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: sw01163401000b143x001.hk[0] TSTART = 702708148.09828 TSTOP = 702711125.63626 DATE-OBS= '2023-04-09T04:42:23' DATE-END= '2023-04-09T05:32:00' PROCVER = '3.19.01 ' / 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 = '01163401000' / Observation ID SEQPNUM = 9 / Number of times the dataset processed TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART CHECKSUM= '8YaaAWaU1Waa8WaU' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = ' 0' / data unit checksum updated 2023-04-19T12:17:08 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 = 12 / 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 = 702708439.85894 TSTOP = 702711124.54254 DATE-OBS= '2023-04-09T04:47:14' DATE-END= '2023-04-09T05:31:59' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728000000000 / [s] UTCF at TSTART TELAPSE = 2684.68359994888 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 291 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'W6MaW3KZW3KaW3KW' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1695430128' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b123x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:30 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=kp./src/brinterface.cpp:faultIMAGELOSS A=YI Ȁ\\\targ/nram/scripts/onslewmc.gz A=r|[ ʀ\ONFALS10 A=_ ΀\\\ONFALS10 A>Zƀ./src/sourceCatTbl.cpp:faultSOURCETABLE A>i Ȁ\\\targ/nram/scripts/onfals10.gz A>$ ʀ\ONBURQ20 A>Iπ ʀ\ONSLEWMC A>ǀ./src/sci_dumpable.cpp:faultDUMP A>Ҥ ΀\\\ONSLEWMC A@Հ ΀\\\ONBURQ20 ABEq̀\ XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 152 / 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 = 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 = 702708483.41456 TSTOP = 702709073.0158 DATE-OBS= '2023-04-09T04:47:58' DATE-END= '2023-04-09T04:57:48' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728000000000 / [s] UTCF at TSTART TELAPSE = 589.601240038872 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 293 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'UAcla5akVAaka5ak' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3862809733' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b125x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:30 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=M&ZԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A>&ˀ&Vtarg/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A>&ZԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A> &cptarg/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A>!&htarg/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 = 4738 / 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 = 702708148.09828 TSTOP = 702711125.63626 DATE-OBS= '2023-04-09T04:42:23' DATE-END= '2023-04-09T05:32:00' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2977.53798007965 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 297 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'W8MdY6KaW6KaW6Ka' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1052430671' / data unit checksum updated 2023-04-19T11:42:28 HISTORY TASK: FAPPND on FILENAME: sw01163401000b129x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:30 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A< pA<,A<ڍA<ڭxA< A<ێbA<E9A<܏^A<y>A<ݑRA<^A<ޒdA<A<ߓA<AAA=3A=4 |A=4mA=4{A=4͕WA=5 A=5.=A=5NJA=5nWTA=5҉A=5A=5A=5A=6?SA=6/A=6OA=6oA=6A=6A=65A=7_A=7+A=8wA=8A=88A=8SA=9A=92A=9S A=9s+VA=9^tA=9ӐA=:A=:4A=:T*EA=:vKA=:A=:ǏA=;A=;5ClA=;uA=;A=;A=;A=;A=<FJA=<6lLA=A=>NA=?4A=?t~A=?A=?۬qA=?A=@iDA=@?_pA=@_}A=@A=@1A=AA=A'A=Ah;A=A`A=AA=B .A=B))A=BIT"A=BiA=BA=BA=BQA=BA=C 5A=C,LA=CMA=Cm:A=CnA=DhA=DbA=E8A=ECA=FfA=`hA=`A=a A=aaA=b5~A=bA=bHA=cvA=c8YA=cXA=cxA=cA=cA=c0A=cXA=dA=dY!A=ddA=dRiA=dyA=eA=e:$A=eKsA=enA=eۖ)A=eA=fA=fA=gqA=g]lA=g}#A=g9.A=h~A=hTLA=izNA=i_˒A=i{A=i0A=i7 A=iY!A=jsA=j vA=j@rA=jaA=j7LA=jrGA=jA=jᝈA=kDA=k!A=kBA=kb;yA=ka|A=kA=knA=kgwA=l}A=l,A=lLZA=ll_[A=lA=lA=l A=l"A=m #OA=m-A=mMyA=mm#A=mA=mgA=m. A=mFA=nJ8A=n.oA=nN>A=n!A=oA=op A=o]A=pA=pLA=qA=qrLA=qsA=q^A=qA=qA=r(A=r3^tA=rSgA=rsLA=rjA=rQA=r)A=sPA=s4xBA=sA=s+A=tMA=t5-A=tVXA=tvA=t$A=t\A=t֍A=tA=uIA=u6CA=uWFA=uw8A=uE9A=u׏A=vDA=vX-8A=vA=vA_A=wiYA=w:\A=wzA=wwA=wA=wo~A=xCA=x[dA=xMA=xvA=yA=y]@%A=yA=yA=yKA=z>FA=z~A=zA=zA=z0@A={?bA={[A={&A=|[A=|@A=|PA=|vA=}A=}!֌A=}aA=}!BA=}FA=}ǹA=~A=~$A=~dxA=~iA=~ A=~8A=A=%kfA=eUA=A=_A=WTA=A=&A=fA=A=28A= A=A='A=mA=]A=AJA=zNA=/JA=O7A=p A=HA=~A=ExA=l"A=A=0םA=PA=qA=9CA=a=A=хIA=A=A=2AA=R#:A=r8A=]A=A=ҤA=A=A=3A=SW?A=sn/A=A=FA=A=A=:A=4eAA=TA=tA=ŗA=A=A=:?A=^A=5A=U6A=uA= A=OvA=LA=rA=6A=w4A=:A=TA={A=A=7A=x3A=pA=؞A=A=A=9A=Y6A=y^A=A=A=A=A=:EA=ZmA=zA=A=OA=oA=̖hA=bA= uA=,A=vA=zA=Y!A=A=PA=q"SA=HA=nYA=ѨA=DA=A=2\A=R!A=rIA=o?A=A=+A=A=vKA=A=DA=A=vA=6A=aA=֋A=\A=A=63A=W3A=w=\A=SA=ןA=+A=A=A=oiA=ӮA=wkA=A='A=ÇA=éA= ^A=)$A=Ċ5A= A=,XA=ōqA= FA=ƍA=پA=Ǐ5~A=õA=ȐtA=dA=ɑA=2A=ʒA=iA=˔1A=5A=̕_A=GA=͖5A=8A=ΗDA=A=ϙA=ίA=YA=zcsA=КEA=кA=ڧA=A=ћ0A=&WA=ҜA=XdA=UA=]-A=}A=ӞA=Ӿ>lA=HA=kA=A=>ΚA=~+A=ԟ0@A=$A=A=Հ-8A=ՠU2A=|A=!A=ց|A=֡9A= A="CA=׃A=פ!A=*A=$A=؅LA=إb9A=TA=& NA=نOA=٦A=#%A='=\A=ڇA=fA=یA=۫NA= { A=܎ A=A=ݏtiA=NA=ސ8A=,A=ߑA=u%A=A=A=A=ΚA=A=OA=tiA=WA= tA=A=렦vA=A=!GA=zA=kA=oA=#A=peA=!A=A=%1QA>~IA>A>yA>>A>sA>qA>)A> wA>]A> A>uA>!zA> A>nA>8A>$!A>VA>A>LA>%XdA>gA>aA>fA>&cA>3A>XA>ڥA>fA> A A>)6A>|1A> u:A> A> 9.A> fA> A> W*A> A> EA> A> A>H,A>A>eAA>A>QA>VrA>v&-A>SeA>zA>֠A>_A>{A>zA>LA>rA>[A>2A>XOA>~RA>UA>:jA>[A>{&A>A>0A>hA>}sA>jA>FJA>A>~2A>?SA>A>A>/0A>A>ӮA>!2A>rGA>łA>A>"h A>BjA>bA>wA>#A>VA>$ŗA>JA>Y A>ϫA>&%A>}A>FA>A>'9mA>g8A>A> A>5?A>xA>RA>#A>uA>LA>hsA> 7A> 1a=A> A> $A>!A>!DA>"A>"oA>#CA>#ZA>$A>$A>%A>%&A>&A>&pPA>&A>&ٻA>'A>'BA>'yA>(A>(+J#A>(J;A>(kA>(fA>(")A>) DA>),@A>)KHA>)qA>*1A>*oA>+jA>+HA>,A>,EA>-{A>-A>.2A>.A>/g8A>/UA>0QA>0VA>0vLA>0DRA>0nDA>0֔A>1A>1wA>1A>14A>2A>2A>2/A>2?)A>3g#A>3A>4A>4:ɰA>4[\A>4{A>45+A>4v A>4#A>4>A>5$KA>5EzA>5ef'A>5=A>5A>5ɀ A>5鹶A>6 ̸A>6)HA>6lA>6A>7 =A>7-A>7DRA>8LA>8/OA>8O6&A>8o]yA>8A>8A>8A>8%[A>9`WA>90B1A>9PhA>9pA>9yA>:~A>:nA>;A>;NA><A><A>=EA>=$A>>?A>>UA>?tA>?+A>@A>@_FA>AA>A^A>B1B-A>CjA>C3A>C#A>DA>D~9A>DbxA>DA>E/A>ElA>EA>F$A>F /0A>FA>F3A>GcA>G!vA>G#A>GlA>H}A>H$TA>HcIA>H4A>IA>I%KIA>IA>IA>JHAA>J&A>JA>JA>K,A>K'uA>K:A>KcA>L tA>L,0A>Lu:A>M A>MOA>N3A>NKA>OoiA>O A>PCA>PR'(A>Pr*oA>PGA>P|[A>PA>QA>Qw\A>R3A>RA>RUA>SsCA>S5=A>SU7A>SuA>SA>S(A>TQA>T@A>U*A>Uy[A>UA>UA>V{ A>VA>WmA>W WbA>WvA>XA>X"%1A>XA>X:A>YoA>Y$A>YA>Y'|A>ZjA>Z% A>Zc A>ZFA>[A>['A>[6A>[A>\/0A>\(l"A>\!A>] 0A>])|A>]yA>^ rA>^A>_jA>_#A>`A>`]A>aA>aA>b>A>bjA>chA>c:A>dA>dZ\A>e A>e"A>f3A>fA>g~|A>gHA>hA>h+A>i`A>ifQA>j A>jj`A>k7A>k}jA>kA>k]:A>lA>l~A>lA>l A>mA>m)JA>mFA>nfA>n XA>nrGA>nmA>o A>o"0UA>oA>oHkA>pA>p$A>pDԪA>pe<6A>p6PA>pMA>pxA>qA>q&,A>qeA>qA>rA>r':A>rA>s9A>s(sXA>shA>s%A>s(9A>sF_A>sUqA>t $A>t,;A>tLjA>tkfA>u KIA>uA>vA>v4A>wxA>w]A>x~A>xA>y>A>yA>zzA>z;A>{A>{bA>|=A>|$A>}9mA>}NA>~A>~+A>A>UA> 0A>A>+A>%A>3A>~yA>,A>A>A>EA>eA>A> A>pA>A>#A>!_FA>A>A>WA>"A>A>[lA>A>$A>A>aA>A>&HA>A>A>WA>'4A>A>/A>(A>z:A> nA>CA>fA>A>xA>DgA>eA>A>A>ZA>A>T,=A>tSA>2A>[A>ԽA> A>A>aA>WA>pzA>A>7A>WqA>x -A>1'A>QA>&A>A>RA>A>#A>A>ClA>A>A>~RA>|A>A>|A>A>A>1A> Y!A>A>A>sA>!=A>uA>-A>bA>$ A>A>A>=A>%_A>EA>e$A>A>3A>$5A>L0A>+A>&kA>FA>ffA>A>'A>ZA>GA>TA>'zA>G=A>h0A>A>EA>lvA>A> sA>,A>M;A>m#A>HA>A>͞A>ćA> A>.1QA>NaA>njUA> 5A>A>A>A>'A>/NfA>OA>oA>A>A>A>0A>bNA>0 A>PA>pA>A>A>OA>@A>A>13A>r+A>A>|A>A>KA>6A>W.IA>wA>&A>)_A>A><A>\`A>|A>߰ A>)A>CA>?4A>`1'A>zA>vA>ǬA>pA>A>*9A>JSA>juA>A>A>A>")A> NA>+LA>KudA>kA>A>fA>ҋnA>A>ީA>2A>SA>sFA>A>TA>ӲA>ݘA>DA>4@A>TsA>tjA>?A>A> A>\SA>XdA>5A>UA>v!A>&A>A>_A>A>A>69A>VA>w8A>JwA>ɛA>ןA>A>A>8@A>XB1A>x},A>7A>BA>A>6A>*A>9R*A>Y|A>yA>A>6A>A>ekA>:xA>ZA>{(A>fA>;A>ۓA>A>¹A>; A>\UA>|sA>5A>A>ܮA>IA>A>='A>]Q/A>}A>A>A>N'A>"A>&A>F($A>f{_A>҉A>A>A>yA>jA>((A>HA>hA>3]A>'A> A>*zA>mHA> }A>,A>rA> sA>FA> =A>ZA>_A>A>/A>LA>YA>sc A>yA>A>!A>tA>lA>A>!WA>WA>u:A>5A>A>AA>VA>XA>A>$JA>JA>>A>a|A>A> A>!&A>xA>TA>:A>'gMA>‡ܜA>|A>ÉAA>éWiA> A>,LA>črA> A>ŎA A>"A>o&A>ƏA>tA>ǐYA>rGA>Ȓ'(A>ɰA>ɓj@A>A>ʔ5A>vA>˖4A>*ZA>lA>6A>WA>̗IA>A>͘eA>LA>ΙGA>A>ϛ 2A>`A>eA>~A>ЦffA>.IA>+(A>ыA> GA>ҍ+A> A>ӎ6A>پA>ԏtiA>7 A>U2A>03A>P\hA>pA>ՐA>հA>A>A>EA>֒A>{A>S_A>ד_A>A>ؔpeA>A>ٕA>PA>ږA>jA>ۘ)A>IA>ܚA>A>A>ݟ!A>OA> A>ހPA>ާA>8A>A>&+A>G0@A>gTA>߇|FA>ߧA>A>A>A>(rA>A>݃A> HA>)zA>A> A>,!A>LJbA>qLA> "A>㍼A>gA> 5A>IA>]A>bA>摐mA>!BA>zA>aA>A>A>|A>4&A>UA>uDA>[A>鵄MA>A>A>HAA>ꖥA>AA>A>A>y&A>A A>ٓA>؄A>횀IA>#yA> A>A>oA>A>~A>YA>A>%MA>dA>A>\A>.A A>A>#A>/ A>OA>p%[A>TA>2vA>pA>QA>A>A>1A>A>A>u>A>$A>kA>T A>&lA>9A>JA>A>{tA>A>iA>VA>A>A>F A>=A>]jA>}QA>&A> A>A>?A>#A>CA>A>A>zxA> A>NA?A?/)A?GA?`WA?MA?A?-A?$A?jA?A?IA?l A? A?A?:A?A?8&A?XHA?xbA?YA?A?A?A?>A?9N A?>A?CA?C/A?CfA?DA?u~A?v qA?vDA?w;%A?wA?xA?x/A?xSA?yA?y;A?zdA?zA?{ qLA?{`A?{ A?|.A?|A?}IA?}A?~!A?~A?~A?o*A?>A?A? 3A?"A? .A?A?A?A?_A?A?nA?R/A?seA?A?=A?ʗA?A?4EA?TmA?A?M@A?A? A?A?w6&A??SA?ZA?ׄA?A?A?7aA?X$ A?A?zcA?A?"A?A?A? ^A?kQA?yA?ʟA?SA? A?,[lA?nA? m]A? A?fA?TA?A?A?e,A?A?A?33A?eA?k'A?!A?A?^A?OA? A?nA?/A?tA? ClA?CA?پA?5~A?nA?mrA?e,A?qA?mHA?A?[A?9XA?A?A? GA?A?VCA?A?A?EA?+A?A?(A?A?vKA?A?pA?" JA?aA?dA?A?¤A?A? FA?-A?A?>lA?پA?A?//A?UA?A?R5A?r^A?A?A?A?A?A?3eA?StA?sA?A?A?;A??A?hA?EA?A?TA?"A?GA?3A?A?A?!~A?JA?m3A?]yA?'sA?A?A? lvA?,A?A? -A?KA?A?PA?]A?ٔA?z%A?eA?yA?_A?nA?A?(A?MA?T A?$tA?A?K^A?+A?~A? ĜA?vA?1A?1A?&A? A?]A?;7A?[A?{wA?țA?ȻA?A?$aA?ɄA?ɤA?HA?%A?ʅA?ʥ]A?WA?&FA?ˆ2A?˭ A? A?̎fA?MA?͏A?A?ΑA?hA?ϒ\A?RA?ГHA?0+A?єRA?tA?Җ4A?A?ӗCA?A?ԘuA??A?ՙ4A?{ A?֛$ A?ֻLA?۪zA?A?GA?לA?A?؝A? GA?"|[A?كA?٩GA? VA?)A?ڊSA? !A?ۍA? u:A?->A?܎+kA?پA?ݏRA?A?ސA?EA?ߑA?WA?!A? xA?bA?(A?╖A?;A?A?v`A?WA?whA?kA?6eA?pA?A?嚰!A?BFA?A?xBA?~(A?}A?*A?_A?A?A?"A?CfA?c>WA?脹$A?E$A?iA? rA?-%A?鍡#A?CA?A? A?^_A?eA?|A?2MA?zA?cA?A?sA?A?4YA?TA?uQ/A?DA?kfA?Փ`A?A?yhA?1A?A?PA?A?A?ҞA?9ίA?YA?zb$A?CWA?hA?ڑSA?A?A?A?AA?YA?dA?}AA?;%A?XA?KA??]yA?{A?7LA?A?%oA?A?DRA?($A?A? >A?,sA?rA? uA?VA?iA?A?pA?A?A? A?'A?aA?0wA?PA?pA?A?A?0UA?>A?jA@UA@A@jA@ A@QA@FA@WA@A@OA@^A@~yA@0A@,RA@HA@GA@A@'RA@/A@A@ A@qA@A@/A@A@A@'AJA@GlA@gA@oA@zA@rA@$ A@JA@*0UA@I7A@j,gA@dA@q7A@ʋnA@A@ $A@ rA@ YA@ !A@ a(A@ A@ NrA@ NfA@ A@ A@ 0 |A@ P8\A@ p^_A@ bA@ A@ VA@ `A@ e,A@ 1CA@ A@[A@A@A@#A@ A@A@A@A@MA@A@65A@VA@v A@?A@EA@GA@+A@hA@AA@P3A@+A@zcsA@u%A@A@rA@&,A@GA@HA@A@ ֡A@>{A@?A@?eA@@VA@@A@AA@A/oA@BPA@B8A@CA@C#A@DW~A@D\A@D|RA@DgA@D.A@D;A@EeA@E&N'A@EA@E?SA@F˒A@F*A@FA@G qA@G+NA@GA@GIA@G쟕A@H qA@H-pA@HMA@Hm+,A@HinA@HWA@H͢sA@H˼A@I A@IA@JE9A@JfA@K},A@KA@LhA@LTaA@MA@MnA@N6A@N A@OsCA@OA@PuA@P6A@PW%A@Pw:A@PXA@P1A@QA@QA@RGA@R A@R:*A@RyA@SA@S:A@S[A@S{]A@S4A@S^A@SqA@S,A@T'+A@TA@T#A@UuA@U?A@V A@V)QA@VɆA@V%FA@W A@W@dA@WA@W˒A@X_A@XѷA@YgA@YA@ZyA@Z]%A@[ A@[rA@\/A@\hA@]iA@]6A@^SA@^lA@_/A@_A@`CA@`IA@aàA@ad0A@adA@b5?A@b~A@bA@b|A@c%#A@c7A@cSA@d A@d*OA@dJA@dkA@dD=A@d(NA@d˶A@e A@e%A@f A@fmA@gXA@g.A@gnA@gsA@g6A@gsA@gA@hQA@h/KA@hOA@h^_A@iA@iZA@j/A@j`A@kaA@kA@l+A@l]A@lsA@l՝4A@lA@mA@m+A@n6&A@n'A@o$A@oA@pA@pA@qjA@q"A@qA@q\}A@rA@r'wA@rLA@rA@r^ A@saA@sA@sA@t A@t*OA@t.A@tlA@u BA@uJA@v:A@vA@wA@w/ZA@xWA@xVA@yA@y&2A@yfA@yxA@z ]A@z+>WA@zA@z:A@{ R?A@{A@| aA@|- A@|CA@}A@}A@~^_A@~ӮA@wA@A@w\A@àA@UA@ A@A@8A@A@A@زBA@8A@A@9)A@Ya=A@yx-A@A@hA@߹A@XOA@0UA@:gbA@FA@!A@'XA@zA@A@ VA@*%A@k9A@eA@A@A@JA@ A@,A@L^A@A@A@ A@A@ƽA@2A@͊A@cA@A@A@>A@A@w\A@A@XA@`A@=A@HA@E9A@qA@A@-wA@A@@_A@`pA@SA@A@!A@JA@A@1A@Q[WA@rGA@A@A@Y6A@wA@A@)A@DA@doA@FA@A@fCA@^7A@~lLA@lA@.A@,A@ۍoA@ A@܎WTA@A@ݏA@_A@ސA@A@ߒ5A@A@jA@ oA@ᔻA@YA@ A@A@6A@KA@X+A@xrA@䘃A@丒A@A@݃A@+A@9*0A@A@-A@XA@FA@mA@{A@A@oA@^ A@~(A@ gA@-A@NA@bA@&A@]yA@ ɆA@-nA@ꍱA@EA@A@ZA@rA@DgA@푋/A@A@A@OA@hIA@;A@A@VmA@=A@񖬆A@EA@A@A@{A@A@wA@A@UA@ A@"A@A@~ EA@A@6PA@(A@HA@uOA@A@)"A@A@A@ OA@,]A@oA@+A@A@aA@IfA@;A@0A@A@WA@zcA@LA@A@RA@eAAAA6AAAAiAA>AA6AATAAAA/AA:AAZAA{6zAAAAHAA۶FAA*AA$AA;AAiAA"kAA8AAAA oAA+AAkAAAAAA8 AAAA $AA,\AAL^AAm]AA [AA AA پAA XAA AA |AA  AA ̸AA b$AA AA&AA8AAAAAAAAAAE9AAAAAAEAA4AAs.AA")AAAA,AAAAAA~{AAAA5AA$AAXAA+AA{_AA+'AA!AA AAu:AA+kAAfAAKAA+AAAA0pAAAA*AAoAAAAAAV.AAAA *AA 1QAA!AA!mAA"AA"AAA#AA#14nAA>~AA?AA? AA@zAA@SPAAA"$AAAAAAAABagAAB' AABAACAACi/oAACDgAACgAACɕAAD %AAD,AADL?AADlAADqAAD^AADUAAE AAEFJAAFAAFAAG^_AAG0wGAAGEAAHAAH1KAAHQAAHrAAH!AAHAAHfAAHBAAIAAI2AAISAAIsHAAIcAAIzAAIӣAAI$AAJAAJAAKBAAK5eAAKAAKSeAALxAAL6$AALVAALvpAAL%AALjAALQAALaAAMAAMoiAANAANgAAO/AAOAAPzAAPyAAQAAQQ/AAQAAR3AAR~AARdAASAAS,5iAASrAASAAT AAATAAU\AAU%AAVAAVdEAAWeAAWAAX;yAAX>AAYiAAYAAZAAZO7AA[ AA[4AA\3AA\AA]7AA]vAA^;AA^A_AA_ AA_AA`!AA`AAa^5AAa"AAaAAaXAAbAAb)_AAbAAbAAc AAc+FAAcAAd rAAdLAAdm!AAd+AAdAAdyAAe AAebxAAfWAAfAAf[AAg_AAgAAhAAhQ+AAhr0AAhKAAhAAh|[AAhiAAiϖAAi2AAiS 2AAis[-AAij@AAj;AAjAAkOAAkAAl AAl9mAAmAAm}AAn AAnAAn.AAoAAo !AAo5TAAo^AAp AAp)AAp=qAAq ɆAAqlAAr KIAAroAAs۶AAs>AAsAAt)AAtuAAudAAuAAvcsAAv AAwJAAwIAAxwAAxAAy%AAyKAAzXAAzAAzAA܇AANAA'QAA;dAAc^AADAAAA AA+AAAA2AA AA=AAAAAAANAAnAAAAAA.IAAAA]AAAACAAAA2TAArs.AA1AAAAAA AA1AAuAAAA+DAAK_AAAAtAA cIAA,AA3AA#AA {AADRAAAAcAA]AADgAAmAA&AAAAw\AA;AAAAQAAAAAALnAAE9AAAAhAAAAjAA~AAeAAjAA+eAAAAPHAA~(AArAA yAA,AAM AAm2aAAXdAA쭔AAͣAA AAپAAAAAAAlAAtAAAALAAAA'AA,=AA@AAAAAAAA?SAA#AAAA6AAAA}AA/AAtAAAApAAAA5AA]AA~AAuAA:AA+{AAWAA !AA3AA { AA-sAA0AAAATAAAAcABGABWAB]AB&ABABEABԪABtABjABVABvABfABپAB#AByAB!ABuABxlABABAB["AB{ABABABAB%ABVABbxAB>AB?AB??AB@(AB@~ABA\ABAABBSABBABCABCM@ABCͳABD1ABD^5ABD~VABDMABDABD#ABE%ABE$YuABEҳABE[ABFd0ABF+ ABF&ABG tABG,ABGxBABGeABGABH ABH-VABHMVmABHmABHaABHdABHUABICABIfABJABJ/ABJ^_ABKEABKVABLABL(ABMLABMeABNpeABN ABOABO]ABPABPGABQ/ABQABRoABRuABSABS1ABTAABT}ABU/ABU}sABUABUFABV\ABV~yABV ABVjABW$ABWKIABW ABXj+ABX(.ABX;:ABX&ABY gABYOABZ ABZ/ZAB[پAB[xAB\MUAB\0AB\AB]$AB]AB^yAB^-AB_AB_LYAB`mAB`ABa,ABaABbWABbaABcABcKABdABdZ2MABdzcsABdABdABd͟ABeABejABfZABfoABfqLABg4ABg}ABg77ABgޔABg̣ABhABh?bABh_ABhABhbABhABh1ABiFABi*ABiABj ABjYABk ABk.ABkȴABl6ABl ABmfAB[AB.IAB'Z2ABAB fAB+9ABABAB ABRABABAB_ABDgABgABABk pII__ˆog>uA<@> phw|/__;ogԀ>uA< j> p p__F^og>uA<¹?1 p<2`<D__&ƀoh>uA< €?s p]O ]/ __;!oh+>uA= ? pe@X __JhohL> uA= ? pb54,Ѓ__Ytohg>uA=ı@9 pŏt{P__[ Loh>vA= ¹@{ pPP__Xoh>vA= a@ p @l c9<``MƊohĀ>#vA=( @ p }l X<$ȃ``)vA=/€AA p 8$l i8``*Ҁoi>.vA=7 €A p l 8ȃ`` c-oi>6wA=>jAŀ p jl 8$р``oi<>>xA=F B p 7l Y845``oiW>EyA=M¹BI p Qфl 8>8L``Xoix>LzA=U ¹B p jE l 9Y80``,oi>X{A=\aB̀ p :l G98:p``|Ӎoi>`|A=d jC p Hl R8CP``]avoiπ>h}A=kaCQ p l `8H``Fހoi>p~A=s ¹C p jl ky8P``(uoj">xA=z¹CՀ p l 8;nH``d݀ojC>A= ¹D p Qdl 8%,``8oj^>A=¹DY p xl y8``뷏oj>A= ¹D p {l ``אoj>A=ۡD݀ p <l $``ojŀ>A= ¹E p l t ``܀oj>A=6Ea p u|l u|``Dok>A= aE p #Zl #P܀ ``ok>A=E p ,(l ,(``8ok=>A= F' p 5l 5Ȁ ``sbokX>A=ŋ¹Fi p >hl >p``ȓok>A= F p Fl FԀ `` aok>A=ԋ F p NHl N$$``ɀok̀>A= G/ p Vdl VX ``$ok>A=Gq p ^',l ^',``xol>A= jG p ePl eT``|ol#>A=aG p ll lĀ ``~mOolD>A= H7 p t, l t$\``{ ol_>A>aHy p {Ul {L``{ol>A> H p iLl iL``w5mol>A>jH p v|l o \``xDՀol>A> ՀI? p vl o|D``v-0ol׀> A>I p nl n``wxol>A>' aIÀ p ]l VX@``uom>A>.aJ p Ql Q``xFyom>>#A>6 JG p $xl $x``s|ԀomY>+A>=¹J p dl t``vn<omz>1A>E XJˀ p l ``som>7A>LK  p ޼l נ``xom>=A>T ՀKO p Ǿl Ƕ8Ѓ``sZomр>DA>[K p 3|l 3|``vnon >JA>c ¹KӀ p l 0``sYon$>PA>jL p l ``wonE>VA>r LW p l ؀``t1on`>]A>y¹L p hl Ќ܃``won>cA> Lۀ p l D|``t̜߀on>iA>ıM p l  ``xzGon>oA> $M_ p <l T``tlon؀>uA>M p ll l``wԞ on>|A> €M p l \``eoo>A>N% p l ĀX``x0̀oo5?A> Ng p (l (``u(ooP?A> N p "ވl "֘``yooq@A> N p )l )``woo@A>ċaO- p 16|l 1.؀``~Soo@A> Oo p 8]`l 8U``xooȀ@A>ӋO p ?\l ?\``{boo@A> O p Fll F܀``wqop@A>jP5 p M,l MD``zJـop%@A> ıPw p TXl TX``wЂ4op@@A>jP p \l \h``y؀opx@A> ¹P p cl cl``v3op@A?¹Q= p jl jPt``yʃop@A? XQ p ql q ``topπ@A?΅Q p xl x``w(^opAA? XR p iDl b$ ``s儹oq AA?aRE p Edl >\``u!oq,AA?& R p l ``s|oqGAA?-jRɀ p l Ԥd``t{oqhAA?5 S  p l ``q?oqAA? A? $U p ܳl ܬԃ``mtorAD A?ıU p l ``EorAK A? V# p 4Ll -0``mosAQA?Ve p Ll 🄀ȃ``n{os%AWA? XV p l ``knրos@A]A?€V p <l {H``nތ>osaAdA? W+ pڤlӬ``kos|AjA? Wm p C,l <l``nosApA? XW phl``l\osAvA?ËW pl$``nĀosـA|A? jX3 pW\lP``jWosAA?ҋ΅Xu p#l#\8``motAA? X p)Tl)T``jot0AA?jX p0S0l0Lx``ljJotQAA? Y; p6l6D\``i]otlA!!A?jY} p>A@p ]߀ ptln(``fKovA >>A@w-^! pl``hP$ovA>>A@ ^c pl ``govۀA>>A@^ p`lԀ``hovA @@A@ ^ p,l,``e(BowA&CCA@_) pĻDlĵ<``h%ow8A,CCA@ ¹_k pʻlʵ\P``eЙowSA2CCA@¹_ pl``gmowtA8CCA@ a_ p־lַLH``dȀowA@MMA@`1 pFl@@``glowǀAFOOA@ j`s pBlh/ pl```!vo{A AAhq pltp``aȆހo{AAA ¹h plԀ``a89o{AAAXh p?l8``co{܀AAA ai7 pl㸀```o{A%AAjiy plld``b do|A+AA i pHl/``_o|3A2AAЋi plĀ``b'o|TA8AA Հj? plЃ``_o|oA>AAߋj plT0``a&o|ADAA ȟjÀ p̔l̎4܃```o|€AKAA>k pPlK``ao|ARAA ¹kG pl``_4Do|AXAAjk pݴ(lݭ@``bo}A^AB ıkˀ p[lU|``_xo}:AeAB l  pl``boo}[AkAB ՀlO pɬl``_ʀo}vAqABjl p ~ xHaac82o}AwAB# lӀ p " "aa_o}A}AB*¹m p  ټaab*o}ӀAAB2 mW p \ \aa`Po}AAB9Xm p Qx KăaacȎo~AABA mۀ p  4aa_o~*AABHn p  aab{o~KAABP ¹n_ p _ Z0̃aa_րo~fAABW n p ( (aabr>o~AAB_ n p  aa`o~AABf¹o% p  |$aabvo~ÀAABn og p * *aa_\o~ހAABu o p ul oăaacXoAAB} jo p $ $aa`'[o1AABXp- p 8 8aabÀoRAAB €po p ڀd zaa^omAAB¹p p ? 90aab哆oAAB jp p p paa_toAABaq5 p  Paac`IoʀAAB ¹qw p T Taa_@oAXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 218 / width of table in bytes NAXIS2 = 199 / 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 = 702708154.0927 TSTOP = 702711124.09268 DATE-OBS= '2023-04-09T04:42:29' DATE-END= '2023-04-09T05:31:59' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2969.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 305 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'UAYEa2X9V8XCa8X9' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3296100920' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b131x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:30 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A< ݘtarg/temp/onslew.vet !,d >>W yyEA<܆ۀA<܀Κ΀s&pm;%XdZ\A<targ/temp/onslew.vet !,d MWByȀyȀTA<A<Ꚕspǀʆ%d\A< Htarg/temp/onslew.vet !,d \Wyy׀y׀cA<놅4A<sp!р&.d\A<@targ/temp/onslew.vet !,d kҏWyy怼rA<ӀA<""sp{&e\A< Htarg/temp/onslew.vet !,d z㮏WyyA<4A<>>spՀg&e"\A=targ/temp/onslew.vet !,d 銏W"zzA=ۀA=ZZsyp /˲'5eF\A= @targ/temp/onslew.vet !,d fWYzzA= ۀA= vvsp 'es\A=ߏtarg/temp/onslew.vet !,d BWz"z"A={A=꒚ꒀsgp H'e\A= 7targ/temp/onslew.vet !,d Wɩz1z1A=4A=쮚쮀sބp!=̓(we\A= ݘtarg/temp/onslew.vet !,d W!z@z@A= A= ʚʀtUp!ހ(f\A=( ݘtarg/temp/onslew.vet !,d ֏W"9zOzOA='ӀA='暔t̄p!))f%\A=/Htarg/temp/onslew.vet !,d  W#sz^z^A=/ۀA=/tCp"Kt)ofM\A=7 Htarg/temp/onslew.vet !,d W$zmzmA=6A=6tp"Ϳ*g(\A=>Htarg/temp/onslew.vet !,d jW%z|z|A=>A=>::t1p" ,qh\A=F targ/temp/onslew.vet !,d FW'zzA=EA=EVVtp#YU-i\A=Mݘtarg/temp/onslew.vet !,d $"W(Szz&A=MA=Mrrt p#Π.j5\A=U ݘtarg/temp/onslew.vet !,d .)W)zz5A=TۀA=Tt p$ /=j\A=\ݘtarg/temp/onslew.vet !,d =/ڏW*ézzDA=\A=\t p$g6/j\A=d Htarg/temp/onslew.vet !,d L5W+zǀzǀSA=c4A=cƚƀt p$ρ0)k \A=k@targ/temp/onslew.vet !,d [;W-3zրzրbA=k4A=k⚕tp%̀0k`\A=s ݘtarg/temp/onslew.vet !,d jAnW.jzz值qA=rA=rtrp%u1k\A=zݘtarg/temp/onslew.vet !,d yGJW/zzA=zA=ztp%πb24l9\A= ݘtarg/temp/onslew.vet !,d M&W0ک{{A=A= 6 6t`p&)Э2ls\A=ݘtarg/temp/onfalse.lng ԀԀd SW2{{A=A= R Rtׄp&3m\A= @targ/temp/onfalse.lng ԀԀd XޏW3J{!{!A=A=nntNp&݀C4ms\A=targ/temp/onfalse.lng ԀԀd ^W4{0{0A=A=tńp'7ю63n\A= targ/temp/onfalse.lng ԀԀd dW5{?{?A=rA=tv \A=ŋtarg/temp/onfalse.lng ԀԀd ЁW;ԩ{{A=A=22t p)SP@^w~\A= targ/temp/onfalse.lng ԀԀd ЇW= {{%A=̆A=̀NNt"p)ӛBx\A=ԋtarg/temp/onfalse.lng ԀԀd -ЍW>D{{4A=A=!j!jt#}p*Cez\A= րtarg/temp/onfalse.lng ԀԀd <ГvW?{{{CA=ۆA=ۀ##t$p*a1CzY\A=ݘtarg/temp/onfalse.lng ԀԀd KЙRW@{ƀ{ƀRA={A=%%t&kp*|D'zw\A= Htarg/temp/onfalse.lng ԀԀd ZП.WA{Հ{ՀaA=ꆅ4A=''t'p+ǀDwz\A=@targ/temp/onfalse.lng ԀԀd iХ WC${{䀼pA=A=)ښ)ڀt)Yp+oDz\A= targ/temp/onfalse.lng ԀԀd xЪWD[{{A=ۀA=++t*Єp+ɀ]EY{ \A>targ/temp/onfalse.lng ԀԀd аWE||A>ۀA>..t,Gp,#ըE{+\A> ݘtarg/temp/onfalse.lng ԀԀd жWF˩||A>ۀA>0.0.t-p,}F{W\A>targ/temp/onfalse.lng ԀԀd мzWH| | A>4A>2J2Jt/5p,׀>F>{p\A> targ/temp/onfalse.lng ԀԀd VWI;|/|/A>+A>4f4ft0p-1։F{\A>ŀtarg/temp/onfalse.lng ԀԀd 2WJt|>|>A>ۀA>66t2#p-ԀG2{\A>' targ/temp/onfalse.lng ԀԀd WK|M|MA>&A>&88t3p-G| \A>.@targ/temp/onfalse.lng ԀԀd WL|\|\A>.A>.::t5p.?jI$}o\A>6 targ/temp/onfalse.lng ԀԀd ƏWN|k|kA>5{A>5<֚<րt6p.׵J~\A>=targ/temp/onfalse.lng ԀԀd ߢWOT|z|zA>=A>=>>t7p.LN\A>E ߀targ/temp/onfalse.lng ԀԀd ~WP||A>D<A>DAAt9vp/MKM_\A>Ltarg/temp/onfalse.lng ԀԀd ZWQĩ||$A>L4A>LC*C*t:p/ؖM\A>T Jtarg/temp/onfalse.lng ԀԀd ,6WR||3A>SA>SEFEFt[߀targ/temp/onfalse.lng ԀԀd ;WT5||BA>[4A>[GbGbt=ۄp0[,N\A>c targ/temp/onfalse.lng ԀԀd JWUl|ŀ|ŀQA>b4A>bI~I~t?Rp0wO\A>jߏtarg/temp/onfalse.lng ԀԀd YʏWV|Ԁ|Ԁ`A>j<A>jKKt@Ʉp1€OS\A>r Htarg/temp/onfalse.lng ԀԀd hWWܩ||〼oA>qiA>qMMtB@p1i O \A>y@targ/temp/onfalse.lng ԀԀd wWY||~A>y4A>yOҚOҀtCp1ÀXP:Q\A> targ/temp/onfalse.lng ԀԀd ^WZL}}A>A>QQtE.p2ڣPp\A>7targ/temp/onfalse.lng ԀԀd :W[}}A>A>T T tFp2wPԂ\A> targ/temp/onfalse.lng ԀԀd  W\}}A>A>V&V&tHp2р9Q'\A>targ/temp/onfalse.lng ԀԀd %W]}.}.A>4A>XBXBtIp3+ۄQ\A> ۡtarg/temp/onfalse.lng ԀԀd +ΏW_,}=}=A>4A>Z^Z^tK p3πR3?\A>utarg/temp/onslew.lng ԀԀd 1W`e}L}LA>4A>\|\|tLp3SS_A> Htarg/temp/onslew.vet !,d 7Wa}[}[A>ӀA>^^tMp4;eT_A>ߏtarg/temp/onslew.vet !,d =bWbթ}j}jA>A>``tOop4ܰV_A> targ/temp/onslew.vet !,d C>Wd }y}yA>{A>bКbЀtPp4WŇ0_A>ċ@targ/temp/onslew.vet !,d  IWeE}}A>A>d욕dtR]p5IFYj_A> gtarg/temp/onslew.vet !,d NWf|}}#A>ˆ+A>ˀggtSԄp5ݑ[F_A>Ӌtarg/temp/onslew.vet !,d +TҏWg}}2A>ۀA>i%i%tUKp5܀\_A> 7targ/temp/onslew.vet !,d :ZWh}}AA>چA>ڀkAkAtV„p6X'^_A>targ/temp/onslew.vet !,d I`Wj%}Ā}ĀPA>4A>m]m]tX9p6r`]a_A> targ/temp/onslew.vet !,d XffWk\}Ӏ}Ӏ_A>醅4A>oyoytYp7 ޽b_A>Htarg/temp/onslew.vet !,d glBWl}}‼nA>ۀA>qqt['p7fcH_A> @targ/temp/onslew.vet !,d vrWmͩ}}}A>A>sst\p7Sen_A?@targ/temp/onslew.vet !,d wWo~~A?A?u͚ùt^p8ߞg(_A? ߏtarg/temp/onslew.vet !,d }֏Wp=~~A?+A?w隕wt_p8thĕ_A? targ/temp/onslew.vet !,d уWqv~~A?ۀA?zztap8ڀ4j_A? 7targ/temp/onslew.vet !,d щWr~-~-A?4A?|-|-tbzp94lK_A?@targ/temp/onslew.vet !,d яjWs~<~!䙀_A?targ/temp/onslew.vet !,d rWA?4A?ҚҀtxsp>{R)_A? ݘtarg/temp/onslew.vet !,d NW.A?A?typ>Հ/_A?ݘtarg/temp/onslew.vet !,d *Wg,,A?A? t{ap?/z_A? ߀targ/temp/onslew.vet !,d W;;A?4A?&&t|؄p?ŀU_A?Htarg/temp/onslew.vet !,d WשJJA?4A?BBt~Op?_A? targ/temp/onslew.vet !,d WYYA?4A?^^tƄp@=[ŵh_A?targ/temp/onslew.vet !,d WGhhA?A?zzt=p@榀j_A? ~targ/temp/onslew.vet !,d  vW~wwA?A?tp@Q_A?Ëtarg/temp/onslew.vet !,d  RWA?ۀA?t+pAK<_A? Htarg/temp/onslew.vet !,d .W!A?ʆA?ʀΚ΀tpA燀6_A?ҋdtarg/temp/onslew.vet !,d ) W'0A?A?ꚕtpAҀ(_A? Htarg/temp/onslew.vet !,d 8!W^?A?نۀA?ـtpBYѾ_A?targ/temp/onslew.vet !,d G'W€€NA?4A?""tpBhw_A? targ/temp/onslew.vet !,d V-WΩрр]A?膃<A?>>t~pC 賀2_A?Htarg/temp/onslew.vet !,d e3zWlA?4A?ZZtpCgm_A? targ/temp/onslew.vet !,d t9VW>{A?A?vvtlpCI_A?@targ/temp/onslew.vet !,d ?2WwA?ۀA?tpD销DJ_A@ @targ/temp/onslew.vet !,d EW A@A@tZpDu߀ƽ_A@targ/temp/onslew.vet !,d JWA@A@ʚʀtфpDπ*%_A@ ߀targ/temp/onslew.vet !,d PƏW++A@4A@暕tHpE)uvɕ_A@targ/temp/onslew.vet !,d VWX::A@4A@tpE _A@% ݘtarg/temp/onslew.vet !,d \~WIIA@$A@$t6pE݀ y_A@,ߏtarg/temp/onslew.vet !,d bZWȩXXA@,A@,::tpF7V_A@4 &targ/temp/onslew.vet !,d h6WggA@34A@3VVt$pF례K`_A@;7targ/temp/onslew.vet !,d nW8vvA@;A@;rrtpF_A@C ߏtarg/temp/onslew.vet !,d  sWo  A@BۀA@BЎЎtpGE7D_A@Jߏtarg/temp/onslew.vet !,d yʏW—— A@JA@JҪҪtpG삀iӺ_A@R Htarg/temp/onslew.vet !,d (Wߩ‣‣/A@QӀA@QǚǀtpG̀._A@YJtarg/temp/onslew.vet !,d 7҅W′′>A@Y4A@Y㚕twpHT֠_A@a targ/temp/onslew.vet !,d Fҋ^WOMA@`A@`tpHcw_A@hݘtarg/temp/onslew.vet !,d Uґ:WЀЀ\A@h+A@htepI,ي_A@p targ/temp/onslew.vet !,d dҗW߀߀kA@oA@o77t܄pIb_A@w targ/temp/onslew.vet !,d sҜWzA@wۀA@wSStSpIDm_A@ targ/temp/onslew.vet !,d ҢΏW/A@~ӀA@~ootʄpJF_A@Htarg/temp/onslew.vet !,d ҨWh A@A@㋚㋀tApJpڀP_A@ ߏtarg/temp/onslew.vet !,d ҮWA@A@姚姀tpJʀ%_A@targ/temp/onslew.vet !,d ҴbWة**A@ۀA@ÚÀt/pK$p];_A@ ݘtarg/temp/onslew.vet !,d Һ>W99A@A@ߚ߀tpK~ﻀ_A@ݘtarg/temp/onslew.vet !,d WHHHA@4A@tpK؀Ů#_A@ targ/temp/onslew.vet !,d WWWA@<A@tpL2Qx_A@targ/temp/onslew.vet !,d ҏWffA@A@33t pL*_A@ Htarg/temp/onslew.vet !,d ѮWuuA@4A@OOtpLu_A@‹7targ/temp/onslew.vet !,d  ׊W)⁄⁄A@4A@kktpM@2̀_A@ 7targ/temp/onslew.vet !,d fW`⁓⁓A@Ɇ4A@ɀtppM}C\_A@ыݘtarg/temp/onslew.vet !,d 'BW⁢⁢.A@A@tpMȀ_A@ targ/temp/onslew.vet !,d 6WЩⁱⁱ=A@؆A@؀t^pNNєE_A@ݘtarg/temp/onslew.vet !,d EW LA@4A@ۚۀtՄpN^2_A@ targ/temp/onslew.vet !,d T֏W@ππ[A@熄A@tLpO/_A@ݘtarg/temp/onslew.vet !,d cWyހހjA@+A@tÄpO\֚_A@ Htarg/temp/onslew.vet !,d rW퀼yA@ۀA@//t:pO?I_A@targ/temp/onslew.vet !,d jWA@4A@KKtpP_AA targ/temp/onslew.vet !,d  FW AA+AAhht(pPkՀ۪_AA targ/temp/onslew.vet !,d "WYAA 4AA  tğpPŀ Tf_AA targ/temp/onslew.vet !,d WŐ))AAAA tpQk_AAtarg/temp/onslew.vet !,d ڏWɩ88AAAA tǍpQyO_AA$ targ/temp/onslew.vet !,d #WGGAA#AA#ؚ؀tpQӀL_AA+ݘtarg/temp/onslew.vet !,d )W9VVAA+AA+t{pR-L0_AA3 ߏtarg/temp/onslew.vet !,d /nWpeeAA2AA2tpR_AA:Htarg/temp/onslew.vet !,d 5JW˩ttAA:"AA:,,tipRT_AAB targ/temp/onslew.vet !,d ;&W₃₃AAA4AAAHHtpS;-_AAItarg/temp/onslew.vet !,d AWₒₒAAIۀAAIddtWpSx_AAQ ـtarg/temp/onslew.vet !,d &FޏWQ₡₡-AAPAAPt΄pSÀzi_AAXݘtarg/temp/onslew.vet !,d 5LWЊ₰₰_AAv@targ/temp/onslew.vet !,d qd*Wj쀼xAAvAAv' ' t!pU: _AA~ ݘtarg/temp/onslew.vet !,d jW֡AA}ۀAA})()(tژpV _AAtarg/temp/onslew.vet !,d oWک AAAA+D+DtpVeЀ@_AA targ/temp/onslew.vet !,d uWAAۀAA-`-`t݆pV_AAtarg/temp/onslew.vet !,d {WJ((AAAA/|/|tpWfx_AA utarg/temp/onslew.vet !,d ӁvWہ77AA4AA11ttpWte_AAtarg/temp/onslew.vet !,d ӇRWܺFFAAۀAA33tpW΀^_AA ݘtarg/temp/onslew.vet !,d Ӎ.WUUAAۀAA5њ5рtbpX(G_AA7targ/temp/onslew.vet !,d ӓ W*ddAA4AA7횖7tلpXhD_AA @targ/temp/onslew.vet !,d ӘWassAAAA: : tPpX܀݀_AAHtarg/temp/onslew.vet !,d ӞWᚩ⃂⃂AA4AA<%<%tDŽpY6()_AA ݘtarg/temp/onslew.vet !,d ӤWѩ⃑⃑AAȆۀAAȀ>A>At>pYsx_AAЋ؀targ/temp/onslew.vet !,d %ӪzW ⃠⃠,AAAA@]@]t굄pY  _AA Jtarg/temp/onslew.vet !,d 4ӰVWA⃯⃯;AA׆+AA׀ByByt,pZD  _AAߋHtarg/temp/onslew.vet !,d CӶ2W{⃾⃾JAAAADDtpZT t!_AA ~targ/temp/onslew.vet !,d RӼW粩̀̀YAA憅4AAFFtpZ&#d_AA輀targ/temp/onslew.vet !,d aW܀܀hAAۀAAH͚H̀tp[R$_AA ݘtarg/temp/onslew.vet !,d pƏW"뀼wAAӀAAJ隖Jtp[5&I_AAHtarg/temp/onslew.vet !,d ͢W[AAۀAAMMtp\A'_AB targ/temp/onslew.vet !,d ~W쒩 ABABO!O!tp\`ˀ)0_AB targ/temp/onslew.vet !,d ZW˩AB 4AB Q=Q=tmp\*_AB targ/temp/onslew.vet !,d 6W''AB+ABSYSYtp]aO,_ABtarg/temp/onslew.vet !,d W;66AB4ABUuUut[p]n-_AB# 'targ/temp/onslew.vet !,d WrEEAB"ۀAB"WWt҄p]Ȁ._AB*targ/temp/onslew.vet !,d ʏWTTAB*ӀAB*YYtIp^"B]0m_AB2 targ/temp/onslew.vet !,d WccAB1ۀAB1[ʚ[ʀtp^} 1_AB9߀targ/temp/onslew.vet !,d WrrAB94AB9]暖]t7p^׀؀ 3T_ABA ߏtarg/temp/onslew.vet !,d ^WR℁℁ AB@AB@``up_1#"[4_ABHtarg/temp/onslew.vet !,d :WℐℐABH{ABHbbu%p_n$6<_ABP ݘtarg/temp/onslew.vet !,d $W©℟℟+ABOABOd:d:up_%7_ABWߏtarg/temp/onslew.vet !,d 3W℮℮:ABW<ABWfVfVup`?'r9&_AB_ ـtarg/temp/onslew.vet !,d BΏW2ℽℽIAB^4AB^hrhrup`O)%:_ABfݘtarg/temp/onslew.vet !,d QWk̀̀XABfۀABfjjup`*<_ABn targ/temp/onslew.vet !,d `%WۀۀgABmۀABmllu xpaM,=_AButarg/temp/onslew.vet !,d o+bWܩꀽvABuۀABunƚnƀu pa0.3>_AB} @targ/temp/onslew.vet !,d ~1>XAB|AB|p⚖pu fpb{/@p_AB7targ/temp/onslew.vet !,d 7XLABӀABrru ݄pb[ƀ1A_AB ۡtarg/temp/onslew.vet !,d JH_IEG0 i pxP@zM¢"""""""""""""""A=%M@\^ f`'qAĒ*΅AĒ=ŀ'JH^ICF+ z ƀpЀxP@z y"""""""""""""""A=\^ f`'qAĒ*΅AĒ=ŀ'1JH_IBF9 r pxP@{2"""""""""""""""A=%\S\^ f`'qAĒ*΅AĒ=ŀ'IH^ICF) z ߀pЀxP@{["""""""""""""""A=N\^ f`'qAĒ*΅AĒ=ŀ&JG^JBF* z ApЀ`@{"""""""""""""""A=-\^ f`'qAĒ*΅AĒ=ŀ'JH^ICF. z pЀ`@|Z"""""""""""""""A=ͥM@\^ f`'qAĒ*΅AĒ=ŀ&JG^IBF( z ǀpЀ`@|i"""""""""""""""A=%N\^ f`'qAĒ*΅AĒ=ŀ&ހJG]J@F$ ` 2p`@|ɢ"""""""""""""""A=ܥK\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` ˀp`@}"""""""""""""""A=%L\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` ~p`@}w8"""""""""""""""A=KI\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` _p`@}"""""""""""""""A=-ۀ\^ f`'qAĒ*΅AĒ=ŀ&ԀIG]I@F$ ` p`@~+"""""""""""""""A=L\^ f`'qAĒ*΅AĒ=ŀ&ڀJG]I@F$ ` p`@~_"""""""""""""""A>%M@\^ f`'qAĒ*΅AĒ=ŀ&ۀJG]J@F$ ` ܀p`@~"""""""""""""""A> KI\^ f`'qAĒ*΅AĒ=ŀ&рIG]I@F$ ` p`@9Ϣ"""""""""""""""A>%L\^ f`'qAĒ*΅AĒ=ŀ&؀JG]J@F$ ` vp`@"""""""""""""""A>N\^ f`'qAĒ*΅AĒ=ŀ&ـIG]J@F$ ` Qp`@>"""""""""""""""A> %L\^ f`'qAĒ*΅AĒ=ŀ&ۀIG]I@F$ r p`@G"""""""""""""""A>'J\^ f`'qAĒ*΅AĒ=ŀ'JH^JBF+ z GpЀ`@"""""""""""""""A>/*΀\^ f`'qAĒ*΅AĒ=ŀ'7JH_JCF8 z pЀ`@e"""""""""""""""A>6m\^ f`'qAĒ*΅AĒ=ŀ'/JH_JBF5 r p`@U"""""""""""""""A>>)E\^ f`'qAĒ*΅AĒ=ŀ'-IH_ICF= z 2pЀ`@Ԣ"""""""""""""""A>EL\^ f`'qAĒ*΅AĒ=ŀ&ڀJG]I@F$ ` p`@ """""""""""""""A>M%L\^ f`'qAĒ*΅AĒ=ŀ&ҀIG]J@F$ ` ^p`@cD"""""""""""""""A>TN\^ f`'qAĒ*΅AĒ=ŀ&рIG]I@F$ ` p`@"""""""""""""""A>\%L\^ f`'qAĒ*΅AĒ=ŀ&ԀIG]I@F$ ` p`@"""""""""""""""A>cKI\^ f`'qAĒ*΅AĒ=ŀ&ԀIG]I@F$ ` p`@qk"""""""""""""""A>k%M\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` -p`@#"""""""""""""""A>rK\^ f`'qAĒ*΅AĒ=ŀ&рIG]I@F$ ` p`@%ۢ"""""""""""""""A>z%K\^ f`'qAĒ*΅AĒ=ŀ&ԀIG]I@F$ ` p`@"""""""""""""""A>K\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` .p`@J"""""""""""""""A>%K\^ f`'qAĒ*΅AĒ=ŀ&рIG]I@F$ ` p`@3"""""""""""""""A>KI\^ f`'qAĒ*΅AĒ=ŀ&ԀIG]I@F$ ` %p`@"""""""""""""""A>%K\^ f`'qAĒ*΅AĒ=ŀ&׀IG]I@F$ ` ǀp`@q"""""""""""""""A>K\^ f`'qAĒ*΅AĒ=ŀ&рIG]I@F$ ` p`@A)"""""""""""""""A>(a^ h`'qAĒ*΅AĒ=ŀ'xKH_KDF5 p ̀phX0@"""""""""""""""A>a^ h`'qAĒ*΅AĒ=ŀ'*KH^J@F%  ̀pX0@"""""""""""""""A>+b^ h`'qAĒ*΅AĒ=ŀ'KH`JCF: p p`@PT"""""""""""""""A>_pb^ h`'qAĒ*΅AĒ=ŀ'tKH_JCF>  hpxh@@ """""""""""""""A>%KIb^ h`'qAĒ*΅AĒ=ŀ'HKH^J@F6 Ѐ ؀ph@@Ģ"""""""""""""""A>̦yb^ h`'qAĒ*΅AĒ=ŀ'LJH_JFF%  ŀph@@^{"""""""""""""""A>,b^ h`'qAĒ*΅AĒ=ŀ'KJH_JCF0  ph@@4"""""""""""""""A>ۧb^ h`'qAĒ*΅AĒ=ŀ'gJH_JCF> P lpxh@@"""""""""""""""A>,b^ h`'qAĒ*΅AĒ=ŀ'WJH_JCF/ P tpxh@@l"""""""""""""""A>hb^ h`'qAĒ*΅AĒ=ŀ'.KH^JAF% ͐ phX0@\"""""""""""""""A>,b^ h`'qAĒ*΅AĒ=ŀ'YKH_JCF/ P πpxh@@ """""""""""""""A>b^ h`'qAĒ*΅AĒ=ŀ'TJH_JCF3  ph@@zˢ"""""""""""""""A?%O7b^ h`'qAĒ*΅AĒ=ŀ'"JH^JAF% P pxh@@"""""""""""""""A?Yb^ h`'qAĒ*΅AĒ=ŀ'YKH^JFG% ͐ phX0@.;"""""""""""""""A?*'b^ h`'qAĒ*΅AĒ=ŀ'uKH_JCF: P 3pxh@@$ """""""""""""""A?qLb^ h`'qAĒ*΅AĒ=ŀ'OJH^JCF, 0 ̀pxX0@$¢"""""""""""""""A?*Ub^ h`'qAĒ*΅AĒ=ŀ'tKH_JCF9  ph@@<$z"""""""""""""""A?&KIb^ h`'qAĒ*΅AĒ=ŀ'<JH^JCF*  pxP@$1"""""""""""""""A?.%Kb^ h`'qAĒ*΅AĒ=ŀ'LJH^JCF.  pxP@$"""""""""""""""A?5b^ h`'qAĒ*΅AĒ=ŀ'qJH_JCF6 0 ]pxh@@J$"""""""""""""""A?=%O7b^ h`'qAĒ*΅AĒ=ŀ'!JH^JAF%  pxP@$X"""""""""""""""A?D Nb^ h`'qAĒ*΅AĒ=ŀ'oJH_JFF6  apxP@%"""""""""""""""A?L*b^ h`'qAĒ*΅AĒ=ŀ'uKH_JCF9  ÀpxP@X%ʢ"""""""""""""""A?Sb^ h`'qAĒ*΅AĒ=ŀ'CJH^JCF) ߰ ]phX0@%"""""""""""""""A?['`b^ h`'qAĒ*΅AĒ=ŀ'zJH_JCF= ߰ "phX0@ %:"""""""""""""""A?bb^ h`'qAĒ*΅AĒ=ŀ'PKH^JCF*  }pxP@f%"""""""""""""""A?j%KIb^ h`'qAĒ*΅AĒ=ŀ'QKH^JCF) P pxh@@%"""""""""""""""A?qvb^ h`'qAĒ*΅AĒ=ŀ'~JH_JCF: ߰ phX0@%a"""""""""""""""A?y,<b^ h`'qAĒ*΅AĒ=ŀ'|KH_JCF3 ߰ WphX0@t%"""""""""""""""A?ob^ h`'qAĒ*΅AĒ=ŀ'JH_JFG2  pxP@%Т"""""""""""""""A?%Lb^ h`'qAĒ*΅AĒ=ŀ'QKH^JCF*  pxP@(%"""""""""""""""A?M@b^ h`'qAĒ*΅AĒ=ŀ'YKH^JCF+ ߰ #phX0@%?"""""""""""""""A?&Eb^ h`'qAĒ*΅AĒ=ŀ'JH_JCF= ߰ phX0@%"""""""""""""""A?Oab^ h`'qAĒ*΅AĒ=ŀ'KH_JCF8  |pxP@6%"""""""""""""""A?%Nb^ h`'qAĒ*΅AĒ=ŀ'4JH^JAF%  ,pxP@%f"""""""""""""""A?ޞÀb^ h`'qAĒ*΅AĒ=ŀ'KI_JCF= ߰ !phX0@%"""""""""""""""A?%M@b^ h`'qAĒ*΅AĒ=ŀ'DKH^JAF+ ߰ phX0@D%֢"""""""""""""""A?曀b^ h`'qAĒ*΅AĒ=ŀ'|JH_JFF3  pxP@%"""""""""""""""A?-b^ h`'qAĒ*΅AĒ=ŀ'LJH^JCF+  ҀpxP@%E"""""""""""""""A?ˬGb^ h`'qAĒ*΅AĒ=ŀ'iKH_JCF2  ;pxP@R%"""""""""""""""A?%Vb^ h`'qAĒ*΅AĒ=ŀ'|JH_JCF<  {pxP@%"""""""""""""""A?ڪb^ h`'qAĒ*΅AĒ=ŀ'KH_JCF7 ߰ 0phX0@%m"""""""""""""""A?%xb^ h`'qAĒ*΅AĒ=ŀ'ZKH^JCF+ ߰ phX0@`%$"""""""""""""""A?[b^ h`'qAĒ*΅AĒ=ŀ'KH_JCF6  pxP@%ܢ"""""""""""""""A?&Nπb^ h`'qAĒ*΅AĒ=ŀ'+JH]J@F% Ѐ )pxP@%"""""""""""""""A?Kb^ h`'qAĒ*΅AĒ=ŀ'aJH^JFF(  ^pxP@n%K"""""""""""""""A@+b^ h`'qAĒ*΅AĒ=ŀ'KH_JCF6 Ѐ pxP@%"""""""""""""""A@S&b^ h`'qAĒ*΅AĒ=ŀ'JI_JCF6 Ѐ 7pxP@"%"""""""""""""""A@(b^ h`'qAĒ*΅AĒ=ŀ'KI_JCF= 0 ]pЀ`@|%r"""""""""""""""A@b^ h`'qAĒ*΅AĒ=ŀ'JI_JCF>  pxP@%*"""""""""""""""A@%Lb^ h`'qAĒ*΅AĒ=ŀ'iKH^JCF*  pxP@0%"""""""""""""""A@%ab^ h`'qAĒ*΅AĒ=ŀ'BKH^J@F% 0 PpЀ`@%"""""""""""""""A@-%Lb^ h`'qAĒ*΅AĒ=ŀ'AKH^J@G% 0 pЀ`@%Q"""""""""""""""A@4)b^ h`'qAĒ*΅AĒ=ŀ'KI_JFG0 p p`@>% """""""""""""""A@<%Nb^ h`'qAĒ*΅AĒ=ŀ'bJH^JCF+ 0 $pЀ`@%"""""""""""""""A@C@:b^ h`'qAĒ*΅AĒ=ŀ'KI_JCF6 0 ܀pЀ`@%y"""""""""""""""A@K) Zb^ h`'qAĒ*΅AĒ=ŀ'JI_JCF= 0 }pЀ`@L%1"""""""""""""""A@RUŀb^ h`'qAĒ*΅AĒ=ŀ'tJI_JCF2 0 *pЀ`@&"""""""""""""""A@Z%Kb^ h`'qAĒ*΅AĒ=ŀ'hJH^JCF+ 0 'pЀ`@&"""""""""""""""A@a!Wb^ h`'qAĒ*΅AĒ=ŀ'jJI^JCF. 0 pЀ`@Z&Z"""""""""""""""A@i%Tvb^ h`'qAĒ*΅AĒ=ŀ'<JH]J@F% 0 &pЀ`@&"""""""""""""""A@pKb^ h`'qAĒ*΅AĒ=ŀ'KI_JFF- !pxP@&ʢ"""""""""""""""A@x+b^ h`'qAĒ*΅AĒ=ŀ'KI_JCF5 pxP@h&"""""""""""""""A@PHb^ h`'qAĒ*΅AĒ=ŀ'KI_JCF5 0 pЀ`@&9"""""""""""""""A@)~b^ h`'qAĒ*΅AĒ=ŀ'JI_JCF: p p`@&"""""""""""""""A@b^ h`'qAĒ*΅AĒ=ŀ'JI_JCF> 0 pЀ`@v&"""""""""""""""A@&rb^ h`'qAĒ*΅AĒ=ŀ'JI_JCF= pp`@&`"""""""""""""""A@Ub^ h`'qAĒ*΅AĒ=ŀ'KI_JCF5 0 ypЀ`@*&"""""""""""""""A@%Lc^ h`'qAĒ*΅AĒ=ŀ'ZJH^JBF& +P pЀ`@&Ϣ"""""""""""""""A@^ c^ h`'qAĒ*΅AĒ=ŀ'KI_KFF- +P pЀ`@&"""""""""""""""A@'ac^ h`'qAĒ*΅AĒ=ŀ'JI_JCF= +P pЀ`@8&?"""""""""""""""A@ac^ h`'qAĒ*΅AĒ=ŀ'aKH^JCF* +P YpЀ`@&"""""""""""""""A@-<c^ h`'qAĒ*΅AĒ=ŀ'|KI_JCF0 +P GpЀ`@&"""""""""""""""A@ʧc^ h`'qAĒ*΅AĒ=ŀ'JI_JCF> +P SpЀ`@F&f"""""""""""""""A@%Kc^ h`'qAĒ*΅AĒ=ŀ'`JH^JCF* +P pЀ`@&"""""""""""""""A@٧zNc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF> +P pЀ`@&բ"""""""""""""""A@-c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF4 +P pЀ`@T&"""""""""""""""A@lc^ h`'qAĒ*΅AĒ=ŀ'JI_JFF0  spxP@&E"""""""""""""""A@,c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF4  pxP@&"""""""""""""""A@Kc^ h`'qAĒ*΅AĒ=ŀ'iJI^JCF* +P րpЀ`@b&"""""""""""""""A@%Lc^ h`'qAĒ*΅AĒ=ŀ'^JH^JCF* +P pЀ`@&l"""""""""""""""AAc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF? +P pЀ`@'&"""""""""""""""AA%Kc^ h`'qAĒ*΅AĒ=ŀ'gJH^JCF+ +P pЀ`@p'ݢ"""""""""""""""AA΀c^ h`'qAĒ*΅AĒ=ŀ']JH^JCF* +P pЀ`@'"""""""""""""""AA+xc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF3 +P pЀ`@$'M"""""""""""""""AA$c^ h`'qAĒ*΅AĒ=ŀ'JI_JFF8 +P pЀ`@~'"""""""""""""""AA,+c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF6 +P ڀpЀ`@'"""""""""""""""AA3KIc^ h`'qAĒ*΅AĒ=ŀ'dKH^JCF+ +P 7pЀ`@2't"""""""""""""""AA;%ac^ h`'qAĒ*΅AĒ=ŀ'cJH^JCF+ +P pЀ`@'+"""""""""""""""AABbc^ h`'qAĒ*΅AĒ=ŀ'JI_JCF< +P NpЀ`@'"""""""""""""""AAJ%Kc^ h`'qAĒ*΅AĒ=ŀ'~JI_KCF, +P pЀ`@@'"""""""""""""""AAQB[c^ h`'qAĒ*΅AĒ=ŀ'ZJH^JCF) +P `pЀ`@'R"""""""""""""""AAY+F܀c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF6 +P pЀ`@' """""""""""""""AA`Kc^ h`'qAĒ*΅AĒ=ŀ'xJI_JFG+ +P pЀ`@N'¢"""""""""""""""AAh+c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF7 +P pЀ`@'y"""""""""""""""AAoMUc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF> +P pЀ`@'2"""""""""""""""AAw+:ic^ h`'qAĒ*΅AĒ=ŀ'JI_JCF= +P pЀ`@\'"""""""""""""""AA~M@c^ h`'qAĒ*΅AĒ=ŀ'eKH^JCF*  pxP@'"""""""""""""""AA,yc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF3  pxP@'Y"""""""""""""""AAc^ h`'qAĒ*΅AĒ=ŀ'hKI^JCF( +P hpЀ`@j'"""""""""""""""AA%Kc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF4 " p`@'Ȣ"""""""""""""""AA Ec^ h`'qAĒ*΅AĒ=ŀ'JI_JFF3 +P 4pЀ`@("""""""""""""""AA%Nc^ h`'qAĒ*΅AĒ=ŀ'iJH^JCF- +P cpЀ`@x(9"""""""""""""""AA`c^ h`'qAĒ*΅AĒ=ŀ'cJH^JCF* +P bpЀ`@("""""""""""""""AA* c^ h`'qAĒ*΅AĒ=ŀ'JI_JCF= +P NpЀ`@,("""""""""""""""AAqހc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF9 +P 4pЀ`@(`"""""""""""""""AA%Kc^ h`'qAĒ*΅AĒ=ŀ'`JH^JCG) +P pЀ`@("""""""""""""""AAɫc^ h`'qAĒ*΅AĒ=ŀ'KI_KCF5 +P pЀ`@:(Т"""""""""""""""AA&_1c^ h`'qAĒ*΅AĒ=ŀ'QJH^JCF% +P pЀ`@("""""""""""""""AAتDc^ h`'qAĒ*΅AĒ=ŀ'JI_JFF4 +P ZpЀ`@(?"""""""""""""""AA&c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF? +P ΀pЀ`@H("""""""""""""""AAKIc^ h`'qAĒ*΅AĒ=ŀ'bKH^JCF+ +P pЀ`@("""""""""""""""AA+c^ h`'qAĒ*΅AĒ=ŀ'JI_JCF4 +P IpЀ`@(f"""""""""""""""AAc^ h`'qAĒ*΅AĒ=ŀ'bJH^JCF+ +P .pЀ`@V("""""""""""""""AA+<c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF4 +P pЀ`@(֢"""""""""""""""ABM@c^ h`'qAĒ*΅AĒ=ŀ'\JH^JCF% +P opЀ`@ ("""""""""""""""AB %Lc^ h`'qAĒ*΅AĒ=ŀ'GJH^JAF% +P pЀ`@d(E"""""""""""""""ABc^ h`'qAĒ*΅AĒ=ŀ'KI_JFF4  !pxP@("""""""""""""""AB,Uc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF7  pxP@("""""""""""""""AB#Nc^ h`'qAĒ*΅AĒ=ŀ'nKI^JCF+ +P pЀ`@r(l"""""""""""""""AB+%Mc^ h`'qAĒ*΅AĒ=ŀ'iJI^JCF+ +P TpЀ`@($"""""""""""""""AB2"c^ h`'qAĒ*΅AĒ=ŀ'_JH^JCF* +P pЀ`@&)ޢ"""""""""""""""AB:,Mc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF6 +P pЀ`@)"""""""""""""""ABAKc^ h`'qAĒ*΅AĒ=ŀ'_JH^JCF* +P YpЀ`@)M"""""""""""""""ABI*rc^ h`'qAĒ*΅AĒ=ŀ'KI_J@F< +P ZpЀ`@4)"""""""""""""""ABPKc^ h`'qAĒ*΅AĒ=ŀ'zJI_JFF* +P pЀ`@)"""""""""""""""ABX%Kc^ h`'qAĒ*΅AĒ=ŀ'fJI^JCF* +P pЀ`@)t"""""""""""""""AB_әc^ h`'qAĒ*΅AĒ=ŀ'`JH^JCF+ +P pЀ`@B),"""""""""""""""ABg+n/c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF: +P /pЀ`@)"""""""""""""""ABnϖc^ h`'qAĒ*΅AĒ=ŀ'KI_JCG7 +P WpЀ`@)"""""""""""""""ABv%Kc^ h`'qAĒ*΅AĒ=ŀ'eKH^JCF+ +P NpЀ`@P)S"""""""""""""""AB}Lc^ h`'qAĒ*΅AĒ=ŀ'UJH^JCF( +P pЀ`@) """""""""""""""AB%cc^ h`'qAĒ*΅AĒ=ŀ'JI_JCF6 +P pЀ`@)â"""""""""""""""ABLc^ h`'qAĒ*΅AĒ=ŀ'KI_JCF8 " p`@^)z"""""""""""""""AB,Ԁc^ h`'qAĒ*΅AĒ=ŀ'wJI_JCF2 +P pЀ`@)2"""""""""""""""ABƀc^ h`'qAĒ*΅AĒ=ŀ'`JH^JCF+ +P pЀ`@)"""""""""""""""AB,c^ h`'qAĒ*΅AĒ=ŀ'KI_JCF6 +P ӀpЀ`@l)"""""""""""""""ABc^ h`'qAĒ*΅AĒ=ŀ'JI_JCF>  ׀pxP@)Y"""""""""""""""XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 199 / 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 = 702708155.29218 TSTOP = 702711125.30338 DATE-OBS= '2023-04-09T04:42:30' DATE-END= '2023-04-09T05:32:00' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2970.01120007038 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 307 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3EPiADOh3DOhADOh' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '165824082' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b133x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<ݥf'JJJppt??t!Byo!o!!B~!DDDDDDDDDDA<%gwJJJppj@@!Byo!o!!B~!DDDDDDDDDDAJJJpphAʀA!Byـo!o!!B!DDDDDDDDDDA=%hǀJJJppqfAA}!B yـo!o!!B!DDDDDDDDDDA=bJJJppx\AA!Byـo!o!!B!DDDDDDDDDDA=%wـKJJppRBB!Byـo!o!!B!DDDDDDDDDDA=jKKKppHBB/!B܀yـo!o!!Bۀ!DDDDDDDDDDA=-=KKKpp>B*B*h!B̀yـo!o!!B̀!DDDDDDDDDDA=ͥhǀK KKpp4B<B<!Byـo!o!!B!DDDDDDDDDDA=%jK K K pp*BNBN!Byـo!o!!B!DDDDDDDDDDA=ܥhKK K pp B`B`!Byـo!o!!B!DDDDDDDDDDA=%jKKKppBrBrL!Byـo!o!!B!DDDDDDDDDDA=fπKKKpp BB!Byـo!o!!B!DDDDDDDDDDA=-KKKppBB!Bsyـo!o!!Br!DDDDDDDDDDA=hKKKppBB!Bdyـo!o!!Bc!DDDDDDDDDDA>%hǀKKKppBB/!BUyـo!o!!BT!DDDDDDDDDDA> fπK"KKppB̀Bh!BFyـo!o!!BE!DDDDDDDDDDA>%gwK%K!K!ppBހB!B7yـo!o!!B6!DDDDDDDDDDA>jK(K$K$ppBB!B(yـo!o!!B'!DDDDDDDDDDA> %gwK+K'K'ppCC!Byـo!o!!B!DDDDDDDDDDA>'fπK.K*K*ppCCN!B yـo!o!!B !DDDDDDDDDDA>/+UK1K-K-ppC&C&!Byـo!o!!B!DDDDDDDDDDA>6LK4K0K0ppC8C8!Byـo!o!!B!DDDDDDDDDDA>>)`K7K3K3ppCJCJ!B݀yـo!o!!B܀!DDDDDDDDDDA>EhK:K6K6ppC\C\2!B΀yـo!o!!B̀!DDDDDDDDDDA>M%gwK=K9K9pp CnCnk!Byـo!o!!B!DDDDDDDDDDA>TjK@K<K<ppCC!Byـo!o!!B!DDDDDDDDDDA>\%hKCK?K?ppvCC!Byـo!o!!B!DDDDDDDDDDA>cfπKFKBKBpplCC!Byـo!o!!B!DDDDDDDDDDA>k%hǀKIKEKEpp&bCCP!Byـo!o!!B!DDDDDDDDDDA>rgwKLKHKHpp-XCȀC!Btyـo!o!!Bs!DDDDDDDDDDA>z%inKOKKKKpp4NCڀC!Beyـo!o!!Bd!DDDDDDDDDDA>fπKRKNKNpp;DCC!BVyـo!o!!BU!DDDDDDDDDDA>%fπKUKQKQppB:CC4!BGyـo!o!!BF!DDDDDDDDDDA>f'KXKTKTppI0DDo!B8yـo!o!!B7!DDDDDDDDDDA>%inK[KWKWppP&D"D"!B)yـo!o!!B(!DDDDDDDDDDA>fπK^KZKZppWD4D4!Byـo!o!!B!DDDDDDDDDDA>)"KaK]K]pp^DFDFB *}Foo!B B (DDDDDDDDDDA>րKdK`K`ppeDXDXUB *}Foo!BB (DDDDDDDDDDA>+8qKgKcKcppkDjDjB *}Foo!BB (DDDDDDDDDDA>zKjKfKfpprD|D|B *}Foo!B݀B (DDDDDDDDDDA>%gwKmKiKippyDDB *}Foo!B΀B (DDDDDDDDDDA>̦KpKlKlppDD8B *}oo!BB (DDDDDDDDDDA>,ǀKsKoKoppDDqB }oo!BB DDDDDDDDDDA>ۧKvKrKrppDĀDB }oo!BB DDDDDDDDDDA>,UKyKuKuppDրDB}oo!BBDDDDDDDDDDA>ꥂK|KxKxppDDB}oo!BBDDDDDDDDDDA>,KK{K{ppDDVB߀}oo!BtB݀DDDDDDDDDDA>aKK~K~ppE E BЀ}oo!BeB΀DDDDDDDDDDA?%jKKKppEEB}oo!BVBDDDDDDDDDDA?rKKKppE0E0B}oo!BGBDDDDDDDDDDA?*KKKppEBEB<B}oo!B8BDDDDDDDDDDA?*KKKpp|ETETuB}oo!B)BDDDDDDDDDDA?*pKKKpprEfEfB}oo!BBDDDDDDDDDDA?&fπKKKpphExExBv}oo!B BtDDDDDDDDDDA?.-{KKKpp^EE Bg}oo!BBeDDDDDDDDDDA?5wKKKppTEEYBX}oo!BBVDDDDDDDDDDA?=%jKKKppJEEBI}oo!BހBGDDDDDDDDDDA?D&ՀKKKpp@EE B:}oo| BB8DDDDDDDDDDA?L+wKKKpp6EҀE B+~oo| BB)DDDDDDDDDDA?SKKKpp,EE= B~oo| BBDDDDDDDDDDA?['KKKpp"EEv B ,~oo| BB DDDDDDDDDDA?b6KKKpp FF B;~oo| BBDDDDDDDDDDA?j%fπKKKppFF BJ~oo| BBDDDDDDDDDDA?qUKKKppF,F,# BY~oo| BBހDDDDDDDDDDA?y,X̀KKKpp F>F>[ Bрh~oo| BBπDDDDDDDDDDA?zKKKpp'FPFP B€w~oo| BBDDDDDDDDDDA?%hKKKpp.FbFb B~oo| BBDDDDDDDDDDA?hKKKpp5FtFt B~oo| BBDDDDDDDDDDA?'ˀKKKpp`I I  Bjϩ~oo/{B BhDDDDDDDDDDA@'@L3L/L/ppEVI2I2 B[ީ~oo/{B BYDDDDDDDDDDA@L6L2L2ppLLIDID BL~oo/{B BJDDDDDDDDDDA@-aL9L5L5ppSBIVIV2 B=~oo/{B B;DDDDDDDDDDA@ʧ˒L<L8L8ppZ8IhIhk B. ~oo/{B B,DDDDDDDDDDA@%gwL?L;L;ppa.IzIz B~oo/{B BDDDDDDDDDDA@٧ՀLBL>L>pph$II B)~oo/{B BDDDDDDDDDDA@-qLELALAppoII B8~oo/{B BDDDDDDDDDDA@襈<LHLDLDppvIIP BG~oo/{B BDDDDDDDDDDA@,LKLGLGpp}I€I BV~oo/{B BDDDDDDDDDDA@gwLNLJLJppIԀI BԀe~oo/{B BҀDDDDDDDDDDA@%hLQLMLMppII Bŀt~oo/{B BÀDDDDDDDDDDAA>LTLPLPppII3 B~ooLLBBDDDDDDDDDDAA%gwLWLSLSppJ J n B~ooLLBBDDDDDDDDDDAAKLZLVLVppJJ B~ooLLBBDDDDDDDDDDAA+L]LYLYppJ.J. B~ooLLBBDDDDDDDDDDAA$|L`L\L\ppJ@J@ Bz~ooLLBBxDDDDDDDDDDAA,,*LcL_L_ppJRJRR BkΩ~ooLLBBiDDDDDDDDDDAA3f'LfLbLbppJdJd B\ݩ~ooLLBBZDDDDDDDDDDAA;%}LiLeLepp¢JvJv BM~ooLLBBKDDDDDDDDDDAAB0LlLhLhppɘJJ B>~ooLLBB<DDDDDDDDDDAAJ%gwLoLkLkppЎJJ6 B/ ~ooLLBB-DDDDDDDDDDAAQ]:LrLnLnppׄJJo B ~ooLLBBDDDDDDDDDDAAY+bcLuLqLqppzJJ B(~ooLLBBDDDDDDDDDDAA`hLxLtLtpppJЀJ B7~ooLLBBDDDDDDDDDDAAh+L{LwLwppfJJ BF~ooLLBBDDDDDDDDDDAAoh܀L~LzLzpp\JJS BU~ooLLBBDDDDDDDDDDAAw+ULL}L}ppRKK BՀd~ooLLBBӀDDDDDDDDDDAA~hǀLLLppHKK Bƀs~ooLLBBĀDDDDDDDDDDAA,XLLLpp>K*K* B~ooLLBBDDDDDDDDDDAA'LLLpp4K<K<: B~ooLLBBDDDDDDDDDDAA%gwLLLpp*KNKNs B~ooLLBBDDDDDDDDDDAA(̀LLLpp K`K` B~ooLLBBDDDDDDDDDDAA%inLLLpp$KrKr B{~ooLLBByDDDDDDDDDDAALLLpp+ KK Blͩ~ooLLBBjDDDDDDDDDDAA* B~ooLLBBDDDDDDDDDDAB,0ӀLÀLLppvLLw B~ooLLBBDDDDDDDDDDAB#-LƀL€L€pplLL B|~ooLLBBzDDDDDDDDDDAB+%inLɀLŀLŀppbLL Bm̩~ooLLBBkDDDDDDDDDDAB2L̀LȀLȀppXLȀL" B^۩~ooLLBB\DDDDDDDDDDAB:,0+LπLˀLˀppNLڀL[ BO~ooLLBBMDDDDDDDDDDABAfπLҀL΀L΀ppDLL B@~ooLLBB>DDDDDDDDDDABI*LՀLрLрpp:LL B1~ooLLBB/DDDDDDDDDDABPgwL؀LԀLԀpp0MM B"~ooLLBB DDDDDDDDDDABX%gwLۀL׀L׀pp&M"M"A B&~ooLLBBDDDDDDDDDDAB_ LހLڀLڀppM4M4z B5~ooLLBBDDDDDDDDDDABg+^LL݀L݀ppMFMF BD~ooLLBBDDDDDDDDDDABnLLLppMXMX BS~ooLLBBDDDDDDDDDDABv%fπLLLppMjMj$ B׀b~ooLLBBՀDDDDDDDDDDAB}gwLLLppM|M|] BȀq~ooLLBBƀDDDDDDDDDDAB%LLLppMM B~ooLLBBDDDDDDDDDDABinLLLppMM B~ooLLBBDDDDDDDDDDAB,崀LLLppMM B~ooLLBBDDDDDDDDDDABMLLLpp MĀMA B~ooLLBBDDDDDDDDDDAB,eLLLppMրMz B}~ooLLBB{DDDDDDDDDDAB(LLLppMM Bn˩~ooLLBBlDDDDDDDDDDXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 212 / width of table in bytes NAXIS2 = 198 / 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 = 702708156.44148 TSTOP = 702711111.44148 DATE-OBS= '2023-04-09T04:42:31' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2955. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 308 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '0A5Y042X0A2X032X' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2089603076' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b134x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<8k``kK!ĀA<布``kK!ĀA<8k``kK!ĀA<``kK!ĀA<8k``kK!ĀA=``kK!ĀA= 8``kK!ĀA=``kK!ĀA=8k``kK!ĀA=!k``kK!ĀA=)8k``kK!ĀA=0À``kK!ĀA=88À``kK!ĀA=?``kK!ĀA=G8À``kK!ĀA=Nk``kK!ĀA=V8k``kK!ĀA=]``kK!ĀA=e8 ``kK!ĀA=lk``kK!ĀA=t8``kK!ĀA={k``kK!ĀA=8Ua`kK!ƀA=baakK!ǀA=87aakK!ǀA=kaakK!ǀA=8aakK!ǀA=aakK!ǀA=8.aakK!ǀA=ÀaakK!ǀA=8aakK!ǀA=ƸkaakK!ǀA=8րaakK!ǀA=ոaakK!ǀA=8ÀaakK!ǀA=丁aakK!ǀA=8?aakK!ǀA=րaakK!ǀA=8aakK!ǀA>ÀaakK!ǀA> 8aakK!ǀA>ÀaakK!ǀA>8aakK!ǀA> ĜaakK!ǀA>(8aakK!ǀA>/kaakK!ǀA>78aakK!ǀA>>ÀaakK!ǀA>F8րaakK!ǀA>MaakK!ǀA>U8ÀaakK!ǀA>\aakK!ǀA>d8aakK!ǀA>kÀaakK!ǀA>s8QaakK!ǀA>zÀaakK!ǀA>8aakK!ǀA>aakK!ǀA>8baakK!ǀA> aakK!ǀA>8ÀaakK!ǀA>րcakP!̀A>8cakY!ՀA>Àcbkb!؀A>8cbkk!؀A>Ÿcbkt!؀A>8kcbk}!؀A>Ը?cbk!؀A>8Àcbk!ـA>㸁Àcbk!ڀA>8cbk!ۀA>Àcbk!ۀA>8cbk!܀A?cbk!ހA? 8kcbkŀ!߀A??cbk΀!߀A?8kcbk׀!A?Àcbk!A?'8kcbk!A?.Àcbk!A?68kcbk!A?=kcbl!A?E8cbl !A?Lcbl!A?T8kcbl!A?[Àcbl(!A?c8}cbl1!A?jcbl:!A?r8cblC!A?yÀcblL!A?8kcblU!A?րcbl^!A?8kcblg!A?kcblp!A?8kcbly!A?Àcbl!A?8cbl!A?րcbl!A?8Àcbl!A?ĸ cbl!A?8cbl!A?ӸÀcbl!A?8kcbl!A?⸊Hcblʀ!A?8ÀcblӀ!A?cbl܀!A?8cbl!A@Àcbl!A@8kcbl!A@kcbm!A@8}cbm !A@cbm!A@&8Àcbm!A@-}cbm$!A@58cbm-!A@6 s=&&htarg/nram/pntplan.txt 9ĀN(q9A> 86 s=&&htarg/nram/pntplan.txt 9ĀN(q9A>A6 s=&&htarg/nram/pntplan.txt 9ĀN(q9A>86 s=&&htarg/nram/pntplan.txt 9ŀd%(w9A> 6 s=&&htarg/nram/pntplan.txt 9ŀd%(w9A>(86 s=&&htarg/nram/pntplan.txt 9ŀd%(w9A>/6 s=&&htarg/nram/pntplan.txt 9ƀ%?*y9A>786 s=&&htarg/nram/pntplan.txt 9Ȁpi(9A>>A6 s=&&htarg/nram/pntplan.txt 9Ȁp(9A>F8S6 s=&&htarg/nram/pntplan.txt 9Ȁp(9A>M6 s=&&htarg/nram/pntplan.txt 9Ȁp(9A>U86 s=&&htarg/nram/pntplan.txt 9ɀN (9A>\΀6 s=&&htarg/nram/pntplan.txt 9ɀN (9A>d8S6 s=&&htarg/nram/pntplan.txt 9ɀN (9A>kA6 s=&&htarg/nram/pntplan.txt 9ɀN (9A>s8/6 s=&&htarg/nram/pntplan.txt 9ʀN (9A>zA6 s=&&htarg/nram/pntplan.txt 9ʀ[IG(9A>86 s=&&htarg/nram/pntplan.txt 9ʀ[IG(9A>86 s=&&htarg/nram/pntplan.txt 9ʀ[IG(9A>86 s=&&htarg/nram/pntplan.txt 9ʀ[IG(9A>6 s=&&htarg/nram/pntplan.txt 9ˀN(9A>8A6 s=&&htarg/nram/pntplan.txt 9̀N(9A>\6 s=&&htarg/nram/pntplan.txt 9π%t)9A>86 s=&&htarg/nram/pntplan.txt 9π"f)9A>A6 s=&&htarg/nram/pntplan.txt 9π"f)9A>886 s=&&htarg/nram/pntplan.txt 9π"f)9A>ŸK6 s=&&htarg/nram/pntplan.txt 9π"f)9A>86 s=&&htarg/nram/pntplan.txt 9π"f)9A>Ը6 s=&&htarg/nram/pntplan.txt 9π"f)9A>86 s=&&htarg/nram/pntplan.txt 9π"f)9A>㸟A6 s=&&htarg/nram/pntplan.txt 9π"f)9A>8K6 s=&&htarg/nram/pntplan.txt 9π"f)9A>A6 s=&&htarg/nram/pntplan.txt 9π"f)9A>86 s=&&htarg/nram/pntplan.txt 9π"f)9A?6 s=&&htarg/nram/pntplan.txt 9π"f)9A? 86 s=&&htarg/nram/pntplan.txt 9π"f)9A?6 s=&&htarg/nram/pntplan.txt 9π"f)9A?86 s=&&htarg/nram/pntplan.txt 9π"f)9A?A6 s=&&htarg/nram/pntplan.txt 9π"f)9A?'86 s=&&htarg/nram/pntplan.txt 9π"f)9A?.A6 s=&&htarg/nram/pntplan.txt 9π"f)9A?686 s=&&htarg/nram/pntplan.txt 9π"f)9A?=6 s=&&htarg/nram/pntplan.txt 9π"f)9A?E8m6 s=&&htarg/nram/pntplan.txt 9π"f)9A?L86 s=&&htarg/nram/pntplan.txt 9π"f)9A?T86 s=&&htarg/nram/pntplan.txt 9π"f)9A?[S6 s=&&htarg/nram/pntplan.txt 9π"f)9A?c86 s=&&htarg/nram/pntplan.txt 9Ѐ".*9A?j΀6 s=&&htarg/nram/pntplan.txt 9Ѐ".*9A?r86 s=&&htarg/nram/pntplan.txt 9Ѐ".*9A?y6 s=&&htarg/nram/pntplan.txt 9Ѐ".*9A?86 s=&&htarg/nram/pntplan.txt 9Ѐ".*9A?6 s=&&htarg/nram/pntplan.txt 9р".*9A?86 s=&&htarg/nram/pntplan.txt 9р[(9A?6 s=&&htarg/nram/pntplan.txt 9р[(9A?86 s=&&htarg/nram/pntplan.txt 9р[(9A?A6 s=&&htarg/nram/pntplan.txt 9Ҁ[(9A?86 s=&&htarg/nram/pntplan.txt 9Ҁs (9A? 6 s=&&htarg/nram/pntplan.txt 9Ҁs (9A?8A6 s=&&htarg/nram/pntplan.txt 9Ҁs (9A?ĸ/6 s=&&htarg/nram/pntplan.txt 9Ҁs (9A?86 s=&&htarg/nram/pntplan.txt 9Ӏgt(9A?ӸS6 s=&&htarg/nram/pntplan.txt 9Ӏgt(9A?86 s=&&htarg/nram/pntplan.txt 9Ӏgt(9A?⸥'6 s=&&htarg/nram/pntplan.txt 9Ӏgt(9A?86 s=&&htarg/nram/pntplan.txt 9Ԁ[+(9A?86 s=&&htarg/nram/pntplan.txt 9Ԁ[+(9A?86 s=&&htarg/nram/pntplan.txt 9Ԁ[+(9A@\6 s=&&htarg/nram/pntplan.txt 9Ԁ[+(9A@86 s=&&htarg/nram/pntplan.txt 9Հ[+(9A@6 s=&&htarg/nram/pntplan.txt 9րpu(9A@86 s=&&htarg/nram/pntplan.txt 9րpu(9A@6 s=&&htarg/nram/pntplan.txt 9րpu(9A@&86 s=&&htarg/nram/pntplan.txt 9׀pu(9A@-6 s=&&htarg/nram/pntplan.txt 9׀c(9A@5886 s=&&htarg/nram/pntplan.txt 9׀c(9A@<6 s=&&htarg/nram/pntplan.txt 9׀c(9A@D86 s=&&htarg/nram/pntplan.txt 9׀c(9A@K86 s=&&htarg/nram/pntplan.txt 9؀gr(9A@S86 s=&&htarg/nram/pntplan.txt 9؀gr(9A@Z6 s=&&htarg/nram/pntplan.txt 9؀gr(9A@b8A6 s=&&htarg/nram/pntplan.txt 9؀gr(9A@i6 s=&&htarg/nram/pntplan.txt 9ـ[(9A@q8ƀ6 s=&&htarg/nram/pntplan.txt 9ـ[(9A@xD|6 s=&&htarg/nram/pntplan.txt 9ـ[(9A@86 s=&&htarg/nram/pntplan.txt 9ـ[(9A@'6 s=&&htarg/nram/pntplan.txt 9ڀ[(9A@8K6 s=&&htarg/nram/pntplan.txt 9ڀ[(9A@86 s=&&htarg/nram/pntplan.txt 9ڀ[(9A@86 s=&&htarg/nram/pntplan.txt 9ڀ[(9A@6 s=&&htarg/nram/pntplan.txt 9ڀ[(9A@8A6 s=&&htarg/nram/pntplan.txt 9܀gH(9A@6 s=&&htarg/nram/pntplan.txt 9܀gR(9A@86 s=&&htarg/nram/pntplan.txt 9܀gR(9A@ø 6 s=&&htarg/nram/pntplan.txt 9܀gR(9A@86 s=&&htarg/nram/pntplan.txt 9݀oH=(9A@Ҹ6 s=&&htarg/nram/pntplan.txt 9݀oH=(9A@8A6 s=&&htarg/nram/pntplan.txt 9݀oH=(9A@Ḭ\6 s=&&htarg/nram/pntplan.txt 9݀oH=(9A@86 s=&&htarg/nram/pntplan.txt 9ހ[V(9A@86 s=&&htarg/nram/pntplan.txt 9ހ[V(9A@86 s=&&htarg/nram/pntplan.txt 9ހ[V(9A@86 s=&&htarg/nram/pntplan.txt 9ހ[V(9AA8A6 s=&&htarg/nram/pntplan.txt 9߀[V(9AA6 s=&&htarg/nram/pntplan.txt 9߀[(9AA8e6 s=&&htarg/nram/pntplan.txt 9߀[(9AA86 s=&&htarg/nram/pntplan.txt 9߀[(9AA%886 s=&&htarg/nram/pntplan.txt 9߀[(9AA,'6 s=&&htarg/nram/pntplan.txt 9pk(9AA48S6 s=&&htarg/nram/pntplan.txt 9pk(9AA;A6 s=&&htarg/nram/pntplan.txt 9pk(9AAC86 s=&&htarg/nram/pntplan.txt 9pk(9AAJ6 s=&&htarg/nram/pntplan.txt 9o]( 9AAR8A6 s=&&htarg/nram/pntplan.txt 9g(9AAY6 s=&&htarg/nram/pntplan.txt 9g(9AAa86 s=&&htarg/nram/pntplan.txt 9g(9AAh6 s=&&htarg/nram/pntplan.txt 9g(9AAp86 s=&&htarg/nram/pntplan.txt 9sl(9AAw6 s=&&htarg/nram/pntplan.txt 9sl(9AA86 s=&&htarg/nram/pntplan.txt 9sl(9AA86 s=&&htarg/nram/pntplan.txt 9sl(9AA8A6 s=&&htarg/nram/pntplan.txt 9"*9AA6 s=&&htarg/nram/pntplan.txt 9"*9AA8A6 s=&&htarg/nram/pntplan.txt 9"*9AA86 s=&&htarg/nram/pntplan.txt 9"*9AA86 s=&&htarg/nram/pntplan.txt 9[(!9AA6 s=&&htarg/nram/pntplan.txt 9[(!9AA86 s=&&htarg/nram/pntplan.txt 9[(!9AA¸6 s=&&htarg/nram/pntplan.txt 9[(!9AA8m6 s=&&htarg/nram/pntplan.txt 9u()9AAѸ6 s=&&htarg/nram/pntplan.txt 9u()9AA86 s=&&htarg/nram/pntplan.txt 9u()9AAฟ6 s=&&htarg/nram/pntplan.txt 9u()9AA86 s=&&htarg/nram/pntplan.txt 9u(+9AA︠6 s=&&htarg/nram/pntplan.txt 9g(59AA86 s=&&htarg/nram/pntplan.txt 9g(59AA 6 s=&&htarg/nram/pntplan.txt 9g(59AB8\6 s=&&htarg/nram/pntplan.txt 9g(79AB 86 s=&&htarg/nram/pntplan.txt 9[(:9AB86 s=&&htarg/nram/pntplan.txt 9[(:9ABm6 s=&&htarg/nram/pntplan.txt 9[(:9AB$86 s=&&htarg/nram/pntplan.txt 9[(:9AB+A6 s=&&htarg/nram/pntplan.txt 9[(?9AB386 s=&&htarg/nram/pntplan.txt 9[(?9AB:S6 s=&&htarg/nram/pntplan.txt 9[(?9ABB86 s=&&htarg/nram/pntplan.txt 9[(?9ABI6 s=&&htarg/nram/pntplan.txt 9g3(E9ABQ8΀6 s=&&htarg/nram/pntplan.txt 9g3(E9ABXe6 s=&&htarg/nram/pntplan.txt 9g3(E9AB`86 s=&&htarg/nram/pntplan.txt 9g3(E9ABg6 s=&&htarg/nram/pntplan.txt 9g3(G9ABo86 s=&&htarg/nram/pntplan.txt 9h (K9ABvm6 s=&&htarg/nram/pntplan.txt 9h (K9AB~86 s=&&htarg/nram/pntplan.txt 9h (K9AB6 s=&&htarg/nram/pntplan.txt 9h (K9AB886 s=&&htarg/nram/pntplan.txt 9e(V9AB\6 s=&&htarg/nram/pntplan.txt 9pW(X9AB886 s=&&htarg/nram/pntplan.txt 9pW(X9AB6 s=&&htarg/nram/pntplan.txt 9pW(X9XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 198 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 104 / 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 = 'BHK136SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BIHFAILCOUNT' / IH failure count (total number of failurs sinceTFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BIHTLMFAIL' / IH last telemetry point row failure TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BIHBCDHFAIL' / IH last BCDH column failure TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BIHCHECKRATE' / IH check rate (seconds) TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BIHFAILRATE' / IH failure rate (samples) TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BIHTASKCFG' / IH task configuration (1 - enabled, 0 - disableTFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BIHTLMCFG00' / IH telemetry point row 00 configuration TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BIHTLMCFG01' / IH telemetry point row 01 configuration TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BIHTLMCFG02' / IH telemetry point row 02 configuration TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BIHTLMCFG03' / IH telemetry point row 03 configuration TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BIHTLMCFG04' / IH telemetry point row 04 configuration TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BIHTLMCFG05' / IH telemetry point row 05 configuration TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BIHTLMCFG06' / IH telemetry point row 06 configuration TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BIHTLMCFG07' / IH telemetry point row 07 configuration TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BIHTLMCFG08' / IH telemetry point row 08 configuration TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BIHTLMCFG09' / IH telemetry point row 09 configuration TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BIHTLMCFG10' / IH telemetry point row 10 configuration TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BIHTLMCFG11' / IH telemetry point row 11 configuration TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BIHTLMCFG12' / IH telemetry point row 12 configuration TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BIHTLMCFG13' / IH telemetry point row 13 configuration TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BIHTLMCFG14' / IH telemetry point row 14 configuration TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BIHTLMCFG15' / IH telemetry point row 15 configuration TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BIHTLMCFG16' / IH telemetry point row 16 configuration TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BIHTLMCFG17' / IH telemetry point row 17 configuration TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BIHTLMCFG18' / IH telemetry point row 18 configuration TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BIHTLMCFG19' / IH telemetry point row 19 configuration TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BIHTLMCFG20' / IH telemetry point row 20 configuration TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 32768 / offset for unsigned integers TTYPE30 = 'BIHTLMCFG21' / IH telemetry point row 21 configuration TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BIHTLMCFG22' / IH telemetry point row 22 configuration TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BIHTLMCFG23' / IH telemetry point row 23 configuration TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BIHTLMCFG24' / IH telemetry point row 24 configuration TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BIHTLMCFG25' / IH telemetry point row 25 configuration TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BIHTLMCFG26' / IH telemetry point row 26 configuration TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BIHTLMCFG27' / IH telemetry point row 27 configuration TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHTLMCFG28' / IH telemetry point row 28 configuration TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHTLMCFG29' / IH telemetry point row 29 configuration TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BIHTLMCFG30' / IH telemetry point row 30 configuration TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BIHTLMCFG31' / IH telemetry point row 31 configuration TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BIHTLMSTAT00' / IH telemetry point row 00 status TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BIHTLMSTAT01' / IH telemetry point row 01 status TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BIHTLMSTAT02' / IH telemetry point row 02 status TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BIHTLMSTAT03' / IH telemetry point row 03 status TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BIHTLMSTAT04' / IH telemetry point row 04 status TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 32768 / offset for unsigned integers TTYPE46 = 'BIHTLMSTAT05' / IH telemetry point row 05 status TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BIHTLMSTAT06' / IH telemetry point row 06 status TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BIHTLMSTAT07' / IH telemetry point row 07 status TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BIHTLMSTAT08' / IH telemetry point row 08 status TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BIHTLMSTAT09' / IH telemetry point row 09 status TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BIHTLMSTAT10' / IH telemetry point row 10 status TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BIHTLMSTAT11' / IH telemetry point row 11 status TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BIHTLMSTAT12' / IH telemetry point row 12 status TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BIHTLMSTAT13' / IH telemetry point row 13 status TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BIHTLMSTAT14' / IH telemetry point row 14 status TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BIHTLMSTAT15' / IH telemetry point row 15 status TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BIHTLMSTAT16' / IH telemetry point row 16 status TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BIHTLMSTAT17' / IH telemetry point row 17 status TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 32768 / offset for unsigned integers TTYPE59 = 'BIHTLMSTAT18' / IH telemetry point row 18 status TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BIHTLMSTAT19' / IH telemetry point row 19 status TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BIHTLMSTAT20' / IH telemetry point row 20 status TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BIHTLMSTAT21' / IH telemetry point row 21 status TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BIHTLMSTAT22' / IH telemetry point row 22 status TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BIHTLMSTAT23' / IH telemetry point row 23 status TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BIHTLMSTAT24' / IH telemetry point row 24 status TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BIHTLMSTAT25' / IH telemetry point row 25 status TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BIHTLMSTAT26' / IH telemetry point row 26 status TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BIHTLMSTAT27' / IH telemetry point row 27 status TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BIHTLMSTAT28' / IH telemetry point row 28 status TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BIHTLMSTAT29' / IH telemetry point row 29 status TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BIHTLMSTAT30' / IH telemetry point row 30 status TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BIHTLMSTAT31' / IH telemetry point row 31 status TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BSCCURSTATE24' / SE Script TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BSCLINEEXEC24' / SE Script TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BSCCURRLINE24' / SE Script TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'BSCCMDSSENT24' / SE Script TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 32768 / offset for unsigned integers TTYPE77 = 'BSCCURSTATE25' / SE Script TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BSCLINEEXEC25' / SE Script TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'BSCCURRLINE25' / SE Script TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BSCCMDSSENT25' / SE Script TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 32768 / offset for unsigned integers TTYPE81 = 'BSCCURSTATE26' / SE Script TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BSCLINEEXEC26' / SE Script TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BSCCURRLINE26' / SE Script TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 32768 / offset for unsigned integers TTYPE84 = 'BSCCMDSSENT26' / SE Script TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BSCCURSTATE27' / SE Script TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BSCLINEEXEC27' / SE Script TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BSCCURRLINE27' / SE Script TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BSCCMDSSENT27' / SE Script TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BSCCURSTATE28' / SE Script TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BSCLINEEXEC28' / SE Script TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BSCCURRLINE28' / SE Script TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BSCCMDSSENT28' / SE Script TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BSCCURSTATE29' / SE Script TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BSCLINEEXEC29' / SE Script TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BSCCURRLINE29' / SE Script TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 32768 / offset for unsigned integers TTYPE96 = 'BSCCMDSSENT29' / SE Script TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 32768 / offset for unsigned integers TTYPE97 = 'BSCCURSTATE30' / SE Script TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BSCLINEEXEC30' / SE Script TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'BSCCURRLINE30' / SE Script TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 32768 / offset for unsigned integers TTYPE100= 'BSCCMDSSENT30' / SE Script TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 32768 / offset for unsigned integers TTYPE101= 'BSCCURSTATE31' / SE Script TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BSCLINEEXEC31' / SE Script TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'BSCCURRLINE31' / SE Script TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BSCCMDSSENT31' / SE Script TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 32768 / offset for unsigned integers EXTNAME = 'hk136x001' 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 = 702708156.44328 TSTOP = 702711111.44328 DATE-OBS= '2023-04-09T04:42:31' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2955. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 310 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'eYdahXaVeXaZeXaZ' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2592067071' / data unit checksum updated 2023-04-19T11:42:28 COMMENT Column 73 = BSCCURSTATE24 - 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 77 = BSCCURSTATE25 - 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 81 = BSCCURSTATE26 - 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 85 = BSCCURSTATE27 - 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 89 = BSCCURSTATE28 - 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 93 = BSCCURSTATE29 - 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 97 = BSCCURSTATE30 - 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 101 = BSCCURSTATE31 - 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: sw01163401000b136x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<8f A<Ȁ A<8f A A> 8 A> A>8 A> H A>(8 A>/ A>78 A>> A>F8) A>Mf A>U8 A>\L A>d8Ȋ A>kހ A>s8 A>zo A>8 A>ڀ A>8 A>f A>8o A>ڀA>8fA>Ȋ A>8 A>ŸȀ A>8 A>ԸƓ A>8f A>㸼 A>8) A>򸼾 A>8 A?p A? 8f A? A?8 A? A?'9% A?. A?682 A?= A?E8C A?LȀ A?T8f A?[р A?c8р A?j¤ A?r8p A?y A?8f A?р A?8 A? A?8ڀ A?o A?8f A? A?8 A?ĸ A?8L A?Ӹ2 A?8 A?¤ A?8р A?񸾶 A?8f A@ʂ A@8 A@ A@8ڀ A@ A@&8 A@-y A@58 A@Retarg/mode/tables/toflttbl.gzo EWs'g3^7vw*!:l p AuA> targ/mode/tables/toflttbl.gzo FWs'g3^7@m@!:l p AuA>Rtarg/mode/tables/toflttbl.gzo FiWs'g3^7r@@!:l p AuA>targ/mode/tables/toflttbl.gzo FWt'g3_7 8!:l p AuA>!Rtarg/mode/tables/toflttbl.gzo 0GWWt'g3_7A!:l p AuA>(targ/mode/tables/toflttbl.gzo GWu(g3_7D!:l p AuA>0Rtarg/mode/tables/toflttbl.gzo IWu(g3_7Z@3@!:l p AuA>7targ/mode/tables/toflttbl.gzo KnWw(g4_7a!:l p AuA>?R targ/mode/tables/toflttbl.gzo pM Wy(g4a7!:l p AuA>Ftarg/mode/tables/toflttbl.gzo MzWz(g4b7(@@!:l p AuA>NRtarg/mode/tables/toflttbl.gzo MWz(g4b7Kk!:l p AKA>Uetarg/mode/tables/toflttbl.gzo NWW{(g4c7Z!:l  AKA>]Rtarg/mode/tables/toflttbl.gzo NW|)g4c7!:l  AKA>dtarg/mode/tables/toflttbl.gzo O.W|)g4c7&+ހ!:l  AKA>lR targ/mode/tables/toflttbl.gzo OqW|)g4c7mo"!:l  AKA>starg/mode/tables/toflttbl.gzo OW|)g4c73`!:l  AKA>{R targ/mode/tables/toflttbl.gzo PRW})g4d7@@!:l  AKA>etarg/mode/tables/toflttbl.gzo PW})g4d71!:l  AKA>RKtarg/mode/tables/toflttbl.gzo PW})g4d7s&!:l  AKA>targ/mode/tables/toflttbl.gzo QKW})g4d7.e!:l  AKA>Retarg/mode/tables/toflttbl.gzo QW~)g4e7!:l  AKA> targ/mode/tables/toflttbl.gzo pR}W~)g4e7!:l  AKA>Retarg/mode/tables/toflttbl.gzo 0SW,g4e7z:!:l  AKA>etarg/mode/tables/toflttbl.gzo 0U W.g4f7?!:l  AKA>RTtarg/mode/tables/toflttbl.gzo VW.g4f7g!:l  AKA>targ/mode/tables/toflttbl.gzo X:W.g4f7"K!:l  AKA>R targ/mode/tables/toflttbl.gzo YW.g5f7@@!:l  AKA>etarg/mode/tables/toflttbl.gzo [W.g5f7_@2@!:l  AKA>Rtarg/mode/tables/toflttbl.gzo ]W.g5f7X{!:l p AKA>targ/mode/tables/toflttbl.gzo _)W.g5f7@@!:l p A"A>Rtarg/mode/tables/toflttbl.gzo `W.g5f7b!:l p A"A>targ/mode/tables/toflttbl.gzo bW.g5f7@@!:l p A"A>Rtarg/mode/tables/toflttbl.gzo d:W.g5f7L)@L@!:l p A"A>etarg/mode/tables/toflttbl.gzo y eW0g5f7~Ru!:l p A"A?R targ/mode/tables/toflttbl.gzo igW0g5f7@@!:l p A"A?  targ/mode/tables/toflttbl.gzo ViRW0g5f7!:l p A"A?Rtarg/mode/tables/toflttbl.gzo K0kW0g5f7!:l p A"A?\targ/mode/tables/toflttbl.gzo <`lW1g5f7#@F@!:l p A"A? Rtarg/mode/tables/toflttbl.gzo <`nnW1g5f7l!:l p A"A?'etarg/mode/tables/toflttbl.gzo \ppW1g5f7V!:l p A"A?/R targ/mode/tables/toflttbl.gzo \pqW1g5f7 "!:l p A"A?6 targ/mode/tables/toflttbl.gzo KslW1g5f79 \!:l p A"A?>R\targ/mode/tables/toflttbl.gzo ?uW1g5f7s !:l p A"A?Eetarg/mode/tables/toflttbl.gzo ?vW1g5f7 !:l p A"A?MRetarg/mode/tables/toflttbl.gzo ?xiW1g5f7% )!:l p A"A?T targ/mode/tables/toflttbl.gzo :@zW1g5f7' J!:l p A"A?\Retarg/mode/tables/toflttbl.gzo QP{W1g5f7+ N!:l p A"A?ctarg/mode/tables/toflttbl.gzo O}rW2g5f7]@ @!:l p A"A?kRtarg/mode/tables/toflttbl.gzo 0#W2g5f7} !:l p A"A?r targ/mode/tables/toflttbl.gzo ,W2g5f7 !:l p AA?zRtarg/mode/tables/toflttbl.gzo &W2g5f7 !:l p AA?etarg/mode/tables/toflttbl.gzo $&W2g5f7 !:l p AA?Rtarg/mode/tables/toflttbl.gzo BW3g5f7Y |!:l p AA?Ttarg/mode/tables/toflttbl.gzo >W3g5f7At !:l p AA?Rtarg/mode/tables/toflttbl.gzo 8P-W3g5f7hx !:l p AA?etarg/mode/tables/toflttbl.gzo 6W3g5f7) !:l p AA?R targ/mode/tables/toflttbl.gzo 6pW3g5f7 !:l p AA?targ/mode/tables/toflttbl.gzo 1AW3g5f7) !:l p AA?R\targ/mode/tables/toflttbl.gzo JW3g5f7 !:l p AA?\targ/mode/tables/toflttbl.gzo IW3g5f7  +!:l p AA?Retarg/mode/tables/toflttbl.gzo IIW3g5f7 > a!:l p AA?targ/mode/tables/toflttbl.gzo HW3g5f7 q !:l p AA?Retarg/mode/tables/toflttbl.gzo HW3g5f7 [ !:l p AA? targ/mode/tables/toflttbl.gzo DNW3g5f7   !:l p AA?R targ/mode/tables/toflttbl.gzo [`W3g6f7  !:l p AA?targ/mode/tables/toflttbl.gzo YW3g6f7  !:l p AA?Rtarg/mode/tables/toflttbl.gzo EaW3g6f7  5!:l p AA? targ/mode/tables/toflttbl.gzo !W3g6f7& I!:l p AA@Retarg/mode/tables/toflttbl.gzo W3g6f7B e!:l p AA@ targ/mode/tables/toflttbl.gzo W3g6f7i@ @!:l p AA@R targ/mode/tables/toflttbl.gzo @W3g8f7@ @!:l  AA@ targ/mode/tables/toflttbl.gzo W3g8g7\ !:l  AA@Rtarg/mode/tables/toflttbl.gzo PW3g8g7 !:l  AA@&etarg/mode/tables/toflttbl.gzo pQW3g8g7 !:l  AA@.R targ/mode/tables/toflttbl.gzo  W3g8g76 !:l  AA@5etarg/mode/tables/toflttbl.gzo W4g8g7ހ!:l  AA@=R targ/mode/tables/toflttbl.gzo W4g8g7 !:l  AA@Detarg/mode/tables/toflttbl.gzo W4g8h70S!:l  AA@LRtarg/mode/tables/toflttbl.gzo W4g8h7+b!:l  AA@Starg/mode/tables/toflttbl.gzo W4g8h7!:l  AA@[Rtarg/mode/tables/toflttbl.gzo pIW4g8h7!:l  AA@b0Utarg/mode/tables/toflttbl.gzo pW4g8h7!:l  AA@jRtarg/mode/tables/toflttbl.gzo W4g8h7+N!:l  AA@q targ/mode/tables/toflttbl.gzo ]W4g8i7xDg!:l  AA@yR targ/mode/tables/toflttbl.gzo W4g8i7Gj!:l  AA@ targ/mode/tables/toflttbl.gzo `W4g8i7c!:l  AA@R targ/mode/tables/toflttbl.gzo wW4g8j7!:l  AA@targ/mode/tables/toflttbl.gzo (W4g8j7@@!:l  AA@Retarg/mode/tables/toflttbl.gzo 0W4g8l7@@!:l  AA@etarg/mode/tables/toflttbl.gzo ĄW4g8l7! 0!:l  AA@R targ/mode/tables/toflttbl.gzo W6g8t77!:l p AzAARtarg/mode/tables/toflttbl.gzo W6g8v7@n@!:l p AzAAZRetarg/mode/tables/toflttbl.gzo W6g8v7`!:l p AzAAatarg/mode/tables/toflttbl.gzo HW6g8v7Q!:l p AzAAiRetarg/mode/tables/toflttbl.gzo 0 W6g8v7Z!:l p AzAAptarg/mode/tables/toflttbl.gzo 0W6g8v7R!:l p AzAAxRetarg/mode/tables/toflttbl.gzo ^W6g8x7q]!:l p AzAA targ/mode/tables/toflttbl.gzo W6g8x76u!:l p AzAAR targ/mode/tables/toflttbl.gzo  W6g8x7 x !:l p AzAAetarg/mode/tables/toflttbl.gzo W7g8x7"!:l p AzAAR targ/mode/tables/toflttbl.gzo 3W7g8x7̀_!:l p AzAA\targ/mode/tables/toflttbl.gzo W7g9x7X!:l p AzAARetarg/mode/tables/toflttbl.gzo 'W7g9y7 C!:l p AzAAtarg/mode/tables/toflttbl.gzo 'PCW7g9y7Ux@ @!:l p AzAARtarg/mode/tables/toflttbl.gzo 'PW7g9y7F!:l p AzAAtarg/mode/tables/toflttbl.gzo 4W7g9{7?!:l p APAARetarg/mode/tables/toflttbl.gzo 44W7g9{7*!:l p APAA targ/mode/tables/toflttbl.gzo 3pW7g9{7P\!:l p APAAR targ/mode/tables/toflttbl.gzo 3p W7g9{7*!:l  APAAetarg/mode/tables/toflttbl.gzo 3p LW7g9{7@f@!:l  APAARetarg/mode/tables/toflttbl.gzo N W8g9|7 !:l  APAAtarg/mode/tables/toflttbl.gzo MW8g9|76D@@!:l  APAARTtarg/mode/tables/toflttbl.gzo LiW8g9|7u@@!:l  APAAetarg/mode/tables/toflttbl.gzo LW8g9|7(@C@!:l  APAARetarg/mode/tables/toflttbl.gzo LW8g9|7@~@!:l  APABetarg/mode/tables/toflttbl.gzo LmW8g9|7"!:l  APABRtarg/mode/tables/toflttbl.gzo f%W8g9}7TZ@@!:l  APAB targ/mode/tables/toflttbl.gzo bW8g9}7x !:l  APABR targ/mode/tables/toflttbl.gzo \tW8g9}7<|!:l  APAB$targ/mode/tables/toflttbl.gzo ZW8g9}75!:l  APAB,Retarg/mode/tables/toflttbl.gzo ZW8g9}7@׀j!:l  APAB3etarg/mode/tables/toflttbl.gzo tW8g97!:l  APAB;Rtarg/mode/tables/toflttbl.gzo t!1W8g97vM!:l  APABBtarg/mode/tables/toflttbl.gzo t"W8g97@@!:l  APABJRetarg/mode/tables/toflttbl.gzo t@$W8g97N!:l  APABQetarg/mode/tables/toflttbl.gzo t@&IW8g97 !:l  A&ABYRetarg/mode/tables/toflttbl.gzo p'WÀ8g9ށ7(&)!:l p A&AB`targ/mode/tables/toflttbl.gzo p)WÀ8g9ށ7a@d@!:l p A&ABhRtarg/mode/tables/toflttbl.gzo p+UWÀ8g9ށ7!:l p A&ABotarg/mode/tables/toflttbl.gzo - Wŀ8g9ރ7πҀ!:l p A&ABwR targ/mode/tables/toflttbl.gzo .Wƀ9g9ރ7  @ @!:l p A&AB~etarg/mode/tables/toflttbl.gzo 0bWƀ9g9ރ7D@G@!:l p A&ABRetarg/mode/tables/toflttbl.gzo 2Wƀ9g9ރ7{~!:l p A&ABtarg/mode/tables/toflttbl.gzo 3Wƀ9g9ރ7!:l p A&ABRetarg/mode/tables/toflttbl.gzo P5Wǀ9g9ބ7!:l p A&ABtarg/mode/tables/toflttbl.gzo P7/Wǀ9g9ބ7!$!:l p A&ABRtarg/mode/tables/toflttbl.gzo P8Wǀ9g9ބ7d]`!:l p A&XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 225 / width of table in bytes NAXIS2 = 198 / 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 = 702708157.64224 TSTOP = 702711112.64228 DATE-OBS= '2023-04-09T04:42:32' DATE-END= '2023-04-09T05:31:47' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2955.00003993511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 312 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'khiOmZgOkfgOkZgO' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3037865898' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b138x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<4A5G>G2ܯC IhAkƀ@RPoRoueЀd" )r)N)ˀ)r)AG2ܯC IhAkƀ@RPoaoueЀd" )r)N)ˀ)r)A<7A5G>G2ܯC IhAkƀ@RPopoueЀd" )r)N)ˀ)r)AG2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A<4A5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A=R4DA5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A= 5A5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A=R4A5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A=7A5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A="R8ڀA5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A=)82A5G>G2ܯC IhAkƀ@RPooueЀd" )r)N)ˀ)r)A=1R5A5G>G2ܯC IhAkƀ@RPooz7Ѐd" )r)N)ˀ)r)A=85A5G>G2ܯC IhAkƀ@RPpoz;Ѐd" )r)N)ˀ)r)A=@R4A5G>G2ܯC IhAkƀ@RPpoz;Ѐd" )r)N)ˀ)r)A=G6;A5G>G2ܯC IhAkƀ@RPp$ozBЀd" )r)N)ˀ)r)A=OR4A5G>G2ܯC IhAkƀ@RPp3ozEЀd" )r)N)ˀ)r)A=V4A5G>G2ܯC IhAkƀ@RPp=ozEЀd" )r)N)ˀ)r)A=^R4A5G>G2ܯC IhAkƀ@RPpLozNЀd" )r)N)ˀ)r)A=e4A5G>G2ܯC IhAkƀ@RPp[ozNЀd" )r)N)ˀ)r)A=mR5A5G>G2ܯC IhAkƀ@RPpjoznЀd" )r)N)ˀ)r)A=t5A5G>G2ܯC IhAkƀ@RPp~ozNЀd" )r)N)ˀ)r)A=|R5A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=5A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=R4A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=4A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=R6;A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=8ڀA5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=R4DA5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=6A5G>G2ܯC IhAkƀ@RPpozNЀd" )r)N)ˀ)r)A=R6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A=4A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A=R4DA5G>G2ܯC IhAkƀ@RPq#ozNЀd" )r)N)ˀ)r)A=5A5G>G2ܯC IhAkƀ@RPq2ozNЀd" )r)N)ˀ)r)A=R4DA5G>G2ܯC IhAkƀ@RPqAozNЀd" )r)N)ˀ)r)A=6A5G>G2ܯC IhAkƀ@RPqPozNЀd" )r)N)ˀ)r)A=R4DA5G>G2ܯC IhAkƀ@RPq_ozNЀd" )r)N)ˀ)r)A=6;A5G>G2ܯC IhAkƀ@RPqnozNЀd" )r)N)ˀ)r)A=R3A5G>G2ܯC IhAkƀ@RPq}ozNЀd" )r)N)ˀ)r)A=6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>R4A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A> 3A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>R82A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>!R6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>(6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>0R6;A5G>G2ܯC IhAkƀ@RPqozNЀd" )r)N)ˀ)r)A>74A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>?R5A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>F4DA5G>G2ܯC IhAkƀ@RPr"ozNЀd" )r)N)ˀ)r)A>NR7A5G>G2ܯC IhAkƀ@RPr1ozNЀd" )r)N)ˀ)r)A>U4DA5G>G2ܯC IhAkƀ@RPr@ozNЀd" )r)N)ˀ)r)A>]R5A5G>G2ܯC IhAkƀ@RPrOozNЀd" )r)N)ˀ)r)A>d6;A5G>G2ܯC IhAkƀ@RPr^ozNЀd" )r)N)ˀ)r)A>lR4A5G>G2ܯC IhAkƀ@RPrmozNЀd" )r)N)ˀ)r)A>s5A5G>G2ܯC IhAkƀ@RPr|ozNЀd" )r)N)ˀ)r)A>{R6;A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>3A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>R:*A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>82A5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>R4DA5G>G2ܯC IhAkƀ@RProzNЀd" )r)N)ˀ)r)A>4A5G>G2ܯC IhAkƀ@RPro}7Ѐd" )r)N)ˀ)r)A>R4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A>4A>?bC A@ e?l''}7Ѐd" )r)N)ˀ)r)A>R8ڀA>?bC A@ e?l'6}7Ѐd" )r)N)ˀ)r)A>6A>?bC A@ e?l'E}7Ѐd" )r)N)ˀ)r)A>R5A>?bC A@ e?l'T}7Ѐd" )r)N)ˀ)r)A>4DA>?bC A@ e?l'c}7Ѐd" )r)N)ˀ)r)A>R6;A>?bC A@ e?l'r}7Ѐd" )r)N)ˀ)r)A>6A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A>R4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A>6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A>R82A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A>4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A? 6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R3A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A? R3A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?'4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?/R5A>?bC A@ e?l'&}7Ѐd" )r)N)ˀ)r)A?65A>?bC A@ e?l'5}7Ѐd" )r)N)ˀ)r)A?>R82A>?bC A@ e?l'D}7Ѐd" )r)N)ˀ)r)A?E4DA>?bC A@ e?l'S}7Ѐd" )r)N)ˀ)r)A?MR3A>?bC A@ e?l'b}7Ѐd" )r)N)ˀ)r)A?T5A>?bC A@ e?l'q}7Ѐd" )r)N)ˀ)r)A?\R4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?c6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?kR5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?r6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?zR9A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R3A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?8ڀA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?5A>?bC A@ e?l'%}7Ѐd" )r)N)ˀ)r)A?R6A>?bC A@ e?l'4}7Ѐd" )r)N)ˀ)r)A?6A>?bC A@ e?l'C}7Ѐd" )r)N)ˀ)r)A?R4A>?bC A@ e?l'R}7Ѐd" )r)N)ˀ)r)A?6;A>?bC A@ e?l'a}7Ѐd" )r)N)ˀ)r)A?R4A>?bC A@ e?l'p}7Ѐd" )r)N)ˀ)r)A?82A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?3A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?R8ڀA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A?5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@82A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R6A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@&4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@.R5A>?bC A@ e?l'$}7Ѐd" )r)N)ˀ)r)A@56A>?bC A@ e?l'3}7Ѐd" )r)N)ˀ)r)A@=R4A>?bC A@ e?l'B}7Ѐd" )r)N)ˀ)r)A@D4DA>?bC A@ e?l'Q}7Ѐd" )r)N)ˀ)r)A@LR7A>?bC A@ e?l'`}7Ѐd" )r)N)ˀ)r)A@S5A>?bC A@ e?l'o}7Ѐd" )r)N)ˀ)r)A@[R3A>?bC A@ e?l'~}7Ѐd" )r)N)ˀ)r)A@bK܀A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@jR5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@q5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@yR5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@[A>?bC A@ e?l'#}7Ѐd" )r)N)ˀ)r)A@R82A>?bC A@ e?l'2}7Ѐd" )r)N)ˀ)r)A@4DA>?bC A@ e?l'A}7Ѐd" )r)N)ˀ)r)A@R4A>?bC A@ e?l'P}7Ѐd" )r)N)ˀ)r)A@4A>?bC A@ e?l'_}7Ѐd" )r)N)ˀ)r)A@R8ڀA>?bC A@ e?l'n}7Ѐd" )r)N)ˀ)r)A@4DA>?bC A@ e?l'}}7Ѐd" )r)N)ˀ)r)A@R6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@R5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)A@4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR6A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR82A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA%3A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA-R4A>?bC A@ e?l'"}7Ѐd" )r)N)ˀ)r)AA45A>?bC A@ e?l'1}7Ѐd" )r)N)ˀ)r)AA?bC A@ e?l'@}7Ѐd" )r)N)ˀ)r)AAC3A>?bC A@ e?l'O}7Ѐd" )r)N)ˀ)r)AAKR4A>?bC A@ e?l'^}7Ѐd" )r)N)ˀ)r)AAR5A>?bC A@ e?l'm}7Ѐd" )r)N)ˀ)r)AAZR4DA>?bC A@ e?l'|}7Ѐd" )r)N)ˀ)r)AAa6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAiR4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAp8ڀA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAxR4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA6A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA6A>?bC A@ e?l'!}7Ѐd" )r)N)ˀ)r)AAR3A>?bC A@ e?l'0}7Ѐd" )r)N)ˀ)r)AA7A>?bC A@ e?l'?}7Ѐd" )r)N)ˀ)r)AAR4A>?bC A@ e?l'N}7Ѐd" )r)N)ˀ)r)AA4A>?bC A@ e?l']}7Ѐd" )r)N)ˀ)r)AAR4A>?bC A@ e?l'l}7Ѐd" )r)N)ˀ)r)AA4DA>?bC A@ e?l'{}7Ѐd" )r)N)ˀ)r)AAR6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR82A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AA4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AAR4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABR7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABR5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB$5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB,R4DA>?bC A@ e?l' }7Ѐd" )r)N)ˀ)r)AB34DA>?bC A@ e?l'/}7Ѐd" )r)N)ˀ)r)AB;R3A>?bC A@ e?l'>}7Ѐd" )r)N)ˀ)r)ABB5A>?bC A@ e?l'M}7Ѐd" )r)N)ˀ)r)ABJR4A>?bC A@ e?l'\}7Ѐd" )r)N)ˀ)r)ABQ4A>?bC A@ e?l'k}7Ѐd" )r)N)ˀ)r)ABYR4A>?bC A@ e?l'z}7Ѐd" )r)N)ˀ)r)AB`6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABhR7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABo5A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABwR4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB~4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABR7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB4DA>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABR4A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)AB7A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)ABR6;A>?bC A@ e?l'}7Ѐd" )r)N)ˀ)r)XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 199 / width of table in bytes NAXIS2 = 596 / 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 = 702708148.84144 TSTOP = 702711123.84144 DATE-OBS= '2023-04-09T04:42:23' DATE-END= '2023-04-09T05:31:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2975. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 313 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'bMGBbJ99bJGAbJ97' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1125197821' / data unit checksum updated 2023-04-19T11:42:28 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: sw01163401000b139x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 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= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END AA@rjV7\A<=)y!E -B3rn>A@rjV\AA@rjV\A<)y€@΀ fB3rn>A@rjVj\AA@rjVO\A<)ỳ B3rn>A@rjVJ\AA@rjV\AA@rjV\AA@rjVz\A<뵞)yT. eB3rn>A@rjV\AA@rjV\A<)yͧ N PB3rn>A@rjV\AA@rjV\A<)y܆.n B3rn>A@rjV+\AA@rjV^-\AA@rjVx@\A=k)z(nrB3rn>A@rjV\A=)z5Z ^B3rn>A@rjV;\A=k)z D B3rn>A@rjV٘\A= 볧)zPݧ΀ B3rn>A@rjV%=\A= k)zQT B3rn>A@rjV%iF\A=)z_ YB3rn>A@rjVs\A=kȟ)z! S+ B3rn>A@rjV噎\A=N)z& _B WB3rn>A@rjV圆<\A=k)z+?X B3rn>A@rjVԛ\A=)z0ak!.B3rn>A@rjVԘJW\A=k)z5F|#cB3rn>A@rjVĘ\A=볧)z:'H$N B3rn>A@rjVN\A= kN)z?/&. B3rn>A@rjV\A="볧)zD'n 4B3rn>A@rjV\A=%k)zIB)N B3rn>A@rjV \A=')zNt* oB3rn>A@rjV\A=*kN)zSȇ,n B3rn>A@rjV:\A=,)zX - \B3rn>A@rjV:Y\A=/k)zX - \B3rn>A@rjV0\A=1N)z\Z. BrA~`rLr4rr"?uc\A=4k)za0. sBrA~`rLr4rr"?ucB\A=6볧)za0. sBÀrA rLr4rrb?saJY\A=9k̎)zdÄx1n BÀrA rLr4rrb?sah\A=;뵞)zdÄx1n BÀrA rLr4rrb?sah\A=>k)zdÄx1n BÀrA rLr4rrb?sah\A=@N)zkO ,3N C'/rA2rLr4rr?pfi\A=Ck)zkO ,3N CFQ̀rA0rLr4rHr?mGE(\A=E)zkO ,3N CFQ̀rA0rLr4rHr?mGE(\A=Hk)zt- 6n CFQ̀rA0rLr4rHr?mGEɀ\A=JN)zt- 6n C rArLr4r=rD;rBЀrLr4rr?Yst\A=zkN)zÃ.TOb0 D;rBЀrLr4rr?Yu\A=|F)z̃@eQ, BD;rBЀrLr4rr?Y;\A=kN)zւɅ4U' 2D;rBЀrLr4rr?Y睦ʀ\A=)zւɅ4U' 2D;rBЀrLr4rr?Y]W\A=k)zƅKcn D;rBЀrLr4rr?Y-\A=N)z󁕅f D;rBЀrLr4rr?Y`~\A=k){33a~X D;rBЀrLr4rr?Ywe\A=k){CJB8OD;rBЀrLr4rr?YI5\A=뵞){H3txD;rBЀrLr4rr?YIq\A=k){M؃XoD;rBЀrLr4rr?Y\A=F){R  4D;rBЀrLr4rr?Y\A=kN){Wnx D;rBЀrLr4rr?Y\A=){\݂ݧ D;rBЀrLr4rr?Y\A=k){a΂ɧ D;rBЀrLr4rr?Y]\A=N){fς6؀ D;rBЀrLr4rr?Y]\A=kF){kł XD;rBЀrLr4rr?Yu\A=볧){p̍ D;rBЀrLr4rr?Yu\A=kȟ){u0؀ D;rBЀrLr4rr?Yuk\A=){zob tD;rBЀrLr4rr?Y\A=k){_  4D;rBЀrLr4rr?YA\A=){PR D;rBЀrLr4rr?Y*\A=kN){A؀ D;rBЀrLr4rr?Y\A=뵞){2 YD;rBЀrLr4rr?Y\A=k){s$L D;rBЀrLr4rr?Y\A=N){s~8D;rBЀrLr4rr?Y\A=k){l  ^D;rBЀrLr4rr?Yi\A=){qX $D;rBЀrLr4rr?Y\A=k){bx8 D;rBЀrLr4rr?Yk\A=){dx D;rBЀrLr4rr?Y\A=kW){SާX 1D;rBЀrLr4rr?Yp\A=){_ԧ@ D;rBЀrLr4rr?Y\A=k){X˧x D;rBЀrLr4rr?Y\A=F){[§֯ D;rBЀrLr4rr?YM\A=k){ŀI: KD;rBЀrLr4rr?Y>\A=볧){ʀRl؀ 4D;rBЀrLr4rr?YC3\A=k){πCд D;rBЀrLr4rr?YCn\A=볧){ԀB D;rBЀrLr4rr?Yg\A=k){ـAf؀ nD;rBЀrLr4rr?Yd2\A=){ހ@ RD;rBЀrLr4rr?Yd&\A=k){F D;rBЀrLr4rr?Y_\A=볧){> .8 D;rBЀrLr4rr?Y_\A=k){G  D;rBЀrLr4rr?Y\A=){6} ĿX ZD;rBЀrLr4rr?YT\A=kN){7x!(8 D;rBЀrLr4rr?Y\A=뵞){.s!Zx D;rBЀrLr4rr?Y`\A>k)|;n!X D;rBЀrLr4rr?Y\A>볧)|3j!Ř D;rBЀrLr4rr?Y\A>k)| 9f"Tx XD;rBЀrLr4rr?Y\A>볧)|1b"ȸ 5D;rBЀrLr4rr?Y\A> k)|-^"ʘ D;rBЀrLr4rr?Y\A> 볧)|.[#؀D;rBЀrLr4rr?Y\A>k)|.W#͸ D;rBЀrLr4rr?Y\A>볧)|$&T# bD;rBЀrLr4rr?Y'\A>k)|),R$؀ D;rBЀrLr4rr?Y\A>)|.-O$H D;rBЀrLr4rr?Y)\A>k)|3&L$ D;rBЀrLr4rr?Y~V\A>)|8*J$8 D;rBЀrLr4rr?Y~_\A>k)|=+G%BqD;rBЀrLr4rr?Y~\A>!N)|B#E%tb VD;rBЀrLr4rr?Y\A>$kN)|G%C%B D;rBЀrLr4rr?Y\A>&)|L.A& ۂ D;rBЀrLr4rr?Y\A>)k)|Q(?&nb hD;rBЀrLr4rr?Y쟯\A>+N)|V+=&ޢ bD;rBЀrLr4rr?Y:\A>.k)|[*;' *D;rBЀrLr4rr?Y\A>0볧)|`!:'6€ D;rBЀrLr4rr?Y\A>3kF)|e9'㢀 D;rBЀrLr4rr?Y&\A>5볧)|j7' D;rBЀrLr4rr?Y-\A>8kN)|o 5(0€ BD;rBЀrLr4rr?Y\A>:볧)|t&4(b D;rBЀrLr4rr?Y\A>=k)|y)3( D;rBЀrLr4rr?Y1\A>?)|~+2(" D;rBЀrLr4rr?Y\A>Bk)|$1)\ }D;rBЀrLr4rr?Ye`\A>D)|%0)B oD;rBЀrLr4rr?YeS\A>Gk)|!/)" ,D;rBЀrLr4rr?Ys\A>I)|&/*$b D;rBЀrLr4rr?Y\A>Lk)|.*B D;rBЀrLr4rr?Y\A>N)|+.* D;rBЀrLr4rr?Ya\A>QkF)|%-+b yD;rBЀrLr4rr?Y\A>S볧)|/-+P aD;rBЀrLr4rr?Y\A>VkN)|.,,B @D;rBЀrLr4rr?Y|)\A>X볧)|$,,@ D;rBЀrLr4rr?Y|\A>[k)|!+,b D;rBЀrLr4rr?Y\A>]F)|)+, D;rBЀrLr4rr?Y\A>`k)|!+-: D;rBЀrLr4rr?Y\A>b볧)|Ā)*-l € sD;rBЀrLr4rr?Y\A>ek)|ɀ+*-  3D;rBЀrLr4rr?Y\A>g)|΀+).  D;rBЀrLr4rr?Y\A>jk)|Ӏ*).f€ D;rBЀrLr4rr?Y$\A>l)|؀+*. D;rBЀrLr4rr?Y$r\A>ok)|݀&). D;rBЀrLr4rr?YC\A>q)|()/." _D;rBЀrLr4rr?YW+\A>tk)|")/ D;rBЀrLr4rr?YW\A>vF)|/)/B D;rBЀrLr4rr?Yߎ&\A>yk)|#(0(" D;rBЀrLr4rr?Y\A>{)|.)0Zb D;rBЀrLr4rr?Y\A>~k)|!(0B dD;rBЀrLr4rr?Y\A>)}!(0 OD;rBЀrLr4rr?Y\A>k)},(1Tb D;rBЀrLr4rr?Y\A>)} ,(1 D;rBЀrLr4rr?Y \A>kF)}((1! D;rBЀrLr4rr?Y \A>)}+(2"€ D;rBЀrLr4rr?Yr\A>k)}((2$ fD;rBЀrLr4rr?Y\A>N)}))2% TD;rBЀrLr4rr?Y\A>kN)}#4)3'€ D;rBЀrLr4rr?Yv\A>F)}(()3H)D;rBЀrLr4rr?Y\A>k)}-+)3* D;rBЀrLr4rr?Y\A>볧)}2')3," D;rBЀrLr4rr?Y\A>k)}75)4B. PD;rBЀrLr4rr?Y\A>N)}<i,4t/B KCprpB_< Errrr? \A>kȟ)}B(.41" CrpB < rrrr?V\A>볧)}B(.41" CrpB < rrrr?\A>kN)}K&.5n4B gD\ZrpArrrr? \A>)}P3.55 ^D\ZrpArrrr? \A>kN)}U/.67b ,D\ZrpArrrr? \A>N)}Z/-668 -D\ZrpArrrr?\A>k)}_.-6: D\ZrpArrrr?#\A>볧)}d.-6;€ D\ZrpArrrr?\A>k)}i+-70= D\ZrpArrrr?\A>)}n3.7b> D\ZrpArrrr?\A>k)}s5.7@€ D\ZrpArrrr?\A>N)}x6/7B D\ZrpArrrr?g\A>kF)}}C08\C {D\ZrpArrrr?\A>볧)}:08E" kD\ZrpArrrr?5\A>k)}@18G @D\ZrpArrrr?\A>볧)}>29$HB =D\ZrpArrrr?\A>k)}<39J" D\ZrpArrrr?\A>)}/39Kb D\ZrpArrrr?\A>kƨ)}?4:MB D\ZrpArrrr?\A>볧)}D4:PN D\ZrpArrrr?\A>k)}95:Pb D\ZrpArrrr?\A>=)}<5:Q D\ZrpArrrr?\A>k)}>6;JS SD\ZrpArrrr?\A>F)}25;|T€ AD\ZrpArrrr?9\A>k)}95;V D\ZrpArrrr?\A>F)};6<W D\ZrpArrrr?\A>k)}À86뵞)}Ȁ96<[ D\ZrpArrrr?\A>k)}̀35= \ D\ZrpArrrr?j\A>볧)}Ҁ35=>^" D\ZrpArrrr?2\A>k)}׀+5=` fD\ZrpArrrr?\A>)}܀25>.j D\ZrpArrrr?+\A>k)}85>k ]D\ZrpArrrr?\A>N)}85>m" [D\ZrpArrrr?\A>k)}+4?(o D\ZrpArrrr?\A>N)}/4?ZpB D\ZrpArrrr?\A>kF)}34?r" D\ZrpArrrr?\A>N)},3?sb D\ZrpArrrr?\A?kW)},3@TuB D\ZrpArrrr?\A?볧)~22@v D\ZrpArrrr?\A?k)~ 22@xb zD\ZrpArrrr?\A?뵞)~%1Ay kD\ZrpArrrr?\A? k)~.1A{ @D\ZrpArrrr?\A? )~10A|€ =D\ZrpArrrr?p\A?k)~-0B~ D\ZrpArrrr?\A?볧)~"+/BH D\ZrpArrrr? \A?kN)~'.B€ D\ZrpArrrr?\A?N)~,-BރD\ZrpArrrr? \A?k)~1",CB D\ZrpArrrr?\A?뵞)~6,Ct"D\ZrpArrrr?\A?k)~;)+C؈ bD\ZrpArrrr?\A? 뵞)~@.*D BcD\ZrpArrrr?\A?#k)~E)Dn" D\ZrpArrrr?D\A?%뵞)~J#)Db D\ZrpArrrr?{\A?(k)~O(EBD\ZrpArrrr?\A?*뵞)~T#'E6D\ZrpArrrr?\A?-k)~Y&Eb D\ZrpArrrr?\A?/볧)~^&E̒ D\ZrpArrrr?\A?2k)~c%%F0 ~D\ZrpArrrr?\A?4N)~h%Fb€ rD\ZrpArrrr?{\A?7k)~m$FƗ =D\ZrpArrrr?\A?9볧)~r#F -D\ZrpArrrr?\A?)~| "G D\ZrpArrrr?\A?Ak)~!G D\ZrpArrrr?\A?C)~!H$"D\ZrpArrrr?\A?Fk)~ HD\ZrpArrrr?X\A?H)~HB D\ZrpArrrr?M\A?Kk)~I"cD\ZrpArrrr?U\A?M볧)~ IPb KD\ZrpArrrr?\A?Pk)~ IB D\ZrpArrrr?\A?RN)~I樂 $D\ZrpArrrr?\A?UkN)~JJdD\ZrpArrrr?\A?WN)~J| D\ZrpArrrr?\A?ZkF)~ Jୄ D\ZrpArrrr?[\A?\볧)~KĀ xD\ZrpArrrr?H\A?_kN)~Kv /D\ZrpArrrr?W\A?a볧)~€K )D\ZrpArrrr?\A?dk)~ǀL Ā D\ZrpArrrr?\A?fN)~̀$L> D\ZrpArrrr? \A?ik)~рL D\ZrpArrrr?\A?k)~րLԸ$ D\ZrpArrrr?#\A?nk)~ۀM8 ;D\ZrpArrrr?]\A?p뷕)~ MjD (D\ZrpArrrr?]\A?sdo)~Mν$ D\ZrpArrrr?u\A?uN)~ Nd D\ZrpArrrr?u\A?xkN)~NdD jD\ZrpArrrr?u\A?z볧)~ N CD\ZrpArrrr?\A?}k)~Nd D\ZrpArrrr?\A?뵞)~O,Ĥ D\ZrpArrrr?l\A?kF)OƄ D\ZrpArrrr?\A?)OĀ \D\ZrpArrrr?_\A?kN) Pd *D\ZrpArrrr?h\A?) PӤ D\ZrpArrrr?\A?kN)QՄD\ZrpArrrr?l\A?)QHĀ D\ZrpArrrr?#\A?kN)!Qؤ WD\ZrpArrrr?R\A?뵞)&Q BD\ZrpArrrr?R\A?k)+RBĀ D\ZrpArrrr?\A?)0 RtD\ZrpArrrr?\A?k)5 R D\ZrpArrrr?3\A?F): S $sD\ZrpArrrr?1\A?kN)? Sn 6D\ZrpArrrr?\A?N)D SD D\ZrpArrrr?;1\A?k)I T$D\ZrpArrrr?aw\A?)N T6d D\ZrpArrrr?a>\A?k)S TD ?D\ZrpArrrr?`\A?)X T鄀 %D\ZrpArrrr?`\A?k)] U0d D\ZrpArrrr?c\A?N)b Ub준 D\ZrpArrrr?\A?kN)gU ^D\ZrpArrrr?y\A?뵞)lUĀ <D\ZrpArrrr?&\A?k)qV\ D\ZrpArrrr?\A?F)vV D\ZrpArrrr?h\A?k){VĀ D\ZrpArrrr?M\A?F)W$ D\ZrpArrrr?\A?k)W 5D\ZrpArrrr?t\A?N)W$ D\ZrpArrrr?w\A?k)XD\ZrpArrrr?w\A?볧)XPD D\ZrpArrrr?w\A?k)X$ FD\ZrpArrrr?t~\A?)Xd /D\ZrpArrrr?t5\A?k)YJD D\ZrpArrrr?v}\A?N)Y| D\ZrpArrrr?v\A?k)Yd D\ZrpArrrr?v\A?N)Z dD\ZrpArrrr?\A?kN)Zv 'D\ZrpArrrr?R\A?볧)ZĀ D\ZrpArrrr?\A?kN)[  D\ZrpArrrr?+\A?ȟ)ƀ[>  D\ZrpArrrr?K\A?k)ˀ[ Ā <D\ZrpArrrr?\A?뻄)Ѐ[ D\ZrpArrrr?\A?k)Հ\8 D\ZrpArrrr?\A?)ڀ\j$ D\ZrpArrrr?H\A?kN)߀\ iD\ZrpArrrr?M\A?)]D RD\ZrpArrrr?\A?kN)]d$ D\ZrpArrrr?\A?)]d D\ZrpArrrr?5\A?kF)]D D\ZrpArrrr?%\A?N)^, D\ZrpArrrr?A\A?kN)^d :D\ZrpArrrr?\A@)^ %D\ZrpArrrr?\A@k)_&  D\ZrpArrrr?\A@N) _X!Ā D\ZrpArrrr?%\A@ kN)_# UD\ZrpArrrr?N\A@ 볧)_$ +D\ZrpArrrr?\A@k)`R&Ā D\ZrpArrrr?\A@) `( D\ZrpArrrr?\A@k)%`) pD\ZrpArrrr?\A@4)*a+$ ZD\ZrpArrrr?W\A@kN)/a~- D\ZrpArrrr?`\A@N)4a.D D\ZrpArrrr?\A@kN)9b0$ D\ZrpArrrr?}p\A@N)>bF1d wD\ZrpArrrr?}>\A@"kF)Cb3D 2D\ZrpArrrr?}\A@$N)Hb4 D\ZrpArrrr?}\A@'k)Mc@6d D\ZrpArrrr?}3\A@))Rcr7 D\ZrpArrrr?|\A@,kN)Wc9 SD\ZrpArrrr?|\A@.N)\dbC LD\ZrpArrrr?\A@1kN)adEd D\ZrpArrrr?J\A@3볧)fdF D\ZrpArrrr?\A@6kN)ke\H D\ZrpArrrr? \A@8N)peIĀ D\ZrpArrrr?z\A@;kN)ueK GD\ZrpArrrr?u\A@=)zf$L )D\ZrpArrrr?*\A@@k)fNĀ D\ZrpArrrr?d\A@BF) fP D\ZrpArrrr?\A@Ek) gQ mD\ZrpArrrr?}\A@G볧)‎gPS$ MD\ZrpArrrr?\A@JkF)–gU D\ZrpArrrr?y\A@L)‘gVD D\ZrpArrrr?\A@Ok)”hJX$ D\ZrpArrrr?C\A@Q)•h|Yd vD\ZrpArrrr?\A@Tk)‧h[D 2D\ZrpArrrr?&\A@V볧)‬i\ D\ZrpArrrr?\A@YkN)‱iv^d D\ZrpArrrr?r\A@[)‶i_ D\ZrpArrrr?J\A@^k)※j a sD\ZrpArrrr?\A@`)j>bĀ VD\ZrpArrrr?e\A@ck)ŀjd D\ZrpArrrr?U\A@eF)ʀje D\ZrpArrrr?Z\A@hk)πk8gĀ D\ZrpArrrr?d\A@j볧)Ԁkji ~D\ZrpArrrr?\A@mk)ـkj+D\ZrpArrrr?\A@o)ހll$ D\ZrpArrrr?2\A@rk)ldn D\ZrpArrrr?w\A@tN)loD D\ZrpArrrr?w\A@wk)lq$ jD\ZrpArrrr?v\A@y)m,rd 4D\ZrpArrrr?uK\A@|k)mtD D\ZrpArrrr?u5\A@~볧)mu D\ZrpArrrr?v\A@kN)n&wd D\ZrpArrrr?v\A@N)nXx wD\ZrpArrrr?v7\A@kN) nz D\ZrpArrrr?\A@)n{Ā D\ZrpArrrr?\A@kN)oR} D\ZrpArrrr?\A@F)o~ D\ZrpArrrr?E\A@k)oĀ :D\ZrpArrrr?\A@)$p "D\ZrpArrrr?\A@kN))p~ D\ZrpArrrr?\A@N).p$ D\ZrpArrrr?\A@k)3q vD\ZrpArrrr?l\A@N)8qFD `D\ZrpArrrr?\A@k)=q$ D\ZrpArrrr?\A@볧)Bq܋d D\ZrpArrrr?\A@k)Gr@D D\ZrpArrrr?W\A@)Lrr D\ZrpArrrr?\A@k)Qr֐d D\ZrpArrrr?y\A@F)Vs D\ZrpArrrr?F\A@k)[sƜD D\ZrpArrrr?+\A@N)`߀s D\ZrpArrrr?\A@k)et\d D\ZrpArrrr?\A@)jt \D\ZrpArrrr?8\A@kF)ot򢄀 D\ZrpArrrr?k\A@)tu$Ā D\ZrpArrrr?\A@k)yu D\ZrpArrrr?`\A@)~u D\ZrpArrrr?\A@kj)⁃݀vĀ FD\ZrpArrrr?\A@볧)⁈vP -D\ZrpArrrr?\A@kW)⁍v D\ZrpArrrr?}\A@F)⁒ހv$ D\ZrpArrrr?~\A@k)⁗wJ tD\ZrpArrrr?~T\A@볧)⁜w|D UD\ZrpArrrr?}\A@k)⁡w$ D\ZrpArrrr?|7\A@)⁦xd D\ZrpArrrr?|\A@k)xvD D\ZrpArrrr?|\A@N)⁰x D\ZrpArrrr?|\A@k-)⁵y d LD\ZrpArrrr?>\A@볧)⁺y> 0D\ZrpArrrr?\A@k)ⁿy D\ZrpArrrr?d\A@볧)ĀހyԼĀ D\ZrpArrrr?\A@kN)ɀz8 rD\ZrpArrrr?f\A@뷕)πzt hD\ZrpArrrr?:\A@k)ӀڀzĀ D\ZrpArrrr?\A@N)؀{ D\ZrpArrrr?\A@kN)݀{d D\ZrpArrrr?\A@볧){$ D\ZrpArrrr?\A@k){ SD\ZrpArrrr?\A@볧)|,D .D\ZrpArrrr?\A@k)|$ D\ZrpArrrr?e\A@N)|d D\ZrpArrrr?_\A@kF)}&D D\ZrpArrrr?\AAN)}Xτ }D\ZrpArrrr?\AAk#)}d 4D\ZrpArrrr?"\AA) }Ҥ D\ZrpArrrr?B\AAk)~RԄ D\ZrpArrrr?\AA )ۀ~Ā D\ZrpArrrr?\AA k)~פ PD\ZrpArrrr?A\AAF) .D\ZrpArrrr?\AAk)#~Ā D\ZrpArrrr?[\AA뵞)( D\ZrpArrrr?\AAkN)-݀ D\ZrpArrrr?m\AA볧)2F$ {D\ZrpArrrr?~T\AAk)7 )D\ZrpArrrr?~Z\AA볧)<D D\ZrpArrrr?w\AA!kF)A@$ D\ZrpArrrr?t\AA#뵞)Frd D\ZrpArrrr?t\AA&k)KD RD\ZrpArrrr?v\AA()P脀 1D\ZrpArrrr?vW\AA+k)Uـld D\ZrpArrrr?v\AA-)Zڀ뤀 D\ZrpArrrr?}\AA0k)_݀턀 D\ZrpArrrr?},\AA2뵞)d4Ā nD\ZrpArrrr?\AA5k)i D\ZrpArrrr?$\AA7)n܀ D\ZrpArrrr?r\AA:k)s݀.Ā D\ZrpArrrr?\AA AD\ZrpArrrr?\AA]k)₹߀ާd D\ZrpArrrr?!\AA_)₾ާ D\ZrpArrrr?\AAbk)À߀ާ8 D\ZrpArrrr?\AAd)ȀۀާjĀ xD\ZrpArrrr?7\AAgk)̀ۀާ 0D\ZrpArrrr?\AAi)Ҁާ D\ZrpArrrr?x\AAlk)׀ՀާdĀ D\ZrpArrrr?\AAn볧)܀ڀݧ D\ZrpArrrr?\AAqk)ݧ eD\ZrpArrrr?}\AAs)Հݧ, $ CD\ZrpArrrr?}\AAvkN)ހݧ" D\ZrpArrrr?~\AAxF)ހݧ#D D\ZrpArrrr?~\AA{kN)݀ܧ&%$ D\ZrpArrrr?}\AA}볧)ـܧX&d D\ZrpArrrr?|\AAk)؀ܧ(D ?D\ZrpArrrr?|9\AAN)߀ܧ) -D\ZrpArrrr?|\AAkN) ؀ۧR+d D\ZrpArrrr? \AAN)ۀۧ, D\ZrpArrrr?\AAkN)ۀۧ, D\ZrpArrrr?\AA볧)ـڧ/ƀ D\ZrpArrrr?\AAk )׀ڧ~1 D\ZrpArrrr?6>\AA볧)"րڧ2 D\ZrpArrrr?8\AAk)'Ȁڧ4ƀ oD\ZrpArrrr?\AAN),ـ٧F6 fD\ZrpArrrr?`\AAk)1ր٧7 D\ZrpArrrr?^\AA)6Ӏ٧9& D\ZrpArrrr?^(\AAk);ۀ٧@; D\ZrpArrrr?u\AAˀ)@׀٧r& mD\ZrpArrrr?u\AAN)Jր٧?f ?D\ZrpArrrr?\AAk)O΀اlAF D\ZrpArrrr?/\AA)TۀاB D\ZrpArrrr?\AAkF)YՀاDf D\ZrpArrrr?\AA)^ـا4E pD\ZrpArrrr?\AAk)cՀاG &D\ZrpArrrr?X\AA볧)h̀اHƀ D\ZrpArrrr?\AAk)m׀ק.J D\ZrpArrrr?}\AA)r׀ק`K D\ZrpArrrr?Q\AAk)wրקMƀ hD\ZrpArrrr?\AA)|؀קO QD\ZrpArrrr?\AAk)⃁րקZP D\ZrpArrrr?W\AAa)⃆ڀקR& D\ZrpArrrr?\AAk)⃋рקT D\ZrpArrrr?`\AA볧)⃑Ԁק,UF D\ZrpArrrr?\AAkN)⃕ހקW& :D\ZrpArrrr?\AAN)⃚ԀקXf D\ZrpArrrr?).\AAkF)⃟׀קZF D\ZrpArrrr?) \AA)⃤׀קN[ D\ZrpArrrr?Xo\AAk)⃩Ҁק]f oD\ZrpArrrr?X'\AA볧)⃮րק^ ZD\ZrpArrrr?X\AAk)⃳ӀקiF 3D\ZrpArrrr?b\AA)⃸ۀקj D\ZrpArrrr?b\AAk)⃽ـק8lf D\ZrpArrrr?o\AAF)€р֧jm D\ZrpArrrr?\AAkN)ǀՀקo uD\ZrpArrrr?=\AA)̀Հ֧pƀ ID\ZrpArrrr?$\AAk)рـ֧dr D\ZrpArrrr?f\AAN)րקs D\ZrpArrrr?\AAk)ۀрקuƀ xD\ZrpArrrr?\AA)؀ק,w gD\ZrpArrrr?\AAk)קx +D\ZrpArrrr?\AA볧)π֧z& D\ZrpArrrr?o\AAk)֧݀&| D\ZrpArrrr?.\AA볧)րקX}F D\ZrpArrrr?\AAk)Հק& ]D\ZrpArrrr?\AA)܀קf KD\ZrpArrrr?[\ABk)ՀקRF D\ZrpArrrr?\AB볧)ހק D\ZrpArrrr?H\ABk) Ӏ֧f D\ZrpArrrr?\AB N)Ҁ֧ gD\ZrpArrrr?\AB kF)؀֧~ &D\ZrpArrrr?\AB볧)݀קƀ D\ZrpArrrr?\ABk)!րק D\ZrpArrrr?y\AB)&րקF D\ZrpArrrr?Y\ABk)+΀קƀ YD\ZrpArrrr?;\AB)0ـקܐ ED\ZrpArrrr?\ABkN)5ۀק@ D\ZrpArrrr? \AB볧):֧̀r& D\ZrpArrrr?}\AB k)?ـק֕ D\ZrpArrrr?}\AB")DԀ֧F D\ZrpArrrr?}\AB%k)Iקl& :D\ZrpArrrr?}.\AB'뷕)Oπ֧f D\ZrpArrrr?}-\AB*k)SӀ֧F D\ZrpArrrr?|\AB,)X׀ק4 D\ZrpArrrr?|<\AB/k)]Հקf dD\ZrpArrrr?\AB1)b܀קʟ PD\ZrpArrrr?Z\AB4k)g؀ק. D\ZrpArrrr?O\AB6)l׀ק`ƀ D\ZrpArrrr?\AB9k)qـקĤ D\ZrpArrrr?.\AB;)v؀ק D\ZrpArrrr?N\AB>kN){׀קZƀ ?D\ZrpArrrr?K\AB@)℀ק 2D\ZrpArrrr?\ABCkN)℅Ԁק D\ZrpArrrr?\ABE)ℊ׀ק"& D\ZrpArrrr?s\ABHk)ℐӀק xD\ZrpArrrr?e\ABJ)℔ԀקF JD\ZrpArrrr?\ABMk)ℙЀק& D\ZrpArrrr?6\ABON)℞΀קNf D\ZrpArrrr?_\ABRk)℣ӀקF D\ZrpArrrr?\ABT)ℨ׀ק䵆 D\ZrpArrrr?\ABWk)ℭπקHf AD\ZrpArrrr?\ABY)Ⅎۀקz 4D\ZrpArrrr?\AB\k)ℷۀק޺ D\ZrpArrrr?\AB^)ℼ݀קƀ D\ZrpArrrr?\ABak)ۀקt D\ZrpArrrr?e\ABc볧)ƀԀק lD\ZrpArrrr?\ABfk)ˀۀק ƀ D\ZrpArrrr?1\ABh)Ѐ׀ק< D\ZrpArrrr?)\ABkk)Հ׀ק D\ZrpArrrr?\ABm)ڀ܀ק& D\ZrpArrrr?\\ABpk)߀ـקƀ mD\ZrpArrrr?\ABr)ק cD\ZrpArrrr?w\ABukN)ـק& D\ZrpArrrr?vN\ABw)̀קX& D\ZrpArrrr?vI\ABzk)؀ק D\ZrpArrrr?u%\AB|F)ـקF D\ZrpArrrr?u\ABk)ԀקR& ND\ZrpArrrr?v\AB볧)ހקf >D\ZrpArrrr?v\ABkN)ԀקF D\ZrpArrrr?v;\AB) ۀק݆ D\ZrpArrrr?\ABk)ק~f oD\ZrpArrrr?\AB)Ѐקঀ ID\ZrpArrrr?s\ABk)קↀ D\ZrpArrrr?2\AB볧) րקFƀ D\ZrpArrrr?<\ABk)%׀ק妀 D\ZrpArrrr?\AB)*րק D\ZrpArrrr?\ABk)/րק@ƀ 9D\ZrpArrrr?\AB뵞)4Ҁקr D\ZrpArrrr?\ABk)9рק D\ZrpArrrr?6\AB)>؀ק& D\ZrpArrrr?,\ABkN)Cހקl D\ZrpArrrr?S\AB)H̀קF MD\ZrpArrrr?P\ABk)H̀קF MD\ZrpArrrr?\ABN)R݀ק4f D\ZrpArrrr?6\XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 92 / width of table in bytes NAXIS2 = 199 / 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 = 702708153.8424 TSTOP = 702711123.84236 DATE-OBS= '2023-04-09T04:42:28' DATE-END= '2023-04-09T05:31:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2969.99996006489 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 314 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:28' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'IoDeJoBZIoBbIoBZ' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '4273515310' / data unit checksum updated 2023-04-19T11:42:28 HISTORY TASK: FAPPND on FILENAME: sw01163401000b13ax001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<Àhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A  A<Հhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A  A<݀hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=kՀhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A= -hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=k&hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=thku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A= kՀhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A='}hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=/k݀hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=6΅hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=>k-hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=E6hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=Mk΅hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=TՀhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=\kՀhku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=c-hku4u96z.dhkgku4u7mz.gnoy&"J"JX٩>  A=kkՀsku4uiez.sdmsku4ui5z.sdmzN"J"JX٩>  A=rՀsku4ujez.sdmsku4uiez.sdmzn"J"JX٩>  A=zk-sku4uiez.sdmsku4ujez.sdmzN"J"JX٩>  A=݀sku4uiez.sdmsku4ujez.sdmzN"J"JX٩>  A=k΅sku4uiez.sdmsku4ujez.sdmzN"J"JX٩>  A=Հsku4uh0z.sdmeku4uibz.evlz "J"JX٪>  A=k̀sku4uh0z.sdmeku4uibz.evlz "J"JX٪>  A=-sku4uh0z.sdmeku4uibz.evlz "J"JX٪>  A=k΅sku4uh0z.sdmeku4uibz.evlz "J"JX٪>  A=΅mku4uq6z.wgtmku4uq6z.wgt{F"K"KY٪>  A=k$sku4up0z.sdmmku4uq6z.wgt{ "K"KY٪>  A=݀sku4up0z.sdmmku4uq6z.wgt{ "K"KY٪>  A=k-hku4uruz.dhksku4up0z.sdm{~"K"KY٪>  A=-hku4uruz.dhksku4up0z.sdm{~"K"KY٪>  A=k}sku4ur0z.sdmhku4uruz.dhk{`"K"KY٪>  A=}sku4ur0z.sdmhku4uruz.dhk{`"K"KY٪>  A=k݀sku4ur0z.sdmhku4uruz.dhk{`"K"KY٪>  A=΅sku4ur0z.sdmhku4uruz.dhk{`"K"KY٪>  A=k݀sku4ur0z.sdmhku4uruz.dhk{`"K"KY٪>  A=}sku4ut0z.sdmsku4ur0z.sdm{"K"KY٪>  A>k-sku4ut0z.sdmsku4ur0z.sdm{"K"KY٪>  A>΅sku4ut0z.sdmsku4ur0z.sdm{"K"KY٪>  A>kՀsku4ut0z.sdmsku4ur0z.sdm{"K"KY٪>  A>}sku4uv0z.sdmsku4ut0z.sdm{"K"KY٪>  A>kՀsku4uv0z.sdmsku4ut0z.sdm{"K"KY٪>  A>&}sku4uv0z.sdmsku4ut0z.sdm{"K"KY٪>  A>.k̀sku4uv0z.sdmsku4ut0z.sdm{"K"KY٪>  A>5΅sku4v10z.sdmmku4v2fz.wgt| "L"LZ٪>€  A>=k΅sku4up0z.sdmsku4v10z.sdm{ "L"LZ٪>À  A>D݀sku4up0z.sdmsku4v10z.sdm{ "L"LZ٪>À  A>Lksku4up0z.sdmsku4v10z.sdm{ "L"LZ٪>À  A>S݀sku4v30z.sdmsku4up0z.sdm|`"L"LZ٪>Ā  A>[k΅hku4v5az.dhksku4v30z.sdm|"L"LZ٪>Ā  A>b-hku4v5az.dhksku4v30z.sdm|"L"LZ٪>Ā  A>jk}hku4v5az.dhksku4v30z.sdm|"L"LZ٪>Ā  A>q݀hku4v5az.dhksku4v30z.sdm|"L"LZ٪>Ā  A>yk݀sku4v50z.sdmhku4v5az.dhk|"L"LZ٪>ŀ  A>΅sku4v50z.sdmhku4v5az.dhk|"L"LZ٪>ŀ  A>k̀sku4v50z.sdmhku4v5az.dhk|"L"LZ٪>ŀ  A>Հsku4v50z.sdmhku4v5az.dhk|"L"LZ٪>ŀ  A>k΅sku4v70z.sdmsku4v50z.sdm|"L"LZ٪>ƀ  A>Հsku4v70z.sdmsku4v50z.sdm|"L"LZ٪>ƀ  A>kmku4va6z.wgtmku4va6z.wgt}F"L"L[٪>ɀ  A>̀mku4va6z.wgtmku4va6z.wgt}F"L"L[٪>ɀ  A>ktmku4va6z.wgtmku4va6z.wgt}F"L"L[٪>ɀ  A>tmku4vaaz.wgtmku4vaaz.wgt}J"M"M\٪?ɀ  A>k̀gku4varz.gnogku4varz.gno}["M"M\٫?ɀ A>$gku4varz.gnogku4varz.gno}["M"M\٫?ɀ A>k$gku4varz.gnogku4varz.gno}["M"M\٫?ɀ A>keku4v9cz.evlgku4varz.gno},"M"M\٬?ɀ A>kteku4v27z.evleku4v9cz.evl|G"M"M\٭?ɀ A>eku4v27z.evleku4v9cz.evl|G"M"M\٭?ɀ A>k̀hku4veoz.dhkeku4v43z.evl}"M"M\ٮ?ɀ A>teku4v5vz.evlhku4veoz.dhk|"M"M\ٯ?ɀ A?k$eku4valz.evleku4v5vz.evl}U"M"M\ٰ?ɀ A?Àeku4valz.evleku4v5vz.evl}U"M"M\ٰ?ɀ A?k̀eku4vbjz.evleku4valz.evl}s"M"M\ٱ?ɀ A?ջeku4vbjz.evleku4valz.evl}s"M"M\ٱ?ɀ A?keku4vdfz.evleku4vbjz.evl}"M"M\ٲ?ɀ A?%keku4vdfz.evleku4vbjz.evl}"M"M\ٲ?ɀ A?-k̀eku4vdfz.evleku4vbjz.evl}"M"M\ٲ?ɀ A?4eku4vdfz.evleku4vbjz.evl}"M"M\ٲ?ɀ A?\1ЀLm,:a3\c22222F\TjO3؄1$1Ā*BFL֨A<dbɚp? HLdž/H|zN&ʳJL@\1Lm,xa3z\c22222F\TlO3ڄ$2Ā*FL֪Ap k? LǠ/HzN &ʳcƀLZ\3 L,m,a3\c22222F\TO3$2 Ā4FLA= 곀dɛJp ? LǢ/'HzN"&ʳeL\\38L.m,a3\c22222F\TO3!$2 Ā5\FLA= kdd ɛVp ? LǤ/ )HBzN$&ʳgL^\3PL0m,a3t\c22222F\TO3W$2Ā6FLA=dd`ɛbp ņ? LǦ/ -HfzN&&ʳiL`\3hL2m,\a3ڋ\c22222F\TO3$2Ā6ԀFLA=k]dɛnp ? LǨ/ /HފzN(&ʳkLb\3L4m,a3@\c22222F\TO4$2Ā7FLA=mݿdɛzp!? ƀLǪ/ IHފzN*&ʳmLd\3L6m,a3\c22222F\TO4׀$2Ā8PFLA=k輀ݿdɛp!? ΀LǬ/ kHޙzN,&ʳoLf]3L8m,a3 \c22222F\TO4$2Ā9 FLA=RݿdZɛp!=? ԀLǮ/mHޙzN.&ʳqLh]3ȀL:m,Ta3r\c22222F\TO44$2Ā9̀FLA=k곀ݿdɛp![? ܀Lǰ/HޚzN0&ʳsLj] 3Lm,a3>\c22222F\TO4 $2Ā;HFLA= k쫀ݿdɛp!? LǴ/HޜzN4&ʳwLn]4L@m,a3\c22222F\TO4 ؀$2Ā<FLA="mݿdNɛ€p!? LǶ/HޟzN6&ʳyLp]4(LBm,La4 \c22222F\TO4 $2Ā8FLA=*kݿdɛp"? LǼ/HޢzN<&ʳrLv]"4pLHm,a4<\c22222F\TO4 $2Ā>FLA=,곀ݿdDɛp"-? LǾ/HޤzN>&ʳlLx]&4LJm,Da4\c22222F\TO4 $2Ā?FLA=/k輀dɛp"K? L/рHޤzN@&ʳfLz]*4LLm,a4\c22222F\TO4 $2Ā@rFLA=1輀տdɜ p"i? Lƒ/HޤzNB&ʳ`L|].4LNm,a4n\c22222F\TO4 $2Ā@FLA=4k곀ݿdɜp"? "Lă/HަzND&ʳZL~]24ЀLPm,a4ԋ\c22222F\TO4 +$2Ā@ހFLA=6dd6ɜ"p"? (Lƃ/;HޮzNF&ʳTLǀ]64LRm,<a4:\c22222F\TO4 +$2ĀAFLA=9lݿdnɜ.p"Æ? 0Lȃ/GHޯzNH&ʳNLǂ]:5LTm,za4\c22222F\TO4  >$2ĀAրFLA=;dͿdɜ:p"? 6Lʃ/fHޯzNJ&ʳHLDŽ]>5LVm,a4\c22222F\TO4" >$2ĀB&FLA=>k dɜFp"? >L̃/pHޯzNL&ʳBLdž]B50LXm,a4l\c22222F\TO4" >$2ĀB&FLA=@ݿd ɜRp#? DL΃/|H޸zNN&ʳ<LLj]F5HLZm,4a4ҋ\c22222F\TĀO4& [$2ĀBȀFLA=Ckdſdhɜ^p#;? LLЃ/ H޸zNP&ʳ6LNJ]J5`L\m,ra48\c22222F\TȀO4& [$2ĀCVFLA=Emdɜjp#Y? RL҃/!H޸zNR&ʳ0Lnj]N5xL^m,a4\c22222F\TȀO4& [$2ĀCVFLA=Hk ݿdԀɜvp#w? ZLԃ/"ȀHzNT&ʳ*Lǎ]R5L`m,a4\c22222F\T΀O4, ~$2ĀCFLA=J곀dɜp#? `Lփ/#H̕zNV&ʳ$Lǐ]V5Lbm,,a4j\c22222F\T΀O4, ~$2ĀDFLA=Mk輀dVɜp#? hL؃/$H̕zNX&ʳLǒ]Z5Ldm,ja4Ћ\c22222F\T΀O4, ~$2ĀDFLA=O輀ݿdɜp#ц? nLڃ/&H͕zNZ&ʳLǔ]^5؀Lfm,a46\c22222F\T؀O42 $2ĀDFLA=Rk[ݿdրɜp#? vL܃/'THٕzN\&ʳLǖ]b5Lhm,a4\c22222F\T܀O44 $2ĀFFLA=T곀ݿdɜp$ ? |Lރ/(pHzN^&ʳ Lǘ]f6Ljm,$a4\c22222F\TހO46 Ѐ$2ĀGFLA=Wk쫀dRɜp$+? L/)HzN`&ʳLǚ]j6 Llm,ba4h\c22222F\TހO46 Ѐ$2ĀH2FLA=Ymdɜʀp$I? L/*HzNb&ʳLǜ]n68Lnm,a4΋\c22222F\TހO46 Ѐ$2ĀH2FLA=\k곀ݿdɜրp$g? L/+HzNd&ʳLǞ]r6PLpm,a4 4\c22222F\TO4< $2ĀHFLA=^ d ɜp$? L/,HzNf&ʳLǠ]v6hLrm,a4 \c22222F\TO4< $2ĀI^FL A=akŀd@ɜp$? L/-HzNh&ʳLǢ]z6Ltm,Za4 \c22222F\TO4< $2ĀI^FL A=c ݿdtɜp$? L/.߀HzNj&ʳLǤ]~6Lvm,a4 f\c22222F\TO4B $2ĀIFLA=fk곀῿dɝp$߆? L/0 HzNl&ʳLǦ]6Lxm,a4 ̋\c22222F\TO4B $2ĀJ^FLA=hdɝp$? L/1HzNn&ʳ܀LǨ]6ȀLzm,a4 2\c22222F\TO4B $2ĀJ^FLA=kk곀ݿd.ɝp%? L/24HzNp&ʳրLǪ]6L|m,Ra4 \c22222F\TO4H !$2ĀJFLA=m[dzɝ*p%9? €L/3jHzNr&ʳЀLǬ]6L~m,a4 \c22222F\TO4H !$2ĀKFLA=pkddɝ8p%W? ʀL/4HzNt&ʳʀLǮ]7Lǀm,a4 d\c22222F\TO4H !$2ĀKFLA=r곀dɝDp%u? ЀL/5HzNv&ʳĀLǰ]7(Lǂm, a4 ʋ\c22222F\UO4N 8$2ĀKրFLA=ukd6ɝPp%? ؀L/6ĀHzNx&ʳLDz]7@LDŽm,Ja4 0\c22222F\U O4P O$2ĀLFLA=w곀dvɝ\p%? ހL/7H"zNz&ʳLǴ]7XLdžm,a4 \c22222F\U O4R e$2ĀMրFLA=zk dɝhp%φ? L/9H0zN|&ʳLǶ]7pLLjm,a4 \c22222F\UO4T z$2ĀO,FL A=|곀dɝtp%? L/:HH>zN~&ʳLǸ]7LNJm, a4b\c22222F\UO4V $2ĀPFL"A=kdd6ɝp& ? L/;lHMzN&ʳ¦LǺ]7Lnjm, Ba4ȋ\c22222F\UO4X $2ĀQFL$A=輀Ϳdvɝp&)? L/<H[zN&ʳġLǾ]7Lǎm, a4.\c22222F\UO4Z $2ĀS^FL&A=k[dɝp&G? L/=πH[{N&ʳƛL]7ҀLǒm, b4\g22222F\UO4^ ̀$2ĀTzFL*A=輀ݿdɝp&e? L/?H[{N&ʳȕL€]7Lǔm, b4\g22222F\U O4` $2ŀVFL,A=kdݿd0ɝp&? L /@JH^{N&ʳʏLĀ]8Lǖm,!<b4f\g22222F\U"O4b $2ŀWFL.A=[ݿdnɝ€p&? L /AH_{N&ʳ̉Lƀ]8Lǘm,!zb4̋\g22222F\U$O4f $2ŀYFL0A=k輀ݿdɝ΀p&? L/B̀H_{N&ʳ΃LȀ]Ā82Lǚm,!b42\g22222F\U&O4h !$2ŀ[|FL2A=곀dɝڀp&݆? &L/CH`{N&ʳ}Lʀ]Ȁ8JLǜm,!b4\g22222F\U(O4j w$2ŀ]lFL4A=k곀ݿd*ɝp&? .L/E Hf{N&ʳwL̀]̀8bLǞm,"4b4\g22222F\U,O4l Հ$2ŀ^&FL6A=ݿdfɝp'? 4L/F(Hh{N&ʳqL΀]Ѐ8zLǠm,"rb4d\g22222F\U2O4n /$2ŀ^FL8A=k쫀Ϳdɝp'7? <L/GHk{N&ʳkLЀ]Ԁ8LǢm,"b4ʋ\g22222F\U4O4p /$2ŀ_FL:A=輀ݿdɞ p'U? BL/HEHn{N&ʳeLҀ]؀8LǤm,"b40\g22222F\U8O4r Ӏ$2ŀ`6FLA=곀ݿd^ɞ"p'? PL/J1Hv{N&ʳYLր]8րLǨm,#jb4\g22222F\U<O4vd$2ŀaڀFL@A=kŀݿdɞ.p'? XL/K?Hv{N&ʳSL؀]8LǪm,#b4b\g22222F\U>O4x$2ŀbFLBA=dݿd؀ɞ:p'͆? ^L /LGHy{N&ʳMLڀ]9 LǬm,#b4ȋ\g22222F\UBO4z؀$2ŀc@FLDA=kdݿdɞFp'? fL"/MOH߱{N&ʳGL܀]9"LǮm,$$b4.\g22222F\UFO4|M$2ŀdFLFA=곀ݿdTɞRp( ? lL$/NbH{N&ʳALހ]9:Lǰm,$bb4\g22222F\UHO4~$2ŀdրFLHA=kݿdɞ^p('? tL&/OXHN{N&ʳ;L]9RLDzm,$b4\g22222F\UJO4($2ŀeFLJA=ddЀɞjp(E? zL(/PXH{N&ʳ5L]9jLǴm,$b4`\g22222F\ULO4$2$ŀfNFLLA=kdɞvp(c? L*/QXHѕ{N&ʳ/L]9LǶm,%b4Ƌ\g22222F\UPO4݀$2%ŀgFLNA=mdZɞp(? L,/RTH {N&ʳ)L^9LǸm,%Zb4,\g22222F\URO45$2&ŀg̀FLPA=k[dɞp(? L./S\HE{N&ʳ#L^9LǺm,%b4\g22222F\UVO4$2'ŀhFLRA=mdڀɞp(? L0/TgHᏕ{N&ʳL^9ʀLǼm,%b4\g22222F\UXO4$2(ŀiHFLTA=k dɞp(ۆ? L2/UoHՕ{N&ʳL^ 9LǾm,&b4^\g22222F\UZO4f$2)ŀjFLVA=輀dZɞp(? L4/V_H{N&ʳL^9Lm,&Rb4ċ\g22222F\U\O4̀$2*ŀj€FLXA=kmdɞp)? L6/WOHe{N&ʳ L^:L†m,&b4*\g22222F\U^O4/$2,ŀkFLZA= d܀ɞʀp)5? L8/XVH⧕{N&ʳL^:*LĆm,&b4\g22222F\U`O4$2-ŀl/[WHフ{N&ʳL^$:rLʆm,'b4‹\g22222F\UfO4€$20ŀntFLbA= d܀ɞp)? ΀L@/\=H͕{N¡&ʳL^(:L̆m,'b4(\g22222F\UhO4($21ŀo4FLdA=k곀dɟp)ˆ? րLB/]CH{Nġ&ʴL^,:LΆm,(b4\g22222F\UjO4$22ŀoFLfA=d\ɟp)? ܀LD/^GH`{Nơ&ʴL^0:LІm,(Bb4􋀀\g22222F\UnO4$23ŀpFLhA=k[dɟp*? LF/_?H䝕{Nȡ&ʴۀL^4:ҀL҆m,(b4Z\g22222F\UrO4>$24ŀqlFLjA=dd܀ɟ*p*%? LH/`yH{Nʡ&ʴՀL^8:LԆm,(b4\g22222F\UtO4$25ŀr(FLlA=kdɟ6p*C? LJ/aH:{N̡&ʴ πL^<;Lֆm,(b4&\g22222F\UvO4$26ŀrFLnA=d\ɟBp*a? LL/bH呕{NΡ&ʴ ɀL^@;L؆m,):b4\g22222F\UxO4$27ŀsFLpA=kmdɟNp*? LN/cH{NС&ʴ ÀL^D;2Lچm,)xb4򋀀\g22222F\UzO4$28ŀt`FLrA=곀d܀ɟZp*? LP/dHA{Nҡ&ʴL ^H;JL܆m,)b4X\g22222F\U|O4e$29ŀuFLtA=k輀dɟfp*? LR/eH晕{Nԡ&ʴL ^L;bLކm,)b4\g22222F\U~O4Հ$2:ŀu܀FLvA=md\ɟrp*ن? LT/fH{N֡&ʴL^P;zLm,*2b4$\g22222F\UO4C$2;ŀvFLxA=kdɟ~p*? LV/gHJ{Nء&ʴL^T;Lm,*pb4\g22222F\UO4$2<ŀwXFLzA=輀d܀ɟp+? "LX/hH碕{Nڡ&ʴL^X;Lm,*b4\g22222F\UO4"$2=ŀxFL|A=k곀dɟp+3? *LZ/iɀH{Nܡ&ʴL^\;€Lm,*b4 V\g22222F\UO4$2>ŀxҀFL~A=md\ɟp+Q? 0L\/jˀHT{Nޡ&ʴL^`;ڀLm,+*b4 \g22222F\UO4$2?ŀyFL׀A=k輀dɟp+o? 8L^/kH蛕{N&ʴL^d;Lm,+hb4!"\g22222F\UO4b$2@ŀzHFLׂA=ŀd܀ɟp+? >L`/m H{N&ʴL^h< Lm,+b4!\g22222F\UO4$2Aŀ{ FLׄA=kmdɟƀp+? FLb/nH<{N&ʴ!L^l<"Lm,+b4!\g22222F\UO41$2Bŀ{ȀFL׆A=[d\ɟҀp+Ɇ? LLd/oH閕{N&ʴ#L^p<:Lm,,"b4"T\g22222F\UO4$2Cŀ|FL׈A=k輀dɟހp+? TLf/p H{N&ʴ%{L ^tk곀dɟp,#? bLj/rH5{N&ʴ)oL$^|<Lm,,b4#\g22222F\UO4Ą$2Fŀ~FL׎A>輀d\ɠp,A? hLl/s-H쎕{N&ʴ+iL&^<Lm,-b4#싀\g22222F\UO4Ƅe$2GŀzFLאA>kddɠp,_? pLn/tKH{N&ʴ-cL(^<Lm,-Xb4$R\g22222F\UO4Ȅր$2Hŀ:FLגA> d܀ɠp,}? vLp/uIH?{N&ʴ/]L*^<ʀLm,-b4$\g22222F\UO4ʄE$2IŀFLהA> kŀdɠ&p,? ~Lr/vWH형{N&ʴ1WL,^<Lm,-b4%\g22222F\UO4̄$2JŀFLזA> ŀd\ɠ2p,? Lt/wWH{N&ʴ3QL.^<Lm,.b4%\g22222F\UO4΄ )$2KŀrFLטA>k곀ݿdɠ>p,׆? Lv/xEHK{N&ʴ5KL0^=Lm,.Pb4%ꋀ\g22222F\UO4Є $2Kŀ0FLךA>ŀd܀ɠJp,? Lx/ysH{N&ʴ7EL2^=*Lm,.b4&P\g22222F\UO4҄ $2LŀFLלA>kddɠVp-? Lz/zH{N&ʴ9?L4^=BLm,.b4&\g22222F\UO4Ԅ!c$2MŀFLמA>[dZɠbp-1? L|/{H7{N&ʴ;9L6^=ZLm,/ b4'\g22222F\UO4ք!ـ$2NŀjFLנA>k輀dɠnp-O? L~/|H{N&ʴ=3L8^=rL m,/Hb4'\g22222F\UO4ڄ"K$2Oŀ&FLעA>ݿdڀɠzp-m? LȀ/}ŀH歹{N&ʴ?-L:^=L m,/b4'苀\g22222F\UO4܄"$2OŀFLפA>k곀ݿdɠp-? LȂ/~πHﰕ{N&ʴA'L<^=Lm,/b4(N\g22222F\UO4ބ#4$2OŀFLצA>![ݿdVɠp-? LȄ/Hﵕ{N&ʴC!L>^=Lm,0b4(\g22222F\UO4#$2Oŀ^FLרA>$kݿdɠp-dž? ĀLȆ/ހHﺕ{N&ʴEL@^=ҀLm,0@b4)\g22222F\UO4$$2OŀFLתA>&곀ݿdҀɠp-? ʀLȈ/ށHᅰ{N &ʴGLB^=Lm,0~b4)\g22222F\UO4$$2Oŀ؀FL׬A>)kdݿdɠp.? ҀLȊ/ނH{N &ʴILD^>Lm,0b4)拀\g22222F\UO4$$2OŀtFL׮A>+mݿdNɠ€p.!? ؀LȌ/ބH{N&ʴK LF^>Lm,0b4*L\g22222F\UĀO4%*$2OŀZFLװA>.k쫀ݿdɠ΀p.?? LȎ/ބH^{N&ʴMLH^Ā>2Lm,18b4*\g22222F\UƀO4%$2OŀFLײA>0輀ݿdʀɠڀp.]? LȐ/ޅH{N&ʴNLJ^Ȁ>JLm,1vb4+\g22222F\UȀO4&$2OŀԀFL״A>3kddɠp.{? LȒ/އ H{N&ʴPLL^̀>bLm,1b4+~\g22222F\ÙO4&{$2UŀFL׶A>5輀dRɠp.? LȔ/ވ%H${N&ʴRLN^Ѐ>zL m,1b4+䋀\g22222F\UҀO4&΀$2VŀNFL׸A>8k輀dɠp.? LȖ/މAHg{N&ʴTLP^Ԁ>L"m,20b4,J\g22222F\UԀO4'C$2Wŀ FL׺A>:dҀɡ p.Ն? LȘ/ފ^H{N&ʴVLR^؀>L$m,2nb4,\g22222F\U؀O4'$2XŀƀFL׼A>=kddɡp.? LȚ/ދRH{N&ʴX߀LT^܀>€L&m,2b4-\g22222F\UڀO4( $2YŀFL׾A>?輀dRɡ"p/? LȜ/ތIHB{N&ʴZـLV^>ڀL(m,2b4-|\g22222F\U܀O4({$2ZŀBFLA>Bk輀dɡ.p//? LȞ/ލSH{N &ʴ\ӀLX^>L*m,3(b4-⋀\g22222F\UހO4($2[ŀFLA>D輀dҀɡ:p/M? LȠ/ގAH{N"&ʴ^̀LZ^? L,m,3fb4.H\g22222F\UO4)i$2\ŀFLA>Gk[dɡFp/k? &LȢ/ޏcHP{N$&ʴ`ǀL\^?"L.m,3b4.\g22222F\UO4)߀$2]ŀ|FLA>ImdRɡRp/? ,LȤ/ސwH{N&&ʴbL^^?:L0m,3b4/\g22222F\UO5*P$2^ŀ:FLA>LlDdɡ^p/? 4LȦ/ޑuH{N(&ʴdL`^?RL2m,4 b4/z\g22222F\UO5*Ā$2_ŀFLA>NmdҀɡjp/ņ? :LȨ/ޒH]{N*&ʴfLb^?jL4m,4^b4/\g22222F\UO5+8$2`ŀFLA>Qk dɡvp/? BLȪ/ޓH{N,&ʴhLd^?L6m,4b40F\g22222F\UO5+$2aŀrFLA>SddRɡp0? HLȬ/ޔH{N.&ʴjLf_?L8m,4b40\g22222F\UO5,$2bŀ.FLA>Vk輀dɡp0? PLȮ/ޕÀHM{N0&ʴlLh_?L:m,5b41\g22222F\UO5 ,q$2dŀFLA>XddԀɡp0=? VLȰ/ޖH{N2&ʴnLj_?ʀL[k輀dɡp0[? ^LȲ/ޗπH{N4&ʴpLl_ ?L>m,5b41ދ\g22222F\UO5-Q$2fŀhFLA>][dTɡp0y? dLȴ/ޘHN{N6&ʴrLn_?L@m,5b42D\g22222F\UO5-$2gŀ&FLA>`kdɡp0? lLȶ/ޙH{N8&ʴtLp_@LBm,6b42\g22222F\UO5.4$2hŀFLA>bddԀɡʀp0? rLȸ/ޚH{N:&ʴvLr_@*LDm,6Nb43\g22222F\UO5.$2iŀFLA>ekŀdɡրp0ӆ? zLȺ/ޜH]{N<&ʴxLt_@BLFm,6b43v\g22222F\UO5/$2jŀ^FLA>gŀdTɡp0? Lȼ/ޜH{N>&ʴzyLv_ @ZLHm,6b43܋\g22222F\VO5/$2kŀFLA>jk곀dɡp1? LȾ/ޝH{N@&ʴ|sLx_$@rLJm,7b44B\g22222F\VO5/$2lŀ؀FLA>lmdԀɡp1-? L/ޟHk{NB&ʴ~mLz_(@LLm,7Fb44\g22222F\VO50k$2mŀFLA>okmdɢp1K? Lƒ/ޠ!HÕ{ND&ʴgL|_,@LNm,7b45\g22222F\VO50݀$2nŀRFLA>q곀dTɢp1i? Lă/ޡAH {NF&ʴaL~_0@LPm,7b45t\g22222F\V O5 1>$2oŀFLA>tkmdɢp1? Lƃ/ޢUHf{NH&ʴ[LȀ_4@ҀLRm,8b45ڋ\g22222F\V O5"1$2pŀЀFLA>v곀dԀɢ*p1? Lȃ/ޣdH{NJ&ʴULȂ_8@LTm,8>b46@\g22222F\VO5$2$2qŀFLA>yk輀dɢ6p1Æ? Lʃ/ޤ`H {NL&ʴOLȄ_<ALVm,8|b46\g22222F\VO5&2$2rŀJFLA>{ŀdTɢBp1? L̃/ޥhHd{NN&ʴILȆ_@ALXm,8b47 \g22222F\VO5(2$2sŀFLA>~kmdɢNp1? L΃/ަrH{NP&ʴCLȈ_DA2LZm,8b47r\g22222F\VO5*3r$2tŀĀFLA>ddԀɢZp2? ƀLЃ/ާ\H{NR&ʴ=LȊ_HAJL\m,96b47؋\g22222F\VO5,3$2uŀFLA>k[dɢfp2;? ΀L҃/ިnHs{NT&ʴ7LȌ_LAbL^m,9tb48>\g22222F\VO5.4V$2vŀ@FLA>mdTɢrp2Y? ԀLԃ/ީH˕{NV&ʴ1LȎ_PAzL`m,9b48\g22222F\VO504ƀ$2wŀFLA>kRdɢ~p2w? ܀Lփ/ުH%{NX&ʴ+LȐ_TALbm,9b49 \g22222F\VO5259$2xŀFLA>dԀɢp2? L؃/ޫH}{NZ&ʴ%LȒ_XALdm,:.b49p\g22222F\V O545$2yŀxFLA>k輀dɢp2? Lڃ/ެHؕ{N\&ʴLȔ_\A€Lfm,:lb49֋\g22222F\V"O566$2zŀ6FLA>dTɢp2ц? L܃/ޭH1{N^&ʴLȖ_`AڀLhm,:b4:<\g22222F\V$O586$2{ŀFLA>kddɢp2? Lރ/ޮƀHz{N`&ʴLȘ_dALjm,:b4:\g22222F\V(O5:6$2|ŀFLA>곀dԀɢp3 ? L/ޯ̀Hƕ{Nb&ʴ LȚ_hB Llm,;&b4;\g22222F\V,O5<7N$2}ŀpFLA>k輀dɢƀp3+? L/ްʀH{Nd&ʴLȜ_lB"Lnm,;db4;n\g22222F\V.O5>7$2~ŀ,FLA>dTɢҀp3I? L/ޱHu{Nf&ʴLȞ_pB:Lpm,;b4;ԋ\g22222F\V0O5@8/$2ŀFLA>kŀdɢހp3g? L/޳Hϕ{Nh&ʴLȠ_tBRLrm,;b4<:\g22222F\V2O5B8$2ŀFL A> dԀɢp3? L/޴TH{Nj&ʴLȢ_xBjLtm,<b4<\g22222F\V6O5D8$2ŀXFL A>kedɢp3? "L/޵HP{Nl&ʴLȤ_|BLvm,<\b4=\g22222F\V<O5F9-$2ŀ"FLA>곀ͿdTɣp3? *L/޶ՀHP{Np&ʴLȨ_BLxm,<b4=l\g22222F\V>O5H9-$2ŀFLA>kdɣp3@ 4L/޸H}Nv&ʴLȪ_BL|m,<d4=܋\k22222F\VLO5P9$2ŀhFLA>Rݿdրɣ$p3@ :L/޹iHN|&ʴހLȬ_B̀L~m,= d4>H\o22222G\VTO5R:$2ŀdFLA>kݿdɣ0p4@ BL/޺HN~&ʴ؀LȮ_BLȀm,=^d4>\q22222G\VVO5T:$2ŀ FLA>쫀ݿdPɣ<p4;@ HL/޻HN&ʴҀLȰ_BLȂm,=d4? \q22222G\VXO5V;"$2ŀހFLA>kݿdɣHp4Y@ PL/޽*HN&ʴ̀LȲ_CLȄm,=d4?\q22222G\VZO5X;$2ŀFLA>[ݿd̀ɣTp4wA XL/޾nHN&ʴƀLȴ_C,LȆn,>d4?\q22222G\V\O5Z<5$2ƀZFLA>kݿd ɣbp4A `L/޿HN&ʴLȶ_CDLȈn,>Xd4@f\q22222G\V^O5\<$2ƀFL A> ݿdHɣnp4A fL/ION&ʴLȸ_C\LȊn,>d4@ҋ\q22222G\V`O5^=7$2ƀԀFL"A>lCݿdɣzp4цA nL/IN&ʴLȺ_CtLȌn,>d4A>\q22222G\VbO5`=$2ƀFL$A>Rd̀ɣp4A tL/¬IN&ʴLȼ_CLȎn,?d4A\q22222G\VdO5b>9$2ƀRFL&A>kdɣp5 A |L/þIN&ʴLȾ_CLȐn,?Pd4B\q22222G\VfO5d>$2ƀ FL(A>곀dNɣp5+A L/ʀI8N&ʴL_CLȒn,?d4B\q22222G\VhO5f?7$2ƀ̀FL*A>k쫀dɣp5IA L/żIN&ʴÜL€_CԀLȔn,?d4B\q22222G\VjO5h?$2ƀFL,A> dЀɣp5gA L /ހIN&ʴŖLĀ_CLȖn,@ d4CZ\q22222G\VlO5j@<$2ƀFFL.A>k[dɣ€p5A L / IZN&ʴǐLƀ_DLȘn,@Jd4CƋ\q22222G\VnO5l@$2ƀFL0A>쫀dPɣ΀p5A L/IN&ʴɊLȀ_€DLȚn,@d4D2\q22222G\VpO5nA>$2ƀFL2A>k]dɣڀp5A L/BIN&ʴ˄Lʀ_ƀD4LȜn,@d4D\q22222G\VtO5rA€$2ƀFL4A>곀dЀɣp5A L/,IN&ʴ~L̀_ʀDLLȞn,Ad4E \q22222G\VvO5tBC$2ƀ>FL6A>k쫀dɣp5A L/)InN&ʴxL΀_΀DdLȠn,ADd4Ev\q22222G\VxO5vBĀ$2ƀFL8A>AdPɣp6A L/3IЕN&ʴrLЀ_ҀD|LȢn,Ad4E⋄\q22222G\VzO5xCE$2ƀFL:A>k곀dɤ p6:A €L/EIN&ʴlLҀ_րDLȤn,Ad4FN\q22222G\V|O5zCƀ$2ƀvFLJdЀɤp6XA ȀL/=I6N&ʴfLԀ_ڀDLȦn,Ad4F\q22222G\V~O5|DG$2ƀ2FL>A>k쫀dɤ"p6vA ЀL/=IN&ʴ`Lր_ހDĀLȨn,B<d4G&\q22222G\VO5~Dɀ$2ƀFL@A>dPɤ.p6A րL/2IN&ʴZL؀_D܀LȪn,Bzd4G\q22222G\VO5EK$2ƀFLBA>kdɤ:p6A ހL /MIN&ʴTLڀ_DLȬn,Bd4G\q22222G\VO5È$2ƀjFLDA>RdЀɤFp6ІA L"/UI?N&ʴNL܀_E LȮn,Bd4Hj\q22222G\VO5FL$2ƀ(FLFA>k[dɤRp6A L$/UIN&ʴHLހ_E$LȰn,C4d4H֋\q22222G\VO5F΀$2ƀFLHA>ݿdPɤ^p7 A L&/IIN&ʴBL_E<LȲn,Crd4IB\q22222G\VO5GP$2ƀäFLJA>k쫀dɤjp7*A L(/WI)N&ʴ<L_ETLȴn,Cd4I\q22222G\VO5GҀ$2ƀbFLLA>곀d΀ɤvp7HA L*/WIRN&ʴ6L_ElLȶn,Cd4J\q22222G\VO5HQ$2ƀFLNA>l&dɤp7fA L,/KIN&ʴ0L_ELȸn,D,d4J\q22222G\VO5HӀ$2ƀ܀FLPA>dPɤp7A L./OI N&ʴ*L`ELȺn,Djd4J򋄀\q22222G\VO5IV$2ƀƘFLRA>kRdɤp7A L0/dI *N&ʴ$L`ELȼn,Dd4K^\q22222G\VO5I׀$2ƀXFLTA>RdЀɤp7A L2/JI YN&ʴL` ÈLȾn,Dd4Kʋ\q22222G\VO5JV$2ƀFLVA>kdɤp7ކA $L4/PI N&ʴL`ELn,E$d4L6\q22222G\VO5J׀$2ƀҀFLXA>[ݿdPɤp7A *L6/DI N&ʴL`EL†n,Ebd4L\q22222G\VO5KY$2ƀɐFLZA?kdɤʀp8A 2L8/RI 9N¡&ʴ L`FLĆn,Ed4M\q22222G\VO5Kڀ$2ƀNFL\A?곀d΀ɤրp88A 8L:/jI Nġ&ʴL`F,LƆn,Ed4Mz\q22222G\VO5L\$2ƀ FL^A?k dɤp8VA @L/NI ]Nȡ&ʴL`"F\Lʆn,FZd4NR\q22222G\VO5Ma$2ƀ̄FLbA? k쫀ݿdɤp8A NL@2pI vNʡ&ʴL`&FtL̆n,Fd4N\q22222G\VO5M$2ƀDFLdA? d̀ɥp8A TLB7vI N̡'ʴL`*FLΆn,Fd4O*\q22222G\VO5Nb$2ƀFLfA?k쫀d ɥp8چB ^LD7䊀I NΡ'ʴL`.FLІo,Gd4O\q22222G\VO5N$2ƀξFLhA?dLɥp8B dLF7吀I [NС'ʵL`2FL҆o,GTd4P\q22222G\VO5Oh$2ƀ|FLjA?kdɥ*p9B lLH7掀I Nҡ'ʵ݀L`6FԀLԆo,Gd4Pn\q22222G\VO5O$2ƀ:FLlA?Aݿd̀ɥ6p94B rLJ7綀I Nԡ'ʵ׀L`:FLֆo,Gd4Pڋ\q22222G\VO5Pj$2ƀFLnA?k곀d ɥBp9RB zLL7ŀI N֡'ʵрL`>GL؆o,Hd4QF\q22222G\VO5P$2ƀѴFLpA?RdJɥNp9pB LN7鯀I ^Nء'ʵˀL`BGLچo,HLd4Q\q22222G\VO5Qp$2ƀpFLrA?kdŠɥZp9B LP7ꟀI Nڡ'ʵ ŀL `FG4L܆o,Hd4R\q22222G\VO5Q$2ƀ0FLtA? Rdʀɥfp9B LR7례I#Nܡ'ʵ L `JGLLކo,Hd4R\q22222G\VO5Rt$2ƀFLvA?#k d ɥrp9ʆB LT7쩀INޡ'ʵL`NGdLo,Id4R\q22222G\VO5R$2ƀԪFLxA?%JdJɥ~p9B LV7홀IN'ʵL`RG|Lo,IDd4Sb\q22222G\V€O5Su$2ƀhFLzA?(k[dÊɥp:B LX7IHN'ʵL`VGLo,Id4S΋\q22222G\VĀO5S$2ƀ&FL|A?*dʀɥp:$B LZ7IN'ʵL`ZGLo,Id4T:\q22222G\VƀO5Tw$2ƀFL~A?-k쫀d ɥp:BB L\7{I N'ʵL`^GĀLo,Id4T\q22222G\VȀO5T$2ƀנFL؀A?/곀dJɥp:`B L^7wInN'ʵL`bG܀Lo,J<d4U\q22222G\VʀO5U|$2ƀ`FL؂A?2k쫀dĊɥp:~B L`7uIЕN'ʵL`fGLo,Jzd4U~\q22222G\V̀O5„U$2ƀFL؄A?4dʀɥƀp:B ƀLb7cI3N'ʵL`jH Lo,Jd4Uꋄ\q22222G\V΀O5ƄV~$2ƀ؀FL؆A?7k[ݿd ɥҀp:B ΀Ld7IVN'ʵL`nH$Lo,Jd4VV\q22222G\VЀO5ȄW$2ƀڔFL؈A?9[dHɥހp:؆B ԀLf7IwN'ʵ L `rH<Lo,K4d4V‹\q22222G\VҀO5ʄW$2ƀTFL؊A?[dȀɥp;B Lj7vI<N'ʵ$wL$`zHlLo,Kd4W\q22222G\VրO5΄X$2ƀ΀FL؎A?AkRdɦp;2B Ll7xIN'ʵ&qL&`~HLo,Kd4X\q22222G\V؀O5ЄY$2ƀ݌FLؐA?C[dHɦp;QB Ln7nIN'ʵ(kL(`HLo,L,d4Xr\q22222G\VڀO5҄Y$2ƀHFLؒA?FlTdƈɦp;oB Lp7vIcN'ʵ*eL*`HLp,Lld4Xދ\q22222G\V܀O5ԄZ $2ƀFLؔA?HRdȀɦ&p;B Lr7`IŕN'ʵ,_L,`H̀Lp,Ld4YJ\q22222G\VހO5քZ$2ƀƀFLؖA?Kkdɦ2p;B Lt7RI'N'ʵ.YL.`HLp,Ld4Y\q22222G\VO5؄[$2ƀFLؘA?M[dHɦ>p;ɆB Lv7\IN'ʵ0SL0`HLp,M(d4Z"\q22222G\VO5ڄ[$2ƀ@FLؚA?PkJdLjɦJp;B Lx7RIN'ʵ2ML2`ILp,Mfd4Z\q22222G\VO5܄\$2ƀFL؜A?RݿdȀɦVp<B Lz7]IN'ʵ4GL4`I,Lp,Md4Z\q22222G\VO5\$2ƀ⺀FL؞A?Uk곀ݿdɦbp<#B "L|7iIN'ʵ6AL6`IDLp,Md4[f\q22222G\VO5]$2ƀxFLؠA?W쫀ݿdDɦnp\q22222G\VO5^$2ƀFLؤA?\[ݿdȾɦp<}B 6Lɂ7SIN 'ʵLɄ7oI1N'ʵ>)L>`ILp,Nd4]\q22222H\VO5^Ҁ$2ƀrFLبA?aJݿd<ɦpɦ΀p=1B `LɎ7 hIfN'ʵH LH`€JLp,Pd4_2\q22222H\WO5a)$2ƀ$FLزA?nk쫀d~ɦڀp=OB hLɐ7 fIN'ʵJLJ`ƀJ4Lp,PNd4_\q22222H\WO5a$2ƀFLشA?pݿdʾɦp=mB nLɒ7 XIN'ʵKLL`ʀJLLp,Pd4` \q22222H\WO5b$2ƀ렀FLضA?s.ݿdɦp=B vLɔ7 hIN'ʵMLN`΀JdL p,Pd4`v\q22222H\WO5bn$2ƀ\FLظA?u[ݿd:ɦp=B |Lɖ7 hIN 'ʵOLP`ҀJ|L"p,Qd4`⋄\q22222H\WO5b$2ƀFLغA?xkݿdxɧ p=džB Lɘ7MIN"'ʵQLR`րJL$p,QFd4aN\q22222H\W O6c'$2ƀրFLؼA?z[ݿd˶ɧp=B Lɚ7^IN$'ʵSLT`ڀJL&p,Qd4a\q22222H\W O6c$2ƀFLؾA?}kRݿdɧ"p>B Lɜ7\I N&'ʵULV`ހJ€L(p,Qd4b&\q22222H\WO6c$2ƀTFLA?Jݿd2ɧ.p>!B Lɞ7FISN('ʵWۀLX`J܀L*p,Rd4b\q22222H\WO6dY$2ƀFLA?kݿdpɧ:p>?B Lɠ7NIN*'ʵYՀLZ`JL,p,R>d4b\q22222H\WO6dƀ$2ƀ΀FLA?쫀ݿd̮ɧFp>]B Lɢ78IN,'ʵ[πL\`K L.p,R|d4cj\q22222H\WO6 e%$2ƀFLA?kdɧRp>{B Lɤ7FIN.'ʵ]ɀL^`K$L0p,Rd4c֋\q22222H\WO6 e$2ƀHFLA?곀d6ɧ^p>B Lɦ7rIԕN0'ʵ_ÀL``K<L2p,Rd4dB\q22222H\WO6e$2ƀFLA?k[dvɧjp>B Lɨ7lI;N2'ʵaLb`KTL4p,S6d4d\q22222H\WO6fQ$2ƀƀFLA?AݿdͶɧvp>ՆB €Lɪ7pIBN4'ʵcLd`KlL6p,Std4e\q22222H\W O6f$2ƀFLA?kݿdɧp>B ʀLɬ7tIBN6'ʵeLf`KL8p,Sd4e\q22222H\W"O6g'$2ƀ@FLA?Jݿd0ɧp?B ЀLɮ7ZIGN8'ʵgLhaKL:p,Sd4e򋄀\q22222H\W$O6g$2ƀFLA?kݿdnɧp?/B ؀Lɰ7NIMN:'ʵiLjaKLp,Tld4fʋ\q22222H\W(O6h`$2ƀxFLA?k[ݿdɧp?kB Lɴ7JIVN>'ʵmLnaKL@p,Td4g6\q22222H\W*O6h̀$2ƀ6FLA?ݿd(ɧp?B Lɶ7:IN@'ʵoLpaKLBp,Td4g\q22222H\W,O6 i;$2ƀFLA?k[ݿdfɧʀp?B Lɸ7.IڕNB'ʵqLraLLDp,U&d4h\q22222H\W.O6"i$2ƀFLA?[ݿdϤɧրp?ņB Lɺ7*I"ND'ʵsLtaL,LFp,Udd4hz\q22222H\W0O6$j$2ƀnFLA?kdɧp?B Lɼ7 IkNF'ʵuLvaLDLHp,Ud4h拄\q22222H\W4O6&ji$2ƀ,FLA? d*ɧp@B Lɾ7!4INH'ʵw{Lxa"L\LJp,Ud4iR\q22222H\W6O6(jـ$2ƀFLA?kJdjɧp@B L7"[INJ'ʵyuLza&LtLLp,Vd4i\q22222H\W:O6*k2$2ƀFLA?ݿdШɨp@=B Lƒ7#QINL'ʵ{oL|a*LLNp,V\d4j*\q22222H\W<O6.k$2ƀfFLA?kJݿdɨp@[B Lă7$PI NN'ʵ}iL~a.LLPp,Vd4j\q22222H\W>O60k$2ƀ"FLA?쫀ݿd$ɨp@yB $Lƃ7%TINP'ʵcLɀa2LLRp,Vd4k\q22222H\W@O62l_$2ƀFLA?kRݿdbɨ*p@B ,Lȃ7&6INR'ʵ]Lɂa6LԀLTp,Wd4kn\q22222H\WBO64lǀ$2ƀFLA?JݿdѠɨ6p@B 2Lʃ7'FINT'ʵWLɄa:LLVp,WTd4kڋ\q22222H\WDO66m3$2ƀZFLA?k곀ݿd܀ɨBp@ӆB :L̃7(DINV'ʵQLɆa>MLXp,Wd4lF\q22222H\WFO68m$2ƀFLA?JݿdɨNp@B @L΃7)*IFNX'ʵKLɈaBMLZp,Wd4l\q22222H\WHO6:n $2ƀԀFLA?k곀ݿdXɨZpAB HLЃ7*5INZ'ʵELɊaFM4L\p,Xd4m\q22222H\WJO6<nx$2ƀFLA?쫀ݿdҘɨfpA-B NL҃7+#IؕN\'ʵ?LɌaJMLL^p,XLd4m\q22222H\WLO6>n$2ƀRFLA?kRdހɨrpAKB VLԃ7,!IN^'ʵ9LɎaNMdL`p,Xd4m\q22222H\WNO6@oN$2ƀ FLA?dɨ~pAiB \Lփ7-?IkN`'ʵ3LɐaRM|Lbp,Xd4nb\q22222H\WRO6Bo$2ƀ̀FLA?k곀d^ɨpAB dL؃7.;INb'ʵ-LɒaVMLdp,Yd4n΋\q22222H\WTO6Dp$2ƀFLA?쫀dӞɨpAB jLڃ7/NINd'ʵ'LɔaZMLfp,YDd4o:\q22222H\WXO6Fpl$2ƀFFLA?kdހɨpAÆB rL܃70`I4Nf'ʵ!Lɖa^MĀLhp,Yd4o\q22222H\WZO6HpՀ$2ƀFLA?곀dɨpAB xLރ71FINh'ʵLɘabM܀Ljp,Yd4p\q22222H\W\O6JqA$2ƀFLA?kAd\ɨpAB L72:IϕNj'ʵLɚafMLlp,Yd4p~\q22222H\W^O6Lq$2ƀFLA?쫀dԜɨƀpBB L738INl'ʵLɜajN Lnp,Z<d4pꋄ\q22222H\W`O6Nr$2ƀ pCIB ̀L7=CI ~N'ʵӀLɰaNLɂp,\d4u"\q22222H\WzO6dv0$2ƀFLA?kdHɩJpCgB ԀL7>5I N'ʵ̀LɲaOLɄp,\d4u\q22222H\W|O6fv$2ƀbFLA?Rݿd׎ɩVpCB ڀL7?MI N'ʵǀLɴaO,LɆp,]$d4u\q22222H\W~O6hw$2ƀFLA?kRd̀ɩbpCB L7@kI N'ʵLɶaODLɈp,]bd4vf\q22222H\WO6jwo$2ƀ܀FL A?d ɩnpCB L7AQI •N'ʵLɸaO\LɊp,]d4vҋ\q22222H\WO6lwـ$2ƀFL"A?kdLɩzpC߆B L7BgI! N'ʵLɺaOtLɌp,]d4w>\q22222H\WO6nxD$2ƀXFL$A?d،ɩpCB L7CQI!XN'ʵLɼaOLɎp,^d4w\q22222H\WO6px$2ƀFL&A?kRݿd̀ɩpDB L7DkI!gN'ʵLɾaOLɐp,^Zd4x\q22222H\WO6ry$2ƀҀFL(A@[d ɩpD9B L7EuI!xN'ʵLaOLɒp,^d4x\q22222H\WO6ty$2ƀFL*A@k[dJɩpDWB L7FkI!ƕN'ʵL€aOԀLɔp,^d4x\q22222H\WO6vy$2ƀNFL,A@RdيɩpDuB L 7GzI"N'ʵ—LĀaOLɖp,_d4yZ\q22222H\WO6xzH$2ƀ FL.A@ kݿdʀɩ€pDB L 7HI"N'ʵđLƀaPLɘp,_Rd4yƋ\q22222H\WO6zz$2ƀȀFL0A@ 쫀dɩ΀pDB L7II"N'ʵƋLȀa€PLɚp,_d4z2\q22222H\WO6|{$3ƀFL2A@k쫀dHɩڀpDφB (L7JʀI"ON'ʵȅLʀaƀP4Lɜp,_d4z\q22222H\WO6~{b$3ƀ.FL4A@dڈɩpDB .L7KƀI"N'ʵL̀aʀPLLɞp,` d4{ \q22222H\WO6{΀$3ƀFL6A@k쫀ݿdȀɩpE B 6L7LI"N'ʵyL΀a΀PdLɠp,`Jd4{v\q22222H\WO6|;$3ƀFL8A@dɩpE)B <L7MހI"N'ʵsLЀaҀP|Lɢp,`d4{⋄\q22222H\WO6|$3ƀ|FL:A@kݿdFɪ pEGB DL7N׀I"ƕN'ʵmLҀaրPLɤp,`d4|N\q22222H\WO6|$3ƀFLA@kݿd€ɪ"pEB RL7PˀI"ʕN'ʵaLրaހPĀLɨp,aBd4}&\q22222H\WO6}ƀ$3ƀFL@A@ݿdɪ.pEB XL7QǀI"ϕN'ʵ[L؀aP܀Lɪp,ad4}\q22222H\WO6~4$3ƀpFLBA@"kݿd<ɪ:pEB `L 7RɀI"ԕN'ʵULڀaPLɬp,ad4}\q22222H\WO6~$3ƀ .FLDA@$ݿdzɪFpE݆B fL"7SI"ٕN'ʵOL܀aQ Lɮp,ad4~j\q22222H\WO6$3ƀ FLFA@'kƀݿdܸɪRpEB nL$7TـI# N'ʵILހaQ$Lɰp,b:d4~֋\q22222H\WO6l$3ƀ!FLHA@)[ݿdɪ^pFB tL&7UI#GN'ʵCLaQ<Lɲp,bxd4B\q22222H\WO6ɀ$3ƀ"dFLJA@,kݿd4ɪjpF7B |L(7VހI#N'ʵ=LaQTLɴp,bd4\q22222H\WO66$3ƀ#&FLLA@.[drɪvpFUB L*7WI#וN'ʵ7LaQlLɶp,bd4\q22222H\WO6$3 ƀ#FLNA@1kݿdݼɪpFsB L,7Y I#N'ʵ1LaQLɸp,c2d4\q22222H\WO6$3 ƀ$FLPA@3&WdɪpFB L.7Z I#N'ʵ+LbQLɺp,cpd4򋄀\q22222H\W€O6p$3 ƀ%\FLRA@6k쫀d:ɪpFB L07[I#N'ʵ%LbQLɼp,cd4^\q22222H\WĀO6ڀ$3ƀ&FLTA@8MݿdzɪpF͆B L27\I#N'ʵLb Q̀Lɾp,cd4ʋ\q22222H\WƀO6H$3ƀ&؀FLVA@;kd޸ɪpFB L47]I#N'ʵLbQLp,d*d46\q22222H\WȀO6$3ƀ'FLXA@=dɪpG B L67^I$HN'ʵLbQL†p,dhd4\q22222H\WʀO6#$3ƀ(TFLZA@@k d8ɪʀpG'B L87_I$N¡'ʵ LbRLĆp,dd4\q22222H\ẀO6$3ƀ)FL\A@BdxɪրpGEB L:7`I$Nġ'ʵLbR,LƆp,dd4z\q22222H\W΀O6$3ƀ)΀FL^A@Ek곀d߸ɪpGcB €L<7a I%2Nơ'ʵLbRDLȆp,e"d4拄\q22222H\WҀO6Q$3ƀ*FL`A@G곀dɪpGB ȀL>7bI%mNȡ'ʵLb"R\Lʆp,e`d4R\q22222H\WԀO6À$3ƀ+HFLbA@Jkd8ɪpGB ЀL@7c1I%Nʡ'ʵLb&RtL̆p,ed4\q22222H\W؀O6$3ƀ+FLdA@LRdxɫpGB րLB7d-I%N̡'ʵLb*RLΆp,ed4*\q22222H\WڀO6$3ƀ,ĀFLfA@Ok쫀d฀ɫpGۆB ހLD7e1I&HNΡ'ʵLb.RLІp,fd4\q22222H\W܀O6$3ƀ-FLhA@QdɫpGB LF7f1I&NС'ʵLb2RL҆p,fXd4\q22222H\WހO6b$3ƀ.@FLjA@Tk곀d8ɫ*pHB LH7g2I&Nҡ'ʵ݀Lb6RԀLԆq,fd4n\q22222H\WO6̀$3ƀ.FLlA@V곀dxɫ6pH6B LJ7h>I&Nԡ'ʶ׀Lb:RLֆq,fd4ڋ\q22222H\WO67$3ƀ/FLnA@YkRdḀɫBpHTB LL7i@I'N֡'ʶрLb>SL؆q,gd4F\q22222H\WO6$3ƀ0xFLpA@[dɫNpHrB LN7j:I'hNء'ʶˀLbBSLچq,gRd4\q22222H\WO6$3ƀ14FLrA@^k d8ɫZpHB LP7k<I'Nڡ'ʶŀL bFS4L܆q,gd4\q22222H\WO6}$3ƀ1FLtA@`dxɫfpHB LR7lI(Nܡ'ʶ L bJSLLކq,gd4\q22222H\WO6„$3 ƀ2FLvA@ck곀d⸀ɫrpH̆B LT7m,I(RNޡ'ʶ LbNSdLq,h d4\q22222H\WO6ĄZ$3!ƀ3nFLxA@edɫ~pHB LV7nDI(N'ʶ LbRS|Lq,hJd4b\q22222H\WO6Ƅ$3"ƀ4,FLzA@hkRd8ɫpIB $LX7o/I(ݕN'ʶLbVSLq,hd4΋\q22222H\WO6Ȅ$3#ƀ4FL|A@jdxɫpI&B *LZ7pZI)N'ʶLbZSLq,hd4:\q22222H\WO6ʄ$3$ƀ5FL~A@mk쫀ݿd㸀ɫpIDB 2L\7qXI)lN'ʶLb^SĀLq,id4\q22222H\WO6̄$3$ƀ6dFLـA@oݿdɫpIbB 8L^7rII)N'ʶLbbS܀Lq,iBd4\q22222H\WO6ЄW$3$ƀ7 FLقA@rkRݿd4ɫpIB @L`7sKI)N'ʶLbfSLq,id4~\q22222H\WO6҄$3$ƀ7ހFLلA@t[ݿdrɫƀpIB FLb7tEI)N'ʶLbjT Lq,id4ꋄ\q22222H\WO6Ԅ,$3$ƀ8FLنA@wlݿd䰀ɫҀpIB NLd7u?I)N'ʶLbnT$Lq,id4V\q22222H\XO6ք$3$ƀ9ZFLوA@y쫀ݿdɫހpIچB TLf7vAI)N'ʶL brT<Lq,j:d4‹\q22222H\XO6؄$3$ƀ:FLيA@|kJݿd,ɫpIB \Lh7wOI)N'ʶ}L"bvTTLq,jxd4.\q22222H\XO6ڄZ$3$ƀ:րFLٌA@~ݿdjɫpJB bLj7xCI)N'ʶ!wL$bzTlLq,jd4\q22222H\XO6܄ŀ$3$ƀ;FLَA@kݿd娀ɬpJ4B jLl7yKI*DN'ʶ#qL&b~TLq,jd4\q22222H\XO6ބ/$3$ƀFLٖA@kd檀ɬ2pJB Lt7}qI*N'ʶ+YL.bTLq,kd4\q22222H\XO6$3+ƀ?DFL٘A@dɬ>pJʆB Lv7~eI+5N'ʶ-SL0bTLq,l*d4"\q22222H\XO6)$3,ƀ@FLٚA@kd*ɬJpJB Lx7WI+N'ʶ/ML2bULq,lhd4\q22222H\XO6$3-ƀ@€FLٜA@ddjɬVpKB Lz7߀OI+ѕN'ʶ1GL4bU,Lq,ld4\q22222H\XO6$3.ƀA~FLٞA@kݿd窀ɬbpK$B L|7߁[I+ѕN'ʶ3AL6bUDLq,ld4f\q22222H\XO6h$3.ƀB:FL٠A@[dɬnpKBB L~7߂UI+N'ʶ5;L8bU\L q,m"d4ҋ\q22222H\XO6؀$30ƀBFL٢A@kRd(ɬzpK`B Lʀ7߃WI, N 'ʶ75L:bUtL q,m`d4>\q22222H\X O6B$31ƀCFL٤A@dhɬpK~B Lʂ7߄9I,XN 'ʶ9/L<bULq,md4\q22222H\X"O6$32ƀDvFL٦A@kRd言ɬpKB Lʄ7߅YI,N'ʶ;)L>bULq,md4\q22222H\X&O6$33ƀE2FL٨A@[dɬpKB ĀLʆ7߆]I,N'ʶ=#L@bULq,nd4\q22222H\X(O6$34ƀEFL٪A@kd(ɬpK؆B ̀Lʈ7߇?I-@N'ʶ?LBbUԀLq,nXd4\q22222H\X*O6$35ƀFFL٬A@곀dfɬpKB ҀLʊ7߈cI-N'ʶALDbULq,nd4\\q22222H\X.O6P$36ƀGjFLٮA@k쫀d騀ɬĀpLB ڀLʌ7߉I-˕N'ʶCLFbVLq,nd4ȋ\q22222H\X4O6$37ƀH(FLٰA@JdɬЀpL2B Lʎ7ߊ{I-N'ʶE LHb€VLq,od44\q22222H\X6O7 $38ƀHFLٲA@k곀d(ɬ܀pLPB Lʐ7ߋI.AN'ʶGLJbƀV4Lq,oPd4\q22222H\X:O7i$3:ƀIFLٴA@djɬpLnB Lʒ7ߌI.N'ʶHLLbʀVLLq,od4 \q22222H\X<O7Հ$3;ƀJ`FLٶA@kdꪀɬpLB Lʔ7ߍI.ԕN'ʶJLNb΀VdL q,od4x\q22222H\X>O7C$3<ƀKFLٸA@[dɭpLB Lʖ7ߎI/#N 'ʶLLPbҀV|L"q,p d4䋄\q22222H\X@O7$3=ƀKڀFLٺA@kd*ɭ pLȆB Lʘ7ߏI/qN"'ʶNLRbրVL$q,pHd4P\q22222H\XBO7 $3>ƀLFLټA@쫀djɭpLB Lʚ7ߐI/N$'ʶPLTbڀVL&q,pd4\q22222H\XDO7 $3?ƀMVFLپA@k쫀d몀ɭ$pMB Lʜ7ߑI0 N&'ʶRLVbހVĀL(q,pd4(\q22222H\XFO7$3@ƀNFLA@곀dɭ0pM"B Lʞ7ߒzI0YN('ʶTۀLXbV܀L*q,qd4\q22222H\XHO7^$3AƀNЀFLA@kd(ɭ<pM@B Lʠ7ߓ}I2<N*'ʶVՀLZbVL,q,q@d4\q22222H\XJO7ˀ$3BƀOFLA@쫀djɭHpM^B &Lʢ7ߔI2N,'ʶXπL\bW L.q,q~d4l\q22222H\XLO7-$3CƀPLFLA@kdd쪀ɭTpM|B .Lʤ7ߕI2ʕN.'ʶZɀL^bW$L0q,qd4؋\q22222H\XPO7$3DƀQ FLA@dɭ`pMB 4Lʦ7ߖI3N0'ʶ\ÀL`bW<L2q,qd4D\q22222H\XTO7$3EƀQȀFLA@k d*ɭlpMB <Lʨ7ߗI3WN2'ʶ^LbbWTL4q,r8d4\q22222H\XVO7g$3FƀRFLA@곀djɭxpMֆB BLʪ7ߘI3N4'ʶ`LdbWlL6q,rvd4\q22222H\XXO7π$3GƀSBFLA@kJdɭpMB JLʬ7ߙI3N6'ʶbLfbWL8q,rd4\q22222H\XZO78$3HƀTFLA@곀dɭpNB PLʮ7ߚI4?N8'ʶdLhcWL:q,rd4􋄀\q22222H\X\O7 $3IƀTFLA@kd*ɭpN0B XLʰ7ߛI4N:'ʶfLjcWLq,snd4̋\q22222H\X`O7$}$3KƀV:FLA@l:dɭpNlB fLʴ7ߝwI5*N>'ʶjLncWL@q,sd48\q22222H\XbO7&$3LƀVFLA@[dɭpNB lLʶ7ߞwI5yN@'ʶlLpcWLBq,sd4\q22222H\XdO7(U$3MƀWFLA@k쫀d*ɭ̀pNB tLʸ7ߟ]I5ǕNB'ʶnLrcXLDq,t(d4\q22222H\XfO7*€$3NƀXrFLA@곀djɭ؀pNƆB zLʺ7ߠkI6ND'ʶpLtcX,LFq,tfd4|\q22222H\XhO7,-$3OƀY.FLA@k[ݿd婢ɭpNB Lʼ7ߡqI6dNF'ʶrLvcXDLHq,td4苄\q22222H\XlO7.$3OƀYFLA@AݿdɭpOB Lʾ7ߢkI6NH'ʶt{Lxc"X\LJq,td4T\q22222H\XnO72$3OƀZFLA@kݿd$ɭpO B L7ߣI6NJ'ʶvuLzc&XtLLq,u d4\q22222H\XrO74Y$3Oƀ[fFLA@ݿdbɮpO>B Lƒ7ߤ}I6NL'ʶxoL|c*XLNq,u^d4,\q22222H\XtO76ŀ$3Oƀ\$FLA@kRݿdɮpO\B Lă7ߥsI6NN'ʶziL~c.XLPq,ud4\q22222H\XvO782$3Oƀ\FLA@곀ݿdހɮ pOzB Lƃ7ߦ}I6NP'ʶ|cLʀc2XLRq,ud4\q22222H\XxO7:$3Oƀ]FLA@k곀ݿdɮ,pOB Lȃ7ߧsI6NR'ʶ~]Lʂc6XԀLTq,vd4p\q22222H\XzO7< $3Oƀ^^FLA@ݿdZɮ8pOB Lʃ7ߨoI6֕NT'ʶWLʄc:XLVq,vVd4܋\q22222H\X|O7>v$3Oƀ_FLA@kݿdɮDpOԆB L̃7ߩzI7NV'ʶQLʆc>YLXq,vd4H\q22222H\X~O7@$3Oƀ_؀FLA@ݿdրɮPpOB L΃7ߪgI7iNX'ʶKLʈcBYLZq,vd4\q22222H\XO7BP$3Oƀ`FLA@kJdɮ\pPB ȀLЃ7߫_I7NZ'ʶELʊcFY4L\q,wd4 \q22222H\XO7D$3SƀaTFLAAdZɮhpP.B ΀L҃7߬]I8N\'ʶ?LʌcJYLL^q,wNd4\q22222H\XO7F,$3TƀbFLAAk0dɮtpPLB րLԃ7߭eI8NN^'ʶ9LʎcNYdL`q,wd4\q22222H\XO7H$3Uƀb΀FLAAdڀɮpPkB ܀Lփ7߮qI8N`'ʶ3LʐcRY|Lbq,wd4d\q22222H\XO7J$3VƀcFLAAk[dɮpPB L؃7߯qI8֕Nb'ʶ-LʒcVYLdr,x d4Ћ\q22222H\XO7LS$3WƀdJFLAA dZɮpPB Lڃ7߰I9Nd'ʶ'LʔcZYLfr,xHd4<\q22222H\XO7N$3XƀeFLAA k쫀dɮpPņB L܃7߱uI9jNf'ʶ!Lʖc^YĀLhr,xd4\q22222H\XO7P*$3YƀeĀFLAARdڀɮpPB Lރ7߲uI9Nh'ʶLʘcbY܀Ljr,xd4\q22222H\XO7R$3ZƀfFLAAkdɮpQB L7߳sI:Nj'ʶLʚcfYLlr,yd4\q22222H\XO7T$3[ƀg>FLAAJdZɮȀpQB L7ߴYI:VNl'ʶLʜcjZ Lnr,y@d4싄\q22222H\XO7Vn$3\ƀgFLAAkdɮԀpQ=B L7ߵ[I:Nn'ʶ LʞcnZ$Lpr,y~d4X\q22222H\XO7Xڀ$3]ƀhFLAAddڀɮpQ[B L7߶bI:Np'ʶLʠcrZ<Lrr,yd4ċ\q22222H\XO7ZE$3^ƀixFL AAkJdɮpQyB L7߷DI;@Nr'ʶLʢcvZTLtr,yd40\q22222H\XO7\$3_ƀj6FL AA곀dZɮpQB "L7߸WI;Nt'ʶLʤczZlLvr,z8d4\q22222H\XO7^$3`ƀjFLAA!kdɯpQB *L7߹]I;ݕNv'ʶLʦc~ZLxr,zvd4\q22222H\XO7`$3aƀkFLAA#dڀɯpQӆB 0L7ߺ?I<*Nx'ʶLʨcZLzr,zd4t\q22222H\XO7b$3bƀllFLAA&k곀dɯpQB 8L7߻QIL7߼II<N|'ʶ߀LʬcZ̀L~r,{0d4L\q22222H\XO7f$3dƀmFLAA+kRdɯ4pR-B FL7߽_I<N~'ʶـLʮcZLʀr,{nd4\q22222H\XO7h!$3eƀnFLAA-쫀dڀɯ@pRKB LL7߾iI=EN'ʶӀLʰcZLʂr,{d4$\q22222H\XO7j$3fƀobFLAA0k곀dɯLpRiB TL7߿_I=N'ʶ̀Lʲc[Lʄr,{d4\q22222H\XO7l$3gƀp"FLAA2dZɯXpRB ZL7SI=N'ʶǀLʴc[,Lʆr,|(d4\q22222H\XO7ne$3hƀpހFLAA5k dɯdpRB bL7ZI>0N'ʶLʶc[DLʈr,|fd4h\q22222H\XO7pЀ$3iƀqFL AA7RdڀɯppRÆB hL7HI>N'ʶLʸc[\Lʊr,|d4ԋ\q22222H\XO7r=$3jƀrXFL"AA:kdɯ|pRB pL7<I>͕N'ʶLʺc[tLʌr,|d4@\q22222H\XO7t$3kƀsFL$AA<[dZɯpRB vL7:I?N'ʶLʼc[Lʎr,} d4\q22222H\XO7v$3lƀsԀFL&AA?kdɯpSB ~L7>I?kN'ʶLʾc[Lʐr,}^d4\q22222H\XO7x$3mƀtFL(AAAdڀɯpS;B L76I?N'ʶLc[Lʒr,}d4\q22222H\XO7z$3nƀuPFL*AADldɯpSYB L70I@N'ʶL€c[ԀLʔr,}d4\q22222H\X€O7|`$3pƀvFL,AAFd\ɯpSwB L 7GI@AN'ʶLĀc[Lʖr,~d4\\q22222H\XƀO7~$3qƀvʀFL.AAIkdɯĀpSB L 7CI@N'ʶLƀc\Lʘr,~Vd4ȋ\q22222H\XʀO7$3rƀwFL0AAKA݀d܀ɯЀpSB L7uI@•N'ʶËLȀc€\Lʚr,~d44\q22222H\X΀O7z$3sƀxDFL2AANk쫀dɯ܀pSцB L7˝IAN'ʶŅLʀcƀ\4Lʜr,~d4\q22222H\XҀO7Ԁ$3tƀxFL4AAPd\ɯpSB L7IAPN'ʶL̀cʀ\LLʞr,d4 \q22222H\XԀO7@$3uƀyFL6AASkdɯpT B L7ͅIAN'ʶyL΀c΀\dLʠr,Nd4x\q22222H\XրO7$3vƀz~FL8AAURd܀ɰpT+B L7ΈIAN'ʶsLЀcҀ\|Lʢr,d4䋄\q22222H\X؀O7$3wƀ{AA]ldɰ$pTB ҀL7zIBؕN'ʶaLրcހ\ĀLʨr,Fd4(\q22222H\XހO7`$3zƀ}tFL@AA_d܀ɰ0pTB ؀L7\IC'N'ʶ[L؀c\܀Lʪr,d4\q22222H\XO7π$3{ƀ~0FLBAAbkdɰ<pTB L 7fICvN'ʶULڀc\Lʬr,d4\q22222H\XO7;$3|ƀ~FLDAAd곀d\ɰHpT߆B L"7[ICŕN'ʶOL܀c] Lʮr,d4l\q22222H\XO7$3}ƀFLFAAgkAdɰTpTB L$7eIDN'ʶILހc]$Lʰr,>d4؋\q22222H\XO7$3~ƀhFLHAAi곀d܀ɰ`pUB L&7։IDCN'ʶCLc]<Lʲr,|d4D\q22222H\XO7f$3ƀ(FLJAAlk[dɰlpU9B L(7׏IDN'ʶ=Lc]TLʴr,d4\q22222H\XO7Ӏ$3ƀFLLAAnJd\ɰxpUWB L*7؃IDN'ʶ7Lc]lLʶr,d4\q22222H\XO7?$3ƀFLNAAqk[dɰpUuB  L,7ّIE/N'ʶ1Lc]Lʸr,6d4\q22222H\XO7$3ƀ`FLPAAsJd܀ɰpUB L.7{IEN'ʶ+Ld]Lʺr,td4􋄀\q22222H\XO7$3ƀFLRAAvkdɰpUB L07sIE͕N'ʶ%Ld]Lʼr,d4`\q22222H\XO7$3ƀڀFLTAAxd\ɰpUφB L27oIGN'ʶLd ]̀Lʾr,d4̋\q22222H\XO7$3ƀFLVAA{kݿdɰpUB &L47oIGN'ʶLd]Lr,.d48\q22222H\XO7d$3ƀVFLXAA}ݿdڀɰpV B ,L67oIHN'ʶLd]L†r,ld4\q22222H\XO7π$3ƀFLZAAkݿdɰ̀pV)B 4L87gIH N¡'ʶ Ld^LĆr,d4\q22222H\XO7:$3ƀҀFL\AA쫀ݿdVɰ؀pVGB :L:7kIHNġ'ʶLd^,LƆr,d4|\q22222H\YO7$3ƀFL^AAkݿdɰpVeB BL<7mIHNơ'ʶLd^DLȆr,&d4苄\q22222H\YO7$3ƀLFL`AA쫀ݿdҀɰpVB HL>7tIHNȡ'ʶLd"^\Lʆr,dd4T\q22222H\YO7p$3ƀFLbAAkRſeɰpVB PL@7㘀IHNʡ'ʶLd&^tL̆r,d4\q22222H\Y O7p$3ƀƀFLdAARݿeHɱpVB VLB7䎀IHN̡'ʶLd*^LΆr,d4,\q22222H\YO7$3ƀLFLfAAkݿeɱpV݆B ^LD7垀IHlNΡ'ʶLd.^LІr,d4\q22222H\YO7k$3ƀFFLhAA곀ݿeȀɱ pVB dLF7斀IHƕNС'ʶLd2^L҆r,\d4\q22222H\YO7$3ƀFLjAAk쫀eɱ,pWB lLH7|IINҡ'ʶ݀Ld6^ԀLԆr,d4p\q22222H\YO7`$3ƀ€FLlAA[eLɱ8pW7B rLJ7蒀IIbNԡ'ʶ׀Ld:^Lֆr,d4܋\q22222H\YO7̀$3ƀ~FLnAAk eɱDpWUB zLL7阀IIN֡'ʷрLd>_L؆r,d4H\q22222H\YO7„9$3ƀd4ċ\q22222H\Y8O7܄$3ƀڀFLڊAAk곀eɱpXB ܀Lh7|IMN'ʷ}L"dv`TLs,|d40\q22222H\Y:O7ބ$3ƀFLڌAAReNɱpYB Lj7tIN8N'ʷwL$dz`lLs,d4Ü\q22222H\Y<O7‡$3ƀVFLڎAAkReɲpY6B Ll7hINN'ʷ qL&d~`Ls,d4\q22222H\Y>O7$3ƀFLڐAAne΀ɲpYTB Ln7iINؕN'ʷ"kL(d`Ls,6d4t\q22222H\Y@O7b$3ƀЀFLڒAAk쫀eɲpYrB Lp7ION'ʷ$eL*d`Ls,td4\q22222H\YDO7ÿ$3ƀFLڔAA쫀eNɲ(pYB Lr7uIOeN'ʷ&_L,d`̀Ls,d4L\q22222H\YFO7-$3ƀLFLږAAkReɲ4pYB Lt7ION'ʷ(YL.d`Ls,d4Ÿ\q22222H\YJO7Đ$3ƀ FLژAA쫀e΀ɲ@pY̆B  Lv7ION'ʷ*SL0d`Ls,.d4$\q22222H\YLO7$3ƀȀFLښAAkJeɲLpYB Lx7}IPAN'ʷ,ML2daLs,ld4Ɛ\q22222H\YNO7l$3ƀFLڜAA곀eNɲXpZB Lz7IPN'ʷ.GL4da,Ls,d4\q22222H\YPO7؀$3ƀBFLڞAAk곀eɲdpZ&B "L|7IPߕN'ʷ0AL6daDLs,d4h\q22222H\YRO7D$3ƀFLڠAA쫀e΀ɲppZDB (L~7yIQ-N'ʷ2;L8da\L s,&d4ԋ\q22222H\YTO7Ʋ$3ƀFLڢAAkeɲ|pZbB 0Lˀ7}IQ}N 'ʷ45L:datL s,dd4@\q22222H\YVO7$3ƀzFLڤAAeRɲpZB 6L˂7kIQƕN 'ʷ6/L<daLs,d4Ȭ\q22222H\YXO7LJ$3ƀ8FLڦAAkJeɲpZB >L˄7aIRN'ʷ8)L>daLs,d4\q22222H\YZO7$3ƀFLڨAAeҀɲpZB DLˆ7rIRcN'ʷ:#L@daLs,d4Ʉ\q22222H\Y\O7e$3ƀFLڪAAke ɲpZچB LLˈ7hIRN'ʷ<LBdaԀLs,\d4\q22222H\Y^O7р$3ƀrFLڬAA쫀e RɲpZB RLˊ7pIRN'ʷ>LDdaLs,d4\\q22222H\YbO8+$3ƀ.FLڮAAk곀e ɲĀp[B ZLˌ7 ISAN'ʷ@LFdbLs,d4ȋ\q22222H\YhO8}$3ƀFLڰAAe ҀɲЀp[4B `Lˎ7 IStN'ʷB LHd€bLs,d44\q22222H\YjO8$3ƀFLڲAAle ɲ܀p[RB hLː7 ISN'ʷDLJdƀb4Ls,Td4ˠ\q22222H\YnO8K$3ƀfFLڴAA곀e Rɲp[pB nL˒7 ITN'ʷELLdʀbLLs,d4 \q22222H\YpO8ʸ$3ƀ$FLڶAAkRe ɲp[B vL˔7 ITRN'ʷGLNd΀bdL s,d4x\q22222H\YrO8 ($3ƀFLڸAARe Ҁɳp[B |L˖7ITN 'ʷILPdҀb|L"s,d4䋄\q22222H\YtO8 ˕$3ƀFLںAAk곀e ɳ p[ʆB L˘7ITN"'ʷKLRdրbL$s,Ld4P\q22222H\YvO8$3ƀ^FLڼAA[e Rɳp[B L˚7IU>N$'ʷMLTdڀbL&s,d4ͼ\q22222H\YxO8m$3ƀFLھAAk쫀e ɳ$p\B L˜7IUN&'ʷOLVdހbĀL(s,d4(\q22222H\YzO8؀$3ƀ؀FLAARe Ҁɳ0p\$B L˞7IUݕN('ʷQۀLXdb܀L*s,d4Δ\q22222H\Y|O8E$3ƀFLABk[e ɳ<p\BB Lˠ7IV,N*'ʷSՀLZdbL,s,Dd4\q22222H\Y~O8Ͳ$3ƀRFLAB쫀e RɳHp\`B Lˢ7rIV{N,'ʷUπL\dc L.s,d4l\q22222H\YO8$3ƀFLABke ɳTp\~B Lˤ7IVN.'ʷWɀL^dc$L0s,d4؋\q22222H\YO8~$3ƀ̀FLAB [e Ҁɳ`p\B L˦7IVN0'ʷYÀL`dc<L2s,d4D\q22222H\YO8ހ$3ƀFLAB ke ɳlp\B L˨7IWLN2'ʷ[LbdcTL4s,<d4а\q22222H\YO8J$3ƀJFLAB곀e Rɳxp\؆B €L˪7IWN4'ʷ]LddclL6s,zd4\q22222H\YO8 Ϸ$3ƀFLABkݿe ɳp\B ʀLˬ7IWN6'ʷ_LfdcL8s,d4ш\q22222H\YO8""$3ƀĀFLABݿe Ѐɳp]B ЀLˮ7IX N8'ʷaLhecL:s,d4􋄀\q22222H\YO8&В$3ƀFLABk쫀ݿeɳp]2B ؀L˰7IXN:'ʷcLjecLFLABݿeLɳp]PB ހL˲7rIXN<'ʷeLle c̀L>s,rd4̋\q22222H\YO8*`$3ƀFLABkRݿeɳp]nB L˴7lIXN>'ʷgLnecL@s,d48\q22222H\YO8,Ѐ$3ƀFLABݿeȀɳp]B L˶7rIX N@'ʷiLpecLBs,d4Ӥ\q22222H\YO8.?$3ƀxFLAB k곀ݿeɳ̀p]B L˸7lIX2NB'ʷkLredLDs,,d4\q22222H\YO80ҭ$3ƀ2FLAB"ݿeDɳ؀p]ȆB L˺7 dIX|ND'ʷmLted,LFs,jd4|\q22222H\YO82$3ƀFLAB%k곀ݿeɳp]B L˼7!lIXNF'ʷoLvedDLHs,d4苄\q22222H\YO84s$3ƀFLAB'Jݿeɳp^B L˾7"pIYNH'ʷq{Lxe"d\LJs,d4T\q22222H\YO86$3ƀlFLAB*keɳp^"B L7#IY>NJ'ʷsuLze&dtLLs,$d4\q22222H\YO88A$3ƀ*FLAB,[eDɴp^@B Lƒ7$IYNL'ʷuoL|e*dLNs,bd4,\q22222H\YO8:ԯ$3ƀFLAB/lMeɴp^^B Lă7%IYܕNN'ʷwiL~e.dLPs,d4֘\q22222H\YO8<$3ƀFLAB1eĀɴ p^}B $Lƃ7&IZ(NP'ʷycLˀe2dLRs,d4\q22222H\YO8>Ո$3ƀdFLAB4keɴ,p^B ,Lȃ7'~IZxNR'ʷ{]L˂e6dԀLTt,d4p\q22222H\YO8@$3ƀ"FLAB6쫀eDɴ8p^B 2Lʃ7(IZǕNT'ʷ}WL˄e:dLVt,\d4܋\q22222H\YO8B^$3ƀހFLAB9keɴDp^׆B :L̃7)zI[NV'ʷQLˆe>eLXt,d4H\q22222H\YO8Dʀ$3ƀFLAB;eĀɴPp^B @L΃7*rI[dNX'ʷKLˈeBeLZt,d4ش\q22222H\YO8F8$3ƀXFLAB>k쫀eɴ\p_B HLЃ7+pI[NZ'ʷELˊeFe4L\t,d4 \q22222H\YO8Hע$3ƀFLAB@AeDɴhp_1B NL҃7,VI\N\'ʷ?LˌeJeLL^t,Td4ٌ\q22222H\YO8J$3ƀԀFLABCkeɴtp_OB VLԃ7-`I\QN^'ʷ9LˎeNedL`t,d4\q22222H\YO8L$3ƀFLABEReĀɴp_mB \Lփ7.gI\N`'ʷ3LːeRe|Lbt,d4d\q22222H\YO8Nڀ$3ƀPFLABHk쫀eɴp_B dL؃7/_I\ޕNb'ʷ-L˒eVeLdt,d4Ћ\q22222H\YO8PF$3ƀFLABJ[eDɴp_B jLڃ70I]Nd'ʷ'L˔eZeLft,Ld4<\q22222H\YĀO8R٩$3ƀʀFLABMleɴp_džB rL܃71I]lNf'ʷ!L˖e^eĀLht,d4ۨ\q22222H\YƀO8T$3ƀĈFLABOeĀɴp_B xLރ72xI]Nh'ʷL˘ebe܀Ljt,d4\q22222H\YȀO8Vڄ$3ƀDFLABRk쫀eɴp`B L73|I^ Nj'ʷL˚efeLlt,d4܀\q22222H\YʀO8X$3ƀFLABT쫀eDɴȀp`!B L74bI_וNl'ʷL˜ejf Lnt,Dd4싄\q22222H\ỲO8Z^$3ƀ€FLABWk쫀eɴԀp`?B L75\I`;Nn'ʷ L˞enf$Lpt,d4X\q22222H\Y΀O8\ˀ$3ƀ~FLABY곀eĀɴp`]B L76~I`Np'ʷLˠerf<Lrt,d4ċ\q22222H\YЀO8^8$3ƀIbߕN'ʷӀL˰efL˂t,d4$\q22222H\YO8n$3ƀ&FLABpk[eɵLpakB ԀL7?wIc.N'ʷ̀L˲egL˄t,d4ᐋ\q22222H\YO8p$3ƀFLABr곀eFɵXpaB ڀL7@sIcwN'ʷǀL˴eg,Lˆt,,d4\q22222H\YO8rV$3ƀϢFLABukReɵdpaB L7AgIcƕN'ʷL˶egDLˈt,jd4h\q22222H\YO8t$3ƀ`FL ABwReƀɵppaņB L7B`IdN'ʷL˸eg\Lˊt,d4ԋ\q22222H\YO8v.$3ƀFL"ABzkeɵ|paB L7CjIdcN'ʷL˺egtLˌt,d4@\q22222H\YO8xᜀ$3ƀڀFL$AB|JeFɵpbB L7DLIdN'ʷL˼egLˎt,$d4㬋\q22222H\YO8z $3ƀҘFL&ABk곀eɵpbB L7ERIeN'ʷL˾egLːt,bd4\q22222H\YO8|{$3ƀVFL(AB[eƀɵpb=B L7FJIeON'ʷLegL˒t,d4䄋\q22222H\YO8~$3ƀFL*ABkReɵpb[B  L7G4IeN'ʷL€egԀL˔t,d4\q22222H\YO8T$3ƀҀFL,AB곀eFɵpbyB L 7HZIeޕN'ʷLĀegL˖t,d4\\q22222H\YO8㱀$3ƀՎFL.ABk쫀eɵĀpbB L 7I|IfN'ʷLƀehL˘t,Zd4ȋ\q22222H\ZO8$3ƀLFL0ABeƀɵЀpbB  L7JwIfaN'ʷLȀe€hL˚t,d44\q22222H\ZO8s$3ƀFL2ABkeɵ܀pbӆB (L7KIfN'ʷ…Lʀeƀh4L˜t,d4栋\q22222H\ZO8π$3ƀ׸FL4AB곀eFɵpbB .L7LIfN'ʷL̀eʀhLL˞t,d4 \q22222H\ZO89$3ƀ؄FL6ABkeɵpcB 6L7MIg;N'ʷyL΀e΀hdLˠt,Rd4x\q22222H\Z O8婀$3ƀ@FL8ABeƀɶpc-B <L7NIgN'ʷsLЀeҀh|Lˢt,d4䋄\q22222H\Z O8$3ƀFL:ABk[eɶ pcKB DL7OIgٕN'ʷmLҀeրhLˤt,d4P\q22222H\ZO8惀$3ƀںFLABk곀eɶ$pcB RL7QIhvN'ʷaLրeހhĀL˨t,Jd4(\q22222H\ZO8\$3ƀ8FL@ABdeƀɶ0pcB XL7RtIhƕN'ʷ[L؀eh܀L˪t,d4锋\q22222H\ZO8ɀ$3ƀFLBABkReɶ<pcÆB `L 7S{IiN'ʷULڀehLˬt,d4\q22222H\ZO87$3ƀݴFLDABReFɶHpcB fL"7T~IidN'ʷOL܀ei Lˮt,d4l\q22222H\ZO8虀$3ƀpFLFABkJͿeɶTpcB nL$7UIiN'ʷILހei$L˰t,Bd4؋\q22222H\ZO8虀$3ƀ,FLHABRݿe€ɶ`pdB tL&7VIiN'ʷCLei<L˲t,d4D\q22222H\Z O8D$3ƀԀFLJXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 99 / 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 = 702708171.94608 TSTOP = 702711111.95076 DATE-OBS= '2023-04-09T04:42:46' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2940.0046800375 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 320 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'CnJUElJSClJSClJS' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2485581694' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b140x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<&kqX iތ|&[ |OZ{)y G#Y2ߎljDZn`d[]Ay>kqXр7_ߌmT'[uy/Z){ %Y{ 5EYocuf:~ZA>VkqYӀ mߌnM'\y w([܀+{%Zp IDZ׀t_te8[΀A> զkqX xߌkO%Zkww$ZՀ#~  $Yq DBYs_rf8~ZԀA>/ikqXj܌nN&[{w'Z)w %Yَ;FYs]qe5ZˀA>>kqXl݌jN&[~u)[)z %Z +EYn_sf4Z΀A>MN\kqX8$hތmF&[{!xFZ+x =%Yŀ򍛍 DYlbqd*ZA>kEkqX|ݎ:WތmA&[:|v[Z&w L%Y6 CYo_od%[{A>z{5kqX"c܌m@&[7 veZ-t Y&Y6 DYMkbrd}ZA>:kqX"gތmG&[n} wWZ-w K%Y-߉EY%q_seZVA>y>kqYg!h݌n?([Ѐ}wT[*x 6&ZՉGZ'matf[~A>#kqXdڌo9'[uwIZ)wތ %YNԉEYp\re~ZA>$kqY%jn3(\ ~#y9[d.z%ZDZAoeqd [XA>8kqXy"hތo>([Myw5ZR &{ %ZCYr_rcZ[A>kqYP(dތo6'[!x+[_+w &ZEZkbte[sA>kqY"iߌp3'[ـ| x'Z_+x  &Y׀ /DY#oaseZ4A>QkqZa"g݌r>'\πxz(\U '{ &Z؀-CZq_rd\A? kqX cڌp>%[ yz+Ze*t &Y %DY~k auf~YNA?kqX!f݌q=&[zy.[ƀ*w !'ZFZȀmaug[^ A?vkqY2!hߌr4&\y!zD[,z 6'Z` BZDr_td[A?.zkqẀ#e݌r-%ZrzzWYS(v I'XCWq]ve~ZA?=mkqY"$iq/%[f~"{m[^-z_&Z؀CY mdvd~ZA?L)kqZ$hs3%\|"|y\1*z l'[݀D[qbwe~\CA?[ lkqX[5WތtF%[ 'zeZv0r X'Z ՉEZn_uf[:A?jkqYxߌvB$\Ay!{^\р $ @(Zގ}҉DZt^wd[4A?y}kkqWeیsB#[@ r|RZȀ&uތ%'YlՉFXo] zfZA??kqX%eތu=$[ˀ"|>Zl*x (YFYnbzfZoA?kqZ@"jwJ$\w$}7[/ *|'[ E[tcxe\A?:kqWWݎ@SߌuH"Z}!}+Z2&x 'Y€1EXo_{e#ZA?kqXLe݌xK"Zy ~&Y5" (XWCXtZ{d-YA?y>kqX"gތw]"[} $[*x (YaEZҀkb~f8~Z.A?kqX&e݌zU![ Z*w  (YDYbmb~fEZA?kqY&c݌zW!\Ѐ 3ZG+t ))Yр ~DZk`eP[,A?WkqY%b܌}K![|>[|+w 4(Z"pCZkbeY[A@/kqWڀe܌{O Zm rKZ&uތ>)YeDYm^ e`~ZA@}kqY€#k}Y \ {)[[$ (z M)ZYDZrage~[A@]OkqW(\ڌ^ ZynYU)sߌ b(X ‰NDXj bfi~Y&A@-kqX3ێ;Qڌe [`v|Z&w p&Ye ‰ADYʀp^ek~ZA@A@|kqW c܌"Zx*Y?'w %Ỷ*FY7n_fՈYSA@xkqXaٌ#ZblCZ 7%YΉ"EX€q[ f䈂ZҀA@tkqX c݌탩#[̀xRZK'w E$YЉEYo_gY{A@zkqY d݌탫#[{ gZ/*x _"Z|ω EZp\gZA@LDkqYـ%e݌"[Gz!u[ (z i#Z; ҉FZp`g[݀AA7kqW ڎ?L܌#ZzoZ(rߌ b#Y щEXj `g YAAVkqV!d݌"Z! q[Y%vߌ M#X ӉDW߀o_ eZրAA,fkqXS%e#[}"UZ-w 7"Y։FYj eh~ZAA;ZkqY%h#\]t$H[ *}"ZH։(EZtcg#[AAJkqZ:Qތ$] | 7\a0t ĉ #Zn؉\FZm_f2[wAAYy>kqW ڎ=N݌$Zz6ZW*t ʼn"Y2 ىgFYj `e@ZAAhkqYreތ%\v3[A!ʼn*"ZډGZQv^hP[AAwkqXS c݌)$[y0Z\)w ʼn !Z΀܉FYzXe`[@AArkqXovތ4#Zw.Z( "| lj!Yێ}ۉDYҀq^fqY;AAkqYfߌ;%\{ }#'[W"lj"Zր݉ՉFZ*v]h[8AAqakqXe݌S%[߀|*Za(w lj"YމFZl `gZAA-wkqX^$`܌I$[#'Z^1r ˉ"Y މFYjcfZ/AAzkqX7UތA%[ǀ '9YЀ+s ˉ."Y] ቒDYm^fYAAJkqXim܌\%[q:[߀ %}ˉ0"Y܀ݎቒDYt_gÈZAAxkqWH gތb%Z|IYP(x ͉@#Xـ ㉐߉DXn^eψZAAMkqYp!e݌c&\~`[](w ͉W#Z㉓։DZmah؈[FAAkqX6c܌&[wmZ "| ͉a"X䉓ΉEYqX i~ZAB NkqXm tތ򄚉&Zw=Z | щ"Y܎|扒FYYp]iZEAB:PkqX_ e݌򄔉'[΀z@ZN+s Ӊ7$Z݀艏/FY v[f Z(ABInkqYK5Vߌ􄵉%[ &;[/t ԉ$Y 鉐kqVoߎ:Tߌ%Z!NX_(s ՉE#W 뉒iFW9m`g;XKABl"kqX tߌ%[݀wgZ[ | ׉`$Yπَ{WDYq]fCZ(ABkqYw"l%[ |*w[p '{׉j%ZGEZrafI~[QABkqX!eތ#[{bZ*w ׉V$Y! 9GY%p^gN[XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 99 / 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 = 702708171.94762 TSTOP = 702711111.95232 DATE-OBS= '2023-04-09T04:42:46' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2940.00469994545 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 321 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'nZdQoZbPnZbPnZbP' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2294995008' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b141x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A'ňpY%rxNY=(eڃZt=h֌F Z ,H^tQZA=^-}ۍ*uZS'LjpXu|OY^ +eڃX Be֌H Z1Fb~uQZA=,x؍(s[H!*ňqZ"uMZJ -gڃZ=mڌI [3Gd uSZA=s'}ٍ(uYR(ƈrX(qMW: +gڃY:n׌I Z)N\tRYA=+#yՍ%tZP'ɈqY&m}MXT(fكY:jԌG Z*I]tQZA=g#"׍(u[T)ȈoY1%p|MZW*dڃZ?j׌I[-J_uPZA=&z֍'uYC'ȈpX$o|NWe*fكY=i׌JY*J[tPXA=3]%ٍ*uZX(LjpY:(q{MY1 +e׃Z?lٌH Z.JatPYA> '}ٍ)vZ`)ƈpY:'q{NYH+e׃Y7+|ڍ*u\p)ƈrZ8!wvO[x ,g؃[;l،J \4/Jb tR~[A> Ď"؍*tZ(ƈqXI&qqNYg+fփZۀ>l،G Z)-I`uQ|YA>/C؍(uZ(ƈpYL#pqMY}*eփYӀ5p֌G [:,K^ uQ{YA>>Ӯ!vҍ!v['LjpY\"roNZ 2eփZ݀ Ah׌H [,3Ce{tOzZA>M ڍ +uY'ňpX/eiMX~+~dփX 8jՌH Ym2B^ztPwXA>\3u؍'ƈuZ؀$(ňrYހ#oeNYU*xeՃZ?h׌I Z1E`|uPwY/A>kvގ(x׍&шsZ&ƈqY%m_KU(tfփZ9iՌG Zy,KZsQuYA>z(w؍'݈vZC'LjpY2'nY3(neփZ>eՌG Z00H^sQtZPA>m -xۍ *݈vZ!(ȈqY!rZMỲ" .ifՃZ^9j،H ZJ/K^tPrYA>%y֍'Ljt[F(ƈpY(lWKYm*bf׃Z1oՌI[!#WStOqZ-A>%%wԍ%tZ&ňqX$lVLY$(]f׃Yq;fՌIZ.KWtPoYA>X+zڍ)t[ *ÈpY#sVN[% -Ze׃[IfیH \ހ4Ka sQn[ A>G)y׍(ot[ƀ(rY%lYڀ(Te؃ZAf،JZ':=dyuQmY4A>&y׍'Wu[(rY%m`MZ-)PeكZ1&y׌J [6,NXvQlZA>$uӍ#CsZĀ'qYڀucLY +Md׃Z_ IcٌI Z4F_uQjZA>z)y׍(:t\)pZȀ&mfNZ*Ie؃Z@f׌H \D:@d|vRj[nA?P3$x֍%BtZ(pX݀%l`LY&Ee؃Y0/&wՌH Zɀ+MWtRhY4A? 0ߍ /Mr[Ȁ'pZ̀p_KZр! +Ae؃Z5 Ia֌H [2G]~tPgZA?E%}׍(mt[+(qYZ%n^MZ+@d؃[j?f׌G [/MZvRg[A?.ۍ *uYՀ'qỲ'hVKYπ *:e؃Yc7iԌH Yˀ&OUtPeXA?==*yڍ)t[׀*pY#rOKZ& -9e׃ZwJeڌH [5J` tPdZlA?L\,zٍ(u\׀*qZ)pLLZ -5f؃[W?f،I]se׌G [ڀ3F_tPZZA?S3rٍ'u\߀$)pZ#n3MZ*!e׃Za?e׌H [5Ca|rQZZA@IzՍ&sYy%pX"j‰6KU]' e׃Yf׌HZ@?cztRZY~A@~)x؍(s\E)ω~pY%nԉ(LZ +Od׃[?dٌJ[jڌljJ[6J_ uS^ZAAJ0)wڍ's\*ՉuqZՀ$pۉNY|*ljldك[9i׌ɉJ\1J[ uT`[AAY (u׍%tZ'׉noY"l܉LUy(ȉsdڃYW6f֌ɉHZ.JYtTaYWAAhA %ۍ*t\̀*ىjpY(n݉LZ*lj{fڃZlٌ͉I[1N\ tTfZAAuҍ"Ér[ڀ &ۉaqY&kMY 2ʉe׃Zr2m׌ωJ[!WQtRhZ&AA_"y؍'ʼnrZـ&ۉaoX݀#mቑ MY݀*͉c׃Zx:h׌ωH Z/H\tUiX)AA't֍$ƉsZ݀(݉^pXހ!n NX(̉f؃Ya7fՌщH Z-JZtSkZAA}k(|ڍ)ʼnLjsZ(݉`qY&m≐LZq,ωLjeփZ@;jٌ҉I Z1I] rSlYAA>#qь!ljΈsZЀ&މ_oX܀r䉐 LY /щӈd׃YYAc،щG Z6=_wsUnYAA $y؍'ʉ҈s[ (ቔ_nYʀ'm剐MZ*щވg׃Z0n׌҉I[$UTvUp[6AA|֍%ʉֈrZ&ቔ`pY(g扏KY(щf׃Yw9fԌߌՉJZ-IX‰sSrY(AB Z"uՍ$ˉۈtZ(ቔ^oYiu牑 MY *Ӊe׃Z1 IbڌՉHZ5F_ ĉtTuY>AB{֍$Ή߈t[%㉓_nY0d艐LY #ԉe׃Z9i׌ՉHZ3F]ʼnsUvZ$AB+"y׍%͉܈rZ&䉔^pY=!kꉐKY*Ӊ e׃Y3k׌ىJZ/GZĉsTyYAB:.ǎ{֍$Ήֈs[Ҁ$剔XoYʀ0dꉑMY$։c׃ZK:i֌ىIZ3F\ȉuT{YABI)wٍ'Љӈs[)䉓UpZ!oꉑOXȀ)Չ"eփZ&:h׌ۉJ[.J[ɉuR~Z%ABX#'}ڍ+ωՈs[(払RpZ&oꉐ MY +؉0f׃[=iٌ܉I\4J^ ɉuTZABg)wڍ'щՈr[)扔OpZ!o쉑 MX)։=f׃ZF9h׌݉J[.J[ʉtTZ-ABv )wٍ&҉ۈsY&艓MoX"lMW+ډHdփX#8i׌܉I Y-JXˉuSX,AB"y׍&ӉtZ&艒NpỲ!j퉏OYÀ+ىVe׃Y\4k֌݉KZ׀/G[ˉuSYAB0'}ڍ+ԉs[)ꉔRpY@&oNY+ډbg؃ZCA={\X c"YX&YG&‰͍Z$dŀZ$~ ._ր>A= Z\Y !c#TY'(Z+񍐍)͍[}%cZ1q0`k=^A=΀[Z!c0PY?$&ZD&΍Z}%cZ0r .]Z^ "d7XG(Yꍘ)ЍZՀ %^Y({/W򀣅4dA>f V &d5yZr([m+ύ['[[Ȁ3t2Y怤3A> 8^\ #c0}X(Zh򍔍*ЍZ}%]YÀ 2q0WW0A>/]] #e-zYy'Z񍒍)эZ}$\Z̀,u /Y/0A>>ހ_["c+Y 'Z 3ύ[|%]Zڀ2t /X/0A>MËaTb)'zWp~(X󍓍)эY}ߍ#ZY,r -V-A>\!g R#cA%|X(7Z􍏍)эZ#{$^Y2o .XȀ,A>k]W!dU$sY~'KZ ٍ(ҍ[[&]􃑄Z̀)w-Wڀ*VA>zۀ_W"d_!xXI&UZ񍐍(ҍZ{%]󃒄Zր6k .V *A>C_V$eQoX](EZJ􍒍,oэZy&_b񃐄Z/o/V'A>+Q^ !b? tY w'3Z񍐍)hԍ[){$_Z[~.r.Yr(A>Uqg M c(X򍊍&Z&hՍZπ"t"_ZZc Y %dsY )[.qԍ[xz)`d탑[x2q0WP$fA>wi O "djX (Z>&qԍZvz&_c냐Z׀.s /Wр#A>9CV] !d eXr([񍑍,wՍ[l{'`jꃒZ,s/XZ"A>`eT #daY(Z+׍Zw$avꃐZz.r /YC!A>Ik P $e!`Z/&[+׍\d{(b郑[r/s0X A?cWZ e]Xq&Yt썋#ۍZЀz$b胑Z*p -[dA?=2dS!c%ZY'ZR/ڍ[mz%b惒Z3r0\A?tgR "d>YYހ󍋍(5[􍋍)ۍ\C!u%d惒ZS =i0[A?.ۀ_S cSVW~(IY򍐍*܍Z}&b䃑Y*r .[mA?=Wd W $ciUYڀ (_Z.ߍ[Cy&dパZv2q1\A?L΀lU %dtTZ )k[Ԁ,zߍ\d|(ewヒ[j5q4[A?[k[Y"e`RYހ{&VZ ߍ(fߍ[] &eW⃓Z^"w.[+A?j \_Y $dI!TZ~(;[ր*d[z&fQ⃒[F2p/]Y}A?y\Ve.#QX& Z 򍊍&hZTu#gVZ 6f ,^A?dQ_ !e!&WYs(Z덊$uZ*z%gfZw-r/_!*A? bZ &c)UZ|([􍑍*~\X z(hm[e4n1^.A?_X "b -RXÀ(ލY ލ*Z`}$hzރZk's +`78A?M\Y "e 1WX;}'܍Yɀ񍐍*YIx&jރYY/o/^A?݃Ra $d6PYu }(؍Z򍐍*Z{'k݃Z".t0`逤AA?~R_ !e ;XYs(ՍZ썋%[{%m݃Z,r/bꀤA?@`V!c-@PY(%ӍZˀ򍏍*ʼn\Iz%mÀ݃[55l /aA?f S #d9DWYʀ(.ύ[r򍍍)ˉ\ŀ{%ǹ݃[?/o/c3A@z̀[U dBGPX%8̍Zڀ򍋍'ɉZt"oȀ܃Y 5h -b؀A@"_Y "dUM`Zހz(KʍZɀ󍏍)ʼn[ix&pŀ܃[W4m0cZA@FXWdjPUWy&_ƍYmꍏ%‰Y{"q€܃Y׀'q -eA@-_\V cxWYXˀ|&oƍZ捑'Z~#rۃZ*r -fA@<_Z $dd]RY)XčZ ㍙*[&sۃZ̀-u0iꀤA@KҀ\Y !cJcXX}%=ÍY(Z0x$uۃZ-o -jLA@ZSzfO!e-jSX~$"ōYt}$Yt$vۃYY&r ,i 6A@iӀaW "f!sVY})Í[)ʉZ*y%xۃ[1o /m"A@y1Sc #d#{RYT'ƍ[c􍑍*ى[Ԁ|({ɀ݃[+s0kǀ6A@ f U $eRY ) ōZx/[y%zրۃZ/n /n`A@d^] %eRY~ ) ɍZ􍐍+ލ[y(~뀣ۃ[6m2n@A@eԀcS %eMZT~&ɍZW򍍍)ۍ[{%|܃[߀1m 0p4A@̀cS !e ZXǀ|'ʍZۀ򍏍)؍Z}%܃Zŀ*r .p A@T"aT d"QX;{$͍Yk퍍&)֍Zv#$݃Z*p 0r΀A@̀]X!d=YXQz$3ύZA'7ӍZӀy$6݃Z-n .uOA@hs`T eMQXI|%A΍Y4썍&?ύZv"A߃Z*n /u뀤A@Ӏk O !ebWY\&XэZW&D͍Z$r#H߃Z =f /y>A@k S %fqPZ )bҍ[n+Bˍ[({%G߃[J1q 0zaAA,[VefʈWXÀz%[ՍY ؍'4ǍY!|ߍ"0߃Z%r +{AAaT dUԈPXF'J׍Y?򍍍(2čZt#(Y 5f .}?AA,!Y] $d>݈YYw(2ڍZU&;ÍZ{&.აZ+s0}W AA;E^^ %fSYY *ٍZ{􍐍,F[x'>⃑Z 4n2AAJ_]Z #c#]Y}'ލ[Ս)`\(Z䃒\I"&w/DAAY\V f\X|& ߍZk׍)fZ~%]僒Y-%t-ӀGAAhrG_Z $f, ]Y~(#[*y[|&w烒[m0q0․AAwހeS !eZY|([̀񍏍*[}%}胐ZV+q .nAA_Y "cWX.(Ỳ􍏍)Yow%胑Y`.q .qDAAZ_\ $e']Y(Z򍑍,[s{'ꃑZ[1r0AAMR\ "e0WY܀ u'Z߀ 1Zx{%냒Z|,r -<AAŀ`V"e:_X؀'Zŀ)Zjx%탒Zt&!}.AAۀZV f2BZX׀{%'Z ٍ&‰ȉZ7 #ˀZW!v ,'AADaW #d4MbY~((Z􍏍+ω[ {%̀Z1p1쀤AA㽀bR eEU\Xŀ&8Y򍔍+ʼnۉZv$׀񃒄YK,o 0eAA;R\ !fZ_mYt(ÉOZ񍑍+ʼn䉼\q{$〤􃒄[,r-AA,([W efjdX΀{%Ɖ]Ỳ)Ɖ牽Zgx$値Zu-o -AB 3fT #eOsjX~(ĉDZ+ƉꉾZx%ဤZ /s /AB2aZ "d)~dX*ʼn['ȉ󉿍Zk{&Z{,q / XԀ׍*͉&ǍY~ "*XR"t ,n)yABp^V!eemX}&͉\Zs򍏍(Ή.ʍZx$2 Z-o /,AB`_Z $dp~Y|(̉d[򍐍*ω+ˍ[vz&0 [€6m /3/ABfaV$e[ňvY<'ΉQZI'ω!ˍ[Hy$"Z/m /1RXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / 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 = 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 = 702709065.38438 TSTOP = 702709275.16762 DATE-OBS= '2023-04-09T04:57:40' DATE-END= '2023-04-09T05:01:10' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728400000000 / [s] UTCF at TSTART TELAPSE = 209.78323996067 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 323 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZQKggPJZZPJfdPJZ' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2997367410' / data unit checksum updated 2023-04-19T11:42:29 HISTORY TASK: FAPPND on FILENAME: sw01163401000b143x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A>3]B@  l` qoDDDDDDDDDDDDDDDDA>HB@  l` ),?=A>W?=A>8b?=A?]h?=AA"?=XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / 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 = 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 = 702708552.69272 TSTOP = 702710551.84966 DATE-OBS= '2023-04-09T04:49:07' DATE-END= '2023-04-09T05:22:26' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728000000000 / [s] UTCF at TSTART TELAPSE = 1999.15693998337 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 353 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3Hcp5EZm3Eam3EYm' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2472938920' / data unit checksum updated 2023-04-19T11:42:29 HISTORY TASK: FAPPND on FILENAME: sw01163401000b161x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=X '(+Cs5Bt?;ěAp?A>),'(+Cs5Bt?;ěAp?A>'(+Cs5Bt?;ěAp?A>8I'(+Cs5Bt?;ěAp?A?]h1'(+Cs5Bt?;ěAp?AA'(+Cs5Bt?;ěAp?XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 294 / width of table in bytes NAXIS2 = 99 / 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 = 702708169.09542 TSTOP = 702711109.0946 DATE-OBS= '2023-04-09T04:42:44' DATE-END= '2023-04-09T05:31:44' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2939.9991799593 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 369 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '475N745M445M445M' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1696179639' / data unit checksum updated 2023-04-19T11:42:29 HISTORY TASK: FAPPND on FILENAME: sw01163401000b171x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<65  D T  @  . < N B E 9 b 7Ō` d^WVm} eb v}_o X^P u w A<6  D S  ?  . < N B D 9 a 7ƌ` d^WVm} eb v}_n W_P u w A=B6  E U  @  - < N B F : a 7ƌ_ d]YVk| e b v}_n X]P u w A=*5  E U  @  / < N B F 8 b 7Ō` e^WVl} eb v}_oW]P u w A= !6  D U  ?  - < N B D 9 ` 7ƌ_ e]XVm| e b v}_n X]P u w A=/36  B U  ?  / < N B E : a 7ƌ` d]XVl} eb v}_n X]P u w A=>5  B S  A  . < N B E : a 7Ō_ d]WVk| ea v}_n W]P u w A=M3  D T  A  - < N B E : b 7Ì_ e]XVk} e b v}_o W^P u w A=\5  D T  ?  . < N B D 9 b 7Ō_ d^XVk} eb v}_n X]P u w A=k3  F T  ?  - < N B F 6 ^ 7Ì` d]XVk} e b v}_oW^P u w A=z33  C S  >  , < N B F 9 _ 7Ì_ e]WVk| e b v}_o W]P u w A=6  E T  >  . < N B F 9 _ 7ƌ_ e]XVk} eb v}_o W]P u w A=44  D T  ?  . < N B E 8 _ 7Č` e]XVk} eb v}_nW_P u w A=&W5  E T  @  . < N B F 9 ^ 7Ō_ d]XVk} eb v}_n W]P u w A=4  C S  ?  . < N B E 8 ^ 7Č` e^XVl} eb v}_oW^P u w A=Ō34  C R  @  , < N B E 7 ` 7Č` d^WVl} e b v}_oX^P u w A=Ԍ*5  C T  ?  . < N B E 9 a 7Ō_ d^XVl} ea v}_n X]P u w A=3  C S  >  . < N B G : _ 7Ì` e\XVk} eb v}_n W^P u w A=3  B T  >  - < N B E 7 ^ 7Ì` e]WVl} e b v}_nW^P u w A>3  C U  @  . < N B F 9 _ 7Ì_ d]XVk| ea v}_o X]P u w A>V5  A U  ?  - < N B E 9 ` 7Ō` d]WVk| e b v}_o W^P u w A>$_4  C T  @  . < N B F 8 ` 7Č`d]XVl} eb v}_oW^P u w A>.!4  B S  @  . < N B D 8 ` 7Č` d]WVl} eb v}_nW]P u  w A>=35  D T  >  , < N B F 8 _ 7Ō` e]WVk| e a v}_oW^P u w A>L!5  C S  @  - < N B D 6 _ 7Ō` d]XVl} e a v}_nW]P u w A>[!5  @ R  @  . < N B D 8 _ 7Ō_ c]XVl| ea v}_nW]P u w A>j*4  C R  ?  . < N B D 9 _ 7Č^ e\XVk| ea v}_n W^P u w A>y4  C T  @  , < N B F 8 ` 7Č` e^WVl} e a v}_nX]P u w A>4  A S  @  - < N B D 9 _ 7Č_ d]XVl| e b v}_n X^P u  w A>4  C T  @  - < N B D 8 ` 7Č_ c]XVj| e a v}_mW]P u w A>#2  A U  >  - < N B D 6 a 7Œ^ d]WVl| e a v}_mW]P u w A>*4  D S  =  , < N B D 6 a 7Č` d]XV l| e b v}_mW^P u w A>Č3  B T  <  + < N B C 8 ^ 7Ì` d\WV j| e a v}_nW^P u w A>ӌ3  D S  <  - < N B E : _ 7Ì_ d]WV l| e b v}_o W^P u  w A>4  C S  ?  - < N B E 9 ^ 7Č_ d]WVl} e b v}_o W^P u w A>2  B S  >  + < N B D 7 ` 7Œ^ d\XVl| e a v}_nW\P u w A?4  B T  =  + < N B F 7 a 7Č_ e\WV k| e a v}_nW]P u w A?'5  B U  ?  , < N B D 7 ^ 7Ō` c\XVk} e a v}_nW\P u w A?4  C T  <  - < N B B 8 ` 7Č_ c]XV l| e b v}_mW^P u  w A?-;3  E Q  @  + < N B E 8 _ 7Ì^ e]WVj} e a v}_oW^P uwA?<4  B S  >  - < N B C 7 _ 7Č^ d\XVj{ e a v}_nW]P uw A?K*3  C R  ?  - < N B B 8 ` 7Ì_ c]XVl} e a v}_nW\P u wA?Z*E4  A R  ?  , < N B D 7 ` 7Č^ c\WVl| e a v}_mW\P u w A?i32  A T  =  - < N B C 7 ` 7Œ^ d\WV k| e a v}_nW\P u  w A?x*5  D R  ?  , < N B D 7 _ 7Ō_ d]WVl| e a v}_nV^P u wA?*2  B S  =  + < N B D 7 ` 7Œ^ d]WV k| e a v}_nV^P u w A?5  B S  >  + < N B B 7 ] 7Ō^ d\XVj| e b v}_mW ]P u w A?4  B S  =  + < N B D 8 _ 7Č^ c\WV j{ e a v}_nV^P u  w A?2  A T  =  , < N B D 7 ^ 7Œ^ d\XV k| e a v}_nV^P u w A?Ì1  @ R  >  + < N B B 5 ^ 7^ e\WVj| e a v}_nW^P u wA?Ҍ&4  A S  >  * < N B C 7 ^ 7Č^ c\XVl| e ` v}_mW\P u w A?34  @ S  >  - < N B B 9 ^ 7Č^ d\WVj{ e a v}_m W\P u w A?3  C R  ?  * < N B E 5 ^ 7Ì^ d]WVk{ e ` v}_oW^P u w A?4  A R  >  , < N B B 8 ^ 7Č_ c]XVj| e a v}_mW]P u w A@*4  D R  =  - < N B C 6 _ 7Č_ e]WV l} e a v}_nW\P u  wA@2  A T  >  + < N B B 7 ^ 7Œ^ c\WVk{ e a v}_mW\P u  w A@,*3  C S  =  + < N B C 7 ] 7Ì^ c]XV l{ e a v}_nW ]P u  w A@; q3  D R  <  * < N B E 5 ^ 7Ì` d]WV l} e a v}_nW]P u w A@J4  A T  <  - < N B C 7 ^ 7Č_ c\XV l| e a v}_mW^P u w A@Y-0  B R  =  * < N B C 8 ] 7^c]WV k| e ` v}_mW \P u  w A@h2  A R  =  , < N B B 6 ] 7Œ^ c\WV j| e ` v}_mV ]P u  wA@w(N3  B S  >  ) < N B C 6 ] 7Ì_ d]WVl} e a v}_nW ^P u  wA@4  A R  =  + < N B B 7 _ 7Č^ c\XV l| e ` v}_mW\P u w A@y3  @ R  ?  * < N B @ 6 ^ 7Ì^ c\WVj| e ` v}_mW\P u w A@3  C R  =  , < N B A 6 _ 7Ì` d\WV k| e a v}_nW^P u  w A@y1  ? R  =  * < N B C 6 ^ 7^ c\XV l| e ` v}_mW\P u w A@Œ2  B R  >  + < N B A 7 _ 7Œ^ c\XVj{ e ` v}_nW\P u  w A@ь2  B R  <  + < N B D 4 _ 7Œ_ d]WV k} e a v}_nV]P u  w A@32  B Q  =  + < N B A 7 ^ 7Œ^ c\WV k{ e ` v}_mV^P u  w A@2  C Q  =  * < N B D 7 ^ 7Œ^ d]WV l} e ` v}_nV]P u  w A@*2  B Q  =  - < N B B 5 \ 7Œ_ c]XV l| e a v}_mW \P u  wAA 1  @ R  ?  ) < N B C 4 ] 7_ d\WVj| e ` v}_nV ]P u wAA*5  C R  =  * < N B C 8 _ 7Ō^ c]XV l| e ` v}_mW\P u wAA+3  B R  =  * < N B C 7 ] 7Ì_ d\WV k| e ` v}_nV ]P u  wAA:X%3  A R  =  + < N B C 6 ^ 7Ì^ d]WV l| e ` v}_nW\P u  wAAI*1  B R  ?  + < N B D 8 \ 7^ c\WVj{ e ` v}_nW \P u w AAX3  C R  <  * < N B D 4 ] 7Ì` d]WV k| e a v}_nV ^P u  wAAg*3  C R  =  + < N B B 7 ] 7Ì^ c]WV l| e a v}_mW \P u  w AAv2  B U  @  * < N B B 5 ] 7Œ_ c\WVj| e a v}_mV ^P u w AA3  B R  >  , < N B C 7 ^ 7Ì_ c]WVl| e a v}_mW\P u w AA2  A R  =  , < N B B 6 ^ 7Œ^ c]WV k| e ` v}_mW\P u  w AA34  B S  >  + < N B B 6 ] 7Č_ c]WVl| e a v}_mW \P u  wAAy4  A S  =  + < N B B 5 ] 7Č^ d]XV l| e ` v}_nW \P u  wAA3  B Q  <  * < N B C 6 ] 7Ì_ c]WV l| e a v}_nW ]P u  wAAЌ3r4  A S  =  * < N B B 6 ] 7Č_ c\XV l| e ` v}_mW ]P u w AAߌ2  A T  ?  * < N B B 8 ^ 7Œ^ c]WVl| e ` v}_mW\P u w AA&W5  D Q  ?  , < N B D 6 ] 7Ō_ c]WVl} e a v}_nW \P u wAA4  B S  >  + < N B C 5 ^ 7Č_ c\XVk| e a v}_mW]P u  w AB 6  A Q  ?  + < N B B 6 ^ 7ƌ_ c\XVl| e ` v}_mW\P u w AB33  A Q  >  , < N B B 8 ^ 7Ì^ c]WVl| e a v}_mW]P u w AB*2  A S  <  , < N B E 5 _ 7Œ^ d\WV j| e a v}_nV]P u  w AB9y3  B S  =  * < N B B 7 \ 7Ì` c]WV l} e a v}_nV ]P u  wABH34  B R  ?  + < N B B 5 \ 7Č^ d]XVl{ e a v}_mW \P u  w ABW3  A R  >  , < N B A 7 ] 7Ì_ c\WVl{ e a v}_mW \P u wABf33  A Q  ?  * < N B A 6 ] 7Ì_ c]XVk| e ` v}_mW \P u w ABu*3  A S  >  ) < N B C 5 \ 7Ì_ c\WVj| e a v}_nV ]P u  w AB q2  B Q  >  , < N B C 5 ^ 7Œ_ c]XVk| e a v}_nW]P u  wAB3  C R  >  + < N B @ 6 ^ 7Ì^ d]WVk| e a v}_mW]P u  wAB1  A R  =  * < N B A 7 [ 7` c\XV j{ e ` v}_mW ]P u w XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 99 / 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 = 702708170.29396 TSTOP = 702711110.35264 DATE-OBS= '2023-04-09T04:42:45' DATE-END= '2023-04-09T05:31:45' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2940.05868005753 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 371 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '8FaX9CXX8CaX8CWX' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3455050606' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b173x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<%{ O  * { t r h ] - } x +   ~ 8 / ,  ) 'i  P x 6   A<% O ~ 2 | t r h Z & z x +   } 8 . ,  '  'i  Q m 6   NA=%{ N ~ : z t r h Y ' { x ,   ~ 8 . -  ' 'i  Q y 4  IA=%{ M  * { t p h Z ( x w ,   ~ 7 . -  '  'i  Q y 5  |A=!%ϫ N ~ & z t p h X % y w /   } 8 . -  (  'i  P l 4   A=0%s N ~ 2 { t o h Y ' z v .   ~ 7 - -  * 'i  P n 5  gA=?-k N } 2 z t o h Y " { x /   ~ 8 , .  ) 'i  P | 4   _A=N% N } * y t o h X % x v +   ~ 9 . -  ( 'i  P n 5   A=]%… M } . y t p g X & z u +   ~ 8 / / ! ( 'i  Q i 5  TA=l, o O | - y u p g X ) { x *   ~ 8 0 .  (  'i  P { 5   َA={% N  * z u p g X ( | w *   ~ 7 - /  )  'i  Q l 4  4A=%˅ N 0 y t u h X #  z w )   ~ 7 . / ! ' 'i  R p 4   ֧A=%˅ O  7 { u p h X " { v ,   ~ 7 . . ) 'i  Q b 3  ՈA=-} O  - { t p g X % z v +   } 7 . -  ' 'i  R } 5   SA=% O ~ 4 | t p g X $ { u -   } 8 . .  ' 'i  R p 3   6A=-酎 N ( {  t p g W % y v ,   ~ 6 - .  ' 'i  Q 6  `A=% O 4 { u o h V (  w v -   ~ 7 . -  ( 'i  R l 6  EA=%… O  + y t o g V & z v -   ~ 8 * /  ' 'i  Q 5   gA=- O , z u p g W '  { v -   } 8 + .  ' 'i  R q 6  A>%s P  y u q h V (  y v +   } 7 * - ' 'i  Q q 6  A>%˅ P / z t p g V .  y w *   ~ 7 , /  (  'i  R l 7  օA> %{ O } & x t q h V & y w +   ~ 7 . . " )  'i  Q u 7  A>/+R O ~ 4 z t o g U )  w x ,   ~ 7 . ,  ( 'i  Q j 6   A>>)߅ P ~ + y u o h V %  x v *   ~ 7 2 0  ( 'i  R o 5 #  A>M%˅ O } # { t n g W '  y v +   } 5 / .  (  'i  R g 6   A>\%# N ~ 9 z t p g V * v x *   ~ 7 . .  *  'i  R o 6   A>k%s O ' z t o g U %  x w )   } 7 - .  ) 'i  Q { 6  A>z% N } % z t n f U &  z v +   } 6 . 0  ) 'i  R y 4  ذA>%{ N  3 w t n g T % x v +   ~ 6 . . ! ' 'i  Q 6   VA>%s N * y u o f U '  y x )   } 7 + / + 'i  Q g 5  A>)^ N  / z t m f U &  y w *   ~ 6 . .  ' 'i  R r 5  tA>+sm M  , y t n f U ) x w +   } 5 , -  ) 'i  R 7  A>% M 1 x t o f U )  x u *   } 6 , -  ) 'i  Q q 6  A>- M 2 x t o g V ' x v +   } 7 - /  ' 'i  Q k 5 %  A>-* M ~ / x s n g X & x w *   } 6 - -  ( 'i  R 5  }A>- M  ) z u n e V '  w v *   } 6 . 0  ' 'i  Q w 4  ֫A?%X M 7 x t n f W %  u u (   } 6 . / ! ) 'i  Q r 5  2A?*? O 6 w u n f U &  w v +   } 6 - .  (  'i  Q r 7  xA?*2 M ~ ( x u o f U "  x v *   } 7 , -  * 'i  Q } 6  A?.- M  5 w t n f U $  x u +   } 6 * ,  (  'i  Q k 7  A?=% N ~ ? v u n f T "  v v *   } 6 * ,  '  'i  R i 6  >A?L+N N | v u n f U "  v v ,   } 6 - .  '  'i  Q h 5   A?['\) L } , x u m f U +  v u ,   } 6 - - )  'i  Q v 5   A?j%… N ~  w u m f T )  x w ,   } 6 - -  & 'i  Q j 4   A?y, M ~ ' y  u l f U )  r u *   } 6 . .  ) 'i  Q q 6  A?%j M } * w u o f T +  r v +   } 6 - .  & 'i  Q 6   aA?'Ln M ~ ( w  u o g S &  r v *   } 6 . .  &  'i  Q m 7  )A?%a M ~  v u o f T )  y v )   ~ 6 . /  &  'i  P v 4  A?% M } / w u o f T '  | u *   } 6 - )  &  'i  Q x 5  ^A?.+k L } " x t n g U )  { u *   } 6 . 0  % 'i  P p 4  A?%؅ M ~ # w t p f T &  y v )   } 6 / 0  & 'i  P l 4  &A?&D L }  z  t q f T ' z v *   } 5 / /  & 'i  P 2   ְA?& M ~ 4 y  u q f T "  { v +   } 6 . 1  $ 'i  Q o 2  A@,M N } + x  u o e T )  z v +   } 6 . -  & 'i  Q y 5  A@)ׅ M } ' x u o f T %  z u -   } 5 . +  & 'i  Q s 2  יA@%j L | & x t r f T $  { u -   } 6 . +  ( 'i  Q t 4  fA@-% M | 0 w  u r e U (  | u +   } 7 - ,  ( 'i  P n 3  MA@<% L | + x  u p f T -  y u +   } 7 - ,  & 'i  N  2  A@K)d M { + w  u q f V %  z u +   } 7 . ,  %  'i  O m 2   eA@Z%… L | & v  u q f V (  { u )  } 7 / .  %  'i  O ` 3  FA@i% M | 4 x  t q f V '  y u +  } 8 . -  %  'i  O j 2  A@x,"h N } ( w  u q f X "  y u (   } 8 . .  %  'i  O s 1  A@*.^ N | 0 w  t q e U )  | v +   } 7 . ,  %  'i  O c 0  նA@'T M } 4 w  u r e U %  w u +  } 7 - + " %  'i  O h 4  ׏A@%j M } 7 w  t r e T )  w u +   } 7 . ,  '  'i  O m 2   A@'܅ L } : x  t p e S (  x t -  } 8 0 / " %  'i  O u 2  կA@-T M ~ - x t q e U &  y u -  } 8 / . $  'i  O p 2  FA@%j M } + w t p f T )  { t -  } 6 / ,  &  'i  O b 2  ׆A@-G M ~ ) x  t o f T ) { t ,  } 7 / .  '  'i  P u 1  GA@- M } & v  t p e U *  { t +  } 7 . + " (  'i  N l 1  A@% L ~ * t  u o e U '  z t +  } 6 . ,  '  'i  P ` 1  עAA%a M ~ ) v  u r f T &  y s *   } 6 . .  '  'i  O m 3  ,AA+𙅍 M ~ + u  u r f T ( w t *   } 7 . +  '  'i  O o 3  ءAA,,Z M  ) u  t t f W %  z t (  } 6 - ,  ' 'i  P b 1   fAA;% M 1 v  u o f T %  z u )   } 6 . +  )  'i  ~ O ^ 2  AAJ% M  ) v  u q g T '  x u (   } 6 - ,  ' 'i  N d 2  هAAY+W N  ( x  u o f T "  y v +  | 6 - -  &  'i   O a 3  OAAh,7a M  & w  u p f U )  x t +   } 5 . -  ' 'i  N a 2  BAAw+ N ~ v  u o f U (  z t -  } 6 / /  ' 'i   O z 2   AA,녍 O ~ 3 x  u n f T , y s .   } 6 / +  ' 'i  } O d 3  )AA%a N } + y  u o f U (  z u 0   } 7 / )  * 'i  N ` 4  AA%a N ~ 1 w  u q g S %  y u -  } 7 - *  ' 'i  ~ O e 4  ؤAA* O } ! w  u q f T %  x u ,   } 7 + *  ( 'i  O a 3  ׇAA% N  + w  u p f U *  { s ,   } 6 - *  & 'i  O c 4   !AA&\ N }  y  u p e U )  | u +  } 5 - ,  ( 'i  O ] 7  ձAA&څ O ~ * x  v p f U %  z u +  } 7 - ,  (  'i  N Z 4  `AA,g M ~ 6 x  v o f V ( y v )   } 6 - , ) 'i  N ^ 6 "  AA+ N } , w  u o f V )  | s *  } 8 / - ) 'i  O ] 6   نAB % L ~ , w  v s f W +  v t )   } 6 . )  ' 'i  O d 4  AB,m L ~ ( w  v p f W , u )  } 6 . + ! & 'i  P a 4  AB+%a L ~ ) x  v p f T '  u *  } 7 / + ) 'i  O Z 4  ڹAB:,pe M  % y  u o e T &  u (   } 7 / .  )  'i  N ` 4   ەABI+녔 L ~ 5 y  u r f V ' v -  } 6 / -  (  'i  N X 4   ~ABX%j M } - y  u p f U )  u /   } 7 - )  '  'i  N k 6   ٵABg+٩ L } ! y  u p e V '  u .   ~ 6 / * ! )  'i  N r 4   ABv%… M } - y  u p f W *  u -   } 7 , *  &  'i  N q 4   AB&4 M | / z  u p e V *  v ,   } 6 - ,  &  'i  N 5   KAB-" M | ) {  u q e V %  u -   ~ 7 / ,  '  'i  N t 4   %AB-#O N } 4 z  v p e V -  u -   ~ 7 . -  '  'i  O b 4   yXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 99 / 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 = 702708170.29568 TSTOP = 702711110.35686 DATE-OBS= '2023-04-09T04:42:45' DATE-END= '2023-04-09T05:31:45' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2940.06117999554 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 372 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3aNQAaKQ3aKQAaKQ' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '4003236061' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b174x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<%؄ b  E b R 7 P  { ;   # t  h H c  v 7 ^ e |   l   N  1  | )  )  Y M _ J v A<% c  F a R 7 P  | ;   # t  h H c ~ v : _ f {   l   N  1  | )  )  Y M _ J v A=&e a  G b R 7 P  y ;   # t  h H c ~ u = _ e |   l   N  1  | )  )  Y M _ J v ϋA=% a  D c S 8 P  y ;   # t  h H c ~ u = ] e {   l   N  1  | )  )  Y M _ J v *A=!& a  E c R 8 P  z ;   # t  h H c } u < _ d |   l   N  1  | )  )  Y M _ J v A=0%τ a  C d R 8 P  z ;   # t  h H c ~ t = _ f ~   l   N  1  | )  )  Y M _ J v 1A=?- a  D c P 8 P  | ;   # t  h H c } u  > ^ e   l   N  1  | )  )  Y M _ J v ͪA=N% a  F c Q 8 P  z ;   # t  h H c ~ t  > ^ f   l   N  1  | )  )  Y M _ J v ^A=]%n a F b R 7 P  z ;   # t  h H c } t  < ^ f   l   N  1  | )  )  Y M _ J v вA=l,Ē b E d Q 8 O  { ;   # t  h H c } t  ; ^ f   l   N  1  | )  )  Y M _ J v цA={% a  D e Q 9 P  x ;   # t  h H c } t 9 ^ f   l   N  1  | )  )  Y M _ J v ` g   l   N  1  | )  )  Y M _ J v A=.0 a  G f P 6 P  y ;   # t  h H c | s  < ` g   l   N  1  | )  )  Y M _ J v A>%τ `  G f P 6 P  y ;   # t  h H c } s  : _ e ~   l   N  1  | )  )  Y M _ J v A>%' a  I f P 8 P  { ;   # t  h H c | s  ; _ e ~   l   N  1  | )  )  Y M _ J v ΒA> %w `  G f Q 8 P  { ;   # t  h H c { s  < _ e ~   l   N  1  | )  )  Y M _ J v ϧA>/+ `  J f Q 8 P  { ;   # t  h H c | r  < ` e ~   l   N  1  | )  )  Y M _ J v ΓA>>*7 a  G f Q 7 P  { ;   # t  h H c | r  ; _ d    l   N  1  | )  )  Y M _ J v -A>M%' `  E e Q 8 P  { ;   # t  h H c | r  = ` f    l   N  1  | )  )  Y M _ J v A>\&I `  D d Q 7 P  { ;   # t  h H c } r  < ^ f    l   N  1  | )  )  Y M _ J v ΡA>k%τ `  F d Q 7 P  { ;   # t  h H c | r  ; ] g   l   N  1  | )  )  Y M _ J v λA>z%w a  C f R 7 P  { ;   # t  h H c } q  : ^ g ~   l   N  1  | )  )  Y M _ J v A>%' b  F e Q 8 O  { ;   # t  h H c | r  < _ f }   l   N  1  | )  )  Y M _ J v oA>%τ `  C e Q 6 O  | ;   # t  h H c | q  < ^ f }   l   N  1  | )  )  Y M _ J v A>) `  F f P 7 P  } ;   # t  h H c | q  : _ e |   l   N  1  | )  )  Y M _ J v A>+# a F d Q 8 O  z ;   # t  h H c | q  = ] e }   l   N  1  | )  )  Y M _ J v A>%n a  F d Q 7 O  | ;   # t  h H c z q  < ^ e }   l   N  1  | )  )  Y M _ J v A>- b  G f R 6 P  y ;   # t  h H c { q  ; ] d |   l   N  1  | )  )  Y M _ J v 1A>-. a  G e Q 7 O  z ;   # t  h H c { q  9 ] e z   l   N  1  | )  )  Y M _ J v YA>- a  F g P 7 O  y ;   # t  h H c z p  : ] e y   l   N  1  | )  )  Y M _ J v A?%] a  F f P 6 O  z ;   # t  h H c { p  = ^ d |   l   N  1  | )  )  Y M _ J v \A?+C `  F c Q 6 P  y ;   # t  h H c { q  ; ^ d {   l   N  1  | )  )  Y M _ J v A?*% a  F d P 6 O  { ;   # t  h H c z p  : ^ e z   l   N  1  | )  )  Y M _ J v A?..($ `  H c P 6 O  } ;   # t  h H c { p  < ^ d }   l   N  1  | )  )  Y M _ J v vA?=%e b  F e Q 5 P  { ;   # t  h H c { p  : ^ d z   l   N  1  | )  )  Y M _ J v YA?L+Ȅ b  E b Q 5 O  { ;   # t  h H c { p  < _ d z   l   N  1  | )  )  Y M _ J v !A?[' a  F d P 4 P  z ;   # t  h H c { p  : ] c |   l   N  1  | )  )  Y M _ J v ϏA?j. a F c O 4 P  | ;   # t  h H c { p  : ] b y   l   N  1  | )  )  Y M _ J v ϥA?y, a  D e P 5 P  { ;   # t  h H c { p  > ] b {   l   N  1  | )  )  Y M _ J v ϘA?. a E d P 5 O  z ;   # t  h H c | o  < \ b x   l   N  1  | )  )  Y M _ J v A?'˄ a E c P 5 P  y ;   # t  h H c | o  9 ] d w   l   N  1  | )  )  Y M _ J v ϦA?%e b  D c P 4 P  z ;   # t  h H c | o  < ^ c x   l   N  1  | )  )  Y M _ J v ϵA?% a  D e P 5 P  z ;   # t  h H c { o  < _ c y   l   N  1  | )  )  Y M _ J v )A?.g a  F d Q 5 O  z ;   # t  h H c | o  9 ] c y   l   N  1  | )  )  Y M _ J v A?&ӄ b D d P 5 O  z ;   # t  h H c } o  ; _ c z   l   N  1  | )  )  Y M _ J v OA?& a C c Q 4 O  z ;   # t  h H c | o  = ^ c w   l   N  1  | )  )  Y M _ J v A?& b  D e Q 4 O  y ;   # t  h H c | o  ; ^ c w   l   N  1  | )  )  Y M _ J v ѝA@,U b  E e P 4 O  { ;   # t  h H c | o  ; _ c x   l   N  1  | )  )  Y M _ J v !A@)Sz a  F f P 4 O  y ;   # t  h H c | n < _ d x   l   N  1  | )  )  Y M _ J v όA@% a  F d O 5 O  x ;   # t  h H c { o : ^ d y   l   N  1  | )  )  Y M _ J v A@-%n a  G e P 5 O  z ;   # t  h H c | n ; _ d w   l   N  1  | )  )  Y M _ J v A@<%⬄ a F g Q 4 O  y ;   # t  h H c | n : ` d v   l   N  1  | )  )  Y M _ J v A@K)> `  G f P 4 O  w ;   # t  h H c | n < ^ b w   l   N  1  | )  )  Y M _ J v oA@Z% a E d Q 4 P  y ;   # t  h H c | n : ^ a x   l   N  1  | )  )  Y M _ J v 7A@i%䤄 ` E e P 5 P  y ;   # t  h H c } n 9 ^ b x   l   N  1  | )  )  Y M _ J v BA@x,\ ` D f P 4 O  x ;   # t  h H c } m  9 ] a y   l   N  1  | )  )  Y M _ J v ќA@*zc `  E f O 4 O  y ;   # t  h H c | m  : ` b w   l   N  1  | )  )  Y M _ J v A@' ` D f P 4 P  z ;   # t  h H c } n  8 _ b w   l   N  1  | )  )  Y M _ J v A@% b G f P 3 O  y ;   # t  h H c | n  ; ^ b w   l   N  1  | )  )  Y M _ J v TA@( a H g O 3 P  x ;   # t  h H c | m  6 _ b x   l   N  1  | )  )  Y M _ J v ϚA@.. a  E g Q 4 O  y ;   # t  h H c { m : _ c w   l   N  1  | )  )  Y M _ J v ^ b |   l   N  1  | )  )  Y M _ J v xAB,z b E e Q 5 P  | ;   # t  h H c { l < ^ c z   l   N  1  | )  )  Y M _ J v ϓAB+% b D h Q 5 P  | ;   # t  h H c { m = ` b |   l   N  1  | )  )  Y M _ J v AB:, a D g Q 5 O  { ;   # t  h H c { m = ` a |   l   N  1  | )  )  Y M _ J v ABI+V b D h P 5 P  { ;   # t  h H c | m 9 ^ a {   l   N  1  | )  )  Y M _ J v oABX%n b  D g Q 5 O  { ;   # t  h H c } m < a b y   l   N  1  | )  )  Y M _ J v ABg, b D f P 5 O  z ;   # t  h H c { m ? _ b {   l   N  1  | )  )  Y M _ J v $ABv%e b C h Q 5 O  { ;   # t  h H c | m = ` b |   l   N  1  | )  )  Y M _ J v ҩAB&I a A d Q 5 O  { ;   # t  h H c { m = ^ a {   l   N  1  | )  )  Y M _ J v PAB-6 a D f P 6 O  x ;   # t  h H c { m < a c }   l   N  1  | )  )  Y M _ J v њAB- a E d Q 5 P  z ;   # t  h H c } m = b b {   l   N  1  | )  )  Y M _ J v \XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 99 / 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 = 702708171.44548 TSTOP = 702711111.44506 DATE-OBS= '2023-04-09T04:42:46' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2939.99958002567 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 373 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZaKAZXH4ZaH9ZUH9' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1891020277' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b175x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<}@TEN  ` m  A R  8 <  D   . B  B 5 ~ H _ | 0 z / H 6 2 A  K   . D  F 4 ~ D  b s 0 z / H 6 2 ǼA=?@TEN  `  A V  8  I   / A   @ 4 } F ] v 0 z / H 6 2 oA=N@TEN  ^  B W  : E  P   - B  E 4 ~ F ^ t 0 z / H 6 2 ʵA=] @TEN  `  A N  8  6   . E   D 4 ~ D ^ u 0 z / H 6 2 A=l@TEN  ^  B Q  8 C  W   - D   C 3 C Z x 0 z / H 6 2 lA={b@TEN  ^ m  C U  ; A    . D  F 2 } E h ~ 0 z / H 6 2 )A=@TEN  a  B V  8 1  G   . C   B 4  D  e r 0 z / H 6 2 ɌA=+@TEN  _  B U  8 F  9   . C   C 2 } E x z 0 z / H 6 2 ȪA= @TEN  _ r  B V  9   8   . C   A 1 } B h n 0 z / H 6 2 A=@TEN  a  C X  9 B     . D B 4 } C  c t 0 z / H 6 2 qA=Ƹ@TEN  a p  B Y  8 2  H   . B   A 2 C h p 0 z / H 6 2 A=չ.@TEN  a  C W  9 :  6   , D  @ 3 | B e q 0 z / H 6 2 A=@TEN  a  A V  9 7  *   - B  = 4 z F ` x 0 z / H 6 2 ɵA=ރ@TEN  ^  B T  8 ;  =   - B  D 2 } D f | 0 z / H 6 2 !A>j@TEN  ] m  B W  9 B  ;   . B   ? 0 } C _ s 0 z / H 6 2 A>ރ@TEN  ^ x  A V  9 @     / D   ? 1 } B c v 0 z / H 6 2 %A> 5@TEN  _  A W  8  D    / C  > 1  C r t 0 z / H 6 2 A>/@TEN  ^  @ W  8  A   . E   G 2  D  k n 0 z / H 6 2 A>>@TEN _ p  B X  9 ?  9   . C  B 3 ~ B h m 0 z / H 6 2 A>M.@TEN  ^ w  A X  8 D  ?   , E   G 2  B \ l 0 z / H 6 2 ȜA>\@TEN _ x  @ Y  7 ;  ?   . D   B 1  C Y v 0 z / H 6 2 3A>k=ك@TEN  `  A W  6   ?    . C  A 2 | C \ v 0 z / H 6 2 ;A>z@TEN  ` l  A P  7   #    , C   B 4 } B [ { 0 z / H 6 2 JA>Ճ@TEN  a  @ X  5 >  -   . C   @ 6 ~ B a s 0 z / H 6 2 MA>b@TEN  _ o  A W  8      / B   E 2 } 2 _ 0 z / H 6 2 A>.@TEN  `  A W  6 5  9    / C   < 0 { &  g w 0 z / H 6 2 A>@TEN  ` v  A W  6   6   / B   D 1 } &  l o 0 z / H 6 2 A>Ź%@TEN  ` l  A X  5   :   . C  ? 4 | & b | 0 z / H 6 2 A>Թ@TEN  a n  A V  7 6  F   . D   < 6 | & b x 0 z / H 6 2 iA>j@TEN  `  A V  6 B  9   / B   C 2 | N V r 0 z / H 6 2 2A>@TEN  a  A R  7   <   . B  ? 6 { N ] x 0 z / H 6 2 A?}@TEN a u  A U  7       . B   ? 5 | L _ r 0 z / H 6 2 ;A?@TEN c  @ V  7 @  H   0 C  @ 3 } K  ] r 0 z / H 6 2 {A?Ã@TEN  b e  @ V  6 <  N   . @   A 7 ~ L [ s 0 z / H 6 2 A?.j@TEN  b  A P  8 A  9   . B  ? ; } K ^ r 0 z / H 6 2 A?=@TEN ` u  ? S  7 -  @   0 B  B 4 ~ J _ { 0 z / H 6 2 A?L%@TEN  _   @ V  9 8     / A  C 9  I f m 0 z / H 6 2 ʡA?[.@TEN a k  A X  5 %  I   . C  D 6 } H i s 0 z / H 6 2 ɳA?j@TEN  _ y  @ W  7 A  <   . C  @ < ~ F  U u 0 z / H 6 2 A?y@TEN  _  A U ! 7 A  4   . C  C : } I ^ n 0 z / H 6 2 A?@TEN  ^  @ U 7 6  Q   . B  B 2 { H Z t 0 z / H 6 2 _A?@TEN  ]  @ X  7 B  K   - B  > 2 ~ G Z | 0 z / H 6 2 A?Ã@TEN  ^  ? W  7 ?  K   - C  @ ,  G  ] x 0 z / H 6 2 RA?6@TEN  \  ? W $ 6 .  Y   / A  A ,  F a ~ 0 z / H 6 2 A?ĸY@TEN  ]  @ U  6   S   . B  B / ~ H  o u 0 z / H 6 2 ʡA?ӹ@TEN ^  @ W  5 A  A   - D  @ , ~ E  f v 0 z / H 6 2 tA?@TEN ^ x  @ X  6   X   . C  > / E [ } 0 z / H 6 2 jA?b@TEN  ^  ? W  9 =  O   . B  C +  G b r 0 z / H 6 2 A@%@TEN  ^ t  @ N 8 D  9    . A   C 3 D _ { 0 z / H 6 2 ǦA@b@TEN  ^  @ U  7 B  J   / A  E / B ` s 0 z / H 6 2 A@}@TEN  `  A V  8 4     / A   C . B c | 0 z / H 6 2 ȻA@-.@TEN  `  ? P ! 8  C    0 @  G / C b u 0 z / H 6 2 NA@<@TEN  ` h  @ U ! 8 .  K   / B  F . ~ D ] m 0 z / H 6 2 |A@KՃ@TEN  _  @ W ! : >    0 B  F , ~ B X w 0 z / H 6 2 FA@Z@TEN  _  @ W  6 2  8    / B  E , D Z t 0 z / H 6 2 fA@i@TEN ^  @ M " 6 :     / A   @ * B h { 0 z / H 6 2 A@x@TEN ^  @ S  6 >     . B B 0 A g r 0 z / H 6 2 A@@TEN  _  @ V ! 6 .  <    / C  @ -  B  ^ o 0 z / H 6 2 A@@TEN  _   @ U ! 6      / D   B - } C Z o 0 z / H 6 2 A@.@TEN  _  A Y  6 4  D    . B   C - ~ B \ s 0 z / H 6 2 A@}@TEN  _  @ W  7 )  ,    . A  C )  C ^ s 0 z / H 6 2 A@ù@TEN  ^  @ Y ! 5 &  =    / B   H + } A _ l 0 z / H 6 2 `A@Ҹ@TEN _ o  ? Q # 7 @  7   . C  A (  A k s 0 z / H 6 2 :A@.@TEN _  @ W ! 6   1    . A  F ) ~ A \ d 0 z / H 6 2 ,A@@TEN ` o  A W " 9   2    / D  B ' ~ E \ p 0 z / H 6 2 ˹A@.@TEN  _  @ W " 7 D  M   . B   @ ) ~ @ [ v 0 z / H 6 2 {AAb@TEN ^  @ V " 6   3   . A  C ( ~ A m s 0 z / H 6 2 ȉAA.@TEN `  @ X 6 A  J   - B   @ (  A \ n 0 z / H 6 2 ǢAA,@TEN  a r  @ X " 5 -  <   . B  B ' ~ @ ] r 0 z / H 6 2 %AA;j@TEN b  @ W " 5 6  I   . A  ? ' } A \ i 0 z / H 6 2 ɂAAJ6@TEN b  ? Z  8 .  5   - C   D * | @ Z q 0 z / H 6 2 AAYb@TEN a t  @ R  6 4  N   . E   @ ) { A b k 0 z / H 6 2 LAAh.@TEN  `  A W  7 2  H   . C  B ( { B m k 0 z / H 6 2 $AAw@TEN  _  @ W  6 0    - D  B ( ~ B ^ v 0 z / H 6 2 nAAb@TEN  ^  @ P  6 C  3   . A   B ) | @  S s 0 z / H 6 2 lAA@TEN `  A V  6 C  E   . C  B * } ' \ o 0 z / H 6 2 OAAb@TEN a r  @ W  5 5  .   . B  @ ( } ' U t 0 z / H 6 2 NAA6@TEN  _  @ X  7   :   . C  D + ~ '  l v 0 z / H 6 2 rAA¸j@TEN  _ ~  @ U  7 !  K    . D  @ + ~ M b v 0 z / H 6 2 AAѹ@y@TEN  _ y  @ S  8 B  $   . B  D * } J Z h 0 z / H 6 2 AA@TEN  ^  @ U  9 <  E   - C  B ,  I  ` r 0 z / H 6 2 2AA}@TEN  ^ n  @ T  5 :     - B  = - } I  e i 0 z / H 6 2 ˢAA@TEN  `  A P  4 "  F   . C  ? +  I  k o 0 z / H 6 2 ˵AB @TEN a   A R  5 C  O    - D  = / H  d j 0 z / H 6 2 ?AB@TEN  a n  A L  4 :  <    - D  B 0 { G b p 0 z / H 6 2 AB+Ã@TEN  a  A T  6   -    . E  A 1 ~ H X j 0 z / H 6 2 0AB:6@TEN  _  @ U  5   )   . D  D 0 | H k t 0 z / H 6 2 gABIj@TEN `  @ V  7 *  ;    / E  A 2  E \ q 0 z / H 6 2 ABXރ@TEN  a q  B V  5 <  >    . C   A 2 ~ I a p 0 z / H 6 2 ȆABg@TEN  a u  @ T  : C      . D   @ 0  D  _ q 0 z / H 6 2 ABv@TEN  b  A U  9   S   / E   B 0 ~ D [ q 0 z / H 6 2 AB@TEN  a j  @ Y  8   V   / F  B 0 ~ E _ u 0 z / H 6 2 ̼ABՃ@TEN  b z  @ W  8 5  X    / D  B 0 ~ D m o 0 z / H 6 2 ɚAB@TEN  b l  A X  9 7  )    / E   A 1 { F ` h 0 z / H 6 2 XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 99 / 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 = 702708171.44752 TSTOP = 702711111.4475 DATE-OBS= '2023-04-09T04:42:46' DATE-END= '2023-04-09T05:31:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2939.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 374 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'jEAhjE8gjEAgjE5g' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2950263374' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b176x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END ATZxd[eVPi+4monUcw]_ibgd[`eWgrmvgal_oQZ\}fR]D5N`pnVgY_bmVcpcc\`i$)0%/E4:#.%F ym]PdLYomlXad13ʹA=nYTZxdZeVPi+4lnmUbw]_hbfdZ`dWgrmwgak_oQZ[|eR\D5O`pmVfY^bmUcqbc]`i$)0%/E4:#.%F ym]PdLYomlY`c12A=;:TZxc[eUPi+4lnmUbw]_ibfd[`dWgrmvgal`oPZ\|eR\D5N`pmVgX_alUcqbc\`i$)0%/E4:#.%F zn]PdLYomlX`d13A=F_TZwcZdVOi+4mnnVcw\_hbfdZ`dWgrmvg`k`oPZ\|eR\D4N`pmVgY_amVcpbc]`i$)0%/E4:#.%F ym]PdLYomlYac12A=ƹ9TZxcZdUOi+4momUcw]_hafdZ`dWgrmwgal_oPZ[|fQ\D4O_omVgY^bmUcpbc\ai$)0%/E4:#.%F ym]PdLYpmlX`c12A=չGTZxcZeVOi+4lnnUbx]_ibfd[`dWgrmvgak`oPZ\|eR]D4N`pmVgX^amUcobc\`i$)0%/E4:#.%F ym]PdLYomkX`d13*A=7LSZwcZeUPi+4lnmUbw\_hbfdZ_dWgrmwg`k`oPZ[|eR\C5N_pmVfX_alUcpbc\`i$)0%/E4:#.%F ym]PdKXomlYac12vA=ESZxcZeUOi+4mnmUbv]_hbfcZ_dWgrmwgal`oPZ\|eR\D5N_pmVfY_alUbpbc\`i$)0%/E4:#.%F zm]PdLYomlX`d12A>;TZxcZdVPi+4lnmUbw]_hafcZ`dWgrmvg`k`oPZ[}eR\C5N_pmVfX_alUcpbc]`i$)0%/E4:#.%F ym]PdLYomkX`d13A>ESZwcZeUOi*4mnmUbw]_hafdZ`dWgqmwgal_oQY[|eR\D5N_pmVgY^bmUcpbb\`i$)0%/E4:#.%F ym]PdLYomlX`d13GA> xՄTZxdZdVPi+4lnmUbw]_ibfc[`eWgrmvgal_oPZ\|eR\D4N_pmVgY_amUcpbc]_i$)0%/E4:#.%F ym]PdLYomlY`d12:A>/ESZxdZeVPi*4lnmUbx]_iafcZ_dWgrlwgal_oPZ\|fR\D4N`pmVfY^amTcpbc\_i$)0%/E4:#.%F ym]PdLYomlX`c13ʠA>>9CSZxcZeVPi*4lnmUbw]_hbfdZ_dVgrmvg`k_oPZ\|eR\C4N_pmVfY_alUcpbb]`h$)0%/E4:#.%F ym\PdLYomlY`c12AA>MF_TZwcZeUPi*4lnmUbw\_hbfcZ`dWgrmvgal_oPY[|eR\C5N_pmUfY_alUbpbb\`i$)0%/E4:#.%F ym]PdLYomlX`c13jA>\@ySZwcZdUPi*4lnmUbv]`hafdZ`dWgqmvf`k_oPZ\|eR\C4N_pmVfX_alUcpbb[`i$)0%/E4:#.%F ym]PdKYolkY`c12A>k TYwcZdUOi*4lnlUaw]_hafcZ`dWgqmvf`l_oPZ\{eQ\D4N_pmVfY^alUboad\_h$)0%/E4:#.%F ym\OdLYomkX`c12A>z7SZwcZdUOi*4lnlUbw]_ibfcZ`dVfqmvg`k_oPZ[{eR\D4N_pmVfX_amUbpbb\`i$)0%/E4:#.%F ym\PcKYnmkW`c12A>HVSZwcZdUOh*4lnmUbw]^hafcZ_dWgrmvgak_oPY[{eQ\D5N_omVgX^alUbpbb\`i$)0%/E4:#.%F ym]OdLYolkX`c12*A>:SZwcZeUOi*4kmmUbw]_hafcZ`dWgrlvf`k_oPY[|eR\C4N_pmVfX^alTbobb\`i$)0%/E4:#.%F ym]PdKYomlX`c12A>GSZwcZdUOi*3lnmUav\_hbecZ_dWgqmvg`k_nPY\|eQ\C4N_omVfX_alUcoab]_i$)0%/E4:#.%F ym]OdLYnmkX`c12A>ESZwcZdVOi*4lmmUbw]_hbfcZ_dVfrmvg`k_oPZ\|eQ\C4M_omVfX^amUbpbb\`i$)0%/E4:#.%F ym]OdKYnmlX`c12̒A>ŹHVSZxcZdVOh*4lnmUbv\_haecZ`dWgrmvf`k_oQZ[|eR\D4N_pmVgX^amUcpbc\_h$)0%/E4:#.%F ym\PcLYomkX`c12 A>ԹCSZvcZeVOi+4mnmUbw]_hbfcZ_dWgrlvgak_oPZ\|eR[C4N_pmWgX^alUcpbc\`i$)0%/E4:#.%F ym]OdLYomkX`c03̈A>8SYwcZeUOi+4lnmUbx]_hbfcZ`dVgrmvfal`oPY[|eQ\C4N_pmVfY_alUcpbb\`h$)0%/E4:#.%F ym\PdKYomkX`c12^A>ISZwcZdUOh*4lnmUbw\_hafcZ_dVfqmvf`k`oPY[{eR\C4N_pmVfY_alUbpbc\`i$)0%/E4:#.%F yl]PdKYomlX`c12A?HVSZxcZdVPi*4lnmUaw\_hafcZ`dWgrmvg`k_oPZ\{eR\D4N_pmVgX^alUbpbb\`i$)0%/E4:#.%F ym]OdKYomlX`c12ɾA??фSZwcZeUOh+4lmmTbw]_hafcZ`dVgqmvg`l`oPY[{eR\C5N_pmVeX^amUcpbb\`h$)0%/E4:#.%F ym]PdKYomkX`c12vA?7SZwcZdUOh*3lmmTbw\_hafcZ_dVgrmvg`k`oPY[{eQ\C4N`pmVfX^amUbpbb\`i$)0%/E4:#.%F ym]PdKXomkW`c12.A?.9SZwcZdUOh*4lnmUav\_hafcZ_cVfrmvg`k_oPZ\|eR\C4N_omVfX^alUboba\`i$)0%/E4:#.%F yl]OdLYomkX`c12 A?=ESZwcZdUPi*4lmmTbv\_haecZ_cVgqmvf`k_oPZ[{eQ[D4N_pmUfX^alUbpbb\_h$)0%/E4:#.%F ym]OcKXomkW`c02A?LJSZwcZdUPi*3lmlUbw]_hafcZ_cVfqlvf`k^oPY[{eR[D4N_pmVfX^alUbobb]_h$)0%/E4:#.%F ym\OcKYnmlX`c11A?[GSYwcZdUOh*3lnmUbw\_hafcZ_cVfqmvg`k_oPZ\{eQ\C4N_pmUfX^`lUbpab\`h$)0%/E4:#.%F ym\PdKXomkX`c12cA?j?фSZxcZdUOh*3lnmUbw\_hbecZ_cVgqluf`l_oPY[|eR[C4M_omVfY_`lUcobb\`h$)0%/E4:#.%F ym\OdLYnmkX`c12͙A?yGSZwbZdVOi+4mnmVbw]_hbfcZ_dVgqmvg`k_oPZ[{fR[C4M`omVfX^alUbpbb\_h$)0%/E4:#.%F ym\OcLYolkX_c128A?F_SZwcZdUPi*4lnlUbw\_hafcZ`dVgrlvgal_oPZ[|eQ[D5N_pmVfX^alUbpab\`h$)0%/E4:#.%F ym]OcKXomkX`c12`A?9SZxbZdUPi+4lnmUbw\^haecZ`dWgrmvg`l`oPZ\|eQ\C4N`pmVfX^alUbobb]_i$)0%/E4:#.%F ym]PdKYomkX`c12A?DgTZxdZdVOi+4lnmUbw\_haecZ`dWgrmvg`l_oPZ[|eR\C4N_pmVfX^amUcpbb]`i$)0%/E4:#.%F ym]PdKYomkX`d12ʕA?F_TZxcZeVOj+4lmnUbw]_hafcZ`dVfqmvfak_oPZ[{fQ\D4N_omVfX_alUcobb\_h$)0%/E4:#.%F ym]PdKYomkX`c12IA?ĹHSZwbZdVOi*3lnmUbw]_hafcZ`dWgqmvg`l_oQZ[|eQ\C5N`pmVgX_alUcobc]`i$)0%/E4:#.%F ym]OdLYomkX`c12A?ӹF_SZwdZdUPi+4lomTbw\`hbfdZ_dWfrmvgal_oQZ\|fQ\C4N_pmVfY^amUcpbc\_i$)0%/E4:#.%F zm]PdLYomlX_c12CA??фSZwcZeUPi*4lnlUbw]_ibfcZ_dVfqlvg`k`oPZ\|eR\C4N_pmVgX^alTbpbc\`i$)0%/E4:#.%F ym]PdLXnmlX`c12ɿA?gSZwdZdVOh*4lnmTbw]_hafcZ`cWgrmvg`k_oPY[|dQ\D4N_pmVfX^`lUbpbb\`i$)0%/E4:#.%F ym]PdKYomlX`c12KA@HTZwcZdUPi*4lnnUbw]_hafdZ_dWgrmvfak_oPZ\|eR\D4N_pmVfY^amUbpbc\`h$)0%/E4:#.%F xm\PcKYomlX`c12EA@;SZwcZdUOi*4lnmTaw\_haecZ_dVfqlvg`k_oPZ[{eQ[C4N_omUfY^amUcpab]_h$)0%/E4:#.%F ym]OdKYolkX`c12A@HVSZwcZdUOi*4lmmUbw]_hafcY`cVgqlvf`k_oPZ[|eR[C4O_omVfX^alUcpac]`h$)0%/E4:#.%F ym]OdLYolkX`c12˺A@-GSZwdZeUOi*4lnmUbv[^haecZ_cVfqmvfak`oQZ[{eR\C4N_omUeX_alUbpbb\`i$)0%/E4:#.%F ym\OdLXomlW`c12ˬA@<:SZxcZdUOi+4lmlUaw\_haedZ`dVfqmug`k_oPZ[{eR\C4N_pmVfX_alUaobb\`h$)0%/E4:#.%F yl\OdKYomkX`c12ʮA@KGSZwcZdUPi+4lnmUbw\`hafcZ_dVgrmvf`k`oPY[{eQ[C4N`omVfX^`mUcpbb\`i$)0%/E4:#.%F ym\OdLYnmkY`c02XA@ZCTZwcZeVOi+4lnmUbw\_hafcZ`cWgqmvf`k_oPY[|eR\C4N_pmWfX^alUcpbc\_i$)0%/E4:#.%F ym\PcLYpmlX`c12A@iGSZwcZdUPi+4lnnUbw\_hbfcZ`dWgqlvg`k`oPZ[|eR\C4N`pmWfY_alUcpbc]`i$)0%/E4:#.%F ym]PdKYomkX`c12ǂA@xSZwcZdUPi+3mnnUbv\_hafcZ`cWgrmvgak_pPZ[|fR\D4M_pmVgY^alUbpbb\`h$)0%/E4:#.%F ym]PdLYomkX`c13NA@@yTZxcZeUPi+4lnmUbw]_hbfcZ`dWgrmvg`k_oPY\|fR\D5N_pmVfX_alUcpbb\_h$)0%/E4:#.%F ym]PdLYomkX`d12A@gSZwcZeVPi+4lnmUbw]_ibedZ`dWgrlvgak`oPY[|eR]D4N_pmVgX^alUcpbc]`i$)0%/E4:#.%F zm]PcLYnmlX`d13A@GTZwcZeUPi+4mnmUcw\`hafcZ`dWgrmvgak`oQZ[|eR\D5O_pnVgY_alUcpbb\`i$)0%/E4:#.%F ym]PdLYomlXac12A@HTZwcZdUOi+4komTbw]`hbfcZ`dWgrmvgal`oPY\|eR\D4O`pmVfX^blVbpbc]`i$)0%/E4:#.%F ym]PdKYomkX`c13NJA@ùET[xc[eVOi*4lnmUbw]`hafcZ`dWgrmwgal_oPZ\|eR\C5N_pmVgY^alVcpbb]`i$)0%/E4:#.%F ym]PdLYomlX`c12A@ҹKSZxc[eVPh+4mnmUbw]_hbfcZ_dWgrmvgak`oPZ\|eR\C4N_pmVfX_alUcpbc]`h$)0%/E4:#.%F ym]OdLYomkXac12ʳA@F_TZwcZeUOh*3lnmUbw\`hbfcZ`dVgrmvgal`oPY\|eR\D4O_pmWfY^alUcpbb\_i$)0%/E4:#.%F ym]OcLZomlX`c12ʏA@ABIETZxc[eVPi+4lomUcw]_hbfd[`dWhqmvgal`pQZ\}eR\D5N`pnVgY_blVcqbc\ai$)0%/E4:#.%F zm]PdLYomlY`d13ABXETZxcZeVPi+4mnmUcw\`icgd[`dWgrmvgal_oQZ\}fR]D5O_pmVgY_bmUcpbc]aj$)0%/E4:#.%F ym]PdLZnnkX`d13ABgGT[xcZeVPi+4lnmUbw]_hbfdZ_dWgrmvgal`oQZ\|fR\D5N_pmVfY_bmVcpbc]`i$)0%/E4:#.%F ym]PdLYommX`c22ˌABvDgT[xd[eVPi+4monUbw]_hbfd[`dWgrmvgal_oQ[\|eR\D5N`pmWgX_blVcpbc]`i$)0%/E4:#.%F ym]PdLZpmlYac13NABITZxcZeVPi+4lnmUcw]`hbfd[`dWgrmwgal`oQ[\}eR\C5O`pmVfY^amVcqbc]`i$)0%/E4:#.%F ym]PdLYomlYac130ccX'6I<kinikZ/2,6iA0ccX'6I<kinikZ/2,6tA=Rh pc`ZVluoN[qUZcjj|kkaz`+(`ahV1%ng^Ojw]hog`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6~A=RiYpc`YVlunN[qUYcjj|kkaz`+(`ahV1%og^Njw^hof`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6tA="Rmpc`ZWluoO[pUYcjj|kkaz`+(`ahV1%og^Njw]hng`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=1Rkpb`ZVltoN[qUYcjj|kkaz`+(`ahV1%og^Njw]hng`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=@Rpb`ZVltoO[qUZcjj|kkaz`+(`ahV1%og^Ojw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6]A=ORkpbaZVluoO[qUZcjj|kkaz`+(`ahV1%og^Njw^hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6XA=^RiYpc`ZVmuoN[qUZcjj|kkaz`+(`ahV1%ng]Njw]hnf`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6(A=mRjpb`ZVluoO[qUYdjj|kkaz`+(`ahV1%og^Ojw^hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6}A=|RiYqb`ZWlunN[qUZcjj|kkaz`+(`ahV1%og^Ojw]hog`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rjpc`ZVluoN[qUZcjj|kkaz`+(`ahV1%ng^Njv]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rjpb`ZVltnNZqUZcjj|kkaz`+(`ahV1%ng^Njw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6kA=Rhpb`YVltnN[qUZbjj|kkaz`+(`ahV1%of^Niv]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6\A=Rjpb`YVltnN[qUZcjj|kkaz`+(`ahV1%og^Njw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rhpb`ZVltnN[qUZcjj|kkaz`+(`ahV1%of]Niw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rhpb`ZVktnN[qUZbjj|kkaz`+(`ahV1%of^Njw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rlpb`ZVltnNZpTYcjj|kkaz`+(`ahV1%of]Niw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A=Rgbpc`ZVltnN[qUYcjj|kkaz`+(`ahV1%ng]Niw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6/A>Rkpc`ZVktoN[qUZbjj|kkaz`+(`ahV1%ng^Ojv\hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6[A>Rlpb`YVltnN[qUYbjj|kkaz`+(`ahV1%nf^Niw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6@A>!Rjpb`ZVluoN[qUZbjj|kkaz`+(`ahV1%ng^Njv\hof`r5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>0Rjpb`YVltoNZqUZcjj|kkaz`+(`ahV1%of^Njw\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>?RiYpb`YVktnNZqUZbjj|kkaz`+(`ahV1%nf^Niv]hng_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>NRkob`YVktnN[pUYcjj|kkaz`+(`ahV1%of^Niw]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>]Rjob_YVktnNZqUYcjj|kkaz`+(`ahV1%nf]Niv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>lRiYpb`YVltnNZqTZbjj|kkaz`+(`ahV1%nf]Niw]hmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>{Rmob_YVktnNZpTZbjj|kkaz`+(`ahV1%nf]Niv]hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ÛA>Ro?ob`YUltnNZpUYbjj|kkaz`+(`ahV1%nf]Niw\gmf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>RkQpb_YVktnMZpTYbjj|kkaz`+(`ahV1%nf]Njv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>Rloa_ZVltnNZpUYbjj|kkaz`+(`ahV1%nf]Niw\hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>Rppb`YVktnNZqUYcjj|kkaz`+(`ahV1%nf]Niv\hmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6BA>RmHob`YUltnNZpTXbjj|kkaz`+(`ahV1%nf]Niw\gmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6 A>Rmpb`YVktnN[qTYbjj|kkaz`+(`ahV1%nf]Niv]gne_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>Rkpb_ZVlunN[pTYcjj|kkaz`+(`ahV1%nf]Niv]hmf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A>Roob`YVktnNZqUYbjj|kkaz`+(`ahV1%nf]Niv\hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A?RmHob_YVktnNZqTYbjj|kkaz`+(`ahV1%nf]Niv]gme_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6°A?RmHob_YVktnNZpTYbjj|kkaz`+(`ahV1%nf]Miv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A? Rkob_YUktnNZpTYcjj|kkaz`+(`ahV1%nf]Niv\gne`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A?/Roa_ZVltnNZpTYcjj|kkaz`+(`ahV1%nf]Miv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6‰A?>Roob`YUktmNZpTYbjj|kkaz`+(`ahV1%nf]Niv\gmg_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,65A?MRmob`YVltnNZpTYbjj|kkaz`+(`ahV1%nf]Niv]gme`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6wA?\Rkob_YVktnN[pTXbjj|kkaz`+(`ahV1%nf]Miw\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6vA?kRmHob_YVktnMZpTYbjj|kkaz`+(`ahV1%nf]Niv]gme_p5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6|A?zRq7oa`XVktnMZpTYbjj|kkaz`+(`ahV1%nf]Niv\hmf_p5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6‡A?Rkpb`YVktnNZpTZbjj|kkaz`+(`ahV1%nf]Niv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6%A?RmHob_YVkunNZqTYbjj|kkaz`+(`ahV1%nf]Niv\gmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6YA?Ro?pb_ZVktnNZpUZbjj|kkaz`+(`ahV1%nf]Niv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6¡A?Rppb`YVktnN[qTYbjj|kkaz`+(`ahV1%nf]Niv\hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A?Rnpb`ZVktnN[qUZbjj|kkaz`+(`ahV1%nf^Niv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6*A?Rkpb`ZVltnN[pUZbjj|kkaz`+(`ahV1%nf]Niv\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6)A?RmHob`ZVltnNZpUYcjj|kkaz`+(`ahV1%nf]Miv\gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A?Rpob`YVltnNZpTYbjj|kkaz`+(`ahV1%nf^Niv\gnf`p5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6(A@Rkpb`YVktnNZpTYbjj|kkaz`+(`ahV1%nf^Niv\gmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6&A@Rlob_ZVltnNZpUYbjj|kkaz`+(`ahV1%of]Miv\hme`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ZA@Ro?ob`YVktnN[qTXbjj|kkaz`+(`ahV1%ne]Niw\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6bA@.Rloa`YVktnMZpTYbjj|kkaz`+(`ahV1%nf]Miv\gmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6RA@=Rlob_ZVktnNZpUYbjj|kkaz`+(`ahV1%mf]Miv\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6†A@LRoob`ZVktnNZpTYbjj|kkaz`+(`ahV1%nf]Niv\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@[RkQob_ZVktnNZpTZcjj|kkaz`+(`ahV1%nf]Miv\gmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@jRppb_ZVltnNZqTZcjj|kkaz`+(`ahV1%nf]Niv\gmf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6zA@yRmob`YVltnN[pTYcjj|kkaz`+(`ahV1%nf]Miv\gnf_p5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6YA@Rlpb`YVltnNZpUZcjj|kkaz`+(`ahV1%nf^Niv\gnf`p5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@Rmpb`YVltnNZpUYbjj|kkaz`+(`ahV1%nf^Niw\hmf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@Rlpc`ZVltoN[pUYcjj|kkaz`+(`ahV1%nf^Miv\gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6fA@Ro?oc_YVlunOZqUYcjj|kkaz`+(`ahV1%nf]Niv\gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6lA@Rlpc`YVltnN[pUYbjj|kkaz`+(`ahV1%nf]Njv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@Ropb`ZVltnOZpTYbjj|kkaz`+(`ahV1%nf]Niv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@Rnpb`ZVltnNZqTZcjj|kkaz`+(`ahV1%nf^Niv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6A@Rppb`YVltoMZqUYbjj|kkaz`+(`ahV1%nf]Niv\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARnob`ZVltnN[qUYcjj|kkaz`+(`ahV1%nf^Niw]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6@AARmHpa`ZVktnN[pTYcjj|kkaz`+(`ahV1%nf]Niv\gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARopb_YVltoN[pUZcjj|kkaz`+(`ahV1%nf]Niv\gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6:AA-Rlpc`ZVltnNZqUYcjj|kkaz`+(`ahV1%nf]Niv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AA0ccX'6I<kinikZ/2,6±AAKRkpb`YVlunO[qUZbjj|kkaz`+(`ahV1%nf^Niv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AAZRnpc`ZVltnO[qUZbjj|kkaz`+(`ahV1%nf^Niv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6:AAiRlpb`ZVltoN[qUZcjj|kkaz`+(`ahV1%nf^Niw]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6{AAxRlpc`ZVltoN[qUZcjj|kkaz`+(`ahV1%nf^Niv]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARo?pcaZVluoN[qUYcjj|kkaz`+(`ahV1%nf]Niv]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARlpb`ZVlunO[qUZcjj|kkaz`+(`ahV1%nf^Niw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6(AARnpb`ZVluoN[qUZbjj|kkaz`+(`ahV1%nf^Niw]hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARkpb`ZWltnN[qUZcjj|kkaz`+(`ahV1%nf]Njw\hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6/AARopb`ZVltoN[qUZcjj|kkaz`+(`ahV1%nf^Niv\gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,69AARmHpb`ZVkuoN[qUZcjj|kkaz`+(`ahV1%nf]Niv]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6YAARnpb`ZVlunN[qUZbjj|kkaz`+(`ahV1%nf]Njw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AARopb`YVltnN[pTYcjj|kkaz`+(`ahV1%nf]Niw]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6uAARmHob`ZVltnNZpUYcjj|kkaz`+(`ahV1%nf^Njv]hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ÃABRo?pc_ZVltnN[pTYcjj|kkaz`+(`ahV1%nf]Niw\gng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ABRmHpa`ZVltoN[qUZcjj|kkaz`+(`ahV1%nf]Niw]gnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6AB,Ro?pb`ZVktnOZqUYcjj|kkaz`+(`ahV1%of]Njw]hnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,64AB;RkQpb`ZWluoN[qUYcjj|kkaz`+(`ahV1%nf]Njw]gng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ABJRo?pb`YVluoN[pUYcjj|kkaz`+(`ahV1%nf^Njw]hnf`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ABYRkpb`ZVltoN[pUZbjj|kkaz`+(`ahV1%og]Njv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6«ABhRo?pb`ZVltoN[qUZcjj|kkaz`+(`ahV1%nf^Njw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,65ABwRkpc`ZVltnN[qUZcjj|kkaz`+(`ahV1%nf]Njv]gnf_q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ABRopb`YVlunN[qUZcjj|kkaz`+(`ahV1%ng]Njw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6_ABRmHpc`ZVluoN[qUYcjj|kkaz`+(`ahV1%nf^Niw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6ABRppc`ZVluoN[qUYcjj|kkaz`+(`ahV1%nf]Njw]hng`q5=]e(1j`pc\q>0ccX'6I<kinikZ/2,6XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 99 / 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 = 702708172.64562 TSTOP = 702711112.64578 DATE-OBS= '2023-04-09T04:42:47' DATE-END= '2023-04-09T05:31:47' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2940.00015997887 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 376 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:29' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9U2YCR0W9R0WAR0W' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '1506294811' / data unit checksum updated 2023-04-19T11:42:29 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: sw01163401000b178x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:31 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END AR/LG+#'".6'A$#@1"nnk^tj{Xc\cgolcjcdf`YeqtdwhwpbnYnWfamE8re`RekHh^p3 Kp_jef^S,"l^A>R/LG+#'".6'A$#@1"~nnk^sj{Wc\dfnlcjcdf`YeptdwhwobnXnWfalE8rf`RflIi^p3 Kp_jef^S,"l^A>!RU/LG+#'".6'A$#@1"onk^tj{Wb\cfomcjcdf`YepudwhwpbnYnWfalE9re`SelIi^p3 Kp_jef^S,"l^=A>0RU/LG+#'".6'A$#@1"~onk^tk{Xc[cfnlcjcdf`YeptdwhwqbnXoWg`lE8re_RflIi^p3 Kp_jef^S,"l^0A>?R/LG+#'".6'A$#@1"onk^tj{Wc[cgnmcjcdf`YeptdwhwobnXnWfalE8rd_RfkIh^p3 Kp_jef^S,"l^A>NRL/LG+#'".6'A$#@1"omk^sj{Xb\cfnmcjcdf`YequdvhwobnXnWfalE8se`SekHi^p3 Kp_jef^S,"l^\A>]RU/LG+#'".6'A$#@1"onk^tj{Wb\cgnmcjcdf`YeptdwhwpbnXnWf`lE8rf_SelHi^p3 Kp_jef^S,"l^|A>lR/LG+#'".6'A$#@1"omj^sj{Wb[cfnmcjcdf_YeqtdwhxobnXnWfalE9rd_RfkHi^p3 Kp_jef^S,"l^=A>{R/LG+#'".6'A$#@1"onk^sj{Wb[cfnlcjcdf_ZeptdwhwpamXnWfalE8rd_RfkHi^p3 Kp_jef^S,"l^JA>RD/LG+#'".6'A$#@1"nmk^sj{Wb[cfnlbjcdf`YfptdwgwpbnXnWf`kE8rd_RekHh^p3 Kp_jef^S,"l^A>R/LG+#'".6'A$#@1"omk^tj{Wb[cfnlcjcdf`YeptdwgwobnXnVfalE8re`RekHh^p3 Kp_jef^S,"l^|A>R/LG+#'".6'A$#@1"omk^sj{Wb[cfnmbjbdf`YeptdwgvpanXnVfakE9rd_RflHh^p3 Kp_jef^S,"l^sA>R/LG+#'".6'A$#@1"nnk]sj{Wc[cfnlcjbdf`YeptdwhwobnXnWfalD8re_RekHh^p3 Kp_jef^S,"l^A>RL/LG+#'".6'A$#@1"nmk^sj{Wb[cfnlbjcdf`YeptdwgwpbmXnWf`lE9rd_RekHi^p3 Kp_jef^S,"l^A>R/LG+#'".6'A$#@1"nmk^tj{Wb[cfombjcdf`YeqtdwhwpcmXnWfakE8rd_RekHi^p3 Kp_jef^S,"l^2A>RL/LG+#'".6'A$#@1"nnk]si{WbZbfnlcjcdf_YeptdwhwobnXoWf`lE8rc_RekHh^p3 Kp_jef^S,"l^A>R/LG+#'".6'A$#@1"~nmk^tj{Wb[cfnlbjcdf`YeptdwgwpbmXnWf`kE9rd_RekHi^p3 Kp_jef^S,"l^A?RL/LG+#'".6'A$#@1"nmk]sj{Wb[cfnmcjcdf`YeptdvhwpbnWnWfalE8rd_RejHh^p3 Kp_jef^S,"l^=A?RL/LG+#'".6'A$#@1"nnk^sjzWb[dfnlbjbcf_YeptcwhwpanXnVf`kE9rf_RekHh^p3 Kp_jef^S,"l^@A? RD/LG+#'".6'A$#@1"~omk^sk{Wb[cfnmbjcdf`YeptdwgwoamWnWfalE8re_RekIi^p3 Kp_jef^S,"l^A?/R?/LG+#'".6'A$#@1"~nmj^si{Wb\bfnlcjcdf`YeptdvgwoanXnWf`lE8rd_RekHh^p3 Kp_jef^S,"l^A?>RD/LG+#'".6'A$#@1"~nmk^sj{Wb[bfnlbjcdf_YfptdwhwobnXnVfalE8rd_RekHh^p3 Kp_jef^S,"l^A?MR/LG+#'".6'A$#@1"~nmk]sjzWb[bfnlcjbdf_YeptdvgwoanXmWf`lE9rd_RekHh^p3 Kp_jef^S,"l^pA?\R/LG+#'".6'A$#@1"~nmj^sjzWb\bfmlbibdf_YfptdvgwpbnXnWf`kE8rd_RejHh^p3 Kp_jef^S,"l^A?kR/LG+#'".6'A$#@1"~omk]sizWb[cfnlcjbcf_YeptdwgwobnXnWf`lD8rd_RekHh^p3 Kp_jef^S,"l^A?zR/LG+#'".6'A$#@1"nmj^sj{Wb[cfnlbjbdf_YeptdwgwpbmXnWfalE8qd_RekHi^p3 Kp_jef^S,"l^3A?R/LG+#'".6'A$#@1"nmj]sjzXb[cfnlcjcdf`YeptdwgvoanXmVf`kD8rd_RekHi^p3 Kp_jef^S,"l^A?R/LG+#'".6'A$#@1"~nmk^sj{Wb[cfnlcjbdf`YeptdvhwobmXnWfalE8rd_RekHh^p3 Kp_jef^S,"l^A?RD/LG+#'".6'A$#@1"nnj^si{Wb[cfolbjcdf`YeqtdvgvobnXnWfalE8rd_RekHh^p3 Kp_jef^S,"l^A?R;/LG+#'".6'A$#@1"nnk^sj{Wc[cfnlcjcdg`YeptdwgwpbnYnWf`lD8sc_RekIh^p3 Kp_jef^S,"l^DA?R/LG+#'".6'A$#@1"~nmk^si{Wb[cfnmbjbdf`YeptdwgwobnXnWf`lE8qd_RekHi^p3 Kp_jef^S,"l^A?R/LG+#'".6'A$#@1"nmk^sj{Wb[cfnlcjbdg`YeptdvgwoanXnWf`lE8rd_RekHi^p3 Kp_jef^S,"l^&A?R/LG+#'".6'A$#@1"nmk^si{Wb[cfnlcibdf`YeptdvgwpbnXnWfalE8rd_RejIh^p3 Kp_jef^S,"l^?A?R;/LG+#'".6'A$#@1"~nnk^sj{Wb[cfnlbjbdf`YeptdvhwoanXnWf`lE8rd_RekHi^p3 Kp_jef^S,"l^cA@RL/LG+#'".6'A$#@1"~nmk^sj{Wb[cfnlcjbcf`YeptdvgwoamXmWf`lE8qd_RekHh^p3 Kp_jef^S,"l^"A@R/LG+#'".6'A$#@1"nnk]sj{Wb[cfnmbiccf_YeptcwhwobnXnVf`lE7qd_RekHh^p3 Kp_jef^S,"l^gA@RD/LG+#'".6'A$#@1"~nmk^si{Wa[cfnlcjccf`YepsdvgvpamWnVf`kE8rd_RekHi^p3 Kp_jef^S,"l^NA@.RL/LG+#'".6'A$#@1"~omj^si{Vb[bfnlcibcf_YeptdvgwpanXnVf`lE8rd_RfjHi^p3 Kp_jef^S,"l^~A@=RD/LG+#'".6'A$#@1"~nmk]sj{Wb[bfnlbjbcf_YdptdwgwpbmXnVe`kE8rd_RekHi^p3 Kp_jef^S,"l^A@LRD/LG+#'".6'A$#@1"~nnk]sj{Wb[cfnmcjbcf_YeptdwgwobmXnWfalE8rd_RekGi^p3 Kp_jef^S,"l^)A@[R/LG+#'".6'A$#@1"~nmk]sj{Wb[cgnmbiccf`YfptdvgwobnXmWf`kD8qd_RekHh^p3 Kp_jef^S,"l^A@jR/LG+#'".6'A$#@1"~nnk]sizWb[cfnlcjccf_YeptdwgwobnXnWfakE8rf`RekHh^p3 Kp_jef^S,"l^A@yR/LG+#'".6'A$#@1"nmk^sj{Wb[cfnmcjcdf`YeptdvgwobmXnWf`kE8se_SekHi^p3 Kp_jef^S,"l^A@R/LG+#'".6'A$#@1"~nmk^sj{Wb[cfnmbjcdf`YeptdvhwpbnYnWe`kE8rd`RfkHi^p3 Kp_jef^S,"l^ A@R/LG+#'".6'A$#@1"onk^sizWb\cfolcjbdf`YeptdwhwpbnXmWfakE8rd_SfkHh^p3 Kp_jef^S,"l^NA@R/LG+#'".6'A$#@1"nnk^tj{Wb[cfnlcjcdf`YeptdvgwpanXnWf`lE8rf`RekHi^p3 Kp_jef^S,"l^A@R/LG+#'".6'A$#@1"nmk^sj{Wc[cfnlbjcdf`YeptdwhwpbmYnWfalE9rd_RekHi^p3 Kp_jef^S,"l^A@RL/LG+#'".6'A$#@1"omk^tj{Wc[cfnlbjcdf`YeptdvgwobnXnWfalD8rd`RekHi^p3 Kp_jef^S,"l^A@R/LG+#'".6'A$#@1"nnk^tj{Wb[cfnlcjcdf`YeptdwhwobnXoWf`lE8rd_RelIi^p3 Kp_jef^S,"l^A@R/LG+#'".6'A$#@1"nnk^tj{Wb[bfnlcibdf`YeptdwhwpbmXoWfalE9re_RekHh^p3 Kp_jef^S,"l^A@R/LG+#'".6'A$#@1"nnj^sj{Wb[cfnlcjbdf`YepsdwgwpbnXnWf`lE8qd`RekHi^p3 Kp_jef^S,"l^AARD/LG+#'".6'A$#@1"~nnk^tj{Wb\bfnmbibdf`YeptdvhwpbmXnWf`lE8rf_SfkHi^p3 Kp_jef^S,"l^MAARc/LG+#'".6'A$#@1"nnk^sj{Wb[cfnlciccf`YeptdvhwobnXnWfalE8rd_RfkHi^p3 Kp_jef^S,"l^AAR/LG+#'".6'A$#@1"nmk^si{Wb[cfnlcjcdf`YeptdwgwpbnXmWf`lE8rd`RelHh^p3 Kp_jef^S,"l^gAA-R/LG+#'".6'A$#@1"nmk^sj{Wb[cfnlcjcdf`YeptdvhwpbnXnWfalE8re_RekHi^p3 Kp_jef^S,"l^AA\1ЀLm,xa3\c22222F\TjO3؄1$1Ā*FL֨A=cd`ɛ2p /? Lǜ/ۀHݫzN&ʳ_ҀLV\2L*m,da3܋\c22222F\TO3$2 Ā3FLA= c ݿdNɛ€p!? LǴ/HޜzN4&ʳwLn]4LBm,La3\c22222F\TO4 ؀$2Ācd ɜRp"? >L̃/pHޯzNL&ʳBLdž]F50LZm,4a4l\c22222F\TO4" >$2ĀB&FLA=\c ݿd ɜp$g? L/+HzNd&ʳLǞ]v6PLrm,a4 4\c22222F\TO4< $2ĀI^FLA=zc dɝtp%φ? L/9H0zN|&ʳLǶ]7pLNJm, a4 \c22222F\UO4T z$2ĀPFL A=c ݿdɞ p'7? <L/GHk{N&ʳkLЀ]؀8LǤm,"b4ʋ\g22222F\U4O4p $2ŀ`6FL:A=cdڀɞp(? L./S\HE{N&ʳ#L^9LǼm,%b4\g22222F\UVO4$2'ŀiHFLRA=ad܀ɟ*p*? LF/_?H䝕{Nȡ&ʴۀL^8:ҀLԆm,(b4Z\g22222F\UrO4>$24ŀr(FLjA=ad܀ɟp+o? 8L^/kH蛕{N&ʴL^h;Lm,+b4!"\g22222F\UO4b$2@ŀ{ FLׂA>ad܀ɠJp,׆? Lv/xEHK{N&ʴ5KL0^=Lm,.b4%ꋀ\g22222F\UO4Є $2LŀFLךA>.aݿdʀɠڀp.?? LȎ/ބH^{N&ʴMLH^Ȁ>2Lm,1vb4*\g22222F\UƀO4%$2OŀԀFLײA>LadҀɡjp/? 4LȦ/ޑuH{N(&ʴdL`^?RL4m,4^b4/z\g22222F\UO5*Ā$2_ŀFLA>jbcdԀɡp1? LȾ/ޝH{N@&ʴ|sLx_(@rLLm,7Fb44B\g22222F\VO5/$2lŀFLA>bcdԀɢp2w? ܀Lփ/ުH%{NX&ʴ+LȐ_XALdm,:.b49 \g22222F\VO5259$2xŀxFLA>bcdրɣ$p3@ 4L/޸H}Nv&ʴLȪ_BL~m,= d4=܋\k22222F\VLO5P9$2ŀdFLA>cdЀɣp5IA L/żIN&ʴÜL€_CԀLȖn,@ d4B\q22222G\VjO5h?$2ƀFFL,A>dZdЀɤFp6A ހL /MIN&ʴTLڀ_DLȮn,Bd4G\q22222G\VO5È$2ƀ(FLDA?ad΀ɤրp8A 2L8/RI 9N¡&ʴ L`FLƆn,Ed4M\q22222G\VO5Kڀ$2ƀ FL\A?adʀɥfp9B LP7ꟀI Nڡ'ʵ ŀL `JG4Lކo,Hd4R\q22222G\VO5Q$2ƀFLtA?\q22222G\VO5^$2ƀ岀FLؤA?xaݿd˶ɧp=džB Lɘ7MIN"'ʵQLR`ڀJL&p,Qd4aN\q22222H\W O6c'$2ƀFLؼA?bcݿdάɧp?/B ؀Lɰ7NIMN:'ʵiLja KL>p,Tld4f^\q22222H\W&O6g$2ƀxFLA?c ݿdѠɨ6p@B ,Lȃ7&6INR'ʵ]Lɂa:LԀLVp,WTd4kn\q22222H\WBO64lǀ$2ƀZFLA?adԜɨƀpAB L72:INj'ʵLɚajMLnp,Z<d4p~\q22222H\W^O6Lq$2ƀ 5I N'ʵ̀LɲaOLɆp,]$d4u\q22222H\W|O6fv$2ƀFLA@dZdڈɩpDφB (L7JʀI"ON'ʵȅLʀaʀP4Lɞp,` d4z\q22222H\WO6~{b$3ƀFL4A@,c ݿdrɪvpF7B |L(7VހI#N'ʵ=LaQTLɶp,bd4\q22222H\WO66$3ƀ#FLLA@JadxɫpGB ЀL@7c1I%Nʡ'ʵLb*RtLΆp,ed4\q22222H\W؀O6$3ƀ,ĀFLdA@hfdxɫpIB $LX7o/I(ݕN'ʶLbZSLq,hd4΋\q22222H\WO6Ȅ$3#ƀ5FL|A@bcݿdjɬ&pJpB xLp7{LI*N'ʶ'eL*bTLq,kd4ދ\q22222H\XO6$3(ƀ>FLٔA@c dfɬpK؆B ̀Lʈ7߇?I-N'ʶ?LBbUԀLq,nd4\q22222H\X*O6$35ƀGjFL٬A@adjɭHpM@B Lʠ7ߓ}I2N*'ʶVՀLZbVL.q,q~d4\q22222H\XJO7ˀ$3BƀPLFLA@c djɭ؀pNB tLʸ7ߟ]I6NB'ʶnLrcXLFq,tfd4\q22222H\XfO7*€$3NƀY.FLA@adZɮhpPB ȀLЃ7߫_I7NZ'ʶELʊcJY4L^q,wNd4 \q22222H\XO7D$3SƀbFLAAadZɮpQyB L7߷DI;@Nr'ʶLʢczZTLvr,z8d40\q22222H\XO7\$3_ƀjFL AA:adZɯpRB pL7<I>͕N'ʶLʺc[tLʎr,} d4@\q22222H\XO7t$3kƀsԀFL$AAXc d\ɰpTIB ĀL7jIB;N'ʶmLҀcڀ\Lʦr,d4P\q22222H\XڀO7$3xƀ|FLNJ'ʷsuLze*dtLNs,bd4\q22222H\YO88A$3ƀFLABHaeDɴp_B dL؃7/_I\ޕNb'ʷ-L˒eZeLft,Ld4Ћ\q22222H\YO8PF$3ƀʀFLABfc eDɵ(p`B L7;bIbNz'ʷL˪efL~t,4d4\q22222H\Y܀O8hG$3ƀ̬FLABaeFɵpb[B  L7G4IeN'ʷL€egԀL˖t,d4\q22222H\YO8T$3ƀՎFL,ABbceFɶHpcÆB `L 7S{IiN'ʷULڀehLˮt,d4\q22222H\ZO87$3ƀpFLDXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / 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 = 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 = 702709065.38504 TSTOP = 702709275.16824 DATE-OBS= '2023-04-09T04:57:40' DATE-END= '2023-04-09T05:01:10' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728400000000 / [s] UTCF at TSTART TELAPSE = 209.783199906349 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 394 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'DPQBFMQ9DMQADMQ9' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2997384355' / data unit checksum updated 2023-04-19T11:42:30 HISTORY TASK: FAPPND on FILENAME: sw01163401000b18ax001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A>HB@  l` qoDDDDDDDDDDDDDDDDA>a(B@  l`  I'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A> `'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A>@ 3]'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A>`Ԁ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A> v'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A>Ӏ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A>p'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A> _'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A> 0'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A?q"'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A? '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A? Q'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A?@ '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A?` { '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A? d'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A?֌'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A? !'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A? D='(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@ '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@ Uŀ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@@'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@` g8'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@ J#'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@ à'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@,'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ A@9'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA Q'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA ـ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA@ D'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA` '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AAπ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA $'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA J'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AA a'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ ABL׀'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AB 9C'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AB@ 3ۀ'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AB` '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AB '(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ AB 2'(9(9,@@oǀddPPQ끋S Pu0|Ѐd.􂼂 dKdЀ XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 25 / 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 = 702708201.942 TSTOP = 702711081.94598 DATE-OBS= '2023-04-09T04:43:16' DATE-END= '2023-04-09T05:31:16' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2880.00397992134 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 396 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'RYVcRXTbRXTbRXTb' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '4244536605' / data unit checksum updated 2023-04-19T11:42:30 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: sw01163401000b18cx001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A kqX xߌkO%Zkww$ZՀ#~  $Yq DBYs_rf8~ZԀA>\kqX8$hތmF&[{!xFZ+x =%Yŀ򍛍 DYlbqd*ZA>%kqYg!h݌n?([Ѐ}wT[*x 6&ZՉGZ'matf[~A>kqYP(dތo6'[!x+[_+w &ZEZkbte[sA?kqX!f݌q=&[zy.[ƀ*w !'ZFZȀmaug[^ A?LBpkqZ$hs3%\|"|y\1*z l'[݀D[qbwe~\CA?&kqX%eތu=$[ˀ"|>Zl*x (YFYnbzfZoA?%kqX"gތw]"[} $[*x (YaEZҀkb~f8~Z.A@/okqWڀe܌{O Zm rKZ&uތ>)YeDYm^ e`~ZA@<1kqYKBS郊 \t~"k[ (z ](Zĉ8CZqbdn[A@y0kqZT%c݌생!\z;[*x  'ZɉFZbl be[΀A@kqX!b܌탳"ZFy)Z)w %YʉEYQzXfˆZ>A@ukqY d݌탫#[{ gZ/*x _"Z|ω EZp\gZAA,զkqXS%e#[}"UZ-w 7"Y։FYj eh~ZAAh&kqYreތ%\v3[A!ʼn*"ZډGZQv^hP[AAHkqXe݌S%[߀|*Za(w lj"YމFZl `gZAAkqWH gތb%Z|IYP(x ͉@#Xـ ㉐߉DXn^eψZABkqXjeތ򄜉&[zOZ9+t Љ""Z扒DY.uZh[-ABXkqYq"l􄺉&\ |)7[o ({ ԉ#ZـꉑXHZraf%[OABkqYw"l%[ |*w[p '{׉j%ZGEZrafI~[QXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 25 / 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 = 702708201.94348 TSTOP = 702711081.94746 DATE-OBS= '2023-04-09T04:43:16' DATE-END= '2023-04-09T05:31:16' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2880.00398004055 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 397 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'LW8HOT79LT7ELT79' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2843536027' / data unit checksum updated 2023-04-19T11:42:30 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: sw01163401000b18dx001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<׍&tZ$&ÈpY!nʼnfMY6*eۃYx6m֌G Z+H\sRYA=0ٍ)ڈt[M)LjrZ 0lÉ`MZ, +ڈh܃Z=n׌J[.L^ uSZA=lʂ&}׍(sZ='ˆqY%qsMX* *LjfڃY=l׌H Z.I_sRYA=ڎ,x؍(s[H!*ňqZ"uMZJ -gڃZ=mڌI [3Gd uSZA=Ɠ&z֍'uYC'ȈpX$o|NWe*fكY=i׌JY*J[tPXA>  "؍*tZ(ƈqXI&qqNYg+fփZۀ>l،G Z)-I`uQ|YA>\%3u؍'ƈuZ؀$(ňrYހ#oeNYU*xeՃZ?h׌I Z1E`|uPwY/A>%y֍'Ljt[F(ƈpY(lWKYm*bf׃Z1oՌI[!#WStOqZ-A>d&y׍'Wu[(rY%m`MZ-)PeكZ1&y׌J [6,NXvQlZA?"0ߍ /Mr[Ȁ'pZ̀p_KZр! +Ae؃Z5 Ia֌H [2G]~tPgZA?Ls,zٍ(u\׀*qZ)pLLZ -5f؃[W?f،I]sf׌HZ@?cztRZY~AA,͎'{ۍ)qZ(҉vqXÀ'n׉+NY*_e׃Z{:%}ڌljJZ,PW uS]ZAAhWi%ۍ*t\̀*ىjpY(n݉LZ*lj{fڃZCA=h V &e=MY  )3ZR+΍['b[3t0]値;_A=jX[!c*=XZ'YQ(ύZz$_Y.t -Y5A> N^\ #c0}X(Zh򍔍*ЍZ}%]YÀ 2q0WW0A>\6g R#cA%|X(7Z􍏍)эZ#{$^Y2o .XȀ,A>sQ^ !b? tY w'3Z񍐍)hԍ[){$_Z[~.r.Yr(A>N<V] !d eXr([񍑍,wՍ[l{'`jꃒZ,s/XZ"A?RҀdS!c%ZY'ZR/ڍ[mz%b惒Z3r0\A?LplU %dtTZ )k[Ԁ,zߍ\d|(ewヒ[j5q4[A?z%Q_ !e!&WYs(Z덊$uZ*z%gfZw-r/_!*A?|Ra $d6PYu }(؍Z򍐍*Z{'k݃Z".t0`逤AA@ŀ[U dBGPX%8̍Zڀ򍋍'ɉZt"oȀ܃Y 5h -b؀A@</_Z $dd]RY)XčZ ㍙*[&sۃZ̀-u0iꀤA@y1#Sc #d#{RYT'ƍ[c􍑍*ى[Ԁ|({ɀ݃[+s0kǀ6A@UcS !e ZXǀ|'ʍZۀ򍏍)؍Z}%܃Zŀ*r .p A@sk O !ebWY\&XэZW&D͍Z$r#H߃Z =f /y>AA,7LY] $d>݈YYw(2ڍZU&;ÍZ{&.აZ+s0}W AAh7_Z $f, ]Y~(#[*y[|&w烒[m0q0․AAR\ "e0WY܀ u'Z߀ 1Zx{%냒Z|,r -<AA]bR eEU\Xŀ&8Y򍔍+ʼnۉZv$׀񃒄YK,o 0eABGaZ "d)~dX*ʼn['ȉ󉿍Zk{&Z{,q / 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: sw01163401000b18fx001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A<q%WZ6 s=M! 'qAĒ*΅Wp p`@``kK!!ByoJJJ)yǀA5G>G2ܯC IhAkƀ@RPo\oue)r)N)B3rn>A@Jhw|__;gԀ>uz99$A=؀r'1WZ6 s=r@! 'qAĒ*΅ ]p`@``kK!!BSyـoJJJ)z(nA5G>G2ܯC IhAkƀ@RPooue)r)N)B3rn>A@;e@X __JhhL> uz99$A= 󀈀tSp(W[6 s=ŀ! 'qAĒ*΅oP 6p`@``kK!!ByـoJŀJJ)z?/&.A5G>G2ܯC IhAkƀ@RPooue)r)N)B3rn>A@ @l c``MhĀ>#v{99(A=>؀@u,[W]6 s=@! 'qAĒ*΅w !pЀ`@``kK!!BۀyـoJрJ̀J̀)zdÄx1nA5G>G2ܯC IhAkƀ@RPp oz;)r)N)BÀrA ah jl 8``i<>>x}993A=\󂀀w#/Wa6 s==@! 'qAĒ*΅ p`@``kK!!ByـoJ݀JـJـ)z%- ?΀$A5G>G2ܯC IhAkƀ@RPpLozN)r)N)D;rBЀ E :l G98``|i>`|99DA=z󚿀x2.Wf6 s=yӀ! 'qAĒ*΅ p`@``kK!!BcyـoJJJ)zÃ.TOb0A5G>G2ܯC IhAkƀ@RPpozN)r)N)D;rBЀ; l 8``djC>99TA=y6Wh6 s=! 'qAĒ*΅i [pxP@aakK!!B'yـoJJJ){0 dyA5G>G2ܯC IhAkƀ@RPpozN)r)N)D;rBЀW <l ``jŀ>99bA=󀈀{[G2ܯC IhAkƀ@RPqozN)r)N)D;rBЀu ,(l ,(``8k=>99hA=~|ÀCMWq6 s=-.! 'qAĒ*΅` 2p`@aakK!!ByـoK K K ){bx8A5G>G2ܯC IhAkƀ@RPq<ozN)r)N)D;rBЀ NHl N$``k̀>99mA=~~+DWr6 s=i.! 'qAĒ*΅` p`@aakK!!BsyـoKKK){FA5G>G2ܯC IhAkƀ@RPqxozN)r)N)D;rBЀ_ ll lă``~mlD>99oA>~FG2ܯC IhAkƀ@RPqozN)r)N)D;rBЀ' v|l o ``xDl>99qA>.~ IWu6 s=! 'qAĒ*΅z pЀ`@aakK!!ByـoK1K-K-)|[*;'A5G>G2ܯC IhAkƀ@RPqozN)r)N)D;rBЀ Ql Q``xFm>>#99yA>L~cMWz6 s=@! 'qAĒ*΅` ^p`@aakK!!ByـoK=K9K9)|.*BA5G>G2ܯC IhAkƀ@RPr,ozN)r)N)D;rBЀa ޼l נ``xm>=99A>j9ˀOQW|6 s=Y @! 'qAĒ*΅` -p`@aakK!!ByـoKIKEKE)|Ӏ*).f€A5G>G2ܯC IhAkƀ@RPrhozN)r)N)D;rBЀ$r l ``wnE>V99A>3PW}6 s=! 'qAĒ*΅` p`@aakK!!BGyـoKUKQKQ)}((1!A5G>G2ܯC IhAkƀ@RProzN)r)N)D;rBЀr l ``xzn>o99A>9SCW6 s=р! 'qAĒ*΅p ̀phX0@cakM!B *}FoKaK]K])}K&.5n4BA>?bC A@ e?l'}7)r)N)D\ZrpA l ă``x0o5?99A>؀YXW6 s= m@! 'qAĒ*΅Ѐ ؀ph@@cbkq!B *}FoKmKiKi)}@18GA>?bC A@ e?l'O}7)r)N)D\ZrpA 16|l 1.؃``~o@99A>0l`JW6 s=I΀! 'qAĒ*΅P tpxh@@cbk!B}oKyKuKu)}À86?bC A@ e?l'}7)r)N)D\ZrpA M,l M``zJp%@99A?~ԀigW6 s=@! 'qAĒ*΅P pxh@@cbk!B}oKKK)},3@TuBA>?bC A@ e?l'}7)r)N)D\ZrpA jl jP``yp@99A?؀<<`mW6 s=w@! 'qAĒ*΅ ph@@cbk݀!B}oKKK)~;)+C؈A>?bC A@ e?l'}7)r)N)D\ZrpA Edl >``uq,A99A?<~?tW6 s= }! 'qAĒ*΅ pxP@cbl!BI}oKKK)~w#G\€A>?bC A@ e?l'?}7)r)N)D\ZrpA `ll Y``v(qA 99A?Z󀈀 S`{3W6 s=9 N! 'qAĒ*΅߰ "phX0@cbl%!B ,~oKKK)~ JୄA>?bC A@ e?l'{}7)r)N)D\ZrpAH hl x``rRrA"99A?x9t(W6 s=u ! 'qAĒ*΅߰ WphX0@cblI!Bрh~oKKK)~NdDA>?bC A@ e?l'}7)r)N)D\ZrpA 8l 1``qzrA> 99A?'܀:pW6 s= @! 'qAĒ*΅߰ phX0@cblm!B~oKKK)+RBĀA>?bC A@ e?l'}7)r)N)D\ZrpA Ll 🄃``ns%AW99A?DMZW6 s= ! 'qAĒ*΅߰ phX0@cbl!BY~oK̀KɀKɀ)gUA>?bC A@ e?l'/}7)r)N)D\ZrpA& C,l <``nsAp99A?9HW6 s=) ! 'qAĒ*΅ {pxP@cbl!B~oKـKՀKՀ)YJDA>?bC A@ e?l'k}7)r)N)D\ZrpAv#l#\``mtA99A?VW6 s=e 4! 'qAĒ*΅Ѐ )pxP@cblـ!BX~oKKK)߀\A>?bC A@ e?l'}7)r)N)D\ZrpA?bC A@ e?l'}7)r)N)D\ZrpAUdlUظ``juA-99A@,yW6 s=݀ ! 'qAĒ*΅0 pЀ`@cbm!!BiЩ~oKKK)Wc9A>?bC A@ e?l'}7)r)N)D\ZrpAn4ln4``k!u}A399A@J~LTW6 s=r@! 'qAĒ*΅0 }pЀ`@cbmE!B- ~oL LL)–gUA>?bC A@ e?l'[}7)r)N)D\ZrpAl霃``j&v A999A@hπpW6 s=U>@! 'qAĒ*΅0 &pЀ`@cbmi!BH~oLLL)πk8gĀA>?bC A@ e?l'}7)r)N)D\ZrpA`Ll`L``ivA>99A@πW6 s=! 'qAĒ*΅p p`@cbm!B~oL!LL) nzA>?bC A@ e?l'}7)r)N)D\ZrpA`lԃ``hvA @99A@󀈀şW6 s=̀g! 'qAĒ*΅+P pЀ`@ccm!By~oL-L)L))Gr@DA>?bC A@ e?l'}7)r)N)D\ZrpAl``gwtA8C99A@ oW6 s= ! 'qAĒ*΅+P GpЀ`@ccmՀ!B=~oL9L5L5)⁃݀vĀA>?bC A@ e?l'K}7)r)N)D\ZrpAALl:ԃ``f$xARO99A@󀈀T0#W6 s=E@! 'qAĒ*΅+P pЀ`@ccm!B8~oLELALA)ⁿyA>?bC A@ e?l'}7)r)N)D\ZrpAl``fx{AkV99A@~ȠW6 s=@! 'qAĒ*΅+P pЀ`@ccn!Bŀt~oLQLMLM)}&DA>?bC A@ e?l'}7)r)N)D\ZrpAÔl``fxA[99AA}$W6 s=! 'qAĒ*΅+P pЀ`@ccnA!B~oL]LYLY)7A>?bC A@ e?l'}7)r)N)D\ZrpAw0c4l0c4``eykA`99AA:~PDW6 s=@! 'qAĒ*΅+P pЀ`@ccne!BM~oLiLeLe)s݀.ĀA>?bC A@ e?l';}7)r)N)D\ZrpAG̀lGp``dyAg99AAX󀈀W6 s=5! 'qAĒ*΅+P pЀ`@ccn!B(~oLuLqLq)₯ـߧ DA>?bC A@ e?l'w}7)r)N)D\ZrpA_} l_} ``cJzrAt99AAv؀\0W6 s=qz@! 'qAĒ*΅+P pЀ`@ccn!BՀd~oLL}L})ހݧ"A>?bC A@ e?l'}7)r)N)D\ZrpA~vlvX``bzA{99AA9Ā W6 s=N! 'qAĒ*΅" p`@ccnр!B~oLLL)'Ȁڧ4ƀA>?bC A@ e?l'}7)r)N)D\ZrpA`glgԃ``a1{dA99AA9,'PZW6 s=2! 'qAĒ*΅+P NpЀ`@ccn!B]ܩ~oLLL)cՀاGA>?bC A@ e?l'+}7)r)N)D\ZrpA?l8``c{܀A99!AA󀈀3p W6 s=%@! 'qAĒ*΅+P pЀ`@cco!B!~oLLL)⃟׀קZFA>?bC A@ e?l'g}7)r)N)D\ZrpAXolă``b|TA899)AALW6 s=a@! 'qAĒ*΅+P IpЀ`@cco=!BT~oLLL)ۀрקuƀA>?bC A@ e?l'}7)r)N)D\ZrpAPlK``a|AR995AB ~dfW6 s=! 'qAĒ*΅+P pЀ`@ccoa!B~oLLL)؀֧~A>?bC A@ e?l'}7)r)N)D\ZrpAl``b}[Ak99:AB*9̀ZIW6 s=ـV! 'qAĒ*΅+P TpЀ`@cco!Bm̩~oLɀLŀLŀ)SӀ֧FA>?bC A@ e?l'}7)r)N)D\ZrpA|<  ټaab*}ӀA99?ABH~4t#W6 s=>! 'qAĒ*΅+P ZpЀ`@cco!B1~oLՀLрLр)ℐӀקA>?bC A@ e?l'W}7)r)N)D\ZrpA  aab~KA99EABf󀈀p*WÀ6 s=Q! 'qAĒ*΅+P /pЀ`@ccò!BD~oLL݀L݀)ˀۀק ƀA>?bC A@ e?l'}7)r)N)D\ZrpA)  |$aabv~ÀA99GAB~1uWƀ6 s=n! 'qAĒ*΅+P pЀ`@cco!B~oLLL)ԀקFA>?bC A@ e?l'}7)r)N)D\ZrpA 8 8aabRA99KABlP8OWǀ6 s=ɀL! 'qAĒ*΅+P ӀpЀ`@ccp!B}~oLLL)CހקlA>?bC A@ e?l' }7)r)N)D\ZrpAP  Paac`ʀA99XXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 391 / 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 = 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 = 702709088.8726 TSTOP = 702709274.16766 DATE-OBS= '2023-04-09T04:58:03' DATE-END= '2023-04-09T05:01:09' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728400000000 / [s] UTCF at TSTART TELAPSE = 185.295060038567 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 482 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YAlRaAlRSAlRYAlR' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '994327168' / data unit checksum updated 2023-04-19T11:42:30 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: sw01163401000b1e2x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A>o[B *}FCBSjB!BCB[ByـB (CBSjB}FBCBSjCBSjoC,A>8-8XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / 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 = 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 = 702708552.68936 TSTOP = 702710551.8466 DATE-OBS= '2023-04-09T04:49:07' DATE-END= '2023-04-09T05:22:26' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728000000000 / [s] UTCF at TSTART TELAPSE = 1999.15724003315 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 535 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'mYKioXIimXIimXIi' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3184121393' / data unit checksum updated 2023-04-19T11:42:30 HISTORY TASK: FAPPND on FILENAME: sw01163401000b217x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=X)# A?]MAA]dXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / 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 = 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 = 702708551.09524 TSTOP = 702710550.24952 DATE-OBS= '2023-04-09T04:49:06' DATE-END= '2023-04-09T05:22:25' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0728000000000 / [s] UTCF at TSTART TELAPSE = 1999.15427994728 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 538 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YgaRadVRZdaRadUR' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2272920629' / data unit checksum updated 2023-04-19T11:42:30 HISTORY TASK: FAPPND on FILENAME: sw01163401000b21ax001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=0A>(W˒A>mA>l=A?\2AAEXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 246 / 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 = 702708256.6319 TSTOP = 702711118.62088 DATE-OBS= '2023-04-09T04:44:11' DATE-END= '2023-04-09T05:31:53' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2861.98898005486 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 540 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3aHiAYGi6aGiAWGi' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '2329195190' / data unit checksum updated 2023-04-19T11:42:30 HISTORY TASK: FAPPND on FILENAME: sw01163401000b21cx001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 TRIGTIME= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A=PA=aA=pzA=1LA=1P3A=3yA=45*A=4A=44nA=87A=8XA=;W)A=?yhA=?A=BֶA=F'A=F+]A=HA=IA=M~B[A=MJA=P A=PvA=POA=Z%A=ZgA=]vKA=b?SA=bOA=eKA=e-A=ico~A=ifA=kA=qx=A=q{٩A=tA=t4A=SA=oA=UA=eaA=xA>WA>hkA>U\A>VzA>A>0Z-A>0iaA>2SA>3OA>3BA>4 IA>4p A>4/A>7NA>7P+AA>7A>828A>PN+A>P^1QA>RA>pSA>pcA>riA>sPA>UA>eEcA>A>:A>A>}A>A>&A>A>VA>S`kA?PA?aA?nA?PeA?bA?tGA?OA?c`kA?mA?.MA?aA?s*A?RA?bA?Ĥ+A?\A?nA?SA?]JA@`BA@rA@_A@P0A@aA@矩A@PA@ǎ A@zA@aDA@sXA@9A@b0UAA^YAAp>BAA4AA_FAA$^qAA$oAA&_AA':AA'AA(vAADa*AADr`AAFAAGa AAGrAAH}AAH}hAAHPAAKAAK}AAK㢜AAdQ_AAdb%AAf辶AAgQAAgAAhsXAA`AArLAA$AAa \AA_ZAApiAA[AA_ AA_cAAq&BAA'AA`MUAAljAAAA8AA`AAr>AAAA]AAbAA@AARoAAAA>KAA5~ABQZABa ABABPyAB$cMjAB$u/AB& AB'dABD\zABDn2ABFABGTlvABGABd[ABdmABfRABg[ABgrAB`ABr@ABABaABW?AB8@:ABIAB͊ABAB|FABh4ABNAB`B1ABffABOxXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 269 / width of table in bytes NAXIS2 = 47 / 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 = 702708160.08442 TSTOP = 702711104.08668 DATE-OBS= '2023-04-09T04:42:35' DATE-END= '2023-04-09T05:31:39' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -31.0727800000000 / [s] UTCF at TSTART TELAPSE = 2944.00226008892 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 544 OBS_ID = '01163401000' / Observation ID TARG_ID = 1163401 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 329.512552006131 / [deg] RA pointing DEC_PNT = 52.8622296410947 / [deg] Dec pointing PA_PNT = 121.324757502745 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (329.515, 52.832)' / Object name RA_OBJ = 329.5149583 / [deg] R.A. Object DEC_OBJ = 52.8321944 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.19.01 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2023-04-19T11:42:30' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'WASCZ6PCWAPCW5PC' / HDU checksum updated 2023-04-19T12:17:08 DATASUM = '3131246790' / data unit checksum updated 2023-04-19T11:42:30 HISTORY TASK: FAPPND on FILENAME: sw01163401000b220x001.hk[1] HISTORY fappend3.0a at 2023-04-19T11:42:32 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= 702709047.872 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A< F!A<Apb;ʢ GLm"e==eee=e=s~.BvP"€A='!A=Ap,WX= G<2fG̀m΀e>==e>e>e>=e>=sBvSBA= o!A= ApK햄> |ˢjGLme==eee=e=s.BvXBbA=P@0!A=@ApϫhM@W fG̀mXe==eee=e=sBv\悀A=y w\!A=`Apϫ}ׄA+ SGLme==eee=e=s͎Bv_€A=lL!A=ApϫA fG̀m<fL==fLfLfL=fL=sBvd€bттттттттттттA= F5!A=ApϫFBm "LGLmf==fff=f=sXB vhттттттттттттA=!A=Apպ8B@ IoG̀m f؀="="f؀f؀f؀="f؀="tB vm""""""""""""A= !A=Apպ/B挀 pʢGLm̀g="="ggg="g="t/B vqB€""""""""""""A> /o!A>ApպXC } ڢoG̀mxgP="="gPgPgP="gP="tCB vu""""""""""""A> )!A> ApպwC*7 .GLmVg="="ggg="g="tWBvyb """"""""""""A>@`!A>@Apպ+ԄCG)goG̀mgҀ="="gҀgҀgҀ="gҀ="tk"Bv}"'""""""""""""A>`!A>`ApեCdĀ) (GLm:h"=,=,h"h"h"=,h"=,tBv"0B€€€€€€€€€€€€A> n!A>Apե)Cx)48oG̀mh^=,=,h^h^h^=,h^=,tBv8b€€€€€€€€€€€€A>!A>Apե^Cŀ)[HGLmh=,=,hhh=,h=,tBv@€€€€€€€€€€€€A> 2MA>ApեmC)XIoG̀mph=,=,hhh=,h=,tĂBvH€€€€€€€€€€€€A> A>ApՐ5~C)hGLmi=,=,iii=,i=,tBv€P"€€€€€€€€€€€€A?DA?ApՐ/CM)ЖoG̀mTil=6=6ililil=6il=6tBBv€XbbbbbbbbbbbbA? .A? ApՐ[D )GLmi=6=6iii=6i=6uBvabbbbbbbbbbbbA?@ CA?@ApՐճtD7D)+oG̀mǬi=6=6iii=6i=6uBvBi"bbbbbbbbbbbbA?` `-A?`ApՐ8DS)Eƣ cGLmˊj*=6=6j*j*j*=6j*=6u1DBvqBbbbbbbbbbbbbA? 6A?Ap{UDp~})l֣ oG̀m6jf=6=6jfjfjf=6jf=6uDBvbx€bbbbbbbbbbbbA?VA?Ap{*D w) GLmnj=@=@jjj=@j=@ubBvb遂A? A?Ap{D q) xG̀mj=@=@jjj=@j=@uudBv"鉢A? )_A?Ap{ D k)EGLmƀk.=@=@k.k.k.=@k.=@udBv€A@ ;A@Ap{ĢDO e) +~xG̀mޤkt=@=@ktktkt=@kt=@uBvBA@ kA@ ApfIDÀ _)0;GLmPk=@=@kkk=@k=@udBvbA@@nA@@ApfUE@Y)W_xG̀m戀l=J=Jlll=Jl=JuĀBv"ԢԢԢԢԢԢԢԢԢԢԢԢA@` LYA@`Apf ME'S)~o'GLm4l<=J=Jl<l<l<=Jl<=Ju$Bv€BԢԢԢԢԢԢԢԢԢԢԢԢA@ /A@ApfTE?M)`xG̀mlx=J=Jlxlxlx=Jlx=Ju$BvǂbԢԢԢԢԢԢԢԢԢԢԢԢA@ A@ApQ OEWG2̏GLml=J=Jlll=Jl=Jv ĀBv‚ԢԢԢԢԢԢԢԢԢԢԢԢA@ A@ApQ фEn؀A2xG̀mĀm=T=Tmmm=Tm=Tv&BvBʢBBBBBBBBBBBBA@A@ApQ fE;2ͣ GLmmJ=T=TmJmJmJ=TmJ=Tv;BvԢ€BBBBBBBBBBBBAA AAApQ ĄED52AݣBxG̀mNm=T=Tmmm=Tm=TvNBvbBBBBBBBBBBBBAA AA ApQ j"E/2hzGLnm€=T=Tm€m€m€=Tm€=TvbBv"BBBBBBBBBBBBAA@ v AA@Ap< Eż)2xG̀n؀n=T=Tnnn=Tn=TvwBv"BBBBBBBBBBBBAA` AA`Ap< 5@E9#2!GLnހnN=^=^nNnNnN=^nN=^vBvBAAAAAp< PEr21$xG̀n n=^=^nnn=^n=^vDBvBbAA AAAp< )FD2A]GLnhnЀ=^=^nЀnЀnЀ=^nЀ=^vBvAA ͟AAAp'  uFπ2,Q G̀no =^=^o o o =^o =^vϦBv€ AA FAAAp' "fDŽF) 2Su!GLnLo\=h=ho\o\o\=ho\=hvBv€bււււււււււււAB1ABAp' %F=+2z#G̀no=h=hooo=ho=hwfBvււււււււււււAB dAB Ap' (FP2$?GLnրoހ=h=hoހoހoހ=hoހ=hwBv$ււււււււււււAB@ AB@Ap' ,D|Fd2ȥ%wG̀n#p=h=hppp=hp=hw(fBw,"ււււււււււււAB` oAB`Ap /Fw2ﵣ&GLn'.pV=h=hpVpVpV=hpV=hwX:::@:<<:@>>@<<@:@:::<:@>:<<:::>@::<@><::D<@<::<:::<:<>@D:<>:::::D<:::::jD<><>:<::F<:<:><@>:@D<::::::::D:@<::A=@n=fB>DECCKCCCCECONCCICCECCICUMCCCGaCEuCCCQMCECCCCEIGCCICEECIGGIEEICICCCECIGCEECCCGICCEIGECCMEIECCECCCECEGIMCEGCCCCCMECCCCCsMEGEGCECCOECECGEIGCIMECCCCCCCCMCIECCA=TrDMMMMMMMMMMvRNTUSS[SSSSUS_^SSYSSUSSYSe]SSSWqSUSSSa]SUSSSSUYWSSYSUUSYWWYUUYSYSSSUSYWSUUSSSWYSSUYWUSS]UYUSSUSSSUSUWY]SUWSSSSS]USSSSS]UWUWSUSS_USUSWUYWSY]USSSSSSSS]SYUSSA=jËllllllllll]Y_`^^f^^^^`^ji^^d^^`^^d^ph^^^b|^`^^^lh^`^^^^`db^^d^``^dbbd``d^d^^^`^db^``^^^bd^^`db`^^h`d`^^`^^^`^`bdh^`b^^^^^h`^^^^^h`b`b^`^^j`^`^b`db^dh`^^^^^^^^h^d`^^A=|t\souvtt|ttttvtttzttvttzt~tttxtvttt~tvttttvzxttztvvtzxxzvvztztttvtzxtvvtttxzttvzxvtt~vzvttvtttvtvxz~tvxttttt~vttttt~vxvxtvttvtvtxvzxtz~vtttttttt~tzvttA=r6666666666Ϊ ɫݫM۵A=grrrrrrrrrr,!bA=g!@5vA=gbW(&A=g*//////////- vk      ( <               :         A=hkkkkkkkkkkA & *)$ $0("< P,(  $"$ $""$ $$ $" "$ $" ( $    "$( "( N( " " *  " $"$( ($ A>g*U1-3422:222242>=2282242282D<2226P24d222@<242222486228244286684482822242862442226822486422<48422422242468<24622222<422222b<46462422>4242648628<422222222<28422A>hiEAGHFFNFFFFHFRQFFLFFHFFLFXPFFFJdFHxFFFTPFHFFFFHLJFFLFHHFLJJLHHLFLFFFHFLJFHHFFFJLFFHLJHFFPHLHFFHFFFHFHJLPFHJFFFFFPHFFFFFvPHJHJFHFFRHFHFJHLJFLPHFFFFFFFFPFLHFFA>0C}YƻU[\ZZbZZZZ\ZfeZZ`ZZ\ZZ`ZldZZZ^xZ\ZZZhdZ\ZZZZ\`^ZZ`Z\\Z`^^`\\`Z`ZZZ\Zb^Z\\ZZZ^bZZ\b^\ZZd\`\Z\\ZZZ\Z\^`dZ^^ZZZZZd\ZZZZZd\^\^Z\ZZf\Z\Z^\`^Z`d\ZZZZZZZZdZ`\ZZA>DiS[[[[[[[[[[miopnnvnnnnpnzynntnnpnntnxnnnrnpnnn|xnpnnnnptrnntnppntrrtpptntnnnpnvrnppnnnrvnnpvrpnnxptpnppnnnpnprtxnrrnnnnnxpnnnnnxprprnpnnzpnpnrptrntxpnnnnnnnnxntpnnA>Xh`񋑒2A>lh,ǣ¤֤FԮA>g۷$ø¸ָ길¸Zº¸ººĺº¸A>hTTTTTTTTTT8-nA>gzLAA>h`U&$A>iT+ti    & :                   8        A>g*DDDDDDDDDD?}$('"".& :N*&" "" """$  $$ &" "& &L&  ( " "&&"A>g*a=9?@>>F>>>>@>JI>>D>>@>>D>PH>>>B\>@p>>>LH>@>>>>@DB>>D>@@>DBBD@@D>D>>>@>FB>@@>>>BF>>@FB@>>H@D@>@@>>>@>@BDH>BB>>>>>H@>>>>>nH@B@B>@>>J@>@>B@DB>DH@>>>>>>>>H>D@>>A? g*uQMSTRRZRRRRTR^]RRXRRTRRXRd\RRRVpRTRRR`\RTRRRRTXVRRXRTTRXVVXTTXRXRRRTRZVRTTRRRVZRRTZVTRR\TXTRTTRRRTRTVX\RVVRRRRR\TRRRRR\TVTVRTRR^TRTRVTXVRX\TRRRRRRRR\RXTRRA? geaghffnffffhfrqfflffhfflfxpfffjfhffftpfhffffhljfflfhhfljjlhhlflfffhfnjfhhfffjnffhnjhffphlhfhhfffhfhjlpfjjfffffphfffffphjhjfhffrhfhfjhljflphffffffffpflhffA?4gz==========yu{|zzzzzz|zzzzz|zzzzzz~z|zzzz|zzzz|~zzz||z~~||zzzz|z~z||zzz~zz|~|zz||z||zzz|z|~z~~zzzzz|zzzzz|~|~z|zz|z|z~|~z|zzzzzzzzz|zzA?HhPyyyyyyyyyy0A?\rOʵšԢDҬA?pigٵ"Զ趶X¸A?x----------6+lA?iqrrrrrrrrrrXM A?i!#la  2    0    A?i7u &2F"D A?h#&&&&&&&&&&K'#)*((0((((*(43((.((*((.(:2(((,F(*Z(((62(*((((*.,((.(**(.,,.**.(.(((*(0,(**(((,0((*0,*(*2*.*(**(((*(*,.2(,,(((((2*(((((X2*,*,(*((4*(*(,*.,(.2*((((((((2(.*((A?i7bbbbbbbbbb_;7=><<n<<<<<<>B@<>>B><<<@D<<>D@><>F>B><>><<<><>@BF<@@<<<<<<<<@>@<><<><@>B@<<<<<<<<<A?h6esOKQRPPXPPPPRP\[PPVPPRPPVPbZPPPTnPRPPP^ZPRPPPPRVTPPVPRRPVTTVRRVPVPPPRPXTPRRPPPTXPPRXTRPRZRVRPRRPPPRPRTVZPTTPPPPPZRPPPPPZRTRTPRPP\RPRPTRVTPVZRPPPPPPPPZPVRPPA@hbc_efddlddddfdpoddjddfddjdvndddhdfdddrndfddddfjhddjdffdjhhjffjdjdddfdlhdffdddhlddflhfdfnfjfdffdddfdfhjndhhdddddnfdddddnfhfhdfddpfdfdhfjhdjnfddddddddndjfddA@$ywsyzxxxxxxzxxx~xxzxx~xxxx|xzxxxxzxxxxz~|xx~xzzx~||~zz~x~xxxzx|xzzxxx|xxz|zxzz~zxzzxxxzxz|~x||xxxxxzxxxxxz|z|xzxxzxzx|z~|x~zxxxxxxxxx~zxxA@8h7[[[[[[[[[[̚<ʤA@Liѭ̮மP޸A@`hS.#dA@tiB7xA@iKKKKKKKKKK VKA@h݇!j_ 0 . A@g*C!" ( " ,+ & " & 2* $> "R .* " "&$ & "" &$$&""& & " ($ "" $( "($" "*"&" "" " "$&* $$ *" P*"$"$ " ," " $"&$ &*" * &" A@uMW3/5644<444464@?44:44644:4F>4448R46f444B>4644446:844:4664:88:66:4:44464<84664448<446<8646>6:64664446468:>48844444>644444d>68684644@646486:84:>644444444>4:644A@iDDDDDDDDDDkGCIJHHPHHHHJHTSHHNHHJHHNHZRHHHLfHJzHHHVRHJHHHHJNLHHNHJJHNLLNJJNHNHHHJHPLHJJHHHLPHHJPLJHJRJNJHJJHHHJHJLNRHLLHHHHHRJHHHHHxRJLJLHJHHTJHJHLJNLHNRJHHHHHHHHRHNJHHA@hH[ȽW]^\\d\\\\^\hg\\b\\^\\b\nf\\\`z\^\\\jf\^\\\\^b`\\b\^^\b``b^^b\b\\\^\d`\^^\\\`d\\^d`^\^f^b^\^^\\\^\^`bf\``\\\\\f^\\\\\f^`^`\^\\h^\^\`^b`\bf^\\\\\\\\f\b^\\AAiokqrppxpppprp|{ppvpprppvpzppptprppp~zprpppprvtppvprrpvttvrrvpvppprpxtprrppptxpprxtrprzrvrprrppprprtvzpttpppppzrpppppzrtrtprpp|rprptrvtpvzrppppppppzpvrppAAhdE&AA(}$4444444444ʘ:ȢAA=2282242282D<2226P24d222@<242222486228244286684482822242:62442226:224:6424<48424422242468<26622222<422222b<46462422>4242648628<422222222>28422AAȻn/iEAGHFFNFFFFHFRQFFLFFHFFLFXPFFFJdFHxFFFTPFHFFFFHLJFFLFHHFLJJLHHLFLFFFHFNJFHHFFFJNFFHNJHFHPHLHFHHFFFHFHJLPFJJFFFFFPHFFFFFvPHJHJFHFFRHFHFJHLJFLPHFFFFFFFFRFLHFFAAi{bbbbbbbbbbgcijhhphhhhjhtshhnhhjhhnhzrhhhlhjhhhvrhjhhhhjnlhhnhjjhnllnjjnhnhhhjhplhjjhhhl phhjpljhjrjnjhjjhhhjhjlnrhllhhhhhrjhhhhhrjljlhjhhtjhjhljnlhnrjhhhhhhhhthnjhhAAh힞{w}~||||||~|||||~|||||||~||||~||||~|||~~|~~||||~||~~|||||~~|~~~|~~|||~|~||||||~|||||~~|~||~|~|~|~|||||||||~||AByZ񋑒2ABhǣ¤֤FԮAB,ikRRRRRRRRRR۷$ø¸ָ길¸Zº¸ººĺºĸAB@h}Ԏ8-nABTh,LAABhg*`U&$AB|hj+KKKKKKKKKK9w"!( 4H$    F " "ABh¤M)%+,**2****,*65**0**,**0*<4***.H*,\***84*,****,0.**0*,,*0..0,,0*0***,*2.*,,***.2**,2.,*,4,0,*,,***,*,.04*..*****4,*****Z4,.,.*,**6,*,*.,0.*04,********6*0,**ABt qa=9?@>>F>>>>@>JI>>D>>@>>D>PH>>>B\>@p>>>LH>@>>>>@DB>>D>@@>DBBD@@D>D>>>@>FB>@@>>>BF>>@FB@>@H@D@>@@>>>@>@BDH>BB>>>>>H@>>>>>nH@B@B>@>>J@>@>B@DB>DH@>>>>>>>>J>D@>>