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: sw00976692000b177x001.hk[0] TSTART = 613329244.17696 TSTOP = 613331343.85748 DATE-OBS= '2020-06-08T17:13:59' DATE-END= '2020-06-08T17:48:58' PROCVER = '3.18.11 ' / 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 = '00976692000' / Observation ID SEQPNUM = 6 / Number of times the dataset processed TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART CHECKSUM= '9oHR9lER9lER9lER' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = ' 0' / data unit checksum updated 2020-06-18T16:29:44 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 = 36 / 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 = 613329278.4228 TSTOP = 613331265.26434 DATE-OBS= '2020-06-08T17:14:33' DATE-END= '2020-06-08T17:47:40' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804200000000 / [s] UTCF at TSTART TELAPSE = 1986.84154009819 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 291 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'dXAWfX2VdX8VdX8V' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1628445892' / data unit checksum updated 2020-06-18T16:20:46 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: sw00976692000b123x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�6O� �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�GT�@�� Ȁ\��\��\��targ/nram/scripts/onfals10.gz A�GT�[�� ʀ��\��ONFALS3 A�GT��.s� �΀\��\��\��ONFALS3 A�GUcA�À��p�./src/brinterface.cpp:faultIMAGELOSS A�GUe��@��p�./src/brinterface.cpp:faultIMAGELOSS A�GU��J�� Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�GU�� ʀ��\��ONFALS3 A�GU�� ΀\��\��\��ONFALS3 A�GU�h�ƀ �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�GU�� ʀ��\��ONFALS3 A�GU��#� �΀\��\��\��ONFALS3 A�GU�6Y� �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�GU�Sf� �ʀ��\��ONSLEWMC A�GU��`k� �΀\��\��\��ONSLEWMC A�GVo�~�� Ȁ\��\��\��targ/nram/scripts/onslewmc.gz A�GVo�x� �ʀ��\��ONFALS3 A�GVq�2ʀ �΀\��\��\��ONFALS3 A�GV�R�ŀ��./src/sourceCatTbl.cpp:faultSOURCETABLE A�GV�pꞀ �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�GV��-b� �ʀ��\��ONBURQ20 A�GW~ �� ./src/di_scheduler.cpp:faultNOSURVEYFREEA�GW�P@� �ʀ��\��ONSLEWMC A�GX��S� �΀\��\��\��ONSLEWMC A�GX=�Z� �Ȁ\��\��\��targ/nram/scripts/onslewmc.gz A�GX=;�� ʀ��\��ONFALS10 A�GXCꎴ� �΀\��\��\��ONFALS10 A�GXa��p�./src/brinterface.cpp:faultIMAGELOSS A�GX}6Ҁ �Ȁ\��\��\��targ/nram/scripts/onfals10.gz A�GX}Qc܀ �ʀ��\��ONFALS10 A�GX�\PH� �΀\��\��\��ONFALS10 A�GX�S� � �΀\��\��\��ONBURQ20 A�GX�cL� �Ȁ\��\��\��targ/nram/scripts/onfals10.gz A�GX�m�ڀ �Ȁ\��\��\��targ/nram/scripts/onburq20.gz A�GX��s.� �ʀ��\��ONFALS10 A�GX�� ΀\��\��\��ONFALS10 XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 152 / width of table in bytes NAXIS2 = 11 / 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 = 613329783.21366 TSTOP = 613331261.69544 DATE-OBS= '2020-06-08T17:22:58' DATE-END= '2020-06-08T17:47:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804400000000 / [s] UTCF at TSTART TELAPSE = 1478.48178005219 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 293 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'EDbZFCaXECaXECaX' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1071119311' / data unit checksum updated 2020-06-18T16:20:46 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: sw00976692000b125x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GU��Y6��&!��targ/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A�GU�8,��Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�GU�M@%� ��p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�GU��!��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A�GW��H��&!��targ/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A�GW��K��Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�GW�a�� p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�GW�ϧ��!��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A�GX=��Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�GX}���Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�GX��.��Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.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 = 3824 / 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 = 613329244.17696 TSTOP = 613331343.85748 DATE-OBS= '2020-06-08T17:13:59' DATE-END= '2020-06-08T17:48:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2099.68052005768 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 297 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'nZ6OqZ5LnZ5LnZ5L' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '296811782' / data unit checksum updated 2020-06-18T16:20:46 HISTORY TASK: FAPPND on FILENAME: sw00976692000b129x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��A�GT��I(A�GT��A�GT��A�GT�7LA�GT��4A�GT�m�A�GT��wA�GT��A�GT��X�A�GT��9A�GT��A�GT��A�GT�(�A�GT�~̣A�GT��A�GT��I�A�GT�x�A�GT��A�GT��w�A�GT�},A�GT� �A�GT�� \A�GT��]�A�GT�̸A�GT�!�ZA�GT��mHA�GT��A�GT�cIA�GT�$��A�GT��BA�GT��A�GT��^A�GT�%��A�GT��CA�GT��EA�GT��A�GT�'A�GT��A�GT�� A�GT� �A�GT��A�GT��A�GT� t?A�GT�)��A�GT��z�A�GT��A�GT� s�A�GT�-Y�A�GT��&A�GT�X�A�GT�n�A�GT��A�GT��xWA�GT��A�GT�U�A�GT�u��A�GT��hA�GT��qA�GT�ոA�GT��A�GT��A�GT�6VA�GT�VYKA�GT�v�8A�GT��FA�GT��BA�GT��A�GT��C�A�GT�F�A�GT�7�{A�GT�W��A�GT�w�AA�GT��A�GT��#dA�GT��:TA�GT��eA�GT��A�GT�8�A�GT�X�hA�GT�x��A�GT$JA�GT¹JMA�GT��r�A�GT��CA�GT��{A�GT�9�-A�GT�Z�A�GT�z~RA�GTÚs.A�GTú�oA�GT��A�GT��A�GT�fA�GT�;,�A�GT�[��A�GT�{��A�GTģ�LA�GT�Ô1A�GT�㻄A�GT��A�GT�)�A�GTŉ��A�GT� h A�GT�,JbA�GTƌ��A�GT� |pA�GTǍA�GT��A�GTȎ��A�GT��A�GTɐO�A�GT��A�GTʑNA�GT؂��A�GTؤ�A�GT�e�A�GT�$��A�GTم�A�GT٥ClA�GT��PA�GT�%��A�GTچMA�GTڦ��A�GT��2A�GT�' =A�GTۇ�#A�GTۧ�nA�GT��A�GT�(@:A�GT܈�pA�GT�z:A�GT�,�A�GTݍs�A�GT� A�GTލ��A�GT�[BA�GTߎ�rA�GT߯(cA�GT��A�GT�OܜA�GT�pGA�GT��a�A�GT�S;A�GT��y>A�GT��A�GT�t?A�GT�eA�GT⒬�A�GT��(A�GT�_A�GT��A�GT�DA�GT��GA�GT��z�A�GT��A�GT�4��A�GT�TҳA�GT�uDA�GT�"�A�GT�F�A�GT��QA�GT�J�A�GT��A�GT旜cA�GT�@�A�GT��"A�GT�v6A�GT� A�GT��A�GT�LA�GT��A�GT�z:A�GT��A�GT�}�{A�GT��A�GT��>lA�GT�gA�GT�~�)A�GT�.IA�GT��g�A�GT��A�GT�$A�GT��/0A�GT��A�GT� ��A�GT�kA�GT�x-A�GT��-A�GT�"A�GT��GA�GT�;�A�GT�oA�GT�$�eA�GT��8GA�GT��A�GT��kA�GT�&rA�GT�]:A�GT�QA�GT��pA�GT�''A�GT�?A�GT�=�A�GT�xBA�GT��A�GT� �lA�GU�gA�GU��yA�GU|A�GU��A�GU��A�GU.�A�GU z�A�GU@y>A�GU��A�GU��5A�GU��A�GU�DgA�GUx-A�GU!|A�GUB�A�GUa�XA�GU�JA�GU�3�A�GU�l�A�GU��A�GU$ oA�GU��A�GU��A�GUGZA�GU&*A�GU��mA�GU��A�GU��A�GU&�,A�GU�bA�GU�?SA�GU�1A�GU'ޔA�GU�K^A�GU��A�GU �A�GU +�kA�GU �.4A�GU ;A�GU ,�A�GU �u�A�GU_A�GU��oA�GU[�A�GU��A�GU �}A�GU �$JA�GU�qA�GU��A�GUfA�GU��'A�GUIA�GU��A�GU� A�GU�77A�GU�ȴA�GU�A�GU�k�A�GUA�GU� ZA�GUe,A�GU��A�GU!�A�GU�t?A�GU�CBA�GUE�A�GU'o*A�GU��A�GU�p�A�GU �PA�GU�F�A�GU�CA�GU��?A�GU_�A�GU�rGA�GUk�A�GU�A�GU��A�GU�qvA�GUv�A�GU��A�GUD�A�GU�XA�GUt�A�GU�*ZA�GU��A�GU�nA�GU �A�GU Yo�A�GU ylaA�GU ��*A�GU ��A�GU ��aA�GU!RiA�GU!� BA�GU"��A�GU"�X%A�GU"�{�A�GU#�A�GU#<�A�GU#].sA�GU#}PA�GU>��dA�GU?_A�GU?��FA�GU@�JA�GU@R A�GU@r'�A�GU@�6;A�GU@�u�A�GU@��A�GUA�YA�GUA�w\A�GUB�A�GUB��A�GUB�R~A�GUCsCA�GUC��A�GUC�/ZA�GUC�X�A�GUC��A�GUD� A�GUD6�A�GUDV�A�GUDw+�A�GUD�=\A�GUD��#A�GUE�xA�GUE��A�GUFmHA�GUF��A�GUG�"A�GUG�W~A�GUH�fA�GUH��A�GUH� �A�GUI8�A�GUI~�A�GUI��2A�GUI�E�A�GUJm�A�GUJ�@A�GUJ�+�A�GUK�%A�GUK �fA�GUK�8�A�GUK�ЦA�GUL�qA�GUL!�A�GUL�r�A�GUL��wA�GUMd�A�GUM$�+A�GUM��A�GUM�:?A�GUN�A�GUN%��A�GUN�B[A�GUN�_1A�GUO��A�GUO&��A�GUO�wA�GUO��A�GUPz�A�GUP,�A�GUP�v�A�GUQ A�GUQ��cA�GURe�A�GUR� �A�GUS��A�GUS�^_A�GUT�JA�GUTq��A�GUT��A�GUT��A�GUU&�A�GUU2��A�GUU��iA�GUVcA�GUV��nA�GUW��A�GUW�^JA�GUX�A�GUX��A�GUY:�A�GUY��EA�GUZ�7A�GUZ�7LA�GU[��A�GU[�}�A�GU\0�A�GU\��tA�GU]��A�GU]��A�GU]��A�GU^�A�GU^~:~A�GU^�bxA�GU^��)A�GU_��A�GU_~�A�GU_��A�GU`)JA�GU` B1A�GU``��A�GU`��9A�GU`��A�GU`��A�GU`�A�A�GUarGA�GUa!� A�GUa��A�GUa��A�GUb��A�GUb$�A�GUbD qA�GUbdLYA�GUb�w�A�GUb��FA�GUb��[A�GUb��A�GUcB�A�GUc%Q�A�GUcE�qA�GUce��A�GUc��A�GUc��A�GUc�Y�A�GUc낀A�GUd��A�GUd- A�GUdM5A�GUdmY�A�GUd��VA�GUd��GA�GUd��A�GUd��A�GUe9.A�GUe.FJA�GUeNg�A�GUe��A�GUe�+�A�GUeA�GUf�GA�GUf/��A�GUfO�A�GUfp)JA�GUf�U2A�GUf�B1A�GUf�Y�A�GUf�ʂA�GUg[�A�GUg0�A�GUgP�FA�GUgq$�A�GUg�9CA�GUh�A�GUh��A�GUi(�A�GUi��jA�GUjb�A�GUj��A�GUk��A�GUk�5?A�GUlԀA�GUl�iDA�GUm�A�GUm��A�GUnSzA�GUn��A�GUo�'A�GUo��A�GUpݘA�GUp�q A�GUq%FA�GUq}�$A�GUq��$A�GUq�;%A�GUrT A�GUr~��A�GUr��zA�GUr��GA�GUs��A�GUs�A�GU��V�A�GU�|FA�GU�7�0A�GU�W�*A�GU�w�hA�GU˘A�GU˸=�A�GU��A�GU�9�AA�GU̚�NA�GU�RA�GU͛�nA�GU��2A�GUΝEcA�GU��A�GU��A�GU�~p;A�GUϧ%�A�GU��A�GU�&�A�GUЇdA�GUЩ\�A�GU� CA�GU�)k�A�GUъ0A�GU��A�GU�-��A�GUҍ�A�GU�a(A�GUӏ�A�GU��A�GU�PA�GU�p=�A�GUԐdEA�GU�q�A�GU�QY`A�GUՑ�KA�GU��A�GU�CWA�GU�2��A�GU֒�mA�GUֳ)_A�GU��mA�GUהC-A�GU��A�GUؕ�A�GU�9.A�GUٖ��A�GU�xWA�GUژL�A�GU�RA�GUۚ��A�GU�[-A�GUܜ�A�GU��EA�GUݠS�A�GU�d�A�GU�&�A�GUކ/ZA�GUޯ%A�GU�� A�GUߐf�A�GU߰��A�GU��ʂA�GU��םA�GU��AA�GU��A�GU�L�A�GU��A�GU��A�GU�2�A�GU��IA�GU㕋�A�GU�A�GU䖵�A�GU�TLA�GU�7A�GU��A�GU�E�A�GU��#A�GU�}�A�GU�#yA�GU�� A�GU��A�GU��A�GU��A�GU�]�^A�GU�~ A�GU�D�A�GU�m�A�GU��A�GU�%��A�GU��A�GU뫥A�GU��s�A�GU��ZA�GU��*�A�GU��9A�GU��!A�GU� �jA�GU��s�A�GU��A�GU� A�GU�"2�A�GU��A�GU��A�GU�}�A�GU�$�XA�GU��IRA�GU��O7A�GU��.A�GU�%� A�GU��A�GU��A�GV�3A�GV'�A�GVGD�A�GVgl�A�GV��A�GV��A�GV��A�GV@�A�GV�xBA�GV��hA�GV t�A�GV��A�GV�YA�GV�A�GV.�A�GVN�EA�GVo$tA�GV�G0A�GV��JA�GVֶA�GV0ZA�GV�x�A�GV�A�GV��1A�GV\�A�GV��mA�GV��A�GV�GA�GV܇A�GV��A�GV &�A�GV ��eA�GV X:A�GV �GA�GVӮA�GV�V�A�GV��A�GV��A�GV :A�GV ��QA�GVoA�GV�MA�GV��@A�GV�sA�GV~/ZA�GV�DRA�GV��A�GV�)A�GVo�A�GV��jA�GV'RA�GV y�A�GV��1A�GV��A�GV\�A�GV!t?A�GV��A�GV�8A�GV��A�GV$CA�GV�eAA�GV��A�GV�A�GV&A�GV��A�GV��~A�GV[�A�GV&��A�GV��_A�GV� A�GV��A�GV'�1A�GV�/�A�GV��A�GV)IA�GV��ZA�GV��$A�GV��A�GV,�BA�GV�u�A�GV �wA�GV��OA�GV8A�GV��oA�GVn�A�GV��A�GV�wA�GV�K�A�GV�.A�GV�x�A�GV"hA�GV��A�GVo�A�GV��A�GV �YA�GV V��A�GV w.IA�GV �7vA�GV ��[A�GV �v`A�GV!��A�GV!��A�GV"dA�GV"��A�GV"�-�A�GV#PrA�GV#:w�A�GV#Z�oA�GV#z��A�GV#��A�GV#�CA�GV$�gA�GV$�O�A�GV%��A�GV%��A�GV%��A�GV&A�GV&~��A�GV&��A�GV&�D�A�GV'k j�A�GV>�>BA�GV>��A�GV?�iA�GV?!CA�GV?��A�GV?��A�GV@.^A�GV@"� A�GV@cSA�GV@��A�GV@�.�A�GV@�_[A�GV@�LA�GVA�>A�GVA$܇A�GVA�N�A�GVA�r�A�GVB WA�GVB&4�A�GVB�پA�GVB��A�GVCG0A�GVC0��A�GVCP�A�GVCp�"A�GVC��A�GVC��A�GVCъ�A�GVD��A�GVD��A�GVE�A�GVE�a�A�GVFTA�GVF��A�GVGAtA�GVG� �A�GVHt�A�GVH�)�A�GVI��A�GVI�y�A�GVJ��A�GVJ��A�GVK0�A�GVK��,A�GVL{�A�GVL�#A�GVM�sA�GVM�\�A�GVM��A�GVN�3A�GVN~yhA�GVN��A�GVN��A�GVO,�A�GVO��A�GVO�͊A�GVO��rA�GVO�/�A�GVP6eA�GVP ]�A�GVP@�bA�GVP`�mA�GVP��A�GVP��A�GVP�,�A�GVP�s�A�GVQz%A�GVQ!�'A�GVQ��A�GVQ�H�A�GVR�wA�GVR$*�A�GVR��A�GVR��A�GVR��fA�GVR� A�GVSO7A�GVS*A�GVSIs�A�GVSi��A�GVS�ίA�GVS��HA�GVTxBA�GVT+٩A�GVT�r�A�GVUAA�GVU�̣A�GVV�A�GVV�^_A�GVWp�A�GVW�LDA�GVX&A�GVX��A�GVYOaA�GVY�̎A�GVZo�A�GVZ�;A�GV[�A�GV[�L0A�GV\��A�GV\��PA�GV].�A�GV]�wA�GV^��A�GV^�H�A�GV_�mA�GV_�}�A�GV`7�A�GV`}�A�GV`��.A�GV`�A�A�GVajUA�GVa~�)A�GVa��+A�GVa�|FA�GVb��A�GVb�-8A�GVb�V�A�GVc��A�GVc!?A�GVc�t�A�GVc��=A�GVd �A�GVd"4�A�GVd��kA�GVd�A�GVe��A�GVe$�6A�GVe��NA�GVe�[A�GVf��A�GVf&�A�GVf��aA�GVf��A�GVgA�GVg'C�A�GVg��UA�GVg��A�GVhz:A�GVh,�A�GVh�m]A�GVh�iA�GVi ��A�GVi�77A�GVjپA�GVj��A�GVk[A�GVk��A�GVl�AA�GVl��A�GVm�xA�GVm�S�A�GVn̎A�GVn�sA�GVo�A�GVo��A�GVo��A�GVo��A�GVo��KA�GVp WA�GVp>J8A�GVp^Z�A�GVp~�A�GVp��HA�GVp��A�GVp��A�GVp�+A�GVqB�A�GVq?~=A�GVq_�A�GVqֶA�GVq�Q�A�GVq�L�A�GVq�CA�GVr��A�GVr,.4A�GVrLs�A�GVrl�A�GVr�x�A�GVr��A�GVr��A�GVr�"A�GVs BA�GVs-�4A�GVsM�A�GVsm��A�GVs��A�GVs�9�A�GVs�c A�GVs�r�A�GVt-�A�GVt.��A�GVtN�9A�GVtn��A�GVt�!�A�GVt�JwA�GVtτ#A�GVt�A�GVu��A�GVu/��A�GVuP�A�GVup)�A�GVu�a�A�GVu�}�A�GVuи(A�GVu�զA�GVv��A�GVv��A�GVw/�A�GVw��.A�GVxE$A�GVx�#A�GVy֡A�GVy4�A�GVy��VA�GVzFJA�GVz�ƽA�GV{`�A�GV{�$A�GV|e,A�GV|�SzA�GV}�A�GV}��A�GV~W?A�GV~��eA�GV�A�GV�:?A�GV��A�GV�~$5A�GV��+A�GV��A�GV��A�GV�agA�GV��A�GV��A�GV� d�A�GV��A�GV��?A�GV�nYA�GV�!��A�GV��-A�GV��M�A�GV��}A�GV�$^A�GV��z�A�GV��A�GV�5�A�GV�%L�A�GV��A�GV��A�GV�4A�GV�NL�A�GV�no�A�GV��fA�GV��A�GV��A�GV�/�A�GV��oA�GV��=A�GV��A�GV��A�GV��CA�GV��A_A�GV��tA�GV��A�GV�B�A�GV��A�GV�{�A�GV��A�GV��KA�GV��eVA�GV�"A�GV��A�GV�GA�GV��$A�GV��BA�GV��d�A�GV��A�GV�ZܱA�GV�{A�GV��A�GV��;�A�GV�ۧ�A�GV��xA�GV��A�GV��)JA�GV��:TA�GV��A�GV�%��A�GV��A�GV��[A�GV�A�A�GV�'X�A�GV��A�GV��>�A�GV�� A�GV��A�GV�)�tA�GV�J�A�GV�j_�A�GV��IA�GV��A�GV�ʴA�GV��:A�GV� 3A�GV�,q A�GV�L�VA�GV�l��A�GV��A�GV��A�GV��0jA�GV��[A�GV� �^A�GV�/�A�GV�P`WA�GV�p��A�GV��CA�GV��A�GV��jjA�GV��oA�GV�nYA�GV�1�SA�GV�Q��A�GV�s5+A�GV��A�GV��vA�GV�Ә A�GV��ȟA�GV��A�GV�4�A�GV�T:�A�GV�ta�A�GV��A�GV��l�A�GV��A�GV��F�A�GV�-#A�GV�5R~A�GV�U�MA�GV�u�kA�GV�� A�GV��A�GV�ւ�A�GV��D�A�GV��A�GV�6��A�GV�V��A�GV�v�EA�GV��$tA�GV��CBA�GV��O�A�GV��z�A�GV��A�GV�7�EA�GV�W��A�GV�xuA�GV��IfA�GV��zA�GV��bA�GV��d�A�GV�ENA�GV�:s.A�GV�Z�(A�GV�z��A�GV��A�GV��wA�GV�}AA�GV��A�GV��A�GV��A�GV��A�GV�6�A�GV�~NA�GV��A�GV��bA�GV�p�3A�GV��`WA�GV��}A�GV��A�GV��A�GV�M+A�GV��ܱA�GV�qvA�GV��5iA�GV��?A�GV��c�A�GV��A�GV��$A�GV�E9A�GV��A�GV��A�GV��A�GV��A�GV��o?A�GV�wA�GV��3A�GV�U�A�GV��A�GV��A�GV�$�A�GV��ڐA�GV��OA�GV�6PA�GV�)pPA�GV��A�GV��A�GV��A�GV� 8�A�GV�/)A�GV�Nc�A�GV�n�HA�GV��A�GV��rA�GV��A�GV�x�A�GV�/��A�GV��*A�GV��A�GV��%�A�GV�� A�GV��y�A�GV�-�A�GV�s�{A�GV��A�GV�g�A�GV��A�GV��A�GV�v7�A�GV��]:A�GV��A�GV�ֱA�GV��UA�GV�OA�GV�7��A�GV�WV�A�GV��~A�GV�QDA�GV��8A�GV��7A�GV��'(A�GV�эA�GV��v�A�GV�(9A�GV�&�6A�GV��A�GV��A�GV��A�GV�)N�A�GV��A�GV� �A�GV�*VXA�GV��A�GV��/�A�GV� n�A�GV��@�A�GV��*A�GV�͐�A�GV��A�GV� �]A�GV�.{A�GV�N`�A�GV�na�A�GV��A�GV��A�GV�+�A�GV��eA�GV�e�A�GV��jA�GV��A�GV��L�A�GV��A�GV��~A�GV�8�A�GV��A�GV��FA�GV�5�>A�GVrA�GV��A�GV×U�A�GV��A�GVĘ�YA�GV�L�A�GV�9x-A�GVř�GA�GVź�A�GV��?hA�GV��h A�GV��A�GV�:�iA�GV�[ 0A�GV�{�A�GVơ��A�GV��JA�GV�+�A�GV�'OA�GVǇ�A�GVǨ\hA�GV��A�GV�(��A�GVȉA�A�GVȮ�MA�GV��A�GVɏ�&A�GV�x�A�GVʐ�OA�GV��A�GV˒C�A�GV��A�GV�2��A�GV̓e�A�GV��A�GV͔�A�GV�DA�GVΖ�A�GV�r2A�GVϗ%�A�GVϷ�A�GV��`A�GV��A�GV��A�GV�7�*A�GV�XQA�GV�xK^A�GVИ|�A�GVи�A�GV�)�A�GVљ�gA�GV�'�A�GVҚ�OA�GV� �sA�GVӁ ZA�GVӧ+�A�GV��A�GV�&�2A�GVԇ_pA�GVԧ��A�GV��{A�GVՈ��A�GV��A�GV�-�hA�GV�m�{A�GV֍�&A�GV�Y�A�GV׎��A�GV�� A�GVؐoiA�GV�p�A�GVّ�A�GV��ԕA�GV��eA�GV�$�A�GV�2��A�GV�R��A�GV�r��A�GVڒ��A�GVڳ�A�GV��2�A�GV��c�A�GV�o~A�GV۔]dA�GV��A�GVܕ\�A�GV� �A�GV�v�eA�GVݖ�A�GV�NfA�GVޗ��A�GV��IA�GVߚ�A�GV��A�GV�^�A�GV�KIA�GV�+ߏA�GV�C-A�GV� 3A�GV⍔A�GV�AA�GV�پA�GV��!�A�GV��QA�GV��YA�GV�/�AA�GV�OԿA�GV�p3A�GV�`WA�GV�U2A�GV��~|A�GV��hA�GV呇�A�GV�eA�GV撹NA�GV�`kA�GV� A�GV��iA�GV�.sA�GV�_A�GV閍A�GV�7vA�GVꗿ�A�GV�oiA�GV��A�GV�I�A�GV�}��A�GV��A�GV�m�A�GV�,��A�GV�FA�GV� ��A�GV��A�GV�<A�GV�/�$A�GV��A�GV�p�A�GV�A�GV��A�GV�ZGA�GV�N�A�GV��A�GV�?>A�GV��A�GV��d0A�GV��3A�GV�u�3A�GV��7�A�GV��4/A�GV�ΚA�GV�6�3A�GV�W6&A�GV�wAJA�GV��agA�GV��A�GV��A�GV�� |A�GV�)JA�GV��A�GV�`�A�GV��A�GV�m3A�GV�~��A�GV��۶A�GV�M�A�GV�,A�GV��u�A�GV� �kA�GV��A�GV�bNA�GV��sA�GV��A�GV�0�A�GV��+�A�GV��A�GV��}AA�GV�&WA�GV��uA�GV�b�A�GV��$5A�GW��A�GW�MA�GW��A�GW��?A�GW6�A�GW��>A�GW��A�GW��A�GW"}A�GW~�;A�GW��,A�GW�)A�GW,� A�GW�+A�GW ��A�GW-�A�GWM�oA�GW�@dA�GW�]A�GW��aA�GW_�A�GW0F�A�GW��A�GW VA�GW ��A�GW �LA�GW �j�A�GW�nA�GW��!A�GWA�GW� �A�GW o�A�GW �!�A�GW��A�GW�F�A�GW)�A�GW��A�GW1�A�GW��sA�GWc�A�GW�3A�GW�FA�GW�R~A�GW�� A�GW7�A�GW>;�A�GW^B[A�GW~m�A�GW��A�GW��2A�GW��A�GW�q"A�GW�aA�GW��A�GW��A�GW |A�GW(qaA�GW��KA�GW�݃A�GW LDA�GW)t�A�GW�[A�GW��A�GW-�hA�GW�˼A�GW��A�GWW�A�GW��A�GW�AA�GW�[�A�GW�ĜA�GW�ӮA�GWrGA�GW1/A�GW��AA�GWA_A�GW��lA�GWW~A�GW�;A�GW��A�GW�XdA�GW �A�GW��vA�GWC�A�GW��A�GW ��A�GW ��A�GW!$�A�GW!�ȟA�GW"e�A�GW"�)A�GW"��sA�GW#�-A�GW#~G�A�GW#�]�A�GW#��A�GW$#�A�GW$C\A�GW$c,�A�GW$��A�GW$��A�GW%�WA�GW%�k�A�GW&�rA�GW&��A�GW'�A�GW'��GA�GW(�NA�GW(�_A�GW)�YA�GW)&ʬA�GW)�CBA�GW)�~=A�GW*��A�GW*( |A�GW*��RA�GW+��A�GW+-��A�GW+��A�GW,FJA�GW,��A�GW-��A�GW-�_A�GW.q�A�GW.��wA�GW/+A�GW/��6A�GW0ySA�GW0��A�GW1��A�GW1u@%A�GW1�Q/A�GW2=A�GW2��A�GW3VCA�GW3��EA�GW3�F A�GW3�}�A�GW4��A�GW4�ܱA�GW5�A�GW5)�A�GW5��A�GW5��A�GW6 mHA�GW6+��A�GW6�oA�GW7��A�GW7��A�GW7��A�GW8*�A�GW8��A�GW9�A�GW9�p�A�GW:یA�GW:QrGA�GW:qt�A�GW:�}kA�GW:��]A�GW:��A�GW:��A�GW;TA�GW;2>A�GW;��_A�GW<j@A�GW<�;A�GW=�FA�GW=�H�A�GW=հ�A�GW=��A�GW>">A�GW>��XA�GW?8�A�GW?��eA�GW@{�A�GW@�IA�GWA�A�GWA��A�GWB�"A�GWBA�GWNJ8A�GWNU�=A�GWN��A�GWOv�A�GWO�-�A�GWP��A�GWP�|�A�GWQ�A�GWQ��A�GWR@A�GWR��A�GWS!�PA�GWS�m�A�GWS��A�GWT��A�GWT/|A�GWT�:A�GWU�A�GWU01�A�GWU��A�GWV��A�GWV��hA�GWWcsA�GWW�/�A�GWX�OA�GWX�nnA�GWY�UA�GWY��,A�GWZVA�GWZ��zA�GW[��A�GW[7� A�GW[�)�A�GW\IA�GW\Y��A�GW\z�rA�GW\��A�GW\�eA�GW\�(A�GW]D�A�GW]��A�GW^�;A�GW^�/�A�GW^��A�GW_0A�GW_>_A�GW_^2�A�GW_~YKA�GW_�}�A�GW_��QA�GW_��CA�GW_��A�GW`#�nA�GW`C:A�GW`cF�A�GW`��A�GW`��A�GW`̽�A�GW`��A�GWa qA�GWa-��A�GWaMl�A�GWam�FA�GWa��A�GWbVA�GWb.|�A�GWb��3A�GWc�6A�GWc�[A�GWd��A�GWd��A�GWe'�A�GWe�ɰA�GWfj�A�GWf�,�A�GWg�A�GWg�s�A�GWh�A�GWh��A�GWh�!�A�GWiU�A�GWi�A�GWié*A�GWj�A�GWj)&BA�GWj��A�GWk dA�GWk*n�A�GWk�A�GWk�(A�GWl�PA�GWl-;A�GWl��MA�GWl��6A�GWm;%A�GWm��oA�GWn� A�GWn�\hA�GWog#A�GWo�EA�GWp�cA�GWp5��A�GWp�doA�GWq�A�GWq��A�GWr��A�GWra��A�GWr��TA�GWr��MA�GWs�JA�GWs#��A�GWs��fA�GWs��A�GWt)�A�GWt/TLA�GWt��nA�GWub�A�GWu�@A�GWv��A�GWv�I�A�GWw��A�GWw�9A�GWx6�A�GWx��HA�GWy`BA�GWy�=A�GWyօ�A�GWz��A�GWz�X:A�GW{�WA�GW{��A�GW|.A�GW|Y|�A�GW|y�gA�GW|�֌A�GW|��A�GW|�!BA�GW}s�A�GW}�fA�GW}�2�A�GW~��A�GW~;�A�GW~[�A�GW~|'�A�GW~�ZA�GW~�xBA�GW~ܟ�A�GW~��A�GW ȊA�GW�r�A�GW�{tA�GW��QA�GW᪤A�GW��WA�GW�"#:A�GW�B�A�GW�b^5A�GW��s�A�GW��A�GW�˶�A�GW��A�GW��A�GW� d�A�GW��A�GW��AA�GW�۶A�GW��9mA�GW��]A�GW�p`WA�GW��A�GW��oA�GW��A�GW��A�GW� \A�GW�1:�A�GW�Qu�A�GW�q�uA�GW�� A�GW�BA�GW��A�GW��A�GW��>�A�GW��A�GW��~gA�GW��A�GW��̣A�GW�U�A�GW��rA�GW��}A�GW��?)A�GW��>A�GW��A�GW� 2A�GW�{��A�GW��A�GW�$>�A�GW��|A�GW��A�GW��GA�GW�%�A�GW��1A�GW��#A�GW��A�GW�(a�A�GW�H"�A�GW��r�A�GW��A�GW� A�A�GW��FA�GW��fA�GW� ��A�GW��A�GW�FJA�GW�.o�A�GW��A�GW��A�GW�/��A�GW��]�A�GW��A�GW��Z�A�GW�eA�GW��A�GW�Z�A�GW��A�GW�sA�GW��A�GW��یA�GW��A�GW�,�A�GW��y�A�GW� �gA�GW��ȴA�GW��uA�GW�LnA�GW��͊A�GW��aA�GW�|�A�GW�P�A�GW�p�A�GW�� A�GW��.A�GW��iA�GW��A�GW��]�A�GW��tA�GW��A�GW�\�A�GW�5��A�GW�U��A�GW�u�A�GW��4A�GW��A�GW�֘�A�GW��A�GW�w*ZA�GW��5~A�GW��nA�GW�7�A�GW�XA�GW�xj+A�GW��qaA�GW��A�GW�حA�GW�"�A�GW��A�GW��łA�GW��A�GW��A�GW��A�GW��A�GW� �lA�GW��A�GW��dEA�GW�1'A�GW��A�GW��0A�GW� s�A�GW�-��A�GW��A�GW��A�GW��M�A�GW��hA�GW�0�A�GW��A�GW�7LA�GW��A�GW�}�A�GW��:A�GW��]A�GW��A�GW�3�A�GW�TKA�GW�t,=A�GW��T7A�GW��?}A�GW�ԫ`A�GW��\A�GW��cA�GW�9.A�GW��ݭA�GW�s�A�GW��%[A�GW�RA�GW��]OA�GW��A�GW��A�GW�:A�GW��A�GW��CA�GW��A�A�GW�r\A�GW��3A�GW��sA�GW��-A�GW�~;�A�GW��VA�GW��A�GW��A�GW�#g�A�GW��A�GW��}A�GW� w2A�GW�-�A�GW�mc�A�GW��zA�GW�?A�GW��fA�GW��{A�GW�f�A�GW��A�GW��6�A�GW�� A�GW�'�^A�GW��B�A�GW��m�A�GW� A�GW��A�GW��]�A�GW�텝A�GW� ��A�GW�-��A�GW��D�A�GW�A�GW��CA�GW�/�A�GW�O>�A�GW�p A�GW��A�GW��A�GW�� A�GW��$A�GW�_�A�GW��p�A�GW�\�A�GWA�GW��A�GWÓk�A�GW��A�GWĔtTA�GW��A�GWŕ��A�GW�ǏA�GW�,"hA�GWƍp�A�GW� *�A�GWǍ��A�GW��!A�GW�i�A�GW�7�*A�GWȘ�A�GW�?A�GWəHVA�GW��A�GWʚ��A�GW�33A�GW˛�bA�GW�f�A�GW̝yA�GW��sA�GW��A�GW�~6�A�GWͦ�9A�GW��A�GW�&�A�GW·0�A�GWΧw�A�GW��A�GW�'�!A�GWψuOA�GW��>A�GW�-�A�GWЍ��A�GWЭ��A�GW�:~A�GWю��A�GWѯ,A�GW��#�A�GW��Z2A�GW��A�GW�/��A�GW�O�AA�GW�p"A�GWҐOLA�GW�]OA�GW�0ӮA�GWӑ/oA�GW��#A�GWԒ�xA�GW�'gA�GWՔ A�GW�]dA�GW֔�oA�GW��A�GWזJ�A�GW��A�GWؗ��A�GW�'RA�GWٙ�A�GW�v6A�GWښ8A�GWں0UA�GW��^5A�GW��A�GW��A�GW�:�/A�GW�[�A�GW�{(�A�GWۛ<`A�GW��A�GW�\Z�A�GW�|y�A�GWܜ��A�GWܼ��A�GW��6PA�GW�"��A�GW݃�A�GWݫ��A�GW�A�GW�+@OA�GWދ�kA�GW��|A�GW�,�LA�GW�L��A�GW�l��A�GWߍr�A�GW߭%�A�GW��U�A�GW� �PA�GW�-�dA�GW�M�A�GW�n+kA�GW��DRA�GW�h^A�GW�sA�GWᏖ}A�GW᯿A�GW�^_A�GW��VA�GW��kA�GW��A�GW�1��A�GW�R[�A�GW�r'(A�GW�6�A�GW㲛(A�GW��(A�GW��UA�GW�ϖA�GW�g�A�GW��A�GW唨A�GW��Q/A�GW�[A�GW�5��A�GW�U��A�GW�u�1A�GW��A�GW��A�GW�֙�A�GW��bA�GW�6�A�GW�3�A�GW蘂kA�GW�/oA�GW�ԕA�GW�Y�A�GW� 0A�GW��qA�GW�V�A�GW�!��A�GW�u%A�GW�&�A�GW� ��A�GW틃'A�GW��,�A�GW��ıA�GW��A�GW�,A5A�GW�l�A�GW� R~A�GW�M�jA�GW��A�GW��oA�GW��?�A�GW𯛻A�GW��xA�GW�0$A�GW�tA�GW��A�GW�̸A�GW� A�GW�� A�GW��A�GW�IA�GW��A�GW�5`�A�GW�U2aA�GW�uYA�GW��A�GW��tA�GW��xA�GW��_A�GW�+kA�GW�K�'A�GW��A�GW��A�GW��#yA�GW�G�A�GW�;n�A�GW�[��A�GW�{��A�GW��A�GW��mA�GW��A�GW�67�A�GW�W �A�GW�v��A�GW��(A�GW��A�GW��*ZA�GW��F�A�GW�^�A�GW�7�A�GW�W��A�GW�w�;A�GW��5A�GW��/�A�GW��mrA�GW��A�GW��A�GW�8��A�GW�X�A�GW�y8A�GW��@yA�GW��lA�GW��A�GW��ίA�GW��kA�GW�:'A�GW�Z:�A�GW�zm�A�GW��\A�GW��NA�GW��A�GW��A�GW� �A�GW�;=�A�GW��A�GW�X%A�GW�|�A�GW��iA�GW��A�GW�&��A�GW�f�MA�GW��HA�GW��A�GW� 8�A�GW�)'�A�GW�ILDA�GW��A�GW� j�A�GW�*s�A�GW�� A�GW��`A�GW��A�GX �"A�GX�x�A�GX��A�GX5�A�GX��fA�GX�TLA�GX�jA�GX/͊A�GXO�9A�GXpQ�A�GX�[�A�GX�"A�GX�SzA�GXA�GX��A�GXc�A�GX��A�GX��A�GX�TvA�GX EA�GX��A�GXD�A�GX��A�GX�sXA�GX��A�GX ��A�GX :A�GX Z@�A�GX zkQA�GX ��A�GX ��A�GX �A�GX ��A�GX �*�A�GX A�A�GX��A�GX��A�GX��A�GX-��A�GX��QA�GX WTA�GX ��"A�GX�0A�GX�c�A�GX��A�GX��'A�GX��A�GX�`A�GX��A�GX�]A�GX�6A�GX�?A�GX�jA�GX��A�GX{A�GX��IA�GXZ�A�GX��A�GX�%A�GX��A�GX2�A�GX��A�GX�x�A�GX!�[A�GX�'A�GX��CA�GX��A�GX-�@A�GX��A�GX��nA�GXJ�A�GX��A�GX�GA�GX�sXA�GX��A�GX��ZA�GX�pA�GX2��A�GXR|[A�GXr��A�GX��>A�GX�k�A�GX}AA�GX3��A�GXS��A�GX�4A�GX�PHA�GX�v�A�GX��`A�GX�,A�GX4܇A�GXU gA�GXuF�A�GX�\SA�GX��A�GXխ�A�GX��A�GX�A�GX6OA�GX��A�GX A�A�GX ��!A�GX �tA�GX �F�A�GX �mrA�GX!��A�GX!8�A�GX!X�A�GX!x�`A�GX!��A�GX!�� A�GX!�p�A�GX!�&�A�GX"�A�GX";$�A�GX"[��A�GX"{smA�GX"��A�GX"��kA�GX"��A�GX#�A�GX$]�.A�GX$}�1A�GX$�~A�GX$�8A�GX%`-A�GX%(u�A�GX%� �A�GX%�tA�GX&�A�GX&)iA�GX&��eA�GX&��FA�GX&��A�GX' TA�GX'*�A�GX'Jo�A�GX'jzcA�GX'��A�GX'��A�GX'��A�GX'��aA�GX( ˼A�GX(-�A�GX(N.�A�GX(nHAA�GX(�W�A�GX(��A�GX(ΧHA�GX(��BA�GX)�EA�GX)/8A�GX)OV�A�GX)p$�A�GX)��A�GX)��A�GX)��A�GX)�)�A�GX*e�A�GX*0j+A�GX*P�.A�GX*pʂA�GX*�z%A�GX*��A�GX*�iA�GX*�=2A�GX+nYA�GX+1�A�GX+Q�A�GX+q� A�GX+��A�GX+�.^A�GX+ҿ4A�GX+�vA�GX,H�A�GX,2��A�GX,SA�GX,s$ A�GX,�_A�GX,�h�A�GX,ӌ�A�GX,��A�GX-�A�GX-3��A�GX-T,�A�GX-tQ�A�GX-�u�A�GX-�_�A�GX-Ե�A�GX-�ԪA�GX.�A�GX.51�A�GX.Uh�A�GX.u�FA�GX.�� A�GX.��A�GX.�jA�GX.�!�A�GX/I�A�GX/6p;A�GX/V��A�GX/v�A�GX/��A�GX/�%A�GX/�TLA�GX/�X�A�GX0 |A�GX07�NA�GX0W�qA�GX0w��A�GX0��A�GX0�P�A�GX0��A�GX0�߹A�GX1�A�GX1:-A�GX1Z�A�GX1z{�A�GX1��A�GX1��!A�GX1��A�GX25A�GX2(��A�GX2H)�A�GX2hMUA�GX2�tA�GX2��A�GX2��CA�GX2��A�GX3 E�A�GX3)5TA�GX3IlaA�GX3i� A�GX3��A�GX3�dZA�GX3뱯A�GX4��A�GX4-�A�GX4M:?A�GX4m_�A�GX4��DA�GX4��GA�GX5;�A�GX5��A�GX6�aA�GX6�Y�A�GX7iA�GX7�GA�GX8�nA�GX8��A�GX9W�A�GX9��A�GX:o�A�GX:��A�GX;�cA�GX;�I�A�GX;�uyA�GX;֥�A�GX;��A�GX<�+A�GX<7:A�GX�PA�GX>$�A�GX>ETvA�GX>e_�A�GX>�d�A�GX>�?>A�GX>�[lA�GX>�V.A�GX?mA�GX?,�A�GX?L��A�GX?l�A�GX?�)5A�GX?��A�GX?�l A�GX?��A�GX@ �{A�GX@-��A�GX@M�A�GX@n/ZA�GX@�N�A�GX@�]�A�GX@΃�A�GX@��A�GXA�A�GXA/ �A�GXAO'A�GXAoK�A�GXA��{A�GXA��A�GXAϰA�GXA�&�A�GXBD(A�GXB0=�A�GXBP_A�GXBp��A�GXB��A�GXB��"A�GXB��>A�GXB��A�GXC7LA�GXC1]�A�GXCQ�QA�GXCq��A�GXC�֌A�GXC��A�GXC�7�A�GXC�:�A�GXD�A�GXD2��A�GXDR�EA�GXDr�.A�GXD��A�GXD�W?A�GXD�vA�GXD��A�GXE��A�GXE3�7A�GXET�A�GXEt/�A�GXE�T7A�GXE�{�A�GXE԰�A�GXE��|A�GXF�8A�GXF4��A�GXFU#�A�GXFuKIA�GXF�nA�GXF��A�GXFռA�GXF��A�GXG�A�GXG6/ZA�GXGWWA�GXGv۶A�GXG��A�GXG��A�GXG��A�GXG�:A�GXHH�A�GXH7�A�GXHW�-A�GXHw�0A�GXH��*A�GXH��A�GXH�)JA�GXH�Q�A�GXI�sA�GXIx�`A�GXI�A�GXI��3A�GXI�p�A�GXI�9A�GXJ�A�GXJ;�A�GXJ[��A�GXJ��A�GXK�A�GXK%I�A�GXK��XA�GXK�#OA�GXLA�GXL.\�A�GXL��A�GXM��A�GXM�s�A�GXN�rA�GXN�o�A�GXO,�A�GXO3f�A�GXOSudA�GXOs�^A�GXO��eA�GXO��A�GXO�DA�GXPi/A�GXP�pA�GXP�r�A�GXQ�=A�GXQV�A�GXQ�L�A�GXR��A�GXR��,A�GXR�ֶA�GXR��A�GXR��A�GXS$�A�GXS8LA�GXSX�A�GXSx��A�GXS� �A�GXTǹA�GXT�UGA�GXU�A�GXU��A�GXV,|A�GXV}��A�GXV�*�A�GXV�^�A�GXW$0+A�GXW�A�GXW�0�A�GXX�PA�GXX$��A�GXX�M�A�GXX�%�A�GXY ��A�GXY�R�A�GXZ�EA�GXZ��A�GX[_�A�GX[��VA�GX\�/A�GX\1�:A�GX\Q�3A�GX\r1�A�GX\�\A�GX\�,gA�GX\�TaA�GX\�~�A�GX]��A�GX]2˧A�GX]R�IA�GX]sCA�GX]�RA�GX]�t�A�GX]әpA�GX]��A�GX^�A�GX^4,=A�GX^TV.A�GX^t��A�GX^��A�GX^��cA�GX^��A�GX^�HA�GX_f'A�GX_5�zA�GX_U�}A�GX_u�A�GX_��A�GX_�T A�GX_֢ A�GX_��A�GX`P]A�GX`6�mA�GX`V�EA�GX`w;dA�GX`�?�A�GX`�VCA�GX`�|FA�GX`��A�GXa͊A�GXa7�=A�GXaX�A�GXa�}�A�GXa��%A�GXaض1A�GXa��A�GXb}A�GXb9&�A�GXbYNbxA�GXt^�6A�GXt~҉A�GXt�ؙA�GXt��A�GXt�GA�GXu�.A�GXu'�&A�GXuG>�A�GXuge�A�GXu��PA�GXu��TA�GXvHA�GXv(uOA�GXvHp�A�GXvh�A�GXv��A�GXv��A�GXv�SzA�GXv�=2A�GXw ��A�GXw.�XA�GXwNԀA�GXwn�zA�GXw�%�A�GXw�P]A�GXwχjA�GXx�SA�GXx�_�A�GXy�JA�GXy��1A�GXz1�A�GXz2��A�GXz��A�GX{i�A�GX{�r�A�GX{� �A�GX|��A�GX|O5A�GX|��]A�GX|��A�GX}�aA�GX}L@�A�GX}��A�GX}�BA�GX}�b9A�GX~�=A�GX~=�cA�GX~]� A�GX~~�A�GX~�dEA�GX~��A�GX~� \A�GX3]A�GX+c�A�GXKƨA�GXlz:A�GX��MA�GX��A�GXͬ�A�GX��9A�GX�A�GX�.:~A�GX�NPA�GX�nj�A�GX��A�GX��A�GX��A�GX��)�A�GX�JwA�GX�/��A�GX�O� A�GX�p$A�GX��͊A�GX��A�GX��A�GX��@�A�GX�oiA�GX�0��A�GX�P��A�GX�p��A�GX��,A�GX��A�GX��r�A�GX��A�GX��wA�GX�1�A�GX�Q��A�GX�r'(A�GX��!�A�GX��A�GX��^tA�GX��A�GX��A�GX�2�A�GX�R�mA�GX�s)_A�GX��bcA�GX��g�A�GX�Ӎ�A�GX��jA�GX�� A�GX�3��A�GX�T�A�GX�tFtA�GX��k'A�GX��OA�GX��GZA�GX��A�GX�55�A�GX�u~gA�GX��$A�GX��A�GX��A�GX�/ZA�GX�6P�A�GX�V�,A�GX�v�UA�GX��A�GX��A�GX��&lA�GX��=\A�GX�W�A�GX�W��A�GX��A�GX��~|A�GX�� A�GX��A�GX�cD�A�GX��A�GX��A�GX�ú4A�GX�� A�GX��A�GX�'��A�GX��:�A�GX��.�A�GX��smA�GX��ʗA�GX��A�GX��HA�GX��A�GX�̙A�GX��A�GX� q�A�GX�-�A�GX�M`A�GX�mGZA�GX��inA�GX�ؙA�GX�%;�A�GX�EA�GX�e��A�GX��A�GX��A�GX��A�GX��A�GX��A�GX�,�A�GX�M�A�GX�m%FA�GX��.A�GX��A�GX�͝�A�GX��A�GX� ��A�GX�.+A�GX�N[BA�GX�nP�A�GX��A�GX��A�GX��A�GX��A�GX�#%A�GX�/I(A�GX�O��A�GX�o�mA�GX��QA�GX��A�GX��NA�GX��$A�GX�a�A�GX�0^_A�GX�P�QA�GX�p�CA�GX��A�GX��A�GX��_FA�GX��A�GX�1�JA�GX��A�GX��eA�GX��A�GX�2��A�GX�S\A�GX�s+�A�GX��dZA�GX��}AA�GX�ӏ�A�GX�� A�GX��A�GX�3�eA�GX�T!A�GX��m�A�GX��A�GX��GZA�GX��A�GX�5:�A�GX�U`BA�GX�u��A�GX��6A�GX��:A�GX��A�GX��jA�GX�;�A�GX�6t*A�GX�w)A�GX��1A�GX�bA�GX�xC�A�GX��A�GX��F A�GX�؁A�GX��A�GX��A�GX�8��A�GX�X��A�GX�y(�A�GX��:�A�GX��`�A�GX�مIA�GX��A�GX��`�A�GX��A�GX��A�GX��A�GX��A�GX��!A�GX�}�A�GX��)�A�GX��A�GX�*��A�GX�JvuA�GX�j��A�GX��+A�GX��}A�GX�� A�GX��5+A�GX��A�GX�.3�A�GX�NDRA�GX�nOvA�GX��A�GX��A�GX��b9A�GX��A�GX�"��A�GX�C��A�GX�d�A�GX��֡A�GX��;A�GX��uA�GX��K^A�GX�p�A�GX�(�lA�GX�H��A�GX�h�`A�GX��;�A�GX��A�GX�ʙ1A�GX��#yA�GX�JA�GX�+ �A�GX�KKsA�GX�k�A�GX��A�GX��jA�GX��1{A�GX�� A�GX��A�GX�,[lA�GX�L�hA�GX�l�A�GX��A�GX��;A�GX��A�GX��<6A�GX� b9A�GX�-�NA�GX�MćA�GX�m�A�GX��,�A�GX��MA�GX��a(A�GX�A�GX��A�GX�/WA�GX�O5A�GX�o4/A�GX��4A�GX��mA�GX�Ϣ�A�GX��&A�GX��A�GX�0�A�GX�PR�A�GX��A�GX��JA�GX��wA�GX��A�GX��)_A�GX��A�GX��d�A�GX��A�GX��A�GX��A�GX��*A�GX�PA�GX�6yhA�GX�V� A�GX�vߤA�GX��EA�GX��;A�GX��;dA�GX�{�A�GX��5�A�GX�IA�GX��oA�GX� &A�GX��QA�GX��A�GX�JA�GX�&��A�GX��eVA�GX�� A�GX� s�A�GX�-�A�GX��9A�GX��A�GX��GA�GX�܇A�GX��A�GX��A�GX��A�GX�h�A�GX�� A�GX��|�A�GX��QA�GX��vA�GX�8զA�GX�X��A�GX�y)�A�GX��R�A�GX��A�GX�_}�A�GX��IA�GX��:A�GX�D�A�GX�"'A�GX�bdA�GX��A�GX��<�A�GX�ǐ�A�GX��A�GX��A�GX�'�XA�GX��}�A�GX� CA�GX�)XA�GX��FA�GX��A�GX� n�A�GX��A�GX�D�A�GX��"A�GX��A�GX��pA�GX��A�GX��z�A�GX�KA�GX��/�� pb[��b[��ؘ��ƽ��X��!W��A�GVE�� /G�� pn;��n0Ȁ�ؘ��X&��(X��A�GVM�j�/�� pz��y��ؘ��ٙH��XA��.X��A�GVT��/ˀ�� p��`��`��ؘ��Xb��5Y��A�GV\��0 �� p�z��n�ؘؘ��^��X}��;Y��A�GVc��X�0O�� p�2D��&H��ؘ��s��X��BY��A�GVk��0�� p��D��Ӵ��ؘ��ǧ�΀��X��JY��A�GVr��j�0Ӏ�� p�� ؘ��6��Xڀ��RZ� ��A�GVz�X�1�� p�Hl��Hl��ؘ��:��X��XZ�""��A�GV��1W�� p�\P��P8��ؘ��R��Y��^Z�""��A�GV��1�� p�3��'(��ؘ��ǡ�Z��Y3��h[�$$��A�GV��a�1ۀ�� p��ؘ��YT��n[�$$��A�GV��2�� p��|��ؘ��ʧ�Y��Y��z^�..��A�GV��2_�� p�֘��֘��ؘ��Y��^�00��A�GV�ı�2�� p�D��L�ؘ��E��Y��^�00��A�GV��a�2�� p�h��4�4�ؘ��?��Y��^�00��A�GV��a�3%�� p e�� e��ؘ��߀��Y��^�00��A�GV��¹�3g�� p,Z��,N��ؘ��G��Z��^�00��A�GV��3�� p8:��8,Ѐ ܘؘ��Z:��^�00��A�GV̋�X�3�� pD&P��D&P��ؘ�� Z[��^�00��A�GV��À4-�� pP��O�D� ��ؘ��րe��Zv��^�00��A�GVۋ��4o�� p[�D��[�܀h�ؘ��`�̀��Z��^�00��A�GV��b�4�� pg�<��g��H�ؘ��0�(��Z��^�00��A�GV��a�4�� ps� ��sԨ� x�ؘ��ف��ZӀ��^�00��A�GV��55�� pŔ��Ŕ��ؘ��܁��Z��^�00��A�GV��X�5w�� p��ؘ��H�S��[��^�00��A�GW��5�� p��D��@�ؘ��[*��^�00��A�GW�¹�5�� p��|��|��ؘ��K��[K��^�00��A�GW�}�6=�� p��\�T�ؘ��q��[f��^�00��A�GW��a�6�� p�p��ؘ��Γ�ـ��[��^�00��A�GW� �6�� p��怀l�ؘ��͸�p��[��^�00��A�GW&�¹�7�� p��H�h�ؘ��ε�؀��[ڀ��^�00��A�GW.��7E�� p��ؘ��˳�3��[��^�00��A�GW5��j�7�� p�� l�ؘ��y��\��^�00��A�GW=��7ɀ�� p �� Ā <�٘��υ��\1��^�00��A�GWD�¹�8�� p �"�� "��٘��/�^��\R��^�00��A�GWLƨ�8M�� p �9�� ,��٘��d��\m�� ^�00��A�GWS��a�8�� p �`�� TP��٘��ѻ�!��\��^�00��A�GW[�j�8р�� p �vP�� ì��٘��|��\��^�00��A�GWb�¹�9�� p Ŕ�� ŇT��٘��D��\ʀ��_�55��A�GWj�X�9U�� p Ѩl�� ,��{И٘��V�?��\��#_�55��A�GWq��9�� p �� ݻ��٘��c��]��)_�55��A�GWy�a�9ـ�� p �� ǈ��٘��ˈ��]!��/_�55��A�GW��¹�:�� p �� h��٘��j��]B��6`�;;��A�GW�� :]�� p&�� ٘��Ύ�ŀ��]]��<`�;;��A�GW��a�:�� pK��>�� ٘��Z�-��]~��B`�;;��A�GW��a�:�� pf��ZT��٘��؊��]��H`�;;��A�GW��;#�� p&� ��&wt� ��٘��o��]��Oa�==��A�GW�¹�;e�� p2��2��٘��̒�Q��]׀��Yb�AA��A�GW��;�� p>� ��>�h��٘��]��_b�AA��A�GW��;�� pJ��J �\�٘��4��^��eb�AA��A�GW��ۡ�<+�� pW�0��W�0��٘��~��^K��kb�AA��A�GW��j��^À��c�GG��A�GW��a�=u�� p�jL��]d��٘��̰��^ހ��e�MM��A�GW��=�� p��$��٘��܏��^��e�PP��A�GW��=�� p��@� h�٘��͐�\��_��e�PP��A�GW��>;�� p�!��̘٘��Ā��_;��f�RR��A�GX�Հ>}�� p�Gl��:��٘��_V��f�RR��A�GX�¹�>�� p�2X��2X��٘��̫��_w��f�RR��A�GX��?�� p�"��"��٘��P��_��f�RR��A�GX��?C�� p��Ԁ,�٘��d�J��_��f�RR��A�GX�8�?�� p��Ѐ�٘��\��_΀��f�RR��A�GX%��?ǀ�� p��ߠ��٘��V� ��_��h�ZZ��A�GX-��@ �� p��$�ܘ٘��h��` ��j�``��A�GX4��@K�� p��.��٘��Ѐ��`+��l�jj��A�GX<ı�@�� p/��/�� ٘��*�+��`F��l�jj��A�GXC�¹�@π�� p=\��;�؀Z��٘��s��`g��n�pp��A�GXK��A�� pK<��K8��٘��ԓ��`��o�vv��A�GXR��AS�� pY��YxH��٘��,��`��o�vv��A�GXZ��A�� pfwl��fwl��٘��e��`Հ��o�vv��A�GXa��A׀�� ps�d��s�Ѐ��٘��U��`��q�||��A�GXi�X�B�� p��L��L��٘��╰��a��s��A�GXp�ı�B[�� p��T��T��٘��<��a2��t��A�GXx�ÀB�� p��H��ꀀȘ٘��M�s��aM��&u��A�GX�¹�B߀�� p��0��P� ��٘��ar��/v��A�GX��C!�� p�$��Ș٘��~�B��a��8w��A�GX��Cc�� p�y��m�ؘ٘��`��a��Ax��A�GX�¹�C�� p�Y��ǭ��٘��à��Kz��A�GX��C�� p�H��=�� ٘��y��a��T{��A�GX��j�D)�� p��٘��Ԁ��b ��_}��A�GX��Dk�� p��Ā�٘��<��b*��e}��A�GX��D�� p��`��|� �٘��/��bE��k}��A�GX��¹�D�� p��(��l��٘��bf��q}��A�GX��E1�� p �(�� (��٘��Z��b��x~��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 218 / width of table in bytes NAXIS2 = 140 / 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 = 613329249.09332 TSTOP = 613331334.09268 DATE-OBS= '2020-06-08T17:14:04' DATE-END= '2020-06-08T17:48:49' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99935996532 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 305 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:46' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Y7Adb72aZ79aa79a' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1253820693' / data unit checksum updated 2020-06-18T16:20:46 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: sw00976692000b131x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��׻c��J��`��`��A�GT��A�GT��3^��3^��u�*��zŀ��J�o��7d�B�ݙ��A�GT��̀targ/temp/onfalse.lng �Ԁ�Ԁ��d ��?��K��o��o��A�GT��A�GT��5z��5z��u��{��Jɺ��7dp�h�ݙ��A�GT��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��L��~��~��A�GT��ӀA�GT��7��7��u��{y��J��7d��ݙ��A�GT��̀targ/temp/onfalse.lng �Ԁ�Ԁ��d ��N-��A�GTƆ�4�A�GTƀ��9��9��u��{Ӏ��J�P��7fq��ݙ��A�GT΋ߏ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��Ӎ�Of��A�GT��A�GT��;Η�;΀�u��|-��Jʛ��7f��ݙ��A�GT�ۡ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��د��P��A�GTՆ�ӀA�GTՀ��=ꗶ=��u�}��|��J��7g#�"�ݙ��A�GT݋�@�targ/temp/onfalse.lng �Ԁ�Ԁ��d �� ދ��Q֤��A�GT��+�A�GT��@��@��u��|��J�1��7g��M�ݙ��A�GT��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��g��S ��ɀ��ɀ��A�GT䆅4�A�GT��B"��B"��u�k��};��J�|��7g��ݙ��A�GT��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��'��C��TF��؀��؀��.A�GT��A�GT��D>��D>��u��}��J�ǀ��7hM��ݙ��A�GT��A�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��6��U}��瀨�=A�GT��A�GT��FZ��FZ��u�Y��}��J��7h��ݙ��A�GT��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��E��V��LA�GT��ۀA�GT��Hv��Hv��u�Ѓ�~I��J�]��7h��ݙ��A�GUᇀtarg/temp/onfalse.lng �Ԁ�Ԁ��d ��T��׍�W��[A�GU��4�A�GU��J��J��u�G��~��J̨��7iV�%�ݙ��A�GU ��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��c��Y&��jA�GU ��A�GU ��L��L��v��~��J��7j)��ݙ��A�GU��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��r��Z]��#��#��yA�GU��ۀA�GU��Nʗ�Nʀ�v5��W��J�>��7k��(�ݙ��A�GU��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d �� k��[��2��2��A�GU��A�GU��P时P��v��J͉��7m��ݙ��A�GU!ᇀtarg/temp/onfalse.lng �Ԁ�Ԁ��d ��G��\ͤ��A��A��A�GU ��A�GU ��S��S��v#��J�Ԁ��7nJ�8�ݙ��A�GU(��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��#��^��P��P��A�GU(�+�A�GU(��U��U��v��e��J��7n��ݙ��A�GU0�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��_=��_��_��A�GU/��A�GU/��W:��W:��v��J�j��7oS��ݙ��A�GU7�ݘ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��$ۍ�`v��n��n��A�GU7�ۀA�GU7��YV��YV��v ��Jε��7o��ݙ��A�GU?��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��*��a��}��}��A�GU>��ۀA�GU>��[r��[r��v ��s��J��7o��ݙ��A�GUF��7�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��0��b椎��A�GUF��A�GUF��]��]��vv��̀��J�K��7p��g�ݙ��A�GUNݘ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��6o��d��A�GUM��ۀA�GUM��_��_��v ��'��Jϖ��7p��ݙ��A�GUU�ۡ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��targ/temp/onslew.vet ��!,��d ����{��{��A�GV=��ۀA�GV=��-��-��v<̓��j��J��7��ߙ��A�GVE��targ/temp/onslew.vet ��!,��d ��ˍ��X��A�GVE�ۀA�GVE��I��I��v>D��Ā��J�A��7�7��ߙ��A�GVM�targ/temp/onslew.vet ��!,��d ��A�GVL��<�A�GVL��e��e��v?��Jٌ��7��ߙ��A�GVT��targ/temp/onslew.vet ��!,��d ��Ȥ��A�GVT�+�A�GVT��vA2��x��J�׀��7�s�ߙ��A�GV\��targ/temp/onslew.vet ��!,��d �� _�� A�GV[��4�A�GV[��vB��Ҁ��J�"��7�[��ߙ��A�GVc��7�targ/temp/onslew.vet ��!,��d ��;��8��ƀ��ƀ��A�GVc�<�A�GVc��vD ��,��J�m��7��ߙ��A�GVk��targ/temp/onslew.vet ��!,��d ��$��o��Հ��Հ��+A�GVj��ۀA�GVj��՗��Հ�vE��Jڸ��7� ��ߙ��A�GVr��H�targ/temp/onslew.vet ��!,��d ��3��󍯓��䀨�:A�GVr�4�A�GVr��vG��J��7�x�ߙ��A�GVz�7�targ/temp/onslew.vet ��!,��d ��B�� ύ��ߤ��󀨒IA�GVy��ۀA�GVy��vH��F��J�N��7��-�ߙ��A�GV��targ/temp/onslew.vet ��!,��d ��Q��&��XA�GV��ӀA�GV��5��5��vI��Jۙ��7�5N�ߙ��A�GV��targ/temp/onslew.vet ��!,��d ��`��,��P��gA�GV��A�GV��Q��Q��vKs��J��7�)��ߙ��A�GV��targ/temp/onslew.vet ��!,��d ��o��2c�� vA�GV��4�A�GV��m��m��vL��T��J�/��7��p�ߙ��A�GV��targ/temp/onslew.vet ��!,��d ��~��8?��/��/��A�GV��ۀA�GV��vNa��J�z��7��A�GV��ݘ�targ/temp/onslew.vet ��!,��d ��>��>��>��A�GV��ۀA�GV��vO؃��J�ŀ��7��X��A�GV�ߏ�targ/temp/onslew.vet ��!,��d ��C��0��M��M��A�GV��ۀA�GV��vQO��b��J��7�;��A�GV��@�targ/temp/onslew.vet ��!,��d ��IӍ��i��\��\��A�GV��4�A�GV��ݗ��݀�vRƃ��J�[��7��@��A�GV��@�targ/temp/onslew.vet ��!,��d ��O��k��k��A�GV��ۀA�GV��vT=��Jݦ��7��A�GV��7�targ/temp/onslew.vet ��!,��d ��U��٤��z��z��A�GV��4�A�GV��vU��p��J��7�Q��A�GV��targ/temp/onslew.vet ��!,��d ��[g��A�GVĆ��A�GVĀ��1��1��vW+��ʀ��J�<��7��A�GV̋�7�targ/temp/onslew.vet ��!,��d ��aC��I��A�GV��A�GV��M��M��vX��$��Jއ��7�� A�GV��targ/temp/onslew.vet ��!,��d ��g��A�GVӆ�4�A�GVӀ��i��i��vZ��~��J�Ҁ��7�g!z��A�GVۋ��targ/temp/onslew.vet ��!,��d ��l��A�GV��A�GV��υ��υ��v[��؀��J��7�"��A�GV��A�targ/temp/onslew.vet ��!,��d ��r׍��𤎭ŀ��ŀ��A�GVↅۀA�GV��ѡ��ѡ��v]��2��J�h��7��$^��A�GV��targ/temp/onslew.vet ��!,��d ��#��x��)��Ԁ��Ԁ��*A�GV��A�GV��ӽ��ӽ��v^~��J߳��7�r%��A�GV�ݘ�targ/temp/onslew.vet ��!,��d ��2��~��`��〨�9A�GV�ۀA�GV��ٗ��ـ�v_��J��7� 'B��A�GV��߀targ/temp/onslew.vet ��!,��d ��A�لk��򀨓HA�GV��A�GV��val��@��J�I��7��(��A�GWݘ�targ/temp/onslew.vet ��!,��d ��P�يG��Ф��WA�GW��A�GW��vb��J��7�*)��A�GW��targ/temp/onslew.vet ��!,��d ��_�ِ#�� fA�GW�4�A�GW��-��-��vdZ��J�߀��7�"+��A�GW�z�targ/temp/onslew.vet ��!,��d ��n�ٕ��@��uA�GW��A�GW��I��I��veу��N��J�*��7��-��A�GW��@�targ/temp/onslew.vet ��!,��d ��}�ٛۍ��z��.��.��A�GW�ӀA�GW��e��e��vgH��J�u��7��.��A�GW��targ/temp/onslew.vet ��!,��d ��١��=��=��A�GW��ۀA�GW��⁗�⁀�vh��J��7�3/��A�GW&��targ/temp/onslew.vet ��!,��d ��٧��ꤎ�L��L��A�GW&��A�GW&��䝗�䝀�vj6��\��J��7��1k��A�GW.�؀targ/temp/onslew.vet ��!,��d ��٭o��!��[��[��A�GW-��4�A�GW-��湗�湀�vk��J�V��7��2��A�GW5��H�targ/temp/onslew.vet ��!,��d ��ٳK��Z��j��j��A�GW5�+�A�GW5��՗��Հ�vm$��J⡀��7�34R��A�GW=�7�targ/temp/onslew.vet ��!,��d ��ٹ'��y��y��A�GW<��ۀA�GW<��vn��j��J��7��5��A�GWD�ݘ�targ/temp/onslew.vet ��!,��d ��ٿ��ʤ��A�GWD�4�A�GWD�� vp��Ā��J�7��7��7=��A�GWL�.�targ/temp/onslew.vet ��!,��d ��ߍ��A�GWK��ӀA�GWK��)��)��vq��Jむ��7�O8��A�GWS��@�targ/temp/onslew.vet ��!,��d ��ʻ��:��A�GWS��A�GWS��E��E��vs��x��J�̀��7��:+��A�GW[ߏ�targ/temp/onslew.vet ��!,��d ��З��q��A�GWZ��ۀA�GWZ��a��a��vtw��Ҁ��J��7��;��A�GWb�ݘ�targ/temp/onslew.vet ��!,��d ��s��Ā��Ā��A�GWb�ӀA�GWb��}��}��vu��,��J�c��7�d=��A�GWj�7�targ/temp/onslew.vet ��!,��d ��"��O��ᤎ�Ӏ��Ӏ��)A�GWi��4�A�GWi��vwe��J䮀��7�>|��A�GWq��targ/temp/onslew.vet ��!,��d ��1��+�� �8A�GWq�ۀA�GWq��vx܃��J��7½?��A�GWy�@�targ/temp/onslew.vet ��!,��d ��@��Q��񀨔GA�GWx��ӀA�GWx��ї��р�vzS��:��J�D��7�jAc��A�GW��ݘ�targ/temp/onslew.vet ��!,��d ��O��㍯��VA�GW��A�GW��헶��v{ʃ��J叀��7�$B��A�GW�ߏ�targ/temp/onslew.vet ��!,��d ��^��󿍯��eA�GW��4�A�GW�� v}A��J�ڀ��7��DH��A�GW��@�targ/temp/onslew.vet ��!,��d ��m��tA�GW��+�A�GW��%��%��v~��H��J�%��7ɆE��A�GW��targ/temp/onslew.vet ��!,��d ��|��w��1��-��-��A�GW��ۀA�GW��A��A��v�/��J�p��7��گ?��ä���EA�GXw��ۀA�GXw��C��C��v�!��1��J�:��8Pr.�♂��A�GX��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��M�ڵ��TA�GX�4�A�GX��E��E��v��J��8s��♂��A�GX��߀targ/temp/onfalse.lng �Ԁ�Ԁ��d ��\�ں��3�� cA�GX��ۀA�GX��Gė�GĀ�v��J�Ѐ��8u�♂��A�GX��H�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��k��Ӎ��l��rA�GX��A�GX��I��I��v��?��J��8�vm�♂��A�GX�ـtarg/temp/onfalse.lng �Ԁ�Ԁ��d ��z��Ư��죤��+��+��A�GX��ۀA�GX��K��K��v��J�f��8�w��♂��A�GX��@�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��̋��ܤ��:��:��A�GX��ۀA�GX��N��N��v�t��J��8 �yC�♂��A�GX�ۡ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��g��I��I��A�GX��A�GX��P4��P4��v��M��J��8�z��♂��A�GX��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��C��L��X��X��A�GX��4�A�GX��RP��RP��v�b��J�G��8 ;|%�♂��A�GX��u�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��񃤎�g��g��A�GX��ۀA�GX��Tl��Tl��v�ك��J��8�}��♂��A�GX��ݘ�targ/temp/onfalse.lng �Ԁ�Ԁ��d ��򼤎�v��v��A�GX��ۀA�GX��V��V��v�P��[��J�݀��8��♂��A�GX��targ/temp/onfalse.lng �Ԁ�Ԁ��d ��׍��󤎱��A�GX�ۀA�GX��X��X��v�ǃ��J�(��8T�}�♂��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 194 / width of table in bytes NAXIS2 = 140 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 75 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK132SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BTMMAXWRESET' / TM Maximum Number of Warm Resets Before a Cold TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BTMEVENTCNT' / TM Count of All Events TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BTMSEVERRCNT' / TM Count of Events with Invalid Severity TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BTMSEVER1CNT' / TM Count of Events with Severity = 1 TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMSEVER2CNT' / TM Count of Events with Severity = 2 TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMSEVER3CNT' / TM Count of Events with Severity = 3 TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BTMSEVER4CNT' / TM Count of Events with Severity = 4 TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTMSEVER5CNT' / TM Count of Events with Severity = 5 TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BTMCURRMODE' / TM Current Software Mode TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTMPREVMODE' / TM Previous Software Mode TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BTMSRESETCNT' / TM System Reset Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'undocumented1' / Byte field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM25 = '1D ' / data format of field: 8-byte DOUBLE TTYPE26 = 'BTMPLOGPRVMOD' / TM Log of Previous Mode Change: The Mode We EntTFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BTMPLOGNEWMOD' / TM Log of Previous Mode Change: The Mode We CamTFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BTMPRESETTYPE' / TM Log of Previous Mode Change: The Reset Type TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'undocumented2' / Byte field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BTMPLOGEVENT' / TM Log of Previous Mode Change: Event that CausTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BTMPLOGTIME' / TM Log of Previous Mode Change: The Time It HapTFORM31 = '1D ' / data format of field: 8-byte DOUBLE TTYPE32 = 'BTMSSWARMRST' / TM Count of Task Level Warm Resets TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BTMSSCOLDRST' / TM Count of Task Level Cold Resets TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BTMEXHOOKCNT' / TM Exception Hook Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BTMEXDBLFLTS' / TM Exception Double Fault Count TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BTMNUMALLOCS' / TM Current TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BTMBADALLOCS' / TM TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BTMPERCUSED1' / TM Percent Used in Partition TFORM38 = '1I ' / data format of field: 2-byte INTEGER TTYPE39 = 'BTMPERCUSED2' / TM Percent Used in Partition TFORM39 = '1I ' / data format of field: 2-byte INTEGER TTYPE40 = 'BTMPERCUSED3' / TM Percent Used in Partition TFORM40 = '1I ' / data format of field: 2-byte INTEGER TTYPE41 = 'BTMPERCUSED4' / TM Percent Used in Partition TFORM41 = '1I ' / data format of field: 2-byte INTEGER TTYPE42 = 'BTMPERCUSED5' / TM Percent Used in Partition TFORM42 = '1I ' / data format of field: 2-byte INTEGER TTYPE43 = 'BTMPERCUSED6' / TM Percent Used in Partition TFORM43 = '1I ' / data format of field: 2-byte INTEGER TTYPE44 = 'BTMPERCUSED7' / TM Percent Used in Partition TFORM44 = '1I ' / data format of field: 2-byte INTEGER TTYPE45 = 'BTMPERCUSED8' / TM The number of Memory Blocks In Use in this OTFORM45 = '1I ' / data format of field: 2-byte INTEGER TTYPE46 = 'BTMSYSDBGSTR' / TM System Debug Stream Setting TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BTMSYSDBGLVL' / TM System Debug Level TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL50 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE51 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMUNUSED' / TM spare TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BCISCNETFLAG' / CI Flag indicating whether packet came from S/CTFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCICLCWDWORD' / CI CLCW in raw form (all 4 bytes) TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BCIPKTCNT' / CI Packet Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCIPKTERRCNT' / CI Packet Error Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BCIUPLNKHWST' / CI Uplink Hardware Status TFORM62 = '1J ' / data format of field: 4-byte INTEGER TZERO62 = 2147483648 / offset for unsigned integers TTYPE63 = 'BCISWCBCNT' / CI Software Version of CodeBlock Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BCITAILSEQCNT' / CI Count of CLTU Tail Sequences TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BCISWCBERRS' / CI Software Version of CodeBlock Error Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BXCSEGSTATE' / XC segmentation reconstruction state TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BXCREJECTREASON' / XC command reject reason TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BCIREJREASON' / CI Reason for Rejecting Command Transfer Frame TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BCISIUCMDNUM' / CI Last SIU control command received TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BCIWBASKET1' / CI Buffer holding the most recent Rejected TranTFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'BCIWBASKET2' / CI Buffer holding the most recent Rejected TranTFORM72 = '1J ' / data format of field: 4-byte INTEGER TZERO72 = 2147483648 / offset for unsigned integers TTYPE73 = 'BCIWBASKET3' / CI Buffer holding the most recent Rejected TranTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TTYPE74 = 'BCIWBASKET4' / CI Buffer holding the most recent Rejected TranTFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TTYPE75 = 'BCIWBASKET5' / CI Buffer holding the most recent Rejected TranTFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers EXTNAME = 'hk132x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329250.2914 TSTOP = 613331335.29142 DATE-OBS= '2020-06-08T17:14:05' DATE-END= '2020-06-08T17:48:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2085.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 306 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '5cceAbac7bacAbac' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '4133805397' / data unit checksum updated 2020-06-18T16:20:47 TRDHI5 = 2 / BTMSEVERRCNT Red upper limit = BTM_SEVERRCNT_LITYEHI5 = 1 / BTMSEVERRCNT Yellow upper limit = BTM_SEVERRCNTCOMMENT Column 12 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 13 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 20 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 21 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 22 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 24 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 26 = BTMPLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 27 = BTMPLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 28 = BTMPRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 30 = BTMPLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 46 = BTMSYSDBGSTR - Discrete value COMMENT 0 = CLOSE = no description COMMENT 1 = OPEN = no description COMMENT Column 51 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 58 = BCISCNETFLAG - Discrete value COMMENT 0 = NETWORK = no description COMMENT 1-4294967296 = SPACECRAFT = no description TRDHI61 = 2 / BCIPKTERRCNT Red upper limit = BCI_PKTERR_LIM TYEHI61 = 1 / BCIPKTERRCNT Yellow upper limit = BCI_PKTERR_LICOMMENT Column 68 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress COMMENT Column 69 = BCIREJREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = UPLINK HW RESET = The uplink hardware interface has been reset COMMENT 2 = BAD CB PARITY = The uplink hardware detected a codeblock with paCOMMENT 3 = CDU DROPOUT = The uplink hardware reported a dropout in uplink cCOMMENT 4 = FRM TOO SHORT = The cmd frame length field is too short for a coCOMMENT 5 = FRM SEQ TOO LOW = The recvd seq count was in negative edge of thCOMMENT 6 = FRM SEQ TOO HIGH = The recvd seq count was in positive edge of tCOMMENT 7 = FRM SEQ WAY OFF = The recieved seq count was outside of the slidCOMMENT 8 = CMDS IN LOCKOUT = Cmd rejected because we are in lockout mode COMMENT 9 = BAD FRM VERSION = The cmd frame version number was wrong COMMENT 10 = BAD SPACRAFT ID = The cmd frame spacecraft ID was wrong for thiCOMMENT 11 = BAD FRAME TYPE = The cmd frame type field was wrong COMMENT 12 = BAD VIRTUAL CHNL = The cmd frame virtual channel number was wroCOMMENT 13 = BYPASS CMD NUM = A bypass cmd frame was received with an unknowCOMMENT 14 = BAD SEGMENT ID = The cmd frame segment ID number was wrong COMMENT 15 = SB SEND ERROR = The software bus reported an error on the cmd pCOMMENT 16 = PKT TOO LONG = The cmd pkt length field was too large COMMENT 17 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt dataCOMMENT 18-255 = UNDEFINED = An unknown CI error occurred COMMENT Column 70 = BCISIUCMDNUM - Discrete value COMMENT 90 = ENABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0x5A COMMENT 160 = DISABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0xA0 COMMENT 132 = ENABLE INHIBIT B: Transmitter 28V A = SIU Command 0x84 COMMENT 9 = DISABLE INHIBIT B: Transmitter 28V A = SIU Command 0x09 COMMENT 240 = ENABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xF0 COMMENT 165 = DISABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xA5 COMMENT 101 = ENABLE INHIBIT B: Spare = SIU Command 0x65 COMMENT 204 = DISABLE INHIBIT B: Spare = SIU Command 0xCC COMMENT 0 = ENABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x00 COMMENT 85 = DISABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x55 COMMENT 51 = ENABLE INHIBIT B: Transmitter 28V B = SIU Command 0x33 COMMENT 102 = DISABLE INHIBIT B: Transmitter 28V B = SIU Command 0x66 COMMENT 15 = ENABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x0F COMMENT 5 = DISABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x05 COMMENT 60 = ENABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x3C COMMENT 105 = DISABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x69 COMMENT 195 = ENABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xC3 COMMENT 207 = DISABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xCF COMMENT 63 = ENABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x3F COMMENT 149 = DISABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x95 COMMENT 89 = ENABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0x59 COMMENT 243 = DISABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0xF3 COMMENT 86 = ENABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0x56 COMMENT 252 = DISABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0xFC COMMENT 154 = ENABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x9A COMMENT 48 = DISABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x30 COMMENT 106 = ENABLE INHIBIT A: S/A Deploy #1 = SIU Command 0x6A COMMENT 192 = DISABLE INHIBIT A: S/A Deploy #1 = SIU Command 0xC0 COMMENT 169 = ENABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0xA9 COMMENT 80 = DISABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0x50 COMMENT 166 = ENABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0xA6 COMMENT 12 = DISABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0x0C COMMENT 3 = ENABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x03 COMMENT 10 = DISABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x0A COMMENT 72 = ENABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x48 COMMENT 144 = DISABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x90 COMMENT 255 = ENABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xFF COMMENT 170 = DISABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xAA COMMENT 150 = ENABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x96 COMMENT 153 = DISABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x99 COMMENT 175 = ENABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xAF COMMENT 245 = DISABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xF5 COMMENT 183 = ENABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0xB7 COMMENT 111 = DISABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0x6F HISTORY TASK: FAPPND on FILENAME: sw00976692000b132x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�%L��`=�I�� 逨��qA�� Fl��A��f~��&�JG^IAF%�� g��0��`� ��b�� E�"""�"""�"""�"""�"""A�GT��N��`=�I�� 逨��qA�� Fl��A��f~��&�JG^JAF%�� Ҁ��0��`� ��"""�"""�"""�"""�"""A�GT�%M��`@�I�� 逨��qA�� Fl��A��f~��')�IH_JCF3��r��#��0��p��xP� ��"""�"""�"""�"""�"""A�GTǥK��`A�I�� 逨��qA�� Fl��A��f~��&�JG^JBF&�� 8��0��p��xP� ��p�� l�"""�"""�"""�"""�"""A�GT�%K��`A�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$��H��0��`� �� $�"""�"""�"""�"""�"""A�GT֥N��`A�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$��d��0��`� ��$��ܢ"""�"""�"""�"""�"""A�GT�%L��`A�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$��π��0��`� ��~�� """�"""�"""�"""�"""A�GT�M@��`A�I�� 逨��qA�� Fl��A��f~��&ԀIG]I@F$��P��0��`� �� K�"""�"""�"""�"""�"""A�GT�%Y��`A�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$��0��`� ��2�� """�"""�"""�"""�"""A�GT��L��`A�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$��K��0��`� �� """�"""�"""�"""�"""A�GT�%L��`A�I�� 逨��qA�� Fl��A��f~��&ހJG]I@F$��p� �!��0�x`��h@� �� r�"""�"""�"""�"""�"""A�GU�L��`A�I�� 逨��qA�� Fl��A��f~��&�JG^J@F$��p� �2��0�x`��h@� ��@�� *�"""�"""�"""�"""�"""A�GU%KI��`A�I�� 逨��qA�� Fl��A��f~��'�JH^JCF)�� T��0��p��xP� �� """�"""�"""�"""�"""A�GU�n��`A�I�� 逨��qA�� Fl��A��f~��'�IH^JBF*�� Y��0��p��xP� �� """�"""�"""�"""�"""A�GU+a��`A�I�� 逨��qA�� Fl��A��f~��'"�JH_ICF6�� 0��p��xP� ��N�� Q�"""�"""�"""�"""�"""A�GU!�L��`A�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$��ǀ��0��`� �� """�"""�"""�"""�"""A�GU)%O7��`A�I�� 逨��qA�� Fl��A��f~��'&�JH_JCF2��0��`� ��"""�"""�"""�"""�"""A�GU0�K��`A�I�� 逨��qA�� Fl��A��f~��&ۀIG]J@F$��0��`� ��\�� x�"""�"""�"""�"""�"""A�GU8%KI��`A�I�� 逨��qA�� Fl��A��f~��&рIG]I@F$��À��0��`� �� 0�"""�"""�"""�"""�"""A�GU?�K��`A�I�� 逨��qA�� Fl��A��f~��&ԀIG]I@F$��ހ��0��`� ��"""�"""�"""�"""�"""A�GUG%KI��`A�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$��E��0��`� ��j�� """�"""�"""�"""�"""A�GUN�L��`A�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$��\��0��`� �� W�"""�"""�"""�"""�"""A�GUV%N��`A�I�� 逨��qA�� Fl��A��f~��'�JH^JCF-�� 0��p��xP� �� """�"""�"""�"""�"""A�GU]�M@��`A�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$��~��0��`� ��x�� Ƣ"""�"""�"""�"""�"""A�GUe%O߀�`B�I�� 逨��qA�� Fl��A��f~��&ԀIG]I@F$��0��`� �� ~�"""�"""�"""�"""�"""A�GUl�K��`C�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$��0��`� ��,�� 6�"""�"""�"""�"""�"""A�GUt%L��`C�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$��0��`� �� """�"""�"""�"""�"""A�GU{�K��`C�I�� 逨��qA�� Fl��A��f~��&؀JG]J@F$��0��`� �� """�"""�"""�"""�"""A�GU�%L��`E�I�� 逨��qA�� Fl��A��f~��&؀IG]J@F$��{�� 0��`� ��:�� ]�"""�"""�"""�"""�"""A�GU��K��`F�I�� 逨��qA�� Fl��A��f~��&рIG]I@F$�� 9��0��`� �� """�"""�"""�"""�"""A�GU�%L��`F�I�� 逨��qA�� Fl��A��f~��&�JG]J@F$��p��e��0�x`��h@� �� ̢"""�"""�"""�"""�"""A�GU��O߀�`F�I�� 逨��qA�� Fl��A��f~��&ۀIG]I@F$��p��'��0�x`��h@� ��H�� """�"""�"""�"""�"""A�GU�%M@��`F�I�� 逨��qA�� Fl��A��f~��'�JH^ICF*�� D��0��p��xP� �� <�"""�"""�"""�"""�"""A�GU��iD��`F�I�� 逨��qA�� Fl��A��f~��'1�IH_JEF6�� 0��p��xP� �� """�"""�"""�"""�"""A�GU�)��`I�I�� 逨��qA�� Fl��A��f~��'-�IH_JCF5�� 0��p��xP� ��V�� """�"""�"""�"""�"""A�GU��V��`I�I�� 逨��qA�� Fl��A��f~��'&�JH_IBF8��0��p��xP� �� c�"""�"""�"""�"""�"""A�GU�%K��`K�I�� 逨��qA�� Fl��A��f~��';�JH_JBF8��=��0�hP��X0� �� !�"""�"""�"""�"""�"""A�GUƥK��`K�I�� 逨��qA�� Fl��A��f~��&�JG]J@F$��=��ۀ��0�x`��X0� ��e�� آ"""�"""�"""�"""�"""A�GU�+]%��`L�I�� 逨��qA�� Fl��A��f~��'3�JH_JCF5��o`��0��p��xP� �� """�"""�"""�"""�"""A�GUեM@��`L�I�� 逨��qA�� Fl��A��f~��'�JH^JBF,��f�� 0�x`��h@� �� H�"""�"""�"""�"""�"""A�GU�%b��`L�I�� 逨��qA�� Fl��A��f~��&܀JG]J@F$��o`��0��p��xP� ��s�� """�"""�"""�"""�"""A�GU�K��`L�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$�� Z��0��`� �� """�"""�"""�"""�"""A�GU�%O7��`L�I�� 逨��qA�� Fl��A��f~��'�IH^ICF*�� Հ��0��p��xP� ��'�� o�"""�"""�"""�"""�"""A�GU�K��`L�I�� 逨��qA�� Fl��A��f~��&рIG]I@F$�� V��0��`� �� &�"""�"""�"""�"""�"""A�GU�%KI��`L�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$�� 0��`� �� ޢ"""�"""�"""�"""�"""A�GV�KI��`L�I�� 逨��qA�� Fl��A��f~��&рIG]I@F$�� x��0��`� �� 5�� """�"""�"""�"""�"""A�GV %K��`L�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$�� =��0��`� �� M�"""�"""�"""�"""�"""A�GV�K��`L�I�� 逨��qA�� Fl��A��f~��&ۀJG]J@F$�� Z��0��`� �� """�"""�"""�"""�"""A�GV%K��`L�I�� 逨��qA�� Fl��A��f~��&ԀIG]I@F$�� +��0��`� �� C�� """�"""�"""�"""�"""A�GV �M@��`L�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$�� -��0��`� �� u�"""�"""�"""�"""�"""A�GV(%KI��`L�I�� 逨��qA�� Fl��A��f~��&ۀJG]J@F$�� #��0��`� �� ,�"""�"""�"""�"""�"""A�GV/�KI��`L�I�� 逨��qA�� Fl��A��f~��&؀JG]J@F$�� !��0��`� ��Q�� """�"""�"""�"""�"""A�GV7%N��`L�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$�� ܀��0��`� �� """�"""�"""�"""�"""A�GV>�L��`L�I�� 逨��qA�� Fl��A��f~��&׀IG]I@F$�� 0��`� �� T�"""�"""�"""�"""�"""A�GVF%K��`L�I�� 逨��qA�� Fl��A��f~��&ՀIG]I@G$�� 0��`� ��_�� """�"""�"""�"""�"""A�GVM�K��`L�I�� 逨��qA�� Fl��A��f~��&ڀJG]I@F$�� ~��0��`� �� â"""�"""�"""�"""�"""A�GVU%N��`L�I�� 逨��qA�� Fl��A��f~��&рIG]I@F$�� c��0��`� �� {�"""�"""�"""�"""�"""A�GV\�KI��`L�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$�� 0��`� �� m�� 2�"""�"""�"""�"""�"""A�GVd%M��`L�I�� 逨��qA�� Fl��A��f~��&ՀIG]J@F$�� 1��0��`� �� """�"""�"""�"""�"""A�GVk�O߀�`L�I�� 逨��qA�� Fl��A��f~��&؀JG]J@F$�� Ӏ��0��`� ��!�� """�"""�"""�"""�"""A�GVs%K��`O�I�� 逨��qA�� Fl��A��f~��&ހJG]J@F$�� L��0��p��xP� ��{�� a�"""�"""�"""�"""�"""A�GVz�M@��`O�I�� 逨��qA�� Fl��A��f~��&�JG^I@F$��p� �̀��0�x`��X0� �� )�"""�"""�"""�"""�"""A�GV�%O7��`O�I�� 逨��qA�� Fl��A��f~��&�JG^J@F$��p� ��0�x`��X0� ��/�� """�"""�"""�"""�"""A�GV��L��`O�I�� 逨��qA�� Fl��A��f~��'�JH^IBF+�� 0��p��xP� �� """�"""�"""�"""�"""A�GV�%M@��`O�I�� 逨��qA�� Fl��A��f~��'�JH^JAF0��@� ��0�x`��h@� �� P�"""�"""�"""�"""�"""A�GV��K��`R�I�� ꀨ��qA�� Fl��A��f~��'P�JH^JBF/��@��v��X@��8� ��=�� """�"""�"""�"""�"""A�GV�m�V��`R�I�� ꀨ��qA�� Fl��A��f~��'5�JH^JBF(��0��hP��8� �� """�"""�"""�"""�"""A�GV��M@��`R�I�� ꀨ��qA�� Fl��A��f~��'+�JH^JBF)��/ � �Ā��p��xP� �� w�"""�"""�"""�"""�"""A�GV�%K��`R�I�� ꀨ��qA�� Fl��A��f~��'4�JH^JBF+ ��`� ��x`��h@� ��K�� /�"""�"""�"""�"""�"""A�GV��PH��`R�I�� ꀨ��qA�� Fl��A��f~��'O�JH_JBF6 �� ʀ��hP��X0� �� """�"""�"""�"""�"""A�GV�(�R��`R�I�� ꀨ��qA�� Fl��A��f~��'[�JH_JBF= �� X@��H � �� """�"""�"""�"""�"""A�GVťKI��`R�I�� ꀨ��qA�� Fl��A��f~��' �JH^JBF)��hP��X0� ��Y�� V�"""�"""�"""�"""�"""A�GV�%K��`R�I�� ꀨ��qA�� Fl��A��f~��'-�JH^J@F/��i��hP��X0� �� """�"""�"""�"""�"""A�GVԥ⬀�`R�I�� ꀨ��qA�� Fl��A��f~��'\�JH_JEG3 �� X@��H � �� Ƣ"""�"""�"""�"""�"""A�GV�%M@��`R�I�� ꀨ��qA�� Fl��A��f~��':�JH^JBF- �� #��X@��H � ��g�� ~�"""�"""�"""�"""�"""A�GV�L��`R�I�� ꀨ��qA�� Fl��A��f~��'*�JH^JBF)��hP��X0� �� 6�"""�"""�"""�"""�"""A�GV�%M��`R�I�� ꀨ��qA�� Fl��A��f~��'+�JH^JBF)��m��hP��X0� ��"""�"""�"""�"""�"""A�GV�N��`R�I�� ꀨ��qA�� Fl��A��f~��'>�JH^JBF0��+��hP��X0� ��u�� """�"""�"""�"""�"""A�GV�.z��`R�I�� ꀨ��qA�� Fl��A��f~��'Q�JH_JBF0 �� X@��H � �� ]�"""�"""�"""�"""�"""A�GW�9m��`R�I�� ꀨ��qA�� Fl��A��f~��'a�JH_JBF>��hP��X0� ��)�� """�"""�"""�"""�"""A�GW %M��`R�I�� ꀨ��qA�� Fl��A��f~��'9�JH^J?F4��hP��X0� �� ̢"""�"""�"""�"""�"""A�GW�M@��`R�I�� ꀨ��qA�� Fl��A��f~��'A�JH^JEF)��l��hP��X0� �� """�"""�"""�"""�"""A�GW%\S��`R�I�� ꀨ��qA�� Fl��A��f~��'>�JH^JBF* �� hP��H � ��7�� <�"""�"""�"""�"""�"""A�GW��r��`R�I�� ꀨ��qA�� Fl��A��f~��']�JH_JBF8��&��m��x`��X0� ��"""�"""�"""�"""�"""A�GW',Q��`R�I�� ꀨ��qA�� Fl��A��f~��'H�JH^JBF.��@��!��X@��H � �� """�"""�"""�"""�"""A�GW.�M��`R�I�� ꀨ��qA�� Fl��A��f~��'7�JH^JBF*��@�� X@��H � ��E�� c�"""�"""�"""�"""�"""A�GW6*��`R�I�� ꀨ��qA�� Fl��A��f~��'t�JH_JBF:��&��x`��X0� �� """�"""�"""�"""�"""A�GW=�KI��`R�I�� ꀨ��qA�� Fl��A��f~��'5�JH^JBF) ��hP��X0� �� Ң"""�"""�"""�"""�"""A�GWE(},��`R�I�� ꀨ��qA�� Fl��A��f~��'w�KH_J?FB��@��6��X@��H � ��S�� """�"""�"""�"""�"""A�GWL�O߀�`R�I�� ꀨ��qA�� Fl��A��f~��'T�JH^JEF*��@��$��X@��H � �� B�"""�"""�"""�"""�"""A�GWT%M@��`R�I�� ꀨ��qA�� Fl��A��f~��'H�JH^JBF*��@��0��X@��H � ��"""�"""�"""�"""�"""A�GW[�M@��`R�I�� ꀨ��qA�� Fl��A��f~��'A�JH^JBF+��&�� x`��h@� ��a�� """�"""�"""�"""�"""A�GWc&��`R�I�� ꀨ��qA�� Fl��A��f~��'P�JH^JBF) �� hP��X0� �� i�"""�"""�"""�"""�"""A�GWj�M@��`R�I�� ꀨ��qA�� Fl��A��f~��'K�JH^JBF*��@� �݀��X@��H � �� !�"""�"""�"""�"""�"""A�GWr*��`R�I�� ꀨ��qA�� Fl��A��f~��'�KH_JBF8��@� �g��X@��H � ��o�� آ"""�"""�"""�"""�"""A�GWy�^��`R�I�� ꀨ��qA�� Fl��A��f~��'`�JH^JBF2��@� �\��X@��H � �� """�"""�"""�"""�"""A�GW�%L��`S�I�� ꀨ��qA�� Fl��A��f~��'*�JH]J?F$��&�� ߀��x`��h@� ��#�� H�"""�"""�"""�"""�"""A�GW�� `S�I�� ꀨ��qA�� Fl��A��f~��'��KI_JEG6 �� hP��X0� ��}�� """�"""�"""�"""�"""A�GW�'`��`S�I�� ꀨ��qA�� Fl��A��f~��'��JI_JBF:��@� �0��X@��H � �� """�"""�"""�"""�"""A�GW��M@��`S�I�� ꀨ��qA�� Fl��A��f~��'M�JH^JBF)��@� �!��X@��H � ��1�� o�"""�"""�"""�"""�"""A�GW�%KI��`S�I�� ꀨ��qA�� Fl��A��f~��']�KH^JBF*��@� �#��X@��H � �� &�"""�"""�"""�"""�"""A�GW��n��`S�I�� ꀨ��qA�� Fl��A��f~��'��JI_JBF<��&�� x`��h@� �� ޢ"""�"""�"""�"""�"""A�GW�%K��`S�I�� ꀨ��qA�� Fl��A��f~��'[�JH^JBF* �� hP��X0� ��?�� """�"""�"""�"""�"""A�GW��`S�I�� ꀨ��qA�� Fl��A��f~��'��KI_JBF7�� j��hP��X0� �� N�"""�"""�"""�"""�"""A�GW�e��`S�I�� ꀨ��qA�� Fl��A��f~��'R�JH^JAF(��@� �Z��X@��H � �� """�"""�"""�"""�"""A�GWĥx��`S�I�� ꀨ��qA�� Fl��A��f~��'��JI_JEG5��@� �_��X@��H � ��M�� """�"""�"""�"""�"""A�GW�,��`S�I�� ꀨ��qA�� Fl��A��f~��'s�JI_JBG0��&�� p��x`��h@� �� u�"""�"""�"""�"""�"""A�GWӦ*��`S�I�� ꀨ��qA�� Fl��A��f~��'��JI_JBH> �� р��hP��X0� �� -�"""�"""�"""�"""�"""A�GW�%L��`S�I�� ꀨ��qA�� Fl��A��f~��'a�JH^JBG* �� hP��X0� ��[�� """�"""�"""�"""�"""A�GW�iD��`S�I�� ꀨ��qA�� Fl��A��f~��'��JI_JBG< �� "��hP��X0� �� """�"""�"""�"""�"""A�GW�%M@��`S�I�� ꀨ��qA�� Fl��A��f~��'r�JI^JBF. �� ۀ��hP��X0� �� T�"""�"""�"""�"""�"""A�GW�ZĀ�`S�I�� ꀨ��qA�� Fl��A��f~��'��KI_JBF5��@� �5��X@��H � �� i�� """�"""�"""�"""�"""A�GW�&V��`T�I�� ꀨ��qA�� Fl��A��f~��'��KI_KCF(��u��L��X@��H � �� ɢ"""�"""�"""�"""�"""A�GX�g��`T�I�� ꀨ��qA�� Fl��A��f~��'��KI_JFG0�� L��x`��h@� ��!�� """�"""�"""�"""�"""A�GX%L��`U�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF*�� L��x`��h@� ��!x�� 8�"""�"""�"""�"""�"""A�GX�䏀�`U�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF7 ��@� ��L��hP��X0� ��!�� """�"""�"""�"""�"""A�GX%L��`U�I�� ꀨ��qA�� Fl��A��f~��'��KI^JCF*�� L��X@��H � ��",�� """�"""�"""�"""�"""A�GX�/Z��`U�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF:�� x`��h@� ��"�� _�"""�"""�"""�"""�"""A�GX&(��`U�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF<�� Ā��x`��h@� ��"�� """�"""�"""�"""�"""A�GX-�l߀�`U�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF8��hP��X0� ��#:�� Ϣ"""�"""�"""�"""�"""A�GX5%N��`U�I�� ꀨ��qA�� Fl��A��f~��'n�KI^J@G% ��`��Ā��hP��X0� ��#�� """�"""�"""�"""�"""A�GX<�@O��`U�I�� ꀨ��qA�� Fl��A��f~��'��JI_JFG0 ��`��ˀ��hP��X0� ��#�� >�"""�"""�"""�"""�"""A�GXD%K��`W�I�� ꀨ��qA�� Fl��A��f~��'��KI^JBG% ��o��hP��X0� ��$H�� """�"""�"""�"""�"""A�GXK�g��`X�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCG= ��0� ��hP��X0� ��$�� """�"""�"""�"""�"""A�GXS-��`X�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF> ��0��-�� hP��X0� ��$�� e�"""�"""�"""�"""�"""A�GXZ�+V��`X�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF6 ��0�� hP��X0� ��%V�� """�"""�"""�"""�"""A�GXb*<ɀ�`X�I�� ꀨ��qA�� Fl��A��f~��'��JI_JCF:��j�� x`��h@� ��%�� բ"""�"""�"""�"""�"""A�GXi��`Y�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF?��P�� hP��X0� ��& �� """�"""�"""�"""�"""A�GXq+@��`Y�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCF:�� x`��h@� ��&d�� D�"""�"""�"""�"""�"""A�GXx��ހ�`Y�I�� ꀨ��qA�� Fl��A��f~��'��JI_JFG3��I�� X@��H � ��&�� """�"""�"""�"""�"""A�GX�*��`[�I�� ꀨ��qA�� Fl��A��f~��'��KI_KCG6��␀ ��X@��H � ��'�� """�"""�"""�"""�"""A�GX��`��`\�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCG:��I��H0��8� ��'r�� k�"""�"""�"""�"""�"""A�GX�%�}��`]�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCG8��,0��ˀ��H0��8� ��'�� #�"""�"""�"""�"""�"""A�GX��`]�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCG(��4Ѐ�_��X@��H � ��(&�� ۢ"""�"""�"""�"""�"""A�GX�,��`]�I�� ꀨ��qA�� Fl��A��f~��'��KI_JCG*��F��[��p�x`��h@� ��(�� """�"""�"""�"""�"""A�GX��K��`a�I�� ꀨ��qA�� Fl��A��f~��'3�JH^J@G&��p�x`��h@� ��(�� J�"""�"""�"""�"""�"""A�GX�%L��`a�I�� ꀨ��qA�� Fl��A��f~��'Y�JH^J@G/��w�� p�hP��X0� ��)4�� """�"""�"""�"""�"""A�GX��WT��`a�I�� ꀨ��qA�� Fl��A��f~��'~�JI_JEG0��w�� hP��X0� ��)�� """�"""�"""�"""�"""A�GX�%N��`a�I�� ꀨ��qA�� Fl��A��f~��'=�IH^JCF)�� Ā��x`��h@� ��)�� q�"""�"""�"""�"""�"""A�GXåM@��`a�I�� ꀨ��qA�� Fl��A��f~��'C�JH^JBF*�� #��x`��h@� ��*B�� )�"""�"""�"""�"""�"""XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 140 / 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 = 613329250.29224 TSTOP = 613331335.29228 DATE-OBS= '2020-06-08T17:14:05' DATE-END= '2020-06-08T17:48:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2085.00003993511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 307 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'FDEXIDEXFDEXFDEX' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1856922384' / data unit checksum updated 2020-06-18T16:20:47 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: sw00976692000b133x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�%h�6'��6#��6#��pp~��Q��u�B��ʤ��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GT��j��6*��6&��6&��pp$t��u�B��٤��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GT�%in�6-��6)��6)��pp+j��u�B��褎��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GTǥgw�60��6,��6,��pp2`� �� u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GT�%gw�63��6/��6/��pp9V�2��2�;��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GT֥j�66��62��62��pp@L�D��D�t��u�B��u��4�u��4�u��u�B��t��u�r u��DDD�DDD�D�D�D�DA�GT�%h�69��65��65��ppGB�V��V��u�B��f�$��4�u��4�u��u�B��e��u�r u��DDD�DDD�D�D�D�DA�GT�hǀ6<��68��68��ppN8�h��h��u�B��W�3��4�u��4�u��u�B��V��u�r u��DDD�DDD�D�D�D�DA�GT�%s�6?��6;��6;��ppU.�z��z� ��u�B��H�B��4�u��4�u��u�B��G��u�r u��DDD�DDD�D�D�D�DA�GT��h�6B��6>��6>��pp\$Ō�Ō�Y��u�B��9�Q��4�u��4�u��u�B��8��u�r u��DDD�DDD�D�D�D�DA�GT�%gw�6E��6A��6A��ppcŞ�Ş��u�B��*�`��4�u��4�u��u�B��)��u�r u��DDD�DDD�D�D�D�DA�GU�gw�6H��6D��6D��ppjŰ�Ű��u�B��o��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU%fπ6K��6G��6G��ppq��u�B��~��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU�� 6N��6J��6J��ppw��Ԁ��<��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU+}A�6Q��6M��6M��pp~��u��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU!�h�6T��6P��6P��pp��u�B��߀��4�u��4�u��u�B��ހ��u�r u��DDD�DDD�D�D�D�DA�GU)%j�6W��6S��6S��pp�� u�B��Ѐ��4�u��4�u��u�B��π��u�r u��DDD�DDD�D�D�D�DA�GU0�fπ6Z��6V��6V��pp��"��u�B��ɤ��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU8%fπ6]��6Y��6Y��pp��.��.�[��u�B��ؤ��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU?��À6`��6\��6\��pp��@��@��u�B��礎��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GUG%fπ6c��6_��6_��pp��R��R��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GUN�h�6f��6b��6b��pp��d��d��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GUV%j�6i��6e��6e��pp��v��v�?��u�B��v��4�u��4�u��u�B��u��u�r u��DDD�DDD�D�D�D�DA�GU]�hǀ6l��6h��6h��pp��ƈ�ƈ�x��u�B��g�#��4�u��4�u��u�B��f��u�r u��DDD�DDD�D�D�D�DA�GUe%kf�6o��6k��6k��ppĎƚ�ƚ��u�B��X�2��4�u��4�u��u�B��W��u�r u��DDD�DDD�D�D�D�DA�GUl�fπ6r��6n��6n��pp˄Ƭ�Ƭ��u�B��I�A��4�u��4�u��u�B��H��u�r u��DDD�DDD�D�D�D�DA�GUt%gw�6u��6q��6q��pp�zƾ�ƾ�#��u�B��:�P��4�u��4�u��u�B��9��u�r u��DDD�DDD�D�D�D�DA�GU{�fπ6x��6t��6t��pp�p�Ѐ��]��u�B��+�_��4�u��4�u��u�B��*��u�r u��DDD�DDD�D�D�D�DA�GU�%j��6{��6w��6w��pp�f��u�B��n��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU��fπ6~��6z��6z��pp�\��u�B�� }��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU�%h�6��6}��6}��pp�R��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU��l �6��6��6��pp�H��E��u�B��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU�%h�6��6��6��pp�>�*��*�~��u�B��4�u��4�u��u�B��߀��u�r u��DDD�DDD�D�D�D�DA�GU��#�6��6��6��pp4�<��<��u�B��р��4�u��4�u��u�B��Ѐ��u�r u��DDD�DDD�D�D�D�DA�GU�*π6��6��6��pp *�N��N��u�B��Ȥ��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU��6��6��6��pp �`��`�+��u�B��פ��4�u��4�u��u�B��u�r u��DDD�DDD�D�D�D�DA�GU�%h�6��6��6��pp�r��r�f��CB��o��4��C�4��C��CB��n��Cs v��DDD�DDD�D�D�D�DA�GUƥgw�6��6��6��ppǄ�Ǆ��CB��o��4��C�4��C��CB��n��Cs v��DDD�DDD�D�D�D�DA�GU�+x��6��6��6��pp&ǖ�ǖ��CB��o��4��C�4��C��CB��n��Cs v��DDD�DDD�D�D�D�DA�GUեhǀ6��6��6��pp,�Ǩ�Ǩ��CB��o��4��C�4��C��CB��n��Cs v��DDD�DDD�D�D�D�DA�GU�%~g�6��6��6��pp3�Ǻ�Ǻ�I��CB��o��4��C�4��C��CB��n��Cs v��DDD�DDD�D�D�D�DA�GU�gw�6��6��6��pp:��̀��CB��f��4��C�4��C��CB��e��Cs v��DDD�DDD�D�D�D�DA�GU�%j�6��6��6��ppA��ހ��CB��W��4��C�4��C��CB��V��Cs v��DDD�DDD�D�D�D�DA�GU�gw�6��6��6��ppH��CB��H��4��C�4��C��CB��G��Cs v��DDD�DDD�D�D�D�DA�GU�%fπ6��6��6��ppO��/��CB��9��4��C�4��C��CB��8��Cs v��DDD�DDD�D�D�D�DA�GV�f'�6��6��6��ppV��h��CB��*�Ϥ��4��C�4��C��CB��)��Cs v��DDD�DDD�D�D�D�DA�GV %j�6��6��6��pp]��&��&��CB��ޤ��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV�fπ6��6��6��ppd��8��8��CB��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV%fπ6��6��6��ppk��J��J��CB��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV �h�6��6��6��ppr��\��\�M��CB��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV(%fπ6��6��6��ppy��n��n��CB��߀��4��C�4��C��CB��ހ��Cs v��DDD�DDD�D�D�D�DA�GV/�fπ6��6��6��pp��Ȁ�Ȁ��CB��Ѐ)��4��C�4��C��CB��π��Cs v��DDD�DDD�D�D�D�DA�GV7%j�6À�6��6��pp�vȒ�Ȓ��CB��8��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV>�h�6ƀ�6�6��pp�lȤ�Ȥ�1��CB��G��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GVF%gw�6ɀ�6ŀ�6ŀ��pp�bȶ�ȶ�j��CB��V��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GVM�fπ6̀�6Ȁ�6Ȁ��pp�X�Ȁ��CB��e��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GVU%j�6π�6ˀ�6ˀ��pp�N�ڀ��CB��t��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV\�fπ6Ҁ�6΀�6΀��pp�D��CB��v��4��C�4��C��CB��u��Cs v��DDD�DDD�D�D�D�DA�GVd%h�6Հ�6р�6р��pp�:��N��CB��g��4��C�4��C��CB��f��Cs v��DDD�DDD�D�D�D�DA�GVk�j��6؀�6Ԁ�6Ԁ��pp�0��CB��X��4��C�4��C��CB��W��Cs v��DDD�DDD�D�D�D�DA�GVs%gw�6ۀ�6׀�6׀��pp�&�"��"��CB��I��4��C�4��C��CB��H��Cs v��DDD�DDD�D�D�D�DA�GVz�hǀ6ހ�6ڀ�6ڀ��pp��4��4��CB��:��4��C�4��C��CB��9��Cs v��DDD�DDD�D�D�D�DA�GV�%j��6��6݀�6݀��pp��F��F�6��CB��+�Τ��4��C�4��C��CB��*��Cs v��DDD�DDD�D�D�D�DA�GV��h�6��6��6��pp��X��X�o��CB��ݤ��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV�%h�6��6��6��pp��j��j��CB�� 줎��4��C�4��C��CB��Cs v��DDD�DDD�D�D�D�DA�GV��gw�6��6��6��pp��|��|�� CB��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GV�m�Ӏ6��6��6��pp��Ɏ�Ɏ�� CB�� 4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GV��hǀ6��6��6��pp��ɠ�ɠ�T� ��CB��4��C�4��C��CB��߀�4��Cs v��DDD�DDD�D�D�D�DA�GV�%fπ6��6��6��pp��ɲ�ɲ�� CB��р(��4��C�4��C��CB��Ѐ�4��Cs v��DDD�DDD�D�D�D�DA�GV��kπ6��6��6��pp��Ā�� CB��7��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GV�(�؀6��6��6��pp��ր�� CB��F��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GVťhǀ6��6��6��pp��9� ��CB��U��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GV�%h�6��6��6��pp��r� ��CB��d��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GVԥ��7��6��6��pp�� CB��s��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GV�,;�7��7��7��pp �� CB��w��4��C�4��C��CB��v��4��Cs v��DDD�DDD�D�D�D�DA�GV�h�7��7��7��pp'��0��0�#� ��CB��h��4��C�4��C��CB��g��4��Cs v��DDD�DDD�D�D�D�DA�GV�%in�7��7��7��pp.��B��B�\� ��CB��Y��4��C�4��C��CB��X��4��Cs v��DDD�DDD�D�D�D�DA�GV�j�7��7 ��7 ��pp5|�T��T�� CB��J��4��C�4��C��CB��I��4��Cs v��DDD�DDD�D�D�D�DA�GV�.�>�7��7 ��7 ��pp��>�|� ��CB��r��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW[�hǀ78��74��74��pp��P��P�� CB��x��4��C�4��C��CB��w��4��Cs v��DDD�DDD�D�D�D�DA�GWc&;%�7;��77��77��pp��b��b�� CB��i��4��C�4��C��CB��h��4��Cs v��DDD�DDD�D�D�D�DA�GWj�h�7>��7:��7:��pp��t��t�'� ��CB��Z��4��C�4��C��CB��Y��4��Cs v��DDD�DDD�D�D�D�DA�GWr*�Ѐ7A��7=��7=��pp��ˆ�ˆ�`� ��CB��K��4��C�4��C��CB��J��4��Cs v��DDD�DDD�D�D�D�DA�GWy�-��7D��7@��7@��pp��˘�˘�� CB��<��4��C�4��C��CB��;��4��Cs v��DDD�DDD�D�D�D�DA�GW�%hǀ7G��7C��7C��pp��˪�˪�� CB��-�̤��4��C�4��C��CB��,��4��Cs v��DDD�DDD�D�D�D�DA�GW��7J��7F��7F��pp��˼�˼�� CB��ۤ��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�'�7M��7I��7I��ppǪ�΀��D� ��CB��ꤎ��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW��hǀ7P��7L��7L��ppΠ��}� ��CB��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�%f'�7S��7O��7O��ppՖ�� CB��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�� 7V��7R��7R��pp܌�� CB��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�%h�7Y��7U��7U��pp��*� ��CB��Ӏ&��4��C�4��C��CB��Ҁ�4��Cs v��DDD�DDD�D�D�D�DA�GW��z�7\��7X��7X��pp�x�(��(�c� ��CB��Ā5��4��C�4��C��CB��À�4��Cs v��DDD�DDD�D�D�D�DA�GW�eq�7_��7[��7[��pp�n�:��:�� CB��D��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GWĥ�`�7b��7^��7^��pp�d�L��L�� CB��S��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�,8 �7e��7a��7a��pp�Z�^��^�� CB��b��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GWӦD��7h��7d��7d��ppP�p��p�G� ��CB��q��4��C�4��C��CB��4��Cs v��DDD�DDD�D�D�D�DA�GW�%gw�7k��7g��7g��pp F̂�̂�� CB��y��4��C�4��C��CB��x��4��Cs v��DDD�DDD�D�D�D�DA�GW⧄ˀ7n��7j��7j��pp<̔�̔�� CB��j��4��C�4��C��CB��i��4��Cs v��DDD�DDD�D�D�D�DA�GW�%h�7q��7m��7m��pp2̦�̦�� CB��[��4��C�4��C��CB��Z��4��Cs v��DDD�DDD�D�D�D�DA�GW�vK�7t��7p��7p��pp"(̸�̸�-� ��CB��L��4��C�4��C��CB��K��4��Cs v��DDD�DDD�D�D�D�DA�GW�&��7w��7s��7s��pp)�ʀ��f��/m�Bt�|��4�/m��4�/m��/m�Bt��{��4��/m�t w��DDD�DDD�D�D�D�DA�GX��7z��7v��7v��pp0�܀��/m�Bt�|��4�/m��4�/m��/m�Bt��{��4��/m�t w��DDD�DDD�D�D�D�DA�GX%j��7}��7y��7y��pp7 ��/m�Bt�|��4�/m��4�/m��/m�Bt��{��4��/m�t w��DDD�DDD�D�D�D�DA�GX��7��7|��7|��pp>��/m�Bt�|��4�/m��4�/m��/m�Bt��{��4��/m�t w��DDD�DDD�D�D�D�DA�GX%j��7��7��7��ppD��K��/m�Bt�|��4�/m��4�/m��/m�Bt��{��4��/m�t w��DDD�DDD�D�D�D�DA�GX�J��7��7��7��ppK��$��$��/m�Bt�x��7�4�/m��4�/m��/m�Bt��w��4��/m�t w��DDD�DDD�D�D�D�DA�GX&(r��7��7��7��ppR��6��6��/m�Bt�i��7�4�/m��4�/m��/m�Bt��h��4��/m�t w��DDD�DDD�D�D�D�DA�GX-��7��7��7��ppY��H��H��/m�Bt�Z�"��7�4�/m��4�/m��/m�Bt��Y��4��/m�t w��DDD�DDD�D�D�D�DA�GX5%j�7��7��7��pp`��Z��Z�/��/m�Bt�K�1��7�4�/m��4�/m��/m�Bt��J��4��/m�t w��DDD�DDD�D�D�D�DA�GX<�[Հ7��7��7��ppg��l��l�h��/m�Bt�<�@��7�4�/m��4�/m��/m�Bt��;��4��/m�t w��DDD�DDD�D�D�D�DA�GXD%fπ7��7��7��ppn��~��~��/m�Bt�-�O��7�4�/m��4�/m��/m�Bt��,��4��/m�t w��DDD�DDD�D�D�D�DA�GXK�,=�7��7��7��ppu�͐�͐��/m�Bt��^��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GXS-i�7��7��7��pp|�͢�͢��/m�Bt��m��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GXZ�F܀7��7��7��pp��ʹ�ʹ�N��/m�Bt��|��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GXb*kQ�7��7��7��pp��ƀ��/m�Bt��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GXi��7��7��7��pp��؀��/m�Bt��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GXq+\}�7��7��7��pp�~��/m�Bt�Ӏ��7�4�/m��4�/m��/m�Bt��Ҁ�4��/m�t w��DDD�DDD�D�D�D�DA�GXx��d�7��7��7��pp�t��2��/m�Bt�Ā��7�4�/m��4�/m��/m�Bt��À�4��/m�t w��DDD�DDD�D�D�D�DA�GX�*͟�7��7��7��pp�j��o��/m�Bt��Ǥ��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GX��Ҁ7��7��7��pp�`� �� /m�Bt��֤��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GX�%��7��7��7��pp�V�2��2��/m�Bt��夎�7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GX��{�7��7��7��pp�L�D��D��/m�Bt��7�4�/m��4�/m��/m�Bt��4��/m�t w��DDD�DDD�D�D�D�DA�GX�,�+�7��7��7��pp�B�V��V�T��/m�Bt�y��7�4�/m��4�/m��/m�Bt��x��4��/m�t w��DDD�DDD�D�D�D�DA�GX��h�7��7��7��pp�8�h��h��/m�Bt�j��7�4�/m��4�/m��/m�Bt��i��4��/m�t w��DDD�DDD�D�D�D�DA�GX�%h�7��7��7��pp�.�z��z��/m�Bt�[�!��7�4�/m��4�/m��/m�Bt��Z��4��/m�t w��DDD�DDD�D�D�D�DA�GX��7�7��7��pp�$Ό�Ό��/m�Bt�L�0��7�4�/m��4�/m��/m�Bt��K��4��/m�t w��DDD�DDD�D�D�D�DA�GX�%j��7ŀ�7��7��pp�Ξ�Ξ�<��/m�Bt�=�?��7�4�/m��4�/m��/m�Bt��<��4��/m�t w��DDD�DDD�D�D�D�DA�GXåin�7Ȁ�7Ā�7Ā��pp�ΰ�ΰ�u��/m�Bt�.�N��7�4�/m��4�/m��/m�Bt��-��4��/m�t w��DDD�DDD�D�D�D�DXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 212 / width of table in bytes NAXIS2 = 140 / 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 = 613329251.44192 TSTOP = 613331336.44146 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99953997135 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 308 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'XWOFYTMEXTMEXTME' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1067366701' / data unit checksum updated 2020-06-18T16:20:47 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: sw00976692000b134x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��ր�d��d�΀ ��A�GT�8�k��d��d�΀ ��A�GT��e��d�΀ ��A�GT�8��e��e�΀ ��A�GTϸ�k��e��e�΀ ��A�GT�8��e��e�΀ ��A�GT޸�k��e��e�΀ ��A�GT�8��e��e�΀ ��A�GT��%��e��e�΀ ��A�GT�8��e��e�΀ ��A�GT��k��e��e�΀ ��A�GU8�ހ�e��e�΀ ��A�GU��À�e��e�΀ ��A�GU8��e��e�΀ ��A�GU��e��e�΀ ��A�GU"8��e��e�΀ ��A�GU)��k��e��e�΀ ��A�GU18�?��e��e�΀ ��A�GU8��e��e�΀ ��A�GU@8�k��e��e�΀ ��A�GUG��ހ�e��e�΀ ��A�GUO8�À�e��e�΀ ��A�GUV��À�e��e�΀ ��A�GU^8�À�e��e�΀ ��A�GUe��k��e��e�΀ ��A�GUm8�b��e��e�΀ ��A�GUt��e��e�΀ ��A�GU|8��e��e�΀ ��A�GU��f��e�΀ ��A�GU�8�k��f��f�΀ ��A�GU��k��f��f�΀ ��A�GU�8�k��f��f�΀ ��A�GU��k��f��f�΀ ��A�GU�8�ր�f��f�΀ ��A�GU��k��g��g�΀ ��A�GU�8�À�g��g�΀ ��A�GU��h��g�΀ ��A�GU�8��h��g�΀ ��A�GUθ�À�h��h�΀ ��A�GU�8��h��h�΀ ��A�GUݸ�À�h��h�΀ ��A�GU�8�À�h��h�΀ ��A�GU츃��h��h�΀ ��A�GU�8��h��h�΀ ��A�GU��k��h��h�΀ ��A�GV8��h��h�΀ ��A�GV ��k��h��h�΀ ��A�GV8��h��h�΀ ��A�GV��h��h�΀ ��A�GV!8�À�h��h�΀ ��A�GV(��h��h�΀ ��A�GV08�À�h��h�΀ ��A�GV7��À�h��h�΀ ��A�GV?8�k��h��h�΀ ��A�GVF��ր�h��h�΀ ��A�GVN8�À�h��h�΀ ��A�GVU��h��h�΀ ��A�GV]8�H��h��h�΀ ��A�GVd��À�h��h�΀ ��A�GVl8�Y��h��h�΀ ��A�GVs��À�i��i�΀ ��A�GV{8�k��i��i�΀ ��A�GV��k��i��i�΀ ��A�GV�8�À�i��i�΀ ��A�GV��À�i��i�΀ ��A�GV�8�k��j��i�Հ ��A�GV��j��i�݀ ��A�GV�8�.��j��i�� A�GV��j��i�� A�GV�8�?��j��i�� A�GV��j��i�� A�GV�8��j��i�� A�GV͸�ր�j��i�� A�GV�8�Q��j��i�� A�GVܸ��j��i�&� ��A�GV�8��j��i�/� ��A�GV븁À�j��i�8� ��A�GV�8� ��j��i�A� ��A�GV��k��j��i�J� ��A�GW8�k��j��i�S� ��A�GW ��j��i�\� ��A�GW8�À�j��i�e� ��A�GW��j��i�n� ��A�GW 8�À�j��i�w� ��A�GW'��j��i�� A�GW/8��j��i�� A�GW6��j��i�� A�GW>8�}��j��i�� A�GWE��j��i�� A�GWM8��j��i�� A�GWT��j��i�� À��A�GW\8�À�j��i�� À��A�GWc��j��i�Ȁ À��A�GWk8�.��j��i�р À��A�GWr��j��i�ڀ À��A�GWz8�k��j��i�� Ā��A�GW��j��i�� ŀ��A�GW�8��j��i�� ŀ��A�GW��j��i�� ŀ��A�GW�]�"��j��i�� ƀ��A�GW��l��j��i�� ƀ��A�GW�8�k��j��i�� ƀ��A�GW��j��i�"� ƀ��A�GW�8�.��j��i�+� ǀ��A�GW��k��j��i�3� ǀ��A�GW�8��j��i�=� Ȁ��A�GW̸��j��i�F� Ȁ��A�GW�8��j��i�O� ɀ��A�GW۸��j��i�X� ɀ��A�GW�8�À�j��i�a� ɀ��A�GW긊��j��i�j� ɀ��A�GW�8�k��j��i�s� ɀ��A�GW��k��i�|� ΀��A�GX8�.��k��i�� Ԁ��A�GX��k��k��j�� ր��A�GX8��k��j�� ր��A�GX��k��k��j�� ׀��A�GX8�À�k��j�� ׀��A�GX&��k��j�� ׀��A�GX.8�k��k��j�� ׀��A�GX5��k��k��j�Ā ؀��A�GX=8��k��j�̀ ؀��A�GXD��l��k�ր ۀ��A�GXL8�ր�l��k�߀ ۀ��A�GXS��k��l��k�� ܀��A�GX[8��l��k�� ܀��A�GXb��7��l��k�� ܀��A�GXj8��l��k�� ܀��A�GXq��À�l��k�� ܀��A�GXy8��l��k�� ݀��A�GX��k��m��k�� ߀��A�GX�8�k��m��l�'� ��A�GX��k��m��m�0� ��A�GX�8��m��m�9� ��A�GX��m��m�B� ��A�GX�8�À�n��n�B� ��A�GX��n��n�B� ��A�GX�8�k��n��n�B� ��A�GX��À�n��n�B� ��A�GX�8�À�n��n�B� ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 181 / width of table in bytes NAXIS2 = 140 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 50 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK135SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BFMBOOTSPACE' / Free space on the Boot EEPROM disk, targ/boot TFORM3 = '1J ' / data format of field: 4-byte INTEGER TTYPE4 = 'BFMNORMSPACE' / Free space on the Normal EEPROM disk, targ/normTFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BFMTEMPSPACE' / Free space on the scratch RAM disk, targ/temp TFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BFMNRAMSPACE' / Free space on the Normal DRAM disk, targ/nram TFORM6 = '1J ' / data format of field: 4-byte INTEGER TTYPE7 = 'BFMUPLFILESZ' / File Size last loaded or currently being loadedTFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BFMUPLCURBTS' / Number of bytes loaded so far in the current fiTFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BFMUPLTOTBTS' / Total number of bytes in all uploaded files sinTFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BFMUPLFILECT' / Total number of files loaded since the last resTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BFMUPLERRORS' / Total number of file load errors since the lastTFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BFMUPLHDRSCT' / Number of invalid file headers seen since the lTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BFMUPLSTATE' / Current state of the file load operations TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BFMUPLNAME' / Name of the file last loaded or currently beingTFORM14 = '40A ' / data format of field: ASCII Character TTYPE15 = 'BFMOPENFILECT' / Number of Currently Opened Files TFORM15 = '1I ' / data format of field: 2-byte INTEGER TTYPE16 = 'BDEREQRCVCNT' / DSP Request Received Count TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDEREQERRCNT' / DSP Request Error Count TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDELASTERROR' / DSP Last Error - ignores cancel or success TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDERCVINTCNT' / DSP Count of Received Interrupts TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDERUNTIME' / DSP Runtime of Last Process (usecs) TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TUNIT20 = 'us ' / physical unit of field TTYPE21 = 'BDERTNVALUE' / DSP Return Value of Last Process TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDEFUNCTION' / DSP Functioncode of Last Process TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDEXSERRSEG' / DSP Checksum Error Index TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDEXSERRCNT' / DSP Total Count of Checksum Errors TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDETXINTCNT' / DSP Spare0 for Science Code TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BDESWRESETCNT' / DSP Spare0 for Science Code TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BDEXSCYCLES' / DSP Spare0 for Science Code TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BDECONTROLFLG' / DSP Current Control flag set by dsp object TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDEACTIVITYFLG' / DSP Current Activity flag set by the dsp TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDESPARE15' / DSP Spare TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BDESWTESTCOUNT' / DSP Count test TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BDESWTESTITER' / DSP Count of iterations for test TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BDESWTESTFLOAT' / DSP Result of average test TFORM33 = '1E ' / data format of field: 4-byte REAL TTYPE34 = 'BDESWTESTINT' / DSP Result of sum test TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BDEHALTCNT' / DSP Count of halts received TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BDEPKTERRCNT' / DSP transmit packet error count TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDEPKTERRTYP' / DSP transmit packet last error type TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BDExx32x1' / DSP board science ??? status TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BDExx32x2' / DSP board science ??? status TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BDExx32x3' / DSP board science ??? status TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BDExx32x4' / DSP board science ??? status TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BDExx32x5' / DSP board science ??? status TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BDExx32x6' / DSP board science ??? status TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BDExx32x7' / DSP board science ??? status TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BDExx32x8' / DSP board science ??? status TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BDExx32x9' / DSP board science ??? status TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BDExx32x10' / DSP board science ??? status TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BDExx32x11' / DSP board science ??? status TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BDExx32x12' / DSP board science ??? status TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BDExx32x13' / DSP board science ??? status TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers EXTNAME = 'hk135x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329251.44282 TSTOP = 613331336.44236 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99954009056 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 309 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'bABec49Zb9Adb97Z' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3791773781' / data unit checksum updated 2020-06-18T16:20:47 TRDLO5 = 10000 / BFMTEMPSPACE Red lower limit = BTEMPSPACE_LIM TRDHI5 = 1000000 / BFMTEMPSPACE Red upper limit = BTEMPSPACE_LIM TYELO5 = 60000 / BFMTEMPSPACE Yellow lower limit = BTEMPSPACE_LITYEHI5 = 900000 / BFMTEMPSPACE Yellow upper limit = BTEMPSPACE_LITRDHI11 = 2 / BFMUPLERRORS Red upper limit = BFM_UPLERR_LIM TYEHI11 = 1 / BFMUPLERRORS Yellow upper limit = BFM_UPLERR_LICOMMENT Column 13 = BFMUPLSTATE - Discrete value COMMENT 0 = INACTIVE = no description COMMENT 1-255 = ACTIVE = no description TRDLO15 = -2 / BFMOPENFILECT Red lower limit = B_FM_OFILE_LIM TRDHI15 = 18 / BFMOPENFILECT Red upper limit = B_FM_OFILE_LIM TYELO15 = -1 / BFMOPENFILECT Yellow lower limit = B_FM_OFILE_LTYEHI15 = 15 / BFMOPENFILECT Yellow upper limit = B_FM_OFILE_LTRDHI17 = 2 / BDEREQERRCNT Red upper limit = BPD_DEREQERR_LIMTYEHI17 = 1 / BDEREQERRCNT Yellow upper limit = BPD_DEREQERR_TRDHI24 = 2 / BDEXSERRCNT Red upper limit = BPD_DEXSERR_LIM TYEHI24 = 1 / BDEXSERRCNT Yellow upper limit = BPD_DEXSERR_LITRDHI36 = 2 / BDEPKTERRCNT Red upper limit = BPD_DEPKTERR_LIMTYEHI36 = 1 / BDEPKTERRCNT Yellow upper limit = BPD_DEPKTERR_HISTORY TASK: FAPPND on FILENAME: sw00976692000b135x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��S��6 s=�� +G�M�(��+��A�GT�8��6 s=�� +G�M�(��+��A�GT��6 s=�� +G�M�(��+��A�GT�8�ƀ�6 s=�� +H�dcq(��+��A�GTϸ��6 s=�� +H�dcq(��+��A�GT�8��6 s=�� +H�dcq(��+��A�GT޸��6 s=�� +H�dcq(��+��A�GT�8��6 s=�� +I�d.k(��+��A�GT��K��6 s=�� +I�d.k(��+��A�GT�8��6 s=�� +I�d.k(��+��A�GT��6 s=�� +I�d.k(��+��A�GU8��6 s=�� +J�d.k(��+��A�GU��A��6 s=�� +J�c��(��+��A�GU8��6 s=�� +J�c��(��+��A�GU��6 s=�� +J�c��(��+��A�GU"8��6 s=�� +K�c��(��+��A�GU)��6 s=�� !+L�d��(��+��A�GU18� ��6 s=�� !+L�d��(��+��A�GU8��6 s=�� !+L�d��(��+��A�GU@8��6 s=�� !+L�d��(��+��A�GUG��6 s=�� "+M�d��(��+��A�GUO8��6 s=�� "+M�d��(��+��A�GUV��6 s=�� "+M�d��(��+��A�GU^8��6 s=�� "+M�d��(��+��A�GUe��6 s=�� #+O�W��(��+��A�GUm8��6 s=�� $+O�M�/(��+��A�GUt��e��6 s=�� $+O�M�/(��+��A�GU|8� ��6 s=�� $+O�M�/(��+��A�GU��8��6 s=�� $+O�M�/(��+��A�GU�8��6 s=�� %+P�t�2(��+��A�GU��6 s=�� %+Q�t�2(��+��A�GU�8��6 s=�� &+Q�R�(��+��A�GU��6 s=�� &+Q�R�(��+��A�GU�8�\��6 s=�� &+Q�R�(��+��A�GU��6 s=�� &+Q�R�(��+��A�GU�8��6 s=�� '+R�W��(��+��A�GU�� 6 s=�� '+S�W��(��+��A�GU�8��6 s=�� )+T�'�[)��+��A�GUθ��6 s=�� *+U�(�*��+��A�GU�8�8��6 s=�� *+U�(�*��+��A�GUݸ��6 s=�� *+U�(�*��+��A�GU�8�A��6 s=�� *+U�(�*��+��A�GU측8��6 s=�� *+U�(�*��+��A�GU�8�8��6 s=�� *+U�(�*��+��A�GU��6 s=�� *+U�(�*��+��A�GV8��6 s=�� *+V�(�*��+��A�GV ��6 s=�� ++V�O�(��+��A�GV8�m��6 s=�� ++V�O�(��+��A�GV��׀�6 s=�� ++V�O�(��+��A�GV!8��6 s=�� ++V�O�(��+��A�GV(��΀�6 s=�� ,+W�O#(��+��A�GV08��6 s=�� ,+W�O#(��+��A�GV7��A��6 s=�� ,+W�O#(��+��A�GV?8��6 s=�� ,+W�O#(��+��A�GVF��\��6 s=�� -+X�O�(��+��A�GVN8��6 s=�� -+X�O�(��+��A�GVU��8��6 s=�� .+Y�M�H(��+��A�GV]8�ƀ�6 s=�� .+Y�M�H(��+��A�GVd��\��6 s=�� .+Y�M�H(��+��A�GVl8��6 s=�� .+Y�M�H(��+��A�GVs��6 s=�� .+Z�M�H( ��+��A�GV{8��6 s=�� /+Z�O.�("��+��A�GV��6 s=�� /+Z�O.�("��+��A�GV�8��6 s=�� 0+[�( �*$��+��A�GV��զ��6 s=�� 0+[�( �*$��+��A�GV�8��6 s=�� 2+^�'�H).��+��A�GV��6 s=�� 3+^�\�(0��+��A�GV�8�S��6 s=�� 3+^�\�(0��+��A�GV��6 s=�� 3+^�\�(0��+��A�GV�8�e��6 s=�� 3+^�\�(0��+��A�GV��6 s=�� 3+^�\�(0��+��A�GV�8��6 s=�� 3+^�\�(0��+��A�GV͸��6 s=�� 3+^�\�(0��+��A�GV�8��6 s=�� 3+^�\�(0��+��A�GVܸ��6 s=�� 3+^�\�(0��+��A�GV�8��6 s=�� 3+^�\�(0��+��A�GV븟A��6 s=�� 3+^�\�(0��+��A�GV�8��6 s=�� 3+^�\�(0��+��A�GV��6 s=�� 3+^�\�(0��+��A�GW8��6 s=�� 3+^�\�(0��+��A�GW ��e��6 s=�� 3+^�\�(0��+��A�GW8��6 s=�� 3+^�\�(0��+��A�GW��6 s=�� 3+^�\�(0��+��A�GW 8��6 s=�� 3+^�\�(0��+��A�GW'��8��6 s=�� 3+^�\�(0��+��A�GW/8�8��6 s=�� 3+^�\�(0��+��A�GW6��A��6 s=�� 3+^�\�(0��+��A�GW>8��6 s=�� 3+^�\�(0��+��A�GWE��6 s=�� 3+^�\�(0��+��A�GWM8��6 s=�� 3+^�\�(0��+��A�GWT��׀�6 s=�� 3+^�\�(0��+��A�GW\8�A��6 s=�� 3+^�\�(0��+��A�GWc��׀�6 s=�� 4+_�ZR�(5��+��A�GWk8�S��6 s=�� 4+_�ZR�(5��+��A�GWr��6 s=�� 4+_�ZR�(5��+��A�GWz8��6 s=�� 4+_�ZR�(5��+��A�GW��6 s=�� 5+`�_�#(;��+��A�GW�8�8��6 s=�� 5+`�_�#(;��+��A�GW��6 s=�� 5+`�_�#(;��+��A�GW�]� ��6 s=�� 5+`�_�#(;��+��A�GW��6 s=�� 5+a�_�#(=��+��A�GW�8��6 s=�� 7+b�'�.*A��+��A�GW��8��6 s=�� 7+b�'�.*A��+��A�GW�8�\��6 s=�� 7+b�'�.*A��+��A�GW��6 s=�� 7+b�'�.*A��+��A�GW�8��6 s=�� 8+c�g��(G��+��A�GW̸�8��6 s=�� 8+c�g��(G��+��A�GW�8��6 s=�� 8+c�g��(G��+��A�GW۸�8��6 s=�� 8+c�g��(G��+��A�GW�8��6 s=�� 9+e�O0e(M��+��A�GW긩��6 s=�� :+e�X��(P��+��A�GW�8��6 s=�� :+e�X��(P��+��A�GW��8��6 s=�� ;+f�g�)R��+��A�GX8��6 s=�� ;+f�g�)R��+��A�GX��6 s=�� ;+f�g�)R��+��A�GX8��6 s=�� ;+f�g�)R��+��A�GX��6 s=�� ;+f�g�)R��+��A�GX8�\��6 s=�� ;+f�g�)R��+��A�GX&��8��6 s=�� =+h�M�9(Z��+��A�GX.8��6 s=�� >+j�M�m(`��+��A�GX5��6 s=�� A+l�M��(j��+��A�GX=8��6 s=�� A+l�M��(j��+��A�GXD��6 s=�� B+n�M��(p��+��A�GXL8��6 s=�� D+o�M��(v��+��A�GXS��6 s=�� D+o�M��(v��+��A�GX[8��6 s=�� D+o�M��(v��+��A�GXb��6 s=�� E+q�M�(|��+��A�GXj8��6 s=�� G+s�M��(��+��A�GXq��6 s=�� I+t�M�{(��+��A�GXy8�8��6 s=�� J+u�M��(��+��A�GX��6 s=�� J+v�M��(��+��A�GX�8��6 s=�� K+w�M��(��+��A�GX��6 s=�� L+x�M�p(��+��A�GX�8��6 s=�� N+z�M�o(��+��A�GX��6 s=�� P+{�M��(��+��A�GX�8�A��6 s=�� R+}�mw=(��+��A�GX��8��6 s=�� R+}�mw=(��+��A�GX�8��6 s=�� R+}�mw=(��+��A�GX��6 s=�� R+}�mw=(��+��A�GX�8�A��6 s=�� R+~�mw=(��+��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 140 / 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 = 613329251.4437 TSTOP = 613331336.44324 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99954009056 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 310 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'VJcHWIcFVIcFVIcF' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '370197507' / data unit checksum updated 2020-06-18T16:20:47 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: sw00976692000b136x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��)��A�GT�8��A�GT��A�GT�8Ĝ��A�GTϸ�2��A�GT�8��A�GT޸��A�GT�8��A�GT��!��A�GT�8��A�GT��A�GU8�ڀ��A�GU��A�GU8�f��A�GU�Ȋ��A�GU"8��A�GU)��A�GU18��A�GU8��f��A�GU@8�f��A�GUG��A�GUO8��A�GUV��A�GU^8�!��A�GUe��A�GUm8�]��A�GUt��;��A�GU|8��A�GU��A�GU�8��A�GU��ʂ��A�GU�8��A�GU��f��A�GU�8Ȋ��A�GU��f��A�GU�8�f��A�GU��C��A�GU�8��A�GUθ�f��A�GU�8��A�GUݸ��A�GU�8��A�GU츾��A�GU�8��A�GU��ڀ��A�GV8��A�GV ��A�GV8��A�GV��A�GV!8��A�GV(�¤��A�GV08�р��A�GV7��A�GV?8�f��A�GVF��ڀ��A�GVN8�f��A�GVU��A�GV]8Ĝ��A�GVd��ڀ��A�GVl8�]��A�GVs��A�GV{8�2��A�GV��f��A�GV�8��A�GV��#��A�GV�8�f��A�GV��ѷ��A�GV�8�2��A�GV��A�GV�8�C��A�GV��f��A�GV�8�� A�GV͸�y�� A�GV�8�� A�GVܸ��A�GV�8Ȋ��A�GV븼�� A�GV�8�f�� A�GV��y��A�GW8��A�GW �Ĝ��A�GW8�f��A�GW��A�GW 8�р��A�GW'��A�GW/8ʂ��A�GW6��A�GW>8�2��A�GWE��f��A�GWM8��A�GWT��U��A�GW\8��A�GWc��U��A�GWk8ʂ��A�GWr��A�GWz8��A�GW��ی��A�GW�8�y��A�GW��A�GW�]׈��A�GW��Ȁ��A�GW�8�f��A�GW��A�GW�8�2��A�GW��2��A�GW�8��A�GW̸�f��A�GW�8�<��A�GW۸�ڀ��A�GW�8��A�GW��C��A�GW�8��A�GW��A�GX8�� A�GX��A�GX8�!��A�GX��A�GX8�ڀ��A�GX&��A�GX.8��A�GX5��f�� A�GX=8�� A�GXD��f�� A�GXL8�ڀ�� A�GXS��!��A�GX[8��!��A�GXb�Ɠ��!��A�GXj8��!��A�GXq��y��!��A�GXy8ʂ��"��A�GX��f��"��A�GX�8�2��#��A�GX��$��A�GX�8ʂ��$��A�GX��ʂ��$��A�GX�8��A�GX��A�GX�8Ȋ��A�GX��f��A�GX�8��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 206 / width of table in bytes NAXIS2 = 140 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 60 / 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 = 'BHK137SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BTORTLMTTBL' / TO Active Filter Table Name TFORM3 = '40A ' / data format of field: ASCII Character TTYPE4 = 'BTOFREEBYTES' / TO Space on downlink RAM disk TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BTOPKTSENT' / TO packets sent TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTOFILESSENT' / TO files TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTOFILEQSENT00' / TO File Queue priority 0 files sent TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTOFILEQSENT01' / TO File Queue priority 1 files sent TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BTOFILEQSENT02' / TO File Queue priority 2 files sent TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTOFILEQSENT03' / TO File Queue priority 3 files sent TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTOFILEQSENT04' / TO File Queue priority 4 files sent TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BTOFILEQSENT05' / TO File Queue priority 5 files sent TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BTOFILEQAPID00' / TO File Queue priority 0 APID TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BTOFILEQAPID01' / TO File Queue priority 1 APID TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BTOFILEQAPID02' / TO File Queue priority 2 APID TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BTOFILEQAPID03' / TO File Queue priority 3 APID TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BTOFILEQAPID04' / TO File Queue priority 4 APID TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BTOFILEQAPID05' / TO File Queue priority 5 APID TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOFILEQWAIT00' / TO File Queue priority 0 Files Waiting TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOFILEQWAIT01' / TO File Queue priority 1 Files Waiting TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BTOFILEQWAIT02' / TO File Queue priority 2 Files Waiting TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BTOFILEQWAIT03' / TO File Queue priority 3 Files Waiting TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BTOFILEQWAIT04' / TO File Queue priority 4 Files Waiting TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BTOFILEQWAIT05' / TO File Queue priority 5 Files Waiting TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BTOURGPIPERRCNT' / TO Urgent Pipe Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BTORTPIPERRCNT' / TO RealTime Pipe Error Count TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BTOOTHPIPERRCNT' / TO Other Pipe Error Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BTOFILEQEN00' / TO File Queue priority 0 enabled TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BTOFILEQEN01' / TO File Queue priority 1 enabled TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BTOFILEQEN02' / TO File Queue priority 2 enabled TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BTOFILEQEN03' / TO File Queue priority 3 enabled TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BTOFILEQEN04' / TO File Queue priority 4 enabled TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BTOFILEQEN05' / TO File Queue priority 5 enabled TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BTORTFILEPPS' / TO Realtime File packets per second TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BTONUMQUEFULLS' / TO TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BTONUMQUEFLUSH' / TO TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BTORETRYDELQUE' / TO Current size of the retry delete queue TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BTOBUMPFILECNT' / TO TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'undocumented1' / Byte field not in ITOS database TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'undocumented2' / Byte field not in ITOS database TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'undocumented3' / Byte field not in ITOS database TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'undocumented4' / Byte field not in ITOS database TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BMSTBYTESCRUB' / MS Count of Bytes scrubbed THIS PASS TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BMSCBYTESCRUB' / MS Cumulative number of bytes scrubbed since ReTFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BMSCPASSCOMPL' / MS Passes made thru Bulk Memory since Reset TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BMSCSBERRORS' / MS Cumulative number of Single-Bit Errors sinceTFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BMSCMBERRORS' / MS Cumulative number of Multi-Bit Errors since TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BMSLSBERRADDR' / MS Address of the last Single Bit Error HardwarTFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BMSLMBERRADDR' / MS Address of the last Multi Bit Error HardwareTFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BMSSCRUBSTART' / MS Start address of Current Section Being ScrubTFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'BMSSCRUBEND' / MS End address of Current Section being ScrubbeTFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BMSRAMCSBERRORS' / MS RAM single-bit error count TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BMSRAMCMBERRORS' / MS RAM multi-bit error count TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BMSRAMLSBERRADDR' / MS Last RAM single-bit error address TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BMSRAMLMBERRADDR' / MS Last RAM multi-bit error address TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BMSMACHERRORS' / MS RAM machine check error count TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BMSACHERRADDR' / MS Last RAM machine check error address TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BMSLIORESETREG' / MS Processor LIO Reset Register TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BMSFLAGSWORD' / MS Flags TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BMSSHSCUTCOFF' / SH spacecraft utc offset TFORM60 = '1D ' / data format of field: 8-byte DOUBLE EXTNAME = 'hk137x001' 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 = 613329257.64162 TSTOP = 613331342.64144 DATE-OBS= '2020-06-08T17:14:12' DATE-END= '2020-06-08T17:48:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99981999397 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 311 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'AgCpAgBmAgBmAgBm' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3736595058' / data unit checksum updated 2020-06-18T16:20:47 TRDHI25 = 2 / BTOURGPIPERRCNT Red upper limit = BTO_URGPIPEERTYEHI25 = 1 / BTOURGPIPERRCNT Yellow upper limit = BTO_URGPIPTRDHI26 = 2 / BTORTPIPERRCNT Red upper limit = BTO_RTPIPEERR_TYEHI26 = 1 / BTORTPIPERRCNT Yellow upper limit = BTO_RTPIPEETRDHI27 = 2 / BTOOTHPIPERRCNT Red upper limit = BTO_OTHPIPEERTYEHI27 = 1 / BTOOTHPIPERRCNT Yellow upper limit = BTO_OTHPIPCOMMENT Column 28 = BTOFILEQEN00 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 29 = BTOFILEQEN01 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 30 = BTOFILEQEN02 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 31 = BTOFILEQEN03 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 32 = BTOFILEQEN04 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 33 = BTOFILEQEN05 - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description TRDHI46 = 2 / BMSCSBERRORS Red upper limit = BMS_SBERR_LIM TYEHI46 = 1 / BMSCSBERRORS Yellow upper limit = BMS_SBERR_LIMTRDHI47 = 2 / BMSCMBERRORS Red upper limit = BMS_MBERR_LIM TYEHI47 = 1 / BMSCMBERRORS Yellow upper limit = BMS_MBERR_LIMCOMMENT Column 58 = BMSLIORESETREG - Discrete value COMMENT 0 = LIO POWER ON RESET = Power Cycle Reset COMMENT 2048 = LIO CRITICAL RESET = Critical Reset COMMENT 2304 = LIO CRITICAL ERROR = Critical Error COMMENT 2560 = LIO PAS ERROR = Pas Reset COMMENT 2816 = LIO CHECKSTOP ERROR = Checkstop Error COMMENT 3072 = LIO PCI BRIDGE ERROR = PCI Bridge Error COMMENT 3328 = LIO WATCHDOG ERROR = Watchdog Error COMMENT 3584 = LIO SELFTEST ERROR = SelfTest error HISTORY TASK: FAPPND on FILENAME: sw00976692000b137x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�� targ/mode/tables/toflttbl.gzo ��7dQ��y�16؀~8��7��}��݀��x�A�JsX}kpp�� A��m]A�GT�R��targ/mode/tables/toflttbl.gzo ��7d��y�16؀~8��7��%��x�A�JsX}kpp�� A��m]A�GT�� targ/mode/tables/toflttbl.gzo ��7e��y�16؀~8��7��;�N�x�A�JsX}kpp�� A��m3A�GT�R0U�targ/mode/tables/toflttbl.gzo ��7f��Ā�y�16؀~:��7��i�|�x�A�JsX}kpp�� A��m3A�GT��e�targ/mode/tables/toflttbl.gzo ��7g�Ā�y�16؀~:��7��-��x�A�JsX}kpp�� A��m3A�GT�Re�targ/mode/tables/toflttbl.gzo ��7g^�Ā�y�16؀~:��7��x�A�JsX}kpp�� A��m3A�GT��e�targ/mode/tables/toflttbl.gzo ��7g��Ā�y�16؀~:��7��T��+�x�A�JsX}kp�p�� A��m3A�GT�R�targ/mode/tables/toflttbl.gzo ��7h:�ŀ�y�16؀~;��7��I�\�x�A�JsX}kp�p�� A��m3A�GT�� targ/mode/tables/toflttbl.gzo ��7h��ŀ�y�16؀~;��7��@��@�x�A�JsX}kp�p�� A��m3A�GT�R��targ/mode/tables/toflttbl.gzo ��7h܁ŀ�y�16؀~;��7��@��@�x�A�JsX}kp�p�� A��m3A�GT��/��targ/mode/tables/toflttbl.gzo ��@�7i)�ŀ�y�16؀~;��7��@��@�x�A�JsX}kp�p�� A��m3A�GUR��targ/mode/tables/toflttbl.gzo ��@�7iāƀ�y�16؀~<��7��р��x�A�JsX}kp�p�� A��m3A�GU� �targ/mode/tables/toflttbl.gzo ��0�7k2�ƀ�y�16؀~<��7��@� @�x�A�JsX}kp�p�� A��m3A�GUR �targ/mode/tables/toflttbl.gzo ��0�7l܁ǀ�y�17؀~<��7��&@�9@�x�A�JsX}kp�p�� A��m3A�GU��targ/mode/tables/toflttbl.gzo ��7n*�Ȁ�y�17؀~=��7��Y�l�x�A�JsX}kp�p�� A��m3A�GU%Re�targ/mode/tables/toflttbl.gzo ��7n��ɀ�y�17؀~>��7��x�A�JsX}kpp�� A��m3A�GU,��targ/mode/tables/toflttbl.gzo ��7o@�ʀ�y�17؀~?��7��b��x�A�JsX}kpp�� A��m3A�GU4Re�targ/mode/tables/toflttbl.gzo ��7o|�ʀ�y�17؀~?��7�� x�A�JsX}kpp�� A��m3A�GU;� �targ/mode/tables/toflttbl.gzo ��7o߁ʀ�y�17؀~?��7��<��1��D��x�A�JsX}kpp�� A��m3A�GUCR �targ/mode/tables/toflttbl.gzo ��7p1�ʀ�y�17؀~?��7��h��{��x�A�JsX}kpp�� A��m3A�GUJ� �targ/mode/tables/toflttbl.gzo ��7p��ˀ�y�17؀~@��7��x�A�JsX}kpp�� A��m3A�GURR �targ/mode/tables/toflttbl.gzo ��7q�ˀ�y�17؀~@��7��@��@�x�A�JsX}kpp�� A��m3A�GUY��targ/mode/tables/toflttbl.gzo ��7q��̀�y�17؀~@��7��t@��@�x�A�JsX}kp�p�� A��m A�GUaRe�targ/mode/tables/toflttbl.gzo ��7q�̀�y�17؀~@��7��!��x�A�JsX}kp�p�� A��m A�GUh��targ/mode/tables/toflttbl.gzo ��7rƁ΀�y�18؀~A��7��Հ��x�A�JsX}kp�p�� A��m A�GUpRe�targ/mode/tables/toflttbl.gzo ��7s�΀�y�18؀~A��7�� x�A�JsX}kp�p�� A��m A�GUw��targ/mode/tables/toflttbl.gzo ��7sa�΀�y�18؀~A��7��~��D�W�x�A�JsX}kp�p�� A��m A�GUR �targ/mode/tables/toflttbl.gzo ��7s��΀�y�18؀~A��7��z��x�A�JsX}kp�p�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��7t��΀�y�18؀~A��7��N��x�A�JsX}kp�p�� A��m A�GU�R.^�targ/mode/tables/toflttbl.gzo ��7u��Ѐ�y�18؀~C��7��x�A�JsX}kp�p�� A��m A�GU�� targ/mode/tables/toflttbl.gzo ��7v-�р�y�19؀~C��7��ـ��x�A�JsX}kp�p�� A��m A�GU�R �targ/mode/tables/toflttbl.gzo ��7v��р�y�19؀~C��7��x�A�JsX}kp�p�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��0�7w��р�y�19؀~C��7��x�A�JsX}kpp�� A��m A�GU�R��targ/mode/tables/toflttbl.gzo ��0�7yV�Ҁ�y�1:؀~C��7��!��)��x�A�JsX}kpp�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��7{3�Ӏ�y�1:؀~D��7��*��;@�N@�x�A�JsX}kpp�� A��m A�GU�R��targ/mode/tables/toflttbl.gzo ��7|y�Հ�y�1:؀~F��7��h��{��x�A�JsX}kpp�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��0�7}΁ڀ�y�1:؀~G��7��w@��@�x�A�JsX}kpp�� A��m A�GU�Re�targ/mode/tables/toflttbl.gzo ��7~i�܀�y�1;؀~G��7��z��x�A�JsX}kpp�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��7�$�݀�y�1;؀~G��7��@��@�x�A�JsX}kp�� A��m A�GU�Re�targ/mode/tables/toflttbl.gzo ��7��߀�y�1=؀~G��7��ۀ��x�A�JsX}kp�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��7�́��y�1=؁~G��7��-��.�x�A�JsX}kp�� A��m A�GU�Re�targ/mode/tables/toflttbl.gzo ��7�s��y�1=؁~H��7��[��n��x�A�JsX}kp�� A��m A�GU��targ/mode/tables/toflttbl.gzo ��7��y�1=؁~H��7��x�A�JsX}kp�� A��m A�GU�R��targ/mode/tables/toflttbl.gzo ��7�7��y�1=؁~H��7��x�A�JsX}kp�� A��l�A�GU��e�targ/mode/tables/toflttbl.gzo ��7��y�1=؁~H��7��x�� x�A�JsX}kp�� A��l�A�GVR��targ/mode/tables/toflttbl.gzo ��7�!��y�1=؁~I��7��M��<��O��x�A�JsX}kp� �� A��l�A�GV ��targ/mode/tables/toflttbl.gzo ��7�i��y�1=؁~I��7��w��x�A�JsX}kp� �� A��l�A�GVR3��targ/mode/tables/toflttbl.gzo ��7��y�1=؁~I��7��-��x�A�JsX}kp� �� A��l�A�GV�%ـtarg/mode/tables/toflttbl.gzo ��7��y�1=؁~I��7��x�A�JsX}kp� �� A��l�A�GV$Re�targ/mode/tables/toflttbl.gzo ��7��y�1=؁~J��7��I��&�9�x�A�JsX}kp� �� A��l�A�GV+��targ/mode/tables/toflttbl.gzo ��7��y�1=؁~J��7��]��p��x�A�JsX}kp� �� A��l�A�GV3R��targ/mode/tables/toflttbl.gzo ��7�<��y�1=؁~J��7��M��x�A�JsX}kp� �� A��l�A�GV:��targ/mode/tables/toflttbl.gzo ��7��y�1=؁~J��7��x�A�JsX}kp� �� A��l�A�GVBRe�targ/mode/tables/toflttbl.gzo ��7��y�1=؁~J��7��T��]��p��x�A�JsX}kp��p�� A��l�A�GVI��targ/mode/tables/toflttbl.gzo ��7�f��y�1=؁~K��7��4·�y�A�JsX}kpp�� A��l�A�GVQRe�targ/mode/tables/toflttbl.gzo ��7��y�1=؁~K��7��k��y�A�JsX}kpp�� A��l�A�GVX��targ/mode/tables/toflttbl.gzo ��7�H��y�1>؁~K��7��Y��y�A�JsX}kpp�� A��l�A�GV`R��targ/mode/tables/toflttbl.gzo ��7��y�1>؁~K��7��S��y�A�JsX}kpp�� A��l�A�GVg�e�targ/mode/tables/toflttbl.gzo ��7��y�1>؁~K��7��8��È��y�A�JsX}kpp�� A��l�A�GVoR"��targ/mode/tables/toflttbl.gzo ��7�1��y�1>؁~K��7��:�ý��y�A�JsX}kpp�� A��l�A�GVv� �targ/mode/tables/toflttbl.gzo ��7��y�1>؁~K��7��`@��@�y�A�JsX}kpp�� A��l�A�GV~R �targ/mode/tables/toflttbl.gzo ��7��y�1>؁~M��7��b@��@�y�A�JsX}kpp�� A��l�A�GV��e�targ/mode/tables/toflttbl.gzo ��p�7�v��y�1>؁~M��7��S��e��y�A�JsX}kpp�� A��l�A�GV�R#:�targ/mode/tables/toflttbl.gzo ��0�7�/��y�1>؁~M��7��@�@�y�A�JsX}kpp�� A��l�A�GV��\�targ/mode/tables/toflttbl.gzo ��7��y�1?؁~M��7��5��y�A�JsX}kpp�� A��l�A�GV�R �targ/mode/tables/toflttbl.gzo ��P�7��y�1@؃~M��7��@�@@�y�A�JsX}kpp�� A��l�A�GV��targ/mode/tables/toflttbl.gzo ��7��y�1@؃~O��7��C��y�A�JsX}kpp�� A��l�A�GV�Re�targ/mode/tables/toflttbl.gzo ��7�D��y�1@؃~P��7��}��@�x@�y�A�JsX}kp�p�� A��l�A�GV�� targ/mode/tables/toflttbl.gzo �� 7��y�1A؃~P��7��@ċ@�y�A�JsX}kp�p�� A��l�A�GV�R�targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��Ď�y�A�JsX}kp�p�� A��l�A�GV�� targ/mode/tables/toflttbl.gzo �q��7�b��y�1A؃~P��7��9��+Į�y�A�JsX}kp�p�� A��l�A�GV�R\�targ/mode/tables/toflttbl.gzo �T �7��y�1A؃~P��7��n��J��y�A�JsX}kp�p�� A��l�A�GV��T�targ/mode/tables/toflttbl.gzo �6��7�Ł��y�1A؃~P��7��`��y�A�JsX}kp�p�� A��l�A�GV�R �targ/mode/tables/toflttbl.gzo � P�7�t��y�1A؃~P��7��m��y�A�JsX}kp�p�� A��l�A�GV�� targ/mode/tables/toflttbl.gzo ��7�.��y�1A؃~P��7��y�A�JsX}kp�p�� A��l�A�GV�R\�targ/mode/tables/toflttbl.gzo ��7�ف��y�1A؃~P��7��G��y�A�JsX}kp�p�� A��l�A�GV��targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��&��c�y�A�JsX}kp�p�� A��l�A�GV�R��targ/mode/tables/toflttbl.gzo ��@�7�0��y�1A؃~P��7��l��Ţ�y�A�JsX}kp�p�� A��l�A�GV��e�targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��?��-�Ű��y�A�JsX}kp�p�� A��l�A�GWR �targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��m@��@�y�A�JsX}kp�p�� A��l�A�GW�e�targ/mode/tables/toflttbl.gzo ��7�3��y�1A؃~P��7��/��y�A�JsX}kpp�� A��l�A�GWR �targ/mode/tables/toflttbl.gzo ��7�݁��y�1A؃~P��7��w��@�l@�y�A�JsX}kpp�� A��l�A�GW��targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��@�w@�y�A�JsX}kpp�� A��l�A�GW#R �targ/mode/tables/toflttbl.gzo ��7�8��y�1A؃~P��7��3�ƶ��y�A�JsX}kpp�� A��l�A�GW*�\�targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��C��y�A�JsX}kpp�� A��l�A�GW2R �targ/mode/tables/toflttbl.gzo ��7��y�1A؃~P��7��K��΀�y�A�JsX}kpp�� A��l�A�GW9��targ/mode/tables/toflttbl.gzo ��7�H��y�1A؃~P��7��|��y�A�JsX}kpp�� A��l�A�GWAR��targ/mode/tables/toflttbl.gzo �c��7��y�1A؃~P��7��&��y�A�JsX}kpp�� A��l�A�GWH��targ/mode/tables/toflttbl.gzo �P��7��y�1A؃~P��7��?��y�A�JsX}kpp�� A��l�A�GWPR �targ/mode/tables/toflttbl.gzo �K��7�Y��y�1A؃~P��7��@�@�y�A�JsX}kpp�� A��l�A�GWW�.^�targ/mode/tables/toflttbl.gzo �H�7��y�1A؃~P��7��y��y�A�JsX}kpp�� A��l�A�GW_R �targ/mode/tables/toflttbl.gzo �z�7��y�1B؃~P��7��i��B��y�A�JsX}kpp�� A��l�A�GWf� �targ/mode/tables/toflttbl.gzo �S@�7�o��y�1B؃~P��7��t��M�y�A�JsX}kpp�� A��l�A�GWnR\�targ/mode/tables/toflttbl.gzo �B0�7��y�1B؃~P��7��O�y�A�JsX}kpp�� A��l�A�GWu��targ/mode/tables/toflttbl.gzo �<��7�́��y�1B؃~P��7��`��@�Q@�y�A�JsX}kpp�� A��l�A�GW}R �targ/mode/tables/toflttbl.gzo �9��7�|��y�1B؃~P��7��`�y�A�JsX}kpp�� A��l�A�GW��T�targ/mode/tables/toflttbl.gzo �9�7�<��y�1B؃~P��7�� 5��g@��@�y�A�JsX}kp�p�� A��l�A�GW�R �targ/mode/tables/toflttbl.gzo ��7��y�1B؃~P��7�� m��y�A�JsX}kp�p�� A��l�A�GW�� targ/mode/tables/toflttbl.gzo �P�7ʟ��y�1B؃~P��7�� p��y�A�JsX}kp�p�� A��l�A�GW�R��targ/mode/tables/toflttbl.gzo ��0�7�K��y�1B؃~P��7�� 2��r��y�A�JsX}kp�p�� A��l�A�GW��\�targ/mode/tables/toflttbl.gzo ��7��y�1B؃~P��7��s@��@�y�A�JsX}kp�p�� A��l�A�GW�R��targ/mode/tables/toflttbl.gzo �,��7Ϻ��y�1C؃~P��7��'�y�A�JsX}kp�p�� A��l�A�GW�� targ/mode/tables/toflttbl.gzo ��7�d��y�1C؃~P��7��I��8��y�A�JsX}kp�p�� A��l�A�GW�RT�targ/mode/tables/toflttbl.gzo ��0�7��y�1C؃~P��7�� q��A�y�A�JsX}kp�p�� A��l�A�GW��targ/mode/tables/toflttbl.gzo ��@�7��y�1C؃~P��7��~��@�C@�y�A�JsX}kp�p�� A��laA�GW�R%ـtarg/mode/tables/toflttbl.gzo ��7ֈ��y�1C؃~P��7��@�E@�y�A�JsX}kp�p�� A��laA�GW�� targ/mode/tables/toflttbl.gzo ��7�4��y�1C؃~P��7��U��h�y�A�JsX}kp�p�� A��laA�GW�R��targ/mode/tables/toflttbl.gzo �̀�7��y�1C؃~P��7��}��y�A�JsX}kp�p�� A��laA�GW�� targ/mode/tables/toflttbl.gzo ��@�7۞��y�1C؃~P��7��%��Ȁ�y�A�JsX}kp�p�� A��laA�GW�R��targ/mode/tables/toflttbl.gzo ��7�[��y�1C؃~P��7��ȁ��y�A�JsX}kp�p�� A��laA�GW��S�targ/mode/tables/toflttbl.gzo �Z�7� ��y�1C؃~P��7��X��Ȅ�y�A�JsX}kp�p�� A��laA�GW�R��targ/mode/tables/toflttbl.gzo �~�7�ʁ��y�1D؃~P��7��f��@Ȇ@�y�A�JsX}kp�p�� A��laA�GW��targ/mode/tables/toflttbl.gzo �x��7Ⰱ��y�1D؃~P��7��`��ȇ��y�A�JsX}kp�p�� A��laA�GXRe�targ/mode/tables/toflttbl.gzo �up�7�q��y�1D؃~P��7��G��ț�y�A�JsX}kp�p�� A��laA�GX�e�targ/mode/tables/toflttbl.gzo �bP�7�'��y�1D؃~P��7�� N��р�y�A�JsX}kp�p�� A��laA�GXR �targ/mode/tables/toflttbl.gzo �? �7�ԁ��y�1D؃~P��7�� Y��R��y�A�JsX}kp�p�� A��laA�GX��targ/mode/tables/toflttbl.gzo �8`�7駁��y�1D؃~P��7�� U��y�A�JsX}kp�p�� A��laA�GX"R��targ/mode/tables/toflttbl.gzo �5��7녁��y�1D؃~P��7�� A��l��y�A�JsX}kp�p�� A��laA�GX)�e�targ/mode/tables/toflttbl.gzo �4��7�f��y�1D؃~P��7��y�A�JsX}kp�p�� A��laA�GX1R �targ/mode/tables/toflttbl.gzo �(�7�W��y�1D؃~P��7��y�A�JsX}kp�p�� A��laA�GX8��targ/mode/tables/toflttbl.gzo ��7��y�1D؃~P��7��y�A�JsX}kp�p�� A��laA�GX@R��targ/mode/tables/toflttbl.gzo ��7��y�1D؃~P��7��6��y�A�JsX}kp�p�� A��laA�GXG��targ/mode/tables/toflttbl.gzo ��7�͂��y�1E؃~P��7��@�@�y�A�JsX}kp�p�� A��laA�GXOR�targ/mode/tables/toflttbl.gzo ��p�7��y�1R؃~P��7��y�A�JsX}kp�p�� A��laA�GXV� �targ/mode/tables/toflttbl.gzo �� 7�T��y�1X؃~P��7��W��'��y�A�JsX}kp�p�� A��laA�GX^R �targ/mode/tables/toflttbl.gzo ��7��y�1X؃~P��7��@�)@�y�A�JsX}kp�p�� A��l7A�GXe�e�targ/mode/tables/toflttbl.gzo ��7��y�1Z؃~P��7��W��:��y�A�JsX}kp�p�� A��l7A�GXmRe�targ/mode/tables/toflttbl.gzo ��0�7�ۂ��y�1\؃~P��7��3��N�y�A�JsX}kp�p�� A��l7A�GXt��targ/mode/tables/toflttbl.gzo ��0�7��y�1]؃~P��7��r�y�A�JsX}kpp�� A��l7A�GX|R��targ/mode/tables/toflttbl.gzo ��0�8]��y�1^؃~P��7��v��y�A�JsX}kpp�� A��l7A�GX��e�targ/mode/tables/toflttbl.gzo ��8G��y�1_؃~P��7��$��@�x@�y�A�JsX}kpp�� A��l7A�GX�Re�targ/mode/tables/toflttbl.gzo ��8#��y�1`؃~P��7��h��@�y@�y�A�JsX}kpp�� A��l7A�GX��e�targ/mode/tables/toflttbl.gzo ��0�8��y�1a؃~P��7��S��y��y�A�JsX}kpp�� A��l7A�GX�R��targ/mode/tables/toflttbl.gzo ��8�!��y�1c؃~P��7��K��y��y�A�JsX}kpp�� A��l7A�GX��e�targ/mode/tables/toflttbl.gzo ��8 ˂$��y�1d؃~P��7��z�y�A�JsX}kpp�� A��l7A�GX�Re�targ/mode/tables/toflttbl.gzo ��P�8��$��y�1d؃~P��7��U��$ɧ�y�A�JsX}kpp�� A��l7A�GX��targ/mode/tables/toflttbl.gzo ��P�8P�&��y�1e؄~P��7��4��7�ɺ��y�A�JsX}kpp�� A��l7A�GX�R �targ/mode/tables/toflttbl.gzo �� 8�&��y�1e؄~P��7��>��y�A�JsX}kpp�� A��l7A�GX��e�targ/mode/tables/toflttbl.gzo ��8��&��y�1e؄~P��7�� f��y�A�JsX}kpp�� A��l7A�GX�R��targ/mode/tables/toflttbl.gzo ��@�8l�&��y�1e؄~P��7��!��b��y�A�JsX}kp�� A��l7XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 225 / width of table in bytes NAXIS2 = 140 / 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 = 613329257.64254 TSTOP = 613331342.64228 DATE-OBS= '2020-06-08T17:14:12' DATE-END= '2020-06-08T17:48:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2084.99974000454 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 312 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'OHA8QG87OGA7OG77' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2271698717' / data unit checksum updated 2020-06-18T16:20:47 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: sw00976692000b138x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��>��A�D�#S��>�e�@�C� 8A��@��3J��>��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT�R4D�A�D�#S��>�e�@�C� 8A��@��3J��M��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT��5��A�D�#S��>�e�@�C� 8A��@��3J��\��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT�RK4�A�D�#S��>�e�@�C� 8A��@��3J��k��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT��4D�A�D�#S��>�e�@�C� 8A��@��3J��z��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT�R4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT��4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT�R82�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT��7��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT�R6;�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GT��K4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUR5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU�4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUR4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU�7��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU%R4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU,�6�A�D�#S��>�e�@�C� 8A��@��3J��.��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU4R6�A�D�#S��>�e�@�C� 8A��@��3J��=��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GU;�4�A�D�#S��>�e�@�C� 8A��@��3J��L��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUCR5��A�D�#S��>�e�@�C� 8A��@��3J��[��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUJ�82�A�D�#S��>�e�@�C� 8A��@��3J��j��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GURR5��A�D�#S��>�e�@�C� 8A��@��3J��y��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUY�3��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUaR4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>��Ѐd�� $��$��~��\��$��\�A�GUh�5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GUpR4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GUw�a|�A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GUR4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GU��3��A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GU�RI=�A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��À��Ѐd�� $��$��~��\��$��\�A�GU��4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��7��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R82�A�D�#S��>�e�@�C� 8A��@��3J��-��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��5��A�D�#S��>�e�@�C� 8A��@��3J��<��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R6;�A�D�#S��>�e�@�C� 8A��@��3J��K��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��7��A�D�#S��>�e�@�C� 8A��@��3J��Z��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R4D�A�D�#S��>�e�@�C� 8A��@��3J��i��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��7��A�D�#S��>�e�@�C� 8A��@��3J��x��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R4D�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU�R6;�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GU��7��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GVR5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV �3��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GVRO"�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV�A_�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV$R4D�A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV+�82�A�D�#S��>�e�@�C� 8A��@��3J��,��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV3R6;�A�D�#S��>�e�@�C� 8A��@��3J��;��_��~��2��Ѐd�� $��$��~��\��$��\�A�GV:�3��A�D�#S��>�e�@�C� 8A��@��3J��J��_��~��2��Ѐd�� $��$��~��\��$��\�A�GVBR4�A�D�#S��>�e�@�C� 8A��@��3J��Y��_��~��2��Ѐd�� $��$��~��\��$��\�A�GVI�7��A�D�#S��>�e�@�C� 8A��@��3J��h��_��~��2��Ѐd�� $��$��~��\��$��\�A�GVQR4�A�D�#S��>�e�@�C� 8A��@��3J��w��_��~��3��Ѐd�� $��$��~��\��$��\�A�GVX�5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GV`R3��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GVg�4D�A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GVoR>�A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GVv�5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GV~R5��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GV��4�A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GV�R>��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��Ѐd�� $��$��~��\��$��\�A�GV��9��A�GVp��>�?�r�"e4D��CBi��@��B��H��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R4�A�GVp��>�?�r�"e4D��CBi��@��B��W��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��6;�A�GVp��>�?�r�"e4D��CBi��@��B��f��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R4�A�GVp��>�?�r�"e4D��CBi��@��B��u��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R6�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��8ڀA�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV�R7��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GV��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWR4�A�GVp��>�?�r�"e4D��CBi��@��B��)��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�6�A�GVp��>�?�r�"e4D��CBi��@��B��8��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWR5��A�GVp��>�?�r�"e4D��CBi��@��B��G��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�5��A�GVp��>�?�r�"e4D��CBi��@��B��V��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW#R5��A�GVp��>�?�r�"e4D��CBi��@��B��e��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW*�6�A�GVp��>�?�r�"e4D��CBi��@��B��t��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW2R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW9�6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWAR6�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWH�6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWPR4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWW�I=�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW_R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWf�4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWnR8ڀA�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GWu�5��A�GVp��>�?�r�"e4D��CBi��@��B�� D��4��3��Ѐd�� $��$��~��\��$��\�A�GW}R4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��8ڀA�GVp��>�?�r�"e4D��CBi��@��B��(��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R6;�A�GVp��>�?�r�"e4D��CBi��@��B��7��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��5��A�GVp��>�?�r�"e4D��CBi��@��B��F��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R82�A�GVp��>�?�r�"e4D��CBi��@��B��U��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��6�A�GVp��>�?�r�"e4D��CBi��@��B��d��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R5��A�GVp��>�?�r�"e4D��CBi��@��B��s��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R8ڀA�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R@��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R82�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��n��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GW�R5��A�GVp��>�?�r�"e4D��CBi��@��B�� D��4��3��Ѐd�� $��$��~��\��$��\�A�GW��6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��Ѐd�� $��$��~��\��$��\�A�GXR4�A�GVp��>�?�r�"e4D��CBi��@��B��'��D��4��3��Ѐd�� $��$��~��\��$��\�A�GX�4D�A�GVp��>�?�r�"e4D��CBi��@��B��6��D��4��3��Ѐd�� $��$��~��\��$��\�A�GXR5��A�GVp��>�?�r�"e4D��CBi��@��B��E��D��4��3��Ѐd�� $��$��~��\��$��\�A�GX�6;�A�GVp��>�?�r�"e4D��CBi��@��B��T��D��4��3��Ѐd�� $��$��~��\��$��\�A�GX"R6�A�GVp��>�?�r�"e4D��CBi��@��B��c��D��4��5��;��Ѐd�� $��$��~��\��$��\�A�GX)�4�A�GVp��>�?�r�"e4D��CBi��@��B��r��D��4��5��L��Ѐd�� $��$��~��\��$��\�A�GX1R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��5��Z��Ѐd�� $��$��~��\��$��\�A�GX8�6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��5��Z��Ѐd�� $��$��~��\��$��\�A�GX@R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��l��Ѐd�� $��$��~��\��$��\�A�GXG�5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��n��Ѐd�� $��$��~��\��$��\�A�GXOR6�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��n��Ѐd�� $��$��~��\��$��\�A�GXV�5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��n��Ѐd�� $��$��~��\��$��\�A�GX^R4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��n��Ѐd�� $��$��~��\��$��\�A�GXe�4D�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��7��Ѐd�� $��$��~��\��$��\�A�GXmR4D�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��7��Ѐd�� $��$��~��\��$��\�A�GXt�9��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��7��̀��Ѐd�� $��$��~��\��$��\�A�GX|R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��7��̀��Ѐd�� $��$��~��\��$��\�A�GX��4D�A�GVp��>�?�r�"e4D��CBi��@��B��"��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX�R4�A�GVp��>�?�r�"e4D��CBi��@��B��0��D��4��8��̀��Ѐd�� $��$��~��\��$��\�A�GX��4D�A�GVp��>�?�r�"e4D��CBi��@��B��D��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX�R7��A�GVp��>�?�r�"e4D��CBi��@��B��S��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX��7��A�GVp��>�?�r�"e4D��CBi��@��B��b��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX�R4D�A�GVp��>�?�r�"e4D��CBi��@��B��q��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX��5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX�R5��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX��4�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��8��Ѐd�� $��$��~��\��$��\�A�GX�R6;�A�GVp��>�?�r�"e4D��CBi��@��B��D��4��8��Ѐd�� $��$��~��\��$��\�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 199 / width of table in bytes NAXIS2 = 420 / 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 = 613329248.84142 TSTOP = 613331343.8414 DATE-OBS= '2020-06-08T17:14:03' DATE-END= '2020-06-08T17:48:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2094.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 313 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'WNUEZMUCWMUCWMUC' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1581430004' / data unit checksum updated 2020-06-18T16:20:47 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: sw00976692000b139x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TNULL65 = 32767 TNULL26 = 2147483647 TNULL8 = 32767 TNULL29 = 2147483647 TNULL47 = 2147483647 TNULL36 = 2147483647 TNULL13 = 32767 TNULL46 = 2147483647 TNULL30 = 2147483647 TNULL15 = 32767 TNULL66 = 32767 TNULL57 = 2147483647 TNULL50 = 2147483647 TNULL35 = 2147483647 TNULL41 = 2147483647 TNULL56 = 2147483647 TNULL10 = 32767 TNULL9 = 32767 TNULL31 = 2147483647 TNULL39 = 2147483647 TNULL67 = 32767 TNULL14 = 32767 TNULL4 = 32767 TNULL64 = 32767 TNULL53 = 2147483647 TNULL51 = 2147483647 TNULL40 = 2147483647 TNULL11 = 32767 TNULL17 = 32767 TNULL55 = 2147483647 TNULL44 = 32767 TNULL52 = 2147483647 TNULL58 = 2147483647 TNULL2 = 2147483647 TNULL33 = 2147483647 TNULL38 = 2147483647 TNULL62 = 32767 TNULL28 = 2147483647 TNULL27 = 2147483647 TNULL12 = 32767 TNULL7 = 32767 TNULL37 = 2147483647 TNULL3 = 2147483647 TNULL43 = 32767 TNULL16 = 32767 TNULL59 = 2147483647 TNULL63 = 32767 TNULL54 = 2147483647 TNULL34 = 2147483647 TNULL49 = 2147483647 TNULL32 = 2147483647 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�k��$��_��]D��Q�� 0��C��0�5R?� ��5j��\A�GT�볧�$��d��]D��Q�� C��0�5R?� ��5j��\A�GT�k��$��i��]E��Q�� C��0�5R?� ��5j��k��\A�GT�볧�$��n��]E��Q�� C��0�5R?� ��5j��k��\A�GT�k�N�$��s��]F��Q�� C��0�5R?� ��5j��\A�GT�뵞�$��x��]F��Q�� e��C��0�5R?� ��5j��\A�GT�k��$��}��]H�Q��C��0�5R?� ��5j��\A�GT��$��]H\�Q��C��0�5R?� ��5j��ˎ��\A�GT�k��$��]I�Q��C��0�5R?� ��5j��ˏ��\A�GT��$��]IL�Q��W��C��0�5R?� ��5j��Ȗ,��\A�GT�k��$��]I��Q�� ^��C��0�5R?� ��5j��~�[��\A�GT��$��]J<�Q�� $��C��0�5R?� ��5j��~��\A�GT�k��$��]J��Q�� ?��C��0�5R?� ��5j��}��\A�GT��N�$��]K,Q��C��0�5R?� ��5j��}�D��\A�GT�k�N�$��]K�Q�� C��0�5R?� ��5j��|�w��\A�GT��$�� ]LQ��C��0�5R?� ��5j��|��\A�GT�k��$��]L�Q�� C��0�5R?� ��5j��|�'��\A�GT�볧�$��]M Q�� C��0�5R?� ��5j��\A�GT�k��$��]M� Q��C��0�5R?� ��5j��\A�GT��X�$��]M�Q�� p��C��0�5R?� ��5j��\A�GT�k��$��À��]N�Q�� g��C��0�5R?� ��5j��\A�GT��N�$��Ȁ��]N�Q�� C��0�5R?� ��5j��S��\A�GT�k��$��̀��]O�Q�� 3��C��0�5R?� ��5j��\A�GT��$��Ҁ��]O�Q�� C��0�5R?� ��5j��P��\A�GT�k��$��׀��]P|Q�� C��0�5R?� ��5j��\A�GT��$��܀��]P�Q�� C��0�5R?� ��5j��;��\A�GT�k��$��]Ql!Q��C��0�5R?� ��5j��\A�GT��N�$��]Q�#Q�� C��0�5R?� ��5j��T��\A�GT�k��$�� ]R\&Q�� C��0�5R?� ��5j��M��\A�GT��F�$��]R�(Q�� k��C��0�5R?� ��5j��$��\A�GT�k�N�$��]SL+Q�� C��0�5R?� ��5j��\A�GT��F�$��]S�-Q�� H��C��0�5R?� ��5j��\A�GUk��$��]T<0Q�� Z��C��0�5R?� ��5j��Y��\A�GU뵞�$��]T�2Q�� C��0�5R?� ��5j��'��\A�GUk�N�$�� ]U,5Q��C��0�5R?� ��5j��}��\A�GU�N�$��]U|7Q��C��0�5R?� ��5j��K��\A�GU k�N�$��]V:Q��C��0�5R?� ��5j��w��\A�GU��$��]Vl�$��]W?Q�� C��0�5R?� ��5j��\A�GU볧�$��"��]W\AQ�� H��C��0�5R?� ��5j��\A�GUk��$��'��]W�DQ�� I��C��0�5R?� ��5j��\A�GU볧�$��,��]XLFQ�� C��0�5R?� ��5j��ȑ��\A�GUk��$��1��]X�IQ�� C��0�5R?� ��5j��\A�GU볧�$��6��]Y볧�$��|��]_�nQ�� K��C��0�5R?� ��5j��\A�GUAk��$��]`lqQ��G��C��0�5R?� ��5j��\A�GUC�N�$��]`�sQ�� C��0�5R?� ��5j��@��\A�GUFk�N�$��]a\vQ��C��0�5R?� ��5j��\A�GUH��$��]a�xQ�� C��0�5R?� ��5j��s��\A�GUKk��$��]bL{Q�� C��0�5R?� ��5j��\A�GUM�N�$�� ]b�}Q�� C��0�5R?� ��5j��\A�GUPk�N�$��]c<�Q�� C��0�5R?� ��5j��G��\A�GUR�F�$��]c��Q�� z��C��0�5R?� ��5j��\A�GUUk�N�$��]d��Q�� C��0�5R?� ��5j��R��\A�GUW��$��]e�Q�� C��0�5R?� ��5j��\A�GUZk��$��]e��Q�� C��0�5R?� ��5j��\A�GU\볧�$��]e��Q�� C��0�5R?� ��5j��\A�GU_k��$��]f��Q�� C��0�5R?� ��5j��2��\A�GUa��$��]f�Q��s��C��0�5R?� ��5j��\A�GUdk��$��ǀ��]g��Q�� p��C鼀�1�50?��5,/��>3��\A�GUf볧�$��̀��]gܤQ��C鼀�1�50?��5,/��*��\A�GUik��$��р��]h|�Q��%��C鼀�1�50?��5,/��i��\A�GUk�N�$��ր��]h̩Q��C鼀�1�50?��5,/��!��\A�GUnk�F�$��ۀ��]il�Q�� C鼀�1�50?��5,/��_��\A�GUp�N�$��]i��Q��C鼀�1�50?��5,/��_��\A�GUsk��$��]j\�Q�� C鼀�1�50?��5,/��\A�GUu볧�$��]j��Q��u��C鼀�1�50?��5,/��\A�GUxk��$��]kL�Q�� C鼀�1�50?��5,/��\A�GUz�N�$��]k��Q�� D��C鼀�1�50?��5,/��#��\A�GU}k�N�$��]l<�Q��F��C鼀�1�50?��5,/��\A�GU��$��]l��Q�� C鼀�1�50?��5,/��\A�GU�k�N�$��]m,�Q�� C鼀�1�50?��5,/��7��\A�GU�볧�$�� ]m|�Q�� C鼀�1�50?��5,/��+��\A�GU�k��$�� ]n�Q�� C鼀�1�50?��5,/��"��\A�GU�볧�$��]nl�Q�� Z��C鼀�1�50?��5,/��\A�GU�k��$��]o�Q�� p��C鼀�1�50?��5,/��p��\A�GU�볧�$��]oL�Q�� C鼀�1�50?��5,/��X��\A�GU�k��$��!�� ]o��Q�� 4��B�]s��2�55gB� ��51��h��\A�GU��N�$��&��]pL�Q�� B�]s��2�55gB� ��51��h�k��\A�GU�k�N�$��+��]p��Q�� B�]s��2�55gB� ��51��,��\A�GU��N�$��0��]q<�Q�� B�]s��2�55gB� ��51��-��\A�GU�k��$��5��]q��Q��B�]s��2�55gB� ��51��p��\A�GU��N�$��:��]r,�Q�� T��B�]s��2�55gB� ��51��y��\A�GU�k�N�$��?��]r��Q��d��B�]s��2�55gB� ��51��y��\A�GU��G�$��D��]s�Q�� B�]s��2�55gB� ��51��~��\A�GU�k��$��I��]s��Q��B�]s��2�55gB� ��51��3��\A�GU�볧�$��N��]t�Q�� B�]s��2�55gB� ��51�� \A�GU�k��$��S��]t��Q�� B�]s��2�55gB� ��51��n��\A�GU��N�$��X��]t��Q��Q��B�]s��2�55gB� ��51��\A�GU�k��$��]��]u��Q��L��B�]s��2�55gB� ��51��\A�GU��N�$��b��]u��Q��B�]s��2�55gB� ��51��Ϗz��\A�GU�k��$��g��]v��Q�� B�]s��2�55gB� ��51��ώ��\A�GU��N�$��l��]v��Q��B�]s��2�55gB� ��51��\A�GU�k��$��q��]w|�Q��B�]s��2�55gB� ��51��\A�GU��$��v��]w��Q��B�]s��2�55gB� ��51��\A�GU�k��$��{��]xl�Q��l��B�]s��2�55gB� ��51��\A�GU��F�$��]x��S��$��B�]s��2�55gB� ��51��\A�GU�k�N�$��]y\U��K��B�]s��2�55gB� ��51��ǉ��\A�GU��$��]y�U��B�]s��2�55gB� ��51�� \A�GU�k�N�$��]zLU��W��B�]s��2�55gB� ��51��\A�GU��U�$��[z�U�� B�]s��2�55gB� ��51��\A�GU�k��$��[{<U�� B�]s��2�55gB� ��51��\A�GU��F�$��[{� U��B�]s��2�55gB� ��51��\A�GU�k��$��[|,U�� B�]s��2�55gB� ��51��\A�GU��$��[||U��B�]s��2�55gB� ��51��\A�GU�k�N�$��[}U��B�]s��2�55gB� ��51��\A�GU�뵞�$��[}lU��B�]s��2�55gB� ��51��\A�GU�k��$��[~U��B�]s��2�55gB� ��51��\A�GU��F�$��[~\U�� B�]s��2�55gB� ��51��\A�GU�k��$��[~�U��B�]s��2�55gB� ��51��\A�GU��$��ƀ��[L!U��B�]s��2�55gB� ��51��\A�GU�k��$��ˀ��[�$U��B�]s��2�55gB� ��51��[��\A�GU�볧�$��Ѐ��[�<&U�� h��B�]s��2�55gB� ��51��\A�GU�k��$��Հ��[�l7U��B�]s��2�55gB� ��51��G��\A�GU�볧�$��ڀ��[��9U�� B�]s��2�55gB� ��51��]�b��\A�GU�k��$��߀��[�\U�� B�]s��2�55gB� ��51��u��\A�GU�k��$��[�LAU�� B�]s��2�55gB� ��51��u�b��\A�GU��$��[��CU��t��B�]s��2�55gB� ��51��u�n��\A�GU�k�N�$��[��[�kU�� &��B�]s��2�55gB� ��51��\A�GV"k��$��C��[��nU�� B�]s��2�55gB� ��51��+�{��\A�GV$��$��H��[�pU�� B�]s��2�55gB� ��51��+�u)��\A�GV'k��$��M��[��sU�� B�]s��2�55gB� ��51��;��\A�GV)��$��R��[��uU�� B�]s��2�55gB� ��51��4�w��\A�GV,k��$��W��[��xU�� B�]s��2�55gB� ��51��4��\A�GV.�F�$��\��[��zU�� g��B�]s��2�55gB� ��51��]��\A�GV1k��$��a��[��}U��n��B�]s��2�55gB� ��51��g�g��\A�GV3��$��f��[��U�� F��B�]s��2�55gB� ��51��g��\A�GV6k��$��k��[�|�U�� W��B�]s��2�55gB� ��51��o��\A�GV8��$��p��[�̄U�� B�]s��2�55gB� ��51��o��\A�GV;k�N�$��u��[�l�U��9��B�]s��2�55gB� ��51��B��\A�GV=��$��z��[��U��B�]s��2�55gB� ��51��$��\A�GV@k��$�� [�\�U�� B�]s��2�55gB� ��51��$��\A�GVB볧�$��[��U��B�]s��2�55gB� ��51��'�t��\A�GVEk��$��[�L�U��B�]s��2�55gB� ��51��'��\A�GVG볧�$��[��U�� h��B�]s��2�55gB� ��51��d��\A�GVJk��$�� [�<�U��B�]s��2�55gB� ��51��d��\A�GVL��$�� [��U��J��B�]s��2�55gB� ��51��d��\A�GVOk��$��[�,�U��i��B�]s��2�55gB� ��51��t�.��\A�GVQ��$��[�|�U�� B�]s��2�55gB� ��51��H��\A�GVTk�N�$��[��U��C��3�5M?��5I5��\A�GVV볧�$��[�l�U��C��3�5M?��5I5��L��\A�GVYk��$��[��U�� C��3�5M?��5I5��,��\A�GV[�N�$�� [�\�U��C��3�5M?��5I5�� \A�GV^k�F�$�� [��U�� C��3�5M?��5I5��5��\A�GV`�N�$��[�L�U��G��C��3�5M?��5I5��\A�GVck�N�$��ŀ��[��U�� D��C��3�5M?��5I5��w�M��\A�GVe��$��ʀ��[�<�U�� C��3�5M?��5I5��q��\A�GVhk��$��π��[�ܴU�� C��3�5M?��5I5��\A�GVj��$��Ԁ�� [�,�U��C��3�5M?��5I5�� ,��\A�GVmk��$��ـ��[�̹U�� C��3�5M?��5I5��\A�GVo볧�$��ހ��[��U�� t��C��3�5M?��5I5��\A�GVrk��$��[��U�� t��C��3�5M?��5I5��\A�GVt�F�$��[��U�� C��3�5M?��5I5��m��\A�GVwk�$��[��U�� ,��C��3�5M?��5I5��>�*��\A�GVy뵞�$��[��W�� C��3�5M?��5I5��u�8��\A�GV|k��$��[��W�� C��3�5M?��5I5��u�9��\A�GV~�=�$��"��[��W�� C��3�5M?��5I5��v��\A�GV�k��$�� [��W��C��3�5M?��5I5��v��\A�GV��N�$��[��W��C��3�5M?��5I5��v��\A�GV�k��$��Z�|�W��C��3�5M?��5I5��\A�GV��N�$��Z��W�� 7��C��3�5M?��5I5��\A�GV�k��$��Z�l�W��?��C��3�5M?��5I5��q�[��\A�GV��$��Z��W�� C��3�5M?��5I5�� \A�GV�k�À$��Z�\�W��C��3�5M?��5I5��\A�GV�볧�$��$�� Z�<�W��S��C��3�5M?��5I5��U��\A�GV�k��$��)�� Z��W�� C��3�5M?��5I5��^�"��\A�GV��$��.��Z�,�W��C��3�5M?��5I5��^�3��\A�GV�k��$��3��Z��W�� C��3�5M?��5I5��!��\A�GV��$��8��Z��W�� \��C��3�5M?��5I5��!�;��\A�GV�k�N�$��=��Z��W�� z��C��3�5M?��5I5��\A�GV��G�$��B��Z��W�� 7��C��3�5M?��5I5��:��\A�GV�k��$��G��Z��W�� W��C��3�5M?��5I5��\A�GV��$��L��Z��W�� C��3�5M?��5I5��.��\A�GV�k�N�$��Q��Z��W�� C��C��3�5M?��5I5��\A�GV��$��V��Z��W�� C��3�5M?��5I5��\A�GV�k��$��[��Z��W�� /��C��3�5M?��5I5��\A�GV��N�$��`��Z�� W�� C��3�5M?��5I5��\A�GV�k��$��e��Z�| W�� -��C��3�5M?��5I5��\A�GV��N�$��j��Z��W�� C��3�5M?��5I5��]��\A�GV�k��$��o��Z�lW�� C��3�5M?��5I5��>��\A�GV�볧�$��t��Z��W�� C��3�5M?��5I5��\A�GV�k��$��y��Z�\W�� C��3�5M?��5I5��\A�GV��$��~��Z��W�� C��3�5M?��5I5��\A�GV�k��$�� Z�LW�� C��3�5M?��5I5��\A�GV�볧�$�� Z��W�� C��3�5M?��5I5��%��\A�GV�k�F�$��Z��C��3�5M?��5I5��Q� ��\A�GWXk��$��Z��W�� 1��C��3�5M?��5I5��Q� ��\A�GWZ��$��&��Z�L�W��C��3�5M?��5I5��U��\A�GW]k��$��"��Z��W�� C��3�5M?��5I5��W�j��\A�GW_��$��$��Z�C�W�� C��3�5M?��5I5��W��\A�GWbk�N�$��À��!��Z��W�� C��3�5M?��5I5��ޕG��\A�GWd볧�$��Ȁ��!��Z�,�W�� F��C��3�5M?��5I5��ޏ��\A�GWgk��$��̀��Z��W�� B��C��3�5M?��5I5��N��\A�GWi뵞�$��Ҁ��Z�Ч�� 9��C��3�5M?��5I5��\A�GWlk��$��׀��Zʼ�W�� C��3�5M?��5I5��$��\A�GWn�N�$��܀��Z��W�� C��3�5M?��5I5��\A�GWqk�N�$��Zˬ�W�� C��3�5M?��5I5��}��\A�GWs�N�$��Z��W�� C��3�5M?��5I5��}�> ��\A�GWvk��$��Z̜�W�� C��3�5M?��5I5�� $��\A�GWx�N�$��%��Z��W�� C��3�5M?��5I5��\A�GW{k��$��#��Z͌�W�� C��3�5M?��5I5��!��\A�GW}��$��Z��W�� C��3�5M?��5I5��\A�GW�k�N�$�� #��Z�|�W�� r��C��3�5M?��5I5��c&��\A�GW�볧�$�� '��Z��W�� %��C��3�5M?��5I5��b��\A�GW�k��$�� Z�l�W�� C��3�5M?��5I5��G��\A�GW��$�� 0� �Zϼ�W��C��3�5M?��5I5��G�A��\A�GW�k��$�� "� �Z�\�W��C��3�5M?��5I5��V��\A�GW�볧�$�� %� �ZЬ�W�� C��3�5M?��5I5��V�W��\A�GW�k�N�$�� !� �Z�L�W��C��3�5M?��5I5��ѐQ��\A�GW��N�$��"�� Zќ�W�� 4��C��3�5M?��5I5��f��\A�GW�k�N�$��'�� +� �Z�<�W�� V��C��3�5M?��5I5��f��\A�GW��N�$��,�� ZҌ�W��C��3�5M?��5I5��v�P��\A�GW�k��$��1�� &� �Z�,W��C��3�5M?��5I5��\A�GW��$��6�� Z�|Y�� C��3�5M?��5I5��\A�GW�k��$��;�� "� �Z�Y��C��3�5M?��5I5��\A�GW�볧�$��;�� "� �Z�Y��C��3�5M?��5I5��\A�GW�k��$��E�� Y�Y�� C��3�5M?��5I5��\A�GW�볧�$��J�� Y�\ Y��C��3�5M?��5I5��S��\A�GW�k��$��O�� Y��Y�� C��3�5M?��5I5��S��\A�GW��$��T�� "� �Y�LY�� C��3�5M?��5I5��\A�GW�k��$��Y�� $� �Y��Y�� C��3�5M?��5I5��\A�GW��ȟ�$��^�� !�Y�<Y�� e��C��3�5M?��5I5��\A�GW�k�N�$��c�� Y��Y�� c��C��3�5M?��5I5��]��\A�GW��$��h�� Y�,Y�� C��3�5M?��5I5��]��\A�GW�k�N�$��m�� Y�\-Y�� C��3�5M?��5I5��u��\A�GW�볧�$��r�� Y٬/Y�� \��C��3�5M?��5I5��u��\A�GW�k��$��w�� Y�L2Y�� ]��C��3�5M?��5I5��u��\A�GW��N�$��|�� #� �Yڜ4Y�� C��3�5M?��5I5��\A�GW�k�N�$�� !� �Y�<7Y�� C��3�5M?��5I5��\A�GW��N�$�� Yی9Y�� C��3�5M?��5I5��\A�GW�k��$�� Y�,Y�� B��C��3�5M?��5I5��\A�GW�k��$�� Y�AY�� @��C��3�5M?��5I5��=��\A�GW�볧�$�� &� �Y�lCY�� C��3�5M?��5I5��\A�GW�k��$�� Y�FY�� C��3�5M?��5I5��\A�GW��N�$�� Y�\HY��C��3�5M?��5I5��X��\A�GW�k��$�� !�Y��KY�� C��3�5M?��5I5��\A�GW��N�$�� !�Y�LMY�� g��C��3�5M?��5I5��\A�GW�k��$�� &�!�Y��PY�� s��C��3�5M?��5I5��\A�GW��$�� &�!�Y��5�e�5��5�J�5�Y?��7�">��\A�GX1��7�$��b�� ʂX�Y�,�� D��f��5�5�qBʉy��5�e�5��5��5��?��Ӑ��\A�GX4k��$��g�� d�Y�̪Y��D��f��5�5�qBʉy��5�e�5��5��5��?��ӝ/��\A�GX6볧�$��l�� n�Y��Y��>��D��f��5�5�qBʉy��5�e�5��5��5��?��W��\A�GX9k�N�$��q�� x�Y�Y�� $��D��f��5�5�qBʉy��5�e�5��5��5��?��\A�GX;�N�$��v�� Y��Y�� D��f��5�5�qBʉy��5�e�5��5��5��?��K��\A�GX>k��$��v�� Y��Y�� D��f��5�5�qBʉy��5�e�5��5��5��?��l��\A�GX@��$�� Y��Y�� C�!��6�5�ZBϭd��r�5�Y�5�ֻ5�A�5�D?C��\A�GXCk��$�� Y�|�Y�� D�̀�6�5�ZBj��5��5�Y�5�Ż5��?g*��c��\A�GXE��$�� Y�|�Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��\A�GXHk��$��#� ��Y��Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��\A�GXJ�N�$�� Ԃ��Y��Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��6��p��\A�GXMk�N�$�� Y�|�Y�� O��D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��|�u��\A�GXO�N�$�� `��Y��Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��|��\A�GXRk��$�� Y��Y��Y�� p��D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��ߏ%��\A�GXT�N�$�� 8��Y�L�Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��ߍ��\A�GXWk�F�$�� [��Y��Y�� ,��D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��폅��\A�GXY�N�$�� |��Y�<�Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��\A�GX\k��$�� Y��Y�� D��߀�6�5�ZBo](� ��(�5�k�5�ܻ5��5��?��\A�GX^볧�$�� Y�,�Y�� y��D��x��6�5�ZB�� 5�A�5��5��5�,?��f��\A�GXak�W�$�� b�{�Y��Y�� N��D��7�5�DB]y܀��5�A�5��5�M�5�\?��d��\A�GXc��$��ƀ��R�y�Y��Y�� D޼��7�5�DB��K��5�A�5��5��5�-?��Z��\A�GXfk��$��ƀ��R�y�Y��Y�� D�À�7�5�DB[�A�� 5�G�5��5�>�5�]?�s��j��\A�GXh�N�$��Ѐ��ɂu�Y��Y�� D�À�7�5�DB[�A�� 5�G�5��5�>�5�]?�s��Ej��\A�GXkk��$��Ҁ5��x�Y�,�Y�� E2��7�5�DBC�ƀ��1�5�л5�A�5��5�V?nw��\A�GXm�N�$��ڀ��`�v�Y��Y�� m��E2��7�5�DBC�ƀ��1�5�л5�A�5��5�V?nw��'��\A�GXpk��$��߀��&�s�Y��Y�� 2��E2��7�5�DBC�ƀ��1�5�л5�A�5��5�V?nw��_Ԁ��\A�GXr볧�$��߀��&�s�Y��Y�� 2��E2��7�5�DBC�ƀ��1�5�л5�A�5��5�V?nw�`�e��\A�GXuk��$��.�j�Y�:�� Ez��7�5�DB�#��(�5�ʻ5�;�5�~�5��?[��`��\A�GXw뵞�$��(�e�Y��Y�� Ez��7�5�DB�#��(�5�ʻ5�;�5�~�5��?[��:��\A�GXzk��$��@�`�Y�|�Y�� =��Ez��7�5�DB�#��(�5�ʻ5�;�5�~�5��?[��6��\A�GX|볧�$��A�_�Y��]�� Ez��7�5�DB�#��(�5�ʻ5�;�5�~�5��?[��6��\A�GXk�N�$��c�]�Y�l]�� Ez��7�5�DB�#��(�5�ʻ5�;�5�~�5��?[��E��\A�GX��N�$��c�]�Y�l]�� C�Hd��8�5�-A�(��p�5�Y�5�A�5�}�5�|?I��%�-��\A�GX�k��$��c�]�Y�l]�� C�Hd��8�5�-A�(��p�5�Y�5�A�5�}�5�|?I��%��\A�GX��$�� <�Y�Y� ]�� X��C�Hd��8�5�-A�(��p�5�Y�5�A�5�}�5�|?I��%��\A�GX�k�N�$��:�U�YL a�� C�Hd��8�5�-A�(��p�5�Y�5�A�5�}�5�|?I��\��\A�GX��N�$��Q�Y|a�� f��C�Hd��8�5�-A�(��p�5�Y�5�A�5�}�5�|?I��\A�GX�k�N�$��ÂC�Y<a�� D9��8�5�-BӨ��5�)�5��5��5�;?��ԖY��\A�GX�뵞�$��"��˂=�Yla�� g��E!K��8�5�-B�π��C�5�Ļ5��5��5��?,[�ԋL��\A�GX�k�N�$��%��҂2�Y,a�� 4��E�/��8�5�-B,�K��C�5�Ļ5��5�^�5��>��\A�GX��$��)��ӂ,�Y\a�� E�/��8�5�-B,�K��C�5�Ļ5��5�^�5��>��`��\A�GX�k�N�$��)��ӂ,�Y\a�� E��8�5�-B��g�5�ʻ5��5��5�>�A��t��\A�GX��N�$��2� ��ւ �Y<a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�5�t��\A�GX�k�F�$��9��͂�Y!a�� v��E��8�5�-B��g�5�ʻ5��5��5�>�A�5��\A�GX��$��<��Ă�U<"a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�+��\A�GX�k��$��C��Ȃ�U�&a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�A��>��\A�GX�볧�$��H��Ԃ�UL(a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�A�a��\A�GX�k��$��M��ӂ�U�+a�� E��8�5�-B��g�5�ʻ5��5��5�>�A��\A�GX��$��R��ǁ��U<-a�� :��E��8�5�-B��g�5�ʻ5��5��5�>�A�L��\A�GX�k��$��W��ҁ��U�0a��L��E��8�5�-B��g�5�ʻ5��5��5�>�A�L��\A�GX��ȟ�$��\��́��U,2a�� E��8�5�-B��g�5�ʻ5��5��5�>�A��\A�GX�k�N�$��a��с��U�5a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�(��\A�GX��$��f��ā��U 7a�� E��8�5�-B��g�5�ʻ5��5��5�>�A�(�0��\A�GX�k��$��k��ԁ��U �:a��E��8�5�-B��g�5�ʻ5��5��5�>�A�2�C��\A�GX��$��p��U �A�2�c��\A�GX�k�N�$��u��ρ��U �?a��E��8�5�-B��g�5�ʻ5��5��5�>�A�j��\A�GX�볧�$��z��с��U �Aa��J��E��8�5�-B��g�5�ʻ5��5��5�>�A�L��\A�GX�k��$��ȁ��U�Da��L��E��8�5�-B��g�5�ʻ5��5��5�>�A�L�G��\A�GX�볧�$��с��U�Fa��E��8�5�-B��g�5�ʻ5��5��5�>�A�B�&��\A�GX�k�F�$��ʁ��U�Ia�� E��8�5�-B��g�5�ʻ5��5��5�>�A�i�6��\A�GX��$��Á��U�Ka��E��8�5�-B��g�5�ʻ5��5��5�>�A�i�r��\XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 92 / width of table in bytes NAXIS2 = 140 / 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 = 613329248.84222 TSTOP = 613331333.84224 DATE-OBS= '2020-06-08T17:14:03' DATE-END= '2020-06-08T17:48:48' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2085.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 314 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'aUpJcToGaToGaToG' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3906332107' / data unit checksum updated 2020-06-18T16:20:47 HISTORY TASK: FAPPND on FILENAME: sw00976692000b13ax001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�k�݀si8ta9uz.sdmsi8ta7gz.sdm��>'��(��K��$��F��A�G]��B ��A�GT��t�si8ta9uz.sdmsi8ta7gz.sdm��>'��(��K��$��F��A�G]��B ��A�GT�k΅�hi8tabsz.dhksi8ta9uz.sdm��|'��(��K��$��F��A�G]��B À��A�GT��΅�si8ta9gz.sdmei8ta9tz.evl��0'��(��K��$��F��A�G^��B À��A�GT�k�t�si8ta9gz.sdmei8ta9tz.evl��0'��(��K��$��F��A�G^��B À��A�GT��΅�si8ta9gz.sdmei8ta9tz.evl��0'��(��K��$��F��A�G^��B À��A�GT�k�Հsi8ta9gz.sdmei8ta9tz.evl��0'��(��K��$��F��A�G^��B À��A�GT��}�si8ta9gz.sdmei8ta9tz.evl��0'��(��K��$��F��A�G^��B À��A�GT�k΅�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GT��$�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GT�k΅�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GU��$�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GU k�}�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GU�΅�si8tac0z.sdmsi8ta9gz.sdm��'��(��K��$��F��A�G_��B À��A�GUk΅�ai8ta64z.spcai8ta64z.spc��(��)��K��$��F��A�G`��B À��A�GU ��̀ai8ta64z.spcai8ta64z.spc��(��)��K��$��F��A�G`��B À��A�GU(k΅�si8tag0z.sdmai8ta64z.spc��(��)��K��$��F��A�Ga��B À��A�GU/�΅�si8ta7gz.sdmsi8tag0z.sdm��(��)��K��$��F��A�Gb��B À��A�GU7k�$�si8ta7gz.sdmsi8tag0z.sdm��(��)��K��$��F��A�Gb��B À��A�GU>�΅�si8ta7gz.sdmsi8tag0z.sdm��(��)��K��$��F��A�Gb��B À��A�GUFk�-�si8tai0z.sdmsi8ta7gz.sdm��@(��)��K��$��F��A�Gc��B À��A�GUM��̀si8tai0z.sdmsi8ta7gz.sdm��@(��)��K��$��F��A�Gc��B À��A�GUUk�Հhi8tal8z.dhksi8tai0z.sdm��(��)��K��$��F��A�Gc��B Ā��A�GU\�΅�hi8tal8z.dhksi8tai0z.sdm��(��)��K��$��F��A�Gc��B Ā��A�GUdk�-�si8tak0z.sdmhi8tal8z.dhk��(��)��K��$��F��A�Gd��B Ā��A�GUk��-�si8tam3z.sdmsi8tak0z.sdm��(��)��K��$��F��A�Ge��B Ā��A�GUsk�݀si8tam3z.sdmsi8tak0z.sdm��(��)��K��$��F��A�Ge��B Ā��A�GUz��$�si8tam3z.sdmsi8tak0z.sdm��(��)��K��$��F��A�Ge��B Ā��A�GU�k�Հsi8tam3z.sdmsi8tak0z.sdm��(��)��K��$��F��A�Ge��B Ā��A�GU��-�si8tam0z.sdmei8tam2z.evl��(��)��K��$��F��A�Gf��B Ā��A�GU�k΅�si8tam0z.sdmei8tam2z.evl��(��)��K��$��F��A�Gf��B Ā��A�GU��Հsi8tam0z.sdmei8tam2z.evl��(��)��K��$��F��A�Gf��B Ā��A�GU�k�-�si8tam0z.sdmei8tam2z.evl��(��)��K��$��F��A�Gf��B Ā��A�GU��΅�si8tam0z.sdmei8tam2z.evl��(��)��K��$��F��A�Gf��B Ā��A�GU�k�t�ei8taopz.evlai8tafgz.spc��)��*��K��$��F��A�Gg��B Ā��A�GU��}�si8tao8z.sdmei8taopz.evl��)��*��K��$��F��A�Gh��B Ā��A�GU�k�}�si8tao8z.sdmei8taopz.evl��)��*��K��$��F��A�Gh��B Ā��A�GU��t�si8tao8z.sdmei8taopz.evl��)��*��K��$��F��A�Gh��B Ā��A�GU�k�Հsi8tao8z.sdmei8taopz.evl��)��*��K��$��F��A�Gh��B Ā��A�GU��}�mi8taslz.wgtai8taosz.spc��*��+��K��$��F��C�Gi��C Ā��A�GU�k΅�mi8taslz.wgtmi8taslz.wgt��*��+��K��%��F��C�Gi��C Ā��A�GU��̀mi8taslz.wgtmi8taslz.wgt��*��+��K��%��F��C�Gi��C Ā��A�GU�k΅�hi8taukz.dhkmi8taslz.wgt��*��+��K��%��F��C�Gi��C ŀ��A�GU��-�hi8taukz.dhkmi8taslz.wgt��*��+��K��%��F��C�Gi��C ŀ��A�GU�k�-�hi8taukz.dhkmi8taslz.wgt��*��+��K��%��F��C�Gi��C ŀ��A�GV��̀hi8taukz.dhkmi8taslz.wgt��*��+��K��%��F��C�Gi��C ŀ��A�GV k�-�si8tau0z.sdmhi8taukz.dhk��*��+��K��%��F��C�Gj��C ŀ��A�GV��Հsi8tau0z.sdmhi8taukz.dhk��*��+��K��%��F��C�Gj��C ŀ��A�GVk�$�si8tau0z.sdmhi8taukz.dhk��*��+��K��%��F��C�Gj��C ŀ��A�GV�΅�si8tau0z.sdmhi8taukz.dhk��*��+��K��%��F��C�Gj��C ŀ��A�GV'k΅�si8tb00z.sdmsi8tau0z.sdm��*��+��K��%��F��C�Gk��C ŀ��A�GV.��$�si8tb00z.sdmsi8tau0z.sdm��*��+��K��%��F��C�Gk��C ŀ��A�GV6k�-�si8tb00z.sdmsi8tau0z.sdm��*��+��K��%��F��C�Gk��C ŀ��A�GV=��}�si8tb00z.sdmsi8tau0z.sdm��*��+��K��%��F��C�Gk��C ŀ��A�GVEk΅�si8tb20z.sdmsi8tb00z.sdm��@*��+��K��%��F��C�Gl��C ŀ��A�GVL��t�si8tb20z.sdmsi8tb00z.sdm��@*��+��K��%��F��C�Gl��C ŀ��A�GVTk�Հsi8tb20z.sdmsi8tb00z.sdm��@*��+��K��%��F��C�Gl��C ŀ��A�GV[�΅�si8tb4vz.sdmsi8tb20z.sdm��*��+��K��%��F��C�Gm��C ŀ��A�GVck�-�si8tb4vz.sdmsi8tb20z.sdm��*��+��K��%��F��C�Gm��C ŀ��A�GVj��݀si8tb4vz.sdmsi8tb20z.sdm��*��+��K��%��F��C�Gm��C ŀ��A�GVrk΅�ei8tb4uz.evlsi8tb4vz.sdm��*��+��K��%��F��C�Gm��C ŀ��A�GVy��}�si8tb40z.sdmei8tb4uz.evl��*��+��K��%��F��C�Gn��C ŀ��A�GV�k�݀si8tb40z.sdmei8tb4uz.evl��*��+��K��%��F��C�Gn��C ŀ��A�GV��Հsi8tb40z.sdmei8tb4uz.evl��*��+��K��%��F��C�Gn��C ŀ��A�GV�k�J�ai8tatvz.spcai8tatvz.spc��+��,��K��%��F��D�Gn��C ŀ��A�GV��̀mi8tb96z.wgtmi8tb96z.wgt��&+��,��K��'��F��D�Gp��C ƀ��A�GV�k��mi8tb96z.wgtmi8tb96z.wgt��&+��,��K��'��F��D�Gp��C ƀ��A�GV��b�mi8tb96z.wgtmi8tb96z.wgt��&+��,��K��'��F��D�Gp��C ƀ��A�GV�k��ai8tb7bz.spcai8tb7bz.spc��,��-��K��'��G��D�Gq��C ƀ��A�GV��ei8tb53z.evlai8tb7bz.spc��,��-��K��'��G��D�Gq��C ƀ��A�GV�k�b�ei8tb6lz.evlei8tb53z.evl��,��-��K��'��G��D�Gq��C ƀ��A�GV��̀ei8tavgz.evlei8tb6lz.evl��,��-��K��'��G��D�Gq��C ƀ��A�GV�kߏ�ei8tb1cz.evlei8tavgz.evl��,,��-��K��'��G��D�Gq��C ƀ��A�GV��ջ�ei8tb1cz.evlei8tavgz.evl��,,��-��K��'��G��D�Gq��C ƀ��A�GV�k��ei8tb38z.evlei8tb1cz.evl��h,��-��K��'��G��D�Gq��C ƀ��A�GV��$�ei8tb7uz.evlei8tb38z.evl��,��-��K��'��G��D�Gq��C ƀ��A�GV�k�k�ei8tb7uz.evlei8tb38z.evl��,��-��K��'��G��D�Gq��C ƀ��A�GV��̀ei8tb8sz.evlei8tb7uz.evl��,��-��K��'��G��D�Gq��C ƀ��A�GV�k�ŀei8tb8sz.evlei8tb7uz.evl��,��-��K��'��G��D�Gq��C ƀ��A�GW��̀ei8tbaoz.evlei8tb8sz.evl��X,��-��K��'��G��D�Gq��C ƀ��A�GWk�̀ei8tbaoz.evlei8tb8sz.evl��X,��-��K��'��G��D�Gq��C ƀ��A�GW��ei8tbaoz.evlei8tb8sz.evl��X,��-��K��'��G��D�Gq��C ƀ��A�GWk�b�ei8tbaoz.evlei8tb8sz.evl��X,��-��K��'��G��D�Gq��C ƀ��A�GW��t�hi8tbhjz.dhkei8tbckz.evl��3,��-��K��'��G��D�Gq��C ǀ��A�GW&k��hi8tbhjz.dhkei8tbckz.evl��3,��-��K��'��G��D�Gq��C ǀ��A�GW-��hi8tbhjz.dhkei8tbckz.evl��3,��-��K��'��G��D�Gq��C ǀ��A�GW5k�t�hi8tbhjz.dhkei8tbckz.evl��3,��-��K��'��G��D�Gq��C ǀ��A�GW<��ai8tbgcz.spcai8tbgcz.spc��-��.��K��'��G��D�Gq��C ǀ��A�GWDk�k�di8tb6pz.acsei8tbegz.evl��-��.��K��'��H��D�Gq��C ǀ��A�GWK��di8tb6pz.acsei8tbegz.evl��-��.��K��'��H��D�Gq��C ǀ��A�GWSk��di8tb6pz.acsei8tbegz.evl��-��.��K��'��H��D�Gq��C ǀ��A�GWZ��Àdi8tb6pz.acsei8tbegz.evl��-��.��K��'��H��D�Gq��C ǀ��A�GWbk��ai8tbi8z.spcai8tbi8z.spc��H.��/��K��'��H��D�Gq��C ǀ��A�GWi��Àsi8tbjoz.sdmei8tbgcz.evl��x.��/��K��'��H��D�Gr��C ǀ��A�GWqk�k�si8tbjoz.sdmei8tbgcz.evl��x.��/��K��'��H��D�Gr��C ǀ��A�GWx��si8tbjoz.sdmei8tbgcz.evl��x.��/��K��'��H��D�Gr��C ǀ��A�GW�k��si8tbjoz.sdmei8tbgcz.evl��x.��/��K��'��H��D�Gr��C ǀ��A�GW��b�ai8tbk4z.spcai8tbk4z.spc��/��0��K��'��H��D�Gs��C ǀ��A�GW�k�t�ei8tbi8z.evlai8tbk4z.spc��H/��0��K��'��H��D�Gs��C ǀ��A�GW��ei8tbi8z.evlai8tbk4z.spc��H/��0��K��'��H��D�Gs��C ǀ��A�GW�kջ�ei8tbi8z.evlai8tbk4z.spc��H/��0��K��'��H��D�Gs��C ǀ��A�GW��ei8tbi8z.evlai8tbk4z.spc��H/��0��K��'��H��D�Gs��C ǀ��A�GW�k��ai8tbm0z.spcai8tbm0z.spc��0��1��K��'��H��E�Gt��C ǀ��A�GW��ei8tbk4z.evlai8tbm0z.spc��0��1��K��'��H��E�Gt��C ǀ��A�GW�k�b�hi8tbr9z.dhkmi8tbq2z.wgt��i0��1��K��(��H��E�Gt��C Ȁ��A�GW��t�hi8tbr9z.dhkmi8tbq2z.wgt��i0��1��K��(��H��E�Gt��C Ȁ��A�GW�k�Àhi8tbr9z.dhkmi8tbq2z.wgt��i0��1��K��(��H��E�Gt��C Ȁ��A�GW��ai8tbo9z.spcai8tbo9z.spc�� 1��2��K��(��H��E�Gu��C Ȁ��A�GW�kջ�ai8tbo9z.spcai8tbo9z.spc�� 1��2��K��(��H��E�Gu��C Ȁ��A�GW��ei8tbm0z.evlai8tbo9z.spc��1��2��K��(��H��E�Gu��C Ȁ��A�GW�k�̀si8tbjoz.sdmsi8tbroz.sdm��x1��2��K��(��H��E�Gw��C Ȁ��A�GW��[�ei8tbpoz.evlsi8tbjoz.sdm��81��2��K��(��H��E�Gw��C Ȁ��A�GW�k��ei8tbpoz.evlsi8tbjoz.sdm��81��2��K��(��H��E�Gw��C Ȁ��A�GW��̀ei8tbpoz.evlsi8tbjoz.sdm��81��2��K��(��H��E�Gw��C Ȁ��A�GXk�̀ei8tbpoz.evlsi8tbjoz.sdm��81��2��K��(��H��E�Gw��C Ȁ��A�GX�� ai8tbr3z.spcai8tbr3z.spc��c2��3��K��(��H��F�Gw��D Ȁ��A�GXk�t�ei8tbrkz.evlai8tbr3z.spc��t2��3��K��(��H��F�Gw��D Ȁ��A�GX��$�ei8tbrkz.evlai8tbr3z.spc��t2��3��K��(��H��F�Gw��D Ȁ��A�GX%k��ei8tbrkz.evlai8tbr3z.spc��t2��3��K��(��H��F�Gw��D Ȁ��A�GX,��si8tc2cz.sdmmi8tbvcz.wgt��L3��4��K��)��H��F�Gz��D Ȁ��A�GX4k�t�si8tc2hz.sdmgi8tbvsz.gno��Q3��4��K��)��H��F�G{��D Ȁ��A�GX;��si8tc2qz.sdmsi8tc2mz.sdm��Z3��4��K��)��H��F�G}��D Ȁ��A�GXCk�Àsi8tc2qz.sdmsi8tc2mz.sdm��Z3��4��K��)��H��F�G}��D Ȁ��A�GXJ��t�si8tc2qz.sdmsi8tc2mz.sdm��Z3��4��K��)��H��F�G}��D Ȁ��A�GXRk�b�hi8tc51z.dhkei8tc3bz.evl��3��4��K��)��H��F�G��D ɀ��A�GXY��t�hi8tc51z.dhkei8tc3bz.evl��3��4��K��)��H��F�G��D ɀ��A�GXak�}�si8tc5mz.sdmei8tc18z.evl��3��4��K��)��H��F�G��D ɀ��A�GXh��si8tc5mz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GXpk�t�si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GXw��k�si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GXk� �si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX��si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX�k�k�si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX��ջ�si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX�k��si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX��̀si8tc5lz.sdmsi8tc5oz.sdm��3��4��K��)��H��F�G��D ɀ��A�GX�k΅�ai8tc1oz.spcai8tc1oz.spc��84��5��K��)��H��G�G��D ɀ��A�GX��̀ei8tc34z.evlai8tc1oz.spc��d4��5��K��)��H��G�G��D ɀ��A�GX�k�-�ei8tc7jz.evlmi8tc9qz.wgt��4��5��K��*��H��G�G��D ɀ��A�GX��΅�ei8tc7jz.evlmi8tc9qz.wgt��4��5��K��*��H��G�G��D ɀ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 420 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK13BSSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk13bx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329248.84304 TSTOP = 613331343.843 DATE-OBS= '2020-06-08T17:14:03' DATE-END= '2020-06-08T17:48:58' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2094.99996006489 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 315 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:47' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZqXfeoXcZoXcdoXc' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3046815065' / data unit checksum updated 2020-06-18T16:20:47 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw00976692000b13bx001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�k輀��^��J��zņ��D�bg��S��\3�u��Fx��Ӏ¢�!��D��*5Z��D�~�/��.�$��e��~⢊��2�2�222�Y��Re��F�:�"��Z�9��Q��l��c��D��A�GT��m��^�V��J"��z��D�bg��i��\3�u��Fx��Ӏ¢��D��*5r��D��/��.�b��e��~��2�2�222�Y��Re��F�<�"��Z��Q��l��dV��D��A�GT�k�d��^��J.��{��$��D�bg��q��\4$u��Fx��Ӏ¢��D��*5��D��/��.ʠ��e��~�n��2�2�222�Y��Re��F�>�"��Z��Q��l��e��D��A�GT��R��^�ր��J:��{��*��D�bg��w��\4lu��Fx��Ӏ¢��D��ƀ��*5��D��/��.��e��~�Ԋ��2�2�222�Y��Re��F�@�"��Z�X��Q��l��eЀ��D��A�GT�k輀��^��JF��{=��2��D�bg��\4�u��Fx��Ӏ¢� ��D��ʀ��*5��D��/��.��e��~�:��2�2�222�Y��Re��F�B�"��Z��Q��l��f��D��A�GT��^�V��JR��{[��8��D� bg��\4�u��Fx��Ӏ¢��D��΀��*5Ҁ��D��/��.�Z��e��~䠊��2�2�222�Y��Re��F�D�"��Z��Q��l��gL��D��A�GT�k�d��^��J^��{y��@��D�bg��\58u��Fx��Ӏ¢��D��Ҁ��*5��D��/��.˘��e��~��2�2�222�Y��Re��F�F�"��Z�u��Q��l��h ��D��A�GT��ŀ��^��Jp��{��J��D�bg��\5Vu��Fx��Ӏ¢��D��ڀ��*6��D��/��.��f��~�r��2�2�222�Y��Re��F�L�"��Z��Q��l��hʀ��D��A�GT�k�m��^� ��J~��{��R��D�bg��\5�u��Fx��Ӏ¢��D��ހ��*6��D��/��.��f��~�ڊ��2�2�222�Y��Re��F�N�"��Z��Q��l��i��D��A�GT��d��^�`��J��{ӆ��X��D�bg��A��\5�u��Fx��Ӏ¢��D��*66��D��/��.�V��f��~�@��2�2�222�Y��Re��F�P�"��Z�b��Q��l��jF��D��A�GT�k곀��^��J��{��`��D�bg��O��\6u��Fx��Ӏ¢��D�Ā��*6N��D��/��.̔��f��~榊��2�2�222�Y��Re��F�R�"��Z�Ȁ��Q��l��k��D��A�GT��m��^��J��|��f��D�bg��9��\6^u��Fx��Ӏ¢��D�ƀ��*6f��D��/��.��f��~��2�2�222�Y��Re��F�T�"��Z�3��Q��l��k��D��A�GT�k�R��^� ��J��|-��n��D�bg��9��\6�u��Fx��Ӏ¢�ۀ��D�Ȁ��*6~��D��/��.��f��~�r��2�2�222�Y��Re��F�V�"��Z��Q��l��l~��D��A�GT��^�`��J��|K��t��D�bg��A��\6�u��Fx��Ӏ¢�Հ��D�ʀ��*6��D��/��.�N��f��~�؊��2�2�222�Y��Re��F�X�"��Z��Q��l��m<��D��A�GT�k輀��^��Jƀ��|i��|��D� bg��I��\7Gu��Fx��Ӏ¢�π��D�̀��*6��D��/��.͌��f��~�>��2�2�222�Y��Re��F�Z�"��Z�o��Q��l��m��D��A�GT��^��JҀ��|��Ԃ��D�"bg��I��\7�u��Fx��Ӏ¢�ɀ��D�΀��*6ƀ��D��/��.��f��~褊��2�2�222�Y��Re��F�\�"��Z�׀��Q��l��n��D��A�GT�k�m��^� ��Jހ��|��Ԋ��D�$bg��_��\7�u��FxӀ¢�À��D�Ѐ��*6ހ��D��/��.��f��~� ��2�2�222�Y��ReĀ��F�^�"��Z�@��Q��l��ov��D��A�GT��곀��^�`��J��|Æ��Ԑ��D�&bg��o��\8/u��FxĜӀ¢ʽ��D�Ҁ��*6��D��/��.�F��f��~�p��2�2�222�Y��Reƀ��F�`�"��Z��Q��l��p2��D��A�GT�k곀��^��J��|��Ԙ��D�(bg��\8{u��FxƜӀ¢̷��D�Ԁ��*7��D��/��.΄��f��~�֊��2�2�222�Y��ReȀ��F�b�"��Z� ��Q��l��p��D��A�GT��^��K��|��Ԟ��D�*bg��\8�u��FxȜӀ¢α��D�ր�� *7&��D��/��.��f��~�<��2�2�222�Y��Reʀ��F�d�"��Z�v��Q��l��q��D��A�GT�k��ݿ��^� ��K��}��Ԧ��D�,bg��\9u��FxʜӀ¢Ы��D�؀��*7>��D��/��.��f��~ꢊ��2�2�222�Y��Re΀��F�f�"��Z�΀��Q��l��rf��D��A�GT��[��^�`��K��};��Ԭ��D�.bg��\9Bu��Fx̜Ӏ¢ҥ��D�ڀ��*7V��D��/��.�>��f��~��2�2�222�Y��ReҀ��F�h�"��Z�%��Q��l��s*��D��A�GT�k�[��^��K&��}Y��Դ��D�0bg��р��\9�u��FxΜӀ¢ԟ��D�܀��*7n��D��/��.�|��f��~�n��2�2�222�Y��ReԀ��F�j�"��Z��Q��l��s��D��A�GT��^��K2��}w��Ժ��D�2bg��̀��\9�u��FxМӀ¢֙��D�ހ��*7��D��/��.Ϻ��f��~�Ԋ��2�2�222�Y��Reր��F�l�"��Z��Q��l��t��D��A�GT�k�d��^� ��K>��}��D�4bg��\:+u��FxҜӀ¢ؓ��D��*7��D��/��.��f��~�:��2�2�222�Y��Re؀��F�n�"��Z�]��Q��l��ub��D��A�GT��m��^�`��KJ��}��Ȁ��D�6bg��\:wu��FxԜӀ¢ڍ��D��"��*7��D��/��.�6��f��~젊��2�2�222�Y��Reڀ��F�p�"��Z�Ā��Q��l��v��D��A�GT�k�ŀ��^��KV��}ц��Ѐ��D�8bg��\:�u��Fx֜Ӏ¢܇��D��&��*7΀��D��/��.�t��f��~��2�2�222�Y��Re܀��F�r�"��Z�,��Q��l��v܀��D��A�GT��^��Kb��}��ր��D�:bg��\;u��Fx؜Ӏ¢ށ��D��*��*7��D��/��.в��f��~�l��2�2�222�Y��Reހ��F�t�"��Z��Q��l��w��D��A�GT�k輀��^��Kn��~ ��ހ��D�bg��\;_u��FxܜӀ¢�u��D��2��*8��D��/��.�.��f��~�8��2�2�222�Y��Re��F�x�"��Z�b��Q��l��y��D��A�GT�k��ݿ��^��K��~I��D�@bg�� \;�u��FxޜӀ¢�o��D��6��*8.��D��/��.�l��f��~��2�2�222�Y��Re��F�|�"��Z�ˀ��Q��l��yЀ��D��A�GT��ݿ��^�ڀ��K��~g��D�Bbg��#��\;�u��Fx��Ӏ¢�i��D��:��*8F��D��/��.Ѫ��f��~��2�2�222�Y��Re��F�~�"��Z�2��Q��l��z��D��A�GUk�ŀݿ��^��K��~��D�Dbg��\;�u��Fx�Ӏ¢�c��D��>��*8^��D�/��.��f��~�j��2�2�222�Y��Re��FȀ�"��Z��Q��l��{N��D��A�GU��[�ݿ��^�V��K��~��D�Fbg��7��\;�u��Fx�Ӏ¢�]��D��B��*8v��D�Ć/��.�&��f��~�Њ��2�2�222�Y��Re��FȂ�"��Z��Q��l��| ��D��A�GUk輀ݿ��^��K��~��D�Hbg��j��\;�u��Fx�Ӏ¢�W��D��F��*8��D�Ɔ/��.�d��f��~�6��2�2�222�Y��Re��FȄ�"��Z�F��Q��l��|Ȁ��D��A�GU�輀ݿ��^�Ҁ��K��~߆��D�Jbg��p��\;�u��Fx�Ӏ¢�Q��D��J��*8��D�Ȇ/��.Ң��f��~𜊇��2�2�222�Y��Re��FȆ�"��Z��Q��l��}��D��A�GU k�R�ݿ��^��K΀��~��D�Lbg��\;�u��Fx�Ӏ¢�K��D��N��*8��D�ʆ/��.��f��~��2�2�222�Y��Re��FȈ�"��Z��Q��l��~B��D��A�GU��m�ݿ��^�N��Kڀ��D�Nbg��\< u��Fx�Ӏ¢�E��D��R��*8ր��D�̆/��.��f��~�h��2�2�222�Y��Re��FȊ�"��Z�q��Q��l��D��A�GUk��ݿ��^��K��9��$��D�Pbg��|��\u��Fx��Ӏ£��D� ��r��*9��D�܆/��.��f��~��2�2�222�Y��Rf��FȚ�"��Z�k��Q��l��D��A�GU#k�d��^��LF��)��\��D�`bg��~��\>Zu��Fx��Ӏ£��D��v��*9��D�ކ/��.�L��f��~��2�2�222�Y��Rf ��FȜ�"��Z�π��Q��l��D��A�GU%��d��^�΀��LR��G��b��D�bbg��\>�u��Fy�Ӏ£ ��D��z��*9ƀ��D��/��.Պ��f��~�d��2�2�222�Y��Rf��FȞ�"��Z��Q��l��f��D��A�GU(k�d��^��L^��e��j��D�dbg��\>�u��Fy�Ӏ£��D��~��*9ހ��D��/��.��f��~�ʊ��2�2�222�Y��Rf��FȠ�"��Z�u��Q��l��&��D��A�GU*��m��^�N��Lj��p��D�fbg��\?u��Fy�Ӏ£ ��D��*9��D��/��.��f��~�0��2�2�222�Y��Rf��FȢ�"��Z�ڀ��Q��l��D��A�GU-k��^��Lv��x��D�hbg��\?]u��Fy�Ӏ£��D��*:��D��/��.�D��f��~��2�2�222�Y��Rf��FȤ�"��Z�B��Q��l��D��A�GU/��d��^�΀��L��~��D�jbg��ހ��\?�u��Fy�Ӏ£ ��D��*:&��D��/��.ւ��f��~��2�2�222�Y��Rf��FȦ�"��Z��Q��l��\��D��A�GU2k��^��L��݆��Ն��D�lbg��\?�u��Fy �Ӏ£��D��*:>��D��/��.��f��~�b��2�2�222�Y��Rf��FȨ�"��Z��Q��l��D��A�GU4��m��^�N��L��Ռ��D�nbg��؀��\@Iu��Fy�Ӏ£��D��*:V��D��/��.��f��~�Ȋ��2�2�222�Y��Rf��FȪ�"��Z�z��Q��l��ڀ��D��A�GU7k��^��L��Ք��D�pbg��\@�u��Fy�Ӏ£߀��D��*:n��D��/��.�<��f��~�.��2�2�222�Y��Rf ��FȬ�"��Z��Q��l��D��A�GU9��m��^�΀��L��7��՚��D�rbg��\@�u��Fy�Ӏ£ـ��D��*:��D��/��.�z��f��~��2�2�222�Y��Rf"��FȮ�"��Z�M��Q��l��R��D��A�GU��d��^�N��Lʀ��s��ը��D�vbg��"��\A~u��Fy�Ӏ£̀��D�"��*:��D��/��.��f��~�`��2�2�222�Y��Rf&��FȲ�"��Z��Q��l��΀��D�A�GUAk�d��^��Lր��հ��D�xbg��:��\A�u��Fy�Ӏ£ǀ��D�$��*:΀��D��/��.�4��f��~�Ɗ��2�2�222�Y��Rf*��Fȴ�"��Z�u��Q��l��D�A�GUC��^�΀��L��ն��D�zbg��6��\B u��Fy�Ӏ£��D�&��*:��D��/��.�r��f��~�,��2�2�222�Y��Rf,��Fȶ�"��Z��Q��l��J��D�A�GUFk��^��L��͆��վ��D�|bg��V��\BFu��Fy�Ӏ£��D�(��*:��D��/��.ذ��f��~��2�2�222�Y��Rf0��Fȸ�"��Z�5��Q��l��D�A�GUH��^�N��L��Ā��D�~bg��^��\B�u��Fy�Ӏ£!��D�*��*;��D��/��.��f��~��2�2�222�Y��Rf2��FȺ�"��Z��Q��l��ƀ��D�A�GUKk�m��^��M�� ̀��D��bg��r��\B�u��Fy�Ӏ£#��D�,��*;.��D��/��.�,��f��~�^��2�2�222�Y��Rf4��Fȼ�"��Z��Q��l��D� A�GUM�쫀��^�΀��M��'��Ҁ��D��bg��ˊ��\C/u��Fy �Ӏ£%��D�.��*;F��D��/��.�j��f��~�Ċ��2�2�222�Y��Rf6��FȾ�"��Z�n��Q��l��>��D�A�GUPk輀��^��M��E��ڀ��D��bg��̜��\C}u��Fy"�Ӏ£'��D�0��*;^��D��/��.٨��f��~�*��2�2�222�Y��Rf8��F��"��Z�؀��Q��l��D�A�GUR��^�N��M*��c��D��bg��͠��\C�u��Fy$�Ӏ£)��D�2��*;v��D��/��.��f��~��2�2�222�Y��Rf:��F�"��Z�@��Q��l��D�A�GUUk�[��^��M6��D��bg��΢��\Du��Fy&�Ӏ£+��D�4��ƀ��*;��D��/��.�$��f��~��2�2�222�Y��Rf<��F�Ą"��Z��Q��l��x��D�A�GUW�쫀��^�Ҁ��MB��D��bg��ϱ��\E�u��Fy(�Ӏ£-��D�6��ʀ��*;��D��/��.�b��f��~�\��2�2�222�Y��Rf>��F�Ƅ"��Z��Q��l��4��D�A�GUZk輀��^��MN��D��bg��Я��\F;u��Fy*�Ӏ£/��D�8��΀��*;��D� �/��.ڠ��f��~��2�2�222�Y��Rf@��F�Ȅ"��Z�t��Q��l��D�A�GU\��^�R��MZ��ۆ��D��bg��ѥ��\F�u��Fy,�Ӏ£1��D�:��Ҁ��*;ր��D��/��.��f��~�(��2�2�222�Y��RfB��F�ʄ"��Z�ۀ��Q��l��D�A�GU_k�m��^��Mf��D��bg��ҵ��\F�u��Fy.�Ӏ£3��D�<��ր��*;��D��/��.��f��~��2�2�222�Y��RfD��F�̄"��Z�D��Q��l��l��D�A�GUa��m��^�Ҁ��Mr�� D��bg��р��\Gu��Fy0�Ӏ£5y��D�>��ڀ��*<��D��/��.�Z��f��~�􊇀��2�2�222�Y��RfH��F�΄"��Z��Q��l��,��D�A�GUdk��^��M~��5��D��bg��\GHu��Fy2�Ӏ£7s��D�@��ހ��*<��D��/��.ۘ��f��~�Z��2�2�222�Y��RfN��F�Є"��Z�ހ��Q��l��ހ��D�A�GUf�輀��^�R��M��S��D��bg��K��\G�u��Fy4�Ӏ£9m��D�B��*<6��D��/��.��f��~��2�2�222�Y��RfR��F�҄"��Z�0��Q��l��D� A�GUik輀��^��M��q�� D��bg��s��\G�u��Fy6�Ӏ£;g��D�D��*�Ӏ£CO��D�L��*<��D��/��.��f��2�2�222�Y��Rf\��F�܄"��Z�%��Q��l��\��D�*A�GUu��d��^�Ҁ��Mր��B��D��bg��ܕ��\I0u��Fy@�Ӏ£EI��D�N��*<ƀ��D� �/��.�J��f��$��2�2�222�Y��Rf^��F�ބ"��Z��Q��l��D�,A�GUxk�ŀ��^��M��%��J��D��bg��ݙ��\Izu��FyB�Ӏ£GC��D�P��*<ހ��D�"�/��.݈��f��2�2�222�Y��Rf`��F��"��Z��Q��l��؀��D�.A�GUz��^�R��M��C��P��D��bg��ޭ��\I�u��FyD�Ӏ£I=��D�R��*<��D�$�/��.��f��2�2�222�Y��Rfb��F��"��Z�J��Q��l��D�0A�GU}k輀��^��M��a��X��D��bg��À��\J u��FyF�Ӏ£K7��D�T��*=��D�&�/��.��f��V��2�2�222�Y��Rfd��F��"��Z��Q��l��R��D�2A�GU��d��^�Ҁ��N��^��D��bg��ీ��\JRu��FyH�Ӏ£M1��D�V�� *=&��D�(�/��.�B��f��2�2�222�Y��Rff��F��"��Z� ��Q��l��D�4A�GU�k곀��^��N��h��D��bg��᱀��\J�u��FyL�Ӏ£O,��D�Z��*=>��D�*�/��.ހ��f��"��2�2�222�Y��Rfh��F��"��Z�n��Q��l��̀��D�6A�GU��輀��^�T��N"��n��D��bg��\J�u��FyN�Ӏ£Q&��D�\��*=X��D�.�/��.��g��2�2�222�Y��Rfn��F��"��Z��Q��l��D�:A�GU�k輀��^��N0��ن��v��D��bg��\Ku��FyP�Ӏ£S ��D�^��*=p��D�0�/��.��g��􊇀��2�2�222�Y��Rfr��F��"��Z��Q��l��H��D�A�GU�k�d��^��NH��ք��D��bg��W��\K�u��FyT�Ӏ£W��D�b�� *=��D�4�/��.�z��g��2�2�222�Y��Rfx��F��"��Z�Ѐ��Q��l��ƀ��D�@A�GU��^�T��NT��3��֊��D��bg��W��\K�u��FyV�Ӏ£Y��D�d��$��*=��D�6�/��.߸��g��&��2�2�222�Y��Rf|��F��"��Z�&��Q��l��D�BA�GU�k�d�ݿ��^��N`��Q��֒��D��bg��腀��\K�u��FyX�Ӏ£[��D�f��(��*=Ѐ��D�8�/��.��g��2�2�222�Y��Rf~��F��"��Z��Q��l��@��D�DA�GU��d�ݿ��^�Ѐ��Nl��o��֘��D��bg��髀��\K�u��FyZ�Ӏ£]��D�h��,��*=��D�:�/��.�4��g��򊇀��2�2�222�Y��Rf��F��"��Z�р��Q��l��D�FA�GU�k��ݿ��^��Nx��֠��D��bg��굀��\K�u��Fy\�Ӏ£^��D�j��0��*>��D�<�/��.�r��g��X��2�2�222�Y��Rf��F��"��Z�1��Q��l��D�HA�GU��'��ݿ��^�L��N��֦��D��bg��뻀��\K�u��Fy^�Ӏ£`��D�l��4��*>��D�>�/��.��g��2�2�222�Y��Rf��F��"��Z��Q��l��z��D�JA�GU�k��ݿ��^��N��Ɇ��֮��D��bg��߀��\K�u��Fy`�Ӏ£b��D�n��8��*>0��D�@�/��.��g��$��2�2�222�Y��Rf��F��"��Z��Q��l��8��D�LA�GU��곀ݿ��^�Ȁ��N��ִ��D��bg��\K�u��Fyb�Ӏ£d��D�p��<��*>H��D�B�/��.�,��g��2�2�222�Y��Rf��F��"��Z�W��Q��l��D�NA�GU�k곀ݿ��^��N��ּ��D��bg��\K�u��Fyd�Ӏ£f��D�r��@��*>`��D�D�/��.�j��g��2�2�222�Y��Rf��F��"��Z��Q��l��D�PA�GU��ݿ��^�D��N��#��D��bg��\K�u��Fyf�Ӏ£hހ��D�t��D��*>x��D�F�/��.��g�� V��2�2�222�Y��Rf��F��"��Z� ��Q��l��p��D�RA�GU�k��ݿ��^��N��A��ʀ��D��bg��\L%u��Fyh�Ӏ£j؀��D�v��H��*>��D�H�/��.��g�� 2�2�222�Y��Rf��F��"��Z�\��Q��l��.��D�TA�GU��輀ݿ��^��Ǹ��_��Ѐ��D��bg��\LYu��Fyj�Ӏ£lҀ��D�x��L��*>��D�J�/��.�$��g�� "��2�2�222�Y��Rf��F� �"��Z��Q��l��D�VA�GU�k��^��N؀��}��؀��D��bg��\L�u��Fyl�Ӏ£ǹ��D�z��P��*>��D�L�/��.�b��g�� 2�2�222�Y��Rf��F��"��Z��Q��l��D�XA�GU��^�B��N��ހ��D��bg��ـ��\L�u��Fyn�Ӏ£pƀ��D�|��T��*>؀��D�N�/��.��g�� ��2�2�222�Y��Rf��F��"��Z�S��R�l��h��D�ZA�GU�k�R��^��N��D��bg��\L�u��Fyr�Ӏ£r��D��X��*>��D�P�/��.��h��X��2�2�222�Y��Rf��F��"��Z��R�l��"��D�^A�GU��^�Ȁ��O��׆��D��bg��;��\M(u��Fyt�Ӏ£t��D��^��*? ��D�T�/��.��h��2�2�222�Y��Rf��F��"��Z��R�l��D�`A�GU�k�ŀ��^��O��D��bg��A��\MYu��Fyv�Ӏ£v��D��b��*?"��D�V�/��.�\��h��&��2�2�222�Y��Rf��F��"��Z�@��R�l��D�bA�GU��^�F��O��D��bg��Q��\M�u��Fyx�Ӏ£x��D��f��*?:��D�X�/��.��h��2�2�222�Y��Rf��F��"��Z��R�l��^��D�dA�GU�k�ŀ��^��O&��1��D��bg��Q��\M�u��Fyz�Ӏ£z��D��j��*?R��D�Z�/��.��h��򊇀��2�2�222�Y��Rf��F��"��Z��R�l��D�fA�GU��[��^�Ȁ��O2��R��D��bg��K��\Nu��Fy��Ӏ£|��D��n��*?j��D�\�/��.��h�� X��2�2�222�Y��Rf��F��"��Z�_��R �l��؀��D�hA�GU�k�[�ݿ��^��OB��p��D��bg��\NDu��Fy��Ӏ£~��D��t��*?��D�`�0��.�^��i�� 2�2�222�Y��Rf��F�"�"��Z��R �l��D�lA�GU��ݿ��^�F��ON��D��bg��؀��\NFu��Fy��Ӏ£��D��x��*?��D�b�0��.��i��(��2�2�222�Y��Rf��F�$�"��Z��R �l��V��D�nA�GU�k�d�ݿ��^��OZ��$��D��bg��&��\NJu��Fy��Ӏ£��D��|��*?��D�d�0��.��i��2�2�222�Y��Rf��F�&�#��Z�v��R �l��D�pA�GU��ݿ��^��Of��ʆ��*��D��bg��R��\NPu��Fy��Ӏ£��D��*?̀��D�f�0��.��i��􊋀��2�2�222�Y��Rf��F�(�#��Z��R �l��Ԁ��D�rA�GU�k�m�ݿ��^��Or��2��D��bg��d��\NPu��Fy��Ӏ£��D��*?��D�h�0��.�V��i��Z��2�2�222�Y��Rf��F�*�#��Z�{��R �l��D�tA�GU��GÀݿ��^�<��O~��8��D��bg��x��\NXu��Fy��Ӏ£��D��*?��D�j�0��.��i��2�2�222�Y��Rf��F�,�#��Z�̀��R �m��P��D�vA�GU�k곀ݿ��^�z��O��$��B��D��bg��\N[u��Fy��Ӏ£�z��D��*@��D�l�1��.��i��(��2�2�222�Y��Rfƀ��F�.�#��Z��R �m��D�xA�GU��ݿ��^��O��B��H��D��bg��\N�u��Fy��Ӏ£�t��D��*@,��D�n�1��.��i��2�2�222�Y��RfȀ��F�0�#��Z��R �m��΀��D�zA�GU�k�d�ݿ��^��O��`��P��D��bg��\N�u��Fy��Ӏ£�n��D��*@D��D�p�1��.�P��i��􊋀��2�2�222�Y��Rfʀ��F�2�#��Z� ��R �m��D�|A�GU��곀��^�6��O��~��V��D��bg��\OCu��Fy��Ӏ£�h��D��*@\��D�r�1��.��i��Z��2�2�222�Y��Rf̀��F�4�#��Z��R�m��J��D�~A�GU�k��^��O��^��D��bg��Ѐ��\O�u��Fy��Ӏ£�b��D��*@t��D�t�1��.��i��2�2�222�Y��Rf΀��F�6�#��Z��R�m��D��A�GU��d��^�ƀ��OȀ��d��D��bg��\O�u��Fy��Ӏ£�\��D��*@��D�v�1��.��i��&��2�2�222�Y��RfЀ��F�8�#��Z�t��R�m��ƀ��D��A�GU�k輀��^��OԀ��؆��l��D��bg�� \P0u��Fy��Ӏ£�V��D��*@��D�x�1��.�J��i��2�2�222�Y��RfҀ��F�:�#��Z��R�m��D��A�GU��곀��^�F��O��r��D��bg�� E��\P�u��Fy��Ӏ£�P��D��*@��D�z�1��.��i��򊋀��2�2�222�Y��RfԀ��F�<�#��Z�i��R�m��@��D��A�GU�k�d��^��O��z��D��bg��z��\P�u��Fy��Ӏ£�J��D��*@Ԁ��D�|�1��.��i��X��2�2�222�Y��Rf؀��F�B�#��Z�݀��R�m��D��A�GU��쫀��^�ƀ��O��2��׀��D�bg��d��\Q+u��Fy��Ӏ£�D��D��*@��D�~�1��.��i��2�2�222�Y��Rfڀ��F�D�#��Z�R��R�m��D��A�GU�k��^��P��P��׈��D�bg�� t��\Q�u��Fy��Ӏ£�>��D��*A��D��1��.�D��i��$��2�2�222�Y��Rf܀��F�F�#��Z�ʀ��R�m��x��D��A�GU��^�F��P��n��׎��D�bg��b��\Q�u��Fy��Ӏ£�8��D��*A��D��1��.��i��2�2�222�Y��Rfހ��F�H�#��Z�8��R�m��8��D��A�GU�k�[��^��P��ז��D�bg��b��\R,u��Fy��Ӏ£�2��D��*A4��D��1��.��i��2�2�222�Y��Rf��F�J�#��Z��R�m��D��A�GU��^�ʀ��P(��ל��D�bg��\Rru��Fy��Ӏ£�,��D��*AL��D��1��.��i��V��2�2�222�Y��Rf��F�L�#��Z��R�m��D��A�GU�k��^� ��P4��Ȇ��פ��D� bg��|��\R�u��Fy��Ӏ£�&��D��Ā��*Ad��D��1��.�<��i��2�2�222�Y��Rf��F�N�#��Z�o��R �m��p��D��A�GU��d��^�J��P@��ת��D�bg��\Su��Fy��Ӏ£� ��D��Ȁ��*A|��D��1��.�z��i��"��2�2�222�Y��Rf��F�P�#��Z�ـ��R!�m��,��D��A�GU�k곀��^��PL��ײ��D�bg��\S\u��Fy��Ӏ£��D��̀��*A��D��1��.��i��2�2�222�Y��Rf��F�R�#��Z�@��R"�m��D��A�GU��m��^�ʀ��PX��"��׸��D�bg��|��\S�u��Fy��Ӏ£��D��Ѐ��*A��D��1��.��i����2�2�222�Y��Rf��F�T�#��Z��R#�m��Ħ��D��A�GU�k��^� ��Pd��@��D�bg��|��\S�u��Fy��Ӏ£��D��Ԁ��*AĀ��D��1��.�4��i��T��2�2�222�Y��Rf��F�V�#��Z��R$�m��d��D��A�GU��輀��^�J��Pp��^��ƀ��D�bg��\TGu��Fy��Ӏ£��D��؀��*A܀��D��1��.�r��i��2�2�222�Y��Rf��F�X�#��Z�{��R%�m��$��D��A�GU�k��^��P|��|��΀��D�bg��\T�u��Fy��Ӏ£��D��܀��*A��D��1��.��i�� 2�2�222�Y��Rf��F�Z�#��Z��R&�m��D��A�GV��^�ʀ��P��Ԁ��D�bg��܀��\T�u��Fy��Ӏ£��D�Ā��*B��D��1��.��i��2�2�222�Y��Rf��F�\�#��Z�>��R'�m��ǜ��D��A�GVk輀��^� ��P��܀��D�bg��\U#u��Fy��Ӏ£��D�ƀ��*B$��D��1��.�,��i��슋��2�2�222�Y��Rf��F�^�#��Z��R(�m��\��D��A�GV�輀��^�J��P��ֆ��D�bg��\U_u��FyӀ£��D�Ȁ��*B<��D��1��.�j��i��R��2�2�222�Y��Rf��F�`�#��Z��R)�m��D��A�GV k��^��P��D�bg��\U�u��FyĜӀ£��D�ʀ��*BT��D��1��.��i��2�2�222�Y��Rf��F�b�#��Z�c��R*�m��ր��D��A�GV��^�ʀ��P��D� bg��\U�u��FyƜӀ£��D�̀��*Bl��D��1��.��i��2�2�222�Y��Rf��F�d�#��Z�̀��R+�m��ʒ��D��A�GVk�ŀ��^� ��PĀ��0��D�"bg��\VKu��FyȜӀ£�ހ��D�΀��*B��D��1��.�$��i��2�2�222�Y��Rg��F�f�#��Z�5��R,�m��P��D��A�GV�곀��^�J��PЀ��N��D�$bg��\V�u��FyʜӀ£�؀��D�Ѐ��*B��D��1��.�b��i��ꊋ��2�2�222�Y��Rg��F�h�#��Z��R-�m��D��A�GVk�[��^��P܀��l��D�&bg�� \V�u��Fy̜Ӏ£�Ҁ��D�Ҁ��*B��D��1��.��i��P��2�2�222�Y��Rg��F�j�#��Z��R.�m��ʀ��D��A�GV��m��^�ʀ��P��D�(bg��!&��\W4u��FyΜӀ£�̀��D�Ԁ��*B̀��D��1��.��i��2�2�222�Y��Rg��F�l�#��Z�o��R/�m��͊��D��A�GVk��^� ��P��D�*bg��"(��\W�u��FyМӀ£�ƀ��D�ր��*B��D��1��.��i��2�2�222�Y��Rg��F�n�#��Z�ـ��R0�m��H��D��A�GV��m��^�J��Q��Ɔ��D�,bg��#F��\W�u��FyҜӀ£��D�؀��*B��D��1��.�Z��i��2�2�222�Y��Rg ��F�p�#��Z�A��R1�m��D��A�GVk��^��Q��"��D�.bg��$J��\Xu��FyԜӀ£ɺ��D�ڀ��*C��D��1��.��i��芋��2�2�222�Y��Rg��F�r�#��Z��R2�m��D��A�GV��d��^�ʀ��Q��(��D�0bg��%<��\Xiu��Fy֜Ӏ£˴��D�܀��*C,��D��1��.��i��N��2�2�222�Y��Rg��F�t�#��Z��R3�m��~��D��A�GV"k�d��^��Q$�� 0��D�2bg��&d��\X�u��Fy؜Ӏ£ͮ��D�ހ��*CD��D��1��.��i��2�2�222�Y��Rg��F�v�#��Z�i��R4�m��8��D��A�GV$��^�H��Q0��>��6��D�4bg��'f��\Yu��FyڜӀ£Ϩ��D��*C\��D��1��.�R��i��2�2�222�Y��Rg��F�x�#��Z��R5�m��D��A�GV'k�d��^��Q<��\��>��D�6bg��(j��\YEu��FyܜӀ£Ѣ��D��*Ct��D��1��.��i��2�2�222�Y��Rg��F�z�#��Z�,��R6�m��Ҹ��D��A�GV)��^�Ȁ��QH��z��D��D�8bg��)��\Y�u��FyޜӀ£Ӝ��D�� *C��D��1��.��i��抋��2�2�222�Y��Rg��F�|�#��Z��R7�m��t��D��A�GV,k�m��^��QT��L��D�:bg��*��\Y�u��Fy��Ӏ£Ֆ��D��$��*C��D��1��.��i��L��2�2�222�Y��Rg��F�~�#��Z��R8�m��4��D��A�GV.��^�H��Q`��R��D�bg��,ƀ��\Z�u��Fy�Ӏ£ي��D��,��*CԀ��D��1��.��i�� 2�2�222�Y��Rg ��Fɂ�#��Z�Ѐ��R:�m��ծ��D��A�GV3��d��^�Ȁ��Qx��`��D�@bg��-��\Z�u��Fy�Ӏ£ۄ��D��0��*C��D��1��.��i�� ~��2�2�222�Y��Rg"��FɄ�#��Z�<��R;�m��j��D��A�GV6k��^��Q��h��D�Bbg��.��\[u��Fy�Ӏ£�~��D��4��*D��D��1��.��i�� 䊋��2�2�222�Y��Rg$��FɆ�#��Z��R<�m��(��D��A�GV8��^�H��Q��.��n��D�Dbg��/��\[nu��Fy�Ӏ£�x��D��8��*D��D�1��.�B��i��!J��2�2�222�Y��Rg&��FɈ�#��Z� ��R=�m��D��A�GV;k�[��^��Q��L��v��D�Fbg��0��\[�u��Fy�Ӏ£�r��D��<��*D4��D�Ć1��.��i��!��2�2�222�Y��Rg(��FɊ�#��Z�v��R>�m��ؤ��D��A�GV=��[��^�Ȁ��Q��j��|��D�Hbg��1Ā��\\ u��Fy�Ӏ£�l��D��@��*DL��D�Ɔ1��.��i��"��2�2�222�Y��Rg*��FɌ�#��Z�܀��R?�m��`��D��A�GV@k곀ݿ��^��Q��؄��D�Jbg��2ڀ��\\Vu��Fy�Ӏ£�f��D��D��*Dd��D�Ȇ1��.��i��"|��2�2�222�Y��Rg,��FɎ�#��Z�E��R?�m�� D��A�GVB�輀��^�F��Q��؊��D�Lbg��3��\]�u��Fy�Ӏ£�`��D��H��*D|��D�ʆ1��.�:��i��"⊋��2�2�222�Y��Rg0��Fɐ�#��Z��R@�m��܀��D��A�GVEk��^��Q̀��Ć��ؒ��D�Nbg��5��\^fu��Fy��Ӏ£�Z��D��L��*D��D�̆1��.�x��i��#H��2�2�222�Y��Rg4��Fɒ�#��Z��RA�m��ێ��D��A�GVG��^�ƀ��Q؀��ؘ��D�Pbg��6��\^�u��Fy��Ӏ£�T��D��P��*D��D�Ά1��.��i��#��2�2�222�Y��Rg6��Fɔ�#��Z�Z��RB�m��V��D��A�GVJk��^��Q��ؠ��D�Rbg��7!��\^�u��Fy��Ӏ£�N��D��T��*DĀ��D�І1��.��i��$��2�2�222�Y��Rg8��Fɖ�#��Z��RC�m��D��A�GVL��R��^�F��Q��ئ��D�Tbg��8��\_Lu��Fy��Ӏ£�H��D��X��*D܀��D�҆1��.�2��i��$z��2�2�222�Y��Rg:��Fɘ�#��Z�)��RD�m��Ҁ��D��A�GVOk��^��Q��<��خ��D�Vbg��9'��\_�u��Fy��Ӏ£�B��D��\��*D��D�Ԇ1��.�p��i��$��2�2�222�Y��Rg<��Fɚ�#��ZÓ��RE�m��ގ��D��A�GVQ��m��^�ƀ��R��Z��ش��D�Xbg��:O��\_�u��Fy��Ӏ£�<��D��`��*E��D�ֆ1��.��i��%F��2�2�222�Y��Rg@��Fɜ�#��Z��RF�m��N��D��A�GVTk곀��^��R��x��ؼ��D�Zbg��;i��\`u��Fz�Ӏ£�6��D��d��*E$��D�؆1��.��i��%��2�2�222�Y��RgD��Fɞ�#��Z�8��RG�m��D��A�GVV��m��^�F��R ��D�\bg��<��\`Su��Fz�Ӏ£�0��D��h��*E<��D�چ1��.�*��i��&��2�2�222�Y��RgF��Fɠ�#��ZĘ��RH�m��ʀ��D��A�GVYk��^��R,��ʀ��D�^bg��=��\`�u��Fz�Ӏ£�*��D� ��l��*ET��D�܆1��.�h��i��&x��2�2�222�Y��RgH��Fɢ�#��Z��RI�m��ሀ��D��A�GV[��d��^�ƀ��R8��҆��Ѐ��D�`bg��>��\`�u��Fz�Ӏ£�$��D��p��*El��D�ކ1��.��i��&ފ��2�2�222�Y��RgJ��Fɤ�#��Z�V��RJ�m��D��D��A�GV^k�[��^��RD��؀��D�bbg��?��\a)u��Fz�Ӏ£��D��t��*E��D��1��.��i��'D��2�2�222�Y��RgL��Fɦ�#��Zŵ��RK�m��D��A�GV`�輀��^�F��RP��ހ��D�dbg��@{��\apu��Fz �Ӏ£��D��x��*E��D��1��.�"��i��'��2�2�222�Y��RgN��Fɨ�#��Z��RL�m��D��A�GVck��^��R\��,��D�fbg��A��\a�u��Fz�Ӏ¤��D��|��*E��D��1��.�`��i��(��2�2�222�Y��RgP��Fɪ�#��Z�v��RM�m��~��D��A�GVe��m��^�ƀ��Rh��J��D�hbg��B��\a�u��Fz�Ӏ¤��D��*È��D��1��.��i��(v��2�2�222�Y��RgR��Fɬ�#��Z�Ԁ��RN�m��:��D��A�GVhk��^��Rt��h��D�jbg��C��\bCu��Fz�Ӏ¤��D��*E��D��1��.��i��(܊��2�2�222�Y��RgT��Fɮ�#��Z�2��RO�m��D��A�GVj��^�F��R��D�lbg��D̀��\b�u��Fz�Ӏ¤��D��*E��D��1��.��i��)B��2�2�222�Y��RgV��Fɰ�#��ZǑ��RP�m��涀��D��A�GVmk��^��R��D�nbg��Eۀ��\b�u��Fz�Ӏ¤��D��*F��D��1��.�X��i��)��2�2�222�Y��RgX��Fɲ�#��Z��RQ�m��t��D��A�GVo��^�ƀ��R��D�pbg��Fɀ��\cu��Fz�Ӏ¤ ��D��*F,��D��1��.��i��*��2�2�222�Y��RgZ��Fɴ�#��Z�Q��RT�m��0��D��A�GVrk��^� ��R��D�tbj��G��\cKu��Fz�Ӏ¤��D� ��*FF��D��1��.��j��*x��ò2�2�222�Y��Rgb��Fɸ�#��ZȜ��RV�m��D��A�GVt�곀��^�J��R��D�vbo��IA��\czu��Fz�Ԁ¤��D�"��*F^��D��1��.��j��*��ò2�2�222�Y��Rgf��Fɺ�#��Z��RW�m��鮀��D�A�GVwk�0�ݿ��^��R��(��"��D�xbo��J}��\c�u��Fz�Ԁ¤��D�$��*Fv��D��2��.�T��j��+F��ò2�2�222�Y��Rgh��Fɾ�$��Z�E��RW�m��j��D�A�GVy�곀ݿ��^�Ȁ��R΀��F��(��D�zbo��Ky��\c�u��Fz �Ԁ¤ހ��D�&��*F��D��2��.��j��+��ò2�2�222�Y��Rgj��F��$��Zɩ��RW�m��*��D�A�GV|k輀ݿ��^��Rڀ��d��0��D�|bo��L��\c�u��Fz"�Ԁ¤؀��D�(��*F��D��2��.��j��,��ò2�2�222�Y��Rgl��F�$��Z��RW�m��D�A�GV~�쫀ݿ��^�D��R��6��D�~bo��M{��\c�u��Fz$�Ԁ¤Ҁ��D�*��*F��D��2��.��j��,x��ò2�2�222�Y��Rgn��F�Ą$��Z�v��RW�m��준��D�A�GV�k輀ݿ��^��R��>��D��bo��N}��\c�u��Fz&�Ԁ¤̀��D�,��*Fր��D��2��.�L��j��,ފ��ò2�2�222�Y��Rgp��F�Ƅ$��Z�݀��RW�m��b��D� A�GV��ݿ��^��R��D��D��bo��O��\c�u��Fz(�Ԁ¤ƀ��D�.��*F��D��2��.��j��-D��ò2�2�222�Y��Rgr��F�Ȅ$��Z�D��RW�m��D�A�GV�k곀ݿ��^��S ��܆��L��D��bo��P��\c�u��Fz*�Ԁ¤��D�0��*G��D��2��.��j��-��ò2�2�222�Y��Rgt��F�ʄ$��Z˘��RW�m��܀��D�A�GV��곀ݿ��^�:��S��R��D��bo��Q��\c�u��Fz,�Ԁ¤��D�2��*G��D��2��.��j��.��ò2�2�222�Y��Rgz��F�̄$��Z�ހ��RW�m��|��D�A�GV�k��ݿ��^�z��S"��Z��D��bo��R��\du��Fz.�Ԁ¤ ��D�4��*G6��D��2��.�D��j��.v��ò2�2�222�Y��Rg|��F�΄$��Z�N��RW�m��\��D�A�GV��m�ݿ��^��S.��6��`��D��bo��S��\dOu��Fz0�Ԁ¤"��D�6��*GN��D��2��.��j��.܊��ò2�2�222�Y��Rg~��F�Є$��Z̺��RW�m��D�A�GV�l (��^��S:��T��h��D��bo��T��\d�u��Fz2�Ԁ¤$��D�8��ƀ��*Gf��D� �2��.��j��/B��ò2�2�222�Y��Rg��F�҄$��Z��R[�m��؀��D�A�GV��^�:��SF��r��n��D��bo��U��\d�u��Fz4�Ԁ¤&��D�:��ʀ��*G~��D��2��.��j��/��ò2�2�222�Y��Rg��F�Ԅ$��Z�d��R_�m��D�A�GV�k�[��^��SR��x��D��bo��V܀��\d�u��Fz8�Ԁ¤(��D�>��΀��*G��D��2��.�<��k��0��Ų2�2�222�Y��Rg��F�ڄ$��Z͓��Ra�m��R��D�A�GV��J��^�Ā��Sd��~��D��bo��X��\eu��Fz:�Ԁ¤*��D�@��Ԁ��*G��D��2��.�~��k��0��Ų2�2�222�Y��Rg��F�܄$��Z��Rc�m��D�A�GV�k쫀ݿ��^��Sp��̆��ن��D��bo��Ya��\e u��Fz<�Ԁ¤,��D�B��؀��*GȀ��D��2��.��k��0슋��Ų2�2�222�Z��Rg��F�ބ$��Z�a��Rc�m��D� A�GV��ݿ��^�B��S|��ٌ��D��bo��Z}��\e$u��Fz>�Ԁ¤.��D�D��܀��*G��D��2��.��k��1X��Ų2�2�222�Z��Rg��F��&��Z�؀��Rc�m��D�"A�GV�k�R�ݿ��^��S��ٔ��D��bo��[��\e(u��Fz@�Ԁ¤0��D�F��*G��D��2��.�8��k��1Ċ��Ų2�2�222�Z��Rg��F��&��Z�M��Rc�m��J��D�$A�GV��T�ݿ��^��S��&��ٚ��D��bo��\��\e,u��FzB�Ԁ¤2��D�H��*H��D��2��.�v��k��2.��Ų2�2�222�Z��Rg��F��&��Zϭ��Rc�m�� D�&A�GV�k��ݿ��^��S��D��٢��D��bo��]��\e1u��FzD�Ԁ¤4y��D�J��*H(��D��2��.��k��2��Ų2�2�222�Z��Rg��F��&��Z�#��Rc�m��Ȁ��D�(A�GV��A�ݿ��^�:��S��b��٨��D��bo��^��\ebu��FzF�Ԁ¤6s��D�L��*H@��D��2��.��k��3��Ų2�2�222�Z��Rg��F��&��ZИ��Rc�m��D�*A�GV�k�[�ݿ��^�x��S��ٰ��D��bo��_��\e�u��FzH�Ԁ¤8m��D�N��*HX��D� �2��.�0��k��3t��Ų2�2�222�Z��Rg��F��&��Z��Rc�m��B��D�,A�GV��ݿ��^��SĀ��ٶ��D��bo��`p��\fu��FzJ�Ԁ¤:g��D�P��*Hp��D�"�2��.�n��k��3��Ų2�2�222�Z��Rg��F��&��Zц��Rc�m��D�.A�GV�k��^��SЀ��پ��D��bo��a~��\fLu��FzL�Ԁ¤[��D�T��*H��D�&�2��.��k��4��Ų2�2�222�Z��Rg��F��&��Z�t��Rg�m��z��D�2A�GV�kݿ��^�x��S��̀��D��bo��c��\fTu��FzP�Ԁ¤@U��D�V��*H��D�(�2��.�(��k��5$��Ų2�2�222�Z��Rg��F��&��Z��Rg�m��6��D�4A�GV��R��^��S��Ҁ��D��bo��d��\fXu��FzR�Ԁ¤BO��D�X��*HЀ��D�*�2��.�f��k��5��Ų2�2�222�Z��Rg��F��&��Z�b��Ri�m��D�6A�GV�k쫀��^��T��4��ڀ��D��bo��e��\f[u��FzT�Ԁ¤DI��D�Z��*H��D�,�2��.��k��5��Ų2�2�222�Z��Rg��F��&��Z�׀��Rk�m��D�8A�GV��[��^�6��T��R��D��bo��f��\f�u��FzV�Ԁ¤FC��D�\��*I��D�.�2��.��k��6h��Ų2�2�222�Z��Rg��F��&��Z�M��Rl�m��n��D�:A�GV�k��ݿ��^�v��T��p��D��bo��g��\f�u��FzX�Ԁ¤H=��D�^��*I��D�0�2��.� ��k��6Ԋ��Ų2�2�222�Z��Rg��F��&��Z��Rl�m��.��D�A�GV�k�J��^��T0��D��bo��i��\f�u��Fz\�Ԁ¤L1��D�b��*IH��D�4�2��.��k��7��Ų2�2�222�Z��Rg��F��&��Zհ��Rn�m��D�@A�GV��쫀��^�2��T<��ʆ��D��bo��j��\g1u��Fz^�Ԁ¤N+��D�d��*I`��D�6�2��.��k��8��Ų2�2�222�Z��Rg��F��&��Z�'��Ro�m��f��D�BA�GV�k�J�ݿ��^�r��TH��D��bo��k��\gZu��Fz`�Ԁ¤P%��D�f�� *Ix��D�8�2��.��k��8��Ų2�2�222�Z��Rg��F��&��Z֟��Ro�m��$��D�DA�GV��ݿ��^��TT�� D��bo��l��\g]u��Fzb�Ԁ¤R��D�h��$��*I��D�:�2��.�V��k��8��Ų2�2�222�Z��Rg��F��&��Z��Ro�m��D�FA�GV�k�n��^��T`��$��D��bo��m��\gbu��Fzd�Ԁ¤T��D�j��(��*I��D�<�2��.��k��9\��Ų2�2�222�Z��Rg��F��&��Z׌��Rq�m��D�HA�GV����^�.��Tl��B��D��bo��n��\g�u��Fzf�Ԁ¤V��D�l��,��*I��D�>�2��.��k��9Ȋ��Ų2�2�222�Z��RgĀ��F��&��Z��Rr�m��\��D�JA�GV�k��ݿ��^�n��Tx��`�� D��bo��o��\g�u��Fzh�Ԁ¤X ��D�n��0��*I؀��D�@�2��.��k��:4��Ų2�2�222�Z��Rgƀ��F� �&��Z�w��Rr�m��D�LA�GV��ݿ��^��T��~��&��D��bo��p��\g�u��Fzj�Ԁ¤Z��D�p��4��*I��D�B�2��.�N��k��:��Ų2�2�222�Z��RgȀ��F��&��Z��Rr�m��ր��D�NA�GV�k곀��^��T��.��D��bo��q��\g�u��Fzl�Ԁ¤\��D�r��8��*J��D�D�2��.��k��;��Ų2�2�222�Z��Rgʀ��F��&��Z�d��Rt�m��D�PA�GV��쫀��^�*��T��4��D��bo��r��\h1u��Fzn�Ԁ¤]��D�t��<��*J ��D�F�2��.��k��;x��Ų2�2�222�Z��Rg̀��F��&��Z�܀��Ru�m��R��D�RA�GV�kݿ��^�j��T��؆��<��D��bo��s��\h_u��Fzp�Ԁ¤_��D�v��@��*J8��D�H�2��/��k��;䊋��Ų2�2�222�Z��RgЀ��F��&��Z�R��Ru�m��D�TA�GV��곀��^��T��B��D��bo��tˀ��\hiu��Fzr�Ԁ¤a��D�x��D��*JP��D�J�2��/F��k��k��>��Ų2�2�222�Z��Rgڀ��F��&��Zܦ��Ry�m��D�^A�GV�k�A�ݿ��^��T��f��D��bo��y��\iFu��Fz|�Ԁ¤kр��D��X��*JȀ��D�T�2��/|��k��>l��Ų2�2�222�Z��Rg܀��F��&��Z��Ry�m��D�`A�GV��쫀��^�"��T��l��D��bo��z��\i[u��Fz~�Ԁ¤mˀ��D��\��*J��D�V�2��/��k��>؊��Ų2�2�222�Z��Rgހ��F� �&��Zݕ��R{�m�� >��D�bA�GV�k��^�b��U��Ȇ��t��D��bo��{��\i�u��Fz��Ԁ¤oŀ��D��`��*J��D�X�2��/��k��?D��Ų2�2�222�Z��Rg��F�"�&��Z� ��R|�m�� D�dA�GV��쫀��^��U��z��D��bo��|��\ju��Fz��Ԁ¤q��D��d��*K��D�Z�2��/6��k��?��Ų2�2�222�Z��Rg��F�$�&��Zނ��R}�m��D�fA�GV�k��^��U ��ڂ��D��bo��}��\jYu��Fz��Ԁ¤s��D��h��*K(��D�\�2��/t��k��@��Ų2�2�222�Z��Rg��F�&�&��Z��R~�m��x��D�hA�GV��^� ��U,��"��ڈ��D��bo��~ŀ��\j�u��Fz��Ԁ¤u��D��l��*K@��D�^�2��/��k��@��Ų2�2�222�Z��Rg��F�(�&��Z�n��R�m��4��D�jA�GV�lK�ݿ��^�`��U8��@��ڐ��D��bo��\j�u��Fz��Ԁ¤w��D��p��*KX��D�`�2��/��k��@􊋀�Ų2�2�222�Z��Rg��F�*�&��Z��R�m��D�lA�GV��곀��^��UD��^��ږ��D��bo��À��\j�u��Fz��Ԁ¤y��D��t��*Kp��D�b�2��/.��k��A`��Ų2�2�222�Z��Rg��F�,�&��Z�Y��R��m��D�nA�GV�k��^�ހ��UP��|��ڞ��D��bo��\j�u��Fz��Ԁ¤{��D��x��*K��D�d�2��/l��k��Å��Ų2�2�222�Z��Rg��F�.�&��Z�π��R��m��l��D�pA�GW�쫀��^��U\��ڤ��D��bo��\k;u��Fz��Ԁ¤}��D��|��*K��D�f�2��/��k��B8��Ų2�2�222�Z��Rg��F�0�&��Z�H��R��m��*��D�rA�GWk곀��^�^��Uh��ڬ��D��bo��\k�u��Fz��Ԁ¤��D��*K��D�h�2��/��k��B��Ų2�2�222�Z��Rg��F�2�&��Z��R��m��D�tA�GW�곀��^Þ��Ut��ֆ��ڲ��D��bo��\k�u��Fz��Ԁ¤��D��*KЀ��D�j�2��/&��k��C��Ų2�2�222�Z��Rg��F�4�&��Z�6��R��m��D�vA�GWk��^�ހ��U��ں��D��bo��\l9u��Fz��Ԁ¤��D��*K��D�l�2��/d��k��C|��Ų2�2�222�Z��Rg��F�8�&��Z⭀��R��m��d��D�xA�GW ��R��^��U��D��bo��\l�u��Fz��Ԁ¤��D��*L��D�n�2��/��k��C芋��Ų2�2�222�Z��Rg��F�:�&��Z�#��R��m�� D�zA�GW k�[��^�^��U��0��Ȁ��D��bo��\l�u��Fz��Ԁ¤�}��D��*L��D�p�2��/��k��DT��Ų2�2�222�Z��Rg��F�<�&��Z㖀��R��m��܀��D�|A�GW��^Ğ��U��N��΀��D��bo��\m6u��Fz��Ԁ¤�w��D��*L0��D�r�2��/��k��D��Ų2�2�222�Z��Rh��F�>�&��Z� ��R��m��D�~A�GWk��^�ހ��U��l��ր��D��bo��\m�u��Fz��Ԁ¤�q��D��*LH��D�t�2��/\��k��E,��Ų2�2�222�Z��Rh��F�@�&��Z䃀��R��m��X��D��A�GW��ݿ��^��U��܀��D��bo��\m�u��Fz��Ԁ¤�k��D��*L`��D�v�2��/��k��E��Ų2�2�222�Z��Rh��F�B�&��Z��R��m��D��A�GWk�A�ݿ��^�\��UȀ��D��bo��\m�u��Fz��Ԁ¤�e��D��*Lx��D�x�2��/��k��F��Ų2�2�222�Z��Rh��F�D�&��Z�n��R��m��Ҁ��D��A�GW�T��^Ś��UԀ��Ɔ��D��bo��\m�u��Fz��Ԁ¤�_��D��*L��D�z�2��/��k��Fp��Ų2�2�222�Z��Rh��F�F�&��Z��R��m��D��A�GWk곀��^�ڀ��U��D��bo��\nu��Fz��Ԁ¤�Y��D��*L��D�|�2��/T��k��F܊��Ų2�2�222�Z��Rh ��F�H�&��Z�Z��R��m��P��D��A�GW��^��U��D�bo��\nTu��Fz��Ԁ¤�S��D��*L��D�~�2��/��k��GH��Ų2�2�222�Z��Rh��F�J�&��Z�Ѐ��R��m��D��A�GW!k��^�\��U�� D�bo��\n�u��Fz��Ԁ¤�M��D��*L؀��D��2��/��k��G��Ų2�2�222�Z��Rh��F�L�&��Z�F��R��m��ʀ��D��A�GW#�쫀��^Ɯ��V��>��D�bo��\n�u��Fz��Ԁ¤�G��D��*L��D��2��/��k��H ��Ų2�2�222�Z��Rh��F�N�&��Z绀��R��m��D��A�GW&kݿ��^�܀��V��\��D�bo��\o4u��Fz��Ԁ¤�A��D��*M��D��2��/L��k��H��Ų2�2�222�Z��Rh��F�R�&��Z�)��R��m��D��D��A�GW(�ݿ��^��V��z��D�bo��\o9u��Fz��Ԁ¤�;��D��*M ��D��2��/��k��H��Ų2�2�222�Z��Rh��F�T�&��Z裀��R��m��D��A�GW+k��ݿ��^�X��V(��D� bo��\o>u��Fz��Ԁ¤�5��D��*M8��D��2��/��k��Id��Ų2�2�222�Z��Rh��F�V�&��Z��R��m��D��A�GW-��ݿ��^ǖ��V4��"��D�bo��\oBu��Fz��Ԁ¤�/��D��Ā��*MP��D��2��/��k��IЊ��Ų2�2�222�Z��Rh��F�X�&��Z鐀��R��m�� ~��D��A�GW0k��ݿ��^�Ԁ��V@��Ԇ��*��D�bo��\oGu��Fz��Ԁ¤�)��D��Ȁ��*Mh��D��2��/D��k��J<��Ų2�2�222�Z��Rh��F�Z�&��Z��R��m��!8��D��A�GW2��[�ݿ��^��VL��0��D�bo��~��\o]u��Fz��Ԁ¤�#��D��̀��*M��D��2��/��k��J��Ų2�2�222�Z��Rh��F�\�&��Z�|��R��m��!��D��A�GW5k��ݿ��^�P��VX��8��D�bo��\o�u��Fz��Ԁ¤��D��Ѐ��*M��D��2��/��k��K��Ų2�2�222�Z��Rh��F�^�&��Z��R��m��"��D��A�GW7��J�ݿ��^Ȏ��Vd��.��>��D�bo��\o�u��Fz��Ԁ¤��D��Ԁ��*M��D��2��/��k��K��Ų2�2�222�Z��Rh ��F�`�&��Z�i��R��m��#r��D��A�GW:k��^�̀��Vp��L��F��D�bo��\pFu��Fz��Ԁ¤��D��؀��*MȀ��D��2��/ <��k��K슋��Ų2�2�222�Z��Rh"��F�b�&��Z�Ӏ��R��m��$0��D��A�GW<�ݿ��^��V|��j��L��D�bo��\pXu��Fz��Ԁ¤��D�Ā��܀��*M��D��2��/ z��k��LX��Ų2�2�222�Z��Rh$��F�d�&��Z�-��R��m��$��D��A�GW?k�J�ݿ��^�P��V��T��D�bo��\p[u��Fz��Ԁ¤��D�ƀ��*M��D��2��/ ��k��LĊ��Ų2�2�222�[��Rh*��F�f�&��Z�~��R��m��%��D��A�GWA��ݿ��^Ɏ��V��Z��D�bo��\p[u��FzԀ¤��D�Ȁ��*N��D��2��/ ��k��M0��Ų2�2�222�[��Rh,��F�h�&��Z�׀��R��m��&j��D��A�GWDk�J��^�ʀ��V��Ć��b��D�bo��r��\p^u��FzĜԀ¤��D�ʀ��*N(��D��2��/ 4��k��M��Ų2�2�222�[��Rh.��F�l�&��Z�2��R��m��'(��D��A�GWF��ݿ��^� ��V��h��D� bo��\pau��FzƜԀ¤��D�̀��*N@��D��2��/ r��k��N��Ų2�2�222�[��Rh0��F�n�&��Z튀��R��m��'��D��A�GWIk�R�ݿ��^�H��V��p��D�"bo��\peu��FzȜԀ¤��D�΀��*NX��D��2��/ ��k��Nt��Ų2�2�222�[��Rh2��F�p�&��Z��R��m��(��D��A�GWK��ݿ��^ʆ��VĀ��v��D�$bo��\pgu��FzʜԀ¤��D�Ѐ��*Np��D��2��/ ��k��N��Ų2�2�222�[��Rh4��F�r�&��Z�B��R��m��)^��D��A�GWNk쫀ݿ��^�Ā��VЀ��<��~��D�&bo��\pgu��Fz̜Ԁ¤��D�Ҁ��*N��D��2��/,��k��OL��Ų2�2�222�[��Rh6��F�t�&��Z��R��m��*��D��A�GWP��R�ݿ��^��V܀��Z��ۄ��D�(bo��m��\pnu��FzΜԀ¤�ۀ��D�Ԁ��*N��D��2��/j��k��O��Ų2�2�222�[��Rh8��F�v�&��Z�Հ��R��m��*ڀ��D��A�GWSk��ݿ��^�@��V��x��ی��D�*bo��a��\pnu��FzМԀ¤�Հ��D�ր��*N��D��2��/��k��P$��Ų2�2�222�[��Rh:��F�x�&��Z�2��R��m��+��D��A�GWU�ݿ��^�|��V��ے��D�,bo��s��\pru��FzҜԀ¤�π��D�؀��*NЀ��D��2��/��k��P��Ų2�2�222�[��Rh<��F�z�&��Z��R��m��,V��D��A�GWXk�[�ݿ��^˼��W��ۚ��D�.bo��_��\p�u��FzԜԀ¤�ɀ��D�ڀ��*N��D��2��/$��k��P��Ų2�2�222�[��Rh>��F�|�&��Z��R��m��-��D��A�GWZ��ݿ��^��W��҆��۠��D�0bo��W��\p�u��Fz֜Ԁ¤�À��D�܀��*O��D��2��/b��k��Qh��Ų2�2�222�[��Rh@��F�~�&��Z�C��R��m��-Ѐ��D��A�GW]k�[�ݿ��^�8��W��ۨ��D�2bo��c��\qu��Fz؜Ԁ¤ƽ��D�ހ��*O��D��2��/��k��QԊ��Ų2�2�222�[��RhD��Fʀ�&��Z��R��m��.��D��A�GW_���^�t��W$��ۮ��D�4bo��W��\q.u��FzڜԀ¤ȷ��D��*O0��D��2��/��k��R@��Ų2�2�222�[��RhF��Fʂ�&��Z��R��m��/J��D��A�GWbk��ݿ��^̺��W0��,��۶��D�6bo��\qQu��FzܜԀ¤ʱ��D��*OH��D��2��/ ��k��R��Ų2�2�222�[��RhJ��Fʆ�&��Z�3��R��m��0��D��A�GWd��[�ݿ��^��W<��J��ۼ��D�8bo��\qTu��FzޜԀ¤̫��D��*O`��D��2��/ Z��k��S��Ų2�2�222�[��RhL��Fʈ�&��Z��R��m��0ƀ��D��A�GWgk��ݿ��^�6��WH��h��Ā��D�:bo��\qWu��Fz��Ԁ¤Υ��D�� *Ox��D��2��/ ��k��S��Ų2�2�222�[��RhN��Fʊ�&��Z��R��m��1��D��A�GWi���^�t��WT��ʀ��D�bo��\q]u��Fz�Ԁ¤ҙ��D��(��*O��D��2��/��k��T\��Ų2�2�222�[��RhR��Fʎ�&��Z��R��m��2��D��A�GWn�쫀ݿ��^��Wl��؀��D�@bo��\q_u��Fz�Ԁ¤ԓ��D��,��*O��D��2��/R��k��TȊ��Ų2�2�222�[��RhT��Fʐ�&��Z��R��m��3��D��A�GWqk��ݿ��^�0��Wx��D�Bbo��\qdu��Fz�Ԁ¤֍��D��0��*OԀ��D��2��/��k��U2��Ų2�2�222�[��RhV��Fʒ�&��Z�"��R��m��4z��D��A�GWs��ݿ��^�n��W��D�Dbo��\qdu��Fz�Ԁ¤؇��D��4��*O��D�2��/��k��U��Ų2�2�222�[��RhX��Fʔ�&��Z�Z��R��m��56��D��A�GWvk�J�ݿ��^Ϊ��W��D�Fbo��\qhu��Fz�Ԁ¤ځ��D��8��*P��D�Ć2��/��k��V��Ų2�2�222�[��RhZ��Fʖ�&��Z��R��m��5��D��A�GWx�ݿ��^��W��:��D�Hbo��s��\qju��Fz�Ԁ¤�{��D��<��*P ��D�Ɔ2��/J��k��Vx��Ų2�2�222�[��Rh\��Fʘ�&��Z��R��m��6��D��A�GW{k쫀ݿ��^�&��W��X��D�Jbo��{��\qnu��Fz�Ԁ¤�u��D��@��*P8��D�Ȇ2��/��k��V䊋��Ų2�2�222�[��Rh^��Fʚ�&��Z�u��R��m��7n��D��A�GW}��ݿ��^�d��W��v��D�Lbo��{��\q�u��Fz�Ԁ¤�o��D��D��*PP��D�ʆ2��/��k��WP��Ų2�2�222�[��Rhb��Fʜ�&��Z��R��m��8,��D��A�GW�k��ݿ��^Ϣ��W�� D�Nbo��\q�u��Fz��Ԁ¤�i��D��H��*Ph��D�̆2��/��k��W��Ų2�2�222�[��Rhf��Fʞ�&��Z��R��m��8��D��A�GW��ݿ��^��W΀��D�Pbo��\rcu��Fz��Ԁ¤�c��D��L��*P��D�Ά2��/B��k��X(��Ų2�2�222�[��Rhj��Fʠ�&��Z�j��R��m��9��D��A�GW�k쫀��^��Wڀ��І��D�Rbo��\s�u��Fz��Ԁ¤�]��D��P��*P��D�І2��/��k��X��Ų2�2�222�[��Rhl��Fʢ�&��Z��R��m��:f��D��A�GW��A�ݿ��^�d��W��D�Tbo��Ā��\s�u��Fz��Ԁ¤�W��D��T��*P��D�҆2��/��k��Y��Ų2�2�222�[��Rhn��Fʦ�&��Z��R��m��;"��D��A�GW�k��ݿ��^Т��W��&��D�Vbo��ʀ��\s�u��Fz��Ԁ¤�Q��D��X��*PȀ��D�Ԇ2��/��k��Yl��Ų2�2�222�[��Rhp��Fʨ�&��Z�w��R��m��;��D��A�GW��[�ݿ��^��W��*��,��D�Xbo��\s�u��Fz��Ԁ¤�K��D��\��*P��D�ֆ2��/:��k��Y؊��Ų2�2�222�[��Rhr��Fʪ�&��Z�Ҁ��R��m��<��D��A�GW�k��^��X ��H��4��D�Zbo��\s�u��F{�Ԁ¤�E��D��`��*P��D�؆2��/x��k��ZD��Ų2�2�222�[��Rht��Fʬ�&��Z�,��R��m��=Z��D��A�GW��ݿ��^�\��X��f��:��D�\bo��\s�u��F{�Ԁ¤�?��D��d��*Q��D�چ2��/��k��Z��Ų2�2�222�[��Rhv��Fʮ�&��Z��R��m��>��D��A�GW�k�[�ݿ��^њ��X"��B��D�^bo��\s�u��F{�Ԁ¤�9��D� ��h��*Q(��D�܆2��/��k��[��Ų2�2�222�[��Rhx��Fʰ�&��Z��R��m��>؀��D��A�GW��ݿ��^�؀��X.��H��D�`bo��\s�u��F{�Ԁ¤�3��D��l��*Q@��D�ކ2��/2��k��[��Ų2�2�222�[��Rhz��Fʲ�&��Z�=��R��m��?��D��A�GW�k��ݿ��^��X:��P��D�bbo��\s�u��F{�Ԁ¤�-��D��p��*QX��D��2��/p��k��[􊋀�Ų2�2�222�[��Rh|��Fʴ�&��Z��R��m��@R��D��A�GW��쫀ݿ��^�R��XF��ކ��V��D�dbo��\s�u��F{ �Ԁ¤�'��D��t��*Qp��D��2��/��k��\`��Ų2�2�222�[��Rh~��Fʶ�&��Z��R��m��A��D��A�GW�k�ݿ��^Ґ��XR��^��D�fbo��\s�u��F{�Ԁ¤�!��D��x��*Q��D��2��/��k��\̊��Ų2�2�222�[��Rh��Fʸ�&��Z�(��R��m��AȀ��D��A�GW��Ϳ��^�΀��X^��d��D�hbo��ŀ��\s�u��F{�Ԁ¤��D��|��*Q��D��2��/*��k��]8��Ų2�2�222�[��Rh��Fʺ�&��Z�(��R��m��B��D��A�GW�kݿ��^��Xj��8��l��D�jbo��߀��\s�u��F{�Ԁ¤��D��*Q��D��2��/h��k��]��Ų2�2�222�[��Rh��Fʼ�&��Z��R��m��C��D��A�GW��A�ݿ��^�J��Xv��V��r��D�lbo��\t-u��F{�Ԁ¥��D��*QЀ��D��2��/��k��^��Ų2�2�222�[��Rh��Fʾ�&��Z� ��R��m��D��D��A�GW�k��ݿ��^ӈ��X��t��z��D�nbo��\tvu��F{�Ԁ¥ ��D��*Q��D��2��/��k��^|��Ų2�2�222�[��Rh��F��&��Z�z��R��m��DĀ��D��A�GW��^�ƀ��X��܀��D�pbo��\t�u��F{�Ԁ¥��D��*R��D��2��/"��k��^芋��Ų2�2�222�[��Rh��F�&��Z�߀��R��m��E��D��A�GW�k��ݿ��^� ��X��܈��D�rbo��\uu��F{�Ԁ¥��D��*R��D��2��/`��k��_T��Ų2�2�222�[��Rh��F�Ą&��Z�:��R��m��FB��D��A�GW��T�ݿ��^�H��X��Ά��܎��D�tbo��\uu��F{�Ԁ¥��D� ��*R0��D��2��/��k��_��Ų2�2�222�[��Rh��F�Ƅ&��Z��R��m��F��D��A�GW�k쫀ݿ��^Ԇ��X��ܖ��D�vbo��\uu��F{�Ԁ¥ ��D�"��*RH��D��2��/��k��`,��Ų2�2�222�[��Rh��F�Ȅ&��Z��R��m��G��D�A�GW��^�Ā��X�� ܜ��D�xbo��\u u��F{�Ԁ¥��D�$��*R`��D��2��/��k��`��Ų2�2�222�[��Rh��F�̄&��Z�N��R��m��Hz��D�A�GW�k�R��^� ��Xʀ��(��ܤ��D�zbo��\u u��F{ �Ԁ¥ ��D�&��*Rx��D��2��/X��k��a��Ų2�2�222�[��Rh��F�΄&��Z��R��m��I8��D�A�GW��[�ݿ��^�J��Xր��F��ܪ��D�|bo��\u'u��F{"�Ԁ¥߀��D�(��*R��D��2��/��k��ap��Ų2�2�222�[��Rh��F�Є&��Z��R��m��I��D�A�GW�k�A�ݿ��^Ո��X��d��ܲ��D�~bo��܀��\u*u��F{$�Ԁ¥ـ��D�*��*R��D��2��/��k��a܊��Ų2�2�222�[��Rh��F�҄&��Z�L��R��m��J��D�A�GW��ݿ��^�ƀ��X��ܸ��D��bo��\u.u��F{&�Ԁ¥Ӏ��D�,��*R��D��2��/��k��bF��Ų2�2�222�[��Rh��F�Ԅ&��Z��R��m��Kj��D� A�GW�k쫀ݿ��^��X��D��bo��\u0u��F{(�Ԁ¥̀��D�.��*R؀��D��2��/P��k��b��Ų2�2�222�[��Rh��F�ք&��Z�̀��R��m��L.��D�A�GW��ݿ��^�B��Y��ƀ��D��bo��\u3u��F{*�Ԁ¥ǀ��D�0��*R��D��2��/��k��c ��Ų2�2�222�[��Rh��F�؄&��Z�)��R��m��L��D�A�GW�k��ݿ��^ր��Y��܆��΀��D��bo�� \u3u��F{,�Ԁ¥��D�2��*S��D��2��/��k��c��Ų2�2�222�[��Rh��F�ڄ&��Z�{��R��m��M��D�A�GW��ݿ��^ּ��Y��Ԁ��D��bo�� \u8u��F{.�Ԁ¥��D�4��*S ��D��2��/ ��k��c��Ų2�2�222�[��Rh��F�܄&��Z�À��R��m��Nf��D�A�GW�kݿ��^��Y*��܀��D��bo��\uNu��F{0�Ԁ¥��D�6��*S8��D��2��/H��k��dd��Ų2�2�222�[��Rh��F�ބ&��Z�"��R��m��O$��D�A�GW��곀ݿ��^�:��Y6��6��D��bo��\u�u��F{2�Ԁ¥��D�8��Ā��*SP��D� �2��/��k��dЊ��Ų2�2�222�[��Rh��F��&��Z�}��R��m��O��D�A�GW�k��ݿ��^�x��YB��T��D��bo��\u�u��F{4�Ԁ¥!��D�:��Ȁ��*Sh��D��2��/��k��e<��Ų2�2�222�[��Rh��F��&��Z�؀��R��m��P��D�A�GW����^׶��YN��r��D��bo��\u�u��F{6�Ԁ¥#��D�<��̀��*S��D��2��/��k��e��Ų2�2�222�[��Rh��F��&��[3��R��m��Q\��D�A�GW�k�J�ݿ��^��YZ��D��bo��-��\vu��F{8�Ԁ¥%��D�>��Ѐ��*S��D��2��/@��k��f��Ų2�2�222�[��Rh��F��&��[��R��m��R��D�A�GW��ݿ��^�:��Yf��D��bo��\vu��F{:�Ԁ¥'��D�@��Ԁ��*S��D��2��/~��k��f��Ų2�2�222�[��Rh��F��&��[��R��m��Rր��D�A�GW�k�ݿ��^�x��Yr��̆��D��bo��\vu��F{<�Ԁ¥)��D�B��؀��*SȀ��D��2��/��k��f슋��Ų2�2�222�[��Rh��F��&��[@��R��m��S��D� A�GW��R��^ش��Y~��D��bo��\v u��F{>�Ԁ¥+��D�D��܀��*S��D��2��/��k��gX��Ų2�2�222�[��Rh��F��&��[��R��m��TR��D�"A�GW�k쫀ݿ��^��Y��D��bo��3��\v#u��F{@�Ԁ¥-��D�F��*S��D��2��/8��k��gĊ��Ų2�2�222�[��Rh��F��&��[��R��m��U��D�$A�GW��ݿ��^�2��Y��&��D��bo��_��\v&u��F{B�Ԁ¥/��D�H��*T��D��2��/v��k��h0��Ų2�2�222�[��RhȀ��F��&��[$��R��m��Ù��D�&A�GW�k곀ݿ��^�p��Y��D��"��D��bo��g��\v*u��F{D�Ԁ¥1y��D�J��*T(��D��2��/��k��h��Ų2�2�222�[��Rh̀��F��&��[p��R��m��V��D�(A�GW��^ٮ��Y��b��(��D��bo��o��\v-u��F{F�Ԁ¥3s��D�L��*T@��D��2��/��k��i��Ų2�2�222�[��Rh΀��F��&��[ˀ��R��m��WH��D�*A�GW�k쫀ݿ��^��Y��0��D��bo��\v0u��F{H�Ԁ¥5m��D�N��*TX��D� �2��/0��k��it��Ų2�2�222�[��RhЀ��F��&��[%��R��m��X��D�,A�GW��ݿ��^�,��Yƀ��6��D��bo��{��\v3u��F{J�Ԁ¥7g��D�P��*Tp��D�"�2��/n��k��i��Ų2�2�222�[��RhҀ��F��&��[��R��m��X��D�.A�GW�k��ݿ��^�j��YҀ��>��D��bo��t��\v3u��F{L�Ԁ¥9a��D�R��*T��D�$�2��/��k��jL��Ų2�2�222�[��RhԀ��F��&��[׀��R��m��Y��D�0A�GW��:��^ڨ��Yހ��چ��D��D��bo��n��\v6u��F{N�Ԁ¥;[��D�T��*T��D�&�2��/��k��j��Ų2�2�222�[��Rhր��F��&��[2��R��m��Z>��D�2A�GW�k�[�ݿ��^��Y��L��D��bo��z��\v:u��F{P�Ԁ¥=U��D�V��*T��D�(�2��/(��k��k$��Ų2�2�222�[��Rh؀��F��&��[��R��m��Z��D�4A�GW��J�ݿ��^�$��Y��T��D��bo��兀��\vu��F{Z�Ԁ¥AI��D�Z��*T��D�,�3��/��l��k��ɲ2�2�222�[��Rh��F��&��[)��R��m��\v��D�8A�GW��ݿ��^۠��Z��U��b��D��bo��\vBu��F{^�Ԁ¥CC��D�\��*U��D�.�3��/��l��lj��˲2�2�222�[��Rh��F��&��[��R��m��]6��D�:A�GW�k��ݿ��^�ހ��Z��s��j��D��bo��\vFu��F{`�Ԁ¥E=��D�^��*U��D�0�3��/(��l��l֊��Ͳ2�2�222�[��Rh��F� �'��[��R��m��]��D�A�GXk�J�ݿ��^�Z��Z4��z��D��bo��I��\v�u��F{d�Ԁ¥I1��D�b��*UH��D�4�3��/��l��m��Ͳ2�2�222�[��Rh��F��'��[��R��n��_p��D�@A�GX��R�ݿ��^ܘ��ZB��͆��݀��D��bo��K��\v�u��F{f�Ԁ¥K+��D�d��*U`��D�6�4��/��l��n��Ͳ2�2�222�[��Rh��F��'��[b��R��n��`.��D�BA�GXk�R�ݿ��^�ր��ZN��݈��D��bo��G��\w/u��F{h�Ԁ¥M%��D�f�� *Ux��D�8�4��/"��l��n��Ͳ2�2�222�[��Rh��F��'��[؀��R��n��`��D�DA�GX ��^��ZZ�� ݎ��D��bo��a��\w/u��F{j�Ԁ¥O��D�h��$��*U��D�:�4��/`��l��n􊏀�Ͳ2�2�222�[��Rh��F��'��[Q��R��n��a��D�FA�GXk쫀ݿ��^�X��Zf��'��ݖ��D��bo��h��\wiu��F{l�Ԁ¥Q��D�j��(��*U��D�<�4��/��l��o`��Ͳ2�2�222�[��Rh��F��'��[Ȁ��R��n��bd��D�HA�GX��ݿ��^ݖ��Zr��E��ݜ��D��bo��t��\wmu��F{n�Ԁ¥S��D�l��,��*U��D�>�4��/��l��o̊��Ͳ2�2�222�[��Rh��F��'��[ >��R��n��c$��D�JA�GXk��^�Ԁ��Z~��c��ݤ��D��bo��\wru��F{p�Ԁ¥U ��D�n��0��*U؀��D�@�4��/��l��p8��Ͳ2�2�222�[��Rh��F��'��[ ��R��n��c��D�LA�GX��[�ݿ��^��Z��ݪ��D��bo��o��\wwu��F{r�Ԁ¥W��D�p��4��*U��D�B�4��/X��l��p��Ͳ2�2�222�[��Rh��F��'��[ ,��R��n��d��D�NA�GXk�R�ݿ��^�R��Z��ݲ��D��bo��o��\w{u��F{t�Ԁ¥Y��D�r��8��*V��D�D�4��/��l��q��Ͳ2�2�222�[��Rh��F��'��[ ��R��n��e\��D�PA�GX��ݿ��^ސ��Z��ݸ��D��bo��\w�u��F{v�Ԁ¥Z��D�t��<��*V ��D�F�4��/��l��q|��Ͳ2�2�222�[��Rh��F� �'��[��R��n��f��D�RA�GXk��ݿ��^�΀��Z��ۆ��D��bo��\w�u��F{x�Ԁ¥\��D�v��@��*V8��D�H�4��/��l��q芏��Ͳ2�2�222�[��Rh��F�"�'��[��R��n��fր��D�TA�GX��[�ݿ��^��Z��ƀ��D��bo��\w�u��F{z�Ԁ¥^��D�x��D��*VP��D�J�4��/R��l��rT��Ͳ2�2�222�[��Ri��F�(�'��[��R��n��g��D�VA�GX k��ݿ��^�J��Zƀ��΀��D��bo��!��\w�u��F{|�Ԁ¥`��D�z��H��*Vh��D�L�4��/��l��r��Ͳ2�2�222�[��Ri��F�*�'��[V��R��n��h,��D�XA�GX"��[�ݿ��^߈��ZҀ��5��Ԁ��D��bo��=��\w�u��F{~�Ԁ¥b��D�|��L��*V��D�N�4��/��l��s,��Ͳ2�2�222�[��Ri��F�,�'��[��R��n��i��D�ZA�GX%k�J�ݿ��^�ƀ��Zހ��S��܀��D��bo��c��\xu��F{��Ԁ¥d݀��D�~��P��*V��D�P�4��/ ��l��s��Ͳ2�2�222�[��Ri��F�.�'��[݀��R��n��iЀ��D�\A�GX'�곀ݿ��^��Z��q��D��bo��v��\xEu��F{��Ԁ¥f׀��D��T��*V��D�R�4��/ L��l��t��Ͳ2�2�222�[��Ri��F�0�'��[ !��R��n��j��D�^A�GX*k곀��^�B��Z��D��bo��\xeu��F{��Ԁ¥hр��D��X��*VȀ��D�T�4��/ ��l��tp��Ͳ2�2�222�[��Ri��F�2�'��[ !��R��n��kL��D�`A�GX,�'��^��[��D��bo��\xnu��F{��Ԁ¥jˀ��D��\��*V��D�V�4��/ ��l��t܊��Ͳ2�2�222�[��Ri��F�4�'��[ ��R��n��kЀ��D�bA�GX/k쫀��^�ʀ��[��ˆ��D��bo��6��\x�u��F{��Ԁ¥lŀ��D��`��*V��D�X�4��/!��l��uH��Ͳ2�2�222�[��Ri"��F�6�'��[ ��R��n��lĀ��D�dA�GX1��ݿ��^��[��D��bo��c��\x�u��F{��Ԁ¥n��D��d��*W��D�Z�4��/!D��l��u��Ͳ2�2�222�[��Ri(��F�8�'��[ ؀��R��n��m��D�fA�GX4k��ݿ��^�H��[&��D��bo��\x�u��F{��Ԁ¥p��D��h��*W(��D�\�4��/!��l��v ��Ͳ2�2�222�[��Ri*��F�:�'��[ ��R��n��nB��D�hA�GX6��[�ݿ��^ᆀ��[2��%��D��bo��\x�u��F{��Ԁ¥r��D��l��*W@��D�^�4��/!��l��v��Ͳ2�2�222�[��Ri.��F�<�'��[S��R��n��o��D�jA�GX9k�R�ݿ��^�Ā��[>��C��D��bo��\x�u��F{��Ԁ¥t��D��p��*WX��D�`�4��/!��l��v��Ͳ2�2�222�[��Ri0��F�>�'��[��R��n��oƀ��D�lA�GX;��^��[J��a��D��bo��\x�u��F{��Ԁ¥v��D��t��*Wp��D�b�4��/"<��l��wd��Ͳ2�2�222�[��Ri2��F�@�'��[��R��n��p��D�nA�GX>k��ſ��^�@��[V��$��D��bo��ƀ��\x�u��F{��Ԁ¥x��D��x��*W��D�d�4��/"z��l��wЊ��Ͳ2�2�222�[��Ri:��F�@�'��[��R��n��q@��D�pA�GX@��[�ݿ��^�~��[f��*��D��bo��\x�u��F{��Ԁ¥z��D��~��*W��D�h�4��/"��m��x@��Ѳ2�2�222�[��Ri<��F�F�'��[@��R��n��q��D�tA�GXCkݿ��^⾀��[r��2��D��bo��1��\x�u��F{��Ԁ¥|��D��*W��D�j�4��/"��m��x��Ѳ2�2�222�[��RiB��F�H�'��[X��R��o��r��D�vA�GXE��Ϳ��^��[~��ن��8��D��bo�� s��\x�u��F{��Ԁ¥~��D��*WҀ��D�l�4��/#6��m��y��Ѳ2�2�222�[��RiD��F�J�'��[X��R��o��s^��D�xA�GXHk�R�ݿ��^�6��[��@��D��bo�� \x�u��F{��Ԁ¥��D��*W��D�n�4��/#t��m��y��Ѳ2�2�222�[��RiJ��F�L�'��[��R��o��s��D�zA�GXJ��ݿ��^�t��[��F��D��bo��ʀ��\x�u��F{��Ԁ¥��D��*X��D�p�4��/#��m��y򊐀�Ѳ2�2�222�[��RiN��F�N�'��[��R��o��tҀ��D�|A�GXMlU�ݿ��^㲀��[��3��N��D��bo��ހ��\x�u��F{��Ԁ¥�~��D��*X��D�r�4��/#��m��z^��Ѳ2�2�222�[��RiP��F�P�'��[��R��o��u��D�~A�GXO�쫀��^��[��Q��T��D��bo�� \x�u��F{��Ԁ¥�x��D��*X2��D�t�4��/$.��m��zʊ��Ѳ2�2�222�[��RiR��F�R�'��[e��R��o��vx��D��A�GXRk�A��^�2��[��o��\��D��bo��π��\x�u��F{��Ԁ¥�r��D��*XJ��D�v�4��/$l��m��{6��Ѳ2�2�222�[��RiT��F�T�'��[��R��o��w6��D��A�GXT��[�ݿ��^�v��[Ȁ��b��D��bo��\x�u��F{��Ԁ¥�l��D��*Xb��D�x�4��/$��m��{��Ѳ2�2�222�[��RiV��F�V�'��[��R��o��w��D��A�GXWk��ݿ��^䴀��[Ԁ��j��D��bo��؀��\x�u��F{��Ԁ¥�f��D��*Xz��D�z�4��/$��m��|��Ѳ2�2�222�[��RiX��F�X�'��[}��R��o��x��D��A�GXY�쫀ݿ��^��[��Ɇ��p��D��bo��\x�u��F{��Ԁ¥�`��D��*X��D�|�4��/%&��m��|z��Ѳ2�2�222�[��RiZ��F�Z�'��[ހ��R��o��yn��D��A�GX\k�[�ݿ��^�0��[��x��D�bo��݀��\x�u��F{��Ԁ¥�Z��D��*X��D�~�4��/%d��m��|抐��Ѳ2�2�222�[��Ri\��F�\�'��[>��R��o��z.��D��A�GX^��^�n��[��~��D�bo��\x�u��F{��Ԁ¥�T��D��*X��D��4��/%��m��}R��Ѳ2�2�222�[��Ri\��F�^�'��[O��R��o��z��D��A�GXak쫀��^嬀��\��#��ކ��D�bo��K��\x�u��F{��Ԁ¥�N��D��*Xڀ��D��4��/%��m��}��Ѳ2�2�222�[��Rih��F�`�'��[��R��o��{��D��A�GXc��R��^��\��A��ތ��D�bo��\yu��F{��Ԁ¥�H��D��*X��D��4��/&��m��~*��Ѳ2�2�222�[��Rin��F�b�'��[ǀ��R��o��|d��D��A�GXfk��^�.��\��_��ޔ��D�bo��\yu��F{��Ԁ¥�B��D��*Y ��D��4��/&\��m��~��Ѳ2�2�222�[��Rin��F�b�'��[ǀ��R��o��}$��D��A�GXh��^�f��\*��}��ޚ��D� bo��\y>u��F{��Ԁ¥�<��D��*Y"��D��4��/&��m��Ѳ2�2�222�[��Riv��F�f�'��[!��R��o��}��D��A�GXklM�տ��^檀��\6��ޢ��D�bo��\y>u��F{��Ԁ¥�6��D��*Y:��D��4��/&��m��n��Ѳ2�2�222�[��Ri|��F�f�'��[9��R��o��~��D��A�GXm��^��\B��ި��D�bo��\y\u��F{��Ԁ¥�0��D��ƀ��*YR��D��4��/'��m��ڊ��Ѳ2�2�222�[��Ri~��F�j�'��[X��R��o��~��D��A�GXpk쫀��^�(��\N��׆��ް��D�bo��$��\ytu��F{��Ԁ¥�*��D��ʀ��*Yj��D��4��/'T��m��F��Ѳ2�2�222�[��Ri��F�l�'��[��R��o��$��D��A�GXr��[��^�h��\Z��޶��D�bo��0��\y�u��F{Ԁ¥�$��D��΀��*Y��D��4��/'��m��Ѳ2�2�222�[��Ri��F�n�'��[��R��o��D��A�GXuk�R��^礀��\f��޾��D�bo��8��\y�u��F{ĜԀ¥��D��Ҁ��*Y��D��4��/'��m��Ѳ2�2�222�[��Ri��F�p�'��[��R��o��Z��D��A�GXw��ݿ��^��\r��1��Ā��D�bo��k��\y�u��F{ƜԀ¥��D��ր��*Y��D��4��/(��m��Ѳ2�2�222�[��Ri��F�t�'��[M��R��o��V��D��A�GXzk��ݿ��^�$��\~��O��̀��D�bo�� \y�u��F{ȜԀ¥��D�Ā��ڀ��*Yʀ��D��4��/(L��m��Ѳ2�2�222�[��Ri��F�v�'��[��R��o��D��A�GX|��ݿ��^�b��\��m��Ҁ��D�bo��!m��\zu��F{ʜԀ¥��D�ƀ��ހ��*Yހ��D��4��/(��m��`��Ѳ2�2�222�[��Ri��F�x�'��[��R��o��؀��D��A�GXl��ݿ��^蠀��\��܀��D�bo��"��\zu��F{МԀ¥��D�ʀ��*Y��D��4��/(��n��Ҋ��ղ2�2�222�[��Ri��F�|�'��[!��R��o��D��A�GX��R�ſ��^��\��D� bo��#��\zu��F{ҜԀ¥��D�̀��*Z��D��4��/)��n��>��ղ2�2�222�[��Ri��F�|�'��[!��R��o��T��D��A�GX�k��ſ��^��\��ǆ��D�"bo��%��\zu��F{ԜԀ¥��D�΀��*Z,��D��4��/)F��n��ղ2�2�222�[��Ri��F�|�'��[!��R��p��D��A�GX��/��ݿ��^�R��\��D�$bo��&-��\zu��F{֜Ԁ¥��D�Ѐ��*ZD��D��4��/)��n��ղ2�2�222�[��Ri��F˂�'��[v��R��p��Ҁ��D��A�GX�k�[�ݿ��^销��\̀��D�&bo��'s��\zu��F{؜Ԁ¥��D�Ҁ��*Z\��D��4��/)��n��ղ2�2�222�[��Ri��F˄�'��[��R��p��B��D��A�GX��[�տ��^�Ҁ��\ڀ��!��D�(bo��(w��\z u��F{ڜԀ¥��D�Ԁ��*Zt��D��4��/*��n��򊑀�ղ2�2�222�[��Ri��F˄�(��[̀��R��p��N��D��A�GX�k�J�ݿ��^��\��?��D�*bo��)��\zu��F{ܜԀ¥��D�ր��*Z��D��4��/*>��n��^��ղ2�2�222�[��Ri��Fˈ�(��[��R��p��D��A�GX��տ��^�N��\��]��D�,bo��*ـ��\zu��F{ޜԀ¥�݀��D�؀��*Z��D��4��/*|��n��ʊ��ղ2�2�222�[��Ri��Fˈ�(��[��R��p��D��A�GX�k��ݿ��^ꈀ��\��{��D�.bo��, ��\zu��F{��Ԁ¥�׀��D�ڀ��*Z��D��4��/*��n��6��ղ2�2�222�[��Ri��Fˌ�(��[-��R��p��4��D��A�GX��ݿ��^�Ȁ��] ��D�0bo��-'��\zu��F{�Ԁ¥�р��D�܀��*ZԀ��D��4��/*��n��ղ2�2�222�[��Ri��Fˎ�(��[6��R��p��D��A�GX�k��Ϳ��^��]��"��D�2bo��.S��\zu��F{�Ԁ¥�ˀ��D�ހ��*Z��D��4��/+6��n��ղ2�2�222�[��Ri��Fː�(��[6��R��p��܀��D��A�GX��쫀ݿ��^�>��]"��Ն��(��D�4bo��/i��\zu��F{�Ԁ¥�ŀ��D��*[��D��4��/+t��n��z��ղ2�2�222�[��RiĀ��F˒�(��[e��R��p��p��D��A�GX�k�ݿ��^�|��].��0��D�6bo��0��\zu��F{�Ԁ¥ÿ��D��*[��D��4��/+��n��抑��ղ2�2�222�[��Riƀ��F˔�(��[��R��p��@��D��A�GX��輀ݿ��^븀��]:��:��D�bo��2��\z=u��F{�Ԁ¥ǵ��D�� *[P��D��4��/,2��o��۲2�2�222�[��Ri؀��F˜�(��[߀��R��p��D��A�GX��R�ݿ��^�8��]Z��M��H��D�@bo��4*��\zyu��F{��Ԁ¥ɯ��D��$��*[h��D��4��/,p��o��&��۲2�2�222�[��Riڀ��F˞�(��[H��R��q��ʀ��D��A�GX�k�d�ݿ��^�v��]f��k��P��D�Bbo��5P��\z�u��F{��Ԁ¥˩��D��(��*[��D��4��/,��o��۲2�2�222�[��Riހ��Fˠ�(��[��R��q��D��A�GX��[��^촀��]r��V��D�Dbo��6D��\{u��F{��Ԁ¥ͣ��D��,��*[��D�4��/,��o��򊒀�۲2�2�222�[��Ri��Fˢ�(��[��R��q��F��D��A�GX�k�d�ݿ��^��]~��^��D�Fbo��7F��\{u��F{��Ԁ¥ϝ��D��0��*[��D�Ć4��/-*��o��X��۲2�2�222�[��Ri��Fˤ�(��[v��R��q��D��A�GX�� ݿ��^�8��]��ņ��d��D�Hbo��8R��\{u��F{��Ԁ¥ї��D��4��*[Ȁ��D�Ɔ4��/-h��o��۲2�2�222�[��Ri��F˦�(��[؀��R��q��D��A�GX�k��ݿ��^�v��]��l��D�Jbo��9V��\{u��F{��Ԁ¥ӑ��D��8��*[��D�Ȇ4��/-��o��$��۲2�2�222�[��Ri��F˨�(��[9��R��q��~��D��A�GX��쫀��^��]��r��D�Lbo��:@��\{u��F|�Ԁ¥Ջ��D��<��*[��D�ʆ4��/-��o��۲2�2�222�[��Ri��F˪�(��[��R��q��:��D��A�GX�k��^��]��z��D�Nbo��;U��\{+u��F|�Ԁ¥ׅ��D��@��*\��D�̆4��/."��o��۲2�2�222�[��Ri��Fˬ�(��[��R��q��D��A�GX��m��^�>��]��=��߀��D�Pbo��<[��\{Du��F|�Ԁ¥��D��D��*\(��D�Ά4��/.`��o��V��۲2�2�222�[��Ri��Fˮ�(��[`��R��q��D��A�GX�k�d��^�~��]ƀ��[��߈��D�Rbo��=U��\{�u��F|�Ԁ¥�y��D��H��*\@��D�І4��/.��o��۲2�2�222�[��Ri��F˰�(��[Ā��R��q��t��D��A�GX��ŀ��^��]Ҁ��y��ߎ��D�Tbo��>c��\{�u��F|�Ԁ¥�s��D��L��*\X��D�҆4��/.��o��"��۲2�2�222�[��Ri��F˲�(��[(��R��q��0��D��A�GX�k��^��]ހ��ߖ��D�Vbo��?K��\|u��F| �Ԁ¥�m��D��P��*\p��D�Ԇ4��//��o��۲2�2�222�[��Ri��F˴�(��[��R��q��D��A�GX��輀��^�>��]��ߜ��D�Xbo��@_��\|Ju��F|�Ԁ¥�g��D��T��*\��D�ֆ4��//X��o����۲2�2�222�[��Ri��F˶�(��[ۀ��R��q��D��A�GX�k곀��^�~��]��ӆ��ߤ��D�Zbo��A��\|wu��F|�Ԁ¥�a��D��X��*\��D�؆4��//��o��T��۲2�2�222�[��Ri��F˸�(��[#��R��q��j��D��A�GX��m��^ﾀ��^��ߪ��D�\bo��B��\|�u��F|�Ԁ¥�[��D��\��*\��D�چ4��//��o��۲2�2�222�[��Ri��F˺�(��[��R��q��&��D��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 70 / 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 = 613329251.94526 TSTOP = 613331321.9412 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99593997002 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 320 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'JHRDMEPDJEPDJEPD' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2764303729' / data unit checksum updated 2020-06-18T16:20:48 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: sw00976692000b140x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��Hk�q��W��x��"�ɉ��%��Z��~��щ��(�@��Y��&�7�'��X��e��z��މW��X��牢��Y��A�GT��tk�q��X��u��ތ��ǉ��$��[��{��щ��*�O��Z��߀�� &�F�'��Y��{��|��ǉU��Y��扣�؈��Z��;��A�GT��/ok�q��Y��ڎ#�n��"�Ɖ��%��[�� Љ��*�\��[��Ȁ��&�R�'��Z��l��}��U��Z��剣�Ј��[��R��A�GT��},k�q��X��v��ߌ��ŉ��$��Z��|��Љ��(�W��Z�� '�N�(��Y��D��{��V��Y��剣�Ĉ��Z��S��A�GT��k�q��Y��"��x��"�Ɖ��$��[��ـ��~��Ή��+�Q��Z��&�6�(��Z��{��{��W��Z��剣��[��Y��A�GT��Ik�q��W�� v��ߌ��É��$��Z��}��̉��*�F��Y�� $��'��X��d��$�v��V��X��≢��Z��W��A�GU�t?k�q��X�� t��݌��É��#��Z��ˉ��+�9��Z��%��(��Y��z��߉X��Y��≢��Z��_��A�GU��k�q��W�� u��ߌ��$��Y��|��ˉ��*�,��Y�� 򉫉'��(��X��T��X��≤��Y��f��A�GU)�{�k�q��X��t��܌��#��[��{��ɉ��+�(��Y��ɀ��󉬉%� �'��Y�� W��Y��.��߉��Z��c��A�GU8�c5k�q��X��x�� "��Z��}��ʉ��+�(��Y��'��(��X��~��|�� T��X��މ��Y��T��A�GUG��k�q��Y�� #��"��[��w��ʉ��*�*��[��ـ��񉬉'��(��Z��{��U��Z��[��\��A�GUV�w�k�q��X�� x�� "��[�� ~��ǉ��+�,��Z��񉫉$��(��Y��|��։W��Y��݉��Z��Q��A�GUe��[k�q��X��z�� !��Z��ȉ��*�/��[���%�%�(��Y��x��|��T��Y��܉��Z��E��A�GUt��5k�q��X�� t��ی��#��[��l��Ɖ��)�<��Z���$�0�(��Y��x��!�s��V��Y��(��ۉ��Z��[��A�GU��k�q��X�� {�� !��[��ŉ��+�H��Z�� �$�<�(��Y��z��U��Z��ۉ��Z��s��A�GU��k�q��X��x�� !��[��|��ŉ��)�T��Z���%�I�(��Y��y��V��Y�� ۉ��Z��i��A�GU��Ik�q��X��{��ތ��!��[��u��ĉ��)�X��Z��쉫�%�M�(��Y��$�u��u�U��Y�� ډ��Z��t��A�GU��K�k�q��Y�� w��ߌ��!��\��{��ĉ��*�L��[�� 퉭�'�=�(��Z��"�v��g�W��Z��ۉ��[��O��A�GU��k�q��X��t��݌��y� ��[��|��É��*�J��Z��"��鉬�&�"�(��Y�� ~��o�U��Y��ډ��Z��t��A�GU��Ik�q��Y��w�� t��[��{��+�;��[�� ꉬ�&��(��[��q��y��V��Z��؉��[��Z��A�GU��mk�q��X��"��v��x� ��Z��"��~�� *�1��Z��ꉫ�$� �)��Y��ǉV��Y��Չ��Z��v��A�GU��mk�q��X��!��t��ی��t�!��[��l��*�)��Z�� 牬�'� �)��Y��!�s��܉U��Y��-��؉��Z��Z��A�GU��k�q��Y��<��x��ߌ��!��q� ��\��'��~��+�)��[�� 艫�%��(��Z��z��ӉU��Z��I��Չ��Z��{��A�GV ��Rk�q��X��~��ی��u� ��Z��7��u��)�&��Z��牭�&��(��X��z��V��X��-��։��Z��_��A�GV�T�k�q��X��+�� t��ی��q� ��[��z��*�*��Z�� 牬�$��(��Y��y��V��Y��0��Ӊ��Z��z��A�GV(��k�q��W��$��ێ!�m�� n��Z��'��!��*�5��Z��䉫�%�+�'��Y��{��U��X��2��ԉ��Z��s��A�GV7��k�q��Y��*��x��ߌ�� o� ��[��~��)�F��[��剬�%�9�)��Z��}��W��Z��-��Ӊ��[��z��A�GVF��|k�q��Y��!��w�� n� ��[��*��~��!��)�T��Z��剬�%�H�(��Z��%�x��r�U��Z��;��҉��[��}��A�GVU�j+k�q��W��t��݌��m� ��[��0��|��*�a��Z��剭�%�T�(��Y�� b�V��Y��J��щ��|��Z��A�GVd��k�q��X��0��ގ�o��ތ��p� ��Z��:��퍅��(�_��Z��!�� 剫�%�R�(��Y��~��R�W��X��8��Љ��v��Y��g��A�GVs��k�q��Y��+��{��"��l� ��\��D��%��)�S��[��.�� ≭�'�D�(��Z��C�V��Z��,��҉��r��[��A�GV��k�q��Y��*��x��!��f� ��\��*��}��*�P��[�� ≬�&�'�(��Z��|��E�Y��Y��-��ω��m��Z��A�GV��p�k�q��X��<��w��ތ��`�!��[��5��x��*�?��Z��,��ቬ�&��)��Y��z��{�W��Y��A��Ή��l��Z��b��A�GV��bk�q��Y��5�� #��b�"��[��5�� w��*�2��[�� '��)��Z��{��V��Z��Љ��n��[��A�GV��ik�q��Y��%��y��"��`�!��[��4�� +�+��[��$��މ��'� �(��Z��~��ÉW��Z��͉��q��[��J��A�GV��=�k�q��X��6��t��ߌ��_�"��Z��*��|��*�)��[��*��މ��(��)��Z��V��Z��D��ω��v��Z��f��A�GV��sk�q��X��u��ߌ��_�!��[��J�� *�*��Y��$��މ��%��)��Y��U��Y��I��̉��|��Z��A�GV��z�k�q��X�� َ3�p��)��e�!��[��F��"��)�+��Z��*�� ݉��%��(��Y��|��X��Y��k��ʉ��}��Z��A�GV��~�k�q��X��9��r��݌��d� ��[��/��|��*�/��Z��7��݉��%�$�(��Y��~��U��Y��.��ʉ��Z��A�GV��0k�q��X��H��v��ߌ��g�!��[��H��~��*�=��Z��D�� ݉��%�/�)��Y��~�V��Y��`��ɉ��Z��A�GW ��k�q��X��M��y��f�"��[��T��~��)�J��[��F��܉��%�@�(��Z��Ȁ��z��o�U��Z��Y��ˉ��~��Z��A�GW��k�q��Y��6��Ԏ)�i��!��j�"��\��E��!��+�W��[��H�� ډ��$�M�)��Z��À��}��b�T��Z��[��ȉ��}��[��p��A�GW'�y�k�q��Y��K��x�� l�!��\��F��~��*�_��[��Y��ۉ��'�T�(��Z��߀��~��󉝄W�W��Z��]��ȉ��z��[��A�GW6�z�k�q��Z��b��x��ߌ��v�"��\��_��}��)�U��[��D��ډ��(�K�)��Z��ƀ��"�w��򉝄N�X��Z��k��ǉ��z��[��A�GWE�Vk�q��X��S��x��ߌ��s�!��Z��m��|��+�R��Z��A�� ى��'�7�(��Y��Ѐ��y��򉝄I�W��Y��Ɖ��x��Z��A�GWT��fk�q��X��p��Ў#�f��݌��p�!��[��k��"��-�J��Z��W�� ׉��%��)��Z��Ԁ��}��󉠄n�U��Y��t��Ɖ��y��[��A�GWc��?k�q��X��V��ی��r�"��Z��r��z��*�:��Z��w�� ׉��&��*��X��z��󉟄��V��X��ĉ��~��Y��A�GWr�c5k�q��W��x�� t�"��Z��~��*�/��Z��b��׉��'��(��Y��߀���ЉW��X��ĉ��Z��Ȁ��A�GW��XOk�q��X�� y��ߌ��v�"��[��~��+�,��Z�� Չ��&��)��Y��z��ۉV��Y��ĉ��Z��A�GW��y�k�q��W��q��ތ��w�!��Z��)�,��Z��̀��$��Չ��%��)��Y��+��}���ωV��X��Ѐ��Z��:��A�GW��k�q��X��y�� x�"��Z��}��{��+�0��Z��w��Չ��$��)��Y��z����W��Y��b��Z��A�GW��7k�q��X��J��u��ߌ��y�!��[��Y��z��,�;��Z��U�� ԉ��$�0�)��Y��ŀ��y��񉟄��U��Y��_��Z��A�GW��,(k�q��Y��4��v��w�#��[��O��z��,�O��[��4��ԉ��'�E�)��Z��{����U��Z��K��ŉ��[��A�GW��y>k�q��X��(��؎�g��܌��y�"��[��*��x��(�a��Y��2��׉��'�U�)��Y��y����W��Y��4��ĉ��Z��A�GW��@yk�q��X��s��ߌ��!��y�"��[��\��+�t��Z��O��Չ��%�c�)��Y��z��񉠄��W��Y��ր��É��Z��^��A�GW��k�q��W��s��ߌ��"��Z��y��*�l��Z��Հ��Չ��'�_�(��X��v��v�W��X��ր��ŉ��Y��C��A�GW��{5k�q��Y��v�� #��\�� {��,�`��[��!��Չ��&�P�(��Z��z��񉠄p�W��Z��É��[��r��A�GX�{5k�q��X��p��݌��"��Z��x��*�[��Z�� Չ��*�4�(��Y�� �r�W��Y��ĉ��[��p��A�GX�y�k�q��Y��t��ߌ��#��[��C��z��*�H��[�� ׉��*��)��Z��X��w����Z��Z��Ɖ��[��2��A�GX&�J�k�q��X��q��ߌ��"��[��ހ��z��.�@��Z�� Չ��(�$�'��Y��j��v���ωX��Y�� ŉ��Z��Z� �A�GX5�t�k�q��Y��s�� $��\��ŀ��y��-�:��Z��Չ��'��'��Z��f��x����W��Z��ĉ��[��j��A�GXD�+�k�q��W��р�Ҏ+�a�� #��Y��ۀ��!��-�1��Y��ԉ��)��&��X��^��w����V��W��ր��ĉ��Y��A�GXS�K�k�q��Y��u�� %��[��|��+�-��Z��̀��׉��(��&��Z��E��z���0�Y��Y��É��Z��J��A�GXb�Ɠk�q��W��؀��r��ތ��$��Z��z��,�+��Y��Չ��'��&��X��q��x���+�W��X��ـ��ĉ��̈��Y��A�GXq�Ik�q��Y��Ā��q��܌��$��[��o��+�+��[�� Չ��)��&��Z��@�� r����X��Z��ǉ��Ո��[��#��A�GX��R�k�q��X��q��݌��%��[��y��-�4��Z��Ԁ��ԉ��&�)�%��Z��ڀ��y��V��Y��É��߈��Z��H��A�GX��<�k�q��X��q��܌��%��Z��u��+�E��Z��Ԁ��Չ��(�>�%��Y��"��v����X��X��Ɖ��初��Z��A�GX��tk�q��X��$�u��(��%��[��"��*�Z��Z��$�}�� ։��(�P�%��Y��g��x����X��X��ĉ��鈞��Z��F��A�GX��k�q��X��߀��u��!��%��[��Ӏ��|��,�n��Z��ˀ��։��'�b�%��Z��^��{����X��Z��ŉ��툟��Z��<��A�GX��y>k�q��X��$��s��!��%��[��|��,��[��։��&�p�%��Y��{���ىY��Y��ĉ��Z��{��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 70 / 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 = 613329251.94682 TSTOP = 613331321.94274 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99591994286 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 321 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '2jBf2g9Z2gAf2g7Z' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3205721389' / data unit checksum updated 2020-06-18T16:20:48 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: sw00976692000b141x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��1f�"�{��ٍ�%��Y��&��Z��X��ڀ�Ҏ�� j��X��'��g��Y��،��Z��ڃ��Y��R�� H�`��g��X��A�GT��Ύ/�z��ލ�(��[��'��[��Z��َ�� h��Y��*��b��Z��ڌ��Z��ڃ��Z��Y��;�n��h��Z��A�GT��c5�(��ݍ�(��[��)��Z��Z��؎��"� ��f��Z�� +��^��[��ی��[��ك��\��Y��>�n�� h��Z��A�GT��2�� /��Z��%��Z��X��؎��i��Y��(�� +��W��Y��ߎ��ٌ��Y��ڃ��Z��%��<�m��h��Y��A�GT��(� �v��Ռ��!��[�� (��Z��Y��Ԏ��!��i��Z��*��O��Z��ڌ��]� �ك��[��Y��E�j�� f��Z��A�GT��ڍ�%��Z��'��U��X��׎ ��h��X��*��J��Y��ٌ� � ��Z��؃��Y��1��;�l��g��Y��A�GU��V�"�z��؍�#��爈��Z��%� ��U��X�� Ԏ ��j��X�� '��C��Z��(�� ׌��[��؃��Z��g��?�f��g��Y��A�GU�.�*�u��׍�!��ӈ��Y��%� ��T��X��Վ ��i��X��ގ��"��=��Y��4��ݎ��،�� \��׃��Y��j��4�m��e��X��A�GU)��/�z��ݍ�(��Z��%� ��S��X��׎��i��Y��)��6��Y��ގ��׌��\��׃��Z��a��5�n��h��Z��A�GU8��S�(�z��ٍ�%��Z�� '��R��X��f��X��ߎ��)�􉨄2��X��ڎ��ڌ�� Z��׃��Z��[��:�n��f��X��A�GUG� \� ��ڍ�'��[��(��Q��Z��׎�� h��Z��#��*�􉨄.��Z��ߎ��ڌ��\��׃��[��Z��;�n��e��Z��A�GUV��!�v��Ԍ�� [��&��P��Y�� i��Y��ݎ��)��(��􃐄Y��؎��ڌ�� Z��փ��Z��q��"�8�r��g��Y��A�GUe��ӎ$�|��ڍ�%��[��&��&� ��O��X��֎ ��i��U��)�򉧄$��Z��ߎ��׌��Y��փ��Z��%��9�l��f�􃓄Y��A�GUt�!��{��Ռ��!��Ɉ��Z��$��O��Y��ю ��h��Y��Հ��(�񉧄��􃑄Y��ގ��Ռߍ� ��[��փ��Z��o��8�j��g�􃒄Y��A�GU��¤�#�z��؍�$��ڈ��[��'��L��Y��֎ ��i��U��(���􃓄Z��ߎ��،��Z��փ��Z��m��:�m��󉏀��h�􃒄Z��A�GU��9C��ٍ�$��鈈��[��'��L��Z��/��Ύ�� h��Z��#��*���󃐄Z��،��Z��Ճ��[��k��=�k��񉍀��f�򃐄Y��A�GU��%��ڍ�%����Z�� '��M��Y�� Վ ��j��Y��%��*�� ��󃑄Z��ٌ��\��Ճ��Z��k��;�n��򉍀��e�򃐄Z��A�GU��}k��ڍ�&�󉟇��\��,��'��K��Z��׎ �� i��Z��*�� ��􃑄[��0��ڌ��[��Ճ��[��p��>�l��򉍀��f�󃒄[��A�GU��5�.�{��ލ�)�򉟇䈊��Z��R��%��I��Y��!��֎��j��Y��.��)�퉧��򃒄Z��-��ݎ��׌��\��Ճ��Z��v��4�m��񉎀��f�򃒄Y��(A�GU��~��؍�"�񉡇ψ��[��%��G��Y��Ԏ��|�h��Z��ߎ��"�쉦��򃒄[��!��ٌ��[��ԃ��[��I��@�l����f�񃒄Z��A�GU��<�)�{��ۍ�%�򉡇��Z��'��G��X�� ׎ �� x�g��X��"��)�퉨��򃐄Y��ߎ��ی��Z��ԃ��Z��<�m��e�񃑄Z��A�GU��|��Ռ��!���Z�� $��D��Y��Ҏ ��z�h��Y��7�� '�뉧�􈄍򃑄Y��,��ގ��Ռߍ��[��ԃ��Z��e��9�j����f��Y��A�GU��C�#�{��؍�%��[��(��'��D��Z��Ԏ ��y�h��Z��(�쉧��򃑄Z��-��،��[��ԃ��[��_��F�d����f��[��*A�GV ��p��؍�%���Z��/��%��?��Y��'��֎ ��i��Y��)�鉥�숅��Y��?��ߎ��،��Z��Ӄ��Z��f��;�m��퉏��g��X��%A�GV��"�z��؍�#���Z��%��@��X��Ԏ ��i��Y��(�ꉨ�鈄�񃑄Z��!��،��[��҃��Z��p��?�h��퉌��f��Y�� A�GV(�氎$�|��ڍ�&�퉟��Y��'��=��X��"��Վ ��i��X��:��*�鉧�㈃�񃑄Y��ٌ��[��Ӄ��Y��;�l��ꉌ��f��X��A�GV7��N�*�{��ۍ�'���\��'��<��Z��2��܎�� i��Z��*�艨��Z��*��ގ��ڌ��Z��ԃ��[��=�o��뉎��e��[��#A�GVF�$� ��ۍ�'�쉠��[��+��(��;��Y��D��֎�� h��Z��%��-�艧�݈��Z��%��ڌ� ��Z��Ӄ��[��s��<�n��뉍��e�탑�Z��A�GVU��/�{��ݍ�)�퉡��Z��,��$��:��Y��֎��g��Y��-��(�艨�ڈ��񃒄Y��/��ݎ��׌��[��҃��Z��z��4�n��뉏��d�탒�Y��A�GVd�4��%�z��ٍ�#�퉡�͈��Z��.��'��8��Y��%��׎��h��Y��-��)�剨�Ո���Y��/��ٌ��[��҃��Z��y��=�j��뉎��e�냏�Y��2A�GVs�ʂ�'��܍�'�ꉟ�ǈ��[��-��*��6��Z��3��؎��"� ��i��Z�� +�䉦�Ј��Z��=��ی� ��[��у��\��E�m�� 鉏��g�샐�Z��%A�GV��X�%��ۍ�'�뉡��[��;��(��5��X��'��Վ��"��h��Z��!��%�䉩�̈���Z�� ٌ��[� �҃��[��K�f��鉎��d�냏�Z��$A�GV��#�z��؍�$�艠��[��A��&��3��Z��)��֎ �� }�j��Z��=��(�㉦�ň��Z��ݎ��׌��]��҃��Z��=�j��扌��g�ꃒ�Z��>A�GV��w��ٍ�&�牟��[��5��'��0��Y��/��׎�� x�j��Z��#��*�≥��Z��>��ގ��،��]��҃��[��m��<�m��剏��e�냑�Z��*A�GV��:�&�~��ۍ�&�牡��[��8��(��/��Z��*��׎��!� ��r�g��Z��3��*�≩��Z��)��ڌ��[��҃��[��n��A�j��牏��d�郐�Z��.A�GV��pP�)�y��ٍ�#�扡��[��I��'��,��Y��8��֎�� p�i��Z��D��(���Z��:��܎��،��Z��у��[��<�m��扎��e�郑�Z��;A�GV��%��'�z��ۍ�%�剠��Z��6��'��*��Y��.��׎�� p�i��Y��X��*���Z��#��ߎ��ٌ��[��Ѓ��Z��=�n��剎��f�胐�Y��%A�GV��$�x��׍�"�扢��Z��=��%��*��Y��D��Ԏ ��m�g��Z��P��(�≩���Z��D��ߎ��،��[��у��Z��>�j��剏��d�郓�Y��A�GV��ێ!�|��ڍ�$�剠��[��/��'�􉢄*��Y��@��֎ �� i�i��Y��%��)�ቨ���Z��H��ߎ��׌��\��у��[��<�l��䉍��f�郒�Z��EA�GV��a�-�z��ۍ�&�䉡��Z��A��(��&��Y��B��َ�� j�i��Y��1��-�߉���Z��I��ߎ��ٌ��[��Ѓ��Z��6�r��≎��f�郐�Z��>A�GW ��'�{��ٍ�$�㉠��[��;��'�􉡄$��Z��7��׎ ��f�i��Y��C��(�݉���Z��P��ێ��ٌ��\��у��[��*�/�y��㉎��e�ꃒ�Z��QA�GW��h�$�|��ٍ�%�≞��\��P��(�􉢄%��Y��Q��Վ ��!��b�g��Y��A��*�މ���Z��:��ڌ��􉭉Z��Ѓ��[��Ҁ��=�m��≏��d�ꃐ�[��GA�GW'��*�{��܍�'�㉡�ǈ��[��N��'��#��Y��X��܎�� `�j��Z��I�� *�݉��탐�Z��H��ٌ��\� �Ѓ��\��>�q��f�ꃒ�Z��HA�GW6��ڍ�&�≡�ǈ��\��h��(�򉤄"��Z��R��֎��^�j��Z��c��+�܉��탑�Z��]��،��􉮉]� �Ѓ��[��<�n��߉��f�ꃑ�[��SA�GWE��"�z��׍�#��Z��w��%�� X��i��Ԏ ��\�i��U��d��'�݉��탐�Y��b��ގ��֌��􉭉\� �Ѓ��Z��:�k��߉��e�냐�Y��KA�GWT��ݎ&�z��ٍ�%��[��n��&��Y��]��Վ ��[�g��Z��[��)�ۉ��탑�Z��ٌ��񉫉[� �Ѓ��Z��?�k��e�탑�X��A�GWc��~��׍�$�މ��{��Z��v��$��X��i��Ҏ��[�h��Y��z��&�ډ��탑�Y��h��ڎ��֌��[��σ��Z��8�j��߉��c�탑�W��`A�GWr��&�z��ٍ�#�މ��e��Z��~��&��X��x��׎��^�h��Y��W��ݎ��"�ى��냑�Y��ێ��֌��񉮉\��σ��Z��:�l��މ��d�샐�Y��yA�GW��%�z��؍�$�܉��R��Z��&���Y��Վ��_�g��Z��'�ۉ��탒�Z��|��ڎ��،���]��σ��[��ɀ�'�.�u��݉��g��Y��VA�GW��\�#�{��ڍ�#�܉��A��Z��݀��&���X��؎ ��e�g��Y��(�؉��샑�Y��׌���\��Ѓ��Y��A��;�j��݉��e��Y��A�GW��5T�'�{��ڍ�&�މ��7��Z��z��)���Y��^��ێ�� i�g��Y��)�ى��샐�Z��q��ڌ��\��σ��[��Հ�/�0�y��݉��d��Y��A�GW��ލ�)�݉��7��Z��Y��'��X��2��ю��n�h��Y��K�� -�ى��샐�Y��e��ٌ��\��Ѓ��Z��Հ��;�m��܉��e��Y��SA�GW��_F�&�{��ٍ�%�݉��I��[��J��)�� Y��_��ݎ�� o�i��Z��C��(�؉��탑�Z��@��ٌ��񉮉\��у��[��'�9�q��މ��f�񃒄[��TA�GW�� #�y��؍�$�߉��]��Z��9��&���Y��9��َ ��l�e��Y��"��(�ډ���Y��،���Z��҃��Z��;�i��މ��d�򃒄Y��"A�GW��s��%�}��ڍ�&�މ��[�� (�� Y��ێ �� j�h��Y��(�ۉ���Z�� ٌ���^�!�҃��Z��@�f��݉��e�󃐄Y��A�GW��!�� o��Ќ��މ��Y��$���X��ƀ��g�g��X�� "��2�ۉ��Y��ߎ��׌��񉮉]�!�ԃ��Z��#�0�o��܉��e�􃒄X��TA�GW��&�{��ٍ�&�މ��\��(�񉣄��Y��ݎ�� c�h��Z��!��*�ۉ��񃑄[��ٌ���_�#�Ճ��[��'�7�q��݉��e��[��6A�GX��.�s��׍�"�݉��Z�� &��Y��ێ ��_�f��Y��'�ډ��񃐄Z��֌��񉭉^�"�Ճ��[��6�m��݉��e�􃑄Z��A�GX��ۍ�&�݉��[��'���Y��Վ�� Y�e��Z��*�ى��򃑄Z��،��^�!�Ճ��[�� 9�k��݉��e��Z��A�GX&�|Ď%�� -�߉��[��'���Y��߀�؎��R�e��Z�� ,�ى��󃑄Z��ٌ���]��փ��Z��e��F�d��߉��d��Z��A�GX5��v��ۍ�&�މ��~��\��'���Y��Ѐ�Ԏ��O�f��Z��*�ډ��󃑄[��ٌ���^��փ��[��!�8�l��މ��d��Z��A�GXD�^t�(�x��ڍ�#�܉��x��Y��'���W��À�ێ ��M�g��X��}��(�ى��󃑄Y��{��،��]��փ��Y��΀��=�h��݉��g��X��fA�GXS�c�$�r��Ԍ�� މ��r��Z��&���X�� H�e��Y��̀��)�ډ��􃏄Z��À��ٌ��]��׃��Z��&�5�p��݉��e��Y��A�GXb�� $�x��ٍ�$�݉��l��Y����&���X��َ��D�e��X��*�ډ��Y��ڌ���]��׃��Y�� K�a��݉��e��X��A�GXq�Dg�"�~��ٍ�$�܉��r��[��'���Z��ێ��E�e��Z��u��)�ډ��Z��ٌ��]��׃��[��>�i��݉��f��Z��A�GX��I�$�y��؍�#�݉��~��[�� '��Y��ݎ ��A�g��Y��(�ډ��Z��>��׌��^��׃��Z��u��0�-�v��݉��f��Z��A�GX��pP�$�w��Ռ��!�܉��Z��%���X��ŀ�ڎ ��B�f��X��Ҁ��%�ډ��Y��Ռ��\��؃��Z��v��.�(�t�|��݉��f��Y��&A�GX��9�#�v��֍�!�݉��Z��&���Y��ۀ�܎��?�f��Y��ހ��'�ۉ��Y��֌��]��ك��Z��i��;�h��ۉ��g��Y��A�GX��f�&�z��ٍ�%�މ��[��Ҁ��'���Z��ގ��!��>�e��Z��߀��)�ډ��Z��ǀ��ڌ���\��ڃ��[��W��+�6�q��މ��e��Z��A�GX��&�z��ڍ�&�݉��[��(��򈓀��Y��ێ�� ?�d��Y��)�ۉ��Z��6��ڌ���^�#�ڃ��Z��g��A�h��݉��f��Z��`XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 70 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 87 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB1125GND' / PW HK Pkt; Block 11 Voltage on 2.5 Ground ReturTFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKB11P25VLT' / PW HK Pkt; Block 11 +2.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL3 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB11M25VLT' / PW HK Pkt; Block 11 -2.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL4 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB11P35VLT' / PW HK Pkt; Block 11 +3.5 Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL5 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB11M35VLT' / PW HK Pkt; Block 11 -3.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL6 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB11P50VLT' / PW HK Pkt; Block 11 +5.0 Digital Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL7 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB11P75VLT' / PW HK Pkt; Block 11 +7.5 Voltage TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL8 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT8 = 'V ' / physical unit of field TTYPE9 = 'BPWHKB11M75VLT' / PW HK Pkt; Block 11 -7.5 Voltage TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL9 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'BPWHKB11CVTTEMP' / PW HK Pkt; Block 11 DC-DC Converter Module TempTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKB11TEMP' / PW HK Pkt; Block 11 Temperature TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKLHPB1TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKRADTEMP' / PW HK Pkt; Radiator Temperature (back, +Y,-X) TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL13 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT13 = 'Celsius ' / physical unit of field TTYPE14 = 'BPWHKIPPRI3TEMP' / PW HK Pkt; IP Primary DSP Board Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB12PRITEMP' / PW HK Pkt; Block 12 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB12SECTEMP' / PW HK Pkt; Block 12 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB12SPARE0' / PW HK Pkt; Block 12 Spare 0 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB12SPARE1' / PW HK Pkt; Block 12 Spare 1 TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB12INPUTI' / PW HK Pkt; Block 12 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB1225GND' / PW HK Pkt; Block 12 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB12P25VLT' / PW HK Pkt; Block 12 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB12M25VLT' / PW HK Pkt; Block 12 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB12P35VLT' / PW HK Pkt; Block 12 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB12M35VLT' / PW HK Pkt; Block 12 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB12P50VLT' / PW HK Pkt; Block 12 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB12P75VLT' / PW HK Pkt; Block 12 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB12M75VLT' / PW HK Pkt; Block 12 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB12CVTTEMP' / PW HK Pkt; Block 12 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB12TEMP' / PW HK Pkt; Block 12 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPB2TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKTSFRONTEMP' / PW HK Pkt; Front Tagged Source Temperature TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKIPRED0TEMP' / PW HK Pkt; IP Redundant LVPC TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB13PRITEMP' / PW HK Pkt; Block 13 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB13SECTEMP' / PW HK Pkt; Block 13 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB13SPARE0' / PW HK Pkt; Block 13 Spare 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB13SPARE1' / PW HK Pkt; Block 13 Spare 1 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB13INPUTI' / PW HK Pkt; Block 13 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB1325GND' / PW HK Pkt; Block 13 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB13P25VLT' / PW HK Pkt; Block 13 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB13M25VLT' / PW HK Pkt; Block 13 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB13P35VLT' / PW HK Pkt; Block 13 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB13M35VLT' / PW HK Pkt; Block 13 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB13P50VLT' / PW HK Pkt; Block 13 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB13P75VLT' / PW HK Pkt; Block 13 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB13M75VLT' / PW HK Pkt; Block 13 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB13CVTTEMP' / PW HK Pkt; Block 13 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB13TEMP' / PW HK Pkt; Block 13 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPB3TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, -XTFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKTSREARTEMP' / PW HK Pkt; Rear Tagged Source Temperature TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKIPRED1TEMP' / PW HK Pkt; IP Redundant LVPC TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB14PRITEMP' / PW HK Pkt; Block 14 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB14SECTEMP' / PW HK Pkt; Block 14 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB14SPARE0' / PW HK Pkt; Block 14 Spare 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB14SPARE1' / PW HK Pkt; Block 14 Spare 1 TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB14INPUTI' / PW HK Pkt; Block 14 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB1425GND' / PW HK Pkt; Block 14 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB14P25VLT' / PW HK Pkt; Block 14 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB14M25VLT' / PW HK Pkt; Block 14 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB14P35VLT' / PW HK Pkt; Block 14 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB14M35VLT' / PW HK Pkt; Block 14 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB14P50VLT' / PW HK Pkt; Block 14 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB14P75VLT' / PW HK Pkt; Block 14 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB14M75VLT' / PW HK Pkt; Block 14 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB14CVTTEMP' / PW HK Pkt; Block 14 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB14TEMP' / PW HK Pkt; Block 14 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPB4TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, +XTFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKSPARE14TMP' / PW HK Pkt; Block 14 Spare Temperature TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKIPRED2TEMP' / PW HK Pkt; IP Redundant MIC Board Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB15PRITEMP' / PW HK Pkt; Block 15 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB15SECTEMP' / PW HK Pkt; Block 15 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB15SPARE0' / PW HK Pkt; Block 15 Spare 0 TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB15SPARE1' / PW HK Pkt; Block 15 Spare 1 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB15INPUTI' / PW HK Pkt; Block 15 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB1525GND' / PW HK Pkt; Block 15 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB15P25VLT' / PW HK Pkt; Block 15 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB15M25VLT' / PW HK Pkt; Block 15 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB15P35VLT' / PW HK Pkt; Block 15 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB15M35VLT' / PW HK Pkt; Block 15 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB15P50VLT' / PW HK Pkt; Block 15 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB15P75VLT' / PW HK Pkt; Block 15 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB15M75VLT' / PW HK Pkt; Block 15 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB15CVTTEMP' / PW HK Pkt; Block 15 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB15TEMP' / PW HK Pkt; Block 15 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPB5TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ CC Inlet TemperTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKSPARE15TMP' / PW HK Pkt; Block 15 Spare Temperature TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKIPRED3TEMP' / PW HK Pkt; IP Redundant DSP Board Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKADCXSUM' / PW HK Power Box Packet CheckSum, not CCSDS XSumTFORM87 = '1B ' / data format of field: BYTE EXTNAME = 'hk142x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329251.94828 TSTOP = 613331321.94418 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.9959000349 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 322 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9EKYAEIY3EIY9EIY' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3906689409' / data unit checksum updated 2020-06-18T16:20:48 TRDLO2 = -2 / BPWHKB1125GND Red lower limit = B_PCB_B11_2_5G_TRDHI2 = 15 / BPWHKB1125GND Red upper limit = B_PCB_B11_2_5G_TYELO2 = -1 / BPWHKB1125GND Yellow lower limit = B_PCB_B11_2_TYEHI2 = 10 / BPWHKB1125GND Yellow upper limit = B_PCB_B11_2_TRDLO3 = 2.55 / BPWHKB11P25VLT Red lower limit = B_PCB_B11_2_7VTRDHI3 = 2.84 / BPWHKB11P25VLT Red upper limit = B_PCB_B11_2_7VTYELO3 = 2.62 / BPWHKB11P25VLT Yellow lower limit = B_PCB_B11_2TYEHI3 = 2.78 / BPWHKB11P25VLT Yellow upper limit = B_PCB_B11_2TRDLO4 = 2.55 / BPWHKB11M25VLT Red lower limit = B_PCB_B11_2_7VTRDHI4 = 2.84 / BPWHKB11M25VLT Red upper limit = B_PCB_B11_2_7VTYELO4 = 2.62 / BPWHKB11M25VLT Yellow lower limit = B_PCB_B11_2TYEHI4 = 2.78 / BPWHKB11M25VLT Yellow upper limit = B_PCB_B11_2TRDLO5 = 3.65 / BPWHKB11P35VLT Red lower limit = B_PCB_B11_3_8VTRDHI5 = 4.05 / BPWHKB11P35VLT Red upper limit = B_PCB_B11_3_8VTYELO5 = 3.73 / BPWHKB11P35VLT Yellow lower limit = B_PCB_B11_3TYEHI5 = 3.97 / BPWHKB11P35VLT Yellow upper limit = B_PCB_B11_3TRDLO6 = 3.65 / BPWHKB11M35VLT Red lower limit = B_PCB_B11_3_8VTRDHI6 = 4.05 / BPWHKB11M35VLT Red upper limit = B_PCB_B11_3_8VTYELO6 = 3.73 / BPWHKB11M35VLT Yellow lower limit = B_PCB_B11_3TYEHI6 = 3.97 / BPWHKB11M35VLT Yellow upper limit = B_PCB_B11_3TRDLO7 = 4.75 / BPWHKB11P50VLT Red lower limit = B_PCB_B11_5_0VTRDHI7 = 5.25 / BPWHKB11P50VLT Red upper limit = B_PCB_B11_5_0VTYELO7 = 4.85 / BPWHKB11P50VLT Yellow lower limit = B_PCB_B11_5TYEHI7 = 5.15 / BPWHKB11P50VLT Yellow upper limit = B_PCB_B11_5TRDLO8 = 7.12 / BPWHKB11P75VLT Red lower limit = B_PCB_B11_7_5VTRDHI8 = 7.85 / BPWHKB11P75VLT Red upper limit = B_PCB_B11_7_5VTYELO8 = 7.27 / BPWHKB11P75VLT Yellow lower limit = B_PCB_B11_7TYEHI8 = 7.72 / BPWHKB11P75VLT Yellow upper limit = B_PCB_B11_7TRDLO9 = 7.12 / BPWHKB11M75VLT Red lower limit = B_PCB_B11_7_5VTRDHI9 = 7.85 / BPWHKB11M75VLT Red upper limit = B_PCB_B11_7_5VTYELO9 = 7.27 / BPWHKB11M75VLT Yellow lower limit = B_PCB_B11_7TYEHI9 = 7.72 / BPWHKB11M75VLT Yellow upper limit = B_PCB_B11_7TRDLO10 = -20 / BPWHKB11CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI10 = 61 / BPWHKB11CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO10 = -15 / BPWHKB11CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI10 = 56 / BPWHKB11CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO11 = -15 / BPWHKB11TEMP Red lower limit = B_TBLK_11_LIM TRDHI11 = 45 / BPWHKB11TEMP Red upper limit = B_TBLK_11_LIM TYELO11 = -10 / BPWHKB11TEMP Yellow lower limit = B_TBLK_11_LIMTYEHI11 = 40 / BPWHKB11TEMP Yellow upper limit = B_TBLK_11_LIMTRDLO12 = -30 / BPWHKLHPB1TEMP Red lower limit = B_TLHP_B1_LIM TRDHI12 = 60 / BPWHKLHPB1TEMP Red upper limit = B_TLHP_B1_LIM TYELO12 = -25 / BPWHKLHPB1TEMP Yellow lower limit = B_TLHP_B1_LTYEHI12 = 55 / BPWHKLHPB1TEMP Yellow upper limit = B_TLHP_B1_LTRDHI13 = 60 / BPWHKRADTEMP Red upper limit = B_TRAD_LIM TYEHI13 = 55 / BPWHKRADTEMP Yellow upper limit = B_TRAD_LIM TRDLO19 = -0.2 / BPWHKB12INPUTI Red lower limit = B_PCB_B12_INPITRDHI19 = 0.9 / BPWHKB12INPUTI Red upper limit = B_PCB_B12_INPITYELO19 = -0.1 / BPWHKB12INPUTI Yellow lower limit = B_PCB_B12_ITYEHI19 = 0.8 / BPWHKB12INPUTI Yellow upper limit = B_PCB_B12_ITRDLO20 = -2 / BPWHKB1225GND Red lower limit = B_PCB_B12_2_5G_TRDHI20 = 15 / BPWHKB1225GND Red upper limit = B_PCB_B12_2_5G_TYELO20 = -1 / BPWHKB1225GND Yellow lower limit = B_PCB_B12_2_TYEHI20 = 10 / BPWHKB1225GND Yellow upper limit = B_PCB_B12_2_TRDLO21 = 2.55 / BPWHKB12P25VLT Red lower limit = B_PCB_B12_2_7VTRDHI21 = 2.84 / BPWHKB12P25VLT Red upper limit = B_PCB_B12_2_7VTYELO21 = 2.62 / BPWHKB12P25VLT Yellow lower limit = B_PCB_B12_2TYEHI21 = 2.78 / BPWHKB12P25VLT Yellow upper limit = B_PCB_B12_2TRDLO22 = 2.55 / BPWHKB12M25VLT Red lower limit = B_PCB_B12_2_7VTRDHI22 = 2.84 / BPWHKB12M25VLT Red upper limit = B_PCB_B12_2_7VTYELO22 = 2.62 / BPWHKB12M25VLT Yellow lower limit = B_PCB_B12_2TYEHI22 = 2.78 / BPWHKB12M25VLT Yellow upper limit = B_PCB_B12_2TRDLO23 = 3.65 / BPWHKB12P35VLT Red lower limit = B_PCB_B12_3_8VTRDHI23 = 4.05 / BPWHKB12P35VLT Red upper limit = B_PCB_B12_3_8VTYELO23 = 3.73 / BPWHKB12P35VLT Yellow lower limit = B_PCB_B12_3TYEHI23 = 3.97 / BPWHKB12P35VLT Yellow upper limit = B_PCB_B12_3TRDLO24 = 3.65 / BPWHKB12M35VLT Red lower limit = B_PCB_B12_3_8VTRDHI24 = 4.05 / BPWHKB12M35VLT Red upper limit = B_PCB_B12_3_8VTYELO24 = 3.73 / BPWHKB12M35VLT Yellow lower limit = B_PCB_B12_3TYEHI24 = 3.97 / BPWHKB12M35VLT Yellow upper limit = B_PCB_B12_3TRDLO25 = 4.75 / BPWHKB12P50VLT Red lower limit = B_PCB_B12_5_0VTRDHI25 = 5.25 / BPWHKB12P50VLT Red upper limit = B_PCB_B12_5_0VTYELO25 = 4.85 / BPWHKB12P50VLT Yellow lower limit = B_PCB_B12_5TYEHI25 = 5.15 / BPWHKB12P50VLT Yellow upper limit = B_PCB_B12_5TRDLO26 = 7.12 / BPWHKB12P75VLT Red lower limit = B_PCB_B12_7_5VTRDHI26 = 7.85 / BPWHKB12P75VLT Red upper limit = B_PCB_B12_7_5VTYELO26 = 7.27 / BPWHKB12P75VLT Yellow lower limit = B_PCB_B12_7TYEHI26 = 7.72 / BPWHKB12P75VLT Yellow upper limit = B_PCB_B12_7TRDLO27 = 7.12 / BPWHKB12M75VLT Red lower limit = B_PCB_B12_7_5VTRDHI27 = 7.85 / BPWHKB12M75VLT Red upper limit = B_PCB_B12_7_5VTYELO27 = 7.27 / BPWHKB12M75VLT Yellow lower limit = B_PCB_B12_7TYEHI27 = 7.72 / BPWHKB12M75VLT Yellow upper limit = B_PCB_B12_7TRDLO28 = -20 / BPWHKB12CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB12CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB12CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB12CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB12TEMP Red lower limit = B_TBLK_12_LIM TRDHI29 = 45 / BPWHKB12TEMP Red upper limit = B_TBLK_12_LIM TYELO29 = -10 / BPWHKB12TEMP Yellow lower limit = B_TBLK_12_LIMTYEHI29 = 40 / BPWHKB12TEMP Yellow upper limit = B_TBLK_12_LIMTRDLO30 = -30 / BPWHKLHPB2TEMP Red lower limit = B_TLHP_B2_LIM TRDHI30 = 60 / BPWHKLHPB2TEMP Red upper limit = B_TLHP_B2_LIM TYELO30 = -25 / BPWHKLHPB2TEMP Yellow lower limit = B_TLHP_B2_LTYEHI30 = 55 / BPWHKLHPB2TEMP Yellow upper limit = B_TLHP_B2_LTRDLO31 = -20 / BPWHKTSFRONTEMP Red lower limit = B_PCB_TAGTEMPTRDHI31 = 40 / BPWHKTSFRONTEMP Red upper limit = B_PCB_TAGTEMPTYELO31 = -15 / BPWHKTSFRONTEMP Yellow lower limit = B_PCB_TAGTTYEHI31 = 35 / BPWHKTSFRONTEMP Yellow upper limit = B_PCB_TAGTTRDLO37 = -0.2 / BPWHKB13INPUTI Red lower limit = B_PCB_B13_INPITRDHI37 = 0.9 / BPWHKB13INPUTI Red upper limit = B_PCB_B13_INPITYELO37 = -0.1 / BPWHKB13INPUTI Yellow lower limit = B_PCB_B13_ITYEHI37 = 0.8 / BPWHKB13INPUTI Yellow upper limit = B_PCB_B13_ITRDLO38 = -2 / BPWHKB1325GND Red lower limit = B_PCB_B13_2_5G_TRDHI38 = 15 / BPWHKB1325GND Red upper limit = B_PCB_B13_2_5G_TYELO38 = -1 / BPWHKB1325GND Yellow lower limit = B_PCB_B13_2_TYEHI38 = 10 / BPWHKB1325GND Yellow upper limit = B_PCB_B13_2_TRDLO39 = 2.55 / BPWHKB13P25VLT Red lower limit = B_PCB_B13_2_7VTRDHI39 = 2.84 / BPWHKB13P25VLT Red upper limit = B_PCB_B13_2_7VTYELO39 = 2.62 / BPWHKB13P25VLT Yellow lower limit = B_PCB_B13_2TYEHI39 = 2.78 / BPWHKB13P25VLT Yellow upper limit = B_PCB_B13_2TRDLO40 = 2.55 / BPWHKB13M25VLT Red lower limit = B_PCB_B13_2_7VTRDHI40 = 2.84 / BPWHKB13M25VLT Red upper limit = B_PCB_B13_2_7VTYELO40 = 2.62 / BPWHKB13M25VLT Yellow lower limit = B_PCB_B13_2TYEHI40 = 2.78 / BPWHKB13M25VLT Yellow upper limit = B_PCB_B13_2TRDLO41 = 3.65 / BPWHKB13P35VLT Red lower limit = B_PCB_B13_3_8VTRDHI41 = 4.05 / BPWHKB13P35VLT Red upper limit = B_PCB_B13_3_8VTYELO41 = 3.73 / BPWHKB13P35VLT Yellow lower limit = B_PCB_B13_3TYEHI41 = 3.97 / BPWHKB13P35VLT Yellow upper limit = B_PCB_B13_3TRDLO42 = 3.65 / BPWHKB13M35VLT Red lower limit = B_PCB_B13_3_8VTRDHI42 = 4.05 / BPWHKB13M35VLT Red upper limit = B_PCB_B13_3_8VTYELO42 = 3.73 / BPWHKB13M35VLT Yellow lower limit = B_PCB_B13_3TYEHI42 = 3.97 / BPWHKB13M35VLT Yellow upper limit = B_PCB_B13_3TRDLO43 = 4.75 / BPWHKB13P50VLT Red lower limit = B_PCB_B13_5_0VTRDHI43 = 5.25 / BPWHKB13P50VLT Red upper limit = B_PCB_B13_5_0VTYELO43 = 4.85 / BPWHKB13P50VLT Yellow lower limit = B_PCB_B13_5TYEHI43 = 5.15 / BPWHKB13P50VLT Yellow upper limit = B_PCB_B13_5TRDLO44 = 7.12 / BPWHKB13P75VLT Red lower limit = B_PCB_B13_7_5VTRDHI44 = 7.85 / BPWHKB13P75VLT Red upper limit = B_PCB_B13_7_5VTYELO44 = 7.27 / BPWHKB13P75VLT Yellow lower limit = B_PCB_B13_7TYEHI44 = 7.72 / BPWHKB13P75VLT Yellow upper limit = B_PCB_B13_7TRDLO45 = 7.12 / BPWHKB13M75VLT Red lower limit = B_PCB_B13_7_5VTRDHI45 = 7.85 / BPWHKB13M75VLT Red upper limit = B_PCB_B13_7_5VTYELO45 = 7.27 / BPWHKB13M75VLT Yellow lower limit = B_PCB_B13_7TYEHI45 = 7.72 / BPWHKB13M75VLT Yellow upper limit = B_PCB_B13_7TRDLO46 = -20 / BPWHKB13CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB13CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB13CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB13CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB13TEMP Red lower limit = B_TBLK_13_LIM TRDHI47 = 45 / BPWHKB13TEMP Red upper limit = B_TBLK_13_LIM TYELO47 = -10 / BPWHKB13TEMP Yellow lower limit = B_TBLK_13_LIMTYEHI47 = 40 / BPWHKB13TEMP Yellow upper limit = B_TBLK_13_LIMTRDHI48 = 60 / BPWHKLHPB3TEMP Red upper limit = B_TLHP_B3_LIM TYEHI48 = 55 / BPWHKLHPB3TEMP Yellow upper limit = B_TLHP_B3_LTRDLO49 = -20 / BPWHKTSREARTEMP Red lower limit = B_PCB_TAGTEMPTRDHI49 = 40 / BPWHKTSREARTEMP Red upper limit = B_PCB_TAGTEMPTYELO49 = -15 / BPWHKTSREARTEMP Yellow lower limit = B_PCB_TAGTTYEHI49 = 35 / BPWHKTSREARTEMP Yellow upper limit = B_PCB_TAGTTRDLO55 = -0.2 / BPWHKB14INPUTI Red lower limit = B_PCB_B14_INPITRDHI55 = 0.9 / BPWHKB14INPUTI Red upper limit = B_PCB_B14_INPITYELO55 = -0.1 / BPWHKB14INPUTI Yellow lower limit = B_PCB_B14_ITYEHI55 = 0.8 / BPWHKB14INPUTI Yellow upper limit = B_PCB_B14_ITRDLO56 = -2 / BPWHKB1425GND Red lower limit = B_PCB_B14_2_5G_TRDHI56 = 15 / BPWHKB1425GND Red upper limit = B_PCB_B14_2_5G_TYELO56 = -1 / BPWHKB1425GND Yellow lower limit = B_PCB_B14_2_TYEHI56 = 10 / BPWHKB1425GND Yellow upper limit = B_PCB_B14_2_TRDLO57 = 2.55 / BPWHKB14P25VLT Red lower limit = B_PCB_B14_2_7VTRDHI57 = 2.84 / BPWHKB14P25VLT Red upper limit = B_PCB_B14_2_7VTYELO57 = 2.62 / BPWHKB14P25VLT Yellow lower limit = B_PCB_B14_2TYEHI57 = 2.78 / BPWHKB14P25VLT Yellow upper limit = B_PCB_B14_2TRDLO58 = 2.55 / BPWHKB14M25VLT Red lower limit = B_PCB_B14_2_7VTRDHI58 = 2.84 / BPWHKB14M25VLT Red upper limit = B_PCB_B14_2_7VTYELO58 = 2.62 / BPWHKB14M25VLT Yellow lower limit = B_PCB_B14_2TYEHI58 = 2.78 / BPWHKB14M25VLT Yellow upper limit = B_PCB_B14_2TRDLO59 = 3.65 / BPWHKB14P35VLT Red lower limit = B_PCB_B14_3_8VTRDHI59 = 4.05 / BPWHKB14P35VLT Red upper limit = B_PCB_B14_3_8VTYELO59 = 3.73 / BPWHKB14P35VLT Yellow lower limit = B_PCB_B14_3TYEHI59 = 3.97 / BPWHKB14P35VLT Yellow upper limit = B_PCB_B14_3TRDLO60 = 3.65 / BPWHKB14M35VLT Red lower limit = B_PCB_B14_3_8VTRDHI60 = 4.05 / BPWHKB14M35VLT Red upper limit = B_PCB_B14_3_8VTYELO60 = 3.73 / BPWHKB14M35VLT Yellow lower limit = B_PCB_B14_3TYEHI60 = 3.97 / BPWHKB14M35VLT Yellow upper limit = B_PCB_B14_3TRDLO61 = 4.75 / BPWHKB14P50VLT Red lower limit = B_PCB_B14_5_0VTRDHI61 = 5.25 / BPWHKB14P50VLT Red upper limit = B_PCB_B14_5_0VTYELO61 = 4.85 / BPWHKB14P50VLT Yellow lower limit = B_PCB_B14_5TYEHI61 = 5.15 / BPWHKB14P50VLT Yellow upper limit = B_PCB_B14_5TRDLO62 = 7.12 / BPWHKB14P75VLT Red lower limit = B_PCB_B14_7_5VTRDHI62 = 7.85 / BPWHKB14P75VLT Red upper limit = B_PCB_B14_7_5VTYELO62 = 7.27 / BPWHKB14P75VLT Yellow lower limit = B_PCB_B14_7TYEHI62 = 7.72 / BPWHKB14P75VLT Yellow upper limit = B_PCB_B14_7TRDLO63 = 7.12 / BPWHKB14M75VLT Red lower limit = B_PCB_B14_7_5VTRDHI63 = 7.85 / BPWHKB14M75VLT Red upper limit = B_PCB_B14_7_5VTYELO63 = 7.27 / BPWHKB14M75VLT Yellow lower limit = B_PCB_B14_7TYEHI63 = 7.72 / BPWHKB14M75VLT Yellow upper limit = B_PCB_B14_7TRDLO64 = -20 / BPWHKB14CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB14CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB14CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB14CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB14TEMP Red lower limit = B_TBLK_14_LIM TRDHI65 = 45 / BPWHKB14TEMP Red upper limit = B_TBLK_14_LIM TYELO65 = -10 / BPWHKB14TEMP Yellow lower limit = B_TBLK_14_LIMTYEHI65 = 40 / BPWHKB14TEMP Yellow upper limit = B_TBLK_14_LIMTRDHI66 = 60 / BPWHKLHPB4TEMP Red upper limit = B_TLHP_B4_LIM TYEHI66 = 55 / BPWHKLHPB4TEMP Yellow upper limit = B_TLHP_B4_LTRDLO73 = -0.2 / BPWHKB15INPUTI Red lower limit = B_PCB_B15_INPITRDHI73 = 0.9 / BPWHKB15INPUTI Red upper limit = B_PCB_B15_INPITYELO73 = -0.1 / BPWHKB15INPUTI Yellow lower limit = B_PCB_B15_ITYEHI73 = 0.8 / BPWHKB15INPUTI Yellow upper limit = B_PCB_B15_ITRDLO74 = -2 / BPWHKB1525GND Red lower limit = B_PCB_B15_2_5G_TRDHI74 = 15 / BPWHKB1525GND Red upper limit = B_PCB_B15_2_5G_TYELO74 = -1 / BPWHKB1525GND Yellow lower limit = B_PCB_B15_2_TYEHI74 = 10 / BPWHKB1525GND Yellow upper limit = B_PCB_B15_2_TRDLO75 = 2.55 / BPWHKB15P25VLT Red lower limit = B_PCB_B15_2_7VTRDHI75 = 2.84 / BPWHKB15P25VLT Red upper limit = B_PCB_B15_2_7VTYELO75 = 2.62 / BPWHKB15P25VLT Yellow lower limit = B_PCB_B15_2TYEHI75 = 2.78 / BPWHKB15P25VLT Yellow upper limit = B_PCB_B15_2TRDLO76 = 2.55 / BPWHKB15M25VLT Red lower limit = B_PCB_B15_2_7VTRDHI76 = 2.84 / BPWHKB15M25VLT Red upper limit = B_PCB_B15_2_7VTYELO76 = 2.62 / BPWHKB15M25VLT Yellow lower limit = B_PCB_B15_2TYEHI76 = 2.78 / BPWHKB15M25VLT Yellow upper limit = B_PCB_B15_2TRDLO77 = 3.65 / BPWHKB15P35VLT Red lower limit = B_PCB_B15_3_8VTRDHI77 = 4.05 / BPWHKB15P35VLT Red upper limit = B_PCB_B15_3_8VTYELO77 = 3.73 / BPWHKB15P35VLT Yellow lower limit = B_PCB_B15_3TYEHI77 = 3.97 / BPWHKB15P35VLT Yellow upper limit = B_PCB_B15_3TRDLO78 = 3.65 / BPWHKB15M35VLT Red lower limit = B_PCB_B15_3_8VTRDHI78 = 4.05 / BPWHKB15M35VLT Red upper limit = B_PCB_B15_3_8VTYELO78 = 3.73 / BPWHKB15M35VLT Yellow lower limit = B_PCB_B15_3TYEHI78 = 3.97 / BPWHKB15M35VLT Yellow upper limit = B_PCB_B15_3TRDLO79 = 4.75 / BPWHKB15P50VLT Red lower limit = B_PCB_B15_5_0VTRDHI79 = 5.25 / BPWHKB15P50VLT Red upper limit = B_PCB_B15_5_0VTYELO79 = 4.85 / BPWHKB15P50VLT Yellow lower limit = B_PCB_B15_5TYEHI79 = 5.15 / BPWHKB15P50VLT Yellow upper limit = B_PCB_B15_5TRDLO80 = 7.12 / BPWHKB15P75VLT Red lower limit = B_PCB_B15_7_5VTRDHI80 = 7.85 / BPWHKB15P75VLT Red upper limit = B_PCB_B15_7_5VTYELO80 = 7.27 / BPWHKB15P75VLT Yellow lower limit = B_PCB_B15_7TYEHI80 = 7.72 / BPWHKB15P75VLT Yellow upper limit = B_PCB_B15_7TRDLO81 = 7.12 / BPWHKB15M75VLT Red lower limit = B_PCB_B15_7_5VTRDHI81 = 7.85 / BPWHKB15M75VLT Red upper limit = B_PCB_B15_7_5VTYELO81 = 7.27 / BPWHKB15M75VLT Yellow lower limit = B_PCB_B15_7TYEHI81 = 7.72 / BPWHKB15M75VLT Yellow upper limit = B_PCB_B15_7TRDLO82 = -20 / BPWHKB15CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB15CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB15CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB15CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB15TEMP Red lower limit = B_TBLK_15_LIM TRDHI83 = 45 / BPWHKB15TEMP Red upper limit = B_TBLK_15_LIM TYELO83 = -10 / BPWHKB15TEMP Yellow lower limit = B_TBLK_15_LIMTYEHI83 = 40 / BPWHKB15TEMP Yellow upper limit = B_TBLK_15_LIMTRDLO84 = -30 / BPWHKLHPB5TEMP Red lower limit = B_TLHP_B5_LIM TRDHI84 = 60 / BPWHKLHPB5TEMP Red upper limit = B_TLHP_B5_LIM TYELO84 = -25 / BPWHKLHPB5TEMP Yellow lower limit = B_TLHP_B5_LTYEHI84 = 55 / BPWHKLHPB5TEMP Yellow upper limit = B_TLHP_B5_LHISTORY TASK: FAPPND on FILENAME: sw00976692000b142x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:50 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��a=��#��*��;��X��k��%�䉖�1��,��Y��}��!�쉙��*��Y��ڎ��$��r��Y��܎ ��1��怣��A�GT��֎ ��.��H��Y��e�� u��&�剖�?��+��Z��q��&�쉚��*��Z��܎ ��&��􀤅r��Z��ڎ��4��A�GT��Ҏ�� .��U��Y��v��'�㉖�N��+��[��荛��)�뉚��)��\��(���p��[�� 4��-A�GT��z��Ҏ ��*��Q��􃑄X��X��r��#�≖�H��+��Z��(�뉚��*��Z��ڎ��%��ဤ�p��Z��َ�� 2��pA�GT��X��ڎ �� .��?�~��Y��r��v��(�㉗�1��+��Z��'�鉛�݉��*��[��*��؀��o��[��ߎ ��6��N��A�GT��֎��,��#�z�򃑄X��x�� t��%�߉��*��Y��(�鉚�؉�)��Z��׎��%��؀��m��Y��ڎ ��3��A�GU��|��Î��+��w��X��s��h��$�߉��+��Y��$�鉛�׉�*��Z��ގ��%��ـ��n��Y��܎��2��A�GU�]O��֎ ��*��s�񃑄W�� t��$�މ��+��Y��u��$�鉚�׉�)��Y��َ��$��ـ��l��Y��ڎ�� 3��:A�GU)�݃��֎��,��p��X��~��t��#�މ�� *��Y��%�艚�ى��*��Y��ڎ��$��܀��l��Z��َ�� 2��}��"A�GU8��+��֎ ��*��l�􃑄X�� u��$�߉��ߍ*��Z��r��%�剙�ۉ�)��Z��َ ��&��߀��k��Y��܎ ��4��A�GUG�Q��َ��-��k��Y��u��&�݉��ݍ+��[��(�牚�܉�)��[��َ ��'��߀��k��[��0��؎�� 5��A�GUV�ٔ��׎��-��f��X��S��w��&�މ��؍*��Z��[��(�剚�܉�)��Z��؎��&��߀��i��Z��ێ�� 5��B��A�GUe�#��َ ��*��*�c��X��\��x��%�ۉ��֍+��Z��}��%�剜�ۉ�(��Z��Վ��%��߀��j��Z��Վ��3��A�GUt�R*��ӎ��*��3�a�󃑄X�� p��#�܉��,�ԍ*��Y��n��$�䉚�ۉ�)��Z��َ��%��܀��h��Z��׎ �� 1��Հ��6A�GU��s��َ��+��@�_�샓�Y�� v��%�ۉ��7�э*��Z��}��%�㉚�ى�)��Z��Վ��&��ـ��h��Z��Վ��5��oA�GU��i��ӎ��*��N�]��Y��v��&�ډ��F�ύ*��Y��(�≙�؉�)��Z�� ܎��'��ـ��h��Z��ێ�� 5�� cA�GU��֎ ��-��Q�\��X��q�� s��&�ى��H�΍)��Z��'�≜�Չ�(��[��ێ ��'��π��f��Z��ڎ �� 4��A�GU��D��׎ ��-��E�]�郒�Y��c��t��%�׉��9�ˍ*��Z��q��'�≛�Ή�)��[��ڎ��'��ǀ��h��[��܎��5��=A�GU�� \��׎��+��-�\�􃒄Y��s��#�։��Ǎ)��Y��%�≛�͉�)��Z��ڎ��$��ŀ��g��Z��؎ ��3��Ҁ��A�GU��Վ�� -��Z�󃒄Y��g��u��'�Չ��ō)��Z��b��%��͉�(��[��ݎ ��'��ˀ��f��Z�� ގ��4��O��.A�GU�� l��Վ��-��W�냑�X��v��&�Չ��Í(��Y��)�މ��̉�'��Z�� ݎ ��'��ǀ��f��Y��5��܎ �� 5��Ҁ��5A�GU�� ӎ��)�􉢈�V�惑�X��h�� p��#�ԉ��)��Y��#�މ��ω�(��Z�� ڎ��%��΀��f��Z��&��؎��2��̀��A�GU��t?��!��,�􉣈�T�ヒ�Y��j��%�Չ��)��Z��#�މ��щ��)��[��'��܎ ��&��Ѐ��f��[��%��ߎ�� 4��h��A�GV ��H��֎ ��+�򉡈�Q�ꃑ�X��s��&�Չ��)��Y��&�ۉ��҉��'��Y��׎��%��Ѐ��e��Z��׎��3��A��|A�GV��̎��+�󉣈 �P�ヒ�X��k��$�҉��)��Y��􍆍��#�݉��҉�'��Z��$��Հ��e��Z��ێ��1��#A�GV(��ώ��+�򉣈/�K�郑�W��t��%�҉��$��(��Y��鍗��'�ۉ��ԉ��&��Y��&��Հ��d��Y�� 2��A�GV7�T��Վ��,�񉢈@�K�ヒ�Y�� u��%�҉��4��)��[��(�ۉ��ԉ��(��[��"��ێ ��'��Ԁ��f��[��&��ڎ �� 5��߀��A�GVF�Tʀ�׎�� .��M�I�烑�Y��v��'�щ��B��)��[��)�ۉ��щ��&��\��$��ڎ��(��р��d��[��0��ێ��5��A�GVU��)��׎��+��[�H�郒�Y��t��$�щ��O��)��Z��ˀ��%�ۉ��̉��(��Z��َ��$��Ȁ��c��Z��&��؎ �� 2��'A�GVd�c܀�ӎ ��+��Z�F�パ�X�� t��%�ω��N��(��Y��q��&�ډ��'��Z��%��܎ ��%��d��Y��'��ߎ �� 4��$��A�GVs��Ҏ�� .�퉠�H�E�バ�Y��p��(�Љ��?�(��Z��u��󍒍��(�։��&��\��)��)��c��[��5��7��6A�GV��-��ю��-�퉣�3�E�⃐�X�� y��&�Ή��#�Í'��Z��"�ى��&��Z��!��ڎ ��*��b��[��܎��5��ր��tA�GV��ӄ��*���C�ბ�Y�� ~��%�Ή��č)��Z�� z��&�Չ��'��Z�� Վ��%��b��Z��H��܎ ��3��>��A�GV��׎ ��,�퉢��C��Y�� u��&�Ή��č(��Z��'�Չ��'��[��0��َ ��'��c��[��7��׎�� 4��qA�GV�� Ɏ��-�뉣��D�ა�Y��l��'�̉��ō(��Z��%�։��'��[��'��b��Z��ގ ��4��A�GV�� Ԏ ��-�뉢��C�݃��Y��u��%�̉��Ǎ(��Z��&�ԉ��Ɖ��&��[��,��܎ ��&��ŀ��b��Z��'��ێ ��4��̀��A�GV��Uq��Ԏ��-�ꉠ��B�ك��X��u��'�̉�� Ǎ(��Y��(�ԉ��ʉ��&��Z��ێ��&��Ȁ��a��Z��-��ێ �� 4��A�GV��ۀ�Ҏ��+�뉣��D�׃��X�� t��%�ʉ��Ǎ(��Z��%�ԉ��Ή��'��Z��%��ˀ��b��Z��M��3��r��A�GV��F��ӎ��,�ꉣ�)�D�փ��Y��ƀ��t��%�ɉ��ȍ(��Z��&�Ӊ��҉��&��[��5��ێ ��'��π��b��Z��H��܎ �� 4��A�GV��؎ ��-�鉢�3�D�ԃ��X�� v��&�ʉ��+�ɍ'��Z��)�Љ��։��&��Z��F��ێ ��%��р��b��Z��I��ێ�� 4��ր��A�GW �E��ݎ��,�艣�D�E�Ӄ��Y��ʀ��z��%�ȉ��9�ʍ(��Z��%�҉��؉��&��[��>��܎ ��&��Ԁ��c��Z��G��َ��6��퀤��A�GW�?��ю��-�牣�Q�I�҃��Y�� s��&�ǉ��F�ʍ'��Z��󍎍��&�щ��ى��'��[��R��(��Ҁ��c��[��\��4�� YA�GW'��+��Վ ��-�艢�X�I�҃��Y�� v��&�ȉ��P�ˍ'��[��Ӏ��(�Љ��։��&��[��Q��܎ ��&��΀��d��[��Q��ڎ ��5��A�GW6��3��Վ��,�扣�Q�K�҃��Y��u��%�ǉ��E�ʍ(��Z��ր��'�҉��Љ��'��\��]��َ ��'��ŀ��e��[��c��ڎ ��5��A�GWE��h��ێ��*�剢�?�N�у��X��̀��y��$�ŉ��3�ˍ'��Y�� z��$�Љ��Љ��&��Z��,��׎��$��d��Z��o��َ�� 2��^��A�GWT� \��Վ��,�䉢�%�Q�у��Y��Հ��u��%�ŉ��΍'��Z��ހ��&�͉��Љ��&��Z��e��܎��&��Ā��e��Z��w�� 3��=A�GWc��,��Վ��)�䉣��T�ۃ��X�� s��#�ĉ��͍'��Y��$�͉��Չ��&��Y��`��֎ ��%��̀��f��Y��y��Վ�� 1��A�GWr��+��Ԏ��*�≤��U�׃��X�� v��&��ύ'��Y��ހ��%�͉��܉��'��Y��x��ڎ��&��Ԁ��f��Z��ڎ ��3��A�GW��N��ڎ��,�≢��W�߃��X��y��%�ĉ��΍'��Z��$�ˉ��&��Z��ڎ��%��h��Z��܎ ��5��Ӏ��XA�GW��ی��Ҏ��+�ቤ��Y�ڃ��X��]�� t��%��Ѝ'��Y��]��'�̉��%��Z��ƀ�ގ ��%��瀣�h��Y��ۀ�ߎ ��2��A�GW��f{��-�≢�"�\�݃��Y��x�� &�É��ύ'��Z��x��%�ˉ��%��Z��W��َ ��'��쀤�j��Z��k��ߎ �� 5��I��`A�GW��݀�ڎ��,�㉡�2�]�ރ��X��݀��w��*�ĉ��)�э'��Y��ǀ��*�ˉ��%��Z��U��ݎ��'��􀤅j��Z��:��ގ �� 4��KA�GW��u��󍨍��-�≡�H�a�ۃ��Y��ǀ� ��z�~��%�ŉ��@�ҍ'��Z��ŀ��x��%�ˉ��&��[��P��Վ��&��l��[��;��ߎ�� 5��xA�GW��ی��Վ��*�≣�]�c�⃒�Y��p��%�É��P�ҍ'��Y��р��򍇍��$�͉��&��Z��,��%��l��Z��2�� 3��ۀ��A�GW��p��Ɏ ��,�剤�m�e�݃��X��F��!�h��&�ĉ��e�Ս&��Z��b��"�̉��%��Z��(��'��򀣅m��Z��'��4��{A�GW��Pۀ�ݎ��)�䉣�g�h�ꃒ�X��o��s��$�É��]�Ս'��Y��v� ��.�͉��&��Z�� ݎ ��$��ۀ��o��Y��(��ێ�� 3��7��6A�GW��݃��򍨍��-�剤�V�n�ヒ�Y��z��%�ĉ��L�؍'��[��x��&�̉��'��[��؎��&��Ԁ��p��[��ێ�� 5��ŀ��A�GX��3��-�㉤�?�r�ბ�Y�� t��$��3�؍'��Z��%�͉��&��Z�� %��ր��p��Z��3��A�GX��z��܎��+�㉣�$�u�߃��Y��r��'�ĉ��ٍ'��Z��'�͉��&��\�� &��q��[��#��3��Q��A�GX&��D��ގ ��,�≣�*�z�탒�Y��ڀ��s��%�ĉ��ڍ(��Z��&��(�̉��&��Z��ۀ��(��耣�r��Z�� 4�� A�GX5�զ��܎��*�㉤�"�~��Y��_��r��'�É��܍'��Z��'�Ή��&��[��&��퀣�r��[��5��A�GXD��L��ڎ ��+�ባ��X��C��r��&�� ލ'��Y��j�� 䍔��&�̉��&��Y��ـ��%��r��Y��߀��2��M��A�GXS��-�≣��X�� v��&�ĉ��ލ'��Z��q��&�ʉ��&��Z��ߎ ��%��t��Z��ހ��7��:��9A�GXb�)��Ԏ��+�≣��X��v��%��'��Y��p��$�͉��&��Z��ـ�ގ��'��t��Y��H�� 3��A�GXq�t��܎ ��+�≣��Y��q��%��'��Z��j��&�͉��'��Z��$��ߎ ��&��u��Z��%�� 4��:A�GX��z��􍣍��+�ቤ�-��Y��v��$�ŉ��(��Z��p�� v��%�͉��%��&��Z��Վ��&�� v��Z��р�ݎ��4��A�GX�� )�≤�B��X��h��s��!��7��(��Y��]��p�� ͉��*�ݍ'��Y��A��َ ��%��)��x��Y��߀�� 1��A�GX��i�׎��*�≤�T��X��c�� q��$�ŉ��L��(��Y��^��$�ʉ��/�ݍ&��Y��ƀ��%��+��x��Y��2��ŀ��A�GX��>��-�ባ�h�� Z��ʀ��z�~��%�ŉ��_��'��[��q�� z��&�ʉ��3�ٍ&��[��߀�؎��'��-��z��Z��ێ�� 4��򀤅�)A�GX��׎��-�ባ�z��Y��[��j��%�ŉ��p��'��Y��p��#�̉��5�׍'��Z��&��/��{��Y��4��$XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / 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 = 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 = 613329782.85154 TSTOP = 613330947.87526 DATE-OBS= '2020-06-08T17:22:57' DATE-END= '2020-06-08T17:42:22' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804400000000 / [s] UTCF at TSTART TELAPSE = 1165.02372002602 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 323 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3HG3AGD03GD0AGD0' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1716964101' / data unit checksum updated 2020-06-18T16:20:48 HISTORY TASK: FAPPND on FILENAME: sw00976692000b143x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GU�l�C�B�@�� Б��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�GU��B�@�� (�v��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�GVu�x��B�@�� [��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�GW�i�$�B�@�� D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�GX��B�@�� )�F��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 120 / width of table in bytes NAXIS2 = 7 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 29 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BBRCLNSTRBS0' / BR Clean Stategy: backsub image clean-balance sTFORM2 = '1J ' / data format of field: 4-byte INTEGER TTYPE3 = 'BBRCLNSTRBS1' / BR Clean Stategy: backsub image clean-balance sTFORM3 = '1J ' / data format of field: 4-byte INTEGER TTYPE4 = 'BBRCLNSTRBS2' / BR Clean Stategy: backsub image clean-balance sTFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BBRCLNSTRBS3' / BR Clean Stategy: backsub image clean-balance sTFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BBRCLNSTRBS4' / BR Clean Stategy: backsub image clean-balance sTFORM6 = '1J ' / data format of field: 4-byte INTEGER TTYPE7 = 'BBRCLNSTRBS5' / BR Clean Stategy: backsub image clean-balance sTFORM7 = '1J ' / data format of field: 4-byte INTEGER TTYPE8 = 'BBRCLNSTRBS6' / BR Clean Stategy: backsub image clean-balance sTFORM8 = '1J ' / data format of field: 4-byte INTEGER TTYPE9 = 'BBRCLNSTRBS7' / BR Clean Stategy: backsub image clean-balance sTFORM9 = '1J ' / data format of field: 4-byte INTEGER TTYPE10 = 'BBRCLNSTRBS8' / BR Clean Stategy: backsub image clean-balance sTFORM10 = '1J ' / data format of field: 4-byte INTEGER TTYPE11 = 'BBRCLNSTRBS9' / BR Clean Stategy: backsub image clean-balance sTFORM11 = '1J ' / data format of field: 4-byte INTEGER TTYPE12 = 'BBRCLNSTRNBS0' / BR Clean Stategy: non-backsub image clean-balanTFORM12 = '1J ' / data format of field: 4-byte INTEGER TTYPE13 = 'BBRCLNSTRNBS1' / BR Clean Stategy: non-backsub image clean-balanTFORM13 = '1J ' / data format of field: 4-byte INTEGER TTYPE14 = 'BBRCLNSTRNBS2' / BR Clean Stategy: non-backsub image clean-balanTFORM14 = '1J ' / data format of field: 4-byte INTEGER TTYPE15 = 'BBRCLNSTRNBS3' / BR Clean Stategy: non-backsub image clean-balanTFORM15 = '1J ' / data format of field: 4-byte INTEGER TTYPE16 = 'BBRCLNSTRNBS4' / BR Clean Stategy: non-backsub image clean-balanTFORM16 = '1J ' / data format of field: 4-byte INTEGER TTYPE17 = 'BBRCLNSTRNBS5' / BR Clean Stategy: non-backsub image clean-balanTFORM17 = '1J ' / data format of field: 4-byte INTEGER TTYPE18 = 'BBRCLNSTRNBS6' / BR Clean Stategy: non-backsub image clean-balanTFORM18 = '1J ' / data format of field: 4-byte INTEGER TTYPE19 = 'BBRCLNSTRNBS7' / BR Clean Stategy: non-backsub image clean-balanTFORM19 = '1J ' / data format of field: 4-byte INTEGER TTYPE20 = 'BBRCLNSTRNBS8' / BR Clean Stategy: non-backsub image clean-balanTFORM20 = '1J ' / data format of field: 4-byte INTEGER TTYPE21 = 'BBRCLNSTRNBS9' / BR Clean Stategy: non-backsub image clean-balanTFORM21 = '1J ' / data format of field: 4-byte INTEGER TTYPE22 = 'BBRCLNSTRCI1' / BR Clean Stategy: Clean Item1 TFORM22 = '1J ' / data format of field: 4-byte INTEGER TTYPE23 = 'BBRCLNSTRCI2' / BR Clean Stategy: Clean Item2 TFORM23 = '1J ' / data format of field: 4-byte INTEGER TTYPE24 = 'BBRCLNSTRCI3' / BR Clean Stategy: Clean Item3 TFORM24 = '1J ' / data format of field: 4-byte INTEGER TTYPE25 = 'BBRCLNSTRCI4' / BR Clean Stategy: Clean Item4 TFORM25 = '1J ' / data format of field: 4-byte INTEGER TTYPE26 = 'BBRCLNSTRCI5' / BR Clean Stategy: Clean Item5 TFORM26 = '1J ' / data format of field: 4-byte INTEGER TTYPE27 = 'BBRCLNSTRCI6' / BR Clean Stategy: Clean Item6 TFORM27 = '1J ' / data format of field: 4-byte INTEGER TTYPE28 = 'BBRCLNSTRASPECT' / BR Clean Stategy: Hump aspect ratio TFORM28 = '1E ' / data format of field: 4-byte REAL TTYPE29 = 'BBRCLNSTRWEIGHT' / BR Clean Stategy: Weight to use for shielded deTFORM29 = '1E ' / data format of field: 4-byte REAL EXTNAME = 'hk160x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329794.59402 TSTOP = 613331262.91754 DATE-OBS= '2020-06-08T17:23:09' DATE-END= '2020-06-08T17:47:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804400000000 / [s] UTCF at TSTART TELAPSE = 1468.32351994514 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 352 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '6A8594546A546354' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '468825947' / data unit checksum updated 2020-06-18T16:20:48 COMMENT Column 2 = BBRCLNSTRBS0 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 3 = BBRCLNSTRBS1 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 4 = BBRCLNSTRBS2 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 5 = BBRCLNSTRBS3 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 6 = BBRCLNSTRBS4 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 7 = BBRCLNSTRBS5 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 8 = BBRCLNSTRBS6 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 9 = BBRCLNSTRBS7 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 10 = BBRCLNSTRBS8 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 11 = BBRCLNSTRBS9 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 12 = BBRCLNSTRNBS0 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 13 = BBRCLNSTRNBS1 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 14 = BBRCLNSTRNBS2 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 15 = BBRCLNSTRNBS3 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 16 = BBRCLNSTRNBS4 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 17 = BBRCLNSTRNBS5 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 18 = BBRCLNSTRNBS6 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 19 = BBRCLNSTRNBS7 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 20 = BBRCLNSTRNBS8 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 21 = BBRCLNSTRNBS9 - Discrete value COMMENT 0 = NONE = Balance type NONE COMMENT 1 = ALL = Sum all detectors == 0 COMMENT 2 = CLEAN = Do CLEAN step now COMMENT 3 = MODULE = Sum all dets in each mod. == 0 COMMENT 4 = INOUT = Sum all int. dets in each mod. == 0, likewise edge detsCOMMENT 5 = EDGES = Sum of dets along each line of module edges == 0 COMMENT 6 = LONGEDGES = Sum dets in each 256-det edge == 0 COMMENT 7 = SHORTEDGES = Sum dets in each 128-det edge == 0 COMMENT Column 22 = BBRCLNSTRCI1 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 23 = BBRCLNSTRCI2 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 24 = BBRCLNSTRCI3 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 25 = BBRCLNSTRCI4 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 26 = BBRCLNSTRCI5 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned COMMENT Column 27 = BBRCLNSTRCI6 - Discrete value COMMENT 0 = NONE = No more cleaning COMMENT -2 = EDGES = 1 for edges, 2 for corners, 0 for interior COMMENT -3 = X = prop to dist. from cent. in long dim COMMENT -4 = Y = prop to dist. from cent. in short dim COMMENT -5 = HUMP = prop. to x^2 + aspect * y^2 COMMENT -6 = SADDLE = prop. to x^2 - y^2 COMMENT -7 = DIAGSADDLE = prop. to XY COMMENT -8 = SOURCES = Sources in FOV marked in catalog as to-be-cleaned HISTORY TASK: FAPPND on FILENAME: sw00976692000b160x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GU�L��?�=��A�GU��?�=��A�GV��%��?�=��A�GV��<��?�=��A�GW��},��?�=��A�GW��4��?�=��A�GX�uq��?�=��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / width of table in bytes NAXIS2 = 7 / 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 = 613329794.59478 TSTOP = 613331262.91832 DATE-OBS= '2020-06-08T17:23:09' DATE-END= '2020-06-08T17:47:37' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804400000000 / [s] UTCF at TSTART TELAPSE = 1468.32353997231 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 353 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'S1SSS0PRS0PRS0PR' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1648515874' / data unit checksum updated 2020-06-18T16:20:48 HISTORY TASK: FAPPND on FILENAME: sw00976692000b161x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GU�L!��M](+Cs5�B�t�?�;ě�Ap?�A�GU��M[(+Cs5�B�t�?�;ě�Ap?�A�GV��>��MZ(+Cs5�B�t�?�;ě�Ap?�A�GV��U��MZ(+Cs5�B�t�?�;ě�Ap?�A�GW��MY(+Cs5�B�t�?�;ě�Ap?�A�GW��M��MY(+Cs5�B�t�?�;ě�Ap?�A�GX�u��MU(+Cs5�B�t�?�;ě�Ap?�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 294 / width of table in bytes NAXIS2 = 70 / 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 = 613329249.09522 TSTOP = 613331319.0946 DATE-OBS= '2020-06-08T17:14:04' DATE-END= '2020-06-08T17:48:34' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99937999249 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 369 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'MFCaNCCWMCCaMCCU' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2978954553' / data unit checksum updated 2020-06-18T16:20:48 HISTORY TASK: FAPPND on FILENAME: sw00976692000b171x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��0+��ˉ:�#�K�^��F��$�4�M�X�\�O�A�m�Eʌb�g�a�\ �f�o��o�f ��r�t�\ �d�[��ь�� A�GT��̉?�(�N�a��K��)�8�R�\�b�S�E�r�Iόi�p�i�c�m�w�� v�m��x�{�c�j �d��ց�� A�GTΌ*��̉;�!�L�]��H��#�4�L�U�]�Q�@�k�Bˌb�i�a �\ �e�p ��m�f�� q�s�]�c�[��Ӎ�� A�GT݌��̉:�#�K�[��H��#�5�L�W�_�N�B�m�Dʌb�g�a�]�e�o ��o�g��q�u�\ �d�\��ь��A�GT��̉<�$�I�Z��H��"�6�L�X�^�N�A�l�Ďd�g �b �[�g�o��o�f��p�u�\�d�\��э�� A�GT��̉;�"�J�\��F��#�5�L�V�]�O�@�k�Dˌd�g �b�\�e�o ��n�g�� q�u�]�c�[��ҍ�� A�GU �y��̉9�$�I�\��H��"�4�M�U�^�O�B�o�BɌb�g �a�\ �f�o��o�e ��q�t�]�d�\��Ҍ�� A�GU��̉9�#�J�Z��H��"�6�L�U�]�P�A�j�CɌb�i �a �[ �f�o��o�f�� p�t�] �c�]��э�� A�GU(�3��̉;�!�K�]��I��"�5�L�U�\�P�@�l�Cˌb�i�a �\ �g �q ��n�f��r�t�\�c�\��ҍ�� A�GU7�*��̉9�"�J�Z��H��#�5�L�W�^�O�A�m�DɌc�h �a �\ �f�q��n�f��q�t�] �d�]��ҍ�� A�GUF�y��̉;�"�J�\��F��%�5�M�W�^�Q�@�m�Cˌd�g �a�\�f�p ��n�g ��r�u�\ �d�\��ҏ�� A�GUU��̉B�)�P�a��M��)�:�R�\�c�W�E�r�Ii �p�h�d�m �x�� u �m��x�{�d�j �c�� ׂ�� A�GUd��̉9�#�K�[��H��#�4�M�W�]�P�C�n�DɌd�i�a�\ �f�o ��p�f �� q�t�]�d�\��ҍ�� A�GUs��̉:�#�J�^��I��%�4�M�V�]�O�A�j�Dʌd�h �b�\ �f �o ��o�f �� q�t�\ �c�\��ҍ�� A�GU��̉<�"�J�\��I��#�5�K�V�^�O�@�k�Ěb�h �b�\ �f �o��n�f��r�t�\�d�\��ҍ�� A�GU��!��̉<�"�K�[��H��$�5�N�V�_�O�A�l�Ďd�h�b�\ �f�p��n�g��r�u�\�d�\��ю�� A�GU��̉<�#�I�\��H��%�5�N�X�^�O�@�l�Čb�i �a�] �f�r ��n�f��q�t�^�d�]��Ӎ�� A�GU��̉<�#�J�[��I��#�7�M�V�^�O�A�n�Ěb�h �a�\�e �q��o�g ��p�u�\�d�]��Ҏ�� A�GU��̉<�$�L�\��G��"�7�M�W�^�P�A�m�Čd�h�a�\ �g�p ��n�g ��r�t�] �d�\��Ҏ�� A�GU͌��̉<�"�L�]��G��$�6�K�V�_�O�B�n�Ďb�i�b �\ �g�p ��o�g��r�u�]�d�\��Ӎ�� A�GU܌3��̉=�#�L�]��I��%�6�O�Y�^�R�C�m�E͌d�i�b �] �g �q��n�f�� r�t�] �d�\��ҏ�� A�GU�v��ˉ@�(�Q�b�!�M��)�:�T�\�d�V�F�p�J��j�p�h�d�n �y�� v �n��y�{�e�k �d�� ؂�� A�GU��ˉ:�"�K�]��I��%�5�N�W�^�P�@�l�Dʌc�i�a �]�g �q ��n�f��q�t�]�c�\��ҍ�� A�GV ��ˉ<�"�K�]��H��%�5�O�X�^�P�B�l�Ěd�h�b �] �g�p��o�g��r�t�]�d�\��Ҏ�� A�GV�!��ˉ=�%�J�]��I��$�6�M�W�^�O�C�n�E͌d�h �b �\ �f �q��n�g ��q�u�\�d�]��ҏ�� A�GV'�*��ˉ<�!�L�\��J��$�6�M�W�^�Q�B�m�F̌d�i�b�\ �g �p��n�g ��r�u�\ �e�\�� я�� A�GV6��ˉ<�#�H�\��J��%�5�M�X�^�O�A�n�Ěd�h�a�\�f �o��o�f ��q�u�\�d�]��ҏ�� A�GVE��ˉ=�$�J�[��G��%�6�M�X�^�Q�B�m�D͌d�h �b�\ �f�p ��o�g ��r�u�\ �d�\��ҏ�� A�GVT�3��ˉ;�"�L�]��I��%�5�M�X�_�Q�C�l�Eˌc�i�a �\�e �q ��o�f ��q�t�]�c�]��ӎ��A�GVc��ˉ<�$�K�]��I��&�6�M�W�_�P�B�m�F̌d�h�b �\ �f �p��o�g ��q�u�\ �d�\��ҏ�� A�GVr��ˉ=�"�J�]��I��%�8�L�X�^�O�B�m�E͌d�i �b �\ �f �p��n�f��q�u�] �d�\��Ҏ��A�GV��ˉ<�"�L�\��I��%�6�N�W�`�R�@�n�Ďd�h�a�\�g �p ��p�f��r�t�^�d�\��ҏ�� A�GV��ˉ=�"�L�]��J��%�5�O�V�`�Q�A�m�E͌b�i�b �\�f �q��p�g��r�t�] �e�\�� Ҏ�� A�GV��ˉ<�#�K�^��H��$�6�N�V�^�P�@�l�Ďc�i�b�] �e�p ��o�f��q�t�]�c�]��ҏ�� A�GV��Yu��ˉ;�#�L�^��I��%�6�N�X�_�Q�A�l�Cˌd�i�a�\ �g �q ��o�f��s�u�^�c�\��Ҁ�� A�GV��y��ˉ;�$�J�]��I��$�6�M�X�^�O�B�m�Dˌc�h �a �]�g �q��o�f ��q�t�] �d�\��Ҏ��A�GV̌y��ˉ=�&�K�^��I��$�7�N�X�_�P�D�k�F͌c�h�b�] �f �p��o�g��r�t�]�d�\��ҍ�� A�GVی��ˉ>�#�L�[��I��%�6�L�X�]�Q�B�n�EΌd�i�b�\ �g �p��o�f�� q�u�\�d�\�� ҏ�� A�GV��ˉ<�$�J�]��J��%�6�O�V�^�Q�A�o�Ěc�g �a �\ �f �p ��p�g��q�t�]�d�]��ҏ�� A�GV��y��ˉ=�$�K�\��I��%�5�N�W�_�R�A�m�D͌c�i�a�\�g �q ��o�f��q�t�^ �d�\��ӎ��A�GW�3��ˉ=�#�K�_��H��$�5�M�Y�_�Q�B�o�D͌c�i�b�]�f�q��n�f �� q�t�]�e�]��Ӎ��A�GW��ˉ>�#�L�]��H��#�7�N�X�_�Q�B�n�EΌd�h�b �\ �g�p��o�f��s�u�]�e�\��Ӏ�� A�GW&�*��̉<�$�M�]��H��&�7�M�W�^�P�A�n�F̌d�h �b �\ �g�p ��p�g ��r�u�]�d�\�� Ҁ�� A�GW5�;��̉>�$�K�\��G��%�7�N�W�_�P�A�o�DΌd�i�b�\�g�q��o�g��q�u�]�e�]��ӏ�� A�GWD��̉=�&�L�\��J��&�6�M�X�_�P�B�n�E͌c�h�b�\ �f �p��p�g ��q�t�\�d�]�� Ҏ�� A�GWS��̉=�#�K�_��J��%�6�O�X�^�R�C�m�E͌c�i�a�]�g �q ��o�f��r�t�] �d�]��Ҏ��A�GWb�3��̉<�&�K�]��I��"�6�N�X�_�R�A�o�Ďd�h�a �]�f �p ��p�g��q�v�^�d�]��ҏ�� A�GWq�y��̉=�%�L�^��K��%�6�N�W�`�P�B�m�E͌c�i�a�] �g�r ��o�f��q�t�] �d�]��Ҏ�� A�GW��̉>�$�M�\��I��&�8�M�X�`�P�C�n�EΌb�i �b�\ �g �r��o�f ��r�u�]�d�\��ҏ�� A�GW��*��̉>�$�L�^��I��&�5�N�Y�]�O�B�n�FΌe�i�b�\ �f �p��p�f�� q�u�\�d�]�� ӏ�� A�GW��!��̉;�$�M�]��J��%�6�N�W�a�S�A�o�Dˌc�i �b �]�f �r��o�f��s�t�]�c�]��ӎ�� A�GW��̉=�%�K�_��J��%�7�N�W�_�Q�B�m�E͌c�i�b�\�f �p��p�g��r�v�\ �c�\��ӎ�� A�GW��6��ˉ<�&�K�^��K��%�7�O�W�a�O�C�m�Ěd�h�b�\ �f�p��o�g��r�t�] �d�]��Ҁ�� A�GWˌ��ˉ=�%�M�_��K��&�5�M�W�`�Q�C�m�E͌c�i �b�]�f�q��p�f ��q�t�] �d�]�� Ԏ�� A�GWڌ*��ˉ=�&�K�^��J��'�7�N�Y�_�Q�D�o�F͌d�h�b�] �f �p��p�g�� r�v�]�e�]�� Ҁ�� A�GW�;��ˉ=�%�J�^��J��#�6�M�X�]�Q�C�o�E͌c�h �a�] �f �q��o�f �� q�t�]�d�\��ҏ�� A�GW��ˉ?�#�L�_��H��%�7�O�Y�_�Q�B�m�Fόd�j�b�]�g�q��o�f�� r�t�\ �d�\�� р�� A�GX��ˉ=�%�M�_��H��%�6�N�Y�`�Q�A�m�E͌c�i �b�]�g�r��o�f�� r�t�^ �d�]��ӏ��A�GX�3��ˉ<�%�L�_��I��%�7�L�W�^�P�D�o�F̌d�h�c�\ �g �p��p�g��q�v�\�d�]��Ӂ�� A�GX%�#��ˉ=�'�M�]��I��(�5�N�W�a�R�B�m�E͌c�i �b �]�g �r��o�f��r�t�] �d�\��ӏ�� A�GX4��ˉ>�$�N�^��I��&�5�M�W�`�P�D�m�EΌc�i�b�]�g �r��p�f ��r�t�] �d�\��Ҁ�� A�GXC�3��ˉ>�$�M�_��I��$�5�O�Y�^�R�B�m�EΌd�i �b�]�g �p��o�g�� r�u�\ �d�\�� Ҁ�� A�GXR�y��ˉD�+�S�e�!�N��+�;�R�]�c�V�G�s�JČl�q�j�d�o�w��w�n�� z�{�e�l �c��ׅ�� A�GXa��ˉ?�%�M�^��I��&�7�M�X�_�Q�B�m�Dόe�h �b�\�f �q��o�g ��r�u�] �e�\��ҏ�� A�GXp��ˉ>�#�N�]��I��&�6�M�X�_�S�B�m�DΌd�i�b �]�h �r��p�g ��r�v�^ �d�\�� р�� A�GX��ˉ=�%�N�^��K��&�6�N�Y�_�Q�C�m�D͌d�h�b�\�h�p��o�g�� s�v�] �d�\��ҏ��A�GX��ˉ=�%�J�_��J��&�6�O�W�_�P�B�o�E͌c�i �b�]�f �p��o�f��r�t�]�e�]��ӎ�� A�GX��ˉ?�%�N�_��J��%�6�N�X�`�T�@�p�Eόd�j�c�]�g �p��p�f��r�u�^�d�\��Ҁ�� A�GX��3��ˉ<�'�L�_��L��'�7�M�W�`�Q�B�m�Ďe�h�b�] �g�q��p�g ��q�v�\ �d�\�� р�� A�GX��ˉ>�%�M�^��K��&�7�M�Y�`�P�B�o�FΌe�i �c�]�h�p��p�g �� r�v�]�e�\��Ҁ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 70 / 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 = 613329250.294 TSTOP = 613331320.29418 DATE-OBS= '2020-06-08T17:14:05' DATE-END= '2020-06-08T17:48:35' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2070.00018000603 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 371 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'RbIAUa98RaGARa97' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '35404829' / data unit checksum updated 2020-06-18T16:20:48 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: sw00976692000b173x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�%�˅T�,��t��~��v��6��]�W��r��k��x�R��t��^��j�;�=�� G�+�.��N��R��8�I�d��\��N�J�.��ߖA�GT�%��R�,��t��~��u��7��\�S��s��j��v�R��s��c��j�<�<��J�-�/��!��M��S��;�H�d��\� ��K�M�.��ݴA�GT�%�˅T�+��t��}��u��8��\�^��r��h��w�R��s��]��j�;�=��I�,�0�� M��U��8�H�f��\� ��Y�N�.��A�GT�%�j�S�-��s��}��v��9��[�t��q��e��y�R��s��k��j�;�=�� I�,�/��!��O��Q��:�H�c��]� ��N�O�-��A�GT�%�>�R�,��t��}��u��9��^�_��r��h��w�R��s��_��j�<�>�� H�-�2��"��N��T��:�I�f��\� ��X�P�.��A�GT�%�j�R�,��t��}��v��+��]�^��q��n��w�S��s��T��j�;�=�� I�.�-��#��S��T��;�I�f��]� ��W�O�/��A�GU%�{�Q�,��t��~��v��*��[�Z��t��k��y�S��s��[��j�;�=��I�,�/��"��R��R��:�I�e��]� ��F�J�/��nA�GU+�G�T�,��t��~��v��*��\�T��s��n��{�R��s��^��j�:�>��H�-�0��#��S��U��;�I�d�~�^� ��[�L�.��A�GU)%�j�T�,��t��~��v��)��[�K��s��l��z�S��t��d��j�9�>�� G�+�0��#��S��T��9�H�f��]� ��X�O�.��dA�GU8%�˅T�,��t��~��w��*��\�i��t��k��{�S��t��d��j�8�>�� I�,�/��$��L��Q��:�I�c�}�\��Q�T�-��A�GUG%�{�U�-��t��}��w��*��]�_��t��l��z�S��t��l��j�9�>��I�.�/��#��N��S��:�I�e�{�\��U�V�.��FA�GUV%�U�,��t��}��v��*��]�[��s��l��w�S��t��Y��j�9�?��I�-�1��$��Q��Q��<�I�f�|�]� ��S�O�-��=A�GUe%�j�V�,��u��~��v��*��]�\��t��m��y�S��s��a��j�8�?��J�.�.��"��P��Q��<�I�f�|�]� ��R�Q�-��܂A�GUt%�˅V�-��t��~��v��*��\�Y��s��l��x�S��s��Z��j�8�>��J�,�+��#��T��P��<�J�e�{�^� ��N�Q�/��3A�GU�%�j�U�-��t��}��v��(��^�P��s��n��w�S��s��Z��j�8�?��J�.�/��$� ��R��R��:�I�g�{�]� ��R�S�.�� A�GU�%�s�V�-��t��}��v��(��]�f��s��o��x�T��s��Z��j�9�>��J�.�1��%��P��Q��;�I�e��]� ��^�N�.�� A�GU�%��U�-��t��}��w��(��]�\��t��m��x�T��s��T��j�9�>��J�.�0�� R��R��;�I�d�~�]��O�L�/��A�GU�*a|�V�-��t��}��v��(��]�W��t��o��w�T��s��f��j�9�?��I�.�0��%��R��S��=�I�f��]� ��V�S�/�� A�GU�%�#�V�,��t��}��v��(��^�X��t��l��y�T��s��k��j�9�?��J�.�.��&��L��U��;�I�d��]��\�N�/��%A�GU�+�X�V�-��u��}��w��)��\�U��s��k��x�T��t��S��j�9�?��J�.�/��(� ��O��V��?�I�e��]��[�M�0��3A�GU�%� �V�-��t��}��w��)��Y�U��s��f��x�T��s��[��j�8�>��I�/�0��#� ��R��T��=�I�e��]��T�L�0��A�GU�%�W�-��u��~��w��*��[�J��s��k��y�T��s��O��j�9�>��J�.�2��#��Q��U��;�I�g�}�^��K�M�/� ��DA�GU�%�{�W�-��t��~��w��+��^�K��t��k��y�T��t��U��j�9�?��J�/�0��#��R��U��<�J�e��_��K�U�0��[A�GV %�X�-��t��}��v��+��]�Y��s��l��y�T��t��V��k�9�?�� H�.�0��#��P��V��:�J�g��]��S�Q�/��"A�GV%�{�X�-��t��~��w��)��^�W��t��j��y�T��t��e��j�8�@��K�/�/��"��R��W��;�I�h�~�^��T�L�0��A�GV(%�ӅX�-��t��~��w��(��^�K��s��i��y�T��s��W��k�9�@��J�.�0��"��M��U��:�I�g�|�]��P�K�/��"A�GV7%��W�-��t��}��w��(��^�o��s��i��y�T��s��Y��k�9�@��J�0�0��#� ��M��V��<�I�i�y�]��P�O�0��A�GVF%�#�W�-��u��~��v��'��]�X��t��m��y�T��s��]��j�9�?�� I�0�-��"��K��X��<�J�h�z�\��Q�J�0� ��pA�GVU%�W�-��u��}��v��)��]�X��s��k��x�T��s��e��j�9�?�� I�1�/��$��Q��Y��;�J�g��\��K�J�/�)��A�GVd%�˅T�-��t��~��w��*��\�N��s��l��x�T��s��b��k�9�?��H�0�,��%��R��U��:�K�j�y�]��I�T�/��޷A�GVs%�U�.��t��}��w��+��\�]��s��k��y�T��s��\��k�9�@��I�/�-��"��R��V��;�I�g��^��Q�P�1� ��dA�GV�%�j�V�-��t��~��w��+��]�Y��t��j��y�T��s��^��j�9�?��I�.�,�� P��S��:�H�f�~�\��I�Q�/��A�GV�%�˅V�.��u��~��w��+��^�Y��t��j��z�U��s��Y��j�:�>��I�0�.��"��P��V��9�J�h�~�^��R�M�0��A�GV�m�w�U�-��u��w��*��\�X��u��h��y�U��t��T��k�9�@��K�1�/��%��O��U��;�I�e�}�]��G�O�0��A�GV�%�j�V�-��u��~��w��,��]�e��u��i��y�T��s��h��k�9�?��I�.�2��#��R��W��<�J�h�w�_��H�T�0��A�GV�(��V�.��u��~��w��6��^�[��t��k��y�U��s��b��k�9�@��J�/�3��#��V��V��=�I�f�{�]��V�P�0�!�� /A�GV�%��W�.��u��}��w��7��]�S��u��i��z�U��s��c��k�9�@��I�/�/��%��R��W��>�I�d�~�]��G�P�0�� ݟA�GV�,V.�U�.��u��w��7��\�Y��v��i��y�U��s�� Z��k�9�@��K�/�0��#��S��V��>�J�g�|�]��S�U�0�� OA�GV�%��V�-��u��~��w��9��[�\��u��j��{�U��t��\��j�:�?�� I�0�-��%��Q��T��<�J�g��^��Q�S�/��޺A�GV�/�V�.��t��w��<��]�U��u��l��{�U��t�� d��k�9�?��J�/�*��%��X��U��>�J�h��^��V�P�0��A�GW %�a�W�-��u��~��x��:��\�V��v��k��{�U��t��f��k�9�@�� J�0�*��$��Y��V��;�J�h�|�]��X�W�0��A�GW%�t�T�.��t��w��.��[�a��u��j��|�U��t��c��k�9�?��K�1�*��$��N��U��=�J�i��^��N�U�0��A�GW',��T�.��t��w��-��\�\��u��l��z�T��t��c��k�:�@��J�0�'��&��P��T��<�J�h�|�^��W�X�0�� ݍA�GW6*�P�W�.��t��w��-��_�Y��t��h��{�U��s��^��j�8�@��J�1�)��(��P��S��<�I�f��^��[�Z�/��A�GWE(�V�T�.��v��~��w��,��`�V��s��m��z�U��t��w��k�8�>��J�1�)��&��R��U��<�I�i�y�_��R�V�/�!��5A�GWT.;%�T�.��t��~��x��,��]�L��t��m��|�U��s��`��k�9�@��K�/�&��'��X��V��;�I�i�}�^��K�X�0�� ݛA�GWc&�ʅU�.��u��w��+��^�c��u��l��z�U��s��c��k�9�?�� L�1�)��)��W��X��>�J�h�~�^��V�P�0��4A�GWr*�s�T�.��t��~��v��*��`�Z��v��j��|�V��s��e��k�9�@��K�0�(��&��T��Y��=�J�h��^��O�P�0��A�GW�%��S�.��u��~��w��*��]�Z��u��i��z�V��s�� \��k�:�@�� J�1�)��"� ��T��W��<�J�j�|�^��T�M�1� �� A�GW�'Z2�R�.��u��~��w��*��]�M��t��i��{�V��s��`��k�9�A�� J�0�(��#��U��Y��;�K�h�~�^��O�N�0��ڂA�GW�%�U�.��t��~��w��)��[�[��t��h��{�U��s�� `��k�9�A��K�0�)��%��V��U��:�K�j�{�^��R�P�/�� A�GW�%�a�T�.��u��}��w��+��Z�[��v��j��{�U��r��[��j�9�@��K�1�*��&��T��X��>�K�h��^��U�N�0�� QA�GW�eoT�T�.��t��~��w��,��[�W��v��j��{�V��s�� ]��k�9�?��J�1�*��#��V��U��>�K�h��^��_�S�0��޷A�GW�,u��T�.��u��x��,��[�P��u��h��z�V��s�� _��k�:�?��K�0�(��'� ��S��S��<�K�g�|�_��T�O�2�� A�GW�%�j�S�.��u��x��,��]�b��u��j��z�U��s��`��k�:�@��L�0�-��(��T��T��=�K�i�|�^��Z�P�1� �� A�GW�%�j�T�.��t��w��,��_�Y��u��g��z�V��s��k��k�:�A��J�0�+��&��N��V��=�K�k��]��T�O�0��A�GW�&�΅S�.��u��~��x��+��^�S��t��g��y�V��s�� S��k�:�?�� K�2�.��*��Q��V��<�J�j�~�^��H�R�1��|A�GX%��U�.��t��x��*��_�N��s��g��y�V��s��[��k�:�@��J�1�-��(� ��W��Y��<�K�k��_��U�O�1�$��A�GX%��T�.��u��x��,��_�b��u��e��z�V��s��Z��k�:�?��K�0�-��&��N��V��<�K�j��^��U�O�1��A�GX&(�S�T�.��u��x��+��`�Z��v��d��|�V��r��Y��k�:�B��K�2�.��(��Q��V��>�K�h��_��J�N�0��A�GX5%��T�.��u��w��*��_�W��u��d��y�V��s�� _��k�:�@��K�1�,��0��N��U��=�K�g��^��X�O�2��ݼA�GXD%� �R�/��u��w��+��_�R��u��h��|�V��s�� f��k�:�A��K�1�/��+��T��U��>�L�i�z�^��Z�Q�0��A�GXS-�P�R�/��u��x��,��]�v��t��d��x�V��s��!��b��j�:�B��K�3�0��-��W��V��<�M�j��]��Y�Q�1��mA�GXb*��S�.��u��x��,��`�_��u��c��z�V��t��!��_��k�9�A��L�1�0��,��V��V��@�L�j��^��W�R�1��A�GXq+�ɅT�/��u��x��.��`�Z��v��b��y�V��s��!��f��k�9�B��K�0�-��)��W��V��=�L�k��`��H�R�0� ��ޑA�GX�+ ��T�.��u��w��-��_�\��u��e��x�V��s��"��[��k�:�A��J�3�.��)� ��X��X��;�K�k��^��K�S�0��A�GX�&N�U�/��u��x��-��_�Q��v��f��{�W��s��f��k�9�?�� J�2�-��*��T��U��:�K�l��^��[�S�1�� ߋA�GX�,��V�.��u��y��-��_�_��w��d��z�W��s��!��i��k�:�?��I�2�/��(��V��V��;�L�i��^��L�Q�1��ݔA�GX�%�j�R�.��u��y��-��a�`��v��c��{�V��s��!��m��k�:�@��L�4�0��)��S��T��?�L�l��_��S�Q�0��A�GX�%��S�/��u��x��,��`�[��w��c��z�V��t�� z��k�:�@��L�2�-��'��R��V��>�L�l�y�_��W�S�0��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 70 / 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 = 613329250.29574 TSTOP = 613331320.2959 DATE-OBS= '2020-06-08T17:14:05' DATE-END= '2020-06-08T17:48:35' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2070.00015997887 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 372 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3OMBAOJ94OJAAOJ7' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2740237552' / data unit checksum updated 2020-06-18T16:20:48 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: sw00976692000b174x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�%�υ��$�y��1��h�g��M��]��1�� q��j��F�7��O�I�~ ��D��L��c�E��k�M��8�"��6�{�&��c�.��v�+��A�GT�%��'�|��2��f�f��S��\��2�� s��k��F�=��P�I�~ ��C��O� �d�D��l�Q��8�%��H�y�%��c�.��v�*��%�|��6��h�i��N��_��6��"��u��h��F�5��R�L�� E��M��e�E��k�K��5�*��O�|�7��c�0��w�-��}A�GW %��)�{��5��^�j��S��_��5��"��t��g��G�;��R�L�� G��L� �e�E��k�J��5�$��M�}�.��c�0��v�,��:A�GW%�Ѕ��+�|��7��f�i��M��^��6�� "��r��h��G�;��S�L� ��G��M��e�E��l�O��6�'��R�}�+��c�0��w�,�́A�GW',��+�|��5��h�j��O��^��3��#��r��h��H�;��S�L�� F��R��e�E��l�O��5�%��U�|�)��c�0��w�-��A�GW6+��,�}��8��`�k��O��^��5��"��r��h��F�<��S�L�� C��L��e�D��l�J��2�(��L�~�(��c�/��w�-��A�GWE)"S��-�|��7��f�k��P��_��4�� "��t��h��F�;��S�K�� C��Q��e�E��l�J��5�'��M�|�'��c�/��w�,��A�GWT.uy��+�{��7��j�j��T��_��2��"��q��h��G�7��S�L� ��E��O� �e�E��l�H��5�*��L�{�&��c�0��x�-��A�GWc&�ƅ��0��5��[�j��P��_��4��"��s��h��H�6��R�L�� J��J� �e�D��n�M��4�&��Y�|�&��c�0��w�-�˲A�GWr+(��/�~��6��b�l��N��`��3��"��t��h��H�;��S�M�� G��T� �e�D��m�L��6�&��Z�{�%��c�0��w�-��A�GW�%�e��*�|��6��e�l��P��a��6�� "��t��h��H�<��S�L� ��G��Q� �e�D��l�J��5�)��^�~�$��c�/��w�,��ZA�GW�'��0�{��6��j�k��Q��a��5��"��t��h��H�7��S�L�� I��P��e�D��l�M��6�)��>�|�$��c�/��x�-�� A�GW�%��0�}��6��[�j��R��_��7�� "��s��h��I�;��S�L�� H��M��e�D��m�K��7�%��S�}�$��c�0��x�-��.A�GW�%�e��*�{��6��b�k��R��a��6�� "��t��h��I�:��S�M�� J��M��e�D��m�K��4�#��W�{�$��c�0��x�-��HA�GW�e��,�|��6��e�k��O��`��5��"��r��h��H�8��S�K� ��H��O��e�C��m�K��4�%��L�}�#��c�1��x�-��A�GW�,��-�z��8��l�l��R��`��4�� "��s��h��G�7��S�L�� J��P��e�E��m�P��4�'��F�|�#��d�0��x�.��oA�GW�%�ƅ��/�}��8��Z�l��U��`��3��#��t��i��H�<��T�M�� K��K��e�D��m�K��7�%��M�|�#��c�1��w�.�ΞA�GW�/�I��0�}��5��^�l��R��`��4��"��u��h��H�>��S�M�� G��M� �e�E��l�L��7� ��O�}�#��c�2��w�.�ͻA�GW�&�+��,�~��6��e�l��S��`��2�� "��t��i��I�<��S�M�� G��S��f�D��m�N��6�)��L�|�#��d�0��x�-�ͿA�GX%൅��-�|��5��h�k��Q��`��4��"��s��i��H�;��S�L�� J��P��e�D��m�Q��5�%��N�}�#��c�0��w�-��A�GX%�e��2�{��7��j�k��R��`��4��"��t��i��H�:��T�M�� J��O��f�E��m�K��6�"��Q�|�#��c�1��w�-��XA�GX&(ꞅ��/�}��7��_�l��S��`��5��"��u��i��I�6��T�M�� G��C� �e�D��m�N��6�$��E�|�$��c�1��x�-�̒A�GX5%⬅��+�|��6��e�l��P��_��4�� "��u��i��H�4��S�K�� I��J��f�D��n�N��8��C�|�$��c�1��x�-��A�GXD%� ��/�|��9��i�k��M��_��4��"��u��i��I�;��T�M�� J�� N��e�D��m�K��6�)��N�}�$��c�1��w�.��sA�GXS-��/�|��8��Z�l��M��_��4��"��v��i��H�;��T�M�� I��L� �f�E��l�M��8��P�}�$��c�1��w�-��0A�GXb*◅��-�|��8��\�l��N��`��4��"��s��h��G�7��S�L�� J��L��f�D��m�M��6�'��I�}�$��c�1��x�-��A�GXq+�ͅ��+�|��8��b�k��K��_��5�� #��v��i��G�6��T�N� ��K��N� �e�E��l�M��6��R�}�$��c�2��w�-��A�GX�+B��+�}��8��f�k��L��^��5��"��s��j��I�:��Q�L�� N�� M��f�E��n�Q��8�)��A�}�$��c�1��w�-�̷A�GX�&F��+�}��7��j�l��K��_��7��"��s��i��H�:��T�M�� J��E� �f�E��m�P��7�&��=�}�$��c�2��x�.��A�GX�-��0�|��6��Y�l��J��`��7��#��s��i��G�9��T�L�� M��K��f�E��l�N��7�*��Q�~�%��c�2��x�,�͟A�GX�%��)�~��7��]�m��N��_��8�� #��r��i��H�6��T�M� ��M��L� �f�E��l�N��8�'��=�}�(��c�2��w�-�ЉA�GX�%� ��)�}��6��b�m��Q��`��6��"��q��h��I�5��U�M�� K��G� �f�E��m�P��8� ��H�|�'��d�2��x�-��VXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 70 / 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 = 613329251.4454 TSTOP = 613331321.44506 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99966001511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 373 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:48' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'TnbTTnbTTnbTTnbT' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2802915864' / data unit checksum updated 2020-06-18T16:20:48 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: sw00976692000b175x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��ޅY��o��T��.�v�� K�m��5��T��v��:� �o��<�G��(�@�u��!��"�%�4�p��8�]��>��rA�GT�� Z��p��U��/�v��M�k��6��V��t��;��m��<�H��'�@�s��!��"�#�4�q��9�]��?��A�GTϹ.�Z��p��\��-�w�� P�c��5��}��T��t��;� �m��;�I��'�?�q��!��#�$�2�q��=�]��?��ʻA�GT޸�ÅY��p��P��.�w��M�r��5��U��t��;� �l��:�H��&�@�r��!��$�%�2�r��>�]��?��A�GT��ՅZ��p��T��.�w��M�m��5��t��U��u��9��n��;�J��'�?�s��!��%�%�2�q��;�]��@��A�GT��b�Z��q��Y��-�v��H�m��5��V��u��9��m��;�H��'�?�v��!��$�%�4�r��:�^��>��ͶA�GU��[��p�� ]��-�v�� J�j��5��V��u��8��n��:�G��'�@�s��!��#�%�2�r��6�^��@��ȠA�GU�ޅ[��q�� P��-�w�� K�k��5��W��t��:��n��<�G��'�>�m��!��$�%�2�r��;�]��>��A�GU)�� Z��p��c��.�v�� L�e��6��{��V��u��;��o��9�J��'�?�m��!��$�%�3�r�}�=�]� �?��̤A�GU8�ՅZ��p�� Z��.�v��M�j��5��y��X��u��;��n�� ;�G��'�@�t��!��$�&�5�r��8�^��?��LA�GUG��Z��q��X��.�v��M�f��6��X��u��;��o��;�K��'�@�v��!��$�&�2�r��6�]��@��MA�GUV��Y��p��[�� /�y��N�d��5��W��u��:� �n�� :�K��(�@�u��"��$�&�2�r��=�]��?��A�GUe�� [��p��R��.�y��M�n��5��V��v��9��n�� ;�K��(�@�r��!��$�&�2�r��7�]��@��˷A�GUt��Z��p��e��/�x��L�j��6��Y��v��;��o�� ;�K��'�@�m��!��$�'�5�q��?�^��@��˺A�GU��b�[��p��f��.�w�� M�i��6��u��V��w��=��o��=�F��(�@�t��"��$�&�2�r��>�^��?��̎A�GU��ՅZ��p��]��/�y�� I�f��6��X��u��<��o��;�K��(�@�y��!��$�&�2�r��7�]��?��ɩA�GU��Y��q�� e�� .�w�� K�g��6��o��W��u��;��p��;�K��(�@�v��"��$�%�4�q��:�^��@��HA�GU��.�[��p�� X��/�w��M�i��5��X��u��;��o��;�G��(�@��"��$�'�3�s��9�]��@��A�GU��\��p��Y��-�x��N�d��6��X��u��<��o��<�I��'�A�}��"��%�'�5�s��8�]��?��̬A�GUθ�b�[��p��Z��-�x��N�c��6��x��X��u��;��p��<�F��(�@�t��"��%�(�3�r��:�]��@��A�GUݸ��\��p�� i��.�y�� N�e��6��W��w��>��p��=�G��(�?�q��"��%�&�5�s��=�]��A��ˉA�GU��b�[��p��c�� .�w�� L�`��6��q��W��u��=��o��<�L��)�@�t��"��$�%�2�s��;�^��@��A�GU��.�\��q�� h��.�x��K�d��6��X��u��?��o��<�J��(�@�w��"��$�&�4�s��6�]��A��EA�GV ��b�\��p�� m��/�x��M�d��7��X��u��>��o��=�C��(�?�z��"��%�'�5�r��7�^��A��ʨA�GV��[��q��i��.�w�� J�b��7��y��W��v��?��p��<�I��)�?�t��"��%�&�5�r��9�^��@��ȅA�GV(��H�]��q��[��/�y�� I�`��7��X��u��<��p��<�K��)�@�r��"��$�&�5�s��:�^��@��)A�GV7��j�]��p��^��.�w��J�]��6��V��u��>��o��<�M��)�?�u��"��&�'�5�s��?�^��@��~A�GVF�Յ]��p��\��.�x�� M�^��7��z��W��u��;��o��=�J��(�@�z��"��&�&�3�r��>�^��@��A�GVU��b�^��p��g��.�x��K�W��7��Y��u��=��o��>�J��)�A�{��"��%�'�3�s��6�]��@��A�GVd�.�]��p��e��/�x��K�W��6��u��Y��u��;��p��>�C��(�@�y��"��%�&�5�s��8�^��@��A�GVs��^��p�� Z��/�w��L�X��7��Y��v��<��o��=�C��(�@�v��"��%�'�4�r��;�]��@��A�GV��]��p��\�� -�x�� J�O��6��X��u��=��q��=�I��(�?�w��"��$�'�5�r��7�]��A��A�GV��*0�^��p��b��.�y�� K�S��7��W��u��>��o��>�K��(�?�t��"��%�(�3�s��9�^��@��A�GV��^��o��i��/�x��K�W��7��X��u��=��p��=�K��(�?�s��#��%�)�3�s��9�\��A��A�GV��Dg�]��o��f��.�w��M�W��7��v��X��v��?��o��=�J��(�@�v��"��%�)�4�r��:�^��@��YA�GV��Յ^��o�� e��.�x��N�Q��7��Y��v��=��p��>�I��(�?��"��$�'�6�q��7�^� �A��OA�GV͹.�]��o�� h��/�w��H�M��7��X��v��=��q��>�K��(�@�z��"��%�(�5�r��>�]��A��A�GVܸ� �]��o��k��/�x��I�W��7��}��Y��v��=��q��=�L��(�@�x��"��$�(�3�s��=�^��A��ʅA�GV��j�^��o�� e��.�w��I�T��7��Y��u��>��o��=�K��)�@�r��#��$�(�5�s��;�^��A��A�GV��.�]��o�� f��.�v��J�X��7��Y��v��=��p��>�L��(�?�~��#��%�)�3�s��<�]� �@��-A�GW ��]��p��h��/�x��J�W��7��g��Z��w��>��p��=�K��)�?��#��%�'�4�s��?�^��@��A�GW��b�^��o��h��.�v�� J�U��7��Z��v��>��p��=�C��(�?��#��%�(�7�s��?�]��@��A�GW'�� ^��p�� a��.�v��M�V��8��Y��v��=��p��<�J��(�@�{��#��%�(�4�s��=�^��@��A�GW6��^��q��`��/�u�� N�Z��8��Z��u��?��p��=�J��(�@�z��#��&�(�2�s��;�_� �@��]A�GWE�Յ]��p�� b��/�w��M�U��7��z��Y��u��=��q��=�I��(�?�~��"��%�)�4�t��;�_��A��A�GWT��]��p�� c��.�w��K�N��9��Z��v��=��p��=�L��(�@��"��&�(�5�s��:�_��@��A�GWc��]��p��`�� 1�x��K�L��8��Y��w��?��q�� =�M��)�>��"��'�)�6�s��<�_��@��˞A�GWr�.�]��q�� Y��0�y��K�N��8��Z��u��>��q��>�K��(�?��#��&�&�2�s��=�_� �A��A�GW��^��q��Q��/�v��J�T��8��m��Z��u��=��q��<�F��(�@��#��&�(�4�s��?�^��@��A�GW��b�^��q��W��/�w��L�L��8��Y��v��@��q��>�B��)�?��#��&�)�5�s��B�^��A��A�GW��ą_��q��a�� 0�w��K�O��8��Y��v��>��q��<�K��)�@��#��&�'�6�s��@�_��A��ȇA�GW��b�]��q�� h��/�w�� L�R��8��[��u��>��q��=�I��)�?��#��&�)�4�s��>�_� �A��.A�GW��.�]��q��]��/�v��L�K��8��q��Z��u��=��r��=�K��)�?��#��'�'�4�s��@�^��A��DA�GW̸� �\��q��\��/�w��M�S��8��q��Y��v��?��p��>�K��)�@��#��'�)�5�t��=�^��A��vA�GW۹}�]��q��_��1�x��L�T��8��X��u��?��q��=�H��(�?��"��'�'�5�s��>�^��A��A�GW��]��q�� _��/�w��K�R��9��l��Y��v��>��q��=�L��)�@��#��(�'�2�s��=�^� �@��A�GW��b�]��p�� X��1�x��K�O��8��|��Y��v��?��p��>�G��*�>��#��(�(�5�s��?�_��A��A�GX��]��p�� c��1�x��M�L��8��Z��v��>��q��>�M��)�@��#��'�'�4�s��;�^��A��[A�GX��b�\��q��[��1�y�� O�S��8��p��Z��u��?��q��>�M��)�?��#��'�(�4�s��>�^��A��˺A�GX&�Յ[��r��`��/�x��N�R��8��Z��v��>��q��<�K��)�>��#��'�)�4�s��8�^� �A��A�GX5��]��q�� `��/�y��M�^��9��Y��v��@��r��=�B��)�?��#��(�*�2�s��7�_��A��A�GXD��\��q��_��/�w��K�V��9��Z��v��>��q��=�K��(�>��#��)�*�4�t��8�_��A��˗A�GXS�Յ]��q��X��/�x�� J�X��8��x��Z��u��=��q��>�M��(�?��#��(�)�4�t��9�^��@��A�GXb��[��q�� g�� /�z��J�V��9��X��w��>��q��=�J��)�@��#��(�*�3�s��<�_��A��;A�GXq�.�[��q��`��0�y�� J�^��8��Y��v��?��p��=�M��*�@��#��(�+�4�s��9�^��A��8A�GX��%�\��q�� ^��0�y�� K�^��8��X��u��>��q��=�M��)�?��$��(�(�3�t��<�^��A��A�GX��[��q�� c�� 0�z�� M�_��9��X��v��>��p�� =�I��*�@��#��(�*�4�t��=�_��A��A�GX��}�[��q�� ^�� 0�z�� M�_��8��m��X��w��?��r��=�H��*�@��#��'�)�4�s��9�^��B��6A�GX��b�\��q�� `��0�y�� O�X��8��Z��v��?��p�� <�M��*�?��#��(�'�4�s��8�^��B��̷A�GX��\��q�� Y��/�y�� L�]��9��X��w��=��q��<�N��*�>��#��)�(�4�t��=�^��B��ΆXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 70 / 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 = 613329251.44744 TSTOP = 613331321.4471 DATE-OBS= '2020-06-08T17:14:06' DATE-END= '2020-06-08T17:48:36' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99966001511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 374 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'dfjqdcjodcjodcjo' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3369738592' / data unit checksum updated 2020-06-18T16:20:49 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: sw00976692000b176x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��E��[�a��m�b�m�\��Y�p�f�l�t�x�t�\�g�|�c�e�n�h�m�l�_�c�i�\�m�x�t�}�m�g�s�g�z�Z�c�e��l�Z�c�~�o�X�j�u�r�\�l�\�a�2�?�[�h�v�i�h�b�c�k�b�Q�h�n�h�q��u�[�[�z�d�o�f��d�y�m�b��[�l�Z�f�?�<�p�[�j�l�n�n��A�GT��HV�[�b��m�b�m�]��X�p�e�l�u�w�t�\�g�|�b�d�n�h�l�l�_�d�i�\�m�x�t�}�m�f�r�g�y�[�c�e��k�[�d�~�o�X�j�u�r�\�l�\�b�2�>�[�i�v�i�g�b�b�l�b�Q�h�n�h�q��u�[�[�z�d�n�f��d�x�m�b��Z�l�Z�f�?�<�p�\�k�l�n�o��A�GTϹG�[�b��m�b�m�]��X�p�f�l�u�x�u�]�g�|�b�e�n�h�m�l�`�c�i�\�m�x�t�}�m�f�s�g�z�Z�c�e��k�[�d��o�W�j�u�r�\�l�\�b�2�>�\�h�v�i�h�b�b�k�a�R�h�n�h�q��u�[�[�z�d�n�f��d�x�m�b��[�l�Z�f�?�<�p�\�j�k�n�n�eA�GT޹8��[�b��m�c�m�]��Y�o�e�m�t�w�t�]�g�|�b�e�n�i�m�m�_�d�i�\�m�x�t�}�l�f�r�g�z�Z�d�e��k�Z�c�~�o�X�j�v�r�\�l�[�b�2�?�[�h�v�h�h�b�b�k�b�R�g�n�h�q��u�[�Z�z�c�o�f��d�x�m�b��Z�m�Y�g�@�<�p�\�k�l�n�o�sA�GT��G��[�b��m�b�l�]��Y�q�e�m�u�x�t�]�g�|�b�e�n�h�m�l�`�d�i�\�m�x�t�}�l�g�s�f�y�Z�c�e��k�[�d��o�W�j�u�s�\�l�\�c�2�?�[�h�v�h�h�b�b�l�b�Q�h�n�h�q��u�[�Z�z�c�n�f��d�y�l�b��Z�m�Z�f�?�<�p�\�j�l�n�nѾA�GT��;:�[�b��m�b�l�]��Y�p�f�m�t�x�u�]�g�|�b�e�n�h�l�m�_�d�i�\�m�x�t�~�l�g�s�g�y�Z�d�e��k�[�c��o�X�i�u�s�\�m�[�b�2�>�[�h�v�i�g�b�b�l�b�Q�h�n�h�q��t�[�[�z�d�o�g��c�x�l�b��Z�l�Z�g�?�<�p�\�k�l�n�n��A�GU�G�[�b��m�b�m�]��Y�p�f�m�u�x�t�]�g�|�b�e�o�h�m�l�_�d�i�\�m�x�t�}�m�f�t�g�y�Z�d�e��k�Z�c��o�X�j�u�r�]�m�\�c�2�?�[�h�v�h�h�b�b�k�b�Q�h�n�h�q��u�[�[�z�d�o�g��d�x�m�b��[�m�Y�g�?�<�p�\�j�l�n�o҅A�GU�E��[�b��n�b�m�]��Y�q�f�m�u�w�u�\�g�|�c�e�n�h�m�l�_�d�i�\�m�x�u�~�l�g�s�g�y�Z�d�f��k�[�d��o�X�j�u�s�\�l�\�c�3�>�[�h�v�h�h�b�c�k�b�R�i�o�h�q��u�\�[�z�d�o�f��d�y�m�b��[�l�Z�g�@�=�p�\�k�l�n�oщA�GU)�K��[�b��m�b�m�]��Y�q�f�m�t�x�t�]�g�|�c�e�n�h�m�m�`�d�i�\�m�x�t�}�m�g�s�g�z�Z�c�e��k�[�d�~�o�X�j�u�s�\�m�\�c�2�>�[�h�v�i�g�c�c�k�b�R�i�n�h�q��u�\�[�z�d�n�g��e�y�m�b��[�m�Z�g�?�<�p�[�k�l�n�oцA�GU8�HV�[�b��m�b�m�]��Z�q�f�m�v�w�u�]�h�|�c�e�o�h�m�m�`�d�h�\�m�y�t�}�l�g�s�g�z�Z�c�e��k�[�d��o�X�j�v�s�\�l�\�c�2�?�[�i�v�i�h�b�c�l�b�R�h�n�h�q��u�\�[�z�d�o�g��e�y�m�b��[�m�Z�g�?�<�p�\�k�l�n�n�A�GUG�Dg�[�b��m�b�m�]��Y�q�f�m�u�w�u�]�g�|�b�e�o�h�m�m�`�d�i�\�m�y�t�}�m�g�s�g�z�Z�d�e��k�[�c��o�X�j�u�s�\�l�\�b�3�>�[�i�v�i�h�b�c�k�b�Q�h�n�h�r��u�\�[�z�c�o�f��d�y�m�c��[�m�Z�g�?�<�q�\�k�l�n�n��A�GUV�G�\�b��m�c�m�]��Y�p�f�m�u�x�u�]�g�|�c�e�n�i�m�l�_�d�i�\�m�x�t�}�m�g�s�g�z�Z�c�f��l�[�d��o�X�j�v�s�\�l�[�c�2�>�[�h�v�i�g�b�b�k�b�R�h�n�h�q��u�\�[�z�c�o�f��d�y�m�b��[�m�Z�g�?�=�p�\�k�l�n�o��A�GUe�I��\�b��m�b�m�]��Y�q�f�m�u�x�u�]�h�|�c�f�n�h�m�l�_�d�i�\�m�x�t�~�m�f�s�g�y�Z�c�e��k�[�d�~�o�Y�j�u�r�]�l�[�c�2�?�\�i�v�i�g�b�b�k�b�R�i�n�g�r��u�\�[�z�d�o�g��d�y�m�b��[�m�Z�g�@�<�p�[�k�l�n�o�CA�GUt�E�\�b��m�c�m�]��X�q�f�m�u�x�t�]�g�|�c�f�o�i�m�m�_�d�i�\�n�x�t�~�l�g�s�g�y�Z�d�e��k�[�c��o�X�i�u�r�\�l�\�c�2�>�[�h�v�i�g�b�c�l�b�R�h�n�h�q��u�[�[�z�c�o�g��d�y�m�b��[�m�Z�g�?�<�q�\�k�l�n�o�OA�GU��:��[�b��m�b�m�]��Y�q�f�l�u�x�t�]�g�}�c�f�n�h�m�l�_�d�i�\�m�x�t�}�m�f�s�g�y�Z�d�f��l�[�d��o�X�j�u�s�]�l�\�b�1�?�[�h�v�i�h�a�b�l�b�R�h�n�h�r��u�\�[�z�d�o�f��d�x�l�b��[�l�Z�f�?�=�p�\�j�l�n�o��A�GU��G��[�b��m�b�m�]��X�q�f�m�u�w�t�]�g�{�b�e�n�i�m�l�`�d�i�\�m�x�t�}�m�f�s�f�y�Z�c�e��k�[�c��o�X�j�v�s�\�l�\�c�2�>�[�h�w�i�g�b�c�k�b�R�h�o�g�r��u�\�[�z�c�o�f��d�y�m�b��[�m�Z�f�?�=�p�\�j�l�n�n��A�GU��9�[�b��m�b�m�]��Y�p�f�l�u�w�t�]�g�|�b�e�n�h�m�l�_�c�i�\�m�x�t�}�m�g�s�g�y�Z�d�e��k�[�d��o�X�i�v�r�\�l�\�c�2�?�[�i�w�i�h�a�b�k�b�Q�h�n�h�q��u�\�[�z�c�o�g��d�y�m�b��[�m�Z�g�?�=�q�\�j�l�n�o�A�GU��G��[�b��m�c�m�]��Y�q�f�m�u�x�u�]�g�{�c�e�o�i�m�m�_�d�i�]�m�x�t�}�m�f�s�g�y�Z�c�f��l�[�d��o�Y�j�v�r�\�l�\�b�2�>�[�h�v�j�h�b�b�k�b�R�h�n�h�q��u�\�[�z�c�n�g��d�y�m�c��[�m�Z�f�?�=�q�\�k�l�n�n�A�GU��Bp�\�b��m�c�m�]��Y�q�f�m�t�x�t�]�g�|�b�f�n�h�m�m�`�d�i�\�m�x�t�~�m�g�s�f�z�Z�d�f��l�Z�d��o�X�i�u�r�\�l�\�b�2�?�[�h�u�h�h�b�c�k�b�R�h�n�h�q��u�\�Z�z�d�o�g��e�y�m�b��[�m�Z�g�@�<�p�\�k�l�n�o��A�GUι;:�\�b��m�c�m�]��Z�q�f�l�u�x�t�]�g�|�c�e�o�i�m�m�`�e�i�]�n�x�u�}�m�g�t�g�z�Z�c�f��l�[�d��o�X�j�u�s�\�m�\�c�2�?�\�h�v�i�h�c�b�l�b�R�h�n�h�q��u�\�[�z�d�o�g��d�y�m�b��[�m�Z�g�?�<�p�[�j�k�n�oҺA�GUݹ9�[�b��m�c�m�]��Y�q�f�m�u�x�u�]�g�|�b�f�n�i�m�l�`�e�i�\�n�x�t�~�m�g�s�f�z�Z�c�f��k�[�d��o�X�j�v�s�]�l�\�c�2�?�[�i�w�i�h�c�b�k�b�R�i�n�h�q��u�\�[�z�c�o�f��d�y�m�b��[�m�Z�g�?�<�q�\�k�l�n�o��A�GU칹�[�b��n�c�n�]��Y�q�f�m�u�x�u�]�h�|�c�f�o�h�m�m�`�d�i�\�n�x�t�}�m�g�s�g�z�[�d�e��l�[�d��o�X�j�v�s�]�l�\�c�2�?�\�h�v�i�h�b�b�l�b�R�h�n�i�r��u�\�[�z�c�o�g��d�y�m�b��[�m�Z�g�@�=�p�]�k�l�n�o�dA�GU��F_�\�b��n�b�m�]��Y�p�f�m�u�x�t�\�h�|�c�f�o�i�m�m�`�d�i�\�n�x�u�}�m�g�s�g�z�[�d�f��k�[�d��p�X�j�v�s�\�l�\�c�2�?�\�h�w�i�h�b�c�k�b�R�h�n�h�r��v�\�[�z�d�o�g��e�y�m�b��[�m�Z�g�?�=�p�]�k�l�n�o��A�GV �;:�\�c��m�b�n�]��Y�q�f�m�u�x�u�]�g�|�c�f�o�i�m�m�`�d�i�\�n�y�t�~�m�g�t�g�z�[�d�e��k�[�d��o�Y�j�v�s�\�l�\�c�2�?�[�i�v�i�g�b�b�k�b�R�i�o�h�q��u�\�[�z�d�o�g��d�x�m�b��[�l�Z�g�?�=�q�\�k�l�o�o��A�GV�M��\�b��m�b�m�]��Y�p�g�m�u�y�u�^�g�|�b�f�o�i�m�l�`�d�i�]�n�y�t�~�m�g�s�g�z�[�d�f��k�[�d�~�p�Y�k�v�s�]�m�\�c�3�?�[�i�w�i�h�b�c�l�b�R�i�n�h�r��v�\�[�z�d�o�g��d�y�m�b��[�m�Z�g�?�=�q�\�k�l�n�oҬA�GV(�@y�[�b��m�c�m�^��Y�q�f�m�u�x�t�]�h�|�c�e�o�i�m�m�`�e�i�\�m�y�t�}�m�g�s�g�y�[�d�f��k�[�d��p�X�i�v�s�]�m�\�b�2�?�[�i�v�i�g�b�c�l�b�R�i�o�h�q��u�\�[�z�d�o�g��e�x�m�c��[�m�Z�g�@�;�q�\�k�l�o�o�-A�GV7�E��\�b��m�c�m�]��Y�p�f�m�u�x�u�]�g�|�c�f�o�h�m�m�`�d�i�]�n�x�t�~�m�f�s�g�z�Z�d�f��k�[�d��o�X�j�v�r�\�m�\�c�2�>�[�h�v�i�g�c�c�l�b�R�h�n�g�q��v�\�[�z�d�o�g��d�y�m�c��[�m�Z�g�?�<�q�\�j�l�n�o��A�GVF�H��[�b��m�c�n�]��Y�q�f�m�u�w�u�]�h�|�c�f�n�i�m�m�_�d�h�\�n�x�u�~�m�g�s�h�z�[�d�e��l�[�d��p�W�j�v�s�\�m�\�c�2�?�\�h�v�i�h�b�c�l�b�R�i�n�h�r��v�\�[�{�d�o�g��d�x�m�c��[�m�Z�f�?�=�p�\�k�l�n�o�oA�GVU�G�\�b��m�c�m�]��Y�q�f�m�t�x�u�]�h�|�c�e�n�i�m�m�_�d�i�\�n�x�t�~�m�g�s�g�z�Z�d�f��k�[�d��o�X�j�u�s�\�l�\�b�2�?�\�i�v�i�g�b�c�k�b�R�i�n�h�q��u�\�[�z�d�o�g��d�y�m�b��[�m�Z�g�?�=�p�\�k�l�n�o�A�GVd�F_�\�b��m�c�m�]��Y�q�f�m�u�x�t�]�h�|�c�e�o�i�m�l�`�d�i�\�n�x�u�~�m�g�t�g�z�Z�d�f��k�[�d��o�X�j�u�s�\�l�\�c�2�?�\�h�v�i�g�b�c�l�b�R�h�o�h�r��u�\�[�z�d�o�g��d�y�m�c��[�m�Z�g�?�=�p�\�k�l�n�nӄA�GVs�9C�\�b��m�b�m�]��Y�q�f�l�u�x�u�]�h�|�c�e�n�h�m�m�a�d�h�\�m�x�u�}�m�g�t�g�z�[�d�e��l�[�d�~�o�X�j�u�s�\�l�\�c�2�?�\�i�v�i�g�b�c�l�b�R�i�o�h�q��v�\�[�z�d�o�g��d�y�m�b��[�m�Z�f�?�=�q�]�k�l�o�oӴA�GV��G��\�b��m�c�m�]��Y�p�f�m�u�x�u�]�g�|�c�f�n�h�m�m�`�d�i�\�m�y�u�~�m�g�r�g�y�[�d�f��k�[�d��o�X�j�v�s�\�l�\�c�2�?�\�h�v�h�h�b�c�l�b�R�i�o�h�r��v�\�[�{�d�o�g��d�y�m�b��[�m�Z�g�?�<�p�\�k�m�n�o��A�GV��m �\�b��m�b�m�^��Y�q�f�m�u�x�u�\�h�}�c�f�n�i�m�m�`�d�i�]�n�x�t�~�m�g�s�g�z�Z�d�f��k�[�d��p�X�j�v�s�\�m�]�c�2�>�[�i�w�i�h�b�c�k�b�R�i�o�h�r��v�\�[�z�d�o�g��d�y�m�b��[�m�Z�g�?�<�q�\�k�l�o�oѾA�GV��N�\�c��m�c�n�]��Y�p�g�m�u�x�u�]�h�}�c�f�o�i�m�m�`�e�i�]�n�y�u�~�m�g�s�g�z�[�d�f��l�[�d��p�Y�k�v�s�\�l�\�c�3�?�\�i�v�i�h�c�c�l�b�R�h�o�h�r��u�\�[�z�d�p�g��d�y�m�c��[�m�Z�g�@�=�p�\�k�m�o�oѥA�GV��\�b��m�c�m�^��Y�q�f�n�u�x�u�]�g�}�c�f�o�i�m�m�`�e�j�\�m�y�t�~�m�g�t�h�z�[�d�f��l�[�e��p�X�j�v�s�\�m�\�c�2�>�\�h�w�i�h�b�c�l�c�R�i�o�h�r��v�\�[�z�d�o�g��e�y�m�c��[�m�Z�g�?�<�p�\�k�m�o�o��A�GV��H��\�c��n�c�m�^��Z�q�f�m�u�x�u�]�h�}�c�f�o�h�m�m�`�d�i�]�n�y�u�~�n�g�s�g�z�[�d�e��l�[�d��p�Y�j�v�s�]�l�]�c�3�?�\�i�w�i�h�b�c�l�b�R�i�n�h�r��v�\�[�{�d�p�g��e�y�n�c��[�m�Z�g�@�=�q�]�k�m�o�o�eA�GV͹G�\�c��m�c�m�]��Y�q�f�m�v�y�u�]�h�|�c�f�o�i�n�m�`�d�j�]�n�y�u�~�m�g�s�g�z�Z�d�f��l�\�d��p�X�j�v�s�]�m�\�c�3�?�[�i�w�i�h�c�c�l�b�S�i�o�i�r��u�\�[�z�d�o�g��e�y�n�c��[�m�Z�g�@�=�q�\�k�l�n�o�eA�GVܹ;�\�b��n�c�n�]��Y�q�f�n�u�y�u�^�h�}�c�f�o�i�m�m�`�d�j�]�n�y�u�~�m�g�t�g�z�[�d�f��l�\�d��p�Y�k�v�s�]�l�\�c�2�?�\�i�w�i�h�c�c�l�c�S�i�n�h�r��v�\�[�z�d�o�g��e�y�n�b��[�m�Z�g�@�<�q�\�l�m�o�o��A�GV�G�[�b��m�c�m�^��Y�q�f�m�u�y�u�\�h�|�c�f�o�i�n�l�`�e�j�]�n�x�u�~�n�g�t�g�z�[�d�f��l�\�d��o�Y�j�v�s�]�m�]�d�2�?�\�i�w�i�h�b�b�l�b�R�i�n�h�r��u�\�\�z�d�o�g��e�y�n�c��[�m�Z�g�@�=�q�\�k�l�n�o�}A�GV��F_�\�c��n�c�m�]��Y�q�f�m�u�x�u�^�h�}�d�e�o�i�m�m�`�d�j�]�n�y�u�~�m�g�s�g�z�[�e�f��l�[�d��p�X�k�v�s�]�m�\�c�2�?�\�i�w�i�h�c�c�l�c�R�i�o�h�r��v�\�\�z�d�p�g��d�y�m�c��\�m�Z�g�@�=�q�\�l�l�o�o�"A�GW �C�\�c��n�c�m�]��Z�q�f�n�v�x�u�]�h�|�c�f�o�i�m�m�`�e�h�\�n�x�u�~�m�g�t�g�z�[�d�g��l�\�d��p�X�j�v�s�]�m�\�c�2�@�\�i�w�i�h�c�c�l�c�R�i�o�h�r��v�\�[�z�d�p�g��d�y�n�c��[�m�[�g�?�=�q�\�k�l�n�o�A�GW�:��\�b��n�c�m�^��Y�q�f�m�v�x�u�]�h�|�c�f�o�i�n�m�`�d�j�]�n�y�u�~�m�g�t�g�z�[�d�g��k�[�d��p�X�j�v�s�]�m�\�c�2�?�\�h�w�i�h�c�c�l�b�R�i�o�h�r��v�\�[�{�d�o�g��e�y�m�c��[�m�[�g�@�<�q�\�k�m�n�o��A�GW'�;�\�b��n�c�m�]��Y�q�f�m�v�x�u�]�h�|�c�e�o�i�m�m�`�d�i�]�n�y�u�~�m�g�s�h�z�[�d�f��l�[�d��o�X�j�v�s�]�m�\�c�3�?�\�h�v�i�i�c�b�l�b�R�i�o�h�r��v�\�[�{�d�o�g��e�y�m�c��[�m�Z�g�@�<�q�\�k�m�o�o��A�GW6�9�\�c��m�c�n�]��Y�q�f�m�v�x�u�]�h�|�b�f�o�i�m�m�`�d�j�]�n�x�u�~�m�g�t�g�z�[�d�f��l�[�e��p�Y�j�v�s�]�m�]�c�2�?�\�i�w�i�h�b�c�k�c�R�i�o�h�r��v�\�[�{�d�o�g��e�y�m�c��[�m�Z�g�@�=�q�\�k�l�o�o�`A�GWE�HV�\�c��m�c�m�]��Y�q�g�n�v�y�u�]�h�|�c�f�o�i�m�m�`�d�i�\�n�x�u�~�m�g�t�h�z�[�d�f��l�[�e��p�Y�j�u�s�]�m�\�c�2�@�\�i�w�i�h�c�c�l�b�R�i�n�h�r��u�\�\�{�d�o�g��d�y�n�c��[�m�[�g�@�=�q�]�k�m�n�oϛA�GWT�=ل\�b��m�c�n�^��Y�q�g�m�v�x�u�]�h�|�c�e�o�i�n�m�a�d�i�\�n�y�u�~�m�g�t�g�z�[�d�f��l�\�d��p�Y�k�v�t�\�l�\�c�3�@�\�h�w�i�h�b�c�l�c�R�i�o�h�r��v�\�[�{�d�o�g��e�y�m�b��[�m�[�g�?�<�q�\�k�m�n�o�|A�GWc�=ل\�c��n�c�m�^��Z�q�g�m�u�y�u�^�h�|�c�f�o�i�n�m�`�e�j�]�n�x�u�~�m�g�t�h�{�[�d�f��l�\�d��p�X�j�v�t�]�l�\�c�2�@�\�i�v�j�h�c�c�k�b�R�i�o�i�r��v�\�[�{�d�o�g��d�y�m�c��[�m�Z�g�@�<�q�]�k�m�o�o�AA�GWr�G�\�c��n�c�n�]��Y�q�g�m�v�y�v�]�h�|�c�f�o�i�n�m�`�e�j�]�n�y�u�~�m�g�t�g�z�\�d�f��l�\�e��p�Y�k�v�s�]�m�\�d�2�@�\�h�w�i�h�d�c�l�b�R�i�o�h�r��v�\�[�{�d�o�g��e�y�m�c��[�m�Z�g�@�>�q�]�k�m�o�o��A�GW��Uq�\�c��m�c�n�^��Y�q�g�n�v�x�t�]�h�}�c�f�o�i�n�m�`�e�j�]�n�y�u�~�m�g�t�h�z�[�d�f��l�[�e��p�X�j�v�s�]�m�]�c�3�?�\�i�v�j�h�c�c�l�c�R�i�o�h�r��v�\�\�z�e�p�g��e�z�m�c��\�n�Z�g�@�=�q�]�k�m�o�o�`A�GW��G�\�c��n�c�n�^��Y�q�g�n�u�x�u�^�h�}�c�f�o�i�n�m�`�e�j�]�n�y�u�~�n�h�t�g�z�[�e�f��m�\�d��p�Y�k�v�s�]�m�\�c�3�@�\�j�w�j�h�c�c�l�c�S�i�n�i�r��v�]�[�{�d�p�h��e�y�n�c��[�m�[�g�@�<�q�]�k�m�o�o��A�GW��LD�\�c��n�c�n�^��Y�q�f�m�v�y�u�]�h�|�c�g�o�i�n�m�`�d�j�]�n�x�t��n�h�t�h�z�[�e�g��l�\�e��p�Y�k�v�t�]�m�]�c�3�@�\�i�w�j�i�c�c�l�c�R�i�o�h�r��v�\�\�{�d�p�g��e�y�n�c��[�m�[�g�@�=�q�\�k�m�o�o�A�GW��:��\�c��n�d�n�^��Y�q�g�m�v�x�u�]�h�|�d�f�o�i�n�n�`�d�j�]�n�y�u�~�m�h�t�h�z�[�e�f��l�[�e��p�Y�j�v�t�]�m�]�c�4�?�\�i�w�i�h�c�c�l�b�S�i�o�i�r��v�\�\�z�e�p�g��e�y�n�c��\�m�[�h�@�>�q�]�k�l�o�o�A�GW��G��\�b��n�c�n�^��Y�q�g�m�v�y�u�^�h�}�d�f�o�i�m�m�`�d�j�]�n�y�u�~�m�g�t�h�z�[�d�f��l�\�d��p�Y�k�v�s�]�n�\�c�3�@�\�i�w�j�i�c�c�l�b�S�i�o�i�r��v�\�[�{�e�p�h��e�z�n�c��[�m�[�h�@�=�q�\�k�l�o�o�LA�GW̹G��]�c��n�c�n�^��Y�q�g�n�u�y�v�]�i�|�c�f�o�i�n�m�`�e�i�]�n�y�u�~�n�h�t�g�z�[�d�g��l�[�d��p�Y�j�v�s�]�m�\�d�2�@�[�i�w�j�i�c�c�l�b�S�i�o�h�r��v�\�\�{�d�p�h��e�z�m�c��\�n�[�g�A�=�q�\�l�m�o�oЀA�GW۹G��\�c��m�c�n�^��Y�q�g�n�v�x�u�^�h�}�d�f�o�i�n�m�`�d�i�]�n�y�u�~�m�g�s�g�z�[�e�g��l�\�d��p�Y�k�v�s�]�l�]�d�3�?�\�i�w�i�i�c�c�l�c�R�i�o�i�r��v�\�\�{�d�p�g��e�y�n�c��[�n�[�g�@�=�p�]�l�m�o�p�tA�GW�C�\�c��n�c�n�^��Z�q�g�m�u�y�v�^�h�|�d�f�o�i�n�m�`�e�j�]�n�y�u�~�m�g�t�h�z�\�e�f��l�\�e��p�Y�k�w�s�]�m�\�c�2�@�\�i�w�j�h�c�c�l�c�R�i�o�i�r��v�\�\�{�d�o�h��e�y�m�c��\�n�Z�g�@�=�q�\�k�m�o�o��A�GW��:��]�c��n�c�n�^��Z�q�g�m�u�y�u�^�h�}�c�f�p�i�m�m�`�e�i�]�n�y�u�~�n�g�t�g�z�[�d�f��l�[�e��p�Y�k�v�s�]�m�]�d�2�?�\�i�w�j�i�c�d�l�c�S�i�o�i�r��v�]�[�{�d�p�g��e�y�n�c��\�m�[�g�@�=�q�]�k�m�o�o��A�GX�:��\�c��n�c�n�^��Z�q�g�m�v�x�u�^�h�}�c�g�o�i�n�n�a�e�j�]�n�y�u�~�m�h�t�g�z�[�e�f��l�\�e��p�Y�k�v�s�]�m�]�c�3�@�\�i�w�j�h�b�c�l�c�S�i�o�i�r��v�]�\�{�d�p�h��e�z�n�c��\�n�[�h�@�=�q�]�k�m�o�oЭA�GX�:��\�c��n�c�n�]��Z�q�g�n�v�x�v�]�i�}�c�f�o�j�n�m�a�e�j�]�n�y�u�~�m�h�t�h�z�\�d�g��l�\�d��p�X�k�v�t�^�m�]�c�3�@�\�j�w�j�i�c�c�m�c�S�i�o�i�s��v�\�\�{�e�p�h��f�z�n�c��\�n�[�h�@�=�q�]�k�m�o�p�rA�GX&�G��]�c��n�c�n�^��Z�q�g�n�v�y�v�^�i�|�c�g�p�i�n�m�a�e�j�]�n�y�u�~�m�h�t�g�{�[�e�g��l�\�e��p�Y�k�w�t�]�m�]�d�3�?�]�j�w�j�i�d�c�l�c�S�i�o�i�r��v�]�\�{�d�p�h��e�z�n�c��\�n�[�h�A�=�q�]�l�m�o�p� A�GX5�G�]�c��n�d�n�]��Z�r�g�n�v�y�u�^�i�}�d�g�o�j�n�n�`�e�j�]�o�y�u��m�g�t�h�z�[�e�g��m�\�e��q�Y�k�v�t�^�n�]�c�4�?�\�j�w�j�i�c�d�l�c�S�j�p�i�s��v�]�\�{�e�p�h��e�z�n�d��\�n�[�h�@�>�q�]�l�n�o�p��A�GXD�:��]�d��n�d�n�^��[�r�g�n�v�y�v�^�i�}�c�f�p�j�n�m�a�d�j�]�o�y�u��n�h�u�h�{�\�d�g��l�\�e��p�Y�k�v�t�^�n�]�d�4�@�]�j�w�j�i�c�c�m�c�S�j�o�i�r��w�]�\�{�e�p�h��e�z�n�c��\�n�[�h�A�>�q�]�l�m�o�p�?A�GXS�HV�\�c��n�d�n�^��[�r�g�n�v�y�u�^�i�}�d�f�p�j�n�n�a�e�j�^�o�z�v��n�h�t�h�{�\�e�g��m�\�e��q�Z�k�v�t�^�n�^�d�3�@�]�j�x�k�i�c�c�n�d�S�j�o�i�s��w�\�\�{�e�p�h��e�z�n�d��\�n�[�g�@�=�r�]�l�m�o�p�A�GXb�C�]�c��n�d�n�^��[�q�g�n�v�y�v�^�i�}�d�g�p�i�n�n�`�e�k�^�o�z�v��n�h�u�h�{�[�e�g��m�]�d��q�Y�k�w�t�^�n�\�d�3�@�\�j�x�j�i�c�d�m�c�S�j�o�i�s��v�]�\�|�e�p�h��f�z�n�c��\�n�[�h�@�>�r�]�l�m�o�p�$A�GXq�G�]�c��n�d�n�^��Z�r�g�n�v�y�v�^�i�}�d�f�o�j�n�n�a�e�k�]�o�y�v��n�h�t�h�{�[�e�g��m�\�e��q�Y�k�w�t�^�m�]�d�3�@�]�j�w�j�i�c�d�m�c�S�i�p�i�r��v�]�\�{�e�p�h��f�z�o�c��\�n�[�h�@�>�r�]�l�m�p�p�A�GX��HV�]�c��n�d�o�_��Z�r�g�n�v�y�u�^�i�}�d�g�p�i�n�n�`�e�j�^�o�y�u��n�h�u�h�{�\�d�f��l�]�e��p�Y�k�v�t�]�n�^�d�3�@�]�j�w�j�h�c�d�m�c�S�j�p�i�s��w�]�\�{�e�p�h��e�z�n�d��\�n�\�h�A�>�r�^�l�m�o�p�VA�GX��G�]�d��n�d�n�^��Z�r�g�n�w�y�v�^�i�~�d�g�p�j�n�n�a�e�j�]�o�y�v�~�n�h�t�h�{�\�e�g��l�\�e��p�Z�k�w�t�]�n�]�d�3�@�\�j�x�j�i�c�d�l�c�S�j�p�i�s��v�]�\�|�e�p�h��e�z�n�d��\�n�[�h�A�>�r�]�l�m�o�pИA�GX��G��\�c��n�d�o�_��Z�r�h�o�w�y�u�^�i�}�d�f�o�j�n�n�a�e�j�]�o�y�u��n�h�u�h�{�\�e�g��m�]�e��p�Y�k�v�t�]�n�]�d�3�@�]�j�x�k�i�c�d�m�c�S�j�o�i�s��w�]�\�|�e�p�h��e�z�n�d��\�n�[�h�@�>�r�]�m�m�p�p�A�GX��:��]�c��n�d�n�^��Z�r�g�n�v�y�u�^�i�}�d�g�p�j�n�n�a�e�j�^�o�y�u��n�h�u�h�{�\�e�g��m�\�e��p�Z�k�v�t�]�n�]�d�3�@�\�i�x�k�i�d�d�m�c�S�i�p�i�s��w�]�\�{�e�p�h��f�z�n�d��\�n�[�h�A�>�r�]�l�n�o�p� A�GX��:��\�c��o�d�n�^��Z�q�g�n�v�y�u�^�h�}�d�g�p�j�n�n�`�e�j�]�o�y�v��n�h�t�h�z�\�e�g��m�\�e��q�Y�k�w�t�^�m�]�c�3�@�]�j�w�j�i�c�d�m�c�S�j�p�i�s��v�]�]�|�e�p�h��e�z�n�d��\�n�[�h�@�>�q�]�l�m�p�p��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 70 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKXA1TBLK6DM0A' / Block 6, DM 0, Side A XA1 Temperature TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL2 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT2 = 'Celsius ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKXA1TBLK6DM0B' / Block 6, DM 0, Side B XA1 Temperature TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL4 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT4 = 'Celsius ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKXA1TBLK6DM1A' / Block 6, DM 1, Side A XA1 Temperature TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL6 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT6 = 'Celsius ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKXA1TBLK6DM1B' / Block 6, DM 1, Side B XA1 Temperature TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL8 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKXA1TBLK6DM2A' / Block 6, DM 2, Side A XA1 Temperature TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL10 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKXA1TBLK6DM2B' / Block 6, DM 2, Side B XA1 Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL12 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKXA1TBLK6DM3A' / Block 6, DM 3, Side A XA1 Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL14 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT14 = 'Celsius ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKXA1TBLK6DM3B' / Block 6, DM 3, Side B XA1 Temperature TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL16 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT16 = 'Celsius ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKXA1TBLK6DM4A' / Block 6, DM 4, Side A XA1 Temperature TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL18 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT18 = 'Celsius ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKXA1TBLK6DM4B' / Block 6, DM 4, Side B XA1 Temperature TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL20 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT20 = 'Celsius ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKXA1TBLK6DM5A' / Block 6, DM 5, Side A XA1 Temperature TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL22 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT22 = 'Celsius ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKXA1TBLK6DM5B' / Block 6, DM 5, Side B XA1 Temperature TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL24 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT24 = 'Celsius ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKXA1TBLK6DM6A' / Block 6, DM 6, Side A XA1 Temperature TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL26 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKXA1TBLK6DM6B' / Block 6, DM 6, Side B XA1 Temperature TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL28 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKXA1TBLK6DM7A' / Block 6, DM 7, Side A XA1 Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL30 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKXA1TBLK6DM7B' / Block 6, DM 7, Side B XA1 Temperature TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL32 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT32 = 'Celsius ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKXA1TBLK7DM0A' / Block 7, DM 0, Side A XA1 Temperature TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL34 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT34 = 'Celsius ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKXA1TBLK7DM0B' / Block 7, DM 0, Side B XA1 Temperature TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL36 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT36 = 'Celsius ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKXA1TBLK7DM1A' / Block 7, DM 1, Side A XA1 Temperature TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL38 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT38 = 'Celsius ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKXA1TBLK7DM1B' / Block 7, DM 1, Side B XA1 Temperature TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL40 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT40 = 'Celsius ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKXA1TBLK7DM2A' / Block 7, DM 2, Side A XA1 Temperature TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL42 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT42 = 'Celsius ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKXA1TBLK7DM2B' / Block 7, DM 2, Side B XA1 Temperature TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL44 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKXA1TBLK7DM3A' / Block 7, DM 3, Side A XA1 Temperature TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL46 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKXA1TBLK7DM3B' / Block 7, DM 3, Side B XA1 Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL48 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKXA1TBLK7DM4A' / Block 7, DM 4, Side A XA1 Temperature TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL50 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT50 = 'Celsius ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKXA1TBLK7DM4B' / Block 7, DM 4, Side B XA1 Temperature TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL52 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT52 = 'Celsius ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKXA1TBLK7DM5A' / Block 7, DM 5, Side A XA1 Temperature TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL54 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT54 = 'Celsius ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKXA1TBLK7DM5B' / Block 7, DM 5, Side B XA1 Temperature TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL56 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT56 = 'Celsius ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKXA1TBLK7DM6A' / Block 7, DM 6, Side A XA1 Temperature TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL58 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT58 = 'Celsius ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKXA1TBLK7DM6B' / Block 7, DM 6, Side B XA1 Temperature TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL60 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT60 = 'Celsius ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKXA1TBLK7DM7A' / Block 7, DM 7, Side A XA1 Temperature TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL62 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKXA1TBLK7DM7B' / Block 7, DM 7, Side B XA1 Temperature TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL64 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKXA1TBLK8DM0A' / Block 8, DM 0, Side A XA1 Temperature TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL66 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKXA1TBLK8DM0B' / Block 8, DM 0, Side B XA1 Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL68 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKXA1TBLK8DM1A' / Block 8, DM 1, Side A XA1 Temperature TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL70 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKXA1TBLK8DM1B' / Block 8, DM 1, Side B XA1 Temperature TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL72 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKXA1TBLK8DM2A' / Block 8, DM 2, Side A XA1 Temperature TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL74 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKXA1TBLK8DM2B' / Block 8, DM 2, Side B XA1 Temperature TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL76 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKXA1TBLK8DM3A' / Block 8, DM 3, Side A XA1 Temperature TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL78 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKXA1TBLK8DM3B' / Block 8, DM 3, Side B XA1 Temperature TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL80 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKXA1TBLK8DM4A' / Block 8, DM 4, Side A XA1 Temperature TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL82 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKXA1TBLK8DM4B' / Block 8, DM 4, Side B XA1 Temperature TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL84 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKXA1TBLK8DM5A' / Block 8, DM 5, Side A XA1 Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL86 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKXA1TBLK8DM5B' / Block 8, DM 5, Side B XA1 Temperature TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL88 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKXA1TBLK8DM6A' / Block 8, DM 6, Side A XA1 Temperature TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL90 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKXA1TBLK8DM6B' / Block 8, DM 6, Side B XA1 Temperature TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL92 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKXA1TBLK8DM7A' / Block 8, DM 7, Side A XA1 Temperature TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL94 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKXA1TBLK8DM7B' / Block 8, DM 7, Side B XA1 Temperature TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL96 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKXA1TBLK9DM0A' / Block 9, DM 0, Side A XA1 Temperature TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL98 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKXA1TBLK9DM0B' / Block 9, DM 0, Side B XA1 Temperature TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL100= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKXA1TBLK9DM1A' / Block 9, DM 1, Side A XA1 Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL102= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKXA1TBLK9DM1B' / Block 9, DM 1, Side B XA1 Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL104= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKXA1TBLK9DM2A' / Block 9, DM 2, Side A XA1 Temperature TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL106= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKXA1TBLK9DM2B' / Block 9, DM 2, Side B XA1 Temperature TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL108= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKXA1TBLK9DM3A' / Block 9, DM 3, Side A XA1 Temperature TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL110= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKXA1TBLK9DM3B' / Block 9, DM 3, Side B XA1 Temperature TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL112= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKXA1TBLK9DM4A' / Block 9, DM 4, Side A XA1 Temperature TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL114= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKXA1TBLK9DM4B' / Block 9, DM 4, Side B XA1 Temperature TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL116= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKXA1TBLK9DM5A' / Block 9, DM 5, Side A XA1 Temperature TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL118= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKXA1TBLK9DM5B' / Block 9, DM 5, Side B XA1 Temperature TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL120= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKXA1TBLK9DM6A' / Block 9, DM 6, Side A XA1 Temperature TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL122= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKXA1TBLK9DM6B' / Block 9, DM 6, Side B XA1 Temperature TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL124= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKXA1TBLK9DM7A' / Block 9, DM 7, Side A XA1 Temperature TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL126= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKXA1TBLK9DM7B' / Block 9, DM 7, Side B XA1 Temperature TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL128= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKXA1TBLK10DM0A' / Block 10, DM 0, Side A XA1 Temperature TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL130= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT130= 'Celsius ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKXA1TBLK10DM0B' / Block 10, DM 0, Side B XA1 Temperature TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL132= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT132= 'Celsius ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKXA1TBLK10DM1A' / Block 10, DM 1, Side A XA1 Temperature TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL134= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT134= 'Celsius ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKXA1TBLK10DM1B' / Block 10, DM 1, Side B XA1 Temperature TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL136= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT136= 'Celsius ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKXA1TBLK10DM2A' / Block 10, DM 2, Side A XA1 Temperature TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL138= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT138= 'Celsius ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKXA1TBLK10DM2B' / Block 10, DM 2, Side B XA1 Temperature TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL140= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT140= 'Celsius ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKXA1TBLK10DM3A' / Block 10, DM 3, Side A XA1 Temperature TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL142= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT142= 'Celsius ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKXA1TBLK10DM3B' / Block 10, DM 3, Side B XA1 Temperature TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL144= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT144= 'Celsius ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKXA1TBLK10DM4A' / Block 10, DM 4, Side A XA1 Temperature TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL146= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT146= 'Celsius ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKXA1TBLK10DM4B' / Block 10, DM 4, Side B XA1 Temperature TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL148= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT148= 'Celsius ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKXA1TBLK10DM5A' / Block 10, DM 5, Side A XA1 Temperature TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL150= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT150= 'Celsius ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKXA1TBLK10DM5B' / Block 10, DM 5, Side B XA1 Temperature TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL152= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT152= 'Celsius ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKXA1TBLK10DM6A' / Block 10, DM 6, Side A XA1 Temperature TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL154= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT154= 'Celsius ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKXA1TBLK10DM6B' / Block 10, DM 6, Side B XA1 Temperature TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL156= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT156= 'Celsius ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKXA1TBLK10DM7A' / Block 10, DM 7, Side A XA1 Temperature TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL158= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT158= 'Celsius ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKXA1TBLK10DM7B' / Block 10, DM 7, Side B XA1 Temperature TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL160= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT160= 'Celsius ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKXA1TSPARE4' / XA1 Temperature Packets Spare Word 4 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk177x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329257.64416 TSTOP = 613331327.64382 DATE-OBS= '2020-06-08T17:14:12' DATE-END= '2020-06-08T17:48:42' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99966001511 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 375 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '1HER2FDP1FDP1FDP' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1599671373' / data unit checksum updated 2020-06-18T16:20:49 TRDLO2 = -51 / BHKXA1TBLK6DM0A Red lower limit = B_HK_B06D0A_XTRDHI2 = 28 / BHKXA1TBLK6DM0A Red upper limit = B_HK_B06D0A_XTYELO2 = -51 / BHKXA1TBLK6DM0A Yellow lower limit = B_HK_B06D0TYEHI2 = 25 / BHKXA1TBLK6DM0A Yellow upper limit = B_HK_B06D0TRDLO4 = -51 / BHKXA1TBLK6DM0B Red lower limit = B_HK_B06D0B_XTRDHI4 = 28 / BHKXA1TBLK6DM0B Red upper limit = B_HK_B06D0B_XTYELO4 = -51 / BHKXA1TBLK6DM0B Yellow lower limit = B_HK_B06D0TYEHI4 = 25 / BHKXA1TBLK6DM0B Yellow upper limit = B_HK_B06D0TRDLO6 = -51 / BHKXA1TBLK6DM1A Red lower limit = B_HK_B06D1A_XTRDHI6 = 28 / BHKXA1TBLK6DM1A Red upper limit = B_HK_B06D1A_XTYELO6 = -51 / BHKXA1TBLK6DM1A Yellow lower limit = B_HK_B06D1TYEHI6 = 25 / BHKXA1TBLK6DM1A Yellow upper limit = B_HK_B06D1TRDLO8 = -51 / BHKXA1TBLK6DM1B Red lower limit = B_HK_B06D1B_XTRDHI8 = 28 / BHKXA1TBLK6DM1B Red upper limit = B_HK_B06D1B_XTYELO8 = -51 / BHKXA1TBLK6DM1B Yellow lower limit = B_HK_B06D1TYEHI8 = 25 / BHKXA1TBLK6DM1B Yellow upper limit = B_HK_B06D1TRDLO10 = -51 / BHKXA1TBLK6DM2A Red lower limit = B_HK_B06D2A_XTRDHI10 = 28 / BHKXA1TBLK6DM2A Red upper limit = B_HK_B06D2A_XTYELO10 = -51 / BHKXA1TBLK6DM2A Yellow lower limit = B_HK_B06D2TYEHI10 = 25 / BHKXA1TBLK6DM2A Yellow upper limit = B_HK_B06D2TRDLO12 = -51 / BHKXA1TBLK6DM2B Red lower limit = B_HK_B06D2B_XTRDHI12 = 28 / BHKXA1TBLK6DM2B Red upper limit = B_HK_B06D2B_XTYELO12 = -51 / BHKXA1TBLK6DM2B Yellow lower limit = B_HK_B06D2TYEHI12 = 25 / BHKXA1TBLK6DM2B Yellow upper limit = B_HK_B06D2TRDLO14 = -51 / BHKXA1TBLK6DM3A Red lower limit = B_HK_B06D3A_XTRDHI14 = 28 / BHKXA1TBLK6DM3A Red upper limit = B_HK_B06D3A_XTYELO14 = -51 / BHKXA1TBLK6DM3A Yellow lower limit = B_HK_B06D3TYEHI14 = 25 / BHKXA1TBLK6DM3A Yellow upper limit = B_HK_B06D3TRDLO16 = -51 / BHKXA1TBLK6DM3B Red lower limit = B_HK_B06D3B_XTRDHI16 = 28 / BHKXA1TBLK6DM3B Red upper limit = B_HK_B06D3B_XTYELO16 = -51 / BHKXA1TBLK6DM3B Yellow lower limit = B_HK_B06D3TYEHI16 = 25 / BHKXA1TBLK6DM3B Yellow upper limit = B_HK_B06D3TRDLO18 = -51 / BHKXA1TBLK6DM4A Red lower limit = B_HK_B06D4A_XTRDHI18 = 28 / BHKXA1TBLK6DM4A Red upper limit = B_HK_B06D4A_XTYELO18 = -51 / BHKXA1TBLK6DM4A Yellow lower limit = B_HK_B06D4TYEHI18 = 25 / BHKXA1TBLK6DM4A Yellow upper limit = B_HK_B06D4TRDLO20 = -51 / BHKXA1TBLK6DM4B Red lower limit = B_HK_B06D4B_XTRDHI20 = 28 / BHKXA1TBLK6DM4B Red upper limit = B_HK_B06D4B_XTYELO20 = -51 / BHKXA1TBLK6DM4B Yellow lower limit = B_HK_B06D4TYEHI20 = 25 / BHKXA1TBLK6DM4B Yellow upper limit = B_HK_B06D4TRDLO22 = -51 / BHKXA1TBLK6DM5A Red lower limit = B_HK_B06D5A_XTRDHI22 = 28 / BHKXA1TBLK6DM5A Red upper limit = B_HK_B06D5A_XTYELO22 = -51 / BHKXA1TBLK6DM5A Yellow lower limit = B_HK_B06D5TYEHI22 = 25 / BHKXA1TBLK6DM5A Yellow upper limit = B_HK_B06D5TRDLO24 = -51 / BHKXA1TBLK6DM5B Red lower limit = B_HK_B06D5B_XTRDHI24 = 28 / BHKXA1TBLK6DM5B Red upper limit = B_HK_B06D5B_XTYELO24 = -51 / BHKXA1TBLK6DM5B Yellow lower limit = B_HK_B06D5TYEHI24 = 25 / BHKXA1TBLK6DM5B Yellow upper limit = B_HK_B06D5TRDLO26 = -51 / BHKXA1TBLK6DM6A Red lower limit = B_HK_B06D6A_XTRDHI26 = 28 / BHKXA1TBLK6DM6A Red upper limit = B_HK_B06D6A_XTYELO26 = -51 / BHKXA1TBLK6DM6A Yellow lower limit = B_HK_B06D6TYEHI26 = 25 / BHKXA1TBLK6DM6A Yellow upper limit = B_HK_B06D6TRDLO28 = -51 / BHKXA1TBLK6DM6B Red lower limit = B_HK_B06D6B_XTRDHI28 = 28 / BHKXA1TBLK6DM6B Red upper limit = B_HK_B06D6B_XTYELO28 = -51 / BHKXA1TBLK6DM6B Yellow lower limit = B_HK_B06D6TYEHI28 = 25 / BHKXA1TBLK6DM6B Yellow upper limit = B_HK_B06D6TRDLO30 = -51 / BHKXA1TBLK6DM7A Red lower limit = B_HK_B06D7A_XTRDHI30 = 28 / BHKXA1TBLK6DM7A Red upper limit = B_HK_B06D7A_XTYELO30 = -51 / BHKXA1TBLK6DM7A Yellow lower limit = B_HK_B06D7TYEHI30 = 25 / BHKXA1TBLK6DM7A Yellow upper limit = B_HK_B06D7TRDLO32 = -51 / BHKXA1TBLK6DM7B Red lower limit = B_HK_B06D7B_XTRDHI32 = 28 / BHKXA1TBLK6DM7B Red upper limit = B_HK_B06D7B_XTYELO32 = -51 / BHKXA1TBLK6DM7B Yellow lower limit = B_HK_B06D7TYEHI32 = 25 / BHKXA1TBLK6DM7B Yellow upper limit = B_HK_B06D7TRDLO34 = -51 / BHKXA1TBLK7DM0A Red lower limit = B_HK_B07D0A_XTRDHI34 = 28 / BHKXA1TBLK7DM0A Red upper limit = B_HK_B07D0A_XTYELO34 = -51 / BHKXA1TBLK7DM0A Yellow lower limit = B_HK_B07D0TYEHI34 = 25 / BHKXA1TBLK7DM0A Yellow upper limit = B_HK_B07D0TRDLO36 = -51 / BHKXA1TBLK7DM0B Red lower limit = B_HK_B07D0B_XTRDHI36 = 28 / BHKXA1TBLK7DM0B Red upper limit = B_HK_B07D0B_XTYELO36 = -51 / BHKXA1TBLK7DM0B Yellow lower limit = B_HK_B07D0TYEHI36 = 25 / BHKXA1TBLK7DM0B Yellow upper limit = B_HK_B07D0TRDLO38 = -51 / BHKXA1TBLK7DM1A Red lower limit = B_HK_B07D1A_XTRDHI38 = 28 / BHKXA1TBLK7DM1A Red upper limit = B_HK_B07D1A_XTYELO38 = -51 / BHKXA1TBLK7DM1A Yellow lower limit = B_HK_B07D1TYEHI38 = 25 / BHKXA1TBLK7DM1A Yellow upper limit = B_HK_B07D1TRDLO40 = -51 / BHKXA1TBLK7DM1B Red lower limit = B_HK_B07D1B_XTRDHI40 = 28 / BHKXA1TBLK7DM1B Red upper limit = B_HK_B07D1B_XTYELO40 = -51 / BHKXA1TBLK7DM1B Yellow lower limit = B_HK_B07D1TYEHI40 = 25 / BHKXA1TBLK7DM1B Yellow upper limit = B_HK_B07D1TRDLO42 = -51 / BHKXA1TBLK7DM2A Red lower limit = B_HK_B07D2A_XTRDHI42 = 28 / BHKXA1TBLK7DM2A Red upper limit = B_HK_B07D2A_XTYELO42 = -51 / BHKXA1TBLK7DM2A Yellow lower limit = B_HK_B07D2TYEHI42 = 25 / BHKXA1TBLK7DM2A Yellow upper limit = B_HK_B07D2TRDLO44 = -51 / BHKXA1TBLK7DM2B Red lower limit = B_HK_B07D2B_XTRDHI44 = 28 / BHKXA1TBLK7DM2B Red upper limit = B_HK_B07D2B_XTYELO44 = -51 / BHKXA1TBLK7DM2B Yellow lower limit = B_HK_B07D2TYEHI44 = 25 / BHKXA1TBLK7DM2B Yellow upper limit = B_HK_B07D2TRDLO46 = -51 / BHKXA1TBLK7DM3A Red lower limit = B_HK_B07D3A_XTRDHI46 = 28 / BHKXA1TBLK7DM3A Red upper limit = B_HK_B07D3A_XTYELO46 = -51 / BHKXA1TBLK7DM3A Yellow lower limit = B_HK_B07D3TYEHI46 = 25 / BHKXA1TBLK7DM3A Yellow upper limit = B_HK_B07D3TRDLO48 = -51 / BHKXA1TBLK7DM3B Red lower limit = B_HK_B07D3B_XTRDHI48 = 28 / BHKXA1TBLK7DM3B Red upper limit = B_HK_B07D3B_XTYELO48 = -51 / BHKXA1TBLK7DM3B Yellow lower limit = B_HK_B07D3TYEHI48 = 25 / BHKXA1TBLK7DM3B Yellow upper limit = B_HK_B07D3TRDLO50 = -51 / BHKXA1TBLK7DM4A Red lower limit = B_HK_B07D4A_XTRDHI50 = 28 / BHKXA1TBLK7DM4A Red upper limit = B_HK_B07D4A_XTYELO50 = -51 / BHKXA1TBLK7DM4A Yellow lower limit = B_HK_B07D4TYEHI50 = 25 / BHKXA1TBLK7DM4A Yellow upper limit = B_HK_B07D4TRDLO52 = -51 / BHKXA1TBLK7DM4B Red lower limit = B_HK_B07D4B_XTRDHI52 = 28 / BHKXA1TBLK7DM4B Red upper limit = B_HK_B07D4B_XTYELO52 = -51 / BHKXA1TBLK7DM4B Yellow lower limit = B_HK_B07D4TYEHI52 = 25 / BHKXA1TBLK7DM4B Yellow upper limit = B_HK_B07D4TRDLO54 = -51 / BHKXA1TBLK7DM5A Red lower limit = B_HK_B07D5A_XTRDHI54 = 28 / BHKXA1TBLK7DM5A Red upper limit = B_HK_B07D5A_XTYELO54 = -51 / BHKXA1TBLK7DM5A Yellow lower limit = B_HK_B07D5TYEHI54 = 25 / BHKXA1TBLK7DM5A Yellow upper limit = B_HK_B07D5TRDLO56 = -51 / BHKXA1TBLK7DM5B Red lower limit = B_HK_B07D5B_XTRDHI56 = 28 / BHKXA1TBLK7DM5B Red upper limit = B_HK_B07D5B_XTYELO56 = -51 / BHKXA1TBLK7DM5B Yellow lower limit = B_HK_B07D5TYEHI56 = 25 / BHKXA1TBLK7DM5B Yellow upper limit = B_HK_B07D5TRDLO58 = -51 / BHKXA1TBLK7DM6A Red lower limit = B_HK_B07D6A_XTRDHI58 = 28 / BHKXA1TBLK7DM6A Red upper limit = B_HK_B07D6A_XTYELO58 = -51 / BHKXA1TBLK7DM6A Yellow lower limit = B_HK_B07D6TYEHI58 = 25 / BHKXA1TBLK7DM6A Yellow upper limit = B_HK_B07D6TRDLO60 = -51 / BHKXA1TBLK7DM6B Red lower limit = B_HK_B07D6B_XTRDHI60 = 28 / BHKXA1TBLK7DM6B Red upper limit = B_HK_B07D6B_XTYELO60 = -51 / BHKXA1TBLK7DM6B Yellow lower limit = B_HK_B07D6TYEHI60 = 25 / BHKXA1TBLK7DM6B Yellow upper limit = B_HK_B07D6TRDLO62 = -51 / BHKXA1TBLK7DM7A Red lower limit = B_HK_B07D7A_XTRDHI62 = 28 / BHKXA1TBLK7DM7A Red upper limit = B_HK_B07D7A_XTYELO62 = -51 / BHKXA1TBLK7DM7A Yellow lower limit = B_HK_B07D7TYEHI62 = 25 / BHKXA1TBLK7DM7A Yellow upper limit = B_HK_B07D7TRDLO64 = -51 / BHKXA1TBLK7DM7B Red lower limit = B_HK_B07D7B_XTRDHI64 = 28 / BHKXA1TBLK7DM7B Red upper limit = B_HK_B07D7B_XTYELO64 = -51 / BHKXA1TBLK7DM7B Yellow lower limit = B_HK_B07D7TYEHI64 = 25 / BHKXA1TBLK7DM7B Yellow upper limit = B_HK_B07D7TRDLO66 = -51 / BHKXA1TBLK8DM0A Red lower limit = B_HK_B08D0A_XTRDHI66 = 28 / BHKXA1TBLK8DM0A Red upper limit = B_HK_B08D0A_XTYELO66 = -51 / BHKXA1TBLK8DM0A Yellow lower limit = B_HK_B08D0TYEHI66 = 25 / BHKXA1TBLK8DM0A Yellow upper limit = B_HK_B08D0TRDLO68 = -51 / BHKXA1TBLK8DM0B Red lower limit = B_HK_B08D0B_XTRDHI68 = 28 / BHKXA1TBLK8DM0B Red upper limit = B_HK_B08D0B_XTYELO68 = -51 / BHKXA1TBLK8DM0B Yellow lower limit = B_HK_B08D0TYEHI68 = 25 / BHKXA1TBLK8DM0B Yellow upper limit = B_HK_B08D0TRDLO70 = -51 / BHKXA1TBLK8DM1A Red lower limit = B_HK_B08D1A_XTRDHI70 = 28 / BHKXA1TBLK8DM1A Red upper limit = B_HK_B08D1A_XTYELO70 = -51 / BHKXA1TBLK8DM1A Yellow lower limit = B_HK_B08D1TYEHI70 = 25 / BHKXA1TBLK8DM1A Yellow upper limit = B_HK_B08D1TRDLO72 = -51 / BHKXA1TBLK8DM1B Red lower limit = B_HK_B08D1B_XTRDHI72 = 28 / BHKXA1TBLK8DM1B Red upper limit = B_HK_B08D1B_XTYELO72 = -51 / BHKXA1TBLK8DM1B Yellow lower limit = B_HK_B08D1TYEHI72 = 25 / BHKXA1TBLK8DM1B Yellow upper limit = B_HK_B08D1TRDLO74 = -51 / BHKXA1TBLK8DM2A Red lower limit = B_HK_B08D2A_XTRDHI74 = 28 / BHKXA1TBLK8DM2A Red upper limit = B_HK_B08D2A_XTYELO74 = -51 / BHKXA1TBLK8DM2A Yellow lower limit = B_HK_B08D2TYEHI74 = 25 / BHKXA1TBLK8DM2A Yellow upper limit = B_HK_B08D2TRDLO76 = -51 / BHKXA1TBLK8DM2B Red lower limit = B_HK_B08D2B_XTRDHI76 = 28 / BHKXA1TBLK8DM2B Red upper limit = B_HK_B08D2B_XTYELO76 = -51 / BHKXA1TBLK8DM2B Yellow lower limit = B_HK_B08D2TYEHI76 = 25 / BHKXA1TBLK8DM2B Yellow upper limit = B_HK_B08D2TRDLO78 = -51 / BHKXA1TBLK8DM3A Red lower limit = B_HK_B08D3A_XTRDHI78 = 28 / BHKXA1TBLK8DM3A Red upper limit = B_HK_B08D3A_XTYELO78 = -51 / BHKXA1TBLK8DM3A Yellow lower limit = B_HK_B08D3TYEHI78 = 25 / BHKXA1TBLK8DM3A Yellow upper limit = B_HK_B08D3TRDLO80 = -51 / BHKXA1TBLK8DM3B Red lower limit = B_HK_B08D3B_XTRDHI80 = 28 / BHKXA1TBLK8DM3B Red upper limit = B_HK_B08D3B_XTYELO80 = -51 / BHKXA1TBLK8DM3B Yellow lower limit = B_HK_B08D3TYEHI80 = 25 / BHKXA1TBLK8DM3B Yellow upper limit = B_HK_B08D3TRDLO82 = -51 / BHKXA1TBLK8DM4A Red lower limit = B_HK_B08D4A_XTRDHI82 = 28 / BHKXA1TBLK8DM4A Red upper limit = B_HK_B08D4A_XTYELO82 = -51 / BHKXA1TBLK8DM4A Yellow lower limit = B_HK_B08D4TYEHI82 = 25 / BHKXA1TBLK8DM4A Yellow upper limit = B_HK_B08D4TRDLO84 = -51 / BHKXA1TBLK8DM4B Red lower limit = B_HK_B08D4B_XTRDHI84 = 28 / BHKXA1TBLK8DM4B Red upper limit = B_HK_B08D4B_XTYELO84 = -51 / BHKXA1TBLK8DM4B Yellow lower limit = B_HK_B08D4TYEHI84 = 25 / BHKXA1TBLK8DM4B Yellow upper limit = B_HK_B08D4TRDLO86 = -51 / BHKXA1TBLK8DM5A Red lower limit = B_HK_B08D5A_XTRDHI86 = 28 / BHKXA1TBLK8DM5A Red upper limit = B_HK_B08D5A_XTYELO86 = -51 / BHKXA1TBLK8DM5A Yellow lower limit = B_HK_B08D5TYEHI86 = 25 / BHKXA1TBLK8DM5A Yellow upper limit = B_HK_B08D5TRDLO88 = -51 / BHKXA1TBLK8DM5B Red lower limit = B_HK_B08D5B_XTRDHI88 = 28 / BHKXA1TBLK8DM5B Red upper limit = B_HK_B08D5B_XTYELO88 = -51 / BHKXA1TBLK8DM5B Yellow lower limit = B_HK_B08D5TYEHI88 = 25 / BHKXA1TBLK8DM5B Yellow upper limit = B_HK_B08D5TRDLO90 = -51 / BHKXA1TBLK8DM6A Red lower limit = B_HK_B08D6A_XTRDHI90 = 28 / BHKXA1TBLK8DM6A Red upper limit = B_HK_B08D6A_XTYELO90 = -51 / BHKXA1TBLK8DM6A Yellow lower limit = B_HK_B08D6TYEHI90 = 25 / BHKXA1TBLK8DM6A Yellow upper limit = B_HK_B08D6TRDLO92 = -51 / BHKXA1TBLK8DM6B Red lower limit = B_HK_B08D6B_XTRDHI92 = 28 / BHKXA1TBLK8DM6B Red upper limit = B_HK_B08D6B_XTYELO92 = -51 / BHKXA1TBLK8DM6B Yellow lower limit = B_HK_B08D6TYEHI92 = 25 / BHKXA1TBLK8DM6B Yellow upper limit = B_HK_B08D6TRDLO94 = -51 / BHKXA1TBLK8DM7A Red lower limit = B_HK_B08D7A_XTRDHI94 = 28 / BHKXA1TBLK8DM7A Red upper limit = B_HK_B08D7A_XTYELO94 = -51 / BHKXA1TBLK8DM7A Yellow lower limit = B_HK_B08D7TYEHI94 = 25 / BHKXA1TBLK8DM7A Yellow upper limit = B_HK_B08D7TRDLO96 = -51 / BHKXA1TBLK8DM7B Red lower limit = B_HK_B08D7B_XTRDHI96 = 28 / BHKXA1TBLK8DM7B Red upper limit = B_HK_B08D7B_XTYELO96 = -51 / BHKXA1TBLK8DM7B Yellow lower limit = B_HK_B08D7TYEHI96 = 25 / BHKXA1TBLK8DM7B Yellow upper limit = B_HK_B08D7TRDLO98 = -51 / BHKXA1TBLK9DM0A Red lower limit = B_HK_B09D0A_XTRDHI98 = 28 / BHKXA1TBLK9DM0A Red upper limit = B_HK_B09D0A_XTYELO98 = -51 / BHKXA1TBLK9DM0A Yellow lower limit = B_HK_B09D0TYEHI98 = 25 / BHKXA1TBLK9DM0A Yellow upper limit = B_HK_B09D0TRDLO100= -51 / BHKXA1TBLK9DM0B Red lower limit = B_HK_B09D0B_XTRDHI100= 28 / BHKXA1TBLK9DM0B Red upper limit = B_HK_B09D0B_XTYELO100= -51 / BHKXA1TBLK9DM0B Yellow lower limit = B_HK_B09D0TYEHI100= 25 / BHKXA1TBLK9DM0B Yellow upper limit = B_HK_B09D0TRDLO102= -51 / BHKXA1TBLK9DM1A Red lower limit = B_HK_B09D1A_XTRDHI102= 28 / BHKXA1TBLK9DM1A Red upper limit = B_HK_B09D1A_XTYELO102= -51 / BHKXA1TBLK9DM1A Yellow lower limit = B_HK_B09D1TYEHI102= 25 / BHKXA1TBLK9DM1A Yellow upper limit = B_HK_B09D1TRDLO104= -51 / BHKXA1TBLK9DM1B Red lower limit = B_HK_B09D1B_XTRDHI104= 28 / BHKXA1TBLK9DM1B Red upper limit = B_HK_B09D1B_XTYELO104= -51 / BHKXA1TBLK9DM1B Yellow lower limit = B_HK_B09D1TYEHI104= 25 / BHKXA1TBLK9DM1B Yellow upper limit = B_HK_B09D1TRDLO106= -51 / BHKXA1TBLK9DM2A Red lower limit = B_HK_B09D2A_XTRDHI106= 28 / BHKXA1TBLK9DM2A Red upper limit = B_HK_B09D2A_XTYELO106= -51 / BHKXA1TBLK9DM2A Yellow lower limit = B_HK_B09D2TYEHI106= 25 / BHKXA1TBLK9DM2A Yellow upper limit = B_HK_B09D2TRDLO108= -51 / BHKXA1TBLK9DM2B Red lower limit = B_HK_B09D2B_XTRDHI108= 28 / BHKXA1TBLK9DM2B Red upper limit = B_HK_B09D2B_XTYELO108= -51 / BHKXA1TBLK9DM2B Yellow lower limit = B_HK_B09D2TYEHI108= 25 / BHKXA1TBLK9DM2B Yellow upper limit = B_HK_B09D2TRDLO110= -51 / BHKXA1TBLK9DM3A Red lower limit = B_HK_B09D3A_XTRDHI110= 28 / BHKXA1TBLK9DM3A Red upper limit = B_HK_B09D3A_XTYELO110= -51 / BHKXA1TBLK9DM3A Yellow lower limit = B_HK_B09D3TYEHI110= 25 / BHKXA1TBLK9DM3A Yellow upper limit = B_HK_B09D3TRDLO112= -51 / BHKXA1TBLK9DM3B Red lower limit = B_HK_B09D3B_XTRDHI112= 28 / BHKXA1TBLK9DM3B Red upper limit = B_HK_B09D3B_XTYELO112= -51 / BHKXA1TBLK9DM3B Yellow lower limit = B_HK_B09D3TYEHI112= 25 / BHKXA1TBLK9DM3B Yellow upper limit = B_HK_B09D3TRDLO114= -51 / BHKXA1TBLK9DM4A Red lower limit = B_HK_B09D4A_XTRDHI114= 28 / BHKXA1TBLK9DM4A Red upper limit = B_HK_B09D4A_XTYELO114= -51 / BHKXA1TBLK9DM4A Yellow lower limit = B_HK_B09D4TYEHI114= 25 / BHKXA1TBLK9DM4A Yellow upper limit = B_HK_B09D4TRDLO116= -51 / BHKXA1TBLK9DM4B Red lower limit = B_HK_B09D4B_XTRDHI116= 28 / BHKXA1TBLK9DM4B Red upper limit = B_HK_B09D4B_XTYELO116= -51 / BHKXA1TBLK9DM4B Yellow lower limit = B_HK_B09D4TYEHI116= 25 / BHKXA1TBLK9DM4B Yellow upper limit = B_HK_B09D4TRDLO118= -51 / BHKXA1TBLK9DM5A Red lower limit = B_HK_B09D5A_XTRDHI118= 28 / BHKXA1TBLK9DM5A Red upper limit = B_HK_B09D5A_XTYELO118= -51 / BHKXA1TBLK9DM5A Yellow lower limit = B_HK_B09D5TYEHI118= 25 / BHKXA1TBLK9DM5A Yellow upper limit = B_HK_B09D5TRDLO120= -51 / BHKXA1TBLK9DM5B Red lower limit = B_HK_B09D5B_XTRDHI120= 28 / BHKXA1TBLK9DM5B Red upper limit = B_HK_B09D5B_XTYELO120= -51 / BHKXA1TBLK9DM5B Yellow lower limit = B_HK_B09D5TYEHI120= 25 / BHKXA1TBLK9DM5B Yellow upper limit = B_HK_B09D5TRDLO122= -51 / BHKXA1TBLK9DM6A Red lower limit = B_HK_B09D6A_XTRDHI122= 28 / BHKXA1TBLK9DM6A Red upper limit = B_HK_B09D6A_XTYELO122= -51 / BHKXA1TBLK9DM6A Yellow lower limit = B_HK_B09D6TYEHI122= 25 / BHKXA1TBLK9DM6A Yellow upper limit = B_HK_B09D6TRDLO124= -51 / BHKXA1TBLK9DM6B Red lower limit = B_HK_B09D6B_XTRDHI124= 28 / BHKXA1TBLK9DM6B Red upper limit = B_HK_B09D6B_XTYELO124= -51 / BHKXA1TBLK9DM6B Yellow lower limit = B_HK_B09D6TYEHI124= 25 / BHKXA1TBLK9DM6B Yellow upper limit = B_HK_B09D6TRDLO126= -51 / BHKXA1TBLK9DM7A Red lower limit = B_HK_B09D7A_XTRDHI126= 28 / BHKXA1TBLK9DM7A Red upper limit = B_HK_B09D7A_XTYELO126= -51 / BHKXA1TBLK9DM7A Yellow lower limit = B_HK_B09D7TYEHI126= 25 / BHKXA1TBLK9DM7A Yellow upper limit = B_HK_B09D7TRDLO128= -51 / BHKXA1TBLK9DM7B Red lower limit = B_HK_B09D7B_XTRDHI128= 28 / BHKXA1TBLK9DM7B Red upper limit = B_HK_B09D7B_XTYELO128= -51 / BHKXA1TBLK9DM7B Yellow lower limit = B_HK_B09D7TYEHI128= 25 / BHKXA1TBLK9DM7B Yellow upper limit = B_HK_B09D7TRDLO130= -51 / BHKXA1TBLK10DM0A Red lower limit = B_HK_B10D0A_TRDHI130= 28 / BHKXA1TBLK10DM0A Red upper limit = B_HK_B10D0A_TYELO130= -51 / BHKXA1TBLK10DM0A Yellow lower limit = B_HK_B10DTYEHI130= 25 / BHKXA1TBLK10DM0A Yellow upper limit = B_HK_B10DTRDLO132= -51 / BHKXA1TBLK10DM0B Red lower limit = B_HK_B10D0B_TRDHI132= 28 / BHKXA1TBLK10DM0B Red upper limit = B_HK_B10D0B_TYELO132= -51 / BHKXA1TBLK10DM0B Yellow lower limit = B_HK_B10DTYEHI132= 25 / BHKXA1TBLK10DM0B Yellow upper limit = B_HK_B10DTRDLO134= -51 / BHKXA1TBLK10DM1A Red lower limit = B_HK_B10D1A_TRDHI134= 28 / BHKXA1TBLK10DM1A Red upper limit = B_HK_B10D1A_TYELO134= -51 / BHKXA1TBLK10DM1A Yellow lower limit = B_HK_B10DTYEHI134= 25 / BHKXA1TBLK10DM1A Yellow upper limit = B_HK_B10DTRDLO136= -51 / BHKXA1TBLK10DM1B Red lower limit = B_HK_B10D1B_TRDHI136= 28 / BHKXA1TBLK10DM1B Red upper limit = B_HK_B10D1B_TYELO136= -51 / BHKXA1TBLK10DM1B Yellow lower limit = B_HK_B10DTYEHI136= 25 / BHKXA1TBLK10DM1B Yellow upper limit = B_HK_B10DTRDLO138= -51 / BHKXA1TBLK10DM2A Red lower limit = B_HK_B10D2A_TRDHI138= 28 / BHKXA1TBLK10DM2A Red upper limit = B_HK_B10D2A_TYELO138= -51 / BHKXA1TBLK10DM2A Yellow lower limit = B_HK_B10DTYEHI138= 25 / BHKXA1TBLK10DM2A Yellow upper limit = B_HK_B10DTRDLO140= -51 / BHKXA1TBLK10DM2B Red lower limit = B_HK_B10D2B_TRDHI140= 28 / BHKXA1TBLK10DM2B Red upper limit = B_HK_B10D2B_TYELO140= -51 / BHKXA1TBLK10DM2B Yellow lower limit = B_HK_B10DTYEHI140= 25 / BHKXA1TBLK10DM2B Yellow upper limit = B_HK_B10DTRDLO142= -51 / BHKXA1TBLK10DM3A Red lower limit = B_HK_B10D3A_TRDHI142= 28 / BHKXA1TBLK10DM3A Red upper limit = B_HK_B10D3A_TYELO142= -51 / BHKXA1TBLK10DM3A Yellow lower limit = B_HK_B10DTYEHI142= 25 / BHKXA1TBLK10DM3A Yellow upper limit = B_HK_B10DTRDLO144= -51 / BHKXA1TBLK10DM3B Red lower limit = B_HK_B10D3B_TRDHI144= 28 / BHKXA1TBLK10DM3B Red upper limit = B_HK_B10D3B_TYELO144= -51 / BHKXA1TBLK10DM3B Yellow lower limit = B_HK_B10DTYEHI144= 25 / BHKXA1TBLK10DM3B Yellow upper limit = B_HK_B10DTRDLO146= -51 / BHKXA1TBLK10DM4A Red lower limit = B_HK_B10D4A_TRDHI146= 28 / BHKXA1TBLK10DM4A Red upper limit = B_HK_B10D4A_TYELO146= -51 / BHKXA1TBLK10DM4A Yellow lower limit = B_HK_B10DTYEHI146= 25 / BHKXA1TBLK10DM4A Yellow upper limit = B_HK_B10DTRDLO148= -51 / BHKXA1TBLK10DM4B Red lower limit = B_HK_B10D4B_TRDHI148= 28 / BHKXA1TBLK10DM4B Red upper limit = B_HK_B10D4B_TYELO148= -51 / BHKXA1TBLK10DM4B Yellow lower limit = B_HK_B10DTYEHI148= 25 / BHKXA1TBLK10DM4B Yellow upper limit = B_HK_B10DTRDLO150= -51 / BHKXA1TBLK10DM5A Red lower limit = B_HK_B10D5A_TRDHI150= 28 / BHKXA1TBLK10DM5A Red upper limit = B_HK_B10D5A_TYELO150= -51 / BHKXA1TBLK10DM5A Yellow lower limit = B_HK_B10DTYEHI150= 25 / BHKXA1TBLK10DM5A Yellow upper limit = B_HK_B10DTRDLO152= -51 / BHKXA1TBLK10DM5B Red lower limit = B_HK_B10D5B_TRDHI152= 28 / BHKXA1TBLK10DM5B Red upper limit = B_HK_B10D5B_TYELO152= -51 / BHKXA1TBLK10DM5B Yellow lower limit = B_HK_B10DTYEHI152= 25 / BHKXA1TBLK10DM5B Yellow upper limit = B_HK_B10DTRDLO154= -51 / BHKXA1TBLK10DM6A Red lower limit = B_HK_B10D6A_TRDHI154= 28 / BHKXA1TBLK10DM6A Red upper limit = B_HK_B10D6A_TYELO154= -51 / BHKXA1TBLK10DM6A Yellow lower limit = B_HK_B10DTYEHI154= 25 / BHKXA1TBLK10DM6A Yellow upper limit = B_HK_B10DTRDLO156= -51 / BHKXA1TBLK10DM6B Red lower limit = B_HK_B10D6B_TRDHI156= 28 / BHKXA1TBLK10DM6B Red upper limit = B_HK_B10D6B_TYELO156= -51 / BHKXA1TBLK10DM6B Yellow lower limit = B_HK_B10DTYEHI156= 25 / BHKXA1TBLK10DM6B Yellow upper limit = B_HK_B10DTRDLO158= -51 / BHKXA1TBLK10DM7A Red lower limit = B_HK_B10D7A_TRDHI158= 28 / BHKXA1TBLK10DM7A Red upper limit = B_HK_B10D7A_TYELO158= -51 / BHKXA1TBLK10DM7A Yellow lower limit = B_HK_B10DTYEHI158= 25 / BHKXA1TBLK10DM7A Yellow upper limit = B_HK_B10DTRDLO160= -51 / BHKXA1TBLK10DM7B Red lower limit = B_HK_B10D7B_TRDHI160= 28 / BHKXA1TBLK10DM7B Red upper limit = B_HK_B10D7B_TYELO160= -51 / BHKXA1TBLK10DM7B Yellow lower limit = B_HK_B10DTYEHI160= 25 / BHKXA1TBLK10DM7B Yellow upper limit = B_HK_B10DHISTORY TASK: FAPPND on FILENAME: sw00976692000b177x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��sքt�f��e�a�]�s�|�s�S��`�x�\�a�j�r�s��q�r�g��i�a�`�e�h�o�]�h�_�u�m�e�V�t�o�r�~�d�n�v�r�j�g�y��r�{�j�r�c�n�t�l�z�n�i�}�z�l�m�o�^��.�=�T�E�t�q�u�o�u�b�h�k�5�@�A�GT��j�t�f��d�`�\�s�|�s�S��`�x�[�a�j�q�t��q�r�g��i�a�a�e�h�o�]�h�_�u�l�e�U�t�o�r�~�d�n�u�t�i�g�y��r�z�j�q�c�n�t�k�z�n�i�|�z�l�l�o�^��/�=�S�E�t�q�u�o�t�b�g�k�4�@�~A�GT��k��u�f��e�a�\�t�|�s�T��`�w�\�a�i�r�s��q�r�g��i�a�`�e�h�o�]�h�_�u�m�e�U�t�n�r�~�d�n�u�p�i�g�y��r�z�j�r�c�n�s�l�z�n�i�}�z�l�m�n�^��/�>�S�E�t�q�u�o�u�b�h�h�5�?��A�GT��h��t�e��e�a�\�t�|�s�S��`�x�\�a�j�r�t��q�r�g��i�a�a�e�h�o�^�h�_�u�m�e�U�t�o�r�~�d�m�v�p�i�g�y��r�z�k�r�c�n�t�l�z�n�i�}�z�l�m�o�^��.�>�T�F�t�q�u�n�t�b�h�k�5�?�RA�GT��k��u�f��e�a�]�s�|�t�S��`�x�\�a�j�r�s��q�r�g��i�a�a�e�h�p�]�h�^�t�m�e�U�t�n�r�~�d�n�u�s�i�h�y��r�z�j�r�d�n�t�k�z�n�i�}�z�l�m�o�]��/�>�T�F�t�q�u�o�u�b�h�g�4�@��A�GT��u�f��e�a�\�t�|�t�S��`�x�\�a�j�r�t��q�r�h��i�`�`�f�h�o�^�h�_�u�m�d�U�t�o�r�~�d�n�u�q�i�g�y��r�z�j�r�c�n�t�k�z�n�i�|�z�l�n�n�]��/�=�S�E�u�r�u�o�t�b�h�k�5�@��A�GU�iY�u�f��e�a�\�t�|�s�S��`�x�\�a�j�r�s��q�s�g��i�a�a�e�h�o�^�h�_�u�m�e�V�t�o�r�~�d�n�u�q�i�g�y��r�z�j�r�c�n�t�k�z�n�i�}�z�l�m�n�^��/�>�S�E�t�q�u�o�u�c�h�k�5�@�A�GU�l��u�f��e�a�]�t�|�s�S��a�x�\�b�k�r�t��q�r�g��i�a�`�f�h�o�]�h�_�u�m�e�U�t�o�s��d�n�u�r�j�h�y��r�z�j�r�c�n�t�l�z�n�i�|�z�l�m�n�]��/�=�T�F�u�q�u�o�t�c�h�n�5�@��A�GU,�kQ�u�f��f�a�\�s�|�t�S��a�x�\�a�j�r�t��r�r�g��i�b�a�e�i�p�]�h�_�u�m�e�U�t�o�r�~�d�n�u�s�i�h�y��r�{�j�r�c�n�t�l�{�n�h�}�z�l�n�n�^��/�>�T�E�t�q�u�n�u�b�h�k�5�@��A�GU;�h��u�f��e�`�]�s�|�t�S��a�x�\�a�k�r�t��r�s�h��i�a�`�f�h�o�]�h�_�u�m�e�U�t�o�r�~�d�n�u�s�j�g�y��r�z�k�q�c�o�t�l�{�n�i�}�z�m�m�n�^��/�=�T�F�u�q�u�n�u�b�i�j�5�@�A�GUJ�mH�u�f��f�a�]�t�|�t�S��a�x�\�a�i�r�s��r�r�h��i�b�a�e�h�p�^�h�_�u�m�e�U�t�o�r�~�d�n�u�q�i�g�y��r�{�j�r�d�n�t�l�{�n�i�}�z�l�m�n�^��/�>�S�E�u�q�u�o�u�b�h�k�5�@�A�GUY�h �u�f��e�a�]�t�|�t�S��a�x�\�a�k�r�s��r�r�h��i�b�a�e�h�p�]�i�_�u�l�e�U�t�o�r�~�d�m�u�s�i�g�y��r�z�j�r�c�n�t�l�{�n�i�|�z�l�m�o�^��/�>�T�E�u�r�u�o�t�b�h�l�5�@�eA�GUh�j��u�f��e�`�]�t�|�s�S��`�x�\�a�k�r�t��q�r�h��i�a�a�e�h�o�^�h�_�u�m�e�U�t�o�r�~�d�n�u�s�i�g�z��r�{�j�q�c�n�t�l�{�n�i�}�z�m�n�n�]��.�>�T�E�t�r�u�o�t�b�i�k�5�@�;A�GUwҖ��u�f��e�a�]�t�|�t�S��a�x�\�b�j�r�t��q�r�f��i�b�a�e�h�o�^�i�_�u�m�e�U�t�o�r�~�d�n�v�r�i�g�y��r�z�j�r�c�n�t�l�z�o�h�}�z�l�m�n�]��.�?�S�E�t�r�u�o�t�b�h�m�5�@��A�GU��h �t�f��e�a�]�t�|�t�S��a�x�\�a�j�r�t��q�r�g��i�a�a�e�h�p�]�h�_�u�m�e�V�t�o�r�~�d�n�v�q�j�g�y��r�z�j�r�d�n�u�k�{�n�i�~�z�m�m�n�]��/�=�S�E�u�r�u�o�t�b�h�j�5�@��A�GU��k��u�f��f�a�]�s�|�s�S��a�x�\�a�k�r�t��q�r�g��i�a�a�e�h�o�^�i�_�u�m�e�U�t�o�r�~�d�n�u�p�i�g�x��r�{�j�r�c�n�t�l�z�n�i�|�z�m�n�o�^��/�>�S�F�t�q�t�o�t�c�h�l�5�@��A�GU��k��u�f��f�b�]�t�}�s�S��a�x�\�b�j�r�t��q�r�h��i�a�a�e�h�o�^�h�_�u�m�e�V�t�o�s�~�d�n�u�s�j�g�y��r�z�j�r�d�n�u�l�{�o�h�|�z�m�n�n�]��/�>�S�F�u�q�u�o�u�b�h�j�4�?�-A�GU��j�t�f��e�b�]�t�|�t�S��a�x�\�a�j�r�t��q�r�h��i�a�a�e�h�o�^�i�_�u�m�e�U�t�o�s�~�d�n�v�r�j�g�y��r�z�j�r�c�n�t�l�{�n�i�}�z�m�m�n�]��/�>�T�F�t�q�u�o�t�b�h�j�6�@�?A�GU��k��u�f��e�a�\�t�|�t�S��`�x�\�a�k�r�t��q�r�h��i�a�a�f�i�o�]�h�_�u�m�e�U�t�o�r�~�d�n�v�s�i�g�y��r�z�j�r�c�n�t�l�{�n�i�}�z�l�n�o�^��/�>�S�E�u�q�u�o�u�b�h�i�5�?�5A�GU��k��t�f��f�`�]�s�|�t�S��a�x�\�b�j�r�t��q�r�g��i�a�a�f�i�o�]�i�_�u�m�e�V�t�o�r��d�n�u�t�i�g�y��r�z�k�r�c�n�t�l�z�n�i�}�{�m�m�n�]��/�>�T�E�t�q�u�o�t�b�h�k�5�@��A�GU��j�u�f��e�a�]�t�}�t�S��a�x�\�b�k�r�t��q�r�h��i�b�a�f�h�o�^�i�_�u�m�e�U�t�o�r�~�d�n�u�q�j�g�y��r�{�i�r�c�n�u�l�z�o�i�}�{�m�n�o�^��/�>�T�F�u�q�u�o�u�b�i�k�5�?�KA�GU��k��u�f��e�a�]�t�}�t�T��`�x�\�a�j�r�t��q�s�h��i�a�a�f�h�p�^�h�_�u�m�e�U�t�o�r�~�d�n�u�r�j�g�z��r�{�k�r�c�n�t�l�z�o�i�}�z�m�n�o�]��/�>�T�F�u�r�u�o�t�b�h�m�5�@��A�GU��k��u�f��e�a�]�t�|�t�S��a�x�\�b�k�r�t��q�s�h��i�a�b�f�h�p�^�i�_�u�m�e�V�t�o�r��e�n�v�r�j�g�y��r�z�j�r�c�n�t�l�z�o�i�|�z�m�n�n�^��/�>�T�F�u�r�u�o�t�b�h�l�5�@��A�GV �h �t�f��e�b�]�t�|�t�S��a�x�\�a�j�q�t��q�r�h��i�b�a�e�h�p�]�h�_�u�m�e�V�u�o�r�~�d�n�u�q�j�h�y��r�{�j�r�d�n�t�l�{�n�i�}�z�m�n�o�^��/�>�S�F�u�q�u�o�u�b�h�l�4�@��A�GV�vu�u�f��e�a�]�t�|�t�S��a�x�\�a�j�r�t��r�r�g��j�b�a�e�i�p�^�i�_�u�m�e�U�t�o�r��d�n�v�q�j�h�y��q�{�j�r�d�n�u�l�{�o�i�}�{�m�m�o�^��/�>�U�E�u�q�u�o�u�c�h�k�5�@�!A�GV+�mH�u�g��e�a�]�t�}�t�T��a�x�\�b�k�r�t��q�r�h��i�b�a�e�i�p�]�h�_�u�m�e�V�t�o�s�~�d�n�u�s�j�h�y��r�z�j�q�d�n�u�l�{�n�i�}�z�l�m�o�^��/�>�T�F�u�q�u�o�u�c�h�l�5�@�7A�GV:�h �u�f��f�a�]�t�|�t�S��a�x�\�a�k�r�t��r�r�g��i�b�a�f�i�o�^�i�_�u�m�e�V�t�o�r��d�n�u�r�j�g�y��r�z�j�r�d�n�t�l�{�o�i�}�{�m�n�n�^��/�>�T�F�u�r�u�o�u�b�h�l�5�@�bA�GVI�k��u�g��e�a�]�s�|�t�S��`�x�\�a�k�r�t��r�r�g��j�a�a�e�h�p�^�i�_�u�m�e�V�t�o�r�~�e�n�u�r�j�h�y��r�z�j�r�c�o�u�l�z�o�h�}�{�l�n�o�^��/�=�T�F�t�q�u�o�u�b�h�m�5�@�MA�GVX�j��u�f��e�a�]�t�|�t�T��a�y�\�a�k�r�t��q�r�g��i�b�a�e�h�p�^�h�_�u�m�e�V�t�o�r�~�e�n�v�s�j�g�y��r�z�k�r�c�n�t�k�z�n�i�}�z�l�n�n�^��/�>�S�E�u�r�u�o�u�b�h�k�5�@�/A�GVgҥ��u�f��f�b�]�t�|�s�T��a�x�\�b�j�r�t��r�r�h��i�b�a�f�h�o�]�i�_�t�m�e�U�t�o�r��e�n�v�r�j�h�y��r�z�j�r�c�n�t�l�z�o�i�}�z�l�n�n�^��/�=�S�F�t�q�u�o�u�b�h�k�5�?��A�GVv�j�u�f��f�a�]�t�|�t�S��a�x�\�b�k�r�t��q�r�h��j�a�a�f�h�o�^�i�_�u�m�f�V�t�o�r�~�d�n�v�q�j�g�z��r�z�j�r�d�o�t�l�z�n�i�|�{�l�n�o�]��/�>�S�F�t�r�u�p�u�c�h�k�5�@��A�GV��j�u�f��f�a�\�t�|�t�S��a�x�]�a�j�r�t��q�r�h��i�a�b�e�h�p�^�i�_�u�m�e�V�t�o�r��d�n�v�r�j�h�z��r�z�j�r�c�o�u�l�{�o�i�}�z�l�n�n�^��/�=�T�F�u�q�u�o�u�b�i�k�5�@�A�GV��r��u�f��f�a�]�s�|�t�T��a�x�\�b�j�r�t��r�r�h��i�b�a�f�i�p�^�i�_�u�m�e�V�t�o�r�~�d�n�u�s�j�g�y��r�z�k�r�d�n�u�m�{�o�i�}�z�l�n�o�^��/�>�T�E�u�p�u�o�u�b�h�l�5�@�lA�GV��n��u�g��f�b�]�t�}�u�S��a�y�\�b�k�r�t��r�s�h��j�b�a�e�i�p�^�h�_�u�m�e�U�t�o�s�~�d�o�v�t�j�h�y��r�{�j�r�c�n�u�l�z�n�i�}�z�m�n�n�]��/�>�T�E�u�q�u�o�u�b�h�k�5�@��A�GV��m��u�f��f�b�]�t�}�t�T��a�y�\�b�j�s�t��r�r�h��j�b�b�f�i�p�^�i�_�u�m�e�V�t�o�r��d�n�v�s�j�h�z��r�{�j�r�d�o�t�l�{�n�i�}�{�l�n�o�^��0�>�T�E�u�r�u�o�u�c�h�l�5�@��A�GV��m��u�g��f�a�]�t�}�t�T��a�x�\�b�k�r�t��r�s�h��j�b�a�f�i�p�^�i�_�u�m�e�V�u�o�r�~�e�n�v�r�j�h�y��r�z�j�s�d�n�u�l�{�o�i�}�{�m�n�o�^��/�>�T�F�u�r�u�o�u�b�i�m�5�@��A�GV��p��u�g��f�a�]�s�}�t�T��a�y�]�b�k�r�t��r�s�h��j�b�a�f�i�p�]�i�_�u�m�e�V�t�o�s��d�n�v�r�j�g�y��r�{�k�s�d�o�t�l�z�o�i�}�{�m�n�o�^��/�>�T�F�u�r�u�o�u�c�h�k�5�@��A�GV��mH�u�g��f�b�^�t�}�t�T��a�x�\�b�k�r�t��r�s�h��j�b�b�f�i�p�^�i�`�u�m�f�V�t�o�s��e�n�v�s�j�h�y��s�{�j�r�d�o�t�m�{�o�i�}�{�m�m�o�^��/�>�T�F�u�r�u�o�u�c�h�k�5�@�jA�GV��l��u�g��f�a�]�t�}�t�S��a�y�\�b�k�s�u��r�s�i��j�b�a�f�i�p�^�i�_�u�m�e�V�t�p�s��d�n�v�r�j�g�z��r�{�k�r�c�n�t�l�{�o�j�}�{�l�n�o�^��/�>�T�F�u�r�u�o�u�b�i�k�5�@�]A�GV��o?�u�g��f�b�]�t�}�t�T��a�y�\�b�j�s�t��r�r�g��i�b�a�f�i�p�^�i�_�u�n�e�V�t�o�s��d�n�v�r�j�h�y��r�z�j�r�c�o�t�l�{�o�i�}�z�m�n�n�^��0�>�T�F�u�r�u�o�u�c�h�k�6�@�%A�GW�n��u�g��f�a�]�t�}�t�T��a�x�]�a�j�r�t��r�s�h��i�b�a�f�i�p�^�i�_�u�m�e�V�u�o�s��e�n�v�s�j�h�y��r�z�j�s�c�o�t�l�{�n�i�}�{�m�n�o�^��/�>�T�E�u�r�u�o�u�b�i�i�5�A�HA�GW�mH�u�f��f�b�]�t�}�t�S��a�y�]�b�k�r�t��r�s�h��j�b�b�f�h�p�^�i�_�u�m�e�V�t�o�s��d�n�v�t�j�h�y��r�z�j�r�c�n�u�l�z�n�i�}�{�l�m�o�^��/�>�T�F�u�r�u�o�u�b�h�k�5�@�ZA�GW*�n��u�g��e�a�]�t�}�t�S��`�x�]�b�k�r�t��r�s�i��j�b�a�f�i�p�^�i�_�u�m�f�V�t�o�s��d�n�v�s�j�h�z��r�z�j�s�d�n�t�l�z�o�i�}�z�l�m�o�^��/�>�T�F�u�q�u�o�u�b�h�k�5�@�PA�GW9�m��u�g��f�a�]�t�}�t�S��a�x�]�b�k�s�t��r�r�h��j�b�a�f�i�p�^�i�_�u�m�e�V�t�o�s��d�n�v�s�j�h�y��r�{�j�r�d�n�u�m�z�o�i�}�{�l�m�o�^��/�>�T�E�u�r�u�o�u�c�h�p�5�@�$A�GWH�m��u�g��f�b�]�t�}�t�T��a�x�]�c�k�r�t��r�s�h��j�a�b�f�i�p�^�i�_�u�m�e�V�t�o�r��d�n�v�r�j�h�z��r�z�k�r�d�o�t�l�{�n�j�}�z�m�n�n�^��/�>�T�F�u�q�v�o�u�c�h�m�5�@�'A�GWWҁ��u�f��f�b�]�t�}�t�T��b�x�\�b�k�r�u��r�s�h��i�a�b�f�i�p�^�i�_�u�m�e�U�u�o�r�~�d�n�v�t�j�h�z��r�z�k�r�d�o�u�l�z�o�i�}�{�m�m�n�^��/�>�T�F�u�q�u�o�u�c�i�i�5�@�A�GWf�mH�u�g��f�a�^�t�}�u�T��a�x�]�c�k�r�t��r�s�h��j�b�b�f�i�p�^�i�_�u�m�f�V�t�o�s�~�e�n�v�s�j�h�z��r�{�k�r�d�o�t�l�{�o�i�}�{�m�n�o�^��/�?�T�F�u�r�u�o�v�c�h�j�5�@��A�GWu�m��v�f��f�b�]�t�}�t�T��b�y�]�b�k�s�t��r�r�h��j�b�b�f�i�p�^�i�_�u�m�f�V�t�o�s�~�d�n�v�r�j�h�y��r�{�k�s�d�o�t�l�{�n�i�~�z�m�n�o�^��0�?�T�F�v�r�u�o�v�b�i�i�6�@�A�GW��r��u�g��f�b�]�t�}�t�T��a�x�]�b�k�s�u��r�s�h��j�b�b�f�i�p�_�i�`�u�n�e�V�t�o�s�~�d�n�v�s�j�h�y��r�{�k�q�d�o�u�m�{�o�i�}�{�m�n�o�^��/�>�S�F�u�q�v�o�u�c�i�m�6�@��A�GW��mH�u�f��f�b�^�t�}�u�T��a�y�]�b�k�s�t��r�s�h��j�b�b�f�i�p�^�i�`�u�n�e�V�t�o�s��d�n�v�r�j�h�y��s�{�k�s�d�o�u�l�z�o�i�}�{�m�n�o�^��/�?�T�F�u�r�u�o�u�c�i�i�5�@�|A�GW��n��u�g��f�b�^�t�}�t�T��a�y�]�a�k�s�t��r�s�h��j�b�a�f�i�p�^�i�_�u�m�f�V�t�p�s��e�n�v�t�j�g�z��r�z�k�r�c�o�u�l�{�n�i�}�{�m�n�p�^��0�>�T�F�u�r�u�o�u�c�i�l�5�@��A�GW��l��u�g��f�b�]�u�}�t�T��a�y�]�b�k�s�t��r�s�h��j�c�b�f�i�p�_�i�_�u�m�f�V�u�p�s�~�d�n�v�s�j�h�y��r�z�k�r�d�o�u�l�{�o�i�~�{�m�n�o�^��0�>�U�F�u�r�u�o�u�c�i�i�5�@��A�GW��n��u�g��f�a�]�t�}�t�T��a�y�]�c�k�s�u��r�s�h��j�b�a�f�i�p�^�i�_�u�m�f�V�u�o�s��d�n�v�s�j�g�z��r�z�k�s�d�o�t�l�{�n�i�}�{�m�n�o�^��/�>�T�E�u�r�u�o�u�c�i�k�6�A��A�GW��l��v�g��f�b�^�u�}�t�T��a�y�]�b�k�s�u��r�s�h��j�b�a�f�i�p�^�i�`�u�n�f�V�t�p�s��e�n�v�r�j�h�y��r�{�k�s�d�o�u�l�z�o�j�}�{�m�n�o�^��0�>�T�F�u�r�u�o�u�c�i�k�5�@�mA�GW�Ҩ�u�g��f�b�]�t�}�t�T��a�y�]�c�k�s�t��r�s�i��j�c�a�f�i�p�^�i�_�u�m�f�V�t�o�s��e�n�v�u�j�h�y��r�{�k�s�d�o�u�m�z�o�i�}�{�m�n�o�_��/�>�T�F�u�r�u�o�u�c�h�m�5�@��A�GW�Ҧ�u�g��f�b�^�t�}�t�T��b�y�]�c�k�s�u��r�s�h��j�b�a�f�i�p�_�i�_�u�m�f�V�u�p�s��d�n�v�s�j�h�y��r�z�j�q�d�o�v�l�{�o�i�~�{�m�n�o�^��/�>�T�F�u�r�u�o�u�c�i�l�6�A�A�GW��m��u�g��f�b�^�u�}�u�T��b�y�]�b�l�s�u��s�s�h��j�b�b�g�i�q�^�i�`�u�m�e�V�u�p�s��e�n�v�t�j�h�y��r�{�j�s�d�o�u�m�z�o�j�}�{�m�n�o�^��0�>�T�F�v�s�u�o�u�c�i�m�6�@��A�GX�kQ�u�g��f�b�^�t�}�u�T��a�x�]�b�k�s�u��r�s�h��j�b�b�f�i�p�_�i�`�u�n�f�V�t�p�s��e�n�v�t�j�h�z��s�{�k�s�d�o�u�m�{�o�i�}�{�m�n�o�^��/�>�T�F�u�r�u�o�u�b�i�n�5�A��A�GX�n��v�g��f�b�^�u�~�u�T��a�y�]�b�k�s�u��r�s�i��j�c�b�g�i�q�_�j�`�u�m�f�V�t�p�s��e�o�v�s�j�h�z��s�{�k�r�d�o�u�m�{�o�j�~�{�m�n�p�^��0�?�U�F�u�r�u�o�v�c�i�k�6�@�fA�GX)�o?�u�g��f�b�^�u�}�u�T��b�y�]�b�k�s�u��r�s�i��j�c�b�g�i�q�_�i�`�u�m�f�V�u�p�s��e�o�v�t�j�h�z��r�{�k�s�d�o�u�m�{�o�j�~�{�m�n�o�^��0�>�T�F�v�r�v�p�u�c�i�l�5�A��A�GX8�m��v�g��g�b�^�u�}�u�T��b�y�]�c�k�t�u��s�s�h��j�b�b�g�j�q�_�j�`�v�m�f�V�u�p�s��e�n�v�t�j�h�z��r�{�l�s�d�o�u�m�{�o�j�}�{�m�n�p�^��/�>�T�G�u�r�u�o�v�c�i�l�6�A�A�GXG�l��v�g��f�b�^�u�}�u�U��b�y�]�c�k�s�u��r�s�i��j�b�c�g�j�q�_�j�`�u�n�f�V�u�o�s��e�o�w�r�j�h�z��s�{�k�t�d�o�u�m�|�o�j�}�{�m�n�p�_��0�>�T�G�v�r�u�p�v�c�h�n�6�A��A�GXV�mH�v�h��f�c�^�u�}�u�T��b�z�]�c�l�t�u��s�s�i��j�c�b�f�j�q�_�j�`�v�n�f�V�u�p�s��e�o�v�u�j�h�z��s�{�k�s�d�o�u�l�|�o�j�}�{�m�n�o�_��/�?�U�F�u�r�u�o�v�c�i�l�6�A��A�GXe�k��v�h��g�b�^�u�}�u�T��b�y�]�c�l�t�u��s�t�i��j�c�b�g�j�q�_�i�`�v�m�f�V�u�p�s��e�n�v�t�k�i�z��s�{�k�s�e�o�v�m�|�o�j�~�{�n�n�o�_��0�?�T�G�v�r�v�p�v�c�i�m�6�A�vA�GXt�q7�v�g��f�c�^�u�}�u�T��b�z�^�c�k�s�u��s�s�i��j�c�b�g�j�p�_�j�`�v�n�f�W�u�p�s��e�o�v�u�j�h�z��s�{�k�s�e�o�u�l�|�p�j�~�{�n�n�p�^��1�?�T�G�u�s�v�o�v�d�i�m�6�A��A�GX�ҥ��v�h��g�c�^�u�}�u�U��b�y�]�c�l�t�u��s�s�i��k�c�b�g�j�q�_�j�`�u�n�f�V�u�p�s��e�o�v�s�j�h�z��s�|�k�r�e�o�u�m�|�o�j�}�{�m�n�o�^��0�?�T�F�u�r�v�p�v�c�j�l�5�A��A�GX��o?�v�g��g�b�^�u�}�u�T��b�z�]�c�k�s�u��s�t�i��j�c�b�g�i�q�_�j�`�u�n�f�W�u�p�s��e�n�v�u�k�h�z��s�{�k�r�d�o�u�m�|�o�j�}�{�m�n�p�_��0�?�U�F�v�r�u�p�v�c�i�l�6�A��A�GX��k��v�g��f�b�_�u�~�u�T��b�z�]�c�l�s�u��r�s�i��k�b�b�g�i�q�_�j�`�v�n�f�W�u�p�s��e�o�w�t�j�h�z��s�{�k�s�d�o�u�m�|�o�j�}�{�n�o�o�^��0�>�U�F�u�r�v�o�v�c�i�l�6�A��A�GX��kQ�v�g��f�b�^�u�}�u�U��b�y�]�c�l�s�u��s�s�i��j�b�b�g�i�p�_�j�`�u�n�f�V�u�p�s��d�n�w�r�j�h�z��s�{�k�s�d�o�u�m�|�p�j�~�{�m�o�o�_��0�?�T�G�v�s�u�o�u�c�i�l�6�A�{A�GX��h��u�g��f�c�^�u�~�u�T��b�y�]�c�l�t�u��r�t�i��j�b�b�g�j�q�_�j�`�v�m�f�V�u�p�s��d�o�v�t�j�h�z��s�{�k�s�d�o�v�m�|�o�j�~�{�m�n�o�^��/�>�U�G�v�r�u�o�v�c�i�k�6�AXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 70 / 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 = 613329257.64588 TSTOP = 613331327.64558 DATE-OBS= '2020-06-08T17:14:12' DATE-END= '2020-06-08T17:48:42' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2069.99970006943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 376 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'adcZabZZabaZabYZ' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2512129398' / data unit checksum updated 2020-06-18T16:20:49 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: sw00976692000b178x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�Ҭ2�o��l�b�j�h�p�r�j��e�e��q�e��w�s�p�c�x�q��_�j�`�k�>�F�r�i�m�g�6�:�f�^�m�x�x�i�y�k�}�t�i�v�_�u�`�o�m�w��w�z�k�h�Z�p�v�W�v�g�x�r�]�V�|�f�r�m�m�j�^�f�^�u�g�A�GT�ң��p��m�c�j�h�p�r�j��e�e��p�e��v�r�q�b�w�p��_�j�`�k�=�F�r�h�m�g�6�:�f�_�l�x�x�i�y�k�}�t�i�u�`�t�`�o�m�w��w�z�k�h�Z�p�v�X�v�g�x�r�^�V�|�g�q�m�m�j�^�g�^�u�g�A�GT�Ҥ��o��m�b�j�h�p�r�j��e�e��q�e��v�r�q�b�x�p��^�i�a�k�=�F�s�i�n�g�6�:�f�^�l�x�x�i�z�j�}�t�j�v�_�u�`�n�m�v��x�z�k�h�Z�o�v�W�v�g�x�r�]�V�|�g�r�m�n�j�^�f�^�u�g�kA�GT�Ң^�o��l�c�k�h�p�r�j��e�e��q�e��w�r�q�c�x�p��_�j�a�k�=�F�s�h�n�g�6�:�f�_�l�x�x�i�z�j�}�t�j�u�`�u�`�n�m�w��w�z�k�h�Z�p�u�W�v�f�x�s�^�V�|�f�s�m�n�j�^�g�^�u�g��A�GT�Ҥ��o��m�c�j�h�p�r�j��e�e��q�e��v�r�q�c�x�p��^�j�`�k�=�F�s�i�m�g�6�9�f�_�l�w�x�i�y�k�}�t�j�u�_�u�`�o�n�w��w�z�l�h�[�p�v�W�w�g�x�s�^�V�|�g�r�m�n�j�^�g�^�u�g�A�GT�Ҹ��p��l�c�j�h�p�r�j��e�e��q�e��v�r�p�b�x�p��^�i�`�k�>�F�r�i�m�g�6�:�f�_�l�x�x�j�y�k�}�s�i�v�_�u�`�o�n�w��x�y�m�h�[�p�u�X�w�g�x�r�^�V�|�f�r�m�m�j�^�g�^�u�g�7A�GUҦL�o��l�c�j�h�p�r�j��e�e��q�e��w�r�q�c�x�q��_�i�`�k�>�F�s�i�n�g�5�:�f�_�m�x�x�i�y�k�}�t�i�v�_�u�`�o�n�w��x�z�l�h�[�q�u�W�w�h�x�s�]�V�|�f�r�m�m�j�^�g�^�u�g��A�GUҦL�p��l�c�j�i�p�r�j��e�f��q�e��w�r�q�b�x�p��_�j�`�k�=�F�r�i�n�g�6�:�f�_�m�x�x�i�y�j�}�t�i�v�`�t�_�n�n�w��w�y�k�h�[�p�v�X�v�h�x�s�]�V�|�g�r�m�n�j�^�g�]�u�g��A�GU,ң��p��m�b�k�h�p�s�j��e�f��q�e��w�r�q�b�x�q��_�j�`�k�=�F�r�i�n�g�6�:�f�_�m�x�x�j�z�j�~�t�j�v�`�u�`�o�m�w��x�y�k�h�Z�p�v�W�w�g�x�r�^�V�|�g�r�m�n�j�_�g�^�u�g�UA�GU;ҤU�p��l�b�j�h�p�r�k��e�e��q�f��w�s�q�c�x�p��_�j�a�k�>�F�r�i�m�g�6�:�f�_�m�x�x�i�z�j�}�t�j�v�`�u�`�o�m�w��x�y�k�h�Z�q�v�X�w�h�x�s�^�V�|�g�r�m�n�k�_�g�]�u�g��A�GUJҥ��p��l�b�k�h�p�r�j��e�f��q�e��v�r�q�c�x�p��_�j�`�k�=�F�s�i�n�f�6�:�f�_�m�x�x�i�z�k�}�u�j�u�_�u�`�o�m�x��x�z�k�h�[�p�v�X�v�h�x�r�^�V�|�f�r�m�n�j�^�g�^�t�g�_A�GUYң�p��m�c�k�h�p�r�j��e�f��q�e��w�s�q�c�w�p��_�j�`�k�=�F�s�i�n�g�6�:�f�_�m�x�x�i�y�k�}�u�j�u�`�u�_�o�m�w��w�z�k�h�[�p�v�X�w�g�x�s�^�V�|�f�s�m�n�j�_�g�^�u�g��A�GUhң��o��m�b�k�h�p�s�k��e�e��q�e��w�s�q�c�x�p��_�j�a�k�>�F�s�i�n�g�6�:�f�_�m�x�x�j�z�k�}�t�j�v�_�u�`�o�n�x��x�z�l�h�Z�q�v�X�w�g�x�s�^�V�|�g�r�m�n�j�^�g�^�u�g�SA�GUw��o��l�c�j�h�p�r�j��e�f��q�e��w�r�q�c�x�q��^�j�`�k�=�F�r�i�n�g�6�:�f�_�m�x�x�i�z�j�}�t�j�u�`�u�`�o�n�w��x�z�m�h�Z�q�v�W�v�h�x�s�]�V�|�f�s�m�n�j�^�g�^�u�g�A�GU�ҡ�o��l�c�k�h�p�r�j��e�f��q�f��w�r�q�c�x�q��_�j�a�k�>�F�s�i�n�g�6�:�f�^�m�x�w�j�y�j�}�t�j�v�_�u�_�o�n�x��x�z�k�g�Z�p�v�X�w�g�x�r�^�V�|�f�r�m�n�j�_�f�^�u�h�A�GU�ҦL�o��m�c�j�i�p�r�j��e�f��q�e��v�r�q�c�x�p��_�j�`�k�=�F�r�i�n�f�6�:�f�_�m�y�x�i�z�k�}�t�j�u�_�u�_�o�m�w��x�z�m�h�[�p�v�X�w�h�x�r�^�V�|�f�r�m�n�j�^�g�^�u�g�3A�GU�Ҥ��o��l�c�j�h�p�r�j��e�e��q�e��w�r�q�c�w�p��^�j�`�k�=�F�s�i�n�g�6�:�f�_�m�x�x�i�z�k�}�t�j�u�`�u�`�o�m�w��x�y�l�h�Z�p�w�X�v�g�x�s�^�W�}�f�r�m�n�j�^�g�^�u�g�A�GU�ҦL�p��m�c�k�h�p�s�j��e�f��q�e��v�r�q�c�x�q��_�j�`�k�=�F�r�i�n�g�6�:�g�_�m�x�x�i�z�j�}�t�j�v�_�u�`�o�m�w��w�z�l�h�[�q�v�X�v�g�x�r�^�V�|�g�r�m�n�j�^�g�^�u�g��A�GU�Ҥ��o��l�b�j�h�p�r�j��e�e��q�e��v�s�q�b�x�p��_�j�`�k�=�F�r�i�n�g�6�:�f�_�m�x�y�j�z�k�}�t�j�v�`�u�`�o�m�w��x�z�m�h�[�p�v�X�w�g�x�s�^�W�|�g�r�m�n�j�_�f�^�u�g��A�GU�ҥ��o��m�c�k�h�p�t�j��e�f��q�e��w�s�q�c�x�p��_�j�a�k�=�F�s�i�n�g�6�:�f�_�l�x�x�j�z�j�}�u�i�u�`�u�`�o�n�w��x�y�l�h�[�p�u�Y�w�g�x�r�^�V�|�f�r�m�n�k�_�g�^�u�h�dA�GU�ң�o��m�c�k�i�p�s�j��e�f��q�f��w�r�q�b�x�p��_�j�`�k�>�F�s�i�n�g�6�9�f�_�m�x�y�j�z�k�}�t�j�v�`�u�`�o�n�w��x�z�k�h�Z�p�v�Y�w�g�x�r�^�V�|�g�r�m�n�j�^�g�]�v�g��A�GU�ҤU�p��m�c�k�i�p�s�j��e�f��r�f��w�s�q�c�x�q��_�j�`�k�=�F�s�i�n�g�6�:�g�_�m�y�x�j�z�k�~�u�j�v�_�u�`�o�n�w��x�z�l�h�[�q�v�X�w�g�x�r�]�V�|�g�r�n�n�k�_�g�^�u�h�ZA�GU�Ҥ��p��m�c�k�h�p�r�j��e�f��q�f��w�s�q�c�x�q��_�j�a�k�=�F�s�i�n�g�6�:�g�_�m�x�x�i�z�k�~�t�j�u�`�t�`�o�m�w��x�z�l�h�Z�p�v�W�w�h�x�r�^�V�|�f�r�m�n�k�^�g�^�u�g��A�GV Ҡf�p��m�b�k�i�p�s�k��e�f��q�e��v�s�q�c�x�p��_�j�a�k�=�F�r�i�n�g�6�:�f�_�m�x�x�i�z�k�}�t�j�u�`�u�_�o�m�x��x�z�l�h�[�q�v�X�w�g�x�s�]�V�|�f�s�m�n�j�_�g�^�u�g��A�GVҲ�p��m�c�k�i�p�s�k��f�f��q�e��w�r�q�c�x�q��_�j�`�k�>�G�s�i�n�g�6�:�f�_�m�x�x�i�z�k�}�u�j�u�`�u�`�o�n�x��w�y�l�h�[�q�v�Y�w�h�x�s�^�W�|�g�s�m�n�k�^�g�^�u�h��A�GV+ҦL�p��m�b�k�i�p�s�j��e�e��q�f��w�r�q�c�x�p��_�j�a�l�>�F�s�i�n�g�6�:�f�_�m�x�x�j�z�k�~�t�j�u�`�u�`�o�n�w��x�y�m�h�[�q�v�Y�x�h�x�s�]�V�}�g�r�n�n�j�^�g�^�u�g��A�GV:ҡ�p��l�c�k�h�q�r�j��e�f��r�e��w�s�q�c�x�q��_�j�`�k�>�F�s�i�n�g�6�:�g�_�m�x�x�j�z�k�}�t�j�u�`�u�_�o�n�x��x�y�l�h�[�p�v�W�w�h�x�s�^�V�|�g�s�n�n�j�_�g�^�v�g��A�GVIҥ��p��m�b�k�h�p�r�j��e�e��r�f��w�s�q�c�x�q��_�j�a�k�=�F�s�i�n�g�6�:�f�_�m�x�x�i�z�k�}�t�j�v�`�u�`�o�n�w��x�z�l�h�Z�q�v�X�w�g�x�r�^�W�|�g�r�m�n�k�_�g�]�u�g��A�GVXҤ��p��m�c�k�h�p�r�j��e�f��q�f��v�s�q�c�x�p��^�j�`�k�=�G�s�i�n�g�6�:�f�_�m�x�x�i�y�k�}�u�j�v�`�u�_�o�m�w��x�y�k�h�Z�p�v�X�w�g�x�s�^�V�}�g�r�m�n�k�_�h�^�u�h��A�GVg��P�p��m�c�j�h�p�s�j��e�f��q�f��w�s�q�c�x�p��_�j�`�l�=�F�s�i�n�g�6�:�f�_�m�y�x�i�z�k�}�u�j�v�`�u�`�n�n�w��x�z�l�h�[�p�v�X�w�h�x�r�^�V�|�g�r�m�n�j�_�g�^�v�g�vA�GVvң��o��m�c�k�i�q�s�j��e�e��q�f��w�s�q�c�x�q��_�j�a�k�>�G�s�i�n�g�6�:�f�_�m�x�x�j�z�k�~�u�j�v�_�v�`�o�m�w��x�z�l�h�Z�p�v�X�w�h�x�s�]�V�|�f�r�m�n�j�_�g�^�u�h�}A�GV�ң�o��l�c�k�i�q�s�j��e�f��r�f��v�s�q�c�x�q��_�j�a�k�>�F�s�i�n�g�6�:�f�_�n�x�x�i�z�k�}�t�j�v�_�u�`�o�n�w��w�z�l�h�[�p�v�X�w�g�x�s�]�V�}�f�s�m�n�k�^�g�^�v�hA�GV�Ҭڄp��m�c�k�i�p�r�j��e�f��q�f��w�r�q�c�x�p��_�j�`�k�=�F�r�i�n�g�6�:�f�_�m�x�x�j�z�j�~�t�j�v�`�u�`�o�n�w��x�z�k�h�Z�p�v�X�w�h�x�s�^�V�|�g�r�m�n�k�_�g�^�u�g�vA�GV�ҧ��p��m�c�k�i�q�s�k��f�f��r�e��w�s�q�c�x�q��_�j�a�k�>�F�s�j�n�g�6�:�g�_�m�x�x�j�y�k�~�t�j�v�`�u�`�o�n�w��x�z�m�h�[�q�v�X�w�g�x�r�^�V�|�f�s�m�n�k�_�g�^�v�g�RA�GV�ҦL�p��l�c�k�i�q�s�j��e�f��r�f��w�s�q�c�x�p��_�j�a�k�>�G�s�i�n�h�6�:�g�`�m�x�x�i�z�k�}�t�j�v�`�u�`�o�n�x��y�z�l�h�[�q�v�X�w�h�x�s�^�W�|�g�s�n�n�k�_�g�^�v�g��A�GV�Ҫ;�p��m�c�k�i�p�s�j��e�f��r�f��w�s�q�c�x�q��_�j�a�k�>�G�s�i�n�h�6�:�g�`�m�y�x�i�z�k�~�u�j�w�`�v�`�o�n�w��x�z�l�h�Z�p�v�X�w�g�x�s�^�W�|�g�s�m�n�k�_�g�^�u�g��A�GV�ҩ��p��m�c�k�i�q�s�j��e�f��q�f��x�s�r�c�y�q��^�j�a�l�>�F�s�i�n�g�6�:�f�_�m�x�y�j�z�k�~�u�j�v�`�u�`�o�o�x��x�z�l�h�[�q�v�Y�w�h�x�s�^�V�}�g�s�m�n�k�_�h�^�u�h�QA�GV�ҦL�o��m�c�k�i�q�s�k��e�e��r�f��w�s�q�c�x�p��_�j�a�l�>�G�s�j�n�g�6�;�f�_�m�x�y�j�z�k�~�u�j�v�`�u�`�o�n�x��w�z�l�i�[�q�v�X�v�h�x�s�^�W�|�g�s�n�n�j�^�g�^�u�h�@A�GV�ҦL�p��m�c�k�i�q�r�j��e�f��r�f��w�s�q�c�x�q��_�j�a�k�>�F�s�i�n�g�7�:�f�_�m�x�x�i�z�k�}�u�j�u�`�t�`�o�n�w��x�z�k�h�[�q�v�X�w�h�y�s�^�V�|�g�s�m�n�j�_�g�^�u�h��A�GV�ҩ��p��m�c�k�i�q�s�k��e�f��r�f��v�s�r�c�x�q��_�j�`�k�>�F�s�i�n�g�6�:�f�_�m�x�x�j�y�k�}�u�j�v�`�u�`�o�m�x��x�z�l�h�[�q�v�X�w�g�x�s�^�W�|�g�s�m�n�k�_�g�^�v�h�^A�GWҨD�p��m�c�k�i�p�s�k��e�f��r�f��w�s�q�c�y�q��_�j�a�k�=�F�s�i�n�g�6�:�g�_�m�x�x�j�z�k�~�u�j�v�`�u�`�o�n�w��x�z�l�h�[�q�v�X�w�g�x�r�^�V�|�g�s�n�n�j�_�g�^�u�h��A�GWҧ��p��m�c�k�i�p�s�j��e�f��r�f��w�s�q�c�x�q��_�j�a�k�=�G�s�i�n�g�6�:�g�_�m�y�x�j�z�k�~�t�j�v�`�u�`�o�n�w��x�z�m�h�[�q�v�X�w�g�x�s�^�W�|�g�s�n�n�k�_�g�^�u�g��A�GW*ҧ��p��m�c�j�i�p�s�i��e�f��q�f��w�s�q�c�x�q��_�j�`�k�>�F�s�i�n�g�7�:�g�_�m�x�x�j�z�k�~�u�j�v�`�u�`�o�m�x��x�z�l�h�[�q�v�X�w�h�x�s�^�V�|�g�s�m�n�k�_�g�^�u�h��A�GW9Ҧ�o��m�c�k�i�q�s�j��e�f��r�f��w�s�q�c�x�p��_�j�`�l�>�G�s�i�n�g�6�;�g�_�m�x�x�j�{�k�}�t�j�v�_�u�`�o�n�w��x�z�m�h�[�q�v�Y�w�h�x�s�^�V�|�g�s�m�n�k�_�g�_�u�h�)A�GWHҪ;�p��m�c�k�i�q�s�j��e�f��r�e��w�s�q�c�x�q��_�j�`�k�=�F�s�i�n�g�6�;�f�_�m�x�x�j�z�k�~�u�k�v�`�t�`�o�n�x��x�z�k�h�[�q�v�Y�w�g�x�r�^�V�|�g�s�m�n�j�^�g�^�u�g��A�GWWһ�p��m�c�k�i�q�r�k��e�f��r�f��w�s�q�c�x�p��_�j�a�k�>�G�s�i�o�g�6�:�g�_�m�x�x�j�{�k�}�u�j�v�`�u�`�o�n�w��x�z�l�h�[�q�w�X�v�h�x�r�^�V�|�g�s�m�n�k�_�g�_�u�h�cA�GWfҦ�p��m�c�k�i�q�s�j��e�f��r�f��w�s�q�c�x�q��_�j�a�k�>�G�s�i�n�g�7�:�f�_�m�x�x�j�z�k�}�u�j�v�`�u�`�o�n�x��x�z�l�h�[�q�v�X�w�g�x�s�^�V�}�g�s�m�n�k�_�g�_�v�h��A�GWuҪ�p��m�c�k�i�q�s�j��e�f��r�f��v�s�r�c�x�q��_�j�a�l�>�G�t�i�n�g�6�;�g�_�m�y�y�j�z�j�~�u�j�v�`�u�`�o�n�x��x�y�l�h�[�q�v�Y�w�h�x�s�^�W�}�g�s�n�n�k�_�g�_�u�h�AA�GW�ҫ��o��m�c�k�i�q�s�j��e�f��r�f��w�s�q�c�y�p��_�j�a�l�>�G�s�i�n�g�6�:�g�_�m�y�x�j�z�k�}�u�k�w�`�u�`�o�n�w��x�y�l�h�[�q�v�X�w�h�x�s�^�V�}�g�s�m�n�k�_�g�_�v�h�&A�GW�Ҧ�o��m�c�k�i�q�s�k��f�f��r�f��x�s�r�c�y�q��_�k�a�l�>�G�s�i�n�g�7�:�g�`�m�y�x�j�z�k�~�u�j�v�`�u�`�o�n�x��x�{�l�h�[�q�v�X�x�h�x�s�^�W�}�g�s�m�n�k�_�g�^�v�h��A�GW�ҧ��p��m�c�j�i�q�s�k��e�f��r�f��w�s�r�c�y�q��_�j�a�k�>�G�s�j�n�h�7�:�f�_�m�x�y�i�z�l�~�u�k�w�`�u�`�o�n�x��x�z�k�h�[�q�v�Y�w�h�x�s�^�W�}�g�s�m�n�k�_�g�^�u�h��A�GW�ҦL�p��m�c�k�i�p�s�k��f�f��r�f��v�s�r�c�y�q��_�j�a�k�>�G�s�j�n�g�7�:�g�`�m�y�x�j�z�k�~�u�j�v�`�v�a�o�m�x��x�z�l�h�[�q�v�X�w�h�x�s�^�W�|�g�s�n�n�k�_�g�_�u�h��A�GW�ҧ��p��m�c�k�i�q�s�k��e�f��r�f��w�s�q�d�y�q��_�j�a�k�>�G�s�j�n�g�7�:�g�_�m�y�y�j�z�k�~�u�j�v�`�u�`�o�n�x��x�z�l�h�[�q�v�X�w�h�y�s�^�W�|�g�s�m�n�k�^�h�_�v�h�1A�GW�Ҥ��p��m�c�k�i�q�s�j��f�f��r�f��w�s�q�c�x�r��_�j�a�k�>�G�s�j�n�g�6�:�g�_�m�y�x�i�z�k�~�u�k�v�`�u�`�o�n�x��x�z�m�h�[�q�v�X�w�h�x�s�^�W�}�g�s�m�o�j�_�g�^�v�h�A�GW��p��m�c�k�i�q�s�k��e�f��r�f��w�s�q�c�y�s��_�j�b�k�>�G�s�i�n�g�6�;�g�_�n�y�y�i�z�k�~�u�j�v�`�u�`�o�n�w��x�z�l�h�[�q�v�X�w�g�x�s�^�W�}�g�s�m�n�k�_�h�_�v�h��A�GW��p��m�c�l�i�q�s�j��f�f��r�f��w�s�q�d�x�q��_�j�a�k�>�G�s�j�n�h�7�:�g�_�n�y�y�j�z�k�~�u�j�v�`�u�`�o�n�x��x�z�n�i�[�q�v�Y�x�h�x�s�^�V�}�g�s�n�n�k�_�g�^�v�h�3A�GW�ҧ��p��m�d�k�i�q�s�j��f�f��r�f��w�s�q�d�x�q��_�j�`�l�>�G�s�i�n�g�7�:�f�`�m�y�x�j�z�l�~�u�k�v�`�u�a�o�n�w��x�z�l�h�[�q�w�X�w�h�x�s�_�W�}�g�s�n�n�k�_�g�^�v�h��A�GXҤU�p��m�d�k�i�q�s�k��f�f��r�f��w�s�q�c�x�q��_�j�`�k�>�G�s�j�n�g�7�:�g�`�m�y�y�j�z�l�~�u�k�w�`�u�`�o�n�x��x�y�k�i�[�q�w�X�w�h�x�s�_�W�}�h�s�m�n�k�_�g�_�v�h�2A�GXҧ��p��m�c�k�i�q�s�j��f�f��r�f��w�t�r�c�y�q��_�j�a�k�>�G�s�j�n�g�7�:�g�`�n�y�y�j�{�k�~�u�k�v�`�u�`�o�n�x��x�z�l�i�[�r�v�X�w�h�y�s�^�W�}�h�s�n�n�k�_�h�^�v�h��A�GX)Ҩ�p��m�c�k�i�q�s�k��f�f��r�g��x�s�q�c�y�q��_�k�a�l�>�G�s�i�n�g�7�;�g�_�m�y�y�j�{�l�}�u�j�w�`�u�`�o�n�x��x�z�m�i�[�q�w�X�w�h�y�s�^�W�}�g�s�n�n�k�_�g�_�v�h��A�GX8ҧ��p��m�c�k�i�q�s�j��f�g��r�f��x�s�r�c�x�q��`�j�a�l�>�G�t�j�n�h�6�;�g�`�m�y�y�j�z�l�~�u�k�w�a�v�a�o�n�x��y�{�m�i�[�q�v�X�w�h�y�t�^�W�|�g�s�n�n�k�_�h�_�v�h��A�GXGҥ��p��m�d�l�i�q�s�k��f�f��r�g��x�s�q�c�x�q��_�k�a�k�?�G�t�j�o�h�7�;�g�`�n�y�x�j�{�k�~�u�k�v�`�v�a�o�n�w��x�z�n�i�[�q�v�Y�x�h�y�t�_�W�}�g�s�n�o�k�_�h�_�v�h�A�GXVҨD�p��n�d�k�i�q�t�k��f�g��r�f��w�s�r�d�y�r��`�k�a�l�>�G�s�i�n�h�7�;�g�`�n�y�y�j�{�l�~�v�k�v�`�v�`�o�o�x��y�z�l�i�\�q�w�X�x�h�y�t�^�W�}�g�s�n�o�k�_�g�_�v�i�}A�GXeҤ��p��m�c�k�i�q�t�k��f�g��r�g��w�t�r�c�y�r��_�k�b�l�>�G�t�j�n�h�7�;�g�`�n�y�y�j�z�k�~�u�k�w�`�v�a�p�o�x��y�z�l�i�[�q�w�X�w�i�y�s�^�W�}�g�t�n�n�k�_�h�^�v�hA�GXtҪ�p��n�d�l�j�q�s�k��f�g��r�g��w�s�r�d�y�r��_�k�b�l�>�G�s�j�n�h�7�;�g�`�n�y�y�j�{�k�}�u�k�v�`�u�a�p�n�x��y�{�l�i�\�q�w�Y�w�h�y�s�_�W�}�h�s�n�o�k�_�h�^�v�h��A�GX��q��m�d�l�j�r�r�k��f�g��r�g��w�t�r�d�y�r��_�j�a�l�>�G�t�j�o�h�7�;�g�_�n�x�y�j�z�k�~�u�k�w�`�u�`�o�o�x��y�z�m�i�[�q�w�X�w�h�y�t�_�W�}�h�s�n�o�l�_�h�^�v�h�=A�GX�ҨD�p��m�c�l�j�q�t�k��f�g��r�g��w�s�r�d�y�q��`�j�a�l�>�G�t�j�n�h�7�;�g�`�n�y�y�j�{�k�~�u�k�w�a�v�a�p�n�x��x�{�m�i�\�r�v�Y�x�h�x�s�_�W�}�h�s�n�o�k�_�g�_�v�h�OA�GX�ҤU�p��m�c�l�j�q�t�j��f�g��r�g��x�t�q�d�y�r��_�j�a�l�>�G�t�j�n�h�7�:�g�`�n�y�y�j�{�k��u�k�v�`�v�a�p�o�x��x�z�l�i�[�q�v�X�x�h�y�s�_�W�}�g�s�n�o�k�`�h�_�v�h�-A�GX�ҦL�p��m�c�k�i�r�s�k��f�g��s�f��w�s�r�d�y�q��`�k�b�l�>�G�t�j�n�h�7�;�g�`�n�y�y�j�{�k�~�u�k�w�`�v�a�o�o�x��y�z�l�i�[�r�w�Y�x�h�y�s�_�W�}�h�t�n�n�k�_�h�_�v�iA�GX�Ң^�p��m�d�k�i�q�s�k��f�g��r�g��w�t�r�d�y�r��_�k�b�l�>�G�t�j�n�h�7�;�g�`�n�y�y�j�z�k�~�u�k�w�`�v�a�p�n�x��y�{�l�i�[�r�v�Y�w�h�x�t�^�W�}�h�s�m�n�k�_�h�`�v�h��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 35 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK188SSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk188x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329264.90142 TSTOP = 613331304.90142 DATE-OBS= '2020-06-08T17:14:19' DATE-END= '2020-06-08T17:48:19' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2040. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 392 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '5DGc6D9b5DGb5D9b' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2619741555' / data unit checksum updated 2020-06-18T16:20:49 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw00976692000b188x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�sa��^��JF��{��*��D�bg��w��\4lu��Fx��Ӏ¢��D��ʀ��*5��D��/��.��e��~�Ԋ��2�2�222�Y��Re��F�@�"��Z�X��Q��l��f��D��A�GT�sc��^� ��Jހ��|��Ԃ��D�"bg��I��\7�u��Fx��Ӏ¢�ɀ��D�΀��*6ƀ��D��/��.��f��~褊��2�2�222�Y��Re��F�\�"��Z�׀��Q��l��ov��D��A�GT�sa��^��Kn��}��ր��D�:bg��\;u��Fx؜Ӏ¢ށ��D��.��*7��D��/��.��f��~�l��2�2�222�Y��Reހ��F�t�"��Z��Q��l��xV��D��A�GUsfQ��^��K��W��*��D�Rbg��x��\<�u��Fx�Ӏ¢�9��D��^��*9��D�҆/��.��f��~�4��2�2�222�Y��Re��FȎ�"��Z�0��Q��l��:��D��A�GU0sa��^��L��~��D�jbg��ހ��\?�u��Fy�Ӏ£ ��D��*:&��D��/��.��f��~��2�2�222�Y��Rf��FȦ�"��Z��Q��l��D��A�GUNsnր��^��M��'��Ҁ��D��bg��ˊ��\C/u��Fy �Ӏ£%��D�.��*;F��D��/��.٨��f��~�Ċ��2�2�222�Y��Rf6��FȾ�"��Z�n��Q��l��D�A�GUlsc��^��M��&��D��bg��i��\Hu��Fy8�Ӏ£=a��D�F��*A�GU�sa�ݿ��^��N؀��_��Ѐ��D��bg��\L�u��Fyj�Ӏ£lҀ��D�x��P��*>��D�L�/��.�b��g�� "��2�2�222�Y��Rf��F� �"��Z��Q��l��D�VA�GU�sc�ݿ��^��Or��ʆ��*��D��bg��R��\NPu��Fy��Ӏ£��D��*?̀��D�h�0��.�V��i��􊋀��2�2�222�Y��Rf��F�(�#��Z��R �l��D�rA�GU�sa��^��P��2��׀��D�bg��d��\Q�u��Fy��Ӏ£�D��D��*@��D��1��.�D��i��2�2�222�Y��Rfڀ��F�D�#��Z�R��R�m��x��D��A�GVsa��^� ��P��Ԁ��D�bg��܀��\U#u��Fy��Ӏ£��D�Ā��*B��D��1��.�,��i��2�2�222�Y��Rf��F�\�#��Z�>��R'�m��\��D��A�GV sc��^��Q$��(��D�0bg��%<��\Xiu��Fy֜Ӏ£˴��D�܀��*C,��D��1��.��i��N��2�2�222�Y��Rg��F�t�#��Z��R3�m��8��D��A�GV>se��^��Q��j��|��D�Hbg��1Ā��\\ u��Fy�Ӏ£�l��D��D��*DL��D�Ȇ1��.��i��"��2�2�222�Y��Rg*��FɌ�#��Z�܀��R?�m�� D��A�GV\sa��^��RD��҆��Ѐ��D�`bg��>��\`�u��Fz�Ӏ£�$��D��t��*El��D��1��.��i��&ފ��2�2�222�Y��RgJ��Fɤ�#��Z�V��RJ�m��D��A�GVzsbc�ݿ��^��Rڀ��F��(��D�zbo��Ky��\c�u��Fz �Ԁ¤ހ��D�&��*F��D��2��.��j��+��ò2�2�222�Y��Rgj��F��$��Zɩ��RW�m��D�A�GV�sbc�ݿ��^��Sp��~��D��bo��X��\eu��Fz:�Ԁ¤*��D�@��؀��*G��D��2��.��k��0��Ų2�2�222�Y��Rg��F�܄$��Z��Rc�m��D�A�GV�sc�ݿ��^��T��Ҁ��D��bo��d��\fXu��FzR�Ԁ¤BO��D�X��*HЀ��D�,�2��.��k��5��Ų2�2�222�Z��Rg��F��&��Z�b��Ri�m��D�6A�GV�sc�ݿ��^��T��~��&��D��bo��p��\g�u��Fzj�Ԁ¤Z��D�p��8��*I��D�D�2��.��k��:��Ų2�2�222�Z��RgȀ��F��&��Z��Rr�m��D�NA�GV�sdZ��^��U ��z��D��bo��|��\ju��Fz��Ԁ¤q��D��h��*K��D�\�2��/t��k��?��Ų2�2�222�Z��Rg��F�$�&��Zނ��R~�m��x��D�fA�GWsa��^�ހ��U��N��΀��D��bo��\m6u��Fz��Ԁ¤�w��D��*L0��D�t�2��/\��k��D��Ų2�2�222�Z��Rh��F�>�&��Z� ��R��m��X��D�~A�GW.sc�ݿ��^�Ԁ��V@��"��D�bo��\oBu��Fz��Ԁ¤�/��D��Ȁ��*MP��D��2��/D��k��IЊ��Ų2�2�222�Z��Rh��F�X�&��Z鐀��R��m��!8��D��A�GWLsc�ݿ��^�Ā��VЀ��v��D�$bo��\pgu��FzʜԀ¤��D�Ѐ��*Np��D��2��/,��k��N��Ų2�2�222�[��Rh4��F�r�&��Z�B��R��m��*��D��A�GWjsc��^ʹ��W`��ʀ��D�A�GXsa��ݿ��^�J��Zƀ��ƀ��D��bo��\w�u��F{z�Ԁ¥^��D�x��H��*VP��D�L�4��/��l��rT��Ͳ2�2�222�[��Ri��F�(�'��[��R��n��h,��D�VA�GX�%��Y��"��v����X��X��Ɖ��初��Z��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 17 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 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 = 613329311.94904 TSTOP = 613331231.94944 DATE-OBS= '2020-06-08T17:15:06' DATE-END= '2020-06-08T17:47:06' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804200000000 / [s] UTCF at TSTART TELAPSE = 1920.00039994717 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 397 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Z5lQe4iOZ4iOd4iO' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '2823716659' / data unit checksum updated 2020-06-18T16:20:49 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: sw00976692000b18dx001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��z%�(��ݍ�(��[��)��Z��Z��؎��"� ��f��Z�� +��^��[��ی��[��ك��\��Y��>�n�� h��Z��A�GU��F�"�z��؍�#��爈��Z��%� ��U��X�� Ԏ ��j��X�� '��C��Z��(�� ׌��[��؃��Z��g��?�f��g��Y��A�GUG�7L� ��ڍ�'��[��(��Q��Z��׎�� h��Z��#��*�􉨄.��Z��ߎ��ڌ��\��׃��[��Z��;�n��e��Z��A�GU��ٔ�#�z��؍�$��ڈ��[��'��L��Y��֎ ��i��U��(���􃓄Z��ߎ��،��Z��փ��Z��m��:�m��󉏀��h�􃒄Z��A�GU��%�.�{��ލ�)�򉟇䈊��Z��R��%��I��Y��!��֎��j��Y��.��)�퉧��򃒄Z��-��ݎ��׌��\��Ճ��Z��v��4�m��񉎀��f�򃒄Y��(A�GU��Y`�#�{��؍�%��[��(��'��D��Z��Ԏ ��y�h��Z��(�쉧��򃑄Z��-��،��[��ԃ��[��_��F�d����f��[��*A�GV7��>�*�{��ۍ�'���\��'��<��Z��2��܎�� i��Z��*�艨��Z��*��ގ��ڌ��Z��ԃ��[��=�o��뉎��e��[��#A�GVs��r�'��܍�'�ꉟ�ǈ��[��-��*��6��Z��3��؎��"� ��i��Z�� +�䉦�Ј��Z��=��ی� ��[��у��\��E�m�� 鉏��g�샐�Z��%A�GV��Ҏ&�~��ۍ�&�牡��[��8��(��/��Z��*��׎��!� ��r�g��Z��3��*�≩��Z��)��ڌ��[��҃��[��n��A�j��牏��d�郐�Z��.A�GV��#�!�|��ڍ�$�剠��[��/��'�􉢄*��Y��@��֎ �� i�i��Y��%��)�ቨ���Z��H��ߎ��׌��\��у��[��<�l��䉍��f�郒�Z��EA�GW'��*�{��܍�'�㉡�ǈ��[��N��'��#��Y��X��܎�� `�j��Z��I�� *�݉��탐�Z��H��ٌ��\� �Ѓ��\��>�q��f�ꃒ�Z��HA�GWc��~��׍�$�މ��{��Z��v��$��X��i��Ҏ��[�h��Y��z��&�ډ��탑�Y��h��ڎ��֌��[��σ��Z��8�j��߉��c�탑�W��`A�GW��K��'�{��ڍ�&�މ��7��Z��z��)���Y��^��ێ�� i�g��Y��)�ى��샐�Z��q��ڌ��\��σ��[��Հ�/�0�y��݉��d��Y��A�GW��7�%�}��ڍ�&�މ��[�� (�� Y��ێ �� j�h��Y��(�ۉ���Z�� ٌ���^�!�҃��Z��@�f��݉��e�󃐄Y��A�GX�Ĝ��ۍ�&�݉��[��'���Y��Վ�� Y�e��Z��*�ى��򃑄Z��،��^�!�Ճ��[�� 9�k��݉��e��Z��A�GXS��$�r��Ԍ�� މ��r��Z��&���X�� H�e��Y��̀��)�ډ��􃏄Z��À��ٌ��]��׃��Z��&�5�p��݉��e��Y��A�GX��@�$�w��Ռ��!�܉��Z��%���X��ŀ�ڎ ��B�f��X��Ҁ��%�ډ��Y��Ռ��\��؃��Z��v��.�(�t�|��݉��f��Y��&XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 17 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 87 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB1125GND' / PW HK Pkt; Block 11 Voltage on 2.5 Ground ReturTFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKB11P25VLT' / PW HK Pkt; Block 11 +2.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL3 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB11M25VLT' / PW HK Pkt; Block 11 -2.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL4 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB11P35VLT' / PW HK Pkt; Block 11 +3.5 Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL5 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB11M35VLT' / PW HK Pkt; Block 11 -3.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL6 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB11P50VLT' / PW HK Pkt; Block 11 +5.0 Digital Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL7 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB11P75VLT' / PW HK Pkt; Block 11 +7.5 Voltage TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL8 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT8 = 'V ' / physical unit of field TTYPE9 = 'BPWHKB11M75VLT' / PW HK Pkt; Block 11 -7.5 Voltage TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL9 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'BPWHKB11CVTTEMP' / PW HK Pkt; Block 11 DC-DC Converter Module TempTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKB11TEMP' / PW HK Pkt; Block 11 Temperature TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKLHPB1TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKRADTEMP' / PW HK Pkt; Radiator Temperature (back, +Y,-X) TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL13 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT13 = 'Celsius ' / physical unit of field TTYPE14 = 'BPWHKIPPRI3TEMP' / PW HK Pkt; IP Primary DSP Board Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB12PRITEMP' / PW HK Pkt; Block 12 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB12SECTEMP' / PW HK Pkt; Block 12 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB12SPARE0' / PW HK Pkt; Block 12 Spare 0 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB12SPARE1' / PW HK Pkt; Block 12 Spare 1 TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB12INPUTI' / PW HK Pkt; Block 12 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB1225GND' / PW HK Pkt; Block 12 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB12P25VLT' / PW HK Pkt; Block 12 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB12M25VLT' / PW HK Pkt; Block 12 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB12P35VLT' / PW HK Pkt; Block 12 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB12M35VLT' / PW HK Pkt; Block 12 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB12P50VLT' / PW HK Pkt; Block 12 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB12P75VLT' / PW HK Pkt; Block 12 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB12M75VLT' / PW HK Pkt; Block 12 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB12CVTTEMP' / PW HK Pkt; Block 12 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB12TEMP' / PW HK Pkt; Block 12 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPB2TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKTSFRONTEMP' / PW HK Pkt; Front Tagged Source Temperature TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKIPRED0TEMP' / PW HK Pkt; IP Redundant LVPC TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB13PRITEMP' / PW HK Pkt; Block 13 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB13SECTEMP' / PW HK Pkt; Block 13 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB13SPARE0' / PW HK Pkt; Block 13 Spare 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB13SPARE1' / PW HK Pkt; Block 13 Spare 1 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB13INPUTI' / PW HK Pkt; Block 13 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB1325GND' / PW HK Pkt; Block 13 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB13P25VLT' / PW HK Pkt; Block 13 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB13M25VLT' / PW HK Pkt; Block 13 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB13P35VLT' / PW HK Pkt; Block 13 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB13M35VLT' / PW HK Pkt; Block 13 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB13P50VLT' / PW HK Pkt; Block 13 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB13P75VLT' / PW HK Pkt; Block 13 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB13M75VLT' / PW HK Pkt; Block 13 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB13CVTTEMP' / PW HK Pkt; Block 13 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB13TEMP' / PW HK Pkt; Block 13 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPB3TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, -XTFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKTSREARTEMP' / PW HK Pkt; Rear Tagged Source Temperature TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKIPRED1TEMP' / PW HK Pkt; IP Redundant LVPC TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB14PRITEMP' / PW HK Pkt; Block 14 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB14SECTEMP' / PW HK Pkt; Block 14 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB14SPARE0' / PW HK Pkt; Block 14 Spare 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB14SPARE1' / PW HK Pkt; Block 14 Spare 1 TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB14INPUTI' / PW HK Pkt; Block 14 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB1425GND' / PW HK Pkt; Block 14 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB14P25VLT' / PW HK Pkt; Block 14 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB14M25VLT' / PW HK Pkt; Block 14 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB14P35VLT' / PW HK Pkt; Block 14 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB14M35VLT' / PW HK Pkt; Block 14 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB14P50VLT' / PW HK Pkt; Block 14 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB14P75VLT' / PW HK Pkt; Block 14 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB14M75VLT' / PW HK Pkt; Block 14 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB14CVTTEMP' / PW HK Pkt; Block 14 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB14TEMP' / PW HK Pkt; Block 14 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPB4TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, +XTFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKSPARE14TMP' / PW HK Pkt; Block 14 Spare Temperature TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKIPRED2TEMP' / PW HK Pkt; IP Redundant MIC Board Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB15PRITEMP' / PW HK Pkt; Block 15 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB15SECTEMP' / PW HK Pkt; Block 15 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB15SPARE0' / PW HK Pkt; Block 15 Spare 0 TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB15SPARE1' / PW HK Pkt; Block 15 Spare 1 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB15INPUTI' / PW HK Pkt; Block 15 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB1525GND' / PW HK Pkt; Block 15 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB15P25VLT' / PW HK Pkt; Block 15 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB15M25VLT' / PW HK Pkt; Block 15 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB15P35VLT' / PW HK Pkt; Block 15 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB15M35VLT' / PW HK Pkt; Block 15 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB15P50VLT' / PW HK Pkt; Block 15 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB15P75VLT' / PW HK Pkt; Block 15 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB15M75VLT' / PW HK Pkt; Block 15 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB15CVTTEMP' / PW HK Pkt; Block 15 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB15TEMP' / PW HK Pkt; Block 15 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPB5TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ CC Inlet TemperTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKSPARE15TMP' / PW HK Pkt; Block 15 Spare Temperature TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKIPRED3TEMP' / PW HK Pkt; IP Redundant DSP Board Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKADCXSUM' / PW HK Power Box Packet CheckSum, not CCSDS XSumTFORM87 = '1B ' / data format of field: BYTE EXTNAME = 'hk18ex001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329311.95106 TSTOP = 613331231.95152 DATE-OBS= '2020-06-08T17:15:06' DATE-END= '2020-06-08T17:47:06' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804200000000 / [s] UTCF at TSTART TELAPSE = 1920.00045990944 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 398 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'e3j2e3j2e3j2e3j2' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1079029926' / data unit checksum updated 2020-06-18T16:20:49 TRDLO2 = -2 / BPWHKB1125GND Red lower limit = B_PCB_B11_2_5G_TRDHI2 = 15 / BPWHKB1125GND Red upper limit = B_PCB_B11_2_5G_TYELO2 = -1 / BPWHKB1125GND Yellow lower limit = B_PCB_B11_2_TYEHI2 = 10 / BPWHKB1125GND Yellow upper limit = B_PCB_B11_2_TRDLO3 = 2.55 / BPWHKB11P25VLT Red lower limit = B_PCB_B11_2_7VTRDHI3 = 2.84 / BPWHKB11P25VLT Red upper limit = B_PCB_B11_2_7VTYELO3 = 2.62 / BPWHKB11P25VLT Yellow lower limit = B_PCB_B11_2TYEHI3 = 2.78 / BPWHKB11P25VLT Yellow upper limit = B_PCB_B11_2TRDLO4 = 2.55 / BPWHKB11M25VLT Red lower limit = B_PCB_B11_2_7VTRDHI4 = 2.84 / BPWHKB11M25VLT Red upper limit = B_PCB_B11_2_7VTYELO4 = 2.62 / BPWHKB11M25VLT Yellow lower limit = B_PCB_B11_2TYEHI4 = 2.78 / BPWHKB11M25VLT Yellow upper limit = B_PCB_B11_2TRDLO5 = 3.65 / BPWHKB11P35VLT Red lower limit = B_PCB_B11_3_8VTRDHI5 = 4.05 / BPWHKB11P35VLT Red upper limit = B_PCB_B11_3_8VTYELO5 = 3.73 / BPWHKB11P35VLT Yellow lower limit = B_PCB_B11_3TYEHI5 = 3.97 / BPWHKB11P35VLT Yellow upper limit = B_PCB_B11_3TRDLO6 = 3.65 / BPWHKB11M35VLT Red lower limit = B_PCB_B11_3_8VTRDHI6 = 4.05 / BPWHKB11M35VLT Red upper limit = B_PCB_B11_3_8VTYELO6 = 3.73 / BPWHKB11M35VLT Yellow lower limit = B_PCB_B11_3TYEHI6 = 3.97 / BPWHKB11M35VLT Yellow upper limit = B_PCB_B11_3TRDLO7 = 4.75 / BPWHKB11P50VLT Red lower limit = B_PCB_B11_5_0VTRDHI7 = 5.25 / BPWHKB11P50VLT Red upper limit = B_PCB_B11_5_0VTYELO7 = 4.85 / BPWHKB11P50VLT Yellow lower limit = B_PCB_B11_5TYEHI7 = 5.15 / BPWHKB11P50VLT Yellow upper limit = B_PCB_B11_5TRDLO8 = 7.12 / BPWHKB11P75VLT Red lower limit = B_PCB_B11_7_5VTRDHI8 = 7.85 / BPWHKB11P75VLT Red upper limit = B_PCB_B11_7_5VTYELO8 = 7.27 / BPWHKB11P75VLT Yellow lower limit = B_PCB_B11_7TYEHI8 = 7.72 / BPWHKB11P75VLT Yellow upper limit = B_PCB_B11_7TRDLO9 = 7.12 / BPWHKB11M75VLT Red lower limit = B_PCB_B11_7_5VTRDHI9 = 7.85 / BPWHKB11M75VLT Red upper limit = B_PCB_B11_7_5VTYELO9 = 7.27 / BPWHKB11M75VLT Yellow lower limit = B_PCB_B11_7TYEHI9 = 7.72 / BPWHKB11M75VLT Yellow upper limit = B_PCB_B11_7TRDLO10 = -20 / BPWHKB11CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI10 = 61 / BPWHKB11CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO10 = -15 / BPWHKB11CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI10 = 56 / BPWHKB11CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO11 = -15 / BPWHKB11TEMP Red lower limit = B_TBLK_11_LIM TRDHI11 = 45 / BPWHKB11TEMP Red upper limit = B_TBLK_11_LIM TYELO11 = -10 / BPWHKB11TEMP Yellow lower limit = B_TBLK_11_LIMTYEHI11 = 40 / BPWHKB11TEMP Yellow upper limit = B_TBLK_11_LIMTRDLO12 = -30 / BPWHKLHPB1TEMP Red lower limit = B_TLHP_B1_LIM TRDHI12 = 60 / BPWHKLHPB1TEMP Red upper limit = B_TLHP_B1_LIM TYELO12 = -25 / BPWHKLHPB1TEMP Yellow lower limit = B_TLHP_B1_LTYEHI12 = 55 / BPWHKLHPB1TEMP Yellow upper limit = B_TLHP_B1_LTRDHI13 = 60 / BPWHKRADTEMP Red upper limit = B_TRAD_LIM TYEHI13 = 55 / BPWHKRADTEMP Yellow upper limit = B_TRAD_LIM TRDLO19 = -0.2 / BPWHKB12INPUTI Red lower limit = B_PCB_B12_INPITRDHI19 = 0.9 / BPWHKB12INPUTI Red upper limit = B_PCB_B12_INPITYELO19 = -0.1 / BPWHKB12INPUTI Yellow lower limit = B_PCB_B12_ITYEHI19 = 0.8 / BPWHKB12INPUTI Yellow upper limit = B_PCB_B12_ITRDLO20 = -2 / BPWHKB1225GND Red lower limit = B_PCB_B12_2_5G_TRDHI20 = 15 / BPWHKB1225GND Red upper limit = B_PCB_B12_2_5G_TYELO20 = -1 / BPWHKB1225GND Yellow lower limit = B_PCB_B12_2_TYEHI20 = 10 / BPWHKB1225GND Yellow upper limit = B_PCB_B12_2_TRDLO21 = 2.55 / BPWHKB12P25VLT Red lower limit = B_PCB_B12_2_7VTRDHI21 = 2.84 / BPWHKB12P25VLT Red upper limit = B_PCB_B12_2_7VTYELO21 = 2.62 / BPWHKB12P25VLT Yellow lower limit = B_PCB_B12_2TYEHI21 = 2.78 / BPWHKB12P25VLT Yellow upper limit = B_PCB_B12_2TRDLO22 = 2.55 / BPWHKB12M25VLT Red lower limit = B_PCB_B12_2_7VTRDHI22 = 2.84 / BPWHKB12M25VLT Red upper limit = B_PCB_B12_2_7VTYELO22 = 2.62 / BPWHKB12M25VLT Yellow lower limit = B_PCB_B12_2TYEHI22 = 2.78 / BPWHKB12M25VLT Yellow upper limit = B_PCB_B12_2TRDLO23 = 3.65 / BPWHKB12P35VLT Red lower limit = B_PCB_B12_3_8VTRDHI23 = 4.05 / BPWHKB12P35VLT Red upper limit = B_PCB_B12_3_8VTYELO23 = 3.73 / BPWHKB12P35VLT Yellow lower limit = B_PCB_B12_3TYEHI23 = 3.97 / BPWHKB12P35VLT Yellow upper limit = B_PCB_B12_3TRDLO24 = 3.65 / BPWHKB12M35VLT Red lower limit = B_PCB_B12_3_8VTRDHI24 = 4.05 / BPWHKB12M35VLT Red upper limit = B_PCB_B12_3_8VTYELO24 = 3.73 / BPWHKB12M35VLT Yellow lower limit = B_PCB_B12_3TYEHI24 = 3.97 / BPWHKB12M35VLT Yellow upper limit = B_PCB_B12_3TRDLO25 = 4.75 / BPWHKB12P50VLT Red lower limit = B_PCB_B12_5_0VTRDHI25 = 5.25 / BPWHKB12P50VLT Red upper limit = B_PCB_B12_5_0VTYELO25 = 4.85 / BPWHKB12P50VLT Yellow lower limit = B_PCB_B12_5TYEHI25 = 5.15 / BPWHKB12P50VLT Yellow upper limit = B_PCB_B12_5TRDLO26 = 7.12 / BPWHKB12P75VLT Red lower limit = B_PCB_B12_7_5VTRDHI26 = 7.85 / BPWHKB12P75VLT Red upper limit = B_PCB_B12_7_5VTYELO26 = 7.27 / BPWHKB12P75VLT Yellow lower limit = B_PCB_B12_7TYEHI26 = 7.72 / BPWHKB12P75VLT Yellow upper limit = B_PCB_B12_7TRDLO27 = 7.12 / BPWHKB12M75VLT Red lower limit = B_PCB_B12_7_5VTRDHI27 = 7.85 / BPWHKB12M75VLT Red upper limit = B_PCB_B12_7_5VTYELO27 = 7.27 / BPWHKB12M75VLT Yellow lower limit = B_PCB_B12_7TYEHI27 = 7.72 / BPWHKB12M75VLT Yellow upper limit = B_PCB_B12_7TRDLO28 = -20 / BPWHKB12CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI28 = 61 / BPWHKB12CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO28 = -15 / BPWHKB12CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI28 = 56 / BPWHKB12CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO29 = -15 / BPWHKB12TEMP Red lower limit = B_TBLK_12_LIM TRDHI29 = 45 / BPWHKB12TEMP Red upper limit = B_TBLK_12_LIM TYELO29 = -10 / BPWHKB12TEMP Yellow lower limit = B_TBLK_12_LIMTYEHI29 = 40 / BPWHKB12TEMP Yellow upper limit = B_TBLK_12_LIMTRDLO30 = -30 / BPWHKLHPB2TEMP Red lower limit = B_TLHP_B2_LIM TRDHI30 = 60 / BPWHKLHPB2TEMP Red upper limit = B_TLHP_B2_LIM TYELO30 = -25 / BPWHKLHPB2TEMP Yellow lower limit = B_TLHP_B2_LTYEHI30 = 55 / BPWHKLHPB2TEMP Yellow upper limit = B_TLHP_B2_LTRDLO31 = -20 / BPWHKTSFRONTEMP Red lower limit = B_PCB_TAGTEMPTRDHI31 = 40 / BPWHKTSFRONTEMP Red upper limit = B_PCB_TAGTEMPTYELO31 = -15 / BPWHKTSFRONTEMP Yellow lower limit = B_PCB_TAGTTYEHI31 = 35 / BPWHKTSFRONTEMP Yellow upper limit = B_PCB_TAGTTRDLO37 = -0.2 / BPWHKB13INPUTI Red lower limit = B_PCB_B13_INPITRDHI37 = 0.9 / BPWHKB13INPUTI Red upper limit = B_PCB_B13_INPITYELO37 = -0.1 / BPWHKB13INPUTI Yellow lower limit = B_PCB_B13_ITYEHI37 = 0.8 / BPWHKB13INPUTI Yellow upper limit = B_PCB_B13_ITRDLO38 = -2 / BPWHKB1325GND Red lower limit = B_PCB_B13_2_5G_TRDHI38 = 15 / BPWHKB1325GND Red upper limit = B_PCB_B13_2_5G_TYELO38 = -1 / BPWHKB1325GND Yellow lower limit = B_PCB_B13_2_TYEHI38 = 10 / BPWHKB1325GND Yellow upper limit = B_PCB_B13_2_TRDLO39 = 2.55 / BPWHKB13P25VLT Red lower limit = B_PCB_B13_2_7VTRDHI39 = 2.84 / BPWHKB13P25VLT Red upper limit = B_PCB_B13_2_7VTYELO39 = 2.62 / BPWHKB13P25VLT Yellow lower limit = B_PCB_B13_2TYEHI39 = 2.78 / BPWHKB13P25VLT Yellow upper limit = B_PCB_B13_2TRDLO40 = 2.55 / BPWHKB13M25VLT Red lower limit = B_PCB_B13_2_7VTRDHI40 = 2.84 / BPWHKB13M25VLT Red upper limit = B_PCB_B13_2_7VTYELO40 = 2.62 / BPWHKB13M25VLT Yellow lower limit = B_PCB_B13_2TYEHI40 = 2.78 / BPWHKB13M25VLT Yellow upper limit = B_PCB_B13_2TRDLO41 = 3.65 / BPWHKB13P35VLT Red lower limit = B_PCB_B13_3_8VTRDHI41 = 4.05 / BPWHKB13P35VLT Red upper limit = B_PCB_B13_3_8VTYELO41 = 3.73 / BPWHKB13P35VLT Yellow lower limit = B_PCB_B13_3TYEHI41 = 3.97 / BPWHKB13P35VLT Yellow upper limit = B_PCB_B13_3TRDLO42 = 3.65 / BPWHKB13M35VLT Red lower limit = B_PCB_B13_3_8VTRDHI42 = 4.05 / BPWHKB13M35VLT Red upper limit = B_PCB_B13_3_8VTYELO42 = 3.73 / BPWHKB13M35VLT Yellow lower limit = B_PCB_B13_3TYEHI42 = 3.97 / BPWHKB13M35VLT Yellow upper limit = B_PCB_B13_3TRDLO43 = 4.75 / BPWHKB13P50VLT Red lower limit = B_PCB_B13_5_0VTRDHI43 = 5.25 / BPWHKB13P50VLT Red upper limit = B_PCB_B13_5_0VTYELO43 = 4.85 / BPWHKB13P50VLT Yellow lower limit = B_PCB_B13_5TYEHI43 = 5.15 / BPWHKB13P50VLT Yellow upper limit = B_PCB_B13_5TRDLO44 = 7.12 / BPWHKB13P75VLT Red lower limit = B_PCB_B13_7_5VTRDHI44 = 7.85 / BPWHKB13P75VLT Red upper limit = B_PCB_B13_7_5VTYELO44 = 7.27 / BPWHKB13P75VLT Yellow lower limit = B_PCB_B13_7TYEHI44 = 7.72 / BPWHKB13P75VLT Yellow upper limit = B_PCB_B13_7TRDLO45 = 7.12 / BPWHKB13M75VLT Red lower limit = B_PCB_B13_7_5VTRDHI45 = 7.85 / BPWHKB13M75VLT Red upper limit = B_PCB_B13_7_5VTYELO45 = 7.27 / BPWHKB13M75VLT Yellow lower limit = B_PCB_B13_7TYEHI45 = 7.72 / BPWHKB13M75VLT Yellow upper limit = B_PCB_B13_7TRDLO46 = -20 / BPWHKB13CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI46 = 61 / BPWHKB13CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO46 = -15 / BPWHKB13CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI46 = 56 / BPWHKB13CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO47 = -15 / BPWHKB13TEMP Red lower limit = B_TBLK_13_LIM TRDHI47 = 45 / BPWHKB13TEMP Red upper limit = B_TBLK_13_LIM TYELO47 = -10 / BPWHKB13TEMP Yellow lower limit = B_TBLK_13_LIMTYEHI47 = 40 / BPWHKB13TEMP Yellow upper limit = B_TBLK_13_LIMTRDHI48 = 60 / BPWHKLHPB3TEMP Red upper limit = B_TLHP_B3_LIM TYEHI48 = 55 / BPWHKLHPB3TEMP Yellow upper limit = B_TLHP_B3_LTRDLO49 = -20 / BPWHKTSREARTEMP Red lower limit = B_PCB_TAGTEMPTRDHI49 = 40 / BPWHKTSREARTEMP Red upper limit = B_PCB_TAGTEMPTYELO49 = -15 / BPWHKTSREARTEMP Yellow lower limit = B_PCB_TAGTTYEHI49 = 35 / BPWHKTSREARTEMP Yellow upper limit = B_PCB_TAGTTRDLO55 = -0.2 / BPWHKB14INPUTI Red lower limit = B_PCB_B14_INPITRDHI55 = 0.9 / BPWHKB14INPUTI Red upper limit = B_PCB_B14_INPITYELO55 = -0.1 / BPWHKB14INPUTI Yellow lower limit = B_PCB_B14_ITYEHI55 = 0.8 / BPWHKB14INPUTI Yellow upper limit = B_PCB_B14_ITRDLO56 = -2 / BPWHKB1425GND Red lower limit = B_PCB_B14_2_5G_TRDHI56 = 15 / BPWHKB1425GND Red upper limit = B_PCB_B14_2_5G_TYELO56 = -1 / BPWHKB1425GND Yellow lower limit = B_PCB_B14_2_TYEHI56 = 10 / BPWHKB1425GND Yellow upper limit = B_PCB_B14_2_TRDLO57 = 2.55 / BPWHKB14P25VLT Red lower limit = B_PCB_B14_2_7VTRDHI57 = 2.84 / BPWHKB14P25VLT Red upper limit = B_PCB_B14_2_7VTYELO57 = 2.62 / BPWHKB14P25VLT Yellow lower limit = B_PCB_B14_2TYEHI57 = 2.78 / BPWHKB14P25VLT Yellow upper limit = B_PCB_B14_2TRDLO58 = 2.55 / BPWHKB14M25VLT Red lower limit = B_PCB_B14_2_7VTRDHI58 = 2.84 / BPWHKB14M25VLT Red upper limit = B_PCB_B14_2_7VTYELO58 = 2.62 / BPWHKB14M25VLT Yellow lower limit = B_PCB_B14_2TYEHI58 = 2.78 / BPWHKB14M25VLT Yellow upper limit = B_PCB_B14_2TRDLO59 = 3.65 / BPWHKB14P35VLT Red lower limit = B_PCB_B14_3_8VTRDHI59 = 4.05 / BPWHKB14P35VLT Red upper limit = B_PCB_B14_3_8VTYELO59 = 3.73 / BPWHKB14P35VLT Yellow lower limit = B_PCB_B14_3TYEHI59 = 3.97 / BPWHKB14P35VLT Yellow upper limit = B_PCB_B14_3TRDLO60 = 3.65 / BPWHKB14M35VLT Red lower limit = B_PCB_B14_3_8VTRDHI60 = 4.05 / BPWHKB14M35VLT Red upper limit = B_PCB_B14_3_8VTYELO60 = 3.73 / BPWHKB14M35VLT Yellow lower limit = B_PCB_B14_3TYEHI60 = 3.97 / BPWHKB14M35VLT Yellow upper limit = B_PCB_B14_3TRDLO61 = 4.75 / BPWHKB14P50VLT Red lower limit = B_PCB_B14_5_0VTRDHI61 = 5.25 / BPWHKB14P50VLT Red upper limit = B_PCB_B14_5_0VTYELO61 = 4.85 / BPWHKB14P50VLT Yellow lower limit = B_PCB_B14_5TYEHI61 = 5.15 / BPWHKB14P50VLT Yellow upper limit = B_PCB_B14_5TRDLO62 = 7.12 / BPWHKB14P75VLT Red lower limit = B_PCB_B14_7_5VTRDHI62 = 7.85 / BPWHKB14P75VLT Red upper limit = B_PCB_B14_7_5VTYELO62 = 7.27 / BPWHKB14P75VLT Yellow lower limit = B_PCB_B14_7TYEHI62 = 7.72 / BPWHKB14P75VLT Yellow upper limit = B_PCB_B14_7TRDLO63 = 7.12 / BPWHKB14M75VLT Red lower limit = B_PCB_B14_7_5VTRDHI63 = 7.85 / BPWHKB14M75VLT Red upper limit = B_PCB_B14_7_5VTYELO63 = 7.27 / BPWHKB14M75VLT Yellow lower limit = B_PCB_B14_7TYEHI63 = 7.72 / BPWHKB14M75VLT Yellow upper limit = B_PCB_B14_7TRDLO64 = -20 / BPWHKB14CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI64 = 61 / BPWHKB14CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO64 = -15 / BPWHKB14CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI64 = 56 / BPWHKB14CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO65 = -15 / BPWHKB14TEMP Red lower limit = B_TBLK_14_LIM TRDHI65 = 45 / BPWHKB14TEMP Red upper limit = B_TBLK_14_LIM TYELO65 = -10 / BPWHKB14TEMP Yellow lower limit = B_TBLK_14_LIMTYEHI65 = 40 / BPWHKB14TEMP Yellow upper limit = B_TBLK_14_LIMTRDHI66 = 60 / BPWHKLHPB4TEMP Red upper limit = B_TLHP_B4_LIM TYEHI66 = 55 / BPWHKLHPB4TEMP Yellow upper limit = B_TLHP_B4_LTRDLO73 = -0.2 / BPWHKB15INPUTI Red lower limit = B_PCB_B15_INPITRDHI73 = 0.9 / BPWHKB15INPUTI Red upper limit = B_PCB_B15_INPITYELO73 = -0.1 / BPWHKB15INPUTI Yellow lower limit = B_PCB_B15_ITYEHI73 = 0.8 / BPWHKB15INPUTI Yellow upper limit = B_PCB_B15_ITRDLO74 = -2 / BPWHKB1525GND Red lower limit = B_PCB_B15_2_5G_TRDHI74 = 15 / BPWHKB1525GND Red upper limit = B_PCB_B15_2_5G_TYELO74 = -1 / BPWHKB1525GND Yellow lower limit = B_PCB_B15_2_TYEHI74 = 10 / BPWHKB1525GND Yellow upper limit = B_PCB_B15_2_TRDLO75 = 2.55 / BPWHKB15P25VLT Red lower limit = B_PCB_B15_2_7VTRDHI75 = 2.84 / BPWHKB15P25VLT Red upper limit = B_PCB_B15_2_7VTYELO75 = 2.62 / BPWHKB15P25VLT Yellow lower limit = B_PCB_B15_2TYEHI75 = 2.78 / BPWHKB15P25VLT Yellow upper limit = B_PCB_B15_2TRDLO76 = 2.55 / BPWHKB15M25VLT Red lower limit = B_PCB_B15_2_7VTRDHI76 = 2.84 / BPWHKB15M25VLT Red upper limit = B_PCB_B15_2_7VTYELO76 = 2.62 / BPWHKB15M25VLT Yellow lower limit = B_PCB_B15_2TYEHI76 = 2.78 / BPWHKB15M25VLT Yellow upper limit = B_PCB_B15_2TRDLO77 = 3.65 / BPWHKB15P35VLT Red lower limit = B_PCB_B15_3_8VTRDHI77 = 4.05 / BPWHKB15P35VLT Red upper limit = B_PCB_B15_3_8VTYELO77 = 3.73 / BPWHKB15P35VLT Yellow lower limit = B_PCB_B15_3TYEHI77 = 3.97 / BPWHKB15P35VLT Yellow upper limit = B_PCB_B15_3TRDLO78 = 3.65 / BPWHKB15M35VLT Red lower limit = B_PCB_B15_3_8VTRDHI78 = 4.05 / BPWHKB15M35VLT Red upper limit = B_PCB_B15_3_8VTYELO78 = 3.73 / BPWHKB15M35VLT Yellow lower limit = B_PCB_B15_3TYEHI78 = 3.97 / BPWHKB15M35VLT Yellow upper limit = B_PCB_B15_3TRDLO79 = 4.75 / BPWHKB15P50VLT Red lower limit = B_PCB_B15_5_0VTRDHI79 = 5.25 / BPWHKB15P50VLT Red upper limit = B_PCB_B15_5_0VTYELO79 = 4.85 / BPWHKB15P50VLT Yellow lower limit = B_PCB_B15_5TYEHI79 = 5.15 / BPWHKB15P50VLT Yellow upper limit = B_PCB_B15_5TRDLO80 = 7.12 / BPWHKB15P75VLT Red lower limit = B_PCB_B15_7_5VTRDHI80 = 7.85 / BPWHKB15P75VLT Red upper limit = B_PCB_B15_7_5VTYELO80 = 7.27 / BPWHKB15P75VLT Yellow lower limit = B_PCB_B15_7TYEHI80 = 7.72 / BPWHKB15P75VLT Yellow upper limit = B_PCB_B15_7TRDLO81 = 7.12 / BPWHKB15M75VLT Red lower limit = B_PCB_B15_7_5VTRDHI81 = 7.85 / BPWHKB15M75VLT Red upper limit = B_PCB_B15_7_5VTYELO81 = 7.27 / BPWHKB15M75VLT Yellow lower limit = B_PCB_B15_7TYEHI81 = 7.72 / BPWHKB15M75VLT Yellow upper limit = B_PCB_B15_7TRDLO82 = -20 / BPWHKB15CVTTEMP Red lower limit = B_PCB_CVTTEMPTRDHI82 = 61 / BPWHKB15CVTTEMP Red upper limit = B_PCB_CVTTEMPTYELO82 = -15 / BPWHKB15CVTTEMP Yellow lower limit = B_PCB_CVTTTYEHI82 = 56 / BPWHKB15CVTTEMP Yellow upper limit = B_PCB_CVTTTRDLO83 = -15 / BPWHKB15TEMP Red lower limit = B_TBLK_15_LIM TRDHI83 = 45 / BPWHKB15TEMP Red upper limit = B_TBLK_15_LIM TYELO83 = -10 / BPWHKB15TEMP Yellow lower limit = B_TBLK_15_LIMTYEHI83 = 40 / BPWHKB15TEMP Yellow upper limit = B_TBLK_15_LIMTRDLO84 = -30 / BPWHKLHPB5TEMP Red lower limit = B_TLHP_B5_LIM TRDHI84 = 60 / BPWHKLHPB5TEMP Red upper limit = B_TLHP_B5_LIM TYELO84 = -25 / BPWHKLHPB5TEMP Yellow lower limit = B_TLHP_B5_LTYEHI84 = 55 / BPWHKLHPB5TEMP Yellow upper limit = B_TLHP_B5_LHISTORY TASK: FAPPND on FILENAME: sw00976692000b18ex001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT��V��Ҏ�� .��U��Y��v��'�㉖�N��+��[��荛��)�뉚��)��\��(���p��[�� 4��-A�GU�S��Î��+��w��X��s��h��$�߉��+��Y��$�鉛�׉�*��Z��ގ��%��ـ��n��Y��܎��2��A�GUG�g#��َ��-��k��Y��u��&�݉��ݍ+��[��(�牚�܉�)��[��َ ��'��߀��k��[��0��؎�� 5��A�GU�� َ��+��@�_�샓�Y�� v��%�ۉ��7�э*��Z��}��%�㉚�ى�)��Z��Վ��&��ـ��h��Z��Վ��5��oA�GU��5��׎��+��-�\�􃒄Y��s��#�։��Ǎ)��Y��%�≛�͉�)��Z��ڎ��$��ŀ��g��Z��؎ ��3��Ҁ��A�GU��߀��!��,�􉣈�T�ヒ�Y��j��%�Չ��)��Z��#�މ��щ��)��[��'��܎ ��&��Ѐ��f��[��%��ߎ�� 4��h��A�GV7�4D��Վ��,�񉢈@�K�ヒ�Y�� u��%�҉��4��)��[��(�ۉ��ԉ��(��[��"��ێ ��'��Ԁ��f��[��&��ڎ �� 5��߀��A�GVs�I��Ҏ�� .�퉠�H�E�バ�Y��p��(�Љ��?�(��Z��u��󍒍��(�։��&��\��)��)��c��[��5��7��6A�GV��GE��Ɏ��-�뉣��D�ა�Y��l��'�̉��ō(��Z��%�։��'��[��'��b��Z��ގ ��4��A�GV��]��ӎ��,�ꉣ�)�D�փ��Y��ƀ��t��%�ɉ��ȍ(��Z��&�Ӊ��҉��&��[��5��ێ ��'��π��b��Z��H��܎ �� 4��A�GW'��s��Վ ��-�艢�X�I�҃��Y�� v��&�ȉ��P�ˍ'��[��Ӏ��(�Љ��։��&��[��Q��܎ ��&��΀��d��[��Q��ڎ ��5��A�GWc�t��Վ��)�䉣��T�ۃ��X�� s��#�ĉ��͍'��Y��$�͉��Չ��&��Y��`��֎ ��%��̀��f��Y��y��Վ�� 1��A�GW��|��-�≢�"�\�݃��Y��x�� &�É��ύ'��Z��x��%�ˉ��%��Z��W��َ ��'��쀤�j��Z��k��ߎ �� 5��I��`A�GW��̸��Ɏ ��,�剤�m�e�݃��X��F��!�h��&�ĉ��e�Ս&��Z��b��"�̉��%��Z��(��'��򀣅m��Z��'��4��{A�GX��܎��+�㉣�$�u�߃��Y��r��'�ĉ��ٍ'��Z��'�͉��&��\�� &��q��[��#��3��Q��A�GXS��Ӏ��-�≣��X�� v��&�ĉ��ލ'��Z��q��&�ʉ��&��Z��ߎ ��%��t��Z��ހ��7��:��9A�GX��h��)�≤�B��X��h��s��!��7��(��Y��]��p�� ͉��*�ݍ'��Y��A��َ ��%��)��x��Y��߀�� 1��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 500 / width of table in bytes NAXIS2 = 35 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 209 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'undocumented1' / Byte field not in ITOS database TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BXCPKTSINSCCNT' / XC number of command packets received TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BXCPKTSERRSCCNT' / XC S/C Apid (0x0701) error counter TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BXCREJECTREASON' / XC command reject reason TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTOFREEBYTES' / TO Space on downlink RAM disk TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BTOPKTSENT' / TO packets sent TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BTOFILESSENT' / TO files TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTOFILEQSENT00' / TO File Queue priority 0 files sent TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTONUMQUEFLUSH' / TO TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BTORETRYDELQUE' / TO Current size of the retry delete queue TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTOBUMPFILECNT' / TO TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BFMBOOTSPACE' / Free space on the Boot EEPROM disk, targ/boot TFORM14 = '1J ' / data format of field: 4-byte INTEGER TTYPE15 = 'BFMNORMSPACE' / Free space on the Normal EEPROM disk, targ/normTFORM15 = '1J ' / data format of field: 4-byte INTEGER TTYPE16 = 'BFMTEMPSPACE' / Free space on the scratch RAM disk, targ/temp TFORM16 = '1J ' / data format of field: 4-byte INTEGER TTYPE17 = 'BFMNRAMSPACE' / Free space on the Normal DRAM disk, targ/nram TFORM17 = '1J ' / data format of field: 4-byte INTEGER TTYPE18 = 'BSHPRIMCLK' / SH Free Running Flag TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BSHCURRSLOT' / SH Current Slot Number TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BSHCMDORCNT' / SH BAT Cmd Buffer Overrun Error Count TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSHCURRCYCLE' / SH Current Cycle Number TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'undocumented2' / Byte field not in ITOS database TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BSHBBADISRCNT' / SH BAT Bad 1 Hz ISR Count TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BSHPULSE' / SH Source of the 1Hz Pulse TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BMSCBYTESCRUB' / MS Cumulative number of bytes scrubbed since ReTFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMSCPASSCOMPL' / MS Passes made thru Bulk Memory since Reset TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMSCSBERRORS' / MS Cumulative number of Single-Bit Errors sinceTFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMSCMBERRORS' / MS Cumulative number of Multi-Bit Errors since TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMSRAMCSBERRORS' / MS RAM single-bit error count TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMSRAMCMBERRORS' / MS RAM multi-bit error count TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMSRAMLSBERRADDR' / MS Last RAM single-bit error address TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMSRAMLMBERRADDR' / MS Last RAM multi-bit error address TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMSMACHERRORS' / MS RAM machine check error count TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMSACHERRADDR' / MS Last RAM machine check error address TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMSLIORESETREG' / MS Processor LIO Reset Register TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BTMCURRMODE' / TM Current Software Mode TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BTMPREVMODE' / TM Previous Software Mode TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BTMSRESETCNT' / TM System Reset Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'undocumented3' / Byte field not in ITOS database TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM50 = '1D ' / data format of field: 8-byte DOUBLE TTYPE51 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL53 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE54 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BSCSTARTCNT' / SC Script START Commands Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BSCTERMCNT' / SC Script STOP Command Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BSCCOMPLCNT' / SC Script BREAK Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BSCNUMSCRIPTS' / SC Number of Scripts Currently Active TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BSCUNSPECSLOT' / SC Minimum Slot for Scripts with Unspecified SlTFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BSCTLMPKTCNT' / SC Script CLEAR Command Count TFORM65 = '1J ' / data format of field: 4-byte INTEGER TZERO65 = 2147483648 / offset for unsigned integers TTYPE66 = 'BSCCMDSENT' / SC Script STEP Command Count TFORM66 = '1J ' / data format of field: 4-byte INTEGER TZERO66 = 2147483648 / offset for unsigned integers TTYPE67 = 'FOMSLEWMODESTAT' / Fom Slew Mode Enable Status TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'FOMATMODESTAT' / Fom AT Mode Enable Status TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'FOMPPTMODESTAT' / Fom PPT Mode Enable Status TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'FOMOTTYPE' / Current Observed Target Target Type TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'FOMOTOBSNUM' / Current Observed Target Observation Num TFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'FOMOTMERIT' / Current Observed Target Merit TFORM72 = '1E ' / data format of field: 4-byte REAL TTYPE73 = 'FOMOTOBSSECS' / Current Observed Target Secs Until View ConstraTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TUNIT73 = 's ' / physical unit of field TTYPE74 = 'FOMOTPASTOBSS' / Current Observed Target Past Observed Secs TFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TUNIT74 = 's ' / physical unit of field TTYPE75 = 'FOMOTLASTOBST' / Current Observed Target Last Obs Time (in TIME4TFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers TSCAL75 = 1 / data are not scaled TUNIT75 = 's ' / physical unit of field TTYPE76 = 'FOMOTLASTOBSS' / Current Observed Target Last Obs Time (in U1234TFORM76 = '1J ' / data format of field: 4-byte INTEGER TZERO76 = 2147483648 / offset for unsigned integers TUNIT76 = 's ' / physical unit of field TTYPE77 = 'FOMAISLEWSTATE' / ACS Info Slew State TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'FOMACSINSAA' / ACS Info In SAA Flag TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'FOMLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'FOMLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'FOMPPTREQCNT' / FOM PPT Request Count TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'FOMATUPDCNT' / FOM AT Update Count TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'FOMGRBREQCNT' / GRB Request Count TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'FOMTOOREQCNT' / TOO Request Count TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BPWRESPVERIFY' / PW count of Cmd Responses that Verified SuccessTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWRESPFAILED' / PW count of Cmd Responses that Failed VerificatTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWRESPTIMEOUT' / PW count of Cmd Responses that TimedOut TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKCMDSENT' / PW count of HK Cmds sent to PCB TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWDIAGCMDSENT' / PW count of Diag Cmds sent to PCB TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWOTHERCMDSENT' / PW count of anything other than HK or Diag CmdsTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKRESPRCVD' / PW count of HK packet Responses Received TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BPWDIAGRESPRCVD' / PW count of Diagnostic Packet Responses ReceiveTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWSTATRESPRCVD' / PW count of Status packet Responses Received TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 32768 / offset for unsigned integers TTYPE94 = 'BPWSTATPKTTOGND' / PW Flag as to whether Status Pkt comes to the GTFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BPWEVENTSDISPLD' / PW Flag as to whether Timeout Events get displaTFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BIHFAILCOUNT' / IH failure count (total number of failurs sinceTFORM96 = '1J ' / data format of field: 4-byte INTEGER TZERO96 = 2147483648 / offset for unsigned integers TTYPE97 = 'BIHTLMFAIL' / IH last telemetry point row failure TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 32768 / offset for unsigned integers TTYPE98 = 'BIHBCDHFAIL' / IH last BCDH column failure TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 32768 / offset for unsigned integers TTYPE99 = 'BIHCHECKRATE' / IH check rate (seconds) TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 32768 / offset for unsigned integers TTYPE100= 'BIHFAILRATE' / IH failure rate (samples) TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 32768 / offset for unsigned integers TTYPE101= 'BIHTASKCFG' / IH task configuration (1 - enabled, 0 - disableTFORM101= '1J ' / data format of field: 4-byte INTEGER TZERO101= 2147483648 / offset for unsigned integers TTYPE102= 'BDIHKDATAMET' / Data MET time, U1234 format TFORM102= '1J ' / data format of field: 4-byte INTEGER TUNIT102= 's ' / physical unit of field TTYPE103= 'BDIHKLAG' / How far DI is lagging, TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BDIHKNFAULTS' / Number of data/software faults found TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BDIHKLASTFAULT' / Identity of last fault TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BDIHKBLKRATE' TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL106= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT106= 'count ' / physical unit of field TTYPE107= 'BDIHKBLKRATE64S' TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL107= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT107= 'count ' / physical unit of field TTYPE108= 'BDIHKNGOODDETS' / Number of detectors functioning TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BDIHKBCDHVER' / Count of BCDH command verifies TFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 32768 / offset for unsigned integers TTYPE110= 'BDIHKDMVER' / Count of DM command verifies TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BDIHKBCDHEXC' / Count of BCDH command exceptions TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 32768 / offset for unsigned integers TTYPE112= 'BDIHKDMEXC' / Count of DM command exceptions TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 32768 / offset for unsigned integers TTYPE113= 'BDIHKDMPARITY' / Count of DM parity errors TFORM113= '1I ' / data format of field: 2-byte INTEGER TZERO113= 32768 / offset for unsigned integers TTYPE114= 'BDIHKDMALARMS' / Count of DM alarms TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 32768 / offset for unsigned integers TTYPE115= 'BDIHKMICERRORS' / Count of MIC errors TFORM115= '1I ' / data format of field: 2-byte INTEGER TZERO115= 32768 / offset for unsigned integers TTYPE116= 'BDIHKTIMELAG' / How far DI is lagging, seconds TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 32768 / offset for unsigned integers TUNIT116= 's ' / physical unit of field TTYPE117= 'BDIHKGRBFOLLOW' / Is DI doing a GRB follow-up TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BDIHKFORCEINVAL' / Is data forced to be invalid? TFORM118= '1B ' / data format of field: BYTE TTYPE119= 'BDIHKSLEWING' / Is DI in slew mode TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BDIHKSAA' / Is DI in SAA mode TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BDIHKVALID' / Is DI producing valid data TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BDIHKTRIGGERABLE' / Is DI producing triggerable data TFORM122= '1B ' / data format of field: BYTE TTYPE123= 'BDIHKDAPSAA' / Is DAP believed to be in SAA state? TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BDIHKUVOTFILTMV' / Is UVOT filter moving? TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'undocumented4' / Byte field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BBRHKTRIGTIME42' / BR HK trigger time (time42) TFORM126= '1D ' / data format of field: 8-byte DOUBLE TUNIT126= 's ' / physical unit of field TTYPE127= 'undocumented5' / Byte field not in ITOS database TFORM127= '1I ' / data format of field: 2-byte INTEGER TZERO127= 32768 / offset for unsigned integers TTYPE128= 'BBRHKTRIGDUR' / BR HK trigger duration TFORM128= '1J ' / data format of field: 4-byte INTEGER TZERO128= 8590065.664 / data offset (2G shift B_BR_4MS_A conversion) TSCAL128= 0.004 / data scaling (B_BR_4MS_A conversion) TTYPE129= 'BBRHKSOURCETYPE' / BR HK source type TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BBRHKTHETA' / BR HK burst/transient location in radial coord.TFORM130= '1E ' / data format of field: 4-byte REAL TUNIT130= 'rad ' / physical unit of field TTYPE131= 'BBRHKPHI' / BR HK burst/transient location in azimuthal cooTFORM131= '1E ' / data format of field: 4-byte REAL TUNIT131= 'rad ' / physical unit of field TTYPE132= 'BBRHKSTRENGTH' / BR HK burst/transient strength in image units TFORM132= '1E ' / data format of field: 4-byte REAL TTYPE133= 'BBRHKLOCSIGMA' / BR HK burst/transient rms near src location TFORM133= '1E ' / data format of field: 4-byte REAL TTYPE134= 'BBRHKCATNUM' / BR HK burst/transient catalog number of src (-1TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 32768 / offset for unsigned integers TTYPE135= 'BBRHKTECHNIQUE' / BR HK burst/transient technique to get the src TFORM135= '1I ' / data format of field: 2-byte INTEGER TZERO135= 32768 / offset for unsigned integers TTYPE136= 'BBRHKINTRSGSTR' / BR HK burst/transient source brightness for intTFORM136= '1E ' / data format of field: 4-byte REAL TTYPE137= 'BBRHKRARAD' / BR HK R.A. in radians TFORM137= '1E ' / data format of field: 4-byte REAL TUNIT137= 'rad ' / physical unit of field TTYPE138= 'BBRHKDECRAD' / BR HK Declination in radians TFORM138= '1E ' / data format of field: 4-byte REAL TUNIT138= 'rad ' / physical unit of field TTYPE139= 'BBRHKFBURST' / BR HK burst flag TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BBRHKFINTERSTING' / BR HK interesting flag TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BBRHKFIMAGETRIG' / BR HK image trigger flag TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BBRHKFCONTINUOUS' / BR HK continuous observation flag TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BBRHKERANGE' / BR HK Trigger energy TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BBRHKFINRATETRIG' / BR HK processing new rate trigger TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BBRHKTIMESINCE' / BR HK time since trigger TFORM145= '1J ' / data format of field: 4-byte INTEGER TZERO145= 2147483648 / offset for unsigned integers TTYPE146= 'BBRHKMERIT0' / BR HK Merit item 0 TFORM146= '1I ' / data format of field: 2-byte INTEGER TTYPE147= 'BBRHKMERIT1' / BR HK Merit item 1 TFORM147= '1I ' / data format of field: 2-byte INTEGER TTYPE148= 'BBRHKMERIT2' / BR HK Merit item 2 TFORM148= '1I ' / data format of field: 2-byte INTEGER TTYPE149= 'BBRHKMERIT3' / BR HK Merit item 3 TFORM149= '1I ' / data format of field: 2-byte INTEGER TTYPE150= 'BBRHKMERIT4' / BR HK Merit item 4 TFORM150= '1I ' / data format of field: 2-byte INTEGER TTYPE151= 'BBRHKMERIT5' / BR HK Merit item 5 TFORM151= '1I ' / data format of field: 2-byte INTEGER TTYPE152= 'BBRHKMERIT6' / BR HK Merit item 6 TFORM152= '1I ' / data format of field: 2-byte INTEGER TTYPE153= 'BBRHKMERIT7' / BR HK Merit item 7 TFORM153= '1I ' / data format of field: 2-byte INTEGER TTYPE154= 'BBRHKMERIT8' / BR HK Merit item 8 TFORM154= '1I ' / data format of field: 2-byte INTEGER TTYPE155= 'BBRHKMERIT9' / BR HK Merit item 9 TFORM155= '1I ' / data format of field: 2-byte INTEGER TTYPE156= 'undocumented6' / Byte field not in ITOS database TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 32768 / offset for unsigned integers TTYPE157= 'BBRHKTRIGNUM' / BR HK trigger number TFORM157= '1J ' / data format of field: 4-byte INTEGER TZERO157= 2147483648 / offset for unsigned integers TTYPE158= 'BBRHKTRYINGTRIG' / BR HK triggers tried since TFORM158= '1J ' / data format of field: 4-byte INTEGER TZERO158= 2147483648 / offset for unsigned integers TTYPE159= 'BBRHKTRYINGMET' / BR HK triggers tried at MET TFORM159= '1J ' / data format of field: 4-byte INTEGER TZERO159= 2147483648 / offset for unsigned integers TUNIT159= 's ' / physical unit of field TTYPE160= 'BCAHKLASTOFFMET' / Last Offset time, U1234 format TFORM160= '1J ' / data format of field: 4-byte INTEGER TTYPE161= 'BCAHKLASTGAINMET' / Last Gain time, U1234 format TFORM161= '1J ' / data format of field: 4-byte INTEGER TTYPE162= 'BCAHKLASTOINDEX' / Last Offset Index TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers TTYPE163= 'BCAHKLASTGINDEX' / Last Gain Index TFORM163= '1I ' / data format of field: 2-byte INTEGER TZERO163= 32768 / offset for unsigned integers TTYPE164= 'BCAHKDOINGBLK' / Which block are we currently calibrating TFORM164= '1I ' / data format of field: 2-byte INTEGER TTYPE165= 'undocumented7' / Byte field not in ITOS database TFORM165= '1I ' / data format of field: 2-byte INTEGER TZERO165= 32768 / offset for unsigned integers TTYPE166= 'BTGHKTYPE' / Trigger Status Type TFORM166= '1I ' / data format of field: 2-byte INTEGER TZERO166= 32768 / offset for unsigned integers TTYPE167= 'BTGHKAFTERBURN' / Trigger afterburners running TFORM167= '1I ' / data format of field: 2-byte INTEGER TZERO167= 32768 / offset for unsigned integers TTYPE168= 'BTGHKSCORE' / Trigger Status Score TFORM168= '1E ' / data format of field: 4-byte REAL TTYPE169= 'BTGHKTRIGID' / Trigger Status Trigger ID TFORM169= '1J ' / data format of field: 4-byte INTEGER TZERO169= 2147483648 / offset for unsigned integers TTYPE170= 'BTGHKTRIGEXPTICK' / Trigger Status Trigger Expire, tTICK TFORM170= '1J ' / data format of field: 4-byte INTEGER TZERO170= 2147483648 / offset for unsigned integers TTYPE171= 'BTGHKBESTSCORE' / Trigger Status best trigger strength TFORM171= '1E ' / data format of field: 4-byte REAL TTYPE172= 'BTGHKRATCHET' / Trigger Status number of trigger ratchets TFORM172= '1J ' / data format of field: 4-byte INTEGER TZERO172= 2147483648 / offset for unsigned integers TTYPE173= 'BTGHKNEW' / Trigger Status new trigger found TFORM173= '1J ' / data format of field: 4-byte INTEGER TZERO173= 2147483648 / offset for unsigned integers TTYPE174= 'BTGHKLEVALPER8' / Long trigger evaluations/8 seconds TFORM174= '1I ' / data format of field: 2-byte INTEGER TZERO174= 32768 / offset for unsigned integers TTYPE175= 'BTGHKDITGCPU' / CPU usage by DI+TG TFORM175= '1I ' / data format of field: 2-byte INTEGER TZERO175= 327.68 / data offset (32k shift B_TG_PERCENT conversion)TSCAL175= 0.01 / data scaling (B_TG_PERCENT conversion) TTYPE176= 'BTGHKNTHROTTLED' / Trigger criteria throttled for CPU usage TFORM176= '1I ' / data format of field: 2-byte INTEGER TTYPE177= 'BTGHKVETONUM' / What source catnum is being vetoed TFORM177= '1I ' / data format of field: 2-byte INTEGER TZERO177= 32768 / offset for unsigned integers TTYPE178= 'BPDBCBWRITE' / Circular buffer write index TFORM178= '1J ' / data format of field: 4-byte INTEGER TZERO178= 2147483648 / offset for unsigned integers TTYPE179= 'BPDBCBVALID' / Circular buffer valid length TFORM179= '1J ' / data format of field: 4-byte INTEGER TZERO179= 2147483648 / offset for unsigned integers TTYPE180= 'BPDBCBREAD' / Circular buffer read index TFORM180= '1J ' / data format of field: 4-byte INTEGER TZERO180= 2147483648 / offset for unsigned integers TTYPE181= 'BPDBCBWRLAP' / Circular buffer write wrap count TFORM181= '1I ' / data format of field: 2-byte INTEGER TZERO181= 32768 / offset for unsigned integers TTYPE182= 'BPDBCBRDLAP' / Circular buffer read wrap count TFORM182= '1I ' / data format of field: 2-byte INTEGER TZERO182= 32768 / offset for unsigned integers TTYPE183= 'BPDMICAVGRATE' / MIC input data rate - avg bytes per sec TFORM183= '1J ' / data format of field: 4-byte INTEGER TZERO183= 2147483648 / offset for unsigned integers TUNIT183= 'byte/s ' / physical unit of field TTYPE184= 'BPDBCDHCMDCNT' / BCDH command count TFORM184= '1I ' / data format of field: 2-byte INTEGER TZERO184= 32768 / offset for unsigned integers TTYPE185= 'BPDBCDHERRCNT' / BCDH command error count TFORM185= '1I ' / data format of field: 2-byte INTEGER TZERO185= 32768 / offset for unsigned integers TTYPE186= 'BPDMICCMDCNT' / MIC command count TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BPDMICERRCNT' / not used in software ver 4.1 TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BPDMICFPGAERR' / Command buffer FPGA lockup count TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BPDDSPMTHCNT' / DSP interface method count TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BPDDSPERRCNT' / DSP interface total errors TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BPDDSPCMDCNT' / DSP interface commands sent TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BPDDSPTSKCNT' / DSP interface hipri task count TFORM192= '1B ' / data format of field: BYTE TTYPE193= 'BPDDSPERRTLM' / DSP interface response length errs TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BDEREQRCVCNT' / DSP Request Received Count TFORM194= '1B ' / data format of field: BYTE TTYPE195= 'BDEREQERRCNT' / DSP Request Error Count TFORM195= '1B ' / data format of field: BYTE TTYPE196= 'BDEHALTCNT' / DSP Count of halts received TFORM196= '1B ' / data format of field: BYTE TTYPE197= 'BDERCVINTCNT' / DSP Count of Received Interrupts TFORM197= '1B ' / data format of field: BYTE TTYPE198= 'BDEXSERRSEG' / DSP Checksum Error Index TFORM198= '1B ' / data format of field: BYTE TTYPE199= 'BDEXSERRCNT' / DSP Total Count of Checksum Errors TFORM199= '1B ' / data format of field: BYTE TTYPE200= 'BDEXSCYCLES' / DSP Spare0 for Science Code TFORM200= '1B ' / data format of field: BYTE TTYPE201= 'BDETXINTCNT' / DSP Spare0 for Science Code TFORM201= '1B ' / data format of field: BYTE TTYPE202= 'BDEPKTERRCNT' / DSP transmit packet error count TFORM202= '1B ' / data format of field: BYTE TTYPE203= 'BDEPKTERRTYP' / DSP transmit packet last error type TFORM203= '1B ' / data format of field: BYTE TTYPE204= 'BDECONTROLFLG' / DSP Current Control flag set by dsp object TFORM204= '1B ' / data format of field: BYTE TTYPE205= 'BDEACTIVITYFLG' / DSP Current Activity flag set by the dsp TFORM205= '1B ' / data format of field: BYTE TTYPE206= 'BDExx32x1' / DSP board science ??? status TFORM206= '1J ' / data format of field: 4-byte INTEGER TZERO206= 2147483648 / offset for unsigned integers TTYPE207= 'BDExx32x2' / DSP board science ??? status TFORM207= '1J ' / data format of field: 4-byte INTEGER TZERO207= 2147483648 / offset for unsigned integers TTYPE208= 'BDExx32x3' / DSP board science ??? status TFORM208= '1J ' / data format of field: 4-byte INTEGER TZERO208= 2147483648 / offset for unsigned integers TTYPE209= 'BDExx32x4' / DSP board science ??? status TFORM209= '1J ' / data format of field: 4-byte INTEGER TZERO209= 2147483648 / offset for unsigned integers EXTNAME = 'hk18fx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329264.90232 TSTOP = 613331304.90232 DATE-OBS= '2020-06-08T17:14:19' DATE-END= '2020-06-08T17:48:19' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2040. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 399 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3JAJ6J4J3JAJ3J3J' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '191640148' / data unit checksum updated 2020-06-18T16:20:49 TRDHI4 = 2 / BXCPKTSERRSCCNT Red upper limit = BXC_PKTERRSC_TYEHI4 = 1 / BXCPKTSERRSCCNT Yellow upper limit = BXC_PKTERRCOMMENT Column 6 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress TRDLO16 = 10000 / BFMTEMPSPACE Red lower limit = BTEMPSPACE_LIM TRDHI16 = 1000000 / BFMTEMPSPACE Red upper limit = BTEMPSPACE_LIM TYELO16 = 60000 / BFMTEMPSPACE Yellow lower limit = BTEMPSPACE_LITYEHI16 = 900000 / BFMTEMPSPACE Yellow upper limit = BTEMPSPACE_LICOMMENT Column 18 = BSHPRIMCLK - Discrete value COMMENT 0 = UNDEFINED = System Clock is undefined COMMENT 1 = S/C TIME MSG = System Clock is Time Message from S/C COMMENT 2 = S/C 1PPS = System Clock is S/C one hertz hardware COMMENT 3 = BAT 1PPS = System Clock is BAT one hertz hardware COMMENT 4 = VXWORKS = System Clock is vxWorks clock ( PowerPC ) COMMENT 5 = R6K PIT = System Clock is Processor's PIT timer COMMENT 6 = CYGWIN = System Clock is cygwin clock ( PowerPC ) COMMENT 7 = LINUX = System Clock is Linux clock ( PowerPC ) COMMENT 8 = DEBUG = System Clock is debug clock ( PowerPC ) COMMENT 9-255 = UNDEFINED = System Clock is undefined COMMENT Column 24 = BSHPULSE - Discrete value COMMENT 0 = UNDEFINED = 1 PPS Pulse is undefined COMMENT 1 = PRIMARY EXTERNAL = 1 PPS Pulse is primary external COMMENT 2 = REDUNDANT EXTERNAL = 1 PPS Pulse is redundant external COMMENT 4 = MIC INTERNAL = 1 PPS Pulse is MIC internal TRDHI24 = 4 / BSHPULSE Red upper limit = B_SHPULSE_LIM TYEHI24 = 3 / BSHPULSE Yellow upper limit = B_SHPULSE_LIM TRDHI27 = 2 / BMSCSBERRORS Red upper limit = BMS_SBERR_LIM TYEHI27 = 1 / BMSCSBERRORS Yellow upper limit = BMS_SBERR_LIMTRDHI28 = 2 / BMSCMBERRORS Red upper limit = BMS_MBERR_LIM TYEHI28 = 1 / BMSCMBERRORS Yellow upper limit = BMS_MBERR_LIMCOMMENT Column 35 = BMSLIORESETREG - Discrete value COMMENT 0 = LIO POWER ON RESET = Power Cycle Reset COMMENT 2048 = LIO CRITICAL RESET = Critical Reset COMMENT 2304 = LIO CRITICAL ERROR = Critical Error COMMENT 2560 = LIO PAS ERROR = Pas Reset COMMENT 2816 = LIO CHECKSTOP ERROR = Checkstop Error COMMENT 3072 = LIO PCI BRIDGE ERROR = PCI Bridge Error COMMENT 3328 = LIO WATCHDOG ERROR = Watchdog Error COMMENT 3584 = LIO SELFTEST ERROR = SelfTest error COMMENT Column 37 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 38 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 45 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 46 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 47 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 49 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 54 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 67 = FOMSLEWMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 68 = FOMATMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 69 = FOMPPTMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 70 = FOMOTTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 77 = FOMAISLEWSTATE - Discrete value COMMENT 0 = ERROR = ACS Info Slew State Error COMMENT 1 = SLEWING = ACS Info Slewing and not within 10 ArcMin of Target COMMENT 2 = IN10ARCMIN = ACS Info Slewing and within 10 ArcMin of Target COMMENT 3 = SETTLED = ACS Info Settled on Target COMMENT 4 = SAFEMODE = ACS Info SC Safemode COMMENT 5 = InSAA = ACS Info In SAA COMMENT 6 = OutOfSAA = ACS Info Outside SAA COMMENT Column 78 = FOMACSINSAA - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description TRDHI86 = 2 / BPWRESPFAILED Red upper limit = BPW_RESPFAIL_LITYEHI86 = 1 / BPWRESPFAILED Yellow upper limit = BPW_RESPFAILTRDHI87 = 2 / BPWRESPTIMEOUT Red upper limit = BPW_RESPTOUT_LTYEHI87 = 1 / BPWRESPTIMEOUT Yellow upper limit = BPW_RESPTOUCOMMENT Column 94 = BPWSTATPKTTOGND - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 95 = BPWEVENTSDISPLD - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description TRDHI111= 50 / BDIHKBCDHEXC Red upper limit = BDI_BCDHEXC_LIM TYEHI111= 49 / BDIHKBCDHEXC Yellow upper limit = BDI_BCDHEXC_LTRDHI115= 2 / BDIHKMICERRORS Red upper limit = BDI_MICERR_LIMTYEHI115= 1 / BDIHKMICERRORS Yellow upper limit = BDI_MICERR_COMMENT Column 129 = BBRHKSOURCETYPE - Discrete value COMMENT 0 = Empty = BR HK, Source Type, 0=Empty COMMENT 1 = New = BR HK, Source Type, 1=New COMMENT 2 = AutoGRB = BR HK, Source Type, 2=AutoGRB COMMENT 3 = OldGRB = BR HK, Source Type, 3=OldGRB COMMENT 4 = X-ray Binary = BR HK, Source Type, 4=X-ray Binary COMMENT 5 = Black Hole = BR HK, Source Type, 5=Black Hole COMMENT 6 = Pulsar = BR HK, Source Type, 6=Pulsar COMMENT 7 = Soft Gamma Repeater = BR HK, Source Type, 7=Soft Gamma Repeater COMMENT 8 = X-ray Nova = BR HK, Source Type, 8=X-ray Nova COMMENT 9 = Active Galactic Nucleus = BR HK, Source Type, 9=Active Galactic COMMENT 10 = Rapid Burster = BR HK, Source Type, 10=Rapid Burster COMMENT 11 = X-ray Burster = BR HK, Source Type, 11=X-ray Burster COMMENT 12 = Other = BR HK, Source Type, 12=Other COMMENT 13 = Unknown = BR HK, Source Type, 13=Unknown COMMENT 14 = Special1 = BR HK, Source Type, 14=Special1 COMMENT 15 = Special2 = BR HK, Source Type, 15=Special2 COMMENT 16 = Special3 = BR HK, Source Type, 16=Special3 COMMENT 17 = Special4 = BR HK, Source Type, 17=Special4 COMMENT 18 = Special5 = BR HK, Source Type, 18=Special5 COMMENT 19 = Special6 = BR HK, Source Type, 19=Special6 COMMENT 20 = Special7 = BR HK, Source Type, 20=Special7 COMMENT 21 = Special8 = BR HK, Source Type, 21=Special8 COMMENT 22 = Special9 = BR HK, Source Type, 22=Special9 COMMENT 23 = Aversion = BR HK, Source Type, 23=Aversion COMMENT Column 135 = BBRHKTECHNIQUE - Discrete value COMMENT 0 = Clean = BR HK, Technique Used, 0=Clean COMMENT 1 = Back_project = BR HK, Technique Used, 0=Back_project COMMENT 2 = FFT 1 pixel = BR HK, Technique Used, 0=FFT 1 pixel COMMENT 3 = FFT 2 pixel = BR HK, Technique Used, 0=FFT 2 pixel COMMENT 4 = FFT 4 pixel = BR HK, Technique Used, 0=FFT 4 pixel COMMENT 5 = Other = BR HK, Technique Used, 0=Other COMMENT Column 166 = BTGHKTYPE - Discrete value COMMENT 0 = None = TG Status Type, 0=None COMMENT 1 = Long = TG Status Type, 1=Long COMMENT 2 = Short = TG Status Type, 2=Short COMMENT 3-4294967294 = Unknown = TG Status Type, >2=Unknown TRDHI185= 2 / BPDBCDHERRCNT Red upper limit = BPD_BCDHERRCNT_TYEHI185= 1 / BPDBCDHERRCNT Yellow upper limit = BPD_BCDHERRCTRDHI187= 2 / BPDMICERRCNT Red upper limit = BPD_MICERRCNT_LITYEHI187= 1 / BPDMICERRCNT Yellow upper limit = BPD_MICERRCNTTRDHI190= 2 / BPDDSPERRCNT Red upper limit = BPD_DSPERRCNT_LITYEHI190= 1 / BPDDSPERRCNT Yellow upper limit = BPD_DSPERRCNTTRDHI193= 2 / BPDDSPERRTLM Red upper limit = BPD_DSPERRTLM_LITYEHI193= 1 / BPDDSPERRTLM Yellow upper limit = BPD_DSPERRTLMTRDHI195= 2 / BDEREQERRCNT Red upper limit = BPD_DEREQERR_LIMTYEHI195= 1 / BDEREQERRCNT Yellow upper limit = BPD_DEREQERR_TRDHI199= 2 / BDEXSERRCNT Red upper limit = BPD_DEXSERR_LIM TYEHI199= 1 / BDEXSERRCNT Yellow upper limit = BPD_DEXSERR_LITRDHI202= 2 / BDEPKTERRCNT Red upper limit = BPD_DEPKTERR_LIMTYEHI202= 1 / BDEPKTERRCNT Yellow upper limit = BPD_DEPKTERR_HISTORY TASK: FAPPND on FILENAME: sw00976692000b18fx001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:51 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�s9��7dl��6 s=��x�A�� qA�� Fl�� Ҁ��0��`� �d��d�΀ ��u�B��٤��4�r 6*��6&��6&��$��n��]E��Q��A�D�#S��>�e�@�C� 8A��@��3J��C��_��~��0��>$��$��~��\��C��0�5R?� �� ؘ؀��Q��G�++G��A�GT�s��$��7g�Ā��6 s=��@�x�A�� qA�� Fl��d��0��`� �e��e�΀ ��u�B��u��4�r 66��62��62��$�� ]LQ��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>$��$��~��\��C��0�5R?� ��|�'��5�L��5�L�ؘ؀ğR3��H�++H��A�GT�s9��7h��ŀ��6 s=��6��@�x�A�� qA�� Fl��K��0��`� �e��e�΀ ��u�B��9�Q��4�r 6B��6>��6>��$��]Q�#Q��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>$��$��~��\��C��0�5R?� ��M��dc��dc��ؘ؀��R��I�++I��A�GUs�π��0�7kÁƀ��6 s=��r��x�A�� qA�� Fl�� Y��0��p��xP� �e��e�΀ ��u�B��4�r 6N��6J��6J��$��"��]W\AQ��A�D�#S��>�e�@�C� 8A��@��3J��_��~��0��>$��$��~��\��C��0�5R?� ��ؘ؀�S#�J�++J��A�GU0s~��\��7oQ�ʀ��6 s=��x�A�� qA�� Fl��0��`� �e��e�΀ ��u�B��ɤ��4�r 6Z��6V��6V��$��^��]\�_Q��A�D�#S��>�e�@�C� 8A��@��3J��3��_��~��0��>$��$��~��\��C��0�5R?� ��:��/�ؘ؀�[S��4L�!++L��A�GUNs�T��Ā��7p܁ˀ��6 s=��@�x�A�� qA�� Fl��\��0��`� �e��e�΀ ��u�B��4�r 6f��6b��6b��$�� ]b�}Q��A�D�#S��>�e�@�C� 8A��@��3J��o��_��~��0��>$��$��~��\��C��0�5R?� ��G��N��N�ؘ؀ĒT�MM�"++M��A�GUls��,��7rׁ΀��6 s=��&��@�x�A�� qA�� Fl��0��`� �e��e�΀ ��u�B��I�A��4�r 6r��6n��6n��$��ր��]h̩Q��A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��$��$��~��\��C鼀�1�50?��_�� H�� ;��ؘ؀�GT��gO�$++O��A�GU�s�z��`�7uT�π��6 s=��b��x�A�� qA�� Fl�� 9��0��`� �f��f�΀ ��u�B�� }��4�r 6~��6z��6z��$��]nl�Q��A�D�#S��>�e�@�C� 8A��@��3J��_��~��1��$��$��~��\��C鼀�1�50?��p�� L[�� L[��ؘ؀�(U��P�%++P��A�GU�s~��0�7x;�р��6 s=��@�x�A�� qA�� Fl�� 0��p��xP� �f��f�΀ ��u�B��р��4�r 6��6��6��$��N��]t�Q��A�D�#S��>�e�@�C� 8A��@��3J��#��_��~��2��$��$��~��\��B�]s��2�55gB� ��n�� zTD�� zG��ؘ؀��U��Q�&++Q��A�GU�s��e��7~�܀��6 s=��ڀ��x�A�� qA�� Fl��=��ۀ��0�x`��X0� �h��g�΀ ��CB��o��4�s 6��6��6��$��]y�U��A�D�#S��>�e�@�C� 8A��@��3J��_��_��~��2��$��$��~��\��B�]s��2�55gB� �� <�� <��ؘ؀�RV��T)++T��A�GU�s9��̀��7�H��6 s=��X��x�A�� qA�� Fl�� Z��0��`� �h��h�΀ ��CB��f��4�s 6��6��6��$��ƀ��[L!U��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��$��$��~��\��B�]s��2�55gB� ��[�� Z�� Mp�ؘ؀V��U*++U��A�GVs~�� 5��7��6 s=��R��@��x�A�� qA�� Fl�� x��0��`� �h��h�΀ ��CB��*�Ϥ��4�s 6��6��6��$��[�|MU��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��$��$��~��\��B�]s��2�55gB� ��Cl��Cl�ؘ؀��W��V*++V��A�GV s�� 7�'��6 s=��x�A�� qA�� Fl�� -��0��`� �h��h�΀ ��CB��4�s 6��6��6��$��>��[�kU��A�D�#S��>�e�@�C� 8A��@��3J��_��~��2��$��$��~��\��B�]s��2�55gB� ��+�{��3�<��3�0�ؘ؀�W��V+++V��A�GV>s�'��7��6 s=��ʀ��@�x�A�� qA�� Fl�� 0��`� �h��h�΀ ��CB��G��4�s 6ƀ�6�6��$��z��[��U��A�D�#S��>�e�@�C� 8A��@��3J��O��_��~��2��$��$��~��\��B�]s��2�55gB� ��$��b[��b[�ؘ؀ƽX�!W,++W��A�GV\s�؀�� m��7�Y��6 s=��0@�y�A�� qA�� Fl�� 0��`� �h��h�΀ ��CB��v��4�s 6Ҁ�6΀�6΀��$�� [�\�U��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��$��$��~��\��C��3�5M?��5��z��n�ؘ؀�^X}�;Y.++Y��A�GVzs��Հ��7��6 s=��B��@�y�A�� qA�� Fl��p� �̀��0�x`��X0� �i��i�΀ ��CB��:��4�s 6ހ�6ڀ�6ڀ��$��[��W��A�D�#S��>�e�@�C� 8A��@��3J��_��~��3��$��$��~��\��C��3�5M?��u�9��Hl��Hl�ؘ؀�:X��XZ"/++Z"��A�GV�s��=��7��6 s=��~��;��y�A�� qA�� Fl��@��v��X@��8� �j��i�Ҁ ��CB��4�s 6��6��6��$��.��Z�,�W��A�GVp��>�?�r�"e4D��CBi��@��B��M��D��4��3��$��$��~��\��C��3�5M?��!��|�ؘ؀ʧY��z^.2++^.��A�GV�s��7��6 s=��č@�y�A�� qA�� Fl�� ʀ��hP��X0� �j��i�� CB��7��4�s 6��6��6��$��j��Z��W��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��>�� e�� e��ؘ؀�Y��^03++^0��A�GV�s�� #p�7�Y��6 s=��y�A�� qA�� Fl�� X@��H � �j��i�� CB��s��4�s 7��6��6��$��Z�l-W��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��9��P��O�D�ؘ؀��Zv��^03++^0��A�GV�s�؀��u��7��6 s=��2��x@�y�A�� qA�� Fl��+��hP��X0� �j��i�>� ��CB��J��4�s 7��7 ��7 ��$��Z�KW��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��.��Ŕ��Ŕ�ؘ؀��Z��^03++^0��A�GWs9��݀��7��6 s=��n��D��y�A�� qA�� Fl��l��hP��X0� �j��i�b� ��CB��뤎��4�s 7��7��7��$��(��Z��iW��A�GVp��>�?�r�"e4D��CBi��@��B��=��D��4��3��$��$��~��\��C��3�5M?��\�ؘ؀�[f��^03++^0��A�GW.s��E��7�~��6 s=��y�A�� qA�� Fl��@�� X@��H � �j��i�� CB��Ҁ'��4�s 7&��7"��7"��$��Z��Z�ܕW��A�GVp��>�?�r�"e4D��CBi��@��B��y��D��4��3��$��$��~��\��C��3�5M?��ؘ؀˳[��^03++^0��A�GWLs��O0�7�@��6 s=��y�A�� qA�� Fl��@��$��X@��H � �j��i�� CB��c��4�s 72��7.��7.��$��+��Z�|�W��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?�� 9�� ,��٘ـ�d\m� ^03++^0��A�GWjs��E��7��6 s=��"��M��y�A�� qA�� Fl��@� �݀��X@��H � �j��i�΀ ��CB��Z��4�s 7>��7:��7:��$��Ҁ��Z�Ч��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��$�� Ѩl�� ,��٘ـ�V\�#_54++_5��A�GW�s��}��+��7�ԁ��6 s=��^��y�A�� qA�� Fl�� hP��X0� �j��i�� CB��ۤ��4�s 7J��7F��7F��$�� 0� �Zϼ�W��A�GVp��>�?�r�"e4D��CBi��@��B��-��D��4��3��$��$��~��\��C��3�5M?��V��&��٘ـΎ]]�<`;5++`;��A�GW�s}��7Ο��6 s=��y�A�� qA�� Fl��&�� x`��h@� �j��i�� CB��4�s 7V��7R��7R��$��J�� Y�\ Y��A�GVp��>�?�r�"e4D��CBi��@��B��i��D��4��3��$��$��~��\��C��3�5M?��S��2��2��٘ـ̒]׀YbA7++bA��A�GW�s�0��M��7�q��6 s=��ր�D�y�A�� qA�� Fl��@� �_��X@��H � �j��i�:� ��CB��S��4�s 7b��7^��7^��$�� Yی9Y��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��`��c��c�$�٘ـΈ^f�rcG8++cG��A�GW�s��7�<��6 s=��Ȁ��y�A�� qA�� Fl�� "��hP��X0� �j��i�^� ��CB��j��4�s 7n��7j��7j��$�� "�!�Y�,WY��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��9��jL��]d�٘ـ̰^ހ�eM9++eM��A�GXs9��!��v��7�H��6 s=��N�Ȋ@�y�A�� qA�� Fl�� L��x`��h@� �k��i�� /m�Bt�|��4�t 7z��7v��7v��$�� $�Y��uY��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��3��$��$��~��\��C��3�5M?��Gl��:��٘ـ��_V��fR;++fR��A�GXs9��"��6 �7�I��6 s=��@�y�A�� qA�� Fl�� x`��h@� �k��j�� /m�Bt�x��7�4�t 7��7��7��$��:�� ;�%�Y�l�Y��A�GVp��>�?�r�"e4D��CBi��@��B��Y��D��4��3��$��$��~��\��B�@��5�5�qB@��И٘ـ�\_΀�fR;++fR��A�GX�?�r�"e4D��CBi��@��B��D��4��5��Z$��$��~��\��D��f��5�5�qBʉy��l��/��/��٘ـ�*`F��ljA++lj��A�GXZs��%V��Ҁ�7��6 s=��(��y�A�� qA�� Fl��0�� hP��X0� �l��k�� /m�Bt��|��7�4�t 7��7��7��$�� |��Y�<�Y��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��6��n$��$��~��\��D��߀�6�5�ZBo](� ��fwl��fwl�٘ـ�e`ՀovD++ov��A�GXxs��&��@�89��6 s=��>��v�y�A�� qA�� Fl��I�� X@��H � �l��k�� /m�Bt�Ā��7�4�t 7��7��7��$��(�e�Y��Y��A�GVp��>�?�r�"e4D��CBi��@��B�� D��4��7��$��$��~��\��Ez��7�5�DB�#��6��H��ꀘ٘ـ�MaM�&u�J++u��A�GX�s��(&��8�� 6 s=��z��y��y�A�� qA�� Fl��4Ѐ�_��X@��H � �m��m�6� ��/m�Bt��7�4�t 7��7��7��$��)��ӂ,�Y\a��A�GVp��>�?�r�"e4D��CBi��@��B��I��D��4��8��$��$��~��\��E��8�5�-B��t��Y��ǭ�٘ـ�àKz�N++z��A�GX�s9��)��`�8��&��6 s=��ɼ@�y�A�� qA�� Fl��w�� hP��X0� �n��n�B� ��/m�Bt�L�0��7�4�t 7�7��7��$��f��ā��U 7a��A�GVp��>�?�r�"e4D��CBi��@��B��D��4��8��$��$��~��\��E��8�5�-B��2�C��`��|�٘ـ�/bE�k}�R++}��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 391 / width of table in bytes NAXIS2 = 3 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 149 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'FODOTOBSNUM' / FoM Current Target Observation Num TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'FODOTMERIT' / FoM Current Target Merit TFORM3 = '1E ' / data format of field: 4-byte REAL TTYPE4 = 'FODOTOBSSECS' / FoM Current Target Secs Until View Constraint TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TUNIT4 = 's ' / physical unit of field TTYPE5 = 'FODOTPASTOBSS' / FoM Current Target Past Observed Secs TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TUNIT5 = 's ' / physical unit of field TTYPE6 = 'FODOTLASTOBST' / FoM Current Target Last Obs Time (in TIME40) TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TSCAL6 = 1 / data are not scaled TUNIT6 = 's ' / physical unit of field TTYPE7 = 'FODOTTARGRA' / FoM Current Target Rt Ascension TFORM7 = '1E ' / data format of field: 4-byte REAL TUNIT7 = 'deg ' / physical unit of field TTYPE8 = 'FODOTTARGDEC' / FoM Current Target Declination TFORM8 = '1E ' / data format of field: 4-byte REAL TUNIT8 = 'deg ' / physical unit of field TTYPE9 = 'FODOTTARGROLL' / FoM Current Target Target Roll TFORM9 = '1E ' / data format of field: 4-byte REAL TUNIT9 = 'deg ' / physical unit of field TTYPE10 = 'FODPPTOBSNUM' / Current Fom PPT Observation Num TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'FODPPTMERIT' / Current Fom PPT Merit TFORM11 = '1E ' / data format of field: 4-byte REAL TTYPE12 = 'FODPPTWAITSECS' / Current Fom PPT Secs Until in View TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TUNIT12 = 's ' / physical unit of field TTYPE13 = 'FODPPTOBSSECS' / Current Fom PPT Secs Until View Constraint TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TUNIT13 = 's ' / physical unit of field TTYPE14 = 'FODPPTREQOBSS' / Current Fom PPT Secs Planned to be Observed TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TUNIT14 = 's ' / physical unit of field TTYPE15 = 'FODPPTTARGRA' / Current Fom PPT Target New Target Rt Ascension TFORM15 = '1E ' / data format of field: 4-byte REAL TUNIT15 = 'deg ' / physical unit of field TTYPE16 = 'FODPPTTARGDEC' / Current Fom PPT Target New Target Declination TFORM16 = '1E ' / data format of field: 4-byte REAL TUNIT16 = 'deg ' / physical unit of field TTYPE17 = 'FODPPTTARGROLL' / Current Fom PPT Target New Target Roll TFORM17 = '1E ' / data format of field: 4-byte REAL TUNIT17 = 'deg ' / physical unit of field TTYPE18 = 'FODPPTPASTOBSS' / Current Fom PPT Target Past Observed Secs TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TUNIT18 = 's ' / physical unit of field TTYPE19 = 'FODPPTLASTOBST' / Current Fom PPT Target Last Obs Time (in TIME40TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TSCAL19 = 1 / data are not scaled TUNIT19 = 's ' / physical unit of field TTYPE20 = 'FODATOBSNUM' / Current Fom AT Observation Num TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'FODATMERIT' / Current Fom AT Merit TFORM21 = '1E ' / data format of field: 4-byte REAL TTYPE22 = 'FODATWAITSECS' / Current Fom AT Secs Until in View TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TUNIT22 = 's ' / physical unit of field TTYPE23 = 'FODATOBSSECS' / Current Fom AT Secs Until View Constraint TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TUNIT23 = 's ' / physical unit of field TTYPE24 = 'FODATTARGRA' / Current Fom AT Target New Target Rt Ascension TFORM24 = '1E ' / data format of field: 4-byte REAL TUNIT24 = 'deg ' / physical unit of field TTYPE25 = 'FODATTARGDEC' / Current Fom AT Target New Target Declination TFORM25 = '1E ' / data format of field: 4-byte REAL TUNIT25 = 'deg ' / physical unit of field TTYPE26 = 'FODATTARGROLL' / Current Fom AT Target New Target Roll TFORM26 = '1E ' / data format of field: 4-byte REAL TUNIT26 = 'deg ' / physical unit of field TTYPE27 = 'FODATPASTOBSS' / Current Fom AT Target Past Observed Secs TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TUNIT27 = 's ' / physical unit of field TTYPE28 = 'FODATLASTOBST' / Current Fom AT Target Last Obs Time (in TIME40)TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TSCAL28 = 1 / data are not scaled TUNIT28 = 's ' / physical unit of field TTYPE29 = 'FODATREQOBSNUM' / Last AT request Observation Num TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'FODATREQMERIT' / Last AT request Merit TFORM30 = '1E ' / data format of field: 4-byte REAL TTYPE31 = 'FODATREQRA' / Last AT request Target Rt Ascension TFORM31 = '1E ' / data format of field: 4-byte REAL TUNIT31 = 'deg ' / physical unit of field TTYPE32 = 'FODATREQDEC' / Last AT request Target Declination TFORM32 = '1E ' / data format of field: 4-byte REAL TUNIT32 = 'deg ' / physical unit of field TTYPE33 = 'FODATREQROLL' / Last AT request Target Roll TFORM33 = '1E ' / data format of field: 4-byte REAL TUNIT33 = 'deg ' / physical unit of field TTYPE34 = 'FODATREQPOBSS' / Last AT request Target Past Observed Secs TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TUNIT34 = 's ' / physical unit of field TTYPE35 = 'FODATREQLOBST' / Last AT request Target Last Obs Time (in TIME40TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TSCAL35 = 1 / data are not scaled TUNIT35 = 's ' / physical unit of field TTYPE36 = 'FODLASTSROBNUM' / Last Slew Request Obs Num TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'FODLASTSRRA' / Last Slew Request Target Rt Ascension TFORM37 = '1E ' / data format of field: 4-byte REAL TUNIT37 = 'deg ' / physical unit of field TTYPE38 = 'FODLASTSRDEC' / Last Slew Request Target Declination TFORM38 = '1E ' / data format of field: 4-byte REAL TUNIT38 = 'deg ' / physical unit of field TTYPE39 = 'FODLASTSRROLL' / Last Slew Request Target Roll TFORM39 = '1E ' / data format of field: 4-byte REAL TUNIT39 = 'deg ' / physical unit of field TTYPE40 = 'FODLASTSIOBNUM' / Last Slew Inquiry Obs Num TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'FODLASTSIRA' / Last Slew Inquiry Target Rt Ascension TFORM41 = '1E ' / data format of field: 4-byte REAL TUNIT41 = 'deg ' / physical unit of field TTYPE42 = 'FODLASTSIDEC' / Last Slew Inquiry Target Declination TFORM42 = '1E ' / data format of field: 4-byte REAL TUNIT42 = 'deg ' / physical unit of field TTYPE43 = 'FODLASTSIROLL' / Last Slew Inquiry Target Roll TFORM43 = '1E ' / data format of field: 4-byte REAL TUNIT43 = 'deg ' / physical unit of field TTYPE44 = 'FODLASTSRRONUM' / Last Slew Request Reply Obs Num TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'FODLASTSRRRA' / Last Slew Request Reply Target Rt Ascension TFORM45 = '1E ' / data format of field: 4-byte REAL TUNIT45 = 'deg ' / physical unit of field TTYPE46 = 'FODLASTSRRDEC' / Last Slew Request Reply Target Declination TFORM46 = '1E ' / data format of field: 4-byte REAL TUNIT46 = 'deg ' / physical unit of field TTYPE47 = 'FODLASTSRRROLL' / Last Slew Request Reply Target Roll TFORM47 = '1E ' / data format of field: 4-byte REAL TUNIT47 = 'deg ' / physical unit of field TTYPE48 = 'FODLASTSRROBSS' / Last Slew Request Reply Secs Until View ConstraTFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TUNIT48 = 's ' / physical unit of field TTYPE49 = 'FODLASTSRRWAITS' / Last Slew Request Reply Secs Until in View TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TUNIT49 = 's ' / physical unit of field TTYPE50 = 'FODLASTSIRONUM' / Last Slew Request Reply Obs Num TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'FODLASTSIRRA' / Last Slew Info Reply Target Rt Ascension TFORM51 = '1E ' / data format of field: 4-byte REAL TUNIT51 = 'deg ' / physical unit of field TTYPE52 = 'FODLASTSIRDEC' / Last Slew Info Reply Target Declination TFORM52 = '1E ' / data format of field: 4-byte REAL TUNIT52 = 'deg ' / physical unit of field TTYPE53 = 'FODLASTSIRROLL' / Last Slew Info Reply Target Roll TFORM53 = '1E ' / data format of field: 4-byte REAL TUNIT53 = 'deg ' / physical unit of field TTYPE54 = 'FODLASTSIROBSS' / Last Slew Info Reply Secs Until View ConstraintTFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TUNIT54 = 's ' / physical unit of field TTYPE55 = 'FODLASTSIRWAITS' / Last Slew Info Reply Secs Until in View TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TUNIT55 = 's ' / physical unit of field TTYPE56 = 'FODAIOBSNUM' / ACS Info Pkt Target Obs Num TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'FODAIRA ' / ACS Info Pkt Target Rt Ascension TFORM57 = '1E ' / data format of field: 4-byte REAL TUNIT57 = 'deg ' / physical unit of field TTYPE58 = 'FODAIDEC' / ACS Info Pkt Target Declination TFORM58 = '1E ' / data format of field: 4-byte REAL TUNIT58 = 'deg ' / physical unit of field TTYPE59 = 'FODAIROLL' / ACS Info Pkt Target Roll TFORM59 = '1E ' / data format of field: 4-byte REAL TUNIT59 = 'deg ' / physical unit of field TTYPE60 = 'FODGRBMAXTLIMIT' / GRB Max Observing Time Limit (in Secs) TFORM60 = '1J ' / data format of field: 4-byte INTEGER TZERO60 = 2147483648 / offset for unsigned integers TUNIT60 = 's ' / physical unit of field TTYPE61 = 'FODTOOMAXTLIMIT' / TOO Max Observing Time Limit (in Secs) TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TUNIT61 = 's ' / physical unit of field TTYPE62 = 'FODGRBBATMODE' / Stored BAT Mode Value for GRBs TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'FODGRBXRTMODE' / Stored XRT Mode Value for GRBs TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'FODGRBUVOTMODE' / Stored UVOT Mode Value for GRBs TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'FODPPTBATMODE' / Fom PPT BAT Mode Value TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'FODPPTXRTMODE' / Fom PPT XRT Mode Value TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'FODPPTUVOTMODE' / Fom PPT UVOT Mode Value TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'FODATBATMODE' / Fom AT BAT Mode Value TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'FODATXRTMODE' / Fom AT XRT Mode Value TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'FODATUVOTMODE' / Fom AT UVOT Mode Value TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'FODATREQBMODE' / Last AT Request BAT Mode Value TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'FODATREQXMODE' / Last AT Request XRT Mode Value TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'FODATREQUMODE' / Last AT Request UVOT Mode Value TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'FODOTBMODE' / Fom Curr Targ BAT Mode Value TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'FODOTXMODE' / Fom Curr Targ XRT Mode Value TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'FODOTUMODE' / Fom Curr Targ UVOT Mode Value TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 32768 / offset for unsigned integers TTYPE77 = 'FODOTISABORTED' / Fom Curr Targ Is Aborted TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'FODUPDASSNEED' / Fom Target Update Assessment Needed Flag TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'FODSLEWINQSTAT' / Fom Slew Inquiry Status Flag TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'FODSLEWREQSTAT' / Fom Slew Request Status Flag TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'FODSLEWMODSTAT' / Fom Slew Mode Enable Status TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'FODATMODESTAT' / Fom AT Mode Enable Status TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'FODPPTMODESTAT' / Fom PPT Mode Enable Status TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'FODATTARGSTAT' / Fom AT Target Availability 0None 1Unk 2InView 3TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'FODPPTTARGSTAT' / Fom PPT Target Availability 0None 1Unk 2InView TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'FODLASTSRATSLW' / Last FoM Slew Request IsNewAtSlew flag TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'FODLASTSIATSLW' / Last FoM Slew Inquiry IsNewAtSlew flag TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'FODLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'FODLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'FODACSSETTLED' / ACS Info Is Settled Flag TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'FODACSIN10AMIN' / ACS Info Within 10 Arc Min Flag TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'FODACSINSAA' / ACS Info In SAA Flag TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'FODACSSAFEMODE' / ACS Info In Safe Mode Flag TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'FODAISLEWSTATE' / ACS Info Slew State TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'FODOTTARGTYPE' / Fom Current Target Type (0GRB 1TOO 2PPT 3Unk) TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'FODATTARGTYPE' / Fom AT Target Type (0GRB 1TOO 2PPT 3Unk) TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'FODATREQTYPE' / Last AT Request Target Type (0GRB 1TOO 2PPT 3UnTFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'FODPPTREQCNT' / FOM PPT Request Count TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'FODATUPDCNT' / FOM AT Update Count TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'FODGRBREQCNT' / GRB Request Count TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'FODTOOREQCNT' / TOO Request Count TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'FODCTUPDCNT' / Fom Observed Target UpdateCount TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'FODSLEWREQCNT' / Fom Slew Request Sent Count TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'FODSLEWINQCNT' / Fom Slew Inquiry Sent Count TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'FODSRREPLYCNT' / Fom Slew Reply Received Count TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'FODSIREPLYCNT' / Fom Slew Info Reply Received Count TFORM106= '1B ' / data format of field: BYTE TTYPE107= 'FODEVTCNT' / Fom Error Event Count TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'FODATBMERIT0' / Fom AT BAT Merit Value 0 TFORM108= '1I ' / data format of field: 2-byte INTEGER TTYPE109= 'FODATBMERIT1' / Fom AT BAT Merit Value 1 TFORM109= '1I ' / data format of field: 2-byte INTEGER TTYPE110= 'FODATBMERIT2' / Fom AT BAT Merit Value 2 TFORM110= '1I ' / data format of field: 2-byte INTEGER TTYPE111= 'FODATBMERIT3' / Fom AT BAT Merit Value 3 TFORM111= '1I ' / data format of field: 2-byte INTEGER TTYPE112= 'FODATBMERIT4' / Fom AT BAT Merit Value 4 TFORM112= '1I ' / data format of field: 2-byte INTEGER TTYPE113= 'FODATBMERIT5' / Fom AT BAT Merit Value 5 TFORM113= '1I ' / data format of field: 2-byte INTEGER TTYPE114= 'FODATBMERIT6' / Fom AT BAT Merit Value 6 TFORM114= '1I ' / data format of field: 2-byte INTEGER TTYPE115= 'FODATBMERIT7' / Fom AT BAT Merit Value 7 TFORM115= '1I ' / data format of field: 2-byte INTEGER TTYPE116= 'FODATBMERIT8' / Fom AT BAT Merit Value 8 TFORM116= '1I ' / data format of field: 2-byte INTEGER TTYPE117= 'FODATBMERIT9' / Fom AT BAT Merit Value 9 TFORM117= '1I ' / data format of field: 2-byte INTEGER TTYPE118= 'FODATXMERIT0' / Fom AT XRT Merit Value 0 TFORM118= '1I ' / data format of field: 2-byte INTEGER TTYPE119= 'FODATXMERIT1' / Fom AT XRT Merit Value 1 TFORM119= '1I ' / data format of field: 2-byte INTEGER TTYPE120= 'FODATXMERIT2' / Fom AT XRT Merit Value 2 TFORM120= '1I ' / data format of field: 2-byte INTEGER TTYPE121= 'FODATXMERIT3' / Fom AT XRT Merit Value 3 TFORM121= '1I ' / data format of field: 2-byte INTEGER TTYPE122= 'FODATXMERIT4' / Fom AT XRT Merit Value 4 TFORM122= '1I ' / data format of field: 2-byte INTEGER TTYPE123= 'FODATXMERIT5' / Fom AT XRT Merit Value 5 TFORM123= '1I ' / data format of field: 2-byte INTEGER TTYPE124= 'FODATXMERIT6' / Fom AT XRT Merit Value 6 TFORM124= '1I ' / data format of field: 2-byte INTEGER TTYPE125= 'FODATXMERIT7' / Fom AT XRT Merit Value 7 TFORM125= '1I ' / data format of field: 2-byte INTEGER TTYPE126= 'FODATXMERIT8' / Fom AT XRT Merit Value 8 TFORM126= '1I ' / data format of field: 2-byte INTEGER TTYPE127= 'FODATXMERIT9' / Fom AT XRT Merit Value 9 TFORM127= '1I ' / data format of field: 2-byte INTEGER TTYPE128= 'FODATUMERIT0' / Fom AT UVOT Merit Value 0 TFORM128= '1I ' / data format of field: 2-byte INTEGER TTYPE129= 'FODATUMERIT1' / Fom AT UVOT Merit Value 1 TFORM129= '1I ' / data format of field: 2-byte INTEGER TTYPE130= 'FODATUMERIT2' / Fom AT UVOT Merit Value 2 TFORM130= '1I ' / data format of field: 2-byte INTEGER TTYPE131= 'FODATUMERIT3' / Fom AT UVOT Merit Value 3 TFORM131= '1I ' / data format of field: 2-byte INTEGER TTYPE132= 'FODATUMERIT4' / Fom AT UVOT Merit Value 4 TFORM132= '1I ' / data format of field: 2-byte INTEGER TTYPE133= 'FODATUMERIT5' / Fom AT UVOT Merit Value 5 TFORM133= '1I ' / data format of field: 2-byte INTEGER TTYPE134= 'FODATUMERIT6' / Fom AT UVOT Merit Value 6 TFORM134= '1I ' / data format of field: 2-byte INTEGER TTYPE135= 'FODATUMERIT7' / Fom AT UVOT Merit Value 7 TFORM135= '1I ' / data format of field: 2-byte INTEGER TTYPE136= 'FODATUMERIT8' / Fom AT UVOT Merit Value 8 TFORM136= '1I ' / data format of field: 2-byte INTEGER TTYPE137= 'FODATUMERIT9' / Fom AT UVOT Merit Value 9 TFORM137= '1I ' / data format of field: 2-byte INTEGER TTYPE138= 'FODATREQMERIT0' / Last AT Request Merit Value 0 TFORM138= '1I ' / data format of field: 2-byte INTEGER TTYPE139= 'FODATREQMERIT1' / Last AT Request Merit Value 1 TFORM139= '1I ' / data format of field: 2-byte INTEGER TTYPE140= 'FODATREQMERIT2' / Last AT Request Merit Value 2 TFORM140= '1I ' / data format of field: 2-byte INTEGER TTYPE141= 'FODATREQMERIT3' / Last AT Request Merit Value 3 TFORM141= '1I ' / data format of field: 2-byte INTEGER TTYPE142= 'FODATREQMERIT4' / Last AT Request Merit Value 4 TFORM142= '1I ' / data format of field: 2-byte INTEGER TTYPE143= 'FODATREQMERIT5' / Last AT Request Merit Value 5 TFORM143= '1I ' / data format of field: 2-byte INTEGER TTYPE144= 'FODATREQMERIT6' / Last AT Request Merit Value 6 TFORM144= '1I ' / data format of field: 2-byte INTEGER TTYPE145= 'FODATREQMERIT7' / Last AT Request Merit Value 7 TFORM145= '1I ' / data format of field: 2-byte INTEGER TTYPE146= 'FODATREQMERIT8' / Last AT Request Merit Value 8 TFORM146= '1I ' / data format of field: 2-byte INTEGER TTYPE147= 'FODATREQMERIT9' / Last AT Request Merit Value 9 TFORM147= '1I ' / data format of field: 2-byte INTEGER TTYPE148= 'FODINSTCMDCNT' / FoM Inst Cmd Accept count TFORM148= '1B ' / data format of field: BYTE TTYPE149= 'FODINSTCMDREJ' / FoM Inst Cmd Reject count TFORM149= '1B ' / data format of field: BYTE EXTNAME = 'hk1e2x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329809.57262 TSTOP = 613330945.87262 DATE-OBS= '2020-06-08T17:23:24' DATE-END= '2020-06-08T17:42:20' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804400000000 / [s] UTCF at TSTART TELAPSE = 1136.29999995232 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 482 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '34dNA2ZL52dLA2ZL' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '3773246719' / data unit checksum updated 2020-06-18T16:20:49 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: sw00976692000b1e2x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:52 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GU��K��CB��o��C�G��C!��CB��n�OC�G��C!��4�B�C�}�^?�B��0��CC�G��C!��4�?�iYA��B��CC�G��C!��o��4�?�iYA��B��.��CC��N��V8�A�GU&��A�GU' �A�GU'w�A�GU@P*�A�GU@a�;A�GUB�tA�GUC.�FA�GUC��A�GU`VNA�GU`f�A�GUb��A�GUc3ySA�GUc:lA�GUc=��A�GUe�t�A�GU�Xe�A�GU�i�QA�GU��tA�GU�7%�A�GU��hA�GU��k�A�GU�)f{A�GU�o�SA�GU�sU�A�GU��*0A�GU��A�GU�`�BA�GU�rD�A�GU��A�GU�>�VA�GU��A�GU��A�GU��A�GU�оA�GU�=��A�GU��lA�GVNMA�GV^�A�GV��PA�GV W<A�GV hY�A�GV"�0�A�GV@Y�A�GV@j}�A�GVB�i�A�GVP �*A�GVP�A�GVR��!A�GVpX�;A�GVpj\>A�GVr�/0A�GV�cJA�GV�s��A�GV��|A�GV�J�mA�GV��A�GV��5�A�GV�P�A�GV��A�GW\W��A�GW\i�A�GW^��VA�GW_L_[A�GW|\� A�GW|n��A�GW~�\A�GWMA�GW��>A�GW�`�BA�GW�qg�A�GW��:�A�GW�_�A�GW�p�A�GW��V�A�GW�b�A�GW��A�GW�Zq�A�GW�l�A�GW��A�GW�*b$A�GW�;A�GW��զA�GW��SA�GX(�A�GX�NA�GX ��IA�GX!3�A�GX!72�A�GX#��A�GX'-�:A�GX'1v�A�GX)�JwA�GX*��SA�GX*��A�GX- h A�GX-��DA�GX-�o~A�GX0IA�A�GX1"�A�GX1%��A�GX3�l7A�GX>Z�NA�GX>^FJA�GX@��A�GXBRCWA�GXBU�xA�GXD��aA�GXF�A�GXF�8A�GXIu-�A�GX\�xA�GX\��A�GX_ :�A�GX_'�A�GX_*�A�GXa�b�A�GXbzQA�GXb}�A�GXe�aA�GXfm�6A�GXfq:�A�GXh�-�A�GXk�A�GXk�A�GXm��A�GXt�=A�GXt|�A�GXv�a�A�GX~<1A�GX~?�A�GX�ŒA�GX�[9A�GX�_�A�GX��\A�GX��A�GX��A�GX�-��A�GX�h �A�GX�eDA�GX�h�pA�GX��A�GX��i�A�GX��A�GX�p�pA�GX�ʽ�u�A�GT�Ap�n��}r��QP'��z�}H��;��瀁@��,� [0�nP�nP� [0� [0� [0�nP� [0�nP��mpQ�z��ճ�� A�GT�+V>�u�A�GT�Ap�n��r��V�Qy$��z�~ؽ�y��瀁D�� [��nP�nP� [�� [�� [��nP� [��nP��m�Q�z��չ�� A�GU.�>�u�A�GUAp�n��r��Q�=��z��h�� 瀁H��<� \�nP�nP� \� \� \�nP� \�nP��m�Q�z�� A�GU [->�u�A�GU Ap�n��r��Qˀ��z��"v瀁L�� \`�nP�nP� \`� \`� \`�nP� \`�nP��m�Q�z�� A�GU@��>�u�A�GU@Ap�n��r�q�Q��z�� 5�$j瀁P�� \��nP�nP� \�� \�� \��nP� \��nP��m�Q�z�� A�GU`X�>�u�A�GU`Ap�n��s0߇R��z�� s��&^瀁T��漀 ]@�n`�n`� ]@� ]@� ]@�n`� ]@�n`��nQ�z�� A�GU��v>�u�A�GU�Ap�n��s �އRCl��z�� %�(R瀁X��윀 ]��n`�n`� ]�� ]�� ]��n`� ]��n`��n=Q�z�� A�GU�̸>�u�A�GU�Ap�n��s��Rj��z��8�� *F瀁\��̀ ^�n`�n`� ^� ^� ^�n`� ^�n`��n^Q�z�� A�GU��8��CA�GU�Ap�n��si��R�Ѐ�z��Ƚ�/%�,:��`�� ^p�n`�n`� ^p� ^p� ^p�n`� ^p�n`��n}S�z�� A�GU�ջ8��CA�GU�Ap�n��s!)r�R� ��z��X��m��..��d�� ^Ѐn`�n`� ^Ѐ ^Ѐ ^Ѐn`� ^Ѐn`��n�U�z�� A�GV `8��CA�GVAp�n�o�s(��R⮀�z��轈�?�0"��h��L� _P�np�np� _P� _P� _P�np� _P�np��n�U�z�� A�GV &8��CA�GV Ap�n�o�s0�_�S?��z��x��꿿2��l��,� _��np�np� _�� _�� _��np� _��np��n�U�z�� A�GV@��8��CA�GV@Ap�n�o�s8�#�S67��z��)?�4 ��p��\� ` �np�np� ` � ` � ` �np� ` �np��oU�z�� A�GV`I�8��CA�GV`Ap�n�o�s@�5�Sa5��z��g��5��t��<� `��np�np� `�� `�� `��np� `��np��o+U�z��)�� A�GV�N�8��CA�GV�Ap�n�o�sH�4�S��z��(��?�7��x�� `��np�np� `�� `�� `��np� `��np��oKW�z��6�� A�GV��D8��CA�GV�Ap�n�Z�sP�҇S�܀�z��̈�߿9��|��#܀ a`�n��n�� a`� a`� a`�n�� a`�n��ozW�z��D�� A�GV� ZG8��CA�GV�Ap�n�Z�sX��S��z��Ḧ#_�;��)�� a��n��n�� a�� a�� a��n�� a��n��o�W�z��P�� A�GV��8��CA�GV�Ap�n�Z�sao�T ��z��̈a߿=��/� b0�n��n�� b0� b0� b0�n�� b0�n��o�W�z��#��]�� A�GW b�8��CA�GWAp�n�Z�si5��T>)��z��ḧ�_�?��5̀ b��n��n�� b�� b�� b��n�� b��n��o�W�z��)��j�� A�GW ��8��CA�GW Ap�n�Z�sq}ȇTmX��z��̈��A��<<� c�n��n�� c� c� c�n�� c�n��pW�z��0��x�� A�GW@a�8��CA�GW@Ap�n�E�sy��T�À�z��̈��C��Bl� cp�n��n�� cp� cp� cp�n�� cp�n��p(W�z��7�� A�GW`3�8��CA�GW`Ap�n�E�s��T�0��z��̈\�E��HL� cЀn��n�� cЀ cЀ cЀn�� cЀn��pGW�z��=�� A�GW�v�8��CA�GW�Ap�n�E�s�_Y�T��z��̈��G��N|� d@�n��n�� d@� d@� d@�n�� d@�n��phW�z��D�� A�GW� ]�8��CA�GW�Ap�n�E�s��a�U+��z��8̈��I��T\� d��n��n�� d�� d�� d��n�� d��n��p�Y�z��J�� A�GW�0�8��CA�GW�Ap�n�E�s� �U[��z��̈��K{��Z̀ e�n��n�� e� e� e�n�� e�n��p�Y�z��Q�� A�GW��8��CA�GW�Ap�n�0�s�_E�U�P��z��ẌV&�Mo��`�� e��n��n�� e�� e�� e��n�� e��n��p�Y�z��X�� A�GX `��/m�A�GXAp�n�0�s�ǝ�U��z��̈��Oc��f܀ e��n��n�� e�� e�� e��n�� e��n��p�Y�z��^�� A�GX � �/m�A�GX Ap�n�0�s�> �U펀�z��ẍ�\�QW��m� fP�n��n�� fP� fP� fP�n�� fP�n��qY�z��e�� A�GX@Y�/m�A�GX@Ap�n�0�s�ᲇV#��z��̈+�SK��r� f��n��n�� f�� f�� f��n�� f��n��q5Y�z��k�� A�GX`l��/m�A�GX`Ap�n��sȜA�VWU��z��̈T�U?��y\� g �n��n�� g � g � g �n�� g �n��qcY�z��r�� A�GX� )��/m�A�GX�Ap�n��sѤS�V��z��(̈�ݿW3�� g��n��n�� g�� g�� g��n�� g��n��q�]�z��y�� A�GX�R*�/m�A�GX�Ap�n��s�0�V�h��z��̈�e�Y'��ƅl� g��n��n�� g�� g�� g��n�� g��n��q�a�z�� A�GX� 0�/m�A�GX�Ap�n��s��V�a��z��Hۈ�[��Ƌ�� h`�n��n�� h`� h`� h`�n�� h`�n��q�a�z��ֆ�� XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 552 / width of table in bytes NAXIS2 = 53 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 545 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDIXVBV00' / BCDH Cmd Verifies counter TFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BDIXVBV01' / BCDH Cmd Verifies counter TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BDIXVBV02' / BCDH Cmd Verifies counter TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BDIXVBV03' / BCDH Cmd Verifies counter TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BDIXVBV04' / BCDH Cmd Verifies counter TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BDIXVBV05' / BCDH Cmd Verifies counter TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BDIXVBV06' / BCDH Cmd Verifies counter TFORM8 = '1B ' / data format of field: BYTE TTYPE9 = 'BDIXVBV07' / BCDH Cmd Verifies counter TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BDIXVBV08' / BCDH Cmd Verifies counter TFORM10 = '1B ' / data format of field: BYTE TTYPE11 = 'BDIXVBV09' / BCDH Cmd Verifies counter TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BDIXVBV10' / BCDH Cmd Verifies counter TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BDIXVBV11' / BCDH Cmd Verifies counter TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BDIXVBV12' / BCDH Cmd Verifies counter TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BDIXVBV13' / BCDH Cmd Verifies counter TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BDIXVBV14' / BCDH Cmd Verifies counter TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDIXVBV15' / BCDH Cmd Verifies counter TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDIXVBX00' / BCDH Cmd Exceptions counter TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDIXVBX01' / BCDH Cmd Exceptions counter TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDIXVBX02' / BCDH Cmd Exceptions counter TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDIXVBX03' / BCDH Cmd Exceptions counter TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDIXVBX04' / BCDH Cmd Exceptions counter TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDIXVBX05' / BCDH Cmd Exceptions counter TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDIXVBX06' / BCDH Cmd Exceptions counter TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDIXVBX07' / BCDH Cmd Exceptions counter TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BDIXVBX08' / BCDH Cmd Exceptions counter TFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BDIXVBX09' / BCDH Cmd Exceptions counter TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BDIXVBX10' / BCDH Cmd Exceptions counter TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDIXVBX11' / BCDH Cmd Exceptions counter TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDIXVBX12' / BCDH Cmd Exceptions counter TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BDIXVBX13' / BCDH Cmd Exceptions counter TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BDIXVBX14' / BCDH Cmd Exceptions counter TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BDIXVBX15' / BCDH Cmd Exceptions counter TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BDIXVDV00_00' / DM Cmd Verifies counter TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BDIXVDV00_01' / DM Cmd Verifies counter TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BDIXVDV00_02' / DM Cmd Verifies counter TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDIXVDV00_03' / DM Cmd Verifies counter TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BDIXVDV00_04' / DM Cmd Verifies counter TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BDIXVDV00_05' / DM Cmd Verifies counter TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BDIXVDV00_06' / DM Cmd Verifies counter TFORM40 = '1B ' / data format of field: BYTE TTYPE41 = 'BDIXVDV00_07' / DM Cmd Verifies counter TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BDIXVDV00_08' / DM Cmd Verifies counter TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BDIXVDV00_09' / DM Cmd Verifies counter TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BDIXVDV00_10' / DM Cmd Verifies counter TFORM44 = '1B ' / data format of field: BYTE TTYPE45 = 'BDIXVDV00_11' / DM Cmd Verifies counter TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BDIXVDV00_12' / DM Cmd Verifies counter TFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BDIXVDV00_13' / DM Cmd Verifies counter TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BDIXVDV00_14' / DM Cmd Verifies counter TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BDIXVDV00_15' / DM Cmd Verifies counter TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BDIXVDV01_00' / DM Cmd Verifies counter TFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BDIXVDV01_01' / DM Cmd Verifies counter TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BDIXVDV01_02' / DM Cmd Verifies counter TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BDIXVDV01_03' / DM Cmd Verifies counter TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BDIXVDV01_04' / DM Cmd Verifies counter TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BDIXVDV01_05' / DM Cmd Verifies counter TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BDIXVDV01_06' / DM Cmd Verifies counter TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'BDIXVDV01_07' / DM Cmd Verifies counter TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BDIXVDV01_08' / DM Cmd Verifies counter TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BDIXVDV01_09' / DM Cmd Verifies counter TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BDIXVDV01_10' / DM Cmd Verifies counter TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BDIXVDV01_11' / DM Cmd Verifies counter TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BDIXVDV01_12' / DM Cmd Verifies counter TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BDIXVDV01_13' / DM Cmd Verifies counter TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BDIXVDV01_14' / DM Cmd Verifies counter TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BDIXVDV01_15' / DM Cmd Verifies counter TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BDIXVDV02_00' / DM Cmd Verifies counter TFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'BDIXVDV02_01' / DM Cmd Verifies counter TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BDIXVDV02_02' / DM Cmd Verifies counter TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BDIXVDV02_03' / DM Cmd Verifies counter TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BDIXVDV02_04' / DM Cmd Verifies counter TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BDIXVDV02_05' / DM Cmd Verifies counter TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BDIXVDV02_06' / DM Cmd Verifies counter TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'BDIXVDV02_07' / DM Cmd Verifies counter TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BDIXVDV02_08' / DM Cmd Verifies counter TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BDIXVDV02_09' / DM Cmd Verifies counter TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BDIXVDV02_10' / DM Cmd Verifies counter TFORM76 = '1B ' / data format of field: BYTE TTYPE77 = 'BDIXVDV02_11' / DM Cmd Verifies counter TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BDIXVDV02_12' / DM Cmd Verifies counter TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'BDIXVDV02_13' / DM Cmd Verifies counter TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BDIXVDV02_14' / DM Cmd Verifies counter TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'BDIXVDV02_15' / DM Cmd Verifies counter TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BDIXVDV03_00' / DM Cmd Verifies counter TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BDIXVDV03_01' / DM Cmd Verifies counter TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BDIXVDV03_02' / DM Cmd Verifies counter TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BDIXVDV03_03' / DM Cmd Verifies counter TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BDIXVDV03_04' / DM Cmd Verifies counter TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BDIXVDV03_05' / DM Cmd Verifies counter TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BDIXVDV03_06' / DM Cmd Verifies counter TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'BDIXVDV03_07' / DM Cmd Verifies counter TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BDIXVDV03_08' / DM Cmd Verifies counter TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BDIXVDV03_09' / DM Cmd Verifies counter TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BDIXVDV03_10' / DM Cmd Verifies counter TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'BDIXVDV03_11' / DM Cmd Verifies counter TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BDIXVDV03_12' / DM Cmd Verifies counter TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BDIXVDV03_13' / DM Cmd Verifies counter TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BDIXVDV03_14' / DM Cmd Verifies counter TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'BDIXVDV03_15' / DM Cmd Verifies counter TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BDIXVDV04_00' / DM Cmd Verifies counter TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'BDIXVDV04_01' / DM Cmd Verifies counter TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BDIXVDV04_02' / DM Cmd Verifies counter TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'BDIXVDV04_03' / DM Cmd Verifies counter TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BDIXVDV04_04' / DM Cmd Verifies counter TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'BDIXVDV04_05' / DM Cmd Verifies counter TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BDIXVDV04_06' / DM Cmd Verifies counter TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BDIXVDV04_07' / DM Cmd Verifies counter TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BDIXVDV04_08' / DM Cmd Verifies counter TFORM106= '1B ' / data format of field: BYTE TTYPE107= 'BDIXVDV04_09' / DM Cmd Verifies counter TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BDIXVDV04_10' / DM Cmd Verifies counter TFORM108= '1B ' / data format of field: BYTE TTYPE109= 'BDIXVDV04_11' / DM Cmd Verifies counter TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BDIXVDV04_12' / DM Cmd Verifies counter TFORM110= '1B ' / data format of field: BYTE TTYPE111= 'BDIXVDV04_13' / DM Cmd Verifies counter TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BDIXVDV04_14' / DM Cmd Verifies counter TFORM112= '1B ' / data format of field: BYTE TTYPE113= 'BDIXVDV04_15' / DM Cmd Verifies counter TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BDIXVDV05_00' / DM Cmd Verifies counter TFORM114= '1B ' / data format of field: BYTE TTYPE115= 'BDIXVDV05_01' / DM Cmd Verifies counter TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BDIXVDV05_02' / DM Cmd Verifies counter TFORM116= '1B ' / data format of field: BYTE TTYPE117= 'BDIXVDV05_03' / DM Cmd Verifies counter TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BDIXVDV05_04' / DM Cmd Verifies counter TFORM118= '1B ' / data format of field: BYTE TTYPE119= 'BDIXVDV05_05' / DM Cmd Verifies counter TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BDIXVDV05_06' / DM Cmd Verifies counter TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BDIXVDV05_07' / DM Cmd Verifies counter TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BDIXVDV05_08' / DM Cmd Verifies counter TFORM122= '1B ' / data format of field: BYTE TTYPE123= 'BDIXVDV05_09' / DM Cmd Verifies counter TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BDIXVDV05_10' / DM Cmd Verifies counter TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'BDIXVDV05_11' / DM Cmd Verifies counter TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BDIXVDV05_12' / DM Cmd Verifies counter TFORM126= '1B ' / data format of field: BYTE TTYPE127= 'BDIXVDV05_13' / DM Cmd Verifies counter TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BDIXVDV05_14' / DM Cmd Verifies counter TFORM128= '1B ' / data format of field: BYTE TTYPE129= 'BDIXVDV05_15' / DM Cmd Verifies counter TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BDIXVDV06_00' / DM Cmd Verifies counter TFORM130= '1B ' / data format of field: BYTE TTYPE131= 'BDIXVDV06_01' / DM Cmd Verifies counter TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BDIXVDV06_02' / DM Cmd Verifies counter TFORM132= '1B ' / data format of field: BYTE TTYPE133= 'BDIXVDV06_03' / DM Cmd Verifies counter TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BDIXVDV06_04' / DM Cmd Verifies counter TFORM134= '1B ' / data format of field: BYTE TTYPE135= 'BDIXVDV06_05' / DM Cmd Verifies counter TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BDIXVDV06_06' / DM Cmd Verifies counter TFORM136= '1B ' / data format of field: BYTE TTYPE137= 'BDIXVDV06_07' / DM Cmd Verifies counter TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BDIXVDV06_08' / DM Cmd Verifies counter TFORM138= '1B ' / data format of field: BYTE TTYPE139= 'BDIXVDV06_09' / DM Cmd Verifies counter TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BDIXVDV06_10' / DM Cmd Verifies counter TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BDIXVDV06_11' / DM Cmd Verifies counter TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BDIXVDV06_12' / DM Cmd Verifies counter TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BDIXVDV06_13' / DM Cmd Verifies counter TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BDIXVDV06_14' / DM Cmd Verifies counter TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BDIXVDV06_15' / DM Cmd Verifies counter TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BDIXVDV07_00' / DM Cmd Verifies counter TFORM146= '1B ' / data format of field: BYTE TTYPE147= 'BDIXVDV07_01' / DM Cmd Verifies counter TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BDIXVDV07_02' / DM Cmd Verifies counter TFORM148= '1B ' / data format of field: BYTE TTYPE149= 'BDIXVDV07_03' / DM Cmd Verifies counter TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BDIXVDV07_04' / DM Cmd Verifies counter TFORM150= '1B ' / data format of field: BYTE TTYPE151= 'BDIXVDV07_05' / DM Cmd Verifies counter TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BDIXVDV07_06' / DM Cmd Verifies counter TFORM152= '1B ' / data format of field: BYTE TTYPE153= 'BDIXVDV07_07' / DM Cmd Verifies counter TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BDIXVDV07_08' / DM Cmd Verifies counter TFORM154= '1B ' / data format of field: BYTE TTYPE155= 'BDIXVDV07_09' / DM Cmd Verifies counter TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BDIXVDV07_10' / DM Cmd Verifies counter TFORM156= '1B ' / data format of field: BYTE TTYPE157= 'BDIXVDV07_11' / DM Cmd Verifies counter TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BDIXVDV07_12' / DM Cmd Verifies counter TFORM158= '1B ' / data format of field: BYTE TTYPE159= 'BDIXVDV07_13' / DM Cmd Verifies counter TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BDIXVDV07_14' / DM Cmd Verifies counter TFORM160= '1B ' / data format of field: BYTE TTYPE161= 'BDIXVDV07_15' / DM Cmd Verifies counter TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BDIXVDV08_00' / DM Cmd Verifies counter TFORM162= '1B ' / data format of field: BYTE TTYPE163= 'BDIXVDV08_01' / DM Cmd Verifies counter TFORM163= '1B ' / data format of field: BYTE TTYPE164= 'BDIXVDV08_02' / DM Cmd Verifies counter TFORM164= '1B ' / data format of field: BYTE TTYPE165= 'BDIXVDV08_03' / DM Cmd Verifies counter TFORM165= '1B ' / data format of field: BYTE TTYPE166= 'BDIXVDV08_04' / DM Cmd Verifies counter TFORM166= '1B ' / data format of field: BYTE TTYPE167= 'BDIXVDV08_05' / DM Cmd Verifies counter TFORM167= '1B ' / data format of field: BYTE TTYPE168= 'BDIXVDV08_06' / DM Cmd Verifies counter TFORM168= '1B ' / data format of field: BYTE TTYPE169= 'BDIXVDV08_07' / DM Cmd Verifies counter TFORM169= '1B ' / data format of field: BYTE TTYPE170= 'BDIXVDV08_08' / DM Cmd Verifies counter TFORM170= '1B ' / data format of field: BYTE TTYPE171= 'BDIXVDV08_09' / DM Cmd Verifies counter TFORM171= '1B ' / data format of field: BYTE TTYPE172= 'BDIXVDV08_10' / DM Cmd Verifies counter TFORM172= '1B ' / data format of field: BYTE TTYPE173= 'BDIXVDV08_11' / DM Cmd Verifies counter TFORM173= '1B ' / data format of field: BYTE TTYPE174= 'BDIXVDV08_12' / DM Cmd Verifies counter TFORM174= '1B ' / data format of field: BYTE TTYPE175= 'BDIXVDV08_13' / DM Cmd Verifies counter TFORM175= '1B ' / data format of field: BYTE TTYPE176= 'BDIXVDV08_14' / DM Cmd Verifies counter TFORM176= '1B ' / data format of field: BYTE TTYPE177= 'BDIXVDV08_15' / DM Cmd Verifies counter TFORM177= '1B ' / data format of field: BYTE TTYPE178= 'BDIXVDV09_00' / DM Cmd Verifies counter TFORM178= '1B ' / data format of field: BYTE TTYPE179= 'BDIXVDV09_01' / DM Cmd Verifies counter TFORM179= '1B ' / data format of field: BYTE TTYPE180= 'BDIXVDV09_02' / DM Cmd Verifies counter TFORM180= '1B ' / data format of field: BYTE TTYPE181= 'BDIXVDV09_03' / DM Cmd Verifies counter TFORM181= '1B ' / data format of field: BYTE TTYPE182= 'BDIXVDV09_04' / DM Cmd Verifies counter TFORM182= '1B ' / data format of field: BYTE TTYPE183= 'BDIXVDV09_05' / DM Cmd Verifies counter TFORM183= '1B ' / data format of field: BYTE TTYPE184= 'BDIXVDV09_06' / DM Cmd Verifies counter TFORM184= '1B ' / data format of field: BYTE TTYPE185= 'BDIXVDV09_07' / DM Cmd Verifies counter TFORM185= '1B ' / data format of field: BYTE TTYPE186= 'BDIXVDV09_08' / DM Cmd Verifies counter TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BDIXVDV09_09' / DM Cmd Verifies counter TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BDIXVDV09_10' / DM Cmd Verifies counter TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BDIXVDV09_11' / DM Cmd Verifies counter TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BDIXVDV09_12' / DM Cmd Verifies counter TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BDIXVDV09_13' / DM Cmd Verifies counter TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BDIXVDV09_14' / DM Cmd Verifies counter TFORM192= '1B ' / data format of field: BYTE TTYPE193= 'BDIXVDV09_15' / DM Cmd Verifies counter TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BDIXVDV10_00' / DM Cmd Verifies counter TFORM194= '1B ' / data format of field: BYTE TTYPE195= 'BDIXVDV10_01' / DM Cmd Verifies counter TFORM195= '1B ' / data format of field: BYTE TTYPE196= 'BDIXVDV10_02' / DM Cmd Verifies counter TFORM196= '1B ' / data format of field: BYTE TTYPE197= 'BDIXVDV10_03' / DM Cmd Verifies counter TFORM197= '1B ' / data format of field: BYTE TTYPE198= 'BDIXVDV10_04' / DM Cmd Verifies counter TFORM198= '1B ' / data format of field: BYTE TTYPE199= 'BDIXVDV10_05' / DM Cmd Verifies counter TFORM199= '1B ' / data format of field: BYTE TTYPE200= 'BDIXVDV10_06' / DM Cmd Verifies counter TFORM200= '1B ' / data format of field: BYTE TTYPE201= 'BDIXVDV10_07' / DM Cmd Verifies counter TFORM201= '1B ' / data format of field: BYTE TTYPE202= 'BDIXVDV10_08' / DM Cmd Verifies counter TFORM202= '1B ' / data format of field: BYTE TTYPE203= 'BDIXVDV10_09' / DM Cmd Verifies counter TFORM203= '1B ' / data format of field: BYTE TTYPE204= 'BDIXVDV10_10' / DM Cmd Verifies counter TFORM204= '1B ' / data format of field: BYTE TTYPE205= 'BDIXVDV10_11' / DM Cmd Verifies counter TFORM205= '1B ' / data format of field: BYTE TTYPE206= 'BDIXVDV10_12' / DM Cmd Verifies counter TFORM206= '1B ' / data format of field: BYTE TTYPE207= 'BDIXVDV10_13' / DM Cmd Verifies counter TFORM207= '1B ' / data format of field: BYTE TTYPE208= 'BDIXVDV10_14' / DM Cmd Verifies counter TFORM208= '1B ' / data format of field: BYTE TTYPE209= 'BDIXVDV10_15' / DM Cmd Verifies counter TFORM209= '1B ' / data format of field: BYTE TTYPE210= 'BDIXVDV11_00' / DM Cmd Verifies counter TFORM210= '1B ' / data format of field: BYTE TTYPE211= 'BDIXVDV11_01' / DM Cmd Verifies counter TFORM211= '1B ' / data format of field: BYTE TTYPE212= 'BDIXVDV11_02' / DM Cmd Verifies counter TFORM212= '1B ' / data format of field: BYTE TTYPE213= 'BDIXVDV11_03' / DM Cmd Verifies counter TFORM213= '1B ' / data format of field: BYTE TTYPE214= 'BDIXVDV11_04' / DM Cmd Verifies counter TFORM214= '1B ' / data format of field: BYTE TTYPE215= 'BDIXVDV11_05' / DM Cmd Verifies counter TFORM215= '1B ' / data format of field: BYTE TTYPE216= 'BDIXVDV11_06' / DM Cmd Verifies counter TFORM216= '1B ' / data format of field: BYTE TTYPE217= 'BDIXVDV11_07' / DM Cmd Verifies counter TFORM217= '1B ' / data format of field: BYTE TTYPE218= 'BDIXVDV11_08' / DM Cmd Verifies counter TFORM218= '1B ' / data format of field: BYTE TTYPE219= 'BDIXVDV11_09' / DM Cmd Verifies counter TFORM219= '1B ' / data format of field: BYTE TTYPE220= 'BDIXVDV11_10' / DM Cmd Verifies counter TFORM220= '1B ' / data format of field: BYTE TTYPE221= 'BDIXVDV11_11' / DM Cmd Verifies counter TFORM221= '1B ' / data format of field: BYTE TTYPE222= 'BDIXVDV11_12' / DM Cmd Verifies counter TFORM222= '1B ' / data format of field: BYTE TTYPE223= 'BDIXVDV11_13' / DM Cmd Verifies counter TFORM223= '1B ' / data format of field: BYTE TTYPE224= 'BDIXVDV11_14' / DM Cmd Verifies counter TFORM224= '1B ' / data format of field: BYTE TTYPE225= 'BDIXVDV11_15' / DM Cmd Verifies counter TFORM225= '1B ' / data format of field: BYTE TTYPE226= 'BDIXVDV12_00' / DM Cmd Verifies counter TFORM226= '1B ' / data format of field: BYTE TTYPE227= 'BDIXVDV12_01' / DM Cmd Verifies counter TFORM227= '1B ' / data format of field: BYTE TTYPE228= 'BDIXVDV12_02' / DM Cmd Verifies counter TFORM228= '1B ' / data format of field: BYTE TTYPE229= 'BDIXVDV12_03' / DM Cmd Verifies counter TFORM229= '1B ' / data format of field: BYTE TTYPE230= 'BDIXVDV12_04' / DM Cmd Verifies counter TFORM230= '1B ' / data format of field: BYTE TTYPE231= 'BDIXVDV12_05' / DM Cmd Verifies counter TFORM231= '1B ' / data format of field: BYTE TTYPE232= 'BDIXVDV12_06' / DM Cmd Verifies counter TFORM232= '1B ' / data format of field: BYTE TTYPE233= 'BDIXVDV12_07' / DM Cmd Verifies counter TFORM233= '1B ' / data format of field: BYTE TTYPE234= 'BDIXVDV12_08' / DM Cmd Verifies counter TFORM234= '1B ' / data format of field: BYTE TTYPE235= 'BDIXVDV12_09' / DM Cmd Verifies counter TFORM235= '1B ' / data format of field: BYTE TTYPE236= 'BDIXVDV12_10' / DM Cmd Verifies counter TFORM236= '1B ' / data format of field: BYTE TTYPE237= 'BDIXVDV12_11' / DM Cmd Verifies counter TFORM237= '1B ' / data format of field: BYTE TTYPE238= 'BDIXVDV12_12' / DM Cmd Verifies counter TFORM238= '1B ' / data format of field: BYTE TTYPE239= 'BDIXVDV12_13' / DM Cmd Verifies counter TFORM239= '1B ' / data format of field: BYTE TTYPE240= 'BDIXVDV12_14' / DM Cmd Verifies counter TFORM240= '1B ' / data format of field: BYTE TTYPE241= 'BDIXVDV12_15' / DM Cmd Verifies counter TFORM241= '1B ' / data format of field: BYTE TTYPE242= 'BDIXVDV13_00' / DM Cmd Verifies counter TFORM242= '1B ' / data format of field: BYTE TTYPE243= 'BDIXVDV13_01' / DM Cmd Verifies counter TFORM243= '1B ' / data format of field: BYTE TTYPE244= 'BDIXVDV13_02' / DM Cmd Verifies counter TFORM244= '1B ' / data format of field: BYTE TTYPE245= 'BDIXVDV13_03' / DM Cmd Verifies counter TFORM245= '1B ' / data format of field: BYTE TTYPE246= 'BDIXVDV13_04' / DM Cmd Verifies counter TFORM246= '1B ' / data format of field: BYTE TTYPE247= 'BDIXVDV13_05' / DM Cmd Verifies counter TFORM247= '1B ' / data format of field: BYTE TTYPE248= 'BDIXVDV13_06' / DM Cmd Verifies counter TFORM248= '1B ' / data format of field: BYTE TTYPE249= 'BDIXVDV13_07' / DM Cmd Verifies counter TFORM249= '1B ' / data format of field: BYTE TTYPE250= 'BDIXVDV13_08' / DM Cmd Verifies counter TFORM250= '1B ' / data format of field: BYTE TTYPE251= 'BDIXVDV13_09' / DM Cmd Verifies counter TFORM251= '1B ' / data format of field: BYTE TTYPE252= 'BDIXVDV13_10' / DM Cmd Verifies counter TFORM252= '1B ' / data format of field: BYTE TTYPE253= 'BDIXVDV13_11' / DM Cmd Verifies counter TFORM253= '1B ' / data format of field: BYTE TTYPE254= 'BDIXVDV13_12' / DM Cmd Verifies counter TFORM254= '1B ' / data format of field: BYTE TTYPE255= 'BDIXVDV13_13' / DM Cmd Verifies counter TFORM255= '1B ' / data format of field: BYTE TTYPE256= 'BDIXVDV13_14' / DM Cmd Verifies counter TFORM256= '1B ' / data format of field: BYTE TTYPE257= 'BDIXVDV13_15' / DM Cmd Verifies counter TFORM257= '1B ' / data format of field: BYTE TTYPE258= 'BDIXVDV14_00' / DM Cmd Verifies counter TFORM258= '1B ' / data format of field: BYTE TTYPE259= 'BDIXVDV14_01' / DM Cmd Verifies counter TFORM259= '1B ' / data format of field: BYTE TTYPE260= 'BDIXVDV14_02' / DM Cmd Verifies counter TFORM260= '1B ' / data format of field: BYTE TTYPE261= 'BDIXVDV14_03' / DM Cmd Verifies counter TFORM261= '1B ' / data format of field: BYTE TTYPE262= 'BDIXVDV14_04' / DM Cmd Verifies counter TFORM262= '1B ' / data format of field: BYTE TTYPE263= 'BDIXVDV14_05' / DM Cmd Verifies counter TFORM263= '1B ' / data format of field: BYTE TTYPE264= 'BDIXVDV14_06' / DM Cmd Verifies counter TFORM264= '1B ' / data format of field: BYTE TTYPE265= 'BDIXVDV14_07' / DM Cmd Verifies counter TFORM265= '1B ' / data format of field: BYTE TTYPE266= 'BDIXVDV14_08' / DM Cmd Verifies counter TFORM266= '1B ' / data format of field: BYTE TTYPE267= 'BDIXVDV14_09' / DM Cmd Verifies counter TFORM267= '1B ' / data format of field: BYTE TTYPE268= 'BDIXVDV14_10' / DM Cmd Verifies counter TFORM268= '1B ' / data format of field: BYTE TTYPE269= 'BDIXVDV14_11' / DM Cmd Verifies counter TFORM269= '1B ' / data format of field: BYTE TTYPE270= 'BDIXVDV14_12' / DM Cmd Verifies counter TFORM270= '1B ' / data format of field: BYTE TTYPE271= 'BDIXVDV14_13' / DM Cmd Verifies counter TFORM271= '1B ' / data format of field: BYTE TTYPE272= 'BDIXVDV14_14' / DM Cmd Verifies counter TFORM272= '1B ' / data format of field: BYTE TTYPE273= 'BDIXVDV14_15' / DM Cmd Verifies counter TFORM273= '1B ' / data format of field: BYTE TTYPE274= 'BDIXVDV15_00' / DM Cmd Verifies counter TFORM274= '1B ' / data format of field: BYTE TTYPE275= 'BDIXVDV15_01' / DM Cmd Verifies counter TFORM275= '1B ' / data format of field: BYTE TTYPE276= 'BDIXVDV15_02' / DM Cmd Verifies counter TFORM276= '1B ' / data format of field: BYTE TTYPE277= 'BDIXVDV15_03' / DM Cmd Verifies counter TFORM277= '1B ' / data format of field: BYTE TTYPE278= 'BDIXVDV15_04' / DM Cmd Verifies counter TFORM278= '1B ' / data format of field: BYTE TTYPE279= 'BDIXVDV15_05' / DM Cmd Verifies counter TFORM279= '1B ' / data format of field: BYTE TTYPE280= 'BDIXVDV15_06' / DM Cmd Verifies counter TFORM280= '1B ' / data format of field: BYTE TTYPE281= 'BDIXVDV15_07' / DM Cmd Verifies counter TFORM281= '1B ' / data format of field: BYTE TTYPE282= 'BDIXVDV15_08' / DM Cmd Verifies counter TFORM282= '1B ' / data format of field: BYTE TTYPE283= 'BDIXVDV15_09' / DM Cmd Verifies counter TFORM283= '1B ' / data format of field: BYTE TTYPE284= 'BDIXVDV15_10' / DM Cmd Verifies counter TFORM284= '1B ' / data format of field: BYTE TTYPE285= 'BDIXVDV15_11' / DM Cmd Verifies counter TFORM285= '1B ' / data format of field: BYTE TTYPE286= 'BDIXVDV15_12' / DM Cmd Verifies counter TFORM286= '1B ' / data format of field: BYTE TTYPE287= 'BDIXVDV15_13' / DM Cmd Verifies counter TFORM287= '1B ' / data format of field: BYTE TTYPE288= 'BDIXVDV15_14' / DM Cmd Verifies counter TFORM288= '1B ' / data format of field: BYTE TTYPE289= 'BDIXVDV15_15' / DM Cmd Verifies counter TFORM289= '1B ' / data format of field: BYTE TTYPE290= 'BDIXVDX00_00' / DM Cmd Exceptions counter TFORM290= '1B ' / data format of field: BYTE TTYPE291= 'BDIXVDX00_01' / DM Cmd Exceptions counter TFORM291= '1B ' / data format of field: BYTE TTYPE292= 'BDIXVDX00_02' / DM Cmd Exceptions counter TFORM292= '1B ' / data format of field: BYTE TTYPE293= 'BDIXVDX00_03' / DM Cmd Exceptions counter TFORM293= '1B ' / data format of field: BYTE TTYPE294= 'BDIXVDX00_04' / DM Cmd Exceptions counter TFORM294= '1B ' / data format of field: BYTE TTYPE295= 'BDIXVDX00_05' / DM Cmd Exceptions counter TFORM295= '1B ' / data format of field: BYTE TTYPE296= 'BDIXVDX00_06' / DM Cmd Exceptions counter TFORM296= '1B ' / data format of field: BYTE TTYPE297= 'BDIXVDX00_07' / DM Cmd Exceptions counter TFORM297= '1B ' / data format of field: BYTE TTYPE298= 'BDIXVDX00_08' / DM Cmd Exceptions counter TFORM298= '1B ' / data format of field: BYTE TTYPE299= 'BDIXVDX00_09' / DM Cmd Exceptions counter TFORM299= '1B ' / data format of field: BYTE TTYPE300= 'BDIXVDX00_10' / DM Cmd Exceptions counter TFORM300= '1B ' / data format of field: BYTE TTYPE301= 'BDIXVDX00_11' / DM Cmd Exceptions counter TFORM301= '1B ' / data format of field: BYTE TTYPE302= 'BDIXVDX00_12' / DM Cmd Exceptions counter TFORM302= '1B ' / data format of field: BYTE TTYPE303= 'BDIXVDX00_13' / DM Cmd Exceptions counter TFORM303= '1B ' / data format of field: BYTE TTYPE304= 'BDIXVDX00_14' / DM Cmd Exceptions counter TFORM304= '1B ' / data format of field: BYTE TTYPE305= 'BDIXVDX00_15' / DM Cmd Exceptions counter TFORM305= '1B ' / data format of field: BYTE TTYPE306= 'BDIXVDX01_00' / DM Cmd Exceptions counter TFORM306= '1B ' / data format of field: BYTE TTYPE307= 'BDIXVDX01_01' / DM Cmd Exceptions counter TFORM307= '1B ' / data format of field: BYTE TTYPE308= 'BDIXVDX01_02' / DM Cmd Exceptions counter TFORM308= '1B ' / data format of field: BYTE TTYPE309= 'BDIXVDX01_03' / DM Cmd Exceptions counter TFORM309= '1B ' / data format of field: BYTE TTYPE310= 'BDIXVDX01_04' / DM Cmd Exceptions counter TFORM310= '1B ' / data format of field: BYTE TTYPE311= 'BDIXVDX01_05' / DM Cmd Exceptions counter TFORM311= '1B ' / data format of field: BYTE TTYPE312= 'BDIXVDX01_06' / DM Cmd Exceptions counter TFORM312= '1B ' / data format of field: BYTE TTYPE313= 'BDIXVDX01_07' / DM Cmd Exceptions counter TFORM313= '1B ' / data format of field: BYTE TTYPE314= 'BDIXVDX01_08' / DM Cmd Exceptions counter TFORM314= '1B ' / data format of field: BYTE TTYPE315= 'BDIXVDX01_09' / DM Cmd Exceptions counter TFORM315= '1B ' / data format of field: BYTE TTYPE316= 'BDIXVDX01_10' / DM Cmd Exceptions counter TFORM316= '1B ' / data format of field: BYTE TTYPE317= 'BDIXVDX01_11' / DM Cmd Exceptions counter TFORM317= '1B ' / data format of field: BYTE TTYPE318= 'BDIXVDX01_12' / DM Cmd Exceptions counter TFORM318= '1B ' / data format of field: BYTE TTYPE319= 'BDIXVDX01_13' / DM Cmd Exceptions counter TFORM319= '1B ' / data format of field: BYTE TTYPE320= 'BDIXVDX01_14' / DM Cmd Exceptions counter TFORM320= '1B ' / data format of field: BYTE TTYPE321= 'BDIXVDX01_15' / DM Cmd Exceptions counter TFORM321= '1B ' / data format of field: BYTE TTYPE322= 'BDIXVDX02_00' / DM Cmd Exceptions counter TFORM322= '1B ' / data format of field: BYTE TTYPE323= 'BDIXVDX02_01' / DM Cmd Exceptions counter TFORM323= '1B ' / data format of field: BYTE TTYPE324= 'BDIXVDX02_02' / DM Cmd Exceptions counter TFORM324= '1B ' / data format of field: BYTE TTYPE325= 'BDIXVDX02_03' / DM Cmd Exceptions counter TFORM325= '1B ' / data format of field: BYTE TTYPE326= 'BDIXVDX02_04' / DM Cmd Exceptions counter TFORM326= '1B ' / data format of field: BYTE TTYPE327= 'BDIXVDX02_05' / DM Cmd Exceptions counter TFORM327= '1B ' / data format of field: BYTE TTYPE328= 'BDIXVDX02_06' / DM Cmd Exceptions counter TFORM328= '1B ' / data format of field: BYTE TTYPE329= 'BDIXVDX02_07' / DM Cmd Exceptions counter TFORM329= '1B ' / data format of field: BYTE TTYPE330= 'BDIXVDX02_08' / DM Cmd Exceptions counter TFORM330= '1B ' / data format of field: BYTE TTYPE331= 'BDIXVDX02_09' / DM Cmd Exceptions counter TFORM331= '1B ' / data format of field: BYTE TTYPE332= 'BDIXVDX02_10' / DM Cmd Exceptions counter TFORM332= '1B ' / data format of field: BYTE TTYPE333= 'BDIXVDX02_11' / DM Cmd Exceptions counter TFORM333= '1B ' / data format of field: BYTE TTYPE334= 'BDIXVDX02_12' / DM Cmd Exceptions counter TFORM334= '1B ' / data format of field: BYTE TTYPE335= 'BDIXVDX02_13' / DM Cmd Exceptions counter TFORM335= '1B ' / data format of field: BYTE TTYPE336= 'BDIXVDX02_14' / DM Cmd Exceptions counter TFORM336= '1B ' / data format of field: BYTE TTYPE337= 'BDIXVDX02_15' / DM Cmd Exceptions counter TFORM337= '1B ' / data format of field: BYTE TTYPE338= 'BDIXVDX03_00' / DM Cmd Exceptions counter TFORM338= '1B ' / data format of field: BYTE TTYPE339= 'BDIXVDX03_01' / DM Cmd Exceptions counter TFORM339= '1B ' / data format of field: BYTE TTYPE340= 'BDIXVDX03_02' / DM Cmd Exceptions counter TFORM340= '1B ' / data format of field: BYTE TTYPE341= 'BDIXVDX03_03' / DM Cmd Exceptions counter TFORM341= '1B ' / data format of field: BYTE TTYPE342= 'BDIXVDX03_04' / DM Cmd Exceptions counter TFORM342= '1B ' / data format of field: BYTE TTYPE343= 'BDIXVDX03_05' / DM Cmd Exceptions counter TFORM343= '1B ' / data format of field: BYTE TTYPE344= 'BDIXVDX03_06' / DM Cmd Exceptions counter TFORM344= '1B ' / data format of field: BYTE TTYPE345= 'BDIXVDX03_07' / DM Cmd Exceptions counter TFORM345= '1B ' / data format of field: BYTE TTYPE346= 'BDIXVDX03_08' / DM Cmd Exceptions counter TFORM346= '1B ' / data format of field: BYTE TTYPE347= 'BDIXVDX03_09' / DM Cmd Exceptions counter TFORM347= '1B ' / data format of field: BYTE TTYPE348= 'BDIXVDX03_10' / DM Cmd Exceptions counter TFORM348= '1B ' / data format of field: BYTE TTYPE349= 'BDIXVDX03_11' / DM Cmd Exceptions counter TFORM349= '1B ' / data format of field: BYTE TTYPE350= 'BDIXVDX03_12' / DM Cmd Exceptions counter TFORM350= '1B ' / data format of field: BYTE TTYPE351= 'BDIXVDX03_13' / DM Cmd Exceptions counter TFORM351= '1B ' / data format of field: BYTE TTYPE352= 'BDIXVDX03_14' / DM Cmd Exceptions counter TFORM352= '1B ' / data format of field: BYTE TTYPE353= 'BDIXVDX03_15' / DM Cmd Exceptions counter TFORM353= '1B ' / data format of field: BYTE TTYPE354= 'BDIXVDX04_00' / DM Cmd Exceptions counter TFORM354= '1B ' / data format of field: BYTE TTYPE355= 'BDIXVDX04_01' / DM Cmd Exceptions counter TFORM355= '1B ' / data format of field: BYTE TTYPE356= 'BDIXVDX04_02' / DM Cmd Exceptions counter TFORM356= '1B ' / data format of field: BYTE TTYPE357= 'BDIXVDX04_03' / DM Cmd Exceptions counter TFORM357= '1B ' / data format of field: BYTE TTYPE358= 'BDIXVDX04_04' / DM Cmd Exceptions counter TFORM358= '1B ' / data format of field: BYTE TTYPE359= 'BDIXVDX04_05' / DM Cmd Exceptions counter TFORM359= '1B ' / data format of field: BYTE TTYPE360= 'BDIXVDX04_06' / DM Cmd Exceptions counter TFORM360= '1B ' / data format of field: BYTE TTYPE361= 'BDIXVDX04_07' / DM Cmd Exceptions counter TFORM361= '1B ' / data format of field: BYTE TTYPE362= 'BDIXVDX04_08' / DM Cmd Exceptions counter TFORM362= '1B ' / data format of field: BYTE TTYPE363= 'BDIXVDX04_09' / DM Cmd Exceptions counter TFORM363= '1B ' / data format of field: BYTE TTYPE364= 'BDIXVDX04_10' / DM Cmd Exceptions counter TFORM364= '1B ' / data format of field: BYTE TTYPE365= 'BDIXVDX04_11' / DM Cmd Exceptions counter TFORM365= '1B ' / data format of field: BYTE TTYPE366= 'BDIXVDX04_12' / DM Cmd Exceptions counter TFORM366= '1B ' / data format of field: BYTE TTYPE367= 'BDIXVDX04_13' / DM Cmd Exceptions counter TFORM367= '1B ' / data format of field: BYTE TTYPE368= 'BDIXVDX04_14' / DM Cmd Exceptions counter TFORM368= '1B ' / data format of field: BYTE TTYPE369= 'BDIXVDX04_15' / DM Cmd Exceptions counter TFORM369= '1B ' / data format of field: BYTE TTYPE370= 'BDIXVDX05_00' / DM Cmd Exceptions counter TFORM370= '1B ' / data format of field: BYTE TTYPE371= 'BDIXVDX05_01' / DM Cmd Exceptions counter TFORM371= '1B ' / data format of field: BYTE TTYPE372= 'BDIXVDX05_02' / DM Cmd Exceptions counter TFORM372= '1B ' / data format of field: BYTE TTYPE373= 'BDIXVDX05_03' / DM Cmd Exceptions counter TFORM373= '1B ' / data format of field: BYTE TTYPE374= 'BDIXVDX05_04' / DM Cmd Exceptions counter TFORM374= '1B ' / data format of field: BYTE TTYPE375= 'BDIXVDX05_05' / DM Cmd Exceptions counter TFORM375= '1B ' / data format of field: BYTE TTYPE376= 'BDIXVDX05_06' / DM Cmd Exceptions counter TFORM376= '1B ' / data format of field: BYTE TTYPE377= 'BDIXVDX05_07' / DM Cmd Exceptions counter TFORM377= '1B ' / data format of field: BYTE TTYPE378= 'BDIXVDX05_08' / DM Cmd Exceptions counter TFORM378= '1B ' / data format of field: BYTE TTYPE379= 'BDIXVDX05_09' / DM Cmd Exceptions counter TFORM379= '1B ' / data format of field: BYTE TTYPE380= 'BDIXVDX05_10' / DM Cmd Exceptions counter TFORM380= '1B ' / data format of field: BYTE TTYPE381= 'BDIXVDX05_11' / DM Cmd Exceptions counter TFORM381= '1B ' / data format of field: BYTE TTYPE382= 'BDIXVDX05_12' / DM Cmd Exceptions counter TFORM382= '1B ' / data format of field: BYTE TTYPE383= 'BDIXVDX05_13' / DM Cmd Exceptions counter TFORM383= '1B ' / data format of field: BYTE TTYPE384= 'BDIXVDX05_14' / DM Cmd Exceptions counter TFORM384= '1B ' / data format of field: BYTE TTYPE385= 'BDIXVDX05_15' / DM Cmd Exceptions counter TFORM385= '1B ' / data format of field: BYTE TTYPE386= 'BDIXVDX06_00' / DM Cmd Exceptions counter TFORM386= '1B ' / data format of field: BYTE TTYPE387= 'BDIXVDX06_01' / DM Cmd Exceptions counter TFORM387= '1B ' / data format of field: BYTE TTYPE388= 'BDIXVDX06_02' / DM Cmd Exceptions counter TFORM388= '1B ' / data format of field: BYTE TTYPE389= 'BDIXVDX06_03' / DM Cmd Exceptions counter TFORM389= '1B ' / data format of field: BYTE TTYPE390= 'BDIXVDX06_04' / DM Cmd Exceptions counter TFORM390= '1B ' / data format of field: BYTE TTYPE391= 'BDIXVDX06_05' / DM Cmd Exceptions counter TFORM391= '1B ' / data format of field: BYTE TTYPE392= 'BDIXVDX06_06' / DM Cmd Exceptions counter TFORM392= '1B ' / data format of field: BYTE TTYPE393= 'BDIXVDX06_07' / DM Cmd Exceptions counter TFORM393= '1B ' / data format of field: BYTE TTYPE394= 'BDIXVDX06_08' / DM Cmd Exceptions counter TFORM394= '1B ' / data format of field: BYTE TTYPE395= 'BDIXVDX06_09' / DM Cmd Exceptions counter TFORM395= '1B ' / data format of field: BYTE TTYPE396= 'BDIXVDX06_10' / DM Cmd Exceptions counter TFORM396= '1B ' / data format of field: BYTE TTYPE397= 'BDIXVDX06_11' / DM Cmd Exceptions counter TFORM397= '1B ' / data format of field: BYTE TTYPE398= 'BDIXVDX06_12' / DM Cmd Exceptions counter TFORM398= '1B ' / data format of field: BYTE TTYPE399= 'BDIXVDX06_13' / DM Cmd Exceptions counter TFORM399= '1B ' / data format of field: BYTE TTYPE400= 'BDIXVDX06_14' / DM Cmd Exceptions counter TFORM400= '1B ' / data format of field: BYTE TTYPE401= 'BDIXVDX06_15' / DM Cmd Exceptions counter TFORM401= '1B ' / data format of field: BYTE TTYPE402= 'BDIXVDX07_00' / DM Cmd Exceptions counter TFORM402= '1B ' / data format of field: BYTE TTYPE403= 'BDIXVDX07_01' / DM Cmd Exceptions counter TFORM403= '1B ' / data format of field: BYTE TTYPE404= 'BDIXVDX07_02' / DM Cmd Exceptions counter TFORM404= '1B ' / data format of field: BYTE TTYPE405= 'BDIXVDX07_03' / DM Cmd Exceptions counter TFORM405= '1B ' / data format of field: BYTE TTYPE406= 'BDIXVDX07_04' / DM Cmd Exceptions counter TFORM406= '1B ' / data format of field: BYTE TTYPE407= 'BDIXVDX07_05' / DM Cmd Exceptions counter TFORM407= '1B ' / data format of field: BYTE TTYPE408= 'BDIXVDX07_06' / DM Cmd Exceptions counter TFORM408= '1B ' / data format of field: BYTE TTYPE409= 'BDIXVDX07_07' / DM Cmd Exceptions counter TFORM409= '1B ' / data format of field: BYTE TTYPE410= 'BDIXVDX07_08' / DM Cmd Exceptions counter TFORM410= '1B ' / data format of field: BYTE TTYPE411= 'BDIXVDX07_09' / DM Cmd Exceptions counter TFORM411= '1B ' / data format of field: BYTE TTYPE412= 'BDIXVDX07_10' / DM Cmd Exceptions counter TFORM412= '1B ' / data format of field: BYTE TTYPE413= 'BDIXVDX07_11' / DM Cmd Exceptions counter TFORM413= '1B ' / data format of field: BYTE TTYPE414= 'BDIXVDX07_12' / DM Cmd Exceptions counter TFORM414= '1B ' / data format of field: BYTE TTYPE415= 'BDIXVDX07_13' / DM Cmd Exceptions counter TFORM415= '1B ' / data format of field: BYTE TTYPE416= 'BDIXVDX07_14' / DM Cmd Exceptions counter TFORM416= '1B ' / data format of field: BYTE TTYPE417= 'BDIXVDX07_15' / DM Cmd Exceptions counter TFORM417= '1B ' / data format of field: BYTE TTYPE418= 'BDIXVDX08_00' / DM Cmd Exceptions counter TFORM418= '1B ' / data format of field: BYTE TTYPE419= 'BDIXVDX08_01' / DM Cmd Exceptions counter TFORM419= '1B ' / data format of field: BYTE TTYPE420= 'BDIXVDX08_02' / DM Cmd Exceptions counter TFORM420= '1B ' / data format of field: BYTE TTYPE421= 'BDIXVDX08_03' / DM Cmd Exceptions counter TFORM421= '1B ' / data format of field: BYTE TTYPE422= 'BDIXVDX08_04' / DM Cmd Exceptions counter TFORM422= '1B ' / data format of field: BYTE TTYPE423= 'BDIXVDX08_05' / DM Cmd Exceptions counter TFORM423= '1B ' / data format of field: BYTE TTYPE424= 'BDIXVDX08_06' / DM Cmd Exceptions counter TFORM424= '1B ' / data format of field: BYTE TTYPE425= 'BDIXVDX08_07' / DM Cmd Exceptions counter TFORM425= '1B ' / data format of field: BYTE TTYPE426= 'BDIXVDX08_08' / DM Cmd Exceptions counter TFORM426= '1B ' / data format of field: BYTE TTYPE427= 'BDIXVDX08_09' / DM Cmd Exceptions counter TFORM427= '1B ' / data format of field: BYTE TTYPE428= 'BDIXVDX08_10' / DM Cmd Exceptions counter TFORM428= '1B ' / data format of field: BYTE TTYPE429= 'BDIXVDX08_11' / DM Cmd Exceptions counter TFORM429= '1B ' / data format of field: BYTE TTYPE430= 'BDIXVDX08_12' / DM Cmd Exceptions counter TFORM430= '1B ' / data format of field: BYTE TTYPE431= 'BDIXVDX08_13' / DM Cmd Exceptions counter TFORM431= '1B ' / data format of field: BYTE TTYPE432= 'BDIXVDX08_14' / DM Cmd Exceptions counter TFORM432= '1B ' / data format of field: BYTE TTYPE433= 'BDIXVDX08_15' / DM Cmd Exceptions counter TFORM433= '1B ' / data format of field: BYTE TTYPE434= 'BDIXVDX09_00' / DM Cmd Exceptions counter TFORM434= '1B ' / data format of field: BYTE TTYPE435= 'BDIXVDX09_01' / DM Cmd Exceptions counter TFORM435= '1B ' / data format of field: BYTE TTYPE436= 'BDIXVDX09_02' / DM Cmd Exceptions counter TFORM436= '1B ' / data format of field: BYTE TTYPE437= 'BDIXVDX09_03' / DM Cmd Exceptions counter TFORM437= '1B ' / data format of field: BYTE TTYPE438= 'BDIXVDX09_04' / DM Cmd Exceptions counter TFORM438= '1B ' / data format of field: BYTE TTYPE439= 'BDIXVDX09_05' / DM Cmd Exceptions counter TFORM439= '1B ' / data format of field: BYTE TTYPE440= 'BDIXVDX09_06' / DM Cmd Exceptions counter TFORM440= '1B ' / data format of field: BYTE TTYPE441= 'BDIXVDX09_07' / DM Cmd Exceptions counter TFORM441= '1B ' / data format of field: BYTE TTYPE442= 'BDIXVDX09_08' / DM Cmd Exceptions counter TFORM442= '1B ' / data format of field: BYTE TTYPE443= 'BDIXVDX09_09' / DM Cmd Exceptions counter TFORM443= '1B ' / data format of field: BYTE TTYPE444= 'BDIXVDX09_10' / DM Cmd Exceptions counter TFORM444= '1B ' / data format of field: BYTE TTYPE445= 'BDIXVDX09_11' / DM Cmd Exceptions counter TFORM445= '1B ' / data format of field: BYTE TTYPE446= 'BDIXVDX09_12' / DM Cmd Exceptions counter TFORM446= '1B ' / data format of field: BYTE TTYPE447= 'BDIXVDX09_13' / DM Cmd Exceptions counter TFORM447= '1B ' / data format of field: BYTE TTYPE448= 'BDIXVDX09_14' / DM Cmd Exceptions counter TFORM448= '1B ' / data format of field: BYTE TTYPE449= 'BDIXVDX09_15' / DM Cmd Exceptions counter TFORM449= '1B ' / data format of field: BYTE TTYPE450= 'BDIXVDX10_00' / DM Cmd Exceptions counter TFORM450= '1B ' / data format of field: BYTE TTYPE451= 'BDIXVDX10_01' / DM Cmd Exceptions counter TFORM451= '1B ' / data format of field: BYTE TTYPE452= 'BDIXVDX10_02' / DM Cmd Exceptions counter TFORM452= '1B ' / data format of field: BYTE TTYPE453= 'BDIXVDX10_03' / DM Cmd Exceptions counter TFORM453= '1B ' / data format of field: BYTE TTYPE454= 'BDIXVDX10_04' / DM Cmd Exceptions counter TFORM454= '1B ' / data format of field: BYTE TTYPE455= 'BDIXVDX10_05' / DM Cmd Exceptions counter TFORM455= '1B ' / data format of field: BYTE TTYPE456= 'BDIXVDX10_06' / DM Cmd Exceptions counter TFORM456= '1B ' / data format of field: BYTE TTYPE457= 'BDIXVDX10_07' / DM Cmd Exceptions counter TFORM457= '1B ' / data format of field: BYTE TTYPE458= 'BDIXVDX10_08' / DM Cmd Exceptions counter TFORM458= '1B ' / data format of field: BYTE TTYPE459= 'BDIXVDX10_09' / DM Cmd Exceptions counter TFORM459= '1B ' / data format of field: BYTE TTYPE460= 'BDIXVDX10_10' / DM Cmd Exceptions counter TFORM460= '1B ' / data format of field: BYTE TTYPE461= 'BDIXVDX10_11' / DM Cmd Exceptions counter TFORM461= '1B ' / data format of field: BYTE TTYPE462= 'BDIXVDX10_12' / DM Cmd Exceptions counter TFORM462= '1B ' / data format of field: BYTE TTYPE463= 'BDIXVDX10_13' / DM Cmd Exceptions counter TFORM463= '1B ' / data format of field: BYTE TTYPE464= 'BDIXVDX10_14' / DM Cmd Exceptions counter TFORM464= '1B ' / data format of field: BYTE TTYPE465= 'BDIXVDX10_15' / DM Cmd Exceptions counter TFORM465= '1B ' / data format of field: BYTE TTYPE466= 'BDIXVDX11_00' / DM Cmd Exceptions counter TFORM466= '1B ' / data format of field: BYTE TTYPE467= 'BDIXVDX11_01' / DM Cmd Exceptions counter TFORM467= '1B ' / data format of field: BYTE TTYPE468= 'BDIXVDX11_02' / DM Cmd Exceptions counter TFORM468= '1B ' / data format of field: BYTE TTYPE469= 'BDIXVDX11_03' / DM Cmd Exceptions counter TFORM469= '1B ' / data format of field: BYTE TTYPE470= 'BDIXVDX11_04' / DM Cmd Exceptions counter TFORM470= '1B ' / data format of field: BYTE TTYPE471= 'BDIXVDX11_05' / DM Cmd Exceptions counter TFORM471= '1B ' / data format of field: BYTE TTYPE472= 'BDIXVDX11_06' / DM Cmd Exceptions counter TFORM472= '1B ' / data format of field: BYTE TTYPE473= 'BDIXVDX11_07' / DM Cmd Exceptions counter TFORM473= '1B ' / data format of field: BYTE TTYPE474= 'BDIXVDX11_08' / DM Cmd Exceptions counter TFORM474= '1B ' / data format of field: BYTE TTYPE475= 'BDIXVDX11_09' / DM Cmd Exceptions counter TFORM475= '1B ' / data format of field: BYTE TTYPE476= 'BDIXVDX11_10' / DM Cmd Exceptions counter TFORM476= '1B ' / data format of field: BYTE TTYPE477= 'BDIXVDX11_11' / DM Cmd Exceptions counter TFORM477= '1B ' / data format of field: BYTE TTYPE478= 'BDIXVDX11_12' / DM Cmd Exceptions counter TFORM478= '1B ' / data format of field: BYTE TTYPE479= 'BDIXVDX11_13' / DM Cmd Exceptions counter TFORM479= '1B ' / data format of field: BYTE TTYPE480= 'BDIXVDX11_14' / DM Cmd Exceptions counter TFORM480= '1B ' / data format of field: BYTE TTYPE481= 'BDIXVDX11_15' / DM Cmd Exceptions counter TFORM481= '1B ' / data format of field: BYTE TTYPE482= 'BDIXVDX12_00' / DM Cmd Exceptions counter TFORM482= '1B ' / data format of field: BYTE TTYPE483= 'BDIXVDX12_01' / DM Cmd Exceptions counter TFORM483= '1B ' / data format of field: BYTE TTYPE484= 'BDIXVDX12_02' / DM Cmd Exceptions counter TFORM484= '1B ' / data format of field: BYTE TTYPE485= 'BDIXVDX12_03' / DM Cmd Exceptions counter TFORM485= '1B ' / data format of field: BYTE TTYPE486= 'BDIXVDX12_04' / DM Cmd Exceptions counter TFORM486= '1B ' / data format of field: BYTE TTYPE487= 'BDIXVDX12_05' / DM Cmd Exceptions counter TFORM487= '1B ' / data format of field: BYTE TTYPE488= 'BDIXVDX12_06' / DM Cmd Exceptions counter TFORM488= '1B ' / data format of field: BYTE TTYPE489= 'BDIXVDX12_07' / DM Cmd Exceptions counter TFORM489= '1B ' / data format of field: BYTE TTYPE490= 'BDIXVDX12_08' / DM Cmd Exceptions counter TFORM490= '1B ' / data format of field: BYTE TTYPE491= 'BDIXVDX12_09' / DM Cmd Exceptions counter TFORM491= '1B ' / data format of field: BYTE TTYPE492= 'BDIXVDX12_10' / DM Cmd Exceptions counter TFORM492= '1B ' / data format of field: BYTE TTYPE493= 'BDIXVDX12_11' / DM Cmd Exceptions counter TFORM493= '1B ' / data format of field: BYTE TTYPE494= 'BDIXVDX12_12' / DM Cmd Exceptions counter TFORM494= '1B ' / data format of field: BYTE TTYPE495= 'BDIXVDX12_13' / DM Cmd Exceptions counter TFORM495= '1B ' / data format of field: BYTE TTYPE496= 'BDIXVDX12_14' / DM Cmd Exceptions counter TFORM496= '1B ' / data format of field: BYTE TTYPE497= 'BDIXVDX12_15' / DM Cmd Exceptions counter TFORM497= '1B ' / data format of field: BYTE TTYPE498= 'BDIXVDX13_00' / DM Cmd Exceptions counter TFORM498= '1B ' / data format of field: BYTE TTYPE499= 'BDIXVDX13_01' / DM Cmd Exceptions counter TFORM499= '1B ' / data format of field: BYTE TTYPE500= 'BDIXVDX13_02' / DM Cmd Exceptions counter TFORM500= '1B ' / data format of field: BYTE TTYPE501= 'BDIXVDX13_03' / DM Cmd Exceptions counter TFORM501= '1B ' / data format of field: BYTE TTYPE502= 'BDIXVDX13_04' / DM Cmd Exceptions counter TFORM502= '1B ' / data format of field: BYTE TTYPE503= 'BDIXVDX13_05' / DM Cmd Exceptions counter TFORM503= '1B ' / data format of field: BYTE TTYPE504= 'BDIXVDX13_06' / DM Cmd Exceptions counter TFORM504= '1B ' / data format of field: BYTE TTYPE505= 'BDIXVDX13_07' / DM Cmd Exceptions counter TFORM505= '1B ' / data format of field: BYTE TTYPE506= 'BDIXVDX13_08' / DM Cmd Exceptions counter TFORM506= '1B ' / data format of field: BYTE TTYPE507= 'BDIXVDX13_09' / DM Cmd Exceptions counter TFORM507= '1B ' / data format of field: BYTE TTYPE508= 'BDIXVDX13_10' / DM Cmd Exceptions counter TFORM508= '1B ' / data format of field: BYTE TTYPE509= 'BDIXVDX13_11' / DM Cmd Exceptions counter TFORM509= '1B ' / data format of field: BYTE TTYPE510= 'BDIXVDX13_12' / DM Cmd Exceptions counter TFORM510= '1B ' / data format of field: BYTE TTYPE511= 'BDIXVDX13_13' / DM Cmd Exceptions counter TFORM511= '1B ' / data format of field: BYTE TTYPE512= 'BDIXVDX13_14' / DM Cmd Exceptions counter TFORM512= '1B ' / data format of field: BYTE TTYPE513= 'BDIXVDX13_15' / DM Cmd Exceptions counter TFORM513= '1B ' / data format of field: BYTE TTYPE514= 'BDIXVDX14_00' / DM Cmd Exceptions counter TFORM514= '1B ' / data format of field: BYTE TTYPE515= 'BDIXVDX14_01' / DM Cmd Exceptions counter TFORM515= '1B ' / data format of field: BYTE TTYPE516= 'BDIXVDX14_02' / DM Cmd Exceptions counter TFORM516= '1B ' / data format of field: BYTE TTYPE517= 'BDIXVDX14_03' / DM Cmd Exceptions counter TFORM517= '1B ' / data format of field: BYTE TTYPE518= 'BDIXVDX14_04' / DM Cmd Exceptions counter TFORM518= '1B ' / data format of field: BYTE TTYPE519= 'BDIXVDX14_05' / DM Cmd Exceptions counter TFORM519= '1B ' / data format of field: BYTE TTYPE520= 'BDIXVDX14_06' / DM Cmd Exceptions counter TFORM520= '1B ' / data format of field: BYTE TTYPE521= 'BDIXVDX14_07' / DM Cmd Exceptions counter TFORM521= '1B ' / data format of field: BYTE TTYPE522= 'BDIXVDX14_08' / DM Cmd Exceptions counter TFORM522= '1B ' / data format of field: BYTE TTYPE523= 'BDIXVDX14_09' / DM Cmd Exceptions counter TFORM523= '1B ' / data format of field: BYTE TTYPE524= 'BDIXVDX14_10' / DM Cmd Exceptions counter TFORM524= '1B ' / data format of field: BYTE TTYPE525= 'BDIXVDX14_11' / DM Cmd Exceptions counter TFORM525= '1B ' / data format of field: BYTE TTYPE526= 'BDIXVDX14_12' / DM Cmd Exceptions counter TFORM526= '1B ' / data format of field: BYTE TTYPE527= 'BDIXVDX14_13' / DM Cmd Exceptions counter TFORM527= '1B ' / data format of field: BYTE TTYPE528= 'BDIXVDX14_14' / DM Cmd Exceptions counter TFORM528= '1B ' / data format of field: BYTE TTYPE529= 'BDIXVDX14_15' / DM Cmd Exceptions counter TFORM529= '1B ' / data format of field: BYTE TTYPE530= 'BDIXVDX15_00' / DM Cmd Exceptions counter TFORM530= '1B ' / data format of field: BYTE TTYPE531= 'BDIXVDX15_01' / DM Cmd Exceptions counter TFORM531= '1B ' / data format of field: BYTE TTYPE532= 'BDIXVDX15_02' / DM Cmd Exceptions counter TFORM532= '1B ' / data format of field: BYTE TTYPE533= 'BDIXVDX15_03' / DM Cmd Exceptions counter TFORM533= '1B ' / data format of field: BYTE TTYPE534= 'BDIXVDX15_04' / DM Cmd Exceptions counter TFORM534= '1B ' / data format of field: BYTE TTYPE535= 'BDIXVDX15_05' / DM Cmd Exceptions counter TFORM535= '1B ' / data format of field: BYTE TTYPE536= 'BDIXVDX15_06' / DM Cmd Exceptions counter TFORM536= '1B ' / data format of field: BYTE TTYPE537= 'BDIXVDX15_07' / DM Cmd Exceptions counter TFORM537= '1B ' / data format of field: BYTE TTYPE538= 'BDIXVDX15_08' / DM Cmd Exceptions counter TFORM538= '1B ' / data format of field: BYTE TTYPE539= 'BDIXVDX15_09' / DM Cmd Exceptions counter TFORM539= '1B ' / data format of field: BYTE TTYPE540= 'BDIXVDX15_10' / DM Cmd Exceptions counter TFORM540= '1B ' / data format of field: BYTE TTYPE541= 'BDIXVDX15_11' / DM Cmd Exceptions counter TFORM541= '1B ' / data format of field: BYTE TTYPE542= 'BDIXVDX15_12' / DM Cmd Exceptions counter TFORM542= '1B ' / data format of field: BYTE TTYPE543= 'BDIXVDX15_13' / DM Cmd Exceptions counter TFORM543= '1B ' / data format of field: BYTE TTYPE544= 'BDIXVDX15_14' / DM Cmd Exceptions counter TFORM544= '1B ' / data format of field: BYTE TTYPE545= 'BDIXVDX15_15' / DM Cmd Exceptions counter TFORM545= '1B ' / data format of field: BYTE EXTNAME = 'hk221x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 613329252.81176 TSTOP = 613331332.81162 DATE-OBS= '2020-06-08T17:14:07' DATE-END= '2020-06-08T17:48:47' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -25.0804000000000 / [s] UTCF at TSTART TELAPSE = 2079.99986004829 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 545 OBS_ID = '00976692000' / Observation ID TARG_ID = 976692 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 268.534665220701 / [deg] RA pointing DEC_PNT = -27.8551490220994 / [deg] Dec pointing PA_PNT = 161.099464090641 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (309.629, -31.168)' / Object name RA_OBJ = 309.628863589921 / [deg] R.A. Object DEC_OBJ = -31.1682990251738 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.11 ' / Processing script version SEQPNUM = 6 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2020-06-18T16:20:49' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'gdHGjcE9gcEEgcE9' / HDU checksum updated 2020-06-18T16:29:44 DATASUM = '1191831014' / data unit checksum updated 2020-06-18T16:20:49 HISTORY TASK: FAPPND on FILENAME: sw00976692000b221x001.hk[1] HISTORY fappend3.0a at 2020-06-18T16:20:52 TRIGTIME= 613330144. / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A�GT�g��OPPPOPOPOPPPPPPPM��lYLbLLLRPNNNLPNTVLPNLLLNNNLLRNLNLNLLRNLN�LLLL�R�OLLNPLNNNXNLaLRXLPPLZLNTLLNNNPRNTPRNLbPLPLLNLLZTNLLRPLLLLNLNLbRPLLPPLNNNLLNPVLLNVLLNXNNTPNLLVNTLNPLnN�LNPRPLLLLLLTPLLLNLLLLNNLLLLLNNNNNNPNNNNLhLLPLLNNNLLLZLTLLLNLPPRNLPNLNRLLTNLNLNLLLNPNNLLLLLLNPNNNLLLPPA�GT�g�*��o@��{n�nnntrpppnrpvxnrpnnnpppnntpnpnpnntpnp�nnnn�t�qnnprnpppzpn�ntznrrn|npvnnppprtpvrtpn�rnrnnpnn|vpnntrnnnnpnpn�trnnrrnpppnnprxnnpxnnpzppvrpnnxpvnprn�p�nprtrnnnnnnvrnnnpnnnnppnnnnnpppppprppppn�nnrnnpppnnn|nvnnnpnrrtpnrpnptnnvpnpnpnnnprppnnnnnnprpppnnnrrA�GT�g��T�� 悂��A�GT�g� �h��4��̜��Ζ��A�GUg��HIIIHIHIHIIIIIII�|�.ʷ��H��+��̬⪬��ƪ��A�GUg��B�˾Ծ��Ⱦ��\"��?��¾��Ӿ�ʾ�¾̾�ƾ��¾¾��¾��¾��¾��Ⱦ��Ⱦ��ƾ�¾��¾��¾��ھ�¾��̾ƾ��ľ��A�GU*g�*��ӤV��p6��S�� A�GU>g�q��"j��J��g��A�GURg�*8999898989999999��6~��^��0{��2��A�GUfg�}~~~}~}~}~~~~~~~�X�<)2" $& ""��R"� (1"( *$ "$ "2 *$" 2" &&($ &$ >T " $ 8 *$ " "$ A�GUzg�ڹ��1l�P=0F000642220428:04200022200620202006202Δ0000f6�300240222<20E06<0440>0280022246284620F40400200>82006400002020F64004402220024:002:002<2284200:280240R2h0246400000084000200002200000222222422220L00400222000>080002044620420260082020200024220000002422200044A�GU�p�r��D�cPCYCCCIGEEECGEKMCGECCCEEECCIECECECCIECE�CCCCyI�FCCEGCEEEOECXCIOCGGCQCEKCCEEEGIEKGIECYGCGCCECCQKECCIGCCCCECECYIGCCGGCEEECCEGMCCEMCCEOEEKGECCMEKCEGCeE{CEGIGCCCCCCKGCCCECCCCEECCCCCEEEEEEGEEEEC_CCGCCEEECCCQCKCCCECGGIECGECEICCKECECECCCEGEECCCCCCEGEEECCCGGA�GU�g�1222121212222222Y*��xeXnXXX^\ZZZX\Z`bX\ZXXXZZZXX^ZXZXZXX^ZXZ��XXXX�^�[XXZ\XZZZdZXmX^dX\\XfXZ`XXZZZ\^Z`\^ZXn\X\XXZXXf`ZXX^\XXXXZXZXn^\XX\\XZZZXXZ\bXXZbXXZdZZ`\ZXXbZ`XZ\XzZ�XZ\^\XXXXXX`\XXXZXXXXZZXXXXXZZZZZZ\ZZZZXtXX\XXZZZXXXfX`XXXZX\\^ZX\ZXZ^XX`ZXZXZXXXZ\ZZXXXXXXZ\ZZZXXX\\A�GU�g�*mnnnmnmnmnnnnnnnm>��yl�lllrpnnnlpntvlpnlllnnnllrnlnlnllrnln �llll�r�ollnplnnnxnl�lrxlpplzlntllnnnprntprnl�plpllnllztnllrpllllnlnl�rpllpplnnnllnpvllnvllnxnntpnllvntlnpl�n�lnprplllllltplllnllllnnlllllnnnnnnpnnnnl�llpllnnnlllzltlllnlpprnlpnlnrlltnlnlnlllnpnnllllllnpnnnlllppA�GU��U��Q��A�GU�g�*��f��2��ʚ��̔��A�GU�g��*+++*+*+*+++++++��:�ö̶��T��7��¸�˶�¶��Ķ��̺��ľ��̼��¸��ظ��Ҷ��Ķ��A�GVg�*fgggfgfgfggggggg˜N��h.��K��A�GVg�!��߰b��|B��_��A�GV.g�*��.v��V��(�s��*��A�GVBg��B�& �j<� (> " A�GVVg�*VWWWVWVWVWWWWWWW�V�:'0 "$ �~P �&/ &(" " 0(" 0 $$&"$"<R "6(" "A�GVjgₒ��/j�N;.D...42000.2068.20...000..40.0.0..40.0̒...0d4�1..02.000:0.C.4:.22.<.06..0002406240.D2.20.0..<60..42....0.0.D42..22.000..028..08..0:00620..806.02.P0f.0242......62...0....00.....00000020000.J..2..000...<.6...0.2240.20.04..60.0.0...0200......02000...22A�GV~g�z��C~�bOBXBBBHFDDDBFDJLBFDBBBDDDBBHDBDBDBBHDBD�BBBFxH�EBBDFBDDDNDBWBHNBFFBPBDJBBDDDFHDJFHDBXFBFDBDBBPJDBBHFBBBBDBDBXHFBBFFBDDDBBDFLBBDLBBDNDDJFDBBLDJBDFBdDzBDFHFBBBBBBJFBBBDBBBBDDBBBBBDDDDDDFDDDDB^BBFBBDDDBBBPBJBBBDBFFHDBFDBDHBBJDBDBDBBBDFDDBBBBBBDFDDDBBBFFA�GV�g��e6��qdzdddjhfffdhflndhfdddfffddjfdfdfddjfdf�dddh�j�gddfhdfffpfdydjpdhhdrdflddfffhjflhjfdzhdhfdfddrlfddjhddddfdfdzjhddhhdfffddfhnddfnddfpfflhfddnfldfhd�f�dfhjhddddddlhdddfddddffdddddffffffhffffd�ddhddfffdddrdldddfdhhjfdhfdfjddlfdfdfdddfhffddddddfhfffdddhhA�GV�g��OPPPOPOPOPPPPPPPyJ��x�xxx~|zzzx|z��x|zxxxzzzxx~zxzxzxx~zxz�xxx|�~�{xxz|xzzz�zx�x~�x||x�xz�xxzzz|~z�|~zx�|x|zxzxx��zxx~|xxxxzxzx�~|xx||xzzzxxz|�xxz�xxz�zz�|zxx�z�xz|x�z�xz|~|xxxxxx�|xxxzxxxxzzxxxxxzzzzzz|zzzzx�xx|xxzzzxxx�x�xxxzx||~zx|zxz~xx�zxzxzxxxz|zzxxxxxxz|zzzxxx||A�GV�g�j��^��*�� Č��A�GV�g�*��r�$��>��֦!��¢ؠ��A�GV�g�*��8��ʴ��R��5��ɴ��´��ʸ��¼��ʺ��ֶ촶��д��´��A�GV�g��?@@@?@?@?@@@@@@@ɚL��f,��I��A�GW g��{|||{|{|{|||||||ݮ`��z@��]��A�GWg�*��:��b��4�� 6��A�GW2g�z��N�2(�vH�' ( (4J. A�GWFg�8999898989999999'�b�F3&<&&&,*(((&*(.0&*(&&&(((&&,(&(&(&&,(&(Ċ&&&*\,�)&&(*&(((2(&;&,2&**&4&(.&&(((*,(.*,(&<*&*(&(&&4.(&&,*&&&&(&(&<,*&&**&(((&&(*0&&(0&&(2((.*(&&0(.&(*&H(^&(*,*&&&&&&.*&&&(&&&&((&&&&&((((((*((((&B&&*&&(((&&&4&.&&&(&**,(&*(&(,&&.(&(&(&&&(*((&&&&&&(*(((&&&**A�GWZhg�tuuutututuuuuuuu;v�ZG:P:::@><<<:><:::<<<::@<:<:<::@<:<؞:::>p@�=::<>:<<>:H:@@<:P>:><:<::HB<::@>::::<:<:P@>::>>:<<<::<>D::<::D:\@>::::::B>:::<::::<<:::::<<<<<<><<<<:V::>::<<<:::H:B:::<:>>@<:><:<@::B<:<:<:::<><<::::::<><<<:::>>A�GWng�z��O ��n[NdNNNTRPPPNRPVXNRPNNNPPPNNTPNPNPNNTPNP�NNNR�T�QNNPRNPPPZPNcNTZNRRN\NPVNNPPPRTPVRTPNdRNRPNPNN\VPNNTRNNNNPNPNdTRNNRRNPPPNNPRXNNPXNNPZPPVRPNNXPVNPRNpP�NPRTRNNNNNNVRNNNPNNNNPPNNNNNPPPPPPRPPPPNjNNRNNPPPNNN\NVNNNPNRRTPNRPNPTNNVPNPNPNNNPRPPNNNNNNPRPPPNNNRRA�GW�hN��c4��obxbbbhfdddbfdjlbfdbbbdddbbhdbdbdbbhdbd�bbbf�h�ebbdfbdddndbwbhnbffbpbdjbbdddfhdjfhdbxfbfdbdbbpjdbbhfbbbbdbdbxhfbbffbdddbbdflbbdlbbdnddjfdbbldjbdfb�d�bdfhfbbbbbbjfbbbdbbbbddbbbbbddddddfddddb~bbfbbdddbbbpbjbbbdbffhdbfdbdhbbjdbdbdbbbdfddbbbbbbdfdddbbbffA�GW�g�()))()()()))))))wH��v�vvv|zxxxvzx~�vzxvvvxxxvv|xvxvxvv|xvx�vvvz�|�yvvxzvxxx�xv�v|�vzzv�vx~vvxxxz|x~z|xv�zvzxvxvv�~xvv|zvvvvxvxv�|zvvzzvxxxvvxz�vvx�vvx�xx~zxvv�x~vxzv�x�vxz|zvvvvvv~zvvvxvvvvxxvvvvvxxxxxxzxxxxv�vvzvvxxxvvv�v~vvvxvzz|xvzxvx|vv~xvxvxvvvxzxxvvvvvvxzxxxvvvzzA�GW�g�*deeedededeeeeeee�\��(��A�GW�g�q��~�0̹�¬��J��-��°��²��ή䬮��Ȭ��A�GW�g��D��^$��A��A�GW�h�u!"""!"!"!"""""""զX��r8�� U��A�GW�g��]^^^]^]^]^^^^^^^�$l��L��i�� A�GXg�z��8� ��`��2}�� 4�� A�GX"hƓ��L�0&�tF�%&&2H,A�GX6g��%�`�D1$:$$$*(&&&$(&,.$(&$$$&&&$$*&$&$&$$*&$&$$$(Z*�'$$&($&&&0&$9$*0$(($2$&,$$&&&(*&,(*&$:($(&$&$$2,&$$*($$$$&$&$:*($$(($&&&$$&(.$$&.$$&0&&,(&$$.&,$&($F&\$&(*($$$$$$,($$$&$$$$&&$$$$$&&&&&&*&&&&$@$$($$&&&$$$2$,$$$&$((*&$(&$&*$$,&$&$&$$$&(&&$$$$$$&(&&&$$$((A�GXJg�!MNNNMNMNMNNNNNNN9 t�XE8N888><:::8<:@B8<:888:::88>:8:8:88>:8:֜888�;88:<8:::D:8M8>D8<<8F8:@88:::<>:@<>:8N<8<:8:88F@:88><8888:8:8N><88<<8:::88:<888888@<888:8888::88888::::::>::::8T88<88:::888F8@888:8<<>:8<:8:>88@:8:8:888:<::888888:<:::888<<A�GX^hS;��[,��zgZpZZZ`^\\\Z^\bdZ^\ZZZ\\\ZZ`\Z\Z\ZZ`\Z\��ZZZ^�`�]ZZ\^Z\\\f\ZoZ`fZ^^ZhZ\bZZ\\\^`\b^`\Zp^Z^\Z\ZZhb\ZZ`^ZZZZ\Z\Zp`^ZZ^^Z\\\ZZ\^dZZ\dZZ\f\\b^\ZZd\bZ\^Z|\�Z\^`^ZZZZZZb^ZZZ\ZZZZ\\ZZZZZ\\\\\\`\\\\ZvZZ^ZZ\\\ZZZhZbZZZ\Z^^`\Z^\Z\`ZZb\Z\Z\ZZZ\^\\ZZZZZZ\^\\\ZZZ^^A�GXtwG��n?��zm�mmmsqooomqouwmqommmooommsomomommsomo�mmmq�s�pmmoqmoooyom�msymqqm{moummoooqsouqsom�qmqomomm{uommsqmmmmomom�sqmmqqmooommoqwmmowmmoyoouqommwoumoqm�o�moqsqmmmmmmuqmmmommmmoommmmmoooooosoooom�mmqmmooommm{mummmomqqsomqomosmmuomomommmoqoommmmmmoqooommmqqA�GX�y Z �S��偁��A�GX��CDDDCDCDCDDDDDDD�g��3��˛��͕��A�GX�g�z��|�.ʷ��H��+��̬⪬��ƪ��A�GX�g�*��B�˾Ծ��Ⱦ��\"��?��¾��Ӿ�ʾ�¾̾�ƾ��¾��¾��¾��¾��Ⱦ��Ⱦ��ƾ�ƾ��¾��¾��ھ�¾��̾ƾ��ľ��