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: sw00889785000b132x001.hk[0] TSTART = 572323497.2686 TSTOP = 572325596.20624 DATE-OBS= '2019-02-20T02:44:52' DATE-END= '2019-02-20T03:19:51' PROCVER = '3.18.04 ' / 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 = '00889785000' / Observation ID SEQPNUM = 9 / Number of times the dataset processed TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART CHECKSUM= 'iYjljXgliXgliXgl' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = ' 0' / data unit checksum updated 2019-03-02T08:59:37 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 = 31 / 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 = 572323622.41834 TSTOP = 572325513.38136 DATE-OBS= '2019-02-20T02:46:57' DATE-END= '2019-02-20T03:18:28' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1890.96302008629 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 291 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:39' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'XCN3a9N1RCN1X9N1' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2318403980' / data unit checksum updated 2019-03-02T08:35:39 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: sw00889785000b123x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{5* Ȁ\\\targ/nram/scripts/onslewmc.gz A{Q0 ʀ\ONSLEWMC A{ :]./src/sciencedata.cpp:faultDUMP A{g ΀\\\ONSLEWMC A|C Ȁ\\\targ/nram/scripts/onslewmc.gz A|Cpe ʀ\ONFALS3 A|E3 ΀\\\ONFALS3 A|d6Κ Ȁ\\\targ/nram/scripts/onfals3.gz A|dU ʀ\ONFALS3 A|fg ΀\\\ONFALS3 A|6z Ȁ\\\targ/nram/scripts/onfals3.gz A|܀ ʀ\ONFALS3 A| ΀\\\ONFALS3 A}Z^./src/sourceCatTbl.cpp:faultSOURCETABLE A} Ȁ\\\targ/nram/scripts/onfals3.gz A}= ʀ\ONBURQ20 A}#y ʀ\ONSLEWMC A})Ǐ ΀\\\ONSLEWMC A~X픯 Ȁ\\\targ/nram/scripts/onslewmc.gz A~Yѷ ʀ\ONFALS3 A~[3 ΀\\\ONFALS3 A~qx-_p./src/brinterface.cpp:faultIMAGELOSS A~Ks Ȁ\\\targ/nram/scripts/onfals3.gz A~T ʀ\ONFALS10 A~& ΀\\\ONFALS10 A~ Ȁ\\\targ/nram/scripts/onfals10.gz A~A ʀ\ONSLEWMC A~{ ʀ\ONFALS10 Ad> ΀\\\ONFALS10 A% ΀\\\ONSLEWMC ADh ΀\\\ONBURQ20 XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 152 / width of table in bytes NAXIS2 = 14 / 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 = 572323623.20236 TSTOP = 572325389.41666 DATE-OBS= '2019-02-20T02:46:58' DATE-END= '2019-02-20T03:16:24' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1766.21429991722 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 293 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:39' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3A7U434R394R394R' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '471495068' / data unit checksum updated 2019-03-02T08:35:39 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: sw00889785000b125x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{%S Ҁtarg/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A{@s<S ՀԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A{ 3 S ڀptarg/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A{ !S ߀targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A}h%[%S Ҁtarg/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A}<S ՀԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A}s" S ڀptarg/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A} !S ߀targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A~΀<S ՀԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A~1%S Ҁtarg/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A~c<S ՀԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A~$t<S ՀԀtarg/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo Atʀ S ڀptarg/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo AU!S ߀targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 3838 / 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 = 572323497.2686 TSTOP = 572325596.20624 DATE-OBS= '2019-02-20T02:44:52' DATE-END= '2019-02-20T03:19:51' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2098.93764007092 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 297 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:39' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'AH7UAF6UAF6UAF6U' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '372780899' / data unit checksum updated 2019-03-02T08:35:39 HISTORY TASK: FAPPND on FILENAME: sw00889785000b129x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Ta|A{UkA{U$A{UPA{UA{VA{V&eA{VWA{V,A{W xA{W+dA{WoA{WA{XA{XA{YA{YpA{ZAA{Zz%A{[)A{[`A{\A{\A{]XA{]3A{][A{^A{^A{_1A{_A{`.A{`A{aA{aK4A{bA{b{JA{cE$A{c?A{dl A{d]@A{d}aA{dA{dA{d/ZA{d;%A{eA{e~A{eEA{eA{f3A{f)A{fA{g¤A{g+*A{gKYA{gk0A{gA{gջA{gPHA{g*A{h XA{h,tTA{hLA{h+A{i A{i-A{iA{l>A{mA{m/A{nA{n]dA{oKA{oA{p8A{pA{qeVA{qkA{rA{r\A{sA{s'A{t:A{tײA{ur\A{uA{u,A{vA{v~A{v?A{v;A{wA{w]yA{wA{xZA{x y>A{x7A{xA{y1fA{y!uA{yA{y A{z8A{z$CA{zeAA{zA{{A{{&4A{{A{{$A{|OvA{|&iA{|]A{|A{}wA{}'A{}A{~AA{~EA{~m A{ A{,A{A{A{A{)JA{ ~|A{A{#A{uA{!ËA{A{ekA{tA{$A{A{A{hA{~QnA{eA{A{/A{A{33A{ZA{A{ A{+A{\A{ 3A{=\A{sA{(A{$A{"A{A{\A{%A{[A{mA{ MA{qLA{($A{پA{jA{XyA{A{wA{A{pA{dZA{A{A{\SA{A{6)tA{V{A{A{FA{8 A{A{"A{l"A{A{A{:A{Z:A{zkQA{A{A{A{A{! 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A~T4A~t\A~A~d0A~A~DA~A~5GZA~UyA~uA~A~;A~aA~*A~LA~6r2A~VA~vΚA~pA~&lA~?SA~VA~~A~7A~WzA~w A~'RA~|A~A~6A~A~zA~A~IA~]A~:A~FA~;nA~[A~{,A~A~A~C-A~}A~&:~A~E#A~eA~A~&A~PA~捹A~A~*A~Iz%A~֌A~A~ nA~,^A~LIA~l;OA~PA~xA~̮A~0A~ A~-MA~M6PA~m[A~MA~A~A~A~1QA~.IA~NVA~nA~A~"A~EA~HA~HA~/dA~OA~A~A~A~3A~SUGA~sfQA~{A~A~-A~A~*A~4A5A~A~A~֎aA~A~A~6A~VA~w:A~@A~VCA~|A~A~A~7`A~XbA~x8\A~˜tA~¸A~ؠA~;A~OA~9A~ÙA~b$A~2A~:ZGA~Z|[A~zA~Ě`A~ĻA~UA~1A~NfA~sA~kA~nA~7qA~XA~x5A~l"A~QA~؛A~A~ \A~9A~YTA~{JA~A~A~$ A~~A~rA~;A~[A~{A~gA~iA~bA~A~A~= A~]3A~}%FA~@A~oA~ݮA~A~0A~>A~^0A~~[A~A~A~EA~A~$1A~Dg8A~dA~A~A~b9A~yA~[A~cA~1A~RrA~rA~ϖA~A~gA~'A~H A~h=A~aA~A~¤A~jA GA+ALE$Al"hA3AtAѢAA3A0AP#Aq/oA?)AkAѣnApAAM6PAm4YAeAAͮAA*A.:~AN[AnffAAAAA6A/?AOApkAAA(AW*AwA08AP|ApA A/oA|AA]A1AR Ar#:AM+AAeAA'A?EA`5A:TA_AA3AAAA~A]A sXA A A A VA VA MJA 9.A A sA ,A OLA PYA =A A8AA!A{ArAAAT (AZAA5#AAAAA9.AA8AkA tAAA@AQDA/0A)nYAIzAiA̸AA mAJэA&A AM[AjAA AoAaApAf$_A>4YuA>TA>t|A>ɆA?qA?A@%A@I(AA |AAABA AB+AC~AC{fAC3AC[-ACۧADAD<AD\AW-AX }AX,eAXqLAYAYGAZ_AZA[9A[#:A\aA\zA]A]FA]ҳA]A^:A^uA^A^;A^ A_+A_6A_AA`A`uAa/Aa 0AbgAbAcAc2vAdcAd$AdAdɆAe u:Ae,AfپAfAgRAg04nAgP_AgpHAgIAgEAgAg%AhP3Ah1wAh AiAi_AjwAjzAk1Ak=Ak֊rAlrAl6AlzAlAm1Am~|AnfXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / 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 = 110 / 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 = 'BHK130SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKPKTSOUT' / Number of combined HK packets sent by the HK taTFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKPKTERRS' / Number of combined packets that HK failed to seTFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKBKRTIMEOUT' / Number of seconds before barker watchdog expireTFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BHKCMDSECS' / Number of seconds since last spacecraft ground TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TUNIT6 = 's ' / physical unit of field TTYPE7 = 'undocumented1' / Byte field not in ITOS database TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BPDBCBBUFPTR' / Circular buffer ptr TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BPDBCBBUFLEN' / Circular buffer length TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BPDBCBWRITE' / Circular buffer write index TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BPDBCBVALID' / Circular buffer valid length TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDBCBREAD' / Circular buffer read index TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BPDBCBAVAIL' / Circular buffer data count TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BPDBCBWRLAP' / Circular buffer write wrap count TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPDBCBRDLAP' / Circular buffer read wrap count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPDBCBERROVR' / Circular buffer overflow errors TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BPDBCBERRWRP' / Circular buffer wrap errors TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BPDBCBERRIDX' / Circular buffer index errors TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BPDBCBSIMENA' / DM task as data source enabled TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BPDBCBERRMTX' / Circular buffer mutex errors TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BPDBCB_8_3' / spare 8 bits TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BPDBCB_8_2' / spare 8 bits TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BPDBCB_8_1' / spare 8 bits TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BPDBCB_32_1' / spare 32 bits TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BPDMICAVGRATE' / MIC input data rate - avg bytes per sec TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TUNIT25 = 'byte/s ' / physical unit of field TTYPE26 = 'BPDBCDHBUFIDX' / BCDH cmd buffer FPGA index TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BPDBCDHBUFCNT' / BCDH cmd buffer FPGA unread TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BPDBCDHINIT' / BCDH initialization flags TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BPDBCDHENAFLG' / BCDH command enable flags TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 32768 / offset for unsigned integers TTYPE30 = 'BPDBCDHCMDCNT' / BCDH command count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BPDBCDHERRCNT' / BCDH command error count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BPD00REFRESH' / BCDH 00 DM sides need mode refresh flags TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPD01REFRESH' / BCDH 01 DM sides need mode refresh flags TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPD02REFRESH' / BCDH 02 DM sides need mode refresh flags TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPD03REFRESH' / BCDH 03 DM sides need mode refresh flags TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPD04REFRESH' / BCDH 04 DM sides need mode refresh flags TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPD05REFRESH' / BCDH 05 DM sides need mode refresh flags TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BPD06REFRESH' / BCDH 06 DM sides need mode refresh flags TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPD07REFRESH' / BCDH 07 DM sides need mode refresh flags TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BPD08REFRESH' / BCDH 08 DM sides need mode refresh flags TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BPD09REFRESH' / BCDH 09 DM sides need mode refresh flags TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BPD10REFRESH' / BCDH 10 DM sides need mode refresh flags TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BPD11REFRESH' / BCDH 11 DM sides need mode refresh flags TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BPD12REFRESH' / BCDH 12 DM sides need mode refresh flags TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BPD13REFRESH' / BCDH 13 DM sides need mode refresh flags TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 32768 / offset for unsigned integers TTYPE46 = 'BPD14REFRESH' / BCDH 14 DM sides need mode refresh flags TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BPD15REFRESH' / BCDH 15 DM sides need mode refresh flags TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BPD00DMENABLE' / BCDH 00 DM commands enabled flags TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BPD01DMENABLE' / BCDH 01 DM commands enabled flags TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BPD02DMENABLE' / BCDH 02 DM commands enabled flags TFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BPD03DMENABLE' / BCDH 03 DM commands enabled flags TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BPD04DMENABLE' / BCDH 04 DM commands enabled flags TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BPD05DMENABLE' / BCDH 05 DM commands enabled flags TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BPD06DMENABLE' / BCDH 06 DM commands enabled flags TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BPD07DMENABLE' / BCDH 07 DM commands enabled flags TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BPD08DMENABLE' / BCDH 08 DM commands enabled flags TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'BPD09DMENABLE' / BCDH 09 DM commands enabled flags TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BPD10DMENABLE' / BCDH 10 DM commands enabled flags TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BPD11DMENABLE' / BCDH 11 DM commands enabled flags TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BPD12DMENABLE' / BCDH 12 DM commands enabled flags TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BPD13DMENABLE' / BCDH 13 DM commands enabled flags TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BPD14DMENABLE' / BCDH 14 DM commands enabled flags TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BPD15DMENABLE' / BCDH 15 DM commands enabled flags TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BPDMICSOCKPID' / MIC socket creation task active flag TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BPDMICCMDFILE' / MIC command log file open flag TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BPDMICCMDSOCK' / MIC command log socket open flag TFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'BPDMEMERRMTX' / MEM board mutex error count TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BPDMICINIT' / MIC initialization flag TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BPDMICCMDCNT' / MIC command count TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BPDMICERRCNT' / not used in software ver 4.1 TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BPDMICERRMTX' / MIC board mutex error count TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BPDBCDHERRIDX' / BCDH cmd err - invalid index value TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'BPDBCDHERRVAL' / BCDH cmd err - invalid numeric value TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BPDBCDHERRLST' / BCDH cmd err - invalid enum value TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BPDBCDHERRINI' / BCDH cmd err - pre MIC init TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BPDBCDHERRLEN' / BCDH cmd err - packet length TFORM76 = '1B ' / data format of field: BYTE TTYPE77 = 'BPDBCDHERRBUF' / BCDH cmd err - buffer overflow TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BPDBCDHERRTGT' / BCDH cmd err - all tgts disabled TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'BPDMICINTERN' / MIC internal errors - should not happen TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BPDREFRESHOK' / DM side mode refresh enabled flag TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'BPDBCDHEVTDIS' / BCDH cmd overflow events disabled TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BPDBCDHTBLUPD' / State table updates enable flag TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BPDMICFPGAERR' / Command buffer FPGA lockup count TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BPDMIC_8_4' / spare 8 bits TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BPDMIC_8_3' / spare 8 bits TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BPDMIC_8_2' / spare 8 bits TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BPDMIC_8_1' / spare 8 bits TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BPDDSPMTHCNT' / DSP interface method count TFORM88 = '1B ' / data format of field: BYTE TTYPE89 = 'BPDDSPERRCNT' / DSP interface total errors TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BPDDSPCMDCNT' / DSP interface commands sent TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BPDDSPCANCNT' / DSP interface cancel count TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BPDDSPLSTPRI' / DSP interface last priority TFORM92 = '1B ' / data format of field: BYTE TTYPE93 = 'BPDDSPERRCRD' / DSP interface card errors TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BPDDSPERRMTX' / DSP interface mutex errors TFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BPDDSPERRCMD' / DSP interface cmd len errs TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BPDDSPERRINT' / DSP not responding errs TFORM96 = '1B ' / data format of field: BYTE TTYPE97 = 'BPDDSPINTSOK' / DSP interface interrupts OK TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BPDDSPERRHLT' / not used in software ver 4.1 TFORM98 = '1B ' / data format of field: BYTE TTYPE99 = 'BPDDSPERRWAT' / DSP not completing errs TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BPDDSPINTCNT' / DSP interface interrupt count TFORM100= '1B ' / data format of field: BYTE TTYPE101= 'BPDDSPTSKCNT' / DSP interface hipri task count TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BPDDSPERRTSK' / DSP interface hipri task errs TFORM102= '1B ' / data format of field: BYTE TTYPE103= 'BPDDSPERRTLM' / DSP interface response length errs TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BPDDSPINTENA' / DSP interface interrupts enabled TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BPDDSPRESET' / DSP being held in reset flag TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BPDDSPxx08x2' / DSP interface ??? spare byte TFORM106= '1B ' / data format of field: BYTE TTYPE107= 'BPDDSPxx08x1' / DSP interface ??? spare byte TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BPDDSPxx32x3' / DSP interface ??? spare dword TFORM108= '1J ' / data format of field: 4-byte INTEGER TZERO108= 2147483648 / offset for unsigned integers TTYPE109= 'BPDDSPxx32x2' / DSP interface ??? spare dword TFORM109= '1J ' / data format of field: 4-byte INTEGER TZERO109= 2147483648 / offset for unsigned integers TTYPE110= 'BPDDSPxx32x1' / DSP interface ??? spare dword TFORM110= '1J ' / data format of field: 4-byte INTEGER TZERO110= 2147483648 / offset for unsigned integers EXTNAME = 'hk130x001' 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 = 572323508.09194 TSTOP = 572325593.09184 DATE-OBS= '2019-02-20T02:45:03' DATE-END= '2019-02-20T03:19:48' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2084.99989998341 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 304 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:39' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'COjiFLghCLghCLgh' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2527284732' / data unit checksum updated 2019-03-02T08:35:39 TRDHI4 = 2 / BHKPKTERRS Red upper limit = BHK_PKTERR_LIM TYEHI4 = 1 / BHKPKTERRS Yellow upper limit = BHK_PKTERR_LIM TRDHI16 = 2 / BPDBCBERROVR Red upper limit = BPD_BCBERROVR_LITYEHI16 = 1 / BPDBCBERROVR Yellow upper limit = BPD_BCBERROVRTRDHI17 = 2 / BPDBCBERRWRP Red upper limit = BPD_BCBERRWRP_LITYEHI17 = 1 / BPDBCBERRWRP Yellow upper limit = BPD_BCBERRWRPTRDHI18 = 2 / BPDBCBERRIDX Red upper limit = BPD_BCBERRIDX_LITYEHI18 = 1 / BPDBCBERRIDX Yellow upper limit = BPD_BCBERRIDXTRDHI20 = 2 / BPDBCBERRMTX Red upper limit = BPD_BCBERRMTX_LITYEHI20 = 1 / BPDBCBERRMTX Yellow upper limit = BPD_BCBERRMTXTRDHI31 = 2 / BPDBCDHERRCNT Red upper limit = BPD_BCDHERRCNT_TYEHI31 = 1 / BPDBCDHERRCNT Yellow upper limit = BPD_BCDHERRCTRDHI67 = 2 / BPDMEMERRMTX Red upper limit = BPD_MEMERRMTX_LITYEHI67 = 1 / BPDMEMERRMTX Yellow upper limit = BPD_MEMERRMTXTRDHI70 = 2 / BPDMICERRCNT Red upper limit = BPD_MICERRCNT_LITYEHI70 = 1 / BPDMICERRCNT Yellow upper limit = BPD_MICERRCNTTRDHI71 = 2 / BPDMICERRMTX Red upper limit = BPD_MICERRMTX_LITYEHI71 = 1 / BPDMICERRMTX Yellow upper limit = BPD_MICERRMTXTRDHI73 = 2 / BPDBCDHERRVAL Red upper limit = BPD_BCDHERRVAL_TYEHI73 = 1 / BPDBCDHERRVAL Yellow upper limit = BPD_BCDHERRVTRDHI74 = 2 / BPDBCDHERRLST Red upper limit = BPD_BCDHERRLST_TYEHI74 = 1 / BPDBCDHERRLST Yellow upper limit = BPD_BCDHERRLTRDHI76 = 2 / BPDBCDHERRLEN Red upper limit = BPD_BCDHERRLEN_TYEHI76 = 1 / BPDBCDHERRLEN Yellow upper limit = BPD_BCDHERRLTRDHI77 = 2 / BPDBCDHERRBUF Red upper limit = BPD_BCDHERRBUF_TYEHI77 = 1 / BPDBCDHERRBUF Yellow upper limit = BPD_BCDHERRBTRDHI78 = 2 / BPDBCDHERRTGT Red upper limit = BPD_BCDHERRTGT_TYEHI78 = 1 / BPDBCDHERRTGT Yellow upper limit = BPD_BCDHERRTTRDHI89 = 2 / BPDDSPERRCNT Red upper limit = BPD_DSPERRCNT_LITYEHI89 = 1 / BPDDSPERRCNT Yellow upper limit = BPD_DSPERRCNTTRDHI93 = 2 / BPDDSPERRCRD Red upper limit = BPD_DSPERRCRD_LITYEHI93 = 1 / BPDDSPERRCRD Yellow upper limit = BPD_DSPERRCRDTRDHI94 = 2 / BPDDSPERRMTX Red upper limit = BPD_DSPERRMTX_LITYEHI94 = 1 / BPDDSPERRMTX Yellow upper limit = BPD_DSPERRMTXTRDHI95 = 2 / BPDDSPERRCMD Red upper limit = BPD_DSPERRCMD_LITYEHI95 = 1 / BPDDSPERRCMD Yellow upper limit = BPD_DSPERRCMDTRDHI96 = 2 / BPDDSPERRINT Red upper limit = BPD_DSPERRINT_LITYEHI96 = 1 / BPDDSPERRINT Yellow upper limit = BPD_DSPERRINTTRDHI99 = 2 / BPDDSPERRWAT Red upper limit = BPD_DSPERRWAT_LITYEHI99 = 1 / BPDDSPERRWAT Yellow upper limit = BPD_DSPERRWATTRDHI102= 2 / BPDDSPERRTSK Red upper limit = BPD_DSPERRTSK_LITYEHI102= 1 / BPDDSPERRTSK Yellow upper limit = BPD_DSPERRTSKTRDHI103= 2 / BPDDSPERRTLM Red upper limit = BPD_DSPERRTLM_LITYEHI103= 1 / BPDDSPERRTLM Yellow upper limit = BPD_DSPERRTLMHISTORY TASK: FAPPND on FILENAME: sw00889785000b130x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Z ıg pN N{И==p(݀3A{a¹gT pV) V)==O3A{i jg p^ ^=='03A{p€g؀ pf?  f6Dܘ==K3A{x Հh pnp m==ݖl3A{Qh\ pu$ u$==0E3A{ h p}m }m==역3A{h p'< ؀d==ӘÀ3A{ i" ps k$ ==֪y4A{ıid pՄ $+`==bԀ4A{ Gi p ߫$ ==י<#4A{ji p V MD̘>>r>4A{ }j* p % %>>_5A{jl p  퐀>>'Zz5A{ €j p  >>C€5A{ʋ٩j p  0>>5A{ jk2 p ( >>J׀5A{ً¹kt p S< J >>5A{ ık p . .>>IH5A{jk p T p>>F.5A{ ¹l: p  Ę>> O5A{l| p ѵ ѵ>>fj5A{ l p E =l>>: 5A|m p  >>We5A| jmB p  dd>>B̀ހ5!A|jm p  ڔ >>(5'A| mƀ p  >>5-A|$€n p   >>554A|, jnJ p  4>>SV5;A|3jn p ) )>>Ѐq5AA|; n΀ p >$ 4 >>5HA|B€o p "M "DĀ >>9q5OA|J €oR p * *>>|ـ΀5VA|Qao p 2 2 XT>>Ԃ45^A|Y €oր p ;  ; t>>| 5eA|`Xp p CRL CI܀p>>)5lA|h 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!伀T>>@"~7A~* Ҁ p )H )H>>›"7A~1a p 1 1 $>>l"8A~9 ¹V p 9 9|Ę>>Ԁ"ۀ8A~@ p A_T AW$0>>/"8 A~H jڀ p I= I5<`>>#8 A~O¹ p Q Q>> #28 A~W ^ p X X@X>>Z#S8% A~^ı p ` ``@pИ>>؝#p8- A~f  p h h>>##87A~m¹$ p p p>>~#8=A~u ¹f p yh yh>>"#8CA~|j p  >>%}#8IA~  p  <>>$ 8PA~¹, p t X>>*@$;8VA~ n p  TĘ>>쀨$\8\A~¹ p 0 $ >>Ӂ$w8bA~ > p ֨ ֨>>k$8j A~4 p } r@ \>>3ƀ$8p$$A~ jv p x k8 d>>i.$Ԁ8w&&A~¹ p o _>> $8//A~ ݀ p @ .\>>#^%888A~Nja< p ` `>>eL%+8@@A~ ¹~ p(D>>Β%L8KKA~֋j p&KXD>>2n%g8WWA~ a pLZdFD >>w%8YYA~aD p{Pm;D >>MҀ%8[[A~ ƨ p<D Ԙ>>p:%Ā8aaA~XȀ p$;D8x>>~%߀8aaA~ ı  pCHkDbݸ>>k&8iiA¹L pj;D/>> ܆v&%9ooA  p a3KD?>qހ&F9ooAPЀ p DeDHȘ?> ;&b9ooA ¹ p $ D?>43&9ooA!ײT p Dh?>0&:ooA) X p  |ix??43f&:ooA0؀ p  |@8??0&ڀ:ooA8 ¹ p  |??43)&:rrA? \ p  ℀??0':rrAG  p 4 dИ??>p('N:rrAN p {$ {$??1'i:rrAV ¹" p zp zp??4H!': rrA] d p l0 i`И??0|':&rrAe j p k@ k@??43'؀:0uuAlj p Z0 Z0??1?':6uuXTENSION= '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 = 572323508.09276 TSTOP = 572325593.09266 DATE-OBS= '2019-02-20T02:45:03' DATE-END= '2019-02-20T03:19:48' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2084.99989998341 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 305 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'TAaST2TRT8YRT8YR' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '62610423' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b131x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Z ߏtarg/temp/onslew.vet !,d n/WnnA{YۀA{Yz˜zˀ(Ȁ38A{atarg/temp/onslew.vet !,d n53nG€€nA{a<A{azz^v)8A{i Htarg/temp/onslew.vet !,d n;nՁррnA{h4A{hzzՄЀ)^/8A{pۡtarg/temp/onslew.vet !,d n@nָnA{pA{pzzL*)xz8A{x targ/temp/onslew.vet !,d nFǐnnA{wA{wz;z;Ä)Ȼ8A{0targ/temp/onslew.vet !,d nLn(nA{ۀA{zWzW:ހ*?8A{ ݘtarg/temp/onslew.vet !,d nRna  nA{A{zszsԱ8*k8A{targ/temp/onslew.vet !,d nX[nۘnA{A{zz(*Հ28A{ @targ/temp/onslew.sou rd o^7nѢ++o A{4A{z!z!ן+ ʓ:A{ߏtarg/temp/onslew.lng ԀԀ2'2s:A|Y ۡtarg/temp/onslew.vet !,d pnpA|X4A|XzXzX(2ݸ:A|`7targ/temp/onslew.vet !,d pknpA|`A|`zZzZ,(m3 I:A|h @targ/temp/onslew.vet !,d pGnππpA|gA|gz\z\(ǀ3T^:A|o@targ/temp/onslew.vet !,d p#o)ހހpA|o{A|oz^ڜz^ڀ)!35 :A|w targ/temp/onslew.vet !,d p obpA|vA|vz`z`){3}:A|~ targ/temp/onslew.vet !,d pېopA|~4A|~zczc)Հ45:A| Htarg/temp/onslew.vet !,d poҢ  pA|"A|ze.ze.*/4?^:A|targ/temp/onslew.vet !,d po pA|ۀA|zgJzgJ*4ˀ:A| targ/temp/onslew.vet !,d q%ooC))q A|ۀA|zifzif m*5f:A|@targ/temp/onslew.vet !,d q+Koz88qA|A|zkzk +=5aF:A| &targ/temp/onslew.vet !,d q#1'oGGq)A|A|zmzm [+5:A|targ/temp/onslew.vet !,d q27o VVq8A|A|zozo ҄+5:A| targ/temp/onslew.vet !,d qA<ߐo #eeqGA|ۀA|zq֜zqրI,K6B?:A|@targ/temp/onslew.vet !,d qPBo ZttqVA|4A|zszs,6k:A| targ/temp/onslew.vet !,d q_Ho qeA|XA|zvzv7,6؀:A|ɋHtarg/temp/onslew.vet !,d qnNsoʢqtA|4A|zx*zx*-Y7#e:A| ݘtarg/temp/onslew.vet !,d q}TOoqA|ІۀA|ЀzzFzzF%-7n:A|؋ۡtarg/temp/onslew.vet !,d qZ+o:qA|ۀA|z|bz|b. 7=:A| targ/temp/onslew.vet !,d q`osqA|߆A|߀z~~z~~.g8|::A|targ/temp/onslew.vet !,d qeo΀΀qA|ۀA|zz.8Ob:A| targ/temp/onslew.vet !,d qko݀݀qA|+A|zz/82:A|@targ/temp/onslew.vet !,d qqoqA|ۀA|zҜzҀx/u8:A| targ/temp/onslew.vet !,d qwwoSqA|4A|zz/π90:A}@targ/temp/onslew.vet !,d q}So  qA}A}z z f0)9{x:A} targ/temp/onslew.vet !,d q/oâqA} A} z&z& ݄09ƀ:A}Htarg/temp/onslew.vet !,d r o((r A}4A}zBzB"T0݀:w:A} Ѐtarg/temp/onslew.vet !,d ro377rA}ۀA}z`z`#˄19:\X8<A}#targ/temp/onslew.vet !,d r"ÐojFFr(A}#ۀA}#z|z|%B1:$~=A}+ targ/temp/onslew.vet !,d r1oUUr7A}*ۀA}*zz&1:=A}2targ/temp/onslew.vet !,d r@{oۢddrFA}2A}2zz(02G;=z=A}: Htarg/temp/onslew.vet !,d rOWo!ssrUA}9ۀA}9zМzЀ)2; =A}Aߏtarg/temp/onslew.vet !,d r^3o"KrdA}AA}Azz+2;Ӏn X=A}I targ/temp/onslew.vet !,d rmo#rsA}HA}Hz z ,3V< =A}Ptarg/temp/onslew.vet !,d r|o$rA}P4A}Pz%z%. 3+=A} 7targ/temp/onslew.vet !,d ro-D  rA}4A}zz8M6&>ve=A}targ/temp/onslew.vet !,d rːo.{rA}ӀA}zz9Ą6> J=A} targ/temp/onslew.vet !,d s짐o/''s A}A}z!z!;;6ڀ? 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'x`h@  8"""""""""""""""AVF  qADHqA\H'KI`JDG@ 1ÀhPX0 6"""""""""""""""A^%KIF  qADHqA\H'KI_JCG, BP!pxP """""""""""""""AeıF  qADHqA\H'KI_JDG5 BPpxP  _"""""""""""""""Am%LF  qADHqA\H'_KH^JAF& 9πx`h@ D"""""""""""""""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 = 572323509.2922 TSTOP = 572325594.29226 DATE-OBS= '2019-02-20T02:45:04' DATE-END= '2019-02-20T03:19:49' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2085.00006008148 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 307 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YGoebGnZZGnbaGnZ' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '646422637' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b133x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Zfπpph>k*k*=/rzBpOqB /rz /rz/rzBpM B /rzDDDDDDDDDDA{b%f'ppo4k<k<v/rzBp@B /rz /rz/rzBp> B /rzDDDDDDDDDDA{iinppv*kNkN/rzBp1B /rz /rz/rzBp/ B /rzDDDDDDDDDDA{q%gwpp} k`k`/rzBp"B /rz /rz/rzBp B /rzDDDDDDDDDDA{xgwppkrkr!/rzBpB /rz /rz/rzBp B q/rzDDDDDDDDDDA{%hpp kkZ/rzBpB /rz /rz/rzBp B b/rzDDDDDDDDDDA{fπppkk/rzBpˢB /rz /rz/rzBp B S/rzDDDDDDDDDDA{%inppkk/rzBpڢB /rz /rz/rzBp B D/rzDDDDDDDDDDA{gwppkkoB rc o ooB q B 5oDDDDDDDDDDA{%pppk̀k?oB rc o ooB q B &oDDDDDDDDDDA{hppkހkyoB rc o ooB q B oDDDDDDDDDDA{%kfppkkoB rc o ooB q B oDDDDDDDDDDA{ BpplloB rc o ooB q BoDDDDDDDDDDA{+l7pp¼ll&oB rc o ooB q BoDDDDDDDDDDA{åfπppɲl&l&_oB ey o ooB d BۀoDDDDDDDDDDA{%ppШl8l8oB Vy o ooB U B̀oDDDDDDDDDDA{ҥjppמlJlJoB Gy o ooB F BoDDDDDDDDDDA{%fπppޔl\l\ oB 8-y o ooB 7 BoDDDDDDDDDDA{gwpplnlnCoB )<y o ooB ( BoDDDDDDDDDDA{%fπppll|oB Ky o ooB  BoDDDDDDDDDDA{inÀppvlloB Zy o ooB BoDDDDDDDDDDA{%hƀ€€ppllloBiy o ooB BroDDDDDDDDDDA{gwɀŀŀppbll'oBxy o ooB BcoDDDDDDDDDDA|%h̀ȀȀppXlȀl`oBހy o ooB݁ BToDDDDDDDDDDA|kfπˀˀppNlڀloBπy o ooB΁ BEoDDDDDDDDDDA|%fπҀ΀΀ppDlloBy o ooB B6oDDDDDDDDDDA|gwՀррpp:ll oBy o ooB B'oDDDDDDDDDDA|%%gw؀ԀԀpp$0mmFoBây o ooB BoDDDDDDDDDDA|,ۀ׀׀pp+&m"m"oBҢy o ooB B oDDDDDDDDDDA|4%gwހڀڀpp2m4m4oBy o ooB BoDDDDDDDDDDA|;gw݀݀pp9mFmFoBuy o ooBt BoDDDDDDDDDDA|C%gwpp@mXmX+oBfy o ooBe B܀oDDDDDDDDDDA|JhppFmjmjeoBWy o ooBV B̀oDDDDDDDDDDA|R%߀ppMm|m|oBHy o ooBG BoDDDDDDDDDDA|YhǀppTmmoB9,y o ooB8 BoDDDDDDDDDDA|a%fπpp[mmoB*;y o ooB) BoDDDDDDDDDDA|hppbmmKoBJy o ooB BoDDDDDDDDDDA|p&ppimĀmoB Yy o ooB BoDDDDDDDDDDA|wopppmրmoBhy o ooB BsoDDDDDDDDDDA|+ppwmmoBwy o ooB BdoDDDDDDDDDDA|gwpp~mm/oB߀y o ooBށ BUoDDDDDDDDDDA|%ˀppn n koBЀy o ooBρ BFoDDDDDDDDDDA|gwppnnoBy o ooB B7oDDDDDDDDDDA|%hǀppn0n0oBy o ooB B(oDDDDDDDDDDA|fπ ppnBnBoB¢y o ooB BoDDDDDDDDDDA|%gw  pp|nTnTToBѢy o ooB B oDDDDDDDDDDA|Z  pprnfnfoBy o ooB BoDDDDDDDDDDA|%hǀpphnxnxoBvy o ooBu BoDDDDDDDDDDA|¥hpp^nnoBgy o ooBf B݀oDDDDDDDDDDA|%f'ppTnn8oBX y o ooBW B΀oDDDDDDDDDDA|ѥinppJnnqoBIy o ooBH BoDDDDDDDDDDA|%gw pp@nnoB:+y o ooB9 BoDDDDDDDDDDA|fπ#pp6nҀnoB+:y o ooB* BoDDDDDDDDDDA|%j&""pp,nnoBIy o ooB BoDDDDDDDDDDA|j)%%pp"nnVoB Xy o ooB BoDDDDDDDDDDA|%hǀ,((ppoooBgy o ooB BtoDDDDDDDDDDA|ހ/++ppoooBvy o ooB BeoDDDDDDDDDDA}%fπ2..ppo,o,oBy o ooB߁ BVoDDDDDDDDDDA} j511ppo>o>;oBрy o ooBЁ BGoDDDDDDDDDDA}%h844ppoPoPtoB€y o ooB B8oDDDDDDDDDDA}l;77pp obob B5 oB B DDDDDDDDDDA}$%fπ>::ppotot B5 oB B DDDDDDDDDDA}+inA==ppoo! B5 oB B DDDDDDDDDDA}3%hD@@ppooZ B5 oB B DDDDDDDDDDA}:hǀGCCpp%oo B5 oBv B DDDDDDDDDDA}B,JFFpp,oo B{ oBg B DDDDDDDDDDA}IhǀMIIpp3o΀o B{ oBX B DDDDDDDDDDA}Q%fπPLLpp:oo> Bv&{ oBI Bt DDDDDDDDDDA}XSOOppAoow Bg5{ oB: Be DDDDDDDDDDA}`,ˀVRRppHpp BXD{ oB+ BV DDDDDDDDDDA}ggwYUUppOpp BIS{ oB BG DDDDDDDDDDA}o%fπ\XXppVxp(p($ B:b{ oB B8 DDDDDDDDDDA}v'|_[[pp]np:p:] B+q{ oB B) DDDDDDDDDDA}~%gwb^^ppddpLpL B{ oB B DDDDDDDDDDA} eaappkZp^p^ B { oB B DDDDDDDDDDA}*dhddpprPpppp  B{ oBр B DDDDDDDDDDA}hǀkggppyFppB B{ oB€ B DDDDDDDDDDA}*njjpp )B BY DDDDDDDDDDA~%hppssO  BL> )B BJ DDDDDDDDDDA~Ǐppzss  B=> )B B; DDDDDDDDDDA~. )B B, DDDDDDDDDDA~hppfss B> ) ))B B)DDDDDDDDDDA'<pp\ss7)B< ) ))B B)DDDDDDDDDDA l7ppRtts)B< ) ))B B)DDDDDDDDDDA&rppHtt)B< ) ))B B)DDDDDDDDDDA fpp>t*t*)B< ) ))B B)DDDDDDDDDDA"%h pp4t<t<! )B4 )B B ـ)DDDDDDDDDDA)hǀ  pp*tNtNZ )B4 )B B ʀ)DDDDDDDDDDA1,\  pp t`t` )BӀ4 )BҀ B )DDDDDDDDDDA8]pptrtr )BĀ4 )BÀ B )DDDDDDDDDDA@%fπpp tt )B4 )B B )DDDDDDDDDDAGhǀpp tt> )B4 )B B )DDDDDDDDDDAO%hppttv )B4 )B B )DDDDDDDDDDAVpptt )B4 )B B p)DDDDDDDDDDA^%f'"pp!t̀t )By4 )Bx B a)DDDDDDDDDDAe7%!!pp(tހt" )Bj4 )Bi B R)DDDDDDDDDDAm%hǀ($$pp/tt[ )B[4 )BZ B C)DDDDDDDDDDXTENSION= '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 = 572323510.4425 TSTOP = 572325595.44186 DATE-OBS= '2019-02-20T02:45:05' DATE-END= '2019-02-20T03:19:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2084.99935996532 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 308 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'DTKcGQIZDQIbDQIZ' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '4264931618' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b134x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[8׀ހ iA{bÀހ iA{j8ހ iA{qkހ iA{y8?ހ iA{Àހ iA{8Àހ iA{Àހ iA{8߀ kA{߀ mA{8߀ nA{ ߀ rA{8߀ tA{ ߀ tA{8?߀ tA{˸߀ tA{8À߀ tA{ڸÀ߀ tA{8.߀ tA{鸂k߀ tA{8߀ tA{7߀ tA|8߀ tA|À߀ tA|8ހ߀ tA|߀ tA|8߀ tA|%k߀ tA|-8k߀ tA|4À߀ tA|<8À߀ tA|C߀ tA|K8 uA|R uA|Z8k uA|a uA|i8k vA|p vA|x8? vA|À vA|8À vA| vA|8 wA| wA|8 wA| wA|8 wA| wA|8b wA|ʸÀ wA|8À wA|ٸ? wA|8k wA|踂k wA|8À wA|À wA|8k wA} wA}8 wA} wA}87 zA}$ A},8 A}3 A};8 A}BÀ# A}J8k, A}QY5 A}Y8k> A}`kG A}h8kP A}o Y A}w8Àb A}~7k A}8kt A}} A}8 A}k A}8À A} A}8k A}k A}8k A}ɸŀ A}8H΀ A}ظ7׀ A}8k A}縂k A}8 A} A}8À A~S A~ 8ր A~ A~8k( A~#.1 A~+8k: A~2C A~:8kL A~A U A~I8^ A~Pg A~X8kp A~_ky A~g8 A~n A~v8 A~} A~8k A~À A~8H A~ A~8ʀ A~Ӏ A~8À܀ A~  A~8À A~ȸ A~8 A~׸ A~8 A~渃 A~8$ A~.- A~8}6 AY? A 8H AÀQ A8Y A"րc A*8l A1u A98k~ A@k AH8k AOk AW8  A^ Af8À Amހ 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 = 572323510.4434 TSTOP = 572325595.44276 DATE-OBS= '2019-02-20T02:45:05' DATE-END= '2019-02-20T03:19:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2084.99935996532 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 309 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '0Ma33JX10Ja10JU1' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1309077214' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b135x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[8U6 s= N(A{b6 s= N(A{j886 s= O(A{q6 s= O(A{y8v6 s= O(A{S6 s= O(A{86 s= O(A{6 s= N](A{86 s= N](A{6 s= N](A{86 s= N](A{6 s= N](A{86 s= N](A{/6 s= N](A{8ƀ6 s= w)A{˸6 s= w)A{86 s= w)A{ڸ6 s= w)A{8 6 s= w)A{鸟6 s= U(A{886 s= U(A{\6 s= U(A|8e6 s= U(A|6 s= Y (A|8\6 s= Y (A|v6 s= Y (A|886 s= Y (A|%6 s= O (A|-86 s= MG(A|46 s= MG(A|<86 s= M(A|C86 s= M(A|K8A6 s= O(A|R6 s= M(A|Z86 s= MU(A|a6 s= M(A|i86 s= Q*A|p86 s= N(A|x86 s= ML(A|S6 s= ML(A|86 s= ML(A|A6 s= ML(A|86 s= Z(A|6 s= Z(A|86 s= Z(A|6 s= Z(A|86 s= Z(A|m6 s= Z (A|86 s= Z (A|ʸA6 s= Z (A|8A6 s= Z (A|ٸe6 s= [y(A|8\6 s= [y(A|踟6 s= [y(A|86 s= [y(A|6 s= Zg(A|8V6 s= Zg(A}6 s= Zg(A}886 s= Zg(A}6 s= RP(A}8\6 s= V6(A}$6 s= f)A},86 s= f)A}386 s= f)A};86 s= f)A}B6 s= f)A}J86 s= f)A}Q86 s= f)A}Y86 s= f)A}`6 s= f)A}h86 s= f)A}oK6 s= f)A}w86 s= f)A}~\6 s= f)A}86 s= f)A}86 s= f)A}86 s= f)A}6 s= f)A}8A6 s= f)A}ƀ6 s= f)A}886 s= f)A}6 s= f)A}86 s= f)A}ɸ86 s= f)A}8m6 s= f)A}ظ\6 s= f)A}86 s= *A}縠6 s= *A}86 s= *A}M6 s= *A}86 s= *A~y6 s= O(A~ 8S6 s= O(A~A6 s= O(A~86 s= O(A~#6 s= O(A~+86 s= V~(A~286 s= V~(A~:86 s= V~(A~A16 s= M(A~I86 s= M( A~P6 s= M( A~X86 s= M( A~_6 s= M( A~g86 s= *A~n6 s= *A~v86 s= *A~}86 s= *A~86 s= ci(A~A6 s= ci(A~8m6 s= ci(A~6 s= ci(A~86 s= g1( A~6 s= [dY($A~86 s= [dY(&A~6 s= Z^(/A~8A6 s= Y6(8A~ȸ6 s= M(@A~86 s= T!0(KA~׸6 s= M+(WA~86 s= M(YA~渡86 s= M([A~86 s= M(aA~\6 s= M(aA~8K6 s= Z0(iA6 s= #˗)oA 86 s= #˗)oAA6 s= #˗)oA86 s= #˗)oA"\6 s= #˗)oA*86 s= #˗)oA186 s= #˗)oA986 s= €$ e*rA@6 s= €$ e*rAH86 s= €$ e*rAO6 s= €$ e*rAW8/6 s= €$ e*rA^m6 s= €$ e*rAf8A6 s= À$ *uAm\6 s= À$ *uXTENSION= '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 = 572323510.44422 TSTOP = 572325595.44364 DATE-OBS= '2019-02-20T02:45:05' DATE-END= '2019-02-20T03:19:50' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2084.99942004681 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 310 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'OrhSOofROofROofR' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '763946423' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b136x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[83 A{b A{j8 A{q A{y8L A{р A{8 A{ A{8A{A{8ʂA{f A{8 A{ A{8Ĝ A{˹ A{8 A{ڸf A{8Ȋ A{} A{8 A{ڀ A|8 A|Ȋ A|8Ɠ A| A|8ڀ A|% A|-8f A|4 A|<82 A|Cʂ A|K8 A|Rf A|Z8 A|aʂ A|i8f A|p A|x8 A|2 A|8 A|A|8f A|Ɠ A|8) A|] A|8 A|C A|8 A|ʸ A|8 A|ٸĜ A|8ڀ A|踽f A|8f A|f A|8| A} A}8 A} A}8ڀA}$A},8 A}3f A};8L A}B! A}J8f A}Q A}Y8ʂ A}` A}h8f A}oȀ A}w8f A}~Ɠ A}82 A} A}8 A}f A}8 A}C A}8 A} A}8ڀ A}ɸ] A}8C A}ظʂ A}8 A}總f A}8 A}s A}8 A~O A~ 8 A~ A~8 A~#; A~+8 A~2 A~:8 A~AӮ A~I8f A~Pf A~X8f A~_y A~g8 A~nf A~v8ی A~} A~8f A~ A~8C A~] A~8f A~) A~8 A~ A~8 A~ȸ A~8f A~׸ A~8f A~渾 A~8 A~ڀ A~8)!AȀ! A 8! A! A8Ɠ! A"ڀ! A*8ʂ! A1)! A98f! A@ڀ" AH8f % AOڀ % AW8f % A^ % Af8 % Am2 % 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 = 572323501.64142 TSTOP = 572325586.64142 DATE-OBS= '2019-02-20T02:44:56' DATE-END= '2019-02-20T03:19:41' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2085. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 311 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'DAA4G544DAA4D334' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2627363912' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b137x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{V targ/mode/tables/toflttbl.gzo >7A=>7@ LMXp A1xA{^Retarg/mode/tables/toflttbl.gzo d>7A=>7VI@ LMXp A1xA{eetarg/mode/tables/toflttbl.gzo DZ>7A=>7f@ LMXp A1xA{mRetarg/mode/tables/toflttbl.gzo d@7A=?7Z@ LMXp A1xA{t targ/mode/tables/toflttbl.gzo Ȥ@7A=?7@ LMXp A1xA{|Rtarg/mode/tables/toflttbl.gzo @7A=?7$QC LMXp A1xA{targ/mode/tables/toflttbl.gzo I@7A=?7@ LMXp A1xA{Retarg/mode/tables/toflttbl.gzo A7A=@7C LMXp A1xA{ targ/mode/tables/toflttbl.gzo #A7A=@7v@i LMXp A1xA{R targ/mode/tables/toflttbl.gzo PB7A=@7Z{@ LMXp A1xA{targ/mode/tables/toflttbl.gzo vD7A=@7{ LMXp A1xA{Rtarg/mode/tables/toflttbl.gzo `E7A=@7a{ LMXp A1xA{ targ/mode/tables/toflttbl.gzo 0ͨG7A=@7.}@ LMXp A1xA{Retarg/mode/tables/toflttbl.gzo cH7A=@7@ LMXp A1xA{ targ/mode/tables/toflttbl.gzo FJ7A=@7݀ LMXp A1NA{Rtarg/mode/tables/toflttbl.gzo K7B=@7, LMXp A1NA{etarg/mode/tables/toflttbl.gzo ԓK7B=@7#eX LMXp A1NA{Rtarg/mode/tables/toflttbl.gzo "L7B=A7S@ LMXp A1NA{etarg/mode/tables/toflttbl.gzo iL7B=A7 LMXp A1NA{Rtarg/mode/tables/toflttbl.gzo M7B=B7# LMXp A1NA{ targ/mode/tables/toflttbl.gzo VM7B=B7"_R@ LMXp A1NA{Retarg/mode/tables/toflttbl.gzo ֝M7B=B7u LMX A1NA{targ/mode/tables/toflttbl.gzo M7B=B7 LMX A1NA|Retarg/mode/tables/toflttbl.gzo {N7B=B7 LMX A1NA| etarg/mode/tables/toflttbl.gzo O7B=C7JXK@ LMX A1NA|Retarg/mode/tables/toflttbl.gzo HO7B=C7@ LMX A1NA|/targ/mode/tables/toflttbl.gzo ؟O7B=C7N LMX A1NA|!Rtarg/mode/tables/toflttbl.gzo O7B=C7 LMX A1NA|( targ/mode/tables/toflttbl.gzo ٺQ7B=D7NA@ LMX A1NA|0Retarg/mode/tables/toflttbl.gzo Q7B=D7fy LMX A1NA|7%1targ/mode/tables/toflttbl.gzo ]Q7B=D7 LMX A1NA|?Retarg/mode/tables/toflttbl.gzo R7B=D7 LMX A1NA|Fetarg/mode/tables/toflttbl.gzo ۟R7B=D7+@ LMX A1NA|NRetarg/mode/tables/toflttbl.gzo U7B=F7YL@ LMX A1NA|U targ/mode/tables/toflttbl.gzo ݞW7B=F7~q@ LMX A1NA|]Rtarg/mode/tables/toflttbl.gzo P5X7B=F7?s@ LMX A1$A|dStarg/mode/tables/toflttbl.gzo pްX7B=F7u LMX A1$A|lRtarg/mode/tables/toflttbl.gzo `Y7B=F7J LMX A1$A|setarg/mode/tables/toflttbl.gzo 0][7B=F7: LMX A1$A|{RTtarg/mode/tables/toflttbl.gzo ]7C=G7} LMX A1$A|etarg/mode/tables/toflttbl.gzo '`7C=J7& LMXp A1$A|Retarg/mode/tables/toflttbl.gzo q`7C=J7Cc LMXp A1$A|targ/mode/tables/toflttbl.gzo @`7C=J7[ LMXp A1$A|Rtarg/mode/tables/toflttbl.gzo 2c7C=L7/ LMXp A1$A|\targ/mode/tables/toflttbl.gzo xc7C=L7@q LMXp A1$A|Retarg/mode/tables/toflttbl.gzo c7C=L7O@ LMXp A1$A|targ/mode/tables/toflttbl.gzo c7C=L7@ LMXp A1$A|Rtarg/mode/tables/toflttbl.gzo d7C=M7/ LMXp A1$A|targ/mode/tables/toflttbl.gzo d7C=M7O p LMXp A1$A|Rtarg/mode/tables/toflttbl.gzo Kd7C=M7O LMXp A1$A|targ/mode/tables/toflttbl.gzo d7C=M7@ LMXp A1$A|Retarg/mode/tables/toflttbl.gzo 'e7C=N7. LMXp A1$A|targ/mode/tables/toflttbl.gzo ke7C=N7> n@ LMXp A1$A|Retarg/mode/tables/toflttbl.gzo e7C=N7N@ LMXp A1$A| targ/mode/tables/toflttbl.gzo e7C=N77 LMXp A1$A|R targ/mode/tables/toflttbl.gzo qe7C=N7g LMXp A1$A|targ/mode/tables/toflttbl.gzo ~f7C=O7r LMXp A1A}R targ/mode/tables/toflttbl.gzo -g7C=O7$@9 LMXp A1A} etarg/mode/tables/toflttbl.gzo g7C=O7 o LMXp A1A}Retarg/mode/tables/toflttbl.gzo ?h7C=P7I LMXp A1A}targ/mode/tables/toflttbl.gzo j7C=R7@u؀ LMXp A1A} RTtarg/mode/tables/toflttbl.gzo pun7C=R7@ LMXp A1A}' targ/mode/tables/toflttbl.gzo `r7C=S7 LMXp A1A}/R4targ/mode/tables/toflttbl.gzo `0r7C=S7@' LMXp A1A}6targ/mode/tables/toflttbl.gzo @t7D=S7KG LMXp A1A}>R/targ/mode/tables/toflttbl.gzo u7 D=S7@ LMXp A1A}Eetarg/mode/tables/toflttbl.gzo yu7 D=S72@4 LMXp A1A}MR targ/mode/tables/toflttbl.gzo !u7 D=S7{@ LMXp A1A}T targ/mode/tables/toflttbl.gzo u7 D=S7m_@ LMXp A1A}\Retarg/mode/tables/toflttbl.gzo ~u7 D=S7/ LMXp A1A}cetarg/mode/tables/toflttbl.gzo 2u7 D=S7c@ LMXp A1A}kR-targ/mode/tables/toflttbl.gzo `u7 D=S7A LMXp A1A}retarg/mode/tables/toflttbl.gzo r u7 D=S7=|@ LMXp A1A}zR targ/mode/tables/toflttbl.gzo PHu7 D=S7V<@ LMXp A1A}targ/mode/tables/toflttbl.gzo Vv7 D=S7Vo@ LMXp A1A}Rtarg/mode/tables/toflttbl.gzo H` v7 D=S7@ LMX A1A}targ/mode/tables/toflttbl.gzo 4 Wv7 D=S7`؀;@ LMX A1A}Rtarg/mode/tables/toflttbl.gzo ` v7 D=S7`@ LMX A1A}targ/mode/tables/toflttbl.gzo $w7 D=S7B LMX A1A}Rtarg/mode/tables/toflttbl.gzo $mw7 D=S7 LMX A1A}0targ/mode/tables/toflttbl.gzo I0y7 D=S7π2@ LMX A1A}R targ/mode/tables/toflttbl.gzo +y7 D=S7@X@ LMX A1A}targ/mode/tables/toflttbl.gzo 'ry7 D=S79@ LMX A1A}Retarg/mode/tables/toflttbl.gzo '(z7 D=S7y LMX A1A}%1targ/mode/tables/toflttbl.gzo %z7 D=S7; LMX A1A}RTtarg/mode/tables/toflttbl.gzo @vz7 D=S7A@ LMX A1A}etarg/mode/tables/toflttbl.gzo -{7 D=S7`2 LMX A1A}R targ/mode/tables/toflttbl.gzo -}8 D=S7,h LMX A1A}targ/mode/tables/toflttbl.gzo }8 D=S7@~ LMX A1A}RTtarg/mode/tables/toflttbl.gzo p!>}8 D=S7U@ LMX A1A} targ/mode/tables/toflttbl.gzo "}8 D=S7! LMX A1A~R targ/mode/tables/toflttbl.gzo $}8 D=S7<T LMX A1A~targ/mode/tables/toflttbl.gzo &Z}8 D=S7`@ LMX A1A~R targ/mode/tables/toflttbl.gzo ( }8 D=S7c@ LMX A1A~targ/mode/tables/toflttbl.gzo )~8 D=S7Ce@ LMX A1A~Rtarg/mode/tables/toflttbl.gzo @+d~8 D=S7 LMX A1A~&Ttarg/mode/tables/toflttbl.gzo -%~8 D=S7 @ LMX A1A~.R targ/mode/tables/toflttbl.gzo .~8 D=S7 .  LMX A1A~5targ/mode/tables/toflttbl.gzo Ѱ0~8 D=S7 Q@ LMX A1A~=R targ/mode/tables/toflttbl.gzo 2B~8 D=S7 3 LMX A1A~DTtarg/mode/tables/toflttbl.gzo 4 ~8 D=S7 K LMX A1A~LRetarg/mode/tables/toflttbl.gzo 58 D=S7 (m LMXԀp A1A~S targ/mode/tables/toflttbl.gzo Ґ7_8 D=S7 + LMXp A1A~[RK܀targ/mode/tables/toflttbl.gzo P98 D=S7 2- LMXp A1A~betarg/mode/tables/toflttbl.gzo ǐ:8 D=S7 / LMXp A1A~jRtarg/mode/tables/toflttbl.gzo <8D=S7Y@, LMXp A1A~qetarg/mode/tables/toflttbl.gzo >M8D=S70y@L LMXp A1A~yRtarg/mode/tables/toflttbl.gzo @8D=S7'U LMXp A1A~ targ/mode/tables/toflttbl.gzo `A8E=S7c LMXp A1A~Rtarg/mode/tables/toflttbl.gzo `C{8E=S70ɀ@ LMXp A1A~targ/mode/tables/toflttbl.gzo ~E&8E=S7fɀ LMXp A1A~Rtarg/mode/tables/toflttbl.gzo yF8E=S74 LMXp A1A~etarg/mode/tables/toflttbl.gzo t@H8E=S7*@ LMXp A1A~R\targ/mode/tables/toflttbl.gzo s JR8E=S7:'@ LMXp A1A~etarg/mode/tables/toflttbl.gzo R0L8E=S77 @ LMXp A1A~R\targ/mode/tables/toflttbl.gzo i@M8F=S7F@ LMXp A1A~targ/mode/tables/toflttbl.gzo ZO8H=S7G LMXp A1A~Rtarg/mode/tables/toflttbl.gzo TQ8H=S7L LMXp A1A~etarg/mode/tables/toflttbl.gzo `S8H=T7\@/ LMXp A1A~R targ/mode/tables/toflttbl.gzo `U8H=T79d6 LMXp A1}A~etarg/mode/tables/toflttbl.gzo Y@Wt8H=T7d@7 LMXp A1}A~R targ/mode/tables/toflttbl.gzo O`Y8H=T7d7 LMXp A1}A~targ/mode/tables/toflttbl.gzo H[8H=T7Ye@8 LMXp A1}A~R-targ/mode/tables/toflttbl.gzo =\8H=T7pe8 LMXp A1}A~-targ/mode/tables/toflttbl.gzo 5P^8H=T7f8 LMXp A1}ARStarg/mode/tables/toflttbl.gzo /``s8H=T7f@9 LMXp A1}Atarg/mode/tables/toflttbl.gzo /bk8H=T7lf9@ LMXp A1}AR targ/mode/tables/toflttbl.gzo Opd-8H=U7ng: LMXp A1}Atarg/mode/tables/toflttbl.gzo Ne8H=U7 g: LMXp A1}ARTtarg/mode/tables/toflttbl.gzo L0g8H=U7dh: LMXp A1}A%3targ/mode/tables/toflttbl.gzo Jiq8H=U7h: LMXp A1}A-Rtarg/mode/tables/toflttbl.gzo Hk8H=U7>h;@ LMXp A1}A4targ/mode/tables/toflttbl.gzo El8H=U7fh; LMXp A1}A2=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: sw00889785000b138x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{V5AIt9X>CB @S?(Ec%  Ѐd:"."׾1"\1A{^R6;AIt9X>CB @S?(Ec%  Ѐd:"."׾1"\1A{e4AIt9X>CB @S?(Ec%  Ѐd:"."׾1"\1A{mR4DAIt9X>CB @S?(Ec%  Ѐd:"."׾1"\1A{t4AIt9X>CB @S?(Ed%  Ѐd:"."׾1"\1A{|R6AIt9X>CB @S?(Ed%  Ѐd:"."׾1"\1A{8ڀAIt9X>CB @S?(Ed%  Ѐd:"."׾1"\1A{R4AIt9X>CB @S?(Ed-%  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Ѐd:"&"׾1"R1A|s4AIt9X>CB @S?(Ee% ۀЀd:"&"׾1"R1A|{R82AIt9X>CB @S?(Ef % ۀЀd:"&"׾1"R1A|4DAIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|R4DAIt9X>CB @S?(Ef+% ۀЀd:"&"׾1"R1A|3AIt9X>CB @S?(Ef:% ۀЀd:"&"׾1"R1A|R3AIt9X>CB @S?(EfI% ۀЀd:"&"׾1"R1A|6AIt9X>CB @S?(EfX% ۀЀd:"&"׾1"R1A|R4AIt9X>CB @S?(Efg% ۀЀd:"&"׾1"R1A|6;AIt9X>CB @S?(Efv% ۀЀd:"&"׾1"R1A|R4DAIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|6;AIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|R4DAIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|4DAIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|R4AIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|6AIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|R4DAIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|4AIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|R4AIt9X>CB @S?(Ef% ۀЀd:"&"׾1"R1A|6AIt9X>CB @S?(Eg % ۀЀd:"&"׾1"R1A}R5AIt9X>CB @S?(Eg% ۀЀd:"&"׾1"R1A} 4DAIt9X>CB @S?(Eg*% ۀЀd:"&"׾1"R1A}R4AIt9X>CB @S?(Eg9% ۀЀd:"&"׾1"R1A}6;AIt9X>CB @S?(EgH% -Ѐd:"&"׾1"R1A} R82A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}'4A}\)?*Q 'CnA@b㿫TQ! -Ѐd:"&"׾1"R1A}/RPrA}\)?*Q 'CnA@b㿫TQ0 -Ѐd:"&"׾1"R1A}65A}\)?*Q 'CnA@b㿫TQ? -Ѐd:"&"׾1"R1A}>RJA}\)?*Q 'CnA@b㿫TQN -Ѐd:"&"׾1"R1A}E4A}\)?*Q 'CnA@b㿫TQ] -Ѐd:"&"׾1"R1A}MR4A}\)?*Q 'CnA@b㿫TQl -Ѐd:"&"׾1"R1A}T4A}\)?*Q 'CnA@b㿫TQ{ -Ѐd:"&"׾1"R1A}\R4DA}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}c4DA}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}kRHA}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}r4A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}zR5A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}82A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}R6;A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}5A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}R82A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}3A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}R4DA}\)?*Q 'CnA@b㿫TQ  -Ѐd:"&"׾1"R1A}K܀A}\)?*Q 'CnA@b㿫TQ/ -Ѐd:"&"׾1"R1A}R5A}\)?*Q 'CnA@b㿫TQ> -Ѐd:"&"׾1"R1A}3A}\)?*Q 'CnA@b㿫TQM -Ѐd:"&"׾1"R1A}R4DA}\)?*Q 'CnA@b㿫TQ\ -Ѐd:"&"׾1"R1A}@A}\)?*Q 'CnA@b㿫TQk -Ѐd:"&"׾1"R1A}R82A}\)?*Q 'CnA@b㿫TQz -Ѐd:"&"׾1"R1A}6A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}R4A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}5A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}R7A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A}6;A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~R4A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~82A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~R`-A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~4DA}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~R6;A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~&82A}\)?*Q 'CnA@b㿫TQ -Ѐd:"&"׾1"R1A~.R4A}\)?*Q 'CnA@b㿫TQ. -Ѐd:"&"׾1"R1A~54DA}\)?*Q 'CnA@b㿫TQ= -Ѐd:"&"׾1"R1A~=R4A}\)?*Q 'CnA@b㿫TQL qЀd:"&"׾1"R1A~D8ڀA}\)?*Q 'CnA@b㿫TQ[ zЀd:"&"׾1"R1A~LR4DA}\)?*Q 'CnA@b㿫TQj zЀd:"&"׾1"R1A~S5A}\)?*Q 'CnA@b㿫TQy zЀd:"&"׾1"R1A~[RgbA}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~b6A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~jR6;A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~q4A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~yR6A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~5A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~R3A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~5A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~R7A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~4A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~R6;A}\)?*Q 'CnA@b㿫TQ zЀd:"&"׾1"R1A~4A}\)?*Q 'CnA@b㿫TQ- zЀd:"&"׾1"R1A~R6;A}\)?*Q 'CnA@b㿫TQ< `Ѐd:"&"׾1"R1A~6;A}\)?*Q 'CnA@b㿫TQK pЀd:"&"׾1"R1A~R4DA}\)?*Q 'CnA@b㿫TQZ yЀd:"&"׾1"R1A~4A}\)?*Q 'CnA@b㿫TQi Ѐd:"&"׾1"R1A~R5A}\)?*Q 'CnA@b㿫TQx Ѐd:"&"׾1"R1A~4A}\)?*Q 'CnA@b㿫TQ Ѐd:"&"׾1"R1A~R4A}\)?*Q 'CnA@b㿫TQ Ѐd:"&"׾1"R1A~7A}\)?*Q 'CnA@b㿫TQ ÀЀd:"&"׾1"R1A~RI=A}\)?*Q 'CnA@b㿫TQ ÀЀd:"&"׾1"R1A~HA}\)?*Q 'CnA@b㿫TQ ـЀd:"&"׾1"R1ARoA}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1A5A}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1AR4A}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1A5A}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1AR8ڀA}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1A%O"A}\)?*Q 'CnA@b㿫TQ ۀЀd:"&"׾1"R1A-R8ڀA}\)?*Q 'CnA@b㿫TQ, ۀЀd:"&"׾1"R1A44DA}\)?*Q 'CnA@b㿫TQ; ۀЀd:"&"׾1"R1A2=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: sw00889785000b139x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:42 TNULL26 = 2147483647 TNULL8 = 32767 TNULL29 = 2147483647 TNULL47 = 2147483647 TNULL36 = 2147483647 TNULL46 = 2147483647 TNULL30 = 2147483647 TNULL15 = 32767 TNULL66 = 32767 TNULL57 = 2147483647 TNULL56 = 2147483647 TNULL9 = 32767 TNULL31 = 2147483647 TNULL39 = 2147483647 TNULL67 = 32767 TNULL14 = 32767 TNULL64 = 32767 TNULL51 = 2147483647 TNULL40 = 2147483647 TNULL11 = 32767 TNULL17 = 32767 TNULL58 = 2147483647 TNULL2 = 2147483647 TNULL33 = 2147483647 TNULL38 = 2147483647 TNULL28 = 2147483647 TNULL3 = 2147483647 TNULL16 = 32767 TNULL59 = 2147483647 TNULL32 = 2147483647 TNULL65 = 32767 TNULL13 = 32767 TNULL50 = 2147483647 TNULL35 = 2147483647 TNULL41 = 2147483647 TNULL10 = 32767 TNULL4 = 32767 TNULL53 = 2147483647 TNULL55 = 2147483647 TNULL44 = 32767 TNULL52 = 2147483647 TNULL62 = 32767 TNULL27 = 2147483647 TNULL12 = 32767 TNULL7 = 32767 TNULL37 = 2147483647 TNULL43 = 32767 TNULL63 = 32767 TNULL54 = 2147483647 TNULL34 = 2147483647 TNULL49 = 2147483647 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{TF"\A? 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M@#'6TRO՛9Tw@ɀ[<RN$H~PRMނ;Ӎ߀mNބ?~ 22222cF4TnX^%0ݽRRA{kd *ML#E6ZRO֯:STwBɀ]6RN&HhRM;ӍL߀mOD?~ 22222cF6TpXр%1ݽRRA{ŀ jMX#c6bRO׫:TwDɀ_0RN(HRM;Ӎ߀mO?~ 22222cF8TrXB%2ݽpRRA{k Md#6hROد;TwFɀa*RN*HRM;Ӎ߀mP?~ 22222cF:TtX%3ݽ,RR A{쫀 Mp#6pROٹ;XTwHɀc$RN,HRM;ӎ߀mPv?~ 22222cF<TvX(%4ݽRR"A{kŀ *M|#6vROڭ;TwJɀeRN.HȀRM;ӎD߀mP܄?~ 22222cF>TxX%5ݽRR$A{ jM#ۂ6~ROۿ<TwLɀgRN0HRM;ӎ߀mQB?~ 22222cF@TzX %8ݽdRR&A|k곀 M#6RO<@TwNɀiRN2HRM;ӎ߀mQ?~ 22222cFDT|Xf%9ݽ"RR(A|輀 M$6RO<TwPɀk RN4HRM;ӎ߀mR?~ 22222cFFT~Xـ%:ݽRR*A|l: .M$56RO<ܔTwRɀmRN6H(RM;ӏ<߀mRt?~ 22222cFJT送X>%;ݽRR,A|d nM$S6RO=2TwTɀoRN8H@RM;ӏz߀mRڄ?~ 22222cFLT邁X%<ݽ\RR.A| km MĀ$q6RO=TwVɀpRN:HXRM;ӏ߀mS@?~ 22222cFNT鄁X$%=ݽRR0A| ŀ MЀ$6RO=ᔱTwXɀrRN<HpRM;ӏ߀mS?~ 22222cFPT醁X%>ݽրRR2A|k輀 .M܀$6RO>9TwZɀtRN>HRM;Ӑ4߀mT ?~ 22222cFRT鈁X %?ݽRR4A|곀 nM$˂6RO7>Tw\ɀvRN@HRM;Ӑr߀mTr?~ 22222cFTT銁Xz%@ݽPRR6A|kd M$6ROO>䔱Tw^ɀxRNBHRM;Ӑ߀mT؄?~ 22222cFVT錁X%AݽRR8A| N%6ĀRO_?<Tw`ɀz܀RNDHЀRM;Ӑ߀mU>?~ 22222cFXT鎁X`%BݽЀRR:A|km .N %%6ʀRO]?Twbɀ|րRNFH€RN;ӑ,߀mU?~ 22222cFZT鐁XӀ%CݽRRA|kd N$%a6؀ROg@@TwfɀʀRNJHʀ RN;ӑ߀mVp?~ 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.Q6,6RP6.6QʔTwɀMRNЀIЀRN;ӡ.mp?~22222cG"TXo%ݽ~RRA|d .QB,6RP8/:R#TwɀGRNҀIԀ6RN;ӡlmph?~22222cG$TXۀ%ݽ<RRA|kd /,QN-6RP:0<RyTwɀARNԀI؀NRN;ӡmp΄?~22222cG&T XI%ݽRRA| /lQZ-;6RP<1BRϔTwɀ;RNրI܀fRN;ӡmq4?~22222cG(T"X%ݽ߶RRA|k곀 /Qf-Y6RP>2FS'Twɀ5RN؀I~RN;Ӣ&mq?~22222cG*T$X#%ݽtRRA|곀 /Qr-w6€RP@3BS}Twɀ /RNڀIRN;Ӣdmr?~22222cG,T&X%ݽ4RRA|k쫀 0*Q~-6ȀRPB4<SՔTwɀ )RN܀IRN;Ӣmrf?~22222cG.T(X%ݽRRA|輀 0lQ-6ЀRPD5BT,Twɀ #RNހIƀRN;Ӣmr̄?~22222cG0T*Xb%ݽ⮀RRA|k  0Q-т6րRPF6~TrTwɀRNIހRN;ӣms2?~22222cG4T,Xр%ݽjRRA|m 0Q-6ހRPH7TÔTwɀRNIRN;ӣ\ms?~22222cG8T.X-%ݽRRA|k輀 1,Q. 6RPJ8UTxɀRNIRN;ӣms?~22222cG:T0X%ݽRRA| 1lQ.+6RPL9UhTxɀ RNI&RN;ӣmtd?~22222cG<T2X%ݽ墀RRA|k 1Qƀ.I6RPN:UTxɀRNJ>RN;Ӥmtʄ?~22222cG>T4X%ݽ`RRA|쫀 1QҀ.g6RPP;VTxɀRNJVRN;ӤTmu0?~22222cG@T6X%ݽRRA|kd 2,Qހ.6RPR<VtTxɀRNJnRN;Ӥmu?~22222cGBT8Xa%ݽڀRRA|m 2lQ.6RPT=V̔Tx ɀRNJ RN;Ӥmu?~22222cGDT:Xр%ݽ蘀RRA|k[ 2Q.6RPV>€W#Tx ɀRNJRN;ӥmvb?~22222cGFTX%ݽRRA|keݿ 3(R.6RPZ@WTxɀ"RNJ΀RN;ӥmw.?~22222cGJTBX%ݽҀRRA|ݿ 3fR/6$RP\AWTxɀ$ۀRNJRN;ӥmw?~22222cGLTDX%ݽ뎀RRA|kdݿ 3R&/96*RP^CWTxɀ&ՀRNJ RN;Ӧmw?~22222cGPTFX%ݽLRRA|쫀ݿ 3R2/W62RP`DW”Txɀ(πRNJ$RN;ӦDmx`?~22222cGRTHXX%ݽRRA|k輀ݿ 4 R>/u68RPbE:WƔTxɀ*ɀRNJ(.RN;ӦmxƄ?~22222cGVTJX%ݽƀRRA|ݿ 4^RJ/6@RPdF6WڔTxɀ,ÀRNJ,FRN;Ӧmy,?~22222cGXTLX%ݽRRA|kmݿ 4RV/6FRPfG0XTxɀ.ROJ0^RN;Ӧmy?~22222cGZTNX%ݽBRRA|輀ݿ 4ڀRb/ς6NRPhH+XbTxɀ0ROJ4vRN;ӧ<my?~22222cG\TPX%ݽRRA}k ݿ 5Rn/6TRPjI#XTx ɀ2ROJ8RN;ӧzmz^?~22222cG^TRXP%ݽRRA}m 5^Rz0 6\RPlJ)X씱Tx"ɀ4ROJ<RN;ӧmzĄ?~22222cG`TTX%ݽzRRA}k  5R0)6bRPnK!Y5Tx$ɀ6ROJ@RN‚;ӧm{*?~22222cGbTVX%ݽ8RRA}  5܀R0G6jRPpLY~Tx&ɀ8RO JDրRNĂ;Ө4m{?~22222cGdTXX{%ݽRSA} k 6R0e6pRPrMYǔTx(ɀ:RO JHRNƂ;Өrm{?~22222cGfTZX߀%ݽRSA} 輀 6\R06xRPtMZTx*ɀ<ROJLRNȂ;Өm|\?~22222cGhT\XL%ݽrRSA}kd 6R06~RPvOZqTx,ɀ>ROJPRNʂ;Өm|„?~22222cGjT^X%ݽ.RSA}輀 6܀R€06RPxP(ZTx.ɀ@ROJT6RN̂;ө,m}(?~22222cGnT`X%ݽRSA}k輀 7R΀0݂6RPzQ<[Tx0ɀBROJXNRN΂;өjm}?~22222cGrTbXz%ݽRS A}곀 7\Rڀ06RP|Rh[ETx2ɀD{ROJ\fRNЂ;өm}?~22222cGvTdXڀ%ݽfRS A}km 7R16RP~S[jTx4ɀFuROJ`~RN҂;өm~Z?~22222cG|TfX%ݽ"RSA}R 7܀R196RPT[jTx8ɀHpROJdRNԂ;Ӫ$m~?~22222cG~ThX%ݽRSA}[ 8S1W7RPV?[Tx>ɀJjROJjRN؂;Ӫlm2@~22222cGTpX%ݽRSA} ݿ 8`S1u7RPW_[TxDɀLdRO JnȀRNڂ;ӪmA~22222cGTrX%ݽ>RSA}#kݿ 8S17RPX[TxFɀN^RO"JrRN܂;Ӫm C~22222cGTt[o%ݽ RSA}%Rݿ 8܀S*17€RPY[ɔTxHɀPXRO$JvRNނ;ӫ&mvC~22222cGTv[%ݽ܀RSA}(kݿ 9S61ς7ȀRP[[ДTxJɀRRRO&JzRN;ӫdmC~22222cGTx[%ݽRSA}*쫀ݿ 9XSB18ҀRP\f[TxLɀTLRO(J~(RN<ӫmPC~22222cGTz[%ݾZRSA}-lݿ 9SP2 8؀RP]\LTxNɀVFRO*J@RN<ӫmC~22222cGT|[Â%ݾRS A}/[ݿ 9ԀS\2)8RP^\TxPɀX@RO,JXRN<Ӭ m(C~22222cGT~[%ݾԀRS"A}2kJ :Sh2G8RP_\TxRɀZ:RO.JpRN<Ӭ^mC~22222cGTꀁ[ă%ݾRS$A}4 :XSt2e8RP`]'TxTɀ\4RO0JRN<ӬmC~22222cGTꂁ[%ݾRRS&A}7k :S28RPa],TxVɀ^.RO2JRN<ӬmlC~22222cGTꄁ[ŀ%ݾ RS(A}9[ :ڀS28RPb^`TxXɀ`(RO4JRN<ӭm؄C~22222cGTꆁ[%ݾ̀RS*A}[ ;`S2݂8 RPe6_Tx\ɀdRO8JRN<ӭmC~22222cGTꌁ[%ݾFRS.A}Ak ;S28RPf:`Tx^ɀfRO:JRN<ӭmC~22222cGTꎁ[ǂ%ݾRS0A}CR ;S38RPg6`{Tx`ɀhRO<JRN<ӮmC~22222cGTꐁ[%ݾĀRS2A}Fk쫀 < SȀ388RPh,`ٔTxbɀj RO>J0RN<ӮRmC~22222cGTꒁ[ȃ%ݾ~RS4A}HR <`SԀ3V8&RPia9TxdɀlRO@JHRN<Ӯm`C~22222cGTꔁ[%ݾ>RS6A}KkR <S3t8,RPjaTxfɀmROBJ`RN<Ӯm̄C~22222cGTꖁ[Ʌ%ݾRS8A}M <S384RPkaTxhɀoRODJxRN<ӯ m8C~22222cGTꘁ[%ݾRS:A}Pk곀 = S38:RPl bUTxjɀqROFJRO<ӯJmC~22222cGTꚁ[ʇ%ݾrRSA}Uk쫀 =T38HRPn cTxnɀuROJJ€RO<ӯm|C~22222cGTꞁ[ˆ%ݾ RS@A}WR =T4 8PRPocTxpɀwROLJƀ؀RO<ӰmC~22222cG€Tꠁ[ 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ԀRRH?~Tzʀ 4RPM'RP?m`I~+22222cITL^%ERTANkݿ o.]K; ڀRRJ@~Tzʀ .RPM'RP?m̄I~+22222cITN^%ERTAPRݿ ol]Kɂ; RRLA܀~Tzʀ (RPM'΀RP?m8I~+22222cITP^C%ErRTASkJ o]K; RRNB΀~#Tzʀ "RPM'RP?NmޤI~+22222cITR^ڀ%I0RTAUݿ o]ƀL; RRPC~,Tzʀ RPM'RP?mI~+22222cITT^b%IRTAXkݿ p*]ҀL#; RRRD~5Tzʀ RPN(RP?m|I~+22222cITV^%IRTAZݿ ph]ހLA; RRTE~5Tzʀ RPN(.RP?mI~+22222cITX^}%IhRTA]kݿ p]L_; RRVF~>Tz ʀ  RPN(FRP?FmTI~+22222cITZ^%I&RTA_ݿ p]L}; RRXG~GTz"ʀ RPN (^RP?mI~+22222cIT\^n%IRTAbk곀ݿ q ^L; RRZH~Tz$ʀ RPN(vRP?m,I~+22222cIT^^%IRTAdMݿ q^^L; RR\I΀Tz&ʀ RPN(RP?mᘄI~+22222cIT`^%IdRTAgkR q^Lׂ; RR^J{Tz(ʀ RPN(RP?>mI~+22222cJTb^5%ORTAi쫀ݿ q^&L; (RR`KTz*ʀ RPN(RP?|mpI~+22222cJTd^ɀ%OހRTAlkd r$^2M; .RRbLTz,ʀ RPN (րRP?m܄I~+22222cJTf^`%QRTXTENSION= '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 = 572323510.94566 TSTOP = 572325580.94948 DATE-OBS= '2019-02-20T02:45:05' DATE-END= '2019-02-20T03:19:35' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2070.00382006168 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 320 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'NefAOZd1Ndd8NZd8' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '250836979' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b140x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[y ckqXs≔#[z剖%6Z  +(Z$@P~ +QYǀ숎[fA{jykqWЎ,b剕x#Y!牖&HX >(X&T} ډPZT숏[ecA{yIkqXqߌ鉕#Z{뉕$VYɀ F'Y%@R~ ԉQY鈏Z dA{xOkqZHώ/c 牔"]~鉕(Q\ $*&[(@UR[\-bA{x;kqYt 뉖![ـz퉗&I[ !9%Z $AP PZ[gA{ykqYBq뉕![ 퍈쉖'N[Հ "?%ZT)9Tx QZ Z0ZA{xkqYՀq쉖![Ҁ 썉'MZ"7%Z,:Wz 0PZ݀![)[A{xzkqWt쉕!Z܀{퉖'OZĀ"D$X&>R~:QX ZeA|xkqX t !\z(g[Ѐ#\%Z $AQ(RZZ$gA|xkqXt  Z{񉗉'Z#v%Y$BQPY Z0jA|y(kqYu!\Ԁ t򉗉(u[ڀ%h%Z'AR~SZ[ lA|-x{5kqXr񉕉 [񉗉*dZ%T$Y.6Xw SYZ7^A|Z$#Y-:W{ GSZ!!Z2]A|iyWikqXp‰ Z)8Z! $&"Y)>U~!ZSZʀ!(Z:_A|xxkqẀr! ̉ Z)8Y $"XՀ%>R} dTXЀ-YcA|y^kqXq щ![ 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'ՉnVA~x_Y lNX'AY򍐍)OZ܎ &扡U!Yfl )Ӊk`UA~y,π\Y j!Y~%Zꍍ$ K[ڎ &艤V Zel )ՉnUPA~ybcW!l X&Z( G[ݎ &牤U[ofl *ԉl5T A zW[Y hXƀ}%Zπ썐&CYێ#剣QYmd 'Ӊm‥SAy%_SjX̀}$YĀ(?Zێ"剤MYgg %ԉnR~A*y|fQ kXǀ%Zـ0=Yڎ #䉣KYhj (҉lQUA9yx^\!iY&Z񍕍*8Zɀڎ %䉤EZfl )҉m̀QAHx][ !k!툖Ỳ'ZЀ썏%5[Ѐڎ &䉥CZfm*҉njNAWzyZ^ "k划Yŀ&Zǀ󍘍,.Zɀݎ(ባ:Zji*щm?M{AfzM+l N j.X߀%#Zπ&,Zހӎ#≤8Zbj (҉mLXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / 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 = 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 = 572323622.8356 TSTOP = 572325430.37498 DATE-OBS= '2019-02-20T02:46:57' DATE-END= '2019-02-20T03:17:05' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1807.53937995434 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 323 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '67BJ94BI64BI64BI' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1557905083' / data unit checksum updated 2019-03-02T08:35:40 HISTORY TASK: FAPPND on FILENAME: sw00889785000b143x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{jB@   =MwDDDDDDDDDDDDDDDDA{JB@  > ɀwDDDDDDDDDDDDDDDDA}5Q/B@  > wDDDDDDDDDDDDDDDDA})rB@  > z~wDDDDDDDDDDDDDDDDA~-y)B@  > .ԛGwDDDDDDDDDDDDDDDDA~+B@  >RW wDDDDDDDDDDDDDDDDA/XB@  Ȁ? $wDDDDDDDDDDDDDDDDXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 120 / width of table in bytes NAXIS2 = 9 / 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 = 572323707.53488 TSTOP = 572325567.2943 DATE-OBS= '2019-02-20T02:48:22' DATE-END= '2019-02-20T03:19:22' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467400000000 / [s] UTCF at TSTART TELAPSE = 1859.75941991806 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 352 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '7rESAoDP0oDP7oDP' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '3846025470' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b160x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{v?=A|ea8?=A}(f?=A} 0?=A}!?=A~dw?=A~^_?=A6?=A_?=XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / width of table in bytes NAXIS2 = 9 / 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 = 572323707.53568 TSTOP = 572325567.29508 DATE-OBS= '2019-02-20T02:48:22' DATE-END= '2019-02-20T03:19:22' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467400000000 / [s] UTCF at TSTART TELAPSE = 1859.7593998909 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 353 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'HVN9ISN8HSN8HSN8' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2278695660' / data unit checksum updated 2019-03-02T08:35:40 HISTORY TASK: FAPPND on FILENAME: sw00889785000b161x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{đ*1(+Cs5Bt?;ěAp?A|ea.1(+Cs5Bt?;ěAp?A}(1(+Cs5Bt?;ěAp?A} &1(+Cs5Bt?;ěAp?A}1(+Cs5Bt?;ěAp?A~d01(+Cs5Bt?;ěAp?A~x1(+Cs5Bt?;ěAp?A61(+Cs5Bt?;ěAp?A_.1(+Cs5Bt?;ěAp?XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 294 / width of table in bytes NAXIS2 = 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 = 572323508.09474 TSTOP = 572325578.09466 DATE-OBS= '2019-02-20T02:45:03' DATE-END= '2019-02-20T03:19:33' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2069.99992001057 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 369 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'nUj6oUi4nUi4nUi4' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1064709715' / data unit checksum updated 2019-03-02T08:35:40 HISTORY TASK: FAPPND on FILENAME: sw00889785000b171x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Z q;  F   B  / E N V E ; b =ˌdh`jeh neir [b T   {  A{i @ # M   B $ 6 L V V L @ i =jp ij mhul i zb h T    { A{x 3r; D   B  . F P V E 8 c =ˌdg`jfhneir[a T   {  A{ *: E   B  1 E O V E : c =ʌcgajehofir [b T   {  A{ :  G   B 0 E R V G 8 b =ʌchajfhmdir[a T    { A{ "h;  H   B  / D P V F 8 b =ˌdgajdhofir[a T   {  A{ /;  H   B  / F P V H 8 c =ˌchajdhneis[b T    {  A{ ;8  G   B / G R V H ; c =Ȍdhajeh meir [a T    {  A{ *:  E   B  0 F P V H : b =ʌchajfhneis Za T   {  A{ *9 D   B  . E P V H : b =Ɍdh`jfhneis [` T   {  A{ *< ! E   B  . F Q V E : ` =̌dgajehneir [a T   {  A{ *? % L   B % 5 K W V M ? j =όjp ij lhum i zb h T    { A| ;  E   B 0 G O V E ; b =ˌdhajfhmeir [a T   { A| !:  G   B 0 F S V D ; d =ʌbiajdhnfir [a T   {  A|, : G   B  1 E Q V G 9 d =ʌdhajeh meir [a T    {  A|; :  E   B  . E P V E 9 c =ʌbg`jdhneir Za T   {  A|J ; ! E   B  . F O V G : b =ˌchajehoeir [b T    {  A|Y :  E   B  / F P V F 9 c =ʌcg`jehnfir [b T   {  A|h : G   B  0 D O V E 9 c =ʌbgajehneir [b T    {  A|w 3:  G   B  1 D Q V G ; d =ʌchajdhneir [b T   {  A| 9  H   B  1 E O V F 9 d =Ɍchajdhofir [a T   {  A| y@ % K   B $ 6 L U V L > h =jp hj mhvm i zbh T   { A| #< H   B  0 E P V F 9 b =̌dhajfh ofiq [b T   { A| 3< G   B / F P V F 8 b =̌dgbjdhoeir[b T   {  A| *: G   B  / E O V F 9 c =ʌchajehneir [b T   { A| 9  G   B  / F P V G : d =Ɍcibjdhmfis [a T   {  A| 5i:  F   B  0 E P V F ; e =ʌchajdhneir [b T   {  A| 3:  H   B  . F Q V I ; d =ʌdiajdh nei s [a T   {  A| <  G   B  1 G R V I 8 c =̌cibjdhmfi s[a T   { A} < " E   B  / F O V I : c =̌diajfh nei s Za T   {  A} LY; " G   B  0 F Q V F 9 c =ˌcgajehneir [b T   {  A}+ 2#:  I   B 1 G S V G ; f =ʌch bjdhofir [a T   {  A}: ;  G   B  / F R V F ; e =ˌchajdh neis [b T   {  A}I 9 ! F   B  . F Q V G ; d =Ɍdibjeh neis \a T   {  A}X *; F   B - F Q V H 9 b =ˌcibjehn eis \a T   {  A}g 3: " G   B / G Q V I : c =ʌdgajfh nfi s [b T   { A}v 3; G   B 1 G R V H < e =ˌdiajehneis [a T  {  A} y; ! H   B 1 G P V H : b =ˌdiajfh neis [b T   {  A} #< ! G   B / E Q V F ; e =̌dhajfhofir \b T   { A} < F   B 1 D Q V G ; d =̌chajfh nfir [b T   { A} *<  F   B  1 E R V G : e =̌chajehoeir [b T   {  A} *@ ' N   B % 7 J X V K @ k =loij lhvm i yc i T   { A} %< ! G   B ! 1 D Q V G < c =̌dhajfhofir [c T   { A} ; " H   B ! 1 H R V I < c =ˌdiajeh nei s [a T  { A} +;  G   B  2 E R V G < e =ˌdibjehofis [a T   { A} : I   B 1 F Q V I ; f =ʌch ajeh ofi s \b T   { A~ q=  F   B  1 F Q V H < a =͌diajfh nfis [b T   { A~ : ! D   B  0 G R V F < c =ʌdhajfhofir [b T   { A~* !; G   B 0 F Q V I ; e =ˌdhbjeh oei s \b T   {  A~9 < ! H   B  3 G Q V F = d =̌diajfh neir \b T   { A~H = ! G   B  0 E Q V G : e =͌dhajeh ofir [a T   { A~W 3= ! E   B 1 F R V H ; e =͌diajdhnfis [b T  {  A~f ;  I   B 1 G S V H ; e =ˌdi bjfhnfis \b T   { A~u 3: ! F   B  1 E Q V G < c =ʌdiajfh nfis [b T   { A~ < ! F   B 2 G Q V F : d =̌ciajfh ofir [a T   { A~ q= ! F   B 2 F R V I < e =͌chajeh ofi s [b T   { A~ #: G   B 2 F P V K : c =ʌdibjeh ofi s [b T  { A~ y< H   B  1 F R V F : d =̌dgbjfh nfir \b T  { A~ &; H   B  3 G S V I < e =ˌciajeh nfi s \a T   { A~ 3; " G   B 2 F Q V H = d =ˌeiajfh nfir [b T   { A~ : # F   B  / H O V G ; d =ʌdhajfhofir [a T   { A~ != H   B ! 2 H R V J ; f =͌ciajeh nfi s [a T   { A~ *; ! G   B 2 E R V I ; e =ˌeiajfhnei s [c T    { A !;  G   B 1 G R V I = e =ˌeiajeh nei s \a T  {  A ; ! F   B ! 2 H Q V H ; e =ˌchajeh ofir [b T   { A) = ! H   B ! 2 H Q V I < e =͌dhajeh nfi s \b T   { A8 *= ! G   B  2 F R V I < f =͌eibjfh nfi s \a T   { AG < ! G   B ! 2 F R V H < d =̌dibjeh nfis \a T   { AV < " F   B 2 H R V I < e =̌dhajfhnfi r [b T   { Ae = I   B ! 2 H R V H : e =͌ei bjfh ofis \b T   { 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 = 572323509.29396 TSTOP = 572325579.34466 DATE-OBS= '2019-02-20T02:45:04' DATE-END= '2019-02-20T03:19:34' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2070.05070006847 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 371 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:40' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9CRAAAO03AO79AO7' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '408525048' / data unit checksum updated 2019-03-02T08:35:40 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: sw00889785000b173x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Z{) n  x  t | m i ]  _ X " ` b 0 2 D _ Y ,  0 Z  ` q %    U 0 $ 5 ` XA{i) o  t  u { m j _  a X " ` b 0 2 D _ Y ,  0 Y ~  ~ q %    S 0 $ 5 ` A{x#( n  v  u | m j b  ` W " a c 0 2 D _ Y ,  0  Z ) f u %    U 0 $ 5 ` ҩA{{) n  r  u { l i \  b X " a b 0 2 D _ Y ,  0 \ 8 @ p '    R 0 $ 5 ` \A{j( o   s  u | m i c  a W # ` d 0 2 D _ Y ,  0 [  n ,    R 0 $ 5 ` ӬA{s) o   v  u | m i a  b W " ` b 0 2 D _ Y ,  0  Z  : s *    T 0 $ 5 ` #A{BF( n   x  u | m j c  a X # ` b 0 2 D _ Y ,  0  Z + d m *    U 0 $ 5 ` A{å˅( n  w  u | m j c  b 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I t )    W 0 $ 5 ` A}Шȅ* o   v  u ~ n j `  b W & a e 0 2 D _ Y ,  0  ^ Q ] q )    V 0 $ 5 ` A}߫w\) o   y  u } n k f b V & a e 0 2 D _ Y ,  0  \  * n (   X 0 $ 5 ` A}Ӆ* o  y  u ~ n j b b W & a d 0 2 D _ Y ,  0  \ ~ a { t &    Y 0 $ 5 ` A}|( o  x  t ~ m k d  a W ' b c 0 2 D _ Y ,  0  \ } N q p '    V 0 $ 5 ` SA~ j) o  w  u } n k f ` U & b c 0 2 D _ Y ,  0  ] ~ \ v &    X 0 $ 5 ` ӃA~qa) o   w  u ~ n k f b W % a d 0 2 D _ Y ,  0  \ ~  r n '    X 0 $ 5 ` ՑA~*)_+ p   y  u ~ n k b  ` V & b c 0 2 D _ Y ,  0  ] ~   w &    V 0 $ 5 ` A~9˧) o  {  u } n k f c X % b c 0 2 D _ Y ,  0  ^  : ^ o (   U 0 $ 5 ` A~H…+ o  u  u ~ m k f  b V % b d 0 2 D _ Y ,  0  ] } ,  w )   Y 0 $ 5 ` A~W* o  w  u ~ n k a b W ' c d 0 2 D _ Y ,  0  \ ~ 6  q (    X 0 $ 5 ` ӌA~f, o  v  v ~ n k e b X ' a d 0 2 D _ Y ,  0  ] ~ Q c t $    W 0 $ 5 ` ӸA~us* p  z  v ~ n k e b Y ' b d 0 2 D _ Y ,  0  ]  , f r )   W 0 $ 5 ` A~a* p  t  u  n k ` b X $ b d 0 2 D _ Y ,  0  ^ V j y #    X 0 $ 5 ` ЂA~* o  y  u ~ n k e a Y % b e 0 2 D _ Y ,  0  _ F O w (    Y 0 $ 5 ` ҂A~ȅ) p   y  v  n k d b Z % b e 0 2 D _ Y ,  0  ` W $ v &    Y 0 $ 5 ` A~* p  y  v ~ n m e b X $ b e 0 2 D _ Y ,  0  ^   R s &    Y 0 $ 5 ` A~ʂ* p  v  u  n l e b X % b f 0 2 D _ Y ,  0  ]  * e s '    V 0 $ 5 ` A~ϯ* p  y  u ~ n l a b Y % b e 0 2 D _ Y ,  0  ^ ~ n % w (    X 0 $ 5 ` A~ާs) p  w  u  n l e  a Y % a e 0 2 D _ Y ,  0  \ g t (    Y 0 $ 5 ` үA~* p  x  u  o l e b [ % b f 0 2 D _ Y ,  0  _   p *    X 0 $ 5 ` 9A~+ o  {  u ~ n m b c Y & b e 0 2 D _ Y ,  0  ]   q *   W 0 $ 5 ` 1A Ӆ+ p  w  u  n k f c X & b f 0 2 D _ Y ,  0  ^ a  o *    T 0 $ 5 ` 5A /+ p   u  u  o l e d Y & b e 0 2 D _ Y ,  0  ^ 2 5 n (    V 0 $ 5 ` A)a+ p  x  u  o l a e X ' b e 0 2 D _ Y ,  0  ^ j l z (    V 0 $ 5 ` ^A8+ o  w  v  o l e d Z ' b e 0 2 D _ Y ,  0  ] \ v '   Y 0 $ 5 ` AG* p   v   v  o l g d Z ' a f 0 2 D _ Y ,  0  _ c y +    V 0 $ 5 ` ѳAVg* q  x  v  n m a e Y ' a e 0 2 D _ Y ,  0  `  r t ,   V 0 $ 5 ` ЏAe҅* r  z  v n m f f Z ' b e 0 2 D _ Y ,  0  ` / > r -   T 0 $ 5 ` 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 = 572323509.2957 TSTOP = 572325579.34638 DATE-OBS= '2019-02-20T02:45:04' DATE-END= '2019-02-20T03:19:34' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2070.05068004131 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 372 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'jLAolI7mjIAmjI7m' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1947289292' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b174x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{Z&   h V b    5 t B  ; r 2 K f x 9 + D #  p h { _  1 a & h " A{iƅ'   i U a    3 s @  9 r 1 L e w 9 + B '  p h | _  1 b & h " ɎA{xƅ(   g U c    5 r B : r / L f v 9 + H "  q h z a   2 a % h " 4A{؅%   j V a    3 t ?  ; r 1 L f t 9 + A &  o h x d   2 a % h " 0A{ƅ&   j V a    1 t D  ; s 2 K e s 9 + H #  p g y _  1 a % i # ǝA{w%   j U b    7 t ?  : r 2 K e s 9 + F &  p h y ^   2 a % i " ʜA{z'   j U b    3 s F 9 r 3 J f r 9 + I %  q h | ]  2 a & h ! ȟA{ì{&   i U b    0 v D  9 t 4 K f q 9 ) B &  p h z ^  2 a & g # țA{ҥ(   g V a    5 r B  : q 3 K e p : + J &  p g { b  2 a & i " ǏA{'   g V b    2 v B  8 r 4 K e o 9 * F (  p h { ]  2 a & i " _A{υ&   h U b    3 t A  9 q 2 K d o : * G #  p h z \  1 a & h " A{υ$   i  U b    / t B  9 r 2 K d n : * H $  p h { ]  1 a & h " ͠A|޾&   g  V b    2 t @  : s 2 K  f n : + F %  p h z `  2 a & i " oA|؅%   g U b    - t @ 9 s 4 K f n : * D &  p h y ]  2 a & h # A|,(   d  V c    0 r E  9 t 2 L f m : + F !  q h } ]  2 a & i # OA|;(   g  V a    1 s D  : r 2 K  g m 9 + G )  q h { \  2 a & i " DA|Jυ)   e  U b    3 t C  9 r 3 K g l : + F %  p h { `  2 a & j # lA|Yn(   h U a    0 u C 9 s 2 K e l : , G "  p h | _  2 a & j " A|hĜ'   g V a    / u B  : r 3 K g m : + D !  p h  c  2 b & j # yA|w6'   l  U a    2 t C  9 r 5 K f l : + B +  p i } Z  2 a & j # =A|(   m U b    3 s E 8 s 4 K h m : , G (  q i { b   2 a & i " mA|ƅ'   m U b    1 t E 9 s 2 L g m : , G #  p h | ]   2 a & j # fA|؅%   m U b    1 s A  9 r 4 K  e m : , E #  p h } a  2 a & j # ǔA|~(   l U b    2 t D 9 r 3 L g m : + F %  q i z [  2 b & i # A|¥')   m V c    5 u D : s 1 L  g m : , G #  p h ~ ]  2 a & j " .A|ѥw'   n U c    8 u E " : s 3 L f m : - G )  p h | `  2 a & j " A|&   o V c    0 u D ! : s 2 K  f m ; - D &  q i ~ `  3 a & i " ƗA|n&   n V c    2 u @ ! 9 s 3 L  g l : - B $  q h | `  2 b ' k " ǏA|&-%   m V d    5 t F ! : s 2 L f l : - G &  q h | ^   2 a & j " ȓA} ƅ'   n V c    2 u F ! : s 4 L g l : - D $  q h | [  3 b ' j ! 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I $  q i  `   3 b ' j " wA}:!&   n V d    2 t B ! ; s 3 L  e m : , H "  q h } `   2 a & j # ťA}In%   o V e    8 w B ! ; s 3 L f m : , C !  q i { _   3 b & j " ȩA}Xh܅&   p U f    5 v B ! ; s 4 L g m : - F !  r i | `   3 a ' j " ŧA}g $   o V f    6 w F ! : s 4 L  g l : , I !  r i } [   3 a ' j " &A}vą#   p V e    6 u B ; s 0 L  h l : - E   q i | ]   3 a ' j " ǜA}&   n V e    3 u C ; s 2 L h m ; , C #  q h } ]   3 a ' k " BA}3%   l V e    3 u D ; r 2 L f l ; , F %  q i { ]   3 b & j " A} '   m V e    0 t A ! ; t 1 L  g l ; + E &  q i | \   3 a ' j " 9A}Yu'   k V e    2 u C ; s 3 M  d l ; , H %  r i { a   3 a & l " ƸA}#   o V d    2 v A ! : t 1 M  f m ; + H "  q i { \   3 b ' k # 8A}Щ΅&   p U e    6 u C ! : s 3 M  g l : , F "  r i { _   3 b ' j # A}߫'   k V d    1 w D : s 2 M  i l ; , E %  q i | \   3 b ' k # A}0&   n V e    6 u C ! : t 3 L i l ; + D )  r j } a   3 b ' k # A}'((   l V d    4 w A : t 3 M  g k ; , F $  q i z a   3 b ' k $ A~ ƅ&   k V d    : u A ; t 5 M  g k ; - A $  r i | _   3 b & l $ oA~&   l V d    1 v A " ; t 4 M  f l ; - D )  r i z `   3 b ' l $ A~*e'   n V d    6 u A ! : t 4 M  g l ; - A &  r i { b   3 b ' k # RA~9&   m U e    7 u @ ! ; t 5 M  g l ; , @ '  r i z a   3 b & k # CA~H%   o V d    6 u C :  t 4 M  f l ; , F #  r j y c   4 b ' j # ǢA~W %   l V d    3 w B ! < u 3 M  f k ; - H $  r j z a   3 b ' j # A~fƽ&   n V c    2 u A " ; t 4 M  e m ; - F $  r i x d   3 b ( j # A~un&   m V f    5 x C ! : t 4 M  f l ; . B %  r i { c   3 b ' j # ʮA~޾%   n V d    8 x F ! ; v 5 M  e l ; - E #  r j y a   4 b ' k # TA~ '   l V f    2 v B ! : t 2 M  g l ; , D $  r i z d   3 b ' l " uA~($&   n V d    7 w A " < t 2 M  e m ; - A (  r j { a   3 b ' l # A~$   n V e    1 w C ! < t 4 M h l ; . A &  r j | d   3 b ' k " 4A~߅$   o V e    5 v B " ; u 5 M  f m ; - F !  r j y e   3 b ' k $ RA~ϰ'R&   l V d    3 y B " ; u 5 M  f l ; - D  r j y `   4 b ' k $ LA~ާ&   o V e    8 v C " ;  u 5 N  f m ; - G $  s j { f   4 b ' k # /A~j&   n V d    4 x B " < u 4 N  g m ; , E *  r j { a   4 b ( l " , { t / Q  ,  ' E K O < L J 9 ̵A|9 $  F o =  y l  x D - z r , P  - & C K O < L J 9 A|9Ո $  F o =  w h  { E - { q / P  .  ' B K O < L J 9 A|-8 $  F o =  o v  x H  . | r 5 P  - & B K O < L J 9 A|<9 $  F o =  v p w E ~ - { t . Q  .  ' D K O < L J 9 A|K8 $  F o =  r c w A  - { r 7 N  - ' B K O < L J 9 ʇA|Z8 $  F o =  u r v @ ~ . { r - O  - ( B K O < L J 9 *A|i9} $  F o =  r q  y C  - { q 2 Q  -  ' C K O < L J 9 A|x8H $  F o =  | u  | D  . | q . N   ,  & B K O < L J 9 ϬA|9. $  F o =  v m } E . { s 0 O  , ' B K O < L J 9 |A|8 $  F o =  m m  x D - | r , Q  , ' F K O < L J 9 A|9% $  F o =  r o } C ~ - { r 2 S  ,  ' D K O < L J 9 A|8 $  F o =  t g ~ B  - | s + Q  - ' G K O < L J 9 ˇA|90 $  F o =  u o  ~ A ~ - | r 0 R  - ( C K O < L J 9 A|8j $  F o =  x v D ~ - { r 4 O  - ' E K O < L J 9 A|9. $  F o =  w T   A ~ . { r . M  . ( D K O < L J 9 A|8 $  F o =  w j  C  . { t 3 N  . ( E K O < L J 9 ˕A|9) $  F o =  w v  { E  / { r . L   . ' E K O < L J 9 A}8b $  F o =  m q ~ E  - { t 3 K  / ' G K O < L J 9 ̰A}9Ո $  F o =  y m  y B ~ - { r + N  . ' C K O < L J 9 ʧA},8 $  F o =  { l  u D ~ . { r 0 L  . ' B K O < L J 9 A};8 $  F o =  n g  v F  - { t 2 J  - ' E K O < L J 9 ˿A}J8 $  F o =  v s  t F  . { r / J  . ( D K O < L J 9 A}Y9Ո $  F o =  r }  w E  . z s 5 L  - ( E K O < L J 9 A}h8b $  F o =  y p  v D ~ . z s . L  - ( H K O < L J 9 ͇A}w8 $  F o =  z Q  x G  - { t 4 K  - ( P K O < L J 9 KA}9. $  F o =  r v  v D  - { t - P  -  ( O K O < L J 9 vA}9? $  F o =  z s  y C  - | u 1 J  . ( N K O < L J 9 ʃA}8 $  F o =  t q  v B . { s 2 M  . ( Q K O < L J 9 nA}9. $  F o =  } n  { A  - { t 1 N  . ( O K O < L J 9 A}9. $  F o =  u g  z C . | t + P  . ' P K O < L J 9 9A}9? $  F o =  p t  u E . { v 4 O  / ( O K O < L J 9 A}9 $  F o =  u t u H . | s . R  / ( O K O < L J 9 A}9? $  F o =  s q  w E - | t 3 L  / ( M K O < L J 9 OA}8 $  F o =   r  v E . | t - K  / ( O K O < L J 9 AA~ 9ވ $  F o =  o p  q D - | t 0 L  / ( O K O < L J 9 A~8 $  F o =  o z  p D . } r / J  . ' O K O < L J 9 A~+9% $  F o =  y u  v H . } s 4 M  . ( O K O < L J 9 (A~:8b $  F o =  w j  t J . | u / M  . ) O K O < L J 9 'A~I9Ո $  F o =  } o  p I . } t 4 K  . ( P K O < L J 9 A~X8 $  F o =  y [  r H - } s 1 M  . ) N K O < L J 9 |A~g9} $  F o =  ~ r n F / } t - I  . ) R K O < L J 9 ɕA~v9߈ $  F o =  z _  m I / } s 4 J  . ( R  K O < L J 9 hA~8 $  F o =  ~ k n J  . | t . N  / ( S K O < L J 9 ̆A~8 $  F o =  w t h H  . } t 5 L  / ) Q K O < L J 9 ɻA~8 $  F o =  ~ x  i E ~ . } s 1 J  / ( R K O < L J 9 A~96 $  F o =  y v d F  / } s - K  0 ( Q K O < L J 9 ȺA~8È $  F o =  | m  Z G . | s 6 L  / ) P K O < L J 9 A~8 $  F o =  m y  ^ B / | t 1 M  0 ( R K O < L J 9 ȮA~8 $  F o =  r t  ] C  / } t 0 K  1 ( S K O < L J 9 ȑA~8 $  F o =  w v ^ E  / } r . L  0 ) S K O < L J 9 A~9% $  F o =  g  ` F  / } v / K  0 ) Q K O < L J 9 RA 8 $  F o =  r e  _ H  / } v 9 L  1 ) R K O < L J 9 A9 $  F o =  v m  a I  / } t 3 N  0 ( R K O < L J 9 3A*9Ո $  F o =  t u  Z D  0 } s 2 N  / ( T K O < L J 9 _A99. $  F o =  x t  ` F  / } u / O  / ( S K O < L J 9 AH8 $  F o =  p p  [ H  0 | v . M  0 ( F K O < L J 9 AW8b $  F o =  u x  ] F  0 } u 4 O  0 ) H K O < L J 9 *Af8j $  F o =  u x  [ H 0 } u . O  0 ) F K O < L J 9 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 = '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 = 572323510.44804 TSTOP = 572325580.44748 DATE-OBS= '2019-02-20T02:45:05' DATE-END= '2019-02-20T03:19:35' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2069.99943995476 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 374 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'bJaHeGZ9bGaEbGW9' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '4017567742' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b176x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[9Y`Y_~j_iYVocjqtpYey`bjeii]afZjtqzjdpdvW`a|hYa{mTezvaqdhmx_l|mnhkt^OejcmpXWv`jb_wl]qhn`kYfff 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9EZ`k`jZXodksvr[fzadlfkj^cgZjur{keqfwXac~jYb{nUgzvaqdhmx_l|mnhkt`PfkdnqYXwakc`wl]qhn`kYfff/A~99[`k`k[XodlruqZfzadlfjj^bg[kvr{kfqewX`c~jYa|nUfzvaqdhmx_l|mnhkt_PekdnrYXvakd`wl]qhn`kYfffA~+9I[ak`kZWpdkrvq[f{adlfjj_cg[kur{kepewXac~jXb|nUgzvaqdhmx_l|mnhkt`PfldoqZXwakd`wl]qhn`kYfffA~:9;:[`k`kZXpdlruqZfzadlfjj^cg[kur{kfqewX`c~jYb|nUgzvaqdhmx_l|mnhkt_PekdnrZXvakdawl]qhn`kYfffʽA~I9HVZ`k`k[WodksvqZf{adlfjj^bg[kvq{keqewXad~jYc|nUgzvaqdhmx_l|mnhkt`PeldnqZXwakc`wl]qhn`kYfffA~X99Z`k`kZXpdkrvr[fzadlfjj^cg[kur{kfqewXac~iYb|nUfzvaqdhmx_l|mnhkt_PfkenqYXwakcawl]qhn`kYfffA~g9HVZak`kZXodkrvr[f{adlgji^cg[jurzkeqfwX`b~jYb|mUgzvaqdhmx_l|mnhkt`PfkdnqYXwakcawl]qhn`kYfff A~v9X[`k`kZWodkrvqZfzaclfjj^bg[juq{keqewXac~jYb|mUfzvaqdhmx_l|mnhkt`PfkdnqYXwakcawl]qhn`kYfffA~9GZ`k`kZWodkruq[f{`clfji^bgZkur{keqewXac}iXb{nUgzvaqdhmx_l|mnhkt_PfkdnqYXwakc`wl]qhn`kYfff˒A~9AȄZ`k`kZWpdkrtrZezadkfji^cgZjur{keqewX`c~jYb{mTfzvaqdhmx_l|mnhkt`PfkdoqYXw`kc`wl]qhn`kYfffɰA~99Z`k`k[XodkruqZfz`clfjj^bgZjurzkeqewXac}jYb{nUfzvaqdhmx_l|mnhkt_OfldnqYWvakc`wl]qhn`kYfff̕A~9F_Z`k_jZWpdkruqZfz`clfji]bfZjur{kepewXac~iXa{mUfzvaqdhmx_l|mnhkt_PekdnqYXv`kc`wl]qhn`kYfff=A~9EZ`k_kZWpdkruqZfzaclfji^bfZjuq{keqewWac}iXb|mUfzvaqdhmx_l|mnhkt_OekdnqYXvakc`wl]qhn`kYfffA~99Z_k`jZWodkquqZez`clfji^bfZjtrzkeqewX`b}jXb{mTfzvaqdhmx_l|mnhkt_PekdnqYXw`kc`wl]qhn`kYfff!A~9:Y`k_jZWpdkruqZfzaclfji^bfZjur{jcqdwX`b~iYa{mUfzvaqdhmx_l|mnhkt_OekdnqYWv`kc`wl]qhn`kYfffFA~9AȄZ`k_jZXockruq[ez`ckfji]bgZkurzjepevX`b~jXa{mVgzvaqdhmx_l|mnhkt_PekdnqYXv`kc`wl]qhn`kYfff˦A~9HVZ`k_jYWodkruqYez`ckfji]bfZkuqzjeqdwXab}iXb{mUfzvaqdhmx_l|mnhkt_OekcoqYXv`jc`wl]qhn`kYfff2A 9GZ`~k`kYWockruqZfzadkfji^bfZjuq{keqewX`b}iXb{mUgzvaqdhmx_l|mnhkt_PfkcnqYXw`kc`wl]qhn`kYfffA9CZ`~l`kYWodkrur[ez`clfji^bgZjtrzkepewXab}jXb{mUfzvaqdhmx_l|mnhkt_OekdnqYWv`kc`wl]qhn`kYfff&A*9GZ`k`jZWpckruqZfz`clfjj^bgZjurzkeqewX`b}iYb|mTfzvaqdhmx_l|mnhkt_PekdnqYXwajc_wl]qhn`kYfffʀA99GZ`k_jZWodkruqZfzaclfji^cgZjuq{keqewX`c}iXa{mUfzvaqdhmx_l|mnhkt_PekdnpYXv`jc`wl]qhn`kYfffTAH99Z`k`jZWodkruqZfz`dkfji]bgZjurzjeqewX`c}iXb{mTfzvaqdhmx_l|mnhkt_OekdnqYXw`kc`wl]qhn`kYfffsAW9;:Z`~k`jZWodkruqZez`clfji^bfZjuqzjepewX`b}iXb{mUgzvaqdhmx_l|mnhkt_OekdnqYXv`kc_wl]qhn`kYfffHAf9GY`k`jZWodjqtpZfz`cleii]bfZjupzkeqdwX`b}iXa{mTfzvaqdhmx_l|mnhkt_OekcnqYWv`kc`wl]qhn`kYfffXTENSION= '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 = 572323516.64388 TSTOP = 572325586.64396 DATE-OBS= '2019-02-20T02:45:11' DATE-END= '2019-02-20T03:19:41' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2070.00007998943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 375 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'bGbOdDZLbDaLbDYL' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '494630713' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b177x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{^Rjqca]YoxqP]tX]fpqnode__belZe[qjaRojnz`jqcebtbnvgo`kqhwjeywhik^`q{yuumwclqduA{mRh 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J%;RTAGseݿ n]KQ; ƀRRD=΀~Tzʀ @RPހM'nRP?Vm܈I~+22222cITH^ %C:RTAesaݿ q^L; RR\I΀Tz&ʀ RPN(RP?>mᘄI~+22222cIT`^%IRTXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 192 / 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 = 98 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDICMDBLSNCURTR' / m_currTrigger TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BDICMDBLSSZPROC' / m_processChunkSize TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BDICMDBLSMARKCL' / m_markClockTime TFORM4 = '1J ' / data format of field: 4-byte INTEGER TTYPE5 = 'BDICMDBLSMARKDT' / m_markDataTime TFORM5 = '1J ' / data format of field: 4-byte INTEGER TTYPE6 = 'BDICMDBLSGTSDUR' / m_grbTriggerSuppressDur TFORM6 = '1I ' / data format of field: 2-byte INTEGER TUNIT6 = 's ' / physical unit of field TTYPE7 = 'BDICMDBLSSURDUR' / m_nomSurveyCycleDur TFORM7 = '1I ' / data format of field: 2-byte INTEGER TUNIT7 = 's ' / physical unit of field TTYPE8 = 'BDICMDBLSAM2DUR' / m_nomAm241AccumDur TFORM8 = '1I ' / data format of field: 2-byte INTEGER TUNIT8 = 's ' / physical unit of field TTYPE9 = 'BDICMDBLSSTGDUR' / m_imTrigShortDur TFORM9 = '1I ' / data format of field: 2-byte INTEGER TUNIT9 = 's ' / physical unit of field TTYPE10 = 'BDICMDBLSLTGDUR' / m_imTrigLongDur TFORM10 = '1I ' / data format of field: 2-byte INTEGER TUNIT10 = 's ' / physical unit of field TTYPE11 = 'BDICMDBLSTGELOW' / m_imTrigELow TFORM11 = '1I ' / data format of field: 2-byte INTEGER TTYPE12 = 'BDICMDBLSTGEHIG' / m_imTrigEHigh TFORM12 = '1I ' / data format of field: 2-byte INTEGER TTYPE13 = 'BDICMDBLSMACTBL' / m_activeBlocks TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BDICMDBLSFFAKTS' / m_fakeTimestamp TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BDICMDBLSINVALD' / m_fInvalid TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BDICMDBLSFALTDR' / m_fAlertTDRSS TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BDICMDBLSFBINCH' / m_binsChanged TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BDICMDBLSFTBNCH' / m_tagBinsChanged TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDICMDBLSTRIGEN' / m_trigEnabled TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDICMDBLSCANVET' / m_fCancelVeto TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDICMDBLSTRGDMP' / m_trigDump TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDICMDBLSBRIMTH' / m_brImmediateThreshold TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BDICMDBLSBRPAUS' / m_brPausetime TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BDICMDBLSVERBOS' / m_verbosity TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BDICMDBLSNENARR' / m_n_enarrow_used TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BDICMDBLSNAM241' / m_n_etagbins_used TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BDICMDBLSQAMSPC' / m_priAmSpect TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BDICMDBLSQSURVY' / m_priSurvey TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'BDICMDBLSQAMACC' / m_priAmSurvey TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BDICMDBLSQGAINO' / m_priGainOff TFORM30 = '1B ' / data format of field: BYTE TTYPE31 = 'BDICMDBLSQCALRN' / m_priCalRun TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BDICMDBLSQMASKW' / m_priMaskWeights TFORM32 = '1B ' / data format of field: BYTE TTYPE33 = 'BDICMDBLSQPARAM' / m_priParameters TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BDICMDBLSQDAPHK' / m_priDAPhk TFORM34 = '1B ' / data format of field: BYTE TTYPE35 = 'BDICMDBLSQACSDP' / m_priACS TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BDICMDBLSQPULSR' / m_priPulsar TFORM36 = '1B ' / data format of field: BYTE TTYPE37 = 'BDICMDBLSARAT64' / m_rate_64msQuad_AID TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BDICMDBLSARMTAG' / m_rate_mtag_AID TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BDICMDBLSARFMAX' / m_rate_fastmax_AID TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BDICMDBLSAPARAM' / m_parameter_tm_AID TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BDICMDBLSATRIGS' / m_trigger_status_AID TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BDICMDBLSDIDLAY' / m_DIDelay TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BDICMDBLSDUMPDL' / m_dumpDelay TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BDICMDBLSIGNFLG' / m_ignoreEventFlags TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BDICMDBLSTSTALE' / m_dumpStaleLimit TFORM45 = '1I ' / data format of field: 2-byte INTEGER TTYPE46 = 'BDICMDBLSNHOTLM' / m_hotLimit TFORM46 = '1I ' / data format of field: 2-byte INTEGER TTYPE47 = 'BDICMDBLSNHOTKL' / m_nHotKill TFORM47 = '1I ' / data format of field: 2-byte INTEGER TTYPE48 = 'BDICMDBLSNLTCHL' / m_latchLimit TFORM48 = '1I ' / data format of field: 2-byte INTEGER TTYPE49 = 'BDICMDBLSNMXLAG' / m_maxLag TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BDICMDBLSNTHSAA' / m_saaThreshold TFORM50 = '1J ' / data format of field: 4-byte INTEGER TTYPE51 = 'BDICMDBLSMTFOVR' / m_maskTagFOVRadius TFORM51 = '1J ' / data format of field: 4-byte INTEGER TTYPE52 = 'BDICMDBLSMTFOVE' / m_maskTagFOVEllipticity TFORM52 = '1J ' / data format of field: 4-byte INTEGER TTYPE53 = 'BDICMDBLSNCAOFF' / m_caOffValue TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDICMDBLSNCAGAN' / m_caGainValue TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDICMDBLSNCAPER' / m_caPeriod TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BDICMDBLSNCADWL' / m_caDwellCount TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BDICMDBLSNCAOFI' / m_caOffInterval TFORM57 = '1I ' / data format of field: 2-byte INTEGER TTYPE58 = 'BDICMDBLSNCAGNI' / m_caGainInterval TFORM58 = '1I ' / data format of field: 2-byte INTEGER TTYPE59 = 'BDICMDBLSFCAOSL' / m_cafOffOnSlew TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BDICMDBLSFCAGSL' / m_cafGainOnSlew TFORM60 = '1B ' / data format of field: BYTE TTYPE61 = 'BDICMDBLSFCAOSU' / m_cafOffOnSurvey TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BDICMDBLSFCAGSU' / m_cafGainOnSurvey TFORM62 = '1B ' / data format of field: BYTE TTYPE63 = 'BDICMDBLSFDMPAG' / m_fDumpAutoGainOffAcc TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'undocumented1' / Byte field not in ITOS database TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BDICMDBLSNCAWIN' / m_caWindow TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BDICMDBLSTHCERT' / m_threshCertain TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BDICMDBLSTHPOSS' / m_threshPossible TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BDICMDBLSTHSHRT' / m_threshShortImage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BDICMDBLSTHLONG' / m_threshLongImage TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BDICMDBLSDSNSHO' / m_desensShort TFORM70 = '1I ' / data format of field: 2-byte INTEGER TTYPE71 = 'BDICMDBLSDSNLON' / m_desensLong TFORM71 = '1I ' / data format of field: 2-byte INTEGER TTYPE72 = 'BDICMDBLSNUMTRG' / m_numtrig TFORM72 = '1I ' / data format of field: 2-byte INTEGER TTYPE73 = 'BDICMDBLSNCPUOF' / m_ntrig_cpuoff_percheck TFORM73 = '1I ' / data format of field: 2-byte INTEGER TTYPE74 = 'BDICMDBLSMINVAR' / m_all_trigger_minvar TFORM74 = '1I ' / data format of field: 2-byte INTEGER TTYPE75 = 'BDICMDBLSSYSNSE' / m_all_trigger_sysnoise TFORM75 = '1I ' / data format of field: 2-byte INTEGER TTYPE76 = 'BDICMDBLSSHPRBK' / m_backgrd_before_short TFORM76 = '1I ' / data format of field: 2-byte INTEGER TTYPE77 = 'BDICMDBLSSHBDUR' / m_duration_shortback TFORM77 = '1I ' / data format of field: 2-byte INTEGER TUNIT77 = 's ' / physical unit of field TTYPE78 = 'BDICMDBLSCPUGOL' / m_ditg_cpuusage_goal TFORM78 = '1I ' / data format of field: 2-byte INTEGER TTYPE79 = 'BDICMDBLSDCYCHK' / m_check_for_decay_threshold TFORM79 = '1I ' / data format of field: 2-byte INTEGER TTYPE80 = 'BDICMDBLSSHSMTG' / m_short_time_as_same_id TFORM80 = '1I ' / data format of field: 2-byte INTEGER TTYPE81 = 'BDICMDBLSSHAFTR' / m_short_afterburners_enabled TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BDICMDBLSLNAFTR' / m_long_afterburners_enabled TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'BDICMDBLSABJUMP' / m_afterburners_jumpstart TFORM83 = '1I ' / data format of field: 2-byte INTEGER TTYPE84 = 'BDICMDBLSMTGOFF' / m_masktag_dc_offset TFORM84 = '1I ' / data format of field: 2-byte INTEGER TTYPE85 = 'BDICMDBLSSLPCPU' / m_sleep_per_cpu_excess TFORM85 = '1I ' / data format of field: 2-byte INTEGER TTYPE86 = 'BDICMDBLSFFOMIM' / m_FOM_from_image TFORM86 = '1B ' / data format of field: BYTE TTYPE87 = 'BDICMDBLSFSETTL' / m_fWaitForSettle TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BDICMDBLSTHPROJ' / m_threshBackproject TFORM88 = '1I ' / data format of field: 2-byte INTEGER TTYPE89 = 'BDICMDBLSFOVEXT' / m_FOVExtension TFORM89 = '1I ' / data format of field: 2-byte INTEGER TTYPE90 = 'BDICMDBLSDOBACK' / m_fDoBackgroundSub TFORM90 = '1B ' / data format of field: BYTE TTYPE91 = 'BDICMDBLSHOTCNT' / m_imageHotCount TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BDICMDBLSHOTSIG' / m_imageHotSigma TFORM92 = '1I ' / data format of field: 2-byte INTEGER TTYPE93 = 'BDICMDBLSCATTOL' / m_cattol TFORM93 = '1I ' / data format of field: 2-byte INTEGER TTYPE94 = 'undocumented2' / Byte field not in ITOS database TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 32768 / offset for unsigned integers TTYPE95 = 'BDICMDBLSNEGTRG' / m_negtrg TFORM95 = '1J ' / data format of field: 4-byte INTEGER TTYPE96 = 'BDICMDBLSSUNMON' / m_sunmon TFORM96 = '1J ' / data format of field: 4-byte INTEGER TTYPE97 = 'BDICMDBLSINTTHR' / m_intthr TFORM97 = '1J ' / data format of field: 4-byte INTEGER TTYPE98 = 'BDICMDBLSSPARE8' / m_spare8 TFORM98 = '1J ' / data format of field: 4-byte INTEGER EXTNAME = 'hk18bx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323520.11448 TSTOP = 572325568.06924 DATE-OBS= '2019-02-20T02:45:15' DATE-END= '2019-02-20T03:19:23' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2047.95475995541 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 395 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '26IE35GD25GD25GD' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '480259672' / data unit checksum updated 2019-03-02T08:35:41 HISTORY TASK: FAPPND on FILENAME: sw00889785000b18bx001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TNULL26 = 32767 TNULL8 = 32767 TNULL47 = 32767 TNULL46 = 32767 TNULL66 = 32767 TNULL84 = 32767 TNULL73 = 32767 TNULL69 = 32767 TNULL57 = 32767 TNULL93 = 32767 TNULL56 = 32767 TNULL9 = 32767 TNULL72 = 32767 TNULL39 = 32767 TNULL98 = 2147483647 TNULL67 = 32767 TNULL45 = 32767 TNULL85 = 32767 TNULL68 = 32767 TNULL51 = 2147483647 TNULL40 = 32767 TNULL94 = 32767 TNULL11 = 32767 TNULL74 = 32767 TNULL58 = 32767 TNULL2 = 2147483647 TNULL38 = 32767 TNULL95 = 2147483647 TNULL3 = 2147483647 TNULL92 = 32767 TNULL65 = 32767 TNULL13 = 32767 TNULL80 = 32767 TNULL97 = 2147483647 TNULL48 = 32767 TNULL75 = 32767 TNULL23 = 32767 TNULL76 = 32767 TNULL50 = 2147483647 TNULL41 = 32767 TNULL5 = 2147483647 TNULL25 = 32767 TNULL10 = 32767 TNULL22 = 32767 TNULL24 = 32767 TNULL88 = 32767 TNULL4 = 2147483647 TNULL77 = 32767 TNULL53 = 32767 TNULL78 = 32767 TNULL6 = 32767 TNULL89 = 32767 TNULL55 = 32767 TNULL44 = 32767 TNULL52 = 2147483647 TNULL70 = 32767 TNULL83 = 32767 TNULL96 = 2147483647 TNULL12 = 32767 TNULL79 = 32767 TNULL7 = 32767 TNULL37 = 32767 TNULL71 = 32767 TNULL54 = 32767 TNULL49 = 32767 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{`H '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA{ # '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA{4V. '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA{ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA{ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| q '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA|@&- '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA|`o '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| * '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| р '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| э '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA| B '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA}k '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA} K '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA}!dp '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA}@Ȋ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA}` '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA} `- '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA} '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA} K '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA} ` '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~ Q '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~ - '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~,^ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~@f '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~`W '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~[ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~*Ӏ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~! '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA~ & '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA|ҳ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA:_Z '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA@ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hA`ۀ '"("(,@@ǀddPPQ끋S Pu0|Ѐd.􂼂dKdЀ hXTENSION= '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 = 111 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKSYNC' / PW HK Packet Sync Mark TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKPKTID' / PW HK Packet Packet ID TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BPWHKLASTCMD' / PW HK Packet Last Command TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BPWHKCMDDATA' / PW HK Packet Last Command Data 16-bit TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BPWHKIPESTATUS' / PW HK Packet IPE Interface Status TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BPWHKPIPESTATUS' / PW HK Packet Heat Pipe Switch Status TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BPWHKBLKCONV' / PW HK Packet Block Conversion Switch Status TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BPWHKBLKHEAT' / PW HK Packet Block Heater Switch Status TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BPWHKADCTRAP' / PW HK Packet ADC SEL Trap Status TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BPWHKSTATUS1' / PW HK Packet Various Status Bits TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BPWHKSTATUS2' / PW HK Packet Various Status Bits TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BPWHKSTATUS3' / PW HK Packet Various Status Bits TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'undocumented1' / Byte field not in ITOS database TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BPWHKB00PRITEMP' / PW HK Pkt; Block 00 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB00SECTEMP' / PW HK Pkt; Block 00 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKLHP0PRITEMP' / PW HK Pkt; Pipe 00 SetPointTemp for Loop Heat TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB00SPARE' / PW HK Pkt; Block 00 Spare TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB00INPUTI' / PW HK Pkt; Block 00 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB0025GND' / PW HK Pkt; Block 00 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB00P25VLT' / PW HK Pkt; Block 00 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB00M25VLT' / PW HK Pkt; Block 00 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB00P35VLT' / PW HK Pkt; Block 00 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB00M35VLT' / PW HK Pkt; Block 00 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB00P50VLT' / PW HK Pkt; Block 00 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB00P75VLT' / PW HK Pkt; Block 00 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB00M75VLT' / PW HK Pkt; Block 00 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB00CVTTEMP' / PW HK Pkt; Block 00 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB00TEMP' / PW HK Pkt; Block 00 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPA0TEMP' / PW HK Pkt; LHP 0 (+Y) Comp Chamber (CC) TemperaTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKLHPB6TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ Cond Outlet TemTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKTAGFRNTHVLT' / PW HK Pkt; Tagged Source (Front) High Voltage TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL32 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT32 = 'V ' / physical unit of field TTYPE33 = 'BPWHKB01PRITEMP' / PW HK Pkt; Block 01 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB01SECTEMP' / PW HK Pkt; Block 01 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKLHP1PRITEMP' / PW HK Pkt; Pipe 01 SetPointTemp for Loop Heat TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB01SPARE' / PW HK Pkt; Block 01 Spare TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB01INPUTI' / PW HK Pkt; Block 01 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB0125GND' / PW HK Pkt; Block 01 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB01P25VLT' / PW HK Pkt; Block 01 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB01M25VLT' / PW HK Pkt; Block 01 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB01P35VLT' / PW HK Pkt; Block 01 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB01M35VLT' / PW HK Pkt; Block 01 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB01P50VLT' / PW HK Pkt; Block 01 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB01P75VLT' / PW HK Pkt; Block 01 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB01M75VLT' / PW HK Pkt; Block 01 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB01CVTTEMP' / PW HK Pkt; Block 01 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB01TEMP' / PW HK Pkt; Block 01 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPA1TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKLHPB7TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Evap Outlet TemTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKTAGFRNTTVLT' / PW HK Pkt; Tagged Source (Front) Threshold VoltTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL50 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT50 = 'V ' / physical unit of field TTYPE51 = 'BPWHKB02PRITEMP' / PW HK Pkt; Block 02 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB02SECTEMP' / PW HK Pkt; Block 02 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKLHP0SECTEMP' / PW HK Pkt; Pipe 02; SetPointTemp for Loop HeatTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB02SPARE' / PW HK Pkt; Block 02 Spare TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB02INPUTI' / PW HK Pkt; Block 02 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB0225GND' / PW HK Pkt; Block 02 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB02P25VLT' / PW HK Pkt; Block 02 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB02M25VLT' / PW HK Pkt; Block 02 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB02P35VLT' / PW HK Pkt; Block 02 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB02M35VLT' / PW HK Pkt; Block 02 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB02P50VLT' / PW HK Pkt; Block 02 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB02P75VLT' / PW HK Pkt; Block 02 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB02M75VLT' / PW HK Pkt; Block 02 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB02CVTTEMP' / PW HK Pkt; Block 02 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB02TEMP' / PW HK Pkt; Block 02 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPA2TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKLHPB8TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Cond Outlet TemTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKTAGREARHVLT' / PW HK Pkt; Tagged Source (Rear) High Voltage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL68 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT68 = 'V ' / physical unit of field TTYPE69 = 'BPWHKB03PRITEMP' / PW HK Pkt; Block 03 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB03SECTEMP' / PW HK Pkt; Block 03 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKLHP1SECTEMP' / PW HK Pkt; Pipe 03; SetPointTemp for Loop HeatTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB03SPARE' / PW HK Pkt; Block 03 Spare TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB03INPUTI' / PW HK Pkt; Block 03 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB0325GND' / PW HK Pkt; Block 03 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB03P25VLT' / PW HK Pkt; Block 03 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB03M25VLT' / PW HK Pkt; Block 03 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB03P35VLT' / PW HK Pkt; Block 03 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB03M35VLT' / PW HK Pkt; Block 03 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB03P50VLT' / PW HK Pkt; Block 03 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB03P75VLT' / PW HK Pkt; Block 03 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB03M75VLT' / PW HK Pkt; Block 03 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB03CVTTEMP' / PW HK Pkt; Block 03 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB03TEMP' / PW HK Pkt; Block 03 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPA3TEMP' / PW HK Pkt; LHP 0 (+Y) Condenser Temperature, -XTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKLHPB9TEMP' / PW HK Pkt; LHP 1 (-Y) BLock/DM Temperature (B9)TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKTAGREARTVLT' / PW HK Pkt; Tagged Source (Rear) Threshold VoltaTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL86 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT86 = 'V ' / physical unit of field TTYPE87 = 'BPWHKB04PRITEMP' / PW HK Pkt; Block 04 SetPointTemp Primary HeaterTFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB04SECTEMP' / PW HK Pkt; Block 04 SetPointTemp 2ndary Heater TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB04SPARE0' / PW HK Pkt; Block 04 Spare 0 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWHKB04SPARE1' / PW HK Pkt; Block 04 Spare 1 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB04INPUTI' / PW HK Pkt; Block 04 Input Current for DC-DC ConTFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL91 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT91 = 'A ' / physical unit of field TTYPE92 = 'BPWHKB0425GND' / PW HK Pkt; Block 04 Voltage on 2.5 Ground ReturTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWHKB04P25VLT' / PW HK Pkt; Block 04 +2.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL93 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB04M25VLT' / PW HK Pkt; Block 04 -2.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL94 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB04P35VLT' / PW HK Pkt; Block 04 +3.5 Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL95 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB04M35VLT' / PW HK Pkt; Block 04 -3.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL96 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB04P50VLT' / PW HK Pkt; Block 04 +5.0 Digital Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL97 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB04P75VLT' / PW HK Pkt; Block 04 +7.5 Voltage TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL98 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT98 = 'V ' / physical unit of field TTYPE99 = 'BPWHKB04M75VLT' / PW HK Pkt; Block 04 -7.5 Voltage TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL99 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT99 = 'V ' / physical unit of field TTYPE100= 'BPWHKB04CVTTEMP' / PW HK Pkt; Block 04 DC-DC Converter Module TempTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKB04TEMP' / PW HK Pkt; Block 04 Temperature TFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKLHPA4TEMP' / PW HK Pkt; LHP 1 (+Y) Condenser Temperature, +XTFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL102= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'BPWHKMASK0TEMP' / PW HK Pkt; Mask Temperature (top center) TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL103= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT103= 'Celsius ' / physical unit of field TTYPE104= 'BPWHKSPARE04TMP' / PW HK Pkt; Block 04 Spare Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL104= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'BPWHKB05PRITEMP' / PW HK Pkt; Block 05 SetPointTemp Primary HeaterTFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB05SECTEMP' / PW HK Pkt; Block 05 SetPointTemp 2ndary Heater TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB05SPARE0' / PW HK Pkt; Block 05 Spare 0 TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 32768 / offset for unsigned integers TTYPE108= 'BPWHKB05SPARE1' / PW HK Pkt; Block 05 Spare 1 TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BPWHKB05INPUTI' / PW HK Pkt; Block 05 Input Current for DC-DC ConTFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL109= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT109= 'A ' / physical unit of field TTYPE110= 'BPWHKB0525GND' / PW HK Pkt; Block 05 Voltage on 2.5 Ground ReturTFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BPWHKB05P25VLT' / PW HK Pkt; Block 05 +2.5 Voltage TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL111= 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT111= 'V ' / physical unit of field EXTNAME = 'hk18cx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323570.94502 TSTOP = 572325490.94794 DATE-OBS= '2019-02-20T02:46:05' DATE-END= '2019-02-20T03:18:05' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1920.00292003155 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 396 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'QR3fRR1ZQR1fQR1Z' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1186111667' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b18cx001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:43 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{yxjkqX߀sߌ牖z#Zzꉗ&\Ỳ R'Y%=P{ PYZ0cA{ykqZHώ/c 牔"]~鉕(Q\ $*&[(@UR[\-bA{xkqWt쉕!Z܀{퉖'OZĀ"D$X&>R~:QX ZeA|-xkqXr񉕉 [񉗉*dZ%T$Y.6Xw SYZ7^A|iypkqXp‰ Z)8Z! $&"Y)>U~!ZSZʀ!(Z:_A|y(kqỲw ԉ [|(-Z؀$!Y'@S~#ySZ <[(hA|y=2kqWuЉ"Z{'4Z "(!Y$?O~ )rPYɀDZZA}ykqXπxˉ![΀x({ZÀ #p"YLJ *SỲ3ZgA}Yy&kqXˀw!#[{ 'PZ2 !#D#Y "EQ.9RYJZ0iA}x"kqXt #Z{(BZŀ#$"Y,$BP .TZ#Z(eA}xEkqX̀{ߌ%[r )Q[݀%#H$YNJ0SYZdA~ ykqWp$Z퍂 (HYր~ *#"$X':Qy 2TXuˈYv\A~IykqYu o&\} )0\($&[(AQ6TZ\?fA~x%kqY{x!`'[| &'[b("%Zy&BQ6QZh[saA~xkqXvJ&[{$\Z &R&Z$>Q} 4QZ[gA~y/kqYt"&[z &4[%" &Z70_r2SZi[_A9yVkqX̀w $[{&"Zπ%" &Y!BQ 5ʼnRYԀaZfXTENSION= '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 = 572323570.94654 TSTOP = 572325490.94944 DATE-OBS= '2019-02-20T02:46:05' DATE-END= '2019-02-20T03:18:05' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1920.00290000439 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 397 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '8PN68ML68ML68ML6' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '307442061' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b18dx001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{yy(9dߍo6|Zހ&(ӈY܀5TWY(ep僑Wێٌ)UʃZˀ\̃YA{y2bݍoS~\(+Ԉ[ݎ !7nZY")r烑[܌+Xʃ\׀"_̃[`A{xL^܍og|ZӀ&-ӈXрݎ 8ZYX(q烑YՀی,Y˃YЀ^ʃX%A|-x뎧dݍp~~Z'0׈YҀގ ;kZY)"r胐Z܌0Z˃Z!]ɃY5A|iy aݍ p}Z&3وYێ >a[Y(%Èt胐Yی3[̃Zր"^ǃZ0A|yZ ^ݍn~[(6܈Z؀ގ !A]ZZӀ)*s郐Z܌6Y̓[Ā  &]ŃZ!A|ymWԌn}Z׀&9∅YDh[Y "2,tꃐZی9Y̓Z'_ÃY A}yA [܍m}['<鈄X܎ FZYɀ).%s郏Z܌WŃZ+_YXTENSION= '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 = 572323570.948 TSTOP = 572325490.9515 DATE-OBS= '2019-02-20T02:46:05' DATE-END= '2019-02-20T03:18:05' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1920.00350010395 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 398 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '89U9A6R926R986R9' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '138931480' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b18ex001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{yyXbQiUdX#KY򍌍%ԉZπݎ "ΉۀGZfh (kǀkIA{yc5bX #j1vZ(&ٍ[׍*؉](щ݀I\>oh)mvn"A{xˀgR!jFW%=͍Yʀ& ۍZ֎%ԉHY_m )l逤oeA|-xjhQ" kZYՀ( OÍYՀ񍏍* эZ&׉GZ+em )moA|iyGbU!l+̓X'!Z)ō[&܉FZjh *ÉmpA|ynO #kY܀( ōZ*[؎% D[Z s+ȉmǀoA|ydQj.X%!̍Z 0􉴍Zݎ#䉣BZ2eh )ˉlȀnA}yqaW"ktƃYh~'kҍZ̀񍐍(쉶[ގ &剢?Zƀgj*͉klUA}YyhR!kHY'?׍Z򍍍(މZێ&艢쀤2=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: sw00889785000b18fx001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{is?76 s=n  qADH ʀ0pxP ހ i/rzBp1B "Ѐ\?=8AIt9X>CB @S?(Ec%  "."׾1B+y IAg-^ ^==03A{s~i@76 s=nﰀ  qADH %0pxP ހ i/rzBpˢB " \>= pȚAIt9X>CB @S?(Ed#%  "."׾1B+y IA}m }m==3A{s˝E76 s=o%{  qADH= 30x`X0 ߀ noB rc "4\+;#@ڀAIt9X>CB @S?(Ed_%  "."׾1B+y IA] ߫$==#4A{s9PJ76 s=oa   qADH }0pxP ߀ toB ey "]H@(ڀAIt9X>CB @S?(Ed%  "&"׾1B+y IA  >>C5A{s~ٸxL76 s=o  qADH }0` ߀ toB )<y "]NB-ZAIt9X>CB @S?(Ed%  "&"׾1B+y IA2 . .>>I5A{s~ M76 s=oـ  qADH 0pxP ߀ toBxy ɀŀŀ"]GD1/ZAIt9X>CB @S?(Ee%  "&"׾1B+y IA:e E =>>:5A|s܈خO76 s=p  qADH ɀ0` ߀ toBy Հрр"8]`G5EڀAIt9X>CB @S?(EeO%  "&"׾1B+y IA}  >>5-A|;s~ڭR76 s=pQ  qADH ܀0` ߀ toBuy ݀݀"t]OP:,\ZAIt9X>CB @S?(Ee% j"&"׾1Bָs >@À >$ 4>>5HA|YsXpݯW76 s=pr  qADHp0x`h@  uoB9,y "]dY>drڀAIt9X>CB @S?(Ee% "&"׾1F19n BhU` ;  ;>>| 5eA|ws@\76 s=pɀ  qADH A0pxP  voBhy "]IRB^AIt9X>CB @S?(Ef% "&"׾1CS N?Y [` [ >>5A|s؀(pa76 s=q@  qADH 0pxP  woBy "(]YMG@^AIt9X>CB @S?(Ef?% "&"׾1CS N?c {l {l̘>>5A|s㐀=c76 s=qA  qADH 0`  woBy   "d]CKKxހAIt9X>CB @S?(Ef{% "&"׾1CS N? >r5A|s0d76 s=q}  qADH <0`  woBIy "]OKO^AIt9X>CB @S?(Ef% "&"׾1CS N?|S0  >>|5A|s`0e76 s=q  qADHp 0x`h@  woB Xy )%%"܀]KLSހAIt9X>CB @S?(Ef% "&"׾1CS N?э ` Ș>>}5A} sȀh76 s=q  qADH N0`  woBрy 511"]JLX bAIt9X>CB @S?(Eg/% "&"׾1CS N?p < <>>5A}+s~1`r76 s=r1  qADH x`h@   B5 A=="T^JQ\XA}\)?*Q 'CnA@b㿫TQ& -"&"׾1D B?]    (>>q7'A}IsꙀu76 s=rmL  qADH hPH  )  B{ MII"^OO`;A}\)?*Q 'CnA@b㿫TQb -"&"׾1D B?] ; ;H>>7?A}gs0u76 s=r)  qADH X@H  M  BIS{ YUU"̀^ELe4RbA}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?] [qd [h>>x7WA}siVv76 s=r@  qADH X@H  q  B { eaa"^KKilhA}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?] {3  {3 >> 7oA}s9р$Pw76 s=s!@  qADH hPH    Bрˢ{ qmm"D^KKmbA}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?] n  >>" h7A}s~9'y76 s=s]  qADH X@H    B{ }yy"^BJrHbA}\)?*Q 'CnA@b㿫TQR -"&"׾1D B?] R \ \Ę>> 7A}s{76 s=s^@  qADH hPX0 ݀  BYC{ "^?IvA}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?]    >>d!s7A}s #t}86 s=sՀ@  qADH x`X0   B{ "^HHzfA}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?]  >>!7A~sq*D~86 s=t  qADH x`X0 %  B{ "4^MG~A}\)?*Q 'CnA@b㿫TQ -"&"׾1D B?] Y   >>"c7A~9sـѰ1 ~86 s=tM'  qADH x`X0 I  B{ "p^EF҃(fA}\)?*Q 'CnA@b㿫TQB -"&"׾1BKˀ W?LR 9 9|>>"ۀ8A~Ws؀A786 s=t  qADH uX@H  m  Bi3{ "^EE҇`A}\)?*Q 'CnA@b㿫TQ~ z"&"׾1CS W? X X@>>#S8%  A~us>86 s=tŀN  qADH hPX0   B-o{ ŀ"^IFь1A}\)?*Q 'CnA@b㿫TQ z"&"׾1CS W?2 yh yh>>#8CA~s9}E86 s=uʀ  qADH p !X@H    B{ р̀̀"$^XHѐ>$\8\A~syQPL86 s=u=  qADH hPX0 ـ  B{ ݀ــ"`^єt^A}\)?*Q 'CnA@b㿫TQ2 Y"&"׾1B&< Apw x k8>>i$Ԁ8w&&A~sπ`TO86 s=uy2  qADH&P apxP   By#{ "8^јtA}\)?*Q 'CnA@b㿫TQn "&"׾1CFc Bp(D>>Β%L8KKA~s0IEp[86 s=u8@  qADH mx`h@ !  B=> "Ђ_]ќHA}\)?*Q 'CnA@b㿫TQ "&"׾1D C"Xnp<D>>p%Ā8aaA s؀PPc86 s=u:  qADH#LhPH  E )B< "R_!ў!A}\)?*Q 'CnA@b㿫TQ "&"׾1Cy hB a3KD?>q&F9ooA)s0JPi86 s=v-;@  qADH$hPH  i )B4   "_`vѡ(r;A}\)?*Q 'CnA@b㿫TQ" "&"׾1Cy hB  |??43&:ooAGsUq 86 s=vi~  qADH' x`h@  )B4 "_̪A}\)?*Q 'CnA@b㿫TQ^ "&"׾1Cy hB 4 d??>p'N:rrAes9ڰw86 s=v  qADHBPpxP  )Bj4 %!!"Ȁ_LǮ<A}\)?*Q 'CnA@b㿫TQ "&"׾1Cy hB k@ k@??43'؀:0uuXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 391 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 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 = 572323676.1726 TSTOP = 572325427.47258 DATE-OBS= '2019-02-20T02:47:51' DATE-END= '2019-02-20T03:17:02' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 1751.29997992516 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 482 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'N1YDN0YCN0YCN0YC' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2627251289' / data unit checksum updated 2019-03-02T08:35:41 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: sw00889785000b1e2x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{†oB rcBMeC~1oB qBMeC~1c B C=B:^B BC=B:^BoBMeC~1 C=B:^BoBMeC~1 r C=B:^B.oBfZ"CÀ`ЀZZA}' B5C9™a@SJioBBMeC~1y BC9™a@SJi5 BC9™a C9™a C=B:^B C9™a@SJi C=B:^B. B…#fCc``ЀZA~-u: Bߢ{C9™a@SJioBBMeC~1y BC9™a@SJiߢ{ BC9™a C9™a C=B:^B C9™a@SJi C=B:^B. C™n^@S`ЀZA})B BC9™a)CA/\–C  C9™a@SJi)CA/\–C  C9™a@SJi.)CA6{– C Ë`Ѐ XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk216x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323707.5327 TSTOP = 572325374.12338 DATE-OBS= '2019-02-20T02:48:22' DATE-END= '2019-02-20T03:16:09' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467400000000 / [s] UTCF at TSTART TELAPSE = 1666.59068000317 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 534 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:41' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'eTMFgTJ9eTJEeTJ9' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '4243042304' / data unit checksum updated 2019-03-02T08:35:41 HISTORY TASK: FAPPND on FILENAME: sw00889785000b216x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{/A}ԪA} A~XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 5 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk217x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572324042.70516 TSTOP = 572325567.24318 DATE-OBS= '2019-02-20T02:53:57' DATE-END= '2019-02-20T03:19:22' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467600000000 / [s] UTCF at TSTART TELAPSE = 1524.53802001476 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 535 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:42' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'I7hPJ4eMI4eMI4eM' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2154791250' / data unit checksum updated 2019-03-02T08:35:42 HISTORY TASK: FAPPND on FILENAME: sw00889785000b217x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A|eZBA}*A~dA6wA_ XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 9 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk21ax001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323706.03544 TSTOP = 572325565.74638 DATE-OBS= '2019-02-20T02:48:21' DATE-END= '2019-02-20T03:19:20' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467400000000 / [s] UTCF at TSTART TELAPSE = 1859.7109400034 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 538 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:42' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '95HlB2Ej92EjA2Ej' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1995366752' / data unit checksum updated 2019-03-02T08:35:42 HISTORY TASK: FAPPND on FILENAME: sw00889785000b21ax001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{LA|d"A}EA}g}A}qGA~c=A~PA5YA^߉aXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 169 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk21cx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323528.67752 TSTOP = 572325565.98796 DATE-OBS= '2019-02-20T02:45:23' DATE-END= '2019-02-20T03:19:20' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2037.31043994427 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 540 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:42' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '71b7A1a591a5A1a5' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '1635885378' / data unit checksum updated 2019-03-02T08:35:42 HISTORY TASK: FAPPND on FILENAME: sw00889785000b21cx001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{dVA{dfA{f$A{XXA{h$ A{A{#A{JA{ZK4A{~A{zA|]A|lKA|A|GCA| UQ/A| eA|"kA|$yA|$W~A|')A|5i/A|5A|859A|DSWA|DcnA|F_A|JPLA|JSbA|LٴxA|MmA|MGA|PA|Q6A|QA|SA|Y[A|Y_TLA|[;A|dZA|e`A|ep A|g A|hV WA|heA|j-A~2A~A~rxlA~эA~[A~T/A~,A~0+A~3A~A~A~QA~z%A~PA~TNA~$A~Ĵ A~ĸpA~>CA~pF A~;A~ȵA~ȹeA~?>A~vA~VpA~Y@A~1A~A~_A~p2vA~SWA~W=\A~A~SA~]A~W0@A~^A~aA~sA~^ A~}A~hA~0@A~A~A~cA~˒A~YA~>A~A~ A~oA5xA^uyXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 269 / width of table in bytes NAXIS2 = 33 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 82 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BDICTOBSSEG' / Observation Segment Number TFORM2 = '1B ' / data format of field: BYTE TTYPE3 = 'BDICTTARGID' / Target ID Number TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BDICTSCIMET' / MET, as known by the sci FSW TFORM4 = '1D ' / data format of field: 8-byte DOUBLE TUNIT4 = 's ' / physical unit of field TTYPE5 = 'BDICTSCIUTC' / UTC Correlation Factor TFORM5 = '1D ' / data format of field: 8-byte DOUBLE TTYPE6 = 'BDICNORMEV' / Count of this packet type TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BDICMULTIEV' / Count of this packet type TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BDICCALIBEV' / Count of this packet type TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BDICCALIBSHORTEV' / Count of this packet type TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BDICTIME10MS' / Count of this packet type TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BDICBLOCKCHANGE' / Count of this packet type TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BDICBLOCKEVCOUNT' / Count of this packet type TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BDICTIMEECHO' / Count of this packet type TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BDICCOMMANDVERIF' / Count of this packet type TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BDICBCDHSTATUS' / Count of this packet type TFORM15 = '1J ' / data format of field: 4-byte INTEGER TZERO15 = 2147483648 / offset for unsigned integers TTYPE16 = 'BDICBCDHBIAS' / Count of this packet type TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BDICBCDHVOLTAGEC' / Count of this packet type TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BDICDMPOWER' / Count of this packet type TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BDICBCDHPOWER' / Count of this packet type TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BDICBCDHTEMPERAT' / Count of this packet type TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BDICBCDHVOLTAGER' / Count of this packet type TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'BDICBCDHVERSION' / Count of this packet type TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BDICBCDHHVMON' / Count of this packet type TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BDICBCDHPARITYER' / Count of this packet type TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BDICBCDHDMCOMMEX' / Count of this packet type TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BDICBCDHCOMMEXCE' / Count of this packet type TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BDICBCDHALARM' / Count of this packet type TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BDICBCDHSPARE' / Count of this packet type TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BDICDMCMDVERIFY' / Count of this packet type TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BDICDMMODECHANGE' / Count of this packet type TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BDICDMSTATUS' / Count of this packet type TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BDICDMHK' / Count of this packet type TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BDICDMCOUNTS' / Count of this packet type TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BDICDMCOEF' / Count of this packet type TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BDICDMPARAMS' / Count of this packet type TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BDICDMCCR1' / Count of this packet type TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BDICDMCCR2' / Count of this packet type TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BDICDMDSR1' / Count of this packet type TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BDICDMDSR2' / Count of this packet type TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BDICDMXSR1' / Count of this packet type TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BDICDMXSR2' / Count of this packet type TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BDICDMXSR3' / Count of this packet type TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BDICDMXSR4' / Count of this packet type TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BDICDMALARM' / Count of this packet type TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BDICDMTSRCCNT' / Count of this packet type TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BDICDMSPARE' / Count of this packet type TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BDICMICDATAERROR' / Count of this packet type TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BDICCONTPACKET' / Count of this packet type TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BDICFASSERT' / Unspecified assertion failure. TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BDICFCONTPACKET' / The next packet to process is a continuation woTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BDICFSHORTPACKET' / Packet length too short. TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BDICFBADPACKET' / Packet has other trouble. TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BDICFMS1010' / The 10 ms counter went to 101 or more. TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDICFTIME' / Time is non-consecutive. TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDICFMETINFO' / Something wrong with MET info. TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 32768 / offset for unsigned integers TTYPE56 = 'BDICFOCTSEC' / Something is wrong with the 8-second scheduler.TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BDICFSURVEYCYCLE' / Something is wrong with the SurveyCycle schedulTFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BDICFNOSURVEYFRE' / There is no Survey data structure available. TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 32768 / offset for unsigned integers TTYPE59 = 'BDICFUNCLEARABLE' / A data type could not be cleared. TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BDICFBADBLOCKNUM' / Block number not in expected range. TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BDICFAM241SPECTN' / Spectrum is not cleared. TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BDICFRATEHANDLER' / The Rate Handler wasn't called often enough. TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDICFDUMP' / Something unexpected happened in the dump proceTFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDICFFILEWRITE' / Fault during file write. TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BDICFFILEREAD' / Fault during file read. TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BDICFREACTIVATED' / Object being reactivated during telemetry. TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BDICFPUNTMAX' / Maximum calculation overflowed, punting. TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BDICFCALIBTIMEOU' / Timeout error during calibration. TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BDICFCALIBBADSTA' / Calibration found bad state. TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BDICFCALIBABANDO' / Calibration abandoned. TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BDICFGAINOFFNOTF' / No free gain/offset object available. TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BDICFPACKINGFAIL' / Fault packing detector map. TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BDICFIMAGELOSS' / Image result returned is not for most recent imTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'BDICFNOIMPROVEDT' / Improved trigger expected, but not found. TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BDICFKILLWRONGTR' / Trigger ended is not the current trigger. TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 32768 / offset for unsigned integers TTYPE76 = 'BDICFOBSOLETERAT' / Trying to look at di_ratehandler rates that areTFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 32768 / offset for unsigned integers TTYPE77 = 'BDICFBADTRIGGERC' / Bad trigger criterion. TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 32768 / offset for unsigned integers TTYPE78 = 'BDICFNOACS' / No ACS data for relevant time. TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 32768 / offset for unsigned integers TTYPE79 = 'BDICFSOURCETABLE' / Something wrong with source table. TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BDICFDSP' / DSP found something wrong. TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 32768 / offset for unsigned integers TTYPE81 = 'BDICFINACTIVEBLO' / Inactive block incompatible with /bdiset MACTBLTFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 32768 / offset for unsigned integers TTYPE82 = 'BDICFCOMMANDABLE' / Invalid access to commandable value TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 32768 / offset for unsigned integers EXTNAME = 'hk220x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 572323520.11364 TSTOP = 572325568.06844 DATE-OBS= '2019-02-20T02:45:15' DATE-END= '2019-02-20T03:19:23' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2047.95480000973 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 544 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:42' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '0GbH1EaG0EaG0EaG' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2960929026' / data unit checksum updated 2019-03-02T08:35:42 HISTORY TASK: FAPPND on FILENAME: sw00889785000b220x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TNULL26 = 2147483647 TNULL8 = 2147483647 TNULL29 = 2147483647 TNULL47 = 2147483647 TNULL36 = 2147483647 TNULL46 = 2147483647 TNULL30 = 2147483647 TNULL15 = 2147483647 TNULL66 = 32767 TNULL73 = 32767 TNULL69 = 32767 TNULL57 = 32767 TNULL56 = 32767 TNULL9 = 2147483647 TNULL72 = 32767 TNULL31 = 2147483647 TNULL39 = 2147483647 TNULL67 = 32767 TNULL45 = 2147483647 TNULL14 = 2147483647 TNULL64 = 32767 TNULL68 = 32767 TNULL51 = 32767 TNULL40 = 2147483647 TNULL11 = 2147483647 TNULL17 = 2147483647 TNULL74 = 32767 TNULL18 = 2147483647 TNULL21 = 2147483647 TNULL58 = 32767 TNULL33 = 2147483647 TNULL38 = 2147483647 TNULL28 = 2147483647 TNULL3 = 2147483647 TNULL16 = 2147483647 TNULL59 = 32767 TNULL32 = 2147483647 TNULL65 = 32767 TNULL60 = 32767 TNULL13 = 2147483647 TNULL80 = 32767 TNULL48 = 2147483647 TNULL61 = 32767 TNULL75 = 32767 TNULL23 = 2147483647 TNULL42 = 2147483647 TNULL76 = 32767 TNULL20 = 2147483647 TNULL50 = 32767 TNULL35 = 2147483647 TNULL41 = 2147483647 TNULL25 = 2147483647 TNULL10 = 2147483647 TNULL22 = 2147483647 TNULL24 = 2147483647 TNULL19 = 2147483647 TNULL77 = 32767 TNULL53 = 32767 TNULL78 = 32767 TNULL6 = 2147483647 TNULL55 = 32767 TNULL44 = 2147483647 TNULL52 = 32767 TNULL81 = 32767 TNULL70 = 32767 TNULL62 = 32767 TNULL82 = 32767 TNULL27 = 2147483647 TNULL12 = 2147483647 TNULL79 = 32767 TNULL7 = 2147483647 TNULL37 = 2147483647 TNULL43 = 2147483647 TNULL71 = 32767 TNULL63 = 32767 TNULL54 = 32767 TNULL34 = 2147483647 TNULL49 = 32767 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{`/rzA{`ApqN/|MIDh#D#D#D#D#DujM"4BCN€€€€€€€€€€€€:A{ IoA{Ap'(CXqnj/|MwID #####jM"9CXB€€€€€€€€€€€€:A| oA|Ap'(Hq/|1NoID#####jM">€Cb€:A| W~oA| Ap'(Mqu/|]NJOtIDH$4$4$4$4$4jM"CBCl:A|@ DoA|@Ap'(Rxqk/|Ny/ID$$$$$jM"HCu:A|`UoA|`Ap0X?qc/|N!bIDT$Ѐ$Ѐ$Ѐ$Ѐ$ЀjO"MCB:A| oA|Ap0]GrԀ/|N"ID%$%$%$%$%$jO"RBC:A| joA|Ap0bQr2/| O$PTD̀%xĀĀ%x%x%xĀ%xĀ2jO"WCBBBBBBBBBBBB:A| oA|Ap0g\brT0/|9O4ˊ%TD4%ĀĀ%%%Ā%ĀJjO"\CBBBBBBBBBBBBB:A| zcoA|Ap0lmru,/|eOc'>TD؀&ĀĀ&&&Ā&ĀbjO"aBCBBBBBBBBBBBBB:A}PoA}Ap7q}Yr/| O(TD@&\ĀĀ&\&\&\Ā&\ĀzjQ"e€CBBBBBBBBBBBB:A} 0 A} Ap7v(rU/|!Ok*,TD&ĀĀ&&&Ā&ĀjQ"kC€BBBBBBBBBBBB:A}@ A}@Ap7{Fr%/|"Oc+TD߸'ЀЀ'''Ѐ'Ѐ"jQ"pBCB:A}`  A}`Ap7~rT/|$PC-TD 'LЀЀ'L'L'LЀ'LЀ"jQ"t€C:A} 2 A}Ap7ٺs€/|%APN#.TDĀ'ЀЀ'''Ѐ'Ѐ"jQ"zC:A}m A}Ap>Ms?s/|&mP}0TD,'ЀЀ'''Ѐ'Ѐ"jQ"~C€:A} l A}Ap>ps`1/|'P1TDЀ(<ЀЀ(<(<(<Ѐ(<Ѐ"jQ"€Cꂀ:A} G A}Ap>#s/|(P2TD(܀܀(((܀(܀7jS"C€€€€€€€€€€€€:A~ %1 A~Ap>es/|)Q NJ4mTD (؀܀܀(؀(؀(؀܀(؀܀OjS"C€€€€€€€€€€€€€:A~  A~ Ap>'s6/|+Q85TD),܀܀),),),܀),܀gjS"€D€€€€€€€€€€€€€:A~@K A~@ApF4s/|,IQg7[TD )t܀܀)t)t)t܀)t܀jS"BD€€€€€€€€€€€€:A~`_D +++++(jT"DBB:A|$ AApپM_]~C/|3QRĊ@%_D +T+T+T+T+T2jY"BDL:A:_#)A ApپM48I/|4}S-A_D $+++++22jY"€DU€:A@ x)A@ApپM48I/|5S? C_D (+++++J2jY"BD_:A`¤)A`ApپM48I/|6$SnD_D -,D,D,D,D,DlĀjb"BDiBBBBBBBBBBBBB: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 = 572323511.81162 TSTOP = 572325591.81164 DATE-OBS= '2019-02-20T02:45:06' DATE-END= '2019-02-20T03:19:46' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -22.4467200000000 / [s] UTCF at TSTART TELAPSE = 2080.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 545 OBS_ID = '00889785000' / Observation ID TARG_ID = 889785 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 330.13169265566 / [deg] RA pointing DEC_PNT = -76.7155674301651 / [deg] Dec pointing PA_PNT = 3.31003697062656 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'GRB190220a' / Object name RA_OBJ = 330.1630000 / [deg] R.A. Object DEC_OBJ = -76.6805833 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.18.04 ' / Processing script version SEQPNUM = 9 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2019-03-02T08:35:42' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'jEadjCVbjCabjCUb' / HDU checksum updated 2019-03-02T08:59:37 DATASUM = '2185409429' / data unit checksum updated 2019-03-02T08:35:42 HISTORY TASK: FAPPND on FILENAME: sw00889785000b221x001.hk[1] HISTORY fappend3.0a at 2019-03-02T08:35:44 TRIGTIME= 572324397.12 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '110 ' / Attitude file: 100=sat, x10=pat, xx1=uat END A{[*))))))))))))2Ćxxx|xxxxxxxxxxxxxȔxx|zxx~|zxxxxxzxxxxzzzxxxxx|zxzzxxxx~xxxxxxxxxxxzxzxxxzxxxxxxxxxzxx|xxxzxxxxxxxxxxzxx~xxxxxxxxzxxzxxxxxxxxzx|zxzxxzxxxxxxxxxxxzxzxzxzxxzxxxxxxzxzxxx|zxxxxxxxxxxxA{onnnnnnnnnnnnT궚A{₪hʮ̮A{}%A{""""""""""""%;)A{^^^^^^^^^^^^9O= A{*%McQ   A{9)a#w#e1%!3A{!M=u7)))-)))7))))))))))yE))-+))/-+)))))+))))+++)))))-+)++))))/)))1))))))))+)+)))+)))))))))+))-)))+))))))))))+9)1)/))))))5))+))+))))))))+)-+)+))+)))))))))))+)+)+)+))+)))G)))+)+)))-+)))))))))))A|WWWWWWWWWWWWo_YKKKOKKKYKKKKKKKKKKgKKOMKKQOMKKKKKMKKKKMMMKKKKKOMKMMKKKKQKKKSKKKKKKKKMKMKKKMKKKKKKKKKMKKOKKKMKKKKKKKKKKM[KSKQKKKKKKWKKMKKMKKKKKKKKMKOMKMKKMKKKKKKKKKKKMKMKMKMKKMKKKiKKKMKMKKKOMKKKKKKKKKKKA|#*sm___c___m__________{__ca__eca_____a____aaa_____ca_aa____e___g________a_a___a_________a__c___a__________ao_g_e______k__a__a________a_ca_a__a___________a_a_a_a__a___}___a_a___ca___________A|7-ssswsssssssssssssÏsswussywusssssussssuuussssswusuussssysss{ssssssssususssusssssssssusswsssussssssssssus{syssssssssussussssssssuswusussusssssssssssusususussussssssusussswusssssssssssA|K Aӕ采ףA|_zGGGGGGGGGGGGU뷛A|s₃i˯ͯA|q}%A| 1G5A|*@@@@@@@@@@@@ E[I A|||||||||||||1!Yo   ])                              +    A|ҸE5m/!!!%!!!/!!!!!!!!!!q=!!%#!!'%#!!!!!#!!!!###!!!!!%#!##!!!!'!!!)!!!!!!!!#!#!!!#!!!!!!!!!#%!%!!!#!!!!!!!!!!#1!)!'!!!!!!-!!#!!#!!!!!!!!#!%#!#!!#!!!!!!!!!!!#!#!#!#!!#!!!?!!!#!#!!!%#!!!!!!!!!!!A|zYIC5559555C5555555555Q559755;97555557555577755555975775555;555=5555555575755575555555557959555755555555557E5=5;555555A55755755555555759757557555555555557575757557555S5557575559755555555555A|000000000000m]WIIIMIIIWIIIIIIIIIIeIIMKIIOMKIIIIIKIIIIKKKIIIIIMKIKKIIIIOIIIQIIIIIIIIKIKIIIKIIIIIIIIIKQIMIIIKIIIIIIIIIIKYIQIOIIIIIIUIIKIIKIIIIIIIIKIMKIKIIKIIIIIIIIIIIKIKIKIKIIKIIIgIIIKIKIIIMKIIIIIIIIIIIA}llllllllllllqk]]]a]]]k]]]]]]]]]]y]]a_]]ca_]]]]]_]]]]___]]]]]a_]__]]]]c]]]e]]]]]]]]_]_]]]_]]]]]]]]]_e]a]]]_]]]]]]]]]]_m]e]c]]]]]]i]]_]]_]]]]]]]]_]a_]_]]_]]]]]]]]]]]_]_]_]_]]_]]]{]]]_]_]]]a_]]]]]]]]]]]A}'*+qqquqqqqqqqqqqqqqqqusqqwusqqqqqsqqqqsssqqqqqusqssqqqqwqqqyqqqqqqqqsqsqqqsqqqqqqqqqsyquqqqsqqqqqqqqqqsqyqwqqqqqq}qqsqqsqqqqqqqqsqusqsqqsqqqqqqqqqqqsqsqsqsqqsqqqqqqsqsqqqusqqqqqqqqqqqA};*Mߡ㯓A}O!))))))))))))a˻ çŧA}c*eeeeeeeeeeeeuɻ ׻ûû˻ûǻٻA}wҡ1A}/E3A} CYGA}qUUUUUUUUUUUU/Wm   ['             )  A}ₚQAy;---1---;----------}I--1/--31/-----/----///-----1/-//----3---5--------/-/---/---------/5-1---/----------/=-5-3------9--/--/--------/-1/-/--/-----------/-/-/-/--/---K---/-/---1/-----------A}*eUOAAAEAAAOAAAAAAAAAA]AAECAAGECAAAAACAAAACCCAAAAAECACCAAAAGAAAIAAAAAAAACACAAACAAAAAAAAACMAEAAACAAAAAAAAAACQAIAGAAAAAAMAACAACAAAAAAAACAECACAACAAAAAAAAAAACACACACAACAAA_AAACACAAAECAAAAAAAAAAAA}zyicUUUYUUUcUUUUUUUUUUqUUYWUU[YWUUUUUWUUUUWWWUUUUUYWUWWUUUU[UUU]UUUUUUUUWUWUUUWUUUUUUUUUWaUYUUUWUUUUUUUUUUWeU]U[UUUUUUaUUWUUWUUUUUUUUWUYWUWUUWUUUUUUUUUUUWUWUWUWUUWUUUsUUUWUWUUUYWUUUUUUUUUUUA~zNNNNNNNNNNNN#}wiiimiiiwiiiiiiiiiiiimkiiomkiiiiikiiiikkkiiiiimkikkiiiioiiiqiiiiiiiikikiiikiiiiiiiiikuimiiikiiiiiiiiiikyiqioiiiiiiuiikiikiiiiiiiikimkikiikiiiiiiiiiiikikikikiikiiiiiikikiiimkiiiiiiiiiiiA~*7ɋ}}}}}}}}}}}}}}}}͙}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}}A~+!Kݟ󑑑᭑A~?_ɹåA~S>>>>>>>>>>>>sǹ չŹɹŹ׹A~gzzzzzzzzzzzzz/A~{z;Q? 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