9DM5A Red lower limit = B_HK_B09D5A_XTRDHI118= 28 / BHKXA1TBLK9DM5A Red upper limit = B_HK_B09D5A_XTYELO118= -51 / BHKXA1TBLK9DM5A Yellow lower limit = B_HK_B09D5TYEHI118= 25 / BHKXA1TBLK9DM5A Yellow upper limit = B_HK_B09D5TRDLO120= -51 / BHKXA1TBLK9DM5B Red lower limit = B_HK_B09D5B_XTRDHI120= 28 / BHKXA1TBLK9DM5B Red upper limit = B_HK_B09D5B_XTYELO120= -51 / BHKXA1TBLK9DM5B Yellow lower limit = B_HK_B09D5TYEHI120= 25 / BHKXA1TBLK9DM5B Yellow upper limit = B_HK_B09D5TRDLO122= -51 / BHKXA1TBLK9DM6A Red lower limit = B_HK_B09D6A_XTRDHI122= 28 / BHKXA1TBLK9DM6A Red upper limit = B_HK_B09D6A_XTYELO122= -51 / BHKXA1TBLK9DM6A Yellow lower limit = B_HK_B09D6TYEHI122= 25 / BHKXA1TBLK9DM6A Yellow upper limit = B_HK_B09D6TRDLO124= -51 / BHKXA1TBLK9DM6B Red lower limit = B_HK_B09D6B_XTRDHI124= 28 / BHKXA1TBLK9DM6B Red upper limit = B_HK_B09D6B_XTYELO124= -51 / BHKXA1TBLK9DM6B Yellow lower limit = B_HK_B09D6TYEHI124= 25 / BHKXA1TBLK9DM6B Yellow upper limit = B_HK_B09D6TRDLO126= -51 / BHKXA1TBLK9DM7A Red lower limit = B_HK_B09D7A_XTRDHI126= 28 / BHKXA1TBLK9DM7A Red upper limit = B_HK_B09D7A_XTYELO126= -51 / BHKXA1TBLK9DM7A Yellow lower limit = B_HK_B09D7TYEHI126= 25 / BHKXA1TBLK9DM7A Yellow upper limit = B_HK_B09D7TRDLO128= -51 / BHKXA1TBLK9DM7B Red lower limit = B_HK_B09D7B_XTRDHI128= 28 / BHKXA1TBLK9DM7B Red upper limit = B_HK_B09D7B_XTYELO128= -51 / BHKXA1TBLK9DM7B Yellow lower limit = B_HK_B09D7TYEHI128= 25 / BHKXA1TBLK9DM7B Yellow upper limit = B_HK_B09D7TRDLO130= -51 / BHKXA1TBLK10DM0A Red lower limit = B_HK_B10D0A_TRDHI130= 28 / BHKXA1TBLK10DM0A Red upper limit = B_HK_B10D0A_TYELO130= -51 / BHKXA1TBLK10DM0A Yellow lower limit = B_HK_B10DTYEHI130= 25 / BHKXA1TBLK10DM0A Yellow upper limit = B_HK_B10DTRDLO132= -51 / BHKXA1TBLK10DM0B Red lower limit = B_HK_B10D0B_TRDHI132= 28 / BHKXA1TBLK10DM0B Red upper limit = B_HK_B10D0B_TYELO132= -51 / BHKXA1TBLK10DM0B Yellow lower limit = B_HK_B10DTYEHI132= 25 / BHKXA1TBLK10DM0B Yellow upper limit = B_HK_B10DTRDLO134= -51 / BHKXA1TBLK10DM1A Red lower limit = B_HK_B10D1A_TRDHI134= 28 / BHKXA1TBLK10DM1A Red upper limit = B_HK_B10D1A_TYELO134= -51 / BHKXA1TBLK10DM1A Yellow lower limit = B_HK_B10DTYEHI134= 25 / BHKXA1TBLK10DM1A Yellow upper limit = B_HK_B10DTRDLO136= -51 / BHKXA1TBLK10DM1B Red lower limit = B_HK_B10D1B_TRDHI136= 28 / BHKXA1TBLK10DM1B Red upper limit = B_HK_B10D1B_TYELO136= -51 / BHKXA1TBLK10DM1B Yellow lower limit = B_HK_B10DTYEHI136= 25 / BHKXA1TBLK10DM1B Yellow upper limit = B_HK_B10DTRDLO138= -51 / BHKXA1TBLK10DM2A Red lower limit = B_HK_B10D2A_TRDHI138= 28 / BHKXA1TBLK10DM2A Red upper limit = B_HK_B10D2A_TYELO138= -51 / BHKXA1TBLK10DM2A Yellow lower limit = B_HK_B10DTYEHI138= 25 / BHKXA1TBLK10DM2A Yellow upper limit = B_HK_B10DTRDLO140= -51 / BHKXA1TBLK10DM2B Red lower limit = B_HK_B10D2B_TRDHI140= 28 / BHKXA1TBLK10DM2B Red upper limit = B_HK_B10D2B_TYELO140= -51 / BHKXA1TBLK10DM2B Yellow lower limit = B_HK_B10DTYEHI140= 25 / BHKXA1TBLK10DM2B Yellow upper limit = B_HK_B10DTRDLO142= -51 / BHKXA1TBLK10DM3A Red lower limit = B_HK_B10D3A_TRDHI142= 28 / BHKXA1TBLK10DM3A Red upper limit = B_HK_B10D3A_TYELO142= -51 / BHKXA1TBLK10DM3A Yellow lower limit = B_HK_B10DTYEHI142= 25 / BHKXA1TBLK10DM3A Yellow upper limit = B_HK_B10DTRDLO144= -51 / BHKXA1TBLK10DM3B Red lower limit = B_HK_B10D3B_TRDHI144= 28 / BHKXA1TBLK10DM3B Red upper limit = B_HK_B10D3B_TYELO144= -51 / BHKXA1TBLK10DM3B Yellow lower limit = B_HK_B10DTYEHI144= 25 / BHKXA1TBLK10DM3B Yellow upper limit = B_HK_B10DTRDLO146= -51 / BHKXA1TBLK10DM4A Red lower limit = B_HK_B10D4A_TRDHI146= 28 / BHKXA1TBLK10DM4A Red upper limit = B_HK_B10D4A_TYELO146= -51 / BHKXA1TBLK10DM4A Yellow lower limit = B_HK_B10DTYEHI146= 25 / BHKXA1TBLK10DM4A Yellow upper limit = B_HK_B10DTRDLO148= -51 / BHKXA1TBLK10DM4B Red lower limit = B_HK_B10D4B_TRDHI148= 28 / BHKXA1TBLK10DM4B Red upper limit = B_HK_B10D4B_TYELO148= -51 / BHKXA1TBLK10DM4B Yellow lower limit = B_HK_B10DTYEHI148= 25 / BHKXA1TBLK10DM4B Yellow upper limit = B_HK_B10DTRDLO150= -51 / BHKXA1TBLK10DM5A Red lower limit = B_HK_B10D5A_TRDHI150= 28 / BHKXA1TBLK10DM5A Red upper limit = B_HK_B10D5A_TYELO150= -51 / BHKXA1TBLK10DM5A Yellow lower limit = B_HK_B10DTYEHI150= 25 / BHKXA1TBLK10DM5A Yellow upper limit = B_HK_B10DTRDLO152= -51 / BHKXA1TBLK10DM5B Red lower limit = B_HK_B10D5B_TRDHI152= 28 / BHKXA1TBLK10DM5B Red upper limit = B_HK_B10D5B_TYELO152= -51 / BHKXA1TBLK10DM5B Yellow lower limit = B_HK_B10DTYEHI152= 25 / BHKXA1TBLK10DM5B Yellow upper limit = B_HK_B10DTRDLO154= -51 / BHKXA1TBLK10DM6A Red lower limit = B_HK_B10D6A_TRDHI154= 28 / BHKXA1TBLK10DM6A Red upper limit = B_HK_B10D6A_TYELO154= -51 / BHKXA1TBLK10DM6A Yellow lower limit = B_HK_B10DTYEHI154= 25 / BHKXA1TBLK10DM6A Yellow upper limit = B_HK_B10DTRDLO156= -51 / BHKXA1TBLK10DM6B Red lower limit = B_HK_B10D6B_TRDHI156= 28 / BHKXA1TBLK10DM6B Red upper limit = B_HK_B10D6B_TYELO156= -51 / BHKXA1TBLK10DM6B Yellow lower limit = B_HK_B10DTYEHI156= 25 / BHKXA1TBLK10DM6B Yellow upper limit = B_HK_B10DTRDLO158= -51 / BHKXA1TBLK10DM7A Red lower limit = B_HK_B10D7A_TRDHI158= 28 / BHKXA1TBLK10DM7A Red upper limit = B_HK_B10D7A_TYELO158= -51 / BHKXA1TBLK10DM7A Yellow lower limit = B_HK_B10DTYEHI158= 25 / BHKXA1TBLK10DM7A Yellow upper limit = B_HK_B10DTRDLO160= -51 / BHKXA1TBLK10DM7B Red lower limit = B_HK_B10D7B_TRDHI160= 28 / BHKXA1TBLK10DM7B Red upper limit = B_HK_B10D7B_TYELO160= -51 / BHKXA1TBLK10DM7B Yellow lower limit = B_HK_B10DTYEHI160= 25 / BHKXA1TBLK10DM7B Yellow upper limit = B_HK_B10DHISTORY TASK: FAPPND on FILENAME: sw01185673000b177x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:47 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�dRj��v��u�o�k��c��q��j�p�y��w��x�p�q�u�w��l�x�n��~�v�f��t��x��|��t��}��y��}�~��s��u��y��y��MA�F�sRiY��w��u�o�k��b��q��j�p�y��v��x�p�p�t�w�~�l�x�n��}�v�f��t��y��|��u��|��y��~�~��s��v��y��y��^A�F��RkQ��w��t�o�k��b��p��j�p�y��v��x�p�p�u�w��l�x�n��}�v�f��t��x��|��t��}��y��}�~��r��v��y��y��A�F��Rk��v��u�o�k��b��p��j�p�y��v��x�p�p�t�w�~�l�x�n��~�u�f��t��y��{��t��|��y��}�~��r��v��y��y��A�F��Rj��v��u�o�k��b��p��j�p�y��v��x�p�p�t�w��l�y�n��}�v�e��t��x��|��t��}��z��}�~��s��v��z��y��A�F��R��v��t�o�k��b��p��j�p�y��v��w�p�p�t�x��m�x�m��}�v�f��t��y��|��s��}��y��~�~��s��u��y��y��&A�F��RiY��w��u�o�l��b��q��j�p�y��v��x�p�p�t�x��l�y�n��}�v�g��t��y��|��t��}��y��~�~��r��v��y��y��A�F��Rk��w��u�o�k��c��q��j�p�y��v��w�p�p�t�x��m�x�m��~�v�f��t��x��}��t��}��y��~�~��r��v��z��y��A�F��Rn��v��u�o�k��c��q��k�p�y��w��x�p�p�t�x��m�y�m��~�v�f��t��x��|��t��}��z��~�~��s��v��z��z��eA�F��Rj��w��u�o�l��b��q��k�p�z��w��w�p�p�u�x��l�y�m��~�v�f��t��x��{��u��|��z��}�~�~�s��v��z��y��0A�F��Rk��w��u�o�k��c��q��j�p�y��w��x�q�q�t�x��m�y�m��~�v�g��u��x��|��t��|��z��}�~�~�s��v��z��y��A�F� RiY��w��u�o�l��b��q��j�p�y��v��x�p�q�t�x��l�y�m��~�v�f��u��x��|��u��}��z��}�~��s��v��z��y��A�F�Rj��w��u�o�k��b��q��j�p�y��v��x�p�p�t�x��l�y�n��~�u�f��t��x��|��u��|��y��}�~�~�s��v��y��y��A�F�'Rl��w��u�o�k��b��q��j�p�y��v��x�p�p�t�w��l�x�n��~�v�f��t��y��{��t��|��y��}��s��v��y��y��A�F�6Rh��w��u�o�k��b��q��j�q�y��w��x�p�p�t�x��l�x�m��~�u�f��t��y��|��u��}��y��}�~��s��u��z��y��#A�F�ERk��v��u�o�k��b��q��j�p�y��w��x�p�p�t�w��l�x�m��~�v�f��t��x��{��t��|��z��}�~��s��v��y��y��^A�F�TRl��v��u�o�k��b��p��j�p�y��v��x�p�p�u�w�~�l�x�m��~�v�f��t��y��|��t��}��y��}�~��r��u��y��y��rA�F�cRj��w��u�o�k��b��q��j�p�y��v��x�p�p�t�w��l�y�m��}�v�g��t��y��{��t��}��y��~��s��v��y��y��A�F�rRh ��v��u�o�k��b��q��j�p�y��v��x�p�p�t�w��l�x�n��~�v�f��t��x��|��t��}��y��}�~��s��v��y��y��A�F��Rj��w��u�p�k��b��p��j�o�y��v��w�p�p�t�x��l�y�n��~�v�f��t��x��|��u��|��z��}��s��v��y��y��|A�F��Rj��v��u�p�k��b��q��j�p�y��v��w�p�p�t�x��l�x�n��~�v�f��t��y��|��t��}��z��}�~��s��v��z��z��A�F��Rq7��v��u�o�k��c��q��j�q�y��v��x�p�q�t�x��l�y�n��~�v�f��t��x��|��t��}��z��}��s��v��y��y��-A�F��RkQ��w��u�o�k��b��q��j�p�y��v��x�q�p�t�w��l�x�n��}�v�f��t��x��|��t��}��z��~�~��s��u��z��x��iA�F��Rh��v��u�o�k��c��p��j�p�y��v��x�p�p�t�x��l�y�m��~�v�g��t��x��|��u��}��z��~�~��r��v��y��y��A�F��Rj��w��u�o�k��c��p��j�p�y��v��x�p�q�u�w��l�x�n��~�v�f��t��x��|��t��}��z��}�~��s��v��y��y��aA�F��RmH��v��u�o�k��b��p��j�p�y��v��x�p�p�t�x��l�y�m��~�v�f��t��x��{��t��}��y��}�~��s��w��y��y��8A�F��Rh ��v��t�p�k��c��p��k�p�y��v��x�p�p�u�x��l�y�n��~�v�f��t��x��|��u��}��y��~�~�~�s��v��z��y��cA�F��R�D��w��u�o�k��b��p��j�o�y��v��x�p�p�t�x��l�y�m��~�v�g��t��x��{��t��}��z��}�~��s��v��y��y��A�F�Rj��v��u�o�k��b��p��j�p�y��v��w�o�p�t�w��m�x�n��~�v�f��t��x��|��t��}��y��}��s��v��y��y��?A�F�Rh��w��u�o�k��b��q��j�o�y��w��w�p�p�t�w�~�l�x�m��~�v�f��t��y��|��t��}��y��}��r��v��y��y��A�F�&R��v��u�o�k��b��p��j�p�y��v��x�o�o�t�w�~�l�y�n��~�v�f��t��x��|��t��}��z��}�~��s��v��y��y��A�F�5Rk��v��t�o�k��b��p��j�p�y��v��x�p�p�t�w�~�l�x�m��~�v�f��t��y��{��u��~��y��}�~��s��v��y��y��_A�F�DR��u��u�o�k��b��q��j�p�y��v��w�o�p�t�w��l�x�m��}�u�g��t��x��|��t��|��y��}�~��r��v��y��y��A�F�SRl��v��t�n�k��b��q��j�q�y��v��x�p�o�t�w�~�l�x�m��~�v�f��t��x��|��s��}��z��}�~��s��v��y��y��A�F�bR��v��u�o�k��b��p��j�p�y��v��x�o�p�t�x��l�x�m��~�u�g��t��y��|��t��|��y��}�~��s��v��y��y��9A�F�qRmH��v��t�o�k��b��p��j�p�y��v��x�p�p�t�x��l�x�m��~�v�f��u��x��|��u��}��z��}�~��s��u��y��y��qA�F��Rl��v��u�o�k��b��p��j�p�y��u��x�p�p�t�w�~�l�x�n��~�u�f��t��y��|��t��}��y��}�~�~�s��v��y��y��A�F��Rl��v��t�o�k��b��p��j�p�y��v��w�p�p�t�w�~�l�x�m��~�v�f��t�~��x��|��t��|��z��}�~��s��u��y��y�� A�F��Rl��v��t�o�k��b��p��j�p�x��v��w�o�o�t�w�~�l�x�m��~�v�f��t��x��{��t��|��y��}�~��s��u��y��y�� A�F��RkQ��v��t�o�k��b��p��j�o�y��v��w�p�o�t�w��l�x�m��~�v�f��t��x��|��t��|��y��}�~��s��v��y��y��úA�F��Ro?��v��t�n�k��a��p��i�p�x��v��w�p�p�t�w�~�l�w�m��}�u�f��t��x��|��t��|��y��}�~��r��u��y��y��ZA�F��Ro?��v��u�o�k��b��p��j�o�y��v��w�p�p�t�w�~�l�x�m��}�v�f��t��x��{��s��|��y��}�~��r��v��y��y��A�F��Rn��v��t�o�k��b��p��j�o�x��v��x�o�o�t�w�~�l�x�m��}�u�f��t��x��{��t��}��y��}�~�~�r��u��y��x��ŦA�F��Rr��u��t�n�k��b��p��i�o�x��u��w�p�o�s�w�~�k�x�m��}�v�f��t��x��{��t��|��y��}�~�~�s��u��y��x��A�F��Ro?��v��t�o�j��b��p��i�p�x��u��w�o�o�s�w�~�l�x�m��}�u�f��s��x��{��t��|��y��}�~�~�r��u��y��y��A�F�Rp��v��u�o�j��a��p��i�o�x��u��w�o�o�s�w��k�x�m��}�v�f��t��x��{��s��}��y��}�~��r��u��y��x��*A�F�Rl��v��t�o�j��b��p��i�o�x��v��w�o�o�s�w�~�l�x�m��}�u�f��t��x��{��t��|��y��}�}�~�s��u��y��x��9A�F�%RmH��u��t�o�j��b��p��j�p�x��v��w�o�p�s�w�~�l�x�m��}�u�f��t��w��{��t��|��y��}�~�~�s��u��y��y��A�F�4Rp��v��t�o�j��b��p��j�o�x��v��w�p�o�t�w�~�l�x�m��}�u�f��s��x��{��t��|��y��|�~�~�s��u��y��x��§A�F�CRl��v��t�n�k��a��p��i�o�x��u��w�o�o�s�w�~�k�x�m��}�u�f��s��x��|��t�~��|��y��}�~�~�s��v��y��y��A�F�RRp��w��t�n�j��a��p��j�p�x��u��w�o�o�t�w�~�l�x�l��}�u�f��t��x��{��t��}��x��}�~�~�r��u��y��y��]A�F�aRo?��v��t�n�j��b��p��j�o�x��u��w�o�p�s�w�~�k�x�m��}�u�f��t��x��|��s��|��x��}�~�~�r��u��y��x��nA�F�pRmH��v��t�o�j��b��p��i�o�x��v��v�o�o�s�w�~�k�x�l��}�u�f��t��x��{��t��|��~�x��|�}��s��t��y��y��qA�F�RmH��v��t�n�k��b��p��i�o�x��u��w�o�o�s�w�~�k�x�l��}�u�f��t��x��{��t��|��y��|�~�~�r��u��y��y��ĴA�F��Ro焃�u��t�n�j��a��o��i�o�x��v��w�o�o�s�v�~�l�x�m��}�u�f��t��x��{��t��|��y��|�~�~�r��v��y��x��A�F��Rl��u��s�n�j��b��p��i�o�x��u��w�o�o�s�w�~�k�w�l��}�u�f��s��x��{��s�~��|��x��|�~�~�r��u��y��x��A�F��Rm��v��t�o�j��a��o��i�o�x��~��u��w�o�o�s�v�~�k�w�l��}�u�f��s��w��{��t��|��x��|�}�~�r��u��y��x��ÒA�F��Rp��v��s�n�k��a��p��i�o�x��v��w�o�o�s�w�~�k�x�m��}�u�e��s��w��{��t�~��|��~�x��}�}�~�r��u��x��x��:A�F��RkQ��u��t�o�j��b��p��h�o�x��u��w�o�o�s�v�}�k�x�l��}�u�f��t��x��{��t��|��y��|�~�~�r��u��y��x��A�F��Rn��v��t�n�j��a��p��i�o�x��u��w�o�o�s�v�~�k�x�m��}�u�e��t��x��{��s��|��~�y��|�}�~�r��u��x��x��A�F��Rn��v��t�n�j��a��p��i�p�x��v��w�o�p�s�w�~�l�w�m��}�u�f��s�~��x��{��s��|��y��|�}�~�r��u��y��x��A�F��RmH��u��s�n�j��b��o��i�o�w��v��w�o�o�s�w�}�l�w�m��}�t�f��s��x��{��t�~��|��x��|�}�~�r��u��y��y��A�F�R��v��t�n�j��b��o��i�n�w��u��w�o�o�s�w�}�k�w�l��~�u�f��s��w��{��s��|��y��|�}�~�r��u��y��x��©A�F�Rm��u��t�n�j��a��p��i�o�x��~��u��w�o�o�s�w�~�k�x�m��}�u�e��s��x��{��t��|��y��}�~�}�r��u��x��x�� A�F�$Rn��u��s�n�j��a��p��i�o�w��u��w�o�o�s�w�~�k�x�m��}�u�e��s�~��w��{��s��|��~�y��|�}�~�r��u��y��x��A�F�3Rk��u��t�n�j��a��o��i�o�x��u��w�o�o�s�v�}�k�w�l��}�u�e��s�~��w��z��s��|��~�x��}�}�~�r��u��x��x��"A�F�BRn��u��s�n�i��a��o��i�o�x��u��v�o�o�s�v�}�k�w�l��}�u�f��s��w��{��s��|��~�y��|�}�~�r��v��x��x��A�F�QRm��v��t�n�j��a��o��i�o�x��~��u��w�n�o�s�w�}�k�w�m��}�u�e��s�~��w��{��s�~��|��~�x��}�}�}�r��u��x��w��A�F�`Ro?��u��t�o�j��a��o��i�n�x��t��v�o�o�s�v�}�k�w�m��}�u�f��s�~��w��{��s�~��{��~�x��{�}�~�r��t��x��x��A�F�oR~��u��s�n�j��a��p��i�o�w��u��v�o�o�r�v�}�k�w�l��}�u�e��s�~��w��{��t�~��|��~�x��{�}�~�r��u��x��x��A�F�~RkQ��u��t�n�j��a��o��i�o�w��~��v��w�o�o�s�v�~�j�w�l��}�u�e��s�~��w��z��s�~��|��~�x��|�}�~�q��u��x��x��A�F��Rq7��u��s�o�j��a��o��i�o�x��~��u��v�n�o�s�v�~�k�w�l��|�u�e��s�~��w��{��s�~��|��y��|�}�~�r��t��x��x��A�F��RmH��u��s�n�j��a��p��h�n�x��u��v�n�n�s�v�}�j�w�l��}�t�e��s�~��w��z��s�~��{��~�x��|�}�}�r��t��x��w��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 73 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKXA1TBLK11DM0A' / Block 11, DM 0, Side A XA1 Temperature TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL2 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT2 = 'Celsius ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKXA1TBLK11DM0B' / Block 11, DM 0, Side B XA1 Temperature TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL4 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT4 = 'Celsius ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKXA1TBLK11DM1A' / Block 11, DM 1, Side A XA1 Temperature TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL6 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT6 = 'Celsius ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKXA1TBLK11DM1B' / Block 11, DM 1, Side B XA1 Temperature TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL8 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKXA1TBLK11DM2A' / Block 11, DM 2, Side A XA1 Temperature TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL10 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKXA1TBLK11DM2B' / Block 11, DM 2, Side B XA1 Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL12 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKXA1TBLK11DM3A' / Block 11, DM 3, Side A XA1 Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL14 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT14 = 'Celsius ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKXA1TBLK11DM3B' / Block 11, DM 3, Side B XA1 Temperature TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL16 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT16 = 'Celsius ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKXA1TBLK11DM4A' / Block 11, DM 4, Side A XA1 Temperature TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL18 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT18 = 'Celsius ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKXA1TBLK11DM4B' / Block 11, DM 4, Side B XA1 Temperature TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL20 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT20 = 'Celsius ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKXA1TBLK11DM5A' / Block 11, DM 5, Side A XA1 Temperature TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL22 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT22 = 'Celsius ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKXA1TBLK11DM5B' / Block 11, DM 5, Side B XA1 Temperature TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL24 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT24 = 'Celsius ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKXA1TBLK11DM6A' / Block 11, DM 6, Side A XA1 Temperature TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL26 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKXA1TBLK11DM6B' / Block 11, DM 6, Side B XA1 Temperature TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL28 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKXA1TBLK11DM7A' / Block 11, DM 7, Side A XA1 Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL30 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKXA1TBLK11DM7B' / Block 11, DM 7, Side B XA1 Temperature TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL32 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT32 = 'Celsius ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKXA1TBLK12DM0A' / Block 12, DM 0, Side A XA1 Temperature TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL34 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT34 = 'Celsius ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKXA1TBLK12DM0B' / Block 12, DM 0, Side B XA1 Temperature TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL36 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT36 = 'Celsius ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKXA1TBLK12DM1A' / Block 12, DM 1, Side A XA1 Temperature TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL38 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT38 = 'Celsius ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKXA1TBLK12DM1B' / Block 12, DM 1, Side B XA1 Temperature TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL40 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT40 = 'Celsius ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKXA1TBLK12DM2A' / Block 12, DM 2, Side A XA1 Temperature TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL42 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT42 = 'Celsius ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKXA1TBLK12DM2B' / Block 12, DM 2, Side B XA1 Temperature TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL44 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKXA1TBLK12DM3A' / Block 12, DM 3, Side A XA1 Temperature TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL46 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKXA1TBLK12DM3B' / Block 12, DM 3, Side B XA1 Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL48 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKXA1TBLK12DM4A' / Block 12, DM 4, Side A XA1 Temperature TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL50 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT50 = 'Celsius ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKXA1TBLK12DM4B' / Block 12, DM 4, Side B XA1 Temperature TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL52 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT52 = 'Celsius ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKXA1TBLK12DM5A' / Block 12, DM 5, Side A XA1 Temperature TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL54 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT54 = 'Celsius ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKXA1TBLK12DM5B' / Block 12, DM 5, Side B XA1 Temperature TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL56 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT56 = 'Celsius ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKXA1TBLK12DM6A' / Block 12, DM 6, Side A XA1 Temperature TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL58 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT58 = 'Celsius ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKXA1TBLK12DM6B' / Block 12, DM 6, Side B XA1 Temperature TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL60 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT60 = 'Celsius ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKXA1TBLK12DM7A' / Block 12, DM 7, Side A XA1 Temperature TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL62 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKXA1TBLK12DM7B' / Block 12, DM 7, Side B XA1 Temperature TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL64 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKXA1TBLK13DM0A' / Block 13, DM 0, Side A XA1 Temperature TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL66 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKXA1TBLK13DM0B' / Block 13, DM 0, Side B XA1 Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL68 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKXA1TBLK13DM1A' / Block 13, DM 1, Side A XA1 Temperature TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL70 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKXA1TBLK13DM1B' / Block 13, DM 1, Side B XA1 Temperature TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL72 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKXA1TBLK13DM2A' / Block 13, DM 2, Side A XA1 Temperature TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL74 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKXA1TBLK13DM2B' / Block 13, DM 2, Side B XA1 Temperature TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL76 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKXA1TBLK13DM3A' / Block 13, DM 3, Side A XA1 Temperature TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL78 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKXA1TBLK13DM3B' / Block 13, DM 3, Side B XA1 Temperature TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL80 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKXA1TBLK13DM4A' / Block 13, DM 4, Side A XA1 Temperature TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL82 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKXA1TBLK13DM4B' / Block 13, DM 4, Side B XA1 Temperature TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL84 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKXA1TBLK13DM5A' / Block 13, DM 5, Side A XA1 Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL86 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKXA1TBLK13DM5B' / Block 13, DM 5, Side B XA1 Temperature TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL88 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKXA1TBLK13DM6A' / Block 13, DM 6, Side A XA1 Temperature TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL90 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKXA1TBLK13DM6B' / Block 13, DM 6, Side B XA1 Temperature TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL92 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKXA1TBLK13DM7A' / Block 13, DM 7, Side A XA1 Temperature TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL94 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKXA1TBLK13DM7B' / Block 13, DM 7, Side B XA1 Temperature TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL96 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKXA1TBLK14DM0A' / Block 14, DM 0, Side A XA1 Temperature TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL98 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKXA1TBLK14DM0B' / Block 14, DM 0, Side B XA1 Temperature TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL100= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKXA1TBLK14DM1A' / Block 14, DM 1, Side A XA1 Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL102= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKXA1TBLK14DM1B' / Block 14, DM 1, Side B XA1 Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL104= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKXA1TBLK14DM2A' / Block 14, DM 2, Side A XA1 Temperature TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL106= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKXA1TBLK14DM2B' / Block 14, DM 2, Side B XA1 Temperature TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL108= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKXA1TBLK14DM3A' / Block 14, DM 3, Side A XA1 Temperature TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL110= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKXA1TBLK14DM3B' / Block 14, DM 3, Side B XA1 Temperature TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL112= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKXA1TBLK14DM4A' / Block 14, DM 4, Side A XA1 Temperature TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL114= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKXA1TBLK14DM4B' / Block 14, DM 4, Side B XA1 Temperature TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL116= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKXA1TBLK14DM5A' / Block 14, DM 5, Side A XA1 Temperature TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL118= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKXA1TBLK14DM5B' / Block 14, DM 5, Side B XA1 Temperature TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL120= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKXA1TBLK14DM6A' / Block 14, DM 6, Side A XA1 Temperature TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL122= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKXA1TBLK14DM6B' / Block 14, DM 6, Side B XA1 Temperature TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL124= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKXA1TBLK14DM7A' / Block 14, DM 7, Side A XA1 Temperature TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL126= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKXA1TBLK14DM7B' / Block 14, DM 7, Side B XA1 Temperature TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL128= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKXA1TBLK15DM0A' / Block 15, DM 0, Side A XA1 Temperature TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL130= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT130= 'Celsius ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKXA1TBLK15DM0B' / Block 15, DM 0, Side B XA1 Temperature TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL132= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT132= 'Celsius ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKXA1TBLK15DM1A' / Block 15, DM 1, Side A XA1 Temperature TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL134= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT134= 'Celsius ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKXA1TBLK15DM1B' / Block 15, DM 1, Side B XA1 Temperature TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL136= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT136= 'Celsius ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKXA1TBLK15DM2A' / Block 15, DM 2, Side A XA1 Temperature TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL138= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT138= 'Celsius ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKXA1TBLK15DM2B' / Block 15, DM 2, Side B XA1 Temperature TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL140= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT140= 'Celsius ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKXA1TBLK15DM3A' / Block 15, DM 3, Side A XA1 Temperature TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL142= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT142= 'Celsius ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKXA1TBLK15DM3B' / Block 15, DM 3, Side B XA1 Temperature TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL144= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT144= 'Celsius ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKXA1TBLK15DM4A' / Block 15, DM 4, Side A XA1 Temperature TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL146= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT146= 'Celsius ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKXA1TBLK15DM4B' / Block 15, DM 4, Side B XA1 Temperature TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL148= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT148= 'Celsius ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKXA1TBLK15DM5A' / Block 15, DM 5, Side A XA1 Temperature TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL150= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT150= 'Celsius ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKXA1TBLK15DM5B' / Block 15, DM 5, Side B XA1 Temperature TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL152= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT152= 'Celsius ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKXA1TBLK15DM6A' / Block 15, DM 6, Side A XA1 Temperature TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL154= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT154= 'Celsius ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKXA1TBLK15DM6B' / Block 15, DM 6, Side B XA1 Temperature TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL156= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT156= 'Celsius ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKXA1TBLK15DM7A' / Block 15, DM 7, Side A XA1 Temperature TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL158= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT158= 'Celsius ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKXA1TBLK15DM7B' / Block 15, DM 7, Side B XA1 Temperature TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL160= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT160= 'Celsius ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKXA1TSPARE14' / XA1 Temperature Packets Spare Word 14 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk178x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894088.64562 TSTOP = 713896248.6457 DATE-OBS= '2023-08-16T15:54:43' DATE-END= '2023-08-16T16:30:43' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2160.00007998943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 376 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'cDH3c9F1cAF1c9F1' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2285820753' / data unit checksum updated 2023-08-26T08:43:46 TRDLO2 = -51 / BHKXA1TBLK11DM0A Red lower limit = B_HK_B11D0A_TRDHI2 = 28 / BHKXA1TBLK11DM0A Red upper limit = B_HK_B11D0A_TYELO2 = -51 / BHKXA1TBLK11DM0A Yellow lower limit = B_HK_B11DTYEHI2 = 25 / BHKXA1TBLK11DM0A Yellow upper limit = B_HK_B11DTRDLO4 = -51 / BHKXA1TBLK11DM0B Red lower limit = B_HK_B11D0B_TRDHI4 = 28 / BHKXA1TBLK11DM0B Red upper limit = B_HK_B11D0B_TYELO4 = -51 / BHKXA1TBLK11DM0B Yellow lower limit = B_HK_B11DTYEHI4 = 25 / BHKXA1TBLK11DM0B Yellow upper limit = B_HK_B11DTRDLO6 = -51 / BHKXA1TBLK11DM1A Red lower limit = B_HK_B11D1A_TRDHI6 = 28 / BHKXA1TBLK11DM1A Red upper limit = B_HK_B11D1A_TYELO6 = -51 / BHKXA1TBLK11DM1A Yellow lower limit = B_HK_B11DTYEHI6 = 25 / BHKXA1TBLK11DM1A Yellow upper limit = B_HK_B11DTRDLO8 = -51 / BHKXA1TBLK11DM1B Red lower limit = B_HK_B11D1B_TRDHI8 = 28 / BHKXA1TBLK11DM1B Red upper limit = B_HK_B11D1B_TYELO8 = -51 / BHKXA1TBLK11DM1B Yellow lower limit = B_HK_B11DTYEHI8 = 25 / BHKXA1TBLK11DM1B Yellow upper limit = B_HK_B11DTRDLO10 = -51 / BHKXA1TBLK11DM2A Red lower limit = B_HK_B11D2A_TRDHI10 = 28 / BHKXA1TBLK11DM2A Red upper limit = B_HK_B11D2A_TYELO10 = -51 / BHKXA1TBLK11DM2A Yellow lower limit = B_HK_B11DTYEHI10 = 25 / BHKXA1TBLK11DM2A Yellow upper limit = B_HK_B11DTRDLO12 = -51 / BHKXA1TBLK11DM2B Red lower limit = B_HK_B11D2B_TRDHI12 = 28 / BHKXA1TBLK11DM2B Red upper limit = B_HK_B11D2B_TYELO12 = -51 / BHKXA1TBLK11DM2B Yellow lower limit = B_HK_B11DTYEHI12 = 25 / BHKXA1TBLK11DM2B Yellow upper limit = B_HK_B11DTRDLO14 = -51 / BHKXA1TBLK11DM3A Red lower limit = B_HK_B11D3A_TRDHI14 = 28 / BHKXA1TBLK11DM3A Red upper limit = B_HK_B11D3A_TYELO14 = -51 / BHKXA1TBLK11DM3A Yellow lower limit = B_HK_B11DTYEHI14 = 25 / BHKXA1TBLK11DM3A Yellow upper limit = B_HK_B11DTRDLO16 = -51 / BHKXA1TBLK11DM3B Red lower limit = B_HK_B11D3B_TRDHI16 = 28 / BHKXA1TBLK11DM3B Red upper limit = B_HK_B11D3B_TYELO16 = -51 / BHKXA1TBLK11DM3B Yellow lower limit = B_HK_B11DTYEHI16 = 25 / BHKXA1TBLK11DM3B Yellow upper limit = B_HK_B11DTRDLO18 = -51 / BHKXA1TBLK11DM4A Red lower limit = B_HK_B11D4A_TRDHI18 = 28 / BHKXA1TBLK11DM4A Red upper limit = B_HK_B11D4A_TYELO18 = -51 / BHKXA1TBLK11DM4A Yellow lower limit = B_HK_B11DTYEHI18 = 25 / BHKXA1TBLK11DM4A Yellow upper limit = B_HK_B11DTRDLO20 = -51 / BHKXA1TBLK11DM4B Red lower limit = B_HK_B11D4B_TRDHI20 = 28 / BHKXA1TBLK11DM4B Red upper limit = B_HK_B11D4B_TYELO20 = -51 / BHKXA1TBLK11DM4B Yellow lower limit = B_HK_B11DTYEHI20 = 25 / BHKXA1TBLK11DM4B Yellow upper limit = B_HK_B11DTRDLO22 = -51 / BHKXA1TBLK11DM5A Red lower limit = B_HK_B11D5A_TRDHI22 = 28 / BHKXA1TBLK11DM5A Red upper limit = B_HK_B11D5A_TYELO22 = -51 / BHKXA1TBLK11DM5A Yellow lower limit = B_HK_B11DTYEHI22 = 25 / BHKXA1TBLK11DM5A Yellow upper limit = B_HK_B11DTRDLO24 = -51 / BHKXA1TBLK11DM5B Red lower limit = B_HK_B11D5B_TRDHI24 = 28 / BHKXA1TBLK11DM5B Red upper limit = B_HK_B11D5B_TYELO24 = -51 / BHKXA1TBLK11DM5B Yellow lower limit = B_HK_B11DTYEHI24 = 25 / BHKXA1TBLK11DM5B Yellow upper limit = B_HK_B11DTRDLO26 = -51 / BHKXA1TBLK11DM6A Red lower limit = B_HK_B11D6A_TRDHI26 = 28 / BHKXA1TBLK11DM6A Red upper limit = B_HK_B11D6A_TYELO26 = -51 / BHKXA1TBLK11DM6A Yellow lower limit = B_HK_B11DTYEHI26 = 25 / BHKXA1TBLK11DM6A Yellow upper limit = B_HK_B11DTRDLO28 = -51 / BHKXA1TBLK11DM6B Red lower limit = B_HK_B11D6B_TRDHI28 = 28 / BHKXA1TBLK11DM6B Red upper limit = B_HK_B11D6B_TYELO28 = -51 / BHKXA1TBLK11DM6B Yellow lower limit = B_HK_B11DTYEHI28 = 25 / BHKXA1TBLK11DM6B Yellow upper limit = B_HK_B11DTRDLO30 = -51 / BHKXA1TBLK11DM7A Red lower limit = B_HK_B11D7A_TRDHI30 = 28 / BHKXA1TBLK11DM7A Red upper limit = B_HK_B11D7A_TYELO30 = -51 / BHKXA1TBLK11DM7A Yellow lower limit = B_HK_B11DTYEHI30 = 25 / BHKXA1TBLK11DM7A Yellow upper limit = B_HK_B11DTRDLO32 = -51 / BHKXA1TBLK11DM7B Red lower limit = B_HK_B11D7B_TRDHI32 = 28 / BHKXA1TBLK11DM7B Red upper limit = B_HK_B11D7B_TYELO32 = -51 / BHKXA1TBLK11DM7B Yellow lower limit = B_HK_B11DTYEHI32 = 25 / BHKXA1TBLK11DM7B Yellow upper limit = B_HK_B11DTRDLO34 = -51 / BHKXA1TBLK12DM0A Red lower limit = B_HK_B12D0A_TRDHI34 = 28 / BHKXA1TBLK12DM0A Red upper limit = B_HK_B12D0A_TYELO34 = -51 / BHKXA1TBLK12DM0A Yellow lower limit = B_HK_B12DTYEHI34 = 25 / BHKXA1TBLK12DM0A Yellow upper limit = B_HK_B12DTRDLO36 = -51 / BHKXA1TBLK12DM0B Red lower limit = B_HK_B12D0B_TRDHI36 = 28 / BHKXA1TBLK12DM0B Red upper limit = B_HK_B12D0B_TYELO36 = -51 / BHKXA1TBLK12DM0B Yellow lower limit = B_HK_B12DTYEHI36 = 25 / BHKXA1TBLK12DM0B Yellow upper limit = B_HK_B12DTRDLO38 = -51 / BHKXA1TBLK12DM1A Red lower limit = B_HK_B12D1A_TRDHI38 = 28 / BHKXA1TBLK12DM1A Red upper limit = B_HK_B12D1A_TYELO38 = -51 / BHKXA1TBLK12DM1A Yellow lower limit = B_HK_B12DTYEHI38 = 25 / BHKXA1TBLK12DM1A Yellow upper limit = B_HK_B12DTRDLO40 = -51 / BHKXA1TBLK12DM1B Red lower limit = B_HK_B12D1B_TRDHI40 = 28 / BHKXA1TBLK12DM1B Red upper limit = B_HK_B12D1B_TYELO40 = -51 / BHKXA1TBLK12DM1B Yellow lower limit = B_HK_B12DTYEHI40 = 25 / BHKXA1TBLK12DM1B Yellow upper limit = B_HK_B12DTRDLO42 = -51 / BHKXA1TBLK12DM2A Red lower limit = B_HK_B12D2A_TRDHI42 = 28 / BHKXA1TBLK12DM2A Red upper limit = B_HK_B12D2A_TYELO42 = -51 / BHKXA1TBLK12DM2A Yellow lower limit = B_HK_B12DTYEHI42 = 25 / BHKXA1TBLK12DM2A Yellow upper limit = B_HK_B12DTRDLO44 = -51 / BHKXA1TBLK12DM2B Red lower limit = B_HK_B12D2B_TRDHI44 = 28 / BHKXA1TBLK12DM2B Red upper limit = B_HK_B12D2B_TYELO44 = -51 / BHKXA1TBLK12DM2B Yellow lower limit = B_HK_B12DTYEHI44 = 25 / BHKXA1TBLK12DM2B Yellow upper limit = B_HK_B12DTRDLO46 = -51 / BHKXA1TBLK12DM3A Red lower limit = B_HK_B12D3A_TRDHI46 = 28 / BHKXA1TBLK12DM3A Red upper limit = B_HK_B12D3A_TYELO46 = -51 / BHKXA1TBLK12DM3A Yellow lower limit = B_HK_B12DTYEHI46 = 25 / BHKXA1TBLK12DM3A Yellow upper limit = B_HK_B12DTRDLO48 = -51 / BHKXA1TBLK12DM3B Red lower limit = B_HK_B12D3B_TRDHI48 = 28 / BHKXA1TBLK12DM3B Red upper limit = B_HK_B12D3B_TYELO48 = -51 / BHKXA1TBLK12DM3B Yellow lower limit = B_HK_B12DTYEHI48 = 25 / BHKXA1TBLK12DM3B Yellow upper limit = B_HK_B12DTRDLO50 = -51 / BHKXA1TBLK12DM4A Red lower limit = B_HK_B12D4A_TRDHI50 = 28 / BHKXA1TBLK12DM4A Red upper limit = B_HK_B12D4A_TYELO50 = -51 / BHKXA1TBLK12DM4A Yellow lower limit = B_HK_B12DTYEHI50 = 25 / BHKXA1TBLK12DM4A Yellow upper limit = B_HK_B12DTRDLO52 = -51 / BHKXA1TBLK12DM4B Red lower limit = B_HK_B12D4B_TRDHI52 = 28 / BHKXA1TBLK12DM4B Red upper limit = B_HK_B12D4B_TYELO52 = -51 / BHKXA1TBLK12DM4B Yellow lower limit = B_HK_B12DTYEHI52 = 25 / BHKXA1TBLK12DM4B Yellow upper limit = B_HK_B12DTRDLO54 = -51 / BHKXA1TBLK12DM5A Red lower limit = B_HK_B12D5A_TRDHI54 = 28 / BHKXA1TBLK12DM5A Red upper limit = B_HK_B12D5A_TYELO54 = -51 / BHKXA1TBLK12DM5A Yellow lower limit = B_HK_B12DTYEHI54 = 25 / BHKXA1TBLK12DM5A Yellow upper limit = B_HK_B12DTRDLO56 = -51 / BHKXA1TBLK12DM5B Red lower limit = B_HK_B12D5B_TRDHI56 = 28 / BHKXA1TBLK12DM5B Red upper limit = B_HK_B12D5B_TYELO56 = -51 / BHKXA1TBLK12DM5B Yellow lower limit = B_HK_B12DTYEHI56 = 25 / BHKXA1TBLK12DM5B Yellow upper limit = B_HK_B12DTRDLO58 = -51 / BHKXA1TBLK12DM6A Red lower limit = B_HK_B12D6A_TRDHI58 = 28 / BHKXA1TBLK12DM6A Red upper limit = B_HK_B12D6A_TYELO58 = -51 / BHKXA1TBLK12DM6A Yellow lower limit = B_HK_B12DTYEHI58 = 25 / BHKXA1TBLK12DM6A Yellow upper limit = B_HK_B12DTRDLO60 = -51 / BHKXA1TBLK12DM6B Red lower limit = B_HK_B12D6B_TRDHI60 = 28 / BHKXA1TBLK12DM6B Red upper limit = B_HK_B12D6B_TYELO60 = -51 / BHKXA1TBLK12DM6B Yellow lower limit = B_HK_B12DTYEHI60 = 25 / BHKXA1TBLK12DM6B Yellow upper limit = B_HK_B12DTRDLO62 = -51 / BHKXA1TBLK12DM7A Red lower limit = B_HK_B12D7A_TRDHI62 = 28 / BHKXA1TBLK12DM7A Red upper limit = B_HK_B12D7A_TYELO62 = -51 / BHKXA1TBLK12DM7A Yellow lower limit = B_HK_B12DTYEHI62 = 25 / BHKXA1TBLK12DM7A Yellow upper limit = B_HK_B12DTRDLO64 = -51 / BHKXA1TBLK12DM7B Red lower limit = B_HK_B12D7B_TRDHI64 = 28 / BHKXA1TBLK12DM7B Red upper limit = B_HK_B12D7B_TYELO64 = -51 / BHKXA1TBLK12DM7B Yellow lower limit = B_HK_B12DTYEHI64 = 25 / BHKXA1TBLK12DM7B Yellow upper limit = B_HK_B12DTRDLO66 = -51 / BHKXA1TBLK13DM0A Red lower limit = B_HK_B13D0A_TRDHI66 = 28 / BHKXA1TBLK13DM0A Red upper limit = B_HK_B13D0A_TYELO66 = -51 / BHKXA1TBLK13DM0A Yellow lower limit = B_HK_B13DTYEHI66 = 25 / BHKXA1TBLK13DM0A Yellow upper limit = B_HK_B13DTRDLO68 = -51 / BHKXA1TBLK13DM0B Red lower limit = B_HK_B13D0B_TRDHI68 = 28 / BHKXA1TBLK13DM0B Red upper limit = B_HK_B13D0B_TYELO68 = -51 / BHKXA1TBLK13DM0B Yellow lower limit = B_HK_B13DTYEHI68 = 25 / BHKXA1TBLK13DM0B Yellow upper limit = B_HK_B13DTRDLO70 = -51 / BHKXA1TBLK13DM1A Red lower limit = B_HK_B13D1A_TRDHI70 = 28 / BHKXA1TBLK13DM1A Red upper limit = B_HK_B13D1A_TYELO70 = -51 / BHKXA1TBLK13DM1A Yellow lower limit = B_HK_B13DTYEHI70 = 25 / BHKXA1TBLK13DM1A Yellow upper limit = B_HK_B13DTRDLO72 = -51 / BHKXA1TBLK13DM1B Red lower limit = B_HK_B13D1B_TRDHI72 = 28 / BHKXA1TBLK13DM1B Red upper limit = B_HK_B13D1B_TYELO72 = -51 / BHKXA1TBLK13DM1B Yellow lower limit = B_HK_B13DTYEHI72 = 25 / BHKXA1TBLK13DM1B Yellow upper limit = B_HK_B13DTRDLO74 = -51 / BHKXA1TBLK13DM2A Red lower limit = B_HK_B13D2A_TRDHI74 = 28 / BHKXA1TBLK13DM2A Red upper limit = B_HK_B13D2A_TYELO74 = -51 / BHKXA1TBLK13DM2A Yellow lower limit = B_HK_B13DTYEHI74 = 25 / BHKXA1TBLK13DM2A Yellow upper limit = B_HK_B13DTRDLO76 = -51 / BHKXA1TBLK13DM2B Red lower limit = B_HK_B13D2B_TRDHI76 = 28 / BHKXA1TBLK13DM2B Red upper limit = B_HK_B13D2B_TYELO76 = -51 / BHKXA1TBLK13DM2B Yellow lower limit = B_HK_B13DTYEHI76 = 25 / BHKXA1TBLK13DM2B Yellow upper limit = B_HK_B13DTRDLO78 = -51 / BHKXA1TBLK13DM3A Red lower limit = B_HK_B13D3A_TRDHI78 = 28 / BHKXA1TBLK13DM3A Red upper limit = B_HK_B13D3A_TYELO78 = -51 / BHKXA1TBLK13DM3A Yellow lower limit = B_HK_B13DTYEHI78 = 25 / BHKXA1TBLK13DM3A Yellow upper limit = B_HK_B13DTRDLO80 = -51 / BHKXA1TBLK13DM3B Red lower limit = B_HK_B13D3B_TRDHI80 = 28 / BHKXA1TBLK13DM3B Red upper limit = B_HK_B13D3B_TYELO80 = -51 / BHKXA1TBLK13DM3B Yellow lower limit = B_HK_B13DTYEHI80 = 25 / BHKXA1TBLK13DM3B Yellow upper limit = B_HK_B13DTRDLO82 = -51 / BHKXA1TBLK13DM4A Red lower limit = B_HK_B13D4A_TRDHI82 = 28 / BHKXA1TBLK13DM4A Red upper limit = B_HK_B13D4A_TYELO82 = -51 / BHKXA1TBLK13DM4A Yellow lower limit = B_HK_B13DTYEHI82 = 25 / BHKXA1TBLK13DM4A Yellow upper limit = B_HK_B13DTRDLO84 = -51 / BHKXA1TBLK13DM4B Red lower limit = B_HK_B13D4B_TRDHI84 = 28 / BHKXA1TBLK13DM4B Red upper limit = B_HK_B13D4B_TYELO84 = -51 / BHKXA1TBLK13DM4B Yellow lower limit = B_HK_B13DTYEHI84 = 25 / BHKXA1TBLK13DM4B Yellow upper limit = B_HK_B13DTRDLO86 = -51 / BHKXA1TBLK13DM5A Red lower limit = B_HK_B13D5A_TRDHI86 = 28 / BHKXA1TBLK13DM5A Red upper limit = B_HK_B13D5A_TYELO86 = -51 / BHKXA1TBLK13DM5A Yellow lower limit = B_HK_B13DTYEHI86 = 25 / BHKXA1TBLK13DM5A Yellow upper limit = B_HK_B13DTRDLO88 = -51 / BHKXA1TBLK13DM5B Red lower limit = B_HK_B13D5B_TRDHI88 = 28 / BHKXA1TBLK13DM5B Red upper limit = B_HK_B13D5B_TYELO88 = -51 / BHKXA1TBLK13DM5B Yellow lower limit = B_HK_B13DTYEHI88 = 25 / BHKXA1TBLK13DM5B Yellow upper limit = B_HK_B13DTRDLO90 = -51 / BHKXA1TBLK13DM6A Red lower limit = B_HK_B13D6A_TRDHI90 = 28 / BHKXA1TBLK13DM6A Red upper limit = B_HK_B13D6A_TYELO90 = -51 / BHKXA1TBLK13DM6A Yellow lower limit = B_HK_B13DTYEHI90 = 25 / BHKXA1TBLK13DM6A Yellow upper limit = B_HK_B13DTRDLO92 = -51 / BHKXA1TBLK13DM6B Red lower limit = B_HK_B13D6B_TRDHI92 = 28 / BHKXA1TBLK13DM6B Red upper limit = B_HK_B13D6B_TYELO92 = -51 / BHKXA1TBLK13DM6B Yellow lower limit = B_HK_B13DTYEHI92 = 25 / BHKXA1TBLK13DM6B Yellow upper limit = B_HK_B13DTRDLO94 = -51 / BHKXA1TBLK13DM7A Red lower limit = B_HK_B13D7A_TRDHI94 = 28 / BHKXA1TBLK13DM7A Red upper limit = B_HK_B13D7A_TYELO94 = -51 / BHKXA1TBLK13DM7A Yellow lower limit = B_HK_B13DTYEHI94 = 25 / BHKXA1TBLK13DM7A Yellow upper limit = B_HK_B13DTRDLO96 = -51 / BHKXA1TBLK13DM7B Red lower limit = B_HK_B13D7B_TRDHI96 = 28 / BHKXA1TBLK13DM7B Red upper limit = B_HK_B13D7B_TYELO96 = -51 / BHKXA1TBLK13DM7B Yellow lower limit = B_HK_B13DTYEHI96 = 25 / BHKXA1TBLK13DM7B Yellow upper limit = B_HK_B13DTRDLO98 = -51 / BHKXA1TBLK14DM0A Red lower limit = B_HK_B14D0A_TRDHI98 = 28 / BHKXA1TBLK14DM0A Red upper limit = B_HK_B14D0A_TYELO98 = -51 / BHKXA1TBLK14DM0A Yellow lower limit = B_HK_B14DTYEHI98 = 25 / BHKXA1TBLK14DM0A Yellow upper limit = B_HK_B14DTRDLO100= -51 / BHKXA1TBLK14DM0B Red lower limit = B_HK_B14D0B_TRDHI100= 28 / BHKXA1TBLK14DM0B Red upper limit = B_HK_B14D0B_TYELO100= -51 / BHKXA1TBLK14DM0B Yellow lower limit = B_HK_B14DTYEHI100= 25 / BHKXA1TBLK14DM0B Yellow upper limit = B_HK_B14DTRDLO102= -51 / BHKXA1TBLK14DM1A Red lower limit = B_HK_B14D1A_TRDHI102= 28 / BHKXA1TBLK14DM1A Red upper limit = B_HK_B14D1A_TYELO102= -51 / BHKXA1TBLK14DM1A Yellow lower limit = B_HK_B14DTYEHI102= 25 / BHKXA1TBLK14DM1A Yellow upper limit = B_HK_B14DTRDLO104= -51 / BHKXA1TBLK14DM1B Red lower limit = B_HK_B14D1B_TRDHI104= 28 / BHKXA1TBLK14DM1B Red upper limit = B_HK_B14D1B_TYELO104= -51 / BHKXA1TBLK14DM1B Yellow lower limit = B_HK_B14DTYEHI104= 25 / BHKXA1TBLK14DM1B Yellow upper limit = B_HK_B14DTRDLO106= -51 / BHKXA1TBLK14DM2A Red lower limit = B_HK_B14D2A_TRDHI106= 28 / BHKXA1TBLK14DM2A Red upper limit = B_HK_B14D2A_TYELO106= -51 / BHKXA1TBLK14DM2A Yellow lower limit = B_HK_B14DTYEHI106= 25 / BHKXA1TBLK14DM2A Yellow upper limit = B_HK_B14DTRDLO108= -51 / BHKXA1TBLK14DM2B Red lower limit = B_HK_B14D2B_TRDHI108= 28 / BHKXA1TBLK14DM2B Red upper limit = B_HK_B14D2B_TYELO108= -51 / BHKXA1TBLK14DM2B Yellow lower limit = B_HK_B14DTYEHI108= 25 / BHKXA1TBLK14DM2B Yellow upper limit = B_HK_B14DTRDLO110= -51 / BHKXA1TBLK14DM3A Red lower limit = B_HK_B14D3A_TRDHI110= 28 / BHKXA1TBLK14DM3A Red upper limit = B_HK_B14D3A_TYELO110= -51 / BHKXA1TBLK14DM3A Yellow lower limit = B_HK_B14DTYEHI110= 25 / BHKXA1TBLK14DM3A Yellow upper limit = B_HK_B14DTRDLO112= -51 / BHKXA1TBLK14DM3B Red lower limit = B_HK_B14D3B_TRDHI112= 28 / BHKXA1TBLK14DM3B Red upper limit = B_HK_B14D3B_TYELO112= -51 / BHKXA1TBLK14DM3B Yellow lower limit = B_HK_B14DTYEHI112= 25 / BHKXA1TBLK14DM3B Yellow upper limit = B_HK_B14DTRDLO114= -51 / BHKXA1TBLK14DM4A Red lower limit = B_HK_B14D4A_TRDHI114= 28 / BHKXA1TBLK14DM4A Red upper limit = B_HK_B14D4A_TYELO114= -51 / BHKXA1TBLK14DM4A Yellow lower limit = B_HK_B14DTYEHI114= 25 / BHKXA1TBLK14DM4A Yellow upper limit = B_HK_B14DTRDLO116= -51 / BHKXA1TBLK14DM4B Red lower limit = B_HK_B14D4B_TRDHI116= 28 / BHKXA1TBLK14DM4B Red upper limit = B_HK_B14D4B_TYELO116= -51 / BHKXA1TBLK14DM4B Yellow lower limit = B_HK_B14DTYEHI116= 25 / BHKXA1TBLK14DM4B Yellow upper limit = B_HK_B14DTRDLO118= -51 / BHKXA1TBLK14DM5A Red lower limit = B_HK_B14D5A_TRDHI118= 28 / BHKXA1TBLK14DM5A Red upper limit = B_HK_B14D5A_TYELO118= -51 / BHKXA1TBLK14DM5A Yellow lower limit = B_HK_B14DTYEHI118= 25 / BHKXA1TBLK14DM5A Yellow upper limit = B_HK_B14DTRDLO120= -51 / BHKXA1TBLK14DM5B Red lower limit = B_HK_B14D5B_TRDHI120= 28 / BHKXA1TBLK14DM5B Red upper limit = B_HK_B14D5B_TYELO120= -51 / BHKXA1TBLK14DM5B Yellow lower limit = B_HK_B14DTYEHI120= 25 / BHKXA1TBLK14DM5B Yellow upper limit = B_HK_B14DTRDLO122= -51 / BHKXA1TBLK14DM6A Red lower limit = B_HK_B14D6A_TRDHI122= 28 / BHKXA1TBLK14DM6A Red upper limit = B_HK_B14D6A_TYELO122= -51 / BHKXA1TBLK14DM6A Yellow lower limit = B_HK_B14DTYEHI122= 25 / BHKXA1TBLK14DM6A Yellow upper limit = B_HK_B14DTRDLO124= -51 / BHKXA1TBLK14DM6B Red lower limit = B_HK_B14D6B_TRDHI124= 28 / BHKXA1TBLK14DM6B Red upper limit = B_HK_B14D6B_TYELO124= -51 / BHKXA1TBLK14DM6B Yellow lower limit = B_HK_B14DTYEHI124= 25 / BHKXA1TBLK14DM6B Yellow upper limit = B_HK_B14DTRDLO126= -51 / BHKXA1TBLK14DM7A Red lower limit = B_HK_B14D7A_TRDHI126= 28 / BHKXA1TBLK14DM7A Red upper limit = B_HK_B14D7A_TYELO126= -51 / BHKXA1TBLK14DM7A Yellow lower limit = B_HK_B14DTYEHI126= 25 / BHKXA1TBLK14DM7A Yellow upper limit = B_HK_B14DTRDLO128= -51 / BHKXA1TBLK14DM7B Red lower limit = B_HK_B14D7B_TRDHI128= 28 / BHKXA1TBLK14DM7B Red upper limit = B_HK_B14D7B_TYELO128= -51 / BHKXA1TBLK14DM7B Yellow lower limit = B_HK_B14DTYEHI128= 25 / BHKXA1TBLK14DM7B Yellow upper limit = B_HK_B14DTRDLO130= -51 / BHKXA1TBLK15DM0A Red lower limit = B_HK_B15D0A_TRDHI130= 28 / BHKXA1TBLK15DM0A Red upper limit = B_HK_B15D0A_TYELO130= -51 / BHKXA1TBLK15DM0A Yellow lower limit = B_HK_B15DTYEHI130= 25 / BHKXA1TBLK15DM0A Yellow upper limit = B_HK_B15DTRDLO132= -51 / BHKXA1TBLK15DM0B Red lower limit = B_HK_B15D0B_TRDHI132= 28 / BHKXA1TBLK15DM0B Red upper limit = B_HK_B15D0B_TYELO132= -51 / BHKXA1TBLK15DM0B Yellow lower limit = B_HK_B15DTYEHI132= 25 / BHKXA1TBLK15DM0B Yellow upper limit = B_HK_B15DTRDLO134= -51 / BHKXA1TBLK15DM1A Red lower limit = B_HK_B15D1A_TRDHI134= 28 / BHKXA1TBLK15DM1A Red upper limit = B_HK_B15D1A_TYELO134= -51 / BHKXA1TBLK15DM1A Yellow lower limit = B_HK_B15DTYEHI134= 25 / BHKXA1TBLK15DM1A Yellow upper limit = B_HK_B15DTRDLO136= -51 / BHKXA1TBLK15DM1B Red lower limit = B_HK_B15D1B_TRDHI136= 28 / BHKXA1TBLK15DM1B Red upper limit = B_HK_B15D1B_TYELO136= -51 / BHKXA1TBLK15DM1B Yellow lower limit = B_HK_B15DTYEHI136= 25 / BHKXA1TBLK15DM1B Yellow upper limit = B_HK_B15DTRDLO138= -51 / BHKXA1TBLK15DM2A Red lower limit = B_HK_B15D2A_TRDHI138= 28 / BHKXA1TBLK15DM2A Red upper limit = B_HK_B15D2A_TYELO138= -51 / BHKXA1TBLK15DM2A Yellow lower limit = B_HK_B15DTYEHI138= 25 / BHKXA1TBLK15DM2A Yellow upper limit = B_HK_B15DTRDLO140= -51 / BHKXA1TBLK15DM2B Red lower limit = B_HK_B15D2B_TRDHI140= 28 / BHKXA1TBLK15DM2B Red upper limit = B_HK_B15D2B_TYELO140= -51 / BHKXA1TBLK15DM2B Yellow lower limit = B_HK_B15DTYEHI140= 25 / BHKXA1TBLK15DM2B Yellow upper limit = B_HK_B15DTRDLO142= -51 / BHKXA1TBLK15DM3A Red lower limit = B_HK_B15D3A_TRDHI142= 28 / BHKXA1TBLK15DM3A Red upper limit = B_HK_B15D3A_TYELO142= -51 / BHKXA1TBLK15DM3A Yellow lower limit = B_HK_B15DTYEHI142= 25 / BHKXA1TBLK15DM3A Yellow upper limit = B_HK_B15DTRDLO144= -51 / BHKXA1TBLK15DM3B Red lower limit = B_HK_B15D3B_TRDHI144= 28 / BHKXA1TBLK15DM3B Red upper limit = B_HK_B15D3B_TYELO144= -51 / BHKXA1TBLK15DM3B Yellow lower limit = B_HK_B15DTYEHI144= 25 / BHKXA1TBLK15DM3B Yellow upper limit = B_HK_B15DTRDLO146= -51 / BHKXA1TBLK15DM4A Red lower limit = B_HK_B15D4A_TRDHI146= 28 / BHKXA1TBLK15DM4A Red upper limit = B_HK_B15D4A_TYELO146= -51 / BHKXA1TBLK15DM4A Yellow lower limit = B_HK_B15DTYEHI146= 25 / BHKXA1TBLK15DM4A Yellow upper limit = B_HK_B15DTRDLO148= -51 / BHKXA1TBLK15DM4B Red lower limit = B_HK_B15D4B_TRDHI148= 28 / BHKXA1TBLK15DM4B Red upper limit = B_HK_B15D4B_TYELO148= -51 / BHKXA1TBLK15DM4B Yellow lower limit = B_HK_B15DTYEHI148= 25 / BHKXA1TBLK15DM4B Yellow upper limit = B_HK_B15DTRDLO150= -51 / BHKXA1TBLK15DM5A Red lower limit = B_HK_B15D5A_TRDHI150= 28 / BHKXA1TBLK15DM5A Red upper limit = B_HK_B15D5A_TYELO150= -51 / BHKXA1TBLK15DM5A Yellow lower limit = B_HK_B15DTYEHI150= 25 / BHKXA1TBLK15DM5A Yellow upper limit = B_HK_B15DTRDLO152= -51 / BHKXA1TBLK15DM5B Red lower limit = B_HK_B15D5B_TRDHI152= 28 / BHKXA1TBLK15DM5B Red upper limit = B_HK_B15D5B_TYELO152= -51 / BHKXA1TBLK15DM5B Yellow lower limit = B_HK_B15DTYEHI152= 25 / BHKXA1TBLK15DM5B Yellow upper limit = B_HK_B15DTRDLO154= -51 / BHKXA1TBLK15DM6A Red lower limit = B_HK_B15D6A_TRDHI154= 28 / BHKXA1TBLK15DM6A Red upper limit = B_HK_B15D6A_TYELO154= -51 / BHKXA1TBLK15DM6A Yellow lower limit = B_HK_B15DTYEHI154= 25 / BHKXA1TBLK15DM6A Yellow upper limit = B_HK_B15DTRDLO156= -51 / BHKXA1TBLK15DM6B Red lower limit = B_HK_B15D6B_TRDHI156= 28 / BHKXA1TBLK15DM6B Red upper limit = B_HK_B15D6B_TYELO156= -51 / BHKXA1TBLK15DM6B Yellow lower limit = B_HK_B15DTYEHI156= 25 / BHKXA1TBLK15DM6B Yellow upper limit = B_HK_B15DTRDLO158= -51 / BHKXA1TBLK15DM7A Red lower limit = B_HK_B15D7A_TRDHI158= 28 / BHKXA1TBLK15DM7A Red upper limit = B_HK_B15D7A_TYELO158= -51 / BHKXA1TBLK15DM7A Yellow lower limit = B_HK_B15DTYEHI158= 25 / BHKXA1TBLK15DM7A Yellow upper limit = B_HK_B15DTRDLO160= -51 / BHKXA1TBLK15DM7B Red lower limit = B_HK_B15D7B_TRDHI160= 28 / BHKXA1TBLK15DM7B Red upper limit = B_HK_B15D7B_TYELO160= -51 / BHKXA1TBLK15DM7B Yellow lower limit = B_HK_B15DTYEHI160= 25 / BHKXA1TBLK15DM7B Yellow upper limit = B_HK_B15DHISTORY TASK: FAPPND on FILENAME: sw01185673000b178x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�dR��~�s�{�w��z��u�v��w��w��p�{�u�|��|��{�|�~�x�r�}��|��z��p��n�~�w��X�L��|�w�j�{��-�M�w��n�g��w��}�~�z�n�v�n��v�pA�F�sR��~�s�{�w��{��u�v��w��w��p�{�u�|��}��z�|�~�x�r�}��|��z��p��o�}�w��X�L��|�w�j�z��-�M�w��n�g��w��}�~�z�o�w�n��vóA�F��R��~�s�{�w��z��u�v��w��w��p�{�v�|��|��z�{�}�y�q�}��|��z��o��n�~�w��Y�L��|�w�i�{��,�M�w��n�f��w��}�~�z�n�w�n��vêA�F��R��~�s�{�w��{��u�v��v��w��p�|�u�}��}��z�|�~�x�r�}��|��z��p��o�}�w��X�L��}�v�j�z��,�M�w��n�f��w��}�~�z�n�w�n��v��A�F��R��~�s�{�w��{��v�v��w��w��p�{�u�|��|��z�|�~�x�r�}��|��z��o��n�~�w��Y�L��}�w�j�{��-�M�w��n�g��w��~�~�z�o�v�n��v�qA�F��R��~�s�{�w��{��v�w��w��w��p�{�v�|��|��z�{�~�x�r�}��|��z��p��n�~�w��Y�L��}�w�j�z��-�M�w��n�f��w��}�~�z�o�v�n��v��A�F��R��~�s�{�w��z��v�w��w��w��p�{�u�|��|��z�|�~�x�r�}��|��z��p��o�~�w��Y�L��}�w�j�{��-�M�w��n�g��w��}�~�z�o�w�n��v��A�F��R��~�t�{�w��{��u�v��w��w��p�{�u�}��}��z�{�~�y�r�}��}��{��p��o�}�w��Y�L��|�w�j�{��-�M�w��n�g��w��}�~�{�o�v�n��vñA�F��R��~�s�|�w��{��u�v��v��w��p�|�v�}��}��z�|�~�y�r�~��|��z��p��o�}�w��Y�L��|�w�j�{��.�M�x��n�g��x��~�~�z�o�w�m��v��A�F��R��~�s�{�w��{��u�w��w��w��p�{�u�|��}��z�{�~�x�r�}��|��z��p��n�~�w��Y�L��|�w�j�{��-�M�w��n�g��x��~�~�{�o�v�n��võA�F��R��~�s�|�w��{��v�w��w��w��p�{�u�}��|��z�|�~�x�r�}��|��z��p��o�~�w��X�M��}�w�j�{��-�M�w��n�g��w��}�~�z�o�w�n��v��A�F� R�^��~�s�{�w��z��v�v��v��w��q�{�u�}��|��z�|�~�y�r�}��|��z��o��o�}�w��X�L��|�w�j�{��-�M�w��n�g��w��~�~�{�n�w�o��v��A�F�R��~�s�|�w��z��u�w��w��w��p�|�u�|��}��z�|�~�y�r�~��|��{��p��o�}�w��Y�L��}�w�j�{��-�M�x��n�g��x��}��{�o�w�o��w��A�F�'R��~�s�{�w��{��v�v��w��w��p�{�u�|��}��z�|�~�x�r�~��|��z��p��o�}�w��Y�M��|�w�j�{��,�M�w��o�g��w��}�~�z�o�w�n��v�YA�F�6R��~�s�{�w��{��u�w��w��w��p�{�u�}��}��z�{�~�y�r�}��|��{��p��o�}�w��X�L��|�w�j�{��-�N�w��n�h��w��}�~�z�n�w�n��v�7A�F�ER��~�s�|�w��{��u�v��w��w��p�|�u�}��}��z�|�~�x�q�}��|��{��p��n�}�x��Y�M��|�w�j�z��,�N�w��o�g��w��}�~�z�o�w�o��vÁA�F�TR��~�s�{�w��{��u�w��w��w��p�{�u�}��|��z�{�~�y�r�~��|��z��p��n�}�w��Y�L��|�w�j�{��,�M�w��n�g��w��}�~�z�n�v�n��v�A�F�cR��~�s�{�w��{��u�v��w��w��p�{�u�|��|��z�|�~�y�r�}��|��z��p��n�}�w��X�L��|�w�j�z��-�M�w��n�g��w��}��z�o�v�n��v�A�F�rR��~�s�|�w��{��u�v��w��w��p�{�u�}��}��z�|�~�y�r�}��|��z��p��n�~�w��Y�M��|�w�j�{��.�M�w��n�g��w��~�~�{�n�w�n��v�A�F��R��~�s�{�w��{��u�v��w��w��p�{�u�|��|��z�|�~�x�r�}��|��z��p��n�}�w��X�L��|�w�j�z��-�M�w��n�g��w��}��z�o�w�n��v��A�F��R��~�s�|�w��z��u�v��w��w��p�{�u�}��}��{�|�~�x�r�}��|��z��p��o�}�w��Y�L��}�w�j�{��-�M�x��o�g��w��}�~�z�o�w�n��v�A�F��R�2��~�s�{�x��{��u�v��w��w��p�{�u�}��}��z�|�~�y�r�}��}��{��p��n�}�w��Y�L��|�w�i�z��-�M�w��o�g��w��~�~�z�n�w�n��v�5A�F��R��~�s�|�w��{��u�w��w��w��p�{�u�}��}��z�|�~�x�r�}��|��z��p��n�}�w��Y�L��}�w�j�z��-�M�x��n�g��w��~�~�{�n�v�n��v��A�F��R��~�s�{�w��{��u�w��v��w��p�{�u�|��}��z�|�~�y�r�~��|��z��p��n�}�w��Y�L��|�x�j�{��-�M�x��n�g��w��~�~�z�o�w�n��v��A�F��R��~�s�{�w��{��u�w��w��w��p�|�u�|��}��{�{�~�y�r�}��|��z��o��o�}�w��Y�L��|�w�j�{��-�M�w��n�h��w��}��z�o�v�n��v��A�F��R��~�s�|�w��z��u�w��w��w��o�{�v�}��}��z�|�~�x�r�}��|��z��p��n�}�w��Y�K��}�w�j�{��-�L�w��o�g��w��}��z�o�v�n��v�A�F��R��~�s�{�w��{��v�v��w��w��p�{�u�}��|��z�|�~�x�r�}��|��{��p��n�~�w��X�L��|�w�j�{��-�M�w��n�g��w��~��{�o�w�n��v�lA�F��R���~�s�{�w��{��v�v��w��w��p�{�u�}��}��z�{�~�y�r�~��|��{��p��n�}�w��X�L��|�w�j�{��-�M�x��n�g��w��~�~�z�o�v�n��vÀA�F�R��~�s�{�w��{��u�w��w��w��p�{�u�}��|��{�|�~�x�r�}��}��z��p��o�}�v��Y�L��|�w�j�{��,�M�w��n�g��w��}��z�n�w�n��v�4A�F�R��~�s�{�w��z��u�w��w��w��p�{�u�|��|��z�|�}�y�r�}��|��z��p��n�}�w��X�L��|�w�j�{��-�L�x��n�g��w��~��z�o�w�n��v�)A�F�&Rɰ��~�s�{�w��{��u�v��v��w��p�{�u�}��|��z�|�~�x�r�~��|��z��p��n�~�w��X�L��|�w�j�{��-�M�w��n�g��w��}�~�z�n�w�n��v�'A�F�5R��}�s�{�w��{��u�v��w��w��p�{�u�|��}��z�{�~�x�r�}��|��z��p��n�}�w��X�L��|�w�j�{��-�M�x��n�g��w��}�~�z�o�v�n��v�DA�F�DR��~�s�{�w��z��u�v��w��w��p�{�t�}��}��z�|�~�x�r�}��|��z��o��n�}�w��X�L��|�w�j�z��-�M�w��n�g��v��}��z�o�v�n��v�HA�F�SR��~�s�{�w��{��u�v��v��w��p�{�u�|��|��z�|�~�x�r�}��|��z��p��n�}�w��X�L��|�w�j�{��,�L�w��n�g��w��~�~�z�o�v�n��v�[A�F�bR��~�s�{�w��{��u�v��w��w��p�{�u�}��|��z�{�~�x�r�}��|��z��p��o�}�w��X�K��|�w�j�{��-�M�w��n�g��w��~�~�z�o�v�m��u��A�F�qR��~�s�{�w��z��u�v��w��w��p�{�u�|��|��z�|�~�x�r�~��|��z��p��n�~�w��Y�L��|�w�j�{��-�L�x��n�g��w��}�~�z�n�w�n��v��A�F��R��~�s�{�w��{��u�v��w��w��p�{�u�|��|��z�{�~�x�r�}��|��z��p��n�}�w��Y�M��|�w�j�z��-�M�w��n�g��w��~��z�n�v�o��v��A�F��R��~�s�{�x��z��u�v��w��w��p�{�u�}��|��z�{�~�x�r�}��|��z��o��n�}�w��X�L��|�w�j�{��,�M�w��m�g��w��~�~�z�n�w�n��u�]A�F��R�L��~�s�{�w��{��u�v��v��w��p�{�u�|��|��z�|�~�x�r�}��|��z��o��n�}�w��X�L��|�w�j�z��-�M�w��n�g��w��}�~�z�n�w�m��v��A�F��R�Y��~�r�{�w��z��u�v��v��w��o�{�u�|��|��z�|�~�x�r�}��|��z��p��n�}�w��Y�K��|�w�i�z��-�M�w��m�f��w��}�~�z�n�v�n��vA�F��R�D��~�s�{�w��z��u�v��v��w��p�{�u�|��|��z�{�~�x�r�|��|��{��o��n�}�v��X�L��|�w�j�z��,�M�w��n�g��w��~�~�z�n�w�o��v��A�F��R��~�s�{�w��z��u�v��v��w��p�{�u�|��|��z�{�}�x�q�}��|��z��p��n�}�w��X�L��|�v�j�z��-�L�w��n�f��w��}�~�z�n�v�m��v�QA�F��R��~�s�{�w��z��u�v��v��w��o�{�t�|��|��z�{�~�x�r�}��|��z��p��n�}�w��X�L��|�v�j�z��-�L�w��m�f��w��}�~�z�o�v�n��u�QA�F��R��~�r�{�w��z��u�v��v��w��p�{�u�|��|��z�{�~�x�q�}��|��z��p��n�}�w��X�L��}�v�i�z��,�M�x��m�g��w��}�~�z�n�v�n��v�LA�F��R�넀��~�s�{�w��z��u�v��v��w��p�{�u�|��|��z�{�}�x�r�}��{��~��z��o��n�}�v��X�L��|�v�i�z��,�M�w��n�g��v��}�~�z�n�v�m��u�A�F�R�;��}�s�{�w��{��u�v��v��w��o�{�u�|��|��z�{�~�x�q�}��|��z��o��n�}�w��X�L��|�w�j�z��-�M�w��m�f��w��}�~�z�n�v�m��u��A�F�R��~�r�{�w��z��u�v��v��w��o�{�u�}��|��z�{�~�x�r�}��|��z��o��n�}�w��X�L��|�w�j�{��,�L�w��n�g��v��}�~�z�n�w�n��u��A�F�%R�L��}�s�{�w��z��u�v��v��v��p�z�u�|��|��y�{�}�x�q�}��|��y��p��n�}�w��X�K��|�v�i�z��,�M�x��m�f��v��}�~�z�n�v�n��v�gA�F�4R�넀��}�s�{�w��z��u�v��v��v��o�{�u�|��|��z�{�}�x�r�}��|��z��p��n�}�w��X�M��|�v�j�z��,�L�w��m�g��v��}�~�z�o�v�n��u��A�F�CR�L��~�s�z�w��z��u�v��v��w��o�{�u�|��|��z�{�~�x�r�}��{��~��{��o��n�}�v��X�K��|�v�j�z��,�M�w��m�g��v��}�~�z�n�v�n��uļA�F�RR�넀��~�r�{�w��z��u�v��v��w��o�{�t�{��|��z�{�}�x�q�}��|��z��p��n�}�v��X�L��|�w�i�{��-�M�w��m�g��v��}�~�z�n�v�m��u¶A�F�aR�넀��}�r�{�w��z��u�v��v��v��o�{�u�|��|��z�{�~�x�q�}��{��z��o��n�}�v��X�K��|�w�i�y��,�L�w��n�f��v��}�}�y�n�w�n��v�XA�F�pR��}�r�{�w��z��u�v��v��w��p�{�u�|��|��z�{�~�x�q�}��{��z��o��n�}�v��X�K��|�v�i�z��,�K�w��n�g��w��}�~�z�n�v�m��vøA�F�R�D��}�r�{�v��z��u�v��v��w��o�{�t�|��|��z�{�}�x�q�|��|��z��o��n�}�v��X�K��|�v�i�z��,�L�w��m�f��v��}�}�z�n�v�n��u�pA�F��R�넀��}�r�{�v��z��u�v��w��w��o�{�u�{��{��y�{�~�x�q�}��|��y��o��n�|�w��X�K��|�v�i�z��,�L�w��m�f��v��}�~�z�n�v�n��uõA�F��R��}�s�z�v��z��t�v��v��w��o�z�t�{��{��z�{�}�x�q�|��{��y��o��n�}�v��X�L��{�v�i�z��,�L�v��m�f��v��}�~�y�n�v�n��u�TA�F��R��}�r�{�w��z��u�v��v��v��o�z�t�|��|��y�{�~�x�q�}��{��~��y��o��m�}�v��X�L��{�v�i�z��,�M�w��n�f��v��}�~�z�n�v�m��uÚA�F��R�넀��}�r�{�v��z��t�u��v��v��o�z�t�}��{��y�{�}�x�q�|��{��~��z��p��n�}�w��X�L��{�v�i�z��,�L�w��m�f��w��}�~�y�n�v�m��uA�F��R�U��}�s�z�v��z��u�v��v��v��o�z�u�|��|��y�{�~�x�q�|��{��z��o��n�|�v��X�K��|�v�h�z��-�M�w��n�f��v��}�~�y�n�v�m��uA�F��R��}�r�z�v��{��t�v��v��v��o�{�t�|��|��y�{�}�x�q�|��{��~��y��o��n�|�v��X�K��|�v�i�z��,�L�v��n�f��v��}�~�y�n�v�n��uÚA�F��R��}�r�z�v��z��t�v��v��v��o�z�t�|��|��z�{�}�x�r�}��|��~��z��o��n�|�w��X�K��|�v�i�y��,�L�w��m�f��v��}�~�y�m�v�n��u��A�F��R�D��~�r�z�v��z��t�u��v��v��o�{�t�|��|��y�{�~�x�q�}��{��z��o��n�}�v��X�L��{�w�i�z��,�L�v��m�g��w��}�~�z�n�v�m��u�AA�F�R��}�r�{�v��z��t�v��v��v��o�{�t�|��{��z�{�}�x�q�|��{��y��o��n�}�w��X�K��{�v�i�z��-�L�w��m�f��w��}�~�z�n�u�m��u�RA�F�R�L��}�r�{�v��z��t�u��v��v��o�z�t�|��|��y�{�}�x�q�|��{��z��o��n�|�v��X�K��{�v�i�z��,�L�v��m�f��v��}�~�y�n�v�n��u¦A�F�$R�D��}�r�z�v��z��t�u��u��v��o�z�t�|��|��z�{�}�x�q�|��{��y��o��n�}�v��W�K��|�v�i�y��,�L�v��m�f��v��|�}�z�n�v�n��u��A�F�3R��}�r�{�v��y��t�u��v��w��o�z�t�{��|��y�{�}�w�q�|��{��~��y��o��n�|�v��X�K��{�v�i�y��+�L�w��m�g��v��}�~�y�n�v�m��u��A�F�BR��}�r�z�v��z��t�v��v��v��o�z�t�{�~��{��y�z�}�x�q�|��{��~��z��o��n�|�v��X�K��{�v�i�z��+�L�v��m�f��v��|�}�y�n�v�m��u��A�F�QR��}�r�z�v��z��t�v��v��v��o�z�u�{��{��z�z�}�w�q�|��{��~��y��o��m�|�v��X�K��|�v�i�y��,�L�w��m�f��v��}�}�y�n�v�n��u��A�F�`R�D��}�r�z�w��z��u�u��v��v��o�z�t�{��{��z�{�}�x�q�|��{��~��y��o��n�|�v��X�K��{�v�i�z��,�L�v��l�f��v��}�}�z�n�u�m��u��A�F�oR��}�r�z�v��y��t�u��v��v��o�z�t�{��{��y�z�}�x�q�|��{��~��z��o��m�|�u��X�K��{�v�h�y��,�K�v��m�f��v��}�}�y�n�u�m��u�)A�F�~R�D��}�r�z�v��z��t�u��u��w��o�z�t�|�~��{��y�z�}�w�q�|��{��~��y��o��m�|�v��X�K��|�v�i�y��+�K�w��m�f��v��}�}�y�m�v�m��u�vA�F��R��}�r�z�v��z��t�u��v��v��o�{�s�{��|��y�z�}�x�q�|��{��~��y��o��m�|�v��W�K��|�v�i�z��+�L�v��l�e��v��}�~�y�m�u�m��u��A�F��R�L��}�r�z�v��y��t�u��v��v��o�z�t�|�~��{��y�{�}�w�q�|��{��~��z��n��n�|�u��W�K��{�v�i�z��,�L�v��m�f��v��|�~�y�n�u�m��u��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 37 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK188SSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk188x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894100.90148 TSTOP = 713896260.9014 DATE-OBS= '2023-08-16T15:54:55' DATE-END= '2023-08-16T16:30:55' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2159.99992001057 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 392 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'HrqnKonmHonmHonm' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '340844244' / data unit checksum updated 2023-08-26T08:43:46 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw01185673000b188x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�jsc��տ��޴��f��r��e�2�2�222�s��2��Ƙ�s��ɀ��Du�7��Bî�0��DfA�F��sbc�ݿ��f�J��rK΂1��8��%�F��;��p��@��&�. R��$��"~��$�W��u��ʀ��B��e�2�2�222�s��2��Ʋ�s��ꡀ��Du�7��B̒�0��D~A�F��sa��f�ڀ��rM6�1��9P��%�F��#��p��A�&�.8 ��$��"��(��$2�W��u��ʀ��Gք��e�2�2�222�s��2؀��ʁs��Du�7��B�v�0��D�A�F��sbc��f�j��rN��1��9��%�F��0P��5�p��A&�&�.O��$��"ހ��H��$J�W��u��ʀ��L��e�2�2�222�s��2��s��Du�7��B�V�0��D�A�F�se��f��rP�1��9��%�F��<��p��A>�&�.gz��$Ѐ��"��h��$b�W��u��ʀ��Q��e�2�2�222�s��3��s��i��Du�7��B�:�0��D�A�F�,se��ݿ��f뚀��rQp�2��:R��%�F��KC��9�t��Ab�&�.4��$��"B��$~�W��u��̀��V��e��2�2�222�t��3H��v��c��Du�7��B�(�0��D�A�F�Jsa��f�,��rRق3��:��&F��Xy��t��Az�&�.��%��"r��$��X��u"��̀��[��e��2�2�222�t��3b��4�v��2��Du�7��B��0��D�A�F�hsbc�ݿ��f케��rTA�3��:��&F��d��t��A��&�.��%��"��̀��$��X��u%��̀��`��e��2�2�222�t��3z��L�v��Du�7��C�0��EA�F��sw\�ݿ��܀��f�L��rU��3��;P��&0F��p��b�t��A��&�.�\��%4��"Ҁ��$ƂX��u(��̀��eĄ��e��2�2�222�t��3��d�v�� Dv7��C ̀0��E*A�F��sc��ր��f�܀��rW�3��;��&HF��|��9�t��Aº&�.��%L��"��$ނX��u+j��̀��jԄ��e��2�2�222�t��3��|�v��z��Dv7��C��0��EBA�F��sa��Ҁ��f�l��rXy�3��;��&`F��መ��t��Aں&�.�̀��%d��"2��,��$��X��u.R��̀��o䄘��e��2�2�222�t��3ʀ��ǖ�v��B��Dv7��C��0��EZA�F��sa�ݿ��Ā��f��rY�3��X��u7 ��̀��e��2�2�222�u��4��v��'Y��Dv)7��C74�0��E�A�F�:se�ݿ��f��r^�3��=H��&�F��Ҁ��Z�t��B:�&�/T��%Ā��"��%V�X��u9��̀��$��e��2�2�222�u��4:��v��+��Dv/7��C@�0��E�A�F�Xsc�ݿ��f�B��r_��3��=��&�F��'��A�t��BT�&�/le��%ހ��"$��΀��%p�X��u<��΀��8��e��2�2�222�u��4X��v��/l��Dv57��CH��0��E�A�F�vsc�ݿ��j��f�Ԁ��r`�3��=��&�F��r��t��Bl�&�/��%��"T��%��Y��u?��΀��J��e��2�2�222�u��4t��2�v��3��Dv77��CQ��0��E�A�F��sc��ݿ��j��f�d��rbR�3��>F��' F��ݻ�� t��B��&�/�Հ��&��"��%��Y��uB��΀��Z��e��2�2�222�u��4��L�v��7��DvG7��CZĀ0��FA�F��sc�ݿ��X��f��rc��3��>��'"F��"��t��B��&�/��&&��"��.��%��Y��uE��΀��j��e��2�2�222�u��4��d�v��;��DvK7��Cc��0��FA�F��sc�� R��f��re"�3��>��':F��1�� t��B��&�/�E��&>��"��N��%ЂY��uH~��΀��z��e��2�2�222�u��4΀��|�v��@L��DvV7��Cl��0��F4A�F��sc�ݿ�� H��f��rf��3��?B��'RF��W��t��B̺&�/��&V��"��n��%�Y��uKf��΀�颊��e��2�2�222�u��4��Ȗ�v��D��Dv_7��CuZ�0��FLA�F�sx�ݿ��:��f��rg�3��?��'jF��x��t��B�&�/��&n��"D��&�Z��uNP��΀�駚��e��2�2�222�u��5��Ȯ�v��H��Dve7��C~J�0��FdA�F�*sa��2��f�6��ri\�3��?��'�F��|�t��B��&�0m��&��"t��&�[��uQ:��΀�鬬��e��2�2�222�u��5$��Ɓw��Lހ��Dvp7��C�,�0��F|A�F�Hsc��2��f�ƀ��rjĂ3��@>��'�F��&Ѐ��e�t��C�&�0*%��&��"��΀��&0�[��uT"��΀�鱼��e��2�2�222�u��5D��ށw��Q��Dv|7��C��0��F�A�F�fsbc�ݿ��0��f�V��rl-�3��@��'�F��2��E�t��C,�&�0A݀��&��"Ԁ��&H�\��uW��΀��̄��e��2�2�222�u��5`��w��Ut��Dv�7��C��0��F�A�F��sa��"��f��rm��3��@��'�F��>��÷�t��CD�&�0Y��&΀��"��&`�]��uY��΀��܄��e��2�2�222�u��5|��w��Yƀ��Dv�7��C�Ԁ0��F�A�F��sa��$��f�v��ro�3��A:��'�F��K��ƴ�t��C\�&�0qM��&��"4��.��&x�_��u\��΀��섘��e��2�2�222�u��5��(�w��^��Dv�7��C��0��F�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 50 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BMICHWCMDREG' / MIC last internal command TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BMICHWTIMDMA' / MIC DMA data collect timeout TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BMICHWINTENA' / MIC interrupt enable bits TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BMICHWINTRST' / MIC last interrupt reset TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BMICHWSTATUS' / MIC status register (not used) TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BMICHWDMABEG' / Circular buf start address TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BMICHWDMAEND' / Circular buf end address TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BMICHWDMA1ST' / Circular buf 1st write address TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BMICHWDMAENA' / Circular buf auto dma enable TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BMICHWDMAVAL' / Circular buf prev lap valid TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BMICHWDMALAP' / Circular buf lap count register TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BMICHWDMACUR' / Circular buf next write register TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BMICHWCMDIDX' / BCDH cmd buf index of next read TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BMICHWCMDLFT' / BCDH cmd buf unread dwords TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BMICHWCMDTIM' / BCDH cmd buf transmit timeout TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BMICHWCMDMAX' / BCDH cmd buf max packet length TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BMICHWCMDSTA' / BCDH cmd buf status bits TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BMICHWLNK00A' / 1355 link status register 00 (A) TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BMICHWLNK01A' / 1355 link status register 01 (A) TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMICHWLNK02A' / 1355 link status register 02 (A) TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'BMICHWLNK03A' / 1355 link status register 03 (A) TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BMICHWLNK04A' / 1355 link status register 04 (A) TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BMICHWLNK05A' / 1355 link status register 05 (A) TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BMICHWLNK06A' / 1355 link status register 06 (A) TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMICHWLNK07A' / 1355 link status register 07 (A) TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMICHWLNK08A' / 1355 link status register 08 (A) TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMICHWLNK09A' / 1355 link status register 09 (A) TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMICHWLNK10A' / 1355 link status register 10 (A) TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMICHWLNK11A' / 1355 link status register 11 (A) TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMICHWLNK12A' / 1355 link status register 12 (A) TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMICHWLNK13A' / 1355 link status register 13 (A) TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMICHWLNK14A' / 1355 link status register 14 (A) TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMICHWLNK15A' / 1355 link status register 15 (A) TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMICHWLNK00B' / 1355 link status register 00 (B) TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BMICHWLNK01B' / 1355 link status register 01 (B) TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BMICHWLNK02B' / 1355 link status register 02 (B) TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BMICHWLNK03B' / 1355 link status register 03 (B) TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BMICHWLNK04B' / 1355 link status register 04 (B) TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BMICHWLNK05B' / 1355 link status register 05 (B) TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BMICHWLNK06B' / 1355 link status register 06 (B) TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BMICHWLNK07B' / 1355 link status register 07 (B) TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BMICHWLNK08B' / 1355 link status register 08 (B) TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BMICHWLNK09B' / 1355 link status register 09 (B) TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BMICHWLNK10B' / 1355 link status register 10 (B) TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BMICHWLNK11B' / 1355 link status register 11 (B) TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BMICHWLNK12B' / 1355 link status register 12 (B) TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BMICHWLNK13B' / 1355 link status register 13 (B) TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BMICHWLNK14B' / 1355 link status register 14 (B) TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BMICHWLNK15B' / 1355 link status register 15 (B) TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers EXTNAME = 'hk18ax001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894117.57398 TSTOP = 713895006.07436 DATE-OBS= '2023-08-16T15:55:12' DATE-END= '2023-08-16T16:10:01' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 888.500380039215 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 394 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'JjaNMgWNJgaNJgWN' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '1243559765' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b18ax001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�r�x-�B�@�� Ȁ��f��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F�C��z�B�@�� ă��u��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F� ��l�B�@�� D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�F�/ ��B�@�� 7��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 192 / width of table in bytes NAXIS2 = 37 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 98 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDICMDBLSNCURTR' / m_currTrigger TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BDICMDBLSSZPROC' / m_processChunkSize TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BDICMDBLSMARKCL' / m_markClockTime TFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BDICMDBLSMARKDT' / m_markDataTime TFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BDICMDBLSGTSDUR' / m_grbTriggerSuppressDur TFORM6 = '1I ' / data format of field: 2-byte INTEGER TUNIT6 = 's ' / physical unit of field TTYPE7 = 'BDICMDBLSSURDUR' / m_nomSurveyCycleDur TFORM7 = '1I ' / data format of field: 2-byte INTEGER TUNIT7 = 's ' / physical unit of field TTYPE8 = 'BDICMDBLSAM2DUR' / m_nomAm241AccumDur TFORM8 = '1I ' / data format of field: 2-byte INTEGER TUNIT8 = 's ' / physical unit of field TTYPE9 = 'BDICMDBLSSTGDUR' / m_imTrigShortDur TFORM9 = '1I ' / data format of field: 2-byte INTEGER TUNIT9 = 's ' / physical unit of field TTYPE10 = 'BDICMDBLSLTGDUR' / m_imTrigLongDur TFORM10 = '1I ' / data format of field: 2-byte INTEGER TUNIT10 = 's ' / physical unit of field TTYPE11 = 'BDICMDBLSTGELOW' / m_imTrigELow TFORM11 = '1I ' / data format of field: 2-byte INTEGER TTYPE12 = 'BDICMDBLSTGEHIG' / m_imTrigEHigh TFORM12 = '1I ' / data format of field: 2-byte INTEGER TTYPE13 = 'BDICMDBLSMACTBL' / m_activeBlocks TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BDICMDBLSFFAKTS' / m_fakeTimestamp TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BDICMDBLSINVALD' / m_fInvalid TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BDICMDBLSFALTDR' / m_fAlertTDRSS TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDICMDBLSFBINCH' / m_binsChanged TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDICMDBLSFTBNCH' / m_tagBinsChanged TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDICMDBLSTRIGEN' / m_trigEnabled TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDICMDBLSCANVET' / m_fCancelVeto TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDICMDBLSTRGDMP' / m_trigDump TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDICMDBLSBRIMTH' / m_brImmediateThreshold TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BDICMDBLSBRPAUS' / m_brPausetime TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BDICMDBLSVERBOS' / m_verbosity TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BDICMDBLSNENARR' / m_n_enarrow_used TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BDICMDBLSNAM241' / m_n_etagbins_used TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BDICMDBLSQAMSPC' / m_priAmSpect TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BDICMDBLSQSURVY' / m_priSurvey TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDICMDBLSQAMACC' / m_priAmSurvey TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDICMDBLSQGAINO' / m_priGainOff TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BDICMDBLSQCALRN' / m_priCalRun TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BDICMDBLSQMASKW' / m_priMaskWeights TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BDICMDBLSQPARAM' / m_priParameters TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BDICMDBLSQDAPHK' / m_priDAPhk TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BDICMDBLSQACSDP' / m_priACS TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BDICMDBLSQPULSR' / m_priPulsar TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDICMDBLSARAT64' / m_rate_64msQuad_AID TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BDICMDBLSARMTAG' / m_rate_mtag_AID TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BDICMDBLSARFMAX' / m_rate_fastmax_AID TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BDICMDBLSAPARAM' / m_parameter_tm_AID TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BDICMDBLSATRIGS' / m_trigger_status_AID TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BDICMDBLSDIDLAY' / m_DIDelay TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BDICMDBLSDUMPDL' / m_dumpDelay TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BDICMDBLSIGNFLG' / m_ignoreEventFlags TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BDICMDBLSTSTALE' / m_dumpStaleLimit TFORM45 = '1I ' / data format of field: 2-byte INTEGER TTYPE46 = 'BDICMDBLSNHOTLM' / m_hotLimit TFORM46 = '1I ' / data format of field: 2-byte INTEGER TTYPE47 = 'BDICMDBLSNHOTKL' / m_nHotKill TFORM47 = '1I ' / data format of field: 2-byte INTEGER TTYPE48 = 'BDICMDBLSNLTCHL' / m_latchLimit TFORM48 = '1I ' / data format of field: 2-byte INTEGER TTYPE49 = 'BDICMDBLSNMXLAG' / m_maxLag TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BDICMDBLSNTHSAA' / m_saaThreshold TFORM50 = '1J ' / data format of field: 4-byte INTEGER TTYPE51 = 'BDICMDBLSMTFOVR' / m_maskTagFOVRadius TFORM51 = '1J ' / data format of field: 4-byte INTEGER TTYPE52 = 'BDICMDBLSMTFOVE' / m_maskTagFOVEllipticity TFORM52 = '1J ' / data format of field: 4-byte INTEGER TTYPE53 = 'BDICMDBLSNCAOFF' / m_caOffValue TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDICMDBLSNCAGAN' / m_caGainValue TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDICMDBLSNCAPER' / m_caPeriod TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BDICMDBLSNCADWL' / m_caDwellCount TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BDICMDBLSNCAOFI' / m_caOffInterval TFORM57 = '1I ' / data format of field: 2-byte INTEGER TTYPE58 = 'BDICMDBLSNCAGNI' / m_caGainInterval TFORM58 = '1I ' / data format of field: 2-byte INTEGER TTYPE59 = 'BDICMDBLSFCAOSL' / m_cafOffOnSlew TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BDICMDBLSFCAGSL' / m_cafGainOnSlew TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BDICMDBLSFCAOSU' / m_cafOffOnSurvey TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BDICMDBLSFCAGSU' / m_cafGainOnSurvey TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BDICMDBLSFDMPAG' / m_fDumpAutoGainOffAcc TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'undocumented1' / Byte field not in ITOS database TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BDICMDBLSNCAWIN' / m_caWindow TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BDICMDBLSTHCERT' / m_threshCertain TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BDICMDBLSTHPOSS' / m_threshPossible TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BDICMDBLSTHSHRT' / m_threshShortImage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BDICMDBLSTHLONG' / m_threshLongImage TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BDICMDBLSDSNSHO' / m_desensShort TFORM70 = '1I ' / data format of field: 2-byte INTEGER TTYPE71 = 'BDICMDBLSDSNLON' / m_desensLong TFORM71 = '1I ' / data format of field: 2-byte INTEGER TTYPE72 = 'BDICMDBLSNUMTRG' / m_numtrig TFORM72 = '1I ' / data format of field: 2-byte INTEGER TTYPE73 = 'BDICMDBLSNCPUOF' / m_ntrig_cpuoff_percheck TFORM73 = '1I ' / data format of field: 2-byte INTEGER TTYPE74 = 'BDICMDBLSMINVAR' / m_all_trigger_minvar TFORM74 = '1I ' / data format of field: 2-byte INTEGER TTYPE75 = 'BDICMDBLSSYSNSE' / m_all_trigger_sysnoise TFORM75 = '1I ' / data format of field: 2-byte INTEGER TTYPE76 = 'BDICMDBLSSHPRBK' / m_backgrd_before_short TFORM76 = '1I ' / data format of field: 2-byte INTEGER TTYPE77 = 'BDICMDBLSSHBDUR' / m_duration_shortback TFORM77 = '1I ' / data format of field: 2-byte INTEGER TUNIT77 = 's ' / physical unit of field TTYPE78 = 'BDICMDBLSCPUGOL' / m_ditg_cpuusage_goal TFORM78 = '1I ' / data format of field: 2-byte INTEGER TTYPE79 = 'BDICMDBLSDCYCHK' / m_check_for_decay_threshold TFORM79 = '1I ' / data format of field: 2-byte INTEGER TTYPE80 = 'BDICMDBLSSHSMTG' / m_short_time_as_same_id TFORM80 = '1I ' / data format of field: 2-byte INTEGER TTYPE81 = 'BDICMDBLSSHAFTR' / m_short_afterburners_enabled TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BDICMDBLSLNAFTR' / m_long_afterburners_enabled TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BDICMDBLSABJUMP' / m_afterburners_jumpstart TFORM83 = '1I ' / data format of field: 2-byte INTEGER TTYPE84 = 'BDICMDBLSMTGOFF' / m_masktag_dc_offset TFORM84 = '1I ' / data format of field: 2-byte INTEGER TTYPE85 = 'BDICMDBLSSLPCPU' / m_sleep_per_cpu_excess TFORM85 = '1I ' / data format of field: 2-byte INTEGER TTYPE86 = 'BDICMDBLSFFOMIM' / m_FOM_from_image TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BDICMDBLSFSETTL' / m_fWaitForSettle TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BDICMDBLSTHPROJ' / m_threshBackproject TFORM88 = '1I ' / data format of field: 2-byte INTEGER TTYPE89 = 'BDICMDBLSFOVEXT' / m_FOVExtension TFORM89 = '1I ' / data format of field: 2-byte INTEGER TTYPE90 = 'BDICMDBLSDOBACK' / m_fDoBackgroundSub TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BDICMDBLSHOTCNT' / m_imageHotCount TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BDICMDBLSHOTSIG' / m_imageHotSigma TFORM92 = '1I ' / data format of field: 2-byte INTEGER TTYPE93 = 'BDICMDBLSCATTOL' / m_cattol TFORM93 = '1I ' / data format of field: 2-byte INTEGER TTYPE94 = 'undocumented2' / Byte field not in ITOS database TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 32768 / offset for unsigned integers TTYPE95 = 'BDICMDBLSNEGTRG' / m_negtrg TFORM95 = '1J ' / data format of field: 4-byte INTEGER TTYPE96 = 'BDICMDBLSSUNMON' / m_sunmon TFORM96 = '1J ' / data format of field: 4-byte INTEGER TTYPE97 = 'BDICMDBLSINTTHR' / m_intthr TFORM97 = '1J ' / data format of field: 4-byte INTEGER TTYPE98 = 'BDICMDBLSSPARE8' / m_spare8 TFORM98 = '1J ' / data format of field: 4-byte INTEGER EXTNAME = 'hk18bx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894097.8264 TSTOP = 713896256.13932 DATE-OBS= '2023-08-16T15:54:52' DATE-END= '2023-08-16T16:30:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2158.31291997433 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 395 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'UF72aE42WE42aE42' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '1954236661' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b18bx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TNULL26 = 32767 TNULL8 = 32767 TNULL47 = 32767 TNULL46 = 32767 TNULL66 = 32767 TNULL84 = 32767 TNULL73 = 32767 TNULL69 = 32767 TNULL57 = 32767 TNULL93 = 32767 TNULL56 = 32767 TNULL9 = 32767 TNULL72 = 32767 TNULL39 = 32767 TNULL98 = 2147483647 TNULL67 = 32767 TNULL45 = 32767 TNULL85 = 32767 TNULL68 = 32767 TNULL51 = 2147483647 TNULL40 = 32767 TNULL94 = 32767 TNULL11 = 32767 TNULL74 = 32767 TNULL58 = 32767 TNULL2 = 2147483647 TNULL38 = 32767 TNULL95 = 2147483647 TNULL3 = 2147483647 TNULL92 = 32767 TNULL65 = 32767 TNULL13 = 32767 TNULL80 = 32767 TNULL97 = 2147483647 TNULL48 = 32767 TNULL75 = 32767 TNULL23 = 32767 TNULL76 = 32767 TNULL50 = 2147483647 TNULL41 = 32767 TNULL5 = 2147483647 TNULL25 = 32767 TNULL10 = 32767 TNULL22 = 32767 TNULL24 = 32767 TNULL88 = 32767 TNULL4 = 2147483647 TNULL77 = 32767 TNULL53 = 32767 TNULL78 = 32767 TNULL6 = 32767 TNULL89 = 32767 TNULL55 = 32767 TNULL44 = 32767 TNULL52 = 2147483647 TNULL70 = 32767 TNULL83 = 32767 TNULL96 = 2147483647 TNULL12 = 32767 TNULL79 = 32767 TNULL7 = 32767 TNULL37 = 32767 TNULL71 = 32767 TNULL54 = 32767 TNULL49 = 32767 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�h��z��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��LD��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��M��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��π��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�� `��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�`��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F� /R��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�@{��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�B�~g��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�` �ˀ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��ˀ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��`��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��܀��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F� ��ƀ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�%��ހ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�@ ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�`Yހ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�� '*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�� #��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�� '*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��H��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��؀��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F� `��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�@E��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�`b��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��0��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��ŀ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��AȀ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��#��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F� 'g��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�@ŗ��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F�`F_��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��A��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��A�F��=��'*�_�*�_��,@@�ǀd�d��P�P�Q��끋�S ��P��u0|��Ѐd�.��􂼂�� dK��d��Ѐ � ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 19 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 111 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKSYNC' / PW HK Packet Sync Mark TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKPKTID' / PW HK Packet Packet ID TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BPWHKLASTCMD' / PW HK Packet Last Command TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BPWHKCMDDATA' / PW HK Packet Last Command Data 16-bit TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BPWHKIPESTATUS' / PW HK Packet IPE Interface Status TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BPWHKPIPESTATUS' / PW HK Packet Heat Pipe Switch Status TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BPWHKBLKCONV' / PW HK Packet Block Conversion Switch Status TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BPWHKBLKHEAT' / PW HK Packet Block Heater Switch Status TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BPWHKADCTRAP' / PW HK Packet ADC SEL Trap Status TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BPWHKSTATUS1' / PW HK Packet Various Status Bits TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BPWHKSTATUS2' / PW HK Packet Various Status Bits TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BPWHKSTATUS3' / PW HK Packet Various Status Bits TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'undocumented1' / Byte field not in ITOS database TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BPWHKB00PRITEMP' / PW HK Pkt; Block 00 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB00SECTEMP' / PW HK Pkt; Block 00 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKLHP0PRITEMP' / PW HK Pkt; Pipe 00 SetPointTemp for Loop Heat TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB00SPARE' / PW HK Pkt; Block 00 Spare TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB00INPUTI' / PW HK Pkt; Block 00 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB0025GND' / PW HK Pkt; Block 00 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB00P25VLT' / PW HK Pkt; Block 00 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB00M25VLT' / PW HK Pkt; Block 00 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB00P35VLT' / PW HK Pkt; Block 00 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB00M35VLT' / PW HK Pkt; Block 00 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB00P50VLT' / PW HK Pkt; Block 00 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB00P75VLT' / PW HK Pkt; Block 00 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB00M75VLT' / PW HK Pkt; Block 00 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB00CVTTEMP' / PW HK Pkt; Block 00 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB00TEMP' / PW HK Pkt; Block 00 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPA0TEMP' / PW HK Pkt; LHP 0 (+Y) Comp Chamber (CC) TemperaTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKLHPB6TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ Cond Outlet TemTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKTAGFRNTHVLT' / PW HK Pkt; Tagged Source (Front) High Voltage TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL32 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT32 = 'V ' / physical unit of field TTYPE33 = 'BPWHKB01PRITEMP' / PW HK Pkt; Block 01 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB01SECTEMP' / PW HK Pkt; Block 01 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKLHP1PRITEMP' / PW HK Pkt; Pipe 01 SetPointTemp for Loop Heat TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB01SPARE' / PW HK Pkt; Block 01 Spare TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB01INPUTI' / PW HK Pkt; Block 01 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB0125GND' / PW HK Pkt; Block 01 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB01P25VLT' / PW HK Pkt; Block 01 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB01M25VLT' / PW HK Pkt; Block 01 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB01P35VLT' / PW HK Pkt; Block 01 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB01M35VLT' / PW HK Pkt; Block 01 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB01P50VLT' / PW HK Pkt; Block 01 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB01P75VLT' / PW HK Pkt; Block 01 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB01M75VLT' / PW HK Pkt; Block 01 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB01CVTTEMP' / PW HK Pkt; Block 01 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB01TEMP' / PW HK Pkt; Block 01 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPA1TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKLHPB7TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Evap Outlet TemTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKTAGFRNTTVLT' / PW HK Pkt; Tagged Source (Front) Threshold VoltTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL50 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT50 = 'V ' / physical unit of field TTYPE51 = 'BPWHKB02PRITEMP' / PW HK Pkt; Block 02 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB02SECTEMP' / PW HK Pkt; Block 02 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKLHP0SECTEMP' / PW HK Pkt; Pipe 02; SetPointTemp for Loop HeatTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB02SPARE' / PW HK Pkt; Block 02 Spare TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB02INPUTI' / PW HK Pkt; Block 02 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB0225GND' / PW HK Pkt; Block 02 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB02P25VLT' / PW HK Pkt; Block 02 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB02M25VLT' / PW HK Pkt; Block 02 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB02P35VLT' / PW HK Pkt; Block 02 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB02M35VLT' / PW HK Pkt; Block 02 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB02P50VLT' / PW HK Pkt; Block 02 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB02P75VLT' / PW HK Pkt; Block 02 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB02M75VLT' / PW HK Pkt; Block 02 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB02CVTTEMP' / PW HK Pkt; Block 02 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB02TEMP' / PW HK Pkt; Block 02 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPA2TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKLHPB8TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Cond Outlet TemTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKTAGREARHVLT' / PW HK Pkt; Tagged Source (Rear) High Voltage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL68 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT68 = 'V ' / physical unit of field TTYPE69 = 'BPWHKB03PRITEMP' / PW HK Pkt; Block 03 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB03SECTEMP' / PW HK Pkt; Block 03 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKLHP1SECTEMP' / PW HK Pkt; Pipe 03; SetPointTemp for Loop HeatTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB03SPARE' / PW HK Pkt; Block 03 Spare TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB03INPUTI' / PW HK Pkt; Block 03 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB0325GND' / PW HK Pkt; Block 03 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB03P25VLT' / PW HK Pkt; Block 03 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB03M25VLT' / PW HK Pkt; Block 03 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB03P35VLT' / PW HK Pkt; Block 03 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB03M35VLT' / PW HK Pkt; Block 03 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB03P50VLT' / PW HK Pkt; Block 03 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB03P75VLT' / PW HK Pkt; Block 03 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB03M75VLT' / PW HK Pkt; Block 03 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB03CVTTEMP' / PW HK Pkt; Block 03 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB03TEMP' / PW HK Pkt; Block 03 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPA3TEMP' / PW HK Pkt; LHP 0 (+Y) Condenser Temperature, -XTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKLHPB9TEMP' / PW HK Pkt; LHP 1 (-Y) BLock/DM Temperature (B9)TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKTAGREARTVLT' / PW HK Pkt; Tagged Source (Rear) Threshold VoltaTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL86 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT86 = 'V ' / physical unit of field TTYPE87 = 'BPWHKB04PRITEMP' / PW HK Pkt; Block 04 SetPointTemp Primary HeaterTFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB04SECTEMP' / PW HK Pkt; Block 04 SetPointTemp 2ndary Heater TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB04SPARE0' / PW HK Pkt; Block 04 Spare 0 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWHKB04SPARE1' / PW HK Pkt; Block 04 Spare 1 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB04INPUTI' / PW HK Pkt; Block 04 Input Current for DC-DC ConTFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL91 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT91 = 'A ' / physical unit of field TTYPE92 = 'BPWHKB0425GND' / PW HK Pkt; Block 04 Voltage on 2.5 Ground ReturTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWHKB04P25VLT' / PW HK Pkt; Block 04 +2.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL93 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB04M25VLT' / PW HK Pkt; Block 04 -2.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL94 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB04P35VLT' / PW HK Pkt; Block 04 +3.5 Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL95 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB04M35VLT' / PW HK Pkt; Block 04 -3.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL96 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB04P50VLT' / PW HK Pkt; Block 04 +5.0 Digital Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL97 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB04P75VLT' / PW HK Pkt; Block 04 +7.5 Voltage TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL98 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT98 = 'V ' / physical unit of field TTYPE99 = 'BPWHKB04M75VLT' / PW HK Pkt; Block 04 -7.5 Voltage TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL99 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT99 = 'V ' / physical unit of field TTYPE100= 'BPWHKB04CVTTEMP' / PW HK Pkt; Block 04 DC-DC Converter Module TempTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKB04TEMP' / PW HK Pkt; Block 04 Temperature TFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKLHPA4TEMP' / PW HK Pkt; LHP 1 (+Y) Condenser Temperature, +XTFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL102= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'BPWHKMASK0TEMP' / PW HK Pkt; Mask Temperature (top center) TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL103= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT103= 'Celsius ' / physical unit of field TTYPE104= 'BPWHKSPARE04TMP' / PW HK Pkt; Block 04 Spare Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL104= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'BPWHKB05PRITEMP' / PW HK Pkt; Block 05 SetPointTemp Primary HeaterTFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB05SECTEMP' / PW HK Pkt; Block 05 SetPointTemp 2ndary Heater TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB05SPARE0' / PW HK Pkt; Block 05 Spare 0 TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 32768 / offset for unsigned integers TTYPE108= 'BPWHKB05SPARE1' / PW HK Pkt; Block 05 Spare 1 TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BPWHKB05INPUTI' / PW HK Pkt; Block 05 Input Current for DC-DC ConTFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL109= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT109= 'A ' / physical unit of field TTYPE110= 'BPWHKB0525GND' / PW HK Pkt; Block 05 Voltage on 2.5 Ground ReturTFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BPWHKB05P25VLT' / PW HK Pkt; Block 05 +2.5 Voltage TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL111= 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT111= 'V ' / physical unit of field EXTNAME = 'hk18cx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.94556 TSTOP = 713896242.94194 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.9963799715 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 396 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'VbKOXZKOVbKOVZKO' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3100232133' / data unit checksum updated 2023-08-26T08:43:46 TRDLO19 = -0.2 / BPWHKB00INPUTI Red lower limit = B_PCB_B00_INPITRDHI19 = 0.9 / BPWHKB00INPUTI Red upper limit = B_PCB_B00_INPITYELO19 = -0.1 / BPWHKB00INPUTI Yellow lower limit = B_PCB_B00_ITYEHI19 = 0.8 / BPWHKB00INPUTI Yellow upper limit = B_PCB_B00_ITRDLO20 = -2 / BPWHKB0025GND Red lower limit = B_PCB_B00_2_5G_TRDHI20 = 15 / BPWHKB0025GND Red upper limit = B_PCB_B00_2_5G_TYELO20 = -1 / BPWHKB0025GND Yellow lower limit = B_PCB_B00_2_TYEHI20 = 10 / BPWHKB0025GND Yellow upper limit = B_PCB_B00_2_TRDLO21 = 2.55 / BPWHKB00P25VLT Red lower limit = B_PCB_B00_2_7VTRDHI21 = 2.84 / BPWHKB00P25VLT Red upper limit = B_PCB_B00_2_7VTYELO21 = 2.62 / BPWHKB00P25VLT Yellow lower limit = B_PCB_B00_2TYEHI21 = 2.78 / BPWHKB00P25VLT Yellow upper limit = B_PCB_B00_2TRDLO22 = 2.55 / BPWHKB00M25VLT Red lower limit = B_PCB_B00_2_7VTRDHI22 = 2.84 / BPWHKB00M25VLT Red upper limit = B_PCB_B00_2_7VTYELO22 = 2.62 / BPWHKB00M25VLT Yellow lower limit = B_PCB_B00_2TYEHI22 = 2.78 / BPWHKB00M25VLT Yellow upper limit = B_PCB_B00_2TRDLO23 = 3.65 / BPWHKB00P35VLT Red lower limit = B_PCB_B00_3_8VTRDHI23 = 4.05 / BPWHKB00P35VLT Red upper limit = B_PCB_B00_3_8VTYELO23 = 3.73 / BPWHKB00P35VLT Yellow lower limit = B_PCB_B00_3TYEHI23 = 3.97 / BPWHKB00P35VLT Yellow upper limit = B_PCB_B00_3TRDLO24 = 3.65 / BPWHKB00M35VLT Red lower limit = B_PCB_B00_3_8VTRDHI24 = 4.05 / BPWHKB00M35VLT Red upper limit = B_PCB_B00_3_8VTYELO24 = 3.73 / BPWHKB00M35VLT Yellow lower limit = B_PCB_B00_3TYEHI24 = 3.97 / BPWHKB00M35VLT Yellow upper limit = B_PCB_B00_3TRDLO25 = 4.75 / BPWHKB00P50VLT Red lower limit = B_PCB_B00_5_0VTRDHI25 = 5.25 / BPWHKB00P50VLT Red upper limit = B_PCB_B00_5_0VTYELO25 = 4.85 / BPWHKB00P50VLT Yellow lower limit = B_PCB_B00_5TYEHI25 = 5.15 / BPWHKB00P50VLT Yellow upper limit = B_PCB_B00_5TRDLO26 = 7.12 / BPWHKB00P75VLT Red lower limit = B_PCB_B00_7_5VTRDHI26 = 7.85 / BPWHKB00P75VLT Red upper limit = B_PCB_B00_7_5VTYELO26 = 7.27 / BPWHKB00P75VLT Yellow lower limit = B_PCB_B00_7TYEHI26 = 7.72 / BPWHKB00P75VLT Yellow upper limit = B_PCB_B00_7TRDLO27 = 7.12 / BPWHKB00M75VLT Red lower limit = B_PCB_B00_7_5VTRDHI27 = 7.85 / BPWHKB00M75VLT Red upper limit = B_PCB_B00_7_5VTYELO27 = 7.27 / BPWHKB00M75VLT Yellow lower limit = B_PCB_B00_7TYEHI27 = 7.72 / BPWHKB00M75VLT Yellow upper limit = B_PCB_B00_7TRDLO28 = -20 / BPWHKB00CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB00CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB00CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB00CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB00TEMP Red lower limit = B_TBLK_00_LIM TRDHI29 = 45 / BPWHKB00TEMP Red upper limit = B_TBLK_00_LIM TYELO29 = -10 / BPWHKB00TEMP Yellow lower limit = B_TBLK_00_LIMTYEHI29 = 40 / BPWHKB00TEMP Yellow upper limit = B_TBLK_00_LIMTRDLO30 = -25 / BPWHKLHPA0TEMP Red lower limit = B_TLHP_A0_LIM TRDHI30 = 60 / BPWHKLHPA0TEMP Red upper limit = B_TLHP_A0_LIM TYELO30 = -20 / BPWHKLHPA0TEMP Yellow lower limit = B_TLHP_A0_LTYEHI30 = 55 / BPWHKLHPA0TEMP Yellow upper limit = B_TLHP_A0_LTRDHI31 = 60 / BPWHKLHPB6TEMP Red upper limit = B_TLHP_B6_LIM TYEHI31 = 55 / BPWHKLHPB6TEMP Yellow upper limit = B_TLHP_B6_LTRDLO32 = 149 / BPWHKTAGFRNTHVLT Red lower limit = B_PCB_TAGHV_TRDHI32 = 153 / BPWHKTAGFRNTHVLT Red upper limit = B_PCB_TAGHV_TYELO32 = 150 / BPWHKTAGFRNTHVLT Yellow lower limit = B_PCB_TAGTYEHI32 = 152 / BPWHKTAGFRNTHVLT Yellow upper limit = B_PCB_TAGTRDLO37 = -0.2 / BPWHKB01INPUTI Red lower limit = B_PCB_B01_INPITRDHI37 = 0.9 / BPWHKB01INPUTI Red upper limit = B_PCB_B01_INPITYELO37 = -0.1 / BPWHKB01INPUTI Yellow lower limit = B_PCB_B01_ITYEHI37 = 0.8 / BPWHKB01INPUTI Yellow upper limit = B_PCB_B01_ITRDLO38 = -2 / BPWHKB0125GND Red lower limit = B_PCB_B01_2_5G_TRDHI38 = 15 / BPWHKB0125GND Red upper limit = B_PCB_B01_2_5G_TYELO38 = -1 / BPWHKB0125GND Yellow lower limit = B_PCB_B01_2_TYEHI38 = 10 / BPWHKB0125GND Yellow upper limit = B_PCB_B01_2_TRDLO39 = 2.55 / BPWHKB01P25VLT Red lower limit = B_PCB_B01_2_7VTRDHI39 = 2.84 / BPWHKB01P25VLT Red upper limit = B_PCB_B01_2_7VTYELO39 = 2.62 / BPWHKB01P25VLT Yellow lower limit = B_PCB_B01_2TYEHI39 = 2.78 / BPWHKB01P25VLT Yellow upper limit = B_PCB_B01_2TRDLO40 = 2.55 / BPWHKB01M25VLT Red lower limit = B_PCB_B01_2_7VTRDHI40 = 2.84 / BPWHKB01M25VLT Red upper limit = B_PCB_B01_2_7VTYELO40 = 2.62 / BPWHKB01M25VLT Yellow lower limit = B_PCB_B01_2TYEHI40 = 2.78 / BPWHKB01M25VLT Yellow upper limit = B_PCB_B01_2TRDLO41 = 3.65 / BPWHKB01P35VLT Red lower limit = B_PCB_B01_3_8VTRDHI41 = 4.05 / BPWHKB01P35VLT Red upper limit = B_PCB_B01_3_8VTYELO41 = 3.73 / BPWHKB01P35VLT Yellow lower limit = B_PCB_B01_3TYEHI41 = 3.97 / BPWHKB01P35VLT Yellow upper limit = B_PCB_B01_3TRDLO42 = 3.65 / BPWHKB01M35VLT Red lower limit = B_PCB_B01_3_8VTRDHI42 = 4.05 / BPWHKB01M35VLT Red upper limit = B_PCB_B01_3_8VTYELO42 = 3.73 / BPWHKB01M35VLT Yellow lower limit = B_PCB_B01_3TYEHI42 = 3.97 / BPWHKB01M35VLT Yellow upper limit = B_PCB_B01_3TRDLO43 = 4.75 / BPWHKB01P50VLT Red lower limit = B_PCB_B01_5_0VTRDHI43 = 5.25 / BPWHKB01P50VLT Red upper limit = B_PCB_B01_5_0VTYELO43 = 4.85 / BPWHKB01P50VLT Yellow lower limit = B_PCB_B01_5TYEHI43 = 5.15 / BPWHKB01P50VLT Yellow upper limit = B_PCB_B01_5TRDLO44 = 7.12 / BPWHKB01P75VLT Red lower limit = B_PCB_B01_7_5VTRDHI44 = 7.85 / BPWHKB01P75VLT Red upper limit = B_PCB_B01_7_5VTYELO44 = 7.27 / BPWHKB01P75VLT Yellow lower limit = B_PCB_B01_7TYEHI44 = 7.72 / BPWHKB01P75VLT Yellow upper limit = B_PCB_B01_7TRDLO45 = 7.12 / BPWHKB01M75VLT Red lower limit = B_PCB_B01_7_5VTRDHI45 = 7.85 / BPWHKB01M75VLT Red upper limit = B_PCB_B01_7_5VTYELO45 = 7.27 / BPWHKB01M75VLT Yellow lower limit = B_PCB_B01_7TYEHI45 = 7.72 / BPWHKB01M75VLT Yellow upper limit = B_PCB_B01_7TRDLO46 = -20 / BPWHKB01CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB01CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB01CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB01CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB01TEMP Red lower limit = B_TBLK_01_LIM TRDHI47 = 45 / BPWHKB01TEMP Red upper limit = B_TBLK_01_LIM TYELO47 = -10 / BPWHKB01TEMP Yellow lower limit = B_TBLK_01_LIMTYEHI47 = 40 / BPWHKB01TEMP Yellow upper limit = B_TBLK_01_LIMTRDLO48 = -30 / BPWHKLHPA1TEMP Red lower limit = B_TLHP_A1_LIM TRDHI48 = 60 / BPWHKLHPA1TEMP Red upper limit = B_TLHP_A1_LIM TYELO48 = -25 / BPWHKLHPA1TEMP Yellow lower limit = B_TLHP_A1_LTYEHI48 = 55 / BPWHKLHPA1TEMP Yellow upper limit = B_TLHP_A1_LTRDLO49 = -30 / BPWHKLHPB7TEMP Red lower limit = B_TLHP_B7_LIM TRDHI49 = 60 / BPWHKLHPB7TEMP Red upper limit = B_TLHP_B7_LIM TYELO49 = -25 / BPWHKLHPB7TEMP Yellow lower limit = B_TLHP_B7_LTYEHI49 = 55 / BPWHKLHPB7TEMP Yellow upper limit = B_TLHP_B7_LTRDLO50 = 1.89 / BPWHKTAGFRNTTVLT Red lower limit = B_PCB_FTAGTHTRDHI50 = 1.906 / BPWHKTAGFRNTTVLT Red upper limit = B_PCB_FTAGTHTYELO50 = 1.894 / BPWHKTAGFRNTTVLT Yellow lower limit = B_PCB_FTATYEHI50 = 1.9 / BPWHKTAGFRNTTVLT Yellow upper limit = B_PCB_FTATRDLO55 = -0.2 / BPWHKB02INPUTI Red lower limit = B_PCB_B02_INPITRDHI55 = 0.9 / BPWHKB02INPUTI Red upper limit = B_PCB_B02_INPITYELO55 = -0.1 / BPWHKB02INPUTI Yellow lower limit = B_PCB_B02_ITYEHI55 = 0.8 / BPWHKB02INPUTI Yellow upper limit = B_PCB_B02_ITRDLO56 = -2 / BPWHKB0225GND Red lower limit = B_PCB_B02_2_5G_TRDHI56 = 15 / BPWHKB0225GND Red upper limit = B_PCB_B02_2_5G_TYELO56 = -1 / BPWHKB0225GND Yellow lower limit = B_PCB_B02_2_TYEHI56 = 10 / BPWHKB0225GND Yellow upper limit = B_PCB_B02_2_TRDLO57 = 2.55 / BPWHKB02P25VLT Red lower limit = B_PCB_B02_2_7VTRDHI57 = 2.84 / BPWHKB02P25VLT Red upper limit = B_PCB_B02_2_7VTYELO57 = 2.62 / BPWHKB02P25VLT Yellow lower limit = B_PCB_B02_2TYEHI57 = 2.78 / BPWHKB02P25VLT Yellow upper limit = B_PCB_B02_2TRDLO58 = 2.55 / BPWHKB02M25VLT Red lower limit = B_PCB_B02_2_7VTRDHI58 = 2.84 / BPWHKB02M25VLT Red upper limit = B_PCB_B02_2_7VTYELO58 = 2.62 / BPWHKB02M25VLT Yellow lower limit = B_PCB_B02_2TYEHI58 = 2.78 / BPWHKB02M25VLT Yellow upper limit = B_PCB_B02_2TRDLO59 = 3.65 / BPWHKB02P35VLT Red lower limit = B_PCB_B02_3_8VTRDHI59 = 4.05 / BPWHKB02P35VLT Red upper limit = B_PCB_B02_3_8VTYELO59 = 3.73 / BPWHKB02P35VLT Yellow lower limit = B_PCB_B02_3TYEHI59 = 3.97 / BPWHKB02P35VLT Yellow upper limit = B_PCB_B02_3TRDLO60 = 3.65 / BPWHKB02M35VLT Red lower limit = B_PCB_B02_3_8VTRDHI60 = 4.05 / BPWHKB02M35VLT Red upper limit = B_PCB_B02_3_8VTYELO60 = 3.73 / BPWHKB02M35VLT Yellow lower limit = B_PCB_B02_3TYEHI60 = 3.97 / BPWHKB02M35VLT Yellow upper limit = B_PCB_B02_3TRDLO61 = 4.75 / BPWHKB02P50VLT Red lower limit = B_PCB_B02_5_0VTRDHI61 = 5.25 / BPWHKB02P50VLT Red upper limit = B_PCB_B02_5_0VTYELO61 = 4.85 / BPWHKB02P50VLT Yellow lower limit = B_PCB_B02_5TYEHI61 = 5.15 / BPWHKB02P50VLT Yellow upper limit = B_PCB_B02_5TRDLO62 = 7.12 / BPWHKB02P75VLT Red lower limit = B_PCB_B02_7_5VTRDHI62 = 7.85 / BPWHKB02P75VLT Red upper limit = B_PCB_B02_7_5VTYELO62 = 7.27 / BPWHKB02P75VLT Yellow lower limit = B_PCB_B02_7TYEHI62 = 7.72 / BPWHKB02P75VLT Yellow upper limit = B_PCB_B02_7TRDLO63 = 7.12 / BPWHKB02M75VLT Red lower limit = B_PCB_B02_7_5VTRDHI63 = 7.85 / BPWHKB02M75VLT Red upper limit = B_PCB_B02_7_5VTYELO63 = 7.27 / BPWHKB02M75VLT Yellow lower limit = B_PCB_B02_7TYEHI63 = 7.72 / BPWHKB02M75VLT Yellow upper limit = B_PCB_B02_7TRDLO64 = -20 / BPWHKB02CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB02CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB02CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB02CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB02TEMP Red lower limit = B_TBLK_02_LIM TRDHI65 = 45 / BPWHKB02TEMP Red upper limit = B_TBLK_02_LIM TYELO65 = -10 / BPWHKB02TEMP Yellow lower limit = B_TBLK_02_LIMTYEHI65 = 40 / BPWHKB02TEMP Yellow upper limit = B_TBLK_02_LIMTRDLO66 = -30 / BPWHKLHPA2TEMP Red lower limit = B_TLHP_A2_LIM TRDHI66 = 60 / BPWHKLHPA2TEMP Red upper limit = B_TLHP_A2_LIM TYELO66 = -25 / BPWHKLHPA2TEMP Yellow lower limit = B_TLHP_A2_LTYEHI66 = 55 / BPWHKLHPA2TEMP Yellow upper limit = B_TLHP_A2_LTRDHI67 = 60 / BPWHKLHPB8TEMP Red upper limit = B_TLHP_B8_LIM TYEHI67 = 55 / BPWHKLHPB8TEMP Yellow upper limit = B_TLHP_B8_LTRDLO68 = 149 / BPWHKTAGREARHVLT Red lower limit = B_PCB_TAGHV_TRDHI68 = 153 / BPWHKTAGREARHVLT Red upper limit = B_PCB_TAGHV_TYELO68 = 150 / BPWHKTAGREARHVLT Yellow lower limit = B_PCB_TAGTYEHI68 = 152 / BPWHKTAGREARHVLT Yellow upper limit = B_PCB_TAGTRDLO73 = -0.2 / BPWHKB03INPUTI Red lower limit = B_PCB_B03_INPITRDHI73 = 0.9 / BPWHKB03INPUTI Red upper limit = B_PCB_B03_INPITYELO73 = -0.1 / BPWHKB03INPUTI Yellow lower limit = B_PCB_B03_ITYEHI73 = 0.8 / BPWHKB03INPUTI Yellow upper limit = B_PCB_B03_ITRDLO74 = -2 / BPWHKB0325GND Red lower limit = B_PCB_B03_2_5G_TRDHI74 = 15 / BPWHKB0325GND Red upper limit = B_PCB_B03_2_5G_TYELO74 = -1 / BPWHKB0325GND Yellow lower limit = B_PCB_B03_2_TYEHI74 = 10 / BPWHKB0325GND Yellow upper limit = B_PCB_B03_2_TRDLO75 = 2.55 / BPWHKB03P25VLT Red lower limit = B_PCB_B03_2_7VTRDHI75 = 2.84 / BPWHKB03P25VLT Red upper limit = B_PCB_B03_2_7VTYELO75 = 2.62 / BPWHKB03P25VLT Yellow lower limit = B_PCB_B03_2TYEHI75 = 2.78 / BPWHKB03P25VLT Yellow upper limit = B_PCB_B03_2TRDLO76 = 2.55 / BPWHKB03M25VLT Red lower limit = B_PCB_B03_2_7VTRDHI76 = 2.84 / BPWHKB03M25VLT Red upper limit = B_PCB_B03_2_7VTYELO76 = 2.62 / BPWHKB03M25VLT Yellow lower limit = B_PCB_B03_2TYEHI76 = 2.78 / BPWHKB03M25VLT Yellow upper limit = B_PCB_B03_2TRDLO77 = 3.65 / BPWHKB03P35VLT Red lower limit = B_PCB_B03_3_8VTRDHI77 = 4.05 / BPWHKB03P35VLT Red upper limit = B_PCB_B03_3_8VTYELO77 = 3.73 / BPWHKB03P35VLT Yellow lower limit = B_PCB_B03_3TYEHI77 = 3.97 / BPWHKB03P35VLT Yellow upper limit = B_PCB_B03_3TRDLO78 = 3.65 / BPWHKB03M35VLT Red lower limit = B_PCB_B03_3_8VTRDHI78 = 4.05 / BPWHKB03M35VLT Red upper limit = B_PCB_B03_3_8VTYELO78 = 3.73 / BPWHKB03M35VLT Yellow lower limit = B_PCB_B03_3TYEHI78 = 3.97 / BPWHKB03M35VLT Yellow upper limit = B_PCB_B03_3TRDLO79 = 4.75 / BPWHKB03P50VLT Red lower limit = B_PCB_B03_5_0VTRDHI79 = 5.25 / BPWHKB03P50VLT Red upper limit = B_PCB_B03_5_0VTYELO79 = 4.85 / BPWHKB03P50VLT Yellow lower limit = B_PCB_B03_5TYEHI79 = 5.15 / BPWHKB03P50VLT Yellow upper limit = B_PCB_B03_5TRDLO80 = 7.12 / BPWHKB03P75VLT Red lower limit = B_PCB_B03_7_5VTRDHI80 = 7.85 / BPWHKB03P75VLT Red upper limit = B_PCB_B03_7_5VTYELO80 = 7.27 / BPWHKB03P75VLT Yellow lower limit = B_PCB_B03_7TYEHI80 = 7.72 / BPWHKB03P75VLT Yellow upper limit = B_PCB_B03_7TRDLO81 = 7.12 / BPWHKB03M75VLT Red lower limit = B_PCB_B03_7_5VTRDHI81 = 7.85 / BPWHKB03M75VLT Red upper limit = B_PCB_B03_7_5VTYELO81 = 7.27 / BPWHKB03M75VLT Yellow lower limit = B_PCB_B03_7TYEHI81 = 7.72 / BPWHKB03M75VLT Yellow upper limit = B_PCB_B03_7TRDLO82 = -20 / BPWHKB03CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB03CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB03CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB03CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB03TEMP Red lower limit = B_TBLK_03_LIM TRDHI83 = 45 / BPWHKB03TEMP Red upper limit = B_TBLK_03_LIM TYELO83 = -10 / BPWHKB03TEMP Yellow lower limit = B_TBLK_03_LIMTYEHI83 = 40 / BPWHKB03TEMP Yellow upper limit = B_TBLK_03_LIMTRDHI84 = 60 / BPWHKLHPA3TEMP Red upper limit = B_TLHP_A3_LIM TYEHI84 = 55 / BPWHKLHPA3TEMP Yellow upper limit = B_TLHP_A3_LTRDLO85 = -25 / BPWHKLHPB9TEMP Red lower limit = B_TLHP_B9_LIM TRDHI85 = 40 / BPWHKLHPB9TEMP Red upper limit = B_TLHP_B9_LIM TYELO85 = -20 / BPWHKLHPB9TEMP Yellow lower limit = B_TLHP_B9_LTYEHI85 = 35 / BPWHKLHPB9TEMP Yellow upper limit = B_TLHP_B9_LTRDLO86 = 1.96 / BPWHKTAGREARTVLT Red lower limit = B_PCB_RTAGTHTRDHI86 = 1.99 / BPWHKTAGREARTVLT Red upper limit = B_PCB_RTAGTHTYELO86 = 1.977 / BPWHKTAGREARTVLT Yellow lower limit = B_PCB_RTATYEHI86 = 1.982 / BPWHKTAGREARTVLT Yellow upper limit = B_PCB_RTATRDLO91 = -0.2 / BPWHKB04INPUTI Red lower limit = B_PCB_B04_INPITRDHI91 = 0.9 / BPWHKB04INPUTI Red upper limit = B_PCB_B04_INPITYELO91 = -0.1 / BPWHKB04INPUTI Yellow lower limit = B_PCB_B04_ITYEHI91 = 0.8 / BPWHKB04INPUTI Yellow upper limit = B_PCB_B04_ITRDLO92 = -2 / BPWHKB0425GND Red lower limit = B_PCB_B04_2_5G_TRDHI92 = 15 / BPWHKB0425GND Red upper limit = B_PCB_B04_2_5G_TYELO92 = -1 / BPWHKB0425GND Yellow lower limit = B_PCB_B04_2_TYEHI92 = 10 / BPWHKB0425GND Yellow upper limit = B_PCB_B04_2_TRDLO93 = 2.55 / BPWHKB04P25VLT Red lower limit = B_PCB_B04_2_7VTRDHI93 = 2.84 / BPWHKB04P25VLT Red upper limit = B_PCB_B04_2_7VTYELO93 = 2.62 / BPWHKB04P25VLT Yellow lower limit = B_PCB_B04_2TYEHI93 = 2.78 / BPWHKB04P25VLT Yellow upper limit = B_PCB_B04_2TRDLO94 = 2.55 / BPWHKB04M25VLT Red lower limit = B_PCB_B04_2_7VTRDHI94 = 2.84 / BPWHKB04M25VLT Red upper limit = B_PCB_B04_2_7VTYELO94 = 2.62 / BPWHKB04M25VLT Yellow lower limit = B_PCB_B04_2TYEHI94 = 2.78 / BPWHKB04M25VLT Yellow upper limit = B_PCB_B04_2TRDLO95 = 3.65 / BPWHKB04P35VLT Red lower limit = B_PCB_B04_3_8VTRDHI95 = 4.05 / BPWHKB04P35VLT Red upper limit = B_PCB_B04_3_8VTYELO95 = 3.73 / BPWHKB04P35VLT Yellow lower limit = B_PCB_B04_3TYEHI95 = 3.97 / BPWHKB04P35VLT Yellow upper limit = B_PCB_B04_3TRDLO96 = 3.65 / BPWHKB04M35VLT Red lower limit = B_PCB_B04_3_8VTRDHI96 = 4.05 / BPWHKB04M35VLT Red upper limit = B_PCB_B04_3_8VTYELO96 = 3.73 / BPWHKB04M35VLT Yellow lower limit = B_PCB_B04_3TYEHI96 = 3.97 / BPWHKB04M35VLT Yellow upper limit = B_PCB_B04_3TRDLO97 = 4.75 / BPWHKB04P50VLT Red lower limit = B_PCB_B04_5_0VTRDHI97 = 5.25 / BPWHKB04P50VLT Red upper limit = B_PCB_B04_5_0VTYELO97 = 4.85 / BPWHKB04P50VLT Yellow lower limit = B_PCB_B04_5TYEHI97 = 5.15 / BPWHKB04P50VLT Yellow upper limit = B_PCB_B04_5TRDLO98 = 7.12 / BPWHKB04P75VLT Red lower limit = B_PCB_B04_7_5VTRDHI98 = 7.85 / BPWHKB04P75VLT Red upper limit = B_PCB_B04_7_5VTYELO98 = 7.27 / BPWHKB04P75VLT Yellow lower limit = B_PCB_B04_7TYEHI98 = 7.72 / BPWHKB04P75VLT Yellow upper limit = B_PCB_B04_7TRDLO99 = 7.12 / BPWHKB04M75VLT Red lower limit = B_PCB_B04_7_5VTRDHI99 = 7.85 / BPWHKB04M75VLT Red upper limit = B_PCB_B04_7_5VTYELO99 = 7.27 / BPWHKB04M75VLT Yellow lower limit = B_PCB_B04_7TYEHI99 = 7.72 / BPWHKB04M75VLT Yellow upper limit = B_PCB_B04_7TRDLO100= -20 / BPWHKB04CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI100= 61 / BPWHKB04CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO100= -15 / BPWHKB04CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI100= 56 / BPWHKB04CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO101= -15 / BPWHKB04TEMP Red lower limit = B_TBLK_04_LIM TRDHI101= 45 / BPWHKB04TEMP Red upper limit = B_TBLK_04_LIM TYELO101= -10 / BPWHKB04TEMP Yellow lower limit = B_TBLK_04_LIMTYEHI101= 40 / BPWHKB04TEMP Yellow upper limit = B_TBLK_04_LIMTRDHI102= 60 / BPWHKLHPA4TEMP Red upper limit = B_TLHP_A4_LIM TYEHI102= 55 / BPWHKLHPA4TEMP Yellow upper limit = B_TLHP_A4_LTRDLO103= -55 / BPWHKMASK0TEMP Red lower limit = B_TMASK_0_LIM TRDHI103= 55 / BPWHKMASK0TEMP Red upper limit = B_TMASK_0_LIM TYELO103= -50 / BPWHKMASK0TEMP Yellow lower limit = B_TMASK_0_LTYEHI103= 50 / BPWHKMASK0TEMP Yellow upper limit = B_TMASK_0_LTRDLO109= -0.2 / BPWHKB05INPUTI Red lower limit = B_PCB_B05_INPITRDHI109= 0.9 / BPWHKB05INPUTI Red upper limit = B_PCB_B05_INPITYELO109= -0.1 / BPWHKB05INPUTI Yellow lower limit = B_PCB_B05_ITYEHI109= 0.8 / BPWHKB05INPUTI Yellow upper limit = B_PCB_B05_ITRDLO110= -2 / BPWHKB0525GND Red lower limit = B_PCB_B05_2_5G_TRDHI110= 15 / BPWHKB0525GND Red upper limit = B_PCB_B05_2_5G_TYELO110= -1 / BPWHKB0525GND Yellow lower limit = B_PCB_B05_2_TYEHI110= 10 / BPWHKB0525GND Yellow upper limit = B_PCB_B05_2_TRDLO111= 2.55 / BPWHKB05P25VLT Red lower limit = B_PCB_B05_2_7VTRDHI111= 2.84 / BPWHKB05P25VLT Red upper limit = B_PCB_B05_2_7VTYELO111= 2.62 / BPWHKB05P25VLT Yellow lower limit = B_PCB_B05_2TYEHI111= 2.78 / BPWHKB05P25VLT Yellow upper limit = B_PCB_B05_2HISTORY TASK: FAPPND on FILENAME: sw01185673000b18cx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ayk�q��W��f��݌��ω��{� ��Z��|��։��?�[��Y��z��)�u�� :�P�"��Y�� k��X��񉷅��Y��U��A�F��y��k�q��Y��i��i��ߌ��Ή�� l� ��[��̀�� u�� ؉��?�W��[��.��)�{�� <�*�#��Z��l��Z��Ѐ��눓��[��'��A�F��x��k�q��W��ߎ:�X��ʉ��]� ��Z��Ӊ��@�2��Z��܀��*�x��:��#��Y��-�k��Y��|��"���܈��Z��Ԁ��A�F�y�Vk�q��X��j��ߌ��ʉ��M�!��[��~��҉��@�3��[��*�{��;� �$��Z��m��Z��뉶�Ո��[��A�F�Qx�bk�q��Y��3��i��ߌ��ĉ��<�"��\��z�� ω��>�c��[��1��,�z�� :�Y�%��Z��ߎ��k��[��뉸��[��A�F��x��k�q��W��S��j��ߌ��#�"��Z��ր��|��͉��>�D��Y��7��*�y�� ;�#�%��X��܀��ȉl��X��ր��扸��Y��+��A�F��yx-k�q��X��s��j��ތ��"��[��z��ɉ��>�.��Z��_��%�{��򉺉;��%��Y��l��Y��≷��Z��M��A�F�x��k�q��Y��k��݌��"��\��~�� ȉ��>�E��[��^��)�|�� �:�<�&��Z��j��Z��܀��މ��w��[��Z��A�F�A|~(k�q��X��j��݌��#��Z��x��?�J��Z��"�}��뉹�9�!�&��X�� v�l��Y��܉��S��Z��S��A�F�}x�k�q��W��p�� ډ#��Z��w��>�*��Y��&�|��鉷�7��&��X��$��ߎ��l��X��ى��O��Y��S��A�F��yN�k�q��X��p��9�[��ߌ��ω#��Z��:�@��Z��p��&�{�� 牺�7�7�'��Y��3��T�i��Y��׉��@��Z��A�F��yik�q��X��j��݌��$��[��)��|��<�R��Z��)�y��䉺�9�1�&��Y��,�� k��Y��Ӊ��Z��T��A�F�1y�k�q��X��j��ތ��#��[��;��|��;�*��Z��x��(�y��8��'��Z�� k��Y��ω��[��p��A�F�mx�k�q��X��i��݌��#��[��1��z��;�7��Z��)�z��މ��6�-�&��Z��,��0�k��Z��ω��Z��}��A�F��y��k�q��X�� e��݌��%��[��0��{��9�]��Z��{��-�w�� ۉ��6�S�'��Y��B��׉i��Y��"�� ˉ����[��X��A�F��x��k�q��Y��j��ߌ��$��[��Z��~��"��;�/��[�� #��ۉ��5� �'��Y�� ێ��A�i��Z��&��ˉ��݈��Z��|��A�F�!y[�k�q��X��q��$��Z��[��z��:�0��Y��'�|��׉��3��'��X��j��ގ��i��X��E��ɉ��݈��Y��m��A�F�]yi�k�q��Y��΀��n��ߌ��%��[��_��}��9�[��\��%�~��׉��4�N�(��Z��m��􉱄��i��Z��R��ǉ��ƈ��[��A�F��x�}k�q��X�� l��ތ��|�%��\��~��:�6��Z��*�z�� Չ��4� �'��Z�� 򉲅�i��Z��d��Ɖ��[��̀��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 19 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 107 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB05M25VLT' / PW HK Pkt; Block 05 -2.5 Voltage TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL2 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT2 = 'V ' / physical unit of field TTYPE3 = 'BPWHKB05P35VLT' / PW HK Pkt; Block 05 +3.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL3 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB05M35VLT' / PW HK Pkt; Block 05 -3.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL4 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB05P50VLT' / PW HK Pkt; Block 05 +5.0 Digital Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL5 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB05P75VLT' / PW HK Pkt; Block 05 +7.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL6 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB05M75VLT' / PW HK Pkt; Block 05 -7.5 Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL7 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB05CVTTEMP' / PW HK Pkt; Block 05 DC-DC Converter Module TempTFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL8 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'BPWHKB05TEMP' / PW HK Pkt; Block 05 Temperature TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL9 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT9 = 'Celsius ' / physical unit of field TTYPE10 = 'BPWHKLHPA5TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ CC inlet TemperTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKMASK1TEMP' / PW HK Pkt; Mask Temperature (top, +Y/+Z) TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKSPARE05TMP' / PW HK Pkt; Block 05 Spare Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKB06PRITEMP' / PW HK Pkt; Block 06 SetPointTemp Primary HeaterTFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPWHKB06SECTEMP' / PW HK Pkt; Block 06 SetPointTemp 2ndary Heater TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB06SPARE0' / PW HK Pkt; Block 06 Spare 0 TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB06SPARE1' / PW HK Pkt; Block 06 Spare 1 TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB06INPUTI' / PW HK Pkt; Block 06 Input Current for DC-DC ConTFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL17 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT17 = 'A ' / physical unit of field TTYPE18 = 'BPWHKB0625GND' / PW HK Pkt; Block 06 Voltage on 2.5 Ground ReturTFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB06P25VLT' / PW HK Pkt; Block 06 +2.5 Voltage TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL19 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT19 = 'V ' / physical unit of field TTYPE20 = 'BPWHKB06M25VLT' / PW HK Pkt; Block 06 -2.5 Voltage TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL20 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT20 = 'V ' / physical unit of field TTYPE21 = 'BPWHKB06P35VLT' / PW HK Pkt; Block 06 +3.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL21 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB06M35VLT' / PW HK Pkt; Block 06 -3.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL22 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB06P50VLT' / PW HK Pkt; Block 06 +5.0 Digital Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL23 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB06P75VLT' / PW HK Pkt; Block 06 +7.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL24 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB06M75VLT' / PW HK Pkt; Block 06 -7.5 Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL25 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB06CVTTEMP' / PW HK Pkt; Block 06 DC-DC Converter Module TempTFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL26 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'BPWHKB06TEMP' / PW HK Pkt; Block 06 Temperature TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL27 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT27 = 'Celsius ' / physical unit of field TTYPE28 = 'BPWHKLHPA6TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ Cond Outlet TemTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKMASK2TEMP' / PW HK Pkt; Mask Temperature (top, -Y/+Z) TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKSPARE06TMP' / PW HK Pkt; Block 06 Spare Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKB07PRITEMP' / PW HK Pkt; Block 07 SetPointTemp Primary HeaterTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BPWHKB07SECTEMP' / PW HK Pkt; Block 07 SetPointTemp 2ndary Heater TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB07SPARE0' / PW HK Pkt; Block 07 Spare 0 TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB07SPARE1' / PW HK Pkt; Block 07 Spare 1 TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB07INPUTI' / PW HK Pkt; Block 07 Input Current for DC-DC ConTFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL35 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT35 = 'A ' / physical unit of field TTYPE36 = 'BPWHKB0725GND' / PW HK Pkt; Block 07 Voltage on 2.5 Ground ReturTFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB07P25VLT' / PW HK Pkt; Block 07 +2.5 Voltage TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL37 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT37 = 'V ' / physical unit of field TTYPE38 = 'BPWHKB07M25VLT' / PW HK Pkt; Block 07 -2.5 Voltage TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL38 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT38 = 'V ' / physical unit of field TTYPE39 = 'BPWHKB07P35VLT' / PW HK Pkt; Block 07 +3.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL39 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB07M35VLT' / PW HK Pkt; Block 07 -3.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL40 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB07P50VLT' / PW HK Pkt; Block 07 +5.0 Digital Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL41 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB07P75VLT' / PW HK Pkt; Block 07 +7.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL42 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB07M75VLT' / PW HK Pkt; Block 07 -7.5 Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL43 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB07CVTTEMP' / PW HK Pkt; Block 07 DC-DC Converter Module TempTFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL44 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'BPWHKB07TEMP' / PW HK Pkt; Block 07 Temperature TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL45 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT45 = 'Celsius ' / physical unit of field TTYPE46 = 'BPWHKLHPA7TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Evap Outlet TemTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKMASK3TEMP' / PW HK Pkt; Mask Temperature (top, -Y,-Z) TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKSPARE07TMP' / PW HK Pkt; Block 07 Spare Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKB08PRITEMP' / PW HK Pkt; Block 08 SetPointTemp Primary HeaterTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BPWHKB08SECTEMP' / PW HK Pkt; Block 08 SetPointTemp 2ndary Heater TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB08SPARE0' / PW HK Pkt; Block 08 Spare 0 TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB08SPARE1' / PW HK Pkt; Block 08 Spare 1 TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB08INPUTI' / PW HK Pkt; Block 08 Input Current for DC-DC ConTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL53 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT53 = 'A ' / physical unit of field TTYPE54 = 'BPWHKB0825GND' / PW HK Pkt; Block 08 Voltage on 2.5 Ground ReturTFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB08P25VLT' / PW HK Pkt; Block 08 +2.5 Voltage TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL55 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT55 = 'V ' / physical unit of field TTYPE56 = 'BPWHKB08M25VLT' / PW HK Pkt; Block 08 -2.5 Voltage TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL56 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT56 = 'V ' / physical unit of field TTYPE57 = 'BPWHKB08P35VLT' / PW HK Pkt; Block 08 +3.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL57 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB08M35VLT' / PW HK Pkt; Block 08 -3.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL58 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB08P50VLT' / PW HK Pkt; Block 08 +5.0 Digital Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL59 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB08P75VLT' / PW HK Pkt; Block 08 +7.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL60 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB08M75VLT' / PW HK Pkt; Block 08 -7.5 Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL61 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB08CVTTEMP' / PW HK Pkt; Block 08 DC-DC Converter Module TempTFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL62 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'BPWHKB08TEMP' / PW HK Pkt; Block 08 Temperature TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL63 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT63 = 'Celsius ' / physical unit of field TTYPE64 = 'BPWHKLHPA8TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Cond Outlet TemTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKMASK4TEMP' / PW HK Pkt; Mask Temperature (top, +Y,-Z) TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKIPPRI0TEMP' / PW HK Pkt; IP Primary LVPC TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BPWHKB09PRITEMP' / PW HK Pkt; Block 09 SetPointTemp Primary HeaterTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BPWHKB09SECTEMP' / PW HK Pkt; Block 09 SetPointTemp 2ndary Heater TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB09SPARE0' / PW HK Pkt; Block 09 Spare 0 TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB09SPARE1' / PW HK Pkt; Block 09 Spare 1 TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB09INPUTI' / PW HK Pkt; Block 09 Input Current for DC-DC ConTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL71 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT71 = 'A ' / physical unit of field TTYPE72 = 'BPWHKB0925GND' / PW HK Pkt; Block 09 Voltage on 2.5 Ground ReturTFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB09P25VLT' / PW HK Pkt; Block 09 +2.5 Voltage TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL73 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT73 = 'V ' / physical unit of field TTYPE74 = 'BPWHKB09M25VLT' / PW HK Pkt; Block 09 -2.5 Voltage TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL74 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT74 = 'V ' / physical unit of field TTYPE75 = 'BPWHKB09P35VLT' / PW HK Pkt; Block 09 +3.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL75 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB09M35VLT' / PW HK Pkt; Block 09 -3.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL76 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB09P50VLT' / PW HK Pkt; Block 09 +5.0 Digital Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL77 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB09P75VLT' / PW HK Pkt; Block 09 +7.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL78 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB09M75VLT' / PW HK Pkt; Block 09 -7.5 Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL79 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB09CVTTEMP' / PW HK Pkt; Block 09 DC-DC Converter Module TempTFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL80 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'BPWHKB09TEMP' / PW HK Pkt; Block 09 Temperature TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL81 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT81 = 'Celsius ' / physical unit of field TTYPE82 = 'BPWHKLHPA9TEMP' / PW HK Pkt; LHP 0 (+Y) Block/DM Temperature (A9)TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKPLATE0TEMP' / PW HK Pkt; DAP Temperature (top, +Y/+Z) TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKIPPRI1TEMP' / PW HK Pkt; IP Primary LVPC TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BPWHKB10PRITEMP' / PW HK Pkt; Block 10 SetPointTemp Primary HeaterTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWHKB10SECTEMP' / PW HK Pkt; Block 10 SetPointTemp 2ndary Heater TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKB10SPARE0' / PW HK Pkt; Block 10 Spare 0 TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB10SPARE1' / PW HK Pkt; Block 10 Spare 1 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB10INPUTI' / PW HK Pkt; Block 10 Input Current for DC-DC ConTFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL89 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT89 = 'A ' / physical unit of field TTYPE90 = 'BPWHKB1025GND' / PW HK Pkt; Block 10 Voltage on 2.5 Ground ReturTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB10P25VLT' / PW HK Pkt; Block 10 +2.5 Voltage TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL91 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT91 = 'V ' / physical unit of field TTYPE92 = 'BPWHKB10M25VLT' / PW HK Pkt; Block 10 -2.5 Voltage TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL92 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT92 = 'V ' / physical unit of field TTYPE93 = 'BPWHKB10P35VLT' / PW HK Pkt; Block 10 +3.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL93 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB10M35VLT' / PW HK Pkt; Block 10 -3.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL94 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB10P50VLT' / PW HK Pkt; Block 10 +5.0 Digital Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL95 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB10P75VLT' / PW HK Pkt; Block 10 +7.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL96 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB10M75VLT' / PW HK Pkt; Block 10 -7.5 Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL97 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB10CVTTEMP' / PW HK Pkt; Block 10 DC-DC Converter Module TempTFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL98 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'BPWHKB10TEMP' / PW HK Pkt; Block 10 Temperature TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL99 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT99 = 'Celsius ' / physical unit of field TTYPE100= 'BPWHKLHPB0TEMP' / PW HK Pkt; LHP 1 (-Y) Comp Chamber (CC) TemperaTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKPLATE1TEMP' / PW HK Pkt; DAP Temperature (Block Htr ControlleTFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKIPPRI2TEMP' / PW HK Pkt; IP Primary MIC Board Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 32768 / offset for unsigned integers TTYPE103= 'BPWHKB11PRITEMP' / PW HK Pkt; Block 11 SetPointTemp Primary HeaterTFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BPWHKB11SECTEMP' / PW HK Pkt; Block 11 SetPointTemp 2ndary Heater TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 32768 / offset for unsigned integers TTYPE105= 'BPWHKB11SPARE0' / PW HK Pkt; Block 11 Spare 0 TFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB11SPARE1' / PW HK Pkt; Block 11 Spare 1 TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB11INPUTI' / PW HK Pkt; Block 11 Input Current for DC-DC ConTFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL107= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT107= 'A ' / physical unit of field EXTNAME = 'hk18dx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.94704 TSTOP = 713896242.94346 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99642002583 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 397 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'e2RSf1RSe1RSe1RS' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '649630959' / data unit checksum updated 2023-08-26T08:43:46 TRDLO2 = 2.55 / BPWHKB05M25VLT Red lower limit = B_PCB_B05_2_7VTRDHI2 = 2.84 / BPWHKB05M25VLT Red upper limit = B_PCB_B05_2_7VTYELO2 = 2.62 / BPWHKB05M25VLT Yellow lower limit = B_PCB_B05_2TYEHI2 = 2.78 / BPWHKB05M25VLT Yellow upper limit = B_PCB_B05_2TRDLO3 = 3.65 / BPWHKB05P35VLT Red lower limit = B_PCB_B05_3_8VTRDHI3 = 4.05 / BPWHKB05P35VLT Red upper limit = B_PCB_B05_3_8VTYELO3 = 3.73 / BPWHKB05P35VLT Yellow lower limit = B_PCB_B05_3TYEHI3 = 3.97 / BPWHKB05P35VLT Yellow upper limit = B_PCB_B05_3TRDLO4 = 3.65 / BPWHKB05M35VLT Red lower limit = B_PCB_B05_3_8VTRDHI4 = 4.05 / BPWHKB05M35VLT Red upper limit = B_PCB_B05_3_8VTYELO4 = 3.73 / BPWHKB05M35VLT Yellow lower limit = B_PCB_B05_3TYEHI4 = 3.97 / BPWHKB05M35VLT Yellow upper limit = B_PCB_B05_3TRDLO5 = 4.75 / BPWHKB05P50VLT Red lower limit = B_PCB_B05_5_0VTRDHI5 = 5.25 / BPWHKB05P50VLT Red upper limit = B_PCB_B05_5_0VTYELO5 = 4.85 / BPWHKB05P50VLT Yellow lower limit = B_PCB_B05_5TYEHI5 = 5.15 / BPWHKB05P50VLT Yellow upper limit = B_PCB_B05_5TRDLO6 = 7.12 / BPWHKB05P75VLT Red lower limit = B_PCB_B05_7_5VTRDHI6 = 7.85 / BPWHKB05P75VLT Red upper limit = B_PCB_B05_7_5VTYELO6 = 7.27 / BPWHKB05P75VLT Yellow lower limit = B_PCB_B05_7TYEHI6 = 7.72 / BPWHKB05P75VLT Yellow upper limit = B_PCB_B05_7TRDLO7 = 7.12 / BPWHKB05M75VLT Red lower limit = B_PCB_B05_7_5VTRDHI7 = 7.85 / BPWHKB05M75VLT Red upper limit = B_PCB_B05_7_5VTYELO7 = 7.27 / BPWHKB05M75VLT Yellow lower limit = B_PCB_B05_7TYEHI7 = 7.72 / BPWHKB05M75VLT Yellow upper limit = B_PCB_B05_7TRDLO8 = -20 / BPWHKB05CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI8 = 61 / BPWHKB05CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO8 = -15 / BPWHKB05CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI8 = 56 / BPWHKB05CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO9 = -15 / BPWHKB05TEMP Red lower limit = B_TBLK_05_LIM TRDHI9 = 45 / BPWHKB05TEMP Red upper limit = B_TBLK_05_LIM TYELO9 = -10 / BPWHKB05TEMP Yellow lower limit = B_TBLK_05_LIMTYEHI9 = 40 / BPWHKB05TEMP Yellow upper limit = B_TBLK_05_LIMTRDLO10 = -30 / BPWHKLHPA5TEMP Red lower limit = B_TLHP_A5_LIM TRDHI10 = 60 / BPWHKLHPA5TEMP Red upper limit = B_TLHP_A5_LIM TYELO10 = -25 / BPWHKLHPA5TEMP Yellow lower limit = B_TLHP_A5_LTYEHI10 = 55 / BPWHKLHPA5TEMP Yellow upper limit = B_TLHP_A5_LTRDLO11 = -55 / BPWHKMASK1TEMP Red lower limit = B_TMASK_1_LIM TRDHI11 = 55 / BPWHKMASK1TEMP Red upper limit = B_TMASK_1_LIM TYELO11 = -50 / BPWHKMASK1TEMP Yellow lower limit = B_TMASK_1_LTYEHI11 = 50 / BPWHKMASK1TEMP Yellow upper limit = B_TMASK_1_LTRDLO17 = -0.2 / BPWHKB06INPUTI Red lower limit = B_PCB_B06_INPITRDHI17 = 0.9 / BPWHKB06INPUTI Red upper limit = B_PCB_B06_INPITYELO17 = -0.1 / BPWHKB06INPUTI Yellow lower limit = B_PCB_B06_ITYEHI17 = 0.8 / BPWHKB06INPUTI Yellow upper limit = B_PCB_B06_ITRDLO18 = -2 / BPWHKB0625GND Red lower limit = B_PCB_B06_2_5G_TRDHI18 = 15 / BPWHKB0625GND Red upper limit = B_PCB_B06_2_5G_TYELO18 = -1 / BPWHKB0625GND Yellow lower limit = B_PCB_B06_2_TYEHI18 = 10 / BPWHKB0625GND Yellow upper limit = B_PCB_B06_2_TRDLO19 = 2.55 / BPWHKB06P25VLT Red lower limit = B_PCB_B06_2_7VTRDHI19 = 2.84 / BPWHKB06P25VLT Red upper limit = B_PCB_B06_2_7VTYELO19 = 2.62 / BPWHKB06P25VLT Yellow lower limit = B_PCB_B06_2TYEHI19 = 2.78 / BPWHKB06P25VLT Yellow upper limit = B_PCB_B06_2TRDLO20 = 2.55 / BPWHKB06M25VLT Red lower limit = B_PCB_B06_2_7VTRDHI20 = 2.84 / BPWHKB06M25VLT Red upper limit = B_PCB_B06_2_7VTYELO20 = 2.62 / BPWHKB06M25VLT Yellow lower limit = B_PCB_B06_2TYEHI20 = 2.78 / BPWHKB06M25VLT Yellow upper limit = B_PCB_B06_2TRDLO21 = 3.65 / BPWHKB06P35VLT Red lower limit = B_PCB_B06_3_8VTRDHI21 = 4.05 / BPWHKB06P35VLT Red upper limit = B_PCB_B06_3_8VTYELO21 = 3.73 / BPWHKB06P35VLT Yellow lower limit = B_PCB_B06_3TYEHI21 = 3.97 / BPWHKB06P35VLT Yellow upper limit = B_PCB_B06_3TRDLO22 = 3.65 / BPWHKB06M35VLT Red lower limit = B_PCB_B06_3_8VTRDHI22 = 4.05 / BPWHKB06M35VLT Red upper limit = B_PCB_B06_3_8VTYELO22 = 3.73 / BPWHKB06M35VLT Yellow lower limit = B_PCB_B06_3TYEHI22 = 3.97 / BPWHKB06M35VLT Yellow upper limit = B_PCB_B06_3TRDLO23 = 4.75 / BPWHKB06P50VLT Red lower limit = B_PCB_B06_5_0VTRDHI23 = 5.25 / BPWHKB06P50VLT Red upper limit = B_PCB_B06_5_0VTYELO23 = 4.85 / BPWHKB06P50VLT Yellow lower limit = B_PCB_B06_5TYEHI23 = 5.15 / BPWHKB06P50VLT Yellow upper limit = B_PCB_B06_5TRDLO24 = 7.12 / BPWHKB06P75VLT Red lower limit = B_PCB_B06_7_5VTRDHI24 = 7.85 / BPWHKB06P75VLT Red upper limit = B_PCB_B06_7_5VTYELO24 = 7.27 / BPWHKB06P75VLT Yellow lower limit = B_PCB_B06_7TYEHI24 = 7.72 / BPWHKB06P75VLT Yellow upper limit = B_PCB_B06_7TRDLO25 = 7.12 / BPWHKB06M75VLT Red lower limit = B_PCB_B06_7_5VTRDHI25 = 7.85 / BPWHKB06M75VLT Red upper limit = B_PCB_B06_7_5VTYELO25 = 7.27 / BPWHKB06M75VLT Yellow lower limit = B_PCB_B06_7TYEHI25 = 7.72 / BPWHKB06M75VLT Yellow upper limit = B_PCB_B06_7TRDLO26 = -20 / BPWHKB06CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI26 = 61 / BPWHKB06CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO26 = -15 / BPWHKB06CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI26 = 56 / BPWHKB06CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO27 = -15 / BPWHKB06TEMP Red lower limit = B_TBLK_06_LIM TRDHI27 = 45 / BPWHKB06TEMP Red upper limit = B_TBLK_06_LIM TYELO27 = -10 / BPWHKB06TEMP Yellow lower limit = B_TBLK_06_LIMTYEHI27 = 40 / BPWHKB06TEMP Yellow upper limit = B_TBLK_06_LIMTRDHI28 = 60 / BPWHKLHPA6TEMP Red upper limit = B_TLHP_A6_LIM TYEHI28 = 55 / BPWHKLHPA6TEMP Yellow upper limit = B_TLHP_A6_LTRDLO29 = -55 / BPWHKMASK2TEMP Red lower limit = B_TMASK_2_LIM TRDHI29 = 55 / BPWHKMASK2TEMP Red upper limit = B_TMASK_2_LIM TYELO29 = -50 / BPWHKMASK2TEMP Yellow lower limit = B_TMASK_2_LTYEHI29 = 50 / BPWHKMASK2TEMP Yellow upper limit = B_TMASK_2_LTRDLO35 = -0.2 / BPWHKB07INPUTI Red lower limit = B_PCB_B07_INPITRDHI35 = 0.9 / BPWHKB07INPUTI Red upper limit = B_PCB_B07_INPITYELO35 = -0.1 / BPWHKB07INPUTI Yellow lower limit = B_PCB_B07_ITYEHI35 = 0.8 / BPWHKB07INPUTI Yellow upper limit = B_PCB_B07_ITRDLO36 = -2 / BPWHKB0725GND Red lower limit = B_PCB_B07_2_5G_TRDHI36 = 15 / BPWHKB0725GND Red upper limit = B_PCB_B07_2_5G_TYELO36 = -1 / BPWHKB0725GND Yellow lower limit = B_PCB_B07_2_TYEHI36 = 10 / BPWHKB0725GND Yellow upper limit = B_PCB_B07_2_TRDLO37 = 2.55 / BPWHKB07P25VLT Red lower limit = B_PCB_B07_2_7VTRDHI37 = 2.84 / BPWHKB07P25VLT Red upper limit = B_PCB_B07_2_7VTYELO37 = 2.62 / BPWHKB07P25VLT Yellow lower limit = B_PCB_B07_2TYEHI37 = 2.78 / BPWHKB07P25VLT Yellow upper limit = B_PCB_B07_2TRDLO38 = 2.55 / BPWHKB07M25VLT Red lower limit = B_PCB_B07_2_7VTRDHI38 = 2.84 / BPWHKB07M25VLT Red upper limit = B_PCB_B07_2_7VTYELO38 = 2.62 / BPWHKB07M25VLT Yellow lower limit = B_PCB_B07_2TYEHI38 = 2.78 / BPWHKB07M25VLT Yellow upper limit = B_PCB_B07_2TRDLO39 = 3.65 / BPWHKB07P35VLT Red lower limit = B_PCB_B07_3_8VTRDHI39 = 4.05 / BPWHKB07P35VLT Red upper limit = B_PCB_B07_3_8VTYELO39 = 3.73 / BPWHKB07P35VLT Yellow lower limit = B_PCB_B07_3TYEHI39 = 3.97 / BPWHKB07P35VLT Yellow upper limit = B_PCB_B07_3TRDLO40 = 3.65 / BPWHKB07M35VLT Red lower limit = B_PCB_B07_3_8VTRDHI40 = 4.05 / BPWHKB07M35VLT Red upper limit = B_PCB_B07_3_8VTYELO40 = 3.73 / BPWHKB07M35VLT Yellow lower limit = B_PCB_B07_3TYEHI40 = 3.97 / BPWHKB07M35VLT Yellow upper limit = B_PCB_B07_3TRDLO41 = 4.75 / BPWHKB07P50VLT Red lower limit = B_PCB_B07_5_0VTRDHI41 = 5.25 / BPWHKB07P50VLT Red upper limit = B_PCB_B07_5_0VTYELO41 = 4.85 / BPWHKB07P50VLT Yellow lower limit = B_PCB_B07_5TYEHI41 = 5.15 / BPWHKB07P50VLT Yellow upper limit = B_PCB_B07_5TRDLO42 = 7.12 / BPWHKB07P75VLT Red lower limit = B_PCB_B07_7_5VTRDHI42 = 7.85 / BPWHKB07P75VLT Red upper limit = B_PCB_B07_7_5VTYELO42 = 7.27 / BPWHKB07P75VLT Yellow lower limit = B_PCB_B07_7TYEHI42 = 7.72 / BPWHKB07P75VLT Yellow upper limit = B_PCB_B07_7TRDLO43 = 7.12 / BPWHKB07M75VLT Red lower limit = B_PCB_B07_7_5VTRDHI43 = 7.85 / BPWHKB07M75VLT Red upper limit = B_PCB_B07_7_5VTYELO43 = 7.27 / BPWHKB07M75VLT Yellow lower limit = B_PCB_B07_7TYEHI43 = 7.72 / BPWHKB07M75VLT Yellow upper limit = B_PCB_B07_7TRDLO44 = -20 / BPWHKB07CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI44 = 61 / BPWHKB07CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO44 = -15 / BPWHKB07CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI44 = 56 / BPWHKB07CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO45 = -15 / BPWHKB07TEMP Red lower limit = B_TBLK_07_LIM TRDHI45 = 45 / BPWHKB07TEMP Red upper limit = B_TBLK_07_LIM TYELO45 = -10 / BPWHKB07TEMP Yellow lower limit = B_TBLK_07_LIMTYEHI45 = 40 / BPWHKB07TEMP Yellow upper limit = B_TBLK_07_LIMTRDLO46 = -30 / BPWHKLHPA7TEMP Red lower limit = B_TLHP_A7_LIM TRDHI46 = 60 / BPWHKLHPA7TEMP Red upper limit = B_TLHP_A7_LIM TYELO46 = -25 / BPWHKLHPA7TEMP Yellow lower limit = B_TLHP_A7_LTYEHI46 = 55 / BPWHKLHPA7TEMP Yellow upper limit = B_TLHP_A7_LTRDLO47 = -55 / BPWHKMASK3TEMP Red lower limit = B_TMASK_3_LIM TRDHI47 = 55 / BPWHKMASK3TEMP Red upper limit = B_TMASK_3_LIM TYELO47 = -50 / BPWHKMASK3TEMP Yellow lower limit = B_TMASK_3_LTYEHI47 = 50 / BPWHKMASK3TEMP Yellow upper limit = B_TMASK_3_LTRDLO53 = -0.2 / BPWHKB08INPUTI Red lower limit = B_PCB_B08_INPITRDHI53 = 0.9 / BPWHKB08INPUTI Red upper limit = B_PCB_B08_INPITYELO53 = -0.1 / BPWHKB08INPUTI Yellow lower limit = B_PCB_B08_ITYEHI53 = 0.8 / BPWHKB08INPUTI Yellow upper limit = B_PCB_B08_ITRDLO54 = -2 / BPWHKB0825GND Red lower limit = B_PCB_B08_2_5G_TRDHI54 = 15 / BPWHKB0825GND Red upper limit = B_PCB_B08_2_5G_TYELO54 = -1 / BPWHKB0825GND Yellow lower limit = B_PCB_B08_2_TYEHI54 = 10 / BPWHKB0825GND Yellow upper limit = B_PCB_B08_2_TRDLO55 = 2.55 / BPWHKB08P25VLT Red lower limit = B_PCB_B08_2_7VTRDHI55 = 2.84 / BPWHKB08P25VLT Red upper limit = B_PCB_B08_2_7VTYELO55 = 2.62 / BPWHKB08P25VLT Yellow lower limit = B_PCB_B08_2TYEHI55 = 2.78 / BPWHKB08P25VLT Yellow upper limit = B_PCB_B08_2TRDLO56 = 2.55 / BPWHKB08M25VLT Red lower limit = B_PCB_B08_2_7VTRDHI56 = 2.84 / BPWHKB08M25VLT Red upper limit = B_PCB_B08_2_7VTYELO56 = 2.62 / BPWHKB08M25VLT Yellow lower limit = B_PCB_B08_2TYEHI56 = 2.78 / BPWHKB08M25VLT Yellow upper limit = B_PCB_B08_2TRDLO57 = 3.65 / BPWHKB08P35VLT Red lower limit = B_PCB_B08_3_8VTRDHI57 = 4.05 / BPWHKB08P35VLT Red upper limit = B_PCB_B08_3_8VTYELO57 = 3.73 / BPWHKB08P35VLT Yellow lower limit = B_PCB_B08_3TYEHI57 = 3.97 / BPWHKB08P35VLT Yellow upper limit = B_PCB_B08_3TRDLO58 = 3.65 / BPWHKB08M35VLT Red lower limit = B_PCB_B08_3_8VTRDHI58 = 4.05 / BPWHKB08M35VLT Red upper limit = B_PCB_B08_3_8VTYELO58 = 3.73 / BPWHKB08M35VLT Yellow lower limit = B_PCB_B08_3TYEHI58 = 3.97 / BPWHKB08M35VLT Yellow upper limit = B_PCB_B08_3TRDLO59 = 4.75 / BPWHKB08P50VLT Red lower limit = B_PCB_B08_5_0VTRDHI59 = 5.25 / BPWHKB08P50VLT Red upper limit = B_PCB_B08_5_0VTYELO59 = 4.85 / BPWHKB08P50VLT Yellow lower limit = B_PCB_B08_5TYEHI59 = 5.15 / BPWHKB08P50VLT Yellow upper limit = B_PCB_B08_5TRDLO60 = 7.12 / BPWHKB08P75VLT Red lower limit = B_PCB_B08_7_5VTRDHI60 = 7.85 / BPWHKB08P75VLT Red upper limit = B_PCB_B08_7_5VTYELO60 = 7.27 / BPWHKB08P75VLT Yellow lower limit = B_PCB_B08_7TYEHI60 = 7.72 / BPWHKB08P75VLT Yellow upper limit = B_PCB_B08_7TRDLO61 = 7.12 / BPWHKB08M75VLT Red lower limit = B_PCB_B08_7_5VTRDHI61 = 7.85 / BPWHKB08M75VLT Red upper limit = B_PCB_B08_7_5VTYELO61 = 7.27 / BPWHKB08M75VLT Yellow lower limit = B_PCB_B08_7TYEHI61 = 7.72 / BPWHKB08M75VLT Yellow upper limit = B_PCB_B08_7TRDLO62 = -20 / BPWHKB08CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI62 = 61 / BPWHKB08CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO62 = -15 / BPWHKB08CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI62 = 56 / BPWHKB08CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO63 = -15 / BPWHKB08TEMP Red lower limit = B_TBLK_08_LIM TRDHI63 = 45 / BPWHKB08TEMP Red upper limit = B_TBLK_08_LIM TYELO63 = -10 / BPWHKB08TEMP Yellow lower limit = B_TBLK_08_LIMTYEHI63 = 40 / BPWHKB08TEMP Yellow upper limit = B_TBLK_08_LIMTRDHI64 = 60 / BPWHKLHPA8TEMP Red upper limit = B_TLHP_A8_LIM TYEHI64 = 55 / BPWHKLHPA8TEMP Yellow upper limit = B_TLHP_A8_LTRDLO65 = -55 / BPWHKMASK4TEMP Red lower limit = B_TMASK_4_LIM TRDHI65 = 55 / BPWHKMASK4TEMP Red upper limit = B_TMASK_4_LIM TYELO65 = -50 / BPWHKMASK4TEMP Yellow lower limit = B_TMASK_4_LTYEHI65 = 50 / BPWHKMASK4TEMP Yellow upper limit = B_TMASK_4_LTRDLO71 = -0.2 / BPWHKB09INPUTI Red lower limit = B_PCB_B09_INPITRDHI71 = 0.9 / BPWHKB09INPUTI Red upper limit = B_PCB_B09_INPITYELO71 = -0.1 / BPWHKB09INPUTI Yellow lower limit = B_PCB_B09_ITYEHI71 = 0.8 / BPWHKB09INPUTI Yellow upper limit = B_PCB_B09_ITRDLO72 = -2 / BPWHKB0925GND Red lower limit = B_PCB_B09_2_5G_TRDHI72 = 15 / BPWHKB0925GND Red upper limit = B_PCB_B09_2_5G_TYELO72 = -1 / BPWHKB0925GND Yellow lower limit = B_PCB_B09_2_TYEHI72 = 10 / BPWHKB0925GND Yellow upper limit = B_PCB_B09_2_TRDLO73 = 2.55 / BPWHKB09P25VLT Red lower limit = B_PCB_B09_2_7VTRDHI73 = 2.84 / BPWHKB09P25VLT Red upper limit = B_PCB_B09_2_7VTYELO73 = 2.62 / BPWHKB09P25VLT Yellow lower limit = B_PCB_B09_2TYEHI73 = 2.78 / BPWHKB09P25VLT Yellow upper limit = B_PCB_B09_2TRDLO74 = 2.55 / BPWHKB09M25VLT Red lower limit = B_PCB_B09_2_7VTRDHI74 = 2.84 / BPWHKB09M25VLT Red upper limit = B_PCB_B09_2_7VTYELO74 = 2.62 / BPWHKB09M25VLT Yellow lower limit = B_PCB_B09_2TYEHI74 = 2.78 / BPWHKB09M25VLT Yellow upper limit = B_PCB_B09_2TRDLO75 = 3.65 / BPWHKB09P35VLT Red lower limit = B_PCB_B09_3_8VTRDHI75 = 4.05 / BPWHKB09P35VLT Red upper limit = B_PCB_B09_3_8VTYELO75 = 3.73 / BPWHKB09P35VLT Yellow lower limit = B_PCB_B09_3TYEHI75 = 3.97 / BPWHKB09P35VLT Yellow upper limit = B_PCB_B09_3TRDLO76 = 3.65 / BPWHKB09M35VLT Red lower limit = B_PCB_B09_3_8VTRDHI76 = 4.05 / BPWHKB09M35VLT Red upper limit = B_PCB_B09_3_8VTYELO76 = 3.73 / BPWHKB09M35VLT Yellow lower limit = B_PCB_B09_3TYEHI76 = 3.97 / BPWHKB09M35VLT Yellow upper limit = B_PCB_B09_3TRDLO77 = 4.75 / BPWHKB09P50VLT Red lower limit = B_PCB_B09_5_0VTRDHI77 = 5.25 / BPWHKB09P50VLT Red upper limit = B_PCB_B09_5_0VTYELO77 = 4.85 / BPWHKB09P50VLT Yellow lower limit = B_PCB_B09_5TYEHI77 = 5.15 / BPWHKB09P50VLT Yellow upper limit = B_PCB_B09_5TRDLO78 = 7.12 / BPWHKB09P75VLT Red lower limit = B_PCB_B09_7_5VTRDHI78 = 7.85 / BPWHKB09P75VLT Red upper limit = B_PCB_B09_7_5VTYELO78 = 7.27 / BPWHKB09P75VLT Yellow lower limit = B_PCB_B09_7TYEHI78 = 7.72 / BPWHKB09P75VLT Yellow upper limit = B_PCB_B09_7TRDLO79 = 7.12 / BPWHKB09M75VLT Red lower limit = B_PCB_B09_7_5VTRDHI79 = 7.85 / BPWHKB09M75VLT Red upper limit = B_PCB_B09_7_5VTYELO79 = 7.27 / BPWHKB09M75VLT Yellow lower limit = B_PCB_B09_7TYEHI79 = 7.72 / BPWHKB09M75VLT Yellow upper limit = B_PCB_B09_7TRDLO80 = -20 / BPWHKB09CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI80 = 61 / BPWHKB09CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO80 = -15 / BPWHKB09CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI80 = 56 / BPWHKB09CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO81 = -15 / BPWHKB09TEMP Red lower limit = B_TBLK_09_LIM TRDHI81 = 45 / BPWHKB09TEMP Red upper limit = B_TBLK_09_LIM TYELO81 = -10 / BPWHKB09TEMP Yellow lower limit = B_TBLK_09_LIMTYEHI81 = 40 / BPWHKB09TEMP Yellow upper limit = B_TBLK_09_LIMTRDLO82 = -25 / BPWHKLHPA9TEMP Red lower limit = B_TLHP_A9_LIM TRDHI82 = 40 / BPWHKLHPA9TEMP Red upper limit = B_TLHP_A9_LIM TYELO82 = -20 / BPWHKLHPA9TEMP Yellow lower limit = B_TLHP_A9_LTYEHI82 = 35 / BPWHKLHPA9TEMP Yellow upper limit = B_TLHP_A9_LTRDLO83 = -20 / BPWHKPLATE0TEMP Red lower limit = B_TPLATE_0_LITRDHI83 = 40 / BPWHKPLATE0TEMP Red upper limit = B_TPLATE_0_LITYELO83 = -15 / BPWHKPLATE0TEMP Yellow lower limit = B_TPLATE_0TYEHI83 = 35 / BPWHKPLATE0TEMP Yellow upper limit = B_TPLATE_0TRDLO89 = -0.2 / BPWHKB10INPUTI Red lower limit = B_PCB_B10_INPITRDHI89 = 0.9 / BPWHKB10INPUTI Red upper limit = B_PCB_B10_INPITYELO89 = -0.1 / BPWHKB10INPUTI Yellow lower limit = B_PCB_B10_ITYEHI89 = 0.8 / BPWHKB10INPUTI Yellow upper limit = B_PCB_B10_ITRDLO90 = -2 / BPWHKB1025GND Red lower limit = B_PCB_B10_2_5G_TRDHI90 = 15 / BPWHKB1025GND Red upper limit = B_PCB_B10_2_5G_TYELO90 = -1 / BPWHKB1025GND Yellow lower limit = B_PCB_B10_2_TYEHI90 = 10 / BPWHKB1025GND Yellow upper limit = B_PCB_B10_2_TRDLO91 = 2.55 / BPWHKB10P25VLT Red lower limit = B_PCB_B10_2_7VTRDHI91 = 2.84 / BPWHKB10P25VLT Red upper limit = B_PCB_B10_2_7VTYELO91 = 2.62 / BPWHKB10P25VLT Yellow lower limit = B_PCB_B10_2TYEHI91 = 2.78 / BPWHKB10P25VLT Yellow upper limit = B_PCB_B10_2TRDLO92 = 2.55 / BPWHKB10M25VLT Red lower limit = B_PCB_B10_2_7VTRDHI92 = 2.84 / BPWHKB10M25VLT Red upper limit = B_PCB_B10_2_7VTYELO92 = 2.62 / BPWHKB10M25VLT Yellow lower limit = B_PCB_B10_2TYEHI92 = 2.78 / BPWHKB10M25VLT Yellow upper limit = B_PCB_B10_2TRDLO93 = 3.65 / BPWHKB10P35VLT Red lower limit = B_PCB_B10_3_8VTRDHI93 = 4.05 / BPWHKB10P35VLT Red upper limit = B_PCB_B10_3_8VTYELO93 = 3.73 / BPWHKB10P35VLT Yellow lower limit = B_PCB_B10_3TYEHI93 = 3.97 / BPWHKB10P35VLT Yellow upper limit = B_PCB_B10_3TRDLO94 = 3.65 / BPWHKB10M35VLT Red lower limit = B_PCB_B10_3_8VTRDHI94 = 4.05 / BPWHKB10M35VLT Red upper limit = B_PCB_B10_3_8VTYELO94 = 3.73 / BPWHKB10M35VLT Yellow lower limit = B_PCB_B10_3TYEHI94 = 3.97 / BPWHKB10M35VLT Yellow upper limit = B_PCB_B10_3TRDLO95 = 4.75 / BPWHKB10P50VLT Red lower limit = B_PCB_B10_5_0VTRDHI95 = 5.25 / BPWHKB10P50VLT Red upper limit = B_PCB_B10_5_0VTYELO95 = 4.85 / BPWHKB10P50VLT Yellow lower limit = B_PCB_B10_5TYEHI95 = 5.15 / BPWHKB10P50VLT Yellow upper limit = B_PCB_B10_5TRDLO96 = 7.12 / BPWHKB10P75VLT Red lower limit = B_PCB_B10_7_5VTRDHI96 = 7.85 / BPWHKB10P75VLT Red upper limit = B_PCB_B10_7_5VTYELO96 = 7.27 / BPWHKB10P75VLT Yellow lower limit = B_PCB_B10_7TYEHI96 = 7.72 / BPWHKB10P75VLT Yellow upper limit = B_PCB_B10_7TRDLO97 = 7.12 / BPWHKB10M75VLT Red lower limit = B_PCB_B10_7_5VTRDHI97 = 7.85 / BPWHKB10M75VLT Red upper limit = B_PCB_B10_7_5VTYELO97 = 7.27 / BPWHKB10M75VLT Yellow lower limit = B_PCB_B10_7TYEHI97 = 7.72 / BPWHKB10M75VLT Yellow upper limit = B_PCB_B10_7TRDLO98 = -20 / BPWHKB10CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI98 = 61 / BPWHKB10CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO98 = -15 / BPWHKB10CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI98 = 56 / BPWHKB10CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO99 = -15 / BPWHKB10TEMP Red lower limit = B_TBLK_10_LIM TRDHI99 = 45 / BPWHKB10TEMP Red upper limit = B_TBLK_10_LIM TYELO99 = -10 / BPWHKB10TEMP Yellow lower limit = B_TBLK_10_LIMTYEHI99 = 40 / BPWHKB10TEMP Yellow upper limit = B_TBLK_10_LIMTRDLO101= -25 / BPWHKPLATE1TEMP Red lower limit = B_TPLATE_1_LITRDHI101= 40 / BPWHKPLATE1TEMP Red upper limit = B_TPLATE_1_LITYELO101= -20 / BPWHKPLATE1TEMP Yellow lower limit = B_TPLATE_1TYEHI101= 35 / BPWHKPLATE1TEMP Yellow upper limit = B_TPLATE_1TRDLO107= -0.2 / BPWHKB11INPUTI Red lower limit = B_PCB_B11_INPITRDHI107= 0.9 / BPWHKB11INPUTI Red upper limit = B_PCB_B11_INPITYELO107= -0.1 / BPWHKB11INPUTI Yellow lower limit = B_PCB_B11_ITYEHI107= 0.8 / BPWHKB11INPUTI Yellow upper limit = B_PCB_B11_IHISTORY TASK: FAPPND on FILENAME: sw01185673000b18dx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ay8��%�y��ٍ�'��L�{��Y��&��W��َ��+��g�W��X��)��b�t��Y��ڌ��l�/�バ�Y��߀��!��{�6��X��A�F��y�Վ ��ڍ�)� ��K�{��\��ʀ��)�� Z��؀�܎ ��!�)��m�W��X��*��a�u��[��ŀ��ڌ��Éo�1�僒�\��"��}�9��[��A�F��x�X�*�z��ۍ�(��|��Z��^��)��Y��h��ڎ�� '��X��Z��j�� +��X�s��Y��ڌ��Éo�.�僐�Y��b��!��}�;��Y��mA�F�y�̎%�}��ۍ�)��z��[�� (��Y��֎��"�#��X��Y��&��Z�u��Z��ٌ��Ém�.�僐�Z��i��֎/�� "��|�=��Z��A�F�Qy)�� ڍ�)��8�|��\��(��!��Z��ڎ ��!�#��Y��Z��À��*��T�u��Z��،��Ém�0�䃑�\�� ~�=��[��A�F��x�M�(�z��؍�'��G�}��Z��ʀ��&��'��X�� Y��Y��܎�� +��?�r��X��ˀ�ڎ��ٌ��Éo�/�バ�Z��ǀ��!��|�8��X��A�F��y��%�y��؍�%��$�}��[��%� ��-��X��Ӏ�׎ �� W��Y��)��-�r��Z��ݎ��׌��ĉn�-�⃒�[��׀�� |�4��Z��A�F�xѷ�%�|��ٍ�(��}��[��(� ��0��Z��Ԏ��"��X��Z��*��u��Z��ٌ��m�,�⃒�[��׎,�� "��}�0��Z��A�F�A|��$�y��؍�%��Z��'��2��Y��֎ ��Y��Y��*�􉼅�t��Y��ގ��،��Én�0�ბ�Z�� |�*��Z��A�F�}xզ�!��؍�(�󉶇��~��Y��'��4��X��֎ ��Y��Y��*��u��Y��ݎ��،�� Ém�-�߃��Y�� |�#��X��A�F��yc�(�z��ڍ�(��"�|��Z�� '��:��Y��֎��!��V��Y��+���t��Y��ٌ��k�*�ރ��Z�� !��|��Y�� A�F��y��u��ӌ��!�퉶�5�~��[��+��&��=��Y��ێ��X��Y��)� ��!��2�뉽�̈v��Z��7��َ��،��n�/�݃��Z�� }��Z��A�F�1yHV��u��Ҍ��!�뉷��}��[��)��'��<��Y��"��ێ��X��Y��2� �� 2�艾��t��Z��َ��׌��ĉn�-�݃��[�� |��Z��A�F�mx�C�+��ݍ �+�ꉷ�͈~��[��B��'��9��Z��ώ�� X��Z��*�鉾��s��X��;��֌��Él�+�ۃ��[�� {� ��Z��A�F��zMӎ#�|��ڍ�&�扷��~��[��E��&��8��Z��5��Վ�� X��Z��4��)�剼��t��Z��ߎ��׌��Ém�.�ك��[��"��z��Z��%A�F��y%�!��ڍ�(�㉴�ψ}��[��L��(��5��Z��@��Վ�� W��Y��R��-�ቻ�q�t��Z��A��ٌ��Én�-�؃��Z��U��"�򉼀��z��Z��%A�F�!y�&�#�~��׍�'�ቴ��~��Y��2��&�󉳄2��W��N��Ԏ ��V��Y��J��*��[�t�􃑄Y��Q��ݎ��،��ĉm�+�փ��Y��\�� z�􃑄X��GA�F�]y�C�%�|��ٍ�(�ቴ��}��[��z��(��1��[��H��֎��!��X��Y��h��+��H�t�򃒄Z��D��،��Él�-�Ճ��\��T��#�񉽀��y��[��RA�F��x�L�&�z��؍�'�މ��~��[��(��,��Z��}��!��V��Z��*�މ��3�t�񃑄Y��܎��،��Ém�,�Ӄ��[��I��"��x�胑�Z��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 19 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 87 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB1125GND' / PW HK Pkt; Block 11 Voltage on 2.5 Ground ReturTFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKB11P25VLT' / PW HK Pkt; Block 11 +2.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL3 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB11M25VLT' / PW HK Pkt; Block 11 -2.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL4 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB11P35VLT' / PW HK Pkt; Block 11 +3.5 Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL5 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB11M35VLT' / PW HK Pkt; Block 11 -3.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL6 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB11P50VLT' / PW HK Pkt; Block 11 +5.0 Digital Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL7 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB11P75VLT' / PW HK Pkt; Block 11 +7.5 Voltage TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL8 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT8 = 'V ' / physical unit of field TTYPE9 = 'BPWHKB11M75VLT' / PW HK Pkt; Block 11 -7.5 Voltage TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL9 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'BPWHKB11CVTTEMP' / PW HK Pkt; Block 11 DC-DC Converter Module TempTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKB11TEMP' / PW HK Pkt; Block 11 Temperature TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKLHPB1TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKRADTEMP' / PW HK Pkt; Radiator Temperature (back, +Y,-X) TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL13 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT13 = 'Celsius ' / physical unit of field TTYPE14 = 'BPWHKIPPRI3TEMP' / PW HK Pkt; IP Primary DSP Board Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB12PRITEMP' / PW HK Pkt; Block 12 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB12SECTEMP' / PW HK Pkt; Block 12 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB12SPARE0' / PW HK Pkt; Block 12 Spare 0 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB12SPARE1' / PW HK Pkt; Block 12 Spare 1 TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB12INPUTI' / PW HK Pkt; Block 12 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB1225GND' / PW HK Pkt; Block 12 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB12P25VLT' / PW HK Pkt; Block 12 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB12M25VLT' / PW HK Pkt; Block 12 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB12P35VLT' / PW HK Pkt; Block 12 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB12M35VLT' / PW HK Pkt; Block 12 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB12P50VLT' / PW HK Pkt; Block 12 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB12P75VLT' / PW HK Pkt; Block 12 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB12M75VLT' / PW HK Pkt; Block 12 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB12CVTTEMP' / PW HK Pkt; Block 12 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB12TEMP' / PW HK Pkt; Block 12 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPB2TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKTSFRONTEMP' / PW HK Pkt; Front Tagged Source Temperature TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKIPRED0TEMP' / PW HK Pkt; IP Redundant LVPC TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB13PRITEMP' / PW HK Pkt; Block 13 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB13SECTEMP' / PW HK Pkt; Block 13 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB13SPARE0' / PW HK Pkt; Block 13 Spare 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB13SPARE1' / PW HK Pkt; Block 13 Spare 1 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB13INPUTI' / PW HK Pkt; Block 13 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB1325GND' / PW HK Pkt; Block 13 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB13P25VLT' / PW HK Pkt; Block 13 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB13M25VLT' / PW HK Pkt; Block 13 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB13P35VLT' / PW HK Pkt; Block 13 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB13M35VLT' / PW HK Pkt; Block 13 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB13P50VLT' / PW HK Pkt; Block 13 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB13P75VLT' / PW HK Pkt; Block 13 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB13M75VLT' / PW HK Pkt; Block 13 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB13CVTTEMP' / PW HK Pkt; Block 13 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB13TEMP' / PW HK Pkt; Block 13 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPB3TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, -XTFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKTSREARTEMP' / PW HK Pkt; Rear Tagged Source Temperature TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKIPRED1TEMP' / PW HK Pkt; IP Redundant LVPC TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB14PRITEMP' / PW HK Pkt; Block 14 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB14SECTEMP' / PW HK Pkt; Block 14 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB14SPARE0' / PW HK Pkt; Block 14 Spare 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB14SPARE1' / PW HK Pkt; Block 14 Spare 1 TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB14INPUTI' / PW HK Pkt; Block 14 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB1425GND' / PW HK Pkt; Block 14 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB14P25VLT' / PW HK Pkt; Block 14 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB14M25VLT' / PW HK Pkt; Block 14 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB14P35VLT' / PW HK Pkt; Block 14 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB14M35VLT' / PW HK Pkt; Block 14 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB14P50VLT' / PW HK Pkt; Block 14 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB14P75VLT' / PW HK Pkt; Block 14 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB14M75VLT' / PW HK Pkt; Block 14 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB14CVTTEMP' / PW HK Pkt; Block 14 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB14TEMP' / PW HK Pkt; Block 14 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPB4TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, +XTFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKSPARE14TMP' / PW HK Pkt; Block 14 Spare Temperature TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKIPRED2TEMP' / PW HK Pkt; IP Redundant MIC Board Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB15PRITEMP' / PW HK Pkt; Block 15 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB15SECTEMP' / PW HK Pkt; Block 15 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB15SPARE0' / PW HK Pkt; Block 15 Spare 0 TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB15SPARE1' / PW HK Pkt; Block 15 Spare 1 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB15INPUTI' / PW HK Pkt; Block 15 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB1525GND' / PW HK Pkt; Block 15 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB15P25VLT' / PW HK Pkt; Block 15 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB15M25VLT' / PW HK Pkt; Block 15 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB15P35VLT' / PW HK Pkt; Block 15 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB15M35VLT' / PW HK Pkt; Block 15 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB15P50VLT' / PW HK Pkt; Block 15 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB15P75VLT' / PW HK Pkt; Block 15 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB15M75VLT' / PW HK Pkt; Block 15 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB15CVTTEMP' / PW HK Pkt; Block 15 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB15TEMP' / PW HK Pkt; Block 15 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPB5TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ CC Inlet TemperTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKSPARE15TMP' / PW HK Pkt; Block 15 Spare Temperature TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKIPRED3TEMP' / PW HK Pkt; IP Redundant DSP Board Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKADCXSUM' / PW HK Power Box Packet CheckSum, not CCSDS XSumTFORM87 = '1B ' / data format of field: BYTE EXTNAME = 'hk18ex001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894082.9485 TSTOP = 713896242.94492 DATE-OBS= '2023-08-16T15:54:37' DATE-END= '2023-08-16T16:30:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.99641990662 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 398 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '7hScAeSb9eSbAeSb' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2831296790' / data unit checksum updated 2023-08-26T08:43:46 TRDLO2 = -2 / BPWHKB1125GND Red lower limit = B_PCB_B11_2_5G_TRDHI2 = 15 / BPWHKB1125GND Red upper limit = B_PCB_B11_2_5G_TYELO2 = -1 / BPWHKB1125GND Yellow lower limit = B_PCB_B11_2_TYEHI2 = 10 / BPWHKB1125GND Yellow upper limit = B_PCB_B11_2_TRDLO3 = 2.55 / BPWHKB11P25VLT Red lower limit = B_PCB_B11_2_7VTRDHI3 = 2.84 / BPWHKB11P25VLT Red upper limit = B_PCB_B11_2_7VTYELO3 = 2.62 / BPWHKB11P25VLT Yellow lower limit = B_PCB_B11_2TYEHI3 = 2.78 / BPWHKB11P25VLT Yellow upper limit = B_PCB_B11_2TRDLO4 = 2.55 / BPWHKB11M25VLT Red lower limit = B_PCB_B11_2_7VTRDHI4 = 2.84 / BPWHKB11M25VLT Red upper limit = B_PCB_B11_2_7VTYELO4 = 2.62 / BPWHKB11M25VLT Yellow lower limit = B_PCB_B11_2TYEHI4 = 2.78 / BPWHKB11M25VLT Yellow upper limit = B_PCB_B11_2TRDLO5 = 3.65 / BPWHKB11P35VLT Red lower limit = B_PCB_B11_3_8VTRDHI5 = 4.05 / BPWHKB11P35VLT Red upper limit = B_PCB_B11_3_8VTYELO5 = 3.73 / BPWHKB11P35VLT Yellow lower limit = B_PCB_B11_3TYEHI5 = 3.97 / BPWHKB11P35VLT Yellow upper limit = B_PCB_B11_3TRDLO6 = 3.65 / BPWHKB11M35VLT Red lower limit = B_PCB_B11_3_8VTRDHI6 = 4.05 / BPWHKB11M35VLT Red upper limit = B_PCB_B11_3_8VTYELO6 = 3.73 / BPWHKB11M35VLT Yellow lower limit = B_PCB_B11_3TYEHI6 = 3.97 / BPWHKB11M35VLT Yellow upper limit = B_PCB_B11_3TRDLO7 = 4.75 / BPWHKB11P50VLT Red lower limit = B_PCB_B11_5_0VTRDHI7 = 5.25 / BPWHKB11P50VLT Red upper limit = B_PCB_B11_5_0VTYELO7 = 4.85 / BPWHKB11P50VLT Yellow lower limit = B_PCB_B11_5TYEHI7 = 5.15 / BPWHKB11P50VLT Yellow upper limit = B_PCB_B11_5TRDLO8 = 7.12 / BPWHKB11P75VLT Red lower limit = B_PCB_B11_7_5VTRDHI8 = 7.85 / BPWHKB11P75VLT Red upper limit = B_PCB_B11_7_5VTYELO8 = 7.27 / BPWHKB11P75VLT Yellow lower limit = B_PCB_B11_7TYEHI8 = 7.72 / BPWHKB11P75VLT Yellow upper limit = B_PCB_B11_7TRDLO9 = 7.12 / BPWHKB11M75VLT Red lower limit = B_PCB_B11_7_5VTRDHI9 = 7.85 / BPWHKB11M75VLT Red upper limit = B_PCB_B11_7_5VTYELO9 = 7.27 / BPWHKB11M75VLT Yellow lower limit = B_PCB_B11_7TYEHI9 = 7.72 / BPWHKB11M75VLT Yellow upper limit = B_PCB_B11_7TRDLO10 = -20 / BPWHKB11CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI10 = 61 / BPWHKB11CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO10 = -15 / BPWHKB11CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI10 = 56 / BPWHKB11CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO11 = -15 / BPWHKB11TEMP Red lower limit = B_TBLK_11_LIM TRDHI11 = 45 / BPWHKB11TEMP Red upper limit = B_TBLK_11_LIM TYELO11 = -10 / BPWHKB11TEMP Yellow lower limit = B_TBLK_11_LIMTYEHI11 = 40 / BPWHKB11TEMP Yellow upper limit = B_TBLK_11_LIMTRDLO12 = -30 / BPWHKLHPB1TEMP Red lower limit = B_TLHP_B1_LIM TRDHI12 = 60 / BPWHKLHPB1TEMP Red upper limit = B_TLHP_B1_LIM TYELO12 = -25 / BPWHKLHPB1TEMP Yellow lower limit = B_TLHP_B1_LTYEHI12 = 55 / BPWHKLHPB1TEMP Yellow upper limit = B_TLHP_B1_LTRDHI13 = 60 / BPWHKRADTEMP Red upper limit = B_TRAD_LIM TYEHI13 = 55 / BPWHKRADTEMP Yellow upper limit = B_TRAD_LIM TRDLO19 = -0.2 / BPWHKB12INPUTI Red lower limit = B_PCB_B12_INPITRDHI19 = 0.9 / BPWHKB12INPUTI Red upper limit = B_PCB_B12_INPITYELO19 = -0.1 / BPWHKB12INPUTI Yellow lower limit = B_PCB_B12_ITYEHI19 = 0.8 / BPWHKB12INPUTI Yellow upper limit = B_PCB_B12_ITRDLO20 = -2 / BPWHKB1225GND Red lower limit = B_PCB_B12_2_5G_TRDHI20 = 15 / BPWHKB1225GND Red upper limit = B_PCB_B12_2_5G_TYELO20 = -1 / BPWHKB1225GND Yellow lower limit = B_PCB_B12_2_TYEHI20 = 10 / BPWHKB1225GND Yellow upper limit = B_PCB_B12_2_TRDLO21 = 2.55 / BPWHKB12P25VLT Red lower limit = B_PCB_B12_2_7VTRDHI21 = 2.84 / BPWHKB12P25VLT Red upper limit = B_PCB_B12_2_7VTYELO21 = 2.62 / BPWHKB12P25VLT Yellow lower limit = B_PCB_B12_2TYEHI21 = 2.78 / BPWHKB12P25VLT Yellow upper limit = B_PCB_B12_2TRDLO22 = 2.55 / BPWHKB12M25VLT Red lower limit = B_PCB_B12_2_7VTRDHI22 = 2.84 / BPWHKB12M25VLT Red upper limit = B_PCB_B12_2_7VTYELO22 = 2.62 / BPWHKB12M25VLT Yellow lower limit = B_PCB_B12_2TYEHI22 = 2.78 / BPWHKB12M25VLT Yellow upper limit = B_PCB_B12_2TRDLO23 = 3.65 / BPWHKB12P35VLT Red lower limit = B_PCB_B12_3_8VTRDHI23 = 4.05 / BPWHKB12P35VLT Red upper limit = B_PCB_B12_3_8VTYELO23 = 3.73 / BPWHKB12P35VLT Yellow lower limit = B_PCB_B12_3TYEHI23 = 3.97 / BPWHKB12P35VLT Yellow upper limit = B_PCB_B12_3TRDLO24 = 3.65 / BPWHKB12M35VLT Red lower limit = B_PCB_B12_3_8VTRDHI24 = 4.05 / BPWHKB12M35VLT Red upper limit = B_PCB_B12_3_8VTYELO24 = 3.73 / BPWHKB12M35VLT Yellow lower limit = B_PCB_B12_3TYEHI24 = 3.97 / BPWHKB12M35VLT Yellow upper limit = B_PCB_B12_3TRDLO25 = 4.75 / BPWHKB12P50VLT Red lower limit = B_PCB_B12_5_0VTRDHI25 = 5.25 / BPWHKB12P50VLT Red upper limit = B_PCB_B12_5_0VTYELO25 = 4.85 / BPWHKB12P50VLT Yellow lower limit = B_PCB_B12_5TYEHI25 = 5.15 / BPWHKB12P50VLT Yellow upper limit = B_PCB_B12_5TRDLO26 = 7.12 / BPWHKB12P75VLT Red lower limit = B_PCB_B12_7_5VTRDHI26 = 7.85 / BPWHKB12P75VLT Red upper limit = B_PCB_B12_7_5VTYELO26 = 7.27 / BPWHKB12P75VLT Yellow lower limit = B_PCB_B12_7TYEHI26 = 7.72 / BPWHKB12P75VLT Yellow upper limit = B_PCB_B12_7TRDLO27 = 7.12 / BPWHKB12M75VLT Red lower limit = B_PCB_B12_7_5VTRDHI27 = 7.85 / BPWHKB12M75VLT Red upper limit = B_PCB_B12_7_5VTYELO27 = 7.27 / BPWHKB12M75VLT Yellow lower limit = B_PCB_B12_7TYEHI27 = 7.72 / BPWHKB12M75VLT Yellow upper limit = B_PCB_B12_7TRDLO28 = -20 / BPWHKB12CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB12CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB12CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB12CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB12TEMP Red lower limit = B_TBLK_12_LIM TRDHI29 = 45 / BPWHKB12TEMP Red upper limit = B_TBLK_12_LIM TYELO29 = -10 / BPWHKB12TEMP Yellow lower limit = B_TBLK_12_LIMTYEHI29 = 40 / BPWHKB12TEMP Yellow upper limit = B_TBLK_12_LIMTRDLO30 = -30 / BPWHKLHPB2TEMP Red lower limit = B_TLHP_B2_LIM TRDHI30 = 60 / BPWHKLHPB2TEMP Red upper limit = B_TLHP_B2_LIM TYELO30 = -25 / BPWHKLHPB2TEMP Yellow lower limit = B_TLHP_B2_LTYEHI30 = 55 / BPWHKLHPB2TEMP Yellow upper limit = B_TLHP_B2_LTRDLO31 = -20 / BPWHKTSFRONTEMP Red lower limit = B_PCB_TAGTEMPTRDHI31 = 40 / BPWHKTSFRONTEMP Red upper limit = B_PCB_TAGTEMPTYELO31 = -15 / BPWHKTSFRONTEMP Yellow lower limit = B_PCB_TAGTTYEHI31 = 35 / BPWHKTSFRONTEMP Yellow upper limit = B_PCB_TAGTTRDLO37 = -0.2 / BPWHKB13INPUTI Red lower limit = B_PCB_B13_INPITRDHI37 = 0.9 / BPWHKB13INPUTI Red upper limit = B_PCB_B13_INPITYELO37 = -0.1 / BPWHKB13INPUTI Yellow lower limit = B_PCB_B13_ITYEHI37 = 0.8 / BPWHKB13INPUTI Yellow upper limit = B_PCB_B13_ITRDLO38 = -2 / BPWHKB1325GND Red lower limit = B_PCB_B13_2_5G_TRDHI38 = 15 / BPWHKB1325GND Red upper limit = B_PCB_B13_2_5G_TYELO38 = -1 / BPWHKB1325GND Yellow lower limit = B_PCB_B13_2_TYEHI38 = 10 / BPWHKB1325GND Yellow upper limit = B_PCB_B13_2_TRDLO39 = 2.55 / BPWHKB13P25VLT Red lower limit = B_PCB_B13_2_7VTRDHI39 = 2.84 / BPWHKB13P25VLT Red upper limit = B_PCB_B13_2_7VTYELO39 = 2.62 / BPWHKB13P25VLT Yellow lower limit = B_PCB_B13_2TYEHI39 = 2.78 / BPWHKB13P25VLT Yellow upper limit = B_PCB_B13_2TRDLO40 = 2.55 / BPWHKB13M25VLT Red lower limit = B_PCB_B13_2_7VTRDHI40 = 2.84 / BPWHKB13M25VLT Red upper limit = B_PCB_B13_2_7VTYELO40 = 2.62 / BPWHKB13M25VLT Yellow lower limit = B_PCB_B13_2TYEHI40 = 2.78 / BPWHKB13M25VLT Yellow upper limit = B_PCB_B13_2TRDLO41 = 3.65 / BPWHKB13P35VLT Red lower limit = B_PCB_B13_3_8VTRDHI41 = 4.05 / BPWHKB13P35VLT Red upper limit = B_PCB_B13_3_8VTYELO41 = 3.73 / BPWHKB13P35VLT Yellow lower limit = B_PCB_B13_3TYEHI41 = 3.97 / BPWHKB13P35VLT Yellow upper limit = B_PCB_B13_3TRDLO42 = 3.65 / BPWHKB13M35VLT Red lower limit = B_PCB_B13_3_8VTRDHI42 = 4.05 / BPWHKB13M35VLT Red upper limit = B_PCB_B13_3_8VTYELO42 = 3.73 / BPWHKB13M35VLT Yellow lower limit = B_PCB_B13_3TYEHI42 = 3.97 / BPWHKB13M35VLT Yellow upper limit = B_PCB_B13_3TRDLO43 = 4.75 / BPWHKB13P50VLT Red lower limit = B_PCB_B13_5_0VTRDHI43 = 5.25 / BPWHKB13P50VLT Red upper limit = B_PCB_B13_5_0VTYELO43 = 4.85 / BPWHKB13P50VLT Yellow lower limit = B_PCB_B13_5TYEHI43 = 5.15 / BPWHKB13P50VLT Yellow upper limit = B_PCB_B13_5TRDLO44 = 7.12 / BPWHKB13P75VLT Red lower limit = B_PCB_B13_7_5VTRDHI44 = 7.85 / BPWHKB13P75VLT Red upper limit = B_PCB_B13_7_5VTYELO44 = 7.27 / BPWHKB13P75VLT Yellow lower limit = B_PCB_B13_7TYEHI44 = 7.72 / BPWHKB13P75VLT Yellow upper limit = B_PCB_B13_7TRDLO45 = 7.12 / BPWHKB13M75VLT Red lower limit = B_PCB_B13_7_5VTRDHI45 = 7.85 / BPWHKB13M75VLT Red upper limit = B_PCB_B13_7_5VTYELO45 = 7.27 / BPWHKB13M75VLT Yellow lower limit = B_PCB_B13_7TYEHI45 = 7.72 / BPWHKB13M75VLT Yellow upper limit = B_PCB_B13_7TRDLO46 = -20 / BPWHKB13CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB13CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB13CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB13CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB13TEMP Red lower limit = B_TBLK_13_LIM TRDHI47 = 45 / BPWHKB13TEMP Red upper limit = B_TBLK_13_LIM TYELO47 = -10 / BPWHKB13TEMP Yellow lower limit = B_TBLK_13_LIMTYEHI47 = 40 / BPWHKB13TEMP Yellow upper limit = B_TBLK_13_LIMTRDHI48 = 60 / BPWHKLHPB3TEMP Red upper limit = B_TLHP_B3_LIM TYEHI48 = 55 / BPWHKLHPB3TEMP Yellow upper limit = B_TLHP_B3_LTRDLO49 = -20 / BPWHKTSREARTEMP Red lower limit = B_PCB_TAGTEMPTRDHI49 = 40 / BPWHKTSREARTEMP Red upper limit = B_PCB_TAGTEMPTYELO49 = -15 / BPWHKTSREARTEMP Yellow lower limit = B_PCB_TAGTTYEHI49 = 35 / BPWHKTSREARTEMP Yellow upper limit = B_PCB_TAGTTRDLO55 = -0.2 / BPWHKB14INPUTI Red lower limit = B_PCB_B14_INPITRDHI55 = 0.9 / BPWHKB14INPUTI Red upper limit = B_PCB_B14_INPITYELO55 = -0.1 / BPWHKB14INPUTI Yellow lower limit = B_PCB_B14_ITYEHI55 = 0.8 / BPWHKB14INPUTI Yellow upper limit = B_PCB_B14_ITRDLO56 = -2 / BPWHKB1425GND Red lower limit = B_PCB_B14_2_5G_TRDHI56 = 15 / BPWHKB1425GND Red upper limit = B_PCB_B14_2_5G_TYELO56 = -1 / BPWHKB1425GND Yellow lower limit = B_PCB_B14_2_TYEHI56 = 10 / BPWHKB1425GND Yellow upper limit = B_PCB_B14_2_TRDLO57 = 2.55 / BPWHKB14P25VLT Red lower limit = B_PCB_B14_2_7VTRDHI57 = 2.84 / BPWHKB14P25VLT Red upper limit = B_PCB_B14_2_7VTYELO57 = 2.62 / BPWHKB14P25VLT Yellow lower limit = B_PCB_B14_2TYEHI57 = 2.78 / BPWHKB14P25VLT Yellow upper limit = B_PCB_B14_2TRDLO58 = 2.55 / BPWHKB14M25VLT Red lower limit = B_PCB_B14_2_7VTRDHI58 = 2.84 / BPWHKB14M25VLT Red upper limit = B_PCB_B14_2_7VTYELO58 = 2.62 / BPWHKB14M25VLT Yellow lower limit = B_PCB_B14_2TYEHI58 = 2.78 / BPWHKB14M25VLT Yellow upper limit = B_PCB_B14_2TRDLO59 = 3.65 / BPWHKB14P35VLT Red lower limit = B_PCB_B14_3_8VTRDHI59 = 4.05 / BPWHKB14P35VLT Red upper limit = B_PCB_B14_3_8VTYELO59 = 3.73 / BPWHKB14P35VLT Yellow lower limit = B_PCB_B14_3TYEHI59 = 3.97 / BPWHKB14P35VLT Yellow upper limit = B_PCB_B14_3TRDLO60 = 3.65 / BPWHKB14M35VLT Red lower limit = B_PCB_B14_3_8VTRDHI60 = 4.05 / BPWHKB14M35VLT Red upper limit = B_PCB_B14_3_8VTYELO60 = 3.73 / BPWHKB14M35VLT Yellow lower limit = B_PCB_B14_3TYEHI60 = 3.97 / BPWHKB14M35VLT Yellow upper limit = B_PCB_B14_3TRDLO61 = 4.75 / BPWHKB14P50VLT Red lower limit = B_PCB_B14_5_0VTRDHI61 = 5.25 / BPWHKB14P50VLT Red upper limit = B_PCB_B14_5_0VTYELO61 = 4.85 / BPWHKB14P50VLT Yellow lower limit = B_PCB_B14_5TYEHI61 = 5.15 / BPWHKB14P50VLT Yellow upper limit = B_PCB_B14_5TRDLO62 = 7.12 / BPWHKB14P75VLT Red lower limit = B_PCB_B14_7_5VTRDHI62 = 7.85 / BPWHKB14P75VLT Red upper limit = B_PCB_B14_7_5VTYELO62 = 7.27 / BPWHKB14P75VLT Yellow lower limit = B_PCB_B14_7TYEHI62 = 7.72 / BPWHKB14P75VLT Yellow upper limit = B_PCB_B14_7TRDLO63 = 7.12 / BPWHKB14M75VLT Red lower limit = B_PCB_B14_7_5VTRDHI63 = 7.85 / BPWHKB14M75VLT Red upper limit = B_PCB_B14_7_5VTYELO63 = 7.27 / BPWHKB14M75VLT Yellow lower limit = B_PCB_B14_7TYEHI63 = 7.72 / BPWHKB14M75VLT Yellow upper limit = B_PCB_B14_7TRDLO64 = -20 / BPWHKB14CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB14CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB14CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB14CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB14TEMP Red lower limit = B_TBLK_14_LIM TRDHI65 = 45 / BPWHKB14TEMP Red upper limit = B_TBLK_14_LIM TYELO65 = -10 / BPWHKB14TEMP Yellow lower limit = B_TBLK_14_LIMTYEHI65 = 40 / BPWHKB14TEMP Yellow upper limit = B_TBLK_14_LIMTRDHI66 = 60 / BPWHKLHPB4TEMP Red upper limit = B_TLHP_B4_LIM TYEHI66 = 55 / BPWHKLHPB4TEMP Yellow upper limit = B_TLHP_B4_LTRDLO73 = -0.2 / BPWHKB15INPUTI Red lower limit = B_PCB_B15_INPITRDHI73 = 0.9 / BPWHKB15INPUTI Red upper limit = B_PCB_B15_INPITYELO73 = -0.1 / BPWHKB15INPUTI Yellow lower limit = B_PCB_B15_ITYEHI73 = 0.8 / BPWHKB15INPUTI Yellow upper limit = B_PCB_B15_ITRDLO74 = -2 / BPWHKB1525GND Red lower limit = B_PCB_B15_2_5G_TRDHI74 = 15 / BPWHKB1525GND Red upper limit = B_PCB_B15_2_5G_TYELO74 = -1 / BPWHKB1525GND Yellow lower limit = B_PCB_B15_2_TYEHI74 = 10 / BPWHKB1525GND Yellow upper limit = B_PCB_B15_2_TRDLO75 = 2.55 / BPWHKB15P25VLT Red lower limit = B_PCB_B15_2_7VTRDHI75 = 2.84 / BPWHKB15P25VLT Red upper limit = B_PCB_B15_2_7VTYELO75 = 2.62 / BPWHKB15P25VLT Yellow lower limit = B_PCB_B15_2TYEHI75 = 2.78 / BPWHKB15P25VLT Yellow upper limit = B_PCB_B15_2TRDLO76 = 2.55 / BPWHKB15M25VLT Red lower limit = B_PCB_B15_2_7VTRDHI76 = 2.84 / BPWHKB15M25VLT Red upper limit = B_PCB_B15_2_7VTYELO76 = 2.62 / BPWHKB15M25VLT Yellow lower limit = B_PCB_B15_2TYEHI76 = 2.78 / BPWHKB15M25VLT Yellow upper limit = B_PCB_B15_2TRDLO77 = 3.65 / BPWHKB15P35VLT Red lower limit = B_PCB_B15_3_8VTRDHI77 = 4.05 / BPWHKB15P35VLT Red upper limit = B_PCB_B15_3_8VTYELO77 = 3.73 / BPWHKB15P35VLT Yellow lower limit = B_PCB_B15_3TYEHI77 = 3.97 / BPWHKB15P35VLT Yellow upper limit = B_PCB_B15_3TRDLO78 = 3.65 / BPWHKB15M35VLT Red lower limit = B_PCB_B15_3_8VTRDHI78 = 4.05 / BPWHKB15M35VLT Red upper limit = B_PCB_B15_3_8VTYELO78 = 3.73 / BPWHKB15M35VLT Yellow lower limit = B_PCB_B15_3TYEHI78 = 3.97 / BPWHKB15M35VLT Yellow upper limit = B_PCB_B15_3TRDLO79 = 4.75 / BPWHKB15P50VLT Red lower limit = B_PCB_B15_5_0VTRDHI79 = 5.25 / BPWHKB15P50VLT Red upper limit = B_PCB_B15_5_0VTYELO79 = 4.85 / BPWHKB15P50VLT Yellow lower limit = B_PCB_B15_5TYEHI79 = 5.15 / BPWHKB15P50VLT Yellow upper limit = B_PCB_B15_5TRDLO80 = 7.12 / BPWHKB15P75VLT Red lower limit = B_PCB_B15_7_5VTRDHI80 = 7.85 / BPWHKB15P75VLT Red upper limit = B_PCB_B15_7_5VTYELO80 = 7.27 / BPWHKB15P75VLT Yellow lower limit = B_PCB_B15_7TYEHI80 = 7.72 / BPWHKB15P75VLT Yellow upper limit = B_PCB_B15_7TRDLO81 = 7.12 / BPWHKB15M75VLT Red lower limit = B_PCB_B15_7_5VTRDHI81 = 7.85 / BPWHKB15M75VLT Red upper limit = B_PCB_B15_7_5VTYELO81 = 7.27 / BPWHKB15M75VLT Yellow lower limit = B_PCB_B15_7TYEHI81 = 7.72 / BPWHKB15M75VLT Yellow upper limit = B_PCB_B15_7TRDLO82 = -20 / BPWHKB15CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB15CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB15CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB15CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB15TEMP Red lower limit = B_TBLK_15_LIM TRDHI83 = 45 / BPWHKB15TEMP Red upper limit = B_TBLK_15_LIM TYELO83 = -10 / BPWHKB15TEMP Yellow lower limit = B_TBLK_15_LIMTYEHI83 = 40 / BPWHKB15TEMP Yellow upper limit = B_TBLK_15_LIMTRDLO84 = -30 / BPWHKLHPB5TEMP Red lower limit = B_TLHP_B5_LIM TRDHI84 = 60 / BPWHKLHPB5TEMP Red upper limit = B_TLHP_B5_LIM TYELO84 = -25 / BPWHKLHPB5TEMP Yellow lower limit = B_TLHP_B5_LTYEHI84 = 55 / BPWHKLHPB5TEMP Yellow upper limit = B_TLHP_B5_LHISTORY TASK: FAPPND on FILENAME: sw01185673000b18ex001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�ayhs��Վ��-��V�a��X�� x��(��M�ˍ.��Y�� 덑��'��.��Y�� q��#�ȉ��̀��Y�� 4�ʉ��؀��&A�F��z9��-��5�R��Z��Ā��&��&�Í0��[��􍎍��+��/��\��Ȁ��*�m��$�ǉ��[��ߎ�� 4�ʉ��A�F��y/��׎��-��B��X��m��(�􉱈 �č/��Y��獖��*��č/��Z��u��{��#�ĉ��Y��4�Ɖ��A�F�z:Ҁ�Ȏ!�� .��$�/�$��Y��(�󉴈�Ǎ0��Z��썏��&��ʍ/��[��)�s��$��Z��ߎ��4�É��*��ܺA�F�QyY`��Վ��-��[��*��Y��̀��(�񉴈S�ˍ2��Z��񍑍��*��y�ύ0��\��)�p��$��[��5��ޥA�F��y%��֎��+� ��+��)��X��Հ��'�퉳��ύ1��Y��+��i�ҍ0��Y��#�o��!��w��X��π�ڎ��3��D��sA�F��y�-��+� ��0��Y��&�ꉳ��ҍ2��Y��'��Z�׍1��Z��ـ��%�n��!��h��Z��ގ �� 2��"��TA�F�y��$�� -��>�܉$��Y��~��(�鉴�6�֍2��[��Ҁ��񍓍��*��I�ٍ0��[��(�s��$��W��[��ގ ��4����A�F�A|��+��*�̉��X��񍋍��(�䉴��׍1��Z��)��?�ۍ0��Z��-�m��"��I��Z��܎ ��4��SA�F�}y}��׎ ��,��X��<��~��'�ቲ��ۍ1��Y��򍐍��)��5�ݍ0��Y��(�k��"��B��Y��َ�� 3��?��ρA�F��y�;��ю��.��:�� X��)��2�ލ1��Y��荗��*�牾�(�ݍ0��Z��|��#��5��Z��5��怤��A�F��y�ˀ�׎��-��;��X��3��&�݉��/��1��Z��!�� 4�剽��.��[��(�m��!��"��Z��܎��4��'��A�F�1yy}��׎��,��Y��&�ډ��/��Z�� 3��.��[��(�n��#��!��Z��(��ݎ��4��;A�F�mx�À�Վ��,��0��Y��"��~��(�ى��(��/��Z��퍏��(��.��Z��$�q��"��Z��܎ �� 4��Ȁ��AA�F��z~��Ԏ��-��W�|��Y��0��)�׉��L��.��Z��<��*�މ��-��[��$�p��#��}��Z��F��܎ ��5��[A�F��y5��֎�� -�󉹈�t��Y��8��)�Չ��-��Z��H��􍓍��+�ۉ��+��[��&�p��$��w��Z��E��ێ��6��A�F�!yЦ��׎ ��,�񉹈%�h�󃑄X��E��'�Չ��,��X��O��򍐍��)�ډ��*��Z��(�k��"��p��Y��Q��׎�� 6��A�F�]y߹��ڎ �� .��S�_��Z��t��(�҉��J��,��[��P��*�ى��*��\��.��*�q��$���i��[��`��֎�� 5��uA�F��x�#��Ԏ��-�퉸��Z�߃��Y��'�Љ�� +��Z��w��*�׉��)��[��n��$�r��#��値�c��[��ڎ �� 5��ဥ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 500 / width of table in bytes NAXIS2 = 37 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 209 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'undocumented1' / Byte field not in ITOS database TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BXCPKTSINSCCNT' / XC number of command packets received TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BXCPKTSERRSCCNT' / XC S/C Apid (0x0701) error counter TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BXCREJECTREASON' / XC command reject reason TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTOFREEBYTES' / TO Space on downlink RAM disk TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BTOPKTSENT' / TO packets sent TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BTOFILESSENT' / TO files TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTOFILEQSENT00' / TO File Queue priority 0 files sent TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTONUMQUEFLUSH' / TO TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BTORETRYDELQUE' / TO Current size of the retry delete queue TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTOBUMPFILECNT' / TO TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BFMBOOTSPACE' / Free space on the Boot EEPROM disk, targ/boot TFORM14 = '1J ' / data format of field: 4-byte INTEGER TTYPE15 = 'BFMNORMSPACE' / Free space on the Normal EEPROM disk, targ/normTFORM15 = '1J ' / data format of field: 4-byte INTEGER TTYPE16 = 'BFMTEMPSPACE' / Free space on the scratch RAM disk, targ/temp TFORM16 = '1J ' / data format of field: 4-byte INTEGER TTYPE17 = 'BFMNRAMSPACE' / Free space on the Normal DRAM disk, targ/nram TFORM17 = '1J ' / data format of field: 4-byte INTEGER TTYPE18 = 'BSHPRIMCLK' / SH Free Running Flag TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BSHCURRSLOT' / SH Current Slot Number TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BSHCMDORCNT' / SH BAT Cmd Buffer Overrun Error Count TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSHCURRCYCLE' / SH Current Cycle Number TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'undocumented2' / Byte field not in ITOS database TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BSHBBADISRCNT' / SH BAT Bad 1 Hz ISR Count TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BSHPULSE' / SH Source of the 1Hz Pulse TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BMSCBYTESCRUB' / MS Cumulative number of bytes scrubbed since ReTFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMSCPASSCOMPL' / MS Passes made thru Bulk Memory since Reset TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMSCSBERRORS' / MS Cumulative number of Single-Bit Errors sinceTFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMSCMBERRORS' / MS Cumulative number of Multi-Bit Errors since TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMSRAMCSBERRORS' / MS RAM single-bit error count TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMSRAMCMBERRORS' / MS RAM multi-bit error count TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMSRAMLSBERRADDR' / MS Last RAM single-bit error address TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMSRAMLMBERRADDR' / MS Last RAM multi-bit error address TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMSMACHERRORS' / MS RAM machine check error count TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMSACHERRADDR' / MS Last RAM machine check error address TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMSLIORESETREG' / MS Processor LIO Reset Register TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BTMCURRMODE' / TM Current Software Mode TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BTMPREVMODE' / TM Previous Software Mode TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BTMSRESETCNT' / TM System Reset Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'undocumented3' / Byte field not in ITOS database TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM50 = '1D ' / data format of field: 8-byte DOUBLE TTYPE51 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL53 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE54 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BSCSTARTCNT' / SC Script START Commands Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BSCTERMCNT' / SC Script STOP Command Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BSCCOMPLCNT' / SC Script BREAK Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BSCNUMSCRIPTS' / SC Number of Scripts Currently Active TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BSCUNSPECSLOT' / SC Minimum Slot for Scripts with Unspecified SlTFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BSCTLMPKTCNT' / SC Script CLEAR Command Count TFORM65 = '1J ' / data format of field: 4-byte INTEGER TZERO65 = 2147483648 / offset for unsigned integers TTYPE66 = 'BSCCMDSENT' / SC Script STEP Command Count TFORM66 = '1J ' / data format of field: 4-byte INTEGER TZERO66 = 2147483648 / offset for unsigned integers TTYPE67 = 'FOMSLEWMODESTAT' / Fom Slew Mode Enable Status TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'FOMATMODESTAT' / Fom AT Mode Enable Status TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'FOMPPTMODESTAT' / Fom PPT Mode Enable Status TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'FOMOTTYPE' / Current Observed Target Target Type TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'FOMOTOBSNUM' / Current Observed Target Observation Num TFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'FOMOTMERIT' / Current Observed Target Merit TFORM72 = '1E ' / data format of field: 4-byte REAL TTYPE73 = 'FOMOTOBSSECS' / Current Observed Target Secs Until View ConstraTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TUNIT73 = 's ' / physical unit of field TTYPE74 = 'FOMOTPASTOBSS' / Current Observed Target Past Observed Secs TFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TUNIT74 = 's ' / physical unit of field TTYPE75 = 'FOMOTLASTOBST' / Current Observed Target Last Obs Time (in TIME4TFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers TSCAL75 = 1 / data are not scaled TUNIT75 = 's ' / physical unit of field TTYPE76 = 'FOMOTLASTOBSS' / Current Observed Target Last Obs Time (in U1234TFORM76 = '1J ' / data format of field: 4-byte INTEGER TZERO76 = 2147483648 / offset for unsigned integers TUNIT76 = 's ' / physical unit of field TTYPE77 = 'FOMAISLEWSTATE' / ACS Info Slew State TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'FOMACSINSAA' / ACS Info In SAA Flag TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'FOMLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'FOMLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'FOMPPTREQCNT' / FOM PPT Request Count TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'FOMATUPDCNT' / FOM AT Update Count TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'FOMGRBREQCNT' / GRB Request Count TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'FOMTOOREQCNT' / TOO Request Count TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BPWRESPVERIFY' / PW count of Cmd Responses that Verified SuccessTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWRESPFAILED' / PW count of Cmd Responses that Failed VerificatTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWRESPTIMEOUT' / PW count of Cmd Responses that TimedOut TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKCMDSENT' / PW count of HK Cmds sent to PCB TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWDIAGCMDSENT' / PW count of Diag Cmds sent to PCB TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWOTHERCMDSENT' / PW count of anything other than HK or Diag CmdsTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKRESPRCVD' / PW count of HK packet Responses Received TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BPWDIAGRESPRCVD' / PW count of Diagnostic Packet Responses ReceiveTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWSTATRESPRCVD' / PW count of Status packet Responses Received TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 32768 / offset for unsigned integers TTYPE94 = 'BPWSTATPKTTOGND' / PW Flag as to whether Status Pkt comes to the GTFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BPWEVENTSDISPLD' / PW Flag as to whether Timeout Events get displaTFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BIHFAILCOUNT' / IH failure count (total number of failurs sinceTFORM96 = '1J ' / data format of field: 4-byte INTEGER TZERO96 = 2147483648 / offset for unsigned integers TTYPE97 = 'BIHTLMFAIL' / IH last telemetry point row failure TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 32768 / offset for unsigned integers TTYPE98 = 'BIHBCDHFAIL' / IH last BCDH column failure TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 32768 / offset for unsigned integers TTYPE99 = 'BIHCHECKRATE' / IH check rate (seconds) TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 32768 / offset for unsigned integers TTYPE100= 'BIHFAILRATE' / IH failure rate (samples) TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 32768 / offset for unsigned integers TTYPE101= 'BIHTASKCFG' / IH task configuration (1 - enabled, 0 - disableTFORM101= '1J ' / data format of field: 4-byte INTEGER TZERO101= 2147483648 / offset for unsigned integers TTYPE102= 'BDIHKDATAMET' / Data MET time, U1234 format TFORM102= '1J ' / data format of field: 4-byte INTEGER TUNIT102= 's ' / physical unit of field TTYPE103= 'BDIHKLAG' / How far DI is lagging, TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BDIHKNFAULTS' / Number of data/software faults found TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BDIHKLASTFAULT' / Identity of last fault TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BDIHKBLKRATE' TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL106= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT106= 'count ' / physical unit of field TTYPE107= 'BDIHKBLKRATE64S' TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL107= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT107= 'count ' / physical unit of field TTYPE108= 'BDIHKNGOODDETS' / Number of detectors functioning TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BDIHKBCDHVER' / Count of BCDH command verifies TFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 32768 / offset for unsigned integers TTYPE110= 'BDIHKDMVER' / Count of DM command verifies TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BDIHKBCDHEXC' / Count of BCDH command exceptions TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 32768 / offset for unsigned integers TTYPE112= 'BDIHKDMEXC' / Count of DM command exceptions TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 32768 / offset for unsigned integers TTYPE113= 'BDIHKDMPARITY' / Count of DM parity errors TFORM113= '1I ' / data format of field: 2-byte INTEGER TZERO113= 32768 / offset for unsigned integers TTYPE114= 'BDIHKDMALARMS' / Count of DM alarms TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 32768 / offset for unsigned integers TTYPE115= 'BDIHKMICERRORS' / Count of MIC errors TFORM115= '1I ' / data format of field: 2-byte INTEGER TZERO115= 32768 / offset for unsigned integers TTYPE116= 'BDIHKTIMELAG' / How far DI is lagging, seconds TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 32768 / offset for unsigned integers TUNIT116= 's ' / physical unit of field TTYPE117= 'BDIHKGRBFOLLOW' / Is DI doing a GRB follow-up TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BDIHKFORCEINVAL' / Is data forced to be invalid? TFORM118= '1B ' / data format of field: BYTE TTYPE119= 'BDIHKSLEWING' / Is DI in slew mode TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BDIHKSAA' / Is DI in SAA mode TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BDIHKVALID' / Is DI producing valid data TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BDIHKTRIGGERABLE' / Is DI producing triggerable data TFORM122= '1B ' / data format of field: BYTE TTYPE123= 'BDIHKDAPSAA' / Is DAP believed to be in SAA state? TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BDIHKUVOTFILTMV' / Is UVOT filter moving? TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'undocumented4' / Byte field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BBRHKTRIGTIME42' / BR HK trigger time (time42) TFORM126= '1D ' / data format of field: 8-byte DOUBLE TUNIT126= 's ' / physical unit of field TTYPE127= 'undocumented5' / Byte field not in ITOS database TFORM127= '1I ' / data format of field: 2-byte INTEGER TZERO127= 32768 / offset for unsigned integers TTYPE128= 'BBRHKTRIGDUR' / BR HK trigger duration TFORM128= '1J ' / data format of field: 4-byte INTEGER TZERO128= 8590065.664 / data offset (2G shift B_BR_4MS_A conversion) TSCAL128= 0.004 / data scaling (B_BR_4MS_A conversion) TTYPE129= 'BBRHKSOURCETYPE' / BR HK source type TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BBRHKTHETA' / BR HK burst/transient location in radial coord.TFORM130= '1E ' / data format of field: 4-byte REAL TUNIT130= 'rad ' / physical unit of field TTYPE131= 'BBRHKPHI' / BR HK burst/transient location in azimuthal cooTFORM131= '1E ' / data format of field: 4-byte REAL TUNIT131= 'rad ' / physical unit of field TTYPE132= 'BBRHKSTRENGTH' / BR HK burst/transient strength in image units TFORM132= '1E ' / data format of field: 4-byte REAL TTYPE133= 'BBRHKLOCSIGMA' / BR HK burst/transient rms near src location TFORM133= '1E ' / data format of field: 4-byte REAL TTYPE134= 'BBRHKCATNUM' / BR HK burst/transient catalog number of src (-1TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 32768 / offset for unsigned integers TTYPE135= 'BBRHKTECHNIQUE' / BR HK burst/transient technique to get the src TFORM135= '1I ' / data format of field: 2-byte INTEGER TZERO135= 32768 / offset for unsigned integers TTYPE136= 'BBRHKINTRSGSTR' / BR HK burst/transient source brightness for intTFORM136= '1E ' / data format of field: 4-byte REAL TTYPE137= 'BBRHKRARAD' / BR HK R.A. in radians TFORM137= '1E ' / data format of field: 4-byte REAL TUNIT137= 'rad ' / physical unit of field TTYPE138= 'BBRHKDECRAD' / BR HK Declination in radians TFORM138= '1E ' / data format of field: 4-byte REAL TUNIT138= 'rad ' / physical unit of field TTYPE139= 'BBRHKFBURST' / BR HK burst flag TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BBRHKFINTERSTING' / BR HK interesting flag TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BBRHKFIMAGETRIG' / BR HK image trigger flag TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BBRHKFCONTINUOUS' / BR HK continuous observation flag TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BBRHKERANGE' / BR HK Trigger energy TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BBRHKFINRATETRIG' / BR HK processing new rate trigger TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BBRHKTIMESINCE' / BR HK time since trigger TFORM145= '1J ' / data format of field: 4-byte INTEGER TZERO145= 2147483648 / offset for unsigned integers TTYPE146= 'BBRHKMERIT0' / BR HK Merit item 0 TFORM146= '1I ' / data format of field: 2-byte INTEGER TTYPE147= 'BBRHKMERIT1' / BR HK Merit item 1 TFORM147= '1I ' / data format of field: 2-byte INTEGER TTYPE148= 'BBRHKMERIT2' / BR HK Merit item 2 TFORM148= '1I ' / data format of field: 2-byte INTEGER TTYPE149= 'BBRHKMERIT3' / BR HK Merit item 3 TFORM149= '1I ' / data format of field: 2-byte INTEGER TTYPE150= 'BBRHKMERIT4' / BR HK Merit item 4 TFORM150= '1I ' / data format of field: 2-byte INTEGER TTYPE151= 'BBRHKMERIT5' / BR HK Merit item 5 TFORM151= '1I ' / data format of field: 2-byte INTEGER TTYPE152= 'BBRHKMERIT6' / BR HK Merit item 6 TFORM152= '1I ' / data format of field: 2-byte INTEGER TTYPE153= 'BBRHKMERIT7' / BR HK Merit item 7 TFORM153= '1I ' / data format of field: 2-byte INTEGER TTYPE154= 'BBRHKMERIT8' / BR HK Merit item 8 TFORM154= '1I ' / data format of field: 2-byte INTEGER TTYPE155= 'BBRHKMERIT9' / BR HK Merit item 9 TFORM155= '1I ' / data format of field: 2-byte INTEGER TTYPE156= 'undocumented6' / Byte field not in ITOS database TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 32768 / offset for unsigned integers TTYPE157= 'BBRHKTRIGNUM' / BR HK trigger number TFORM157= '1J ' / data format of field: 4-byte INTEGER TZERO157= 2147483648 / offset for unsigned integers TTYPE158= 'BBRHKTRYINGTRIG' / BR HK triggers tried since TFORM158= '1J ' / data format of field: 4-byte INTEGER TZERO158= 2147483648 / offset for unsigned integers TTYPE159= 'BBRHKTRYINGMET' / BR HK triggers tried at MET TFORM159= '1J ' / data format of field: 4-byte INTEGER TZERO159= 2147483648 / offset for unsigned integers TUNIT159= 's ' / physical unit of field TTYPE160= 'BCAHKLASTOFFMET' / Last Offset time, U1234 format TFORM160= '1J ' / data format of field: 4-byte INTEGER TTYPE161= 'BCAHKLASTGAINMET' / Last Gain time, U1234 format TFORM161= '1J ' / data format of field: 4-byte INTEGER TTYPE162= 'BCAHKLASTOINDEX' / Last Offset Index TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers TTYPE163= 'BCAHKLASTGINDEX' / Last Gain Index TFORM163= '1I ' / data format of field: 2-byte INTEGER TZERO163= 32768 / offset for unsigned integers TTYPE164= 'BCAHKDOINGBLK' / Which block are we currently calibrating TFORM164= '1I ' / data format of field: 2-byte INTEGER TTYPE165= 'undocumented7' / Byte field not in ITOS database TFORM165= '1I ' / data format of field: 2-byte INTEGER TZERO165= 32768 / offset for unsigned integers TTYPE166= 'BTGHKTYPE' / Trigger Status Type TFORM166= '1I ' / data format of field: 2-byte INTEGER TZERO166= 32768 / offset for unsigned integers TTYPE167= 'BTGHKAFTERBURN' / Trigger afterburners running TFORM167= '1I ' / data format of field: 2-byte INTEGER TZERO167= 32768 / offset for unsigned integers TTYPE168= 'BTGHKSCORE' / Trigger Status Score TFORM168= '1E ' / data format of field: 4-byte REAL TTYPE169= 'BTGHKTRIGID' / Trigger Status Trigger ID TFORM169= '1J ' / data format of field: 4-byte INTEGER TZERO169= 2147483648 / offset for unsigned integers TTYPE170= 'BTGHKTRIGEXPTICK' / Trigger Status Trigger Expire, tTICK TFORM170= '1J ' / data format of field: 4-byte INTEGER TZERO170= 2147483648 / offset for unsigned integers TTYPE171= 'BTGHKBESTSCORE' / Trigger Status best trigger strength TFORM171= '1E ' / data format of field: 4-byte REAL TTYPE172= 'BTGHKRATCHET' / Trigger Status number of trigger ratchets TFORM172= '1J ' / data format of field: 4-byte INTEGER TZERO172= 2147483648 / offset for unsigned integers TTYPE173= 'BTGHKNEW' / Trigger Status new trigger found TFORM173= '1J ' / data format of field: 4-byte INTEGER TZERO173= 2147483648 / offset for unsigned integers TTYPE174= 'BTGHKLEVALPER8' / Long trigger evaluations/8 seconds TFORM174= '1I ' / data format of field: 2-byte INTEGER TZERO174= 32768 / offset for unsigned integers TTYPE175= 'BTGHKDITGCPU' / CPU usage by DI+TG TFORM175= '1I ' / data format of field: 2-byte INTEGER TZERO175= 327.68 / data offset (32k shift B_TG_PERCENT conversion)TSCAL175= 0.01 / data scaling (B_TG_PERCENT conversion) TTYPE176= 'BTGHKNTHROTTLED' / Trigger criteria throttled for CPU usage TFORM176= '1I ' / data format of field: 2-byte INTEGER TTYPE177= 'BTGHKVETONUM' / What source catnum is being vetoed TFORM177= '1I ' / data format of field: 2-byte INTEGER TZERO177= 32768 / offset for unsigned integers TTYPE178= 'BPDBCBWRITE' / Circular buffer write index TFORM178= '1J ' / data format of field: 4-byte INTEGER TZERO178= 2147483648 / offset for unsigned integers TTYPE179= 'BPDBCBVALID' / Circular buffer valid length TFORM179= '1J ' / data format of field: 4-byte INTEGER TZERO179= 2147483648 / offset for unsigned integers TTYPE180= 'BPDBCBREAD' / Circular buffer read index TFORM180= '1J ' / data format of field: 4-byte INTEGER TZERO180= 2147483648 / offset for unsigned integers TTYPE181= 'BPDBCBWRLAP' / Circular buffer write wrap count TFORM181= '1I ' / data format of field: 2-byte INTEGER TZERO181= 32768 / offset for unsigned integers TTYPE182= 'BPDBCBRDLAP' / Circular buffer read wrap count TFORM182= '1I ' / data format of field: 2-byte INTEGER TZERO182= 32768 / offset for unsigned integers TTYPE183= 'BPDMICAVGRATE' / MIC input data rate - avg bytes per sec TFORM183= '1J ' / data format of field: 4-byte INTEGER TZERO183= 2147483648 / offset for unsigned integers TUNIT183= 'byte/s ' / physical unit of field TTYPE184= 'BPDBCDHCMDCNT' / BCDH command count TFORM184= '1I ' / data format of field: 2-byte INTEGER TZERO184= 32768 / offset for unsigned integers TTYPE185= 'BPDBCDHERRCNT' / BCDH command error count TFORM185= '1I ' / data format of field: 2-byte INTEGER TZERO185= 32768 / offset for unsigned integers TTYPE186= 'BPDMICCMDCNT' / MIC command count TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BPDMICERRCNT' / not used in software ver 4.1 TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BPDMICFPGAERR' / Command buffer FPGA lockup count TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BPDDSPMTHCNT' / DSP interface method count TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BPDDSPERRCNT' / DSP interface total errors TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BPDDSPCMDCNT' / DSP interface commands sent TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BPDDSPTSKCNT' / DSP interface hipri task count TFORM192= '1B ' / data format of field: BYTE TTYPE193= 'BPDDSPERRTLM' / DSP interface response length errs TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BDEREQRCVCNT' / DSP Request Received Count TFORM194= '1B ' / data format of field: BYTE TTYPE195= 'BDEREQERRCNT' / DSP Request Error Count TFORM195= '1B ' / data format of field: BYTE TTYPE196= 'BDEHALTCNT' / DSP Count of halts received TFORM196= '1B ' / data format of field: BYTE TTYPE197= 'BDERCVINTCNT' / DSP Count of Received Interrupts TFORM197= '1B ' / data format of field: BYTE TTYPE198= 'BDEXSERRSEG' / DSP Checksum Error Index TFORM198= '1B ' / data format of field: BYTE TTYPE199= 'BDEXSERRCNT' / DSP Total Count of Checksum Errors TFORM199= '1B ' / data format of field: BYTE TTYPE200= 'BDEXSCYCLES' / DSP Spare0 for Science Code TFORM200= '1B ' / data format of field: BYTE TTYPE201= 'BDETXINTCNT' / DSP Spare0 for Science Code TFORM201= '1B ' / data format of field: BYTE TTYPE202= 'BDEPKTERRCNT' / DSP transmit packet error count TFORM202= '1B ' / data format of field: BYTE TTYPE203= 'BDEPKTERRTYP' / DSP transmit packet last error type TFORM203= '1B ' / data format of field: BYTE TTYPE204= 'BDECONTROLFLG' / DSP Current Control flag set by dsp object TFORM204= '1B ' / data format of field: BYTE TTYPE205= 'BDEACTIVITYFLG' / DSP Current Activity flag set by the dsp TFORM205= '1B ' / data format of field: BYTE TTYPE206= 'BDExx32x1' / DSP board science ??? status TFORM206= '1J ' / data format of field: 4-byte INTEGER TZERO206= 2147483648 / offset for unsigned integers TTYPE207= 'BDExx32x2' / DSP board science ??? status TFORM207= '1J ' / data format of field: 4-byte INTEGER TZERO207= 2147483648 / offset for unsigned integers TTYPE208= 'BDExx32x3' / DSP board science ??? status TFORM208= '1J ' / data format of field: 4-byte INTEGER TZERO208= 2147483648 / offset for unsigned integers TTYPE209= 'BDExx32x4' / DSP board science ??? status TFORM209= '1J ' / data format of field: 4-byte INTEGER TZERO209= 2147483648 / offset for unsigned integers EXTNAME = 'hk18fx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894100.90238 TSTOP = 713896260.90234 DATE-OBS= '2023-08-16T15:54:55' DATE-END= '2023-08-16T16:30:55' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2159.99996006489 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 399 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9GALEE4L9E9LCE9L' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '875958970' / data unit checksum updated 2023-08-26T08:43:46 TRDHI4 = 2 / BXCPKTSERRSCCNT Red upper limit = BXC_PKTERRSC_TYEHI4 = 1 / BXCPKTSERRSCCNT Yellow upper limit = BXC_PKTERRCOMMENT Column 6 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress TRDLO16 = 10000 / BFMTEMPSPACE Red lower limit = BTEMPSPACE_LIM TRDHI16 = 1000000 / BFMTEMPSPACE Red upper limit = BTEMPSPACE_LIM TYELO16 = 60000 / BFMTEMPSPACE Yellow lower limit = BTEMPSPACE_LITYEHI16 = 900000 / BFMTEMPSPACE Yellow upper limit = BTEMPSPACE_LICOMMENT Column 18 = BSHPRIMCLK - Discrete value COMMENT 0 = UNDEFINED = System Clock is undefined COMMENT 1 = S/C TIME MSG = System Clock is Time Message from S/C COMMENT 2 = S/C 1PPS = System Clock is S/C one hertz hardware COMMENT 3 = BAT 1PPS = System Clock is BAT one hertz hardware COMMENT 4 = VXWORKS = System Clock is vxWorks clock ( PowerPC ) COMMENT 5 = R6K PIT = System Clock is Processor's PIT timer COMMENT 6 = CYGWIN = System Clock is cygwin clock ( PowerPC ) COMMENT 7 = LINUX = System Clock is Linux clock ( PowerPC ) COMMENT 8 = DEBUG = System Clock is debug clock ( PowerPC ) COMMENT 9-255 = UNDEFINED = System Clock is undefined COMMENT Column 24 = BSHPULSE - Discrete value COMMENT 0 = UNDEFINED = 1 PPS Pulse is undefined COMMENT 1 = PRIMARY EXTERNAL = 1 PPS Pulse is primary external COMMENT 2 = REDUNDANT EXTERNAL = 1 PPS Pulse is redundant external COMMENT 4 = MIC INTERNAL = 1 PPS Pulse is MIC internal TRDHI24 = 4 / BSHPULSE Red upper limit = B_SHPULSE_LIM TYEHI24 = 3 / BSHPULSE Yellow upper limit = B_SHPULSE_LIM TRDHI27 = 2 / BMSCSBERRORS Red upper limit = BMS_SBERR_LIM TYEHI27 = 1 / BMSCSBERRORS Yellow upper limit = BMS_SBERR_LIMTRDHI28 = 2 / BMSCMBERRORS Red upper limit = BMS_MBERR_LIM TYEHI28 = 1 / BMSCMBERRORS Yellow upper limit = BMS_MBERR_LIMCOMMENT Column 35 = BMSLIORESETREG - Discrete value COMMENT 0 = LIO POWER ON RESET = Power Cycle Reset COMMENT 2048 = LIO CRITICAL RESET = Critical Reset COMMENT 2304 = LIO CRITICAL ERROR = Critical Error COMMENT 2560 = LIO PAS ERROR = Pas Reset COMMENT 2816 = LIO CHECKSTOP ERROR = Checkstop Error COMMENT 3072 = LIO PCI BRIDGE ERROR = PCI Bridge Error COMMENT 3328 = LIO WATCHDOG ERROR = Watchdog Error COMMENT 3584 = LIO SELFTEST ERROR = SelfTest error COMMENT Column 37 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 38 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 45 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 46 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 47 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 49 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 54 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 67 = FOMSLEWMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 68 = FOMATMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 69 = FOMPPTMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 70 = FOMOTTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 77 = FOMAISLEWSTATE - Discrete value COMMENT 0 = ERROR = ACS Info Slew State Error COMMENT 1 = SLEWING = ACS Info Slewing and not within 10 ArcMin of Target COMMENT 2 = IN10ARCMIN = ACS Info Slewing and within 10 ArcMin of Target COMMENT 3 = SETTLED = ACS Info Settled on Target COMMENT 4 = SAFEMODE = ACS Info SC Safemode COMMENT 5 = InSAA = ACS Info In SAA COMMENT 6 = OutOfSAA = ACS Info Outside SAA COMMENT Column 78 = FOMACSINSAA - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description TRDHI86 = 2 / BPWRESPFAILED Red upper limit = BPW_RESPFAIL_LITYEHI86 = 1 / BPWRESPFAILED Yellow upper limit = BPW_RESPFAILTRDHI87 = 2 / BPWRESPTIMEOUT Red upper limit = BPW_RESPTOUT_LTYEHI87 = 1 / BPWRESPTIMEOUT Yellow upper limit = BPW_RESPTOUCOMMENT Column 94 = BPWSTATPKTTOGND - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 95 = BPWEVENTSDISPLD - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description TRDHI111= 50 / BDIHKBCDHEXC Red upper limit = BDI_BCDHEXC_LIM TYEHI111= 49 / BDIHKBCDHEXC Yellow upper limit = BDI_BCDHEXC_LTRDHI115= 2 / BDIHKMICERRORS Red upper limit = BDI_MICERR_LIMTYEHI115= 1 / BDIHKMICERRORS Yellow upper limit = BDI_MICERR_COMMENT Column 129 = BBRHKSOURCETYPE - Discrete value COMMENT 0 = Empty = BR HK, Source Type, 0=Empty COMMENT 1 = New = BR HK, Source Type, 1=New COMMENT 2 = AutoGRB = BR HK, Source Type, 2=AutoGRB COMMENT 3 = OldGRB = BR HK, Source Type, 3=OldGRB COMMENT 4 = X-ray Binary = BR HK, Source Type, 4=X-ray Binary COMMENT 5 = Black Hole = BR HK, Source Type, 5=Black Hole COMMENT 6 = Pulsar = BR HK, Source Type, 6=Pulsar COMMENT 7 = Soft Gamma Repeater = BR HK, Source Type, 7=Soft Gamma Repeater COMMENT 8 = X-ray Nova = BR HK, Source Type, 8=X-ray Nova COMMENT 9 = Active Galactic Nucleus = BR HK, Source Type, 9=Active Galactic COMMENT 10 = Rapid Burster = BR HK, Source Type, 10=Rapid Burster COMMENT 11 = X-ray Burster = BR HK, Source Type, 11=X-ray Burster COMMENT 12 = Other = BR HK, Source Type, 12=Other COMMENT 13 = Unknown = BR HK, Source Type, 13=Unknown COMMENT 14 = Special1 = BR HK, Source Type, 14=Special1 COMMENT 15 = Special2 = BR HK, Source Type, 15=Special2 COMMENT 16 = Special3 = BR HK, Source Type, 16=Special3 COMMENT 17 = Special4 = BR HK, Source Type, 17=Special4 COMMENT 18 = Special5 = BR HK, Source Type, 18=Special5 COMMENT 19 = Special6 = BR HK, Source Type, 19=Special6 COMMENT 20 = Special7 = BR HK, Source Type, 20=Special7 COMMENT 21 = Special8 = BR HK, Source Type, 21=Special8 COMMENT 22 = Special9 = BR HK, Source Type, 22=Special9 COMMENT 23 = Aversion = BR HK, Source Type, 23=Aversion COMMENT Column 135 = BBRHKTECHNIQUE - Discrete value COMMENT 0 = Clean = BR HK, Technique Used, 0=Clean COMMENT 1 = Back_project = BR HK, Technique Used, 0=Back_project COMMENT 2 = FFT 1 pixel = BR HK, Technique Used, 0=FFT 1 pixel COMMENT 3 = FFT 2 pixel = BR HK, Technique Used, 0=FFT 2 pixel COMMENT 4 = FFT 4 pixel = BR HK, Technique Used, 0=FFT 4 pixel COMMENT 5 = Other = BR HK, Technique Used, 0=Other COMMENT Column 166 = BTGHKTYPE - Discrete value COMMENT 0 = None = TG Status Type, 0=None COMMENT 1 = Long = TG Status Type, 1=Long COMMENT 2 = Short = TG Status Type, 2=Short COMMENT 3-4294967294 = Unknown = TG Status Type, >2=Unknown TRDHI185= 2 / BPDBCDHERRCNT Red upper limit = BPD_BCDHERRCNT_TYEHI185= 1 / BPDBCDHERRCNT Yellow upper limit = BPD_BCDHERRCTRDHI187= 2 / BPDMICERRCNT Red upper limit = BPD_MICERRCNT_LITYEHI187= 1 / BPDMICERRCNT Yellow upper limit = BPD_MICERRCNTTRDHI190= 2 / BPDDSPERRCNT Red upper limit = BPD_DSPERRCNT_LITYEHI190= 1 / BPDDSPERRCNT Yellow upper limit = BPD_DSPERRCNTTRDHI193= 2 / BPDDSPERRTLM Red upper limit = BPD_DSPERRTLM_LITYEHI193= 1 / BPDDSPERRTLM Yellow upper limit = BPD_DSPERRTLMTRDHI195= 2 / BDEREQERRCNT Red upper limit = BPD_DEREQERR_LIMTYEHI195= 1 / BDEREQERRCNT Yellow upper limit = BPD_DEREQERR_TRDHI199= 2 / BDEXSERRCNT Red upper limit = BPD_DEXSERR_LIM TYEHI199= 1 / BDEXSERRCNT Yellow upper limit = BPD_DEXSERR_LITRDHI202= 2 / BDEPKTERRCNT Red upper limit = BPD_DEPKTERR_LIMTYEHI202= 1 / BDEPKTERRCNT Yellow upper limit = BPD_DEPKTERR_HISTORY TASK: FAPPND on FILENAME: sw01185673000b18fx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�js�0�s��`��&��6 s=��g�W�yҀ�ɀ �� '��qAĒ�*�΅�ˠ��Q��p��h@�@��ˀ��[�.�>�B�� ڀ(��Щ��m��m��m��*�(À��ف��Р� ��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*��O��D2�̀�ݓ�@ި��D��$��y��&Y�.:2 ;��A�F��s��m��@��'��&��6 s=��g��z;��ɀ �� '��qAĒ�*�΅��Ā��p��`�@��ˀ��g�3�>�B�� F��(��m��m��m��*�)��Ɓ��`�"��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��^��%�$��%��D&�/><4 =��A�F��s~��Հ��|��&��6 s=��g�π{��ɀ �� '��qAĒ�*�΅�/ ��F��p��`�@��ˀ��s�3�>�B�� (��mǀ�mÀ�mÀ��*�)J��΁��"��A�E��S��?s4Z�Ac�C�\�A��@Nde��V��'�*�$b*�(��P��D2�̀�ݓ�@ި��K��P�|��P�|��z'b�/W=5 >��A�F��s��=�� &��6 s=��g��{��ɀ �� '��qAĒ�*�΅�/ ��%��p��`�@��ˀ��3�>�B�� D��(��mӀ�mπ�mπ��*�)��Ɓ��"��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��Y��|$��|��'ڀ/p>6 ?��A�F��s~��ť��i��&��6 s=��g�G�}A@�ʀ �� '��qAĒ�*�΅�/ ��z��p��`�@��ˀ��3�>�B�� (��m߀�mۀ�mۀ��*�)��Ɂ��@$"��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��1��X��M��(R�/�? 7 @"��A�F�s�π�� ٰ��&��6 s=��g��~.��ʀ �� '��qAĒ�*�΅�&��p��Ѐ��`�@��ˀ��3�>�B��̀6��(��m��m��m��*�)��Ɓ��B"��A�E��S��?s4Z�Ac�C�\�A��@Nde�� '�*�$b*�(��P��D2�̀�ݓ�@ި��|��҂��wܖ��(ʀ/�@$8 A&��A�F�s��u��@��\��&��6 s=��g��~��ʀ �� '��qAĒ�*�΅��2��p��`�@��ˀ��3�>�B��r��(��m��m��m��*�*:��n$��A�E��S��?s4Z�Ac�C�\�A��@Nde��F��'�*�$b*�(��P��D2�̀�ݓ�@ި��X�� 5�� )��)[�/�A&8 B(��A�F��B��T��(��n��m��m��*�*v��Ł��$��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��u�^�� Ė��)Ӏ/�C1; D3��A�F�Zs��E��ⵍ�&��6 s=��g�7��\�ʀ �� '��qAĒ�*�΅�/ ��A��p��`�@��ˀ��3�>�B��ꪍ(��n��n��n��*�*��P�$��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��d�� t�� *K�0�D5< E7��A�F�xs�0��̭��*��&��6 s=��g�s��C�ʀ �� '��qAĒ�*�΅�/ ��p��`�@��ˀ��ǀ3�>�B��܀&��(��n��n��n��*�*��$��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��}��_��Sx��L*À0 E:= F<��A�F��s��崍�&��6 s=��g��ʀ �� '��qAĒ�*�΅�/ ��p��`�@��ˀ��Ӏ3�>�B��b��(��n'��n#��n#��*�+*��$��A�E��S��?s4Z�Ac�C�\�A��@Nde��6��'�*�$b*�(��P��D2�̀�ݓ�@ި��8��8�L��T+;�0#F?> GA��A�F��s��}��Y��&��6 s=��g��@�ʀ �� '��qAĒ�*�΅�&��Y��p��Ѐ��`�@��ˀ��߀3�>�B��d��(��n3��n/��n/��*�+f��$��A�E��S��?s4Z�Ac�C�\�A��@Nde��r��'�*�$b*�(��P��D2�̀�ݓ�@ި��e�A��c�X��c�\��B+ʀ0<GC? HE��A�F��s��z��&��6 s=��g�'��@�ʀ �� '��qAĒ�*�΅�/ ��1��p��`�@��ˀ��3�>�B��(�ڪ�(��n?��n;��n;��*�+��`0$��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��v�I��|,B�0VILA JN��A�F��s��M�� &��6 s=��g�c��@�ʀ �� '��qAĒ�*�΅�/ ��p��`�@��ˀ��3�>�B��(��nK��nG��nG��*�+ހ��N$��A�E��S��?s4Z�Ac�C�\�A��@Nde��'�*�$b*�(��P��D2�̀�ݓ�@ި��],��0oJQB KS��A�F�s��ӵ��!�&��6 s=��g��x��ʀ �� '��qAĒ�*�΅�/ ��S��p��`�@��ˀ��3�>�B��R��(��nW��nS��nS��*�,��"�l$��A�E��S��?s4Z�Ac�C�\�A��@Nde��&��+�*�$b*�(��P��BQ̀��ѡ@p��Q��\��h��(-2�0�KUC LW��A�F�,s�π��,�&��6 s=��g�ۀ��ʀ �� '��qAĒ�*�΅�M@��P��h@�@��΀��A��B��z��,?��nc��n_��n_��*�,V��(@�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��%��>��,0*�$b*�(��P��CgFJ��6B+�� U��`��UT��-��1�PiH Qk��A�F�Js9��ֆ��/�&��6 s=��g��ʀ �� '��qAĒ�*�΅��̀��p��h@�@��΀��;�E��B��k��,��no��nk��nk��*�,��.p�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��a��>��,0*�$b*�(��P��CgFJ��6B+�� 7tx��7h䖽��.9�2�PiH Qk��A�F�hs��k��s�/�&��6 s=��g�S��8�ʀ �� '��qAĒ�*�΅�| ��p�h��X0�@��΀��_�H��B��/�K��,��n{��nw��nw��*�,΀��Ɓ��4�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� a̜��a̜��.��2�PiH Qk��A�F��s�ـ��V��;�/�&��6 s=��g��.�ˀ �� '��qAĒ�*�΅�| ��p�h��X0�@��΀��L��B��,��n��n��n��*�- ��9��$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� Y��䖽��"/)�2�PiH Qk��A�F��s��ھ��0�&��6 s=��g�ˀ��ˀ �� '��qAĒ�*�΅��J��p�x��h@�@��΀��P��B��ê�,��n��n��n��*�-F��?P$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� Q��M/��2PiH Qk��A�F��s9��&��č1�&��6 s=��g��ˀ �� '��qAĒ�*�΅��p��h@�@��΀��ˀQ��B��{��,��n��n��n��*�-��D�.$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��Q��>��,0*�$b*�(��P��CgFJ��6B+�� ;��;薽��0�2)PiH Qk��A�F��s�؀��ݎ��n�4�&��6 s=��g�C��L��ˀ �� '��qAĒ�*�΅��p��xP�@��΀��R��B��?�;��,��n��n��n��*�-��K Z$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� *�� *��0��2APiH Qk��A�F��s~�� #5�5�'��6 s=��g��{��ˀ �� '��qAĒ�*�΅�� p��xP�@��΀��U��B��w��,��n��n��n��*�-��P�x$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� 5j�� 5^0��1 �2YPiH Qk��A�F�s9��^��h ��)��5�'��6 s=��g��ˀ �� '��qAĒ�*�΅��!��p�x��h@�@��΀��7�V��B��ǀ��,��nÀ�n��n��*�.6��V`�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��,0*�$b*�(��P��CgFJ��6B+�� w�l�� _�� _�X��1��2rQmI Ro��A�F�:s�؀��ƀ��`��0�6�'��6 s=��g��ˀ �� '��qAĒ�*�΅��D��p�x��h@�@��΀��[�X��B��揄,��nπ�nˀ�nˀ��*�.r�� \�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��A��>��.l*�$b*�(��P��B0S��BA@��l�� ߨ�� 2�2�SsJ Tu��A�F�Xs��.��"P��7Ӎ6�'��6 s=��g�3��%��ˀ �� '��qAĒ�*�΅�gЀ��p��xP�@��π��Y��B��O�+��,��nۀ�n׀�n׀��*�.�� a��$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��}��>��.l*�$b*�(��P��B0S��BA@��N�� Ė��52��2�SuK Tw��A�F�vs��䖀�� >��7�'��6 s=��g�o��K��ˀ �� '��qAĒ�*�΅��ɀ��p��`�@��π��\��B��g��,��n��n��n��*�.�� g@�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��~�� M�� CL��3�2�TyL U{��A�F��s�؀��E}�8�'��6 s=��g��@�ˀ �� '��qAĒ�*�΅��p��3��p�x��h@�@��π��ǀ\��B��׀��,��n��n��n��*�/&�� mp$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@�� F$�� F$��3��2�U~M V��A�F��s��f��p��Lg�A�'��6 s=��g��ۀ�ˀ �� '��qAĒ�*�΅��p��xP�@��π��^��B��ߪ�,��n��n��n��*�/b�� s:$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��1��>��.l*�$b*�(��P��B0S��BA@��;��37��37𖽖��4�2�W�O X��A�F��s��΀��S/�A�'��6 s=��g�#��W��ˀ �� '��qAĒ�*�΅��n��p��`�@��π��_��B��_��,��o��o��o��*�/�� x�X$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��m��>��.l*�$b*�(��P��B0S��BA@��v�&��]��]��4�2X�P Y��A�F��s��6��Y�B�'��6 s=��g�_��=��ˀ �� '��qAĒ�*�΅��p��p�x��h@�@��π��3�`��B��#�W��,��o��o��o��*�/ڀ� ��~Pv$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��,��>4��2'Y�Q Z��A�F�s��란��h��`��D�'��6 s=��g��~@�ˀ �� '��qAĒ�*�΅��(��p��xP�@��π��W�a��B��,��o#��o��o��*�0�� 򄀢$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��M��5��2@Z�R [��A�F�*s�0��%��g��D�'��6 s=��g�׀��@�ˀ �� '��qAĒ�*�΅��Ѐ��p��`�@��π��{�d��B��Ϫ�,��o/��o+��o+��*�0R�� $��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��!��>��.l*�$b*�(��P��B0S��BA@��|�k��ۋ`��ۀh��F5��2Y[�S \��A�F�Hs�w��n��]`��nX�F�'��6 s=��g��ˀ �� '��qAĒ�*�΅��p��p��Ѐ��`�@��π��d��B��o��,��o;��o7��o7��*�0�� $��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��]��>��.l*�$b*�(��P��B0S��BA@��w��I��IȖ��6v�2s]�U ^��A�F�fs��ր��[��u�F�'��6 s=��g�O��f��ˀ �� '��qAĒ�*�΅��0��!��p��xP�@��π��Àd��B��3�G��,��oG��oC��oC��*�0ʀ� ��`�$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��/��.��6�2�^�V _��A�F��s}��>��|��{ՍH�'��6 s=��g��ˀ �� '��qAĒ�*�΅��p��p��Ѐ��`�@��π��d��B��,��oS��oO��oO��*�1�� $��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��X�`��X�`��7f�2�_�W `��A�F��s��{��I�'��6 s=��g�ǀ��@�ˀ �� '��qAĒ�*�΅��p�� p��Ѐ��`�@��π��d��B��,��o_��o[��o[��*�1B�� 0F$��A�F�bN��>c1;@L�C(a�A�y��@�f0?)��>��.l*�$b*�(��P��B0S��BA@��x��ʐ��(7��2�`�X a��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 391 / width of table in bytes NAXIS2 = 3 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 149 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'FODOTOBSNUM' / FoM Current Target Observation Num TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'FODOTMERIT' / FoM Current Target Merit TFORM3 = '1E ' / data format of field: 4-byte REAL TTYPE4 = 'FODOTOBSSECS' / FoM Current Target Secs Until View Constraint TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TUNIT4 = 's ' / physical unit of field TTYPE5 = 'FODOTPASTOBSS' / FoM Current Target Past Observed Secs TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TUNIT5 = 's ' / physical unit of field TTYPE6 = 'FODOTLASTOBST' / FoM Current Target Last Obs Time (in TIME40) TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TSCAL6 = 1 / data are not scaled TUNIT6 = 's ' / physical unit of field TTYPE7 = 'FODOTTARGRA' / FoM Current Target Rt Ascension TFORM7 = '1E ' / data format of field: 4-byte REAL TUNIT7 = 'deg ' / physical unit of field TTYPE8 = 'FODOTTARGDEC' / FoM Current Target Declination TFORM8 = '1E ' / data format of field: 4-byte REAL TUNIT8 = 'deg ' / physical unit of field TTYPE9 = 'FODOTTARGROLL' / FoM Current Target Target Roll TFORM9 = '1E ' / data format of field: 4-byte REAL TUNIT9 = 'deg ' / physical unit of field TTYPE10 = 'FODPPTOBSNUM' / Current Fom PPT Observation Num TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'FODPPTMERIT' / Current Fom PPT Merit TFORM11 = '1E ' / data format of field: 4-byte REAL TTYPE12 = 'FODPPTWAITSECS' / Current Fom PPT Secs Until in View TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TUNIT12 = 's ' / physical unit of field TTYPE13 = 'FODPPTOBSSECS' / Current Fom PPT Secs Until View Constraint TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TUNIT13 = 's ' / physical unit of field TTYPE14 = 'FODPPTREQOBSS' / Current Fom PPT Secs Planned to be Observed TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TUNIT14 = 's ' / physical unit of field TTYPE15 = 'FODPPTTARGRA' / Current Fom PPT Target New Target Rt Ascension TFORM15 = '1E ' / data format of field: 4-byte REAL TUNIT15 = 'deg ' / physical unit of field TTYPE16 = 'FODPPTTARGDEC' / Current Fom PPT Target New Target Declination TFORM16 = '1E ' / data format of field: 4-byte REAL TUNIT16 = 'deg ' / physical unit of field TTYPE17 = 'FODPPTTARGROLL' / Current Fom PPT Target New Target Roll TFORM17 = '1E ' / data format of field: 4-byte REAL TUNIT17 = 'deg ' / physical unit of field TTYPE18 = 'FODPPTPASTOBSS' / Current Fom PPT Target Past Observed Secs TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TUNIT18 = 's ' / physical unit of field TTYPE19 = 'FODPPTLASTOBST' / Current Fom PPT Target Last Obs Time (in TIME40TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TSCAL19 = 1 / data are not scaled TUNIT19 = 's ' / physical unit of field TTYPE20 = 'FODATOBSNUM' / Current Fom AT Observation Num TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'FODATMERIT' / Current Fom AT Merit TFORM21 = '1E ' / data format of field: 4-byte REAL TTYPE22 = 'FODATWAITSECS' / Current Fom AT Secs Until in View TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TUNIT22 = 's ' / physical unit of field TTYPE23 = 'FODATOBSSECS' / Current Fom AT Secs Until View Constraint TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TUNIT23 = 's ' / physical unit of field TTYPE24 = 'FODATTARGRA' / Current Fom AT Target New Target Rt Ascension TFORM24 = '1E ' / data format of field: 4-byte REAL TUNIT24 = 'deg ' / physical unit of field TTYPE25 = 'FODATTARGDEC' / Current Fom AT Target New Target Declination TFORM25 = '1E ' / data format of field: 4-byte REAL TUNIT25 = 'deg ' / physical unit of field TTYPE26 = 'FODATTARGROLL' / Current Fom AT Target New Target Roll TFORM26 = '1E ' / data format of field: 4-byte REAL TUNIT26 = 'deg ' / physical unit of field TTYPE27 = 'FODATPASTOBSS' / Current Fom AT Target Past Observed Secs TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TUNIT27 = 's ' / physical unit of field TTYPE28 = 'FODATLASTOBST' / Current Fom AT Target Last Obs Time (in TIME40)TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TSCAL28 = 1 / data are not scaled TUNIT28 = 's ' / physical unit of field TTYPE29 = 'FODATREQOBSNUM' / Last AT request Observation Num TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'FODATREQMERIT' / Last AT request Merit TFORM30 = '1E ' / data format of field: 4-byte REAL TTYPE31 = 'FODATREQRA' / Last AT request Target Rt Ascension TFORM31 = '1E ' / data format of field: 4-byte REAL TUNIT31 = 'deg ' / physical unit of field TTYPE32 = 'FODATREQDEC' / Last AT request Target Declination TFORM32 = '1E ' / data format of field: 4-byte REAL TUNIT32 = 'deg ' / physical unit of field TTYPE33 = 'FODATREQROLL' / Last AT request Target Roll TFORM33 = '1E ' / data format of field: 4-byte REAL TUNIT33 = 'deg ' / physical unit of field TTYPE34 = 'FODATREQPOBSS' / Last AT request Target Past Observed Secs TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TUNIT34 = 's ' / physical unit of field TTYPE35 = 'FODATREQLOBST' / Last AT request Target Last Obs Time (in TIME40TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TSCAL35 = 1 / data are not scaled TUNIT35 = 's ' / physical unit of field TTYPE36 = 'FODLASTSROBNUM' / Last Slew Request Obs Num TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'FODLASTSRRA' / Last Slew Request Target Rt Ascension TFORM37 = '1E ' / data format of field: 4-byte REAL TUNIT37 = 'deg ' / physical unit of field TTYPE38 = 'FODLASTSRDEC' / Last Slew Request Target Declination TFORM38 = '1E ' / data format of field: 4-byte REAL TUNIT38 = 'deg ' / physical unit of field TTYPE39 = 'FODLASTSRROLL' / Last Slew Request Target Roll TFORM39 = '1E ' / data format of field: 4-byte REAL TUNIT39 = 'deg ' / physical unit of field TTYPE40 = 'FODLASTSIOBNUM' / Last Slew Inquiry Obs Num TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'FODLASTSIRA' / Last Slew Inquiry Target Rt Ascension TFORM41 = '1E ' / data format of field: 4-byte REAL TUNIT41 = 'deg ' / physical unit of field TTYPE42 = 'FODLASTSIDEC' / Last Slew Inquiry Target Declination TFORM42 = '1E ' / data format of field: 4-byte REAL TUNIT42 = 'deg ' / physical unit of field TTYPE43 = 'FODLASTSIROLL' / Last Slew Inquiry Target Roll TFORM43 = '1E ' / data format of field: 4-byte REAL TUNIT43 = 'deg ' / physical unit of field TTYPE44 = 'FODLASTSRRONUM' / Last Slew Request Reply Obs Num TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'FODLASTSRRRA' / Last Slew Request Reply Target Rt Ascension TFORM45 = '1E ' / data format of field: 4-byte REAL TUNIT45 = 'deg ' / physical unit of field TTYPE46 = 'FODLASTSRRDEC' / Last Slew Request Reply Target Declination TFORM46 = '1E ' / data format of field: 4-byte REAL TUNIT46 = 'deg ' / physical unit of field TTYPE47 = 'FODLASTSRRROLL' / Last Slew Request Reply Target Roll TFORM47 = '1E ' / data format of field: 4-byte REAL TUNIT47 = 'deg ' / physical unit of field TTYPE48 = 'FODLASTSRROBSS' / Last Slew Request Reply Secs Until View ConstraTFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TUNIT48 = 's ' / physical unit of field TTYPE49 = 'FODLASTSRRWAITS' / Last Slew Request Reply Secs Until in View TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TUNIT49 = 's ' / physical unit of field TTYPE50 = 'FODLASTSIRONUM' / Last Slew Request Reply Obs Num TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'FODLASTSIRRA' / Last Slew Info Reply Target Rt Ascension TFORM51 = '1E ' / data format of field: 4-byte REAL TUNIT51 = 'deg ' / physical unit of field TTYPE52 = 'FODLASTSIRDEC' / Last Slew Info Reply Target Declination TFORM52 = '1E ' / data format of field: 4-byte REAL TUNIT52 = 'deg ' / physical unit of field TTYPE53 = 'FODLASTSIRROLL' / Last Slew Info Reply Target Roll TFORM53 = '1E ' / data format of field: 4-byte REAL TUNIT53 = 'deg ' / physical unit of field TTYPE54 = 'FODLASTSIROBSS' / Last Slew Info Reply Secs Until View ConstraintTFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TUNIT54 = 's ' / physical unit of field TTYPE55 = 'FODLASTSIRWAITS' / Last Slew Info Reply Secs Until in View TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TUNIT55 = 's ' / physical unit of field TTYPE56 = 'FODAIOBSNUM' / ACS Info Pkt Target Obs Num TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'FODAIRA ' / ACS Info Pkt Target Rt Ascension TFORM57 = '1E ' / data format of field: 4-byte REAL TUNIT57 = 'deg ' / physical unit of field TTYPE58 = 'FODAIDEC' / ACS Info Pkt Target Declination TFORM58 = '1E ' / data format of field: 4-byte REAL TUNIT58 = 'deg ' / physical unit of field TTYPE59 = 'FODAIROLL' / ACS Info Pkt Target Roll TFORM59 = '1E ' / data format of field: 4-byte REAL TUNIT59 = 'deg ' / physical unit of field TTYPE60 = 'FODGRBMAXTLIMIT' / GRB Max Observing Time Limit (in Secs) TFORM60 = '1J ' / data format of field: 4-byte INTEGER TZERO60 = 2147483648 / offset for unsigned integers TUNIT60 = 's ' / physical unit of field TTYPE61 = 'FODTOOMAXTLIMIT' / TOO Max Observing Time Limit (in Secs) TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TUNIT61 = 's ' / physical unit of field TTYPE62 = 'FODGRBBATMODE' / Stored BAT Mode Value for GRBs TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'FODGRBXRTMODE' / Stored XRT Mode Value for GRBs TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'FODGRBUVOTMODE' / Stored UVOT Mode Value for GRBs TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'FODPPTBATMODE' / Fom PPT BAT Mode Value TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'FODPPTXRTMODE' / Fom PPT XRT Mode Value TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'FODPPTUVOTMODE' / Fom PPT UVOT Mode Value TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'FODATBATMODE' / Fom AT BAT Mode Value TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'FODATXRTMODE' / Fom AT XRT Mode Value TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'FODATUVOTMODE' / Fom AT UVOT Mode Value TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'FODATREQBMODE' / Last AT Request BAT Mode Value TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'FODATREQXMODE' / Last AT Request XRT Mode Value TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'FODATREQUMODE' / Last AT Request UVOT Mode Value TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'FODOTBMODE' / Fom Curr Targ BAT Mode Value TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'FODOTXMODE' / Fom Curr Targ XRT Mode Value TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'FODOTUMODE' / Fom Curr Targ UVOT Mode Value TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 32768 / offset for unsigned integers TTYPE77 = 'FODOTISABORTED' / Fom Curr Targ Is Aborted TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'FODUPDASSNEED' / Fom Target Update Assessment Needed Flag TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'FODSLEWINQSTAT' / Fom Slew Inquiry Status Flag TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'FODSLEWREQSTAT' / Fom Slew Request Status Flag TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'FODSLEWMODSTAT' / Fom Slew Mode Enable Status TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'FODATMODESTAT' / Fom AT Mode Enable Status TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'FODPPTMODESTAT' / Fom PPT Mode Enable Status TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'FODATTARGSTAT' / Fom AT Target Availability 0None 1Unk 2InView 3TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'FODPPTTARGSTAT' / Fom PPT Target Availability 0None 1Unk 2InView TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'FODLASTSRATSLW' / Last FoM Slew Request IsNewAtSlew flag TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'FODLASTSIATSLW' / Last FoM Slew Inquiry IsNewAtSlew flag TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'FODLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'FODLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'FODACSSETTLED' / ACS Info Is Settled Flag TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'FODACSIN10AMIN' / ACS Info Within 10 Arc Min Flag TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'FODACSINSAA' / ACS Info In SAA Flag TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'FODACSSAFEMODE' / ACS Info In Safe Mode Flag TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'FODAISLEWSTATE' / ACS Info Slew State TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'FODOTTARGTYPE' / Fom Current Target Type (0GRB 1TOO 2PPT 3Unk) TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'FODATTARGTYPE' / Fom AT Target Type (0GRB 1TOO 2PPT 3Unk) TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'FODATREQTYPE' / Last AT Request Target Type (0GRB 1TOO 2PPT 3UnTFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'FODPPTREQCNT' / FOM PPT Request Count TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'FODATUPDCNT' / FOM AT Update Count TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'FODGRBREQCNT' / GRB Request Count TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'FODTOOREQCNT' / TOO Request Count TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'FODCTUPDCNT' / Fom Observed Target UpdateCount TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'FODSLEWREQCNT' / Fom Slew Request Sent Count TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'FODSLEWINQCNT' / Fom Slew Inquiry Sent Count TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'FODSRREPLYCNT' / Fom Slew Reply Received Count TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'FODSIREPLYCNT' / Fom Slew Info Reply Received Count TFORM106= '1B ' / data format of field: BYTE TTYPE107= 'FODEVTCNT' / Fom Error Event Count TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'FODATBMERIT0' / Fom AT BAT Merit Value 0 TFORM108= '1I ' / data format of field: 2-byte INTEGER TTYPE109= 'FODATBMERIT1' / Fom AT BAT Merit Value 1 TFORM109= '1I ' / data format of field: 2-byte INTEGER TTYPE110= 'FODATBMERIT2' / Fom AT BAT Merit Value 2 TFORM110= '1I ' / data format of field: 2-byte INTEGER TTYPE111= 'FODATBMERIT3' / Fom AT BAT Merit Value 3 TFORM111= '1I ' / data format of field: 2-byte INTEGER TTYPE112= 'FODATBMERIT4' / Fom AT BAT Merit Value 4 TFORM112= '1I ' / data format of field: 2-byte INTEGER TTYPE113= 'FODATBMERIT5' / Fom AT BAT Merit Value 5 TFORM113= '1I ' / data format of field: 2-byte INTEGER TTYPE114= 'FODATBMERIT6' / Fom AT BAT Merit Value 6 TFORM114= '1I ' / data format of field: 2-byte INTEGER TTYPE115= 'FODATBMERIT7' / Fom AT BAT Merit Value 7 TFORM115= '1I ' / data format of field: 2-byte INTEGER TTYPE116= 'FODATBMERIT8' / Fom AT BAT Merit Value 8 TFORM116= '1I ' / data format of field: 2-byte INTEGER TTYPE117= 'FODATBMERIT9' / Fom AT BAT Merit Value 9 TFORM117= '1I ' / data format of field: 2-byte INTEGER TTYPE118= 'FODATXMERIT0' / Fom AT XRT Merit Value 0 TFORM118= '1I ' / data format of field: 2-byte INTEGER TTYPE119= 'FODATXMERIT1' / Fom AT XRT Merit Value 1 TFORM119= '1I ' / data format of field: 2-byte INTEGER TTYPE120= 'FODATXMERIT2' / Fom AT XRT Merit Value 2 TFORM120= '1I ' / data format of field: 2-byte INTEGER TTYPE121= 'FODATXMERIT3' / Fom AT XRT Merit Value 3 TFORM121= '1I ' / data format of field: 2-byte INTEGER TTYPE122= 'FODATXMERIT4' / Fom AT XRT Merit Value 4 TFORM122= '1I ' / data format of field: 2-byte INTEGER TTYPE123= 'FODATXMERIT5' / Fom AT XRT Merit Value 5 TFORM123= '1I ' / data format of field: 2-byte INTEGER TTYPE124= 'FODATXMERIT6' / Fom AT XRT Merit Value 6 TFORM124= '1I ' / data format of field: 2-byte INTEGER TTYPE125= 'FODATXMERIT7' / Fom AT XRT Merit Value 7 TFORM125= '1I ' / data format of field: 2-byte INTEGER TTYPE126= 'FODATXMERIT8' / Fom AT XRT Merit Value 8 TFORM126= '1I ' / data format of field: 2-byte INTEGER TTYPE127= 'FODATXMERIT9' / Fom AT XRT Merit Value 9 TFORM127= '1I ' / data format of field: 2-byte INTEGER TTYPE128= 'FODATUMERIT0' / Fom AT UVOT Merit Value 0 TFORM128= '1I ' / data format of field: 2-byte INTEGER TTYPE129= 'FODATUMERIT1' / Fom AT UVOT Merit Value 1 TFORM129= '1I ' / data format of field: 2-byte INTEGER TTYPE130= 'FODATUMERIT2' / Fom AT UVOT Merit Value 2 TFORM130= '1I ' / data format of field: 2-byte INTEGER TTYPE131= 'FODATUMERIT3' / Fom AT UVOT Merit Value 3 TFORM131= '1I ' / data format of field: 2-byte INTEGER TTYPE132= 'FODATUMERIT4' / Fom AT UVOT Merit Value 4 TFORM132= '1I ' / data format of field: 2-byte INTEGER TTYPE133= 'FODATUMERIT5' / Fom AT UVOT Merit Value 5 TFORM133= '1I ' / data format of field: 2-byte INTEGER TTYPE134= 'FODATUMERIT6' / Fom AT UVOT Merit Value 6 TFORM134= '1I ' / data format of field: 2-byte INTEGER TTYPE135= 'FODATUMERIT7' / Fom AT UVOT Merit Value 7 TFORM135= '1I ' / data format of field: 2-byte INTEGER TTYPE136= 'FODATUMERIT8' / Fom AT UVOT Merit Value 8 TFORM136= '1I ' / data format of field: 2-byte INTEGER TTYPE137= 'FODATUMERIT9' / Fom AT UVOT Merit Value 9 TFORM137= '1I ' / data format of field: 2-byte INTEGER TTYPE138= 'FODATREQMERIT0' / Last AT Request Merit Value 0 TFORM138= '1I ' / data format of field: 2-byte INTEGER TTYPE139= 'FODATREQMERIT1' / Last AT Request Merit Value 1 TFORM139= '1I ' / data format of field: 2-byte INTEGER TTYPE140= 'FODATREQMERIT2' / Last AT Request Merit Value 2 TFORM140= '1I ' / data format of field: 2-byte INTEGER TTYPE141= 'FODATREQMERIT3' / Last AT Request Merit Value 3 TFORM141= '1I ' / data format of field: 2-byte INTEGER TTYPE142= 'FODATREQMERIT4' / Last AT Request Merit Value 4 TFORM142= '1I ' / data format of field: 2-byte INTEGER TTYPE143= 'FODATREQMERIT5' / Last AT Request Merit Value 5 TFORM143= '1I ' / data format of field: 2-byte INTEGER TTYPE144= 'FODATREQMERIT6' / Last AT Request Merit Value 6 TFORM144= '1I ' / data format of field: 2-byte INTEGER TTYPE145= 'FODATREQMERIT7' / Last AT Request Merit Value 7 TFORM145= '1I ' / data format of field: 2-byte INTEGER TTYPE146= 'FODATREQMERIT8' / Last AT Request Merit Value 8 TFORM146= '1I ' / data format of field: 2-byte INTEGER TTYPE147= 'FODATREQMERIT9' / Last AT Request Merit Value 9 TFORM147= '1I ' / data format of field: 2-byte INTEGER TTYPE148= 'FODINSTCMDCNT' / FoM Inst Cmd Accept count TFORM148= '1B ' / data format of field: BYTE TTYPE149= 'FODINSTCMDREJ' / FoM Inst Cmd Reject count TFORM149= '1B ' / data format of field: BYTE EXTNAME = 'hk1e2x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894114.37256 TSTOP = 713895003.07264 DATE-OBS= '2023-08-16T15:55:09' DATE-END= '2023-08-16T16:09:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 888.700079917908 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 482 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3eWj6eUi3eUi3eUi' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2303184349' / data unit checksum updated 2023-08-26T08:43:46 COMMENT Column 77 = FODOTISABORTED - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 78 = FODUPDASSNEED - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 79 = FODSLEWINQSTAT - Discrete value COMMENT 0 = NEEDASSESS = Slew Inquiry Assessment Needed COMMENT 1 = SENT = Slew Inquiry Sent - awaiting Reply COMMENT 2 = SIACQ = Slew Inquiry ACQ COMMENT 3 = SINACQ = Slew Inquiry NACQ COMMENT 4 = BADSI = Reply indicates Bad Slew Inquiry COMMENT 5 = BADREPLY = Bad Slew Inquiry Received COMMENT 6 = INQTIMEOUT = Slew Inquiry Time out with no Reply COMMENT 7 = NONE = No Slew Inquiry Needed COMMENT 8 = SLEWDISA = Fom Slew Mode Disabled COMMENT 9 = ERROR = Error COMMENT 10 = BADSITARG = Slew Info Reply is for wrong ObsNum COMMENT 11 = UNREQUESTEDREPLY = Slew Info Reply Received without Request COMMENT Column 80 = FODSLEWREQSTAT - Discrete value COMMENT 0 = NEEDASSESS = Slew Request Assessment Needed COMMENT 1 = SENT = Slew Request Sent - awaiting Reply COMMENT 2 = ACQ = Slew Reply ACQ rcvd - awaiting slew COMMENT 3 = NACQ = Slew Reply NACQ received COMMENT 4 = BADSR = Reply indicates Bad Slew Request COMMENT 5 = BADREPLY = Bad Slew Request Received COMMENT 6 = REQTIMEOUT = Slew Request Time out with no Reply COMMENT 7 = SLEWTIMEOUT = Slew Start Time out after Reply ACQ COMMENT 8 = NEWOT = Requested Target Is New Obs Target COMMENT 9 = SLEWERROR = Slewing to wrong target COMMENT 10 = NONE = No Slew Request Needed COMMENT 11 = SLEWDISA = Fom Slew Mode Disabled COMMENT 12 = ERROR = Error COMMENT 13 = SLEWABORT = No Slew - Aborted COMMENT 14 = BADSRTARG = Slew Reply is for wrong ObsNum COMMENT 15 = SLEWING = ACS is slewing COMMENT 16 = UNREQUESTEDREPLY = Slew Reply Received without Request COMMENT 17 = SETTLETIMEOUT = SC Still Slewing after excessive wait COMMENT Column 81 = FODSLEWMODSTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 82 = FODATMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 83 = FODPPTMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 84 = FODATTARGSTAT - Discrete value COMMENT 0 = NONE = No Target Exists COMMENT 1 = UNK = Target InView Status Unknown COMMENT 2 = OUTOFVIEW = Target is Currently OutOfView COMMENT 3 = INVIEW = Target is Currently InView COMMENT Column 85 = FODPPTTARGSTAT - Discrete value COMMENT 0 = NONE = No Target Exists COMMENT 1 = UNK = Target InView Status Unknown COMMENT 2 = OUTOFVIEW = Target is Currently OutOfView COMMENT 3 = INVIEW = Target is Currently InView COMMENT Column 86 = FODLASTSRATSLW - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 87 = FODLASTSIATSLW - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 90 = FODACSSETTLED - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 91 = FODACSIN10AMIN - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 92 = FODACSINSAA - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 93 = FODACSSAFEMODE - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description COMMENT Column 94 = FODAISLEWSTATE - Discrete value COMMENT 0 = ERROR = ACS Info Slew State Error COMMENT 1 = SLEWING = ACS Info Slewing and not within 10 ArcMin of Target COMMENT 2 = IN10ARCMIN = ACS Info Slewing and within 10 ArcMin of Target COMMENT 3 = SETTLED = ACS Info Settled on Target COMMENT 4 = SAFEMODE = ACS Info SC Safemode COMMENT 5 = InSAA = ACS Info In SAA COMMENT 6 = OutOfSAA = ACS Info Outside SAA COMMENT Column 95 = FODOTTARGTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 96 = FODATTARGTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 97 = FODATREQTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type HISTORY TASK: FAPPND on FILENAME: sw01185673000b1e2x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�q/��>�B�� ڀ(��ЩC�7+B"�A��>�B�� ـC�7+B"�A��(��Щ��?FB�Ct�`��C��>�C�7+B"�A��C8��h8RC�bN�>�C�7+B"�A�� ڀ��C8��h8RC�bN��/�>�C��B"�WA�3�̀7܀��?��p��?��9A�F�CsC�>�B��F��(�C�7+B"�A��>�B��E�C�7+B"�A��(��?FB�Ct�`��C��>�C�7+B"�A��C8��h8RC�bN�>�C�7+B"�A�� ڀ��C8��h8RC�bN��/�>�C�5YB" �A��܀̀7܀��?��p��?��9A�F�-�LD��B��z��,?C�/�BPc@F��>�B��p�C�7+B"�A��w��(��B��yC�/�BPc@F��,?��B�C�/�BPc��C�/�BPc��C8��h8RC�bN��C�/�BPc@F��z��C8��h8RC�bN��/��C��ZB��A�/��̀7܀��?��9��>��>XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 3 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk216x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894135.27806 TSTOP = 713894981.08274 DATE-OBS= '2023-08-16T15:55:30' DATE-END= '2023-08-16T16:09:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 845.804679989815 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 534 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3eVp5ZTm3bTm3ZTm' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2220530888' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b216x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�{��xA�F� ܚVA�F�"��9XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 2 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk217x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894130.21886 TSTOP = 713894474.96438 DATE-OBS= '2023-08-16T15:55:25' DATE-END= '2023-08-16T16:01:09' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 344.745519995689 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 535 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'AAaaB1ZVA8aaA8YU' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '572653971' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b217x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�y�A�F�%{p�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 5 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk21ax001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894128.6411 TSTOP = 713894979.33262 DATE-OBS= '2023-08-16T15:55:23' DATE-END= '2023-08-16T16:09:34' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 850.691519975662 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 538 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '7UNIARMH8RMHARMH' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2725519496' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b21ax001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�xR�A�F�z�|A�F�$��A�F� �A�F�!��KXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 117 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk21cx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894200.62744 TSTOP = 713896247.6417 DATE-OBS= '2023-08-16T15:56:35' DATE-END= '2023-08-16T16:30:42' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2047.01426005363 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 540 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '5MP6AJN57JN5AJN5' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '2976416659' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b21cx001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F��PO�A�F��a� A�F��ŬA�F��X�A�F��j�IA�F��l"A�F��S��A�F��e<6A�F��A�F��\�A�F��m�A�F��A�F�V7�A�F�g�:A�F��,A�F�TZA�F� J!�A�F� [�aA�F�"�[A�F�#>T A�F�#�[�A�F��6�A�F�\W�=A�F�\i��A�F�^�V�A�F�_\*A�F�|S�GA�F�|eY�A�F�~�KsA�F�$(�A�F��W�A�F��i� A�F��X:A�F��^]:A�F��pA�F��A�F��2�A�F��DHkA�F��A�F��7��A�F��Q6�A�F��b�FA�F��8A�F��Pv�A�F��1A�F��A�F��'uA�F�d�A�F�u��A�F��smA�F�RZGA�F�U��A�F��A�F�D��A�F��d�A�F��A�F��A�F� fA�F�r�mA�F�!�Y�A�F�W��A�F�i��A�F��,A�F�$`7 A�F�$q�qA�F�&��cA�F�72�)A�F�769.A�F�9� A�F�Xf�+A�F�Xx��A�F�Z�^�A�F�xb�nA�F�xt<�A�F�z�L�A�F�{S2�A�F��A�F��}A�F��5kfA�F��csA�F��A�F��L�mA�F��^r�A�F��E$A�F��YP�A�F��i�ZA�F��A�F��a�{A�F��sn/A�F��A A�F��f�XA�F��x!lA�F��A�F��h},A�F�b�vA�F�s�^A�F��q�A�F�8a/oA�F�8rA�F�:��A�F�;d}�A�F�<3R�A�F��A�F�XZ��A�F�Xl3rA�F�Z��A�F�xkk�A�F�x|�A�F�{�A�F��b�8A�F��t6A�F��M+A�F��f�XA�F��#:XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 269 / width of table in bytes NAXIS2 = 35 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 82 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDICTOBSSEG' / Observation Segment Number TFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BDICTTARGID' / Target ID Number TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BDICTSCIMET' / MET, as known by the sci FSW TFORM4 = '1D ' / data format of field: 8-byte DOUBLE TUNIT4 = 's ' / physical unit of field TTYPE5 = 'BDICTSCIUTC' / UTC Correlation Factor TFORM5 = '1D ' / data format of field: 8-byte DOUBLE TTYPE6 = 'BDICNORMEV' / Count of this packet type TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BDICMULTIEV' / Count of this packet type TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BDICCALIBEV' / Count of this packet type TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BDICCALIBSHORTEV' / Count of this packet type TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BDICTIME10MS' / Count of this packet type TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BDICBLOCKCHANGE' / Count of this packet type TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BDICBLOCKEVCOUNT' / Count of this packet type TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BDICTIMEECHO' / Count of this packet type TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BDICCOMMANDVERIF' / Count of this packet type TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BDICBCDHSTATUS' / Count of this packet type TFORM15 = '1J ' / data format of field: 4-byte INTEGER TZERO15 = 2147483648 / offset for unsigned integers TTYPE16 = 'BDICBCDHBIAS' / Count of this packet type TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BDICBCDHVOLTAGEC' / Count of this packet type TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BDICDMPOWER' / Count of this packet type TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BDICBCDHPOWER' / Count of this packet type TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BDICBCDHTEMPERAT' / Count of this packet type TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BDICBCDHVOLTAGER' / Count of this packet type TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'BDICBCDHVERSION' / Count of this packet type TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BDICBCDHHVMON' / Count of this packet type TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BDICBCDHPARITYER' / Count of this packet type TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BDICBCDHDMCOMMEX' / Count of this packet type TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BDICBCDHCOMMEXCE' / Count of this packet type TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BDICBCDHALARM' / Count of this packet type TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BDICBCDHSPARE' / Count of this packet type TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BDICDMCMDVERIFY' / Count of this packet type TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BDICDMMODECHANGE' / Count of this packet type TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BDICDMSTATUS' / Count of this packet type TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BDICDMHK' / Count of this packet type TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BDICDMCOUNTS' / Count of this packet type TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BDICDMCOEF' / Count of this packet type TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BDICDMPARAMS' / Count of this packet type TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BDICDMCCR1' / Count of this packet type TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BDICDMCCR2' / Count of this packet type TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BDICDMDSR1' / Count of this packet type TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BDICDMDSR2' / Count of this packet type TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BDICDMXSR1' / Count of this packet type TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BDICDMXSR2' / Count of this packet type TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BDICDMXSR3' / Count of this packet type TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BDICDMXSR4' / Count of this packet type TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BDICDMALARM' / Count of this packet type TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BDICDMTSRCCNT' / Count of this packet type TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BDICDMSPARE' / Count of this packet type TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BDICMICDATAERROR' / Count of this packet type TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BDICCONTPACKET' / Count of this packet type TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BDICFASSERT' / Unspecified assertion failure. TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BDICFCONTPACKET' / The next packet to process is a continuation woTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BDICFSHORTPACKET' / Packet length too short. TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BDICFBADPACKET' / Packet has other trouble. TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BDICFMS1010' / The 10 ms counter went to 101 or more. TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDICFTIME' / Time is non-consecutive. TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDICFMETINFO' / Something wrong with MET info. TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BDICFOCTSEC' / Something is wrong with the 8-second scheduler.TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BDICFSURVEYCYCLE' / Something is wrong with the SurveyCycle schedulTFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BDICFNOSURVEYFRE' / There is no Survey data structure available. TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 32768 / offset for unsigned integers TTYPE59 = 'BDICFUNCLEARABLE' / A data type could not be cleared. TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BDICFBADBLOCKNUM' / Block number not in expected range. TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BDICFAM241SPECTN' / Spectrum is not cleared. TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BDICFRATEHANDLER' / The Rate Handler wasn't called often enough. TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDICFDUMP' / Something unexpected happened in the dump proceTFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDICFFILEWRITE' / Fault during file write. TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BDICFFILEREAD' / Fault during file read. TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BDICFREACTIVATED' / Object being reactivated during telemetry. TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BDICFPUNTMAX' / Maximum calculation overflowed, punting. TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BDICFCALIBTIMEOU' / Timeout error during calibration. TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BDICFCALIBBADSTA' / Calibration found bad state. TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BDICFCALIBABANDO' / Calibration abandoned. TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BDICFGAINOFFNOTF' / No free gain/offset object available. TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BDICFPACKINGFAIL' / Fault packing detector map. TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BDICFIMAGELOSS' / Image result returned is not for most recent imTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'BDICFNOIMPROVEDT' / Improved trigger expected, but not found. TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BDICFKILLWRONGTR' / Trigger ended is not the current trigger. TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'BDICFOBSOLETERAT' / Trying to look at di_ratehandler rates that areTFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 32768 / offset for unsigned integers TTYPE77 = 'BDICFBADTRIGGERC' / Bad trigger criterion. TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 32768 / offset for unsigned integers TTYPE78 = 'BDICFNOACS' / No ACS data for relevant time. TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 32768 / offset for unsigned integers TTYPE79 = 'BDICFSOURCETABLE' / Something wrong with source table. TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BDICFDSP' / DSP found something wrong. TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 32768 / offset for unsigned integers TTYPE81 = 'BDICFINACTIVEBLO' / Inactive block incompatible with /bdiset MACTBLTFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 32768 / offset for unsigned integers TTYPE82 = 'BDICFCOMMANDABLE' / Invalid access to commandable value TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 32768 / offset for unsigned integers EXTNAME = 'hk220x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894097.8255 TSTOP = 713896256.13852 DATE-OBS= '2023-08-16T15:54:52' DATE-END= '2023-08-16T16:30:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371800000000 / [s] UTCF at TSTART TELAPSE = 2158.31301999092 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 544 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '0Tka0SjT0SjY0SjY' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '603633223' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b220x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TNULL26 = 2147483647 TNULL8 = 2147483647 TNULL29 = 2147483647 TNULL47 = 2147483647 TNULL36 = 2147483647 TNULL46 = 2147483647 TNULL30 = 2147483647 TNULL15 = 2147483647 TNULL66 = 32767 TNULL73 = 32767 TNULL69 = 32767 TNULL57 = 32767 TNULL56 = 32767 TNULL9 = 2147483647 TNULL72 = 32767 TNULL31 = 2147483647 TNULL39 = 2147483647 TNULL67 = 32767 TNULL45 = 2147483647 TNULL14 = 2147483647 TNULL64 = 32767 TNULL68 = 32767 TNULL51 = 32767 TNULL40 = 2147483647 TNULL11 = 2147483647 TNULL17 = 2147483647 TNULL74 = 32767 TNULL18 = 2147483647 TNULL21 = 2147483647 TNULL58 = 32767 TNULL33 = 2147483647 TNULL38 = 2147483647 TNULL28 = 2147483647 TNULL3 = 2147483647 TNULL16 = 2147483647 TNULL59 = 32767 TNULL32 = 2147483647 TNULL65 = 32767 TNULL60 = 32767 TNULL13 = 2147483647 TNULL80 = 32767 TNULL48 = 2147483647 TNULL61 = 32767 TNULL75 = 32767 TNULL23 = 2147483647 TNULL42 = 2147483647 TNULL76 = 32767 TNULL20 = 2147483647 TNULL50 = 32767 TNULL35 = 2147483647 TNULL41 = 2147483647 TNULL25 = 2147483647 TNULL10 = 2147483647 TNULL22 = 2147483647 TNULL24 = 2147483647 TNULL19 = 2147483647 TNULL77 = 32767 TNULL53 = 32767 TNULL78 = 32767 TNULL6 = 2147483647 TNULL55 = 32767 TNULL44 = 2147483647 TNULL52 = 32767 TNULL81 = 32767 TNULL70 = 32767 TNULL62 = 32767 TNULL82 = 32767 TNULL27 = 2147483647 TNULL12 = 2147483647 TNULL79 = 32767 TNULL7 = 2147483647 TNULL37 = 2147483647 TNULL43 = 2147483647 TNULL71 = 32767 TNULL63 = 32767 TNULL54 = 32767 TNULL34 = 2147483647 TNULL49 = 32767 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�h��>�A�F�`Ap��!��B�h��Gm��)��+V0�BP`�zp�%�%�zp�zp�zp�%�zp�%��| �*V�G��P�P�P�P�P�P�P�P�P�P�P��P�� d��\��A�F��2��>�A�F��Ap��%�)!�B�o��Gm��;��s�+ ��+Z0�BV@�zЀ%�%�zЀzЀzЀ%�zЀ%��|4"�*V�G�� P�P�P�P�P�P�P�P�P�P�P��P�� e��\��A�F��sm�>�A�F��Ap��%�0��B�Ҁ�Gm��ˠ��@�,��+^0�B]�{P�%�%�{P�{P�{P�%�{P�%��|b"�*V�G��Q�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q��Q�� e��\��A�F��h��>�A�F��Ap��%�7��Ca��Gm��[��~��.�+b0�Bb��{��%�%�{��{��{��%�{��%��|�"�*V�G��%�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q��Q�� e��\��A�F�� y)�>�A�F��Ap��%�=��C8��Gm��렂��0慀+f0�Bh��|�%�%�|�|�|�%�|�%��|�"�*V�G��2�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q��Q�� e��\��A�F�FJ�>�A�F�Ap��,�D��Cb2��Gm��{��2څ�+j0�Bn��|��%�%�|��|��|��%�|��%��|�"�*V�G��>�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q�Q��Q�� e��\��A�F� /8�>�A�F� Ap��,�K��C��Gm��:7�4΅�+n0�Bu`�|��% �% �|��|��|��% �|��% ��|�$�*V�G��L�R�R�R�R�R�R�R�R�R�R�R��R�� e��\��A�F�@`��>�A�F�@Ap��,�R��C�6��Gm��x��6�+r0�B{��}`�% �% �}`�}`�}`�% �}`�% ��}$�*V�G��Y�R�R�R�R�R�R�R�R�R�R�R��R�� e��\��A�F�` ��>�A�F�`Ap��,�Y�r�Cظ��Gm��+��7�8��+v0�B�p�}��% �% �}��}��}��% �}��% ��}0$�*V�G��f�R�R�R�R�R�R�R�R�R�R�R��R�� e��\��A�F��X:�>�A�F��Ap��,�`k~�C��Gm��:��+z0�B�P�~ �% �% �~ �~ �~ �% �~ �% ��}P$�*V�G��s�R�R�R�R�R�R�R�R�R�R�R��R�� e��\��A�F��h �>�A�F��Ap��4�g0��D%��Gm��K��4W�<��+~0�B��~��%0�%0�~��~��~��%0�~��%0��}~$�*V�G��S�S�S�S�S�S�S�S�S�S�S��S�� e��\��A�F��>�A�F��Ap��4�m�قDK��Gm��۠��rו>��+�0�B��%0�%0��%0��%0��}�$�*V�G��S�S�S�S�S�S�S�S�S�S�S��S�� e��\��A�F��>�A�F��Ap��4�t�h�Dp؀�Gm�k��W�@��+�0�B� �p�%0�%0�p�p�p�%0�p�%0��}�$�*V�G��S�S�S�S�S�S�S�S�S�S�S��S�� e��\��A�F�S��>�A�F�Ap��4�{?�D��Gm��וBz��+�0�B��Ѐ%0�%0�ЀЀЀ%0�Ѐ%0��}�$�*V�G��S�S�S�S�S�S�S�S�S�S�S��S�� e��\��A�F� ��>�A�F� Ap��;Ԃa�D�9��Gm��.W�Dn��+�0�B��0�%0�%0��0��0��0�%0��0�%0��}�$�*V�H��S�S�S�S�S�S�S�S�S�S�S��S�� e��\��A�F�@ ��A�F�@Ap��;Ԉ�#�D�v��Gm��l�Fbm�+�0�B��%@�%@��%@��%@��~*$�*V�H��T�T�T�T�T�T�T�T�T�S�S��T�� f��\��A�F�`+��A�F�`Ap��;ԏ��E��Gm��x�HV��+�0�B��%@�%@��%@��%@��~L$�*V�H��T�T�T�T�T�T�T�T�T�T�T��T�� f��\��A�F�� w��A�F��Ap��;Ԗ`�E'��Gm�;��JJ��+�0�B��%@�%@��%@��%@��~l$�*V�H��T�T�T�T�T�T�T�T�T�T�T��T�� f��\��A�F�� A�F��Ap��;ԝ-�EK��Gm� ˯��(x�L>��+�0�B��%@�%@��%@��%@��~�$�*V�H��T�T�T�T�T�T�T�T�T�T�T��T�� f��\��A�F�� A�F��Ap��Bԣՙ�Eop��Gm�[��f��N2��+�0�B�p��@�%@�%@��@��@��@�%@��@�%@��~�$�*V�H$��T�T�T�T�T�T�T�T�T�T�T��T�� f��\��A�F��A�F��Ap��BԪ�%�E�X��Gm�믂��P&��+�0�B�0��%P�%P��%P��%P��~�$�*V�H,��U�U�U�U�U�U�U�U�U�U�U��U�� f��\��A�F�֡��A�F�Ap��BԱO��E��Gm�{��(�R��+�0�B�� %P�%P�� %P�� %P��~�$�*V�H2��U�U�U�U�U�U�U�U�U�U�U��U�� f��\��A�F� F_��A�F� Ap��BԸ��E��Gm��"��T��+�0�B�@��%P�%P��%P��%P��$�*V�H9��U�U�U�U�U�U�U�U�U�U�U��U�� f��\��A�F�@*0��A�F�@Ap��BԾ�΂E��Gm��a(�V��+�0�B� ��%P�%P��%P��%P��:$�*V�H?��)�U�U�U�U�U�U�U�U�U�U�U��U�� f��\��A�F�`G��A�F�`Ap��I�œ_�F%��Gm�+��W��+�0�B��P�%P�%P��P��P��P�%P��P�%P��Z$�*V�HE��6�U�U�U�U�U�U�U�U�U�U�U��U�� f��\��A�F��A�F��Ap��I��L��FI��Gm��I�Yꖀ+�0�B��Ѐ%`�%`��Ѐ�Ѐ�Ѐ%`��Ѐ%`��$�*V�HM��C�V�V�V�V�V�V�V�V�V�V�V��V�� f��\��A�F��A�F��Ap��I��8�Fm��Gm�K��ɕ[ޣ�+�0�B�0�%`�%`��0��0��0�%`��0�%`��$�*V�HS��P�V�V�V�V�V�V�V�V�V�V�V��V�� f��\��A�F��A�F��Ap��I�٬i�F�K��Gm�ۯ��[I�]ң�+�0�B�Ѐ��%`�%`��%`��%`��$�*V�HZ��]�V�V�V�V�V�V�V�V�V�V�V��V�� f��\��A�F��&��A�F��Ap��kQ��XނF��Gm�k��ɕ_ƣ�+�0�B��%`�%`��%`��%`��$�*V�H`��j�V�V�V�V�V�V�V�V�V�V�V��V�� f��\��A�F�V��A�F�Ap��kQ��.�F�Ā�Gm��I�a��+�0�C��`�%`�%`��`��`��`�%`��`�%`��$�*V�Hf��w�V�V�V�V�V�V�V�V�V�V�V��V�� f��\��A�F� ��A�F� Ap��kQ��F��Gm��c��+�0�CP��%p�%p��%p��%p��6$�*V�Hn��W�W�W�W�W�W�W�W�W�W�W��W�� f��\��A�F�@��A�F�@Ap��kQ��N��G"��Gm��Ui�e��+�0�C0��@�%p�%p��@��@��@�%p��@�%p��V$�*V�Ht��W�W�W�W�W�W�W�W�W�W�W��W�� f��\��A�F�`+��A�F�`Ap��kQ��ꐂGG��Gm��g��+�0�C`��%p�%p��%p��%p��v$�*V�H{��W�W�W�W�W�W�W�W�W�W�W��W�� f��\��A�F�� A�F��Ap��VX��}�Gk��Gm�!;��i�i��+�0�C@��%p�%p��%p��%p��$�*V�H��W�W�W�W�W�W�W�W�W�W�W��W�� f��\��A�F��A�F��Ap��VX�=�G��Gm�"˾�� k~��+�0�C ��%��%��%��%��$�*V�H��X�X�X�X�X�X�X�X�X�X�X��X�� f��\��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 552 / width of table in bytes NAXIS2 = 55 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 545 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDIXVBV00' / BCDH Cmd Verifies counter TFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BDIXVBV01' / BCDH Cmd Verifies counter TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BDIXVBV02' / BCDH Cmd Verifies counter TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BDIXVBV03' / BCDH Cmd Verifies counter TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BDIXVBV04' / BCDH Cmd Verifies counter TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BDIXVBV05' / BCDH Cmd Verifies counter TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BDIXVBV06' / BCDH Cmd Verifies counter TFORM8 = '1B ' / data format of field: BYTE TTYPE9 = 'BDIXVBV07' / BCDH Cmd Verifies counter TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BDIXVBV08' / BCDH Cmd Verifies counter TFORM10 = '1B ' / data format of field: BYTE TTYPE11 = 'BDIXVBV09' / BCDH Cmd Verifies counter TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BDIXVBV10' / BCDH Cmd Verifies counter TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BDIXVBV11' / BCDH Cmd Verifies counter TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BDIXVBV12' / BCDH Cmd Verifies counter TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BDIXVBV13' / BCDH Cmd Verifies counter TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BDIXVBV14' / BCDH Cmd Verifies counter TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDIXVBV15' / BCDH Cmd Verifies counter TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDIXVBX00' / BCDH Cmd Exceptions counter TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDIXVBX01' / BCDH Cmd Exceptions counter TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDIXVBX02' / BCDH Cmd Exceptions counter TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDIXVBX03' / BCDH Cmd Exceptions counter TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDIXVBX04' / BCDH Cmd Exceptions counter TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDIXVBX05' / BCDH Cmd Exceptions counter TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDIXVBX06' / BCDH Cmd Exceptions counter TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDIXVBX07' / BCDH Cmd Exceptions counter TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BDIXVBX08' / BCDH Cmd Exceptions counter TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BDIXVBX09' / BCDH Cmd Exceptions counter TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BDIXVBX10' / BCDH Cmd Exceptions counter TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDIXVBX11' / BCDH Cmd Exceptions counter TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDIXVBX12' / BCDH Cmd Exceptions counter TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BDIXVBX13' / BCDH Cmd Exceptions counter TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BDIXVBX14' / BCDH Cmd Exceptions counter TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BDIXVBX15' / BCDH Cmd Exceptions counter TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BDIXVDV00_00' / DM Cmd Verifies counter TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BDIXVDV00_01' / DM Cmd Verifies counter TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BDIXVDV00_02' / DM Cmd Verifies counter TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDIXVDV00_03' / DM Cmd Verifies counter TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BDIXVDV00_04' / DM Cmd Verifies counter TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BDIXVDV00_05' / DM Cmd Verifies counter TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BDIXVDV00_06' / DM Cmd Verifies counter TFORM40 = '1B ' / data format of field: BYTE TTYPE41 = 'BDIXVDV00_07' / DM Cmd Verifies counter TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BDIXVDV00_08' / DM Cmd Verifies counter TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BDIXVDV00_09' / DM Cmd Verifies counter TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BDIXVDV00_10' / DM Cmd Verifies counter TFORM44 = '1B ' / data format of field: BYTE TTYPE45 = 'BDIXVDV00_11' / DM Cmd Verifies counter TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BDIXVDV00_12' / DM Cmd Verifies counter TFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BDIXVDV00_13' / DM Cmd Verifies counter TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BDIXVDV00_14' / DM Cmd Verifies counter TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BDIXVDV00_15' / DM Cmd Verifies counter TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BDIXVDV01_00' / DM Cmd Verifies counter TFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BDIXVDV01_01' / DM Cmd Verifies counter TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BDIXVDV01_02' / DM Cmd Verifies counter TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BDIXVDV01_03' / DM Cmd Verifies counter TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BDIXVDV01_04' / DM Cmd Verifies counter TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BDIXVDV01_05' / DM Cmd Verifies counter TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BDIXVDV01_06' / DM Cmd Verifies counter TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'BDIXVDV01_07' / DM Cmd Verifies counter TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BDIXVDV01_08' / DM Cmd Verifies counter TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BDIXVDV01_09' / DM Cmd Verifies counter TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BDIXVDV01_10' / DM Cmd Verifies counter TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BDIXVDV01_11' / DM Cmd Verifies counter TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BDIXVDV01_12' / DM Cmd Verifies counter TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BDIXVDV01_13' / DM Cmd Verifies counter TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BDIXVDV01_14' / DM Cmd Verifies counter TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BDIXVDV01_15' / DM Cmd Verifies counter TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BDIXVDV02_00' / DM Cmd Verifies counter TFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'BDIXVDV02_01' / DM Cmd Verifies counter TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BDIXVDV02_02' / DM Cmd Verifies counter TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BDIXVDV02_03' / DM Cmd Verifies counter TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BDIXVDV02_04' / DM Cmd Verifies counter TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BDIXVDV02_05' / DM Cmd Verifies counter TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BDIXVDV02_06' / DM Cmd Verifies counter TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'BDIXVDV02_07' / DM Cmd Verifies counter TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BDIXVDV02_08' / DM Cmd Verifies counter TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BDIXVDV02_09' / DM Cmd Verifies counter TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BDIXVDV02_10' / DM Cmd Verifies counter TFORM76 = '1B ' / data format of field: BYTE TTYPE77 = 'BDIXVDV02_11' / DM Cmd Verifies counter TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BDIXVDV02_12' / DM Cmd Verifies counter TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'BDIXVDV02_13' / DM Cmd Verifies counter TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BDIXVDV02_14' / DM Cmd Verifies counter TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'BDIXVDV02_15' / DM Cmd Verifies counter TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BDIXVDV03_00' / DM Cmd Verifies counter TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BDIXVDV03_01' / DM Cmd Verifies counter TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BDIXVDV03_02' / DM Cmd Verifies counter TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BDIXVDV03_03' / DM Cmd Verifies counter TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BDIXVDV03_04' / DM Cmd Verifies counter TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BDIXVDV03_05' / DM Cmd Verifies counter TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BDIXVDV03_06' / DM Cmd Verifies counter TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'BDIXVDV03_07' / DM Cmd Verifies counter TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BDIXVDV03_08' / DM Cmd Verifies counter TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BDIXVDV03_09' / DM Cmd Verifies counter TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BDIXVDV03_10' / DM Cmd Verifies counter TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'BDIXVDV03_11' / DM Cmd Verifies counter TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BDIXVDV03_12' / DM Cmd Verifies counter TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BDIXVDV03_13' / DM Cmd Verifies counter TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BDIXVDV03_14' / DM Cmd Verifies counter TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'BDIXVDV03_15' / DM Cmd Verifies counter TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BDIXVDV04_00' / DM Cmd Verifies counter TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'BDIXVDV04_01' / DM Cmd Verifies counter TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BDIXVDV04_02' / DM Cmd Verifies counter TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'BDIXVDV04_03' / DM Cmd Verifies counter TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BDIXVDV04_04' / DM Cmd Verifies counter TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'BDIXVDV04_05' / DM Cmd Verifies counter TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BDIXVDV04_06' / DM Cmd Verifies counter TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BDIXVDV04_07' / DM Cmd Verifies counter TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BDIXVDV04_08' / DM Cmd Verifies counter TFORM106= '1B ' / data format of field: BYTE TTYPE107= 'BDIXVDV04_09' / DM Cmd Verifies counter TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BDIXVDV04_10' / DM Cmd Verifies counter TFORM108= '1B ' / data format of field: BYTE TTYPE109= 'BDIXVDV04_11' / DM Cmd Verifies counter TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BDIXVDV04_12' / DM Cmd Verifies counter TFORM110= '1B ' / data format of field: BYTE TTYPE111= 'BDIXVDV04_13' / DM Cmd Verifies counter TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BDIXVDV04_14' / DM Cmd Verifies counter TFORM112= '1B ' / data format of field: BYTE TTYPE113= 'BDIXVDV04_15' / DM Cmd Verifies counter TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BDIXVDV05_00' / DM Cmd Verifies counter TFORM114= '1B ' / data format of field: BYTE TTYPE115= 'BDIXVDV05_01' / DM Cmd Verifies counter TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BDIXVDV05_02' / DM Cmd Verifies counter TFORM116= '1B ' / data format of field: BYTE TTYPE117= 'BDIXVDV05_03' / DM Cmd Verifies counter TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BDIXVDV05_04' / DM Cmd Verifies counter TFORM118= '1B ' / data format of field: BYTE TTYPE119= 'BDIXVDV05_05' / DM Cmd Verifies counter TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BDIXVDV05_06' / DM Cmd Verifies counter TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BDIXVDV05_07' / DM Cmd Verifies counter TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BDIXVDV05_08' / DM Cmd Verifies counter TFORM122= '1B ' / data format of field: BYTE TTYPE123= 'BDIXVDV05_09' / DM Cmd Verifies counter TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BDIXVDV05_10' / DM Cmd Verifies counter TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'BDIXVDV05_11' / DM Cmd Verifies counter TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BDIXVDV05_12' / DM Cmd Verifies counter TFORM126= '1B ' / data format of field: BYTE TTYPE127= 'BDIXVDV05_13' / DM Cmd Verifies counter TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BDIXVDV05_14' / DM Cmd Verifies counter TFORM128= '1B ' / data format of field: BYTE TTYPE129= 'BDIXVDV05_15' / DM Cmd Verifies counter TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BDIXVDV06_00' / DM Cmd Verifies counter TFORM130= '1B ' / data format of field: BYTE TTYPE131= 'BDIXVDV06_01' / DM Cmd Verifies counter TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BDIXVDV06_02' / DM Cmd Verifies counter TFORM132= '1B ' / data format of field: BYTE TTYPE133= 'BDIXVDV06_03' / DM Cmd Verifies counter TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BDIXVDV06_04' / DM Cmd Verifies counter TFORM134= '1B ' / data format of field: BYTE TTYPE135= 'BDIXVDV06_05' / DM Cmd Verifies counter TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BDIXVDV06_06' / DM Cmd Verifies counter TFORM136= '1B ' / data format of field: BYTE TTYPE137= 'BDIXVDV06_07' / DM Cmd Verifies counter TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BDIXVDV06_08' / DM Cmd Verifies counter TFORM138= '1B ' / data format of field: BYTE TTYPE139= 'BDIXVDV06_09' / DM Cmd Verifies counter TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BDIXVDV06_10' / DM Cmd Verifies counter TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BDIXVDV06_11' / DM Cmd Verifies counter TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BDIXVDV06_12' / DM Cmd Verifies counter TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BDIXVDV06_13' / DM Cmd Verifies counter TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BDIXVDV06_14' / DM Cmd Verifies counter TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BDIXVDV06_15' / DM Cmd Verifies counter TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BDIXVDV07_00' / DM Cmd Verifies counter TFORM146= '1B ' / data format of field: BYTE TTYPE147= 'BDIXVDV07_01' / DM Cmd Verifies counter TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BDIXVDV07_02' / DM Cmd Verifies counter TFORM148= '1B ' / data format of field: BYTE TTYPE149= 'BDIXVDV07_03' / DM Cmd Verifies counter TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BDIXVDV07_04' / DM Cmd Verifies counter TFORM150= '1B ' / data format of field: BYTE TTYPE151= 'BDIXVDV07_05' / DM Cmd Verifies counter TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BDIXVDV07_06' / DM Cmd Verifies counter TFORM152= '1B ' / data format of field: BYTE TTYPE153= 'BDIXVDV07_07' / DM Cmd Verifies counter TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BDIXVDV07_08' / DM Cmd Verifies counter TFORM154= '1B ' / data format of field: BYTE TTYPE155= 'BDIXVDV07_09' / DM Cmd Verifies counter TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BDIXVDV07_10' / DM Cmd Verifies counter TFORM156= '1B ' / data format of field: BYTE TTYPE157= 'BDIXVDV07_11' / DM Cmd Verifies counter TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BDIXVDV07_12' / DM Cmd Verifies counter TFORM158= '1B ' / data format of field: BYTE TTYPE159= 'BDIXVDV07_13' / DM Cmd Verifies counter TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BDIXVDV07_14' / DM Cmd Verifies counter TFORM160= '1B ' / data format of field: BYTE TTYPE161= 'BDIXVDV07_15' / DM Cmd Verifies counter TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BDIXVDV08_00' / DM Cmd Verifies counter TFORM162= '1B ' / data format of field: BYTE TTYPE163= 'BDIXVDV08_01' / DM Cmd Verifies counter TFORM163= '1B ' / data format of field: BYTE TTYPE164= 'BDIXVDV08_02' / DM Cmd Verifies counter TFORM164= '1B ' / data format of field: BYTE TTYPE165= 'BDIXVDV08_03' / DM Cmd Verifies counter TFORM165= '1B ' / data format of field: BYTE TTYPE166= 'BDIXVDV08_04' / DM Cmd Verifies counter TFORM166= '1B ' / data format of field: BYTE TTYPE167= 'BDIXVDV08_05' / DM Cmd Verifies counter TFORM167= '1B ' / data format of field: BYTE TTYPE168= 'BDIXVDV08_06' / DM Cmd Verifies counter TFORM168= '1B ' / data format of field: BYTE TTYPE169= 'BDIXVDV08_07' / DM Cmd Verifies counter TFORM169= '1B ' / data format of field: BYTE TTYPE170= 'BDIXVDV08_08' / DM Cmd Verifies counter TFORM170= '1B ' / data format of field: BYTE TTYPE171= 'BDIXVDV08_09' / DM Cmd Verifies counter TFORM171= '1B ' / data format of field: BYTE TTYPE172= 'BDIXVDV08_10' / DM Cmd Verifies counter TFORM172= '1B ' / data format of field: BYTE TTYPE173= 'BDIXVDV08_11' / DM Cmd Verifies counter TFORM173= '1B ' / data format of field: BYTE TTYPE174= 'BDIXVDV08_12' / DM Cmd Verifies counter TFORM174= '1B ' / data format of field: BYTE TTYPE175= 'BDIXVDV08_13' / DM Cmd Verifies counter TFORM175= '1B ' / data format of field: BYTE TTYPE176= 'BDIXVDV08_14' / DM Cmd Verifies counter TFORM176= '1B ' / data format of field: BYTE TTYPE177= 'BDIXVDV08_15' / DM Cmd Verifies counter TFORM177= '1B ' / data format of field: BYTE TTYPE178= 'BDIXVDV09_00' / DM Cmd Verifies counter TFORM178= '1B ' / data format of field: BYTE TTYPE179= 'BDIXVDV09_01' / DM Cmd Verifies counter TFORM179= '1B ' / data format of field: BYTE TTYPE180= 'BDIXVDV09_02' / DM Cmd Verifies counter TFORM180= '1B ' / data format of field: BYTE TTYPE181= 'BDIXVDV09_03' / DM Cmd Verifies counter TFORM181= '1B ' / data format of field: BYTE TTYPE182= 'BDIXVDV09_04' / DM Cmd Verifies counter TFORM182= '1B ' / data format of field: BYTE TTYPE183= 'BDIXVDV09_05' / DM Cmd Verifies counter TFORM183= '1B ' / data format of field: BYTE TTYPE184= 'BDIXVDV09_06' / DM Cmd Verifies counter TFORM184= '1B ' / data format of field: BYTE TTYPE185= 'BDIXVDV09_07' / DM Cmd Verifies counter TFORM185= '1B ' / data format of field: BYTE TTYPE186= 'BDIXVDV09_08' / DM Cmd Verifies counter TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BDIXVDV09_09' / DM Cmd Verifies counter TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BDIXVDV09_10' / DM Cmd Verifies counter TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BDIXVDV09_11' / DM Cmd Verifies counter TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BDIXVDV09_12' / DM Cmd Verifies counter TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BDIXVDV09_13' / DM Cmd Verifies counter TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BDIXVDV09_14' / DM Cmd Verifies counter TFORM192= '1B ' / data format of field: BYTE TTYPE193= 'BDIXVDV09_15' / DM Cmd Verifies counter TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BDIXVDV10_00' / DM Cmd Verifies counter TFORM194= '1B ' / data format of field: BYTE TTYPE195= 'BDIXVDV10_01' / DM Cmd Verifies counter TFORM195= '1B ' / data format of field: BYTE TTYPE196= 'BDIXVDV10_02' / DM Cmd Verifies counter TFORM196= '1B ' / data format of field: BYTE TTYPE197= 'BDIXVDV10_03' / DM Cmd Verifies counter TFORM197= '1B ' / data format of field: BYTE TTYPE198= 'BDIXVDV10_04' / DM Cmd Verifies counter TFORM198= '1B ' / data format of field: BYTE TTYPE199= 'BDIXVDV10_05' / DM Cmd Verifies counter TFORM199= '1B ' / data format of field: BYTE TTYPE200= 'BDIXVDV10_06' / DM Cmd Verifies counter TFORM200= '1B ' / data format of field: BYTE TTYPE201= 'BDIXVDV10_07' / DM Cmd Verifies counter TFORM201= '1B ' / data format of field: BYTE TTYPE202= 'BDIXVDV10_08' / DM Cmd Verifies counter TFORM202= '1B ' / data format of field: BYTE TTYPE203= 'BDIXVDV10_09' / DM Cmd Verifies counter TFORM203= '1B ' / data format of field: BYTE TTYPE204= 'BDIXVDV10_10' / DM Cmd Verifies counter TFORM204= '1B ' / data format of field: BYTE TTYPE205= 'BDIXVDV10_11' / DM Cmd Verifies counter TFORM205= '1B ' / data format of field: BYTE TTYPE206= 'BDIXVDV10_12' / DM Cmd Verifies counter TFORM206= '1B ' / data format of field: BYTE TTYPE207= 'BDIXVDV10_13' / DM Cmd Verifies counter TFORM207= '1B ' / data format of field: BYTE TTYPE208= 'BDIXVDV10_14' / DM Cmd Verifies counter TFORM208= '1B ' / data format of field: BYTE TTYPE209= 'BDIXVDV10_15' / DM Cmd Verifies counter TFORM209= '1B ' / data format of field: BYTE TTYPE210= 'BDIXVDV11_00' / DM Cmd Verifies counter TFORM210= '1B ' / data format of field: BYTE TTYPE211= 'BDIXVDV11_01' / DM Cmd Verifies counter TFORM211= '1B ' / data format of field: BYTE TTYPE212= 'BDIXVDV11_02' / DM Cmd Verifies counter TFORM212= '1B ' / data format of field: BYTE TTYPE213= 'BDIXVDV11_03' / DM Cmd Verifies counter TFORM213= '1B ' / data format of field: BYTE TTYPE214= 'BDIXVDV11_04' / DM Cmd Verifies counter TFORM214= '1B ' / data format of field: BYTE TTYPE215= 'BDIXVDV11_05' / DM Cmd Verifies counter TFORM215= '1B ' / data format of field: BYTE TTYPE216= 'BDIXVDV11_06' / DM Cmd Verifies counter TFORM216= '1B ' / data format of field: BYTE TTYPE217= 'BDIXVDV11_07' / DM Cmd Verifies counter TFORM217= '1B ' / data format of field: BYTE TTYPE218= 'BDIXVDV11_08' / DM Cmd Verifies counter TFORM218= '1B ' / data format of field: BYTE TTYPE219= 'BDIXVDV11_09' / DM Cmd Verifies counter TFORM219= '1B ' / data format of field: BYTE TTYPE220= 'BDIXVDV11_10' / DM Cmd Verifies counter TFORM220= '1B ' / data format of field: BYTE TTYPE221= 'BDIXVDV11_11' / DM Cmd Verifies counter TFORM221= '1B ' / data format of field: BYTE TTYPE222= 'BDIXVDV11_12' / DM Cmd Verifies counter TFORM222= '1B ' / data format of field: BYTE TTYPE223= 'BDIXVDV11_13' / DM Cmd Verifies counter TFORM223= '1B ' / data format of field: BYTE TTYPE224= 'BDIXVDV11_14' / DM Cmd Verifies counter TFORM224= '1B ' / data format of field: BYTE TTYPE225= 'BDIXVDV11_15' / DM Cmd Verifies counter TFORM225= '1B ' / data format of field: BYTE TTYPE226= 'BDIXVDV12_00' / DM Cmd Verifies counter TFORM226= '1B ' / data format of field: BYTE TTYPE227= 'BDIXVDV12_01' / DM Cmd Verifies counter TFORM227= '1B ' / data format of field: BYTE TTYPE228= 'BDIXVDV12_02' / DM Cmd Verifies counter TFORM228= '1B ' / data format of field: BYTE TTYPE229= 'BDIXVDV12_03' / DM Cmd Verifies counter TFORM229= '1B ' / data format of field: BYTE TTYPE230= 'BDIXVDV12_04' / DM Cmd Verifies counter TFORM230= '1B ' / data format of field: BYTE TTYPE231= 'BDIXVDV12_05' / DM Cmd Verifies counter TFORM231= '1B ' / data format of field: BYTE TTYPE232= 'BDIXVDV12_06' / DM Cmd Verifies counter TFORM232= '1B ' / data format of field: BYTE TTYPE233= 'BDIXVDV12_07' / DM Cmd Verifies counter TFORM233= '1B ' / data format of field: BYTE TTYPE234= 'BDIXVDV12_08' / DM Cmd Verifies counter TFORM234= '1B ' / data format of field: BYTE TTYPE235= 'BDIXVDV12_09' / DM Cmd Verifies counter TFORM235= '1B ' / data format of field: BYTE TTYPE236= 'BDIXVDV12_10' / DM Cmd Verifies counter TFORM236= '1B ' / data format of field: BYTE TTYPE237= 'BDIXVDV12_11' / DM Cmd Verifies counter TFORM237= '1B ' / data format of field: BYTE TTYPE238= 'BDIXVDV12_12' / DM Cmd Verifies counter TFORM238= '1B ' / data format of field: BYTE TTYPE239= 'BDIXVDV12_13' / DM Cmd Verifies counter TFORM239= '1B ' / data format of field: BYTE TTYPE240= 'BDIXVDV12_14' / DM Cmd Verifies counter TFORM240= '1B ' / data format of field: BYTE TTYPE241= 'BDIXVDV12_15' / DM Cmd Verifies counter TFORM241= '1B ' / data format of field: BYTE TTYPE242= 'BDIXVDV13_00' / DM Cmd Verifies counter TFORM242= '1B ' / data format of field: BYTE TTYPE243= 'BDIXVDV13_01' / DM Cmd Verifies counter TFORM243= '1B ' / data format of field: BYTE TTYPE244= 'BDIXVDV13_02' / DM Cmd Verifies counter TFORM244= '1B ' / data format of field: BYTE TTYPE245= 'BDIXVDV13_03' / DM Cmd Verifies counter TFORM245= '1B ' / data format of field: BYTE TTYPE246= 'BDIXVDV13_04' / DM Cmd Verifies counter TFORM246= '1B ' / data format of field: BYTE TTYPE247= 'BDIXVDV13_05' / DM Cmd Verifies counter TFORM247= '1B ' / data format of field: BYTE TTYPE248= 'BDIXVDV13_06' / DM Cmd Verifies counter TFORM248= '1B ' / data format of field: BYTE TTYPE249= 'BDIXVDV13_07' / DM Cmd Verifies counter TFORM249= '1B ' / data format of field: BYTE TTYPE250= 'BDIXVDV13_08' / DM Cmd Verifies counter TFORM250= '1B ' / data format of field: BYTE TTYPE251= 'BDIXVDV13_09' / DM Cmd Verifies counter TFORM251= '1B ' / data format of field: BYTE TTYPE252= 'BDIXVDV13_10' / DM Cmd Verifies counter TFORM252= '1B ' / data format of field: BYTE TTYPE253= 'BDIXVDV13_11' / DM Cmd Verifies counter TFORM253= '1B ' / data format of field: BYTE TTYPE254= 'BDIXVDV13_12' / DM Cmd Verifies counter TFORM254= '1B ' / data format of field: BYTE TTYPE255= 'BDIXVDV13_13' / DM Cmd Verifies counter TFORM255= '1B ' / data format of field: BYTE TTYPE256= 'BDIXVDV13_14' / DM Cmd Verifies counter TFORM256= '1B ' / data format of field: BYTE TTYPE257= 'BDIXVDV13_15' / DM Cmd Verifies counter TFORM257= '1B ' / data format of field: BYTE TTYPE258= 'BDIXVDV14_00' / DM Cmd Verifies counter TFORM258= '1B ' / data format of field: BYTE TTYPE259= 'BDIXVDV14_01' / DM Cmd Verifies counter TFORM259= '1B ' / data format of field: BYTE TTYPE260= 'BDIXVDV14_02' / DM Cmd Verifies counter TFORM260= '1B ' / data format of field: BYTE TTYPE261= 'BDIXVDV14_03' / DM Cmd Verifies counter TFORM261= '1B ' / data format of field: BYTE TTYPE262= 'BDIXVDV14_04' / DM Cmd Verifies counter TFORM262= '1B ' / data format of field: BYTE TTYPE263= 'BDIXVDV14_05' / DM Cmd Verifies counter TFORM263= '1B ' / data format of field: BYTE TTYPE264= 'BDIXVDV14_06' / DM Cmd Verifies counter TFORM264= '1B ' / data format of field: BYTE TTYPE265= 'BDIXVDV14_07' / DM Cmd Verifies counter TFORM265= '1B ' / data format of field: BYTE TTYPE266= 'BDIXVDV14_08' / DM Cmd Verifies counter TFORM266= '1B ' / data format of field: BYTE TTYPE267= 'BDIXVDV14_09' / DM Cmd Verifies counter TFORM267= '1B ' / data format of field: BYTE TTYPE268= 'BDIXVDV14_10' / DM Cmd Verifies counter TFORM268= '1B ' / data format of field: BYTE TTYPE269= 'BDIXVDV14_11' / DM Cmd Verifies counter TFORM269= '1B ' / data format of field: BYTE TTYPE270= 'BDIXVDV14_12' / DM Cmd Verifies counter TFORM270= '1B ' / data format of field: BYTE TTYPE271= 'BDIXVDV14_13' / DM Cmd Verifies counter TFORM271= '1B ' / data format of field: BYTE TTYPE272= 'BDIXVDV14_14' / DM Cmd Verifies counter TFORM272= '1B ' / data format of field: BYTE TTYPE273= 'BDIXVDV14_15' / DM Cmd Verifies counter TFORM273= '1B ' / data format of field: BYTE TTYPE274= 'BDIXVDV15_00' / DM Cmd Verifies counter TFORM274= '1B ' / data format of field: BYTE TTYPE275= 'BDIXVDV15_01' / DM Cmd Verifies counter TFORM275= '1B ' / data format of field: BYTE TTYPE276= 'BDIXVDV15_02' / DM Cmd Verifies counter TFORM276= '1B ' / data format of field: BYTE TTYPE277= 'BDIXVDV15_03' / DM Cmd Verifies counter TFORM277= '1B ' / data format of field: BYTE TTYPE278= 'BDIXVDV15_04' / DM Cmd Verifies counter TFORM278= '1B ' / data format of field: BYTE TTYPE279= 'BDIXVDV15_05' / DM Cmd Verifies counter TFORM279= '1B ' / data format of field: BYTE TTYPE280= 'BDIXVDV15_06' / DM Cmd Verifies counter TFORM280= '1B ' / data format of field: BYTE TTYPE281= 'BDIXVDV15_07' / DM Cmd Verifies counter TFORM281= '1B ' / data format of field: BYTE TTYPE282= 'BDIXVDV15_08' / DM Cmd Verifies counter TFORM282= '1B ' / data format of field: BYTE TTYPE283= 'BDIXVDV15_09' / DM Cmd Verifies counter TFORM283= '1B ' / data format of field: BYTE TTYPE284= 'BDIXVDV15_10' / DM Cmd Verifies counter TFORM284= '1B ' / data format of field: BYTE TTYPE285= 'BDIXVDV15_11' / DM Cmd Verifies counter TFORM285= '1B ' / data format of field: BYTE TTYPE286= 'BDIXVDV15_12' / DM Cmd Verifies counter TFORM286= '1B ' / data format of field: BYTE TTYPE287= 'BDIXVDV15_13' / DM Cmd Verifies counter TFORM287= '1B ' / data format of field: BYTE TTYPE288= 'BDIXVDV15_14' / DM Cmd Verifies counter TFORM288= '1B ' / data format of field: BYTE TTYPE289= 'BDIXVDV15_15' / DM Cmd Verifies counter TFORM289= '1B ' / data format of field: BYTE TTYPE290= 'BDIXVDX00_00' / DM Cmd Exceptions counter TFORM290= '1B ' / data format of field: BYTE TTYPE291= 'BDIXVDX00_01' / DM Cmd Exceptions counter TFORM291= '1B ' / data format of field: BYTE TTYPE292= 'BDIXVDX00_02' / DM Cmd Exceptions counter TFORM292= '1B ' / data format of field: BYTE TTYPE293= 'BDIXVDX00_03' / DM Cmd Exceptions counter TFORM293= '1B ' / data format of field: BYTE TTYPE294= 'BDIXVDX00_04' / DM Cmd Exceptions counter TFORM294= '1B ' / data format of field: BYTE TTYPE295= 'BDIXVDX00_05' / DM Cmd Exceptions counter TFORM295= '1B ' / data format of field: BYTE TTYPE296= 'BDIXVDX00_06' / DM Cmd Exceptions counter TFORM296= '1B ' / data format of field: BYTE TTYPE297= 'BDIXVDX00_07' / DM Cmd Exceptions counter TFORM297= '1B ' / data format of field: BYTE TTYPE298= 'BDIXVDX00_08' / DM Cmd Exceptions counter TFORM298= '1B ' / data format of field: BYTE TTYPE299= 'BDIXVDX00_09' / DM Cmd Exceptions counter TFORM299= '1B ' / data format of field: BYTE TTYPE300= 'BDIXVDX00_10' / DM Cmd Exceptions counter TFORM300= '1B ' / data format of field: BYTE TTYPE301= 'BDIXVDX00_11' / DM Cmd Exceptions counter TFORM301= '1B ' / data format of field: BYTE TTYPE302= 'BDIXVDX00_12' / DM Cmd Exceptions counter TFORM302= '1B ' / data format of field: BYTE TTYPE303= 'BDIXVDX00_13' / DM Cmd Exceptions counter TFORM303= '1B ' / data format of field: BYTE TTYPE304= 'BDIXVDX00_14' / DM Cmd Exceptions counter TFORM304= '1B ' / data format of field: BYTE TTYPE305= 'BDIXVDX00_15' / DM Cmd Exceptions counter TFORM305= '1B ' / data format of field: BYTE TTYPE306= 'BDIXVDX01_00' / DM Cmd Exceptions counter TFORM306= '1B ' / data format of field: BYTE TTYPE307= 'BDIXVDX01_01' / DM Cmd Exceptions counter TFORM307= '1B ' / data format of field: BYTE TTYPE308= 'BDIXVDX01_02' / DM Cmd Exceptions counter TFORM308= '1B ' / data format of field: BYTE TTYPE309= 'BDIXVDX01_03' / DM Cmd Exceptions counter TFORM309= '1B ' / data format of field: BYTE TTYPE310= 'BDIXVDX01_04' / DM Cmd Exceptions counter TFORM310= '1B ' / data format of field: BYTE TTYPE311= 'BDIXVDX01_05' / DM Cmd Exceptions counter TFORM311= '1B ' / data format of field: BYTE TTYPE312= 'BDIXVDX01_06' / DM Cmd Exceptions counter TFORM312= '1B ' / data format of field: BYTE TTYPE313= 'BDIXVDX01_07' / DM Cmd Exceptions counter TFORM313= '1B ' / data format of field: BYTE TTYPE314= 'BDIXVDX01_08' / DM Cmd Exceptions counter TFORM314= '1B ' / data format of field: BYTE TTYPE315= 'BDIXVDX01_09' / DM Cmd Exceptions counter TFORM315= '1B ' / data format of field: BYTE TTYPE316= 'BDIXVDX01_10' / DM Cmd Exceptions counter TFORM316= '1B ' / data format of field: BYTE TTYPE317= 'BDIXVDX01_11' / DM Cmd Exceptions counter TFORM317= '1B ' / data format of field: BYTE TTYPE318= 'BDIXVDX01_12' / DM Cmd Exceptions counter TFORM318= '1B ' / data format of field: BYTE TTYPE319= 'BDIXVDX01_13' / DM Cmd Exceptions counter TFORM319= '1B ' / data format of field: BYTE TTYPE320= 'BDIXVDX01_14' / DM Cmd Exceptions counter TFORM320= '1B ' / data format of field: BYTE TTYPE321= 'BDIXVDX01_15' / DM Cmd Exceptions counter TFORM321= '1B ' / data format of field: BYTE TTYPE322= 'BDIXVDX02_00' / DM Cmd Exceptions counter TFORM322= '1B ' / data format of field: BYTE TTYPE323= 'BDIXVDX02_01' / DM Cmd Exceptions counter TFORM323= '1B ' / data format of field: BYTE TTYPE324= 'BDIXVDX02_02' / DM Cmd Exceptions counter TFORM324= '1B ' / data format of field: BYTE TTYPE325= 'BDIXVDX02_03' / DM Cmd Exceptions counter TFORM325= '1B ' / data format of field: BYTE TTYPE326= 'BDIXVDX02_04' / DM Cmd Exceptions counter TFORM326= '1B ' / data format of field: BYTE TTYPE327= 'BDIXVDX02_05' / DM Cmd Exceptions counter TFORM327= '1B ' / data format of field: BYTE TTYPE328= 'BDIXVDX02_06' / DM Cmd Exceptions counter TFORM328= '1B ' / data format of field: BYTE TTYPE329= 'BDIXVDX02_07' / DM Cmd Exceptions counter TFORM329= '1B ' / data format of field: BYTE TTYPE330= 'BDIXVDX02_08' / DM Cmd Exceptions counter TFORM330= '1B ' / data format of field: BYTE TTYPE331= 'BDIXVDX02_09' / DM Cmd Exceptions counter TFORM331= '1B ' / data format of field: BYTE TTYPE332= 'BDIXVDX02_10' / DM Cmd Exceptions counter TFORM332= '1B ' / data format of field: BYTE TTYPE333= 'BDIXVDX02_11' / DM Cmd Exceptions counter TFORM333= '1B ' / data format of field: BYTE TTYPE334= 'BDIXVDX02_12' / DM Cmd Exceptions counter TFORM334= '1B ' / data format of field: BYTE TTYPE335= 'BDIXVDX02_13' / DM Cmd Exceptions counter TFORM335= '1B ' / data format of field: BYTE TTYPE336= 'BDIXVDX02_14' / DM Cmd Exceptions counter TFORM336= '1B ' / data format of field: BYTE TTYPE337= 'BDIXVDX02_15' / DM Cmd Exceptions counter TFORM337= '1B ' / data format of field: BYTE TTYPE338= 'BDIXVDX03_00' / DM Cmd Exceptions counter TFORM338= '1B ' / data format of field: BYTE TTYPE339= 'BDIXVDX03_01' / DM Cmd Exceptions counter TFORM339= '1B ' / data format of field: BYTE TTYPE340= 'BDIXVDX03_02' / DM Cmd Exceptions counter TFORM340= '1B ' / data format of field: BYTE TTYPE341= 'BDIXVDX03_03' / DM Cmd Exceptions counter TFORM341= '1B ' / data format of field: BYTE TTYPE342= 'BDIXVDX03_04' / DM Cmd Exceptions counter TFORM342= '1B ' / data format of field: BYTE TTYPE343= 'BDIXVDX03_05' / DM Cmd Exceptions counter TFORM343= '1B ' / data format of field: BYTE TTYPE344= 'BDIXVDX03_06' / DM Cmd Exceptions counter TFORM344= '1B ' / data format of field: BYTE TTYPE345= 'BDIXVDX03_07' / DM Cmd Exceptions counter TFORM345= '1B ' / data format of field: BYTE TTYPE346= 'BDIXVDX03_08' / DM Cmd Exceptions counter TFORM346= '1B ' / data format of field: BYTE TTYPE347= 'BDIXVDX03_09' / DM Cmd Exceptions counter TFORM347= '1B ' / data format of field: BYTE TTYPE348= 'BDIXVDX03_10' / DM Cmd Exceptions counter TFORM348= '1B ' / data format of field: BYTE TTYPE349= 'BDIXVDX03_11' / DM Cmd Exceptions counter TFORM349= '1B ' / data format of field: BYTE TTYPE350= 'BDIXVDX03_12' / DM Cmd Exceptions counter TFORM350= '1B ' / data format of field: BYTE TTYPE351= 'BDIXVDX03_13' / DM Cmd Exceptions counter TFORM351= '1B ' / data format of field: BYTE TTYPE352= 'BDIXVDX03_14' / DM Cmd Exceptions counter TFORM352= '1B ' / data format of field: BYTE TTYPE353= 'BDIXVDX03_15' / DM Cmd Exceptions counter TFORM353= '1B ' / data format of field: BYTE TTYPE354= 'BDIXVDX04_00' / DM Cmd Exceptions counter TFORM354= '1B ' / data format of field: BYTE TTYPE355= 'BDIXVDX04_01' / DM Cmd Exceptions counter TFORM355= '1B ' / data format of field: BYTE TTYPE356= 'BDIXVDX04_02' / DM Cmd Exceptions counter TFORM356= '1B ' / data format of field: BYTE TTYPE357= 'BDIXVDX04_03' / DM Cmd Exceptions counter TFORM357= '1B ' / data format of field: BYTE TTYPE358= 'BDIXVDX04_04' / DM Cmd Exceptions counter TFORM358= '1B ' / data format of field: BYTE TTYPE359= 'BDIXVDX04_05' / DM Cmd Exceptions counter TFORM359= '1B ' / data format of field: BYTE TTYPE360= 'BDIXVDX04_06' / DM Cmd Exceptions counter TFORM360= '1B ' / data format of field: BYTE TTYPE361= 'BDIXVDX04_07' / DM Cmd Exceptions counter TFORM361= '1B ' / data format of field: BYTE TTYPE362= 'BDIXVDX04_08' / DM Cmd Exceptions counter TFORM362= '1B ' / data format of field: BYTE TTYPE363= 'BDIXVDX04_09' / DM Cmd Exceptions counter TFORM363= '1B ' / data format of field: BYTE TTYPE364= 'BDIXVDX04_10' / DM Cmd Exceptions counter TFORM364= '1B ' / data format of field: BYTE TTYPE365= 'BDIXVDX04_11' / DM Cmd Exceptions counter TFORM365= '1B ' / data format of field: BYTE TTYPE366= 'BDIXVDX04_12' / DM Cmd Exceptions counter TFORM366= '1B ' / data format of field: BYTE TTYPE367= 'BDIXVDX04_13' / DM Cmd Exceptions counter TFORM367= '1B ' / data format of field: BYTE TTYPE368= 'BDIXVDX04_14' / DM Cmd Exceptions counter TFORM368= '1B ' / data format of field: BYTE TTYPE369= 'BDIXVDX04_15' / DM Cmd Exceptions counter TFORM369= '1B ' / data format of field: BYTE TTYPE370= 'BDIXVDX05_00' / DM Cmd Exceptions counter TFORM370= '1B ' / data format of field: BYTE TTYPE371= 'BDIXVDX05_01' / DM Cmd Exceptions counter TFORM371= '1B ' / data format of field: BYTE TTYPE372= 'BDIXVDX05_02' / DM Cmd Exceptions counter TFORM372= '1B ' / data format of field: BYTE TTYPE373= 'BDIXVDX05_03' / DM Cmd Exceptions counter TFORM373= '1B ' / data format of field: BYTE TTYPE374= 'BDIXVDX05_04' / DM Cmd Exceptions counter TFORM374= '1B ' / data format of field: BYTE TTYPE375= 'BDIXVDX05_05' / DM Cmd Exceptions counter TFORM375= '1B ' / data format of field: BYTE TTYPE376= 'BDIXVDX05_06' / DM Cmd Exceptions counter TFORM376= '1B ' / data format of field: BYTE TTYPE377= 'BDIXVDX05_07' / DM Cmd Exceptions counter TFORM377= '1B ' / data format of field: BYTE TTYPE378= 'BDIXVDX05_08' / DM Cmd Exceptions counter TFORM378= '1B ' / data format of field: BYTE TTYPE379= 'BDIXVDX05_09' / DM Cmd Exceptions counter TFORM379= '1B ' / data format of field: BYTE TTYPE380= 'BDIXVDX05_10' / DM Cmd Exceptions counter TFORM380= '1B ' / data format of field: BYTE TTYPE381= 'BDIXVDX05_11' / DM Cmd Exceptions counter TFORM381= '1B ' / data format of field: BYTE TTYPE382= 'BDIXVDX05_12' / DM Cmd Exceptions counter TFORM382= '1B ' / data format of field: BYTE TTYPE383= 'BDIXVDX05_13' / DM Cmd Exceptions counter TFORM383= '1B ' / data format of field: BYTE TTYPE384= 'BDIXVDX05_14' / DM Cmd Exceptions counter TFORM384= '1B ' / data format of field: BYTE TTYPE385= 'BDIXVDX05_15' / DM Cmd Exceptions counter TFORM385= '1B ' / data format of field: BYTE TTYPE386= 'BDIXVDX06_00' / DM Cmd Exceptions counter TFORM386= '1B ' / data format of field: BYTE TTYPE387= 'BDIXVDX06_01' / DM Cmd Exceptions counter TFORM387= '1B ' / data format of field: BYTE TTYPE388= 'BDIXVDX06_02' / DM Cmd Exceptions counter TFORM388= '1B ' / data format of field: BYTE TTYPE389= 'BDIXVDX06_03' / DM Cmd Exceptions counter TFORM389= '1B ' / data format of field: BYTE TTYPE390= 'BDIXVDX06_04' / DM Cmd Exceptions counter TFORM390= '1B ' / data format of field: BYTE TTYPE391= 'BDIXVDX06_05' / DM Cmd Exceptions counter TFORM391= '1B ' / data format of field: BYTE TTYPE392= 'BDIXVDX06_06' / DM Cmd Exceptions counter TFORM392= '1B ' / data format of field: BYTE TTYPE393= 'BDIXVDX06_07' / DM Cmd Exceptions counter TFORM393= '1B ' / data format of field: BYTE TTYPE394= 'BDIXVDX06_08' / DM Cmd Exceptions counter TFORM394= '1B ' / data format of field: BYTE TTYPE395= 'BDIXVDX06_09' / DM Cmd Exceptions counter TFORM395= '1B ' / data format of field: BYTE TTYPE396= 'BDIXVDX06_10' / DM Cmd Exceptions counter TFORM396= '1B ' / data format of field: BYTE TTYPE397= 'BDIXVDX06_11' / DM Cmd Exceptions counter TFORM397= '1B ' / data format of field: BYTE TTYPE398= 'BDIXVDX06_12' / DM Cmd Exceptions counter TFORM398= '1B ' / data format of field: BYTE TTYPE399= 'BDIXVDX06_13' / DM Cmd Exceptions counter TFORM399= '1B ' / data format of field: BYTE TTYPE400= 'BDIXVDX06_14' / DM Cmd Exceptions counter TFORM400= '1B ' / data format of field: BYTE TTYPE401= 'BDIXVDX06_15' / DM Cmd Exceptions counter TFORM401= '1B ' / data format of field: BYTE TTYPE402= 'BDIXVDX07_00' / DM Cmd Exceptions counter TFORM402= '1B ' / data format of field: BYTE TTYPE403= 'BDIXVDX07_01' / DM Cmd Exceptions counter TFORM403= '1B ' / data format of field: BYTE TTYPE404= 'BDIXVDX07_02' / DM Cmd Exceptions counter TFORM404= '1B ' / data format of field: BYTE TTYPE405= 'BDIXVDX07_03' / DM Cmd Exceptions counter TFORM405= '1B ' / data format of field: BYTE TTYPE406= 'BDIXVDX07_04' / DM Cmd Exceptions counter TFORM406= '1B ' / data format of field: BYTE TTYPE407= 'BDIXVDX07_05' / DM Cmd Exceptions counter TFORM407= '1B ' / data format of field: BYTE TTYPE408= 'BDIXVDX07_06' / DM Cmd Exceptions counter TFORM408= '1B ' / data format of field: BYTE TTYPE409= 'BDIXVDX07_07' / DM Cmd Exceptions counter TFORM409= '1B ' / data format of field: BYTE TTYPE410= 'BDIXVDX07_08' / DM Cmd Exceptions counter TFORM410= '1B ' / data format of field: BYTE TTYPE411= 'BDIXVDX07_09' / DM Cmd Exceptions counter TFORM411= '1B ' / data format of field: BYTE TTYPE412= 'BDIXVDX07_10' / DM Cmd Exceptions counter TFORM412= '1B ' / data format of field: BYTE TTYPE413= 'BDIXVDX07_11' / DM Cmd Exceptions counter TFORM413= '1B ' / data format of field: BYTE TTYPE414= 'BDIXVDX07_12' / DM Cmd Exceptions counter TFORM414= '1B ' / data format of field: BYTE TTYPE415= 'BDIXVDX07_13' / DM Cmd Exceptions counter TFORM415= '1B ' / data format of field: BYTE TTYPE416= 'BDIXVDX07_14' / DM Cmd Exceptions counter TFORM416= '1B ' / data format of field: BYTE TTYPE417= 'BDIXVDX07_15' / DM Cmd Exceptions counter TFORM417= '1B ' / data format of field: BYTE TTYPE418= 'BDIXVDX08_00' / DM Cmd Exceptions counter TFORM418= '1B ' / data format of field: BYTE TTYPE419= 'BDIXVDX08_01' / DM Cmd Exceptions counter TFORM419= '1B ' / data format of field: BYTE TTYPE420= 'BDIXVDX08_02' / DM Cmd Exceptions counter TFORM420= '1B ' / data format of field: BYTE TTYPE421= 'BDIXVDX08_03' / DM Cmd Exceptions counter TFORM421= '1B ' / data format of field: BYTE TTYPE422= 'BDIXVDX08_04' / DM Cmd Exceptions counter TFORM422= '1B ' / data format of field: BYTE TTYPE423= 'BDIXVDX08_05' / DM Cmd Exceptions counter TFORM423= '1B ' / data format of field: BYTE TTYPE424= 'BDIXVDX08_06' / DM Cmd Exceptions counter TFORM424= '1B ' / data format of field: BYTE TTYPE425= 'BDIXVDX08_07' / DM Cmd Exceptions counter TFORM425= '1B ' / data format of field: BYTE TTYPE426= 'BDIXVDX08_08' / DM Cmd Exceptions counter TFORM426= '1B ' / data format of field: BYTE TTYPE427= 'BDIXVDX08_09' / DM Cmd Exceptions counter TFORM427= '1B ' / data format of field: BYTE TTYPE428= 'BDIXVDX08_10' / DM Cmd Exceptions counter TFORM428= '1B ' / data format of field: BYTE TTYPE429= 'BDIXVDX08_11' / DM Cmd Exceptions counter TFORM429= '1B ' / data format of field: BYTE TTYPE430= 'BDIXVDX08_12' / DM Cmd Exceptions counter TFORM430= '1B ' / data format of field: BYTE TTYPE431= 'BDIXVDX08_13' / DM Cmd Exceptions counter TFORM431= '1B ' / data format of field: BYTE TTYPE432= 'BDIXVDX08_14' / DM Cmd Exceptions counter TFORM432= '1B ' / data format of field: BYTE TTYPE433= 'BDIXVDX08_15' / DM Cmd Exceptions counter TFORM433= '1B ' / data format of field: BYTE TTYPE434= 'BDIXVDX09_00' / DM Cmd Exceptions counter TFORM434= '1B ' / data format of field: BYTE TTYPE435= 'BDIXVDX09_01' / DM Cmd Exceptions counter TFORM435= '1B ' / data format of field: BYTE TTYPE436= 'BDIXVDX09_02' / DM Cmd Exceptions counter TFORM436= '1B ' / data format of field: BYTE TTYPE437= 'BDIXVDX09_03' / DM Cmd Exceptions counter TFORM437= '1B ' / data format of field: BYTE TTYPE438= 'BDIXVDX09_04' / DM Cmd Exceptions counter TFORM438= '1B ' / data format of field: BYTE TTYPE439= 'BDIXVDX09_05' / DM Cmd Exceptions counter TFORM439= '1B ' / data format of field: BYTE TTYPE440= 'BDIXVDX09_06' / DM Cmd Exceptions counter TFORM440= '1B ' / data format of field: BYTE TTYPE441= 'BDIXVDX09_07' / DM Cmd Exceptions counter TFORM441= '1B ' / data format of field: BYTE TTYPE442= 'BDIXVDX09_08' / DM Cmd Exceptions counter TFORM442= '1B ' / data format of field: BYTE TTYPE443= 'BDIXVDX09_09' / DM Cmd Exceptions counter TFORM443= '1B ' / data format of field: BYTE TTYPE444= 'BDIXVDX09_10' / DM Cmd Exceptions counter TFORM444= '1B ' / data format of field: BYTE TTYPE445= 'BDIXVDX09_11' / DM Cmd Exceptions counter TFORM445= '1B ' / data format of field: BYTE TTYPE446= 'BDIXVDX09_12' / DM Cmd Exceptions counter TFORM446= '1B ' / data format of field: BYTE TTYPE447= 'BDIXVDX09_13' / DM Cmd Exceptions counter TFORM447= '1B ' / data format of field: BYTE TTYPE448= 'BDIXVDX09_14' / DM Cmd Exceptions counter TFORM448= '1B ' / data format of field: BYTE TTYPE449= 'BDIXVDX09_15' / DM Cmd Exceptions counter TFORM449= '1B ' / data format of field: BYTE TTYPE450= 'BDIXVDX10_00' / DM Cmd Exceptions counter TFORM450= '1B ' / data format of field: BYTE TTYPE451= 'BDIXVDX10_01' / DM Cmd Exceptions counter TFORM451= '1B ' / data format of field: BYTE TTYPE452= 'BDIXVDX10_02' / DM Cmd Exceptions counter TFORM452= '1B ' / data format of field: BYTE TTYPE453= 'BDIXVDX10_03' / DM Cmd Exceptions counter TFORM453= '1B ' / data format of field: BYTE TTYPE454= 'BDIXVDX10_04' / DM Cmd Exceptions counter TFORM454= '1B ' / data format of field: BYTE TTYPE455= 'BDIXVDX10_05' / DM Cmd Exceptions counter TFORM455= '1B ' / data format of field: BYTE TTYPE456= 'BDIXVDX10_06' / DM Cmd Exceptions counter TFORM456= '1B ' / data format of field: BYTE TTYPE457= 'BDIXVDX10_07' / DM Cmd Exceptions counter TFORM457= '1B ' / data format of field: BYTE TTYPE458= 'BDIXVDX10_08' / DM Cmd Exceptions counter TFORM458= '1B ' / data format of field: BYTE TTYPE459= 'BDIXVDX10_09' / DM Cmd Exceptions counter TFORM459= '1B ' / data format of field: BYTE TTYPE460= 'BDIXVDX10_10' / DM Cmd Exceptions counter TFORM460= '1B ' / data format of field: BYTE TTYPE461= 'BDIXVDX10_11' / DM Cmd Exceptions counter TFORM461= '1B ' / data format of field: BYTE TTYPE462= 'BDIXVDX10_12' / DM Cmd Exceptions counter TFORM462= '1B ' / data format of field: BYTE TTYPE463= 'BDIXVDX10_13' / DM Cmd Exceptions counter TFORM463= '1B ' / data format of field: BYTE TTYPE464= 'BDIXVDX10_14' / DM Cmd Exceptions counter TFORM464= '1B ' / data format of field: BYTE TTYPE465= 'BDIXVDX10_15' / DM Cmd Exceptions counter TFORM465= '1B ' / data format of field: BYTE TTYPE466= 'BDIXVDX11_00' / DM Cmd Exceptions counter TFORM466= '1B ' / data format of field: BYTE TTYPE467= 'BDIXVDX11_01' / DM Cmd Exceptions counter TFORM467= '1B ' / data format of field: BYTE TTYPE468= 'BDIXVDX11_02' / DM Cmd Exceptions counter TFORM468= '1B ' / data format of field: BYTE TTYPE469= 'BDIXVDX11_03' / DM Cmd Exceptions counter TFORM469= '1B ' / data format of field: BYTE TTYPE470= 'BDIXVDX11_04' / DM Cmd Exceptions counter TFORM470= '1B ' / data format of field: BYTE TTYPE471= 'BDIXVDX11_05' / DM Cmd Exceptions counter TFORM471= '1B ' / data format of field: BYTE TTYPE472= 'BDIXVDX11_06' / DM Cmd Exceptions counter TFORM472= '1B ' / data format of field: BYTE TTYPE473= 'BDIXVDX11_07' / DM Cmd Exceptions counter TFORM473= '1B ' / data format of field: BYTE TTYPE474= 'BDIXVDX11_08' / DM Cmd Exceptions counter TFORM474= '1B ' / data format of field: BYTE TTYPE475= 'BDIXVDX11_09' / DM Cmd Exceptions counter TFORM475= '1B ' / data format of field: BYTE TTYPE476= 'BDIXVDX11_10' / DM Cmd Exceptions counter TFORM476= '1B ' / data format of field: BYTE TTYPE477= 'BDIXVDX11_11' / DM Cmd Exceptions counter TFORM477= '1B ' / data format of field: BYTE TTYPE478= 'BDIXVDX11_12' / DM Cmd Exceptions counter TFORM478= '1B ' / data format of field: BYTE TTYPE479= 'BDIXVDX11_13' / DM Cmd Exceptions counter TFORM479= '1B ' / data format of field: BYTE TTYPE480= 'BDIXVDX11_14' / DM Cmd Exceptions counter TFORM480= '1B ' / data format of field: BYTE TTYPE481= 'BDIXVDX11_15' / DM Cmd Exceptions counter TFORM481= '1B ' / data format of field: BYTE TTYPE482= 'BDIXVDX12_00' / DM Cmd Exceptions counter TFORM482= '1B ' / data format of field: BYTE TTYPE483= 'BDIXVDX12_01' / DM Cmd Exceptions counter TFORM483= '1B ' / data format of field: BYTE TTYPE484= 'BDIXVDX12_02' / DM Cmd Exceptions counter TFORM484= '1B ' / data format of field: BYTE TTYPE485= 'BDIXVDX12_03' / DM Cmd Exceptions counter TFORM485= '1B ' / data format of field: BYTE TTYPE486= 'BDIXVDX12_04' / DM Cmd Exceptions counter TFORM486= '1B ' / data format of field: BYTE TTYPE487= 'BDIXVDX12_05' / DM Cmd Exceptions counter TFORM487= '1B ' / data format of field: BYTE TTYPE488= 'BDIXVDX12_06' / DM Cmd Exceptions counter TFORM488= '1B ' / data format of field: BYTE TTYPE489= 'BDIXVDX12_07' / DM Cmd Exceptions counter TFORM489= '1B ' / data format of field: BYTE TTYPE490= 'BDIXVDX12_08' / DM Cmd Exceptions counter TFORM490= '1B ' / data format of field: BYTE TTYPE491= 'BDIXVDX12_09' / DM Cmd Exceptions counter TFORM491= '1B ' / data format of field: BYTE TTYPE492= 'BDIXVDX12_10' / DM Cmd Exceptions counter TFORM492= '1B ' / data format of field: BYTE TTYPE493= 'BDIXVDX12_11' / DM Cmd Exceptions counter TFORM493= '1B ' / data format of field: BYTE TTYPE494= 'BDIXVDX12_12' / DM Cmd Exceptions counter TFORM494= '1B ' / data format of field: BYTE TTYPE495= 'BDIXVDX12_13' / DM Cmd Exceptions counter TFORM495= '1B ' / data format of field: BYTE TTYPE496= 'BDIXVDX12_14' / DM Cmd Exceptions counter TFORM496= '1B ' / data format of field: BYTE TTYPE497= 'BDIXVDX12_15' / DM Cmd Exceptions counter TFORM497= '1B ' / data format of field: BYTE TTYPE498= 'BDIXVDX13_00' / DM Cmd Exceptions counter TFORM498= '1B ' / data format of field: BYTE TTYPE499= 'BDIXVDX13_01' / DM Cmd Exceptions counter TFORM499= '1B ' / data format of field: BYTE TTYPE500= 'BDIXVDX13_02' / DM Cmd Exceptions counter TFORM500= '1B ' / data format of field: BYTE TTYPE501= 'BDIXVDX13_03' / DM Cmd Exceptions counter TFORM501= '1B ' / data format of field: BYTE TTYPE502= 'BDIXVDX13_04' / DM Cmd Exceptions counter TFORM502= '1B ' / data format of field: BYTE TTYPE503= 'BDIXVDX13_05' / DM Cmd Exceptions counter TFORM503= '1B ' / data format of field: BYTE TTYPE504= 'BDIXVDX13_06' / DM Cmd Exceptions counter TFORM504= '1B ' / data format of field: BYTE TTYPE505= 'BDIXVDX13_07' / DM Cmd Exceptions counter TFORM505= '1B ' / data format of field: BYTE TTYPE506= 'BDIXVDX13_08' / DM Cmd Exceptions counter TFORM506= '1B ' / data format of field: BYTE TTYPE507= 'BDIXVDX13_09' / DM Cmd Exceptions counter TFORM507= '1B ' / data format of field: BYTE TTYPE508= 'BDIXVDX13_10' / DM Cmd Exceptions counter TFORM508= '1B ' / data format of field: BYTE TTYPE509= 'BDIXVDX13_11' / DM Cmd Exceptions counter TFORM509= '1B ' / data format of field: BYTE TTYPE510= 'BDIXVDX13_12' / DM Cmd Exceptions counter TFORM510= '1B ' / data format of field: BYTE TTYPE511= 'BDIXVDX13_13' / DM Cmd Exceptions counter TFORM511= '1B ' / data format of field: BYTE TTYPE512= 'BDIXVDX13_14' / DM Cmd Exceptions counter TFORM512= '1B ' / data format of field: BYTE TTYPE513= 'BDIXVDX13_15' / DM Cmd Exceptions counter TFORM513= '1B ' / data format of field: BYTE TTYPE514= 'BDIXVDX14_00' / DM Cmd Exceptions counter TFORM514= '1B ' / data format of field: BYTE TTYPE515= 'BDIXVDX14_01' / DM Cmd Exceptions counter TFORM515= '1B ' / data format of field: BYTE TTYPE516= 'BDIXVDX14_02' / DM Cmd Exceptions counter TFORM516= '1B ' / data format of field: BYTE TTYPE517= 'BDIXVDX14_03' / DM Cmd Exceptions counter TFORM517= '1B ' / data format of field: BYTE TTYPE518= 'BDIXVDX14_04' / DM Cmd Exceptions counter TFORM518= '1B ' / data format of field: BYTE TTYPE519= 'BDIXVDX14_05' / DM Cmd Exceptions counter TFORM519= '1B ' / data format of field: BYTE TTYPE520= 'BDIXVDX14_06' / DM Cmd Exceptions counter TFORM520= '1B ' / data format of field: BYTE TTYPE521= 'BDIXVDX14_07' / DM Cmd Exceptions counter TFORM521= '1B ' / data format of field: BYTE TTYPE522= 'BDIXVDX14_08' / DM Cmd Exceptions counter TFORM522= '1B ' / data format of field: BYTE TTYPE523= 'BDIXVDX14_09' / DM Cmd Exceptions counter TFORM523= '1B ' / data format of field: BYTE TTYPE524= 'BDIXVDX14_10' / DM Cmd Exceptions counter TFORM524= '1B ' / data format of field: BYTE TTYPE525= 'BDIXVDX14_11' / DM Cmd Exceptions counter TFORM525= '1B ' / data format of field: BYTE TTYPE526= 'BDIXVDX14_12' / DM Cmd Exceptions counter TFORM526= '1B ' / data format of field: BYTE TTYPE527= 'BDIXVDX14_13' / DM Cmd Exceptions counter TFORM527= '1B ' / data format of field: BYTE TTYPE528= 'BDIXVDX14_14' / DM Cmd Exceptions counter TFORM528= '1B ' / data format of field: BYTE TTYPE529= 'BDIXVDX14_15' / DM Cmd Exceptions counter TFORM529= '1B ' / data format of field: BYTE TTYPE530= 'BDIXVDX15_00' / DM Cmd Exceptions counter TFORM530= '1B ' / data format of field: BYTE TTYPE531= 'BDIXVDX15_01' / DM Cmd Exceptions counter TFORM531= '1B ' / data format of field: BYTE TTYPE532= 'BDIXVDX15_02' / DM Cmd Exceptions counter TFORM532= '1B ' / data format of field: BYTE TTYPE533= 'BDIXVDX15_03' / DM Cmd Exceptions counter TFORM533= '1B ' / data format of field: BYTE TTYPE534= 'BDIXVDX15_04' / DM Cmd Exceptions counter TFORM534= '1B ' / data format of field: BYTE TTYPE535= 'BDIXVDX15_05' / DM Cmd Exceptions counter TFORM535= '1B ' / data format of field: BYTE TTYPE536= 'BDIXVDX15_06' / DM Cmd Exceptions counter TFORM536= '1B ' / data format of field: BYTE TTYPE537= 'BDIXVDX15_07' / DM Cmd Exceptions counter TFORM537= '1B ' / data format of field: BYTE TTYPE538= 'BDIXVDX15_08' / DM Cmd Exceptions counter TFORM538= '1B ' / data format of field: BYTE TTYPE539= 'BDIXVDX15_09' / DM Cmd Exceptions counter TFORM539= '1B ' / data format of field: BYTE TTYPE540= 'BDIXVDX15_10' / DM Cmd Exceptions counter TFORM540= '1B ' / data format of field: BYTE TTYPE541= 'BDIXVDX15_11' / DM Cmd Exceptions counter TFORM541= '1B ' / data format of field: BYTE TTYPE542= 'BDIXVDX15_12' / DM Cmd Exceptions counter TFORM542= '1B ' / data format of field: BYTE TTYPE543= 'BDIXVDX15_13' / DM Cmd Exceptions counter TFORM543= '1B ' / data format of field: BYTE TTYPE544= 'BDIXVDX15_14' / DM Cmd Exceptions counter TFORM544= '1B ' / data format of field: BYTE TTYPE545= 'BDIXVDX15_15' / DM Cmd Exceptions counter TFORM545= '1B ' / data format of field: BYTE EXTNAME = 'hk221x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 713894068.8887 TSTOP = 713896228.81768 DATE-OBS= '2023-08-16T15:54:23' DATE-END= '2023-08-16T16:30:23' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.8371600000000 / [s] UTCF at TSTART TELAPSE = 2159.92897999287 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 545 OBS_ID = '01185673000' / Observation ID TARG_ID = 1185673 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 328.390856017229 / [deg] RA pointing DEC_PNT = 37.8352927305914 / [deg] Dec pointing PA_PNT = 3.1226272756151 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (328.445, 37.855)' / Object name RA_OBJ = 328.4454583 / [deg] R.A. Object DEC_OBJ = 37.8553889 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.02 ' / Processing script version SEQPNUM = 11 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-08-26T08:43:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'GZATJW2RGW8RGW8R' / HDU checksum updated 2023-08-26T09:08:07 DATASUM = '3327309873' / data unit checksum updated 2023-08-26T08:43:46 HISTORY TASK: FAPPND on FILENAME: sw01185673000b221x001.hk[1] HISTORY fappend3.0a at 2023-08-26T08:43:48 TRIGTIME= 713894960.128 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�F�Zq��S E�$2{ �d A�F�ng��2222222222222222�p'b�)!+A!O!#�1!!!!#'%#'!!��!%+#!'##!!!!##!)!!#!A�F��g�znnnnnnnnnnnnnnnn�;v�1=1511111131?3113U11315c1131111357�1131113113111E11355533115131713131131111113;111191111111311131713111313;55131111113��11111511111911?11171131335;13333111331111171713111115111115111151133131113131115331377111115113=3113151111311111113111153131733151A�F��g�*��]�AS_SWSSSSSSUSaUSSUwSSUSW�SSUSSSSUWY�SSUSSSUSSUSSSgSSUWWWUUSSWSUSYSUSUSSUSSSSSSU]SSSS[SSSSSSSUSSSUSYSUSSSUSU]WWSUSSSSSSUٷSSSSSWSSSSS[SSaSSSYSSUSUUW]SUUUUSSSUUSSSSSYSYSUSSSSSWSSSSSWSSSSWSSUUSUSSSUSUSSSWUUSUYYSSSSSWSSU_USSUSWSSSSUSSSSSSSUSSSSWUSUSYUUSWSA�F��hȊ��'�q�U gsgkggggggiguiggi�ggigk�ggiggggikm�ggigggiggiggg{ggikkkiiggkgigmgigiggiggggggiqggggogggggggigggigmgigggigiqkkgiggggggi��gggggkgggggoggugggmggigiikqgiiiigggiigggggmgmgigggggkgggggkggggkggiigigggigigggkiigimmgggggkggisiggigkggggigggggggiggggkigigmiigkgA�F��h<�++++++++++++++++;΅�i4{�{{{{{{{}{�}{{}�{{}{�{{}{{{{}��{{}{{{}{{}{{{�{{}}}{{{}{�{}{}{{}{{{{{{}�{{{{�{{{{{{{}{{{}{�{}{{{}{}�{}{{{{{{}�{{{{{{{{{{�{{�{{{�{{}{}}�{}}}}{{{}}{{{{{�{�{}{{{{{{{{{{{{{{{{}}{}{{{}{}{{{}}{}��{{{{{{{}�}{{}{{{{{}{{{{{{{}{{{{}{}{�}}{{A�F��g��ggggggggggggggggO��}H�� 󏏏��A�F��h��c��\��ǣ��գ��)��A�F��g�*��w ��p�÷��Ź��۷��鷷��2��˷��=��ŷ��ù��A�F�i~$$$$$$$$$$$$$$$$�,�ǒ��T��_=��A�F�"hB1````````````````�@�2ۦ��h��sQ��A�F�6gₜ��TF� %3| �e A�F�Jg�*��hZ�!#9G�)�y#!A�F�^h�Y�|3n�)5)-))))))+)7+))+M))+)-[))+))))+-/�))+)))+))+)))=))+---++))-)+)/)+)+))+))))))+3))))1)))))))+)))+)/)+)))+)+3--)+))))))+��)))))-)))))1))7)))/))+)++-3)++++)))++)))))/)/)+)))))-)))))-))))-))++)+)))+)+)))--+)+//)))))-))+5+))+)-))))+)))))))+))))-+)+)/++)-)A�F�rh�PPPPPPPPPPPPPPPP��G�+�=I=A======?=K?==?a==?=Ao==?====?AC�==?===?==?===Q==?AAA??==A=?=C=?=?==?======?G====E=======?===?=C=?===?=?GAA=?======?á=====A=====E==K===C==?=??AG=????===??=====C=C=?=====A=====A====A==??=?===?=?===AA?=?CC=====A==?I?==?=A====?=======?====A?=?=C??=A=A�F��hb��[�? Q]QUQQQQQQSQ_SQQSuQQSQU�QQSQQQQSUW�QQSQQQSQQSQQQeQQSUUUSSQQUQSQWQSQSQQSQQQQQQS[QQQQYQQQQQQQSQQQSQWQSQQQSQS[UUQSQQQQQQS׵QQQQQUQQQQQYQQ_QQQWQQSQSSU[QSSSSQQQSSQQQQQWQWQSQQQQQUQQQQQUQQQQUQQSSQSQQQSQSQQQUUSQSWWQQQQQUQQS]SQQSQUQQQQSQQQQQQQSQQQQUSQSQWSSQUQA�F��i:��3�}�a,sswssssssus�ussu�ssusw�ssussssuwy�ssusssussusss�ssuwwwuusswsusysusussussssssu}ssss{sssssssusssusysusssusu}wwsussssssu��ssssswsssss{ss�sssyssusuuw}suuuusssuusssssysysussssswssssswsssswssuususssusussswwusuyyssssswssuussuswssssusssssssusssswususyuuswsA�F��h�� Gڑ�u@�� 뇇��A�F��i;�IIIIIIIIIIIIIIII[��T��͛��!��A�F��i��o��h��ӯ��ᯯ��*��ï��5��A�F��ii��|��>��I'��A�F��g�*��*�Ő�� R��];��A�F�i&�9999999999999999�>�0٤��f��qO��A�F�&g�uuuuuuuuuuuuuuuu�R D�� #��1��z�� c�� A�F�:ht��fX�!7E�'�w!A�F�NhbN��?z#�5A5955555575C7557Y55759g557555579;�5575557557555I55799977559575;57575575555557?5555=5555555755575;57555757?99575555557��55555955555=55C555;5575779?577775557755555;5;575555595555595555955775755575755599757;;555559557A7557595555755555557555597575;77595A�F�bg��2222222222222222 �S�7IUIMIIIIIIKIWKIIKmIIKIM{IIKIIIIKMO�IIKIIIKIIKIII]IIKMMMKKIIMIKIOIKIKIIKIIIIIIKSIIIIQIIIIIIIKIIIKIOIKIIIKIKSMMIKIIIIIIKϭIIIIIMIIIIIQIIWIIIOIIKIKKMSIKKKKIIIKKIIIIIOIOIKIIIIIMIIIIIMIIIIMIIKKIKIIIKIKIIIMMKIKOOIIIIIMIIKUKIIKIMIIIIKIIIIIIIKIIIIMKIKIOKKIMIA�F�vhrnnnnnnnnnnnnnnnn�g�K]i]a]]]]]]_]k_]]_�]]_]a�]]_]]]]_ac�]]_]]]_]]_]]]q]]_aaa__]]a]_]c]_]_]]_]]]]]]_g]]]]e]]]]]]]_]]]_]c]_]]]_]_gaa]_]]]]]]_��]]]]]a]]]]]e]]k]]]c]]_]__ag]____]]]__]]]]]c]c]_]]]]]a]]]]]a]]]]a]]__]_]]]_]_]]]aa_]_cc]]]]]a]]_i_]]_]a]]]]_]]]]]]]_]]]]a_]_]c__]a]A�F��h�}��1�{�_*q}quqqqqqqsqsqqs�qqsqu�qqsqqqqsuw�qqsqqqsqqsqqq�qqsuuussqquqsqwqsqsqqsqqqqqqs{qqqqyqqqqqqqsqqqsqwqsqqqsqs{uuqsqqqqqqs��qqqqquqqqqqyqqqqqwqqsqssu{qssssqqqssqqqqqwqwqsqqqqquqqqqquqqqquqqssqsqqqsqsqqquusqswwqqqqquqqs}sqqsquqqqqsqqqqqqqsqqqqusqsqwssquqA�F��i��E؏�s>��酅��A�F��g�*""""""""""""""""Y�އR��˙��A�F��g�gggggggggggggggg{��t�ǻ��ɽ��߻��6��ϻ��Ż��û��ſ��A��û�ɻ��Ż��ǽ��A�F��g�*��"��J��U3��A�F��h��6�(ќ��^��iG��A�F�g��J<��)��r��}[��A�F�h�[WWWWWWWWWWWWWWWW�^P�� / = � �o A�F�*h��r)d �+#!-!!C!#Q!!#%�!!!3!###!!#!%!!!!)'!!%!!!)##!!��#'-%!!!#)!!!!!!%%!###!!!!!##!!%%#!+!!#!!#!!%!!#A�F�>kt��=x!�3?3733333353A5335W33537e3353333579�3353335335333G33577755337353935353353333335=3333;3333333533353935333535=77353333335��33333733333;33A33393353557=35555333553333393935333337333337333373355353335353337753599333337335?5335373333533333335333375353955373A�F�RiG�Q�5GSGKGGGGGGIGUIGGIkGGIGKyGGIGGGGIKM�GGIGGGIGGIGGG[GGIKKKIIGGKGIGMGIGIGGIGGGGGGIQGGGGOGGGGGGGIGGGIGMGIGGGIGIQKKGIGGGGGGIͫGGGGGKGGGGGOGGUGGGMGGIGIIKQGIIIIGGGIIGGGGGMGMGIGGGGGKGGGGGKGGGGKGGIIGIGGGIGIGGGKKIGIMMGGGGGKGGISIGGIGKGGGGIGGGGGGGIGGGGKIGIGMIIGKGA�F�fh�lGGGGGGGGGGGGGGGG�e�I[g[_[[[[[[][i][[][[][_�[[][[[[]_a�[[][[[][[][[[o[[]___]][[_[][a[][][[][[[[[[]e[[[[c[[[[[[[][[[][a[][[[][]e__[][[[[[[]�[[[[[_[[[[[c[[i[[[a[[][]]_e[]]]][[[]][[[[[a[a[][[[[[_[[[[[_[[[[_[[]][][[[][][[[__][]aa[[[[[_[[]g][[][_[[[[][[[[[[[][[[[_][][a]][_[A�F�ziŌ��=Ї�k6}�}�}}}}}}}�}}�}}}��}}}}}}��}}}}}}}}}}�}}��}}�}}�}}}}}}}}}}�}}}}�}}}}}}}}}}}�}}}}}��}}}}}}}�}}}}}�}}}}}�}}�}}}�}}}��}}}}}}}}}�}�}}}}}}�}}}}}�}}}}�}}}}}}}}}}��}��}}}}}�}}�}}}�}}}}}}}}}}}}}}}�}}�}�}A�F��jJ��Q��J��Ñ��A�F��k(�e��^��ɥ��ץ�� + ��A�F��g�4@@@@@@@@@@@@@@@@y��r�Ź��ǻ��ݹ��빹��4��͹��ù��ý��?��ǹ��ù��Ż��A�F��i|�||||||||||||||||� ��H��S1��A�F��i򻸸��4�&Ϛ��\��gE��A�F��h9��H�:��'��p�� {Y��A�F�g��0000000000000000�\N�� - ; � �m A�F�h1�uuuuuuuuuuuuuuuu�~5p�+7+/++++++-+9-++-O++-+/]++-++++-/1�++-+++-++-+++?++-///--++/+-+1+-+-++-++++++-5++++3+++++++-+++-+1+-+++-+-5//+-++++++-��+++++/+++++3++9+++1++-+--/5+----+++--+++++1+1+-+++++/+++++/++++/++--+-+++-+-+++//-+-11+++++/++-7-++-+/++++-+++++++-++++/-+-+1--+/+A�F�.h��I�-�?K?C??????A?MA??Ac??A?Cq??A????ACE�??A???A??A???S??ACCCAA??C?A?E?A?A??A??????AI????G???????A???A?E?A???A?AICC?A??????Aţ?????C?????G??M???E??A?AACI?AAAA???AA?????E?E?A?????C?????C????C??AA?A???A?A???CCA?AEE?????C??AKA??A?C????A???????A????CA?A?EAA?C?A�F�Bg��]�AS_SWSSSSSSUSaUSSUwSSUSW�SSUSSSSUWY�SSUSSSUSSUSSSgSSUWWWUUSSWSUSYSUSUSSUSSSSSSU]SSSS[SSSSSSSUSSSUSYSUSSSUSU]WWSUSSSSSSUٷSSSSSWSSSSS[SSaSSSYSSUSUUW]SUUUUSSSUUSSSSSYSYSUSSSSSWSSSSSWSSSSWSSUUSUSSSUSUSSSWWUSUYYSSSSSWSSU_USSUSWSSSSUSSSSSSSUSSSSWUSUSYUUSWSA�F�Vh|�))))))))))))))))'�q�U gsgkggggggiguiggi�ggigk�ggiggggikm�ggigggiggiggg{ggikkkiiggkgigmgigiggiggggggiqggggogggggggigggigmgigggigiqkkgiggggggi��gggggkgggggoggugggmggigiikqgiiiigggiigggggmgmgigggggkgggggkggggkggiigigggigigggkkigimmgggggkggisiggigkggggigggggggiggggkigigmiigkgA�F�jh��eeeeeeeeeeeeeeee;΅�i4{�{{{{{{{}{�}{{}�{{}{�{{}{{{{}��{{}{{{}{{}{{{�{{}}}{{{}{�{}{}{{}{{{{{{}�{{{{�{{{{{{{}{{{}{�{}{{{}{}�{}{{{{{{}�{{{{{{{{{{�{{�{{{�{{}{}}�{}}}}{{{}}{{{{{�{�{}{{{{{{{{{{{{{{{{}}{}{{{}{}{{{}{}��{{{{{{{}�}{{}{{{{{}{{{{{{{}{{{{}{}{�}}{{A�F�~g�*��O��}H�� 󏏏��A�F��h��q��j��ձ��㱱��,��ű��7��