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: sw00412081000b21cx001.hk[0] TSTART = 287675547.95072 TSTOP = 287681592.44334 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:33:11' PROCVER = '3.13.17 ' / 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 = '00412081000' / Observation ID SEQPNUM = 7 / Number of times the dataset processed TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART CHECKSUM= '5mTX6kTU5kTU5kTU' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = ' 0' / data unit checksum updated 2010-02-18T18:32:37 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 = 41 / 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 = 287675744.25306 TSTOP = 287680878.48108 DATE-OBS= '2010-02-12T13:55:43' DATE-END= '2010-02-12T15:21:17' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5134.22802001238 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 291 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'mbW8paV5maV5maV5' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1875161980' / data unit checksum updated 2010-02-18T17:05:15 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: sw00412081000b123x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:24 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%�`@Ȋ� �Ȁ\��\��\��targ/nram/scripts/onfals10.gz A�%�`w'� �΀\��\��\��ONSAA A�%�`�5T� �܀��\��ONSAA A�%��+�� Ȁ\��\��\��targ/norm/scripts/onsaa.gz A�%��D�V� �ʀ��\��ONFALS3 A�%�˧�� ΀\��\��\��ONFALS3 A�%�>�� Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�%��F� �ʀ��\��ONFALS3 A�%��ɀ �΀\��\��\��ONFALS3 A�%�b��΀ �Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�%�b�n� �ʀ��\��ONSLEWEV A�%�Э'=��΀��./src/sciencedata.cpp:faultDUMP A�%�X�1f� �΀\��\��\��ONSLEWEV A�%�i_� �Ȁ\��\��\��targ/nram/scripts/onslewev.gz A�%�� ʀ��\��ONFALS3 A�%�:i� �΀\��\��\��ONFALS3 A�%�(c>�� Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�%�(��ـ �ʀ��\��ONBURQ20 A�%�*�^ � �ʀ��\��ONSLEWEV A�%��m3 � �΀\��\��\��ONSLEWEV A�%�� {��./src/di_scheduler.cpp:faultNOSURVEYFREEA�%��Ҁ��./src/di_scheduler.cpp:faultNOSURVEYFREEA�%�� π��./src/di_scheduler.cpp:faultNOSURVEYFREEA�%�� Ȁ\��\��\��targ/nram/scripts/onslewev.gz A�%��S�&� �ʀ��\��ONFALS3 A�%��'�� ΀\��\��\��ONFALS3 A�%��4�� Ȁ\��\��\��targ/nram/scripts/onfals3.gz A�%�#�� ʀ��\��ONFALS3 A�%��M�� ΀\��\��\��ONFALS3 A�%�Q��./src/di_scheduler.cpp:faultNOSURVEYFREEA�%�o� �΀\��\��\��ONBURQ20 A�%�*!(9��\��\��\�� A�%�*)��v�./src/ldphead.cpp:faultFILEWRITE A�%�*+@��p�./src/eventfile.cpp:faultFILEWRITE A�%�,�@��\��\��\�� A�%�,�[-��v�./src/ldphead.cpp:faultFILEWRITE A�%�,�Ȁ��p�./src/eventfile.cpp:faultFILEWRITE A�%�,�}Ԁ��\��\��\�� A�%�,�82��v�./src/ldphead.cpp:faultFILEWRITE A�%�m�aЀ �ǀ\��\��\��ONSLEWEV A�%�n{(� �΀\��\��\��ONSLEWEV XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 152 / width of table in bytes NAXIS2 = 8 / 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 = 287676005.22886 TSTOP = 287676475.41642 DATE-OBS= '2010-02-12T14:00:04' DATE-END= '2010-02-12T14:07:54' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 470.187559962273 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 293 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'iT1OkQ0LiQ0LiQ0L' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '855981037' / data unit checksum updated 2010-02-18T17:05:15 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: sw00412081000b125x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:24 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%�e:�� ` ��q�d��targ/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A�%�q��d��t�Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�%��O�1� ��~�p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�%��kC�!��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo A�%�/eY�� ` ��q�d��targ/nram/preboot.sou targ/nram/preboot.sou targ/mode/tables/brsrctbl.gzo A�%�2��d��t�Ԁ��targ/nram/preboot.lng targ/nram/preboot.lng targ/mode/tables/tglngtbl.gzo A�%�6g-�� ~�p��targ/nram/preboot.sht targ/nram/preboot.sht targ/mode/tables/tgshttbl.gzo A�%�;j��!��targ/nram/preboot.vet targ/nram/preboot.vet targ/mode/tables/tgvettbl.gzo XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 4551 / 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 = 287675547.99116 TSTOP = 287681592.14496 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:33:11' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6044.15380001068 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 297 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YahbaSeaZYeaaYea' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1093318713' / data unit checksum updated 2010-02-18T17:05:15 HISTORY TASK: FAPPND on FILENAME: sw00412081000b129x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:24 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��A�%��G�kA�%�� A�%��W�}A�%��RA�%��A�%��f�A�%��\�A�%��}A�%�� A�%�� }A�%��!1fA�%��"SA�%��#ȟA�%��$�A�%��&;%A�%��'��A�%��(��A�%��*!�A�%��+ 2A�%��,I�A�%��-A�%��.�HA�%��0A�A�%��1�@A�%��2�A�%��3� A�%��AcA�%��rA�%��Lt�A�%��eA�%��Z82A�%��A�%��7�A�%��[v�A�%��A�%��A�%��sA�%�� A�%��!��A�%��#33A�%��$&�A�%��%.sA�%��&��A�%��'�A�%��(םA�%��*)�A�%��+�[A�%��,�UA�%��-ѢA�%��/WA�%��0t�A�%��2Q�A�%��2�A�%��4A�%��5O7A�%��6��A�%��8 �A�%��9XA�%��L��A�%�� =�A�%��WtiA�%��A�%��1�A�%��SPA�%��A�%��KA�%��H�A�%�� A�%��"�A�%��"��A�%��$.�A�%��%�qA�%��&ԀA�%��(�A�%��)UqA�%��*�A�%��,�A�%��-:�A�%��.�CA�%��/�cA�%��0��A�%��4��A�%��6�A�%��74/A�%��8�RA�%��x�XA�%��9��A�%��;3�A�%��ߏA�%��H��A�%�� A�%��V�A�%��A�%��̣A�%��W�7A�%��5A�%��A�%��Z0A�%��A�%��A�%��A�%��kA�%��A�%��!�A�%��"WA�%��#��A�%��%MA�%��&�A�%��'�3A�%��(y>A�%��)��A�%�+�A�%�,,�A�%�-��A�%�.�6A�%�/�hA�%�16�A�%�2r�A�%�3�hA�%�4�A�%� 6 �A�%� 7q�A�%�8��A�%�9�PA�%� HʂA�%� 3]A�%�U�A�%�QA�%��A�%�Xy>A�%��A�%��A�%��A�%��A�%��HA�%��A�%�!�A�%�$�oA�%�&/ZA�%�'�A�%�(��A�%�)� A�%�*�mA�%�,N�A�%�-�-A�%� .��A�%�!0>A�%�"1�A�%�#5+�A�%�$6N�A�%�%7�?A�%�&8�xA�%�'9�A�%�'�=A�%�(C�A�%�)�A�%�)V �A�%�*�%A�%�*Y��A�%�+ںA�%�,;A�%�-�}A�%�.��A�%�/�CA�%�0! A�%�1"8�A�%�2#��A�%�3$�A�%�4&rA�%�5'�A�%�6(�A�%�7)؄A�%�8+�A�%�9,nnA�%�:-�WA�%�;.�A�%�<0 �A�%�=1=2A�%�>2~RA�%�?3��A�%�@5�A�%�AE��A�%�B v6A�%�BO�A�%�C�9A�%�CO�4A�%�D��A�%�E}A�%�ERZ�A�%�F}�A�%�FS�AA�%�Gb�A�%�HJA�%�H[RA�%�If�A�%�J��A�%�KWA�%�L ��A�%�M!G�A�%�N"�A�%�O#��A�%�P&9�A�%�Q&E�A�%�R'��A�%�S(�\A�%�Sj�A�%�T)̸A�%�T�(A�%�U+OaA�%�Uk��A�%�V,��A�%�W-�7A�%�X.�A�%�Y0+AA�%�Z4(NA�%�[5v�A�%�\6��A�%�]7��A�%�^9&A�%�_:��A�%�_�]�A�%�`y�A�%�`�l�A�%�`�4DA�%�a:�'A�%�az�,A�%�a�L�A�%�a�\}A�%�bNj�A�%�b�j�A�%�b�;�A�%�c��A�%�cU�;A�%�c�A�%�cׂ�A�%�d��A�%�dWޔA�%�d�¤A�%�d؏�A�%�e��A�%�eY$�A�%�e�rGA�%�e��A�%�f�A�%�fZF�A�%�gJ#A�%�h�fA�%�h\��A�%�i� A�%�j5A�%�j_P]A�%�k ��A�%�k`R�A�%�l!t?A�%�m"o�A�%�n#��A�%�o$�fA�%�p&77A�%�pf�1A�%�q'��A�%�r(�CA�%�s)�ZA�%�t+F5A�%�u,YuA�%�v-�4A�%�w.�%A�%�x0/0A�%�y1BpA�%�z2iYA�%�{AVA�%�|A A�%�|A��A�%�}�FA�%�}B�A�%�~�}A�%�~N�A�%�TLA�%�O��A�%��IA�%��P�A�%��gA�%��_��A�%�� A�%��`&A�%��!4A�%��a��A�%��"��A�%��#��A�%��$��A�%��& �A�%��fa(A�%��A�%��'͊A�%��gz�A�%��]A�%��A�%��(]�A�%��h��A�%��!A�%��]OA�%��)�A�%��j�HA�%��nA�%��8A�%��*��A�%��kCA�%��,jA�%��-<6A�%��.|A�%��oo�A�%��A�%��uA�%��/��A�%��o�A�%��8\A�%��sA�%��0��A�%��4�A�%��@_�A�%��|A�%��M�A�%��z:A�%��[!�A�%��xlA�%��[BFA�%��A�%��A�%��]S�A�%��=A�%��^��A�%��Y�A�%�� ]A�%��!�A�%��#]A�%��ck�A�%��$[lA�%��dz�A�%��%a�A�%��&��A�%��)_�A�%��)R�A�%��*C�A�%��+tA�%��,��A�%��-��A�%��/&lA�%��0`�A�%��3}�A�%��5>-A�%��>Y�A�%��PA�%��?j�A�%��W�A�%��IGA�%�� 8�A�%��X{�A�%��1�A�%��A�%��t�A�%��\��A�%��A�%��]�DA�%��%A�%��_R�A�%��A�%��!?�A�%��"L�A�%��b�A�%��#�'A�%��$�yA�%��%�~A�%��f8�A�%��' =A�%��(uOA�%��h��A�%��)k�A�%��*�A�%��,�A�%��-EA�%��.m�A�%��/s�A�%��o�A�%��0��A�%��20�A�%��5�A�%��6ȴA�%��8�A�%��A�%��9�A�%��9�kA�%��z�`A�%�Ǽ!A�%��]�A�%��AA�%�ȁ�A�%��A�%��)A�%��BA�%�ɂQ�A�%��sA�%��A�%��F�?A�%�ʆ �A�%��wpA�%��GA�%��Z1�A�%�˙?)A�%��ٙ�A�%��ENA�%��Z$�A�%�̚ɰA�%��A�%��D�A�%��[��A�%�͛�~A�%��V�A�%��A�%��\�A�%�Μ��A�%��S�A�%��ZA�%��^NA�%�ϞN'A�%��ޜ�A�%��5A�%��_Y�A�%�ПagA�%��IfA�%�� .A�%��`V�A�%��!}kA�%��"q7A�%��#��A�%��d%�A�%��$�uA�%��&hA�%��'�qA�%��(�/A�%��h��A�%��)��A�%��*�A�%��,�A�%��lg�A�%�ۭ)�A�%��-gwA�%��m޾A�%�ܮ_A�%��,A�%��.�A�%��o�,A�%�ݯ)A�%��rqA�%��/��A�%��p)�A�%�ްV�A�%��1�A�%��22MA�%��6A�%��7HA�%��wc^A�%�ⷰ�A�%��A�%��8M�A�%��x��A�%�㸼A�%�� lA�%��9UqA�%��:�eA�%��0A�%��@3A�%��G0A�%��?��A�%��d�A�%��F�[A�%��A�%��X��A�%��/A�%��Z,gA�%��U�A�%��A�%��\ԪA�%��A�%��^A�%��A�%�� A�%��!��A�%��a��A�%��"��A�%��b�}A�%��$`�A�%��d4A�%��$��A�%��& �A�%��'�A�%��(��A�%��)�hA�%��+A�%��,#�A�%��-��A�%��.��A�%��/�*A�%��16�A�%��2?hA�%��3��A�%�4�6A�%�68�A�%�7OA�%�8D�A�%�9��A�%�; 2A�%��GA�%�JgbA�%� �ZA�%�X�PA�%��A�%�Xf�A�%� t�A�%� Y�A�%� }�A�%� [)_A�%��A�%�ؙA�%� �A�%� ^q�A�%�dA�%� ��A�%�`�A�%�"��A�%�b�A�%�"�A�%�$2�A�%�%a�A�%�&�A�%�f�gA�%�'�+A�%�(�FA�%�)�7A�%�+a�A�%�k��A�%�,~(A�%�-�A�%�{�QA�%��M�A�%��A�%�<�eA�%�}VmA�%��A�%��A�%�C��A�%��A�%��:�A�%�h�A�%�N�\A�%��R�A�%��A�%��;A�%�PѷA�%��nA�%�оA�%� �A�%� QX�A�%� ��A�%� ��A�%�!��A�%�!T3A�%�!��$A�%�!�fQA�%�"��A�%�"S�nA�%�"�3A�%�"�oA�%�#g�A�%�#ZA�%�$�mA�%�$[F5A�%�%(�A�%�%\�A�%�&��A�%�&^NA�%�'�%A�%�(�hA�%�(`0A�%�(�y�A�%�(��A�%�)!�A�%�)a��A�%�)��A�%�)�ҞA�%�*"A�%�*b�A�%�*�ϖA�%�+#J�A�%�,$�LA�%�-%�~A�%�.&��A�%�/( A�%�0)f{A�%�1+wA�%�2,�A�%�3-Q/A�%�4.r�A�%�5/��A�%�61�A�%�72.^A�%�83��A�%�94k'A�%�:5��A�%�;7OA�%�<8>BA�%�=9V�A�%�>:�8A�%�>�P�A�%�?;�LA�%�?��A�%�@<�A�%�@�ՑA�%�AH�A�%�B [�A�%�BS�AA�%�C�@A�%�CU+A�%�DJ�A�%�DV�A�%�Ei�A�%�EW�dA�%�F�A�%�FX��A�%�G��A�%�GZ0A�%�H��A�%�H[D�A�%�IT7A�%�J��A�%�K�MA�%�LܜA�%�M!mA�%�N#1�A�%�O#��A�%�P$�A�%�Ped0A�%�Q%��A�%�R&��A�%�S('�A�%�T)e,A�%�U*��A�%�V,yA�%�W- A�%�X.p;A�%�Y/˒A�%�Z0�|A�%�[2TaA�%�\3'gA�%�]46�A�%�^5��A�%�_6��A�%�`7��A�%�`xS;A�%�`��xA�%�`�A�%�a9IA�%�ay��A�%�a�q�A�%�a��A�%�bH�A�%�b�sA�%�c��A�%�cU��A�%�c��A�%�c�DRA�%�d��A�%�dY#�A�%�d�t�A�%�d��|A�%�e]W�A�%�e�DA�%�eݼ�A�%�f�A�%�f^"�A�%�f�p;A�%�f�&lA�%�g.IA�%�g_��A�%�g��A�%�g�x�A�%�h ٔA�%�h`�A�%�h��|A�%�h�&A�%�i!��A�%�ib~A�%�i�6;A�%�i�]A�%�j"��A�%�jc;A�%�j�F�A�%�j��A�%�k$�A�%�keGZA�%�k�T�A�%�k�ŗA�%�l$�UA�%�le�GA�%�m&�5A�%�n'�A�%�o(��A�%�p)��A�%�q+H�A�%�q��A�%�r"L�A�%�rb�(A�%�r��A�%�s#��A�%�sd�A�%�t$��A�%�u%� A�%�v'�A�%�w(},A�%�x)�/A�%�x�(xA�%�y*эA�%�z,"hA�%�{-(�A�%�|.�EA�%�}/�CA�%�}��A�%�~1�A�%�2<�A�%�r��A�%��3�*A�%��4�6A�%��6�A�%��7#%A�%��8�A�%��9�/A�%��;*�A�%��A�%��(�A�%��>2�A�%��}ͳA�%��gA�%��~�(A�%��%A�%��s�A�%��?�A�%��BA�%��A�%��A�%��C�*A�%��A�%��K�A�%��A�%�� ^�A�%��2�A�%��=A�%��L1A�%��̯�A�%�� !�A�%��jA�%��pA�%��OA�%��A�%��O�eA�%��bA�%��A�%��A�%��A�%��J�A�%��,A�%��A�%�� |A�%��alaA�%��#33A�%��#�fA�%��1A�%��T�A�%��$�hA�%��%әA�%��&�VA�%��A�%��(+�A�%��)�A�%��*�EA�%��,*A�%��-�A�%��A�%��.m�A�%��/��A�%��0�HA�%��A�%��1��A�%��3�TA�%��s� A�%��}A�%��P�A�%��4k'A�%��t��A�%��ClA�%��A�%��6*A�%��_�A�%��6�gA�%��3A�%��81'A�%��x�A�%��A�%��9E�A�%��y��A�%��$�A�%��:s.A�%��{�A�%��udA�%��| oA�%��jA�%��A�%��}S�A�%��A�%��>a�A�%��~t*A�%��#A�%��A�%��W�A�%��HA�%��A�%��]�A�%��A�%��*A�%��DA�%��DsA�%�� A�%��A�%��i�A�%�� +�A�%��A�%�� A�%��J��A�%��(A�%��A�%��̥zA�%�� VA�%��M,|A�%��Ͱ�A�%�� A�%��ND�A�%��A�%��7vA�%��oA�%��A�%��P�EA�%��v�A�%��bA�%�Ú#:A�%��ԪA�%�ĝ��A�%��p;A�%�ş"}A�%�� A�%�ƠR�A�%�� HA�%�ǡ��A�%��"2MA�%�Ȣ�A�%��#vA�%�ɤ>�A�%��$�*A�%�ʥ5A�%��%ϫA�%�˧o*A�%��'X�A�%�̧� A�%��(a�A�%��h��A�%�ͨ�A�%��)a=A�%�Ω��A�%��*��A�%��>�%A�%��~�A�%�о��A�%��A�%��?A�%��dA�%�ѿ�JA�%��1�A�%��@^_A�%��kA�%��@A�%��GK�A�%�Ӈ%�A�%��A�%��G��A�%�� /oA�%�ՋײA�%��A�%�֍+,A�%�� A�%�ד7"A�%��ݘA�%��T-�A�%��ڐA�%��A�%��v�A�%��A�%��Y!A�%��A�%��-�A�%��[JA�%��+�A�%��_A�%��[�NA�%��z:A�%��A�%��\ԪA�%��oTA�%��A�%��^�A�%�ޞe�A�%��A�%�ߟ�/A�%�� ĜA�%��A�%��!ҞA�%�ᢾ�A�%��"�.A�%��Y6A�%��$!A�%��k'A�%��%�A�%��әA�%��&��A�%��f��A�%��OA�%��S�A�%��(6eA�%��g�XA�%��W*A�%��A�%��(�iA�%��iN�A�%��Z�A�%��A�%��)��A�%�誙1A�%��+5+A�%��r\A�%��3rA�%��,s�A�%��A�%��-�A�%��t*A�%��.��A�%�쯺�A�%��˒A�%��07A�%��1A A�%��gA�%��A�%��?;dA�%��S�A�%��@fA�%��UA�%��A�%��A�%�Y�4A�%��-�A�%�u�A�%�[)_A�%��!�A�%�ƨA�%�\z:A�%��A�%�WTA�%�^�6A�%��A�%� ��A�%�!�NA�%�#[�A�%� $_[A�%� %�6A�%�&�1A�%�(A�%� )��A�%�*��A�%�,*A�%�-�A�%�.n�A�%�/��A�%�0��A�%�23�A�%�r]�A�%��A�%�3�CA�%��A�%�4`�A�%�6�A�%��A�%�7`A�%�wO�A�%�8<�A�%�9Y`A�%�A��A�%�LA�%�M-�A�%�GA�%�Y�A�%�\A�%��jA�%� �iA�%� ] A�%�!)tA�%�"8�A�%�"_��A�%�# ��A�%�$!�A�%�%"��A�%�&$5iA�%�'%a�A�%�(&�IA�%�(f�SA�%�)'��A�%�*(�A�%�+*-�A�%�,+qvA�%�-,��A�%�.._A�%�/.��A�%�00g�A�%�0��A�%�0�.�A�%�11�nA�%�1q�xA�%�1��A�%�22�A�%�33�hA�%�44��A�%�56DRA�%�5�G�A�%�67��A�%�79Q�A�%�7�R�A�%�7��9A�%�89��A�%�8zK�A�%�8��IA�%�8��>A�%�9;=A�%�9{a�A�%�9��A�%�9�yA�%�:>qA�%�:�UA�%�;>7�A�%�;��A�%��A�%�>A��A�%�?+�A�%�?C:A�%�@N�A�%�@E��A�%�A�A�%�AGm�A�%�BQ�A�%�BH�A�%�C cA�%�CI�FA�%�D эA�%�DK!�A�%�E�A�%�ELg�A�%�F =�A�%�FM��A�%�GuyA�%�GNƽA�%�H��A�%�HO�rA�%�I&�A�%�IQq�A�%�J�sA�%�JW�0A�%�KA�%�L��A�%�M��A�%�NA�%�O ��A�%�P"�bA�%�Pa��A�%�P��QA�%�P�H�A�%�Q"��A�%�Qb��A�%�Q�9�A�%�Q��A�%�R#�}A�%�RdIA�%�R�h�A�%�R�ҳA�%�S%!WA�%�Sel A�%�S��MA�%�S�A�%�T&[�A�%�U'��A�%�V(��A�%�W)�ZA�%�X+�A�%�Xk�mA�%�X�!A�%�X�N�A�%�Y,�_A�%�Yl�A�%�Y�IRA�%�Y��7A�%�Z-��A�%�Zne�A�%�Z��A�%�Z��A�%�[.��A�%�[ox�A�%�[��CA�%�\0V�A�%�]1��A�%�^2��A�%�_4)�A�%�`5~gA�%�`u�A�%�a6�.A�%�b8;�A�%�b�.A�%�c9=�A�%�d:��A�%�d�m�A�%�e;��A�%�e��PA�%�f=EA�%�f�XA�%�g>}VA�%�g�w�A�%�h?ǤA�%�i�'A�%�iA%A�%�j��A�%�jBPrA�%�k/EA�%�kC��A�%�l�OA�%�lE!A�%�m IA�%�mI^�A�%�n �TA�%�nJ�A�%�o ��A�%�oL��A�%�p�A�%�pL��A�%�q d�A�%�qM�A�%�r��A�%�rO"}A�%�s�^A�%�sP�.A�%�t$JA�%�tQ��A�%�u�AA�%�uRӄA�%�v��A�%�vTcIA�%�w�A�%�wW�{A�%�x��A�%�x[�6A�%�y�A�%�z�UA�%�{?SA�%�| ��A�%�}"�A�%�}a��A�%�~"�&A�%�$B�A�%��%��A�%��f�A�%��&��A�%��(5A�%��)b�A�%��*��A�%��,*A�%��-gwA�%��.��A�%��/ρA�%��1%A�%��4��A�%��6&-A�%��7d�A�%��8��A�%��9��A�%��;;�A�%��8A�%��C�A�%��A�%��A� A�%��&�A�%��N�A�%�� A�%��N�A�%��?A�%��Y��A�%��xA�%��A�%��[�'A�%��A�%��](�A�%��2�A�%��?SA�%��_� A�%�� ]A�%��!��A�%��"�A�%��$1{A�%��%m]A�%��&��A�%��f�eA�%��A�%��sA�%��'�=A�%��g��A�%��!lA�%��(¤A�%��)��A�%��+5+A�%��,YuA�%��A�%��-ćA�%��m��A�%��c A�%��|A�%��.�%A�%��o��A�%��0�A�%��17�A�%��2}A�%��3��A�%��t�A�%��4��A�%��&-A�%��6HAA�%��NfA�%��7��A�%��9T"A�%��9�A�%��;>WA�%��;A�%��A�%��QDA�%��0�yA�%�ȱO�A�%��t?A�%��1��A�%��r?hA�%�ɲw�A�%��.A�%��3�A�%��s��A�%�ʳ�A�%��A�%��4>�A�%��5�VA�%��I�[A�%�� A�%��XםA�%�Ι��A�%��'(A�%��>�A�%��[&�A�%�ϚںA�%��7�A�%��{�A�%��[�GA�%�М�A�%��A�%��\��A�%��SA�%��^$5A�%��sA�%��_U�A�%�� A�%��`��A�%��!��A�%��ałA�%�բ�A�%��"��A�%��cA�%��$�A�%��d8 A�%��%�A�%��e��A�%��&PA�%��(�A�%��(ӮA�%��)� A�%��+-MA�%��,]dA�%��-�dA�%��.�CA�%��o��A�%��0�A�%��1:�A�%��2o�A�%��3��A�%��5�A�%��6@dA�%��7e�A�%��8��A�%��C�A�%��iA�%��N��A�%�� A�%��N5?A�%��A�%��R��A�%��smA�%��S�A�%��:�A�%��T�A�%��c�A�%��X6eA�%��A�%��Ys�A�%��9�A�%��n�A�%��[��A�%��A�%��A�%��^,A�%��A�%��_U�A�%�� A�%��!�A�%��"��A�%��c �A�%��$�A�%��d9XA�%��%)5A�%��&;%A�%��'�NA�%��(�pA�%��)��A�%��++�A�%�,GA�%�l�zA�%�-��A�%�.��A�%�0#dA�%�1?�A�%�2n�A�%�3��A�%�4��A�%��+A�%��A�%�t�A�%�Z'(A�%��s.A�%�ڿ4A�%� fA�%� [`kA�%� ��qA�%� ��eA�%� ��A�%� \��A�%� ��[A�%� �)�A�%�ćA�%�^�A�%��H�A�%�޴cA�%��A�%�_��A�%��~=A�%��t�A�%� ��A�%� `ZqA�%� ��eA�%� ��A�%�"�pA�%�a��A�%��DA�%��A�%�"Y�A�%�b��A�%��A�%��9�A�%�#�A�%�dUA�%��S�A�%��A�%�$�A�%�&�A�%�f��A�%��A�%��A�%�'�DA�%�(��A�%�)��A�%�+fA�%�,%A�%�-jA�%�m�aA�%�.�rA�%�/��A�%�1�A�%�2^�A�%�3�*A�%�4��A�%�>��A�%��WA�%� ?iA�%� ��A�%� ��A�%�!`�A�%�!B3�A�%�!��A�%�!�h�A�%�"��A�%�"J~�A�%�"�~A�%�"�̸A�%�# �A�%�#LM�A�%�#�B�A�%�#͂�A�%�$ �uA�%�$N&�A�%�$��OA�%�$��MA�%�%?SA�%�%_j�A�%�%�6&A�%�%�$�A�%�&�1A�%�&`&A�%�&�k{A�%�&�oA�%�'!�A�%�'a~�A�%�'��A�%�'��A�%�("@�A�%�(�9�A�%�(�s.A�%�)D.�A�%�)��A�%�)�A�%�**�A�%�*K��A�%�*��A�%�*�ͳA�%�+-�KA�%�+nWTA�%�+�ΚA�%�+��/A�%�,/� A�%�,o�;A�%�,�ǤA�%�,��MA�%�-0(�A�%�-p}�A�%�-��A�%�-�?�A�%�.2�A�%�.s�hA�%�.��A�%�.��A�%�/�A�%�/�Q�A�%�0 ЦA�%�1R��A�%�1��3A�%�2H�+A�%�2��HA�%�2��pA�%�3 ~A�%�3M�>A�%�3� �A�%�3ϛA�%�4�MA�%�4O��A�%�4�[�A�%�4Њ�A�%�5>�A�%�5[f�A�%�5��A�%�5��A�%�6{�A�%�6\��A�%�6�ؙA�%�6�6�A�%�7�KA�%�8qA�%�8M�A�%�8�sCA�%�8ͥA�%�9 ޾A�%�9OWA�%�9��6A�%�9��A�%�:"}A�%�:WT�A�%�:��A�%�:ج\A�%�;+�A�%�;[]�A�%�;�T�A�%�;ۘ�A�%�<��A�%�<\]dA�%�<��FA�%�<�àA�%�=�HA�%�=^{A�%�=��A�%�=�SeA�%�>��A�%�>_Q�A�%�>�;dA�%�>�=�A�%�?��A�%�?` A�%�?�bNA�%�?වA�%�@! A�%�@a�ZA�%�@��gA�%�@�֌A�%�A") A�%�Ab�A�%�A��A�%�A�&A�%�B#y�A�%�Bd5iA�%�B�W~A�%�B�A�%�C$ɆA�%�Cel A�%�C�/ZA�%�C庲A�%�D& EA�%�Df��A�%�D�ȴA�%�D�E9A�%�E'͊A�%�E� A�%�F(tA�%�Fh��A�%�G)��A�%�H+(A�%�H��A�%�I,:A�%�J-�WA�%�S�^A�%�TJ�A�%�U 5�A�%�U[��A�%�UڶA�%�V��A�%�Wo�A�%�X�-A�%�X]�UA�%�Y�A�%�o,��A�%�p.n�A�%�q/n�A�%�r0ٔA�%�s20�A�%�t3�A�%�u2vA�%�u��A�%�vjjA�%�v�\A�%�w�mA�%�w[&�A�%�x�A�%�x\�A�%�y��A�%�zK�A�%�{Q�A�%�| �A�%�}!�NA�%�~#]%A�%�"�A�%��#33A�%��c�A�%��$^A�%��ey)A�%��A�%��%�A�%��&�eA�%��(2vA�%��)iA�%��*�;A�%��,*A�%��.RA�%��.xA�%��/��A�%��0��A�%��2-A�%��3}�A�%��4�A�%��5�A�%��6��A�%��8@�A�%��9e,A�%��B��A�%�� A�%��l�A�%��Q}kA�%��6A�%��|A�%��A�%��R&�A�%��A�%��~RA�%��l�A�%��X��A�%��_�A�%��A�%��[=A�%��A�%��\~(A�%��-A�%��]�A�%��n�A�%��A�%��!�A�%��"WA�%��#��A�%��$�,A�%��%�^A�%��'��A�%��(��A�%��)ЦA�%��+�A�%��,:A�%��-�ZA�%��.�!A�%��o��A�%��0-�A�%��A�%��RA�%��1K�A�%��q�AA�%��2�NA�%��3��A�%��A�%��5 A�%��B�\A�%��A�%��O�hA�%��[A�%��O�A�%��0A�%��Q�ZA�%��A�%��K4A�%��z%A�%��Z�@A�%��A�%��A�%��:iA�%��[��A�%��A�%��M�A�%��XA�%��\�?A�%��&A�%��PA�%�� oA�%��`զA�%��"�A�%��a�6A�%��"�A�%��$W~A�%��%e�A�%��&�vA�%��'�jA�%��A�%��)I�A�%��*csA�%��,�A�%��-!�A�%��K�A�%��.z�A�%��n�%A�%�®��A�%��Q�A�%��/�~A�%��o��A�%�ðF�A�%��1�A�%��4�A�%��6&-A�%��H.�A�%��3A�%��Q��A�%��'A�%��P�A�%��AA�%��Ro�A�%��m A�%��YIA�%��@A�%��A�%��^7�A�%��A�%�� A�%��!��A�%��a��A�%��"�.A�%��$2�A�%��%b�A�%��&ԀA�%��(6eA�%��)f{A�%��*�LA�%��j��A�%��,yA�%��-J�A�%��.��A�%�گ>A�%��GA�%��/�zA�%��p4nA�%�۰�A�%��A�%��1*�A�%��q�A�%��2h A�%��3�}A�%��5iA�%��6DRA�%��I��A�%�� A�%��J�,A�%��*EA�%��M,|A�%�� }A�%��M��A�%��|A�%��N��A�%��A�%��O��A�%��OA�%��Q>�A�%��AA�%��R�nA�%��k�A�%��YA�%��A�%��ZF�A�%��J#A�%��A�%��A�%��8�A�%�� OA�%��!�gA�%��a�@A�%��"�lA�%��$NQA�%��S&A�%��%��A�%��e��A�%��T A�%��eA�%��&БA�%��gjA�%��d�A�%��( �A�%��)P3A�%��ꟾA�%��*�LA�%��,'�A�%��l.4A�%��-@%A�%��m��,A�%�?��A�%�@!�A�%�A"�A�%�B#�A�%�C$ɆA�%�D&bxA�%�Df��A�%�D��BA�%�D�#A�%�E'��A�%�Eg�-A�%�E��A�%�E�3�A�%�F(�A�%�G)��A�%�H+5+A�%�I,`A�%�J-� A�%�K/FA�%�Ko��A�%�K��^A�%�L0x�A�%�M1�DA�%�N2�lA�%�O4�A�%�P5TvA�%�QF�QA�%�R jjA�%�RQm�A�%�S�A�%�SR�$A�%�T�}A�%�TV��A�%�U�-A�%�UW�=A�%�V�A�%�W6�A�%�W[!�A�%�X�MA�%�Y�PA�%�Z�UA�%�[LnA�%�[�MUA�%�\ �A�%�\�7�A�%�\ᰊA�%�]"�ZA�%�]b?hA�%�]��bA�%�]�LA�%�^#SA�%�^cV�A�%�_$9XA�%�`%�jA�%�a&�oA�%�b(�A�%�c)P3A�%�d*q�A�%�e,*A�%�f-`A�%�g.q�A�%�h/�A�%�i1�A�%�j4�uA�%�k6�A�%�l7B�A�%�m8��A�%�n9�MA�%�o;=A�%�o� �A�%�pA�%�_� A�%� ��A�%� !�]A�%��JA�%��4A�%�0UA�%��O�A�%��/A�%�[G�A�%�U�A�%��7A�%�2mHA�%��A�%�4}�A�%�tɆA�%�5��A�%�6�SA�%�8 �A�%�x�UA�%��A�%�9'�A�%�:��A�%��Y�A�%�G�uA�%��A�%�G8A�%�tA�%�H_A�%� [�A�%�I�A�%��A�%�ʿ4A�%�C�A�%�K\A�%��KsA�%��A�%��A�%�ZA�%� �A�%� Z@A�%�!-MA�%�"�A�%�"\�iA�%�#��A�%�$�A�%�$_TLA�%�% �"A�%�%`nA�%�&!�:A�%�' 5�A�%�'IQ�A�%�( ,gA�%�(J��A�%�)U�A�%�)VHAA�%�*��A�%�*Y��A�%�+��A�%�,��A�%�,\c�A�%�-�A�%�-]�3A�%�.gA�%�.^�RA�%�/��A�%�0 ��A�%�0��A�%�0ᰊA�%�1!�QA�%�1b3�A�%�1��ZA�%�2#33A�%�3$`�A�%�4%�6A�%�5&�]A�%�6(F A�%�6h�A�%�6��5A�%�6��A�%�7)��A�%�7i�CA�%�7��A�%�8*��A�%�9,�A�%�:-�A�%�;.e�A�%�2.^A�%�?3{JA�%�@4d�A�%�AB��A�%�B��A�%�BO��A�%�C#A�%�CO�YA�%�C��*A�%�D3A�%�DT�(A�%�D�rA�%�D��&A�%�E�A�%�ETg8A�%�Fm]A�%�FWT�A�%�F��A�%�F։�A�%�Gt�A�%�GYËA�%�G��A�%�G�A�%�H�/A�%�H[:iA�%�I�)A�%�J�FA�%�J]�A�%�KjA�%�L;dA�%�L_��A�%�M �`A�%�M`�,A�%�N!��A�%�O# �A�%�P$A5A�%�Q%{�A�%�R&�eA�%�S'�=A�%�T)J�A�%�U*m�A�%�V,A�%�W,�A�%�X.�A�%�Y/:A�%�Z0��A�%�Z�A�%�[2PrA�%�\3*A�%�]4O�A�%�^5��A�%�_6�A�%�`89A�%�a9[�A�%�b:��A�%�b��A�%�cWA�%��2A�%��2�_A�%��3�}A�%��5�A�%��6Z�A�%��7�IA�%��9UqA�%��: RA�%��D�A�%��.t*A�%��o|�A�%��FA�%��GA�%��/��A�%��o��A�%��0��A�%��2/�A�%��3��A�%��4tTA�%��6�A�%��7�A�%��A��A�%��sXA�%��t�A�%��;A�%��A�6A�%��]�A�%��.A�%��QA�%��SȟA�%��ڐA�%��2A�%��FA�%��U��A�%��A�%��1�A�%��A�%��YjjA�%��aA�%��A�%��\A�%��g�A�%��*�|A�%��v�A�%��mA�%��,�A�%��-gwA�%��m��A�%��NA�%��A�%��.��A�%��o��A�%��*ZA�%��A�%��/��A�%��p�A�%��j+A�%��`A�%��1�A�%��q4A�%��2/�A�%��6$�A�%��7i�A�%��9UqA�%��9ËA�%��<�BA�%�� oA�%��K�A�%��A�%��X��A�%��A�%��1A�%��-A�%��A�%��A�%��JA�%��[-MA�%��A�%��\^A�%��3A�%��]/A�%��VA�%��^�"A�%��A�%��A�%��dA�%��_��A�%�à�A�%��^_A�%�� ;A�%��`��A�%�ġEA�%��"��A�%��#A�%��$A5A�%��%˼A�%��f�A�%�Ȧa(A�%��A�%��&�A�%��g6�A�%�ɧ�-A�%��A�%��(.�A�%��)e,A�%��*��A�%��,yA�%��-4YA�%��/?A�%��/��A�%��0��A�%��4�jA�%��6A�%��7'A�%��8��A�%�ո��A�%��9�A�%��9��A�%��;+�A�%��ײA�%��D�A�%�؄*�A�%��Ģ4A�%��uA�%��VT A�%�ٔ�mA�%��A�%��M�A�%��U��A�%�ڕ� A�%��?A�%��A�%��A�%��A�%��Y|�A�%��A�%��A�%��[�mA�%��A�%��]6�A�%��A�%��;dA�%��_��A�%�� A�%��!�`A�%��"��A�%��$G�A�%��%��A�%��)+�A�%��i�/A�%��*|[A�%��,yA�%��-VA�%��.lLA�%��/Z�A�%��0��A�%��2/�A�%��6A�%��7A�%��8L�A�%��9Y`A�%��:�A�%��A�%��?R�A�%��x�A�%��MHA�%�� f'A�%��M�kA�%��wA�%��R�XA�%��A�%��R�A�%��KA�%�!-A�%�_rqA�%� ��A�%�`�]A�%��@A�%��dA�%�!��A�%�#4�A�%��A�%��8 A�%� $FtA�%� e'�A�%� �*A�%� %u:A�%�(GA�%�'�jA�%� )R�A�%�*��A�%�j��A�%�,!A�%��3A�%��`�A�%�-�A�%�m\�A�%��A�%��A�%�.m�A�%�o�MA�%��A�%��sA�%�/]yA�%�o�TA�%��-�A�%�0�|A�%�2/�A�%�3�A�%��*A�%�4MA�%�t��A�%��A�%��d0A�%�5�=A�%�v#�A�%��F�A�%��|�A�%�E�A�%��#A�%��G�A�%��A�%�D�9A�%��A�%�P�A�%�ZA�%�Q��A�%��A�%�RܱA�%��A�%�TJbA�%�k�A�%�[$ A�%��A�%�[�eA�%� ��A�%�!�A�%�!��!A�%�";dA�%�"_��A�%�# �`A�%�$"�}A�%�%"��A�%�&$8 A�%�'%�`A�%�(&��A�%�)"��A�%�)�o~A�%�*$-�A�%�+%"�A�%�,&�}A�%�,��A�%�,�K�A�%�-(�A�%�.(��A�%�/*uA�%�/j��A�%�0+C�A�%�1,��A�%�2-��A�%�3.��A�%�40d�A�%�51T�A�%�65n�A�%�76��A�%�8:�^A�%�8�D�A�%�9M�A�%�:uyA�%�:N�A�%�;�WA�%�;P�VA�%�<m A�%�H�A�%�?��A�%�@�A�%�A�A�%�A_k�A�%�B �A�%�C!��A�%�D#33A�%�E$A5A�%�F%��A�%�G(�A�%�H'�A�%�H��A�%�H��A�%�I)jjA�%�Ii~A�%�I��zA�%�J*csA�%�K,A�%�L,ǏA�%�M. �A�%�M�۶A�%�N/&lA�%�O0�}A�%�O�C�A�%�O�oA�%�P2ekA�%�Pr'�A�%�P�XOA�%�P�ǹA�%�Q2��A�%�QsrA�%�Q��A�%�Q��A�%�R4 qA�%�Rti�A�%�R��,A�%�R��A�%�S5Q�A�%�Su��A�%�T6�QA�%�U7�A�%�V9R�A�%�W:4DA�%�W�_A�%�X;X�A�%�X�&WA�%�X�o�A�%�YK�A�%�Z �}A�%�ZMd�A�%�[T�A�%�[N�YA�%�\�A�%�\X�KA�%�]f�A�%�]XƓA�%�^4DA�%�^ZA�%�_�mA�%�_[NA�%�`~(A�%�`\��A�%�a��A�%�b�|A�%�c��A�%�d!*�A�%�da��A�%�d�8A�%�e"�IA�%�eb�NA�%�e��A�%�e�]%A�%�f#�hA�%�fd)�A�%�f�?�A�%�f�A�%�g$֡A�%�ge�DA�%�g��A�%�g��A�%�h&;%A�%�hf��A�%�h��A�%�h� =A�%�i'��A�%�j(��A�%�k)�hA�%�l+�A�%�m,k�A�%�n-�aA�%�o.��A�%�p0$�A�%�q1Nc A�%�y��pA�%�zJ0UA�%�{ gA�%�{M+,A�%�|VA�%�|N��A�%�}R�A�%�}Z!�A�%�~��A�%��fA�%�� A�%��FA�%��A�%��`>�A�%��!4A�%��"M�A�%��#�A�%��A�%��%pA�%��e~gA�%��$�A�%��#�A�%��&N�A�%��f�vA�%��A�%��(�A�%��g��A�%��A�%��M�A�%��(��A�%��h�A�%��Z�A�%��g�A�%��)� A�%��j A�%��{A�%��A�%��+~�A�%��,=�A�%��-��A�%��.��A�%��o�1A�%��/A�%��/�EA�%��pQDA�%��j@A�%�� A�%��3��A�%��t�A�%��MA�%��4�9A�%��B�/A�%��A�%��UClA�%��A�%��TڐA�%��$�A�%��VN�A�%��iA�%��Y�7A�%��(A�%��[BFA�%��vKA�%��7A�%��A�%��_X:A�%�� A�%��"��A�%��"k�A�%��#�FA�%��%pA�%��&]:A�%��'��A�%��(��A�%��)�rA�%��+m�A�%��,��A�%��-ćA�%��/5A�%��0 �A�%��2�A�%��2��A�%��s �A�%��A�%��3�kA�%��5A�%��3��A�%��B�A�%��4��A�%��6#�A�%��7F�A�%��;6zA�%��A�%�� A�%��5A�%��?q"A�%��sA�%��CW�A�%�4A�%�J��A�%��A�%�ʨ�A�%� �A�%�_x�A�%��wA�%� ��A�%�!��A�%�#�A�%�c]%A�%�$IA�%�d�^A�%�%�{A�%�&�vA�%�)R�A�%��A�%��*0A�%� )UqA�%� it�A�%� ��A�%� *`�A�%�,A�%�,�}A�%�m<6A�%��A�%��!A�%� .gA�%� n�EA�%� ��RA�%� � �A�%�/]yA�%�o�[A�%��A�%��QDA�%�0��A�%�q�A�%��?�A�%��d�A�%�3o~A�%�r�A�%��GEA�%��A�%�2�A�%�s��A�%��A�%��A�%�4IA�%�t�A�%�5��A�%�C�A�%�q�A�%�R@�A�%��A�%�KA�%�U5A�%�k�A�%�[%pA�%��A�%�[�A�%��vKA�%��A�%��3A�%�?SA�%� ��A�%�`�A�%�"�}A�%�"�5A�%� $1{A�%�!%inA�%�"&�)A�%�#'�=A�%�$).A�%�%*/A�%�&, �A�%�',ؙA�%�(.=A�%�)/X:A�%�*0�}A�%�*s�fA�%�*��A�%�*��A�%�+4lvA�%�+t�A�%�+�A�%�+��A�%�,5�GA�%�,v �A�%�,�]:A�%�,��bA�%�-6�gA�%�-w6�A�%�-��A�%�-��A�%�.8"�A�%�.x�MA�%�.�?A�%�.�vA�%�/9A�A�%�/z+A�%�/��A�%�/�`�A�%�0:��A�%�0{�A�%�0��A�%�0�{�A�%�1D�A�%�1�;�A�%�1�FtA�%�2m�A�%�2OCBA�%�2�Z�A�%�2��WA�%�3ܜA�%�3PѷA�%�3��A�%�3�ȊA�%�4�A�%�4R�pA�%�4��A�%�4҂AA�%�5��A�%�5R��A�%�5��A�%�5�E�A�%�6 RA�%�6Y�A�%�6�UqA�%�6�̸A�%�7�A�%�7Z#:A�%�7�t~A�%�7��|A�%�8.�A�%�9��A�%�:� A�%�; �A�%�< ��A�%�=!oA�%�=a�A�%�>#5�A�%�?$�A�%�@%A�%�@ea�A�%�@�yA�%�A&J�A�%�B'�A�%�C(��A�%�D*�A�%�E+NA�%�F,]dA�%�G-�hA�%�H.�RA�%�H��A�%�H��A�%�I0$�A�%�Ipt�A�%�I�P�A�%�J2~A�%�K2{�A�%�L3�WA�%�M4ڐA�%�N6@dA�%�Nv��A�%�N�T�A�%�N�2�A�%�O7|FA�%�OwɛA�%�O��A�%�O�ʂA�%�P9]OA�%�Px��A�%�P�;:A�%�P��JA�%�Q9�A�%�Qz1�A�%�R;>WA�%�R�.4A�%�SG�jA�%�T e,A�%�TH$A�%�U [�A�%�UIUqA�%�U��A�%�V 0A�%�V[�'A�%�V��-A�%��6�+A�%��7�]A�%��9V�A�%��:)�A�%��zwA�%��A�%��G�A�%��;G�A�%��{�A�%��`A�%��<�A�%��A�%��I]OA�%�� 8�A�%��U!A�%��4A�%��T�RA�%��1A�%��A�%��A�%��We�A�%��A�%��3A�%��A�%��XpA�%��A�%��ËA�%��A�%��Y��A�%��7A�%��0UA�%��|[A�%��A�%��}A�%��m�A�%��^��A�%��{�A�%�� A�%��#4�A�%��#(�A�%��$O�A�%��%�[A�%��&�'A�%��'�=A�%��)P3A�%��*ZGA�%��+�A�%��,�5A�%��-�A�%��/I�A�%��0��A�%��2/�A�%��2��A�%��4�A�%��5�A�%��F�A�%��!A�%��O��A�%�� A�%��P��A�%��)�A�%��R�A�%��A�%��R�9A�%��A�%��X��A�%��mA�%��A�%��mA�%��}A�%��A�%�� A�%��!-wA�%��#33A�%��#��A�%��$��A�%��%�A�%��'`A�%��(;�A�%��)��A�%��*�OA�%��,�A�%��-(�A�%��/��A�%��/�~A�%��0��A�%��2/�A�%��3�CA�%��A��A�%��}A�%��N1QA�%�� dA�%��N!�A�%��#A�%��O��A�%��ρA�%��7A�%��\�+A�%�ɚ��A�%��5+A�%��A�%��8A�%�� A�%��^\�A�%��4�A�%�� A�%��`��A�%�Ρ�A�%��z�A�%��!�]A�%��a߹A�%�Ϣ�A�%��"�A�%��$1{A�%��%@�A�%��&�sA�%��'�+A�%��)5�A�%��*,gA�%��+n�A�%��-��A�%��-�>A�%��/bA�%��0$�A�%��1?�A�%��2q7A�%��3�zA�%��5�A�%��6&-A�%��H�A�%�� d�A�%��R��A�%��vA�%��xBA�%��T�@A�%��nYA�%��X{�A�%��A�%��A�%��ʗA�%��#A�%��6�A�%��^�A�%��U�A�%�� A�%��!��A�%��#LA�%��$V.A�%��%��A�%��&��A�%��'� A�%��)a=A�%��*�BA�%��,q A�%��,��A�%��.�"A�%��/�A�%��0�3A�%��2-A�%��2�&A�%��4�A�%��5��A�%��6�A�%��7�xA�%�8�sA�%�:5�A�%��G�A�%�GxWA�%� �/A�%�ToA�%�ڐA�%�U �A�%�*A�%�4DA�%�9A�%��A�%�\�_A�%��A�%��6�A�%� � A�%� ]�3A�%� �XA�%� �h^A�%� �A�%� _R�A�%��A�%�!BpA�%� "k�A�%�#�WA�%�d%�A�%��6A�%��z�A�%�$�A�%�el A�%��e�A�%��A�%�%��A�%�feA�%�'��A�%��A�%��R~A�%� EcA�%�M�hA�%��EA�%�Q�:A�%��AA�%��A�%�TgA�%�nYA�%�Z�cA�%�H�A�%�[�VA�%��A�%��A�%�PA�%� �"A�%�"�.A�%�4��A�%�6�A�%� 7MA�%�!GA�%�"�3A�%�"Q��A�%�#ҞA�%�$w\A�%�$V�3A�%�%5~A�%�&��A�%�&X{�A�%�'�/A�%�'Y�A�%�(�eA�%�)�GA�%�*�}A�%�+`�A�%�,�{A�%�- զA�%�.#33A�%�/#��A�%�0$oA�%�1%�GA�%�2U2A�%�2M��A�%�3P�A�%�3Y.A�%�41�A�%�55+A�%�5[}AA�%�6�A�%�7��A�%�7ޔ�A�%�8FA�%�9 �A�%�:!��A�%�:a��A�%�;"��A�%�<#��A�%�=$�A�%�>&�sA�%�?(�A�%�?h.�A�%�?�OLA�%�?�7LA�%�@)dA�%�@iZ�A�%�k&V�A�%�k��A�%�k�sA�%�l'�jA�%�lg��A�%�l�3�A�%�l胺A�%�m(�MA�%�m�A�%�n*82A�%�nj��A�%�n��A�%�n�L�A�%�o, �A�%�olTA�%�o��A�%�o�xA�%�p,лA�%�pm,|A�%�p��A�%�p�ՑA�%�q.|A�%�qo��A�%�q��A�%�q�?A�%�r/m3A�%�ro� A�%�r�1�A�%�r��A�%�s1�A�%�sq�A�%�s�q�A�%�s��A�%�t2-A�%�trzcA�%�t��A�%�t�*A�%�u3�zA�%�u��A�%�v4�%A�%�w6�A�%�w�=\A�%�x7��A�%�y8�xA�%�z9�ZA�%�{;:iA�%�{� oA�%�|A�%��/0A�%��A�%��c�A�%��XGoA�%��@A�%��xlA�%��A�%��FA�%��:~A�%��M�A�%�� A�%��#0�A�%��#33A�%��$^A�%��%��A�%��&�oA�%��(@A�%��)k�A�%��*��A�%��,yA�%��-`A�%��.n�A�%��/�A�%��0� A�%��2/�A�%��3�A�%��4�A�%��6A�%��7 �A�%��9;:A�%��9�A�%��;wA�%��A�%��H:TA�%�� z%A�%��T��A�%��s�A�%��U�QA�%��A�%��:A�%��M�A�%��y�A�%��[&�A�%�� A�%��\;A�%��hA�%��B[A�%��tA�%� ѷA�%�a"�A�%�#�A�%�#@OA�%�$��A�%�%әA�%�&�VA�%�(1'A�%�)g�A�%�*�oA�%� ,*A�%� -@%A�%�.r�A�%�/��A�%� 0�YA�%�4�,A�%�6rA�%�7$tA�%�H�\A�%� 8�A�%�I.A�%� 6�A�%�K�gA�%�5+A�%�K�A�%�s�A�%�O�$A�%�,�A�%�P��A�%��A�%�smA�%�S�#A�%�g�A�%�Y��A�%��mA�%��A�%��}A�%�=A�%�n�A�%� �]A�%� !֌A�%�!#�A�%�"$[lA�%�#%�GA�%�$&�oA�%�%(A�%�&)UqA�%�'*�;A�%�(,�A�%�)-qA�%�*.lLA�%�+/w�A�%�,0��A�%�-26;A�%�.3�*A�%�/4�EA�%�05��A�%�17'A�%�28��A�%�39�JA�%�4;(A�%�4��{A�%�5�uA�%�7��TA�%�8?�4A�%�9�A�%�9N GA�%�:�CA�%�;=�A�%�<��A�%��A�%�?�bA�%�@,A�%�A>A�%�B �oA�%�C!�:A�%�D#33A�%�E$B�A�%�F%�DA�%�G'��A�%�H'�A�%�I)M�A�%�J*u�A�%�K,;A�%�L,�A�%�M.AA�%�N/eVA�%�O0�rA�%�P2/�A�%�Q3:A�%�R4=GA�%�S5~gA�%�T6�eA�%�U8A�%�V9XA�%�W:�IA�%�W�P�A�%�XC�rA�%�Yk'A�%�YD� A�%�Z x�A�%�ZHdEA�%�[ [�A�%�[V�A�%�\i�A�%�]��A�%�^/A�%�_-MA�%�`��A�%�`\�A�%�a�}A�%�b�A�%�c �oA�%�d!�SA�%�e#}�A�%�f$:A�%�g%'�A�%�h&�sA�%�i'��A�%�j)(�A�%�k*�A�%�kj�rA�%�l+a�A�%�l�|�A�%�m,��A�%�mmA�%�n.+A�%�o/4�A�%�p0oiA�%�pp�`A�%�q2*oA�%�r5��A�%�s6�A�%�t7�DA�%�u9�A�%�v:A_A�%�v�H�A�%�wG�XA�%�x ��A�%�xR��A�%�y�A�%�yRyA�%�zx�A�%�{��A�%�|$�A�%�|Y��A�%�}(xA�%�}Z�A�%�~-MA�%�z:A�%��!�A�%��$)�A�%��%�A�%��&^�A�%��'�A�%��)vA�%��*%�A�%��+i�A�%��,��A�%��-�A�%��.��A�%��0f�A�%�@�|A�%��A�%�N�A�%� �A�%� W�-A�%�! A�%�!XqaA�%�"�HA�%�#�A�%�$�=A�%�%��A�%�&`�A�%�'zNA�%�( �LA�%�)!ҞA�%�*#33A�%�+$|1A�%�,%�A�%�-&�)A�%�.(�A�%�/)UqA�%�0*��A�%�1,�A�%�2-$�A�%�3.m�A�%�4/�~A�%�53��A�%�64��A�%�764�A�%�87,RA�%�98�HA�%�:9ËA�%�;;)_A�%�;��A�%�<<��A�%�<�`�A�%�==p�A�%�=��A�%�>>��A�%�>��;A�%�?@3A�%�@�OA�%�@A4A�%�A&�A�%�AB{�A�%�BF�A�%�BLX%A�%�CD|A�%�CZ2�A�%�Dp�A�%�E��A�%�FлA�%�G$5A�%�HA�A�%�I ��A�%�J!�`A�%�K#�A�%�L$A5A�%�M%��A�%�N'OA�%�O(!lA�%�P)_�A�%�Q*�A�%�R,yA�%�S-9�A�%�T.r�A�%�U07 A�%�V0��A�%�W2Q�A�%�X6�A�%�Y7K�A�%�Z9UqA�%�[9��A�%�\IUqA�%�] 3]A�%�]U7�A�%�^g�A�%�^Y� A�%�_�A�%�`��A�%�a��A�%�byhA�%�c�QA�%�d �A�%�e"JA�%�f#B�A�%�g$��A�%�h%˼A�%�i&��A�%�j($A�%�k)f{A�%�l*�jA�%�m,D|A�%�n-DA�%�o.r�A�%�p/��A�%�q1�A�%�r2h A�%�s3�*A�%�t4�%A�%�u6�A�%�vA��A�%�w��A�%�wT=GA�%�x*A�%�xV�A�%�y�A�%�z3�A�%�{�A�%�|�HA�%�} oA�%�~�A�%�i�A�%��A�%�� A�%��"��A�%��#��A�%��$}�A�%��&�A�%��'|A�%��(]�A�%��)�A�%��*эA�%��,/�A�%��-�^A�%��.��A�%��/�A�%��1mA�%��5MA�%��> A�%��A�%��??SA�%��A�%��Cg�A�%��A�%��D%�A�%�� rGA�%��HbA�%�� mA�%��V�A�%��A�%��Y�ZA�%��A�%��n�A�%��A�%��\��A�%��A�%��A�%��A�%��A�%��õA�%��!�A�%��"wA�%��#�A�%��$��A�%��(.A�%��)��A�%��*��A�%��,GA�%��-�*A�%��.�2A�%��/��A�%��1&�A�%��5@�A�%��6^�A�%��7�A�%��8�A�%��:-�A�%��C�A�%��;f�A�%��YuA�%��J A�%�� BA�%��J��A�%��A�%��Lc�A�%�� ;A�%��M%�A�%��6�A�%��~A�%��Y�HA�%��7�A�%��PHA�%��A�%��pA�%��A�%��`3A�%��!(9A�%��"O"A�%��#�MA�%��$�A�%��&�A�%�(��&A�%�)=��A�%�)��A�%�*?n�A�%�+S�A�%�+@�[A�%�,��A�%�,A�A�%�-��A�%�-N!�A�%�.WTA�%�.Y��A�%�/0UA�%�0D�A�%�0[��A�%�1��A�%�2�A�%�3sA�%�4 �A�%�5!łA�%�6"�.A�%�7$�A�%�8%XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / width of table in bytes NAXIS2 = 195 / 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 = 287675560.0919 TSTOP = 287681590.09188 DATE-OBS= '2010-02-12T13:52:39' DATE-END= '2010-02-12T15:33:09' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99998003244 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 304 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'QfgpRdgoQdgoQdgo' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3092183818' / data unit checksum updated 2010-02-18T17:05:15 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: sw00412081000b130x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:25 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��׀�� p�R��N��@��AY��"��>��A�%�� p�Ut��Qt��E��C��>��A�%��#��[�� p�>t��>t��AL�k��^��>��A�%��#�� p�=4��=4��E��Ӏ��>��A�%��߀�� p�*4��%�@��AL�.��>��A�%��s��!�� p�(��(��E��>��A�%��#��c�� p��B��ր��>��A�%��#�� p�t��t��E��Y��>��A�%� �� p��t�@��AY��>��A�%�/�#��)�� p�4��4��E��3��>��A�%�>�#��k�� p��4��4��AL�w��N��>��A�%�M�#�� p��E��߀��o��>��A�%�\�#�� pѰt��Ѭ4�@��AL�v��>��A�%�k�#��1�� p��`��,� 4��À��>��A�%�z��s�� p �� hĀ'��;��ހ��>��A�%�� p �� >��A�%��Ԁ�� p �!\�� ̀ ��ŝ��>��A�%��#��9�� p ۟�� ~@�!p��f��;��>��A�%��{�� p �d0�� T� ��~��V��>��A�%�� p�t��@�4��۟)��w��>��A�%�� p�� (��yڟ��>��A�%��A�� p5"��5��w��>��A�%�� pK3��KP�8��z��G��΀��>� ��A�%��ŀ�� pa��a�܄��t"��>��A�%�� pv�<��v�l�Є��rD� �� >��A�%��I�� p��T�|��v,�r��+��>��A�%�.�� p�R��;��nR�̀��F��>�&��A�%�=��̀�� p��s�5��g��>�,��A�%�L�#�� p�T|��>t��i􂐀��>�2��A�%�[��Q�� p��̀��o$��>�8��A�%�j�� p0��R��5��U�\��?�?��A�%�y��Հ�� p��H��M��i��Ā��?�E��A�%�� pʴ��Hr��B��a��?�K��A�%��s��Y�� p�b��p��n��bɄ��?�Q��A�%�� p�X��R��Z<��Uۄ��9��?�W��A�%��P��݀�� p ��Ҥ�E�L��U`�J��Z��?�]��A�%�� p WL��R��1��L��u��?�c��A�%��a�� p .�� b��_��I�� ?�i��A�%�� p A�� 4�� L��@��h��?�o��A�%�� p T�\�� T� �<��B��ր��Ԁ��@�y��A�%��s��'�� p gd@�� eM�0��<�1��@��A�%��a��i�� p z)�� z$�؄��D ��@��A�%�� p ��<�� ;T�0��B��@��A�%�-�� p �AP�� <(�(��@��c��@��A�%�<�a��/�� p ��\�� T��;H��~��@��A�%�K��q�� p �b�� ML�Ą��=��[��@��A�%�Z�� p ��t�� t��9��@��A�%�i�� p �R�� =`��<��ۀ��@��A�%�x��7�� p ��l�� ,�@��6��y��@��A�%��a��y�� p-,�� =H��@��A�%��s�� p!^$��!TԀ P��2t�<��2��@��A�%�� p3��3��:��S��@��A�%��?�� pF��F�@��3�;��@��A�%�� pX��XѨ��5��@��A�%��a��À�� pk��k<�Ȅ��4��@��A�%��#�� p}2��}��6��f��A��A�%��#��G�� p�8L��%�X��2ߍ��A��A�%��a�� p��|��h��<��)��A��A�%��s��ˀ�� p��D��2ӎ��9��A��A�%��P�� pżl��ŧ��8Ԏ��Z��A��A�%�,�P��O�� p�v��ְ��t��6�G��u��B��A�%�;�� p��y��\��3􏵀��B��A�%�J��Ӏ�� p�p��m��܄��0|��C��A�%�Y�s�� px��dȀT��3��x��Ԁ��C�#��A�%�h��W�� p o|�� [Ѐ��2.�Ӏ��C�)��A�%�w�s�� p2��2�<�T��6��;��C�/��A�%��ۀ�� pD��D�$��0>��+��C�5��A�%�� pV�`��V��\��6��L��C�;��A�%��s��_�� ph��h�\�@��. �Y��g��C�A��A�%��Ԁ�� pz�8��z{��|��1��C�G��A�%�� p�=��:x�h��,}��C�M��A�%��s��%�� p��T��X��.��Ā��C�S��A�%��g�� p��~�Ą��,��߀��߀��C�Y��A�%�� p�B��+t��2�G��C�_��A�%�� p��ҮX�d��)��C�e��A�%� ��-�� p�U��Rt�@��,� ��<��C�k��A�%�₀�o�� p ��\�� Ԁ��(��e��W��C�q��A�%�+�� p �e\�� QP��+֕̀��x��C�w��A�%�:�� p �� <��&ǖ(��C�}��A�%�I�s��5�� p �[4�� F��*��C��A�%�X�I��w�� p �� ˬ��(��π��C��A�%�g�� p �� Ѐ��-��C��A�%�v�� p �_�� L(��%C��"��C��A�%��=�� p��D�؄��'u�R��C��C��A�%�� p��̀؄��#h��^��C��A�%�� p#L��#:��̄��%��C��A�%�� p4o��4^ �� v��C��A�%��s��E�� pE�H��E��D��$t�ހ��C��A�%��#�� pVׄ��V��#P�?��ڀ��C��A�%��s��ɀ�� ph ��h��%��C��A�%��P�� py%@��yP�� D��C��A�%��M�� p�V��Eh�X��&��j��7��C��A�%�� p��m��T��&8�ŀ��R��C��A�%��р�� p��$-��s��C��A�%�*�� p��X��܀|�� C��C��A�%�9�#��U�� p�͌��θ؀��%E��¯��C��A�%�H�#�×�� p߲x��ߠL�,��Q�K��ʀ��C��A�%�W��ـ�� p��$��C��A�%�f�s�� p�\��8�$��t��C��A�%�u��]�� p��|��#>��>��C��""��A�%��a�ğ�� p$zH��$eԀt��!� ��Y��C��""��A�%��s�� p5~��5y��%L�u��z��C��""��A�%��#�� pFA��F?@��Ѐ��Õ��C��""��A�%��e�� pW>��WЀ)4��!��8��ö��C�"��((��A�%��s�ŧ�� pg�T��g�4� ��р��C�(��((��A�%�� px�d��x�8�,�� t��C�/��,,��A�%��P��+�� p��<��ځV�� C�5��,,��A�%��m�� p�l��X��$�� .��C�<��,,��A�%��Ư�� p�&��H��I��C�D��,,��A�%�� p��<��0��ł��j��C�L��..��A�%��s��3�� p̄��rp��T�܀��ą��C�S��88��A�%�)�#��u�� p�P��=X�<��D��Ħ��C�Y��88��A�%�8�Ƿ�� p��H��ۃ��C�_��88��A�%�G�� p��C�e��88��A�%�V��;�� p ;�� *��b��C�l��>>��A�%�e�s��}�� p �� v�ʀ��C�r��>>��A�%�t�ȿ�� p 0u�� 0c�Ą��%��9��C�x��>>��A�%��s�� p A `�� @��녍��Z��C�~��>>��A�%��C�� p Q�� Q{|�8��u��C��CC��A�%��Ʌ�� p b�� b �l��P��Ŗ��C��CC��A�%��s��ǀ�� p s_�� sM��Ԅ��Bņ��Ȁ��C��CC��A�%�� p �ٸ�� פ��0�O��C��CC��A�%��s��K�� p �*x�� ܀��C��EE��A�%��ʍ�� p �� ꜄��,��'��C��JJ��A�%��π�� p ��8�� (��j�s��B��C��KK��A�%�� p �,�� 4��$�ۀ��c��C��KK��A�%� ��S�� p �� Խd�1\��q�6��~��C��MM��A�%��˕�� p ��0�� 0��艞��Ɵ��C��QQ��A�%�(��׀�� p �� ؄��ƺ��C��QQ��A�%�7�� p�� Ȅ��a��ۀ��C��QQ��A�%�F��[�� p|P��k��C��QQ��A�%�U��̝�� p$J��$9��$��C��XX��A�%�d�#��߀�� p4��4��I��C��[[��A�%�s�#��!�� pD͸��D��#��j��C��[[��A�%��c�� pToH��T]�d�� (�~��ǅ��C��[[��A�%��ͥ�� pdC��d8�,x��Ɍ��Ǧ��C��aa��A�%�� ps�l��s��t�� A��C��aa��A�%��)�� p��񍩀��C��aa��A�%��a��k�� p�*4�� C��aa��A�%��έ�� p��T��؀|�� l��C� ��cc��A�%��P�� p�D��4t�|��'�ǀ��9��C��ee��A�%��1�� p��<�� ^�/��Z��C��ee��A�%��s�� p� �� 0��u��C��ee��A�%� ��ϵ�� p��o(��Ȗ��C�%��ee��A�%��s�� p�D��D��=�M��ȱ��C�,��jj��A�%�'��9�� p��,�Ԅ��[��Ҁ��C�2��jj��A�%�6��{�� p9L��(P��@��C�8��jj��A�%�u�u�]�� p T�� T��E��U��q��M�v*��A�%��#�� p X�� X��AL��⌀��M�|*��A�%��#�� p \�� \Ѐ��E��⭀��M��*��A�%��a�#�� p _�� _됀@��AY�s��Ȁ��M��*��A�%��#�e�� p c�P�� c�P��E��ۀ��M��*��A�%��Z�� p g�P�� gא��B�6��M��*��A�%��#�� p k�� k�Ѐ@��E��%��M��*��A�%��+�� p o�� o��AL��@��M��*��A�%��#�m�� p sŐ�� s�Ѐ��E��a��a��M��*��A�%��Ԁ�� p w�� w�Ѐ��AL��|��M��*��A�%�� p {�� {��E��$��㝀��M��*��A�%��#� 3�� p �� P�@��AY��㸀��M��*��A�%�)�s� u�� p �� E��ـ��M��*��A�%�8�s� �� p �� P��B�B��M��*��A�%�G�� p �� @��E��M��*��A�%�V�s� ;�� p �m�� mЀ��AL��0��M��*��A�%�e�s� }�� p �pP�� l��E��m��Q��M��*��A�%�t�#� �� p �5P�� 1P��AL��䃀��M��*��A�%��s�� p �4�� 4��E��l��䤀��M��*��A�%��C�� p �!�� Ѐ@��AL�ǀ��俀��M��*��A�%��s�� p �� E��/��M��*��A�%��#�ǀ�� p �� Ѐ��B��M��*��A�%�� p �P�� P��E��M��*��A�%��a�K�� p �� AY�M��7��M�*��A�%��#�� p �� E��X��M�*��A�%��Ԁπ�� p �� AL��s��M�*��A�%�� p �� Ѐ��E��x��唀��M�*��A�%� �s� S�� p �� ǐ�@��AL�Ӏ��寀��M�*��A�%��s� �� p ��P�� P��E��;��Ѐ��M�*��A�%�(� ׀�� p ǷP�� ǳ��B��M�$*��A�%�7�#�� p ˶�� ˲��E��M�**��A�%�F�a�[�� p ϟP�� ϟP��AY�Y��'��M�0*��A�%�U�s�� p ӡ�� ӝЀ��E��H��M�6*��A�%�d�#�߀�� p ׊�� ׆��AQ��c��M�<*��A�%�s�a�!�� p ۉ�� ۉЀ��E��愀��M�B*��A�%��s�c�� p �v�� s��AL�߀��柀��M�H*��A�%��#�� p �u�� qP�@��E��G��M�N*��A�%�� p �>�� :��B�ހ��M�T*��A�%��a�)�� p �<�� 8��E��F��M�Z*��A�%��#�k�� p �%�� %Ѐ��AL��.��M�`*��A�%��s�� p �(P�� $P��E�� O��M�f*��A�%��#�� p �P�� P��AL�d��j��M�l*��A�%��1�� p �� E��̀��狀��M�r*��A�%��#�s�� p �� P��AL�'��禀��M�x*��A�%� �#�� p��@��E��ǀ��M�~*��A�%��s�� p��Ѐ��B��M��*��A�%�'�a�9�� p�P��P��E��R��M��*��A�%�6�s�{�� pА��А��AL��M��*��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 218 / width of table in bytes NAXIS2 = 195 / 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 = 287675560.09274 TSTOP = 287681590.09272 DATE-OBS= '2010-02-12T13:52:39' DATE-END= '2010-02-12T15:33:09' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 305 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'iaaElUU9iaZCiUZ9' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3394656209' / data unit checksum updated 2010-02-18T17:05:15 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: sw00412081000b131x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:25 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��πtarg/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��|�%��%��A�%�� ȀA�%��9��9��W�v�i��b�ހ��㙂��A�%��n�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d �� ~"�%��%��A�%�� ȀA�%��;��;��΀v�À��b�)��㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d �� f��Y�%�ŀ��%�ŀ�A�%�� y�A�%��=ւ�=ր��E�v��b�t��:��㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��'��B��%�Ԁ��%�Ԁ�,A�%�� A�%��?��?��ü�v�w��b��m�㙂��A�%��n�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��6��ɑ%��%��;A�%�� ȀA�%��B��B��3�v�р��b� ��ދ㙂��A�%��0�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��E��%��%��JA�%�� y�A�%��D*��D*��ƪ�v�+��b�U��-U�㙂��A�%��0�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��T�� ց��9�%��%��YA�%� �A�%��FF��FF��!�v��b��ċ㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��c��&��r�%��%��hA�%� y�A�%��Hb��Hb��ɘ�v�߀��b��q9�㙂��A�%� ��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��r��,��%��%��wA�%� ȀA�%��J~��J~��v�9��b�6��㙂��A�%�/�0�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��2j��%�.��%�.��A�%�. g�A�%�.��L��L��̆�v��b�� 㙂��A�%�>��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��8F��%�=��%�=��A�%�= ��A�%�=��N��N��v��b�̀�� i��㙂��A�%�M��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��>"��R�%�L��%�L��A�%�L ȀA�%�L��P҂�PҀ��t�v�G��b�� 㙂��A�%�\�n�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��C��%�[��%�[��A�%�[ ȀA�%�[��R��R��v��b�b�� u�㙂��A�%�k�0�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��Iځ��Ñ%�j��%�j��A�%�j g�A�%�j��U ��U ��b�v��bí�� 㙂��A�%�z��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��̇�O��%�y��%�y��A�%�y E�A�%�y��W&��W&��ـv�U��b�� 3"_�㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��ۇ�U��3�%��%��A�%�� g�A�%��YB��YB��P�v��b�C�� #Ӌ㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��ꇷ[n��j�%��%��A�%�� g�A�%��[^��[^��ǀv� ��bĎ�� %?�㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��aJ��%��%��A�%�� A�%��]z��]z��>�v�c��b�ـ�� O&��㙂��A�%��πtarg/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��g&��ڑ%��%�� A�%�� g�A�%��_��_��ٵ�v��b�$�� (&�㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��m��%�Ā��%�Ā�A�%�� ȀA�%��a��a��,�v��b�o�� )��㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��&��rށ��J�%�Ӏ��%�Ӏ�+A�%�� A�%��c΂�c΀��ܣ�v�q��bź�� +�㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��5��x��%��%��:A�%�� A�%��e��e��v�ˀ��b�� F,y�㙂��A�%��n�targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��D��~��%��%��IA�%�� g�A�%��h��h��ߑ�v�%��b�P�� -�㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��S��r��%��%��XA�%� g�A�%��j"��j"��v��bƛ�� /^�㙂��A�%�� targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��b��N��*�%��%��gA�%� ȀA�%��l>��l>��v�ـ��b�� V0ы㙂��A�%��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��q��*��c�%��%��vA�%� ��A�%��nZ��nZ��v�3��b�1�� 2E�㙂��A�%�.��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��%�-��%�-��A�%�- ȀA�%�-��pv��pv��m�vÍ��b�|�� 3��㙂��A�%�=��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��⁚�ӑ%�<��%�<��A�%�< y�A�%�<��r��r��v��b�ǀ�� }5#�㙂��A�%�L��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d �� %�K��%�K��A�%�K �A�%�K��t��t��[�v�A��b�� !:6��㙂��A�%�[��targ/temp/onfalse.lng �Ԁ�Ԁ�:d�d ��C�%�Z��%�Z��A�%�Z g�A�%�Z��vʂ�vʀ��Ҁvě��b�]�� "�8 �㙂��A�%�j��targ/temp/onslew.sou �d�d�� d ��v��z�%�i��%�i��A�%�i g�A�%�i��x��x��I�v��bȨ�� $�9b�噂��A�%�y��targ/temp/onslew.lng �Ԁ�Ԁ�:d�d ��ˇ��R��%�x��%�x��A�%�x ��A�%�x��{��{��v�R��b�� %*9ˋ噂��A�%��targ/temp/onslew.lng �Ԁ�Ԁ�:d�d ��ڇ��.��%��%��A�%�� A�%��}!��}!��7�vŬ��b�>�� %�9��噂��A�%��0�targ/temp/onslew.vet ��!,��d ��釷� ��$�%��%��A�%�� A�%��=��=��ﮀv��bɉ�� %�:4�噂��A�%��targ/temp/onslew.vet ��!,��d ��恚�[�%��%��A�%�� g�A�%��ǁY�ǁY��%�v�`��b�Ԁ�� &D:g�噂��A�%��]�targ/temp/onslew.vet ��!,��d ��%��%��A�%�� g�A�%��ǃu�ǃu��vƺ��b�� &�:��噂��A�%��targ/temp/onslew.vet ��!,��d ��О��ˑ%�À��%�À�A�%�� A�%��ǅ��ǅ��v��b�j�� '@:��噂��A�%��πtarg/temp/onslew.vet ��!,��d ��%��z��%�Ҁ��%�Ҁ�*A�%�� g�A�%��Ǉ��Ǉ��v�n��bʵ�� ((;{�噂��A�%��targ/temp/onslew.vet ��!,��d ��4��V��;�%��%��9A�%�� A�%��ǉɂǉɀ��v�Ȁ��b�� )�<݋噂��A�%��targ/temp/onslew.vet ��!,��d ��C��2��t�%��%��HA�%�� A�%��ǋ�ǋ��x�v�"��b�K�� +.=��噂��A�%��targ/temp/onslew.vet ��!,��d ��R��%��%��WA�%�� V�A�%��ǎ�ǎ��v�|��b˖�� +�=��噂��A�%��targ/temp/onslew.vet ��!,��d ��a��ꁚ��%��%��fA�%� g�A�%��ǐ�ǐ��f�v�ր��b�� -s?q�噂��A�%��]�targ/temp/onslew.vet ��!,��d ��p��Ɓ��%��%��uA�%� ȀA�%��ǒ9�ǒ9��݀v�0��b�,�� /!@�噂��A�%�-�πtarg/temp/onslew.vet ��!,��d ��T�%�,��%�,�A�%�, y�A�%�,��ǔU�ǔU��T�vɊ��b�w�� 0�BW�噂��A�%�<��targ/temp/onslew.vet ��!,��d ��~��%�;��%�;�A�%�; g�A�%�;��ǖq�ǖq��ˀv��b�� 2yC��噂��A�%�K�0�targ/temp/onslew.vet ��!,��d ��Z��đ%�J��%�J�¢A�%�J g�A�%�J��ǘ��ǘ��B�v�>��b� �� 2�C�噂��A�%�Z�πtarg/temp/onslew.vet ��!,��d ��¬��6��%�Y��%�Y�±A�%�Y g�A�%�Y��ǚ��ǚ��vʛ��b�X�� 3eD(�療��A�%�i��targ/temp/onslew.vet ��!,��d ��»��4�%�h��%�h��A�%�h g�A�%�h��ǜȂǜȀ��0�v��bͣ�� 3�Dt�療��A�%�x�πtarg/temp/onslew.vet ��!,��d ��ʇ��k�%�w��%�w��A�%�w �A�%�w��Ǟ�Ǟ��v�O��b�� 4QD��療��A�%��n�targ/temp/onslew.vet ��!,��d ��ه�ʁ��%��%��A�%�� g�A�%��ǡ�ǡ��v˩��b�9�� 4�Dŋ療��A�%�� targ/temp/onslew.vet ��!,��d ��臸"��ۑ%��%��A�%�� A�%��ǣ�ǣ��v��b΄�� 5^EQ�療��A�%�� targ/temp/onslew.vet ��!,��d ��(��%��%��A�%�� g�A�%��ǥ8�ǥ8�� v�]��b�π�� 7FË療��A�%��πtarg/temp/onslew.vet ��!,��d ��.^��L�%��%��A�%�� g�A�%��ǧT�ǧT��v̷��b�� 8�H9�療��A�%��targ/temp/onslew.vet ��!,��d ��4:��%��%��A�%�� A�%��ǩp�ǩp��v��b�e�� :yI��療��A�%��targ/temp/onslew.vet ��!,��d ��$��:��%�р��%�р�)A�%�� A�%��ǫ��ǫ��q�v�p��bϰ�� <>K�療��A�%��targ/temp/onslew.vet ��!,��d ��3��?򁚿��%��%��8A�%�� g�A�%��ǭ��ǭ��v�р��b�� =�L��療��A�%��πtarg/temp/onslew.vet ��!,��d ��B��E΁��,�%��%��GA�%�� ȀA�%��ǯЂǯЀ��_�v�+��b�F�� ?�N�療��A�%��n�targ/temp/onslew.vet ��!,��d ��Q��K��e�%��%��VA�%�� A�%��Ǳ�Ǳ��րv΅��bБ�� AKOu�療��A�%��targ/temp/onslew.vet ��!,��d ��`��Q��Ü�%� ��%� ��eA�%� �A�%� ��Ǵ�Ǵ��M�v�߀��b�܀�� CP�療��A�%��]�targ/temp/onslew.vet ��!,��d ��o��Wb��Ց%��%��tA�%� �A�%��Ƕ$�Ƕ$��Āv�9��b�'�� D�RN�療��A�%�,�]�targ/temp/onslew.vet ��!,��d ��~��]>��%�+��%�+�ÃA�%�+ ��A�%�+��ǸB�ǸB��;�vϕ��b�r�� F�S��Ꙃ��A�%�;�]�targ/temp/onslew.sht �p�p� �d ��Í��c��E�%�:��%�:�ÒA�%�: �A�%�:��Ǻ^�Ǻ^��v��bѽ�� H�U�Ꙃ��A�%�J��targ/temp/onslew.vet ��!,��d ��Ü��h��|�%�I��%�I�áA�%�I g�A�%�I��Ǽz�Ǽz��)�v�I��b�� J}V��Ꙃ��A�%�Y��targ/temp/onslew.vet ��!,��d ��ë��nҁ�ɵ�%�X��%�X�ðA�%�X g�A�%�X��Ǿ��Ǿ��vУ��b�S�� LNW��Ꙃ��A�%�h�n�targ/temp/onslew.vet ��!,��d ��ú��t��%�g��%�g�ÿA�%�g ȀA�%�g��v��bҞ�� NYb�Ꙃ��A�%�w��targ/temp/onslew.vet ��!,��d ��ɇ�z��%�%�v��%�v��A�%�v �A�%�v��ς��π��v�X��b�� O�ZыꙂ��A�%��πtarg/temp/onslew.vet ��!,��d ��؇��f��\�%��%��A�%�� A�%�� vѲ��b�4�� Qj\G�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��燸�B��Ε�%��%��A�%�� V�A�%��!|�v��b�� S]��Ꙃ��A�%��n�targ/temp/onslew.vet ��!,��d ��̑%��%��A�%�� A�%��#��#��"�v�f��b�ʀ�� T�_(�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��%��%�� A�%�� A�%��?��?��$j�v��b�� Vk`��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��ց��<�%��%��A�%�� g�A�%��[��[��%�v��b�`�� X+b�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��#��u�%�Ѐ��%�Ѐ�(A�%�� A�%��w��w��'X�v�t��bԫ�� Y�c��Ꙃ��A�%��!�targ/temp/onslew.vet ��!,��d ��2��ԭ�%�߀��%�߀�7A�%�� A�%��ѓ��ѓ��(πv�΀��b�� [�d��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��A��j��%��%��FA�%�� V�A�%��ӯ��ӯ��*F�v�(��b�A�� ]Cfk�Ꙃ��A�%�� targ/temp/onslew.vet ��!,��d ��P��F��%��%��UA�%�� A�%��˂��ˀ��+��vԂ��bՌ�� ^�g܋Ꙃ��A�%� �πtarg/temp/onslew.vet ��!,��d ��_��"��V�%��%��dA�%� ��A�%��-4�v�܀��b�׀�� `�iP�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��n��ٍ�%��%��sA�%� g�A�%��.��v�6��b�"�� b[j��Ꙃ��A�%�+�πtarg/temp/onslew.vet ��!,��d ��}��ځ��Ƒ%�*��%�*�ĂA�%�* �A�%�*��0"�vՐ��b�m�� dl0�Ꙃ��A�%�:��targ/temp/onslew.vet ��!,��d ��Č��ƶ��%�9��%�9�đA�%�9 ��A�%�9��;��;��1��v��bָ�� e�m��Ꙃ��A�%�I��targ/temp/onslew.vet ��!,��d ��ě��̒��6�%�H��%�H�ĠA�%�H ȀA�%�H��W��W��3�v�D��b�� g]o�Ꙃ��A�%�X�3�targ/temp/onslew.vet ��!,��d ��Ī��n��m�%�W��%�W�įA�%�W �A�%�W��s��s��4��v֞��b�N�� ip��Ꙃ��A�%�g��targ/temp/onslew.vet ��!,��d ��Ĺ��J��ߦ�%�f��%�f�ľA�%�f �A�%�f��䏂�䏀��5��v��bי�� j�q��Ꙃ��A�%�v��targ/temp/onslew.vet ��!,��d ��ȇ��&��ݑ%�u��%�u��A�%�u �A�%�u��櫂�櫀��7u�v�R��b�� ltsp�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��ׇ��%��%��A�%�� A�%��ǂ��ǀ��8�v׬��b�/�� nt܋Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��懸�ށ��M�%��%��A�%�� g�A�%��:c�v��b�z�� o�vF�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��ﺁ�䆑%��%��A�%�� A�%��;ڀv�`��b�ŀ�� qqw��Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��彑%��%�� A�%�� A�%��=Q�vغ��b�� sy'�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��r��%��%��A�%�� g�A�%��7��7��>Ȁv��b�[�� t�z��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��"��N��-�%�π��%�π�'A�%�� A�%��S��S��@?�v�n��b٦�� vn{��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��1��*��f�%�ހ��%�ހ�6A�%�� g�A�%��o��o��A��v�Ȁ��b�� x}o�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��@�� ꝑ%��%��EA�%�� A�%��C-�v�"��b�<�� y�~�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��O��⁚�֑%��%��TA�%�� g�A�%��D��v�|��bڇ�� {|�Q�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��^��%��%��cA�%� ��A�%��Â��À��F�v�ր��b�Ҁ�� }1�Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��m��G�%��%��rA�%� g�A�%��߂��߀��G��v�0��b�� ~��5�Ꙃ��A�%�*��targ/temp/onslew.vet ��!,��d ��|��$v��~�%�)��%�)�ŁA�%�) �A�%�)��I �vۊ��b�h�� Ꙃ��A�%�9��targ/temp/onslew.vet ��!,��d ��ŋ��*R��%�8��%�8�ŐA�%�8 ȀA�%�8��J��v��b۳�� R��Ꙃ��A�%�H��targ/temp/onslew.vet ��!,��d ��Ś��0.��%�G��%�G�şA�%�G �A�%�G��3��3��K��v�>��b�� Ꙃ��A�%�W��targ/temp/onslew.vet ��!,��d ��ũ��6 ��'�%�V��%�V�ŮA�%�V g�A�%�V��O��O��Mn�vܘ��b�I�� ȉ�Ꙃ��A�%�f��targ/temp/onslew.vet ��!,��d ��Ÿ��;恚�^�%�e��%�e�ŽA�%�e g�A�%�e��k��k��N�v��bܔ�� r�t�Ꙃ��A�%�u�πtarg/temp/onslew.vet ��!,��d ��Ǉ�A��%�t��%�t��A�%�t �A�%�t�� P\�v�L��b�߀�� @��Ꙃ��A�%��n�targ/temp/onslew.vet ��!,��d ��և�G��Α%��%��A�%�� g�A�%��QӀvݦ��b�*�� ^�Ꙃ��A�%��0�targ/temp/onslew.vet ��!,��d ��凹Mz��%��%��A�%�� g�A�%��SJ�v��b�u�� ϋꙂ��A�%��targ/temp/onslew.vet ��!,��d ��SV��>�%��%��A�%�� A�%��ۂ�ۀ��T��v�Z��b�� U�F�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��Y2��w�%��%��A�%�� A�%��V8�v޴��b�� Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��_��%��%��A�%�� A�%��W��v��b�V�� ԓ&�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��!��dꁚ��%�΀��%�΀�&A�%�� g�A�%��/��/��Y&�v�h��bޡ�� Ꙃ��A�%��]�targ/temp/onslew.vet ��!,��d ��0��jƁ��%�݀��%�݀�5A�%�� g�A�%��K��K��Z��v��b�� K��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��?��p��W�%��%��DA�%�� ȀA�%��g��g��\�v��b�7�� s�Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��N��v~��%��%��SA�%�� g�A�%��]��v�v��b߂�� Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��]��|Z��Ǒ%� ��%� ��bA�%� ��A�%� ��_�v�Ѐ��b�̀�� v�U�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��l��6��%��%��qA�%� �A�%��!��!��`y�v�*��b�� @�ƋꙂ��A�%�)��targ/temp/onslew.vet ��!,��d ��{��7�%�(��%�(�ƀA�%�( V�A�%�(��#ׂ�#׀��a��vᄀ��b�c�� 8�Ꙃ��A�%�8��targ/temp/onslew.vet ��!,��d ��Ɗ��o�%�7��%�7�ƏA�%�7 �A�%�7��%��%��cg�v�ހ��b஀�� Ꙃ��A�%�G� �targ/temp/onslew.vet ��!,��d ��ƙ��ʁ��%�F��%�F�ƞA�%�F g�A�%�F��(��(��dހv�8��b�� P��Ꙃ��A�%�V�N�targ/temp/onslew.vet ��!,��d ��ƨ��ߑ%�U��%�U�ƭA�%�U g�A�%�U��*+��*+��fU�v⒀��b�D�� Ꙃ��A�%�e��targ/temp/onslew.vet ��!,��d ��Ʒ�� %�d��%�d�ƼA�%�d g�A�%�d��,G��,G��g̀v��bᏀ�� ƣ�Ꙃ��A�%�t�πtarg/temp/onslew.vet ��!,��d ��Ƈ��^�� O�%�s��%�s��A�%�s ��A�%�s��.c��.c��iC�v�F��b�ڀ�� p�Ꙃ��A�%��0�targ/temp/onslew.vet ��!,��d ��Շ��:��%��%��A�%�� ȀA�%��0��0��j��v㠀��b�%�� 0��Ꙃ��A�%��]�targ/temp/onslew.vet ��!,��d ��䇹��%��%��A�%�� g�A�%��2��2��l1�v��b�p�� T�Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��󇹶� ��%��%��A�%�� A�%��4��4��m��v�T��b⻀�� ʋꙂ��A�%��targ/temp/onslew.vet ��!,��d ��΁�/�%��%��A�%�� A�%��6ӂ�6Ӏ��o�v䮀��b�� ]�>�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��ª��h�%��%��A�%�� A�%��8��8��p��v��b�Q�� Ꙃ��A�%��0�targ/temp/onslew.vet ��!,��d �� Ȇ��%�̀��%�̀�%A�%�� g�A�%��;��;��r �v�b��b㜀�� ĭ �Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��/��b��ؑ%�܀��%�܀�4A�%�� A�%��='��='��s��v开��b�� s��Ꙃ��A�%�� targ/temp/onslew.vet ��!,��d ��>��>��%��%��CA�%�� A�%��?C��?C��t��v��b�2�� 2��Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��M��H�%��%��RA�%�� g�A�%��A_��A_��vr�v�p��b�}�� ۱s�Ꙃ��A�%� ��targ/temp/onslew.vet ��!,��d ��\��%� ��%� ��aA�%� g�A�%� ��C|��C|��w�v�ˀ��b�Ȁ�� Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��k��ҁ��%��%��pA�%� g�A�%��E��E��y`�v�%��b�� W�P�Ꙃ��A�%�(ڥ�targ/temp/onslew.vet ��!,��d ��z��뮁��%�'��%�'��A�%�' �A�%�'��G��G��z׀v��b�^�� ƋꙂ��A�%�7� �targ/temp/onslew.vet ��!,��d ��ǉ��񊁛(�%�6��%�6�ǎA�%�6 g�A�%�6��IЂ�IЀ��|N�v�ـ��b婀�� 0�Ꙃ��A�%�FŬ�targ/temp/onslew.vet ��!,��d ��ǘ��f��_�%�E��%�E�ǝA�%�E ȀA�%�E��K��K��}ŀv�3��b�� Ꙃ��A�%�U��targ/temp/onslew.vet ��!,��d ��ǧ��B��%�T��%�T�ǬA�%�T y�A�%�T��N��N��<�v荀��b�?�� a��Ꙃ��A�%�d��targ/temp/onslew.vet ��!,��d ��Ƕ��Б%�c��%�c�ǻA�%�c V�A�%�c��P$��P$���v��b技�� *��Ꙃ��A�%�s�0�targ/temp/onslew.vet ��!,��d ��Ň�� %�r��%�r��A�%�r V�A�%�r��R@��R@��*�v�A��b�Հ�� н�Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��ԇ�ց� @�%��%��A�%�� y�A�%��T\��T\���v雀��b� �� z�r�Ꙃ��A�%��πtarg/temp/onslew.vet ��!,��d ��ㇺ��!y�%��%��A�%�� A�%��Vx��Vx��v��b�k�� ,��Ꙃ��A�%��一targ/temp/onslew.vet ��!,��d ��"��%��%��A�%�� A�%��X��X���v�O��b綀�� V�Ꙃ��A�%��n�targ/temp/onslew.vet ��!,��d �� j��#�%��%��A�%�� A�%��Z��Z��vꩀ��b�� ʊ�ʋꙂ��A�%��n�targ/temp/onslew.vet ��!,��d ��&F��% �%��%��A�%�� g�A�%��\̂�\̀��}�v��b�L�� 6�=�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��,"��&Y�%�̀��%�̀�$A�%�� ȀA�%��^��^��v�]��b藀�� Ű�Ꙃ��A�%��]�targ/temp/onslew.vet ��!,��d ��.��1��'��%�ۀ��%�ۀ�3A�%�� g�A�%��a��a��k�v뷀��b�� ϛ�%�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��=��7ځ�(ɑ%��%��BA�%�� g�A�%��c ��c ��v��b�-�� EȜ�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��L��=��*�%��%��QA�%�� g�A�%��e<��e<��Y�v�k��b�x�� Ꙃ��A�%� �n�targ/temp/onslew.vet ��!,��d ��[��C��+9�%��%��`A�%� V�A�%��gX��gX��Ѐv�ŀ��b�À�� Ԉ�{�Ꙃ��A�%��targ/temp/onslew.vet ��!,��d ��j��In��,p�%��%��oA�%� �A�%��it��it��G�v��b�� Y��Ꙃ��A�%�'��targ/temp/onslew.vet ��!,��d ��y��OJ��-��%�&��%�&��~A�%�& ��A�%�&��k��k���v�y��b�Y�� a�Ꙃ��A�%�6� �targ/temp/onslew.vet ��!,��d ��Ȉ��U&��.��%�5��%�5�ȍA�%�5 g�A�%�5��m��m��5�v�Ӏ��b꤀�� ٱ�׋Ꙃ��A�%�u�3�targ/temp/onslew.vet ��!,��d ��Ǉ��-��%�t��%�t��A�%�t �A�%�t��&��&��\�w7y��c'߀��?K�v��A�%��targ/temp/onslew.vet ��!,��d ��և�#��.ۑ%��%��A�%�� y�A�%��(Ђ�(Ѐ��Ӏw7Ӏ��c(*��A��A�%��0�targ/temp/onslew.vet ��!,��d ��凿)z��0�%��%��A�%�� A�%��*��*��J�w8-��c(u��B�X��A�%��n�targ/temp/onslew.vet ��!,��d ��/V��1K�%��%��A�%�� ȀA�%��-��-��w8��c(��D�ʋ��A�%��0�targ/temp/onslew.vet ��!,��d ��52��2��%��%��A�%�� A�%��/$��/$��8�w8��c)��F57��A�%��g�targ/temp/onslew.vet ��!,��d ��;��3��%��%��A�%�� A�%��1@��1@��ί�w9;��c)V��G��A�%��0�targ/temp/onslew.vet ��!,��d ��!��@ꁜ4��%�΀��%�΀�&A�%�� y�A�%��3\��3\��&�w9��c)��I��A�%��]�targ/temp/onslew.vet ��!,��d ��0��FƁ�6+�%�݀��%�݀�5A�%�� A�%��5x��5x��ѝ�w9��c)��K0��A�%��targ/temp/onslew.vet ��!,��d ��?��L��7d�%��%��DA�%�� y�A�%��7��7��w:I��c*7��L� ��A�%��targ/temp/onslew.vet ��!,��d ��N��R~��8��%��%��SA�%�� A�%��9��9��ԋ�w:��c*��N ~��A�%��targ/temp/onslew.vet ��!,��d ��]��XZ��9ԑ%� ��%� ��bA�%� �A�%� ��;̂�;̀��w:��c*̀��P(��A�%��targ/temp/onslew.vet ��!,��d ��l��^6��;�%��%��qA�%� ȀA�%��=��=��y�w;W��c+��Q� l��A�%�)�0�targ/temp/onslew.vet ��!,��d ��{��d��%�F��%�F�՞A�%�F y�A�%�F��D<��D<��ހw'��c-p��_)��A�%��targ/temp/onslew.vet ��!,��d ��󇿒�F�%��%��A�%�� y�A�%��P��P��䨀w>��c-��`��A�%��targ/temp/onslew.vet ��!,��d ��΁�G<�%��%��A�%�� ȀA�%��S��S��w>ۀ��c.��by��A�%��targ/temp/onslew.vet ��!,��d ��Hu�%��%��A�%�� y�A�%��U��U��疀w?5��c.Q��d$o��A�%��n�targ/temp/onslew.vet ��!,��d �� I��%�̀��%�̀�%A�%�� ȀA�%��W8��W8�� w?��c.��e��A�%��0�targ/temp/onslew.vet ��!,��d ��/��b��J�%�܀��%�܀�4A�%�� V�A�%��YT��YT��ꄀw?��c.��gt Z��A�%��0�targ/temp/onslew.vet ��!,��d ��>��>��L�%��%��CA�%�� y�A�%��[p��[p��w@C��c/2��i!ɋ��A�%��πtarg/temp/onslew.vet ��!,��d ��M��MU�%��%��RA�%�� A�%��]��]��r�w@��c/}��j�#<��A�%� ��targ/temp/onslew.vet ��!,��d ��\��N��%� ��%� ��aA�%� ȀA�%� ��_��_��w@��c/Ȁ��ls$��A�%��πtarg/temp/onslew.vet ��!,��d ��k��ҁ�Oő%��%��pA�%� y�A�%��aĂ�aĀ��`�wAQ��c0��n &'��A�%�(�πtarg/temp/onslew.vet ��!,��d ��z��Ǯ��P��%�'��%�'��A�%�' �A�%�'��c��c��׀wA��c0^��o�'��A�%�7�0�targ/temp/onslew.vet ��!,��d ��։��͊��R5�%�6��%�6�֎A�%�6 y�A�%�6��e��e��N�wB��c0��qb)��A�%�F�n�targ/temp/onslew.vet ��!,��d ��֘��f��Sl�%�E��%�E�֝A�%�E �A�%�E��h��h��ŀwB_��c0��s*��A�%�U�0�targ/temp/onslew.vet ��!,��d ��֧��B��T��%�T��%�T�֬A�%�T �A�%�T��j4��j4��<�wB��c1?��t�+��A�%�d��targ/temp/onslew.vet ��!,��d ��ֶ��Uܑ%�c��%�c�ֻA�%�c ȀA�%�c��lP��lP��wC��c1��va-k��A�%�s�n�targ/temp/onslew.vet ��!,��d ��Ň��W�%�r��%�r��A�%�r �A�%�r��nl��nl��*�wCm��c1Հ��x.ߋ��A�%��n�targ/temp/onslew.vet ��!,��d ��ԇ��ց�XL�%��%��A�%�� ȀA�%��p��p��wCǀ��c2 ��y�0S��A�%��0�targ/temp/onslew.vet ��!,��d ��ㇿ𲁜Y��%��%��A�%�� A�%��r��r��wD!��c2k��{J1ȋ��A�%��n�targ/temp/onslew.vet ��!,��d ��Z��%��%��A�%�� A�%��t��t��wD{��c2��}39��A�%��targ/temp/onslew.vet ��!,��d ��j��[��%��%��A�%�� y�A�%��v܂�v܀��wDՀ��c3��~�4��A�%��targ/temp/onslew.vet ��!,��d ��F��]-�%��%��A�%�� A�%��x��x��}�wE/��c3L��\6"��A�%��targ/temp/onslew.vet ��!,��d ��"��^f�%�̀��%�̀�$A�%�� A�%��{��{��wE��c3��7��A�%��0�targ/temp/onslew.vet ��!,��d ��.�� _��%�ۀ��%�ۀ�3A�%�� y�A�%��}0��}0��k�wE��c3��9��A�%��n�targ/temp/onslew.vet ��!,��d ��=��ځ�`֑%��%��BA�%�� ȀA�%��L��L��wF=��c4-��R:��A�%��0�targ/temp/onslew.vet ��!,��d ��L��b �%��%��QA�%�� ȀA�%��ʁh�ʁh��Y�wF��c4x��;��A�%� �0�targ/temp/onslew.vet ��!,��d ��[��cF�%��%��`A�%� ��A�%��ʃ��ʃ��ЀwF��c4À��=i��A�%��0�targ/temp/onslew.vet ��!,��d ��j��%n��d}�%��%��oA�%� �A�%��ʅ��ʅ�� G�wGK��c5��T>݋��A�%�'��targ/temp/onslew.vet ��!,��d ��y��+J��e��%�&��%�&��~A�%�& ȀA�%�&��ʇ��ʇ�� wG��c5Y��@P��A�%�6��targ/temp/onslew.vet ��!,��d ��׈��1&��f�%�5��%�5�׍A�%�5 ȀA�%�5��ʉڂʉڀ��5�wH��c5��AË��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 194 / width of table in bytes NAXIS2 = 195 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 75 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK132SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BTMMAXWRESET' / TM Maximum Number of Warm Resets Before a Cold TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BTMEVENTCNT' / TM Count of All Events TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BTMSEVERRCNT' / TM Count of Events with Invalid Severity TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BTMSEVER1CNT' / TM Count of Events with Severity = 1 TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMSEVER2CNT' / TM Count of Events with Severity = 2 TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMSEVER3CNT' / TM Count of Events with Severity = 3 TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BTMSEVER4CNT' / TM Count of Events with Severity = 4 TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTMSEVER5CNT' / TM Count of Events with Severity = 5 TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BTMCURRMODE' / TM Current Software Mode TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTMPREVMODE' / TM Previous Software Mode TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BTMSRESETCNT' / TM System Reset Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'undocumented1' / Byte field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM25 = '1D ' / data format of field: 8-byte DOUBLE TTYPE26 = 'BTMPLOGPRVMOD' / TM Log of Previous Mode Change: The Mode We EntTFORM26 = '1B ' / data format of field: BYTE TTYPE27 = 'BTMPLOGNEWMOD' / TM Log of Previous Mode Change: The Mode We CamTFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BTMPRESETTYPE' / TM Log of Previous Mode Change: The Reset Type TFORM28 = '1B ' / data format of field: BYTE TTYPE29 = 'undocumented2' / Byte field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BTMPLOGEVENT' / TM Log of Previous Mode Change: Event that CausTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BTMPLOGTIME' / TM Log of Previous Mode Change: The Time It HapTFORM31 = '1D ' / data format of field: 8-byte DOUBLE TTYPE32 = 'BTMSSWARMRST' / TM Count of Task Level Warm Resets TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BTMSSCOLDRST' / TM Count of Task Level Cold Resets TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BTMEXHOOKCNT' / TM Exception Hook Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BTMEXDBLFLTS' / TM Exception Double Fault Count TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BTMNUMALLOCS' / TM Current TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BTMBADALLOCS' / TM TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BTMPERCUSED1' / TM Percent Used in Partition TFORM38 = '1I ' / data format of field: 2-byte INTEGER TTYPE39 = 'BTMPERCUSED2' / TM Percent Used in Partition TFORM39 = '1I ' / data format of field: 2-byte INTEGER TTYPE40 = 'BTMPERCUSED3' / TM Percent Used in Partition TFORM40 = '1I ' / data format of field: 2-byte INTEGER TTYPE41 = 'BTMPERCUSED4' / TM Percent Used in Partition TFORM41 = '1I ' / data format of field: 2-byte INTEGER TTYPE42 = 'BTMPERCUSED5' / TM Percent Used in Partition TFORM42 = '1I ' / data format of field: 2-byte INTEGER TTYPE43 = 'BTMPERCUSED6' / TM Percent Used in Partition TFORM43 = '1I ' / data format of field: 2-byte INTEGER TTYPE44 = 'BTMPERCUSED7' / TM Percent Used in Partition TFORM44 = '1I ' / data format of field: 2-byte INTEGER TTYPE45 = 'BTMPERCUSED8' / TM The number of Memory Blocks In Use in this OTFORM45 = '1I ' / data format of field: 2-byte INTEGER TTYPE46 = 'BTMSYSDBGSTR' / TM System Debug Stream Setting TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BTMSYSDBGLVL' / TM System Debug Level TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL50 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE51 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMUNUSED' / TM spare TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BCISCNETFLAG' / CI Flag indicating whether packet came from S/CTFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCICLCWDWORD' / CI CLCW in raw form (all 4 bytes) TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BCIPKTCNT' / CI Packet Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCIPKTERRCNT' / CI Packet Error Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BCIUPLNKHWST' / CI Uplink Hardware Status TFORM62 = '1J ' / data format of field: 4-byte INTEGER TZERO62 = 2147483648 / offset for unsigned integers TTYPE63 = 'BCISWCBCNT' / CI Software Version of CodeBlock Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BCITAILSEQCNT' / CI Count of CLTU Tail Sequences TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 32768 / offset for unsigned integers TTYPE65 = 'BCISWCBERRS' / CI Software Version of CodeBlock Error Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BXCSEGSTATE' / XC segmentation reconstruction state TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BXCREJECTREASON' / XC command reject reason TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BCIREJREASON' / CI Reason for Rejecting Command Transfer Frame TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BCISIUCMDNUM' / CI Last SIU control command received TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BCIWBASKET1' / CI Buffer holding the most recent Rejected TranTFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'BCIWBASKET2' / CI Buffer holding the most recent Rejected TranTFORM72 = '1J ' / data format of field: 4-byte INTEGER TZERO72 = 2147483648 / offset for unsigned integers TTYPE73 = 'BCIWBASKET3' / CI Buffer holding the most recent Rejected TranTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TTYPE74 = 'BCIWBASKET4' / CI Buffer holding the most recent Rejected TranTFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TTYPE75 = 'BCIWBASKET5' / CI Buffer holding the most recent Rejected TranTFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers EXTNAME = 'hk132x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675561.32218 TSTOP = 287681591.29148 DATE-OBS= '2010-02-12T13:52:40' DATE-END= '2010-02-12T15:33:10' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.96930003166 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 306 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ojSWrhPVohPVohPV' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3955822427' / data unit checksum updated 2010-02-18T17:05:15 TRDHI5 = 2 / BTMSEVERRCNT Red upper limit = BTM_SEVERRCNT_LITYEHI5 = 1 / BTMSEVERRCNT Yellow upper limit = BTM_SEVERRCNTCOMMENT Column 12 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 13 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 20 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 21 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 22 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 24 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 26 = BTMPLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 27 = BTMPLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 28 = BTMPRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 30 = BTMPLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 46 = BTMSYSDBGSTR - Discrete value COMMENT 0 = CLOSE = no description COMMENT 1 = OPEN = no description COMMENT Column 51 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 58 = BCISCNETFLAG - Discrete value COMMENT 0 = NETWORK = no description COMMENT 1-4294967296 = SPACECRAFT = no description TRDHI61 = 2 / BCIPKTERRCNT Red upper limit = BCI_PKTERR_LIM TYEHI61 = 1 / BCIPKTERRCNT Yellow upper limit = BCI_PKTERR_LICOMMENT Column 68 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress COMMENT Column 69 = BCIREJREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = UPLINK HW RESET = The uplink hardware interface has been reset COMMENT 2 = BAD CB PARITY = The uplink hardware detected a codeblock with paCOMMENT 3 = CDU DROPOUT = The uplink hardware reported a dropout in uplink cCOMMENT 4 = FRM TOO SHORT = The cmd frame length field is too short for a coCOMMENT 5 = FRM SEQ TOO LOW = The recvd seq count was in negative edge of thCOMMENT 6 = FRM SEQ TOO HIGH = The recvd seq count was in positive edge of tCOMMENT 7 = FRM SEQ WAY OFF = The recieved seq count was outside of the slidCOMMENT 8 = CMDS IN LOCKOUT = Cmd rejected because we are in lockout mode COMMENT 9 = BAD FRM VERSION = The cmd frame version number was wrong COMMENT 10 = BAD SPACRAFT ID = The cmd frame spacecraft ID was wrong for thiCOMMENT 11 = BAD FRAME TYPE = The cmd frame type field was wrong COMMENT 12 = BAD VIRTUAL CHNL = The cmd frame virtual channel number was wroCOMMENT 13 = BYPASS CMD NUM = A bypass cmd frame was received with an unknowCOMMENT 14 = BAD SEGMENT ID = The cmd frame segment ID number was wrong COMMENT 15 = SB SEND ERROR = The software bus reported an error on the cmd pCOMMENT 16 = PKT TOO LONG = The cmd pkt length field was too large COMMENT 17 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt dataCOMMENT 18-255 = UNDEFINED = An unknown CI error occurred COMMENT Column 70 = BCISIUCMDNUM - Discrete value COMMENT 90 = ENABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0x5A COMMENT 160 = DISABLE INHIBIT A: Deploy Bus A 28V = SIU Command 0xA0 COMMENT 132 = ENABLE INHIBIT B: Transmitter 28V A = SIU Command 0x84 COMMENT 9 = DISABLE INHIBIT B: Transmitter 28V A = SIU Command 0x09 COMMENT 240 = ENABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xF0 COMMENT 165 = DISABLE INHIBIT A: Deploy Bus B 28V = SIU Command 0xA5 COMMENT 101 = ENABLE INHIBIT B: Spare = SIU Command 0x65 COMMENT 204 = DISABLE INHIBIT B: Spare = SIU Command 0xCC COMMENT 0 = ENABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x00 COMMENT 85 = DISABLE INHIBIT A: PropuIsion Bus A Ret = SIU Command 0x55 COMMENT 51 = ENABLE INHIBIT B: Transmitter 28V B = SIU Command 0x33 COMMENT 102 = DISABLE INHIBIT B: Transmitter 28V B = SIU Command 0x66 COMMENT 15 = ENABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x0F COMMENT 5 = DISABLE INHIBIT A: Transmitter 28V A Ret = SIU Command 0x05 COMMENT 60 = ENABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x3C COMMENT 105 = DISABLE INHIBIT B: S/A Deploy #2 = SIU Command 0x69 COMMENT 195 = ENABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xC3 COMMENT 207 = DISABLE INHIBIT B: EPIC Cover #1 = SIU Command 0xCF COMMENT 63 = ENABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x3F COMMENT 149 = DISABLE INHIBIT A: PropuIsion Bus B Ret = SIU Command 0x95 COMMENT 89 = ENABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0x59 COMMENT 243 = DISABLE INHIBIT B: PLAS-MAG Boom Deploy = SIU Command 0xF3 COMMENT 86 = ENABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0x56 COMMENT 252 = DISABLE INHIBIT A: Transmitter 28V B Ret = SIU Command 0xFC COMMENT 154 = ENABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x9A COMMENT 48 = DISABLE INHIBIT B: EPIC Cover #2 = SIU Command 0x30 COMMENT 106 = ENABLE INHIBIT A: S/A Deploy #1 = SIU Command 0x6A COMMENT 192 = DISABLE INHIBIT A: S/A Deploy #1 = SIU Command 0xC0 COMMENT 169 = ENABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0xA9 COMMENT 80 = DISABLE INHIBIT A: PropuIsion Iso Clsd B = SIU Command 0x50 COMMENT 166 = ENABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0xA6 COMMENT 12 = DISABLE INHIBIT B: Deploy Bus A 28V Ret = SIU Command 0x0C COMMENT 3 = ENABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x03 COMMENT 10 = DISABLE INHIBIT A: PropuIsion Thrusters A = SIU Command 0x0A COMMENT 72 = ENABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x48 COMMENT 144 = DISABLE INHIBIT B: PropuIsion Iso Open A = SIU Command 0x90 COMMENT 255 = ENABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xFF COMMENT 170 = DISABLE INHIBIT A: PropuIsion Iso Open B = SIU Command 0xAA COMMENT 150 = ENABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x96 COMMENT 153 = DISABLE INHIBIT B: Deploy Bus B 28V Ret = SIU Command 0x99 COMMENT 175 = ENABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xAF COMMENT 245 = DISABLE INHIBIT A: PropuIsion Iso Clsd A = SIU Command 0xF5 COMMENT 183 = ENABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0xB7 COMMENT 111 = DISABLE INHIBIT B: PropuIsion Thrusters B = SIU Command 0x6F HISTORY TASK: FAPPND on FILENAME: sw00412081000b132x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:25 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��Rzc��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%;�IHFIEF6��p� �G��P��p��xP� ��~�"""�"""�"""�"""�"""A�%��Xʂ��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEICF-��p� �R��P��p��xP� ��j�� 5�"""�"""�"""�"""�"""A�%��Q��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%D�JHFIBF=��p� �q��P��p��xP� ��"""�"""�"""�"""�"""A�%��WS��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%2�JHFICF6��p� �/��P��p��xP� ��"""�"""�"""�"""�"""A�%��J��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEIBF*��p� �d��P��p��xP� ��x�� \�"""�"""�"""�"""�"""A�%��[J#��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�IHEICF+��p� ��P��p��xP� �� """�"""�"""�"""�"""A�%�J��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�IHEIBF+��p� ��P��p��xP� ��,��̢"""�"""�"""�"""�"""A�%�J�1��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%2�JHFICF4��p� �O��P��p��xP� �� """�"""�"""�"""�"""A�%�!R��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%<�IHFIEF6��p� �5��P��p��xP� �� ;�"""�"""�"""�"""�"""A�%�0J��`��U��̀=�� qA�ԉ�i��A�e��ˀ��% �IHEICF*��p� �y��P��p��xP� ��:��"""�"""�"""�"""�"""A�%�?J��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEIBF*��p� ��P��p��xP� �� """�"""�"""�"""�"""A�%�NJ�Ā��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%�IGEICF)��p� �e��P��p��xP� �� b�"""�"""�"""�"""�"""A�%�]U쁀��`��U��̀=�� qA�ԉ�i��A�e��ˀ��%!�JHEIBF4��p� �D��P��p��xP� ��H�� """�"""�"""�"""�"""A�%�lP��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%7�IHFICF:�� P��p��xP� �� Ѣ"""�"""�"""�"""�"""A�%�{J�o��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%�IGEIBF*�� P��p��xP� �� """�"""�"""�"""�"""A�%��Mͳ��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%=�IHFJFF0�� [��P��p��xP� ��V�� A�"""�"""�"""�"""�"""A�%��L�D��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%4�IHFIEF3�� P��p��xP� ��"""�"""�"""�"""�"""A�%��J��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEICF0�� ?��P��p��xP� �� """�"""�"""�"""�"""A�%��J�1��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%�IGEJBF(�� ɀ��P��p��xP� ��d�� h�"""�"""�"""�"""�"""A�%��J��c��X��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEICF(�� :��P��p��xP� �� """�"""�"""�"""�"""A�%��J��f��[��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEIBF)��0� �р��P��p��xP� ��آ"""�"""�"""�"""�"""A�%��]��f��[��̀=�� qA�ԉ�i��A�e��ˀ��%7�JHFJCF.�� ]��P�x`��h@� ��r�� """�"""�"""�"""�"""A�%��U�e��f��[��̀=�� qA�ԉ�i��A�e��ˀ��%?�JHFJBF7��0� ��P��p��xP� �� G�"""�"""�"""�"""�"""A�%�J�;��f��[��̀=�� qA�ԉ�i��A�e��ˀ��$��JGEIBF$��0� �ƀ��P��p��xP� ��&��"""�"""�"""�"""�"""A�%�J��f��[��̀=�� qA�ԉ�i��A�e��ˀ��%,�JHFIEF-��0� ��P��p��xP� �� """�"""�"""�"""�"""A�%� J��h��]��̀=�� qA�ԉ�i��A�e��ˀ��%C�IHFJCF7��`P� �Ҁ��P�x`��h@� �� n�"""�"""�"""�"""�"""A�%�/U䤀��i��^��̀=�� qA�ԉ�i��A�e��ˀ��%?�JHFJBF8��0� ��P��p��xP� ��4�� &�"""�"""�"""�"""�"""A�%�>V$݀��i��^��̀=�� qA�ԉ�i��A�e��ˀ��%=�JHFJCF7��0� ��P��p��xP� �� ݢ"""�"""�"""�"""�"""A�%�MK�)��i��^��̀=�� qA�ԉ�i��A�e��ˀ��%=�IHFIBF>��0� �a��P��p��xP� �� """�"""�"""�"""�"""A�%�\J��i��^��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEICF)��0� ��P��p��xP� ��B�� M�"""�"""�"""�"""�"""A�%�kK(��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$��JGDJ@F$��EP� �k��P�x`��h@� �� """�"""�"""�"""�"""A�%�zJ��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDJ@F$��EP� �2��P�x`��h@� �� ¢"""�"""�"""�"""�"""A�%��J��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$��JGEJ@F$��EP� �"��P�x`��h@� ��Q�� z�"""�"""�"""�"""�"""A�%��J��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDJ@F$��EP� �!��P�x`��h@� �� 2�"""�"""�"""�"""�"""A�%��J��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDJ@F$��EP� �#��P�x`��h@� ��"""�"""�"""�"""�"""A�%��J��k��`��̀=�� qA�ԉ�i��A�e��ˀ��$��JGEJ@F$��EP� �9��P�x`��h@� ��_�� """�"""�"""�"""�"""A�%��J�1��k��`��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEJ@F$��`��5��y0�hP��X0� �� Y�"""�"""�"""�"""�"""A�%��[5+��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%A�JHFJCF4��<��F��P�hP��X0� �� """�"""�"""�"""�"""A�%��[��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%)�JHFJEF%��<��5��P�hP��X0� ��m�� Ȣ"""�"""�"""�"""�"""A�%��J�1��l��`��̀=�� qA�ԉ�i��A�e��ˀ��$��JGEJ@F$��np� �5��P�x`��h@� �� """�"""�"""�"""�"""A�%�OA��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%J�JHFJBF7��w� ��P��p��xP� ��!�� 8�"""�"""�"""�"""�"""A�%�J��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEICF(��w� ��P��p��xP� ��{�� """�"""�"""�"""�"""A�%�J��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEIBF+��np� ��P�x`��X0� �� """�"""�"""�"""�"""A�%�.W�+��l��`��̀=�� qA�ԉ�i��A�e��ˀ��%3�JHFJCF5��w� ��P��p��xP� ��/�� _�"""�"""�"""�"""�"""A�%�=J��l��`��̀=�� qA�ԉ�i��A�e��ˀ��$�IGDI@F$��P��`� �� """�"""�"""�"""�"""A�%�LJ�Ѐ��l��`��̀=�� qA�ԉ�i��A�e��ˀ��$�IGDJ@F$��$��P��`� �� ΢"""�"""�"""�"""�"""A�%�[J�1��m��a��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDJ@F$��d�� P��p��xP� ��>�� """�"""�"""�"""�"""A�%�jJ��m��a��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDI@F$��ɀ��P��p��xP� �� C�"""�"""�"""�"""�"""A�%�yJ��m��a��̀=�� qA�ԉ�i��A�e��ˀ��$��IGEICG$��P��p��xP� �� """�"""�"""�"""�"""A�%��J��m��a��̀=�� qA�ԉ�i��A�e��ˀ��$�JGDJ@F$��(��P��p��xP� ��L�� """�"""�"""�"""�"""A�%��O�ɀ��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%>�JHFJBF<��0� ��P��p��xP� �� k�"""�"""�"""�"""�"""A�%��W₀��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%4�JHFJCF6��0� �Ҁ��P��p��xP� �� #�"""�"""�"""�"""�"""A�%��X:T��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%0�JHFJBF5��0� ��P��p��xP� ��Z�� ڢ"""�"""�"""�"""�"""A�%��L��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%�JGEJCF(��0� ��P��p��xP� ��´�� """�"""�"""�"""�"""A�%��W�Z��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%/�JHFJBF5��0� ��P��p��xP� ��U�"""�"""�"""�"""�"""A�%��OԀ��m��a��̀=�� qA�ԉ�i��A�e��ˀ��$�IGEIAF$��0� � ��P��p��xP� ��h�� """�"""�"""�"""�"""A�%��J��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEIEF$��0� ��P��p��xP� ��Ң"""�"""�"""�"""�"""A�%�J��m��a��̀=�� qA�ԉ�i��A�e��ˀ��%�IGEICF)��0� ��P��p��xP� ��"""�"""�"""�"""�"""A�%�T�Y��p��d��̀=�� qA�ԉ�i��A�e��ˀ��%P�JHFJBF9�� ݀��P�x`��h@� ��v�� A�"""�"""�"""�"""�"""A�%�J�Ѐ��p��d��̀=�� qA�ԉ�i��A�e��ˀ��%�JHEJCF(��P�hP��X0� ��"""�"""�"""�"""�"""A�%�-J�^��s��g��̀=�� qA�ԉ�i��A�e��ˀ��%��KHFKCF/��P��TЀX@��H � ��+��"""�"""�"""�"""�"""A�%��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%��KIFJCH2 ��hP��X0� �� """�"""�"""�"""�"""A�%��O��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%ڀKIGJCH: ��hP��X0� ��5�� """�"""�"""�"""�"""A�%��R~R��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%�KIFJCG@ ��hP��X0� ��ُ�� V�"""�"""�"""�"""�"""A�%��PȊ��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%��KIEJAG% ��Ҁ��hP��X0� �� """�"""�"""�"""�"""A�%��X��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%KIFJFG.��$��X@��8� ��C�� Ƣ"""�"""�"""�"""�"""A�%��J�o��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%��KIFJCG.��X@��8� ��ڝ�� ~�"""�"""�"""�"""�"""A�%��X`W��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%рKIFJCG7��1��X@��8� �� 5�"""�"""�"""�"""�"""A�%��N��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%�KIFJAGD��%Ѐ�[��x`��X0� ��Q�� """�"""�"""�"""�"""A�%��J��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%��KIEJCG+��%Ѐ��x`��X0� ��۫�� """�"""�"""�"""�"""A�%��K�Q��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%��KIFJCH+ ��^��hP��X0� �� ]�"""�"""�"""�"""�"""A�%�J��~��r��̀=�� qA�ԉ�i��A�e��ˀ��%KIFJCH/ ��hP��X0� ��_�� """�"""�"""�"""�"""A�%�J�Ѐ��s��̀=�� qA�ԉ�i��A�e��ˀ��%��KIEJ@G% ��40��ʀ�� hP��X0� ��ܹ�� ΢"""�"""�"""�"""�"""A�%�)X��s��̀=�� qA�ԉ�i��A�e��ˀ��%ˀKIFJFH, ��40��ˀ�� hP��X0� �� """�"""�"""�"""�"""A�%�8V�5��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ހKJFKCF6��N�� x`��X0� ��m�� =�"""�"""�"""�"""�"""A�%�GMsC��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ЀJJFJCF>��N�� x`��X0� �� """�"""�"""�"""�"""A�%�VY7L��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ˀKIFJCF4��N��-�� x`��X0� ��!�� """�"""�"""�"""�"""A�%�eJ�o��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��JIEJCF+��N�� x`��X0� ��{�� d�"""�"""�"""�"""�"""A�%�tR#��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ԀJJFJCF:��N�� x`��X0� �� """�"""�"""�"""�"""A�%��X��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��JIFJCF3��N�� x`��X0� ��/�� Ԣ"""�"""�"""�"""�"""A�%��V��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ЀJJFJFF,��N��~�� x`��h@� ��߉�� """�"""�"""�"""�"""A�%��J��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��JIFJFF+��N�� x`��h@� �� C�"""�"""�"""�"""�"""A�%��X߀��s��Հ=�� qA�ԉ�i��A�e��ˀ��%΀KIFJCF5��N��)�� x`��h@� ��=�� """�"""�"""�"""�"""A�%��J��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��JIEJCF*��N��O�� x`��h@� �� """�"""�"""�"""�"""A�%��J�Հ��s��Հ=�� qA�ԉ�i��A�e��ˀ��%рJJFJCF9��N�� x`��h@� �� j�"""�"""�"""�"""�"""A�%��J��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��JIEJCF+��N�� x`��h@� ��K�� "�"""�"""�"""�"""�"""A�%��J��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ӀJJFJCF9��N�� x`��h@� �� ڢ"""�"""�"""�"""�"""A�%��U��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ڀKJFJCF9��N��*�� x`��h@� �� """�"""�"""�"""�"""A�%� J�1��s��Հ=�� qA�ԉ�i��A�e��ˀ��%��KIEJCF*��N��U�� x`��h@� ��Y�� I�"""�"""�"""�"""�"""A�%�UTv��s��Հ=�� qA�ԉ�i��A�e��ˀ��%ۀKJFJFF/��=��7�� X@��H � �� """�"""�"""�"""�"""A�%�(T�4��s��Հ=�� qA�ԉ�i��A�e��ˀ��%�KJFJCF7��=��$�� X@��H � �� """�"""�"""�"""�"""A�%�7V�Ԁ��s��Հ=�� qA�ԉ�i��A�e��ˀ��%߀KJFJCF7��=��1�� X@��H � ��g�� p�"""�"""�"""�"""�"""A�%�vO.I��ր=�� qA�ԉ�i��A�e��ˀ��%ˀJJFJDF*��J ��l��P�hP��X0� ��,��0��Ƣ"""�"""�"""�"""�"""A�%��X�7��ր=�� qA�ԉ�i��A�e��ˀ��%΀JJFJCF3��m��^��P��p��xP� ��-A��0��~�"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF)��m��P��p��xP� ��-��0��6�"""�"""�"""�"""�"""A�%��Xl"��ր=�� qA�ԉ�i��A�e��ˀ��%�JJFJCF6��m��P��p��xP� ��-��0��"""�"""�"""�"""�"""A�%��J�Ѐ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJAF%��P��p��xP� ��.O��0��"""�"""�"""�"""�"""A�%��Qy}��ր=�� qA�ԉ�i��A�e��ˀ��%݀JJFJFG6��'��P��p��xP� ��.��0��]�"""�"""�"""�"""�"""A�%��TP��ր=�� qA�ԉ�i��A�e��ˀ��%݀JJFJDF9��P��p��xP� ��/��0��"""�"""�"""�"""�"""A�%��K"р��ր=�� qA�ԉ�i��A�e��ˀ��%�JJFJCF?��R��P��p��xP� ��/]��0��̢"""�"""�"""�"""�"""A�%��U��ր=�� qA�ԉ�i��A�e��ˀ��%܀JJFJDF8��P��p��xP� ��/��0��"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF+��P��p��xP� ��0��0��<�"""�"""�"""�"""�"""A�%�W��ր=�� qA�ԉ�i��A�e��ˀ��%рJJFJDF6��p��P��p��xP� ��0k��0��"""�"""�"""�"""�"""A�%�S��ր=�� qA�ԉ�i��A�e��ˀ��%�JJFJCF=��P��p��xP� ��0��0��"""�"""�"""�"""�"""A�%�*X\h��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJAF2��À��P��p��xP� ��1��0��c�"""�"""�"""�"""�"""A�%�9LM��ր=�� qA�ԉ�i��A�e��ˀ��%��JJFJFF6��P��p��xP� ��1y��0��"""�"""�"""�"""�"""A�%�HJ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF/��P��p��xP� ��1��0��Ң"""�"""�"""�"""�"""A�%�WU쁀��ր=�� qA�ԉ�i��A�e��ˀ��%ƀJJFJCF5��P��p��xP� ��2-��0��"""�"""�"""�"""�"""A�%�fW:��ր=�� qA�ԉ�i��A�e��ˀ��%рJJFJDF7��Ԁ��P��p��xP� ��2��0��B�"""�"""�"""�"""�"""A�%�uJ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF+��U��P��p��xP� ��2��0��"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF)��P��p��xP� ��3;��0��"""�"""�"""�"""�"""A�%��L^��ր=�� qA�ԉ�i��A�e��ˀ��%ԀJJFJCF<��P��p��xP� ��3��0��i�"""�"""�"""�"""�"""A�%��Wy��ր=�� qA�ԉ�i��A�e��ˀ��%΀JJFJDF6��P��p��xP� ��3��0�� """�"""�"""�"""�"""A�%��J�1��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJFF)��P��p��xP� ��4I��0��آ"""�"""�"""�"""�"""A�%��P��ր=�� qA�ԉ�i��A�e��ˀ��%ˀJJFJDF6��P��p��xP� ��4��0��"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF+��H��P��p��xP� ��4��0�� G�"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF)��P��p��xP� ��5W��0��"""�"""�"""�"""�"""A�%��U�߀��ր=�� qA�ԉ�i��A�e��ˀ��%ȀJJFJCF6��P��p��xP� ��5��0��"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF.��k��P��p��xP� ��6��0��o�"""�"""�"""�"""�"""A�%�K�؀��ր=�� qA�ԉ�i��A�e��ˀ��%׀JJFJCF?��P��p��xP� ��6e��0�� &�"""�"""�"""�"""�"""A�%�X>B��ր=�� qA�ԉ�i��A�e��ˀ��%ӀJJFJDF8��%��P��p��xP� ��6��0��ޢ"""�"""�"""�"""�"""A�%�)J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJFF+��P��p��xP� ��7��0��"""�"""�"""�"""�"""A�%�8b#��ր=�� qA�ԉ�i��A�e��ˀ��%ʀJJFJDF6��P��p��xP� ��7s��0��N�"""�"""�"""�"""�"""A�%�GJ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF/��]��P��p��xP� ��7��0�� """�"""�"""�"""�"""A�%�VJ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF*��u��P��p��xP� ��8'��0��"""�"""�"""�"""�"""A�%�eJ�1��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF0��P��p��xP� ��8��0��u�"""�"""�"""�"""�"""A�%�tJ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF*��P��p��xP� ��8��0�� ,�"""�"""�"""�"""�"""A�%��KG��ր=�� qA�ԉ�i��A�e��ˀ��%рJJFJCF?��׀��P��p��xP� ��95��0��"""�"""�"""�"""�"""A�%��J�Ѐ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF&��&��P��p��xP� ��9��0��"""�"""�"""�"""�"""A�%��W��ր=�� qA�ԉ�i��A�e��ˀ��%ȀJJFJFF2��P��P��p��xP� ��9��0�� S�"""�"""�"""�"""�"""A�%��J�o��ր=�� qA�ԉ�i��A�e��ˀ��%΀JJFJDF:��P��p��xP� ��:C��0�� """�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF*��P��p��xP� ��:��0��â"""�"""�"""�"""�"""A�%��TO��ր=�� qA�ԉ�i��A�e��ˀ��%рJJFJDF<��P��p��xP� ��:��0�� z�"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF)��܀��P��p��xP� ��;Q��0�� 2�"""�"""�"""�"""�"""A�%��W:��ր=�� qA�ԉ�i��A�e��ˀ��%ՀJJFJDF7��W��P��p��xP� ��;��0��"""�"""�"""�"""�"""A�%��J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF*��G��P��p��xP� ��<��0��"""�"""�"""�"""�"""A�%� J�Ѐ��ր=�� qA�ԉ�i��A�e��ˀ��%��JJFJDF3��z��P��p��xP� ��<_��0�� Y�"""�"""�"""�"""�"""A�%�R�ހ��ր=�� qA�ԉ�i��A�e��ˀ��%؀JJFJFF7��:��P��p��xP� ��<��0�� """�"""�"""�"""�"""A�%�(J��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJDF.��P��p��xP� ��=��1��ˢ"""�"""�"""�"""�"""A�%�7J�o��ր=�� qA�ԉ�i��A�e��ˀ��%��JJEJCF+��v��P��p��xP� ��=m��2��"""�"""�"""�"""�"""XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 195 / 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 = 287675561.32302 TSTOP = 287681591.29232 DATE-OBS= '2010-02-12T13:52:40' DATE-END= '2010-02-12T15:33:10' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.96930003166 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 307 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:15' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'bUFAbS94bSE9bS99' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1492247940' / data unit checksum updated 2010-02-18T17:05:15 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: sw00412081000b133x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:25 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��R�p�s6��s2��s2��pp�L3D�3D��"�#�B��ÀW�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��Yހs9��s5��s5��pp�B3V�3V��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��QV�s<��s8��s8��pp�83h�3h�%�"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��W��s?��s;��s;��pp�.3z�3z�^�"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��J��sB��s>��s>��pp�$3��3��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��[�0�sE��sA��sA��pp�3��3��"�#�B��x�W�%��{��#�{��#�#�B��w��#��$�$��DDD�DDD�D�D�D�DA�%�Jэ�sH��sD��sD��pp�3��3�� "�#�B��i�W�%��{��#�{��#�#�B��h��#��$�$��DDD�DDD�D�D�D�DA�%�J�݀sK��sG��sG��pp�33��C�"�#�B��Z�W�%��{��#�{��#�#�B��Y��#��$�$��DDD�DDD�D�D�D�DA�%�!R˧�sN��sJ��sJ��pp�3Ԁ3��{�"�#�B��K�W�%��{��#�{��#�#�B��J��#��$�$��DDD�DDD�D�D�D�DA�%�0J��sQ��sM��sM��pp�3�3��"�#�B��<�W�%��{��#�{��#�#�B��;��#��$�$��DDD�DDD�D�D�D�DA�%�?J�j�sT��sP��sP��pp�3��3��"�#�B��-�W�%��{��#�{��#�#�B��,��#��$�$��DDD�DDD�D�D�D�DA�%�NK"рsW��sS��sS��pp�4 �4 �(�"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%�]V$݀sZ��sV��sV��pp�4�4�a�"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%�lQ6��s]��sY��sY��pp$�4.�4.��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%�{J�|�s`��s\��s\��pp+�4@�4@��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��N��sc��s_��s_��pp2�4R�4R��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��L�P�sf��sb��sb��pp9�4d�4d�G�"�#�B��ӀW�%��{��#�{��#�#�B��Ҁ��#��$�$��DDD�DDD�D�D�D�DA�%��J�݀si��se��se��pp@�4v�4v��"�#�B��ĀW�%��{��#�{��#�#�B��À��#��$�$��DDD�DDD�D�D�D�DA�%��J�>�sl��sh��sh��ppG�4��4��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��Jэ�so��sk��sk��ppN�4��4��"�#�B��W�%��{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��Jэ�sr��sn��sn��ppU�4��4��-�"�#�B��e�%�Ł{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��]R~�su��sq��sq��pp\z4��4��f�"�#�B��t�%�Ł{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%��Vr�sx��st��st��ppcp4Ѐ4��"�#�B��y��%�Ł{��#�{��#�#�B��x��#��$�$��DDD�DDD�D�D�D�DA�%�J�H�s{��sw��sw��ppjf4�4��"�#�B��j��%�Ł{��#�{��#�#�B��i��#��$�$��DDD�DDD�D�D�D�DA�%�J�݀s~��sz��sz��ppq\4�4��"�#�B��[��%�Ł{��#�{��#�#�B��Z��#��$�$��DDD�DDD�D�D�D�DA�%� J͟�s��s}��s}��ppxR5�5�N�"�#�B��L��%�Ł{��#�{��#�#�B��K��#��$�$��DDD�DDD�D�D�D�DA�%�/V��s��s��s��ppH5�5��"�#�B��=��%�Ł{��#�{��#�#�B��<��#��$�$��DDD�DDD�D�D�D�DA�%�>V[�s��s��s��pp�>5*�5*��"�#�B��.�Α%�Ł{��#�{��#�#�B��-��#��$�$��DDD�DDD�D�D�D�DA�%�MK΅�s��s��s��pp�45<�5<��"�#�B��ݑ%�Ł{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%�\J�>�s��s��s��pp�*5N�5N�3�"�#�B��%�Ł{��#�{��#�#�B��#��$�$��DDD�DDD�D�D�D�DA�%�kKF5�s��s��s��pp� 5`�5`�n�"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%�zJ�j�s��s��s��pp�5r�5r��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��J͟�s��s��s��pp�5��5��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��J�݀s��s��s��pp�5��5��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��J�,�s��s��s��pp��5��5��Q�"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��Jэ�s��s��s��pp��5��5��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��J�>�s��s��s��pp��5̀5��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��[l7�s��s��s��pp��5ހ5��"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��\��s��s��s��pp��5��5��5�"��B��=�%Q�{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%��J�ˀs��s��s��pp��6�6�p�"��B��>�%��{��沁{��沉�B��$�$��DDD�DDD�D�D�D�DA�%�O��s��s��s��pp�6�6��"��B��t�M�%��{��沁{��沉�B��s��$�$��DDD�DDD�D�D�D�DA�%�Jэ�s��s��s��pp�6&�6&��"��B��e�\�%��{��沁{��沉�B��d��$�$��DDD�DDD�D�D�D�DA�%�J�݀s��s��s��pp�68�68��"��B��V�k�%��{��沁{��沉�B��U��$�$��DDD�DDD�D�D�D�DA�%�.X-8�s��s��s��pp��6J�6J�T�"��B��G�z�%��{��沁{��沉�B��F��$�$��DDD�DDD�D�D�D�DA�%�=J�݀s��s��s��pp��6\�6\��"��B��8��%��{��沁{��沉�B��7��$�$��DDD�DDD�D�D�D�DA�%�LJ�݀s��s��s��pp�6n�6n��"��B��)��%��{��沁{��沉�B��(��$�$��DDD�DDD�D�D�D�DA�%�[J�>�s��s��s��pp �6��6��"��B��%R>�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%�jJэ�sÀ�s��s��ppv6��6��8�"��B��%�b�{��沁{��沊�B�� $�$��DDD�DDD�D�D�D�DA�%�yJ�ˀsƀ�s�s��ppl6��6��q�"��B��%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��J�݀sɀ�sŀ�sŀ��ppb6��6��"��B��đ%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��P��s̀�sȀ�sȀ��pp&X6Ȁ6��"��B��ހӑ%�b�{��沁{��沊�B��݀��$�$��DDD�DDD�D�D�D�DA�%��X@�sπ�sˀ�sˀ��pp-N6ڀ6��"��B��π�%�b�{��沁{��沊�B��΀��$�$��DDD�DDD�D�D�D�DA�%��Xt�sҀ�s΀�s΀��pp4D6�6��V�"��B��%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��LI��sՀ�sр�sр��pp;:6��6��"��B��%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��Wֶ�s؀�sԀ�sԀ��ppB07�7��"��B��%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��OE�sۀ�s׀�s׀��ppI&7"�7"��"��B��%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%��J�,�sހ�sڀ�sڀ��ppP74�74�<�"��B��-�%�b�{��沁{��沊�B��$�$��DDD�DDD�D�D�D�DA�%�J�>�s��s݀�s݀��ppW7F�7F�u�"��B��u�<�%�b�{��沁{��沊�B��t��$�$��DDD�DDD�D�D�D�DA�%�T��s��s��s��pp^7X�7X��"��B��f�K�%�b�{��沁{��沊�B��e��$�$��DDD�DDD�D�D�D�DA�%�Jэ�s��s��s��ppd�7j�7j��"��B��W�Z�%�b�{��沁{��沊�B��V��$�$��DDD�DDD�D�D�D�DA�%�-J�j�s��s��s��ppk�7|�7|�#�"�I�B��%�'�{��I��{��I��B��G�I�B��I��$�$��DDD�DDD�D�D�D�DA�%��t��t ��t ��pp�|8T�8T��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J�Հt��t ��t ��pp�r8f�8f��"�I�B��q��%�Y�{��I��{��I��B��I�B��p�I��$�$��DDD�DDD�D�D�D�DA�%��J�>�t��t��t��pp�h8x�8x�H�"�I�B��b��%�Y�{��I��{��I��B��u�I�B��a�I��$�$��DDD�DDD�D�D�D�DA�%�J�ˀt��t��t��pp�^8��8��"�I�B��S��%�Y�{��I��{��I��B��f�I�B��R�I��$�$��DDD�DDD�D�D�D�DA�%�L��t��t��t��pp�T8��8��"�I�B��D�Ñ%�Y�{��I��{��I��B��W�I�B��C�I��$�$��DDD�DDD�D�D�D�DA�%�,J��t��t��t��pp�J8��8��"�I�B��5�ґ%�Y�{��I��{��I��B��H�I�B��4�I��$�$��DDD�DDD�D�D�D�DA�%�;X��t ��t��t��pp�@8��8��,�"�I�B��&��%�Y�{��I��{��I��B��9�I�B��%�I��$�$��DDD�DDD�D�D�D�DA�%�JM-ˀt#��t��t��pp�68Ҁ8��e�"�I�B��%�Y�{��I��{��I��B��*�I�B��I��$�$��DDD�DDD�D�D�D�DA�%�YK9�t&��t"��t"��pp�,8�8��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%�hOZـt)��t%��t%��pp�"8��8��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%�wN��t,��t(��t(��pp9�9��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��Y��t/��t+��t+��pp9�9�K�"�I�B��ۀ,�%�Y�{��I��{��I��B��I�B��ڀI��$�$��DDD�DDD�D�D�D�DA�%��J�݀t2��t.��t.��pp9,�9,��"�I�B��̀;�%�Y�{��I��{��I��B��߀I�B��ˀI��$�$��DDD�DDD�D�D�D�DA�%��t5��t1��t1��pp�9>�9>��"�I�B��J�%�Y�{��I��{��I��B��ЀI�B��I��$�$��DDD�DDD�D�D�D�DA�%��K\}�t8��t4��t4��pp �9P�9P��"�I�B��Y�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��L�ʀt;��t7��t7��pp'�9b�9b�.�"�I�B��h�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J�ˀt>��t:��t:��pp.�9t�9t�g�"�I�B��w�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J�>�tA��t=��t=��pp5�9��9��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��W:��tD��t@��t@��pp<�9��9��"�I�B��r��%�Y�{��I��{��I��B��I�B��q�I��$�$��DDD�DDD�D�D�D�DA�%��Jэ�tG��tC��tC��ppC�9��9��"�I�B��c��%�Y�{��I��{��I��B��v�I�B��b�I��$�$��DDD�DDD�D�D�D�DA�%�$_�tJ��tF��tF��ppJ�9��9��L�"�I�B��T��%�Y�{��I��{��I��B��g�I�B��S�I��$�$��DDD�DDD�D�D�D�DA�%�J��tM��tI��tI��ppQ�9΀9��"�I�B��E�%�Y�{��I��{��I��B��X�I�B��D�I��$�$��DDD�DDD�D�D�D�DA�%�+W`�tP��tL��tL��ppX�9��9��"�I�B��6�ё%�Y�{��I��{��I��B��I�I�B��5�I��$�$��DDD�DDD�D�D�D�DA�%�:N�ǀtS��tO��tO��pp_�9�9��"�I�B��'��%�Y�{��I��{��I��B��:�I�B��&�I��$�$��DDD�DDD�D�D�D�DA�%�IJ�,�tV��tR��tR��ppf�:�:�2�"�I�B��%�Y�{��I��{��I��B��+�I�B��I��$�$��DDD�DDD�D�D�D�DA�%�XJ�݀tY��tU��tU��ppm�:�:�k�"�I�B�� %�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%�gJ�>�t\��tX��tX��pptx:(�:(��"�I�B�� %�Y�{��I��{��I��B�� I�B��I��$�$��DDD�DDD�D�D�D�DA�%�vV��t_��t[��t[��pp{n::�::��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��O�ڀtb��t^��t^��pp�d:L�:L��"�I�B��܀+�%�Y�{��I��{��I��B��I�B��ۀI��$�$��DDD�DDD�D�D�D�DA�%��J�݀te��ta��ta��pp�Z:^�:^�O�"�I�B��̀:�%�Y�{��I��{��I��B��I�B��̀I��$�$��DDD�DDD�D�D�D�DA�%��X�i�th��td��td��pp�P:p�:p��"�I�B��I�%�Y�{��I��{��I��B��рI�B��I��$�$��DDD�DDD�D�D�D�DA�%��K��tk��tg��tg��pp�F:��:��"�I�B��X�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��P�Ӏtn��tj��tj��pp�<:��:��"�I�B��g�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J�,�tq��tm��tm��pp�2:��:��5�"�I�B��v�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��X��tt��tp��tp��pp�(:��:��n�"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��M��tw��ts��ts��pp�:ʀ:��"�I�B��s��%�Y�{��I��{��I��B��I�B��r�I��$�$��DDD�DDD�D�D�D�DA�%��Jэ�tz��tv��tv��pp�:܀:��"�I�B��d��%�Y�{��I��{��I��B��w�I�B��c�I��$�$��DDD�DDD�D�D�D�DA�%�X��t}��ty��ty��pp� :�:��"�I�B��U��%�Y�{��I��{��I��B��h�I�B��T�I��$�$��DDD�DDD�D�D�D�DA�%�J�݀t��t|��t|��pp�;�;�V�"�I�B��F��%�Y�{��I��{��I��B��Y�I�B��E�I��$�$��DDD�DDD�D�D�D�DA�%�*J�,�t��t��t��pp��;�;��"�I�B��7�Б%�Y�{��I��{��I��B��J�I�B��6�I��$�$��DDD�DDD�D�D�D�DA�%�9K쫀t��t��t��pp��;$�;$��"�I�B��(�ߑ%�Y�{��I��{��I��B��;�I�B��'�I��$�$��DDD�DDD�D�D�D�DA�%�H[C��t��t��t��pp��;6�;6��"�I�B��%�Y�{��I��{��I��B��,�I�B��I��$�$��DDD�DDD�D�D�D�DA�%�WK9�t��t��t��pp��;H�;H�:�"�I�B�� %�Y�{��I��{��I��B��I�B�� I��$�$��DDD�DDD�D�D�D�DA�%�fW��t��t��t��pp��;Z�;Z�s�"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%�uX�K�t��t��t��pp��;l�;l��"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��P�o�t��t��t��pp��;~�;~��"�I�B��݀*�%�Y�{��I��{��I��B��I�B��܀I��$�$��DDD�DDD�D�D�D�DA�%��R��t��t��t��pp��;��;��"�I�B��΀9�%�Y�{��I��{��I��B��I�B��̀I��$�$��DDD�DDD�D�D�D�DA�%��P��t��t��t��pp�;��;��W�"�I�B��H�%�Y�{��I��{��I��B��ҀI�B��I��$�$��DDD�DDD�D�D�D�DA�%��X�F�t��t��t��pp �;��;��"�I�B��W�%�Y�{��I��{��I��B��ÀI�B��I��$�$��DDD�DDD�D�D�D�DA�%��J�,�t��t��t��pp�;ƀ;��"�I�B��f�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��X�c�t��t��t��pp�;؀;��"�I�B��u�%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��N��t��t��t��pp"~;�;��;�"�I�B��%�Y�{��I��{��I��B��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��Jэ�t��t��t��pp)t;��;��t�"�I�B��t��%�Y�{��I��{��I��B��I�B��s�I��$�$��DDD�DDD�D�D�D�DA�%��LM�t��t��t��pp0j<�<��"�I�B��e��%�Y�{��I��{��I��B��x�I�B��d�I��$�$��DDD�DDD�D�D�D�DA�%�J�ˀt��t��t��pp7`< �< ��" �I�B��V��%�Y�{��I��{��I��|BH��I�B��U�I��$�$��DDD�DDD�D�D�D�DA�%�J��t��t��t��pp>V<2�<2�!�" �I�B��G��%�Y�{��I��{��I��|BH��I�B��F�I��$�$��DDD�DDD�D�D�D�DA�%�)XQ�t��t��t��ppEL�" �I�B��%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%�tR`-�tŀ�t��t��pph<��<��w�" �I�B��%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��X��tȀ�tĀ�tĀ��ppo<��<��" �I�B��ހ)�%�Y�{��I��{��I��|BH��I�B��݀I��$�$��DDD�DDD�D�D�D�DA�%��W�tˀ�tǀ�tǀ��ppv<<��" �I�B��π8�%�Y�{��I��{��I��|BH��I�B��΀I��$�$��DDD�DDD�D�D�D�DA�%��J��t΀�tʀ�tʀ��pp|�<Ԁ<��"�" �I�B��G�%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��XS;�tр�t̀�t̀��pp��<�<��[�" �I�B��V�%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��Jэ�tԀ�tЀ�tЀ��pp��<��<��" �I�B��e�%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��K�t׀�tӀ�tӀ��pp��= �= ��" �I�B��t�%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J͟�tڀ�tր�tր��pp��=�=��" �I�B��%�Y�{��I��{��I��|BH��I�B��I��$�$��DDD�DDD�D�D�D�DA�%��J��t݀�tـ�tـ��pp��=.�=.�A�" �I�B��u��%�Y�{��I��{��I��|BH��I�B��t�I��$�$��DDD�DDD�D�D�D�DA�%��U�t�t��t܀�t܀��pp��=@�=@�z�" �I�B��f��%�Y�{��I��{��I��|BH��I�B��e�I��$�$��DDD�DDD�D�D�D�DA�%� Jэ�t��t߀�t߀��pp��=R�=R��" �I�B��W��%�Y�{��I��{��I��|BH��I�B��V�I��$�$��DDD�DDD�D�D�D�DA�%�U�Ҁt��t��t��pp��=d�=d��" �I�B��H��%�Y�{��I��{��I��|BH��I�B��G�I��$�$��DDD�DDD�D�D�D�DA�%�(T��t��t��t��pp��=v�=v�%�" �I�B��9�Α%�Y�{��I��{��I��|BH��I�B��8�I��$�$��DDD�DDD�D�D�D�DA�%�7V��t��t��t��pp=��=��^�" �I�B��*�ݑ%�Y�{��I��{��I��|BH��I�B��)�I��$�$��DDD�DDD�D�D�D�DA�%�vO� �w_��w[��w[��ppqnL:�L:��"�I�B�� U��%�Y�I��I��I��I��&?B�� ]�I�B�� S�I��%%��DDD�DDD�D�D�D�DA�%��X�C�wb��w^��w^��ppxdLL�LL�X�"�I�B�� U��%�Y�I��I��I��I��&?B�� N�I�B�� S�I��%%��DDD�DDD�D�D�D�DA�%��J��we��wa��wa��ppZL^�L^��"�I�B�� U��%�Y�I��I��I��I��&?B�� ?�I�B�� S�I��%%��DDD�DDD�D�D�D�DA�%��X�/�wh��wd��wd��pp�PLp�Lp��"�I�B�� U��%�Y�I��I��I��I��&?B�� 0�I�B�� S�I��%%��DDD�DDD�D�D�D�DA�%��J�݀wk��wg��wg��pp�FL��L��"�I�B�� G��%��I��I��I��I��&?B�� !�I�B�� E�I��%%��DDD�DDD�D�D�D�DA�%��Q�ـwn��wj��wj��pp��w��w��w��pp�M؀M��@�"�I�B�� *��%��I��I��I��I��&?B��I�B�� (�I��%%��DDD�DDD�D�D�D�DA�%��J�,�w��w��w��pp~M�M��y�"�I�B�� %��I��I��I��I��&?B��I�B�� I��%%��DDD�DDD�D�D�D�DA�%��U��w��w��w��pptM��M��"�I�B�� %��I��I��I��I��&?B��I�B�� I��%%��DDD�DDD�D�D�D�DA�%��J�>�w��w��w��pp&jN�N��"�I�B��%��I��I��I��I��&?B��׀I�B��I��%%��DDD�DDD�D�D�D�DA�%�L,�w��w��w��pp-`N �N �&�"�I�B��%��I��I��I��I��&?B��ȀI�B��I��%%��DDD�DDD�D�D�D�DA�%�Xv��w��w��w��pp4VN2�N2�_�"�I�B��߀�%��I��I��I��I��&?B��I�B��݀I��%%��DDD�DDD�D�D�D�DA�%�)J�݀w��w��w��pp;LND�ND��"�I�B��Ѐ�%��I��I��I��I��&?B��I�B��΀I��%%��DDD�DDD�D�D�D�DA�%�8bZ�w��w��w��ppBBNV�NV��"�I�B��%��I��I��I��I��&?B��I�B��I��%%��DDD�DDD�D�D�D�DA�%�GJэ�w��w��w��ppI8Nh�Nh� �"�I�B��%��I��I��I��I��&?B��I�B��I��%%��DDD�DDD�D�D�D�DA�%�VJ�,�w��w��w��ppP.Nz�Nz�C�"�I�B��%��I��I��I��I��&?B��}�I�B��I��%%��DDD�DDD�D�D�D�DA�%�eJэ�w�w��w��ppW$N��N��|�"�I�B��%��I��I��I��I��&?B��n�I�B��I��%%��DDD�DDD�D�D�D�DA�%�tJ͟�wŀ�w��w��pp^N��N��"�I�B��%��I��I��I��I��&?B��_�I�B��I��%%��DDD�DDD�D�D�D�DA�%��K�0�wȀ�wĀ�wĀ��ppeN��N��"�I�B��v��%��I��I��I��I��&?B��P�I�B��t�I��%%��DDD�DDD�D�D�D�DA�%��J�,�wˀ�wǀ�wǀ��pplNN��(�"�I�B��g��%��I��I��I��I��&?B��A�I�B��e�I��%%��DDD�DDD�D�D�D�DA�%��W�]�w΀�wʀ�wʀ��ppr�NԀN��`�"�I�B��X��%��I��I��I��I��&?B��2�I�B��V�I��%%��DDD�DDD�D�D�D�DA�%��J��wр�ẁ�ẁ��ppy�N�N��"�I�B��I��%��I��I��I��I��&?B��#�I�B��G�I��%%��DDD�DDD�D�D�D�DA�%��J��wԀ�wЀ�wЀ��pp��N��N��"�I�B��:��%��I��I��I��I��&?B��I�B��8�I��%%��DDD�DDD�D�D�D�DA�%��T��w׀�wӀ�wӀ��pp��O �O � �"�I�B��+��%��I��I��I��I��&?B��I�B��)�I��%%��DDD�DDD�D�D�D�DA�%��J͟�wڀ�wր�wր��pp��O�O�F�"�I�B��%��I��I��I��I��&?B��I�B��I��%%��DDD�DDD�D�D�D�DA�%��Wti�w݀�wـ�wـ��pp��O.�O.��"�I�B�� %��I��I��I��I��&?B��I�B��I��%%��DDD�DDD�D�D�D�DA�%��Kw�w��w܀�w܀��pp��O@�O@��"�I�B��%��I��I��I��I��&?B��؀I�B��I��%%��DDD�DDD�D�D�D�DA�%� [쫀w��w߀�w߀��pp��OR�OR��"�I�B��%��I��I��I��I��&?B��ɀI�B��I��%%��DDD�DDD�D�D�D�DA�%�S")�w��w��w��pp��Od�Od�*�"�I�B��%��I��I��I��I��&?B��I�B��ހI��%%��DDD�DDD�D�D�D�DA�%�(J��w��w��w��pp��Ov�Ov�c�"�I�B��р�%��I��I��I��I��&?B��I�B��πI��%%��DDD�DDD�D�D�D�DA�%�7J�|�w��w��w��pp��O��O��"�I�B��%��I��I��I��I��&?B��I�B��I��%%��DDD�DDD�D�D�D�DXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 212 / width of table in bytes NAXIS2 = 195 / 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 = 287675562.44146 TSTOP = 287681592.44156 DATE-OBS= '2010-02-12T13:52:41' DATE-END= '2010-02-12T15:33:11' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6030.00009995699 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 308 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:16' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'iHE3jHC0iHC0iHC0' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2449874106' / data unit checksum updated 2010-02-18T17:05:16 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: sw00412081000b134x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:25 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��q��v�/o��A�%��q��v�/o��A�%��q��v�/o��A�%��q��v�/o��A�%��q��v�/o��A�%��q��v�/o��A�%�qՀ��v�/o��A�%�q��v�/o��A�%�"q��v�/o��A�%�1qՀ��v�/o��A�%�@qĀ��v�/o��A�%�Oq:��v�/o��A�%�^q��v�/o��A�%�mqՀ��v�/p��A�%�|qt��v�/p��A�%��q%��v�/p��A�%��q��v�/p��A�%��qt��v�/p��A�%��qՀ��v�/p��A�%��qt��v�/p��A�%��qt��v�/q��A�%��qt��v�/q��A�%��q%��v�/q��A�%�q=2��v�/q��A�%�q"��v�/q��A�%�!q"��v�/r��A�%�0q%��v�/r��A�%�?qt��v�/r��A�%�Nq%��v�/r��A�%�]q%��v�/r��A�%�lq%��v�/t��A�%�{q%��v�/u��A�%��q%��v�/v��A�%��q!��v�/w��A�%��q!��v�/x��A�%��qĀ��v�/y��A�%��qՀ��v�/y��A�%��qt��v�/z��A�%��qt��v�/{��A�%��qՀ��v�/}��A�%�q%��v�/}��A�%�q!��v�/}��A�%� q��v�/}��A�%�/q%��v�/}��A�%�>q%��v�/}��A�%�Mq6��v�/}��A�%�\qՀ��v�/~��A�%�kq%��v�/~��A�%�zq%��v�/~��A�%��qՀ��v�/~��A�%��q��v�/~��A�%��qՀ��v�/~��A�%��qՀ��v�/~��A�%��qՀ��v�/~��A�%��qc��v�/~��A�%��q%��v�/~��A�%��q%��v�/~��A�%�q%��v�/~��A�%�qՀ��v�/��A�%�q~��v�/��A�%�.qՀ��y�/��A�%�=qՀ��/��A�%�LqՀ��/��A�%�[q��/��A�%�jq!��/��A�%�yqt��/��A�%��q6��/��A�%��q��/��A�%��qՀ��/��A�%��q%��ʀ/��A�%��qm��Ӏ/��A�%��q%��܀/��A�%��q%��/��A�%��qt��/��A�%�q"��/��A�%�q%��/��A�%�q>�� /��A�%�-qĀ��/��A�%��!��!��/��A�%�Hq��!��!��/��A�%�WqĀ�!��!��/��A�%�fq��!��!��/��A�%�uq΀�!��!��/��A�%��q��!��!��/��A�%��q%��!��!��/��A�%��qՀ�!��!��/��A�%��q��!��!��/��A�%��q��!��!��/��A�%��q��!��!��/��A�%��qՀ�!��!��/��A�%��qՀ�!��!��/��A�%��q ��!��!��/��A�%�qՀ�!��!��/��A�%�q~��!��!��/��A�%�)qՀ�!��!��/��A�%�8q ��!��!��/��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 181 / width of table in bytes NAXIS2 = 195 / 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 = 287675562.44242 TSTOP = 287681592.44244 DATE-OBS= '2010-02-12T13:52:41' DATE-END= '2010-02-12T15:33:11' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6030.00001996756 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 309 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:16' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'ZFaQfEUPZEaPfEUP' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3653379911' / data unit checksum updated 2010-02-18T17:05:16 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: sw00412081000b135x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:26 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��qBp��6 sO8�� ]H��$x�*@��H��A�%��q\��6 sO8�� ]H��$x�*@��H��A�%��q?р�6 sO8�� ]H��$x�*@��H��A�%��q?р�6 sO8�� ]H��$x�*@��H��A�%��qZ��6 sO8�� ]H��$x�*@��H��A�%��qG��6 sO8�� ]H��$x�*@��H��A�%�qA ��6 sO8�� ]H��$x�*@��H��A�%�qH��6 sO8�� ]H��$x�*@��H��A�%�"q_F��6 sO8�� ]H��$x�*@��H��A�%�1q?р�6 sO8�� ]H��$x�*@��H��A�%�@q?р�6 sO8�� ]H��$x�*@��H��A�%�Oqvހ�6 sO8�� ]H��$x�*@��H��A�%�^q?р�6 sO8�� ]H��$x�*@��H��A�%�mqBp��6 sO8�� ]H��$x�*@��H��A�%�|qBp��6 sO8�� ]H��$x�*@��H��A�%��qA ��6 sO8�� ]H��$x�*@��H��A�%��qE��6 sO8�� ^H��M�:(D��H��A�%��qBp��6 sO8�� ^H��M�:(D��H��A�%��qA ��6 sO8�� ^H��M�:(D��H��A�%��qC��6 sO8�� ^H��M�:(D��H��A�%��qC��6 sO8�� _H��g(J��H��A�%��qC��6 sO8�� _H��g(L��H��A�%��qBp��6 sO8�� `H��M�&(N��H��A�%�qy}��6 sO8�� `H��M�&(N��H��A�%�q[W��6 sO8�� `H��M�&(N��H��A�%�!q`��6 sO8�� `H��M�&(N��H��A�%�0q[W��6 sO8�� aH��o�(U��H��A�%�?qE��6 sO8�� aH��o�(U��H��A�%�NqC��6 sO8�� aH��o�(U��H��A�%�]qBp��6 sO8�� aH��o�(U��H��A�%�lqBp��6 sO8�� bH��O1*(Y��H��A�%�{qBp��6 sO8�� bH��O1*(Y��H��A�%��qBp��6 sO8�� bH��O1*(Y��H��A�%��q\��6 sO8�� bH��O1*(Y��H��A�%��q_F��6 sO8�� bH��O1*(Y��H��A�%��q�ـ�6 sO8�� bH��O1*(Y��H��A�%��qA ��6 sO8�� bH��O1*(Y��H��A�%��qC��6 sO8�� bH��O1*(Y��H��A�%��qC��6 sO8�� bH��O1*(Y��H��A�%��qA ��6 sO8�� cH�� )[��H��A�%�qBp��6 sO8�� cH�� )[��H��A�%�q]��6 sO8�� dH��! *]��H��A�%� qL��6 sO8�� dH��! *]��H��A�%�/qC��6 sO8�� dH��! *]��H��A�%�>qC��6 sO8�� eH��i�1(d��H��A�%�Mq>��6 sO8�� eH��i�1(d��H��A�%�\qBp��6 sO8�� eH��i�1(d��H��A�%�kqBp��6 sO8�� eH��i�1(d��H��A�%�zqBp��6 sO8�� eH��i�1(d��H��A�%��qZ��6 sO8�� eH��i�1(d��H��A�%��q?р�6 sO8�� eH��i�1(d��H��A�%��qA ��6 sO8�� eH��i�1(f��H��A�%��qA ��6 sO8�� fH��OX(h��H��A�%��qBp��6 sO8�� fH��OX(h��H��A�%��qC��6 sO8�� gH��M�O(l��H��A�%��qC��6 sO8�� gH��M�O(l��H��A�%��qBp��6 sO8�� gH��M�O(l��H��A�%�qBp��6 sO8�� gH��M�O(l��H��A�%�qBp��6 sO8�� gH��M�O(n��H��A�%�qTʀ�6 sO8�� hH��O0�(p��H��A�%�.q_F��6 sO8�� jH��"��)w��H��A�%�=q?р�6 sO8�� kH��$.�)y��H��A�%�LqA ��6 sO8�� kH��$.�)y��H��A�%�[qPۀ�6 sO8�� lH��$nJ*{��H��A�%�jq]��6 sO8�� lH��$nJ*{��H��A�%�yqBp��6 sO8�� lH��$nJ*{��H��A�%��q>��6 sO8�� lH��$nJ*{��H��A�%��qX��6 sO8�� lH��$nJ*{��H��A�%��qBp��6 sO8�� lH��$nJ*{��H��A�%��qBp��6 sO8�� lH��$nJ*{��H��A�%��qWi��6 sO8�� lH��$nJ*{��H��A�%��qBp��6 sO8�� lH��$nJ*{��H��A�%��q��6 sO8�� lH��$nJ*{��H��A�%��qC��6 sO8�� lH��$nJ*{��H��A�%�q`��6 sO8�� lH��$nJ*{��H��A�%�qBp��6 sO8�� lH��$nJ*{��H��A�%�qz̀�6 sO8�� lH��$nJ*{��H��A�%�-qE��6 sO8�� lH��$nJ*{��H��A�%��6 sO8�� lH��$nJ*{��H��A�%��qBp��6 sO8�� mH��$o�*}��H��A�%��qV��6 sO8�� mH��$o�*}��H��A�%��qA ��6 sO8�� mH��$o�*}��H��A�%��qK��6 sO8�� nH��[M(��H��A�%�q?р�6 sO8�� nH��[M(��H��A�%�qBp��6 sO8�� nH��[M(��H��A�%�,qA ��6 sO8�� nH��[M(��H��A�%�;qR*��6 sO8�� oH��O�(��H��A�%�Jq?р�6 sO8�� oH��O�(��H��A�%�YqC��6 sO8�� oH��O�(��H��A�%�hqA ��6 sO8�� oH��O�(��H��A�%�wqC��6 sO8�� pH��M��(��H��A�%��qa��6 sO8�� pH��M��(��H��A�%��qC��6 sO8�� pH��M��(��H��A�%��qBp��6 sO8�� pH��M��(��H��A�%��qC��6 sO8�� qH��e�(��H��A�%��q>��6 sO8�� qH��e�(��H��A�%��qTʀ�6 sO8�� rH��M��(��H��A�%��qC��6 sO8�� rH��M��(��H��A�%��qE��6 sO8�� rH��M��(��H��A�%��qBp��6 sO8�� rH��M��(��H��A�%� q\��6 sO8�� rH��M��(��H��A�%�qBp��6 sO8�� tH��b�(��H��A�%�+qBp��6 sO8�� tH��b�(��H��A�%�:qA ��6 sO8�� tH��b�(��H��A�%�IqSz��6 sO8�� tH��b�(��H��A�%�Xq`��6 sO8�� uH��g'I(��H��A�%�gqBp��6 sO8�� uH��g'I(��H��A�%�vqA ��6 sO8�� uH��g'I(��H��A�%��qL��6 sO8�� uH��g'I(��H��A�%��qO��6 sO8�� vH��Z0�(��H��A�%��qA ��6 sO8�� vH��Z0�(��H��A�%��q?р�6 sO8�� vH��Z0�(��H��A�%��qBp��6 sO8�� vH��Z0�(��H��A�%��qBp��6 sO8�� vH��Z0�(��H��A�%��qO��6 sO8�� wH��dr�(��H��A�%��q]��6 sO8�� xH��$n0*��H��A�%��qZ��6 sO8�� xH��$n0*��H��A�%�qJM��6 sO8�� xH��$n0*��H��A�%�qBp��6 sO8�� yH��c�(��H��A�%�*qE��6 sO8�� yH��c�(��H��A�%�9qWi��6 sO8�� yH��c�(��H��A�%�HqC��6 sO8�� yH��c�(��H��A�%�WqBp��6 sO8�� zHÀZ;<(��H��A�%�fq?р�6 sO8�� {HÀZCp(��H��A�%�uqA ��6 sO8�� {HÀZCp(��H��A�%��qBp��6 sO8�� {HÀZCp(��H��A�%��qBp��6 sO8�� |HĀg:/(��H��A�%��qN<��6 sO8�� |HĀg:/(��H��A�%��qR*��6 sO8�� |HĀg:/(��H��A�%��q]��6 sO8�� |HĀg:/(��H��A�%��q�N��6 sO8�� |Hŀg:/(��H��A�%��q]��6 sO8�� }HŀO7<(��H��A�%��q`��6 sO8�� }HŀO7<(��H��A�%��q?р�6 sO8�� }HŀO7<(��H��A�%�qF_��6 sO8�� }HŀO7<(��H��A�%�qJM��6 sO8�� ~HƀY��(��H��A�%�)qE��6 sO8�� ~HƀY��(��H��A�%�8q\��6 sO8�� ~HƀY��(��H��A�%�wq\��6 sO8�� H�$7B)��H��A�%��qc5��6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��q?р�6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��qTʀ�6 sO8�� H�$7B)��H��A�%��q\��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��qJM��6 sO8�� H�$7B)��H��A�%� qX��6 sO8�� H�$7B)��H��A�%�q?р�6 sO8�� H�$7B)��H��A�%�+qBp��6 sO8�� H�$7B)��H��A�%�:qTʀ�6 sO8�� H�$7B)��H��A�%�IqZ��6 sO8�� H�$7B)��H��A�%�XqTʀ�6 sO8�� H�$7B)��H��A�%�gqA ��6 sO8�� H�$7B)��H��A�%�vq?р�6 sO8�� H�$7B)��H��A�%��qWi��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��q`��6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��q[W��6 sO8�� H�$7B)��H��A�%��q\��6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��qO��6 sO8�� H�$7B)��H��A�%�qF_��6 sO8�� H�$7B)��H��A�%�q?р�6 sO8�� H�$7B)��H��A�%�*qA ��6 sO8�� H�$7B)��H��A�%�9qz̀�6 sO8�� H�$7B)��H��A�%�HqA ��6 sO8�� H�$7B)��H��A�%�Wq?р�6 sO8�� H�$7B)��H��A�%�fq?р�6 sO8�� H�$7B)��H��A�%�uqSz��6 sO8�� H�$7B)��H��A�%��q?р�6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��q[W��6 sO8�� H�$7B)��H��A�%��qJM��6 sO8�� H�$7B)��H��A�%��qA ��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��qBp��6 sO8�� H�$7B)��H��A�%��q?р�6 sO8�� H�$7B)��H��A�%�qC��6 sO8�� H�$7B)��H��A�%�qV��6 sO8�� H�$7B)��H��A�%�)q]��6 sO8�� H�$7B)��H��A�%�8qC��6 sO8�� H�$7B)��H��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 195 / 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 = 287675562.4433 TSTOP = 287681592.44334 DATE-OBS= '2010-02-12T13:52:41' DATE-END= '2010-02-12T15:33:11' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6030.00003999472 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 310 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:16' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Doa4EoY2Doa2DoW2' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2489651497' / data unit checksum updated 2010-02-18T17:05:16 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: sw00412081000b136x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:26 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��q|��A�%��q��A�%��qx-��A�%��qy}��A�%��q�u��A�%��q��A�%�qz̀��A�%�q��A�%�"q��A�%�1qz̀��A�%�@q|��A�%�Oq�ـ��A�%�^q�ŀ��A�%�mq|��A�%�|q}k��A�%��q|��A�%��q~��A�%��q}k��A�%��q}k��A�%��q~��A�%��q� ��A�%��q�Z��A�%��q|��A�%�q�)��A�%�q�S��A�%�!q��A�%�0q��A�%�?q��A�%�Nq~��A�%�]q|��A�%�lq~��A�%�{q|�� A�%��q|��A�%��q��A�%��q��A�%��q�t��A�%��q|��A�%��q|��A�%��q~�� A�%��qz̀��A�%�q|��A�%�q��A�%� q��A�%�/q~��A�%�>q�Z��A�%�Mqy}��A�%�\q~��A�%�kq}k��A�%�zq|��A�%��q��A�%��rK4��A�%��q��A�%��q|��A�%��q|��A�%��q� ��A�%��q~��A�%��q|��A�%�q|��A�%�q~��A�%�q��A�%�.q��A�%�=q|��A�%�Lqz̀��A�%�[q�&��A�%�jq��A�%�yq��A�%��qy}�� A�%��q�u�� A�%��q}k�� A�%��q|��A�%��q�� A�%��q~�� A�%��q�b�� A�%��q~�� A�%�q�S��A�%�q}k��A�%�q�Ȁ��A�%�-q�Z��A�%�-A�%��2ʀtarg/mode/tables/toflttbl.gzo �I��d;V��:��֠��7��&�]�� e�hn��p�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �I��;V��:��֠��7��x�]�� e�hn��p�� A��O>-A�%�ɤ6��targ/mode/tables/toflttbl.gzo �I��;V��:��֠��7��'��^P�� e�hn��p�� A��O>-A�%�ؤ4�targ/mode/tables/toflttbl.gzo �I��Y;V��:��֠��7��^�@�� e�hn��p�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �I��;V��:��֠��7��@��o@^�� e�hn��p�� A��O>-A�%��a��targ/mode/tables/toflttbl.gzo �I��;V��:��֠��7��_F@�� e�hn��p�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �I��L;V��:��֠��7��x�_�� e�hn��p�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo ��;W��:��֡��7��`O@�� e�hn��p�� A��O>-A�%�#�2ʀtarg/mode/tables/toflttbl.gzo ��;W��:��֡��7��L��@`�� e�hn��p�� A��O>-A�%�2�8 �targ/mode/tables/toflttbl.gzo �� J;W��:��֡��7��n�`�� e�hn��p�� A��O>-A�%�A�4�targ/mode/tables/toflttbl.gzo �� ;X��:��֢��7��aE�� e�hn��p�� A��O>-A�%�P�?�targ/mode/tables/toflttbl.gzo �� ;X��:��֢��7��0��a�� e�hn��p�� A��O>-A�%�_�4�targ/mode/tables/toflttbl.gzo �� 5;Y��;��֢��7��b�a�� e�hn��p�� A��O>-A�%�n�9X�targ/mode/tables/toflttbl.gzo �� ;Y��;��֢��7��b@�� e�hn�� A��O>-A�%�}�4�targ/mode/tables/toflttbl.gzo �� ;Y��;��֢��7��b*@�� e�hn�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �� h;Y��;��֢��7��b@�� e�hn�� A��O>-A�%��5i�targ/mode/tables/toflttbl.gzo �� );Z��;��֢��7��g��bS@�� e�hn�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �� ;Z��;��֢��7��bk�� e�hn�� A��O>-A�%��6��targ/mode/tables/toflttbl.gzo �� ;Z��;��֢��7��@b�� e�hn�� A��O>-A�%�Ȥ6��targ/mode/tables/toflttbl.gzo �� /;Z��;��֢��7��p��b�� e�hn�� A��O>-A�%�פ5i�targ/mode/tables/toflttbl.gzo �� ;Z��;��֢��7��~��(b�@�� e�hn�� A��O>-A�%��6��targ/mode/tables/toflttbl.gzo �� ;[��;��֢��7��~��;�b�� e�hn�� A��O>-A�%��2ʀtarg/mode/tables/toflttbl.gzo �� ;[��;��֢��7��F��T@bـ�� e�hn�� A��O>-A�%��5i�targ/mode/tables/toflttbl.gzo �� ';[��;��֢��7��l�b�� e�hn�� A��O>-A�%��5i�targ/mode/tables/toflttbl.gzo �� ;[��;��֢��7��@c �� e�hn�� A��O>-A�%�"�5i�targ/mode/tables/toflttbl.gzo ��p� �;[��;��֢��7��c�� e�hn�� A��O>-A�%�1�6��targ/mode/tables/toflttbl.gzo ��0� X;[��;��֢��7��B��c4�� e�hn�� A��O>-A�%�@�2ʀtarg/mode/tables/toflttbl.gzo ��p� �;\��;��֣��7��W��cR@�� e�hn�� A��O>-A�%�O�;��targ/mode/tables/toflttbl.gzo ��p� !�;\��;��֣��7��"��co�� e�hn�� A��O>-A�%�^�9X�targ/mode/tables/toflttbl.gzo �� #Z;^��;��֥��7��@c�� e�hn�� A��O>-A�%�m�9X�targ/mode/tables/toflttbl.gzo �� $�;b��<��֨��7�� @c�� e�hn�� A��O>-A�%�|�6��targ/mode/tables/toflttbl.gzo �� %N;c��=��֨��7��|�� @c�� e�hn�� A��O>-A�%��:��targ/mode/tables/toflttbl.gzo �� %�;d��>��֨��7�� @c�� e�hn�� A��O>-A�%��5i�targ/mode/tables/toflttbl.gzo �� &;e��?��֨��7�� c�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �� &\;f��?��֨��7�� c�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo ��@� &�;g��@��֨��7�� c�� e�hn�� A��O>A�%�Ǥ;��targ/mode/tables/toflttbl.gzo �� 'e;g��@��֨��7��'�� c�� e�hn�� A��O>A�%�֤:��targ/mode/tables/toflttbl.gzo �� (�;g��@��֨��7�� c�� e�hn�� A��O>A�%��g8�targ/mode/tables/toflttbl.gzo �� *{;g��@��֨��7��R�� c�� e�hn�� A��O>A�%��6��targ/mode/tables/toflttbl.gzo ��`� +P;h��A��֨��7��c�� e�hn�� A��O>A�%��2ʀtarg/mode/tables/toflttbl.gzo �� ,K;i��B��֨��7��c�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �� -�;i��B��֨��7��M��3�c�� e�hn�� A��O>A�%�!�4�targ/mode/tables/toflttbl.gzo �� /�;l��C��֨��7��R�c�� e�hn�� A��O>A�%�0�8 �targ/mode/tables/toflttbl.gzo �� 1J;m��C��֨��7��w@c�� e�hn�� A��O>A�%�?�9X�targ/mode/tables/toflttbl.gzo �� 2�;o��C��֪��7��d@�� e�hn�� A��O>A�%�N�2ʀtarg/mode/tables/toflttbl.gzo �� 2�;o��C��֪��7��dI@�� e�hn�� A��O>A�%�]�1{�targ/mode/tables/toflttbl.gzo �� 3�;o��C��֪��7��?��@du�� e�hn�� A��O>A�%�l�:��targ/mode/tables/toflttbl.gzo �� 4 ;o��C��֪��7��@dw�� e�hn�� A��O>A�%�{�5i�targ/mode/tables/toflttbl.gzo �� 4n;o��C��֪��7��;��dy�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �{�� 4�;o��C��֪��7��@d{�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �jP� 5�;o��C��֪��7��d�� e�hn�� A��O>A�%��2ʀtarg/mode/tables/toflttbl.gzo �i�� 7�;o��C��֪��7��6��*d�@�� e�hn�� A��O>A�%��`��targ/mode/tables/toflttbl.gzo �i�� 9L;p��D��֪��7��Kd�@�� e�hn�� A��O>A�%�Ƥ9X�targ/mode/tables/toflttbl.gzo �i�� :�;p��D��֪��7��n@d�� e�hn�� A��O>A�%�դ4�targ/mode/tables/toflttbl.gzo �i�� <�;q��D��֪��7��@e�� e�hn�� A��O>A�%��6��targ/mode/tables/toflttbl.gzo �i�� >m;q��D��֪��7��e*�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �i�� @#;q��D��֪��7��L��@eH�� e�hn�� A��O>A�%��2ʀtarg/mode/tables/toflttbl.gzo �i�� A�;q��D��֪��7��@ef�� e�hn�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �d@� C�;q��D��֪��7��ey�� e�hn�� A��O>A�%� �5i�targ/mode/tables/toflttbl.gzo �aP� EE;q��D��֪��7��\��e}�� e�hn�� A��O>A�%�/�5i�targ/mode/tables/toflttbl.gzo �_P� G6;r��D��֪��7��8��e}@�� e�hn�� A��O>A�%�>�9X�targ/mode/tables/toflttbl.gzo �Y�� I;v��H��֪��7��e}�� e�hn�� A��O>A�%�M�5i�targ/mode/tables/toflttbl.gzo �S�� J�;x��I��֪��7��5��@e~�� e�hn�� A��O>A�%�\�4�targ/mode/tables/toflttbl.gzo �S�� L�;y��J��֪��7��f �� e�hn��p�� A��O>A�%�k�2ʀtarg/mode/tables/toflttbl.gzo �P� N�;z��J��֪��7��*�f�� e�hn��p�� A��O>A�%�z�5i�targ/mode/tables/toflttbl.gzo �J`� P;;z��J��֪��7��,�f"�� e�hn��p�� A��O>A�%��4�targ/mode/tables/toflttbl.gzo �G`� Q�;z��J��֪��7��=�f3�� e�hn��p�� A��O>A�%��4�targ/mode/tables/toflttbl.gzo �; � S�;{��J��֪��7��i�f_�� e�hn��p�� A��O>A�%��;��targ/mode/tables/toflttbl.gzo �� U8;{��J��֪��7��l@fa�� e�hn��p�� A��O>A�%��5i�targ/mode/tables/toflttbl.gzo �� W;{��J��֪��7��y@fn�� e�hn��p�� A��O=�A�%�Ť4�targ/mode/tables/toflttbl.gzo �� X�;{��J��֪��7��k��{fp@�� e�hn��p�� A��O=�A�%�Ԥ2ʀtarg/mode/tables/toflttbl.gzo �� Z];{��J��֪��7��}�fs�� e�hn��p�� A��O=�A�%��2ʀtarg/mode/tables/toflttbl.gzo �W�� \;{��J��֪��7��p��fu@�� e�hn��p�� A��O=�A�%��6��targ/mode/tables/toflttbl.gzo �'�� ]�;{��J��֪��7��C��fx@�� e�hn��p�� A��O=�A�%��>��targ/mode/tables/toflttbl.gzo �� _{;{��J��֪��7�� fz�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �� a2;{��J��֪��7�� [��@f}�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �� b�;{��J��֪��7�� f�� e�hn��p�� A��O=�A�%�.�5i�targ/mode/tables/toflttbl.gzo �j0� d�;{��J��֪��7�� f�� e�hn��p�� A��O=�A�%�=�5i�targ/mode/tables/toflttbl.gzo �:�� f0;{��J��֪��7�� @f�� e�hn��p�� A��O=�A�%�L�9X�targ/mode/tables/toflttbl.gzo �� g�;{��J��֪��7�� Y��f�@�� e�hn��p�� A��O=�A�%�[�5i�targ/mode/tables/toflttbl.gzo �۰� i�;{��J��֪��7�� f�� e�hn��p�� A��O=�A�%�j�6��targ/mode/tables/toflttbl.gzo �� kD;|��K��֪��7�� i��@f�� e�hn��p�� A��O=�A�%�y�5i�targ/mode/tables/toflttbl.gzo �� l�;|��K��֪��7�� &��f�@�� e�hn��p�� A��O=�A�%��8 �targ/mode/tables/toflttbl.gzo �� n�;|��K��֪��7�� f�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �S�� pD;|��K��֪��7�� f�� e�hn��p�� A��O=�A�%��9X�targ/mode/tables/toflttbl.gzo �,�� q�;}��K��֪��7�� k��f�� e�hn��p�� A��O=�A�%��6��targ/mode/tables/toflttbl.gzo �'P� s�;}��K��֪��7�� f�� e�hn��p�� A��O=�A�%�Ĥ5i�targ/mode/tables/toflttbl.gzo �#� u<;}��K��֪��7�� f�� e�hn��p�� A��O=�A�%�Ӥ2ʀtarg/mode/tables/toflttbl.gzo �!@� v�;}��K��֪��7��5��f�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �G� x�;��N��֪��7��Ӏf�� e�hn��p�� A��O=�A�%��2ʀtarg/mode/tables/toflttbl.gzo �#�� zG;��N��֪��7��f�� e�hn��p�� A��O=�A�%��:��targ/mode/tables/toflttbl.gzo �0� |;��N��֪��7��V��f�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo ��@� }�;��N��֪��7�� ݀f�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo ��@� c;��N��֪��7�� ހf�� e�hn��p�� A��O=�A�%�-�4�targ/mode/tables/toflttbl.gzo �� ;��N��֪��7�� @fՀ�� e�hn��p�� A��O=�A�%�<�6��targ/mode/tables/toflttbl.gzo ��@� ��;��N��֪��7��f�� e�hn��p�� A��O=�A�%�K�2ʀtarg/mode/tables/toflttbl.gzo �� ;��N��֪��7��g@�� e�hn��p�� A��O=�A�%�Z�9X�targ/mode/tables/toflttbl.gzo �� P;��N��֪��7��@g�� e�hn��p�� A��O=�A�%�i�5i�targ/mode/tables/toflttbl.gzo �� ;��N��֪��7��O��@g �� e�hn��p�� A��O=�A�%�x�5i�targ/mode/tables/toflttbl.gzo �� ;��O��֪��7�� g�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �q � �n;��O��֪��7�� @g�� e�hn��p�� A��O=�A�%��9X�targ/mode/tables/toflttbl.gzo �]�� %;��O��֪��7�� /��g�� e�hn��p�� A��O=�A�%��8 �targ/mode/tables/toflttbl.gzo �Z � ��;��O��֪��7�� N��g�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �V@� ��;��O��֪��7�� @g�� e�hn��p�� A��O=�A�%�ä5i�targ/mode/tables/toflttbl.gzo ��@� �X;��O��֪��7��g�� e�hn��p�� A��O=�A�%�Ҥ2ʀtarg/mode/tables/toflttbl.gzo �� ;��O��֪��7�� 6�g,�� e�hn��p�� A��O=�A�%��6��targ/mode/tables/toflttbl.gzo ��P� ��;��O��֪��7�� q��Hg=@�� e�hn��p�� A��O=�A�%��8 �targ/mode/tables/toflttbl.gzo �q� �i;��O��֪��7�� J@g?�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �S � �$;��O��֪��7�� k��K�g@�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo �6�� ;��O��֪��7�� MgB@�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo �0� ��;��O��֪��7�� NgC@�� e�hn��p�� A��O=�A�%�,�9X�targ/mode/tables/toflttbl.gzo � �� y;��O��֪��7�� O�gE�� e�hn��p�� A��O=�A�%�;�5i�targ/mode/tables/toflttbl.gzo � p� �#;��O��֪��7�� P�gF�� e�hn��p�� A��O=�A�%�J�4�targ/mode/tables/toflttbl.gzo �� ;��O��֪��7�� )��RgG@�� e�hn��p�� A��O=�A�%�Y�=G�targ/mode/tables/toflttbl.gzo �p� ��;��O��֪��7�� gg\@�� e�hn��p�� A��O=�A�%�h�8 �targ/mode/tables/toflttbl.gzo ��@� �L;��O��֪��7�� }��~�gt�� e�hn��p�� A��O=�A�%�w�5i�targ/mode/tables/toflttbl.gzo ��`� ��;��O��֪��7�� '��@gy�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo ��0� ��;��O��֪��7�� @g{�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo �� ;��O��֪��7�� G��g|�� e�hn��p�� A��O=�A�%��:��targ/mode/tables/toflttbl.gzo �Ơ� �1;��O��֪��7�� g~�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo ��0� ��;��P��֪��7�� @g�� e�hn��p�� A��O=�A�%�¤5i�targ/mode/tables/toflttbl.gzo �� ;��P��֪��7�� g�� e�hn��p�� A��O=�A�%�Ѥ5i�targ/mode/tables/toflttbl.gzo �� F;��P��֪��7�� k��@g�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo ��0� �;��Q��֪��7�� g�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo ��0� ��;��Q��֪��7�� 3��g�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo ��`� �Z;��Q��֪��7�� g�� e�hn��p�� A��O=�A�%� �9X�targ/mode/tables/toflttbl.gzo �d�� ;��Q��֪��7�� !��̀g�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �B`� ��;��Q��֪��7�� "��g�@�� e�hn��p�� A��O=�A�%�+�5i�targ/mode/tables/toflttbl.gzo �� ;��Q��֪��7�� #��g�@�� e�hn��p�� A��O=�A�%�:�2ʀtarg/mode/tables/toflttbl.gzo �@� �v;��Q��֪��7�� #��g�� e�hn��p�� A��O=�A�%�I�2ʀtarg/mode/tables/toflttbl.gzo �0� �;��Q��֪��7��#��B��h�� e�hn��p�� A��O=�A�%�X�9X�targ/mode/tables/toflttbl.gzo �� ;��Q��֪��7��%��4��4�h)�� e�hn��p�� A��O=�A�%�g�4�targ/mode/tables/toflttbl.gzo �� ¤;��R��֪��7��%��Y�hO�� e�hn��p�� A��O=�A�%�v�2ʀtarg/mode/tables/toflttbl.gzo �� O;��R��֪��7��%��@hv�� e�hn��p�� A��O=�A�%��4�targ/mode/tables/toflttbl.gzo �� ;��R��֪��7��%��9��h�@�� e�hn��p�� A��O=�A�%��2ʀtarg/mode/tables/toflttbl.gzo �e@� Ƕ;��R��֪��7�� &��h�@�� e�hn��p�� A��O=�A�%��2ʀtarg/mode/tables/toflttbl.gzo �e@� �_;��R��֪��7�� &��M��h�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �e@� �;��R��֪��7�� &��i�� e�hn��p�� A��O=�A�%��5i�targ/mode/tables/toflttbl.gzo �e@� ̱;��R��֪��7�� &��A@i6�� e�hn��p�� A��O=�A�%�Ф2ʀtarg/mode/tables/toflttbl.gzo �d�� h;��R��֪��7�� '��b�iX�� e�hn��p�� A��O=�A�%�ߤ6��targ/mode/tables/toflttbl.gzo �d�� ;��R��֪��7�� '��t��i�� e�hn��p�� A��O=�A�%��8 �targ/mode/tables/toflttbl.gzo �d�� ;��R��֪��7�� '��i�� e�hn��p�� A��O=�A�%��9X�targ/mode/tables/toflttbl.gzo �d�� b;��R��֪��7�� '��i�@�� e�hn��p�� A��O=�A�%��:��targ/mode/tables/toflttbl.gzo �d � �!;��R��֪��7�� '��i�@�� e�hn��p�� A��O=�A�%��2ʀtarg/mode/tables/toflttbl.gzo �_�� ;��R��֪��7�� (��i�� e�hn��p�� A��O=�A�%�*�5i�targ/mode/tables/toflttbl.gzo �[�� ؄;��R��֪��7�� (��3��i�� e�hn��p�� A��O=�A�%�9�5i�targ/mode/tables/toflttbl.gzo �W� �,;��R��֪��7�� )��@i�� e�hn��p�� A��O=�A�%�x�2ʀtarg/mode/tables/toflttbl.gzo �L��?�;��t�-��Á��7��M��@��À�� e�hn��p�� A��O<�A�%��8 �targ/mode/tables/toflttbl.gzo �S �A�;��t�-��ā��7��L��,��À�� e�hn��p�� A��O<�A�%��5i�targ/mode/tables/toflttbl.gzo �S �C?;��t�-��ā��7��L��h��=��À�� e�hn��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo �S �E;��t�-��ā��7��L��(��@�À�� e�hn��p�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo �S �F�;��t�-��ā��7��L��@�À�� e�hn��p�� A��O<�A�%�ä4�targ/mode/tables/toflttbl.gzo �S �H\;��t�-��ā��7��L��V��^@�3��À�� e�hn��p�� A��O<�A�%�Ҥ4�targ/mode/tables/toflttbl.gzo �S �J;��t�-��ā��7��L��À�� e�hn�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo �S �K�;��t�-��ā��7��L��À�� e�hn�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo �S �MP;��t�-��ā��7��L��T��)��À�� e�hn�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo �S �N�;��t�-��ā��7��L��{��À�� e�hn�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo �S �P�;��t�-��ā��7��L��Y��À�� e�hn�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo �S �RZ;��t�-��ā��7��L��J��À�� e�hn�� A��O<�A�%�,�2ʀtarg/mode/tables/toflttbl.gzo �S �T;��t�-��ā��7��L��q��À�� e�hn�� A��O<�A�%�;�5i�targ/mode/tables/toflttbl.gzo �S �U�;��t�-��ā��7��L��V��À�� e�hn�� A��O<�A�%�J�2ʀtarg/mode/tables/toflttbl.gzo �S �WX;��t�-��ā��7��L��@��À�� e�hn�� A��O<�A�%�Y�8 �targ/mode/tables/toflttbl.gzo �� X�;��t�-��Ł��7��K��g��À�� e�hn�� A��O<�A�%�h�8 �targ/mode/tables/toflttbl.gzo ��0�Z�;��t�-��ǁ��7��I��@��À�� e�hn�� A��O<�A�%�w�2ʀtarg/mode/tables/toflttbl.gzo ��0�\N;��u�-��ǁ��7��I��1��)@�n��Ā�� e�hn��p�� A��O<�A�%��?�targ/mode/tables/toflttbl.gzo ��0�]�;��u�-��ǁ��7��I��{@��Ā�� e�hn��p�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo ��0�_�;��u�-��ǁ��7��I��̀��Ā�� e�hn��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��0�aP;��u�-��ǁ��7��I��#��@�d��Ā�� e�hn��p�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo ��0�b�;��u�-��ǁ��7��I��q��Ā�� e�hn��p�� A��O<�A�%�¤2ʀtarg/mode/tables/toflttbl.gzo ��0�d�;��u�-��ǁ��7��I��{�� Ā�� e�hn��p�� A��O<�A�%�Ѥ1{�targ/mode/tables/toflttbl.gzo ��0�fO;��u�-��ǁ��7��I��[�Ā�� e�hn��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��0�g�;��u�-��ǁ��7��I��g��Ā�� e�hn��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��0�i�;��u�-��ǁ��7��I��7��@�Ā��n��p�� A��O<�A�%��5i�targ/mode/tables/toflttbl.gzo ��0�k>;��u�-��ǁ��7��I��Q@�Ā��n��p�� A��O<�A�%� �8 �targ/mode/tables/toflttbl.gzo ��0�l�;��u�-��ǁ��7��I��^��@�Ā��n��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��0�n�;��u�-��ǁ��7��I��@�Ā��n��p�� A��O<�A�%�+�4�targ/mode/tables/toflttbl.gzo ��0�p>;��u�-��ǁ��7��I��@�G��Ā��n��p�� A��O<�A�%�:�2ʀtarg/mode/tables/toflttbl.gzo ��p�q�<��u�-��Ɂ��7��G��T��Ā��n��p�� A��O<�A�%�I�2ʀtarg/mode/tables/toflttbl.gzo ��p�s�<��u�-��Ɂ��7��G��@�Ā��n��p�� A��O<�A�%�X�4�targ/mode/tables/toflttbl.gzo ��p�u6<��u�-��Ɂ��7��G��?��Ā��n��p�� A��O<�A�%�g�2ʀtarg/mode/tables/toflttbl.gzo ��v�<��u�-��ʁ��7��F��9��@�Ā��n��p�� A��O<�A�%�v�4�targ/mode/tables/toflttbl.gzo ��x�<��u�-��ʁ��7��F��F@�Ā��n��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��z*<��u�-��ʁ��7��F��s��S@��Ā��n��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��{�<��u�-��ʁ��7��F��@��Ā��n��p�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo ��}�<��v�-��ʁ��7��F��:��Ā��n��p�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��,<��v�-��ʁ��7��F��y��G��Ā��n��p�� A��O<�A�%��6��targ/mode/tables/toflttbl.gzo ��<��v�-��ʁ��7��F��Ā��n�� A��O<�A�%�Ф2ʀtarg/mode/tables/toflttbl.gzo ��}<��v�-��ʁ��7��F��1�Ā��n�� A��O<�A�%�ߤ1{�targ/mode/tables/toflttbl.gzo ��*<��v�-��ʁ��7��F��O��=��Ā��n�� A��O<�A�%��8 �targ/mode/tables/toflttbl.gzo ��<��v�-��ʁ��7��F��Ā��n�� A��O<�A�%��2ʀtarg/mode/tables/toflttbl.gzo ��z<��v�-��ʁ��7��F��'�Ā��n�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo ��"<��v�-��ʁ��7��F��!��3��y�Ā��n�� A��O<�A�%��4�targ/mode/tables/toflttbl.gzo ��<��v�-��ʁ��7��F��@�Ā��n�� A��O<�A�%�*�1{�targ/mode/tables/toflttbl.gzo ��v<��v�-��ʁ��7��F��y��@��Ā��n�� A��O<�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 225 / width of table in bytes NAXIS2 = 195 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 99 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK138SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BBRHKTRIGTIME42' / BR HK trigger time (time42) TFORM3 = '1D ' / data format of field: 8-byte DOUBLE TUNIT3 = 's ' / physical unit of field TTYPE4 = 'undocumented1' / Byte field not in ITOS database TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BBRHKTRIGDUR' / BR HK trigger duration TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 8590065.664 / data offset (2G shift B_BR_4MS_A conversion) TSCAL5 = 0.004 / data scaling (B_BR_4MS_A conversion) TTYPE6 = 'BBRHKSOURCETYPE' / BR HK source type TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BBRHKTHETA' / BR HK burst/transient location in radial coord.TFORM7 = '1E ' / data format of field: 4-byte REAL TUNIT7 = 'rad ' / physical unit of field TTYPE8 = 'BBRHKPHI' / BR HK burst/transient location in azimuthal cooTFORM8 = '1E ' / data format of field: 4-byte REAL TUNIT8 = 'rad ' / physical unit of field TTYPE9 = 'BBRHKSTRENGTH' / BR HK burst/transient strength in image units TFORM9 = '1E ' / data format of field: 4-byte REAL TTYPE10 = 'BBRHKLOCSIGMA' / BR HK burst/transient rms near src location TFORM10 = '1E ' / data format of field: 4-byte REAL TTYPE11 = 'BBRHKCATNUM' / BR HK burst/transient catalog number of src (-1TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BBRHKTECHNIQUE' / BR HK burst/transient technique to get the src TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BBRHKINTRSGSTR' / BR HK burst/transient source brightness for intTFORM13 = '1E ' / data format of field: 4-byte REAL TTYPE14 = 'BBRHKRARAD' / BR HK R.A. in radians TFORM14 = '1E ' / data format of field: 4-byte REAL TUNIT14 = 'rad ' / physical unit of field TTYPE15 = 'BBRHKDECRAD' / BR HK Declination in radians TFORM15 = '1E ' / data format of field: 4-byte REAL TUNIT15 = 'rad ' / physical unit of field TTYPE16 = 'BBRHKFBURST' / BR HK burst flag TFORM16 = '1B ' / data format of field: BYTE TTYPE17 = 'BBRHKFINTERSTING' / BR HK interesting flag TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BBRHKFIMAGETRIG' / BR HK image trigger flag TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BBRHKFCONTINUOUS' / BR HK continuous observation flag TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BBRHKERANGE' / BR HK Trigger energy TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BBRHKFINRATETRIG' / BR HK processing new rate trigger TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BBRHKTIMESINCE' / BR HK time since trigger TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BBRHKMERIT0' / BR HK Merit item 0 TFORM23 = '1I ' / data format of field: 2-byte INTEGER TTYPE24 = 'BBRHKMERIT1' / BR HK Merit item 1 TFORM24 = '1I ' / data format of field: 2-byte INTEGER TTYPE25 = 'BBRHKMERIT2' / BR HK Merit item 2 TFORM25 = '1I ' / data format of field: 2-byte INTEGER TTYPE26 = 'BBRHKMERIT3' / BR HK Merit item 3 TFORM26 = '1I ' / data format of field: 2-byte INTEGER TTYPE27 = 'BBRHKMERIT4' / BR HK Merit item 4 TFORM27 = '1I ' / data format of field: 2-byte INTEGER TTYPE28 = 'BBRHKMERIT5' / BR HK Merit item 5 TFORM28 = '1I ' / data format of field: 2-byte INTEGER TTYPE29 = 'BBRHKMERIT6' / BR HK Merit item 6 TFORM29 = '1I ' / data format of field: 2-byte INTEGER TTYPE30 = 'BBRHKMERIT7' / BR HK Merit item 7 TFORM30 = '1I ' / data format of field: 2-byte INTEGER TTYPE31 = 'BBRHKMERIT8' / BR HK Merit item 8 TFORM31 = '1I ' / data format of field: 2-byte INTEGER TTYPE32 = 'BBRHKMERIT9' / BR HK Merit item 9 TFORM32 = '1I ' / data format of field: 2-byte INTEGER TTYPE33 = 'undocumented2' / Byte field not in ITOS database TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BBRHKTRIGNUM' / BR HK trigger number TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BBRHKTRYINGTRIG' / BR HK triggers tried since TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BBRHKTRYINGMET' / BR HK triggers tried at MET TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TUNIT36 = 's ' / physical unit of field TTYPE37 = 'undocumented3' / Byte field not in ITOS database TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'undocumented4' / Byte field not in ITOS database TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'undocumented5' / Byte field not in ITOS database TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'undocumented6' / Byte field not in ITOS database TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'undocumented7' / Byte field not in ITOS database TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'undocumented8' / Byte field not in ITOS database TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BCAHKCALTYPE' / Calibration Type, 0=none,1=offset,2=gain,other=TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BCAHKPULDAC' / Value to set the pulser TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BCAHKPULPER' / Period of the pulser (500 ns units) TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 32768 / offset for unsigned integers TTYPE46 = 'BCAHKDWELLCNT' / Dwell Count TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 32768 / offset for unsigned integers TTYPE47 = 'BCAHKCALMODE' / Cal Mode TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BCAHKENDMODE' / End Mode TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BCAHKCALDONE' / This command has been completed TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BCAHKBLOCKWISE' / If true, do blocks sequentially, otherwise simuTFORM50 = '1B ' / data format of field: BYTE TTYPE51 = 'BCAHKLONGCAL' / If true, calibration events are long TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BCAHKCALTM' / Send pulseheight calibration to the ground TFORM52 = '1B ' / data format of field: BYTE TTYPE53 = 'BCAHKSEGSTRIPTM' / send segment/strip results to the ground TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BCAHKSLEWONLY' / Only run during slew TFORM54 = '1B ' / data format of field: BYTE TTYPE55 = 'BCAHKTRUMPSAUTO' / Run even if automatic run (gain/offset) TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BCAHKEVENSAA' / Do calibration even if in SAA TFORM56 = '1B ' / data format of field: BYTE TTYPE57 = 'undocumented9' / Byte field not in ITOS database TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'undocumented10' / Bit field not in ITOS database TFORM58 = '1B ' / data format of field: BYTE TTYPE59 = 'BCAHKCALTYPEN' / Calibration Type, 0=none,1=offset,2=gain,other=TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAHKPULDACN' / Value to set the pulser TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAHKPULPERN' / Period of the pulser (500 ns units) TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BCAHKDWELLCNTN' / Dwell Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BCAHKCALMODEN' / Cal Mode TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BCAHKENDMODEN' / End Mode TFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BCAHKCALDONEN' / This command has been completed TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BCAHKBLOCKWISEN' / If true, do blocks sequentially, otherwise simuTFORM66 = '1B ' / data format of field: BYTE TTYPE67 = 'BCAHKLONGCALN' / If true, calibration events are long TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BCAHKCALTMN' / Send pulseheight calibration to the ground TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'BCAHKSEGSTRIPTMN' / send segment/strip results to the ground TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BCAHKSLEWONLYN' / Only run during slew TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'BCAHKTRUMPSAUTON' / Run even if automatic run (gain/offset) TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BCAHKEVENSAAN' / Do calibration even if in SAA TFORM72 = '1B ' / data format of field: BYTE TTYPE73 = 'undocumented11' / Byte field not in ITOS database TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 32768 / offset for unsigned integers TTYPE74 = 'undocumented12' / Bit field not in ITOS database TFORM74 = '1B ' / data format of field: BYTE TTYPE75 = 'BCAHKLASTOFFMET' / Last Offset time, U1234 format TFORM75 = '1J ' / data format of field: 4-byte INTEGER TTYPE76 = 'BCAHKLASTGAINMET' / Last Gain time, U1234 format TFORM76 = '1J ' / data format of field: 4-byte INTEGER TTYPE77 = 'BCAHKLASTOINDEX' / Last Offset Index TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 32768 / offset for unsigned integers TTYPE78 = 'BCAHKLASTGINDEX' / Last Gain Index TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 32768 / offset for unsigned integers TTYPE79 = 'BCAHKMODDONE01' / Done flags for modules in block 01 TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 32768 / offset for unsigned integers TTYPE80 = 'BCAHKMODDONE00' / Done flags for modules in block 00 TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 32768 / offset for unsigned integers TTYPE81 = 'BCAHKMODDONE03' / Done flags for modules in block 03 TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 32768 / offset for unsigned integers TTYPE82 = 'BCAHKMODDONE02' / Done flags for modules in block 02 TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 32768 / offset for unsigned integers TTYPE83 = 'BCAHKMODDONE05' / Done flags for modules in block 05 TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 32768 / offset for unsigned integers TTYPE84 = 'BCAHKMODDONE04' / Done flags for modules in block 04 TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BCAHKMODDONE07' / Done flags for modules in block 07 TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BCAHKMODDONE06' / Done flags for modules in block 06 TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BCAHKMODDONE09' / Done flags for modules in block 09 TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BCAHKMODDONE08' / Done flags for modules in block 08 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BCAHKMODDONE11' / Done flags for modules in block 11 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BCAHKMODDONE10' / Done flags for modules in block 10 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BCAHKMODDONE13' / Done flags for modules in block 13 TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BCAHKMODDONE12' / Done flags for modules in block 12 TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BCAHKMODDONE15' / Done flags for modules in block 15 TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 32768 / offset for unsigned integers TTYPE94 = 'BCAHKMODDONE14' / Done flags for modules in block 14 TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 32768 / offset for unsigned integers TTYPE95 = 'BCAHKDOINGBLK' / Which block are we currently calibrating TFORM95 = '1I ' / data format of field: 2-byte INTEGER TTYPE96 = 'BCAHKPAD' / Padding TFORM96 = '1I ' / data format of field: 2-byte INTEGER TTYPE97 = 'BCAHKUSEDMET' / What time did we start to use current gain:offsTFORM97 = '1J ' / data format of field: 4-byte INTEGER TTYPE98 = 'BCAHKUSEDGAIN' / Index of currently-used gain values TFORM98 = '1I ' / data format of field: 2-byte INTEGER TTYPE99 = 'BCAHKUSEDOFF' / Index of currently used offset values TFORM99 = '1I ' / data format of field: 2-byte INTEGER EXTNAME = 'hk138x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675548.64226 TSTOP = 287681578.64222 DATE-OBS= '2010-02-12T13:52:27' DATE-END= '2010-02-12T15:32:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99996000528 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 312 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:17' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'Zl8Jfi79Zi7Gdi79' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '799358883' / data unit checksum updated 2010-02-18T17:05:17 COMMENT Column 6 = BBRHKSOURCETYPE - Discrete value COMMENT 0 = Empty = BR HK, Source Type, 0=Empty COMMENT 1 = New = BR HK, Source Type, 1=New COMMENT 2 = AutoGRB = BR HK, Source Type, 2=AutoGRB COMMENT 3 = OldGRB = BR HK, Source Type, 3=OldGRB COMMENT 4 = X-ray Binary = BR HK, Source Type, 4=X-ray Binary COMMENT 5 = Black Hole = BR HK, Source Type, 5=Black Hole COMMENT 6 = Pulsar = BR HK, Source Type, 6=Pulsar COMMENT 7 = Soft Gamma Repeater = BR HK, Source Type, 7=Soft Gamma Repeater COMMENT 8 = X-ray Nova = BR HK, Source Type, 8=X-ray Nova COMMENT 9 = Active Galactic Nucleus = BR HK, Source Type, 9=Active Galactic COMMENT 10 = Rapid Burster = BR HK, Source Type, 10=Rapid Burster COMMENT 11 = X-ray Burster = BR HK, Source Type, 11=X-ray Burster COMMENT 12 = Other = BR HK, Source Type, 12=Other COMMENT 13 = Unknown = BR HK, Source Type, 13=Unknown COMMENT 14 = Special1 = BR HK, Source Type, 14=Special1 COMMENT 15 = Special2 = BR HK, Source Type, 15=Special2 COMMENT 16 = Special3 = BR HK, Source Type, 16=Special3 COMMENT 17 = Special4 = BR HK, Source Type, 17=Special4 COMMENT 18 = Special5 = BR HK, Source Type, 18=Special5 COMMENT 19 = Special6 = BR HK, Source Type, 19=Special6 COMMENT 20 = Special7 = BR HK, Source Type, 20=Special7 COMMENT 21 = Special8 = BR HK, Source Type, 21=Special8 COMMENT 22 = Special9 = BR HK, Source Type, 22=Special9 COMMENT 23 = Aversion = BR HK, Source Type, 23=Aversion COMMENT Column 12 = BBRHKTECHNIQUE - Discrete value COMMENT 0 = Clean = BR HK, Technique Used, 0=Clean COMMENT 1 = Back_project = BR HK, Technique Used, 0=Back_project COMMENT 2 = FFT 1 pixel = BR HK, Technique Used, 0=FFT 1 pixel COMMENT 3 = FFT 2 pixel = BR HK, Technique Used, 0=FFT 2 pixel COMMENT 4 = FFT 4 pixel = BR HK, Technique Used, 0=FFT 4 pixel COMMENT 5 = Other = BR HK, Technique Used, 0=Other COMMENT Column 43 = BCAHKCALTYPE - Discrete value COMMENT 0 = None = CA Calibration Type, 0=None COMMENT 1 = Offset = CA Calibration Type, 1=Offset COMMENT 2 = Gain = CA Calibration Type, 2=Gain COMMENT 3-255 = Ground = CA Calibration Type, >2=Ground COMMENT Column 49 = BCAHKCALDONE - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 50 = BCAHKBLOCKWISE - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 51 = BCAHKLONGCAL - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 52 = BCAHKCALTM - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 53 = BCAHKSEGSTRIPTM - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 54 = BCAHKSLEWONLY - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 55 = BCAHKTRUMPSAUTO - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 56 = BCAHKEVENSAA - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 59 = BCAHKCALTYPEN - Discrete value COMMENT 0 = None = CA Calibration Type, 0=None COMMENT 1 = Offset = CA Calibration Type, 1=Offset COMMENT 2 = Gain = CA Calibration Type, 2=Gain COMMENT 3-255 = Ground = CA Calibration Type, >2=Ground COMMENT Column 65 = BCAHKCALDONEN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 66 = BCAHKBLOCKWISEN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 67 = BCAHKLONGCALN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 68 = BCAHKCALTMN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 69 = BCAHKSEGSTRIPTMN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 70 = BCAHKSLEWONLYN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 71 = BCAHKTRUMPSAUTON - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False COMMENT Column 72 = BCAHKEVENSAAN - Discrete value COMMENT 1 = TRUE = CA True-False discrete, True COMMENT 0 = FALSE = CA True-False discrete, False HISTORY TASK: FAPPND on FILENAME: sw00412081000b138x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:26 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��9��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��H��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��W��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�ɤlv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��f��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�ؤi׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��u��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��V�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�#�h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�2�o�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�A�k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�P�v�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�_�i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�n�q��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�}�o�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��)��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��8��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��V��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�Ȥo�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��e��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%�פmƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��t��G�I��%��Ѐd� ��%~�%]��w��%~�w�A�%��lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%��i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�"�lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�1�mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�@�i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�O�tT�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�^�o�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%~�%]��w��%~�w�A�%�m�pe�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW�� G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%�|�o�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%��s�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��(��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%��lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��7��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%��lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��F��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��U��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%�Ǥq��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��d��G�I��%�ۀ��Ѐd��%~�%]��w��%~�w�A�%�֤s�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��s��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�够��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�!�i׀A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�0�o�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�?�pe�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�N�h��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�]�k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�l�pe�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW�� G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�{�lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��'��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��lv�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��6��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��E��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%��h�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��T��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�Ƥpe�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��c��G�I��%�ۀ��Ѐd� ��%�c%]��w��%��w�A�%�դo�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��r��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%��mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%��k'�A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%� �mƀA��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%�ǀ��Ѐd� ��%�c%]��w��%��w�A�%�/�mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�>�pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�M�k'�A�%��O߀��>��`C��A��@��?]'��-��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�\�lv�A�%��O߀��>��`C��A��@��?]'��<��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�k�i׀A�%��O߀��>��`C��A��@��?]'��K��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�z�mƀA�%��O߀��>��`C��A��@��?]'��Z��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��i��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��i׀A�%��O߀��>��`C��A��@��?]'��x��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��q��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Ťi׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Ԥi׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��h��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��u��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�.�q��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�=�k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�L�pe�A�%��O߀��>��`C��A��@��?]'��,��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�[�mƀA�%��O߀��>��`C��A��@��?]'��;��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�j�mƀA�%��O߀��>��`C��A��@��?]'��J��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�y�o�A�%��O߀��>��`C��A��@��?]'��Y��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��h��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��w��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Ĥo�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Ӥi׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��o�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��h��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��s�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�-�mƀA�%��O߀��>��`C��A��@��?]'�� I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�<�mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�K�i׀A�%��O߀��>��`C��A��@��?]'��+��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Z�pe�A�%��O߀��>��`C��A��@��?]'��:��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�i�k'�A�%��O߀��>��`C��A��@��?]'��J��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%�x�k'�A�%��O߀��>��`C��A��@��?]'��X��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��g��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%��q��A�%��O߀��>��`C��A��@��?]'��v��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%��o�A�%��O߀��>��`C��A��@��?]'��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%�f��Ѐd� ��%�c%]��w��%��w�A�%�älv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Ҥh��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�,�pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�;�mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�J�lv�A�%��O߀��>��`C��A��@��?]'��*��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Y�s�A�%��O߀��>��`C��A��@��?]'��9��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�h�q��A�%��O߀��>��`C��A��@��?]'��H��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�w�lv�A�%��O߀��>��`C��A��@��?]'��W��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��f��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��u��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��s�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�¤lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�ѤmƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%� �q��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�+�k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�:�k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�I�h��A�%��O߀��>��`C��A��@��?]'��)��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�X�pe�A�%��O߀��>��`C��A��@��?]'��8��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�g�k'�A�%��O߀��>��`C��A��@��?]'��G��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�v�k'�A�%��O߀��>��`C��A��@��?]'��V��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��e��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��lv�A�%��O߀��>��`C��A��@��?]'��t��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�Фi׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�ߤlv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��s�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��q��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�*�mƀA�%��O߀��>��`C��A��@��?]'�� I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�9�lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd� ��%�c%]��w��%��w�A�%�x�h��A�%��O߀��>��`C��A��@��?]'��X��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��pe�A�%��O߀��>��`C��A��@��?]'��g��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��v��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�ämƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�Ҥk'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��pe�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�,�o�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�;�k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�J�h��A�%��O߀��>��`C��A��@��?]'��*��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�Y�o�A�%��O߀��>��`C��A��@��?]'��9��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�h�o�A�%��O߀��>��`C��A��@��?]'��H��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�w�k'�A�%��O߀��>��`C��A��@��?]'��W��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��v�A�%��O߀��>��`C��A��@��?]'��f��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��u��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�¤i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�Ѥg8�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��h��A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%� �o�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�+�lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�:�i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�I�i׀A�%��O߀��>��`C��A��@��?]'��)��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�X�pe�A�%��O߀��>��`C��A��@��?]'��8��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�g�i׀A�%��O߀��>��`C��A��@��?]'��G��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�v�k'�A�%��O߀��>��`C��A��@��?]'��V��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��i׀A�%��O߀��>��`C��A��@��?]'��e��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��t��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��k'�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�Фi׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�ߤg8�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��o�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��mƀA�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��i׀A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%��lv�A�%��O߀��>��`C��A��@��?]'��I��I��%��Ѐd��%�c%�B��x��%��x�A�%�*�h��A�%��O߀��>��`C��A��@��?]'�� I��I��%��Ѐd��%�c%�B��x��%��x�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 199 / width of table in bytes NAXIS2 = 587 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 67 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK139SSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BDIHKDATAMET' / Data MET time, U1234 format TFORM3 = '1J ' / data format of field: 4-byte INTEGER TUNIT3 = 's ' / physical unit of field TTYPE4 = 'BDIHKLAG' / How far DI is lagging, TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BDIHKNFAULTS' / Number of data/software faults found TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BDIHKLASTFAULT' / Identity of last fault TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BDIHKBLKRATE' TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL7 = 16 / data scaling (BDICONVTIMES16 conversion) TUNIT7 = 'count ' / physical unit of field TTYPE8 = 'BDIHKBLKRATE64S' TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL8 = 16 / data scaling (BDICONVTIMES16 conversion) TUNIT8 = 'count ' / physical unit of field TTYPE9 = 'BDIHKNGOODDETS' / Number of detectors functioning TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BDIHKBCDHVER' / Count of BCDH command verifies TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BDIHKDMVER' / Count of DM command verifies TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BDIHKBCDHEXC' / Count of BCDH command exceptions TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BDIHKDMEXC' / Count of DM command exceptions TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BDIHKDMPARITY' / Count of DM parity errors TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BDIHKDMALARMS' / Count of DM alarms TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BDIHKMICERRORS' / Count of MIC errors TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BDIHKTIMELAG' / How far DI is lagging, seconds TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TUNIT17 = 's ' / physical unit of field TTYPE18 = 'BDIHKGRBFOLLOW' / Is DI doing a GRB follow-up TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BDIHKFORCEINVAL' / Is data forced to be invalid? TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BDIHKSLEWING' / Is DI in slew mode TFORM20 = '1B ' / data format of field: BYTE TTYPE21 = 'BDIHKSAA' / Is DI in SAA mode TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BDIHKVALID' / Is DI producing valid data TFORM22 = '1B ' / data format of field: BYTE TTYPE23 = 'BDIHKTRIGGERABLE' / Is DI producing triggerable data TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BDIHKDAPSAA' / Is DAP believed to be in SAA state? TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BDIHKUVOTFILTMV' / Is UVOT filter moving? TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'undocumented1' / Byte field not in ITOS database TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'undocumented2' / Byte field not in ITOS database TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'undocumented3' / Byte field not in ITOS database TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'undocumented4' / Byte field not in ITOS database TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'undocumented5' / Byte field not in ITOS database TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'undocumented6' / Byte field not in ITOS database TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'undocumented7' / Byte field not in ITOS database TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'undocumented8' / Byte field not in ITOS database TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'undocumented9' / Byte field not in ITOS database TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'undocumented10' / Byte field not in ITOS database TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'undocumented11' / Byte field not in ITOS database TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'undocumented12' / Byte field not in ITOS database TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'undocumented13' / Byte field not in ITOS database TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'undocumented14' / Byte field not in ITOS database TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'undocumented15' / Byte field not in ITOS database TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'undocumented16' / Byte field not in ITOS database TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'undocumented17' / Byte field not in ITOS database TFORM42 = '1B ' / data format of field: BYTE TTYPE43 = 'BTGHKTYPE' / Trigger Status Type TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BTGHKAFTERBURN' / Trigger afterburners running TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BTGHKSCORE' / Trigger Status Score TFORM45 = '1E ' / data format of field: 4-byte REAL TTYPE46 = 'BTGHKTRIGID' / Trigger Status Trigger ID TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BTGHKTRIGEXPTICK' / Trigger Status Trigger Expire, tTICK TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BTGHKBESTSCORE' / Trigger Status best trigger strength TFORM48 = '1E ' / data format of field: 4-byte REAL TTYPE49 = 'BTGHKRATCHET' / Trigger Status number of trigger ratchets TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BTGHKNEW' / Trigger Status new trigger found TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers TTYPE51 = 'BTGHKBSHSER' / Trigger Status best short series TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BTGHKBSHTICK' / Trigger Status best short time, tTICK TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTGHKBSHTIMESCAL' / Trigger Status best short timescale TFORM53 = '1J ' / data format of field: 4-byte INTEGER TZERO53 = 2147483648 / offset for unsigned integers TTYPE54 = 'BTGHKBLNGSERIES' / Trigger Status best long series TFORM54 = '1J ' / data format of field: 4-byte INTEGER TZERO54 = 2147483648 / offset for unsigned integers TTYPE55 = 'BTGHKBLNGNTRIG' / Trigger Status criterion TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTGHKBGSTARTTICK' / Trigger Status best long background start, tTICTFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTGHKBGENDTICK' / Trigger Status best long background stop, tTICKTFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BTGHKFGSTARTTICK' / Trigger Status best long foreground start, tTICTFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BTGHKFGENDTICK' / Trigger Status best long foreground stop, tTICKTFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BTGHKFOREBACK' / Trigger Status best long foreback ratio TFORM60 = '1E ' / data format of field: 4-byte REAL TTYPE61 = 'BTGHKHARDNESS' / Trigger Status best long hardness ratio TFORM61 = '1E ' / data format of field: 4-byte REAL TTYPE62 = 'BTGHKLEVALPER8' / Long trigger evaluations/8 seconds TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BTGHKDITGCPU' / CPU usage by DI+TG TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 327.68 / data offset (32k shift B_TG_PERCENT conversion)TSCAL63 = 0.01 / data scaling (B_TG_PERCENT conversion) TTYPE64 = 'BTGHKNTHROTTLED' / Trigger criteria throttled for CPU usage TFORM64 = '1I ' / data format of field: 2-byte INTEGER TTYPE65 = 'BTGHKVETONUM' / What source catnum is being vetoed TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BTGHKCANCELNUM' / What source catnum is being cancelled TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BTGHKMODY2K' / What gets added to tick count to fix 'Y2k' typeTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers EXTNAME = 'hk139x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675549.84142 TSTOP = 287681589.84144 DATE-OBS= '2010-02-12T13:52:28' DATE-END= '2010-02-12T15:33:08' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6040.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 313 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:17' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '7KDJ8KDG7KDG7KDG' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2847322676' / data unit checksum updated 2010-02-18T17:05:17 TRDHI12 = 50 / BDIHKBCDHEXC Red upper limit = BDI_BCDHEXC_LIM TYEHI12 = 49 / BDIHKBCDHEXC Yellow upper limit = BDI_BCDHEXC_LTRDHI16 = 2 / BDIHKMICERRORS Red upper limit = BDI_MICERR_LIMTYEHI16 = 1 / BDIHKMICERRORS Yellow upper limit = BDI_MICERR_COMMENT Column 43 = BTGHKTYPE - Discrete value COMMENT 0 = None = TG Status Type, 0=None COMMENT 1 = Long = TG Status Type, 1=Long COMMENT 2 = Short = TG Status Type, 2=Short COMMENT 3-4294967294 = Unknown = TG Status Type, >2=Unknown COMMENT Column 53 = BTGHKBSHTIMESCAL - Discrete value COMMENT 0 = 4 ms = TG Status Timescale, 0=4ms COMMENT 1 = 8 ms = TG Status Timescale, 1=8ms COMMENT 2 = 16 ms = TG Status Timescale, 2=16ms COMMENT 3 = 32 ms = TG Status Timescale, 3=32ms COMMENT 4 = 64 ms = TG Status Timescale, 4=64ms COMMENT 5-4294967294 = Unknown = TG Status Timescale, >4=Unknown HISTORY TASK: FAPPND on FILENAME: sw00412081000b139x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:26 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= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��gM�%��3��]��'��DD�+�I��Cb��;��?��/��.A�%��gM�%��3.�� p]�� DD�+�I��Cb��;��?��/��.A�%��gM�%��*H�� ]��DD�+�I��Cb��;��?��/��.A�%��l��%��6%��!`]�� DD�+�I��Cb��;��?��/��.A�%��gM�%�� !�]��DD�+�I��Cb��;��?��/��.A�%��gM�%��|��"P]��\��DD�+�I��Cb��;��?�� /��.A�%��gM�%��"�!]�� DD�+�I��Cb��;��?��/��.A�%��gM�%��0��#@$]�� e��DD�+�I��Cb��;��?��/��.A�%��l��%�Ā�� #�&]�� 9��DD�+�I��Cb��;��?��/��.A�%��gM�%�ɀ��$0��$0)]�� DD�+�I��Cb��;��?��/��.A�%��k<�%�΀�ŖG��$�+]��DD�+�I��Cb��;��?��/��.A�%��gM�%�Ӏ��,�g��% .]�� DD�+�I��Cb��;��?��%/��.A�%��gM�%�؀��%p0]��DD�+�I��Cb��;��?�� /��.A�%��e��%�݀��&3]�� DD�+�I��Cb��;��?��/��.A�%��h��%��&`5]�� DD�+�I��Cb��;��?�� /��.A�%��gM�%��P��'8]�� }��DD�+�I��Cb��;��?��&/��.A�%��gM�%��'P:]��+��DD�+�I��Cb��;��?��/��.A�%��gM�%��-��'�=]��w��DD�+�I��Cb��;��?��/��.A�%��gM�%��;ݾ��(@?]�� DD�+�I��Cb��;��?��/��.A�%��ב?�%��c�i��(�B]��DD�+�I��Cb��;��?��/��.A�%��e��%��N�-��)0D]�� A��DD�+�I��Cb��;��?��./��.A�%��h��%��)�G]�� DD�+�I��Cb��;��?��/��.A�%��e��%� ��* I]�� DD�+�I��Cb��;��?��/��.A�%��e��%��3��*�L]�� \��DD�+�I��Cb��;��?��/��.A�%��gM�%��u��+N]�� DD�+�I��Cb��;��?��/��.A�%��h��%��+�Q]�� 3��DD�+�I��Cb��;��?��/��.A�%��k<�%��B�^��,S]�� DD�+�I��Cb��;��?��/��.A�%�$�gM�%�#��,�V]�� $��DD�+�I��Cb��;��?��/��.A�%�)�h��%�(��.��,�X]��Y��DD�+�I��Cb��;��?��/��.A�%�.�gM�%�-��-�[]��DD�+�I��Cb��;��?��$/��.A�%�3�h��%�2��α��-�]]��%��DD�+�I��Cb��;��?��/��.A�%�8�i�%�7��.�`]�� j��DD�+�I��Cb��;��?��/��.A�%�=�mۀ%�<��e��.�b]�� DD�+�I��Cb��;��?��/��.A�%�B�pz�%�A��é��/pe]��DD�+�I��Cb��;��?��/��.A�%�G�gM�%�F��|��/�g]�� V��DD�+�I��Cb��;��?��/��.A�%�L�h��%�K��?�9��0`j]�� DD�+�I��Cb��;��?�� /��.A�%�Q�h��%�P��0�l]�� DD�+�I��Cb��;��?��&/��.A�%�V�e��%�U��8��1�}]�� DD�+�I��Cb��;��?��/��.A�%�[ב?�%�Z��ß)��20]�� DD�+�I��Cb��;��?��/��.A�%�`�i�%�_��S�_��2Ђ]�� DD�+�I��Cb��;��?��/��.A�%�e�o*�%�d��30�]�� <��DD�+�I��Cb��;��?��/��.A�%�j�i�%�i��3Ї]�� J��DD�+�I��Cb��;��?��s��.A�%�o�i�%�n��p��4 �]�� !��DD�+�I��Cb��;��?��.A�%�tׅs�%�s��2�;��4��]�� d��DD�+�I��Cb��;��?��.A�%�y�h��%�x��5�]�� g��DD�+�I��Cb��;��?��.A�%�~�l��%�}��ה��5��]�� DD�+�I��Cb��;��?��.A�%��gM�%��6�]�� DD�+�I��Cb��;��?��i��.A�%��h��%��6��]�� DD�+�I��Cb��;��?��.A�%��gM�%��e��6�]�� B��I��DA?�X��@Y��Y��.A�%��gM�%��>��7��]�� B��I��DA?�X��@Y��5��.A�%��k<�%��+��7��]�� ^��B��I��DA?�X��@Y��p��.A�%��}��%��,��8��]�� k��B��I��DA?�X��@Y��p��.A�%��gM�%��1��8Т]�� B��I��DA?�X��@Y��&��.A�%��h��%��9p�]�� F��B��I��DA?�X��@Y��.A�%��h��%��9��]�� B��I��DA?�X��@Y��.A�%��h��%��B��:`�]�� @��B��I��DA?�X��@Y��B��.A�%��gM�%��ۋ��:��]��%��B��I��DA?�X��@Y��.A�%��i�%��ȋ.��;P�]�� d��B��I��DA?�X��@Y��.A�%��gM�%��;��]�� i��B��I��DA?�X��@Y�� .A�%��i�%�À��݊A��<@�]�� B��I��DA?�X��@Y�� 6��.A�%��i�%�ɀ��ˉ��<��]�� B��I��DA?�X��@Y��+��.A�%��gM�%�̀��͉u��=0�]�� o��B��I��DA?�X��@Y��$��.A�%��gM�%�Ҁ��։��=��]�� B��I��DA?�X��@Y��]��.A�%��k<�%�׀��> �]��B��I��DA?�X��@Y��A��.A�%��i�%�܀��Έy��>p�]�� {��B��I��DA?�X��@Y��A��.A�%��h��%��/��?�]�� B��w�I��Id?��E|��{��.A�%��mۀ%��?`�]��B��w�I��Id?��E|��.A�%��h��%��@�]�� B��w�I��Id?��E|��)�U��.A�%��k<�%��t��@P�]��B��w�I��Id?��E|��.A�%��pz�%��?��@��]�� B��w�I��Id?��E|��d��.A�%��i�%��A@�]�� B��w�I��Id?��E|��ݖ��.A�%��gM�%��A��]��B��w�I��Id?��E|��>��.A�%��gM�%��B0�]�� B��w�I��Id?��E|��>��.A�%� �i�%� ��B��]�� B��w�I��Id?��E|��ɖ��.A�%��i�%��h��C �]�� B��w�I��Id?��E|��ؖ��.A�%��i�%��F��C��]�� B��w�I��Id?��E|��ؕ��.A�%��h��%��'��D�]�� (��B��w�I��Id?��E|��!��.A�%��mۀ%��D��]�� B��w�I��Id?��E|��L��.A�%�#�h��%�"��E�]�� K��B��w�I��Id?��E|��#��.A�%�(�i�%�'��E��]��B��w�I��Id?��E|��0��.A�%�-�k<�%�,��E��]�� z��B��w�I��Id?��E|��.A�%�2�i�%�1��F��]�� a��B��w�I��Id?��E|��.A�%�7�i�%�6��F��]�� B��w�I��Id?��E|��.A�%�<�o*�%�;��G��]�� B��w�I��Id?��E|��G��.A�%�A�gM�%�@��p��G��]�� B��w�I��Id?��E|��.A�%�F�gM�%�E��_��Hp�]�� B��w�I��Id?��E|��>��.A�%�K�e��%�J��N��H��]�� k��B��w�I��Id?��E|��<��.A�%�P�gM�%�O��@��I`�]�� Q��B��w�I��Id?��E|��.A�%�U�h��%�T��3��I��]�� B��w�I��Id?��E|��a��.A�%�Z�h��%�Y��&��JP�]�� B��w�I��Id?��E|��.A�%�_�h��%�^��J�]�� 6��B��w�I��Id?��E|��.A�%�d�i�%�c��{��K@]�� B��w�I��Id?��E|��.A�%�i�i�%�e�>��KP]�� B��w�I��Id?��E|��_�:��.A�%�n�i�%�f�� K`]��F��B��w�I��Id?��E|��_��.A�%�sג��%�f�� Kp]��i��B��w�I��Id?��E|��_��.A�%�x�i�%�g�j��X��K�]�� B��w�I��Id?��E|��_�9��.A�%�}�i�%�h��݅��K� ]��:��B��w�I��Id?��E|��_�Q��.A�%��i�%�i��K� ]��B��w�I��Id?��E|��_��.A�%��h��%�j�&��҄��K� ]��B��w�I��Id?��E|��_��.A�%��mۀ%�k��K� ]�� Z��B��w�I��Id?��E|��_��.A�%��h��%�l�T��L ]��$�]��B��w�I��Id?��E|��.A�%��i�%�m��̄��L0]��(�4��B��w�I��Id?��E|��.A�%��i�%�n��L@]��,� ��B��w�I��Id?��E|��.A�%��i�%�o��τ��LP ]��0��B��w�I��Id?��E|��.A�%��i�%�p��ń��L` ]��4�`��B��w�I��Id?��E|��.A�%��i�%�q�:��ل��Lp ]��8�/��B��w�I��Id?��E|��.A�%��gM�%�v��z��M]��8��B��w�I��Id?��E|��.A�%��o*�%��`��T��M�]��3�y��B��w�I��Id?��E|��#��.A�%��k<�%��S��N�]��/��B��w�I��Id?��E|��.A�%��h��%��F��O�]��*�K��B��w�I��Id?��E|��.A�%��gM�%��3��Pp#]��%� ��B��w�I��Id?��E|��.A�%��qɀ%��3��Q`(]�� c��B��w�I��Id?��E|��.A�%��u��%��4��.��RP-]�� B��w�I��Id?��E|��.A�%��i�%��(�u��S 1]��B��w�I��Id?��E|��.A�%��gM�%�Á��g��T6]�� B��w�I��Id?��E|��.A�%��h��%�́?�� \��T�:]��B��w�I��Id?��E|��.A�%��i�%�Հ��P��U�?]�� ,��B��w�I��Id?��E|��.A�%��i�%�ހ��C��V�D]��B��w�I��Id?��E|��.A�%��mۀ%��+��5��W�I]��Q��B��w�I��Id?��E|��.A�%��h��%��ۄ,��X`M_��B��w�I��Id?��E|��9>��.A�%��i�%��ۄ&��X�O_��B��w�I��Id?��E|��.A�%��h��%��܄!��YPR_��B��w�I��Id?��E|��$�-��.A�%��i�%��ل��Y�S_��`��B��w�I��Id?��E|��&��.A�%��k<�%��ۄ��Z@W_�� %��B��w�I��Id?��E|��&�4��.A�%� �gM�%��̈́��Z�Y_�� B��w�I��Id?��E|��q>��.A�%��gM�%� �� [0\_�� B��w�I��Id?��E|��(��.A�%��gM�%��؄��[�^_�� i��B��w�I��Id?��E|��$��.A�%��i�%��ք��\�o_�� B��w�I��Id?��E|��%��.A�%��mۀ%��҄��]q_�� B��w�I��Id?��E|��%��.A�%�"�k<�%�!��܃��]�t_��B��w�I��Id?��E|��.A�%�'�h��%�&��ۃ��]�v_��B��w�I��Id?��E|��2��.A�%�,�i�%�+��փ��^�y_��B��w�I��Id?��E|��2��.A�%�1�h��%�0��ʃ��^�{_��B��w�I��Id?��E|��k��.A�%�6ג��%�5��_�~_��j��B��w�I��Id?��E|��k��.A�%�;�gM�%�:��σ��_Ѐ_��B��w�I��Id?��E|��.A�%�@�i�%�?��̓��`p�_��B��w�I��Id?��E|��.A�%�E�l��%�D��`��_�� B��w�I��Id?��E|��错��.A�%�J�i�%�I��׃��a`�_�� B��w�I��Id?��E|�� .A�%�O�h��%�N��a��_��@��B��w�I��Id?��E|��p��.A�%�T�gM�%�S��ƃ��bP�_�� B��B��w�I��Id?��E|��.A�%�Y�i�%�X��Ѓ��b��_�� B��w�I��Id?��E|��;�f��.A�%�^�l��%�]��̃��c@�_�� B��w�I��Id?��E|��;��.A�%�c�e��%�b��c��_��y��B��w�I��Id?��E|��`��.A�%�h�mۀ%�g��Ƀ��d0�_�� B��w�I��Id?��E|��ڔ��.A�%�m�i�%�l��ă��d��_��#��B��w�I��Id?��E|��ڕ4��.A�%�r�o*�%�q��Ѓ��e �_��(��B��w�I��Id?��E|��6�k��.A�%�w�i�%�v��ep�_�� B��w�I��Id?��E|��@��.A�%�|�i�%�{��f�_�� B��w�I��Id?��E|��@�!��.A�%��h��%��f`�_��V��B��w�I��Id?��E|��S��.A�%��h��%��g�_�� O��B��w�I��Id?��E|��S��.A�%��h��%��gP�_��B��w�I��Id?��E|��.A�%��e��%��g�_��B��w�I��Id?��E|��.A�%��pz�%��h@�_�� B��w�I��Id?��E|��.A�%��i�%��ԃ��h�_��B��w�I��Id?��E|�� w��.A�%��k<�%��i0�_��B��w�I��Id?��E|��4��.A�%��k<�%��iе_��B��w�I��Id?��E|��4��.A�%��gM�%��j �_�� B��w�I��Id?��E|��i��.A�%��e��%��kP�_�� B��w�I��Id?��E|��i��.A�%��gM�%��k��_��B��w�I��Id?��E|��l��.A�%��gM�%��l@�_��B��w�I��Id?��E|��^��.A�%��l��%��l��_��B��w�I��Id?��E|��^��.A�%��k<�%��m0�_��B��w�I��Id?��E|��^��.A�%��i�%�ƀ��m��_��B��w�I��Id?��E|��^��.A�%��l��%�ˀ��n �_��B!��I��gnB@��c��^�W��.A�%��h��%�Ѐ��np�_��B!��I��gnB@��c��|��.A�%��h��%�Հ��o�_�� B!��I��gnB@��c��|��.A�%��gM�%�ڀ��o`�_��w��B!��I��gnB@��c��w��.A�%��gM�%�߀��p�_��b��B!��I��gnB@��c��.A�%��i�%��pP�_��B!��I��gnB@��c��.A�%��gM�%��p��_��B!��I��gnB@��c��G��.A�%��h��%��q@�_��B!��I��gnB@��c��m��.A�%��i�%��q��_��z��B!��I��gnB@��c��.A�%��gM�%��r0�_��B!��I��gnB@��c�� .A�%��h��%��r��_��B!��I��gnB@��c�� .A�%��mۀ%��s �_�� }��B!��I��gnB@��c��.A�%��k<�%��s��_��g��B!��I��gnB@��c��7��.A�%� �i�%��t�_�� B!��I��gnB@��c��.A�%��pz�%��t��_�� B!��I��gnB@��c��Ⓕ��.A�%��i�%��u�_�� T��B!��I��gnB@��c��.A�%��h��%��u��_��S��B!��I��gnB@��c��.A�%�!�gM�%� ��ʃ��u�_��B!��I��gnB@��c��Y��.A�%�&�h��%�%��σ��v�_��D`[��I��l�C|�� g��hw��h��h�?��.A�%�+�k<�%�*��v�_��D�>�I��l�C#| ��g��hw��h��h�?��~��.A�%�18K^�%�/��w� _��D�>�I��l�C#| ��g��hw��h��h�?��`��.A�%�5�i�%�4��w�a��D�>�I��l�C#| ��g��hw��h��h�?��`��.A�%�:�o*�%�9��xpa��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�?�e��%�>��x�a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�D�l��%�C��y`a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�I�h��%�H��y�a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�N�e��%�L��z@a��k��D�>�I��l�C#| ��g��hw��h��h�?��Y��.A�%�S�h��%�R��z�a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�X�gM�%�W��{@a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�]�mۀ%�\��{�a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�cn��%�a��|0"a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�g�h��%�f��|�$a��F��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�l�얀%�k��} 'a��V��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�q�h��%�p��݃��}p)a��"��D�>�I��l�C#| ��g��hw��h��h�?��Y��.A�%�v�h4�%�u��~,a��D�>�I��l�C#| ��g��hw��h��h�?��1��.A�%�{�h��%�z��~`.a��D�>�I��l�C#| ��g��hw��h��h�?��1��.A�%��mۀ%��1a��D�>�I��l�C#| ��g��hw��h��h�?��!��.A�%��i�%��P3a��@��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%��6a�� V��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��gM�%��ŀ@8a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��h��%��ŀ�;a��D�>�I��l�C#| ��g��hw��h��h�?��v��.A�%��h��%��Ł0=a�� D�>�I��l�C#| ��g��hw��h��h�?��P��.A�%��h��%��Ł�@a��D�>�I��l�C#| ��g��hw��h��h�?��+��.A�%��ג��%��ł Ba��D�>�I��l�C#| ��g��hw��h��h�?��-��.A�%��i�%��ł�Ea��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��gM�%��ŃGa��M��D�>�I��l�C#| ��g��hw��h��h�?��t��.A�%��k<�%��Ń�Ja��P��D�>�I��l�C#| ��g��hw��h��h�?��P��.A�%��ׄ#�%��ńLa�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��h��%��ń�Oa��D�>�I��l�C#| ��g��hw��h��h�?��'��.A�%��צ7�%��ń�Qa�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�ŀ��Ņ�Ta�� D�>�I��l�C#| ��g��hw��h��h�?��z��.A�%��gM�%�ʀ��Ņ�Va��x��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�π��ņ�Ya�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��l��%�Ԁ��ņ�[a��H��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�ـ��Ňp^a�� d��D�>�I��l�C#| ��g��hw��h��h�?��n��.A�%��i�%�ހ��Ň�`a��&��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��h��%��ň`ca��"��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��h��%��}��ň�ea�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%��ŉPha�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��ׅs�%��ŉ�ja��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%��Ŋ@ma�� D�>�I��l�C#| ��g��hw��h��h�?��%��.A�%��pz�%��Ŋ�oa��P��D�>�I��l�C#| ��g��hw��h��h�?��e��.A�%��h��%��ŋ0ra�� l��D�>�I��l�C#| ��g��hw��h��h�?��d��.A�%��i�%��ŋ�ta�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��h��%��Ō wa�� 5��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��pz�%��Ōpya�� D�>�I��l�C#| ��g��hw��h��h�?��b��.A�%��h��%��ō|a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��o*�%��ō`~a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%� �h��%��Ŏ�a��D�>�I��l�C#| ��g��hw��h��h�?��)��.A�%�%�i�%�$��ŎP�a�� x��D�>�I��l�C#| ��g��hw��h��h�?��0��.A�%�*�i�%�)��Ŏ��a�� t��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�/�i�%�.��{��ŏ@�a�� '��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�4�l��%�3��ŏ��a�� @��D�>�I��l�C#| ��g��hw��h��h�?��w��.A�%�9�h��%�8��Ő0�a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%�>�h��%�=��{��ŐАa�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%�C�l��%�B��ő �a��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�H�mۀ%�G��ő��a�� D�>�I��l�C#| ��g��hw��h��h�?��_��.A�%�M�h��%�L��Œ�a�� D�>�I��l�C#| ��g��hw��h��h�?��^��.A�%�R�mۀ%�Q��Œ��a�� D�>�I��l�C#| ��g��hw��h��h�?��q��.A�%�W�h��%�V��œ�a�� F��D�>�I��l�C#| ��g��hw��h��h�?��]��.A�%�\׏�%�[��w��œ��a�� @��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�a�i�%�`��u��Ŕ��a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%�f�gM�%�e��ŕ �a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%�k�gM�%�j��ŕp�a�� d��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�p�h��%�o��o��Ŗ�a�� [��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�u�i�%�t��Ŗ`�a�� (��D�>�I��l�C#| ��g��hw��h��h�?��?��.A�%�z�h��%�y��~��ŗ�a�� -��D�>�I��l�C#| ��g��hw��h��h�?��l��.A�%��mۀ%�~��{��ŗP�a�� D�>�I��l�C#| ��g��hw��h��h�?��X��.A�%��i�%��{��ŗ��a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��o*�%��{��Ř@�a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%��n��Ř��a�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��l��%��r��ř0�a�� Z��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%��o��ř��a�� c��D�>�I��l�C#| ��g��hw��h��h�?��8��.A�%��i�%��k��Ś �a�� D�>�I��l�C#| ��g��hw��h��h�?��V��.A�%��i�%��h��Ś��a�� !��D�>�I��l�C#| ��g��hw��h��h�?��T��.A�%��i�%��{��ś�c�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��ב?�%��~�ś��c�� D�>�I��l�C#| ��g��hw��h��h�?��h��.A�%��h��%��j�}�Ŝ�c�� D�>�I��l�C#| ��g��hw��h��h�?��T��.A�%��i�%��_�|�Ŝ��c�� D�>�I��l�C#| ��g��hw��h��h�?��F��.A�%��h��%��{�Ŝ��c��6��D�>�I��l�C#| ��g��hw��h��h�?��Œ��.A�%��gM�%��b�{�ŝ��c�� D�>�I��l�C#| ��g��hw��h��h�?��C>��.A�%��xW�%�Ā� �v�y�ŝ��e�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��׀4�%�ǀ<� �u�z�Þ�e�� ;��D�>�I��l�C#| ��g��hw��h��h�?��+��.A�%��k<�%�΀� �r�y�Þ��e�� D�>�I��l�C#| ��g��hw��h��h�?��+��>��.A�%��mۀ%�Ӏ� ��x�ßp�e�� D�>�I��l�C#| ��g��hw��h��h�?��>��.A�%��h��%�؀� �v�x�ß��e�� D�>�I��l�C#| ��g��hw��h��h�?�� .A�%��gM�%�݀� �f�w�à`�e�� D�>�I��l�C#| ��g��hw��h��h�?�� J��.A�%��h��%�� j�w�à��e�� 4��D�>�I��l�C#| ��g��hw��h��h�?��&��.A�%��h��%�� j�v�áP�e�� ,��D�>�I��l�C#| ��g��hw��h��h�?��.��.A�%��o*�%�� l�u�á��e�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�� t�u�â@�e�� D�>�I��l�C#| ��g��hw��h��h�?��y��.A�%��i�%�� i�u�â��e�� `��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�� u�ã0�e�� S��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��i�%�� l�t�ã��e�� D�>�I��l�C#| ��g��hw��h��h�?��.A�%��mۀ%�� l�t�ä e�� D�>�I��l�C#| ��g��hw��h��h�?��O��.A�%��h��%� �� ~�t�äpe�� t��D�>�I��l�C#| ��g��hw��h��h�?��l�!��.A�%��h��%�� j�s�åe�� 7��D�>�I��l�C#| ��g��hw��h��h�?��.A�%��l��%�� `�s�å` e�� D�>�I��l�C#| ��g��hw��h��h�?��#��.A�%��i�%�� a�r�æe�� D�>�I��l�C#| ��g��hw��h��h�?��a��.A�%��i�%�� g�q�æPe��K��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�$�i�%�#�� n�q�æ�e�� B��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�)�k<�%�(�� ]�q�ç@e��D�>�I��l�C#| ��g��hw��h��h�?��0�I��.A�%�.�mۀ%�-�� h�p�ç�e�� D�>�I��l�C#| ��g��hw��h��h�?��0��.A�%�3�gM�%�2�� t�p�è0e��Z��D�>�I��l�C#| ��g��hw��h��h�?��6�{��.A�%�8�e��%�7�� g�o�è�e�� /��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�=�e��%�<�� R�o�é e��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�B�i�%�A�� Y�m�é� e�� D�>�I��l�C#| ��g��hw��h��h�?��\�C��.A�%�G�o*�%�F�� a�m�ê"e��\��D�>�I��l�C#| ��g��hw��h��h�?��⒀��.A�%�L�i�%�K�� c�l�ê�%e�� L��D�>�I��l�C#| ��g��hw��h��h�?��.A�%�Q�i�%�P�� d�l�ë'e��D�>�I��l�C#| ��g��hw��h��h�?��)��.A�%�V�i�%�U�� b�k�ë�*e�� D�>�I��l�C#| ��g��hw��h��h�?��)��.A�%�[�i�%�Z�� l�k�ë�,e�� D�>�I��l�C#| ��g��hw��h��h�?��;��.A�%�`�mۀ%�_�� g�k�ì�/e�� s��D�>�I��l�C#| ��g��hw��h��h�?��?��.A�%�e�i�%�d�� d�j�ì�1e�� D�>�I��l�C#| ��g��hw��h��h�?��?��.A�%�j�h��%�i�� i�j�îB�� -��D�>�I��l�C#| ��g��hw��h��h�?��^��.A�%�o�i�%�n�� _�i�î`De�� B7�'�I��m@��댅��.A�%�t�k<�%�s�� p�i�ïGe�� B7�'�I��m@��댅��m��.A�%�y�o*�%�x�� Y�h�ïPIe�� B7�'�I��m@��댅��ޔ��.A�%�~�k<�%�}�� V�h�ï�Le�� f��B7�'�I��m@��댅��ޓ��.A�%��gM�%�� V�g�ð@Ne��B7�'�I��m@��댅��.A�%��h��%�� X�f�ð�Qe�� B7�'�I��m@��댅��B�G��.A�%��h��%�� h�f�ñ0Se�� B7�'�I��m@��댅��B�-��.A�%��i�%�� m�f�ñ�Ve�� y��B7�'�I��m@��댅��L��.A�%��i�%�� k�f�ò Xe�� B7�'�I��m@��댅��.A�%��i�%�� R�e�ò�[e�� B7�'�I��m@��댅��.A�%��h��%�� g�d�ó]e�� q��B7�'�I��m@��댅�� .A�%��h��%�� a�d�ó�`e�� U��B7�'�I��m@��댅�� >��.A�%��mۀ%�� n�c�ôbe�� B7�'�I��m@��댅��;�/��.A�%��h��%�� N�c�ô�ee�� B7�'�I��m@��댅��'��.A�%��gM�%�� J�b�ô�ge�� ?��B7�'�I��m@��댅��'�aM��.A�%��i�%�� U�a�õ�je�� @��B7�'�I��m@��댅��,��.A�%��i�%�� S�a�õ�le�� B7�'�I��m@��댅��B��.A�%��k<�%�À� �x�`�ö�oe�� B7�'�I��m@��댅��.A�%��i�%�Ȁ� �M�`�ö�qe�� @��B��I��C/P��z��.A�%��gM�%�̀� �^�_�÷pte�� ;��B��I��C/P��.A�%��h��%�Ҁ� �J�^�÷�ve�� B��I��C/P��.A�%��h��%�׀� �U�]�ø`ye�� B��I��C/P��.A�%��ב?�%�܀� �e�^�ø�{e�� e��B��I��C/P��.A�%��i�%�� a�]�ùP~e�� M��B��I��C/P��9�@��.A�%��i�%�� [�]�ù��e�� B��I��C/P��1��.A�%��h��%�� \�]�ú@�e��B��I��C/P��1��.A�%��i�%�� U�\�ú��e�� ]��B��I��C/P��#��.A�%��mۀ%�� P�[�û0�e�� A��B��I��C/P�� .A�%��e��%�� O�[�û��e�� B��I��C/P��p��.A�%��k<�%�� a�Z�ü �e��B��I��C/P��ԓ��.A�%��h��%�� I�Z�üp�e��R��B��I��C/P��ԑ��.A�%� �h��%� �� V�Y�ý�e��A��B��I��C/P��%��.A�%��h��%�� X�X�ý`�e��B��I��C/P��A�c��.A�%��i�%�� L�X�þ�e��B��I��C/P��A�4��.A�%�ג��%�� M�X�þP�e��L��B��I��C/P��X�(��.A�%��h��%�� B�W�þ�e�� 2��B��I��C/P��X�:��.A�%�#�h��%�"�� S�V�ÿ@�e��B��I��C/P��ɑ��.A�%�(�XO�%�'�� _�V�ÿ�e��B��I��C/P�� ;��.A�%�-�i�%�,�� Q�V��0�e��e��B��I��C/P�� .A�%�2דހ%�1�� S�U��Цe�� Y��B��I��C/P��D��.A�%�7�i�%�6�� Y�U�� e��B��I��C/P��*�h��.A�%�<�i�%�;�� X�U��e��B��I��C/P��*�G��.A�%�A�h��%�@�� B�U��e��B��I��C/P��\��.A�%�F�l��%�E�� C�T��°�e�� |��B��I��C/P��\�o��.A�%�K�h��%�J�� ]�T��e��*��B��I��C/P��j��.A�%�P�h��%�O�� B�S��à�e�� B��I��C/P��l�g��.A�%�U�mۀ%�T�� I�R��e�� B��I��C/P��l�4��.A�%�Z�i�%�Y�� Z�R��Đ�e�� B��I��C/P��ȑ� ��.A�%�_�i�%�^�� X�Q��e�� E��B��I��C/P��Y��.A�%�d�i�%�c�� @�Q��ŀ�e�� $��B��I��C/P��Y��.A�%�i�k<�%�h�� C�P��e�� B��I��C/P��X��.A�%�n�l��%�m�� B�P��p�e��B��I��C/P��X�j��.A�%�s�s�%�r�� 9�P��e�� Y��B��I��C/P��V��.A�%�x�i�%�w�� D�O��`�e�� V��B��I��C/P��3��.A�%�}�i�%�|�� @�N��ǰ�e��B��I��C/P��3��.A�%��i�%�� E�N��P�e��B��I��C/P��#��.A�%��o*�%�� N�M��Ƞ�e�� B��I��C/P��.A�%��gM�%�� M�M��@�e�� x��B��I��C/P��.A�%��k<�%�� E�M��ɐ�e�� B��I��C/P��C��.A�%��h��%�� M�M��0�e��B��I��C/P��.A�%��h��%�� B�L��ʀ�e�� B��I��C/P��.A�%��h��%�� /�K�� e�� u��B��I��C/P��Q��.A�%��i�%�� <�J��p�e�� B��I��C/P��W��.A�%��o*�%�� >�I��e�� B��I��C/P��*��.A�%��i�%�� G�I��e�� @��B��I��C/P��.A�%��%�� F�I��͐�e�� -��B��I��C/P��.A�%��mۀ%�� M�H��e�� B��I��C/P��}�'��.A�%��h��%�� D�H��΀�e�� B��I��C/P��}�%4��.A�%��h��%�� 7�G��e�� +��B��I��C/P��f��.A�%��i�%�ǀ� �>�F��p�e�� B��I��C/P��!��.A�%��h��%�̀� �8�E��e�� B��I��C/P��.A�%��l��%�р� �<�D��`g�� B��I��C/P�� .A�%��i�%�ր� �C�D��аg�� 7��B��I��C/P��,��.A�%��h��%�ڀ� �<�C��@g�� B��I��C/P��,�%��.A�%��l��%�� D�C��Ѡg�� B��I��C/P��a��>��.A�%��gM�%�� 1�B��@g�� B��I��C/P��a��.A�%��gM�%�� :�A��Ґg�� f��B��I��C/P��.A�%��i�%�� 9�@��0g�� f��B��I��C/P��$�t��.A�%��i�%�� ?��Ӏg�� B��I��C/P��$�K��.A�%��o*�%�� 2�=�� g�� B��I��C/P��.A�%��i�%�� +�;��pg�� B��I��C/P��.A�%��k<�%�� $�9��g��B��I��C/P��!��.A�%� �i�%� �� #�6��`g�� ,��B��I��C/P��7��.A�%��h��%� �� 5��"g�� B��I��C/P��7�L��.A�%��o*�%�� 3��P$g��B��I��C/P��X�o��.A�%��h��%�� 2��'g�� B��I��C/P��L��.A�%��xW�%�� $�0��@)g�� Q��B��I��C/P��L�&��.A�%�"�h��%�!�� .��,g�� 8��B��I��C/P��;��.A�%�'�k<�%�&�� -��0.g��B��I��C/P��8��.A�%�,�mۀ%�+��+��1g�� B��I��C/P��8��.A�%�1�i�%�0��$�*�� 3g��B��I��C/P��p��.A�%�6�gM�%�5��(��6g�� n��B��I��C/P��p��.A�%�;�gM�%�:��'��8g�� B��I��C/P��7��.A�%�@�gM�%�?��&��ڰ;g�� B��I��C/P��͑��.A�%�E�k<�%�D��%��=g��B��I��C/P��͓��.A�%�J�gM�%�I��$��۠@g�� B��I��C/P��;��.A�%�O�i�%�O��#��Bg�� H��B��I��C/P��F�t��.A�%�T�i�%�S��"��ܐEg�� B��I��C/P��F�(��.A�%�Y�gM�%�X��!��Gg�� B��I��C/P��Q�U��.A�%�^�mۀ%�]�� Xg�� @��B��I��C/P��Q�X��.A�%�c�gM�%�b��`Zg�� B��I��C/P��ɒU��.A�%�h�e��%�g�� ]g��B��I��C/P�� .A�%�m�k<�%�l��P_g�� h��B��I��C/P��.A�%�r�e��%�q��bg�� v��B��I��C/P��.A�%�w�h��%�v��@dg�� B��I��C/P��.A�%�|�i�%�{�� gg�� B��I��C/P��'��.A�%��i�%��0ig�� B��I��C/P��V��.A�%��i�%��lg�� B��I��C/P��V��.A�%��i�%�� ng�� .��B��I��C/P��]��.A�%��gM�%��(��qg�� S��B��I��C/P��j�"��.A�%��k<�%��sg�� B��I��C/P��j��.A�%��e��%��vg�� B��I��C/P��k��.A�%��i�%��xg�� W��B��I��C/P��k��.A�%��i�%��{g�� V��B��I��C/P��k��.A�%��h��%��}g�� B��I��C/P��k��.A�%��e��%��吀g��B��I��C/P��k��.A�%��gM�%��g�� w��B��I��C/P��{��.A�%��h��%��怅g�� r��B��I��C/P��.A�%��h��%��Їg�� B��I��C/P��8��.A�%��i�%��p�g�� B��I��C/P��)��.A�%��h��%�ƀ��g�� B��I��C/P��.A�%��h��%�ˀ�� `�g�� B��I��C/P��=��.A�%��gM�%�Ѐ��谑g�� &��B��I��C/P��}��.A�%��e��%�Հ�� P�g�� !��B��I��C/P��%��.A�%��u��%�ڀ��頖g�� B��I��C/P��.A�%��gM�%�߀��@�g�� B��I��C/P��.A�%��gM�%�� ꐛg�� S��B��I��C/P��c��.A�%��mۀ%�� 0�g�� X��B��I��C/P��.A�%��gM�%��뀠g�� B��I��C/P��.A�%��i�%�� g�� B��I��C/P��v��.A�%��h��%��p�g�� B��I��C/P��.A�%��i�%��g�� ~��B��I��C/P��.A�%��ti�%��`�g�� B��I��C/P��.A�%��l��%��g�� B��I��C/P��.A�%� �gM�%��P�g�� B��I��C/P��2��.A�%��mۀ%�� g�� B��I��C/P��}��.A�%��i�%��@�g�� B��I��C/P��~�8��.A�%��i�%��g��B��I��C/P��~� ��.A�%�!�i�%� ��0�g�� B��I��C/P��}�M��.A�%�&�i�%�%��мg��B��I��C/P��}��.A�%�+�l��%�*��܂�� g�� !��B��I��C/P��|��.A�%�0�h��%�/��g��2��B��I��C/P��|��.A�%�5�h��%�4��g�� B��I��C/P��|��.A�%�:�i�%�9��g�� B��I��C/P��.A�%�?�k<�%�>��g�� c��B��I��C/P��.A�%�j�gM�%�i��$ϧ��p{i��DyW+�I��jCU��hS��hЋ�iy��i�?�� S��.A�%�o�h��%�n��ҕ��}i��DyW+�I��jCU��hS��hЋ�iy��i�?�� S��.A�%�t�i�%�s��OՏ��`�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�y�i�%�x��>ؐ��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��!S��.A�%�~�gM�%�}��ۀ��P�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��>�J��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��~�� @�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��mۀ%��$�� i��DyW+�I��jCU��hS��hЋ�iy��i�?��8S��.A�%��gM�%��?��!0�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��l��%��:��!��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��ׁ��%��.��" �i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��ב?�%��3��"p�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��!S��.A�%��gM�%��(�M��#�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%��y��#`�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%��$�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��$P�i�� G��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��mۀ%��W��$�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��%@�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%�À��&��%�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%�Ȁ��&0�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�̀�P��&Эi��m��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%�Ҁ�"%��' �i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�׀�$�"��'��i��C��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%�܀�'m��(�i��O��DyW+�I��jCU��hS��hЋ�iy��i�?�� S��.A�%��e��%��*B 7��(��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��,��)�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��/H��)��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��1��)�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��4R��*��i��O��DyW+�I��jCU��hS��hЋ�iy��i�?��(S��.A�%��ׂԀ%��63��*��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%��8tO��+��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��:g��+��i��J��DyW+�I��jCU��hS��hЋ�iy��i�?��QS��.A�%� �gM�%� ��<�0��,p�i��b��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��>o ��,��i��`��DyW+�I��jCU��hS��hЋ�iy��i�?��*S��.A�%��h��%��@m"��-`�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%��B=%F��-��i��DyW+�I��jCU��hS��hЋ�iy��i�?��&S��.A�%��h��%��D'��.P�i��q��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�#�gM�%�"��E�)��.��i��s��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�(�h��%�'��G+��/@�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�-�e��%�,��H�.%��/��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�2�gM�%�1��J90@��00�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�7�gM�%�6��K�2M��0��i��=��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�<�mۀ%�;��M>4L��1 �i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�A�gM�%�@��N[6<��1p�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�F�gM�%�E��O�8��2�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�K�e��%�J��P�9��2`�i��X��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�P�gM�%�O��Q3;��3�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�Uב?�%�T��Rl=c��3P�i��DyW+�I��jCU��hS��hЋ�iy��i�?��%S��.A�%�Z�gM�%�Y��R�?��3��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��!S��.A�%�_�e��%�^��S�@��4@�i��DyW+�I��jCU��hS��hЋ�iy��i�?�� S��.A�%�d�e��%�c��TjB��4��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�i�e��%�h��U;C��50�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�n�gM�%�m��U�D��6`i��DyW+�I��jCU��hS��hЋ�iy��i�?��6S��.A�%�s�h��%�r��U�F(��6� i�� E��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�x�gM�%�w��V/Ga��7Pi��DyW+�I��jCU��hS��hЋ�iy��i�?��MS��.A�%�}�gM�%�|��WH��7�i��DyW+�I��jCU��hS��hЋ�iy��i�?��dS��.A�%��gM�%��WI��8@i��;��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��W0J��8�i��Z��DyW+�I��jCU��hS��hЋ�iy��i�?��$S��.A�%��gM�%��W&K��90i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��l��%��V�L{��9�i�� #��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��WMM��: i��f��DyW+�I��jCU��hS��hЋ�iy��i�?��4S��.A�%��e��%��WN��:p!i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��V�N��;$i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��V~OV��;`&i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��V'O��<)i��e��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��U�P[��05i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%�ǀ�R�Q��>�8i�� I��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%�̀�Q�Q��? :i��DyW+�I��jCU��hS��hЋ�iy��i�?��+S��.A�%��gM�%�р�P�Q��?�=i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�ր�O�Q��@?i��W��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�ۀ�N�Qk��@�Bi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��M�Q1��ADi�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%��L�P��A�Gi�� DyW+�I��jCU��hS��hЋ�iy��i�?��-S��.A�%��e��%��K>P��A�Ii��0��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%��I�P��B�Li��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��H�O��B�Ni��DyW+�I��jCU��hS��hЋ�iy��i�?��SS��.A�%��gM�%��F�N��C�Qi�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��E\NN��C�Si��r��DyW+�I��jCU��hS��hЋ�iy��i�?��&S��.A�%��gM�%��C�M��DpVi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%� �l��%��BtL��D�Xi��3��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%� ��@�K��E`[i��DyW+�I��jCU��hS��hЋ�iy��i�?��0S��.A�%��h��%��>�K��E�]i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��<�J��FP`i��\��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��;9H��F�bi��u��DyW+�I��jCU��hS��hЋ�iy��i�?��cS��.A�%�"ח̀%�!��9VG��G@ei��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�'�e��%�&��76F��G�gi��L��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�,�gM�%�+��5VEg��H0ji��l��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�1�gM�%�0��2�D��H�li��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�6�e��%�5��1AB��I oi��DyW+�I��jCU��hS��hЋ�iy��i�?�� S��.A�%�;�gM�%�:��.�AL��Ipqi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�@�e��%�?��,�?��Jti��l��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�E�k<�%�D��*s>H��J`vi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�J�e��%�I��(;<��Kyi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�O�gM�%�N��%�;��KP{i��DyW+�I��jCU��hS��hЋ�iy��i�?��(S��.A�%�T�h��%�S��#~9L��K�~i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�Y�h��%�X��!7��L@�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�^�h��%�]��5��L��i��DyW+�I��jCU��hS��hЋ�iy��i�?��(S��.A�%�c�}��%�b��33��M0�i�� l��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�h�k<�%�g��L1��MЈi��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�m�e��%�l��/��N �i��K��DyW+�I��jCU��hS��hЋ�iy��i�?��vS��.A�%�r�gM�%�q��-��N��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�w�h��%�v��z+��O�i��DyW+�I��jCU��hS��hЋ�iy��i�?��(S��.A�%�|�gM�%�{��)��O��i��C��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%��]'��P�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%�� 8%f��P��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��'S��.A�%��mۀ%��#(��P�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�� Q��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��i�%��(��Q��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��];��S�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��S`�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��l��%��q��T�i��<��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��TP�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��H��T�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��k ��U@�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%�� U�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��l��%��V0�i��.��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��w��V��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�ƀ��d��W �i��DyW+�I��jCU��hS��hЋ�iy��i�?��'S��.A�%��gM�%�ˀ��Q��W��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�Ѐ��X�i��A��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%�Հ��@��X��i��;��DyW+�I��jCU��hS��hЋ�iy��i�?��TS��.A�%��gM�%�ڀ�ڈ��Y�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��k<�%�߀��Y��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��D��Y��i��DyW+�I��jCU��hS��hЋ�iy��i�?��#S��.A�%��k<�%��Ҽ��Z��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��Z��i��DyW+�I��jCU��hS��hЋ�iy��i�?��$S��.A�%��gM�%��^�k��[��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��[��i��DyW+�I��jCU��hS��hЋ�iy��i�?��*S��.A�%��gM�%��b�6��\p�i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��l��%��\��i��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��h��%��|��]`�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%� �i�%��H�y��]��i�� >��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��e��%��^P�i��DyW+�I��jCU��hS��hЋ�iy��i�?��&S��.A�%��e��%��e��^��i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%��gM�%��`��_@�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�!�gM�%� ��e��_��i�� I��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�&�h��%�%��`0�i�� DyW+�I��jCU��hS��hЋ�iy��i�?��&S��.A�%�+�gM�%�*��}��`��i��J��DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�0�e��%�/��a �i�� DyW+�I��jCU��hS��hЋ�iy��i�?��S��.A�%�5�h��%�4��ͱ��ap�i��s��DyW+�I��jCU��hS��hЋ�iy��i�?��KS��.XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 92 / width of table in bytes NAXIS2 = 195 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 31 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK13ASSPRES' / HK Presence of SubSystems for this packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BSPHKCURRNAME' / Filename completed or being dumped now TFORM3 = '12A ' / data format of field: ASCII Character TTYPE4 = 'BSPHKPREVNAME' / Filename of most recent dump completed TFORM4 = '12A ' / data format of field: ASCII Character TTYPE5 = 'BSPHKSTARTMET' / MET of last start, U1234 TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BSPHKNSURVEY' / Survey dump counter TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BSPHKNAM241MAP' / Am-241 Map dump counter TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BSPHKNAM241SPECT' / Am-241 Spectra dump counter TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BSPHKNFOURCH' / 4-channel map dump counter TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BSPHKNONECH' / 1-channel map dump counter TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BSPHKNBACKSUB' / Back subtraction dump counter TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 32768 / offset for unsigned integers TTYPE12 = 'BSPHKNGAINMAP' / Gain map dump counter TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BSPHKNOFFMAP' / Offset map dump counter TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BSPHKNCALMAP' / Cal map dump counter TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BSPHKNSTRPSEGMAP' / Strip segment map dump counter TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSPHKNMASKWTS' / Mask weight map dump counter TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSPHKNEVDUMP' / Event dump counter TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BSPHKNACSDUMP' / ACS dump counter TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BSPHKNPULSAR' / Pulsar bins dump counter TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BSPHKNDETEN' / Det enabled dump counter TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSPHKNDETIM' / Det imaged dump counter TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BSPHKNSCALEDMAP' / Strip map dump counter TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BSPHKNSEGMAP' / Segment map dump counter TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 32768 / offset for unsigned integers TTYPE24 = 'BSPHKNGAINOFF' / Gain offset map dump counter TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSPHKNCMDBLS' / DI commandables dump counter TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSPHKNDAPHK' / DAP HK (pigeonholed data) dump counter TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 32768 / offset for unsigned integers TTYPE27 = 'BSPHKNSPARE1' / Spare 1 dump counter TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSPHKNSPARE2' / Spare 2 dump counter TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSPHKNSPARE3' / Spare 3 dump counter TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 32768 / offset for unsigned integers TTYPE30 = 'BSPHKNSPARE4' / Spare 4 dump counter TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BSPHKNOTHER' / Spare 5 (catch-all) dump counter TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers EXTNAME = 'hk13ax001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675559.84226 TSTOP = 287681589.84228 DATE-OBS= '2010-02-12T13:52:38' DATE-END= '2010-02-12T15:33:08' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6030.00001996756 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 314 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:18' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9ckBFZhA9ahAEYhA' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3809213470' / data unit checksum updated 2010-02-18T17:05:18 HISTORY TASK: FAPPND on FILENAME: sw00412081000b13ax001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:26 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��מZ�h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%��ם �h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%��פ�h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%��מZ�h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%��ן��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%��פ�h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�כ��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�ם �h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�ף��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�.ף��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�=ף��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�Lנ��h8ib518z.dhkh8ib4nsz.dhk�%�(��r��O��+��ېɀ��A�%�[��K�h8ib5akz.dhkh8ib518z.dhk�%�T��r��O��+��ېʀ��A�%�jן��h8ib5akz.dhkh8ib518z.dhk�%�T��r��O��+��ېʀ��A�%�yן��h8ib5akz.dhkh8ib518z.dhk�%�T��r��O��+��ېʀ��A�%��מZ�h8ib5akz.dhkh8ib518z.dhk�%�T��r��O��+��ېʀ��A�%��נ��s8ib5c6z.sdmh8ib5akz.dhk�%��r��O��,��ېʀ��A�%��נ��s8ib5c6z.sdmh8ib5akz.dhk�%��r��O��,��ېʀ��A�%��ן��s8ib5c6z.sdmh8ib5akz.dhk�%��r��O��,��ېʀ��A�%��נ��s8ib5c6z.sdmh8ib5akz.dhk�%��r��O��,��ېʀ��A�%��ם �s8ib5b8z.sdme8ib5c5z.evl�%�h��r��O��-��ېʀ��A�%��ן��s8ib5b8z.sdme8ib5c5z.evl�%�h��r��O��-��ېʀ��A�%��נ��s8ib5erz.sdms8ib5b8z.sdm�%�ۏ��r��O��.��ېʀ��A�%�מZ�s8ib5erz.sdms8ib5b8z.sdm�%�ۏ��r��O��.��ېʀ��A�%�נ��s8ib5erz.sdms8ib5b8z.sdm�%�ۏ��r��O��.��ېʀ��A�%�צ7�s8ib5erz.sdms8ib5b8z.sdm�%�ۏ��r��O��.��ېʀ��A�%�-ף��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�<צ7�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�KעI�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�Zפ�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�iן��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�xעI�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��מZ�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��נ��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��ן��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��צ7�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��עI�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��נ��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��נ��s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��מZ�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%��עI�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�מZ�s8ib5e8z.sdme8ib5eqz.evl�%�ȏ��r��O��/��ېʀ��A�%�פ�m8ib5nuz.wgtm8ib5nuz.wgt�%��s��Q��0��ܐˀ��A�%�,פ�m8ib5nuz.wgtm8ib5nuz.wgt�%��s��Q��0��ܐˀ��A�%�;��s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%�Jן��s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%�Yן��s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%�hצ7�s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%�wן��s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%��ן��s8ib5ngz.sdmm8ib5nuz.wgt�%��s��Q��1��ܐˀ��A�%��ק��e8ib5mvz.evls8ib5ngz.sdm�%�ߏ��s��Q��1��ܐˀ��A�%��ף��e8ib5mvz.evls8ib5ngz.sdm�%�ߏ��s��Q��1��ܐˀ��A�%��עI�h8ib5tcz.dhks8ib5r0z.sdm�%��s��Q��2��ܐ̀��A�%��ף��h8ib5tcz.dhks8ib5r0z.sdm�%��s��Q��2��ܐ̀��A�%��מZ�s8ib5u7z.sdmh8ib5tcz.dhk�%�Ǐ��s��Q��3��ܐ̀��A�%��מZ�s8ib5u7z.sdmh8ib5tcz.dhk�%�Ǐ��s��Q��3��ܐ̀��A�%��ן��s8ib5u7z.sdmh8ib5tcz.dhk�%�Ǐ��s��Q��3��ܐ̀��A�%��נ��s8ib5u7z.sdmh8ib5tcz.dhk�%�Ǐ��s��Q��3��ܐ̀��A�%� עI�e8ib5u6z.evls8ib5u7z.sdm�%�Ə��s��Q��3��ܐ̀��A�%�מZ�s8ib5t0z.sdme8ib5u6z.evl�%��s��Q��4��ܐ̀��A�%�+רրs8ib5t0z.sdme8ib5u6z.evl�%��s��Q��4��ܐ̀��A�%�:׮�s8ib5t0z.sdme8ib5u6z.evl�%��s��Q��4��ܐ̀��A�%�Iצ7�s8ib5t0z.sdme8ib5u6z.evl�%��s��Q��4��ܐ̀��A�%�Xצ7�s8ib5t0z.sdme8ib5u6z.evl�%��s��Q��4��ܐ̀��A�%�gצ7�m8ib62dz.wgta8ib5n6z.spc�%��s��S��6��ݐ̀��A�%�vء��m8ib62dz.wgta8ib5n6z.spc�%��s��S��6��ݐ̀��A�%��ק��m8ib62dz.wgta8ib5n6z.spc�%��s��S��6��ݐ̀��A�%��פ�m8ib62dz.wgta8ib60iz.spc�%��s��S��6��ݐ̀��A�%��)�m8ib62dz.wgta8ib60iz.spc�%��s��S��6��ݐ̀��A�%��רրm8ib62dz.wgtm8ib62dz.wgt�%�M��s��S��6��ݐ̀��A�%��Ҁe8ib60kz.evlm8ib62dz.wgt�%��s��S��6��ݐ̀��A�%��צ7�e8ib60kz.evlm8ib62dz.wgt�%��s��S��6��ݐ̀��A�%��ק��e8ib5pfz.evle8ib60kz.evl�%�/��s��S��6��ݐ̀��A�%��פ�e8ib5pfz.evle8ib60kz.evl�%�/��s��S��6��ݐ̀��A�%��׮�e8ib5rbz.evle8ib5pfz.evl�%�k��s��S��6��ݐ̀��A�%�צ7�e8ib5t7z.evle8ib5rbz.evl�%��s��S��6��ݐ̀��A�%�׬ŀe8ib61tz.evle8ib5t7z.evl�%�=��s��À��S��6��ݐ̀��A�%�*צ7�e8ib61tz.evle8ib5t7z.evl�%�=��s��À��S��6��ݐ̀��A�%�9רրe8ib61tz.evle8ib5t7z.evl�%�=��s��À��S��6��ݐ̀��A�%�H׫u�e8ib64tz.evle8ib61tz.evl�%��s��Ā��S��6��ݐ̀��A�%�Wצ7�e8ib64tz.evle8ib61tz.evl�%��s��Ā��S��6��ݐ̀��A�%�fפ�h8ib6arz.dhke8ib62rz.evl�%�[��s��ŀ��S��6��ݐ̀��A�%�uצ7�e8ib64nz.evlh8ib6arz.dhk�%��s��ƀ��S��6��ݐ̀��A�%��ק��e8ib64nz.evlh8ib6arz.dhk�%��s��ƀ��S��6��ݐ̀��A�%��ק��e8ib66jz.evle8ib64nz.evl�%�ӏ��s��ǀ��S��6��ݐ̀��A�%��ת&�d8ib5v9z.acse8ib68fz.evl�%��s��Ȁ��S��6��ݐ̀��A�%��צ7�d8ib5v9z.acse8ib68fz.evl�%��s��Ȁ��S��6��ݐ̀��A�%��פ�d8ib5v9z.acse8ib68fz.evl�%��s��Ȁ��S��6��ݐ̀��A�%��ת&�d8ib5v9z.acse8ib68fz.evl�%��s��Ȁ��S��6��ݐ̀��A�%��פ�d8ib5v9z.acse8ib68fz.evl�%��s��Ȁ��S��6��ݐ̀��A�%��׬ŀa8ib6abz.spca8ib6abz.spc�%�K��s��Ȁ��T��6��ݐ̀��A�%��ק��a8ib6abz.spca8ib6abz.spc�%�K��s��Ȁ��T��6��ݐ̀��A�%�צ7�s8ib6dgz.sdme8ib6abz.evl�%��s��ɀ��T��7��ݐ̀��A�%�רրs8ib6dgz.sdme8ib6abz.evl�%��s��ɀ��T��7��ݐ̀��A�%�)רրs8ib6dgz.sdme8ib6abz.evl�%��s��ɀ��T��7��ݐ̀��A�%�8ף��s8ib6dgz.sdme8ib6abz.evl�%��s��ɀ��T��7��ݐ̀��A�%�G׬ŀm8ib6e7z.wgtm8ib6e7z.wgt�%�Ǐ��s��ɀ��T��8��ݐ̀��A�%�V׬ŀm8ib6e7z.wgtm8ib6e7z.wgt�%�Ǐ��s��ɀ��T��8��ݐ̀��A�%�eק��m8ib6e7z.wgtm8ib6e7z.wgt�%�Ǐ��s��ɀ��T��8��ݐ̀��A�%�tרրh8ib6j6z.dhke8ib6c7z.evl�%�f��s��ʀ��T��8��ݐ΀��A�%��ף��h8ib6j6z.dhke8ib6c7z.evl�%�f��s��ʀ��T��8��ݐ΀��A�%��׫u�s8ib6j6z.sdme8ib6e3z.evl�%�f��s��ˀ��T��9��ݐ΀��A�%��פ�s8ib6j6z.sdme8ib6e3z.evl�%�f��s��ˀ��T��9��ݐ΀��A�%��צ7�s8ib6j6z.sdme8ib6e3z.evl�%�f��s��ˀ��T��9��ݐ΀��A�%��ק��s8ib6j6z.sdme8ib6e3z.evl�%�f��s��ˀ��T��9��ݐ΀��A�%��צ7�s8ib6j6z.sdme8ib6e3z.evl�%�f��s��ˀ��T��9��ݐ΀��A�%��ـa8ib6f1z.spca8ib6f1z.spc�%��s��ˀ��T��;��ݐ΀��A�%��׮�a8ib6f1z.spca8ib6f1z.spc�%��s��ˀ��T��;��ݐ΀��A�%��ף��e8ib6fvz.evla8ib6f1z.spc�%��s��̀��T��;��ݐ΀��A�%� צ7�e8ib6fvz.evla8ib6f1z.spc�%��s��̀��T��;��ݐ΀��A�%��)�e8ib6fvz.evla8ib6f1z.spc�%��s��̀��T��;��ݐ΀��A�%�(��s8ib6dgz.sdms8ib6l8z.sdm�%��s��̀��T��=��ݐ΀��A�%�7ק��s8ib6dgz.sdms8ib6l8z.sdm�%��s��̀��T��=��ݐ΀��A�%�Fרրs8ib6dgz.sdms8ib6l8z.sdm�%��s��̀��T��=��ݐ΀��A�%�U׫u�s8ib6dgz.sdms8ib6l8z.sdm�%��s��̀��T��=��ݐ΀��A�%�d��ˀa8ib6i4z.spca8ib6i4z.spc�%�D��s��̀��T��>��ݐ΀��A�%�sׯd�e8ib6lvz.evla8ib6i4z.spc�%��s��΀��T��>��ݐ΀��A�%��צ7�e8ib6lvz.evla8ib6i4z.spc�%��s��΀��T��>��ݐ΀��A�%��רրe8ib6lvz.evle8ib6jnz.evl�%��s��Ѐ��T��>��ݐ΀��A�%��׫u�e8ib6lvz.evle8ib6jnz.evl�%��s��Ѐ��T��>��ݐ΀��A�%��ק��h8ib6t9z.dhks8ib6q8z.sdm�%��s��р��T��?��ݐπ��A�%��צ7�h8ib6t9z.dhks8ib6q8z.sdm�%��s��р��T��?��ݐπ��A�%��צ7�h8ib6t9z.dhks8ib6q8z.sdm�%��s��р��T��?��ݐπ��A�%��צ7�h8ib6t9z.dhks8ib6q8z.sdm�%��s��р��T��?��ݐπ��A�%��פ�h8ib6t9z.dhks8ib6q8z.sdm�%��s��р��T��?��ݐπ��A�%��׫u�a8ib6mpz.spca8ib6mpz.spc�%�ُ��s��р��U��@��ݐπ��A�%� רրa8ib6mpz.spca8ib6mpz.spc�%�ُ��s��р��U��@��ݐπ��A�%�צ7�e8ib6nfz.evla8ib6mpz.spc�%��s��Ҁ��U��@��ݐπ��A�%�'ק��e8ib6nfz.evla8ib6mpz.spc�%��s��Ҁ��U��@��ݐπ��A�%�6פ�m8ib6uqz.wgtm8ib6uqz.wgt�%�ڏ��s��Ӏ��U��A��ݐπ��A�%�Eק��a8ib6r5z.spca8ib6r5z.spc�%�e��s��Ӏ��U��A��ݐπ��A�%�Tק��s8ib708z.sdma8ib6r5z.spc�%��s��Ӏ��U��B��ݐπ��A�%�cף��h8ib72sz.dhks8ib6o8z.sdm�%�\��s��Ӏ��U��C��ݐЀ��A�%�rף��h8ib72sz.dhks8ib6o8z.sdm�%�\��s��Ӏ��U��C��ݐЀ��A�%��ק��h8ib72sz.dhks8ib6o8z.sdm�%�\��s��Ӏ��U��C��ݐЀ��A�%��פ�s8ib728z.sdmh8ib72sz.dhk�%�H��s��Ӏ��U��D��ݐЀ��A�%��פ�s8ib728z.sdmh8ib72sz.dhk�%�H��s��Ӏ��U��D��ݐЀ��A�%��עI�s8ib728z.sdmh8ib72sz.dhk�%�H��s��Ӏ��U��D��ݐЀ��A�%��פ�s8ib728z.sdmh8ib72sz.dhk�%�H��s��Ӏ��U��D��ݐЀ��A�%��ק��s8ib728z.sdmh8ib72sz.dhk�%�H��s��Ӏ��U��D��ݐЀ��A�%��׳S�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%��׫u�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%��׫u�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%�רրs8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%�צ7�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%�&ת&�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%�5פ�s8ib748z.sdms8ib728z.sdm�%��s��Ӏ��U��E��ݐЀ��A�%�tן��h8ibaavz.dhkm8iba8qz.wgt�%�_��t��؀��Z��ۀ��A�%��נ��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��ם �m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��K�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��ן��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��מZ�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��ן��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��נ��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��מZ�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%��׹��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%� ם �m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�נ��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�(ן��m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�7מZ�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�FמZ�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�U��K�m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�dם �m8ibabfz.wgtm8ibabfz.wgt�%�o��t��ـ��Z��ۀ��A�%�sן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ף��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ם �h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��עI�h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ם �h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ם �h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%� ף��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�נ��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�'כ��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�6ם �h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�Eף��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�Tן��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�c׷A�h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%�rמZ�h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ף��h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��מZ�h8ibajcz.dhkm8ibabfz.wgt�%�l��t��ـ��Z��܀��A�%��ם �h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��ם �h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��פ�h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��מZ�h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��ם �h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��עI�h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%��ם �h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%�ן��h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%�ם �h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%�&נ��h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��A�%�5ן��h8ibasoz.dhkh8ibajcz.dhk�%��t��ـ��Z��݀��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 587 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK13BSSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk13bx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675549.84304 TSTOP = 287681589.84312 DATE-OBS= '2010-02-12T13:52:28' DATE-END= '2010-02-12T15:33:08' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6040.00007998943 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 315 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:18' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3NQr3NOo3NOo3NOo' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1474855883' / data unit checksum updated 2010-02-18T17:05:18 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw00412081000b13bx001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:27 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��x��/��v�-�� D��'W��H��,��ν7��袀��^�L��~�v��W��D�k��G1�2�2�222�� =�� ]��vވV��"��NA�%��ƀ��/��v�K��F��'XӀ��ꑶ��,��ο1��覀��^�d��v��W��EJ�k��G1�2�2�222�� =�� ]��v߈V��PA�%��/��v�i��H��'Y��#��,��+��誀��^�|��v��X&��E��k��G1�2�2�222�� =�� ]��v��V��ۜ��RA�%��ֶ��F��/��v�� J��'Z��꒑��,��%��讀��^蔀��v��Xd��F�k��G1�2�2�222�� =�� ]�H��v�V��Z��TA�%��x��/�&��v��&��L��'[��,��貀��^謀��v��X��F|�k��G1�2�2�222�� =�� ]��v�V��VA�%��ƀ��/�2��v�Ï��.��N��'\��l��,��趀��^�Ā��v��X��F�k��G1�2�2�222�� =�� ]�y��v�V��Ԁ��XA�%��Ȁ��/�>��v��4��P��']��ڕ��,��躀��^�܀��v��Y��GH�k��G1�2�2�222�� =�� ]��v�V��ޒ��ZA�%��ـ��F��/�J��v��<��R��'^��G��,�� 辀��^��v��Y\��G��k��G1�2�2�222�� =�� ]��v�V��N��\A�%��/�V��v��B��T��'_��ꔴ��-��^��v��Y��H�k��G1�2�2�222�� =�� ]�=��v�V��^A�%��x��ƀ��/�b��v�;��J��V��'`��"��-��ƀ��^�$��v��Y��Hz�k��G1�2�2�222�� =�� ]�Ҁ��v�V��̀��`A�%��/�n��v�Y��P��X��'a~��ꕐ��-��ʀ��^�<��v��Z��H��k��G1�2�2�222�� =�� ]�i��v�V��ሀ��bA�%��F��/�z��v�w��X��Z��'br��-��΀��^�T��v��ZT��IF�k��G1�2�2�222�� =�� ]��v�V��F��dA�%��)��/ņ��v��^��\��'cp��k��-��Ҁ��^�l��v��Z��I��k��G1�2�2�222�� =�� ]��v�V��fA�%��)��ƀ��/Œ��v��f��^��'dn��ٕ��- ��ր��^鄀��v��Z��J�k��G1�2�2�222�� =�� ]�.��v�V��hA�%��/Ş��v�я��l��`��'eb��G��-��ڀ��^需��v��[��Jx�k��G1�2�2�222�� =�� ]�Ā��v�V��~��jA�%��F��/Ū��v��t��b��'fT��ꗴ��-��݀��ހ��^鴀��v��[L��Jޏk��G1�2�2�222�� =�� ]�Z��v�V��:��lA�%��/Ŷ��v� ��z��d��'gT�� -��׀��^�̀��v��[��KD�k��G1�2�2�222�� =�� ]��v�V��nA�%��ƀ��/��v�+��݂��f��'hN��꘏��-��р��^��v��[��K��k��G1�2�2�222�� =�� ]��v�V��渀��pA�%��/�΀��v�I��݈��h��'iP��-��ˀ��^��v��\��L�k��G1�2�2�222�� =�� ]��v��V��t��rA�%��j��F��/�ڀ��v�g��ݐ��j��'jN��i��-��ŀ��^��v��\D��Lv�k��G1�2�2�222�� Ā��=�� ]��v�V��0��tA�%��Ȁ��/��v��ݖ��l��'k6��-��俀��^�,��v��\��L܏k��G1�2�2�222�� ƀ��=�� ]�H��v�V��vA�%��x��ƀ��/��v��ݞ��n��'l>��ٕ��-��湀��^�D��v��\��MB�k��G1�2�2�222�� Ȁ��=�� ]��v�V��鬀��xA�%��ـ��/��v��ݤ��p��'m2��F��-��賀��^�\��v��\��M��k��G1�2�2�222�� ʀ��=�� ]�w��v�V��j��zA�%��Ȁ��F��/� ��v�ߏ��ݬ��r��'n��Ꜵ��-��ꭀ��^�t��v��]<��N�k��G1�2�2�222�� ̀��=�� ]��v��V��&��|A�%��/��v��ݲ��t��'o#��- ��지��^ꌀ��v��]z��Nt�k��G1�2�2�222�� ΀��= ��]��v��V��~A�%��x�ݿ��ƀ��/�"��v��ݺ��v��'p+��ꝍ��-"����^꤀��v��]��Nڏk��G1�2�2�222�� Ѐ��=Ć ��]�;��v��V��준��A�%��U��/�.��v�9��x��'q ��-$�� ^꼀��v��]��O@�k��G1�2�2�222�� Ҁ��=Ɔ ��]�Ӏ��v��V��`��A�%�$��x��F��/�:��v�W��Ȁ��z��'r��h��-&��^�Ԁ��v��^4��O��k��G1�2�2�222�� Ԁ��=Ȇ ��]�h��v��V��A�%�)��)��/�F��v�u��΀��|��'s��֕��-(��^��v��^r��P�k��G1�2�2�222�� ր��=ʆ ��]��v��V��܀��A�%�.��U��ƀ��/�R��v��ր��~��'s��C��-*��Ā��^��v��^��Pr�k��G1�2�2�222�� ؀��=̆ ��]��v��V����A�%�3�ֶ��/�^��v��܀��'u��꟱��-,��ƀ��^��v��^��P؏k��G1�2�2�222�� ڀ��=Ά ��]�,��v��V��X��A�%�8��g��F��/�j��v�Ϗ��'u��-.��}��Ȁ��^�4��v��_,��Q>�k��G1�2�2�222�� ܀��=І ��]��v��V��A�%�=�ڥ��/�v��v��'v��ꠋ��-0��w��ʀ��"��^�L��v��_j��Q��k��G1�2�2�222�� ހ��=҆ ��]�V��v��V��Ѐ��A�%�B��ƀ��/Ƃ��v��'w��-2��q��̀��&��^�d��v��_��R �k��G1�2�2�222�� =Ԇ ��]��v��V��A�%�G��ـ��/Ǝ��v�)��'x��e��-4��k��΀��*��^�|��v��_��Rp�k��G1�2�2�222�� =ֆ ��]��v��V��J��A�%�L��g��D��/ƚ��v�G��'y݀��ӕ��-6��e��Ѐ��.��^딀��čv��`$��R֏k��G1�2�2�222�� =؆ ��]��w�V�� A�%�Q�ֶ��/Ʀ��v�e��'zـ��A��-8��_��Ҁ��2��^묀��ƍv��`b��S<�k��G1�2�2�222�� =چ ��]��w�V��Ȁ��A�%�V��Ȁ��Ā��/Ʋ��v��'{߀��ꢯ��-:��Y��Ԁ��6��^�Ā��ȍv��`��S��k��G1�2�2�222�� =܆ ��]�D��w�V��A�%�[��X��/ƾ��v��'|׀��-<��S��ր��:��^�܀��ʍv��`��T�k��G1�2�2�222�� =ކ ��]�ڀ��w�V��B��A�%�`�ֶ��H��/�ʀ��v��'}̀��ꣂ��->�� M��؀��>��^��̍v��a��Tn�k��G1�2�2�222�� =�� ]�p��w�V��A�%�e��/�܀��v�ݏ��$��'~��Е��-B��H��܀��D��^��Ѝv��a\��Tڏk��G3�2�2�222�� =� ��]��w �W��A�%�j��U��̀��/��v��,��'��-D��B��ހ��H��^�&��ҍv��a��U@�k��G3�2�2�222�� =� ��]�ހ��w �W��~��A�%�o��/��v��2��'��-F��<��L��^�>��ԍv��a��U��k��G3�2�2�222�� =� ��]�!��w�W��:��A�%�t���L��/��v�7��:��'��G��-H��6��P��^�V��֍v��b��V�k��G3�2�2�222�� =� ��]�^��w�W��A�%�y��g��/��v�U��@��'��m��-J��0��T��^�n��؍v��bT��Vr�k��G3�2�2�222�� =�� ]��w �W��A�%�~��ݿ��̀��/��v�s��H��'��ꤌ��-L��*��X��^솀��ڍv��b��V؏k��G3�2�2�222�� =� ��]��w �W��t��A�%��/�$��v��N��'��꤮��-N��$��\��^잀��܍v��b��W>�k��G3�2�2�222�� =� ��]��w�W��0��A�%��L��/�0��v��V��'��͕��-P��`��^춀��ލv��c��W��k��G3�2�2�222�� =�� ]��w�W��A�%��Ȁ��/�<��v�͏��\��'�/��㕸��-R��d��^�΀��v��cL��X �k��G3�2�2�222�� =�� ]�5��w�W��A�%��ʀ��/�H��v��d��'�O��-T��h��^��v��c��Xp�k��G3�2�2�222�� =�� ]�X��w�W��d��A�%��ֶ�� /�T��v� ��j��'�A��-V�� l��^��v��c��X֏k��G3�2�2�222�� =�� ]��w�W��(��A�%��J��/�`��v�'��r��'�I��0��-X��"��p��^��v��d��Y<�k��G3�2�2�222�� =�� ]¶��w�W��A�%��ֶ��/�l��v�E��x��'�A��Q��-Z��$��t��^�.��v��dD��Y��k��G3�2�2�222�� >� ��]��w�W��A�%��g��ʀ��/�x��v�c��ހ��'�1��q��-\��%��x��^�F��v��d��Z�k��G3�2�2�222�� >� ��]��w�W��b��A�%��Ȁ�� /Ǆ��v��ކ��'�=��ꥒ��-^��'��|��^�^��v��d��Zn�k��G3�2�2�222�� >� ��]�G��w�W��A�%��U��J��/ǐ��v��ގ��'�8��ꥳ��-`��)��退��^�v��v��d��Zԏk��G3�2�2�222�� >� ��]�x��w�W��܀��A�%��g��/ǜ��v��ޔ��'�2��ԕ��-b��+��鄀��^펀��v��e<��[:�k��G3�2�2�222�� >� ��]å��w�W��A�%��Ȁ��ʀ��/Ǩ��v�ۏ��ޜ��'�>��-d��-��鈀��^��v��ez��[��k��G3�2�2�222�� > � ��]�Ҁ��w�W��T��A�%��)J�� /Ǵ��v��ޢ��'�(��-f��/܀��錀��^��v��e��\�k��G3�2�2�222�� >� ��]��w�W��A�%��J��/��v��ު��'�$��7��-h��1ր��鐀��^�ր��v��e��\l�k��G3�2�2�222�� >� ��]�3��w�W��Ѐ��A�%��ֶ��/�̀��v�5��޲��'�5��W��-l��3р��销��^��v��f4��\ҏk��G3�2�2�222�� >� ��]�]��w�W��A�%��΀��/�܀��v�S��޺��'�u��a��-n��5ˀ��隀��^��v��fv��]<�k��G5�2�2�222�� $��>� ��]ď��w �W��N��A�%��/��v�q��Ę��'��s��-p��7ŀ�� 鞀��^� ��v��f��]��k��G5�2�2�222�� (��>� ��]Ľ��w!�W��A�%��g��N��/��v��Ȁ��Ƙ��'��ꦙ��-r��9��颀��^�8��v��f��^ �k��G5�2�2�222�� *��>� ��]��w"�W��ʀ��A�%��g�ݿ��/��v��΀��Ș��'��ꦿ��-t��;��馀��^�P��v��g0��^p�k��G5�2�2�222�� .��>� ��]�+��w"�W�� A�%��ֶ��̀��/��v�ˏ��ր��ʘ��'��ҕ��-v��=��骀��^�h��v��gn��^֏k��G5�2�2�222�� 0��>� ��]�P��w#�W�� <��A�%��ֶ��/��v��܀��̘��'�̀��畸��-x��?��鮀��^��v��g��_<�k��G5�2�2�222�� 4��>� ��]�s��w$�W�� A�%��x��L��/�&��v��Θ��'�܀��-z��A��鲀��^��v��g��_��k��G5�2�2�222�� 6��> � ��]Ť��w%�W��A�%��/�2��v�%��И��'�ǀ��*��-|��C��鶀��^�� v��h(��`�k��G5�2�2�222�� 8��>"� ��]�ր��w&�W��~��A�%��D��̀��/�>��v�C��Ҙ��'�׀��J��-~��E��麀��^�Ȁ��v��hf��`n�k��G5�2�2�222�� :��>$� ��]��w'�W�� >��A�%��g��/�J��v�a��Ԙ��'�ˀ��i��-��G��龀��^��v��h��`ԏk��G5�2�2�222�� <��>&� ��]�5��w(�W�� A�%��g��L��/�V��v��֘��'��꧋��-��I��^��v��h��a:�k��G5�2�2�222�� >��>(� ��]�f��w)�W��A�%��g��/�b��v��ؘ��'��ꧫ��-��K��ƀ��^��v��i ��a��k��G5�2�2�222�� @��>*� ��]ƕ��w*�W��v��A�%� ��g��̀��/�n��v»��ژ��'�π��̕��-��M�� ʀ��^�(��v��i^��b�k��G5�2�2�222�� B��>,� ��]�Ā��w+�W��4��A�%��ֶ��/�z��v�ُ��ܘ��'��앸��-��O}��"��΀��^�@��v��i��bl�k��G5�2�2�222�� D��>.� ��]��w,�W��A�%��U��L��/Ȇ��v��ޘ��'�ǀ��-��Qw��$��Ҁ��^�X��v��i��bҏk��G5�2�2�222�� F��>0� ��]�%��w-�W��A�%��Ȁ��/Ȓ��v��"��'��.��-��Sq��&��ր��^�p��v��j��c8�k��G5�2�2�222�� H��>2� ��]�S��w.�W��j��A�%��D��̀��/Ȟ��v�3��,��'��I��-��Ul��*��ڀ��^��v��jV��c��k��G7�2�2�222�� N��>6� ��]ǀ��w1�W��(��A�%�#��g��/Ȯ��v�Q��2��'��S��-��Wf��,��^�� v��j��d �k��G7�2�2�222�� R��>8� ��]Ǭ��w3�W��A�%�(��Ȁ��P��/ȼ��v�o��:��'�&��u��-��Y`��.��^ﺀ��"�v��j��dp�k��G7�2�2�222�� T��>:� ��]��w4�W��A�%�-�ڥ��/�Ȁ��vÍ��@��'�@��ꨐ��-��[Z��0��^�Ҁ��$�v��k��d֏k��G7�2�2�222�� X��><� ��]��w5�W��X��A�%�2��Ȁ��Ѐ��/�Ԁ��vë��H��'�>��꨸��-��]T��2��^��&�v��kP��e<�k��G7�2�2�222�� Z��>>� ��]�V��w6�W��"��A�%�7��g��/��v�ɏ��N��'�(��ߕ��-��_N��4��^��(�v��k��e��k��G7�2�2�222�� \��>@� ��]Ȓ��w7�W��ހ��A�%�<��P��/��v��V��'��-��aH��6��^��*�v��k��f�k��G7�2�2�222�� ^��>B� ��]�̀��w8�W��A�%�A��x��/��v��\��'��.��-��cB��8��^�2��,�v��l ��fn�k��G7�2�2�222�� `��>D� ��]� ��w9�W��X��A�%�F��Ѐ��/��v�#��d��'�+��T��-��e<��:��^�J��.�v��lH��fԏk��G7�2�2�222�� b��>F� ��]�F��w:�W��A�%�K�ڥ��/��v�A��j��'�.��|��-��g6��<��^�b��0�v��l��g:�k��G7�2�2�222�� d��>H� ��]ɂ��w;�W��Ԁ��A�%�P��Ȁ��P��/��v�_��r��'��ꩤ��-��i0��>��^�z��2�v��l��g��k��G7�2�2�222�� f��>J� ��]��w<�W��A�%�U��x��/�(��v�}��x��'��̕��-��k*��@��^��4�v��m��h�k��G7�2�2�222�� h��>L� ��]��w=�W��P��A�%�Z��U��Ѐ��/�4��vě��߀��'��󕸀�-��m$��B��^��6�v��m@��hl�k��G7�2�2�222�� j��>N� ��]�4��w>�W��A�%�_��)��/�@��vĹ��߆��'��-��o��D��^��8�v��m~��hҏk��G7�2�2�222�� l��>P� ��]�u��w?�W��ʀ��A�%�d��g��P��/�L��v�ڏ��ߒ��'�,��-��q��H��^�ڀ��:�w��m��i8�k��G7�2�2�222�� r��>V� ��]ʝ��wA�W�� A�%�i��U�ݿ��/�\��v��ߘ��'�]��0��-��s��J��^��>�w��n��i��l��G;�2�2�222�� v��>X� ��]ʻ��wA�W��:��A�%�n��ݿ��΀��/�h��v��ߠ��'��0��-��u ��L��^��@�w��nB��j�l��G;�2�2�222�� x��>Z� ��]�Ѐ��wA�W��X��A�%�s��ݿ�� /�t��v�4��ߦ��'��0��-��w��N��"��^�$��B�w��n��jn�l��G;�2�2�222�� z��>\� ��]��wA�W��z��A�%�x��ݿ��F��/ɀ��v�R��߮�� '��0��-��y��P��&��^�<��D�w��n��jԏm��G=�2�2�222�� |��>^� ��]��wA�W��A�%�}��ݿ��/Ɍ��v�p��ߴ��'��0��-��z��R��*��^�T��F�w��n��k:�m��G=�2�2�222�� ~��>`� ��]��wA�W��A�%��ݿ��/ɘ��vŎ��߼��'��0��-��|��T��.��^�l��H�w��o:��k��m��G=�2�2�222�� >b� ��]�'��wA�W��A�%��ֶ�ݿ��/ɤ��vŬ��'��0��-��~��V��2��^��J�w��ox��l�m��G=�2�2�222�� >d� ��]�>��wA�W��A�%��U�ݿ��6��/ɰ��v�ʏ��ʀ��'�Ҁ��0��-ă��π��X��6��^��L�w��o��ll�n��G?�2�2�222�� >f� ��]�T��wA�W��2��A�%��x�ݿ��r��/ɼ��v��Ѐ��'�ր��0��-ƃ��ς��Z��:��^��N�w��o��lҏn��G?�2�2�222�� >h� ��]�k��wA�W��V��A�%��ֶ�ݿ��/�Ȁ��v��؀��'�ڀ��1��-ʃ��τ݀��\��>��^�̀��P�w��p2��m8�n��G?�2�2�222�� >j� ��]ˁ��wA�W��|�� A�%��U�ݿ��/�Ԁ��v�$��ހ��'��1��-̃��φ׀��^��B��^��R�w��pp��m��o��GA�2�2�222�� >l� ��]˘��wA�W��"A�%��ֶ�ݿ��(��/��v�B��'��1��-΃��ψр��`��F��^��T�w��p��n�o��GA�2�2�222�� >n�!��]˰��wA�W��Ȁ��$A�%��g�ݿ��d��/��v�`��'��1��-Ѓ��ϊˀ��b��J��^��V�w��p��nj�o��GA�2�2�222�� >p�!��]�ƀ��wA�W��&A�%��.��ݿ��/��v�~��'��1��-҃��όŀ��d��N��^�,��X�w��q*��nЏo��GA�2�2�222�� >r�!��]�݀��wA�W�� (A�%��x�տ��܀��/��vƜ�� '��1��-ԃ��ώ��f��R��^�D��Z�w��qh��o6�o��GA�2�2�222�� >r�!��]��wA�W�� :��*A�%��D�տ��/��vƺ��"��'�B��1��-փ��ϐ��h��V��^�\��\�w��q��o��o��GA�2�2�222�� >r�!��]��wA�W��!D��,A�%��ֶ�տ��P��/��v�؏��$��'�~��1��-؃��ϒ��j��Z��^�t��^�w��q��p�o��GA�2�2�222�� >r�!��]�!��wA�W��"��.A�%��տ��/�(��v��&��'ƶ��1��-ڃ��ϔ��l��^��^��`�w��r"��ph�o��GA�2�2�222�� >r�!��]�8��wA�W��$,��0A�%��տ��Ā��/�4��v��(��'�ڀ��1��-܃��ϖ��n��b��^��b�w��r`��pΏo��GA�2�2�222�� >r�!��]�O��wA�W��%��2A�%��U�տ��/�@��v�2��*��'��1��-ރ��Ϙ��p��f��^��d�w��r��q4�o��GA�2�2�222�� >r�!��]�e��wA�W��'��4A�%��ݿ��8��/�L��v�P��$��,��'��1��-��Ϛ��r��j��^�Ԁ��f�w��r��q��o��GA�2�2�222�� >��!��]�|��wA�W��(��6A�%��،�ݿ��/�X��v�n��,��.��'�,��2��-��Ϝ��t��n��^��h�w��s��r�o��GA�2�2�222�� >��!��]̎��wA�W��* ��8A�%��)�ݿ��/�f��vǌ��2��0��'�t��2��-��Ϟ��v��r��^��j�w��sX��rf�o��GA�2�2�222�� >��!��]̣��wA�W��+*��:A�%��)�ݿ��/�r��vǪ��:��2��'͑��2��-��Ϡ��x��v��^��l�w��s��ȑo��GA�2�2�222�� >��!��]̷��wA�W��,��!��]�̀��wA�W��-��>A�%��ݿ��r��/ʊ��v��H��6��'�Ѐ��2��-��Ϥ}��|��~��^�L��p�w��t��s��o��GA�2�2�222�� >��!��]��wA�X��/X��@A�%��ֶ�ݿ��/ʖ��v��N��8��'�,��2��-��Ϧw��~��ꂀ��^�d��r�w��tR��s��o��GA�2�2�222�� >��!��]��wA�X��0��BA�%��ݿ��/ʢ��v�"��X��:��'�l��3��-��Ϩq��ꆀ��^�|��t�w��t��td�o��GA�2�2�222�� >��!��]�3��wA�X��2��DA�%��ݿ��(��/ʮ��v�@��^��<��'Ӣ��6��-��Ϫk��ꊀ��^��v�x��t��tʏo��GA�2�2�222�� >��!��]͗��wA�X��3��FA�%��Ȁݿ��f��/ʺ��v�^��f��>��'�ƀ��8��-��Ϭe��ꎀ��^��x�x��u��u0�o��GA�2�2�222�� >��!��]��wA�X��3Ā��HA�%��ݿ��/�ƀ��v�|��l��@��'�Ȁ��:��-��Ϯ_��ꒀ��^�Ā��z�x��uN��u��o��GA�2�2�222�� >��!��]�*��wA�X��4��JA�%��g�ݿ��/�Ҁ��vȚ��t��B��'��Y��-��ϰY��ꖀ��^�܀��|�x��u��u��o��GA�2�2�222�� >��!��]�X��wA�X��5��LA�%� ��)�ݿ�� /�ހ��vȸ��z��D��'��ꪒ��-��ϲS��Ꚁ��^��~�x��u��vb�o��GA�2�2�222�� >��!��]α��wA�X��5��NA�%��ݿ��^��/��v�֏��F��'�Հ��ʕ��-��ϴM��Ꞁ��^��x��v��vȏo��GA�2�2�222�� >��!��]��wA�X��6��PA�%��ֶ�ݿ��/��v��H��'��-��϶G��ꢀ��^�$��x��vF��w.�o��GA�2�2�222�� Ā��>��!��]�R��wA�X��7|��RA�%��g��ڀ��/��v��J��'�߀��-��ϸA��ꦀ��^�<��x��v��w��o��GA�2�2�222�� ƀ��>��!��]ϔ��wK�X��86��TA�%��,��/��v�0��L��'�׀��E��.��Ϻ;��ꪀ��^�T��x��v��w��o��GA�2�2�222�� Ȁ��>��!��]�܀��wM�X��8��VA�%�"��n��/��v�N��N��'��v��.��ϼ5��ꮀ��^�l��x��w��x`�o��GA�2�2�222�� ʀ��>��!��]�$��wN�X��9��XA�%�'��Ȁ��/�&��v�l��ऀ��P��'�р��ꫧ��.��Ͼ/��검��^��x��w>��xƏo��GA�2�2�222�� ̀��>��!��]�n��wO�X��:p��ZA�%�,�ڥ��/�2��vɊ��଀��R��'�ŀ��ؕ��.��)��궀��^��x��w|��y,�o��GA�2�2�222�� ΀��>��!��]з��wP�X��;,��\A�%�1��.��/�>��vɨ��ಀ��T��'�À��.��#��꺀��^��x��w��y��o��GA�2�2�222�� Ѐ��>��!��]��wQ�X��;��^A�%�6��X��n��/�J��v�Ə��຀��V��'�Հ��-��. ��꾀��^�̀��x��w��y��o��GA�2�2�222�� Ԁ��>��!��]�6��wR�X��<��`A�%�;�+��/�V��v��X��'��S��.��^��x��x6��z^�o��GA�2�2�222�� ؀��>��!��]�s��wS�X��=h��bA�%�@��/�b��v��Ȁ��Z��'��ꬒ��.��ƀ��^��x��xt��zďo��GA�2�2�222�� ڀ��>��!��]�ŀ��wT�X��>$��dA�%�E��.��/�n��v� ��΀��\��'��Ε��.��ʀ��^��x��x��{*�o��GA�2�2�222�� ܀��>��!��]��wU�X��>��fA�%�J��g��n��/�z��v�>��ր��^��'�+��.��΀��^�,��x��x��{��o��GA�2�2�222�� ހ��>��!��]�e��wV�X��?��hA�%�O��/ˆ��v�\��܀��`��'�;��I��.��Ҁ��^�D��x��y.��{��o��GA�2�2�222�� >��!��]Ҹ��wW�X��@\��jA�%�T��g��/˒��v�}��b��'�e��ꭂ��.��ր��^�\��y��yn��|\�o��GA�2�2�222�� >��!��]��wX�X��A��lA�%�Y��.��/˞��vʛ��d��'蕀��ꭂ��.��ڀ��^�t��y��y��|o��GA�2�2�222�� >��!��]�Y��wY�X��Aڀ��nA�%�^��g�ݿ��l��/ˬ��vʹ��f��'��ꭼ��.��ހ��^��y��y��}*�o��GA�2�2�222�� >��!��]ө��wY�X��B��pA�%�c��x�ݿ��/˸��v�׏��h��'�3��ꭾ��.��^��y��z.��}��o��GA�2�2�222�� >!��]��wY�X��CT��rA�%�h�ޔ�ݿ��/�Ā��v��j��'�5��.��^��y��zn��}��o��GA�2�2�222�� >Ć!��]�K��wY�X��D��tA�%�m��ݿ��&��/�Ѐ��v��l��'�_��ĕ��. ��ۀ��^�Ԁ��y��z��~\�o��GA�2�2�222�� >Ɔ!��]ԛ��wY�X��D΀��vA�%�r��U�ݿ��d��/�܀��v�1��n��'��Ǖ��."��Հ��^��y��z��~o��GA�2�2�222�� >Ȇ!��]��wY�X��E��xA�%�w�ֶ�ݿ��/��v�O��p��'��ʕ��.$��π��^��y��{(��(�o��GA�2�2�222�� >ʆ!��]�=��wY�X��FH��zA�%�|��ݿ��/��v�m��r��'��͕��.&��ɀ��^��y��{f��o��GA�2�2�222�� >̆!��]Ս��wY�X��G��|A�%��)�ݿ��/��vˋ��"��t��'��Е��.(��À��^�4��y��{��o��GA�2�2�222�� >Ά!��]�ހ��wY�X��Gƀ��~A�%��g�ݿ��\��/��v˩��*��v��'��ԕ��.*��㽀��^�L��y��{��Z�o��GA�2�2�222�� >І!��]�.��wY�X��H��A�%��x�ݿ��/��v�Ǐ��0��x��'��ו��.,��巀��^�d��y��| ��o��GA�2�2�222�� >҆!��]�~��wY�X��I@��A�%��)��؀��/�$��v��8��z��'��ڕ��..��籀��^�|��y��|^��&�o��GA�2�2�222�� >Ԇ!��]�Ѐ��w[�X��I��A�%��D��/�0��v��>��|��'��.0��髀�� ^��y��|��o��GA�2�2�222�� >ֆ!��]��w\�X��J��A�%��X��/�<��v�!��F��~��'��-��.2��륀��Ā��^��y��|��o��GA�2�2�222�� >؆!��]�T��w]�X��Kx��A�%��/�H��v�?��L��'��^��.4��ퟀ��ƀ��^�Ā��y��}��X�o��GA�2�2�222�� >چ!��]י��w^�X��L4��A�%��U��؀��/�T��v�]��T��'��.6����Ȁ��^�܀��y��}V��o��GA�2�2�222�� >܆!��]�̀��w_�X��L��A�%��x��/�`��v�{��Z��'��ꮣ��.8��ʀ��^��y��}��$�o��GA�2�2�222�� >ކ!��]��w`�X��M��A�%��͊��X��/�l��v̙��b��'�Ā��ϕ��.:��̀��^��y��}��o��GA�2�2�222�� >��!��]�G��wb�X��Nl��A�%��/�x��v̷��h��'��.<��΀��"��^�$��y��~��o��GA�2�2�222�� >�!��]،��wc�X��O,��A�%��x��ڀ��/̄��v�Տ��p��'��'��.>��Ѐ��&��^�<��čy��~N��V�o��GA�2�2�222�� >�!��]�Ѐ��wd�X��O��A�%��g��/̐��v��v��'��V��.@��{��Ҁ��*��^�T��ƍy��~��o��GA�2�2�222�� >�!��]��we�X��P��A�%��U��Z��/̜��v��~��'��ꯅ��.B��u��Ԁ��.��^�l��ȍy��~��"�o��GA�2�2�222�� >�!��]�Y��wf�X��Qd��A�%��Ȁ��/̨��v�/��ᄀ��'��꯴��.D��o��ր��2��^��ʍy��o��GA�2�2�222�� >�!��]ٞ��wg�X��R ��A�%��ڀ��/̴��v�M��ጀ��(��Ε��.F��i��؀��6��^��̍y��F��o��GA�2�2�222�� >�!��]�ɀ��wh�X��R܀��A�%��/��v�p��ᒀ��(����.H��c��ڀ��:��^��΍y��T�o��GA�2�2�222�� >�!��]��wi�X��S��A�%��Ȁ��Z��/�̀��v͓�� ��( ��.J��^��܀��>��^�̀��Ѝy��o��GA�2�2�222�� >��"��]�5��wj�X��TZ��A�%��U��/�؀��vͳ��ᢀ��(��<��.L��X��ހ��B��^��ҍz�� o��GA�2�2�222�� >�"��]�r��wk�X��U��A�%��ڀ��/��v�я��᪀��(��f��.N��R��F��^��ԍz��@��o��GA�2�2�222�� "��>�"��]ڳ��wl�X��Uր��A�%��/��v��ᰀ��( ��갎��.P�� L��J��^��֍z��~��o��GA�2�2�222�� $��>��"��]��wm�X��V��A�%��ֶ��Z��/��v� ��Ḁ��(��갶��.R��F��N��^�,��؍z��R�o��GA�2�2�222�� &��>��"��]�+��wn�X��WN��A�%��ֶ��/��v�+��ᾀ��(��.T�� @��R��^�D��ڍz��o��GA�2�2�222�� (��>��"��]�m��wo�X��X��A�%��g��ڀ��/��v�I��ƀ��( ��.V��:��V��^�\��܍z��8��o��GA�2�2�222�� *��>��"��]۬��wp�X��Xʀ��A�%��)J��/� ��v�g��̀��( ��0��.X��4��Z��^�t��ލz��v��o��GA�2�2�222�� ,��>��"��]��wq�X��Y��A�%��ֶ��Z��/�,��v΅��Ԁ��(��W��.Z��.��^��^��z��o��GA�2�2�222�� .��?�"��]�%��wr�X��ZF��A�%��U��/�8��vΣ��ڀ��(��걀��.\��(��b��^��z��P�o��GA�2�2�222�� 0��?�"��]�c��ws�X��[��A�%��ڀ��/�D��v��( ��걨��.`��#��f��^��z��0��o��GA�2�2�222�� 2��?�"��]ܞ��wu�X��[��A�%� ��/�T��v�ߏ��(6��걮��.b��l��^�ր��z��p�� o��GC�2�2�222�� :��?�"��]�΀��ww�X��\j��A�%��ڥ��\��/�b��v��(y��Ε��.d��p��^��z��o��GC�2�2�222�� >��? �"��]��wx�X��]8��A�%��ֶ�ݿ��/�n��v��(o��Ε��.f��t��^��z��o��GC�2�2�222�� @��?�"��]�L��wx�X��]��A�%��g�ݿ��؀��/�z��v�9��(g��ٕ��.h��x��^��z��*��T�o��GC�2�2�222�� B��?�"��]ݓ��wx�X��^��A�%�!��ݿ��/͆��v�W��(`��ە��.j��!��|��^�6��z��h��o��GC�2�2�222�� D��?�"��]�Հ��wx�X��_v��A�%�&��Ȁݿ��T��/͒��v�u��(��ە��.l��"��뀀��^�N��z�� o��GC�2�2�222�� H��?�"��]��wx�X��`��A�%�+��ݿ��/͞��vϕ��(��ܕ��.p��$��넀��^�h��z��o��GE�2�2�222�� P��?�"��]��wx�X��`��A�%�19=ـݿ��Ѐ��/Ͱ��vϳ�� (B��ܕ��.t��&��늀��^��z��,��o��GE�2�2�222�� X��?�"��]�J��wx�X��a��A�%�5�ڥ�ݿ��/ͼ��v�я��&��(i��ޕ��.x��(��뎀��^��z��j��d�q��GI�2�2�222� �� ^��? �"��]�d��wx�X��bP��A�%�:��Ҁݿ��J��/�Ȁ��v��.��(��ޕ��.|��*��뒀��^��z��Ώr��GK�2�2�222� �� `��?"�$��]ި��wx�X��c2��A�%�?��U�ݿ��/�Ԁ��v� ��4��Ę��(ʀ��ߕ��.��,�� 떀��^�Ȁ��z��<�s��GM�2�2�222� �� b��?$�%��]��wx�X��c��A�%�D��D�ݿ��Ā��/��v�+��<��Ƙ��(��.��.܀��뚀��^��z��$��s��GM�2�2�222� �� d��?&�%��]�e��wx�X��d��A�%�I��ݿ��/��v�I��D��Ș��("��.��0ր��란��^��z��b��s��GM�2�2�222� �� f��?(�%��]�ǀ��wx�X��eh��A�%�N�ֶ�ݿ��@��/��v�g��L��ʘ��(8��.��2Ѐ��뢀��^��{��s��GM�2�2�222� �� h��?*�%��]��wx�Y��f*��A�%�S��=�ݿ��~��/��vЅ��R��̘��(p��j��.��4ʀ��릀��^�(��{��s��GM�2�2�222� �� r��?.�%��]�J��wx�Y��fڀ��A�%�X��ݿ��/��vУ��Z��Θ��(��ܕ��.��6Ā��몀��^�@��{�� X�s��GM�2�2�222� �� t��?0�%��]઀��wx�Y��g��A�%�]��D�ݿ��/��v��`��И��( ��.��8��뮀��^�X�� {��`��ďs��GM�2�2�222� �� v��?2�%��]��wx�Y��hf��A�%�ce��8��/�(��v��h��Ҙ��(!ƀ��\��.��:��벀��^�p��{��0�s��GM�2�2�222� �� x��?4�%��]�q��w��Y��i$��A�%�g��D�ݿ��/�4��v��n��Ԙ��("��g��.��<��부��^��{��s��GM�2�2�222� �� z��?6�%��]ៀ��w��Y��i��A�%�l��ݿ��/�@��v��v��֘��(#��g��.��>��뺀��^��{��s��GM�2�2�222� �� |��?8�%��]��w��Y��j��A�%�q��ݿ��/�L��v�:��|��ؘ��($��l��.��@��뾀��^��{��X��t�s��GM�2�2�222� �� ~��?:�%��]�I��w��Y��kJ��A�%�v��ݿ��<��/�X��v�X��℀��ژ��(%��p��.��B�� ^�Ѐ��{��s��GM�2�2�222� �� ?<�%��]─��w��Y��l��A�%�{��U�ݿ��z��/�d��v�v��⊀��ܘ��(&��r��.��D��"��ƀ��^��{��L�s��GM�2�2�222� �� ?>�%��]��w��Y��l̀��A�%��ݿ��/�p��vє��⒀��ޘ��('��r��.��F��$��ʀ��^��{��s��GM�2�2�222� �� ?@�%��]�4��w��Y��m��A�%��ޔ�ݿ��/�|��vѲ��☀��((��t��.��H��&��΀��^��{��P��$�s��GM�2�2�222� �� ?B�%��]㖀��w��Y��nR��A�%��ڥ�ݿ��4��/Έ��v�Џ��⠀��()��괴��.��J��(��Ҁ��^�0��{��s��GM�2�2�222� �� ?D�%��]��w��Y��o��A�%��ޔ�ݿ��r��/Δ��v��⦀��(*��.��L��*��ր��^�H��{��s��GM�2�2�222� �� ?F�%��]�Y��w��Y��ò��A�%��D��/Π��v��⮀��(+��6��.��N|��,��ڀ��^�`�� {�� h�s��GM�2�2�222� �� ?H�%��]亀��w��Y��p��A�%��ޔ�ݿ��/ά��v�*��ⴀ��(,��d��.��Pv��.��ހ��^�x��"�{��H��ԏs��GM�2�2�222� �� ?J�%��]��w��Y��qJ��A�%��ݿ��6��/θ��v�H��⼀��(-��g��.��Rp��0��^��$�{��@�s��GM�2�2�222� �� ?L�%��]�|��w��Y��r��A�%��5�ݿ��t��/�Ā��v�f��(.��k��.��Tj��2��^��&�{��s��GM�2�2�222� �� ?N�%��]�ހ��w��Y��rĀ��A�%��ݿ��/�Ѐ��v҄��ʀ��(/��n��.��Vd��4��^��(�{��s��GM�2�2�222� �� ?P�%��]�@��w��Y��s��A�%��ֶ��/�܀��vҢ��Ѐ��(0��q��.��X^��6��^�؀��*�{��@��s��GM�2�2�222� �� ?R�%��]梀��w��Y��t>��A�%��ޔ��0��/��v��؀��(1��굍��.��ZX��8��^��,�{��~��s��GM�2�2�222� �� ?T�%��]��w��Y��t��A�%��܀ݿ��v��/��v�ޏ��ހ��(2��굢��.��\R��:��^��.�{��^�s��GM�2�2�222� �� ?V�%��]�e��w��Y��u��A�%��ݿ��/��v��(3��굥��.��^L��<��^� ��0�{��ʏs��GM�2�2�222� �� ?X�%��]�ƀ��w��Y��vt��A�%��߀��/��v��(4��굩��.��`F��>��^�8��2�{��8��6�s��GM�2�2�222� �� ?Z�%��]�)��w��Y��w2��A�%��U�ݿ��2��/��v�8��(5��구��.��b@��@��^�P��4�{��v��s��GM�2�2�222� �� ?\�%��]艀��w��Y��w��A�%��U�ݿ��p��/�&��v�V��(6��군��.��d:��B��^�h��6�{��s��GM�2�2�222� �� ?^�%��]��w��Y��x��A�%��ݿ��/�2��v�t��(7��굴��.��f4��D�� ^��8�{��z�s��GM�2�2�222� �� ?`�%��]�N��w��Y��yl��A�%��D�ݿ��/�>��vӒ��(8��굷��.��h.��F��^��:�{��0��s��GM�2�2�222� �� ?b�%��]鯀��w��Y��z*�� A�%��U��*��/�J��vӰ��(9Ā��굺��.��j(��H��^��<�{��n��R�s��GM�2�2�222� �� ?d�%��]��w��Y��z��A�%��D�ݿ��j��/�V��v�Ώ��(:��굽��.��l"��J��^�Ȁ��>�{��s��GM�2�2�222� �� ?f�%��]�w��w��Y��{��A�%��U�ݿ��/�b��v��(;��.��n��L��^��@�{��*�s��GM�2�2�222� �� ?h�%��]�ـ��w��Y��|b��A�%��U�ݿ��/�n��v� ��$��(<À��ŕ��.ă��p��N��^��B�{��(��s��GM�2�2�222� �� ?j�%��]�:��w��Y��}"��A�%��ݿ��$��/�z��v�(��,�� (=��ɕ��.ƃ��r��P��"��^��D�{��f��s��GM�2�2�222� �� ?l�%��]란��w��Y��}ހ��A�%��+��b��/φ��v�F��2��(>΀��̕��.ȃ��t ��R��&��^�(��F�{��n�s��GM�2�2�222� �� ?n�%��]��w��Y��~��A�%��U�ݿ��/ϒ��v�d��:��(?ր��Е��.ʃ��v��T��*��^�@��H�{��ڏs��GM�2�2�222� �� ?p�%��]�a��w��Y��X��A�%��!�ݿ��/Ϟ��vԂ��@��(@��ӕ��.̃��w��V��.��^�X��J�{�� F�s��GM�2�2�222� �� ?r�%��]�Ā��w��Y��A�%��ڥ�ݿ��/Ϫ��vԠ��H��(A��֕��.΃��y��X��2��^�p��L�{��^��s��GM�2�2�222� �� ?t�%��]�)��w��Y��Ԁ��A�%��ڥ�ݿ��\��/϶��vԾ��N��(B��ڕ��.Ѓ��{��Z��6��^��N�{��s��GM�2�2�222� �� ?v�%��]튀��w��Y��큐��A�%��D��/��v�܏��V��(C؀��ڕ��.҃��}��\��:��^��P�{��s��GM�2�2�222� �� Ā��?x�%��]��w��Y��N�� A�%��₀ݿ��؀��/�΀��v��\��(D��ޕ��.ԃ��^��>��^��R�{��s��GM�2�2�222� �� ƀ��?z�%��]�Q��w��Y��"A�%��U�ݿ��/�ڀ��v��d��(E��.փ��Ё��`��B��^�Ѐ��T�{��V��b�s��GM�2�2�222� �� Ȁ��?|�%��]��w��Y��ʀ��$A�%��₀��V��/��v�6��j��(F��.؃��Ѓڀ��b��F��^��V�{��Ώs��GM�2�2�222� �� ʀ��?~�%��]��w��Y��턈��&A�%� ��D�ݿ��/��v�T��r��(G��.ڃ��ЅԀ��d��J��^��X�{��:�s��GM�2�2�222� �� ̀��?��%��]�u��w��Y��D��(A�%�%��ݿ��Ҁ��/��v�r��x�� (H��.܃��Ї΀��f��N��^��Z�{��s��GM�2�2�222� �� ΀��?��%��]�׀��w��Y��*A�%�*��3�ݿ��/� ��vՐ��　��"��(I��.ރ��ЉȀ��h��R��^�0��\�{��N��s��GM�2�2�222� �� Ѐ��?��%��]�7��w��Y��,A�%�/��ݿ��N��/��vծ��ㆀ��$��(J��.��Ћ��j��V��^�H��^�{��~�s��GM�2�2�222� �� Ҁ��?��%��]��w��Y��~��.A�%�4�₀ݿ��/�"��v�̏��㎀��&��(K��.��Ѝ��l��Z��^�`��`�{��s��GM�2�2�222� �� Ԁ��?��%��]��w��Y��:��0A�%�9�ޔ�ݿ��ʀ��/�.��v��㔀��(��(Lр��.��Џ��n��^��^�x��b�{��V�s��GM�2�2�222� �� ր��?��%��]�^��w��Y��2A�%�>��ݿ��/�:��v��㜀��*��(Mۀ��.��Б��p��b��^��d�{��F��s��GM�2�2�222� �� ؀��?��%��]��w��Y��퉶��4A�%�C��ݿ��F��/�F��v�&��㢀��,��(NӀ��.��Г��r��f��^��f�{��.�s��GM�2�2�222� �� ڀ��?��%��]�!��w��Y��t��6A�%�H��3��/�R��v�D��㪀��.��(Oр��.��Е��t��j��^��h�{��s��GM�2�2�222� �� ܀��?��%��]��w��Y��4��8A�%�M��U�ݿ��Ā��/�^��v�b��㰀��0��(Pۀ��.��З��v��n��^�؀��j�{��s��GM�2�2�222� �� ހ��?��%��]��w��Y��:A�%�R��ݿ��/�j��vր��㸀��2��(Q�� .��Й��x��r��^��l�{��>��r�s��GM�2�2�222� �� ?��%��]�E��w��Y��팬��/�v��v֞��㾀��4��(Rـ��.��Л��z��v��^��n�{��|��ޏs��GM�2�2�222� �� ?��%��]��w��Y��h��>A�%�\��|��/Ђ��vּ��ƀ��6��(S܀��.��Н��|��z��^� ��p�{��J�s��GM�2�2�222� �� ?��%��]� ��w��Y��(��@A�%�a��ݿ��/Ў��v�ڏ��̀��8��(T��.��П��~��~��^�8��r�{��s��GM�2�2�222� �� ?��%��]�g��w��Y��BA�%�f��U�ݿ��/К��v��Ԁ��:��(U؀��.��С��삀��^�P��t�{��6��"�s��GM�2�2�222� �� ?��%��]�ǀ��w��Y��폢��DA�%�k��D�ݿ��<��/Ц��v��ڀ��<��(Vހ��"��.��Уz��솀��^�h��v�{��t��s��GM�2�2�222� �� ?��%��]�(��w��Y��`��FA�%�p�ֶ�ݿ��z��/в��v�4��>��(W΀��%��.��Хt��슀��^��x�{��s��GM�2�2�222� �� ?��%��]��w��Y�� HA�%�u��Ҁ��/о��v�R��@��(X̀��)��.��Чn��쎀��^��z�{��f�s��GM�2�2�222� �� ?��%��]��w��Y��ڀ��JA�%�z�ڥ�ݿ��/�ʀ��v�p��B��(Y��,��.��Щh��쒀��^��|�{��.��ҏs��GM�2�2�222� �� ?��%��]�K��w��Y��풘��LA�%��ޔ�ݿ��6��/�ր��v׎��D��(Zۀ��/��/��Ыb��얀��^�Ȁ��~�{��l��>�s��GM�2�2�222� �� ?��%��]��w��Y��T��NA�%��D�ݿ��t��/��v׬��F��([π��3��/��Э\��욀��^��{��s��GM�2�2�222� �� ?��%��]��w��Y��PA�%��ݿ��/��v�ʏ��H��(\Հ��6��/��ЯV��잀��^��{��s��GM�2�2�222� �� ?��%��]�o��w��Y��Ҁ��RA�%��U��/��v��J��(]��9��/��бP��좀��_��{��&��s��GM�2�2�222� �� ?��%��]�ǀ��w��Y��핌��TA�%��D�ݿ��0��/��v��L��(^܀��9��/��гJ��즀��_(��{��d��s��GM�2�2�222� �� ?��%��]�*��w��Y��L��VA�%��U�ݿ��l��/��v�$��N��(_Ҁ��<��/ ��еD��쪀��_@��{��Z�s��GM�2�2�222� �� ?��%��]��w��Y��XA�%��U�ݿ��/��v�B�� P��(`Ҁ��?��/��з>��쮀��_X��{��Əs��GM�2�2�222� �� ?��%��]��w��Y��ƀ��ZA�%��/�*��v�`��(��R��(aƀ��B��/��й8��첀��_p��{��2�s��GM�2�2�222� �� ?��%��]�R��w��Y��현��\A�%��ڥ�ݿ��(��/�6��v�~��.��T��(bǀ��G��/��л2��춀��_��{��\��s��GM�2�2�222� �� ?��%��]��w��Y��@��^A�%��ݿ��f��/�B��v؜��6��V��(cр��K��/��н,��캀��_��{�� s��GM�2�2�222� �� ?��%��]��w��Y��`A�%��D�ݿ��/�N��vغ��<��X��(d��P��/��п&��쾀��_��{��v�s��GM�2�2�222� �� ?��%��]�v��w��Y��횾��bA�%��U�ݿ��/�Z��v�؏��D��Z��(e��R��/�� _Ѐ��{��s��GM�2�2�222� �� ?��%��]��w��Y��x��dA�%��ݿ�� /�f��v��J��\��(f��S��/��ƀ��_��{��T��N�s��GM�2�2�222� �� ?%��]��w��Y��8��fA�%��ݿ��^��/�r��v��R��^��(g��S��/��ʀ��_��{��s��GM�2�2�222� �� ?Ć%��]�=��w��Y��hA�%��ݿ��/�~��v�2��X��`��(h��W��/��΀��_��{��&�s��GM�2�2�222� �� ?Ɔ%��]��w��Y��흲��jA�%��5�ݿ��؀��/ь��v�P��`��b��(i��X��/��Ҁ��_0��{��s��GM�2�2�222� �� ?Ȇ%��]��w��Y��p��lA�%��Ҁݿ��/ј��v�n��f��d��(jɀ��k��/ ��ր��_H��{��L��s��GM�2�2�222� �� ?ʆ%��]��w��Y��nA�%��ݿ��T��/Ѥ��vٌ��n��f��(k׀��궧��/"��ڀ��_`��{��j�s��GM�2�2�222� �� ?̆%��]��w��Y��pA�%��D�ݿ��/Ѱ��v٪��t��h��(lǀ��ٕ��/$��ހ��_x��{��֏s��GM�2�2�222� �� ?Ά%��]�g��w��Y��rA�%��ڥ�ݿ��Ѐ��/Ѽ��v�ȏ��|��j��(m��/&��_��{��B�s��GM�2�2�222� �� ?І%��]��w��Y��j��tA�%��*��/�Ȁ��v��䂀��l��(ǹ��"��/(��_��{��D��s��GM�2�2�222� �� "��?Ԇ%��]��w��Y��(��vA�%��U�ݿ��T��/�Ԁ��v��䊀��n��(oՀ��"��/*��_��{��s��GM�2�2�222� �� $��?ֆ%��]�P��w��Y��xA�%��Ҁݿ��Ð��/��v�"��䐀��p��(pـ��%��/,��ހ��_؀��{��s��GM�2�2�222� �� (��?؆%��]��w��Y��zA�%��D�ݿ��΀��/��v�@��䘀��r��(qـ��(��/.��؀��_��{��s��GM�2�2�222� �� ,��?چ%��]�׀��w��Y��`��|A�%��ݿ��/��v�^��䞀��t��(rҀ��*��/0��Ҁ��_��{��<��^�s��GM�2�2�222� �� .��?܆%��]�%��w��Y��~A�%��₀ݿ��J��/��v�|��䦀��v��(s��,��/2��̀��_ ��{��z��ʏs��GM�2�2�222� �� 2��?ކ%��]�_��w��Y��؀��A�%��U�ݿ��Ĉ��/��vښ��䬀��x��(t��.��/4��ƀ��_8��{��6�s��GM�2�2�222� �� 4��?��%��]��w��Y��A�%��Ȁ��/��vڸ��䴀��z��(u��.��/6��_L��{��s��GM�2�2�222� �� 6��?�%��]�݀��w��Y��V��A�%��D�ݿ��/�(��v�֏��亀��|��(v��0��/8��⺀��_h��{��4��s��GM�2�2�222� �� 8��?�%��]�&��w��Y��A�%��ڥ�ݿ��B��/�4��v��~��(w��3��/:��䴀��Ā�� _|��{��r��x�s��GM�2�2�222� �� :��?�%��]�R��w��Y��Ԁ��A�%��ޔ�ݿ��ŀ��/�@��v��Ȁ��(x��5��/<��殀��ƀ��_��{��s��GM�2�2�222� �� <��?�%��]�z��w��Y��A�%��ݿ��ž��/�L��v�0��Ѐ��(y��7��/>��言��Ȁ��_��{��R�s��GM�2�2�222� �� >��?�%��]��w��Y��L��A�%��ڥ�ݿ��/�X��v�N��ր��({��9��/@��ꢀ��ʀ��_Ȁ��{��,��s��GM�2�2�222� �� @��?�%��^��w��Y�� A�%�$�ڥ�ݿ��:��/�f��v�l��ހ��(|��9��/B��윀��̀��_��{��j��*�s��GM�2�2�222� �� B��?�%��^W��w��Y��ƀ��A�%�)��ݿ��v��/�r��vۊ��(}��<��/D����΀��_��{��s��GM�2�2�222� �� D��?��%��^��w��Y��A�%�.��3�ݿ��ƴ��/�~��vۨ��(~��>��/F��Ѐ��"��_��č{��s��GM�2�2�222� �� F��?�%��^ր��w��Y��B��A�%�3�ֶ�ݿ��/Ҋ��v�Ə��((��\��/H��Ҁ��&��_(��ƍ{��$��n�s��GM�2�2�222� �� J��?�%��^��w��Y��A�%�8��U�ݿ��0��/Җ��v��(��귂��/J��Ԁ��*��_@��ȍ{��b��ڏs��GM�2�2�222� �� N��?��%��^G��w��Y��A�%�=��3�ݿ��n��/Ң��v��(�,��귬��/L��~��ր��.��_X��ʍ{��F�s��GM�2�2�222� �� P��?��%��^��w��Y��z��A�%�B�ڥ�ݿ��Ǭ��/Ү��v� ��(�8��ە��/N��x��؀��2��_p��̍{��s��GM�2�2�222� �� R��?��%��^؀��w��Y��8��A�%�G��Ҁ��/Һ��v�>��(�4��/P��r��ڀ��6��_��΍{��s��GM�2�2�222� �� T��?��%��^ ��w��Y��A�%�L�ڥ�ݿ��4��/�ƀ��v�\��(�T��/R��l��܀��:��_��Ѝ{��Z��s��GM�2�2�222� �� V��@�%��^g��w��Y��A�%�Q��ݿ��r��/�Ҁ��v�z��(�L��/T��f��ހ��>��_��ҍ{��s��GM�2�2�222� �� X��@�%��^��w��Y��r��A�%�V�₀ݿ��Ȱ��/�ހ��vܘ��$��(�<��/V��`��B��_Ѐ��ԍ{��b�s��GM�2�2�222� �� Z��@�%��^��w��Y��.��A�%�[��D�ݿ��/��vܶ��*��(�H��/X��Z��F��_��֍{��Ώs��GM�2�2�222� �� \��@�%��^>��w��Y��A�%�`��ݿ��,��/��v�ԏ��2��(�<��/Z��T��J��_��؍{��R��:�s��GM�2�2�222� �� ^��@�%��^��w��Y��A�%�e��ݿ��j��/��v��8��(�0��/\��N��N��_��ڍ{��s��GM�2�2�222� �� `��@ �%��^Ȁ��w��Y��f��A�%�j��U��ɦ��/��v��@��(�U��/^��H��R��_0��܍{��s��GM�2�2�222� �� d��@�%��^��w��Y��$��A�%�o��D�ݿ��/��v�.��F��(�f��/`�� B��V��_H��ލ{��~�s��GM�2�2�222� �� f��@�%��^.��w��Y��A�%�t�ޔ�ݿ��(��/�&��v�L��N��(�r��/b��<��Z��_`��{��J��s��GM�2�2�222� �� j��@�%��^h��w��Y��A�%�y��ݿ��f��/�2��v�j��T��(�r��/d��6��^��_x��{��V�s��GM�2�2�222� �� l��@�%��^��w��Y��`��A�%�~��ݿ��ʤ��/�>��v݈��\��(�p�� /f��0��b��_��{��s��GM�2�2�222� �� n��@�%��^��w��Y��A�%��ݿ��/�J��vݦ��b��(�o�� /h��*��f��_��{��.�s��GM�2�2�222� �� p��@�%��^'��w��Y��ڀ��A�%��U�ݿ�� /�V��v�ď��j��(�o��$��/j��$��j��_��{��B��s��GM�2�2�222� �� r��@�%��^e��w��Y��A�%��U�ݿ��^��/�b��v��p��(�u��$��/l��n��_؀��{��s��GM�2�2�222� �� t��@�%��^��w��Y��T��A�%��3��˜��/�n��v��x��(�u��&��/n��r��_��{��r�s��GM�2�2�222� �� v��@�%��^��w��Y��A�%��ڥ�ݿ��ڀ��/�z��v��~��(�y��(��/p��v��_��{��ޏs��GM�2�2�222� �� x��@�%��^��w��Y��΀��A�%��ڥ�ݿ��/ӆ��v�<��冀��(�{��)��/r��z��_ ��{��:��J�s��GM�2�2�222� �� z��@ �%��^\��w��Y��A�%��P��ݿ��V��/Ӓ��v�Z��匀��(�e��*��/t��~��_4��{��x��´�s��GM�2�2�222� �� |��@"�%��^��w��Y��L��A�%��ڥ�ݿ��̔��/Ӡ��v�x��唀��(�s��+��/v�� 킀��_P��{��"�s��GM�2�2�222� �� ~��@$�%��^Ā��w��Y��A�%��ޔ�ݿ��Ԁ��/Ӯ��vޖ��圀��(��.��/z��!��툀��_j��{��Ò�s��GO�2�2�222� �� @(�%��^��w��Y��A�%��ݿ��/Ӽ��v޴��夀��(��.��/|��#��팀��_��{��4��s��GO�2�2�222� �� @*�%��^(��w��Y��A�%��U�ݿ��N��/�Ȁ��v�ҏ��媀��(�Ҁ��/��/~��%��퐀��_��{��r��l�s��GO�2�2�222� �� @,�%��^l��w��Y��B��A�%��.��ݿ��͌��/�ր��v��岀��Ę��(�ր��1��/��'�� 픀��_��{��؏s��GO�2�2�222� �� @.�%��^��w��Y��A�%��D�ݿ��ʀ��/��v��帀��Ƙ��(��3��/��)��혀��_ʀ��{��D�s��GO�2�2�222� �� @0�%��^��w��Y��¼��A�%��D�ݿ��/��v�,��Ș��(�ހ��5��/��+݀��휀��_��{��,��Ű�s��GO�2�2�222� �� @2�%��^/��w��Y��|��A�%��ݿ��F��/��v�J��ƀ��ʘ��(��I��/��-׀��_��{��j��s��GO�2�2�222� �� @4�%��^e��w��Y��:��A�%��ޔ�ݿ��΄��/��v�h��΀��̘��(��l��/��/р��_��{��ƈ�s��GO�2�2�222� �� @6�%��^��w��Y��A�%��D�ݿ��/��v߆��Ԁ��Θ��(��긙��/��1ˀ��_*��{��s��GO�2�2�222� �� @8�%��^��w��Y��Ŷ��A�%��ڥ��/��vߤ��܀��И��(��Õ��/��3ŀ��_B�� {��$��`�s��GO�2�2�222� �� @:�%��^ 1��w��Y��r��A�%��ݿ��F��/�*��v��Ҙ��(��ޕ��/��5��_Z��{��b��̏s��GO�2�2�222� �� @>�%��^ q��w��Y��0��A�%��ݿ��τ��/�6��v��Ԙ��(��/��7��_r��{��8�s��GO�2�2�222� �� @@�%��^ ��w��Y��A�%��ݿ��/�B��v��֘��(��/��9��_��{��Ȥ�s��GO�2�2�222� �� @B�%��^ ��w��Y��Ȭ��A�%��!�ݿ��/�N��v��ؘ��(��/��;��_��{��s��GO�2�2�222� �� @D�%��^ 4��w��Y��h��A�%��ݿ��>��/�Z��v�:��ژ��(��/��=�� _��{��Z��|�s��GO�2�2�222� �� @F�%��^ v��w��Y��(��A�%��ޔ�ݿ��|��/�f��v�X��ܘ��(��/��?��"��Ā��_Ҁ��{��s��GO�2�2�222� �� @H�%��^ ��w��Y��A�%��ڥ��к��/�r��v�v��ޘ��(��/��A��$��Ȁ��_��{��T�s��GO�2�2�222� �� @J�%��^ ��w��Y��ˠ��A�%��ݿ��/�~��v��(��/��C��&��̀��_��{��s��GO�2�2�222� �� @L�%��^6��w��Y��^��A�%��ڥ�ݿ��8��/Ԏ��vಏ��(�7��/��E��*��Ҁ��_��{��T��0�s��GQ�2�2�222� �� @P�%��^s��w��Y��A�%� ��D�ݿ��v��/Ԝ��v�Џ��$��(�Q��/��G��,��ր��_4�� {��˞�s��GQ�2�2�222� �� @R�%��^��w��Y��܀��A�%��U�ݿ��Ѵ��/Ԩ��v��*��(�Y��/��I��.��ڀ��_L��"�{�� s��GQ�2�2�222� �� @T�%��^��w��Y��Κ��A�%��U�ݿ��/Դ��v��2��(��/��K~��0��ހ��_d��$�{��v�s��GQ�2�2�222� �� @V�%��^+��w��Y��L��A�%��ݿ��0��/��v�*��8��(��/��Mx��2��_|��&�{��L��s��GQ�2�2�222� �� Ā��@X�%��^f��w��Y��A�%��ڥ�ݿ��l��/�̀��v�H��@��(��/��Or��4��_��(�{��N�s��GQ�2�2�222� �� ƀ��@Z�%��^��w��Y��Ҁ��A�%�#�ڥ��Ҫ��/�؀��v�f��F��(��/��Ql��6��_��*�{��ͺ�s��GQ�2�2�222� �� Ȁ��@\�%��^��w��Y��ю��A�%�(� B�ݿ��/��vᄏ��N��(��/��Sf��8��_Ā��,�{��&�s��GQ�2�2�222� �� ʀ��@^�%��^ E��w��Y��L��A�%�-�ڥ�ݿ��(��/��vᢏ��T��(��/��U`��:��_܀��.�{��D��Β�s��GQ�2�2�222� �� ̀��@`�%��^ x��w��Y��A�%�2�G�ݿ��f��/��v��\��(��/��WZ��<��_��0�{��s��GQ�2�2�222� �� Ѐ��@b�%��^ ��w��Y��Ȁ��A�%�7�ޔ�ݿ��Ӥ��/��v�ޏ��b��(��/��YT��>��_��2�{��j�s��GQ�2�2�222� �� Ҁ��@d�%��^��w��Y��Ԇ��A�%�<�ڥ�ݿ��/��v��j��(��/��[N��@��_$��4�{��֏s��GQ�2�2�222� �� Ԁ��@f�%��^Y��w��Y��B��A�%�A�ڥ�ݿ�� /� ��v��p��(��/��]H��B��_<��6�{��<��B�s��GQ�2�2�222� �� ր��@h�%��^��w��Y��A�%�F��3�ݿ��\��/�,��v�8��x��(��/��_B��D��_T��8�{��z��Ю�s��GQ�2�2�222� �� ؀��@j�%��^��w��Y��A�%�K�ޔ�ݿ��Ԛ��/�8��v�V��~��(��/��a<��F�� _l��:�{��s��GQ�2�2�222� �� ܀��@l�%��^,��w��Y��|�� A�%�P��ݿ��؀��/�D��v�t��憀��(�� /��c6��H��_��<�{��ц�s��GQ�2�2�222� �� ހ��@n�%��^x��w��Y��6��A�%�U��Ҁݿ��/�R��v⒏��挀��(�р��-��/��e0��J��_��>�{��4��s��GQ�2�2�222� �� @p�%��^��w��Y��A�%�Z�ڥ�ݿ��T��/�^��vⰏ��攀��(�ـ��[��/��g*��L��_��@�{��r��^�s��GQ�2�2�222� �� @r�%��^��w��Y��ٴ��A�%�_�ڥ�ݿ��Ւ��/�j��v�Ώ��暀��(�Հ��깋��/ă��i$��N��_̀��B�{��ʏs��GQ�2�2�222� �� @t�%��^I��w��Y��r��A�%�d�.��Ѐ��/�v��v��梀�� (�р��깺��/ƃ��k��P��_��D�{��6�s��GQ�2�2�222� �� @v�%��^��wY��0��A�%�i��/Ղ��v� ��樀��(��˕��/ȃ��m��R��"��_��F�{��,��Ӣ�s��GQ�2�2�222� �� @z�%��^߀��wĈY��A�%�n��ݿ��X��/Վ��v�(��氀��(��˕��/ʃ��o��T��&��_ ��H�{��j��s��GQ�2�2�222� �� @|�%��^-��wĈY��ܨ��A�%�s��q�ݿ��֔��/՚��v�F��涀��(��Ε��/̃��q��V��*��_ ,��J�{��z�s��GQ�2�2�222� �� @~�%��^y��wĈY��h��A�%�x��ݿ��Ҁ��/զ��v�d��澀��(��Е��/΃��s��X��.��_ D��L�{��s��GQ�2�2�222� �� @��%��^��wĈY��$��A�%�}��3�ݿ��/ղ��vわ��Ā��(��ҕ��/Ѓ��u��Z��2��_ \��N�{��$��R�s��GQ�2�2�222� �� @��%��^��wĈY��A�%��D�ݿ��N��/վ��v㠏��̀��(��Օ��/҃��v��\��6��_ t��P�{��b��վ�s��GQ�2�2�222� �� @��%��^X��wĈY��ߠ�� A�%��₀��׌��/�ʀ��v㾏��Ҁ��(��ؕ��/ԃ��x��^��:��_ ��R�{��*�s��GQ�2�2�222� �� @��%��^��wȈY��^��"A�%��Ѐ��/�ր��v�܏��ڀ��(�(��ڕ��/փ��z��`��>��_ ��T�{��֖�s��GQ�2�2�222� �� @��%��^؀��wʈY��$A�%��ݿ��/��v��(�*��ݕ��/؃��|��b��B��_ ��V�{��s��GQ�2�2�222� �� @��%��^��wʈY��ڀ��&A�%��ݿ��L��/��v��(�A��ߕ��/ڃ��~��d��F��_ Ԁ��X�{��Z��n�s��GQ�2�2�222� �� @��%��^[��wʈY��─��(A�%��U�ݿ��؊��/��v�6�� (�?��ߕ��/܃��р܀��f��J��_ ��Z�{��ڏs��GQ�2�2�222� �� @��%��^��wʈY��V��*A�%��3�ݿ��Ȁ��/��v�T��"��(�(��/ރ��тր��h��N��_ ��\�{��F�s��GQ�2�2�222� �� @��%��^��wʈY��,A�%��ڥ�ݿ��/��v�r��$��(�0��/��фЀ��j��R��_ ��^�{��ز�s��GQ�2�2�222� �� @��%��^5��wʈY��΀��.A�%��3��B��/��v䐏��&��(�4��/��цʀ��l��V��_ 4��`�{��R��s��GQ�2�2�222� �� @��%��^|��ẅY��匀��0A�%��P��ل��/�*��v䮏�� (��(��/��шĀ��n��Z��_ H��b�{��و�s��GQ�2�2�222� �� @��%��^��wΈY��F��2A�%��ݿ��/�6��v�̏��*��(�&��/��ъ��p��^��_ d��d�{��s��GQ�2�2�222� �� @��%��^��wΈY��4A�%��ޔ�ݿ��/�B��v��,��(�(��/��ь��r��b��_ |��f�{��b�s��GQ�2�2�222� �� @��%��^��wΈY��碀��6A�%��D�ݿ��>��/�N��v�� .��(�#��/��ю��t��f��_ ��h�{��J��Ώs��GQ�2�2�222� �� @��%��^n��wΈY��耀��8A�%��ݿ��|��/�Z��v�&��&��0��(�=��/��ѐ��v��j��_ ��j�{��:�s��GQ�2�2�222� �� @��%��^��wΈY��>��:A�%��₀ݿ��ں��/�f��v�D��.��2��(�1��/��ђ��x��n��_ Ā��l�{��ۦ�s��GQ�2�2�222� �� @��%��^Հ��wΈY��A�%��ޔ�ݿ��4��/�~��v倏��<��6��(�Z��/��і��|��v��_ ��p�{��B��~�s��GQ�2�2�222� �� @��%��^S��wΈY��x��@A�%��D�ݿ��p��/֊��v垏��B��8��(�L��/��ј��~��z��_��r�{��s��GQ�2�2�222� �� @��%��^��wΈY��6��BA�%��ݿ��ۮ��/֖��v式��J��:��(�D��/��њ��~��_$��t�{��V�s��GQ�2�2�222� �� @��%��^Ȁ��wΈY��DA�%��ޔ�ݿ��/֢��v�ڏ��P��<��(�g��*��/��ќ����_<��v�{��s��GQ�2�2�222� �� &��@��%��^��wΈY��FA�%��ݿ��*��/֮��v��X��>��(�u��h��/��ў����_T��x�{��:��.�s��GQ�2�2�222� �� (��@��%��^u��wΈY��t��HA�%��D�ݿ��h��/ֺ��v��^��@��(�e��꺨��/��Ѡ|����_l��z�{��x��ޚ�s��GQ�2�2�222� �� *��@��%��^׀��wΈY��2��JA�%��-8��ܦ��/�ƀ��v�4��f��B��(�[��/��Ѣv����_��|�{��s��GQ�2�2�222� �� ,��@��%��^.��w҈Y��LA�%��U�ݿ��/�Ҁ��v�R��l��D��(�k��0��Ѥp����_��~�{��r�s��GQ�2�2�222� �� .��@��%��^{��w҈Y��NA�%��3�ݿ��*��/�ހ��v�p��t��F��(�c��0��Ѧj����_��{��2��ޏs��GQ�2�2�222� �� 0��@��%��^Ȁ��w҈Y��h��PA�%��D�ݿ��f��/��v掏��z��H��(�^��0��Ѩd����_̀��{��p��J�s��GQ�2�2�222� �� 2��@��%��^��w҈Y��&��RA�%��D�ݿ��ݤ��/��v歏��炀��J��(��0��Ѫ^����_��|��ඏs��GQ�2�2�222� �� 4��@��%��^l��w҈Y��TA�%� ��q�ݿ��/��v�ˏ��爀��L��(�k��0��ѬX����_��|��"�s��GQ�2�2�222� �� 6��@��%��^��w҈Y��VA�%��ڥ�� /��v��琀��N��(��0 ��ѮR����_��|��,��ᎏs��GQ�2�2�222� �� :��@��%��^��wԈY��^��XA�%��₀ݿ��`��/��v��疀��P��(�À��0��ѰL����_,��|��j��s��GQ�2�2�222� �� @��@��&��^<��wԈY��ZA�%��ݿ��ޞ��/�(��v�%��瞀��R��(ⵀ��0��ѲF����_D��|��h�s��GQ�2�2�222� �� B��@��&��^��wԈY��؀��\A�%��`�ݿ��ڀ��/�4��v�C��礀��T��(�̀��0��Ѵ@����_\��|��ԏs��GQ�2�2�222� �� D��@Ć&��^ـ��wԈY��^A�%�"��ݿ��/�@��v�a��笀��V��(�ـ��0��Ѷ:����_t��|��$��@�s��GQ�2�2�222� �� F��@Ɔ&��^'��wԈY��V��`A�%�'�ޔ�ݿ��X��/�L��v��粀��X��(廀��0��Ѹ4����_��|��b��㬏s��GQ�2�2�222� �� H��@Ȇ&��^t��wԈY��bA�%�,��D��ߔ��/�X��v睏��纀��Z��(�̀��0��Ѻ.����_��|��s��GQ�2�2�222� �� J��@ʆ&��^��w܈Y��Ѐ��dA�%�1�ڥ�ݿ��܀��/�t��v经��\��(��)��0��Ѽ(��_��|��䄏s��GQ�2�2�222� �� L��@̆&��^ ��w܈Y��fA�%�6�ڥ�ݿ��/׀��v�ُ��Ȁ��^��(�*��W��0��Ѿ"��ƀ��_Ԁ��|��s��GQ�2�2�222� �� N��@Ά&��^S��w܈Y��L��hA�%�;�ڥ�ݿ��X��/׌��v��΀��`��(�W��껆��0��ʀ��_��|��Z��\�s��GQ�2�2�222� �� P��@І&��^��w܈Y�� jA�%�@��U��/ט��v��ր��b��(�J��껸��0��΀��_ ��|��ȏs��GQ�2�2�222� �� R��@҆&��^��w��Y��Ȁ��lA�%�E��D�ݿ��܀��/פ��v�3��܀��d��(�J��0 ��Ҁ��_ ��|��4�s��GQ�2�2�222� �� T��@Ԇ&��^9��w��Y��nA�%�J�ֶ��/װ��v�Q��f��(�R��0"�� ր��_ 4��|��栏s��GQ�2�2�222� �� X��@ֆ&��^u��w�Y��B��pA�%�O�ڥ��\��/׼��v�o��h��(�H��K��0$��ڀ��_ L��|��R��s��GQ�2�2�222� �� Z��@؆&��^ǀ��w�Y��rA�%�T��!��ᜀ��/�Ȁ��v荏��j��(�j��h��0&��ހ��_ d��|��x�s��GQ�2�2�222� �� `��@چ&��^��w�Y��tA�%�Y��܀��/�Ԁ��v諏��l��(��꼑��0(��_ |��|��s��GQ�2�2�222� �� d��@܆&��^4��w�Y��z��vA�%�^��/��v�ɏ��n��(��0*��_ ��|��P�s��GQ�2�2�222� �� f��@ކ&��^��w�Y��6��xA�%�c�ڥ��^��/��v��p��(��0,��_ ��|��J��輏s��GQ�2�2�222� �� h��@��&��^ʀ��w�Y��zA�%�h��➀��/��v��r��(��&��0.��_ Ā��|��(�s��GQ�2�2�222� �� j��@�&��^��w�Y��|A�%�m��D��ހ��/��v�#��t��(��Z��00��_ ܀��|��锏s��GQ�2�2�222� �� l��@�&��^e��w�Y��n��~A�%�r�ڥ��/��v�A��v��(��꽐��02��ڀ��_ ��|��s��GQ�2�2�222� �� n��@�&��^��w�Y��.��A�%�w��^��/��v�_��"��x��(��ĕ��04��Ԁ��_��|��B��l�s��GQ�2�2�222� �� p��@�&��^ ��w�Y��A�%�|��㞀��/�(��v�}��*��z��(��06��΀��_$��|��؏s��GQ�2�2�222� �� r��@�&��^ L��w�Y��A�%��ޔ��ހ��/�4��v雏��0��|��(�j��0��08��Ȁ��_<��|��D�s��GQ�2�2�222� �� t��@�&��^ ��w�Y��f��A�%��ڥ��/�@��v鹏��8��~��(�r��c��0:��Ā��_T��|��및s��GQ�2�2�222� �� v��@�&��^ ��w�Y��$��A�%��3��^��/�L��v�׏��>��(�z��꾉��0<��߼��ƀ�� _l��|��:��s��GQ�2�2�222� �� z��@��&��^!$��w��Y��A�%��ڥ��䞀��/�X��v��F��(�s��꾿��0>��ᶀ��Ȁ��_��|��x��숏s��GQ�2�2�222� �� |��@�&��^!o��w�Y��A�%��ހ��/�d��v��L��(��0@��㰀��ʀ��_��|��s��GQ�2�2�222� �� @�&��^!��w�Y��Z��A�%��g��/�p��v�1��T��(��0B��媀��̀��_��|��`�s��GQ�2�2�222� �� @��&��^!��w�Y�� A�%��^��/�|��v�O��Z��(��P��0D��礀��΀��_̀��|��2��̏s��GQ�2�2�222� �� @��&��^"K��w�Y�� ր��A�%��D��垀��/؈��v�m��b��(��꿆��0F��鞀��Ѐ��_��č|��p��8�s��GQ�2�2�222� �� @��&��^"��w��Y�� A�%��U�ݿ��ހ��/ؔ��vꋏ��h��)��꿻��0H��똀��Ҁ��"��_��ƍ|��s��GQ�2�2�222� �� @��&��^"��w��Y��R��A�%��/ؠ��v꩏��p��)��0J��풀��Ԁ��&��_��ȍ|��s��GQ�2�2�222� �� @��&��^#0��w��Y��A�%��^��/ج��v�Ǐ��v��)��%��0L����ր��*��_,��ʍ|��*��|�s��GQ�2�2�222� �� A�&��^#{��w��Y��̀��A�%��ڥ��枀��/ظ��v��~��)|��Z��0N��؀��.��_D��̍|��h��s��GQ�2�2�222� �� A�&��^#ƀ��w��Y�� A�%��ހ��/�Ā��v��脀��)p��0P��ڀ��2��_\��΍|��T�s��GQ�2�2�222� �� A�&��^$��w��Y��H��A�%��3��/�Ѐ��v�!��茀��)x��ĕ��0R��z��܀��6��_t��Ѝ|��s��GQ�2�2�222� �� A�&��^$[��w��Y��A�%��^��/�܀��v�?��蒀��)^��0T��t��ހ��:��_��ҍ|��"��,�s��GQ�2�2�222� �� A�&��^$��w��Y��A�%��ޔ��瞀��/��v�]��蚀��)r��0V��n��>��_��ԍ|��`��s��GQ�2�2�222� �� A �&��^$��w��Y��|��A�%��ހ��/��v�{��蠀��)��J��0X��h��B��_��֍|��s��GQ�2�2�222� �� A�&��^%"��w��Y��>��A�%��U��/��v뙏��言��) ��}��0Z��b��F��_Ԁ��؍|��p�s��GQ�2�2�222� �� A�&��^%m��w��Y��A�%��`��\��/��v뷏��讀��) x��0\��\��J��_��ڍ|��܏s��GQ�2�2�222� �� A�&��^%��w��Y��A�%��蜀��/��v�Տ��趀��)n��0^��V��N��_��܍|��X��H�s��GQ�2�2�222� �� A�&��^&��x�Y��x��A�%��܀��/�$��v��輀��)j��0`��P��R��_��ލ|��s��GQ�2�2�222� �� A�&��^&V��x�Y��4��A�%��3��/�0��v��Ā��) f��S��0b��J��V��_4��|�� s��GQ�2�2�222� �� A�&��^&��x�Y��A�%��\��/�<��v�/��ʀ��)d��0d��D��Z��_L��|��s��GQ�2�2�222� �� A�&��^&��x�Y��A�%��U��需��/�H��v�M��Ҁ��)f��0f�� >��^��_d��|��P��s��GQ�2�2�222� �� A�&��^':��x�Y��l��A�%��₀��܀��/�T��v�k��؀��)J��0h��8��b��_|��|��d�s��GQ�2�2�222� �� A�&��^'��x�Y��*��A�%��ڥ��/�`��v쉏��)N��+��0j�� 2��f��_��|��Џs��GQ�2�2�222� �� A�&��^'Ԁ��x�Y��A�%��Ҁ��\��/�l��v짏��)J��a��0l��,��j��_��|�� <�s��GQ�2�2�222� �� A �&��^(!��x�Y��A�%��Ҁ��꜀��/�x��v�ŏ��)6��Ö��0n��&��n��_Ā��|��H��s��GQ�2�2�222� �� A"�&��^(m��x�Y��d��A�%� ��ݿ��܀��/ل��v��)Y��ã��0p�� r��_܀��|��s��GQ�2�2�222� �� A&�&��^(��x�Y��A�%��ݿ��/ِ��v��)~��ã��0r��v��_��|��s��GQ�2�2�222� �� A(�&��^(ހ��x�Y��ހ��A�%��D�ݿ��V��/ٜ��v��)k��å��0t��z��_��|��s��GQ�2�2�222� �� A*�&��^)��x�Y��A�%��ڥ�ݿ��딀��/٨��v�=�� ){��é��0v��~��_$��|��@��X�s��GQ�2�2�222� �� A,�&��^)f��x�Y��X��A�%�!��D�ݿ��Ҁ��/ٴ��v�[��)g��ë��0x����_<��|��~��ďs��GQ�2�2�222� �� A.�&��^)��x�Y��A�%�&��ݿ��/��v�y��)^��í��0z����_T��|��0�s��GQ�2�2�222� �� A0�&��^)��x�Y��Ҁ��A�%�+�ڥ�ݿ��N��/�̀��v헏��)r��í��0|����_l��|��s��GQ�2�2�222� �� Ā��A2�&��^*:��x�Y��A�%�0��U�ݿ��슀��/�؀��v��&��)b��ï��0~�� ��_��|��8��s��GQ�2�2�222� �� ƀ��A4�&��^*��x�Y��P��A�%�5��ݿ��Ȁ��/��v�ӏ��,��Ę��)Z��ñ��0��"�� ��_��|��v��t�s��GQ�2�2�222� �� Ȁ��A6�&��^*̀��x�Y�� A�%�:��3�ݿ��/��v��4��Ƙ��)f��ü��0��$����_��|��´��s��GQ�2�2�222� �� ʀ��A8�&��^+��x�Y�� ʀ��A�%�?�ڥ�ݿ��D��/��v��:��Ș��)T��0��&����_̀��|��L�s��GQ�2�2�222� �� ̀��A:�&��^+g��x�Y��!��A�%�j��Ȁ��|��/�X��w7;��d�� '��+�.��%��р�5��R�� b��_L@�� 썆��Z.��"��󮏄��G�2�2�222� �� FN�,��^׼��y�^�� A�%�o�ڥ�ݿ��/�d��w7[��j�� '��+�(��&-�р�5��L�� f��_LX�� ��Zl��"��G�2�2�222� �� FP�,��^�M��y�^��切�� A�%�t��g�ݿ��/�t��w7y��r�� '��+�j��&\�р�5��F�� j��_Lp�� Z��"��~��G�2�2�222� �� FT�,��^�݀��y�^��h�� A�%�y��Ȁ��8��/��w7��x�� '��+��&b�р�5��@�� n��_L�� 򍆀��Z��"��䏄��G�2�2�222� �� Ā��FV�,��^�t��y��^��&�� A�%�~��x��|��/��w7�� '��+��&Ǖр�5��:�� r��_L�� 􍆀��[,��"��J��G�2�2�222� �� ƀ��FX�,��^� ��y��^�� A�%��:T��/��w7ӏ�� '��+��'4�р�5��4�� v��_L�� [j��"��G�2�2�222� �� Ȁ��FZ�,��^ڟ��y��^�� A�%��x��/��w7�� '��+��'��р�5��.�� z��_LЀ�� [��"��G�2�2�222� �� ʀ��F\�,��^�5��y��^��\�� A�%��<��/��w8�� '��+��(�р�5��(�� ~��_L�� [��"��|��G�2�2�222� �� ̀��F^�,��^�ˀ��y��^�� A�%��|��/��w8-�� '��+��(z�р�5��"�� _M�� \$��"��⏄��G�2�2�222� �� ΀��F`�,��^�`��y��^��ڀ�� A�%��ֶ��/�Ȁ��w8K�� Ę'��+��(�р�5�� _M�� \b��"��H��G�2�2�222� �� Ѐ��Fb�,��^��y��^�� A�%��`��/�Ԁ��w8i�� Ƙ'��+�ʀ��)T�р�5�� _M0�� \��"��G�2�2�222� �� Ԁ��Ff�,��^ݑ��y��^��T�� A�%��X��<��/��w8�� Ș'��+��)��р�5�� _MH�� \��"��G�2�2�222� �� ր��Fh�,��^�(��z�^�� A�%��Ȁ��|��/��w8�� ʘ'��+��*-�р�5�� _M`�� ]��"��z��G�2�2�222� �� ؀��Fj�,��^��z�^��΀�� A�%��/��w8Ï�� ̘'��+��*��р�5�� _Mx�� ]^��"��G�2�2�222� �� ڀ��Fl�,��^�Y��z�^�� A�%��ֶ��/��w8��ƀ�� Θ'��+��+�р�5�� _M�� ]��"��F��G�2�2�222� �� ܀��Fn�,��^��z�^��L�� A�%��)��<��/��w8��̀�� И'��+��+u�р�5�� _M�� ]��"��G�2�2�222� �� ހ��Fp�,��^��z�^�� A�%��|��/��w9��Ԁ�� Ҙ'��+��+�р�5�� _M�� ^��"��G�2�2�222� �� Fr�,��^��z�^��ƀ�� A�%��g��/�(��w9;��ڀ�� Ԙ'��+��,P�р�5�� _M؀�� ^V��"��x��G�2�2�222� �� Ft�,��^ᵀ��z�^�� A�%��g��/�4��w9Y�� ֘'��+��,��р�5�� _M�� ^��"��ޏ��G�2�2�222� �� Fv�,��^�L��z�^��@�� A�%��)��<��/�@��w9w�� ؘ'��+�ۀ��-,�р�5�� _N�� ^��"��D��G�2�2�222� �� Fx�,��^��z�^�� A�%��ֶ��|��/�L��w9�� ژ'��+�ˀ��-��р�5��ڀ�� _N �� _��"��G�2�2�222� �� Fz�,��^�~��z �^�� A�%��g��/�X��w9�� ܘ'��+�Հ��.�р�5��Ԁ�� "��_N8�� _N��"��G�2�2�222� �� F|�,��^��z �^��z�� A�%��)��/�d��w9я�� ޘ'��+�Ȁ��.t�р�5��!΀�� $��_NP�� _��"��v��G�2�2�222� �� F~�,��^䬀��z�^��4�� A�%��<��/�p��w9�� '��+��.��р�5��#Ȁ�� &��_Nh�� _��"��܏��G�2�2�222� �� F��,��^�A��z�^�� A�%��)��|��/�|��w: �� '��+�Ā��/O�р�5��%�� (��_N�� `��"��B��G�2�2�222� �� F��,��^�؀��z �^�� A�%��Ȁ��/��w:+�� '��+��/��р�5��'�� *��ƀ��_N�� `F��"��G�2�2�222� �� F��,��^�r��z�^��n�� A�%��U��/��w:I�� '��+��0)�р�5ă��)�� ,��ʀ��_N�� `��"��G�2�2�222� �� F��,��^� ��z�^��,�� A�%��ـ��<��/��w:g�� '��+��0��р�5ƃ��+�� .��΀��_NȀ�� "��`��"��t��G�2�2�222� �� F��,��^矀��z�^�� A�%��U��|��/��w:��(�� '��+��1�р�5ȃ��-�� 0��Ҁ��_N�� $��a��"��ڏ��G�2�2�222� �� F��,��^�7��z�^�� A�%����/��w:��.�� '��+��1r�р�5ʃ��/�� 2��ր��_N�� &��a>��"��@��G�2�2�222� �� F��,��^�π��z�^��f�� A�%��g��/�Ā��w:��6�� '��+��1ߕр�5̃��1�� 4��ڀ��_O�� (��a|��"��G�2�2�222� �� F��,��^�e��z�^��$�� A�%��Ȁ��<��/�Ѐ��w:ߏ��<�� '��+��2K�р�5΃��3�� 6��ހ��_O(�� *��a��"��G�2�2�222� �� F��,��^��z�^�� A�%� ��|��/�܀��w:��D�� '��+��2��р�5Ѓ��5�� 8��_O@�� ,��a��"��r��G�2�2�222� �� F��,��^ꏀ��z�^�� A�%��g��/��w;��J�� '��+��3'�р�5҃��7�� :��_OX�� .��b6��"��؏��G�2�2�222� �� F��,��^�&��z�^��Z�� A�%��Ȁ��/��w;9��R�� '��+��3��р�5ԃ��9�� <��_Op�� 0��bt��"��>��G�2�2�222� �� F��,��^뼀��z�^��A�%��<��/��w;W��X�� '��+�v��4�р�5փ��;�� >��_O�� 2��b��"��G�2�2�222� �� F��,��^�U��z�^��ր��A�%��Ȁ��|��/��w;u��`�� '��+�}��4o�р�5؃��=z�� @��_O�� 4��b��"�� G�2�2�222� �� F��,��^��z�^�� A�%�#��x��/��w;��f�� '��+�u��4ݕр�5ڃ��?t�� B��_O�� 6��c.��"��p��G�2�2�222� �� F��,��^킀��z�^�� R��A�%�(��g��/�$��w;��n�� '��+�W��5J�р�5܃��An�� D��_OЀ�� 8��cl��"��֏��G�2�2�222� �� F��,��^��z�^��A�%�-��)��<��/�0��w;Ϗ��t��'��+�c��5��р�5ރ��Ch�� F��_O�� :��c��"��<��G�2�2�222� �� F��,��^��z�^��̀�� A�%�2�ֶ��|��/�<��w;��|��'��+�g��6%�р�5��Eb�� H��_P�� <��c��"��G�2�2�222� �� F��,��^�G��z�^��A�%�7��g��/�H��w<��'��+�Q��6��р�5��G\�� J��_P�� >��d&��"��G�2�2�222� �� F��,��^�߀��z�^�� F��A�%�<��U��/�T��w<)��'��+�_��6��р�5��IV�� L�� _P0�� @��dd��"��n��G�2�2�222� �� F��,��^�t��z�^��A�%�A��x��<��/�`��w��A�%�P��)��/��w<��'��+�E��8��р�5��Q>�� T��_P�� H��e\��"��G�2�2�222� �� F��,��^�Ӏ��z#�^��A�%�U��X��<��/��w<��'��+�9��9"�р�5��S8�� V��_P�� J��e��"��l��G�2�2�222� �� F��,��^�e��z$�^��A�%�Z��Ȁ��|��/��w<ݏ��'��+�;��9��р�5��U2�� X��"��_P�� L��e��"��ҏ��G�2�2�222� �� F��,��^��z%�^��v��A�%�_��Ȁ��/��w<��'��+�+��9��р�5��W,�� Z��&��_P؀�� N��f��"��8��G�2�2�222� �� "��F��,��^��z&�^��2��A�%�d�ֶ��/��w=��'��+�#��:i�р�5��Y&�� \��*��_P�� P��fT��"��G�2�2�222� �� $��F��,��^�-��z'�^�� A�%�i��x��<��/��w=7��Ȁ��'��+��:֕р�5��[ �� ^��.��_Q�� R��f��"��G�2�2�222� �� &��F��,��^�Ā��z(�^��"A�%�n��U��|��/�̀��w=U��Ѐ��'��+�%��;C�р�5��]�� `��2��_Q �� T��f��"��j��G�2�2�222� �� (��F��,��^�Z��z*�^��j��$A�%�s�ֶ��/�؀��w=s��ր��'��+�!��==�р�5��_�� b��6��_Q8�� V��g��"��Џ��G�2�2�222� �� *��F��,��^��z+�^��(��&A�%�x��ـ��/��w=��ހ��'��+��=��р�5��a�� d��:��_QP�� X��gL��"�� 6��G�2�2�222� �� ,��F��,��^��z,�^��(A�%�}��)��>��/��w=�� '��+��>�р�5��c�� f��>��_Qh�� Z��g��"�� G�2�2�222� �� .��F��,��^��z-�^��*A�%��g��~��/��w=͏��"�'��+��>��р�6��e�� h��B��_Q�� \��g��"�� G�2�2�222� �� 0��F,��^��z.�^��b��,A�%��U��/��w=��$�'��+��>�р�6��f�� j��F��_Q�� ^��h��"�� h��G�2�2�222� �� 2��FĆ,��^�D��z/�^��.A�%��ـ��/��w> ��&�'��+��?`�р�6��h�� l��J��_Q�� `��hD��"�� Ώ��G�2�2�222� �� 4��FƆ,��^�ڀ��z0�^��܀��0A�%��ڥ��>��/� ��w>'��(�'��+��?͕р�6��j�� n��N��_QȀ�� b��h��"��4��G�2�2�222� �� 6��FȆ,��^�r��z1�^��2A�%��x��~��/�,��w>E��*�'��+� ��@;�р�6��l�� p��R��_Q�� d��h��"��G�2�2�222� �� 8��Fʆ,��^��z2�^��V��4A�%��)��/�8��w>c��,�'��+��@��р�6 ��n�� r��V��_Q�� f��h��"��G�2�2�222� �� :��F̆,��^��z3�^��6A�%��/�D��w>��.�'��+��A�р�6��pހ�� t��Z��_R�� h��i<��"��f��G�2�2�222� �� <��FΆ,��^�:��z4�^��Ԁ��8A�%��Ȁ��>��/�P��w>��0�'��+��A��р�6��r؀�� v��^��_R(�� j��iz��"��̏��G�2�2�222� �� >��FІ,��^�р��z5�^��:A�%��-8��~��/�\��w>��$��2�'��+��A�р�6��tҀ�� x��b��_R@�� l��i��"�� 2��G�2�2�222� �� @��F҆,��^�h��z6�^��N��ۏ��*��4�'��+�ۀ��B]�р�6��v̀�� z��f��_RX�� n��i��"�� G�2�2�222� �� B��FԆ,��^��z7�^�� >A�%��/�t��w>��2��6�'��+��B˕р�6��xƀ�� |��j��_Rp�� p��j4��"�� G�2�2�222� �� D��Fֆ,��^��z8�^��Ȁ��@A�%��)��>��/��w?��8��8�'��+�܀��C9�р�6��z�� ~��n��_R�� r��jr��"��d��G�2�2�222� �� F��F؆,��^�.��z9�^�� BA�%��g��~��/��w?5��@��:�'��+�̀��C��р�6��|�� r��_R�� t��j��"��ʏ��G�2�2�222� �� H��Fچ,��^�ƀ��z:�^��!B��DA�%��ֶ��/��w?S��F��<�'��+�ހ��D�р�6��~�� v��_R�� v��j��"��0��G�2�2�222� �� J��F܆,��_[��z;�^��"��FA�%��Ȁ��/��w?q��N��>�'��+�Ҁ��D��р�6��׀�� z��_RЀ�� x��k,��"��G�2�2�222� �� L��Fކ,��_��z<�^��"��HA�%��U��>��/��w?��T��@�'��+��D�р�6��ׂ�� ~��_R�� z��kj��"��G�2�2�222� �� N��F��,��_��z=�^��#z��JA�%��x��~��/��w?��\��B�'��+�̀��E\�р�6 ��ׄ�� _S�� |��k��"��b��G�2�2�222� �� P��F�,��_��z>�^��$:��LA�%��x��/�Ȁ��w?ˏ��b��D�'��+㳀��Eɕр�6"��׆�� _S�� ~��k��"��ȏ��G�2�2�222� �� R��F�,��_��z?�^��$��NA�%��g��/�Ԁ��w?��j��F�'��+䧀��F6�р�6$��׈�� _S0�� l$��"��.��G�2�2�222� �� T��F�,��_O��z@�^��%��PA�%��>��/��w@��p��H�'��+壀��F��р�6&��׊�� _SH�� lb��"��G�2�2�222� �� V��F�,��_��zA�^��&r��RA�%��U��~��/��w@%��x��J�'��+楀��G�р�6(��׌�� _S`�� l��"��G�2�2�222� �� X��F�,��_~��zB�^��'.��TA�%��x��/��w@C��~��L�'��+礀��G�р�6*��׎�� _Sx�� l��"��`��G�2�2�222� �� Z��F�,��_��zC�^��'��VA�%��g��/��w@a��N�'��+薀��G�р�6,��א~�� _S�� m��"��Ə��G�2�2�222� �� \��F�,��_��zD�^��(��XA�%��Ȁ��>��/��w@��P�'��+钀��HY�р�6.��גx�� _S�� mZ��"��,��G�2�2�222� �� ^��F��,��_C��zE�^��)h��ZA�%��~��/��w@��R�'��+ꂀ��Hȕр�60��הr�� _S�� m��"��G�2�2�222� �� `��F�,��_ۀ��zF�^��*&��\A�%��/�(��w@��T�'��+낀��I5�р�62��זl�� _S؀�� m��"��G�2�2�222� �� b��F�,��_s��zG�^��*��^A�%��Ȁ��/�4��w@ُ��V�'��+쏀��I��р�64��טf�� _S�� n��"��^��G�2�2�222� �� d��F��,��_��zH�^��+��`A�%� ��U��>��/�@��w@��X�'��+�{��J�р�66��ך`�� _T�� nR��"��ď��G�2�2�222� �� f��F��,��_��zI�^��,^��bA�%��Ȁ��~��/�L��wA��Z�'��+�{��J}�р�68��לZ�� _T �� n��"��*��G�2�2�222� �� h��F��,��_ 8��zJ�^��-��dA�%��ֶ��/�X��wA3��\�'��+�s��J�р�6:��מT�� _T8�� n��"��G�2�2�222� �� j��F��,��_ ˀ��zK�^��-ڀ��fA�%��ֶ��/�d��wAQ��^�'��+�U��KX�р�6<��נN�� _TP�� o��"��G�2�2�222� �� l��F��,��_ `��zL�^��.��hA�%��x��>��/�p��wAo��Ā��`�'��+�a��Kŕр�6>��עH�� _Th�� oJ��"��\��G�2�2�222� �� n��G�,��_ ��zM�^��/T��jA�%�"�G��~��/�|��wA��̀��b�'��+�l��L3�р�6@��פB�� _T�� o��"��G�2�2�222� �� p��G�,��_��zN�^��0��lA�%�'��x��/��wA��Ҁ��d�'��+�V��L��р�6B��צ<�� ƀ��_T�� o��"��(��G�2�2�222� �� r��G�,��_#��zO�^��0΀��nA�%�,��g��/��wAɏ��ڀ��f�'��+�Z��M�р�6D��ר6�� ʀ��_T�� p��"��G�2�2�222� �� t��G�,��_��zP�^��1��pA�%�1��Ȁ��>��/��wA��h�'��+�F��M{�р�6F��ת0�� ΀��_TȀ�� pB��"��􏄀�G�2�2�222� �� v��G�,��_ P��zQ�^��2J��rA�%�6��Ȁ��~��/��wB��j�'��+�6��M�р�6H��׬*�� Ҁ��_T�� p��"��Z��G�2�2�222� �� x��G �,��_ ��zR�^��3��tA�%�;��/��wB#��l�'��+�>��NW�р�6J��׮$�� ր��_T�� p��"��G�2�2�222� �� z��G�,��_z��zS�^��3ƀ��vA�%�@��/�Ā��wBA��n�'��+�>��Nр�6L��װ�� ڀ��_U�� p��"��&��G�2�2�222� �� |��G�,��_��zT�^��4��xA�%�E��U��>��/�Ѐ��wB_��p�'��+�E��O/�р�6N��ײ�� ހ��_U(�� q:��"��G�2�2�222� �� ~��G�,��_��zU�^��5@��zA�%�J��x��~��/�܀��wB}��r�'��+�I��O��р�6P��״�� _U@�� qx��"��򏄀�G�2�2�222� �� G�,��_>��zV�^��5��|A�%�O��x��/��wB�� t�'��+�/��P �р�6R��׶�� _UX�� q��"��X��G�2�2�222� �� G�,��_ր��zW�^��6��~A�%�T��g��/��wB��v�'��+�#��Pw�р�6T��׸�� _Up�� q��"��G�2�2�222� �� G�,��_m��zX�^��7x��A�%�Y��Ȁ��>��/��wB׏��x�'��+��R�р�6V��׺�� _U�� r2��"��$��G�2�2�222� �� G�,��_��zY�^��86��A�%�^�ڥ��~��/��wB�� z�'��+�!��R�р�6X��׻�� _U�� rp��"��G�2�2�222� �� G�,��_��zZ�^��8��A�%�c��/��wC��&��|�'��+��ST�р�6Z��׽�� _U�� r��"��G�2�2�222� �� G�,��_.��z[�^��9��A�%�h��g��/�$��wC1��.��~�'��,��S��р�6\��׿�� Ā��_UЀ�� r��"��V��G�2�2�222� �� G�,��_Ā��z\�^��:l��A�%�m��x�ݿ��>��/�0��wCO��4��'��,��T-�р�6^�� ƀ��_U�� s*��"��G�2�2�222� �� G �,��_Z��z\�^��;,��A�%�r��~��/�<��wCm��<��'��,��T��р�6`�� Ȁ��_V�� sh��"��"��G�2�2�222� �� G"�,��_��z]�^��;��A�%�w�ֶ��/�H��wC��B��'��,��U �р�6b��܀�� ʀ��_V�� s��"��G�2�2�222� �� G$�,��_��z^�^��<��A�%�|��x��/�T��wC��J��'��,��Uw�р�6d��ր�� ̀�� _V0�� s��"����G�2�2�222� �� G&�,��_��z_�^��=d��A�%��U��>��/�`��wCǏ��P��'��,��U�р�6f��Ѐ�� ΀��_VH�� t"��"��T��G�2�2�222� �� G(�,��_��z`�^��>"��A�%��~��/�l��wC��X��'��,��VR�р�6h��ʀ�� Ѐ��_V`�� č��t`��"��G�2�2�222� �� G*�,��_M��za�^��>ހ��A�%��/�x��wD��^��'��,��V��р�6j��Ā�� Ҁ��_Vx�� ƍ��t��"�� G�2�2�222� �� G,�,��_��zb�^��?��A�%��/��wD!��f��'��,ǀ��W-�р�6l��Ͼ�� Ԁ��_V�� ȍ��t��"��G�2�2�222� �� G.�,��_x��zc�^��@X��A�%��g��>��/��wD?��l��'��,܀��W��р�6n��Ѹ�� ր��_V�� ʍ��u��"��쏄��G�2�2�222� �� G0�,��_��zd�^��A��A�%��~��/��wD]��t��'��, ��X�р�6p��Ӳ�� ؀��"��_V�� ̍��uX��"�� R��G�2�2�222� �� G2�,��_��zg�^��Aր��A�%��g��/��wD{��z��'��, ݀��Xm�р�6r��լ�� ڀ��&��_V؀�� ΍��u��"�� G�2�2�222� �� G4�,��_7��zh�^��B��A�%��ֶ��/��wD��'��,��Xەр�6t��צ�� ܀��*��_V�� Ѝ��u��"��!��G�2�2�222� �� G6�,��_΀��zi�^��CP��A�%��Ȁ��@��/��wD��'��,̀��YH�р�6v��٠�� ހ��.��_W�� ҍ��v��"��!��G�2�2�222� �� G8�,��_e��zj�^��D��A�%��Ȁ��/�̀��wDՏ��'��, ��Y��р�6x��ۚ�� 2��_W �� ԍ��vP��"��!ꏄ��G�2�2�222� �� G:�,��_��zk�^��Dʀ��A�%��D��/�؀��wD��'��,؀��Z$�р�6z��ݔ�� 6��_W8�� ֍��v��"��"P��G�2�2�222� �� G<�,��_��zl�^��E��A�%��x��/��wE��'��,Ѐ��Z��р�6|��ߎ�� :��_WP�� ؍��v��"��"��G�2�2�222� �� G>�,��_)��zm�^��FH��A�%��ڥ��@��/��wE/��'��,Ā��Z��р�6~��ሀ�� >��_Wh�� ڍ��w ��"��#��G�2�2�222� �� G@�,��_��zn�^��G��A�%��)��/��wEM��'��,̀��[l�р�6��む�� B��_W�� ܍��wH��"��#��G�2�2�222� �� GB�,��_W��zo�^��G��A�%��)��/��wEk��'��,��[ؕр�6��|�� F��_W�� ލ��w��"��#菄��G�2�2�222� �� GD�,��_��zp�^��H~��A�%��Ȁ��/��wE��'��,��\F�р�6��v�� J��_W�� w��"��$N��G�2�2�222� �� GF�,��_��zq�^��I<��A�%��Ȁ��@��/� ��wE��'��,��\��р�6��p�� N��_WȀ�� ⍆��x��"��$��G�2�2�222� �� GH�,��_ ��zr�^��I��A�%��ֶ��/�,��wEŏ��Ȁ��'��,��] �р�6��j�� R��_W�� 䍆��x@��"��%��G�2�2�222� �� GJ�,��_ ��zs�^��J��A�%��/�8��wE��΀��'��,��]��р�6��d�� V��_W�� 捆��x~��"��%��G�2�2�222� �� GL�,��_!J��zt�^��Kv��A�%��g��/�D��wF��ր��'��,��]��р�6��^�� Z��_X�� 荆��x��"��%揄��G�2�2�222� �� GN�,��_!߀��zu�^��L4��A�%��x��@��/�P��wF��܀��'��,��^h�р�6��X�� ^��_X(�� ꍆ��x��"��&L��G�2�2�222� �� GP�,��_"s��zv�^��L��A�%��/�\��wF=��'��,��^וр�6��R�� b��_X@�� 썆��y8��"��&��G�2�2�222� �� GR�,��_#��zw�^��M��A�%��x��/�h��wF[��'��,��_D�р�6��L�� f��_XX�� ��yv��"��'��G�2�2�222� �� GT�,��_#��zx�^��Nj��A�%��)��/�t��wFy��'��,��_��р�6��F�� j��_Xp�� y��"��'~��G�2�2�222� �� Ā��GV�,��_$4��zy�^��O(��A�%��ֶ��@��/��wF��'��,n��`�р�6��@�� n��_X�� 򍆀��y��"��'䏄��G�2�2�222� �� ƀ��GX�,��_$ʀ��zz�^��O��A�%��g��/��wF��'��,l��`��р�6��:��r��_X�� 􍆀��z0��"��(J��G�2�2�222� �� Ȁ��GZ�,��_%c��z{�^��P��A�%��g��/��wFӏ��'��,h��`��р�6��4��v��_X�� zn��"��(��G�2�2�222� �� ʀ��G\�,��_%��z|�^��Qb��A�%��/��wF��'��,J��ah�р�6��.��z��_XЀ�� z��"��)��G�2�2�222� �� ̀��G^�,��_&��z}�^��R ��A�%� ��Ȁ��@��/��wG��'��, \��aԕр�6��(��~��_X�� z��"��)|��G�2�2�222� �� ΀��G`�,��_'$��z~�^��R܀��A�%��)��/��wG-��'��,!o��bB�р�6��"��_Y�� {(��"��)⏄��G�2�2�222� �� Ѐ��Gb�,��_'��z�^��S��A�%��/�Ȁ��wGK��"��Ę'��,"U��b��р�6�� _Y�� {f��"��*H��G�2�2�222� �� Ҁ��Gd�,��_(O��z��^��TV��A�%��ڥ��/�Ԁ��wGi��*��Ƙ'��,#U��c�р�6��_Y0��{��"��*��G�2�2�222� �� Ԁ��Gf�,��_(��z��^��U��A�%�!��)��@��/��wG��0��Ș'��,$E��c��р�6�� _YH��{��"��+��G�2�2�222� �� ր��Gh�,��_)}��z��^��UҀ��A�%�&��/��wG��8��ʘ'��,%5��c��р�6�� _Y`��| ��"��+z��G�2�2�222� �� ؀��Gj�,��_*��z��^��V��A�%�+��Ȁ��/��wGŏ��>��̘(��,&P��df�р�6�� _Yx��|^��"��+��G�2�2�222� �� ڀ��Gl�,��_*��z��^��WN��A�%�0��x��/��wG��F��Θ(��,'T��dӕр�6��_Y��|��"��,F��G�2�2�222� �� ܀��Gn�,��_+A��z��^��X��A�%�5�ֶ��@��/��wH��L��И(��,(H��e?�р�6��_Y�� |��"��,��G�2�2�222� �� ހ��Gp�,��_+Ӏ��z��^��XȀ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 98 / 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 = 287675547.95072 TSTOP = 287681577.94596 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:56' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99523997307 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 320 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:18' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'LACdM89ZLACdL59Z' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3911754013' / data unit checksum updated 2010-02-18T17:05:18 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: sw00412081000b140x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:27 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��bck�q��.��ˀ��q��ǉ҈��!��1��Ӏ��ˉ҉�ދ��1��Ԁ��ԉ$��.��ڄى��/��܄��0��΀��A�%��.k�q��.��q��ߌ��Ɖ҈ۃ��!��0��߀��w��ˉӉ�Ӌ��0��ր�� ŉ#��/�� ڄ䉀��.��܄��0��A�%��,k�q��.�� &�ʉӈӃމ!��1��΀��w��͉ӈ��Ƌ��0��$��/��ގ�~��ڄ뉁��0��ބ��0��A�%��k�q��.��Ҏ$�b��ȉш̃� ��1��x��ΉԈ��ȋ��0���$��/�� ڄ��/��Ѐ��܄��0��A�%��t?k�q��-��Ҁ��}��݌��ɉ҈Ń��!��0��w��ωӈ�ɋ��/��܀��般�$��.��׎�y��څ��.��׀��܄��/��A�%�1��}k�q��-��u��̉҈ʄ� ��0��{��Љӈ��/��Ҁ��툭�%��.��څ��.��݄Ȉ��/��A�%�O��k�q��/��r��ΉԈ҃�� 1��y��ω҉�ϋ��0��$��/�� څ'��0�� ބ݈��1��݀��A�%�m��k�q��/��q��͉҈߄�!��1��z��щӉ�㋏��/��։%��/��ۅ1�~��/��݄눯��0��A�%��|k�q��.��v�� Ή҈�� 1��߀��|��Ӊԉ�勏��0��ˀ��؉%��0�� م7��0��ŀ��߄��0��߀��A�%��Hk�q��.��t��ω҈؄��1��׀��z��ӉӉ�׋��1��͉%��/��ۅF��/��À��݄��0��r��A�%��k�q��-��K��q��ߌ��ω҈ф,� ��0��H��u��Ӊш��ҋ��0��c��Ɖ&��.��;�� ۅP��.��݄��/��A�%��0k�q��.��򍂍��҉Ո̄;��0��x��ԉӈ�΋��0��戽�&��/��܎�~��م]��/��0��ۀ��A�%��Ok�q��.��Հ��q��щ҈˄K��0��{��Չӈ�͋��/��舭�%��.��څo��/��b��߅!��/��A�%�!��k�q��.��Ў.�b��ԉ҈΄P��0��F��|��։҈��ŋ��/��(��&��/��&��ۅ��/��^��݅4��/��A��A�%�?�D�k�q��/��Ҏ.�e��!�Ӊ҈ۄO��1��؉ԉ�Ӌ��1�� Ɖ&��0��څ��0��݅G��1��A�%�]�!k�q��-��J��z��!�։ӈ�F��/��G��r��׉҉�݋��/��K��ω%��.��8��څ��.��m��߅Q��/��A�%�{��k�q��.��َ�h��։҈؄O� ��0��W��x��׉щ�Ћ��/��-��É&��.��"�� ܅��/��ޅT��0��4��A�%��k�q��/��׎$�f��׉ӈфq� ��1�� ډш��͋��1��Հ��"�� '��0��݀��څ��0��߅[��1��A�%��ık�q��.��r��׉҈̈́�� 0��퍅��ىш��ʋ��0��鈾�'��/��܅��/��ޅf��0��A�%��_k�q��.��V��q��ډԈɄ�� 0��ۉ҈�ˋ��0��!�� ∬�(��/��م͉��0�� v��0��ŀ��A�%��k�q��-��K��q��ډӈɄ��!��/��I��v��ۉш�ǋ��/��=��爵�(��.��c�� ܅㉀��.��߅��/��A�%��Nk�q��/��t��܉Ԉф�� 1�� t��މӈ��׋��2�� ˉ(��0��À��م��1��s��ޅ��1��3��A�%�/�k�q��-�� u��܉ӈۄ��0��z��މӉ�拎��/��΀��ۉ'��.��م�~��/��݅��/��ހ��A�%�M�g�k�q��/��u��܉Ԉ�� 2��|��!�߉Ӊ�ދ��1�� Љ'��0��م��~��1��ޅ��1��A�%�k�Uk�q��.��'�݉ՈԄ��!��1��w��Ԉ��Ӌ��0��K��ǉ'��/��ߎ��څ��/��܅��0��3��A�%��k�q��.��$��#�u��(�݉҈̄��"��1��!�߉ӈ�ϋ��0��$�� &��/�� چ��/��݅��0��A�%��Sk�q��-��x��ݎ�j�� ܉҈˄É"��/��_��҈�Ћ��/��"�~�� 舶�&��/�� ۆ�~��.��ޅ��/��A�%��,�k�q��/��܀��q��݉҈Ʉ͉!��1��z��ш�ˋ��0��鈨�%��/��!�܆"��/��ޅˈ��0��A�%��|k�q��.��s��߉Ԉ̈́ȉ"��1��z��҈�ɋ��0�� �&��/��ŀ��!�؆:�~��/��р��ޅ׈��0��}��A�%��Rk�q��-��s��߉҈ф!��0��ـ��z��ш��ً��/��݀��͉%��.��#�ۆC��/��߅∭��/��݀��A�%��Dk�q��/��v��Ոׄ��!��1��|��Ӊ�܋��0�� Љ%��/��!�چC��/��܅刭��0��+��A�%�=��k�q��.��u��߉҈ӄΉ"��0��}��щ�Ӌ��0�� ǉ%��/��z��$�چA��/��V��ޅ䈭��/��.��A�%�[�}kk�q��/��w��ӈτ�"��0��}��ӈ��̋��0�� �$��0�� $�چ<�~��0��ޅር��1��A�%�y�]�k�q��.��ހ��z��!��҈΄߉"��0��s��҈��΋��/��Հ��󈹉$��/��#�ۆ=��.��݅∮��/��~��A�%��Zk�q��/��"��Ԉ΄�#��1��Ӏ��u��҈�ʋ��1��툪�%��0��ގ��"�نB��/��ޅ戯��1��A�%��k�q��/��􍇍��Ԉʄ��#��2��x��҈�ȋ��1�� 舻�$��0��܎��#�؆P��1��ޅꈯ��1��A�%��k�q��.��q��ӈɄ߉$��0�� 퍅��ӈ��؋��0��̉$��/��$�ۆV��/��!��ޅ��0��A�%��jk�q��/��t��߉шτˉ#��1��{��҈��݋��0�� Љ#��/�� &�ۆQ��0��ޅ򈭀��0��A�%��,k�q��-��َ�i��ӈЄۉ$��0��8��x��Ԉ��Ћ��/��ـ��ŉ#��.�� %�چK��/��p��܅��/��A�%�-��k�q��/�� ӈτމ$��2��x��҈��ɋ��2�� #��0��܎��'�ۆC��0��ޅꈮ��1��A�%�K�Uk�q��/��u��҈ӄމ%��1��р��~��ш��ˋ��1�� "��0��р��&�؆9��0��߅刯��1��A�%�i��{k�q��.��ӎ"�c��ӈԄ݉#��0��x��Ӊ�ɋ��0�� "��.��%�ن7��/��܅ڈ��0��A�%��k�q��.��Ԁ��s��҈Є׉$��1��{��҈��͋��0��"��/��؀��퍗��%�؆5��0��Ѐ��ޅԈ��0��π��A�%��k�q��0��r��Ԉ҄ۉ%��2��|��҈��ߋ��1��Ӊ"��0��(�چ0��0��ޅш��1��A�%��a�k�q��/��r��߉ӈ˄��%��1�� y��ӈ�ۋ��0��݀��Ή!��/��'�چ+��/�� ܅͈��0��A�%��k�q��/��e�� 􍇍��ԈɄω%��2��m��x��ӈ�Ћ��1��Ҁ�� ĉ"��1��q��ݎ��&�ن(��1��r��݅ψ��1��A�%��k�q��/��Ԁ��"��шȄˉ%��1�� u��ш�ʋ��1�� �!��0��ގ��&�چ(��0��ޅӈ��1��A�%��k�q��/��u��݉ш̄ʉ&��1��|��Ј��͋��1��߀�� 󈮉 ��0��/�� )�܆#��0��߅҈��1��A�%�;��k�q��-��߉ӈτƉ$��0��v��҈��ȋ��/�� /��ێ�~��(�چ �~��/�� ޅʈ��/��A�%�Y��k�q��.��Ȁ��t��Ԉ҄ǉ#��1��~��҈��ы��0��׀��ĉ ��0��'�ن�~��0��܅È��0��݀��A�%�w�T�k�q��/��v��߉҈ЄÉ%��1��w��҈��ދ��0��ԉ ��/��'�ۆ��/��*��ޅ��0��A�%��k�q��0��(��t��މӈф��%��2��|��ш��׋��1�� ȉ!��1��(�چ�~��0��ޅ��2��A�%��k�q��.��u��݉҈τ��$��1�� v��ш��ϋ��0�� É!��/��Ā��&�؅��~��0��܅��0��ǀ��A�%��`k�q��.��ހ��t��݉ӈф��$��1��}��҈��̋��1��󈺉!��/��%�؅��0��܅��1��A�%��k�q��.��މ҈˄��#��0��w��҈�ʋ��/��� ��/��ێ�~��&�څ��/�� ܅��/��A�%� ��k�q��-��Ў*�b��݉Ԉ˄��#��0�� $��ӈ�Ƌ��0��투�!��/�� &�م�~��/��܅��0��ۀ��A�%�+��k�q��.��%�s��'�܉Ԉ̈́��#��0��҈��ҋ��0��B��"�~��ŉ!��/��&�م�~��/�� ܅��0��A�%�I��Dk�q��/�� q��ډ҈τ��$��1��҈��勐��1�� ډ!��0��р�� '�م��0�� ޅ��1��%��A�%�g�k�q��.��+��u��ۉш̈́��#��1��H��v��҈��拏��0��B�� ى!��0��E��$�م݉~��/��[��ۅ��0��[��A�%��v�k�q��/��Z��v��؉шτ��$��1��{��ш��܋��1��Ή!��0��'�څЉ~��0�� ߅��0��A�%��k�q��.��v��ډӈӄ��"��/��}��҉�ҋ��/�� Ɖ"��/��#�؅~��/��ۅx��0��A�%��k�q��.��u��׉҈ф��"��1��{��߉щ�ϋ��0�� !��/��!�� '�څ��/��ޅl��0��A�%��y}k�q��/��`��w��؉҈τ{�"��2��P��}��҈��ϋ��1��8��#��0��G��#�ׅ��0��a��ޅb��1��N��A�%��!Bk�q��/��^��r��׉҈τx�!��1��W��|��߉ш��ȋ��1��I�� �#��0��m��#�څ��0��\��߅^��1��Y��A�%��k�q��.��x��r��ԉшǄk�#��0��Q��y��݉ш�ȋ��/��Y�� 戹�#��/��s��$�څ��~��/��܅W��/��k��A�%�9��k�q��/��~��u��׉Ԉńk�"��2��b��}��߉ӈ�΋��1��k�� É$��0��"�؅��~��0��܅U��1��z��A�%�W�ϖk�q��.��^��u��ԉӈń[�!��1��v��{��݉ш�ҋ��0��n�� ŉ$��0��!�څ��0��ޅV��1��A�%�u��,k�q��-��}��ތ��҉҈ɄW�!��0�� p��ۉЈ�ҋ��/��ĉ#��.��x��ߎ��م��.��݅R��/��|��A�%��P�k�q��.��ގ-�p��'�҉҈̈́T� ��0��!�ډш��׋��0��!��ɉ#��/�� م��~��/��ޅM��0��b��A�%��k�q��/��y��҉҈΄R� ��2�� y��!�܉ӈ��Ћ��1�� ĉ$��0��م��~��0��ۅ@��1��A�%��k�q��-��w��ЉӈЄL��0��|��ډ҈��΋��/��#��.�� مv�|��.��݅9��/��A�%��:*k�q��/��u��ЉԈфG� ��1��y��ډ҉�ʋ��0��%��/��؅m�~��/��߅.��0��A�%��v�k�q��.��v��͉҈Є@� ��0��~��׉҉�͋��0�� %��/��؅e��/��݅��0��A�%�)�T�k�q��-��ƀ�� t��͉шτ<� ��0��Ҁ��y��׉҉�Ջ��/��ɉ%��/��مX�~��/��݅��/��A�%�w��.k�q��-��q��҈ǃ�� 0��t��҈�͋��/��׉�䈺�"��/�� ۄʉ��.��ʉ܄~��/��A�%��-wk�q��/��u�� Јă�� 1��}��ӈ�͋��1��i�� ։�㈩�#��0��ۄމ��/��ʉ݄��0��V��A�%��_�k�q��/��{��w�� шɃ��!��1��o��v��!��҈�ɋ��1��W��ى�񈹉#��0��e��ڄ�}��0��^��͉݄��1��G��A�%��k�q��/��W��q��ԈՃ�� 1��҉�݋��1��m�� ى��҉#��0��u��ۅ�~��0��Ή܄��0��F��A�%��k�q��/��y��u�� ш݃��!��1��}��҉�狐��1��c�� ܉��ۉ$��/��څ�}��/��щބЈ��0��o��A�%� ��3k�q��.��Ύ2�^��҈׃��!��1��D��~��щ�ڋ��0��"�� މ��̉$��.��#�� ؅��/��؀��ԉބӈ��0��A�%�+�:k�q��.��y��'��҈σ�"��0��}��u��҈��ҋ��0��P��߉��ĉ%��/��\��ڎ�{��م&��/��]��։ބވ��0��V��A�%�I��k�q��.��r��҈Ʉ�!��0��|��ш�̋��0�� ߉�鈻�$��/�� څ9��/��։݄ꈯ��0��o��A�%�g��k�q��.��q��҈ń�!��1��x��ш�̋��0��>��戩�$��/��څN�~��0��Չޅ��0��A�%�� k�q��.��f��|��ތ��Ԉʄ�"��0��y��ш�΋��/��e��%��.��b��Վ�w��ۅc�~��.��_��؉܅��0��K��A�%��Lk�q��.��n��ӈԄ �#��0�� 덇��Љ�勐��/��Ѐ��ى%��.��څr�~��/��ۉ݅.��0��̀��A�%��k�q��.��ǀ��r��ӈ݄�"��0��Ӏ��w��҉ �ދ��/��ԉ&��/��څ|��/��ۉ݅;��0��ڀ��A�%��k�q��.��p��҈ڄ8�#��/��҉ �ҋ��0��Ӏ�� ɉ&��/��څ��/��!��܉݅@��0��A�%��k�q��/��s��ӈ҄S�$��1��z��ш��̋��1���&��0��l�� څ��0��c��މޅF��1��A�%��k�q��/��}��t��҈Ʉa�#��1��w��|��ӈ�΋��1��q�� 刭�%��/��ۅ��/��߉݅S��0��ɀ��A�%�9��Rk�q��/��ю.�c�� ӈńf�#��1��ހ��ш�ǋ��1�� ވ��&��0�� څ��0��ۅe��1��A�%�W�,�k�q��-��r��шń^�$��0��߀��ӈ�݋��/��ω&��.��̀��ׅΉ��.��ޅ|��/��A�%�u��k�q��.��؀�؎�h��ߌ��ӈ˄W�%��0��x��ш�싐��0��މ&��/�� څډ~��/��ހ��݅��/��Ӏ��A�%��ak�q��-��ю%�c��ߌ��҈Մ_�$��0��̀��x��ÉЉ�ދ��0��Ӊ&��.��څ��/��݅��0��܀��A�%��k�q��.��ڀ�� p��ߌ��шք��%��0��ŀ��o��É҉�֋��0��̉(��/��Ԁ�ݎ�~��م�~��/��׀��ޅ��0��À��A�%��k�q��.��R��u��҈΄��$��0��{��ŉш��͋��0��}��툿�'��.��ۅ��/��܅��/��ހ��A�%��U�k�q��.��t��ǉԈ̈́��%��0��}��ŉ҈�ϋ��0���'��/��څ��/��܅��0��؀��A�%��,k�q��.��w��Ɖ҈˄��%��0��{��&�ȉӈ��ʋ��0��À���'��/�� چ ��/��݅��0��ـ��A�%�)�*ok�q��.��q��ǉ҈Ʉ��%��0��z��ȉш��Ջ��0��ȉ'��/�� 덙��ن �~��/��݅��0��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 98 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 107 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB05M25VLT' / PW HK Pkt; Block 05 -2.5 Voltage TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL2 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT2 = 'V ' / physical unit of field TTYPE3 = 'BPWHKB05P35VLT' / PW HK Pkt; Block 05 +3.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL3 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB05M35VLT' / PW HK Pkt; Block 05 -3.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL4 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB05P50VLT' / PW HK Pkt; Block 05 +5.0 Digital Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL5 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB05P75VLT' / PW HK Pkt; Block 05 +7.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL6 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB05M75VLT' / PW HK Pkt; Block 05 -7.5 Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL7 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB05CVTTEMP' / PW HK Pkt; Block 05 DC-DC Converter Module TempTFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL8 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'BPWHKB05TEMP' / PW HK Pkt; Block 05 Temperature TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL9 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT9 = 'Celsius ' / physical unit of field TTYPE10 = 'BPWHKLHPA5TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ CC inlet TemperTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKMASK1TEMP' / PW HK Pkt; Mask Temperature (top, +Y/+Z) TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKSPARE05TMP' / PW HK Pkt; Block 05 Spare Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKB06PRITEMP' / PW HK Pkt; Block 06 SetPointTemp Primary HeaterTFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPWHKB06SECTEMP' / PW HK Pkt; Block 06 SetPointTemp 2ndary Heater TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB06SPARE0' / PW HK Pkt; Block 06 Spare 0 TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB06SPARE1' / PW HK Pkt; Block 06 Spare 1 TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB06INPUTI' / PW HK Pkt; Block 06 Input Current for DC-DC ConTFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL17 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT17 = 'A ' / physical unit of field TTYPE18 = 'BPWHKB0625GND' / PW HK Pkt; Block 06 Voltage on 2.5 Ground ReturTFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB06P25VLT' / PW HK Pkt; Block 06 +2.5 Voltage TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL19 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT19 = 'V ' / physical unit of field TTYPE20 = 'BPWHKB06M25VLT' / PW HK Pkt; Block 06 -2.5 Voltage TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL20 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT20 = 'V ' / physical unit of field TTYPE21 = 'BPWHKB06P35VLT' / PW HK Pkt; Block 06 +3.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL21 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB06M35VLT' / PW HK Pkt; Block 06 -3.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL22 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB06P50VLT' / PW HK Pkt; Block 06 +5.0 Digital Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL23 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB06P75VLT' / PW HK Pkt; Block 06 +7.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL24 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB06M75VLT' / PW HK Pkt; Block 06 -7.5 Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL25 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB06CVTTEMP' / PW HK Pkt; Block 06 DC-DC Converter Module TempTFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL26 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'BPWHKB06TEMP' / PW HK Pkt; Block 06 Temperature TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL27 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT27 = 'Celsius ' / physical unit of field TTYPE28 = 'BPWHKLHPA6TEMP' / PW HK Pkt; LHP 0 (+Y) LiqLine @ Cond Outlet TemTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKMASK2TEMP' / PW HK Pkt; Mask Temperature (top, -Y/+Z) TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKSPARE06TMP' / PW HK Pkt; Block 06 Spare Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKB07PRITEMP' / PW HK Pkt; Block 07 SetPointTemp Primary HeaterTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BPWHKB07SECTEMP' / PW HK Pkt; Block 07 SetPointTemp 2ndary Heater TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB07SPARE0' / PW HK Pkt; Block 07 Spare 0 TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB07SPARE1' / PW HK Pkt; Block 07 Spare 1 TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB07INPUTI' / PW HK Pkt; Block 07 Input Current for DC-DC ConTFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL35 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT35 = 'A ' / physical unit of field TTYPE36 = 'BPWHKB0725GND' / PW HK Pkt; Block 07 Voltage on 2.5 Ground ReturTFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB07P25VLT' / PW HK Pkt; Block 07 +2.5 Voltage TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL37 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT37 = 'V ' / physical unit of field TTYPE38 = 'BPWHKB07M25VLT' / PW HK Pkt; Block 07 -2.5 Voltage TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL38 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT38 = 'V ' / physical unit of field TTYPE39 = 'BPWHKB07P35VLT' / PW HK Pkt; Block 07 +3.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL39 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB07M35VLT' / PW HK Pkt; Block 07 -3.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL40 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB07P50VLT' / PW HK Pkt; Block 07 +5.0 Digital Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL41 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB07P75VLT' / PW HK Pkt; Block 07 +7.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL42 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB07M75VLT' / PW HK Pkt; Block 07 -7.5 Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL43 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB07CVTTEMP' / PW HK Pkt; Block 07 DC-DC Converter Module TempTFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL44 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'BPWHKB07TEMP' / PW HK Pkt; Block 07 Temperature TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL45 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT45 = 'Celsius ' / physical unit of field TTYPE46 = 'BPWHKLHPA7TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Evap Outlet TemTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKMASK3TEMP' / PW HK Pkt; Mask Temperature (top, -Y,-Z) TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKSPARE07TMP' / PW HK Pkt; Block 07 Spare Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKB08PRITEMP' / PW HK Pkt; Block 08 SetPointTemp Primary HeaterTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BPWHKB08SECTEMP' / PW HK Pkt; Block 08 SetPointTemp 2ndary Heater TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB08SPARE0' / PW HK Pkt; Block 08 Spare 0 TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB08SPARE1' / PW HK Pkt; Block 08 Spare 1 TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB08INPUTI' / PW HK Pkt; Block 08 Input Current for DC-DC ConTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL53 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT53 = 'A ' / physical unit of field TTYPE54 = 'BPWHKB0825GND' / PW HK Pkt; Block 08 Voltage on 2.5 Ground ReturTFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB08P25VLT' / PW HK Pkt; Block 08 +2.5 Voltage TFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL55 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT55 = 'V ' / physical unit of field TTYPE56 = 'BPWHKB08M25VLT' / PW HK Pkt; Block 08 -2.5 Voltage TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL56 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT56 = 'V ' / physical unit of field TTYPE57 = 'BPWHKB08P35VLT' / PW HK Pkt; Block 08 +3.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL57 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB08M35VLT' / PW HK Pkt; Block 08 -3.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL58 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB08P50VLT' / PW HK Pkt; Block 08 +5.0 Digital Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL59 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB08P75VLT' / PW HK Pkt; Block 08 +7.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL60 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB08M75VLT' / PW HK Pkt; Block 08 -7.5 Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL61 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB08CVTTEMP' / PW HK Pkt; Block 08 DC-DC Converter Module TempTFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL62 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'BPWHKB08TEMP' / PW HK Pkt; Block 08 Temperature TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL63 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT63 = 'Celsius ' / physical unit of field TTYPE64 = 'BPWHKLHPA8TEMP' / PW HK Pkt; LHP 0 (+Y) VapLine @ Cond Outlet TemTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKMASK4TEMP' / PW HK Pkt; Mask Temperature (top, +Y,-Z) TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKIPPRI0TEMP' / PW HK Pkt; IP Primary LVPC TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BPWHKB09PRITEMP' / PW HK Pkt; Block 09 SetPointTemp Primary HeaterTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 32768 / offset for unsigned integers TTYPE68 = 'BPWHKB09SECTEMP' / PW HK Pkt; Block 09 SetPointTemp 2ndary Heater TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB09SPARE0' / PW HK Pkt; Block 09 Spare 0 TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB09SPARE1' / PW HK Pkt; Block 09 Spare 1 TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB09INPUTI' / PW HK Pkt; Block 09 Input Current for DC-DC ConTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL71 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT71 = 'A ' / physical unit of field TTYPE72 = 'BPWHKB0925GND' / PW HK Pkt; Block 09 Voltage on 2.5 Ground ReturTFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB09P25VLT' / PW HK Pkt; Block 09 +2.5 Voltage TFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL73 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT73 = 'V ' / physical unit of field TTYPE74 = 'BPWHKB09M25VLT' / PW HK Pkt; Block 09 -2.5 Voltage TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL74 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT74 = 'V ' / physical unit of field TTYPE75 = 'BPWHKB09P35VLT' / PW HK Pkt; Block 09 +3.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL75 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB09M35VLT' / PW HK Pkt; Block 09 -3.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL76 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB09P50VLT' / PW HK Pkt; Block 09 +5.0 Digital Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL77 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB09P75VLT' / PW HK Pkt; Block 09 +7.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL78 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB09M75VLT' / PW HK Pkt; Block 09 -7.5 Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL79 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB09CVTTEMP' / PW HK Pkt; Block 09 DC-DC Converter Module TempTFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL80 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'BPWHKB09TEMP' / PW HK Pkt; Block 09 Temperature TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL81 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT81 = 'Celsius ' / physical unit of field TTYPE82 = 'BPWHKLHPA9TEMP' / PW HK Pkt; LHP 0 (+Y) Block/DM Temperature (A9)TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKPLATE0TEMP' / PW HK Pkt; DAP Temperature (top, +Y/+Z) TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKIPPRI1TEMP' / PW HK Pkt; IP Primary LVPC TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 32768 / offset for unsigned integers TTYPE85 = 'BPWHKB10PRITEMP' / PW HK Pkt; Block 10 SetPointTemp Primary HeaterTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWHKB10SECTEMP' / PW HK Pkt; Block 10 SetPointTemp 2ndary Heater TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKB10SPARE0' / PW HK Pkt; Block 10 Spare 0 TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB10SPARE1' / PW HK Pkt; Block 10 Spare 1 TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB10INPUTI' / PW HK Pkt; Block 10 Input Current for DC-DC ConTFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL89 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT89 = 'A ' / physical unit of field TTYPE90 = 'BPWHKB1025GND' / PW HK Pkt; Block 10 Voltage on 2.5 Ground ReturTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB10P25VLT' / PW HK Pkt; Block 10 +2.5 Voltage TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL91 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT91 = 'V ' / physical unit of field TTYPE92 = 'BPWHKB10M25VLT' / PW HK Pkt; Block 10 -2.5 Voltage TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL92 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT92 = 'V ' / physical unit of field TTYPE93 = 'BPWHKB10P35VLT' / PW HK Pkt; Block 10 +3.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL93 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB10M35VLT' / PW HK Pkt; Block 10 -3.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL94 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB10P50VLT' / PW HK Pkt; Block 10 +5.0 Digital Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL95 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB10P75VLT' / PW HK Pkt; Block 10 +7.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL96 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB10M75VLT' / PW HK Pkt; Block 10 -7.5 Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL97 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB10CVTTEMP' / PW HK Pkt; Block 10 DC-DC Converter Module TempTFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL98 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'BPWHKB10TEMP' / PW HK Pkt; Block 10 Temperature TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL99 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT99 = 'Celsius ' / physical unit of field TTYPE100= 'BPWHKLHPB0TEMP' / PW HK Pkt; LHP 1 (-Y) Comp Chamber (CC) TemperaTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKPLATE1TEMP' / PW HK Pkt; DAP Temperature (Block Htr ControlleTFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKIPPRI2TEMP' / PW HK Pkt; IP Primary MIC Board Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 32768 / offset for unsigned integers TTYPE103= 'BPWHKB11PRITEMP' / PW HK Pkt; Block 11 SetPointTemp Primary HeaterTFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BPWHKB11SECTEMP' / PW HK Pkt; Block 11 SetPointTemp 2ndary Heater TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 32768 / offset for unsigned integers TTYPE105= 'BPWHKB11SPARE0' / PW HK Pkt; Block 11 Spare 0 TFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB11SPARE1' / PW HK Pkt; Block 11 Spare 1 TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB11INPUTI' / PW HK Pkt; Block 11 Input Current for DC-DC ConTFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL107= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT107= 'A ' / physical unit of field EXTNAME = 'hk141x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675547.9523 TSTOP = 287681577.94746 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:56' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99515998363 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 321 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:18' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'hNL8kLK5hLK5hLK5' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1325995824' / data unit checksum updated 2010-02-18T17:05:18 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: sw00412081000b141x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:27 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��݌�� ߈P��0��X��!��ڃÈ��/��ڎ ��܈�q��/��Ј��0��܌ލ��ډ��Q�݂��1��Ҁ��0��A�%��b̎��܌��:��/��\�� ك͈��/��܀�ێ��܈�q��.��Љ��/��ހ��ڌݍ��ى��R�݂��0�� р��/��A�%��Sz��܌�� ވ1��0��z��ڃ눣��/��َ ��܈ވq��0��ш��0��ڌ܍��׉��T�ނ��0��̀�� р��0��A�%��7"��܌��󈛀��0�� ڃ��/��À�ڎ ��ۈֈq��.��҈툍��/��܌ݍ��ى��P�ނ��0�� р�� /��A�%��ˎ��ٌ��/��|�� ڄ��.��֎��ۈ͈q��/��ր�� Ј戍��/��߀��׌ٌ��ى��P�݂��/��!��р��-��A�%�1�sm� ��ی��߇��0�� ل��-��Ԏ��܈Έq��/��ڀ��ш鈋��/��یݍ��׉��O�݂��/��ހ��р�� .��A�%�O��ߎ��݌��߇爝��1��l��.��"��ل��/��ݎ ��ۈوq��0�� ш��0��݌ލ��ى��P�ނ��1��̀��р��0��A�%�m�}��%��߈o��0��R��)��!��ڄ��/��َ ��݈�p��/��ш��/��ڌ܌��؉��Q�݂��0��Հ�ڎ+��Ҁ��/��A�%��Z��ߌ��#��߈��1��8��#��#��ك��/��ߎ ��ڈ�p��/��!��҉��0��N��ތ��ى��R�݂��1��i��р��0��dA�%��a��݌��ވ<��1��̀��"��!��ڄ,��/��i��݈�t��0��m�� ш��/��یݍ��׉��Q�ނ��1��Ҁ��/��HA�%��]��ڌ��݈��0��G�� ڄ;��/��ހ�َ�� ݈ۈs��.��ۀ��ш��/��ٌڌ��׉��Q�߂��/��Ҁ��.��A�%��S��܌�� ߇ˈ��0�� ؄J��/��ր�ڎ��ڈψq��/��҈戍��/��ڌ܍��ى��R�ނ��0��р��.��A�%��ߌ�� ߇��0��-��!��؄P��.��ݎ�� ڈʈr��/�� ҈舌��/��Ԁ��݌ލ��ى��P�ނ��/��р��/��A�%�!�h ��ތ��!��߇��0�� ؄P��.��l��ێ��܈Ԉs��-�� ш��/��݌ލ��؉��N�ނ��0��(��Ѐ�� /��A�%�?�D��#� ��:��1��n��"��#��ڄH��/��ݎ ��!�܈�r��0��ƀ��!� �Љ��1��݌ލ��ى��P�߂��1��Ҁ��#��0��A�%�]��ތ��"� �߈��/��O�� ؄D��.��ڎ��"�ۈ�q��/�� ҉��/��܌ݍ��ى��R�߂��/��߀��Ѐ��%��.��A�%�{�[W��ߌ��!� �ވ9��0��"��ׄe��/��7��ێ ��$�݈�r��/��$�� ҈��/��>��݌ލ��؉��R��/��Ѐ��*��/��7A�%��Վ��ߌ�� ވ*��1��$��ل��/��ގ ��$�ۈ؈q��0�� ҈񈍍��0��݌ݍ��ى��S��1��р��+��0��A�%��(��݌�� އꈜ��0��~��ׄ��/��7��َ��%�݈҈s��/��҈鈎��0��ی݌��؉��R�ႃ�0��?��р��-��0��FA�%��L��ߌ��"� �߇��0��f��!��!��؄��/��ێ��$�ڈɈr��0��ш∎��0��ǀ��݌ߍ��ى��O�߂��0��Ҁ��/��/��A�%��]��ی�� ߇��/��؄��/��΀�َ��&�ۈʈr��.��҈鈎��/��ߎ��ڌی��ى��P�₄�/��߀��р��2��.��A�%��8ڎ��ތ��$��2�� "��ڄ��/��$��ݎ��&�܈Ԉs��.��:�� Ј��0��T��܌ލ��؉��P�ႄ�2��@��Ҁ��4��0��VA�%�/��&� ��ތ��!��/��q��!��ڄ��/��؎ ��&�܈�r��.�� ω ��/��܌ݍ��։��N�ႃ�/��Ӏ��р��5��.��A�%�M�̎��#��1��y��!��%��ڄ��0��܎ ��'�ۈ�s��1��"��Љ��1��ތߍ� �؉��P�₃�2��Ѐ��9��1��A�%�k��݌��!��ވ��1��ل��/��؎��)�݈߈t��0��N�� ш󈎎��0��܌ݍ� �׉��Q�₄�1��Ҁ��Ѐ��:��0��A�%��f��ތ�� ݇򈛀��1��#��"��لʈ��.��ݎ��*�݈ֈt��/��ш숏��0�� ܌ݍ� �׉��Q�₄�0��π��=��0��A�%��򶮎��݌��އÈ��/��b��!��"��لԈ��-��ݎ��+�ۈЈs��/��҈爍��/��یݍ�"�؉��P�䂃�/�� Ѐ��@��/��A�%��󷕎��%��އ��1��x��%��!��ׄۈ��/��ߎ��+�ۈψu��/��"��!��ш舍��0��݌ލ�#�ى��O�䂃�1��Հ��р��B��0��A�%��X��$��0��"��ڄ܈��/��h��Վ��*�܈шt��/��V��%��Ј��/��n��݌ߍ�#�։��N�傁�1��Ѐ��E��/��5A�%��t?��݌�� ߇��/��p�� ؄ڈ��/��َ��*�ڈ׈r��.��ǀ�� ψ��/��݌ލ�%�ى��O�傂�/��ހ�� р��F��.��A�%��%1��ތ��"��݇��0��a��!��"��ڄ׈��/��ݎ ��-�݈��s��/��!��ш��0��B��݌��$�؉��Q�傂�0��Ѐ��I��0��A�%�=�� ׌��߇��/��À� ��!��؄׈��.��p��َ��+�ڈވu��/��R��&��҈��0��e��ތߍ�%�׉��Q�傃�0��,��ێ+��!�р��K��/��A�%�[��$��ވ��1��"��#��؄��0�� +�ۈ׈u��0��Ј��0��ތ��&�ى��P�悂�1��!�р��M��0��A�%�y��z��݌��"��ވ��/�� ل��.��َ��-�ۈՈr��/��ψ��/��܌ݍ�$�׉��Q�悂�/��!�Ѐ��O��.��A�%��ތ��"��߇ψ��1��n��"��"�!�څ��0��܎��.�܈Ոs��0�� ш숎��/��܌ލ�%�׉��P�炂�1��Ѐ��S��0��A�%��Z��ߌ��"��߇��2�� "�"�ۅ ��/��ێ��0�܈шu��0��݀��!��҈鈏��1��܌ލ�%�׉��O�炃�1�� Ѐ��U��1��A�%��Tʎ��݌��!��އ��0��a��"�؅��/��؎��0�܈ψt��/��ш툍��/��ڌ݌��%�׉��M�肂�0�� Ѐ��V��/��A�%��\��ތ��!��އ��1��~�� "��؅��0��܀�ގ��-�ڈՈu��0�� Ј􈏎��0�� ܌ލ�'�ى��P�邃�1��"�Ҁ��W��0��A�%��Wi��ތ��"��݇��0�� !�!�؄��/��ڎ ��/�܈ڈt��/�� ҈��/��݌ߍ�&�؉��P�邃�/��!�Ѐ��Y��/��A�%�-󢜎��ߌ��"��އ~��2��`��!��"�"�؄��0��܎��0�܈ڈs��1�� "��ш�� 1��܌ݍ�%�׉��Q�ꂃ�1��"�Ҁ��\��0��A�%�K��ڌ��0��&� ��#�!�ڄ��0��ێ��0�ۈ݈v��0�� "��Ј��0��ތ��(�։��O�ꂂ�1��̀�ݎ.��"�р��\��0��A�%�i�?h��݌�� އ鈜��0�� ل��/��Ӏ�ڎ��0�݈�u��/��҈�� /��܌ލ�'�׉��P�낄�0��!�Ѐ��]��/��A�%��a��ی��1��e��+��!�"�څ��/��ݎ��0�܈ۈv��/��ݎ��ш􈏎 ��0��ƀ��یލ�&�׉��O�낄�0��"�π��^��0��A�%��o��#��އ��2��"��$� �؄��0��ހ�ڎ��.�ۈڈw��0��#��ш􈏎 ��1�� ތߍ�)�׉��P�낄�2��$��"�р��_��1��A�%��q��%��߇È��0��!�!�م��0��ʀ�Վ��/�ۈ҈v��/��!��ш鈐��0��܌ލ�'�؉��Q�낄�0��"�Ѐ��_��0��A�%��Q��ߌ��"��߇��2�� "� �؅��0��Հ�ێ��/�ڈψw��0��!��ш鈐� ��0��܌ލ�'�׉��Q�삄�2��,��"�р��a��0��A�%��v��݌��"��އ��1�� "��#�!�؄��0��ݎ��2�ۈЈu��0��ƀ��ш숎��0��܌ލ�'�׉��N�킂�1��!�Ѐ��b��1��0A�%��Z��ތ��!��߇��1��"��#� �ل��/��ߎ��0�ۈՈv��0��!��Ј񈎎��0��݌ߍ�(�׉��N�킄�1��!�р��b��1��A�%�;�2M��ތ��!��އ��/��!��؄툣��.��ڎ��/�ڈ؈u��/��!��ψ􈏎��/��܌ݍ�%�։��O�킄�0��!�Ѐ��b��/��A�%�Y�pΎ��ތ��!��߇��1��s��!� �؄鈢��0��Հ�ڎ��/�ۈۈv��0��Ј�� 0��܌ލ�&�؉��P�킃�1��!�Ѐ��c��1��A�%�w�g��݌��"��އ��1��!��؄戥��/��ŀ�ێ��1�ڈ܈u��+��ш�� 0��ی܍�'�׉��M��1�� Ѐ��d��0��A�%��&��#��އ݈��2��"��$��ل㈧��0��ێ��0�܈ވw��0��#��Ј��1��ތߍ�(�؉��P��2��#��!�Ҁ��d��1��A�%��;��݌��!��߇��0��n��!� �ڄ戥��/��ڎ ��1�܈܈w��,��Ј��/��Ӏ��یݍ�&�׉��P��0��ـ��π��d��/�� A�%��2M��ތ�� ߇ڈ��1��`�� "�!�ڄሤ��/��Հ�ڎ��1�܈ڈw��0��Ȁ��Ј󈐎��0��߀��݌ލ�&�׉��P��0�� π��d��0��A�%��1��ތ��"��܇��/��!��ք݈��.��ڎ ��0�ۈֈv��/��!��ш��/��یލ�'�؉��N��/�� р��e��/��A�%� �]��ی��݇��0��V�� ؄ڈ��/��Ӏ�ڎ��/�ۈՈw��.��ʀ��ш툑��/��݀��ڌ܌��&�؉��O��/��Ѐ��d��/��A�%�+�p��ی��އ��0�� ؄ֈ��/��ێ��.�ڈՈw��0��Ј񈑎��0��ڌ܍�%�׉��O��0��!�Ѐ��e��/��A�%�I�%1��݌��!��އ��1�� "��لЈ��0��.��ێ ��.�ڈ؈v��/�� Έ􈐎��0�� ݌ލ�%�։��O��2��6�� Ҁ��e��0�� A�%�g��܌��"��އ��1��!��؄Ɉ��/��Y��ێ��0�܈ۈv��,��q�� ш��0��یݍ�&�׉��P��1��ƀ��Ѐ��d��0��A�%��ˎ��ތ��"��އ��2��"��#��؄Ĉ��0��ގ��-�و܈w��0��!� �Ј��0��̀��݌ߍ�&�׉��Q�񂃄1��Ҁ��e��0��A�%��*��'��܇��/��p��%��!��ل��.��ގ��/�܈߈u��.��"��#��Ј��/��ގ��ތ��$�׉��P��/��р��π��d��/��A�%��JM��،��އ��0��"�� ؄��/��-�و߈u��/�� Έ��0��ގ��܌݌��%�؉��P��0��р��d��/�� A�%��j��ی�� ߈ ��1��ր�� ل��0��i��ێ��-�ۈوv��0��l��!��ψ��1��U��ڌݍ�#�׉��P�򂄄1��G��Ҁ��e��0��`A�%��/��ߌ��!��߈��0��!��!��؄��/��j��ێ ��,�ڈֈv��0��^�� Ј툎��0��h��݌ލ�"�׉��O�񂃄1��_��р��d��0��4A�%��I��'��݇ӈ��0�� ք��/��b��ώ��,�܈҈v��/��|��"��ш成��/��s��یݍ�!�׉��O�񂄄0��m��π��d��/��ZA�%�9�Mӎ��#��߇��1��+��"��ڄ��/��v��ݎ��,�ۈ͈x��1��s��ߎ#��!� �Ј㈐��0��{��݌ߍ�!�Չ��M�򂃄2��o��р��d��1��A�%�W�33��&��އ��0��%��!��؄��0��Ԏ��)�و͈v��0��u��!� �Ј舐��.��|��ڌݍ�"�؉��N�񂃄0��Ѐ��d��0��A�%�u�Tʎ��ڌ�� ݇��/��؄��.��Վ��*�ڈ҈u��.��Ј��/��یݍ��׉��N��/��[��Ѐ��a��.��A�%��g��܌�� އ��0��"��؄��/��ڎ��)�ۈ׈u��0��ψ򈑎��/��ŀ��ڌݍ��׉��O��0��р��b��0��A�%��%1��ތ��$� �߇��1��!��#��ل��0��ڎ��(�ڈۈw��0�� Ј􈎎��0��܌ލ��։��P��1��р��a��1��}A�%��a|��֌��އ��/��)��#�� ׄ��.��(�ۈۈt��/�� %��ψ��/��َ ��݌ߍ��׉��O��/��΀��_��/��A�%��ǎ ��ތ��"��އ��1��#��ׄ��/��Ҏ��'�وވv��/��ш��/��ڌۍ��׉��P��1��Ѐ��_��0��A�%��Ɏ��ތ��!� �݇ӈ��1��-��"��ل{��/��Ȁ�֎��(�ڈ��w��/��Ј��0��݌ލ��Չ��O��0��َ'��Ѐ��^��0��A�%�)��܌��߇눡��/��7�� ؄x��.��׎��&�ۈ߈v��/��ގ��Ј��/��܎��ڌ܌��׉��P��/��π��^��/��A�%�w�a|��ی��"�߉݇ڈ��/��>��׃ʈ��-��܎ ��܈Έp��,��Ј刏��/��F��یݍ��׉��P�䂂�/��π��.��A�%��ތ��"��އ��1��&��$��كՈ��/�� ۈȈq��0��8��%��"��ш䈐��0��#��ߌ��։��O�ゃ�1��e��Ѐ��0��A�%��P��&��އ��1��#��$��ڃ؈��/��ۈΈq��/��"��ψ��0��ƀ��ߌ��։��N�䂃�1��Ѐ��0��A�%��ߎ��ߌ��"��ވ��1��1��#��كӈ��0��ߎ��ڈ܈s��0��q��"��щ��0��ތ��׉��O�傂�1��΀��0��A�%��^��ٌ��݈(��1��0��!��"��؃Έ��0��܈�s��0��!��ω��0��݌��؉��R�䂂�1��u��Ѐ��0��A�%� �&��ߌ��"��ވ��0��C��"��׃爧��/��ގ��܈�p��-��!��ψ��/��À��݌ߍ��׉��Q�傃�0��À��Ѐ��/��A�%�+�*��ڌ��߈��1��݀��ׄ��0��َ��݈ۈq��/��ˀ��ψ��0��ɀ��ٌۍ��։��R�傄�1��р��Ѐ��/��A�%�I�3��ތ��!��߇ڈ��0�� #��ׄ"��/��w��܎ ��ۈшr��/��f��Ј爏��0��r��􍨍��݌ߍ��։��P�傂�0��L��р��0��eA�%�g�9� ��׌��އ��0��>��"��؄0��/��ۈ̈r��/�� "��(��ш㈍��0��0��یݍ��։��P�炃�0��W��р��0��A�%��㨎��ڌ��އ��/��ل3��.��L��׎ ��ڈΈq��/��Ј��.��Ѐ�� ،ٌ��׉��O�悃�/��π�� -��A�%��ێ��ތ��!��߇��0��!��ׄ0��.��Ȁ�َ�� ܈ۈq��/��ω��/��܌ލ��׉��O�悄�0��ۀ��р��!��/��A�%��/��܌�� އ��0��^�� ڄ/��/��Հ�ێ ��ۈ�q��/��݀�� Љ ��0��΀��ی܍��׉��Q�悃�0��π��"��/��A�%��*��ތ��!��߇爠��0��4�� ل5��/��Y��َ��ڈ�s��/��!��Љ��0��ـ��یލ��׉��P�悁�0��Ѐ��"��/��A�%��"�� ތ��"��ވ3��1��ƀ��!��؄l��0��ӎ��ۈوq��0��B��!��ш��0��t��یݍ��׉��P�傂�1��π��$��0��cA�%�󦋎��،��އ��1�� !��ل��0��ڈΈq��0�� "��(��Ј刐��0��݌��׉��Q�傄�1��Ѐ��%��0��A�%�9�:?��#��߇��1��o��"��؄��/��ݎ ��ۈƈq��0��-��!��Ј݈��0��݌��Չ��O�䂂�0��8��р��&��0��A�%�W󷕎��݌�� ݇��/��u�� ل��.��ڎ ��܈Ȉr��.��ψሎ��/��یݍ��؉��N�傃�/��p��π��'��.��A�%�u�7��ތ��"��߇��0��Z�� "��؄��/��ێ �� ۈψq��/�� Ј��/��݌ߍ��׉��P�傃�/��ހ��π��'��/��A�%��܌��߇��0��{�� !��ׄ��/��̀�َ��ۈۈq��/�� ш��/��یݍ��Չ��O�䂄�0��ˀ��Ѐ��)��/��A�%��@��ތ�� އ��0��U��!��ׄ��/��َ��܈��r��/��ψ��0��ڌۍ��׉��Q�䂃�0��Ѐ��+��/��A�%��L��ތ��"��ވ��/��"��"��ل��.��܈Ոp��/��߀��ψ눏��/��݌ߍ� �׉��Q�䂃�0��Ѐ��,��/��A�%��򺝎��׌��߇��0��~��ل��/��؎��ڈшq��/��'��҈��/��یݍ� �׉��Q�䂄�0��܎%��΀��.��/��A�%��Wi��ی��!��݇ψ��0��ل��/��ڎ ��ۈӈr��/��Ј숌��/��ی܌�� ׉��Q�傃�0��π��/��/��;A�%�)򌽎��ٌ��0��+��؄ш��/��i��܎��ۈЈr��/��َ�~��ш눏��/��ڌ݌��։��O�傃�0��e��π��1��/��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 98 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 87 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKB1125GND' / PW HK Pkt; Block 11 Voltage on 2.5 Ground ReturTFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKB11P25VLT' / PW HK Pkt; Block 11 +2.5 Voltage TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL3 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT3 = 'V ' / physical unit of field TTYPE4 = 'BPWHKB11M25VLT' / PW HK Pkt; Block 11 -2.5 Voltage TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL4 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT4 = 'V ' / physical unit of field TTYPE5 = 'BPWHKB11P35VLT' / PW HK Pkt; Block 11 +3.5 Voltage TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL5 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT5 = 'V ' / physical unit of field TTYPE6 = 'BPWHKB11M35VLT' / PW HK Pkt; Block 11 -3.5 Voltage TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL6 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT6 = 'V ' / physical unit of field TTYPE7 = 'BPWHKB11P50VLT' / PW HK Pkt; Block 11 +5.0 Digital Voltage TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL7 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT7 = 'V ' / physical unit of field TTYPE8 = 'BPWHKB11P75VLT' / PW HK Pkt; Block 11 +7.5 Voltage TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL8 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT8 = 'V ' / physical unit of field TTYPE9 = 'BPWHKB11M75VLT' / PW HK Pkt; Block 11 -7.5 Voltage TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL9 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT9 = 'V ' / physical unit of field TTYPE10 = 'BPWHKB11CVTTEMP' / PW HK Pkt; Block 11 DC-DC Converter Module TempTFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL10 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'BPWHKB11TEMP' / PW HK Pkt; Block 11 Temperature TFORM11 = '1I ' / data format of field: 2-byte INTEGER TZERO11 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL11 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT11 = 'Celsius ' / physical unit of field TTYPE12 = 'BPWHKLHPB1TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL12 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'BPWHKRADTEMP' / PW HK Pkt; Radiator Temperature (back, +Y,-X) TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL13 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT13 = 'Celsius ' / physical unit of field TTYPE14 = 'BPWHKIPPRI3TEMP' / PW HK Pkt; IP Primary DSP Board Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BPWHKB12PRITEMP' / PW HK Pkt; Block 12 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB12SECTEMP' / PW HK Pkt; Block 12 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKB12SPARE0' / PW HK Pkt; Block 12 Spare 0 TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB12SPARE1' / PW HK Pkt; Block 12 Spare 1 TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB12INPUTI' / PW HK Pkt; Block 12 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB1225GND' / PW HK Pkt; Block 12 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB12P25VLT' / PW HK Pkt; Block 12 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB12M25VLT' / PW HK Pkt; Block 12 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB12P35VLT' / PW HK Pkt; Block 12 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB12M35VLT' / PW HK Pkt; Block 12 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB12P50VLT' / PW HK Pkt; Block 12 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB12P75VLT' / PW HK Pkt; Block 12 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB12M75VLT' / PW HK Pkt; Block 12 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB12CVTTEMP' / PW HK Pkt; Block 12 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB12TEMP' / PW HK Pkt; Block 12 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPB2TEMP' / PW HK Pkt; LHP 1 (-Y) Evaporator Temperature (BTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKTSFRONTEMP' / PW HK Pkt; Front Tagged Source Temperature TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKIPRED0TEMP' / PW HK Pkt; IP Redundant LVPC TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 32768 / offset for unsigned integers TTYPE33 = 'BPWHKB13PRITEMP' / PW HK Pkt; Block 13 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB13SECTEMP' / PW HK Pkt; Block 13 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKB13SPARE0' / PW HK Pkt; Block 13 Spare 0 TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB13SPARE1' / PW HK Pkt; Block 13 Spare 1 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB13INPUTI' / PW HK Pkt; Block 13 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB1325GND' / PW HK Pkt; Block 13 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB13P25VLT' / PW HK Pkt; Block 13 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB13M25VLT' / PW HK Pkt; Block 13 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB13P35VLT' / PW HK Pkt; Block 13 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB13M35VLT' / PW HK Pkt; Block 13 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB13P50VLT' / PW HK Pkt; Block 13 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB13P75VLT' / PW HK Pkt; Block 13 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB13M75VLT' / PW HK Pkt; Block 13 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB13CVTTEMP' / PW HK Pkt; Block 13 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB13TEMP' / PW HK Pkt; Block 13 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPB3TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, -XTFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKTSREARTEMP' / PW HK Pkt; Rear Tagged Source Temperature TFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKIPRED1TEMP' / PW HK Pkt; IP Redundant LVPC TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BPWHKB14PRITEMP' / PW HK Pkt; Block 14 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB14SECTEMP' / PW HK Pkt; Block 14 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKB14SPARE0' / PW HK Pkt; Block 14 Spare 0 TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB14SPARE1' / PW HK Pkt; Block 14 Spare 1 TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB14INPUTI' / PW HK Pkt; Block 14 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB1425GND' / PW HK Pkt; Block 14 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB14P25VLT' / PW HK Pkt; Block 14 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB14M25VLT' / PW HK Pkt; Block 14 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB14P35VLT' / PW HK Pkt; Block 14 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB14M35VLT' / PW HK Pkt; Block 14 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB14P50VLT' / PW HK Pkt; Block 14 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB14P75VLT' / PW HK Pkt; Block 14 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB14M75VLT' / PW HK Pkt; Block 14 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB14CVTTEMP' / PW HK Pkt; Block 14 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB14TEMP' / PW HK Pkt; Block 14 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPB4TEMP' / PW HK Pkt; LHP 1 (-Y) Condenser Temperature, +XTFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKSPARE14TMP' / PW HK Pkt; Block 14 Spare Temperature TFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKIPRED2TEMP' / PW HK Pkt; IP Redundant MIC Board Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BPWHKB15PRITEMP' / PW HK Pkt; Block 15 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB15SECTEMP' / PW HK Pkt; Block 15 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKB15SPARE0' / PW HK Pkt; Block 15 Spare 0 TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB15SPARE1' / PW HK Pkt; Block 15 Spare 1 TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB15INPUTI' / PW HK Pkt; Block 15 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB1525GND' / PW HK Pkt; Block 15 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB15P25VLT' / PW HK Pkt; Block 15 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB15M25VLT' / PW HK Pkt; Block 15 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB15P35VLT' / PW HK Pkt; Block 15 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB15M35VLT' / PW HK Pkt; Block 15 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB15P50VLT' / PW HK Pkt; Block 15 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB15P75VLT' / PW HK Pkt; Block 15 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB15M75VLT' / PW HK Pkt; Block 15 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB15CVTTEMP' / PW HK Pkt; Block 15 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB15TEMP' / PW HK Pkt; Block 15 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPB5TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ CC Inlet TemperTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKSPARE15TMP' / PW HK Pkt; Block 15 Spare Temperature TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKIPRED3TEMP' / PW HK Pkt; IP Redundant DSP Board Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWHKADCXSUM' / PW HK Power Box Packet CheckSum, not CCSDS XSumTFORM87 = '1B ' / data format of field: BYTE EXTNAME = 'hk142x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675547.95632 TSTOP = 287681577.94894 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:56' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.9926199913 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 322 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'JE3iK92gJE2gJ92g' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '745809410' / data unit checksum updated 2010-02-18T17:05:19 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: sw00412081000b142x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:27 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��c��ʎ��%��͈Ճ��傅�/��ߎ�s�� ǈ̉ۍ)��0��ǀ��,��Մ�ƍ(��0��!�ǉӅ"��{��0��Ӏ��*�ш*��dA�%��ʀ��퍤��&��͈Ƀ��悃�.��ۀ��򍈍��ǈ��ٍ)��/��!��Մ��Ǎ(��/��π�֎��ȉӅ!��|��/��ێ��*�Éш��WA�%��ـ��%��͈��炃�/��׀��}��ǈ��Ս*��0��ۀ��񍍍��!��Մ�ʍ)��0��ߎ ��"�ɉӅ$��~��1��)�ĉӈy��A�%��󻄀�֎��&��͈��ƈ肄�.��ހ��|��Ȉ��ԍ)��/��協��Ԅ��ʍ(��/�� ɉ҅*��/�� )�ŉӈ��A�%��?h��ێ��"��͈��Ј낃�-��z��Ȉ��ҍ)��/����Յ�͍)��.��ݎ��ʉ҅;��/��ގ��(�ĉӈ��A�%�1��܎��%� �͈��و낃�.��x��!��Ȉ��͍)��/��퍏��!��Ӆ�Ѝ)��/��ߎ ��#�ˉӅP��/��*�ǉ҇��A�%�O�]��(� �ΈŃ��킄�/��ǈ��͍*��0��p��򍎍��#��Յ6�э)��1�� "�͉҅e��1�� *�ǉӈp��CA�%�m�ݘ��Ԏ��&��Έڃ��.��̀��~��ǈЉˍ+��0��ڀ��퍍�� ԅD�Ӎ*��0��܎ ��"�ωԅs��0��(�ǉԈ��A�%��V��)� �̈ۃ�񂃄/��Ɉ̉ȍ*��0��"��ՅD�֍)��0��؎��#�ΉӅs��0�� +�ȉ҈/��mA�%��3��ߎ��(� �ψу��.�� Ȉǉƍ*��0��񍏍��"��Ӆ@�֍)��1��܀��!�ωӅu��0��/�ʉԈu��A�%��ߍ��$� �ψ˄ ��-��ހ��ǈ��Í+��/��Ѐ�ߍ��}��ӅC�׍)��/��؎ ��ЉӅy��/��'�ˉՈ��A�%��ގ��%� �̈�� /��݀��|��Ɉ��*��/��񍍍��!��ՅO�ۍ)��/��ݎ ��ЉӅ��0�� )�ʉшn��nA�%��y)��(��̈��.��Ȉ��*��/��򍏍��#��ԅ_�ۍ)��/�� щ҅��/��*�ɉч��A�%�!��؎��&��̈��)��.��~�� ǈ��*��/��ލ��"��Յw�ݍ*��/�� ҉Ӆ��/��'�ˉ҇��A�%�?��ڎ��(��Έ˄1��/��!��ň��*��1��㍙��#��ԅ��ߍ*��0��#�ԉՅ��1��*�͉ԈA��A�%�]󚿀��&��̈ӄ6��.��ڀ��}��ƈˉ��+��/��р����"��Յ��)��/��À�܎�� ԉӅȀ��/��ߎ ��*�͉҈��A�%�{��َ��'��ˈǄC��.��_��~�� Ɉ��+��/��荒��!��ԅ��*��0��"�ՉӅ̀��/��,�Ήш5��UA�%��L��܎ ��'��̈ĄN� ��/��}��ǈ��,��0��㍖��"��ԅ��+��1��ۀ��"�׉ՅӀ��1��,�ω҈��XA�%��S&��ێ��%��͈��X� ��.��׀��~��Ɉ��+��/��\��퍏��"��Յ��+��0�� ։Ӆ܀��0��)�Љшe��RA�%��M��܎��&��͈��b��.�� ň��,��0��#��ԅ��+��0��"�ىԅ��/��)�щӇ倣��A�%��D��ߍ��"��͈��j��-�� ǈ��č-��.��܀�ލ��}��Յ��+��/��߀�؎ �� ىԅ��/��'�҉Ӈʀ��ɀA�%��9��'��Έфq��/��p��ǈǉō-��0��򍎍��#��҅щ�-��2��ݎ ��"�ډԆ��1��N��ߎ��+�ԉԈz��A�%�/�'��ێ ��&��Έބu��.��~��ǈԉǍ-��/����#��Ӆ؉�,��/��Ȁ�ݎ �� ډц��/��)�ӉԈV��*A�%�M�a��ݎ ��)��ΈՄ}��/��΀��!��ǈȉʍ-��1��񍒍��%��Ӆ׉�,��2��#�ډ҆��1�� +�ԉӈ0��>A�%�k󕁀�ߎ��&��͈ʄ��/��}��ǈ͍-��0��񍎍��"��ԅՉ�-��1��ހ�ߎ��"�ډӆ��0��΀��)�Չ҈��A�%��ǹ��َ��&��͈ń��/��~��Ȉ��͍-��0����!��ԅى�.��0��&��!�ۉ҆��0��񍨍��+�Չш��A�%��]��؎��&��̈��.��|��ǈ��ύ.��/��덑��!��Յ��-��/��܉ӆ%��/��􍢍��)�Չӈ3��*A�%��j��ێ��&��͈��!��/��̀��ǈ��э.��0����&��Ӆ��-��0��߀�ߎ ��!�݉Ԇ4��0��*�׉Ӈ��A�%��V��ݎ��'��ψ��&��.��#��Ȉ��Ӎ.��0��L��$��ԅ��-��0��B�� !�݉҆8��0��S��*�؉҈L��xA�%��֎��&��͈ӄ��$��.��Հ�� v�� ƈȉԍ.��/��덐�� ҆�ލ.��/��5��!�܉ц;��/��}��*�׉ӈ{��A�%��퍨��'��͈҄��,��.��󍈍��!��ƈȉ֍/��0��Y��"��Ն�ލ.��0��؎��!�މӆA��/��"��ێ��+�؉҈ ��A�%�=�p��ˎ��'��ΈɄ��4��.��}��ƈ��֍/��0��1��󍕍��'��Ӆ��ۍ/��0��ݎ��!�܉҆D��/�� *�؉ӈt��AA�%�[�GE��'��͈��0��/��!��ƈ��ٍ/��0��ꍌ�� ҅��ٍ/��1�� "�݉цC��Ă��1��C��ߎ��-�ډՈ��A�%�y�")��ߎ��&��͈��.��-��~��ǈ��ڍ/��/��"��ԅ��Ս/��/��܎�� ݉҆E��ǂ��/��ߎ ��)�؉҈D��A�%��D��(��͈��-��/��~�� Ȉ��ݍ0��0��򍎍��#� �Ն�ҍ0��1��ǀ�ߎ��!�މԆO��ɂ��1��ɀ��+�ډӇЀ��A�%��g��ߎ ��'��ˈ��/��0��ǈ��ލ1��1��򍏍��#��Ն�э0��2��ߎ ��"�߉ԆJ��ʂ��1��+�ۉԈ!��oA�%��ڎ ��%��͈҄��/��.�� }�� ǈɉ�1��/����"� �ӆ�ύ0��0��؀�� ߉ӆF��͂��/��'�ډӈb��A�%����'��ΈՄ��0��/��܀��ǈɉ�1��0��!��ӆ�̍1��1��Հ�׎��"�݉цC��΂��0��*�ډш��A�%��g��؎��'��̈Ǆ��1��.��؀��}��ǈ��1��/��鍒�� Ӆ��ȍ1��/��"�݉҆C��Ђ��/��/��+�ډ҈s��A�%�-��Ӏ�ߎ��(��Έ��2��/��~��!��ƈ��2��1��Q��􍏍��"��Ӆ�Ǎ1��1�� "�މӆ@��҂��1��*�ۉ҈��:A�%�K��Ύ��*��̈��3��/��"��ƈ��2��1�� $� �ԅ�Ǎ2��1��ގ ��$�މӆ@��ӂ��0�� -�ۉӈ'��A�%�i�x��׎��&��̈��3��.��ހ��|��ƈ��2��0��䍔�� Ӆ��1��0�� ݉҆<��Ԃ��0��(�ډ҇ڀ��A�%��ڎ��'��̈Ä��5��/��}��ƈ��2��0��Y��퍌�� ԅ��1��1��/��ߎ��"�މԆ5��Ղ��0��R��*�ۉ҈4��_A�%�� )��Έׄ��7��0��܀�� ƈ͉�2��1��񍒍��#� �҅�3��2��%�ۉ҆0��ׂ��1��π��,�ۉӈW��A�%��+��ގ ��'��͈ф��7��/��~��!��ǈŉ�3��/��#� �Ӆ剺�2��1��"�܉҆*��؂��0�� *�ى҈*��7A�%��U��ߎ ��(� �͈Ƅ��=��0��݀�� Ȉ��3��1��}��󍐍��"� �ԅى��3��1��ƀ��"�݉ӆ)��؂��1��ǀ��+�ډ҈��|A�%�� (��ˈ��F��/��~�� ƈ��4��1��򍏍��"� �Ӆ҉��3��0��ߎ��"�މӆ$��ڂ��1��+�܉ӈ}��pA�%��X��퍪��(��͈��B��/��:�� ǈ��4��0��!� �ԅЉ��4��1��َ��#�܉ӆ%��ۂ��1��ގ��-�ډ҈��A�%�;򔚀�ގ ��'��Έ��F��.��!��ǈ��4��/��򍏍��#� �ԅщ��3��/��܎ ��!�ۉ҆!��ۂ��/��)�ى҇؀�� A�%�Y��̀�Ҏ��'� �̈Ǆ��E��.��8��u��ǈ��4��0��퍎�� ԅ҉��4��1��p��"�ډ҆��ۂ��1��*�ى҈?��GA�%�w��&��̈ׄ��K��.��ǈΉ�5��0��񍍍��#� �Ӆ͉��5��1��ێ ��!�܉҆��܂��0��܎ ��(�ډӈ/��A�%��؀�� )��͈τ��H��/��!��ƈÉ�5��1��򍒍��$��҅��5��2��&�ىц��݂��1��+�ىЈ/��$A�%��؀��%��̈Ǆ��M��/��ƈ��5��0��񍌍��!��Ӆ��5��0��ڎ�� ىц��݂��0��܎��)�׉ш��A�%��Ҏ��'��͈��S��/�� u��ƈ��6��0��΀��퍍��Ӆ��5��1��"�؉҅��ނ��0��+�ىӈx��A�%��ݎ��&��̈��L��.��~�� ƈ��5��/��򍏍��#��҅��4��/��r��܎��"�؉Ѕ��ނ��/��*�׉ш��A�%� 򾌀�َ ��%��͈��}�K��.��}��ǈ��6��/��р� �ٍ�� Ӆ��5��0��À�� ׉х��߂��/��̀��'�։ч��A�%�+��E��׎��&��͈Ȅx�W��/��}��Ȉ��7��0��덎�� Ӆ��6��0�� ׉҅�ނ��0��(�։шy��zA�%�I򃐀�ʎ��'��Έ݄r�N��/��r�� ǈԉ�7��0��G��$��Ӆ��6��0�� #�׉х瀣�ނ��1�� *�׉ш��A�%�g�M��%��̈߄k�T��/��s��ňЉ�7��0��򍌍��!��х��6��1��ڎ ��!�Չ҅ۀ��ނ��0��!��ݎ��)�׉ӈ;��/��7��!��ƈ��-��0��؍��%��Ӆ��-��0��#��ЅӀ��0��K��*��ԇр��ȽA�%�W��ˀ�Ď"��%��̈ԄH��-��ߎ�r�� ǈ͉�.��/����%��҅��-��0��܎ ��ԅ䀡��/��'��҈��A�%�u��׎��'��͈�P��.��}�� ƈى�.��/��ꍓ�� Ӆ��.��0��"��҅��/�� ,��шV��wA�%��%��֎��%��͈քW� ��.��|��Ĉȉ�.��0��؀��䍓�� ԅ��-��0�� х􀢅��0��)��҈B��*A�%��f��ڎ��%��ˈ̈́_��/��}��ǈƉ�.��/��Ѐ���� Ӆ��/��0��u��ގ ��!�Ѕ��0��)��ӈ��A�%��񬛀��'��ˈńn��.��!��ň��/��/��$��Ӆ��-��0��!��І��/��ߎ��+��҈h��VA�%��L��"��$��Έ��w��.��w��ƈ��/��/��*��хǉ�.��0��ێ ��!�Ɖӆ��/��(��҇��A�%��g��%��͈��.��׀��y��ǈ��/��/����!��҅ى�-��0��ێ�� ŉц��0��܎��*��҇��!A�%�)��؎��%��͈̄��.��}��ň�/��/��!��썉��Ӆ��.��0��ݎ�� ȉӆ%��0��)��шR��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 200 / width of table in bytes NAXIS2 = 5 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 50 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BMICHWCMDREG' / MIC last internal command TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BMICHWTIMDMA' / MIC DMA data collect timeout TFORM3 = '1J ' / data format of field: 4-byte INTEGER TZERO3 = 2147483648 / offset for unsigned integers TTYPE4 = 'BMICHWINTENA' / MIC interrupt enable bits TFORM4 = '1J ' / data format of field: 4-byte INTEGER TZERO4 = 2147483648 / offset for unsigned integers TTYPE5 = 'BMICHWINTRST' / MIC last interrupt reset TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BMICHWSTATUS' / MIC status register (not used) TFORM6 = '1J ' / data format of field: 4-byte INTEGER TZERO6 = 2147483648 / offset for unsigned integers TTYPE7 = 'BMICHWDMABEG' / Circular buf start address TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BMICHWDMAEND' / Circular buf end address TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BMICHWDMA1ST' / Circular buf 1st write address TFORM9 = '1J ' / data format of field: 4-byte INTEGER TZERO9 = 2147483648 / offset for unsigned integers TTYPE10 = 'BMICHWDMAENA' / Circular buf auto dma enable TFORM10 = '1J ' / data format of field: 4-byte INTEGER TZERO10 = 2147483648 / offset for unsigned integers TTYPE11 = 'BMICHWDMAVAL' / Circular buf prev lap valid TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BMICHWDMALAP' / Circular buf lap count register TFORM12 = '1J ' / data format of field: 4-byte INTEGER TZERO12 = 2147483648 / offset for unsigned integers TTYPE13 = 'BMICHWDMACUR' / Circular buf next write register TFORM13 = '1J ' / data format of field: 4-byte INTEGER TZERO13 = 2147483648 / offset for unsigned integers TTYPE14 = 'BMICHWCMDIDX' / BCDH cmd buf index of next read TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 32768 / offset for unsigned integers TTYPE15 = 'BMICHWCMDLFT' / BCDH cmd buf unread dwords TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BMICHWCMDTIM' / BCDH cmd buf transmit timeout TFORM16 = '1J ' / data format of field: 4-byte INTEGER TZERO16 = 2147483648 / offset for unsigned integers TTYPE17 = 'BMICHWCMDMAX' / BCDH cmd buf max packet length TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BMICHWCMDSTA' / BCDH cmd buf status bits TFORM18 = '1J ' / data format of field: 4-byte INTEGER TZERO18 = 2147483648 / offset for unsigned integers TTYPE19 = 'BMICHWLNK00A' / 1355 link status register 00 (A) TFORM19 = '1J ' / data format of field: 4-byte INTEGER TZERO19 = 2147483648 / offset for unsigned integers TTYPE20 = 'BMICHWLNK01A' / 1355 link status register 01 (A) TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMICHWLNK02A' / 1355 link status register 02 (A) TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'BMICHWLNK03A' / 1355 link status register 03 (A) TFORM22 = '1J ' / data format of field: 4-byte INTEGER TZERO22 = 2147483648 / offset for unsigned integers TTYPE23 = 'BMICHWLNK04A' / 1355 link status register 04 (A) TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BMICHWLNK05A' / 1355 link status register 05 (A) TFORM24 = '1J ' / data format of field: 4-byte INTEGER TZERO24 = 2147483648 / offset for unsigned integers TTYPE25 = 'BMICHWLNK06A' / 1355 link status register 06 (A) TFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMICHWLNK07A' / 1355 link status register 07 (A) TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMICHWLNK08A' / 1355 link status register 08 (A) TFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMICHWLNK09A' / 1355 link status register 09 (A) TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMICHWLNK10A' / 1355 link status register 10 (A) TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMICHWLNK11A' / 1355 link status register 11 (A) TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMICHWLNK12A' / 1355 link status register 12 (A) TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMICHWLNK13A' / 1355 link status register 13 (A) TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMICHWLNK14A' / 1355 link status register 14 (A) TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMICHWLNK15A' / 1355 link status register 15 (A) TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMICHWLNK00B' / 1355 link status register 00 (B) TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BMICHWLNK01B' / 1355 link status register 01 (B) TFORM36 = '1J ' / data format of field: 4-byte INTEGER TZERO36 = 2147483648 / offset for unsigned integers TTYPE37 = 'BMICHWLNK02B' / 1355 link status register 02 (B) TFORM37 = '1J ' / data format of field: 4-byte INTEGER TZERO37 = 2147483648 / offset for unsigned integers TTYPE38 = 'BMICHWLNK03B' / 1355 link status register 03 (B) TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BMICHWLNK04B' / 1355 link status register 04 (B) TFORM39 = '1J ' / data format of field: 4-byte INTEGER TZERO39 = 2147483648 / offset for unsigned integers TTYPE40 = 'BMICHWLNK05B' / 1355 link status register 05 (B) TFORM40 = '1J ' / data format of field: 4-byte INTEGER TZERO40 = 2147483648 / offset for unsigned integers TTYPE41 = 'BMICHWLNK06B' / 1355 link status register 06 (B) TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BMICHWLNK07B' / 1355 link status register 07 (B) TFORM42 = '1J ' / data format of field: 4-byte INTEGER TZERO42 = 2147483648 / offset for unsigned integers TTYPE43 = 'BMICHWLNK08B' / 1355 link status register 08 (B) TFORM43 = '1J ' / data format of field: 4-byte INTEGER TZERO43 = 2147483648 / offset for unsigned integers TTYPE44 = 'BMICHWLNK09B' / 1355 link status register 09 (B) TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'BMICHWLNK10B' / 1355 link status register 10 (B) TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'BMICHWLNK11B' / 1355 link status register 11 (B) TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BMICHWLNK12B' / 1355 link status register 12 (B) TFORM47 = '1J ' / data format of field: 4-byte INTEGER TZERO47 = 2147483648 / offset for unsigned integers TTYPE48 = 'BMICHWLNK13B' / 1355 link status register 13 (B) TFORM48 = '1J ' / data format of field: 4-byte INTEGER TZERO48 = 2147483648 / offset for unsigned integers TTYPE49 = 'BMICHWLNK14B' / 1355 link status register 14 (B) TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BMICHWLNK15B' / 1355 link status register 15 (B) TFORM50 = '1J ' / data format of field: 4-byte INTEGER TZERO50 = 2147483648 / offset for unsigned integers EXTNAME = 'hk143x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287676003.05284 TSTOP = 287676488.47516 DATE-OBS= '2010-02-12T14:00:02' DATE-END= '2010-02-12T14:08:07' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 485.422320008278 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 323 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'nl7Dql6Bnl6Bnl6B' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3941107208' / data unit checksum updated 2010-02-18T17:05:19 HISTORY TASK: FAPPND on FILENAME: sw00412081000b143x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:27 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%�c ��B�@�� X�2��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�%��_b��B�@�� Sˤ�Ӏ��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�%��*��B�@�� r��,��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�%�*��m�B�@�� :L�G��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��A�%�Hy��B�@�� |� ��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��D��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 120 / width of table in bytes NAXIS2 = 8 / 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 = 287676135.75776 TSTOP = 287680880.79754 DATE-OBS= '2010-02-12T14:02:14' DATE-END= '2010-02-12T15:21:19' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 4745.03978002071 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 352 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9ahVHYfS9afSEYfS' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2742437893' / data unit checksum updated 2010-02-18T17:05:19 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: sw00412081000b160x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:28 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��?�=��A�%�!��?�=��A�%�*��P��?�=��A�%�-U��?�=��A�%�O��?�=��A�%��qla��?�=��A�%��C��?�=��A�%�p�+��?�=��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 188 / width of table in bytes NAXIS2 = 8 / 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 = 287676135.75854 TSTOP = 287680880.79832 DATE-OBS= '2010-02-12T14:02:14' DATE-END= '2010-02-12T15:21:19' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 4745.03978002071 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 353 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YQa4aOW1SOa1YOU1' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '426307799' / data unit checksum updated 2010-02-18T17:05:19 HISTORY TASK: FAPPND on FILENAME: sw00412081000b161x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:28 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��/��m�(+Cs5�B�t�?�;ě�Ap?�A�%�"0��m�(+Cs5�B�t�?�;ě�Ap?�A�%�*��m�(+Cs5�B�t�?�;ě�Ap?�A�%�-Vr�m�(+Cs5�B�t�?�;ě�Ap?�A�%�O��m�(+Cs5�B�t�?�;ě�Ap?�A�%��q��m�(+Cs5�B�t�?�;ě�Ap?�A�%��D��m�(+Cs5�B�t�?�;ě�Ap?�A�%�p�^��m�(+Cs5�B�t�?�;ě�Ap?�XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 294 / width of table in bytes NAXIS2 = 97 / 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 = 287675575.09468 TSTOP = 287681575.0947 DATE-OBS= '2010-02-12T13:52:54' DATE-END= '2010-02-12T15:32:54' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6000.00001996756 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 369 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '0W3O0U1N0U1N0U1N' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2635302286' / data unit checksum updated 2010-02-18T17:05:19 HISTORY TASK: FAPPND on FILENAME: sw00412081000b171x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:28 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��<��ˉ{�]��U��U�[�p�y��q�b��Yˌ} ��z�u��y�� n�u �k� �$ �) �" �� "� � �+�� 按� �� A�%��9��ˉ|�]��T��U�Z�n�x��p�_��Y̌} ��z�u�� y��n�v �j� �% �+ �# � �" �$� � �*�� 卉�� A�%��<��ˉ|�\��R��V�Z�o�y��p�b��Ž~��{�v�~�� y�� o�t �j� �% �* �" � �! �"� � �+�� 玉� �� A�%�7��ˉ}�_��R��U�Z�n�z��p�a��\͌~��{�v�� z�� o�t�k� �# �* �! � � �$� � �*�� 按� �� A�%�/��ˉ{�^��U��V�\�p�x��q�b��[ˌ~��z �u��x��n�u�k� �# �* �" � � �#� � �+�� 捉 � �� A�%�M9��ˉ|�]��S��W�[�p�w��q�a��Ž} ��z�v��z��n�t �k� �$ �+ �" � � �"�� *�� 按�� A�%�k@��ˉ~�]��S��T�X�n�w��q�a��YΌ~ ��z�v��y��n �t �k� �% �* �# � � �#�� *�� 掉 � �� A�%��<��ˉ~�^��U��V�Z�n�x��p�a��XΌ~��{�u�� y��n�u�j� �% �+ �! � �! �#�� *�� 獉�� A�%��:T��ˉ|�]��Q��U�[�n�x��q�`��Ž} ��z �u��y��n�t �j� �% �+ �$ � �! �#� � �*�� 卉 �� A�%��@��ˉ}�^��R��U�Z�n�x��p�a��Z͌~��{�u�� z��o �u �k� �$ �+ �" � �! �$� � �+�� 拉 �� A�%��;��ˉ}�_��T��V�[�n�y��p�a��Z͌~��|�v�� z�� o�u �j� �$ �+ �" � �! �$� � �+�� 拉 �� A�%�;��ˉ{�]��T��W�[�m�w��o�c��Zˌ} ��{�v��y ��o �t �k� �# �* �" ��! �#�� *�� 匉� �� A�%�?��ˉ~�\��S��U�Y�n�w��p�`��ZΌ~��z�u�� y��n �u �j� �$ �+ �" ��! �#�� +�� 捉�� A�%�=>B��ˉ}�^��S��W�Z�p�y��o�a��Y͌}��z�v�� z�� n �t �k� �# �) �! �� #� � �*�� 獉 � �� A�%�[@��ˉ}�^��Q��W�\�n�w��q�b��Z͌~��{�v�� z��o�u �k� �$ �* �$ � �! �#� � �*�� 按 � �� A�%�y9��ˉ�^��R��V�Y�n�w��p�a��[ό~��{�v�~�� z��o�t�k� �% �* �# � �! �$� � �+�� 捉 � �� A�%��7��ˉ~�_��S��V�[�m�v��r�b��[Ό~��{�v��z ��o�t�k� �& �, �" � � �#� � �+�� 按 �� A�%��B1��ˉ}�^��T��V�\�o�x��q�a��Z͌}��z�v��y��n�t �j� �$ �* �# ��! �#�� +�� 獉� �� A�%��?��ˉ}�]��R��T�Y�o�y��p�`��Z͌~ ��{�u�� z�� n�u �j� �% �+ �" � �! �#� � �*�� 厉�� A�%��>B��ˉ~�[��R��U�[�n�x��o�c��ZΌ~��{�v��y��o �t �k� �$ �* �" � �! �#� � �+�� 獉 � �� A�%�<��ˉ|�_��T��V�\�m�x��q�a��[̌}��z�u��z ��o�u�k� �$ �+ �# � � �#� � �,�� 卉�� A�%�->B��̉}�_��R��U�Y�n�z��p�c��Z͌��{�u�� z�� o�u �k� �& �* �# � �! �$� � �*�� 按 � �� A�%�K9��̉{�_��S��T�Z�n�x��o�`��[ˌ}��z�u�� z��n �u�k� �% �+ �" � �! �#�� *�� 掉�� A�%�i?��̉}�_��R��T�Z�o�y��r�a��Z͌}��| �u�� z�� o�u �j� �# �+ �# ��! �$� � �+�� 按 �� A�%��>B��̉~�]��T��U�Y�n�x��o�b��ZΌ ��{�u�� y��n�u �j� �% �+ �$ � �! �#� � �)�� 䍉 �� A�%��?��̉~�`��S��V�[�n�v��p�`��ZΌ~��{�v��z��o�t �j� �$ �* �# � �! �#� � �+�� 獉 � �� A�%��ˉ}�`��S��V�Z�n�y��p�b��\͌}��z�v�� y�� n�u�k� �$ �* �" �� "�� *�� 掉 � �� A�%��6e��ˉ�\��T��U�\�o�w��r�b��[ό~��{�u��y��o�t�k� �$ �* �" � �! �$� � �+�� 捉 � �� A�%��;��ˉ}�^��T��V�[�m�y��q�a��X͌}��z �v��y �� o �u�j� �% �* �" � �" �"�� (�� 按� �� A�%�B1��ˉ|�^��S��T�[�n�w��p�a��[̌~��z�u��y��n�t�k� �% �+ �" � � �#�� *�� 捉 �� A�%�;@��ˉ}�]��T��U�Z�m�x��q�a��X͌~ ��{�v�� x ��o�u�j� �% �* �# � �" �$� � �*�� 獉 � �� A�%�Y:T��ˉ}�^��S��U�Y�o�v��q�`��Z͌~��z�u�� z��o�u �j� �$ �* �" � �! �$� � �+�� 卉 � �� A�%�w?��ˉ~�]��S��U�Z�n�x��p�b��ZΌ~ ��z�w�� y��o�t �k� �% �) �# � �! �"� � �*�� 匉 � �� A�%��;��ˉ|�_��T��W�Z�n�v��q�b��[̌}��z �v�� z��n�u�k� �$ �+ �# � � �#�� )�� 卉 �� A�%��7��ˉ�]��S��W�Z�o�y��q�`��[ό~ ��{�v�� y�� o�u�k� �$ �* �# � �! �$� � �*�� 玉� �� A�%��9��ˉ|�]��S��V�Z�o�x��q�`��[̌} ��z�v�� y��n �v�k� �% �* �# � � �"�� )�� 掉 � �� A�%��;��ˉ{�]��T��V�]�n�y��o�a��[ˌ} ��z�u�� y�� o�v�k� �% �* �" � � �"�� *�� 卉 � �� A�%� <��ˉ}�^��Q��V�[�m�w��o�b��Y͌~��{�v��y ��o�t �k� �& �* �# � �" �#�� +�� 玉� �� A�%�+@��ˉ|�]��Q��T�\�n�x��q�b��Ž} ��{�u��y��n�u �j� �% �+ �# � �! �$� � �*�� 獉�� A�%�I@��ˉ}�]��T��W�[�o�w��p�c��[͌} ��z�v��y��o�t�l� �% �+ �" � � �#� � �)�� 猉 �� A�%�g@��ˉ|�_��T��U�Y�o�z��p�a��Ž}��z �v�� y�� n �u �k� �$ �) �! �� #� � �*�� 卉 � �� A�%��:T��ˉ|�`��R��V�]�n�x��o�b��Y̌}��z�u�� y��n�t �k� �% �* �# � �! �#� � �*�� 按� �� A�%��?��ˉ}�^��S��V�\�m�x��q�a��Z͌��{�v��z ��o�t �j� �$ �* �# � �! �#� � �*�� 莉� �� A�%��:T��ˉ}�^��S��V�[�m�x��p�d��[͌��{�v��z ��o�u�j� �% �* �# � �" �$� � �,�� 掉� �� A�%��:T��ˉ~�]��S��T�[�n�w��p�d��\Ό ��{�v��z��o �u�k� �$ �* �" � � �#� � �,�� 猉� �� A�%��C��ˉ�]��S��U�\�o�x��q�a��[ό~ ��{�v��z��o�u�k� �% �) �" � �! �#�� *�� 猉� �� A�%�?��ˉz�[��Q��S�W�l�t��p�]��Xʌy��x�s�|��w�� l�r�h� �"�' � �� !�� '�� 劉 �� A�%�9:T��ˉ}�^��S��T�Z�n�v��q�a��Y͌��|�u�� z��n �v �k� �$ �* �# � �! �#� � �*�� 莉� �� A�%�W@��ˉ}�]��T��U�Z�m�w��p�a��Z͌~ ��z�v�� y ��n�u �j� �% �) �" �� "� � �*�� 捉� �� A�%�u;��ˉ~�\��R��U�[�m�x��r�b��\Ό~��{ �u��z ��o�u�j� �$ �* �" �� $� � �*�� 茉� �� A�%��9��ˉ|�_��T��V�Z�o�x��q�a��Ž}��z�v�� y��o �t �k� �$ �* �" � � �#� � �+�� 狉� �� A�%��>B��ˉ}�^��S��V�\�n�x��t�d��\͌~��{�u��z��o �t�k� �% �* �# � �! �$� � �,�� 猉� �� A�%��<��ˉ}�_��T��T�Z�n�x��s�a��[͌��{�u�� y��o�u�k� �# �* �# ��! �#� � �*�� 玉� �� A�%��?��ˉ~�\��R��V�Z�m�w��r�`��YΌ~��{�u�� y ��n�u �k� �& �* �" � � �"� � �+�� 草� �� A�%�?��ˉ~�^��R��T�Z�n�y��p�`��ZΌ~��{�u�� z�� n�u �k� �$ �+ �# � � �#�� *�� 狉�� A�%�)5��ˉ}�^��R��U�[�n�w��o�a��Y͌��z�u��y��n �u �k� �% �* �" � �! �#� � �+�� 獉� �� A�%�G?��ˉ{�^��R��W�[�m�w��p�d��[ˌ}��z�v��y ��o�t�k� �# �* �# �� #� � �*�� 獉� �� A�%�e<��ˉ~�]��T��V�Z�o�x��p�a��ZΌ~ ��{�v�� y��n �t �k� �$ �) �" � � �"�� +�� 獉� �� A�%��9��ˉ}�]��R��S�Z�n�w��q�`��Z͌} ��z �u�� y��n�u �j� �% �* �" � �! �"�� *�� 莉� �� A�%��ˉ|�^��T��U�]�o�x��q�`��Ž}��z�v�� z��o �u �k� �" �) �" �� "�� )�� 按� �� A�%��;��̉}�]��S��U�[�n�x��p�b��\͌~ ��{�v��z��n�t�k� �% �+ �" � �! �#� � �,�� 茉 �� A�%��;��̉}�\��R��V�Z�n�x��q�b��[͌~��{�u�� z��o�u�k� �% �) �# �� $�� ,�� 狉 � �� A�%��i��̉}�^��S��T�[�m�x��p�a��[͌}��{�u�~��z ��o�u�k� �$ �+ �" �� "� � �*�� 玉 �� A�%�>B��̉}�_��R��V�[�n�w��q�b��[͌��{�u��z��o�u�l� �# �* �# � � �#� � �+�� 鍉� �� A�%�7B1��̉}�^��S��T�[�n�v��q�a��Z͌��{�u��z��n �v �k� �$ �* �" ��! �#�� +�� 草� �� A�%�UB1��̉|�]��S��U�]�o�x��o�`��[̌} ��z �u�� y��n �u�k� �$ �* �" �� #�� *�� 獉� �� A�%�s7��ˉ}�]��R��V�\�n�y��q�b��\͌~ ��{ �v��z�� o�t�l� �$ �) �" � �! �"� � �+�� 猉� �� A�%��;��ˉ}�\��S��T�Z�m�w��p�a��[͌~��z�u�� z ��n�v�k� �% �* �! ��! �$� � �*�� 獉� �� A�%��>B��ˉ{�_��U��T�[�n�x��p�a��Zˌ}��z�v��z��o�t �k� �$ �* �! �� #�� +�� 獉 � �� A�%��@��ˉ��]��R��U�Z�m�y��p�b��Z��~ ��z�u�� y �� n�u �k� �% �* �" �� #�� +�� 草� �� A�%��>B��ˉ}�^��U��V�\�n�x��q�b��]͌~��{�v��z��o�t �l� �# �* �" �� "� � �+�� 猉� �� A�%� �x��ˉ~�^��S��T�[�n�w��o�a��[Ό~��z�u��y��n�u�k� �$ �* �! ��! �#� � �*�� 猉� �� A�%�';��ˉ}�_��S��U�\�n�x��p�b��[͌~��{�v�~��z��o�v�l� �$ �* �# � � �$�� +�� 茉� �� A�%�u_��ˉ{�[��R��V�\�p�x��o�b��\ˌ}��z�u��x��n �t�l� �$ �) �" �� #� � �(�� 獉� �� A�%��9��ˉ}�[��R��U�\�o�y��q�a��]͌~��{�u��y�� o�t �l� �% �* �" ��! �$� � �)�� 狉 � �� A�%��9��ˉ~�^��T��U�X�m�w��q�b��\Ό~��{�v�~��y ��o �u�k� �# �) �# � �! �#� � �*�� 草 � �� A�%��<��ˉ{�\��R��U�X�l�w��n�_��[ˌ}��{�u��x��n�u�k� �% �+ �# �� #� � �)�� 獉 �� A�%��<��ˉ}�]��S��V�[�n�y��r�a��]͌~ ��z�u��y�� o�t �l� �$ �* �" �� "� � �)�� 捉� �� A�%�;��ˉ|�]��S��V�Y�o�z��p�a��]̌~ ��{�u�� y�� o�t �l� �# �* �" � �" �"� � �+�� 狉� �� A�%�)7��ˉz�^��T��V�Y�l�y��q�a��]ʌ}��z�u�� x�� o�t �l� �$ �* �" �� $� � �)�� 猉� �� A�%�G?��ˉ|�]��S��V�V�m�w��p�a��\̌} ��z�v��y ��o�u�k� �# �) �" ��! �#� � �)�� 猉� �� A�%�eB1��ˉ{�[��T��W�Z�n�x��n�a��\ˌ}��z�u�� y��n�t�l� �$ �) �! �� "� � �*�� 猉� �� A�%��:T��ˉ~�\��R��V�X�n�x��q�b��[Ό~��z�u�~��y��n�u�k� �% �) � � � �#� � �+�� 茉� �� A�%��B1��ˉ}�^��R��V�Y�n�w��o�]��[͌}��z �v�� x�� n �u�k� �$ �) �" � � �#�� (�� 獉 � ��A�%��>B��ˉ}�\��S��U�Y�n�x��m�c��]͌~��z�u�� x�� n�t �l� �% �* �" � � �#� � �)�� 獉� �� A�%��9��ˉz�\��S��U�X�m�x��m�a��[ʌ}��{�u��x �� n�u�k� �$ �* �# �� $� � �)�� 玉� �� A�%��:T��ˉ}�_��S��U�[�n�w��p�a��[͌~��z�u��x��o�v�k� �% �* �! � � �"� � �)�� 鍉� �� A�%�?��ˉ}�]��R��U�Z�n�y��p�b��[͌~ ��{�u�� y�� o�t�l� �$ �* �" � �! �"� � �*�� 苉� �� A�%�7:T��ˉz�]��S��V�Y�m�w��o�`��Zʌ} ��{�v�� x ��n �t �l� �$ �) �# �� #� � �)�� 茉� �� A�%�U>B��ˉ~�]��S��V�Z�o�y��o�b��\Ό~ ��{�u�� y�� n �t�k� �% �* �" � �! �#� � �*�� 茉� �� A�%�s>B��ˉ~�a��T��U�Y�l�v��p�c��]Ό}��{�v�� y��o �u �l� �# �* �" �� #� � �)�� 按 � �� A�%��7��ˉ|�^��R��W�\�m�w��q�a��]̌}��z�v��y ��o�t �l� �# �) � �� #� � �*�� 草 � �� A�%��>B��̉|�^��S��V�W�m�u��o�a��\̌}��{�u��x ��o�v�k� �% �* �" ��! �#� � �(�� 玉 � �� A�%��9��̉|�[��T��X�Y�n�w��q�a��\̌}��{�v�� y��n�t�l� �# �) �" ��! �#� � �*�� 拉 � �� A�%��>B��̉{�]��S��V�X�o�x��p�`��[ˌ} ��z�v��x��n�u�k� �# �) �# �� #� � �)�� 捉� �� A�%� 9��̉z�]��T��X�[�m�v��p�b��]ʌ} ��{�v��x ��n�t �l� �# �+ �" �� #� � �(�� 按�� A�%�'>B��̉|�\��S��U�Y�n�w��q�c��\̌~��{�u�� y��o�t�k� �$ �+ �$ � �! �$� � �*�� 猉 �� XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 298 / width of table in bytes NAXIS2 = 97 / 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 = 287675576.34946 TSTOP = 287681576.294 DATE-OBS= '2010-02-12T13:52:55' DATE-END= '2010-02-12T15:32:55' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5999.9445400238 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 371 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:19' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'CmODFjLACjLACjLA' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3422305817' / data unit checksum updated 2010-02-18T17:05:19 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: sw00412081000b173x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:28 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��Yv6��A��1�� @�I�7��*��t��O��-�W��'��4��5�'��q��2��E�+��Z��I� � ��H�l��I��-�9��;��%�'��A�%��X��A��1��?�H�7��*��t��O��,�X��'��4��5�&��q��1��D�+��Y��H�� H�l��H��-�6��;��&�&�A�%��[��A��0��@�G�6��)��t��N�� ,�W��&��3��5�&��p��1��D�*��Y��Q��H��H�l��H��,�4��;��'�'�MA�%�KN��@��1��@�G�6��)��r��O�� *�U��'��3��5�&��p��1��C�+��X��G�� H�l��H��,�8��;��%�&�gA�%�0KC��@��1��@�G�6��)��s��O�� +�W��'��3��5�%��q��0��C�*��X��G�� G�l��H��,�3��9��$�&�A�%�NK�g��@��0��?�G�6��)��s��O�� *�W��&��2��5�%��o��0��C�+��X��I��H�� G�k��G��,�5��;��$�&�^A�%�lQ��@��0��?�G�6��)��t��N�� +�V��'��3��6�%��q��0��C�+��X��G�� H�l��G��,�3��:��$�&ҨA�%��Nx��@��0��@�G�6��)��s��O�� +�W��&��3��5�&��p��0��C�*��X��G�� G�k��H��,�5��<��%�%�BA�%��V�o��@��1��>�G�5��)��s��N�� +�V��&��3��6�%��p��1��C�*��X��K��H�� H�k��H��,�6��<��#�&�A�%��KN��?��0��>�G�6��)��r��N�� ,�V��&��3��5�&��r��0��C�*��X��G�� G�k��G��,�8��;��#�&�LA�%��^)t��@��1��?�G�6��)��s��O�� ,�V��'��3��5�%��r��1��C�*��X��W��G�� G�k��G��,�;��;��%�&��A�%�KT��@��1��@�G�6��)��s� �N�� *�X��&��4��5�%��q��1��C�*��X��g��G�� G�k��F��,�6��=��#�&�FA�%� KBF��?��0��?�G�6��)��r�!�N�� )�W��'��3��5�%��q��1��C�*��X��G�� H�l��I��,�:��<��$�&գA�%�>V�o��@��0��?�G�6��)��r��N�� *�W��&��3��5�%��p��1��C�*��X��G�� H�k��G��,�9��:��"�&ԸA�%�\KF5��@��0��?�G�6��)��s� �N�� *�V��'��3��5�%��p��0��C�+��X�� G�� H�k��H��,�2��9��"�%�!A�%�zKP��@��0��?�G�6��(��s��N�� *�U��&��3��5�%��p��1��D�*��X��G�� H�k��F��,�9��9��#�&��G�6��)��t��O�� *�W��&��3��5�%��o��0��C�*��X��G�� H�k��G��,�5��8��$�&դA�%�KF5��?��0��?�G�5��)��q��N�� *�W��&��3��5�%��q��1��C�*��W��G�� H�l��G��,�7��6��"�&�EA�%�.X�/��@��1��?�G�6��)��s��O�� *�V��&��3��5�%��p��0��C�*��X��V��G�� G�k��G��,�5��8��#�&��A�%�LKG��@��0��?�G�6��)��r��N�� )�U��&��4��5�%��p��1��C�*��X��G�� H�k��G��,�3��:�� &��A�%�jKD��@��1��>�G�6��)��s��N�� *�V��&��3��5�%��p��1��C�)��W��G�� G�k��G��,�8��;��"�&ԑA�%��KHԄ��@��0��?�G�6��)��q��N�� *�W��&��3��4�%��q��1��D�*��W��G��G�j��H��,�5��8��#�&�A�%��X��?��0��?�F�6��)��s��N�� *�U��&��3��5�%��p��1��C�*��X��G�� G�k��H��,�:��9��!�%�A�%��L�b��@��0��>�G�5��)��t��N�� +�V��&��3��4�%��p��1��C�*��W��U��G�� G�k��G��,�8��4��"�&մA�%��O�Ʉ��@��/��?�G�6��)��r��M�� *�V��&��3��5�%��p��0��C�*��W��G�� G�k��H��,�5��7��!�&֪A�%�KHԄ��@��0��>�G�6��)��s��N�� +�U��%��3��4�%��p��1��C�)��W��G�� G�k��G��,�4��6��#�%�A�%�KF5��?��0��>�G�6��)��r��M�� (�V��%��3��5�%��o��0��C�*��X��G�� +�H�k��G��,�3��:��#�&�A�%��@��0�� >�G�6��)��s��N�� )�V��&��3��4�%��o��0��C�*��W��G�� G�k��G��,�3��:��"�%�8A�%�ZM ��@��0��>�G�6��)��s��O�� *�W��$��3��4�%��o��0��C�*��X��G�� G�k��G��+�4��9��'�%�NA�%�x[/��?��0��>�F�6��)��s��O�� )�V��%��3��4�%��p��0��C�*��X��>��G�� G�k��G��,�6��8��#�&֊A�%��W�Ԅ��@��0�� >�F�5��)��s��N�� '�T��%��3��5�%��p��1��C�)��X��G�� G�k��E��,�5��8��%�%ԹA�%��KN��?��0��>�G�6��)��p� �N�� +�T��&��3��4�%��n��0��C�)��W��G��G�j��G��,�7��;��#�%ՄA�%��U�"��@��0��>�G�6��)��r��N�� )�U��&��3��4�%��q��0��C�)��X��P��G�� H�k��G��,�8��9��"�&ԩA�%��KdZ��@��0��?�F�5��)��r��N�� *�U��%��2��4�%��p��1��C�)��X��G�� G�k��G��,�8��8��"�%��A�%�KP��@��0�� >�F�5��)��r��N�� *�U��&��3��4�%��p��0��C�)��W��N��G�� G�k��G��-�6��8��$�$ҌA�%�,KSP��@��0��>�G�5��)��s��M�� )�T��$��3��4�%��p��0��C�*��W��G�� G�j��G��,�5��:��#�&ӊA�%�JM�a��@��0��>�F�6��)��o��N�� (�T��&��2��4�%��n��0��B�*��W��G�� G�k��G��,�4��8��!�%�eA�%�hO�r��@��0�� >�F�5��)��o��N�� (�V��&��3��4�%��p��0��B�*��W��`��G�� H�j��G��-�4��9��"�%�[A�%��Y�΄��@��/�� >�F�6��)��p��O�� )�U��%��2��5�$��o��0��C�*��W��G�� G�k��F��,�8��7��"�&�YA�%��}��?��0�� >�F�5��)��p��N�� *�V��$��2��4�$��o��0��B�*��W��G�� H�k��F��,�7��9��$�%�'A�%��MEc��?��0�� ?�F�5��)��p��N�� +�U��%��2��4�%��p��0��B�*��W��G�� G�k��G��,�4��8��!�$�zA�%��KKs��?��0��?�F�6��)��p��N�� )�U��%��2��4�$��n��0��B�*��W��G��G�� F�j��H��-�5��9��!�&�nA�%��KN��?��0��>�F�6��(��p��N�� +�U��&��2��4�%��p��0��C�)��W��G� �� H�j��G��-�4��8�� %հA�%�KX��?��/��?�F�5��)��p��N�� *�V��%��2��4�$��p��/��C�)��W��F�� G�j��E��,�5��6��!�$��A�%�:OM��?��/��?�F�5��)��o��N�� )�V��&��2��4�$��m��0��B�*��W��F�� G�j��G��-�8��7��!�%��A�%�XKOa��?��0�� >�F�6��)��r��N�� +�V��%��2��4�%��p��0��C�)��V��F�� F�k��F��-�6��8�� %��A�%�vW�-��?��0��>�F�5��)��p��N�� (�V��%��2��4�$��o��0��C�*��W��F�� G�j��F��-�4��7�� $�A�%��KOa��?��0�� >�F�5��(��o��N�� (�U��%��2��4�$��o��0��B�)��W��D��F�� F�j��F��-�6��8�� &׺A�%��Ls��?��0�� >�F�5��)��q��N�� '�U��$��1��4�%��p��0��C�)��W��=��F�� G�j��G��-�3��;�� %տA�%��KN��?��/�� ?�F�5��(��r��N�� )�V��%��2��4�$��o��1��B�)��W��F�� F�j��G��,�6��6��$�$�+A�%��M�D��?��/�� >�F�5��(��o��N�� *�U��%��2��4�$��n��0��C�)��W��G�� G�j��H��-�6��9��!�%� A�%�Yf{��?��/��>�F�5��(��o��N��(�U��%��1��4�$��q��/��B�*��W��F�� F�j��F��,�2��;��!�%�=A�%�*KN��?��/�� >�F�6��(��p��N�� '�U��%��2��4�$��o��0��B�)��V��F�� G�j��E��,�7��:��!�$�gA�%�H[�˄��>��0�� >�F�5��(��o��N��)�V��%��1��4�$��o��0��B�*��W��O��G�� G�j��H��,�5��<�� %�A�%�fX/ׄ��?��/��>�F�5��)��o��O�� '�U��%��2��4�$��o��0��B�)��V��F�� H�j��F��,�6��8��"�%�A�%��Q5T��?��/�� >�E�5��(��o��O��&�V��%��1��4�$��o��0��B�)��V��F�� F�j��F��,�4��;��"�$��A�%��Qvބ��>��0�� >�F�5��(��o��P�� &�U��$��2��4�$��o��/��B�*��V��F�� F�j��G��,�3��:��!�&��A�%��KP��>��/��>�E�5��(��o��P��(�U��%��2��4�$��n��/��B�*��V��F�� F�j��F��,�7��:��!�%ػA�%��O4ׄ��>��0�� =�F�5��(��o��O��)�U��$��1��3�$��o��/��B�)��V��F�� F�j��G��,�8��:��"�$שA�%��L�2��>��0�� >�E�5��(��q��O��(�T��%��2��4�$��n��0��B�)��V��F�� F�j��F��,�9��:�� %ԼA�%�KSP��>��0�� >�E�5��(��q��N��(�T��%��1��3�$��n��0��C�)��V��F�� G�j��H��,�2��:�� $��A�%�8Wmۄ��>��/�� >�E�5��(��r��M��(�U��$��1��3�$��o��0��B�)��V��F�� G�j��F��,�4��9��!�%�4A�%�VZτ��>��/�� >�E�5��(��o��N��(�U��%��1��3�$��n��0��B�)��V��F�� F�j��F��,�2��6��!�%֐A�%�tR�s��>��/�� >�E�5��(��o��M��(�U��%��1��4�$��o��0��B�*��V��F�� G�j��G��,�0��6��"�$�hA�%��W��>��0�� >�E�5��(��o��N��'�U��%��2��3�$��n��0��B�)��V��F�� G�j��F��+�4��9��"�%��A�%��XӮ��>��0�� =�E�5��(��p��N��)�U��$��2��3�$��o��0��B�*��V��6��F�� G�j��G��,�6��7��"�$�lA�%��K�x��>��/�� =�E�5��(��q��M��)�T��$��2��3�$��m��0��B�)��V��F�� F�j��F��,�7��7��!�%֧A�%��KKs��>��/�� >�E�4��(��o��N��*�T��$��2��4�$��n��0��B�)��V��F�� G�j��F��,�6��8��"�%�A�%� KJ#��>��/�� >�E�4��(��p��O��)�T��$��2��4�$��n��0��B�)��W��F�� F�j��G��,�5��9��!�$ֳA�%�(UTv��>��/�� >�F�5��(��o��N��)�U��$��2��4�$��p��0��B�)��V��F�� G�i��G��,�5��;��#�%�A�%�vPP��?��0��>�G�6��)��q��N�� (�V��%��2��4�%��n��0��C�*��W��F�� H�k��F��-�8��6��"�%�OA�%��KHԄ��?��0��?�G�6��)��r��N�� (�X��&��2��4�%��o��0��D�*��X��G�� H�j��F��-�6��6��#�%��A�%��KJ#��?��0��?�G�7��*��r��N�� *�U��&��2��4�%��o��0��D�)��X��D��G�� H�i��G��.�:��9��"�%�`A�%��U!W��@��1��>�H�7��*��p��N��'�U��&��2��5�&��q��1��E�*��Y��H�� H�j��E��.�=��9��$�&�8A�%��VF��@��1�� >�H�8��+��q��N��)�T��&��3��5�&��o��1��E�*��Z��G�� I�k��G��.�8��8��$�&��A�%�W��@��1�� ?�H�8��+��r��O��)�V��'��2��5�'��o��1��F�*��Y��G�� J�k��G��-�7��7��$�&�IA�%�*Y l��@��1��>�I�8��+��q��P��)�X��'��2��5�&��q��1��E�*��Z��H� �� I�k��F��.�>��9��#�'�;A�%�HKC��@��2�� ?�I�8��+��q��O��(�Y��'��3��5�&��r��1��E�*��Y��H��J�k��G��/�;��9��#�'��A�%�fW믅��@��2��?�I�9��+��r��O��*�X��(��3��5�'��q��2��F�+��Z��X��H��I�k��I��/�:��:��%�&ծA�%��KD��@��2��@�I�8��+��r��N��(�W��'��3��5�'��r��2��F�+��Z��H��K�k��F��/�7��8��#�&�� :��z��"��S��L��y��c��3��8��F��Q�7�� +�� t��P��&�� U�&��§A�%��Xw��>�� 9��z��!��S��L��x��b��4��8��E��Q�6�� +�� s��O��&�� T�&��ĿA�%��\�ф��=�� 9��z�� S��L��x��b��2��8��D��P�6��+�� s��P��&��T�%��©A�%�K�j��=��9��z��!��S��K��x��a��3��7��D��Q�5��*�� !��s��O��%��U�%��A�%�0K��=�� 8��z�� R��K��x��b��4��8��D��Q�6��*�� !��s��O��%�� S�%��&A�%�NL��=�� 8��z�� R��L��w��a��3��7��D��P�5��*��!��t��O��%��S�%��A�%�lRI��=�� 8��z�� Q��K��w��b��2��7��D��P�5��*�� !��s��O��%��S�&��wA�%��N�!��=�� 8��z�� Q��K��w��a��3��8��C��P�5��*�� s��O��%��S�&��'A�%��WqɄ��<�� 8��y�� R��L��x��a��4��~�8��D��P�5��*�� t��O��$�� U�&��"A�%��K��<�� 8��y�� S��K��y��a��5��~�7��C��Q�5��*�� !��t��O��%��T�%��@A�%��^�˄��<��8��z�� R��L��x��a��3��~�7��D��P�5��*��!��t��O��$��S�&��8A�%�K��=�� 8��y�� R��K��w��a��3��7��C��P�5��*��!��t��O��%��T�&��sA�%� K��<��8��y�� Q��K��x��a��4��8��C��P�5��*��"��s��O��%��R�&��wA�%�>Wmۄ��<��8��y�� S��K��w��a��3��8��C��P�5��*��!��s��O��$�� S�&��#A�%�\K��<��8��y�� R��K��x��a��3��8��D��Q�5��*�� s��O��%��R�&��A�%�zK¹��=��8��y�� S��K��w��a��2��}�8��C��Q�5��*�� s��O��%�� S�&��kA�%��K�˄��<��8��y�� S��K��x��a��2��8��C��P�5��*��!��s��O��$��R�&��A�%��K��=��8��y�� R��K��w��a��2��8��C��Q�4��*�� s��O��%��R�&��A�%��\�Ǆ��<��8��y�� R��K��w��a��2��8��C��P�5��*��!��s��O��%��R�&��A�%��K��=��8��y�� Q��K��v��a��3��8��C��P�5��*�� s��O��%��R�%��ÊA�%�K�˄��=��7��z�� Q��K��w��a��3��8��C��Q�5��*�� s��O��%��S�%��A�%�.Y��<��8��y�� R��K��w��a��3��8��C��Q�5��*�� !��s��O��%��R�&��A�%�LK��<��8��y�� Q��K��w��a��3��8��C��P�5��*�� !��s��O��%��S�%��A�%�jK��<��8��y�� Q��K��x��a��3��8��D��P�5��*�� t��O��%��V�%��DA�%��K�܄��=��8��y��Q��K��w��a��4��8��D��P�5��*�� t��O��%��W�&��A�%��Y}��<��7��y�� Q��K��x��a��3��~�8��D��Q�5��*�� s��O��%��W�%��A�%��MZ\��<��8��y�� Q��K��w��b��4��8��D��Q�4��*��s��O��%��V�&��A�%��P�H��=��8��y�� R��K��x��a��3��7��E��Q�5��*��!��s��O��%��T�%��ŽA�%�K�܄��<��8��y��Q��K��z��a��5��7��C��P�5��*�� !��s��O��%��T�&��A�%�K�܄��<��7��y��Q��K��x��a��4��7��C��P�5��*��s��O��%��T�%��A�%��9��y�� R��K��x��b��2��8��F��N�6��*��!��s��O��%�� Q�&��aA�%�XJ��>��9��z��!��R��K��y��b��2��9��H��O�6��*�� !��s��O��%�� T�'��A�%�*Y{t��>��:��y��!��R��L��z��c��2��9��J��N�6��*��!��s��O��%�� V�'��A�%�HK��?�� :��z��"��R��K��y��c��3��9��J��P�7��*�� t��P��%��U�&��A�%�fX]��?�� ;��y��"��R��K��y��d��2��9��K��P�7��*��!��t��P��%��T�'��GA�%��K�,��?�� :��z��!��R��L��x��c��2��9��I��P�7��*��!��s��P��%�� U�'��A�%��X��>��:��z��!��R��L��z��d��2��9��K��O�7��*��!��s��O��%��T�&��ļA�%��Q㨄��>��:��z��!��Q��K��y��d��3��9��H��P�7��*�� s��O��%�� S�&��A�%��K�܄��?�� :��y��"��Q��L��x��c��2��9��G��O�7��*��"��s��O��%��S�'��8A�%��]5��>�� :��y��!��R��K��y��c��1��9��G��O�6��*�� !��s��P��%�� S�&��@A�%�Ya=��>��9��z��!��R��L��x��c��1��9��G��O�6��*�� s��P��%�� T�&��A�%�8cI{��>��:��y��!��R��K��w��b��2��9��H��O�6��*�� "��s��P��%�� T�&��ÐA�%�VK�,��>�� 9��y�� Q��K��x��c��1��8��H��N�5��*��s��O��%�� T�%��hA�%�tK�܄��=��9��y�� Q��K��y��b��2��8��G��N�5��*��s��O��%�� R�%��ĊA�%��K�{��=��8��y�� Q��K��w��a��1��8��H��N�5��*��s��O��$��S�%��A�%��K��=��8��y�� Q��K��x��b��2��8��I��O�5��)��!��s��O��$�� R�%��A�%��U��<��8��y�� P��K��w��a��2��7��H��N�4��*��!��s��O��$��Q�$��aA�%��X[��<��7��y�� P��K��x��a��2��7��G��N�4��)�� !��r��O��$��Q�$��ģA�%� \��<��7��y�� Q��J��w��`��2��7��G��O�3��)��!��s��O��#��R�#��2A�%�(K��;��6��y��P��J��x��a��3��~�6��G��O�3��)�� s��O��$��Q�#��WXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 97 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKLCBLK11DM0A' / Block 11, DM 0, Side A Leakage Current TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL2 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT2 = 'nA ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKLCBLK11DM0B' / Block 11, DM 0, Side B Leakage Current TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL4 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT4 = 'nA ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKLCBLK11DM1A' / Block 11, DM 1, Side A Leakage Current TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL6 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT6 = 'nA ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKLCBLK11DM1B' / Block 11, DM 1, Side B Leakage Current TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL8 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT8 = 'nA ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKLCBLK11DM2A' / Block 11, DM 2, Side A Leakage Current TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL10 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT10 = 'nA ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKLCBLK11DM2B' / Block 11, DM 2, Side B Leakage Current TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL12 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT12 = 'nA ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKLCBLK11DM3A' / Block 11, DM 3, Side A Leakage Current TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL14 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT14 = 'nA ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKLCBLK11DM3B' / Block 11, DM 3, Side B Leakage Current TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL16 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT16 = 'nA ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKLCBLK11DM4A' / Block 11, DM 4, Side A Leakage Current TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL18 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT18 = 'nA ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKLCBLK11DM4B' / Block 11, DM 4, Side B Leakage Current TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL20 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT20 = 'nA ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKLCBLK11DM5A' / Block 11, DM 5, Side A Leakage Current TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL22 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT22 = 'nA ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKLCBLK11DM5B' / Block 11, DM 5, Side B Leakage Current TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL24 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT24 = 'nA ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKLCBLK11DM6A' / Block 11, DM 6, Side A Leakage Current TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL26 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT26 = 'nA ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKLCBLK11DM6B' / Block 11, DM 6, Side B Leakage Current TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL28 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT28 = 'nA ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKLCBLK11DM7A' / Block 11, DM 7, Side A Leakage Current TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL30 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT30 = 'nA ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKLCBLK11DM7B' / Block 11, DM 7, Side B Leakage Current TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL32 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT32 = 'nA ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKLCBLK12DM0A' / Block 12, DM 0, Side A Leakage Current TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL34 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT34 = 'nA ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKLCBLK12DM0B' / Block 12, DM 0, Side B Leakage Current TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL36 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT36 = 'nA ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKLCBLK12DM1A' / Block 12, DM 1, Side A Leakage Current TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL38 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT38 = 'nA ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKLCBLK12DM1B' / Block 12, DM 1, Side B Leakage Current TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL40 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT40 = 'nA ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKLCBLK12DM2A' / Block 12, DM 2, Side A Leakage Current TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL42 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT42 = 'nA ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKLCBLK12DM2B' / Block 12, DM 2, Side B Leakage Current TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL44 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT44 = 'nA ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKLCBLK12DM3A' / Block 12, DM 3, Side A Leakage Current TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL46 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT46 = 'nA ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKLCBLK12DM3B' / Block 12, DM 3, Side B Leakage Current TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL48 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT48 = 'nA ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKLCBLK12DM4A' / Block 12, DM 4, Side A Leakage Current TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL50 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT50 = 'nA ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKLCBLK12DM4B' / Block 12, DM 4, Side B Leakage Current TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL52 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT52 = 'nA ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKLCBLK12DM5A' / Block 12, DM 5, Side A Leakage Current TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL54 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT54 = 'nA ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKLCBLK12DM5B' / Block 12, DM 5, Side B Leakage Current TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL56 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT56 = 'nA ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKLCBLK12DM6A' / Block 12, DM 6, Side A Leakage Current TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL58 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT58 = 'nA ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKLCBLK12DM6B' / Block 12, DM 6, Side B Leakage Current TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL60 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT60 = 'nA ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKLCBLK12DM7A' / Block 12, DM 7, Side A Leakage Current TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL62 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT62 = 'nA ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKLCBLK12DM7B' / Block 12, DM 7, Side B Leakage Current TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL64 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT64 = 'nA ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKLCBLK13DM0A' / Block 13, DM 0, Side A Leakage Current TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL66 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT66 = 'nA ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKLCBLK13DM0B' / Block 13, DM 0, Side B Leakage Current TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL68 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT68 = 'nA ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKLCBLK13DM1A' / Block 13, DM 1, Side A Leakage Current TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL70 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT70 = 'nA ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKLCBLK13DM1B' / Block 13, DM 1, Side B Leakage Current TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL72 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT72 = 'nA ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKLCBLK13DM2A' / Block 13, DM 2, Side A Leakage Current TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL74 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT74 = 'nA ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKLCBLK13DM2B' / Block 13, DM 2, Side B Leakage Current TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL76 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT76 = 'nA ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKLCBLK13DM3A' / Block 13, DM 3, Side A Leakage Current TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL78 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT78 = 'nA ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKLCBLK13DM3B' / Block 13, DM 3, Side B Leakage Current TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL80 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT80 = 'nA ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKLCBLK13DM4A' / Block 13, DM 4, Side A Leakage Current TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL82 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT82 = 'nA ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKLCBLK13DM4B' / Block 13, DM 4, Side B Leakage Current TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL84 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT84 = 'nA ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKLCBLK13DM5A' / Block 13, DM 5, Side A Leakage Current TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL86 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT86 = 'nA ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKLCBLK13DM5B' / Block 13, DM 5, Side B Leakage Current TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL88 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT88 = 'nA ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKLCBLK13DM6A' / Block 13, DM 6, Side A Leakage Current TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL90 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT90 = 'nA ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKLCBLK13DM6B' / Block 13, DM 6, Side B Leakage Current TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL92 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT92 = 'nA ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKLCBLK13DM7A' / Block 13, DM 7, Side A Leakage Current TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL94 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT94 = 'nA ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKLCBLK13DM7B' / Block 13, DM 7, Side B Leakage Current TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL96 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT96 = 'nA ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKLCBLK14DM0A' / Block 14, DM 0, Side A Leakage Current TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL98 = 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT98 = 'nA ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKLCBLK14DM0B' / Block 14, DM 0, Side B Leakage Current TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL100= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT100= 'nA ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKLCBLK14DM1A' / Block 14, DM 1, Side A Leakage Current TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL102= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT102= 'nA ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKLCBLK14DM1B' / Block 14, DM 1, Side B Leakage Current TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL104= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT104= 'nA ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKLCBLK14DM2A' / Block 14, DM 2, Side A Leakage Current TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL106= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT106= 'nA ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKLCBLK14DM2B' / Block 14, DM 2, Side B Leakage Current TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL108= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT108= 'nA ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKLCBLK14DM3A' / Block 14, DM 3, Side A Leakage Current TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL110= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT110= 'nA ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKLCBLK14DM3B' / Block 14, DM 3, Side B Leakage Current TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL112= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT112= 'nA ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKLCBLK14DM4A' / Block 14, DM 4, Side A Leakage Current TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL114= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT114= 'nA ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKLCBLK14DM4B' / Block 14, DM 4, Side B Leakage Current TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL116= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT116= 'nA ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKLCBLK14DM5A' / Block 14, DM 5, Side A Leakage Current TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL118= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT118= 'nA ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKLCBLK14DM5B' / Block 14, DM 5, Side B Leakage Current TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL120= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT120= 'nA ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKLCBLK14DM6A' / Block 14, DM 6, Side A Leakage Current TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL122= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT122= 'nA ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKLCBLK14DM6B' / Block 14, DM 6, Side B Leakage Current TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL124= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT124= 'nA ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKLCBLK14DM7A' / Block 14, DM 7, Side A Leakage Current TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL126= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT126= 'nA ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKLCBLK14DM7B' / Block 14, DM 7, Side B Leakage Current TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL128= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT128= 'nA ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKLCBLK15DM0A' / Block 15, DM 0, Side A Leakage Current TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL130= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT130= 'nA ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKLCBLK15DM0B' / Block 15, DM 0, Side B Leakage Current TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL132= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT132= 'nA ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKLCBLK15DM1A' / Block 15, DM 1, Side A Leakage Current TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL134= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT134= 'nA ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKLCBLK15DM1B' / Block 15, DM 1, Side B Leakage Current TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL136= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT136= 'nA ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKLCBLK15DM2A' / Block 15, DM 2, Side A Leakage Current TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL138= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT138= 'nA ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKLCBLK15DM2B' / Block 15, DM 2, Side B Leakage Current TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL140= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT140= 'nA ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKLCBLK15DM3A' / Block 15, DM 3, Side A Leakage Current TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL142= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT142= 'nA ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKLCBLK15DM3B' / Block 15, DM 3, Side B Leakage Current TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL144= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT144= 'nA ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKLCBLK15DM4A' / Block 15, DM 4, Side A Leakage Current TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL146= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT146= 'nA ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKLCBLK15DM4B' / Block 15, DM 4, Side B Leakage Current TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL148= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT148= 'nA ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKLCBLK15DM5A' / Block 15, DM 5, Side A Leakage Current TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL150= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT150= 'nA ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKLCBLK15DM5B' / Block 15, DM 5, Side B Leakage Current TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL152= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT152= 'nA ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKLCBLK15DM6A' / Block 15, DM 6, Side A Leakage Current TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL154= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT154= 'nA ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKLCBLK15DM6B' / Block 15, DM 6, Side B Leakage Current TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL156= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT156= 'nA ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKLCBLK15DM7A' / Block 15, DM 7, Side A Leakage Current TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL158= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT158= 'nA ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKLCBLK15DM7B' / Block 15, DM 7, Side B Leakage Current TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 34281.31584 / data offset (32k shift B_HK_LC_CONV conversion)TSCAL160= 1.07963 / data scaling (B_HK_LC_CONV conversion) TUNIT160= 'nA ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKLCSPARE14' / Leakage Current Packets Spare Word 14 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk175x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675577.4454 TSTOP = 287681577.44542 DATE-OBS= '2010-02-12T13:52:56' DATE-END= '2010-02-12T15:32:56' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6000.00002002716 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 373 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:20' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'IVAWLT3WITAWIT3W' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '955915546' / data unit checksum updated 2010-02-18T17:05:20 TRDLO2 = -1097 / BHKLCBLK11DM0A Red lower limit = B_HK_B11D0A_LCTRDHI2 = 1300 / BHKLCBLK11DM0A Red upper limit = B_HK_B11D0A_LCTYELO2 = -1097 / BHKLCBLK11DM0A Yellow lower limit = B_HK_B11D0ATYEHI2 = 1000 / BHKLCBLK11DM0A Yellow upper limit = B_HK_B11D0ATRDLO4 = -1097 / BHKLCBLK11DM0B Red lower limit = B_HK_B11D0B_LCTRDHI4 = 1300 / BHKLCBLK11DM0B Red upper limit = B_HK_B11D0B_LCTYELO4 = -1097 / BHKLCBLK11DM0B Yellow lower limit = B_HK_B11D0BTYEHI4 = 1000 / BHKLCBLK11DM0B Yellow upper limit = B_HK_B11D0BTRDLO6 = -1097 / BHKLCBLK11DM1A Red lower limit = B_HK_B11D1A_LCTRDHI6 = 1300 / BHKLCBLK11DM1A Red upper limit = B_HK_B11D1A_LCTYELO6 = -1097 / BHKLCBLK11DM1A Yellow lower limit = B_HK_B11D1ATYEHI6 = 1000 / BHKLCBLK11DM1A Yellow upper limit = B_HK_B11D1ATRDLO8 = -1097 / BHKLCBLK11DM1B Red lower limit = B_HK_B11D1B_LCTRDHI8 = 1300 / BHKLCBLK11DM1B Red upper limit = B_HK_B11D1B_LCTYELO8 = -1097 / BHKLCBLK11DM1B Yellow lower limit = B_HK_B11D1BTYEHI8 = 1000 / BHKLCBLK11DM1B Yellow upper limit = B_HK_B11D1BTRDLO10 = -1097 / BHKLCBLK11DM2A Red lower limit = B_HK_B11D2A_LCTRDHI10 = 1300 / BHKLCBLK11DM2A Red upper limit = B_HK_B11D2A_LCTYELO10 = -1097 / BHKLCBLK11DM2A Yellow lower limit = B_HK_B11D2ATYEHI10 = 1000 / BHKLCBLK11DM2A Yellow upper limit = B_HK_B11D2ATRDLO12 = -1097 / BHKLCBLK11DM2B Red lower limit = B_HK_B11D2B_LCTRDHI12 = 1300 / BHKLCBLK11DM2B Red upper limit = B_HK_B11D2B_LCTYELO12 = -1097 / BHKLCBLK11DM2B Yellow lower limit = B_HK_B11D2BTYEHI12 = 1000 / BHKLCBLK11DM2B Yellow upper limit = B_HK_B11D2BTRDLO14 = -1097 / BHKLCBLK11DM3A Red lower limit = B_HK_B11D3A_LCTRDHI14 = 1300 / BHKLCBLK11DM3A Red upper limit = B_HK_B11D3A_LCTYELO14 = -1097 / BHKLCBLK11DM3A Yellow lower limit = B_HK_B11D3ATYEHI14 = 1000 / BHKLCBLK11DM3A Yellow upper limit = B_HK_B11D3ATRDLO16 = -1097 / BHKLCBLK11DM3B Red lower limit = B_HK_B11D3B_LCTRDHI16 = 1300 / BHKLCBLK11DM3B Red upper limit = B_HK_B11D3B_LCTYELO16 = -1097 / BHKLCBLK11DM3B Yellow lower limit = B_HK_B11D3BTYEHI16 = 1000 / BHKLCBLK11DM3B Yellow upper limit = B_HK_B11D3BTRDLO18 = -1097 / BHKLCBLK11DM4A Red lower limit = B_HK_B11D4A_LCTRDHI18 = 1300 / BHKLCBLK11DM4A Red upper limit = B_HK_B11D4A_LCTYELO18 = -1097 / BHKLCBLK11DM4A Yellow lower limit = B_HK_B11D4ATYEHI18 = 1000 / BHKLCBLK11DM4A Yellow upper limit = B_HK_B11D4ATRDLO20 = -1097 / BHKLCBLK11DM4B Red lower limit = B_HK_B11D4B_LCTRDHI20 = 1300 / BHKLCBLK11DM4B Red upper limit = B_HK_B11D4B_LCTYELO20 = -1097 / BHKLCBLK11DM4B Yellow lower limit = B_HK_B11D4BTYEHI20 = 1000 / BHKLCBLK11DM4B Yellow upper limit = B_HK_B11D4BTRDLO22 = -1097 / BHKLCBLK11DM5A Red lower limit = B_HK_B11D5A_LCTRDHI22 = 1300 / BHKLCBLK11DM5A Red upper limit = B_HK_B11D5A_LCTYELO22 = -1097 / BHKLCBLK11DM5A Yellow lower limit = B_HK_B11D5ATYEHI22 = 1000 / BHKLCBLK11DM5A Yellow upper limit = B_HK_B11D5ATRDLO24 = -1097 / BHKLCBLK11DM5B Red lower limit = B_HK_B11D5B_LCTRDHI24 = 1300 / BHKLCBLK11DM5B Red upper limit = B_HK_B11D5B_LCTYELO24 = -1097 / BHKLCBLK11DM5B Yellow lower limit = B_HK_B11D5BTYEHI24 = 1000 / BHKLCBLK11DM5B Yellow upper limit = B_HK_B11D5BTRDLO26 = -1097 / BHKLCBLK11DM6A Red lower limit = B_HK_B11D6A_LCTRDHI26 = 1300 / BHKLCBLK11DM6A Red upper limit = B_HK_B11D6A_LCTYELO26 = -1097 / BHKLCBLK11DM6A Yellow lower limit = B_HK_B11D6ATYEHI26 = 1000 / BHKLCBLK11DM6A Yellow upper limit = B_HK_B11D6ATRDLO28 = -1097 / BHKLCBLK11DM6B Red lower limit = B_HK_B11D6B_LCTRDHI28 = 1300 / BHKLCBLK11DM6B Red upper limit = B_HK_B11D6B_LCTYELO28 = -1097 / BHKLCBLK11DM6B Yellow lower limit = B_HK_B11D6BTYEHI28 = 1000 / BHKLCBLK11DM6B Yellow upper limit = B_HK_B11D6BTRDLO30 = -1097 / BHKLCBLK11DM7A Red lower limit = B_HK_B11D7A_LCTRDHI30 = 1300 / BHKLCBLK11DM7A Red upper limit = B_HK_B11D7A_LCTYELO30 = -1097 / BHKLCBLK11DM7A Yellow lower limit = B_HK_B11D7ATYEHI30 = 1000 / BHKLCBLK11DM7A Yellow upper limit = B_HK_B11D7ATRDLO32 = -1097 / BHKLCBLK11DM7B Red lower limit = B_HK_B11D7B_LCTRDHI32 = 1300 / BHKLCBLK11DM7B Red upper limit = B_HK_B11D7B_LCTYELO32 = -1097 / BHKLCBLK11DM7B Yellow lower limit = B_HK_B11D7BTYEHI32 = 1000 / BHKLCBLK11DM7B Yellow upper limit = B_HK_B11D7BTRDLO34 = -1097 / BHKLCBLK12DM0A Red lower limit = B_HK_B12D0A_LCTRDHI34 = 1300 / BHKLCBLK12DM0A Red upper limit = B_HK_B12D0A_LCTYELO34 = -1097 / BHKLCBLK12DM0A Yellow lower limit = B_HK_B12D0ATYEHI34 = 1000 / BHKLCBLK12DM0A Yellow upper limit = B_HK_B12D0ATRDLO36 = -1097 / BHKLCBLK12DM0B Red lower limit = B_HK_B12D0B_LCTRDHI36 = 1300 / BHKLCBLK12DM0B Red upper limit = B_HK_B12D0B_LCTYELO36 = -1097 / BHKLCBLK12DM0B Yellow lower limit = B_HK_B12D0BTYEHI36 = 1000 / BHKLCBLK12DM0B Yellow upper limit = B_HK_B12D0BTRDLO38 = -1097 / BHKLCBLK12DM1A Red lower limit = B_HK_B12D1A_LCTRDHI38 = 1300 / BHKLCBLK12DM1A Red upper limit = B_HK_B12D1A_LCTYELO38 = -1097 / BHKLCBLK12DM1A Yellow lower limit = B_HK_B12D1ATYEHI38 = 1000 / BHKLCBLK12DM1A Yellow upper limit = B_HK_B12D1ATRDLO40 = -1097 / BHKLCBLK12DM1B Red lower limit = B_HK_B12D1B_LCTRDHI40 = 1300 / BHKLCBLK12DM1B Red upper limit = B_HK_B12D1B_LCTYELO40 = -1097 / BHKLCBLK12DM1B Yellow lower limit = B_HK_B12D1BTYEHI40 = 1000 / BHKLCBLK12DM1B Yellow upper limit = B_HK_B12D1BTRDLO42 = -1097 / BHKLCBLK12DM2A Red lower limit = B_HK_B12D2A_LCTRDHI42 = 1300 / BHKLCBLK12DM2A Red upper limit = B_HK_B12D2A_LCTYELO42 = -1097 / BHKLCBLK12DM2A Yellow lower limit = B_HK_B12D2ATYEHI42 = 1000 / BHKLCBLK12DM2A Yellow upper limit = B_HK_B12D2ATRDLO44 = -1097 / BHKLCBLK12DM2B Red lower limit = B_HK_B12D2B_LCTRDHI44 = 1300 / BHKLCBLK12DM2B Red upper limit = B_HK_B12D2B_LCTYELO44 = -1097 / BHKLCBLK12DM2B Yellow lower limit = B_HK_B12D2BTYEHI44 = 1000 / BHKLCBLK12DM2B Yellow upper limit = B_HK_B12D2BTRDLO46 = -1097 / BHKLCBLK12DM3A Red lower limit = B_HK_B12D3A_LCTRDHI46 = 1300 / BHKLCBLK12DM3A Red upper limit = B_HK_B12D3A_LCTYELO46 = -1097 / BHKLCBLK12DM3A Yellow lower limit = B_HK_B12D3ATYEHI46 = 1000 / BHKLCBLK12DM3A Yellow upper limit = B_HK_B12D3ATRDLO48 = -1097 / BHKLCBLK12DM3B Red lower limit = B_HK_B12D3B_LCTRDHI48 = 1300 / BHKLCBLK12DM3B Red upper limit = B_HK_B12D3B_LCTYELO48 = -1097 / BHKLCBLK12DM3B Yellow lower limit = B_HK_B12D3BTYEHI48 = 1000 / BHKLCBLK12DM3B Yellow upper limit = B_HK_B12D3BTRDLO50 = -1097 / BHKLCBLK12DM4A Red lower limit = B_HK_B12D4A_LCTRDHI50 = 1300 / BHKLCBLK12DM4A Red upper limit = B_HK_B12D4A_LCTYELO50 = -1097 / BHKLCBLK12DM4A Yellow lower limit = B_HK_B12D4ATYEHI50 = 1000 / BHKLCBLK12DM4A Yellow upper limit = B_HK_B12D4ATRDLO52 = -1097 / BHKLCBLK12DM4B Red lower limit = B_HK_B12D4B_LCTRDHI52 = 1300 / BHKLCBLK12DM4B Red upper limit = B_HK_B12D4B_LCTYELO52 = -1097 / BHKLCBLK12DM4B Yellow lower limit = B_HK_B12D4BTYEHI52 = 1000 / BHKLCBLK12DM4B Yellow upper limit = B_HK_B12D4BTRDLO54 = -1097 / BHKLCBLK12DM5A Red lower limit = B_HK_B12D5A_LCTRDHI54 = 1300 / BHKLCBLK12DM5A Red upper limit = B_HK_B12D5A_LCTYELO54 = -1097 / BHKLCBLK12DM5A Yellow lower limit = B_HK_B12D5ATYEHI54 = 1000 / BHKLCBLK12DM5A Yellow upper limit = B_HK_B12D5ATRDLO56 = -1097 / BHKLCBLK12DM5B Red lower limit = B_HK_B12D5B_LCTRDHI56 = 1300 / BHKLCBLK12DM5B Red upper limit = B_HK_B12D5B_LCTYELO56 = -1097 / BHKLCBLK12DM5B Yellow lower limit = B_HK_B12D5BTYEHI56 = 1000 / BHKLCBLK12DM5B Yellow upper limit = B_HK_B12D5BTRDLO58 = -1097 / BHKLCBLK12DM6A Red lower limit = B_HK_B12D6A_LCTRDHI58 = 1300 / BHKLCBLK12DM6A Red upper limit = B_HK_B12D6A_LCTYELO58 = -1097 / BHKLCBLK12DM6A Yellow lower limit = B_HK_B12D6ATYEHI58 = 1000 / BHKLCBLK12DM6A Yellow upper limit = B_HK_B12D6ATRDLO60 = -1097 / BHKLCBLK12DM6B Red lower limit = B_HK_B12D6B_LCTRDHI60 = 1300 / BHKLCBLK12DM6B Red upper limit = B_HK_B12D6B_LCTYELO60 = -1097 / BHKLCBLK12DM6B Yellow lower limit = B_HK_B12D6BTYEHI60 = 1000 / BHKLCBLK12DM6B Yellow upper limit = B_HK_B12D6BTRDLO62 = -1097 / BHKLCBLK12DM7A Red lower limit = B_HK_B12D7A_LCTRDHI62 = 1300 / BHKLCBLK12DM7A Red upper limit = B_HK_B12D7A_LCTYELO62 = -1097 / BHKLCBLK12DM7A Yellow lower limit = B_HK_B12D7ATYEHI62 = 1000 / BHKLCBLK12DM7A Yellow upper limit = B_HK_B12D7ATRDLO64 = -1097 / BHKLCBLK12DM7B Red lower limit = B_HK_B12D7B_LCTRDHI64 = 1300 / BHKLCBLK12DM7B Red upper limit = B_HK_B12D7B_LCTYELO64 = -1097 / BHKLCBLK12DM7B Yellow lower limit = B_HK_B12D7BTYEHI64 = 1000 / BHKLCBLK12DM7B Yellow upper limit = B_HK_B12D7BTRDLO66 = -1097 / BHKLCBLK13DM0A Red lower limit = B_HK_B13D0A_LCTRDHI66 = 1300 / BHKLCBLK13DM0A Red upper limit = B_HK_B13D0A_LCTYELO66 = -1097 / BHKLCBLK13DM0A Yellow lower limit = B_HK_B13D0ATYEHI66 = 1000 / BHKLCBLK13DM0A Yellow upper limit = B_HK_B13D0ATRDLO68 = -1097 / BHKLCBLK13DM0B Red lower limit = B_HK_B13D0B_LCTRDHI68 = 1300 / BHKLCBLK13DM0B Red upper limit = B_HK_B13D0B_LCTYELO68 = -1097 / BHKLCBLK13DM0B Yellow lower limit = B_HK_B13D0BTYEHI68 = 1000 / BHKLCBLK13DM0B Yellow upper limit = B_HK_B13D0BTRDLO70 = -1097 / BHKLCBLK13DM1A Red lower limit = B_HK_B13D1A_LCTRDHI70 = 1300 / BHKLCBLK13DM1A Red upper limit = B_HK_B13D1A_LCTYELO70 = -1097 / BHKLCBLK13DM1A Yellow lower limit = B_HK_B13D1ATYEHI70 = 1000 / BHKLCBLK13DM1A Yellow upper limit = B_HK_B13D1ATRDLO72 = -1097 / BHKLCBLK13DM1B Red lower limit = B_HK_B13D1B_LCTRDHI72 = 1300 / BHKLCBLK13DM1B Red upper limit = B_HK_B13D1B_LCTYELO72 = -1097 / BHKLCBLK13DM1B Yellow lower limit = B_HK_B13D1BTYEHI72 = 1000 / BHKLCBLK13DM1B Yellow upper limit = B_HK_B13D1BTRDLO74 = -1097 / BHKLCBLK13DM2A Red lower limit = B_HK_B13D2A_LCTRDHI74 = 1300 / BHKLCBLK13DM2A Red upper limit = B_HK_B13D2A_LCTYELO74 = -1097 / BHKLCBLK13DM2A Yellow lower limit = B_HK_B13D2ATYEHI74 = 1000 / BHKLCBLK13DM2A Yellow upper limit = B_HK_B13D2ATRDLO76 = -1097 / BHKLCBLK13DM2B Red lower limit = B_HK_B13D2B_LCTRDHI76 = 1300 / BHKLCBLK13DM2B Red upper limit = B_HK_B13D2B_LCTYELO76 = -1097 / BHKLCBLK13DM2B Yellow lower limit = B_HK_B13D2BTYEHI76 = 1000 / BHKLCBLK13DM2B Yellow upper limit = B_HK_B13D2BTRDLO78 = -1097 / BHKLCBLK13DM3A Red lower limit = B_HK_B13D3A_LCTRDHI78 = 1300 / BHKLCBLK13DM3A Red upper limit = B_HK_B13D3A_LCTYELO78 = -1097 / BHKLCBLK13DM3A Yellow lower limit = B_HK_B13D3ATYEHI78 = 1000 / BHKLCBLK13DM3A Yellow upper limit = B_HK_B13D3ATRDLO80 = -1097 / BHKLCBLK13DM3B Red lower limit = B_HK_B13D3B_LCTRDHI80 = 1300 / BHKLCBLK13DM3B Red upper limit = B_HK_B13D3B_LCTYELO80 = -1097 / BHKLCBLK13DM3B Yellow lower limit = B_HK_B13D3BTYEHI80 = 1000 / BHKLCBLK13DM3B Yellow upper limit = B_HK_B13D3BTRDLO82 = -1097 / BHKLCBLK13DM4A Red lower limit = B_HK_B13D4A_LCTRDHI82 = 1300 / BHKLCBLK13DM4A Red upper limit = B_HK_B13D4A_LCTYELO82 = -1097 / BHKLCBLK13DM4A Yellow lower limit = B_HK_B13D4ATYEHI82 = 1000 / BHKLCBLK13DM4A Yellow upper limit = B_HK_B13D4ATRDLO84 = -1097 / BHKLCBLK13DM4B Red lower limit = B_HK_B13D4B_LCTRDHI84 = 1300 / BHKLCBLK13DM4B Red upper limit = B_HK_B13D4B_LCTYELO84 = -1097 / BHKLCBLK13DM4B Yellow lower limit = B_HK_B13D4BTYEHI84 = 1000 / BHKLCBLK13DM4B Yellow upper limit = B_HK_B13D4BTRDLO86 = -1097 / BHKLCBLK13DM5A Red lower limit = B_HK_B13D5A_LCTRDHI86 = 1300 / BHKLCBLK13DM5A Red upper limit = B_HK_B13D5A_LCTYELO86 = -1097 / BHKLCBLK13DM5A Yellow lower limit = B_HK_B13D5ATYEHI86 = 1000 / BHKLCBLK13DM5A Yellow upper limit = B_HK_B13D5ATRDLO88 = -1097 / BHKLCBLK13DM5B Red lower limit = B_HK_B13D5B_LCTRDHI88 = 1300 / BHKLCBLK13DM5B Red upper limit = B_HK_B13D5B_LCTYELO88 = -1097 / BHKLCBLK13DM5B Yellow lower limit = B_HK_B13D5BTYEHI88 = 1000 / BHKLCBLK13DM5B Yellow upper limit = B_HK_B13D5BTRDLO90 = -1097 / BHKLCBLK13DM6A Red lower limit = B_HK_B13D6A_LCTRDHI90 = 1300 / BHKLCBLK13DM6A Red upper limit = B_HK_B13D6A_LCTYELO90 = -1097 / BHKLCBLK13DM6A Yellow lower limit = B_HK_B13D6ATYEHI90 = 1000 / BHKLCBLK13DM6A Yellow upper limit = B_HK_B13D6ATRDLO92 = -1097 / BHKLCBLK13DM6B Red lower limit = B_HK_B13D6B_LCTRDHI92 = 1300 / BHKLCBLK13DM6B Red upper limit = B_HK_B13D6B_LCTYELO92 = -1097 / BHKLCBLK13DM6B Yellow lower limit = B_HK_B13D6BTYEHI92 = 1000 / BHKLCBLK13DM6B Yellow upper limit = B_HK_B13D6BTRDLO94 = -1097 / BHKLCBLK13DM7A Red lower limit = B_HK_B13D7A_LCTRDHI94 = 1300 / BHKLCBLK13DM7A Red upper limit = B_HK_B13D7A_LCTYELO94 = -1097 / BHKLCBLK13DM7A Yellow lower limit = B_HK_B13D7ATYEHI94 = 1000 / BHKLCBLK13DM7A Yellow upper limit = B_HK_B13D7ATRDLO96 = -1097 / BHKLCBLK13DM7B Red lower limit = B_HK_B13D7B_LCTRDHI96 = 1300 / BHKLCBLK13DM7B Red upper limit = B_HK_B13D7B_LCTYELO96 = -1097 / BHKLCBLK13DM7B Yellow lower limit = B_HK_B13D7BTYEHI96 = 1000 / BHKLCBLK13DM7B Yellow upper limit = B_HK_B13D7BTRDLO98 = -1097 / BHKLCBLK14DM0A Red lower limit = B_HK_B14D0A_LCTRDHI98 = 1300 / BHKLCBLK14DM0A Red upper limit = B_HK_B14D0A_LCTYELO98 = -1097 / BHKLCBLK14DM0A Yellow lower limit = B_HK_B14D0ATYEHI98 = 1000 / BHKLCBLK14DM0A Yellow upper limit = B_HK_B14D0ATRDLO100= -1097 / BHKLCBLK14DM0B Red lower limit = B_HK_B14D0B_LCTRDHI100= 1300 / BHKLCBLK14DM0B Red upper limit = B_HK_B14D0B_LCTYELO100= -1097 / BHKLCBLK14DM0B Yellow lower limit = B_HK_B14D0BTYEHI100= 1000 / BHKLCBLK14DM0B Yellow upper limit = B_HK_B14D0BTRDLO102= -1097 / BHKLCBLK14DM1A Red lower limit = B_HK_B14D1A_LCTRDHI102= 1300 / BHKLCBLK14DM1A Red upper limit = B_HK_B14D1A_LCTYELO102= -1097 / BHKLCBLK14DM1A Yellow lower limit = B_HK_B14D1ATYEHI102= 1000 / BHKLCBLK14DM1A Yellow upper limit = B_HK_B14D1ATRDLO104= -1097 / BHKLCBLK14DM1B Red lower limit = B_HK_B14D1B_LCTRDHI104= 1300 / BHKLCBLK14DM1B Red upper limit = B_HK_B14D1B_LCTYELO104= -1097 / BHKLCBLK14DM1B Yellow lower limit = B_HK_B14D1BTYEHI104= 1000 / BHKLCBLK14DM1B Yellow upper limit = B_HK_B14D1BTRDLO106= -1097 / BHKLCBLK14DM2A Red lower limit = B_HK_B14D2A_LCTRDHI106= 1300 / BHKLCBLK14DM2A Red upper limit = B_HK_B14D2A_LCTYELO106= -1097 / BHKLCBLK14DM2A Yellow lower limit = B_HK_B14D2ATYEHI106= 1000 / BHKLCBLK14DM2A Yellow upper limit = B_HK_B14D2ATRDLO108= -1097 / BHKLCBLK14DM2B Red lower limit = B_HK_B14D2B_LCTRDHI108= 1300 / BHKLCBLK14DM2B Red upper limit = B_HK_B14D2B_LCTYELO108= -1097 / BHKLCBLK14DM2B Yellow lower limit = B_HK_B14D2BTYEHI108= 1000 / BHKLCBLK14DM2B Yellow upper limit = B_HK_B14D2BTRDLO110= -1097 / BHKLCBLK14DM3A Red lower limit = B_HK_B14D3A_LCTRDHI110= 1300 / BHKLCBLK14DM3A Red upper limit = B_HK_B14D3A_LCTYELO110= -1097 / BHKLCBLK14DM3A Yellow lower limit = B_HK_B14D3ATYEHI110= 1000 / BHKLCBLK14DM3A Yellow upper limit = B_HK_B14D3ATRDLO112= -1097 / BHKLCBLK14DM3B Red lower limit = B_HK_B14D3B_LCTRDHI112= 1300 / BHKLCBLK14DM3B Red upper limit = B_HK_B14D3B_LCTYELO112= -1097 / BHKLCBLK14DM3B Yellow lower limit = B_HK_B14D3BTYEHI112= 1000 / BHKLCBLK14DM3B Yellow upper limit = B_HK_B14D3BTRDLO114= -1097 / BHKLCBLK14DM4A Red lower limit = B_HK_B14D4A_LCTRDHI114= 1300 / BHKLCBLK14DM4A Red upper limit = B_HK_B14D4A_LCTYELO114= -1097 / BHKLCBLK14DM4A Yellow lower limit = B_HK_B14D4ATYEHI114= 1000 / BHKLCBLK14DM4A Yellow upper limit = B_HK_B14D4ATRDLO116= -1097 / BHKLCBLK14DM4B Red lower limit = B_HK_B14D4B_LCTRDHI116= 1300 / BHKLCBLK14DM4B Red upper limit = B_HK_B14D4B_LCTYELO116= -1097 / BHKLCBLK14DM4B Yellow lower limit = B_HK_B14D4BTYEHI116= 1000 / BHKLCBLK14DM4B Yellow upper limit = B_HK_B14D4BTRDLO118= -1097 / BHKLCBLK14DM5A Red lower limit = B_HK_B14D5A_LCTRDHI118= 1300 / BHKLCBLK14DM5A Red upper limit = B_HK_B14D5A_LCTYELO118= -1097 / BHKLCBLK14DM5A Yellow lower limit = B_HK_B14D5ATYEHI118= 1000 / BHKLCBLK14DM5A Yellow upper limit = B_HK_B14D5ATRDLO120= -1097 / BHKLCBLK14DM5B Red lower limit = B_HK_B14D5B_LCTRDHI120= 1300 / BHKLCBLK14DM5B Red upper limit = B_HK_B14D5B_LCTYELO120= -1097 / BHKLCBLK14DM5B Yellow lower limit = B_HK_B14D5BTYEHI120= 1000 / BHKLCBLK14DM5B Yellow upper limit = B_HK_B14D5BTRDLO122= -1097 / BHKLCBLK14DM6A Red lower limit = B_HK_B14D6A_LCTRDHI122= 1300 / BHKLCBLK14DM6A Red upper limit = B_HK_B14D6A_LCTYELO122= -1097 / BHKLCBLK14DM6A Yellow lower limit = B_HK_B14D6ATYEHI122= 1000 / BHKLCBLK14DM6A Yellow upper limit = B_HK_B14D6ATRDLO124= -1097 / BHKLCBLK14DM6B Red lower limit = B_HK_B14D6B_LCTRDHI124= 1300 / BHKLCBLK14DM6B Red upper limit = B_HK_B14D6B_LCTYELO124= -1097 / BHKLCBLK14DM6B Yellow lower limit = B_HK_B14D6BTYEHI124= 1000 / BHKLCBLK14DM6B Yellow upper limit = B_HK_B14D6BTRDLO126= -1097 / BHKLCBLK14DM7A Red lower limit = B_HK_B14D7A_LCTRDHI126= 1300 / BHKLCBLK14DM7A Red upper limit = B_HK_B14D7A_LCTYELO126= -1097 / BHKLCBLK14DM7A Yellow lower limit = B_HK_B14D7ATYEHI126= 1000 / BHKLCBLK14DM7A Yellow upper limit = B_HK_B14D7ATRDLO128= -1097 / BHKLCBLK14DM7B Red lower limit = B_HK_B14D7B_LCTRDHI128= 1300 / BHKLCBLK14DM7B Red upper limit = B_HK_B14D7B_LCTYELO128= -1097 / BHKLCBLK14DM7B Yellow lower limit = B_HK_B14D7BTYEHI128= 1000 / BHKLCBLK14DM7B Yellow upper limit = B_HK_B14D7BTRDLO130= -1097 / BHKLCBLK15DM0A Red lower limit = B_HK_B15D0A_LCTRDHI130= 1300 / BHKLCBLK15DM0A Red upper limit = B_HK_B15D0A_LCTYELO130= -1097 / BHKLCBLK15DM0A Yellow lower limit = B_HK_B15D0ATYEHI130= 1000 / BHKLCBLK15DM0A Yellow upper limit = B_HK_B15D0ATRDLO132= -1097 / BHKLCBLK15DM0B Red lower limit = B_HK_B15D0B_LCTRDHI132= 1300 / BHKLCBLK15DM0B Red upper limit = B_HK_B15D0B_LCTYELO132= -1097 / BHKLCBLK15DM0B Yellow lower limit = B_HK_B15D0BTYEHI132= 1000 / BHKLCBLK15DM0B Yellow upper limit = B_HK_B15D0BTRDLO134= -1097 / BHKLCBLK15DM1A Red lower limit = B_HK_B15D1A_LCTRDHI134= 1300 / BHKLCBLK15DM1A Red upper limit = B_HK_B15D1A_LCTYELO134= -1097 / BHKLCBLK15DM1A Yellow lower limit = B_HK_B15D1ATYEHI134= 1000 / BHKLCBLK15DM1A Yellow upper limit = B_HK_B15D1ATRDLO136= -1097 / BHKLCBLK15DM1B Red lower limit = B_HK_B15D1B_LCTRDHI136= 1300 / BHKLCBLK15DM1B Red upper limit = B_HK_B15D1B_LCTYELO136= -1097 / BHKLCBLK15DM1B Yellow lower limit = B_HK_B15D1BTYEHI136= 1000 / BHKLCBLK15DM1B Yellow upper limit = B_HK_B15D1BTRDLO138= -1097 / BHKLCBLK15DM2A Red lower limit = B_HK_B15D2A_LCTRDHI138= 1300 / BHKLCBLK15DM2A Red upper limit = B_HK_B15D2A_LCTYELO138= -1097 / BHKLCBLK15DM2A Yellow lower limit = B_HK_B15D2ATYEHI138= 1000 / BHKLCBLK15DM2A Yellow upper limit = B_HK_B15D2ATRDLO140= -1097 / BHKLCBLK15DM2B Red lower limit = B_HK_B15D2B_LCTRDHI140= 1300 / BHKLCBLK15DM2B Red upper limit = B_HK_B15D2B_LCTYELO140= -1097 / BHKLCBLK15DM2B Yellow lower limit = B_HK_B15D2BTYEHI140= 1000 / BHKLCBLK15DM2B Yellow upper limit = B_HK_B15D2BTRDLO142= -1097 / BHKLCBLK15DM3A Red lower limit = B_HK_B15D3A_LCTRDHI142= 1300 / BHKLCBLK15DM3A Red upper limit = B_HK_B15D3A_LCTYELO142= -1097 / BHKLCBLK15DM3A Yellow lower limit = B_HK_B15D3ATYEHI142= 1000 / BHKLCBLK15DM3A Yellow upper limit = B_HK_B15D3ATRDLO144= -1097 / BHKLCBLK15DM3B Red lower limit = B_HK_B15D3B_LCTRDHI144= 1300 / BHKLCBLK15DM3B Red upper limit = B_HK_B15D3B_LCTYELO144= -1097 / BHKLCBLK15DM3B Yellow lower limit = B_HK_B15D3BTYEHI144= 1000 / BHKLCBLK15DM3B Yellow upper limit = B_HK_B15D3BTRDLO146= -1097 / BHKLCBLK15DM4A Red lower limit = B_HK_B15D4A_LCTRDHI146= 1300 / BHKLCBLK15DM4A Red upper limit = B_HK_B15D4A_LCTYELO146= -1097 / BHKLCBLK15DM4A Yellow lower limit = B_HK_B15D4ATYEHI146= 1000 / BHKLCBLK15DM4A Yellow upper limit = B_HK_B15D4ATRDLO148= -1097 / BHKLCBLK15DM4B Red lower limit = B_HK_B15D4B_LCTRDHI148= 1300 / BHKLCBLK15DM4B Red upper limit = B_HK_B15D4B_LCTYELO148= -1097 / BHKLCBLK15DM4B Yellow lower limit = B_HK_B15D4BTYEHI148= 1000 / BHKLCBLK15DM4B Yellow upper limit = B_HK_B15D4BTRDLO150= -1097 / BHKLCBLK15DM5A Red lower limit = B_HK_B15D5A_LCTRDHI150= 1300 / BHKLCBLK15DM5A Red upper limit = B_HK_B15D5A_LCTYELO150= -1097 / BHKLCBLK15DM5A Yellow lower limit = B_HK_B15D5ATYEHI150= 1000 / BHKLCBLK15DM5A Yellow upper limit = B_HK_B15D5ATRDLO152= -1097 / BHKLCBLK15DM5B Red lower limit = B_HK_B15D5B_LCTRDHI152= 1300 / BHKLCBLK15DM5B Red upper limit = B_HK_B15D5B_LCTYELO152= -1097 / BHKLCBLK15DM5B Yellow lower limit = B_HK_B15D5BTYEHI152= 1000 / BHKLCBLK15DM5B Yellow upper limit = B_HK_B15D5BTRDLO154= -1097 / BHKLCBLK15DM6A Red lower limit = B_HK_B15D6A_LCTRDHI154= 1300 / BHKLCBLK15DM6A Red upper limit = B_HK_B15D6A_LCTYELO154= -1097 / BHKLCBLK15DM6A Yellow lower limit = B_HK_B15D6ATYEHI154= 1000 / BHKLCBLK15DM6A Yellow upper limit = B_HK_B15D6ATRDLO156= -1097 / BHKLCBLK15DM6B Red lower limit = B_HK_B15D6B_LCTRDHI156= 1300 / BHKLCBLK15DM6B Red upper limit = B_HK_B15D6B_LCTYELO156= -1097 / BHKLCBLK15DM6B Yellow lower limit = B_HK_B15D6BTYEHI156= 1000 / BHKLCBLK15DM6B Yellow upper limit = B_HK_B15D6BTRDLO158= -1097 / BHKLCBLK15DM7A Red lower limit = B_HK_B15D7A_LCTRDHI158= 1300 / BHKLCBLK15DM7A Red upper limit = B_HK_B15D7A_LCTYELO158= -1097 / BHKLCBLK15DM7A Yellow lower limit = B_HK_B15D7ATYEHI158= 1000 / BHKLCBLK15DM7A Yellow upper limit = B_HK_B15D7ATRDLO160= -1097 / BHKLCBLK15DM7B Red lower limit = B_HK_B15D7B_LCTRDHI160= 1300 / BHKLCBLK15DM7B Red upper limit = B_HK_B15D7B_LCTYELO160= -1097 / BHKLCBLK15DM7B Yellow lower limit = B_HK_B15D7BTYEHI160= 1000 / BHKLCBLK15DM7B Yellow upper limit = B_HK_B15D7BHISTORY TASK: FAPPND on FILENAME: sw00412081000b175x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:29 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��r��&�� %�M��0��[��V��2��a� ��S��T��!��/��Z��~�:��1�c�kA�%��q��&��%�L��0��[��Y��1��`� ��V��S��#��/��\��~�9��1�c�NA�%��rƄ��%��$�K��/��[� ��W��1��`��S��S��!��.��Z��}�8��1�c�kA�%�q��%��$�N��0��Z� ��W��1��`� ��R��S��!��.��Y��~�:��1�b�A�%�1r �� %�� $�M��/��Z��U��1��`��T��R��!��.��Y��}�8��0�a�iA�%�Or&�� %��$�J��/��[� ��V��1��`� ��V��R��"��.��Y��}�:��1�e�SA�%�mq�b��%��$�K��/��Z��X��1��_��T��S��"��.��Y��|�8��1�d�/A�%��q�Ä�� %��$�K��/��Z��W��0��`��V��S��"��.��Y��}�:��1�d� A�%��q�b��%��$�K��/��Z��W��1��`��T��U��"��.��Z��}�8��1�b�FA�%��q��&��$�J��/��[� ��V��1��`� ��S��S��"��.��Y��|�:��0�b�{A�%��q�� %�� $�J��/��Z��V��1��_��T��R��!��.��Y��}�<��1�d�oA�%�r#ℱ��&��$�K��/��Z��V��1��_��S��R��!��.��Y��}�6��1�cǧA�%�!r[�� %��$�K��/��Z� ��V��0��`��T��R��!��.��\��}�9��1�d��A�%�?rJ��&��$�K��/��Z��V��0��a��U��S��!��.��Y��}�6��1�fŐA�%�]r鄱� ��%�� $�K��/��Z��W��0��`��T��R��!��.� ��Y��}�4��1�dǓA�%�{q�b��&��$�L��/��Z��W��1��`��S��R��"��.��[��}�8��1�dȢA�%��r �� %��$�L��/��Y� ��V��1��`��S��Q��"��.� ��[��}�5��0�d�(A�%��rd�� &��#�L��/��Y� ��V��1��`��T��S��"��.��Y��~�6��0�cƲA�%��r �� %��$�P��/��Z��W��1��`��S��S�� /��X��}�6��0�b��A�%��q�Ä��%��#�L��/��[� ��V��1��`��T��Q�� .��Y��}�:��0�c�`A�%�r[�� %��$�N��/��Z� ��W��1��_��R��Q�� .� ��Y��|�:��1�b�&A�%�/r �� &��$�M��/��Z� ��V��1��`��T��R��!��.��Z��}�7��0�_��A�%�Mq�$��%�� #�L��/��Y� ��W��0��`��S��Q��!��.� ��X��}�8��1�`��A�%�kr �� &��#�L��/��Z��W��0��`��T��Q��!��.��Y��}�8��1�`��A�%��rJ��%��#�K��/��Z� ��U��0��_��S��R�� .��Y��}�7��0�`��A�%��r �� %��#�M��/��Y� ��V��0��`��S��R��!��.��Y��|�8��1�b�MA�%��q��&��#�M��/��Z� ��V��0��b��T��S��!��.� ��Y��|�4��0�`��A�%��q�b��%�� #�K��/��Z��V��1��_��U��R��!��.� ��Y��|�8��1�d��A�%�q�Ä��%��#�L��/��Z� ��W��0��`��T��R��"��.� ��X��}�8��0�a�EA�%�r��%��#�K��/��Y� ��T��1��_��S��R�� .� ��Y��|�9��0�c�8A�%�=r ��%��$�L��.��Z��V��0��`��S��R��!��.��[��|�8��0�bƱA�%�[r̈́��%��#�L��.��Z� ��V��0��`��R��R��!��.� ��Y��}�:��0�`��A�%�yr �� &��#�L��/��Z��V��0��_��S��S�� .� ��X��|�7��0�dȷA�%��rl�� %��#�M��/��Y��V��0��_��R��S�� .� ��Z��|�9��0�bɶA�%��q�Ä�� %��#�K��/��Z��U��0��_��S��S��!��.� ��Z��{�6��0�c�nA�%��q�� %��#�L��.��[��V��0��^��Q��R��$��.� ��Y��|�8��0�c�#A�%��q�b�� %�� #�L��/��Z� ��V��0��_��T��R��'��.� ��Z��|�4��0�bȷA�%�q�b�� %�� #�M��.��Z� ��V��0��_��S�� S��&��.� ��[��}�8��0�aǭA�%�-q�� %��#�K��.��Z� ��U��0��_��S��S��&��.� ��Y��|�7��0�`��A�%�Kr[��%��#�L��/��[� ��U��/��_��S��T��)��.� ��Y��{�:��0�aɂA�%�ir��%��#�K��.��Z��V��0��`��S��S��)��.� ��Z��|�9��0�a��A�%��q�b��%��"�J��/��Z��V��0��_��T��T��'��.� ��Z��|�7��0�bǼA�%��rJ��%�� #�K��/��Z��U��/��_��S��T��!��.� ��Z��|�6��0�d�RA�%��q�t��%��"�M��.��Z��W��0��_��S��R��"��.� ��[��{�:��0�bɯA�%��r�� %�� "�K��.��Z� � �W��0��`��T��R��!��.� ��[��{�:��0�d�vA�%��rׄ�� %�� "�N��.��Z��U��0��`��S��S�� -� ��Y��|�7��0�b�A�%�q��%��"�L��.��Z� � �V��0��`��S��R��!��-� ��Y��}�8��0�bŢA�%�;r~��%�� "�K��.��Z��U��0��_��T��R�� .� ��Z��{�9��0�d�OA�%�Yr ��%��"�L��.��Z�� W��0��`��S��S��!��.� ��Z��{�7��0�bůA�%�wq�� %�� #�L��.��Z� � �U��/��`��U��R��!��.� ��X��|�6��0�`ȊA�%��r ��%�� "�L��-��Y��X��/��_��R��S��!��.� ��Z��{�7��0�b��A�%��q�b��%��"�J��-��Y��U��0��`��S��R��#��.� ��[��|�4��0�c�A�%��rl��%��"�J��.��Z��V��/��_��S��R��!��.� ��Z��|�8��0�_ɣA�%��r�2��%��"�K��.��Y��U��0��`��S��R��!��.� ��Z��|�6��0�`�A�%� rl��%��"�K��.��Z��U��0��_��S��R��!��-� ��Y��|�7��0�c�mA�%�+q��%��"�I��.��Y� � �U��/��`��S��R��"��-� ��Y��|�6��/�d�A�%�Ir��$��#�K��.��Y�� U��/��_��R��Q��"��-� ��Y��}�6��/�b�RA�%�gr ��%��"�J��.��Y�� V��/��^��S��R��!��.� ��Y��|�6��0�a�A�%��q�.�� $��"�K��.��Z� � �T��0��`��R��R��!��-� ��Y��{�2��0�a�KA�%��rJ��%��"�J��.��Y� � �T��/��_��T��R�� .� ��Z��{�7��/�b�5A�%��q��$��"�J��-��Y� � �U��/��_��R��R��!��-� ��X��{�4��/�d��A�%��q�߄�� $��"�K��.��Y�� U��/��^��T��Q��"��.� ��X��{�0��0�e��A�%��r �� %��"�J��.��Z� � �T��/��^��T��R��!��-� ��X��{�6��0�`�A�%�q�� $��"�J��.��Y� � �V��/��^��S��Q��"��-� ��W��{�7��0�`ɡA�%�9r[��$��"�J��-��Z� � �V��/��_��R��R��!��-� ��Y��z�8��/�`�xA�%�Wr �� $�� "�I��.��Z�� V��/��_��T��Q��!��.� ��Y��{�8��/�a�nA�%�uq�b��$��"�J��.��Y�� U��/��_��S��Q��!��.� ��W��{�6��/�`�,A�%��q��$��"�K��.��X�� V��/��_��S��Q��"��-� ��Y��{�4��0�b�#A�%��rl��$��"�K��.��X�� U��/��_��R��Q��#��-� ��W��z�6��0�b��A�%��r{��$��!�J��.��Y�� S��/��_��R��Q��'��-� ��W��{�5��/�cʳA�%��r鄲��$��!�J��.��Y�� T��/��_��S��P��'��-� ��X��z�6��/�aɕA�%�r8�� $��"�I��.��Y�� V��.��^��S��Q��'��.� ��Y��{�3��0�aȚA�%�)q��$��!�J��.��X� � �U��/��_��R��P��)��.� ��W��z�5��0�_�XA�%�wr[�� &��"�I��/��Y��U��0��_��P��R��!��.��]��z�8��0�a�qA�%��q��&��#�I��/��Z� ��V��0��a��R��S��"��/��Z��{�:��0�a�uA�%��q��'��#�H��0��Z� ��U��0��`��R��R��"��/��\��{�7��1�a�(A�%��r~��'�� #�H��/��Z��V��0��a��R��S��!��/��]��{�8��0�b��A�%��q�� '��#�J��/��Z��V��0��b��S��S��%��0��Z��|�<��0�b��A�%� r��'��#�K��0��Z� ��V��0��a��T��Q��'��/��\��|�;��0�cŶA�%�+q��(��$�K��/��Z� ��V��1��`��S��R��$��0��[��}�:��0�a��A�%�Irl�� (��#�K��/��[� ��V��1��a� ��R��R��$��0��]��|�>��1�a�pA�%�gq��(��$�I��0��Y��V��0��a��T��R��&��0��^��|�6��0�bņA�%��r̈́�� (��$�I��0��Z��U��1��a� ��R��Q��&��1��]��|�=��0�dŧA�%��rJ��(��$�J��0��Y��V��1��b� ��S��S��#��0��\��|�8��0�b�CA�%��r �� '��$�I��0��Z��V��1��a��R��R��$��0��\��|�;��1�d��A�%��q�� '��#�I��0��Z� ��W��1��a��S��S��$��0��]��{�9��0�bŧA�%��q�.��'��#�J��0��Z��W��0��a��S��R��#��1��Z��|�<��0�a��A�%�q��'��#�I��/��Z� ��V��0��a��T��Q��$��0��]��|�8��0�_��y�u�[�c��r��}��v�v�~��w��z��~�y�h��v��y�{�w��v��|��w��~��{��~��u��w��y��{��A�%�\��y�u�[�d��r��}��u�v�}��~��w��y��~�y�h��w��x�{�v��u��|��v��~��{��t��w��z��{��A�%�z��y�u�[�d��q��}��u�w�~��w��z��~�y�h��w��y�{�v��u��|��v��{��~��u��w��y��{�� A�%��y�v�[�c��r��|��v�v�~��~��w��z��y�h��w��y�{�w��u��|��v��~��{��t��w��z��{��A�%��竄��y�v�[�d��r��}��v�v�~��w��z��~�y�i��w��y�{�v��u��|��v��~��{��~��u��w��z��{��A�%�Ԥ�΄��y�v�[�c��q��}��v�v�~��w��z��~�y�h��w��y�{�v��u��}��v��{��t��w��z��{��A�%��y�u�[�c��r��}��v�v�~��~��w��z��~�x�h��v��y�{�v��u��|��v��~��{��u��w��z��{��A�%��΄��y�u�[�d��q��}��v�v�~��~��w��y��~�x�h��w��y�{�v��u��|��w��~��{��u��v��y��{��`A�%�.��m��y�u�\�c��r��|��v�v�~��w��y��~�x�h��w��y�|�v��u��}��v��~��{��u��v��y��{��XA�%�L��y�v�[�c��r��}��u�w�~��w��z��~�y�h��v��x�{�v��u��|��w��~��{��~��u��w��y��{��yA�%�j��y�u�[�d��q��}��u�v�~��~��w��z��~�x�h��w��y�{�v��u��|��v��~��{��~��u��w��y��{��|A�%��΄��x�u�[�c��r��}��u�v�~��~��w��z��~�y�h��v��y�{�v��u��|��v��~��{��~��u��v��y��{��qA�%��m��y�u�[�c��q��}��v�v�}��~��w��z��~�x�h��w��x�{�v��u��|��v��~��{��t��w��y��{��'A�%�Ĥ��y�u�[�c��q��|��v�v�~��~��w��y��~�x�h��v��x�{�w��u��|��v��~��{��~��t��w��z��{��A�%��x�u�[�c��q��}��v�v�}��~��w��z��~�x�h��v��y�{�v��u��{��v��~��{��~��t��w��y��{��^A�%��㽄��y�u�[�d��q��}��v�v�~��~��v��y��~�x�h��w��y�{�v��u��|��v��~��{��~��u��v��y��{��uA�%��y�u�[�c��q��}��v�v�}��~��w��z��~�x�h��v��y�{�v��u��|��v��~��{��~��u��v��y��{��A�%�<��y�u�[�c��r��}��u�v�}��w��y��~�x�h��v��y�{�w��t��|��v��~��{��~��u��v��y��z��xA�%�Z��m��y�u�[�c��q��}��u�v�}��~��w��z��~�x�h��w��y�{�u��u��{��v��~��{��~��t��w��y��{��A�%�x��x�u�[�d��q��}��u�v�}��w��y��~�x�h��v��x�{�w��u��|��v��~��{��~��u��v��y��z��A�%��㽄��y�u�[�c��q��}��v�v�}��~��w��z��~�x�h��w��x�{�v��u��|��v��~��{��~��u��v��y��z��A�%��m��y�u�[�c��q��|��u�v�}��v��y��~�x�h��v��x�{�v��u��|��v��~��{��~��u��v��y��z��A�%�Ҥڐ��y�u�[�c��q��}��u�u�}��w��y��~�x�h��v��x�{�v��u��|��v��}��{��u��v��y��{��kA�%��y�u�[�c��q��|��u�v�}��~��w��z��}�x�h��v��x�{�v��u��|��u��}��{��~��t��v��y��z��A�%��y�u�[�c��q��|��u�v�}��~�~��w��y��~�x�h��v��x�z�v��u��{��u��~��{��~��t��v��y��{��$A�%�,��΄��y�u�[�c��q��}��u�v�}��~��v��y��~�x�h��~��v��y�{�v��u��{��v��~��{��u��v��y��z��A�%�J��/��y�u�[�c��q��|��u�v�}��~��w��y��~�x�h��v��y�z�v��u��{��v��~��{��~��t��v��y��{��+A�%�h��x�u�Z�c��q��|��u�v�}��~��w��z��~�x�h��~��v��y�z�v��u��{��v��~��{��~��t��v��y��z��BA�%��y�u�Z�c��q��|��u�u�~��~�~��v��y��~�x�h��v��x�{�v��t��|��v��~��{��~��t��w��y��z��A�%��㽄��x�u�[�c��q��|��u�v�}��~��w��y��~�x�h��~��v��y�{�v��u��|��v��}��{��~��u��v��y��z��A�%�¤��x�u�[�c��r��|��u�v�~��~��v��y��~�x�h��v��x�{�v��t��|��u��~��{��~��t��v��y��z��NA�%��x�u�Z�c��q��|��v�v�~��w��y��~�x�h��w��x�{�v��u��|��v��}��{��~��t��v��y��z��A�%��/��y�u�[�c��r��|��u�v�}��~��w��y��}�x�h��v��y�{�v��t��|��v��~��{��~��t��v��y��z��A�%��y�u�[�c��q��|��u�v�}��~��w��y��~�x�h��v��x�{�v��t��{��v��~��z��~��t��v��y��z��A�%�:�ڐ��x�u�[�c��q��|��u�v�}��~��w��y��}�x�h��v��x�{�v��t��{��v��~��{��}��t��v��y��{��A�%�X�㽄��y�u�Z�c��q��|��u�v�}��~��w��y��~�x�h��w��y�{�v��t��|��v��}��{��~��t��v��y��z��FA�%�v��x�u�[�c��q��|��u�u�~��~�~��v��y��}�x�h��v��x�{�v��u��|��u��}��{��~��t��v��y��z��A�%��΄��y�u�[�c��q��|��u�v�}��~��v��y��~�x�h��v��x�{�v��t��|��v��~��{��~��t��v��y��{��*A�%��/��y�u�[�c��q��|��u�v�~��~��w��y��~�x�h��v��x�z�v��t��|��v��}��{��~��t��v��y��z��A�%�Ф�@��y�u�[�c��q��|��u�v�}��~�~��w��y��~�w�h��~��v��x�z�v��u��|��v��~��{��}��t��v��y��z��]A�%��/��x�u�Z�c��q��|��u�v�}��~��v��y��~�x�h��~��v��y�z�v��t��{��v��}��{��}��t��v��y��y��A�%��y�t�[�c��q��|��u�v�}��~��w��y��}�x�h��~��v��x�z�v��t��|��v��}��z��~��s��v��y��z��A�%�*��΄��y�u�[�c��q��|��u�u�}��~�~��w��y��~�x�h��~��v��x�{�v��u��{��u��}��{��t��v��y��z��?A�%�x�ҳ��y�u�[�c��r��|��v�v�}��~��w��y��~�x�h��v��y�{�v��u��|��w��~��{��~��t��v��y��{��A�%��֡��y�u�[�d��r��|��u�w�}��w��y��~�x�i��v��y�{�v��t��|��u��~��{��~��t��w��y��{��aA�%��y�u�[�d��q��}��u�u�~��~��x��y��}�w�h��w��y�{�v��u��{��v��~��|��u��v��y��z��A�%�Ҥ�R��y�u�[�c��q��}��v�v�}��w��z��~�x�h��~��v��y�{�w��u��|��w��~��{��~��u��v��y��z��A�%��@��y�u�Z�c��r��}��v�v�~��w��y��~�x�h��v��y�{�w��u��|��x��~��z��~��t��w��y��{��/A�%��֡��y�v�[�c��q��}��u�w�~��~��w��y��~�x�h��u��y�{�v��u��|��v��~��{��~��t��w��y��{��A�%�,�ڐ��y�u�Z�c��q��}��u�v�~��w��z��~�w�h��w��y�{�w��u��|��u��}��z��u��w��y��z��yA�%�J��R��y�u�[�c��s��}��v�v�~��w��z��x�h��v��y�{�v��u��|��v��~��|��~��t��w��y��z��A�%�h��@��y�v�Z�c��r��}��v�v�~��w��z��~�w�h��v��y�|�v��u��{��v��~��{��u��w��y��{��A�%��m��y�u�[�c��r��}��u�v�~��~��w��z��~�x�h��v��y�{�v��u��|��w��~��{��u��v��z��z��A�%��y�u�[�c��r��}��v�v�~��w��z��~�x�h��w��y�{�w��u��|��v��z��~��u��w��z��z��A�%�¤�R��y�v�[�c��r��}��v�v�~��x��z��~�x�i��w��x�|�v��u��|��u��~��{��~��t��w��z��z��A�%��@��y�v�[�c��r��}��v�v�}��w��{��y�i��w��y�{�v��u��|��w��~��|��~��t��v��z��z��A�%��R��y�u�[�c��q��}��v�w�~��w��z��}�x�h��v��y�{�w��u��{��w��~��{��u��w��y��{��A�%��y�u�[�c��r��|��v�v�~��w��z��~�x�h��v��y�{�w��u��|��w��~��|��~��t��w��y��|��A�%�:��R��y�u�[�c��r��}��v�w�}��w��y��~�x�h��~��v��y�{�v��u��|��v��~��{��t��w��y��{��A�%�X�ڐ��y�u�[�c��r��|��v�v�~��w��z��~�x�h��w��y�{�v��u��{��w��~��{��~��t��v��y��{��%A�%�v��R��y�u�[�c��q��}��v�v�~��w��z��~�y�h��w��y�{�v��u��{��v��~��{��u��w��y��{��A�%��z�v�[�c��q��}��v�v�~��x��z��}�x�h��x��y�{�v��u��|��v��~��{��~��u��v��y��{��A�%��y�v�[�c��q��}��u�w�}��w��z��~�x�h��v��y�{�v��u��|��v��~��{��~��t��v��y��z��A�%�Ф��z�u�[�c��r��}��v�v�}��~��w��z��~�z�h��v��x�{�v��u��|��v��}��{��~��u��w��y��z��0A�%��y�u�[�c��q��}��u�w�}��w��z��~�x�h��v��y�{�v��u��{��v��~��{��~��u��v��y��z��6A�%��O7��y�u�[�c��r��}��v�v�~��~��w��y��~�y�h��w��y�{�v��u��|��v��~��{��~��t��w��y��z��CA�%�*�ҳ��z�u�[�d��r��}��v�v�~��w��y��~�x�h��v��x�{�v��u��|��v��~��{��}��t��v��y��z��ÇXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 250 / width of table in bytes NAXIS2 = 98 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 162 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHKXA1TBLK11DM0A' / Block 11, DM 0, Side A XA1 Temperature TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL2 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT2 = 'Celsius ' / physical unit of field TTYPE3 = 'undocumented1' / Bit field not in ITOS database TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BHKXA1TBLK11DM0B' / Block 11, DM 0, Side B XA1 Temperature TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL4 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT4 = 'Celsius ' / physical unit of field TTYPE5 = 'undocumented2' / Bit field not in ITOS database TFORM5 = '1B ' / data format of field: BYTE TTYPE6 = 'BHKXA1TBLK11DM1A' / Block 11, DM 1, Side A XA1 Temperature TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL6 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT6 = 'Celsius ' / physical unit of field TTYPE7 = 'undocumented3' / Bit field not in ITOS database TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BHKXA1TBLK11DM1B' / Block 11, DM 1, Side B XA1 Temperature TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL8 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT8 = 'Celsius ' / physical unit of field TTYPE9 = 'undocumented4' / Bit field not in ITOS database TFORM9 = '1B ' / data format of field: BYTE TTYPE10 = 'BHKXA1TBLK11DM2A' / Block 11, DM 2, Side A XA1 Temperature TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL10 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT10 = 'Celsius ' / physical unit of field TTYPE11 = 'undocumented5' / Bit field not in ITOS database TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BHKXA1TBLK11DM2B' / Block 11, DM 2, Side B XA1 Temperature TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL12 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT12 = 'Celsius ' / physical unit of field TTYPE13 = 'undocumented6' / Bit field not in ITOS database TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'BHKXA1TBLK11DM3A' / Block 11, DM 3, Side A XA1 Temperature TFORM14 = '1I ' / data format of field: 2-byte INTEGER TZERO14 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL14 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT14 = 'Celsius ' / physical unit of field TTYPE15 = 'undocumented7' / Bit field not in ITOS database TFORM15 = '1B ' / data format of field: BYTE TTYPE16 = 'BHKXA1TBLK11DM3B' / Block 11, DM 3, Side B XA1 Temperature TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL16 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT16 = 'Celsius ' / physical unit of field TTYPE17 = 'undocumented8' / Bit field not in ITOS database TFORM17 = '1B ' / data format of field: BYTE TTYPE18 = 'BHKXA1TBLK11DM4A' / Block 11, DM 4, Side A XA1 Temperature TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL18 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT18 = 'Celsius ' / physical unit of field TTYPE19 = 'undocumented9' / Bit field not in ITOS database TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BHKXA1TBLK11DM4B' / Block 11, DM 4, Side B XA1 Temperature TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL20 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT20 = 'Celsius ' / physical unit of field TTYPE21 = 'undocumented10' / Bit field not in ITOS database TFORM21 = '1B ' / data format of field: BYTE TTYPE22 = 'BHKXA1TBLK11DM5A' / Block 11, DM 5, Side A XA1 Temperature TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL22 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT22 = 'Celsius ' / physical unit of field TTYPE23 = 'undocumented11' / Bit field not in ITOS database TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BHKXA1TBLK11DM5B' / Block 11, DM 5, Side B XA1 Temperature TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL24 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT24 = 'Celsius ' / physical unit of field TTYPE25 = 'undocumented12' / Bit field not in ITOS database TFORM25 = '1B ' / data format of field: BYTE TTYPE26 = 'BHKXA1TBLK11DM6A' / Block 11, DM 6, Side A XA1 Temperature TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL26 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT26 = 'Celsius ' / physical unit of field TTYPE27 = 'undocumented13' / Bit field not in ITOS database TFORM27 = '1B ' / data format of field: BYTE TTYPE28 = 'BHKXA1TBLK11DM6B' / Block 11, DM 6, Side B XA1 Temperature TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL28 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'undocumented14' / Bit field not in ITOS database TFORM29 = '1B ' / data format of field: BYTE TTYPE30 = 'BHKXA1TBLK11DM7A' / Block 11, DM 7, Side A XA1 Temperature TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL30 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'undocumented15' / Bit field not in ITOS database TFORM31 = '1B ' / data format of field: BYTE TTYPE32 = 'BHKXA1TBLK11DM7B' / Block 11, DM 7, Side B XA1 Temperature TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL32 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT32 = 'Celsius ' / physical unit of field TTYPE33 = 'undocumented16' / Bit field not in ITOS database TFORM33 = '1B ' / data format of field: BYTE TTYPE34 = 'BHKXA1TBLK12DM0A' / Block 12, DM 0, Side A XA1 Temperature TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL34 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT34 = 'Celsius ' / physical unit of field TTYPE35 = 'undocumented17' / Bit field not in ITOS database TFORM35 = '1B ' / data format of field: BYTE TTYPE36 = 'BHKXA1TBLK12DM0B' / Block 12, DM 0, Side B XA1 Temperature TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL36 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT36 = 'Celsius ' / physical unit of field TTYPE37 = 'undocumented18' / Bit field not in ITOS database TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BHKXA1TBLK12DM1A' / Block 12, DM 1, Side A XA1 Temperature TFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL38 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT38 = 'Celsius ' / physical unit of field TTYPE39 = 'undocumented19' / Bit field not in ITOS database TFORM39 = '1B ' / data format of field: BYTE TTYPE40 = 'BHKXA1TBLK12DM1B' / Block 12, DM 1, Side B XA1 Temperature TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL40 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT40 = 'Celsius ' / physical unit of field TTYPE41 = 'undocumented20' / Bit field not in ITOS database TFORM41 = '1B ' / data format of field: BYTE TTYPE42 = 'BHKXA1TBLK12DM2A' / Block 12, DM 2, Side A XA1 Temperature TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL42 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT42 = 'Celsius ' / physical unit of field TTYPE43 = 'undocumented21' / Bit field not in ITOS database TFORM43 = '1B ' / data format of field: BYTE TTYPE44 = 'BHKXA1TBLK12DM2B' / Block 12, DM 2, Side B XA1 Temperature TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL44 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT44 = 'Celsius ' / physical unit of field TTYPE45 = 'undocumented22' / Bit field not in ITOS database TFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BHKXA1TBLK12DM3A' / Block 12, DM 3, Side A XA1 Temperature TFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL46 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'undocumented23' / Bit field not in ITOS database TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'BHKXA1TBLK12DM3B' / Block 12, DM 3, Side B XA1 Temperature TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL48 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'undocumented24' / Bit field not in ITOS database TFORM49 = '1B ' / data format of field: BYTE TTYPE50 = 'BHKXA1TBLK12DM4A' / Block 12, DM 4, Side A XA1 Temperature TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL50 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT50 = 'Celsius ' / physical unit of field TTYPE51 = 'undocumented25' / Bit field not in ITOS database TFORM51 = '1B ' / data format of field: BYTE TTYPE52 = 'BHKXA1TBLK12DM4B' / Block 12, DM 4, Side B XA1 Temperature TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL52 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT52 = 'Celsius ' / physical unit of field TTYPE53 = 'undocumented26' / Bit field not in ITOS database TFORM53 = '1B ' / data format of field: BYTE TTYPE54 = 'BHKXA1TBLK12DM5A' / Block 12, DM 5, Side A XA1 Temperature TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL54 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT54 = 'Celsius ' / physical unit of field TTYPE55 = 'undocumented27' / Bit field not in ITOS database TFORM55 = '1B ' / data format of field: BYTE TTYPE56 = 'BHKXA1TBLK12DM5B' / Block 12, DM 5, Side B XA1 Temperature TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL56 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT56 = 'Celsius ' / physical unit of field TTYPE57 = 'undocumented28' / Bit field not in ITOS database TFORM57 = '1B ' / data format of field: BYTE TTYPE58 = 'BHKXA1TBLK12DM6A' / Block 12, DM 6, Side A XA1 Temperature TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL58 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT58 = 'Celsius ' / physical unit of field TTYPE59 = 'undocumented29' / Bit field not in ITOS database TFORM59 = '1B ' / data format of field: BYTE TTYPE60 = 'BHKXA1TBLK12DM6B' / Block 12, DM 6, Side B XA1 Temperature TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL60 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT60 = 'Celsius ' / physical unit of field TTYPE61 = 'undocumented30' / Bit field not in ITOS database TFORM61 = '1B ' / data format of field: BYTE TTYPE62 = 'BHKXA1TBLK12DM7A' / Block 12, DM 7, Side A XA1 Temperature TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL62 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT62 = 'Celsius ' / physical unit of field TTYPE63 = 'undocumented31' / Bit field not in ITOS database TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BHKXA1TBLK12DM7B' / Block 12, DM 7, Side B XA1 Temperature TFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL64 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'undocumented32' / Bit field not in ITOS database TFORM65 = '1B ' / data format of field: BYTE TTYPE66 = 'BHKXA1TBLK13DM0A' / Block 13, DM 0, Side A XA1 Temperature TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL66 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'undocumented33' / Bit field not in ITOS database TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'BHKXA1TBLK13DM0B' / Block 13, DM 0, Side B XA1 Temperature TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL68 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT68 = 'Celsius ' / physical unit of field TTYPE69 = 'undocumented34' / Bit field not in ITOS database TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'BHKXA1TBLK13DM1A' / Block 13, DM 1, Side A XA1 Temperature TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL70 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT70 = 'Celsius ' / physical unit of field TTYPE71 = 'undocumented35' / Bit field not in ITOS database TFORM71 = '1B ' / data format of field: BYTE TTYPE72 = 'BHKXA1TBLK13DM1B' / Block 13, DM 1, Side B XA1 Temperature TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL72 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT72 = 'Celsius ' / physical unit of field TTYPE73 = 'undocumented36' / Bit field not in ITOS database TFORM73 = '1B ' / data format of field: BYTE TTYPE74 = 'BHKXA1TBLK13DM2A' / Block 13, DM 2, Side A XA1 Temperature TFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL74 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT74 = 'Celsius ' / physical unit of field TTYPE75 = 'undocumented37' / Bit field not in ITOS database TFORM75 = '1B ' / data format of field: BYTE TTYPE76 = 'BHKXA1TBLK13DM2B' / Block 13, DM 2, Side B XA1 Temperature TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL76 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT76 = 'Celsius ' / physical unit of field TTYPE77 = 'undocumented38' / Bit field not in ITOS database TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'BHKXA1TBLK13DM3A' / Block 13, DM 3, Side A XA1 Temperature TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL78 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT78 = 'Celsius ' / physical unit of field TTYPE79 = 'undocumented39' / Bit field not in ITOS database TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'BHKXA1TBLK13DM3B' / Block 13, DM 3, Side B XA1 Temperature TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL80 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT80 = 'Celsius ' / physical unit of field TTYPE81 = 'undocumented40' / Bit field not in ITOS database TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'BHKXA1TBLK13DM4A' / Block 13, DM 4, Side A XA1 Temperature TFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL82 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'undocumented41' / Bit field not in ITOS database TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'BHKXA1TBLK13DM4B' / Block 13, DM 4, Side B XA1 Temperature TFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL84 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'undocumented42' / Bit field not in ITOS database TFORM85 = '1B ' / data format of field: BYTE TTYPE86 = 'BHKXA1TBLK13DM5A' / Block 13, DM 5, Side A XA1 Temperature TFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL86 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT86 = 'Celsius ' / physical unit of field TTYPE87 = 'undocumented43' / Bit field not in ITOS database TFORM87 = '1B ' / data format of field: BYTE TTYPE88 = 'BHKXA1TBLK13DM5B' / Block 13, DM 5, Side B XA1 Temperature TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL88 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT88 = 'Celsius ' / physical unit of field TTYPE89 = 'undocumented44' / Bit field not in ITOS database TFORM89 = '1B ' / data format of field: BYTE TTYPE90 = 'BHKXA1TBLK13DM6A' / Block 13, DM 6, Side A XA1 Temperature TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL90 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT90 = 'Celsius ' / physical unit of field TTYPE91 = 'undocumented45' / Bit field not in ITOS database TFORM91 = '1B ' / data format of field: BYTE TTYPE92 = 'BHKXA1TBLK13DM6B' / Block 13, DM 6, Side B XA1 Temperature TFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL92 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT92 = 'Celsius ' / physical unit of field TTYPE93 = 'undocumented46' / Bit field not in ITOS database TFORM93 = '1B ' / data format of field: BYTE TTYPE94 = 'BHKXA1TBLK13DM7A' / Block 13, DM 7, Side A XA1 Temperature TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL94 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT94 = 'Celsius ' / physical unit of field TTYPE95 = 'undocumented47' / Bit field not in ITOS database TFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BHKXA1TBLK13DM7B' / Block 13, DM 7, Side B XA1 Temperature TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL96 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT96 = 'Celsius ' / physical unit of field TTYPE97 = 'undocumented48' / Bit field not in ITOS database TFORM97 = '1B ' / data format of field: BYTE TTYPE98 = 'BHKXA1TBLK14DM0A' / Block 14, DM 0, Side A XA1 Temperature TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL98 = 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT98 = 'Celsius ' / physical unit of field TTYPE99 = 'undocumented49' / Bit field not in ITOS database TFORM99 = '1B ' / data format of field: BYTE TTYPE100= 'BHKXA1TBLK14DM0B' / Block 14, DM 0, Side B XA1 Temperature TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL100= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'undocumented50' / Bit field not in ITOS database TFORM101= '1B ' / data format of field: BYTE TTYPE102= 'BHKXA1TBLK14DM1A' / Block 14, DM 1, Side A XA1 Temperature TFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL102= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'undocumented51' / Bit field not in ITOS database TFORM103= '1B ' / data format of field: BYTE TTYPE104= 'BHKXA1TBLK14DM1B' / Block 14, DM 1, Side B XA1 Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL104= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'undocumented52' / Bit field not in ITOS database TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BHKXA1TBLK14DM2A' / Block 14, DM 2, Side A XA1 Temperature TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL106= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT106= 'Celsius ' / physical unit of field TTYPE107= 'undocumented53' / Bit field not in ITOS database TFORM107= '1B ' / data format of field: BYTE TTYPE108= 'BHKXA1TBLK14DM2B' / Block 14, DM 2, Side B XA1 Temperature TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL108= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT108= 'Celsius ' / physical unit of field TTYPE109= 'undocumented54' / Bit field not in ITOS database TFORM109= '1B ' / data format of field: BYTE TTYPE110= 'BHKXA1TBLK14DM3A' / Block 14, DM 3, Side A XA1 Temperature TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL110= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT110= 'Celsius ' / physical unit of field TTYPE111= 'undocumented55' / Bit field not in ITOS database TFORM111= '1B ' / data format of field: BYTE TTYPE112= 'BHKXA1TBLK14DM3B' / Block 14, DM 3, Side B XA1 Temperature TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL112= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT112= 'Celsius ' / physical unit of field TTYPE113= 'undocumented56' / Bit field not in ITOS database TFORM113= '1B ' / data format of field: BYTE TTYPE114= 'BHKXA1TBLK14DM4A' / Block 14, DM 4, Side A XA1 Temperature TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL114= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT114= 'Celsius ' / physical unit of field TTYPE115= 'undocumented57' / Bit field not in ITOS database TFORM115= '1B ' / data format of field: BYTE TTYPE116= 'BHKXA1TBLK14DM4B' / Block 14, DM 4, Side B XA1 Temperature TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL116= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT116= 'Celsius ' / physical unit of field TTYPE117= 'undocumented58' / Bit field not in ITOS database TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BHKXA1TBLK14DM5A' / Block 14, DM 5, Side A XA1 Temperature TFORM118= '1I ' / data format of field: 2-byte INTEGER TZERO118= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL118= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT118= 'Celsius ' / physical unit of field TTYPE119= 'undocumented59' / Bit field not in ITOS database TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BHKXA1TBLK14DM5B' / Block 14, DM 5, Side B XA1 Temperature TFORM120= '1I ' / data format of field: 2-byte INTEGER TZERO120= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL120= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT120= 'Celsius ' / physical unit of field TTYPE121= 'undocumented60' / Bit field not in ITOS database TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BHKXA1TBLK14DM6A' / Block 14, DM 6, Side A XA1 Temperature TFORM122= '1I ' / data format of field: 2-byte INTEGER TZERO122= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL122= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT122= 'Celsius ' / physical unit of field TTYPE123= 'undocumented61' / Bit field not in ITOS database TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BHKXA1TBLK14DM6B' / Block 14, DM 6, Side B XA1 Temperature TFORM124= '1I ' / data format of field: 2-byte INTEGER TZERO124= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL124= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT124= 'Celsius ' / physical unit of field TTYPE125= 'undocumented62' / Bit field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BHKXA1TBLK14DM7A' / Block 14, DM 7, Side A XA1 Temperature TFORM126= '1I ' / data format of field: 2-byte INTEGER TZERO126= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL126= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT126= 'Celsius ' / physical unit of field TTYPE127= 'undocumented63' / Bit field not in ITOS database TFORM127= '1B ' / data format of field: BYTE TTYPE128= 'BHKXA1TBLK14DM7B' / Block 14, DM 7, Side B XA1 Temperature TFORM128= '1I ' / data format of field: 2-byte INTEGER TZERO128= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL128= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT128= 'Celsius ' / physical unit of field TTYPE129= 'undocumented64' / Bit field not in ITOS database TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BHKXA1TBLK15DM0A' / Block 15, DM 0, Side A XA1 Temperature TFORM130= '1I ' / data format of field: 2-byte INTEGER TZERO130= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL130= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT130= 'Celsius ' / physical unit of field TTYPE131= 'undocumented65' / Bit field not in ITOS database TFORM131= '1B ' / data format of field: BYTE TTYPE132= 'BHKXA1TBLK15DM0B' / Block 15, DM 0, Side B XA1 Temperature TFORM132= '1I ' / data format of field: 2-byte INTEGER TZERO132= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL132= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT132= 'Celsius ' / physical unit of field TTYPE133= 'undocumented66' / Bit field not in ITOS database TFORM133= '1B ' / data format of field: BYTE TTYPE134= 'BHKXA1TBLK15DM1A' / Block 15, DM 1, Side A XA1 Temperature TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL134= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT134= 'Celsius ' / physical unit of field TTYPE135= 'undocumented67' / Bit field not in ITOS database TFORM135= '1B ' / data format of field: BYTE TTYPE136= 'BHKXA1TBLK15DM1B' / Block 15, DM 1, Side B XA1 Temperature TFORM136= '1I ' / data format of field: 2-byte INTEGER TZERO136= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL136= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT136= 'Celsius ' / physical unit of field TTYPE137= 'undocumented68' / Bit field not in ITOS database TFORM137= '1B ' / data format of field: BYTE TTYPE138= 'BHKXA1TBLK15DM2A' / Block 15, DM 2, Side A XA1 Temperature TFORM138= '1I ' / data format of field: 2-byte INTEGER TZERO138= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL138= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT138= 'Celsius ' / physical unit of field TTYPE139= 'undocumented69' / Bit field not in ITOS database TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BHKXA1TBLK15DM2B' / Block 15, DM 2, Side B XA1 Temperature TFORM140= '1I ' / data format of field: 2-byte INTEGER TZERO140= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL140= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT140= 'Celsius ' / physical unit of field TTYPE141= 'undocumented70' / Bit field not in ITOS database TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BHKXA1TBLK15DM3A' / Block 15, DM 3, Side A XA1 Temperature TFORM142= '1I ' / data format of field: 2-byte INTEGER TZERO142= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL142= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT142= 'Celsius ' / physical unit of field TTYPE143= 'undocumented71' / Bit field not in ITOS database TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BHKXA1TBLK15DM3B' / Block 15, DM 3, Side B XA1 Temperature TFORM144= '1I ' / data format of field: 2-byte INTEGER TZERO144= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL144= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT144= 'Celsius ' / physical unit of field TTYPE145= 'undocumented72' / Bit field not in ITOS database TFORM145= '1B ' / data format of field: BYTE TTYPE146= 'BHKXA1TBLK15DM4A' / Block 15, DM 4, Side A XA1 Temperature TFORM146= '1I ' / data format of field: 2-byte INTEGER TZERO146= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL146= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT146= 'Celsius ' / physical unit of field TTYPE147= 'undocumented73' / Bit field not in ITOS database TFORM147= '1B ' / data format of field: BYTE TTYPE148= 'BHKXA1TBLK15DM4B' / Block 15, DM 4, Side B XA1 Temperature TFORM148= '1I ' / data format of field: 2-byte INTEGER TZERO148= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL148= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT148= 'Celsius ' / physical unit of field TTYPE149= 'undocumented74' / Bit field not in ITOS database TFORM149= '1B ' / data format of field: BYTE TTYPE150= 'BHKXA1TBLK15DM5A' / Block 15, DM 5, Side A XA1 Temperature TFORM150= '1I ' / data format of field: 2-byte INTEGER TZERO150= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL150= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT150= 'Celsius ' / physical unit of field TTYPE151= 'undocumented75' / Bit field not in ITOS database TFORM151= '1B ' / data format of field: BYTE TTYPE152= 'BHKXA1TBLK15DM5B' / Block 15, DM 5, Side B XA1 Temperature TFORM152= '1I ' / data format of field: 2-byte INTEGER TZERO152= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL152= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT152= 'Celsius ' / physical unit of field TTYPE153= 'undocumented76' / Bit field not in ITOS database TFORM153= '1B ' / data format of field: BYTE TTYPE154= 'BHKXA1TBLK15DM6A' / Block 15, DM 6, Side A XA1 Temperature TFORM154= '1I ' / data format of field: 2-byte INTEGER TZERO154= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL154= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT154= 'Celsius ' / physical unit of field TTYPE155= 'undocumented77' / Bit field not in ITOS database TFORM155= '1B ' / data format of field: BYTE TTYPE156= 'BHKXA1TBLK15DM6B' / Block 15, DM 6, Side B XA1 Temperature TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL156= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT156= 'Celsius ' / physical unit of field TTYPE157= 'undocumented78' / Bit field not in ITOS database TFORM157= '1B ' / data format of field: BYTE TTYPE158= 'BHKXA1TBLK15DM7A' / Block 15, DM 7, Side A XA1 Temperature TFORM158= '1I ' / data format of field: 2-byte INTEGER TZERO158= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL158= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT158= 'Celsius ' / physical unit of field TTYPE159= 'undocumented79' / Bit field not in ITOS database TFORM159= '1B ' / data format of field: BYTE TTYPE160= 'BHKXA1TBLK15DM7B' / Block 15, DM 7, Side B XA1 Temperature TFORM160= '1I ' / data format of field: 2-byte INTEGER TZERO160= 1950.4864 / data offset (32k shift B_HK_XA1T_CONV conversioTSCAL160= 0.06105 / data scaling (B_HK_XA1T_CONV conversion) TUNIT160= 'Celsius ' / physical unit of field TTYPE161= 'undocumented80' / Bit field not in ITOS database TFORM161= '1B ' / data format of field: BYTE TTYPE162= 'BHKXA1TSPARE14' / XA1 Temperature Packets Spare Word 14 TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers EXTNAME = 'hk178x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675548.6457 TSTOP = 287681578.64562 DATE-OBS= '2010-02-12T13:52:27' DATE-END= '2010-02-12T15:32:57' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6029.99992001057 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 376 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:21' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'YF36a905TC05Y905' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1202302607' / data unit checksum updated 2010-02-18T17:05:21 TRDLO2 = -51 / BHKXA1TBLK11DM0A Red lower limit = B_HK_B11D0A_TRDHI2 = 28 / BHKXA1TBLK11DM0A Red upper limit = B_HK_B11D0A_TYELO2 = -51 / BHKXA1TBLK11DM0A Yellow lower limit = B_HK_B11DTYEHI2 = 25 / BHKXA1TBLK11DM0A Yellow upper limit = B_HK_B11DTRDLO4 = -51 / BHKXA1TBLK11DM0B Red lower limit = B_HK_B11D0B_TRDHI4 = 28 / BHKXA1TBLK11DM0B Red upper limit = B_HK_B11D0B_TYELO4 = -51 / BHKXA1TBLK11DM0B Yellow lower limit = B_HK_B11DTYEHI4 = 25 / BHKXA1TBLK11DM0B Yellow upper limit = B_HK_B11DTRDLO6 = -51 / BHKXA1TBLK11DM1A Red lower limit = B_HK_B11D1A_TRDHI6 = 28 / BHKXA1TBLK11DM1A Red upper limit = B_HK_B11D1A_TYELO6 = -51 / BHKXA1TBLK11DM1A Yellow lower limit = B_HK_B11DTYEHI6 = 25 / BHKXA1TBLK11DM1A Yellow upper limit = B_HK_B11DTRDLO8 = -51 / BHKXA1TBLK11DM1B Red lower limit = B_HK_B11D1B_TRDHI8 = 28 / BHKXA1TBLK11DM1B Red upper limit = B_HK_B11D1B_TYELO8 = -51 / BHKXA1TBLK11DM1B Yellow lower limit = B_HK_B11DTYEHI8 = 25 / BHKXA1TBLK11DM1B Yellow upper limit = B_HK_B11DTRDLO10 = -51 / BHKXA1TBLK11DM2A Red lower limit = B_HK_B11D2A_TRDHI10 = 28 / BHKXA1TBLK11DM2A Red upper limit = B_HK_B11D2A_TYELO10 = -51 / BHKXA1TBLK11DM2A Yellow lower limit = B_HK_B11DTYEHI10 = 25 / BHKXA1TBLK11DM2A Yellow upper limit = B_HK_B11DTRDLO12 = -51 / BHKXA1TBLK11DM2B Red lower limit = B_HK_B11D2B_TRDHI12 = 28 / BHKXA1TBLK11DM2B Red upper limit = B_HK_B11D2B_TYELO12 = -51 / BHKXA1TBLK11DM2B Yellow lower limit = B_HK_B11DTYEHI12 = 25 / BHKXA1TBLK11DM2B Yellow upper limit = B_HK_B11DTRDLO14 = -51 / BHKXA1TBLK11DM3A Red lower limit = B_HK_B11D3A_TRDHI14 = 28 / BHKXA1TBLK11DM3A Red upper limit = B_HK_B11D3A_TYELO14 = -51 / BHKXA1TBLK11DM3A Yellow lower limit = B_HK_B11DTYEHI14 = 25 / BHKXA1TBLK11DM3A Yellow upper limit = B_HK_B11DTRDLO16 = -51 / BHKXA1TBLK11DM3B Red lower limit = B_HK_B11D3B_TRDHI16 = 28 / BHKXA1TBLK11DM3B Red upper limit = B_HK_B11D3B_TYELO16 = -51 / BHKXA1TBLK11DM3B Yellow lower limit = B_HK_B11DTYEHI16 = 25 / BHKXA1TBLK11DM3B Yellow upper limit = B_HK_B11DTRDLO18 = -51 / BHKXA1TBLK11DM4A Red lower limit = B_HK_B11D4A_TRDHI18 = 28 / BHKXA1TBLK11DM4A Red upper limit = B_HK_B11D4A_TYELO18 = -51 / BHKXA1TBLK11DM4A Yellow lower limit = B_HK_B11DTYEHI18 = 25 / BHKXA1TBLK11DM4A Yellow upper limit = B_HK_B11DTRDLO20 = -51 / BHKXA1TBLK11DM4B Red lower limit = B_HK_B11D4B_TRDHI20 = 28 / BHKXA1TBLK11DM4B Red upper limit = B_HK_B11D4B_TYELO20 = -51 / BHKXA1TBLK11DM4B Yellow lower limit = B_HK_B11DTYEHI20 = 25 / BHKXA1TBLK11DM4B Yellow upper limit = B_HK_B11DTRDLO22 = -51 / BHKXA1TBLK11DM5A Red lower limit = B_HK_B11D5A_TRDHI22 = 28 / BHKXA1TBLK11DM5A Red upper limit = B_HK_B11D5A_TYELO22 = -51 / BHKXA1TBLK11DM5A Yellow lower limit = B_HK_B11DTYEHI22 = 25 / BHKXA1TBLK11DM5A Yellow upper limit = B_HK_B11DTRDLO24 = -51 / BHKXA1TBLK11DM5B Red lower limit = B_HK_B11D5B_TRDHI24 = 28 / BHKXA1TBLK11DM5B Red upper limit = B_HK_B11D5B_TYELO24 = -51 / BHKXA1TBLK11DM5B Yellow lower limit = B_HK_B11DTYEHI24 = 25 / BHKXA1TBLK11DM5B Yellow upper limit = B_HK_B11DTRDLO26 = -51 / BHKXA1TBLK11DM6A Red lower limit = B_HK_B11D6A_TRDHI26 = 28 / BHKXA1TBLK11DM6A Red upper limit = B_HK_B11D6A_TYELO26 = -51 / BHKXA1TBLK11DM6A Yellow lower limit = B_HK_B11DTYEHI26 = 25 / BHKXA1TBLK11DM6A Yellow upper limit = B_HK_B11DTRDLO28 = -51 / BHKXA1TBLK11DM6B Red lower limit = B_HK_B11D6B_TRDHI28 = 28 / BHKXA1TBLK11DM6B Red upper limit = B_HK_B11D6B_TYELO28 = -51 / BHKXA1TBLK11DM6B Yellow lower limit = B_HK_B11DTYEHI28 = 25 / BHKXA1TBLK11DM6B Yellow upper limit = B_HK_B11DTRDLO30 = -51 / BHKXA1TBLK11DM7A Red lower limit = B_HK_B11D7A_TRDHI30 = 28 / BHKXA1TBLK11DM7A Red upper limit = B_HK_B11D7A_TYELO30 = -51 / BHKXA1TBLK11DM7A Yellow lower limit = B_HK_B11DTYEHI30 = 25 / BHKXA1TBLK11DM7A Yellow upper limit = B_HK_B11DTRDLO32 = -51 / BHKXA1TBLK11DM7B Red lower limit = B_HK_B11D7B_TRDHI32 = 28 / BHKXA1TBLK11DM7B Red upper limit = B_HK_B11D7B_TYELO32 = -51 / BHKXA1TBLK11DM7B Yellow lower limit = B_HK_B11DTYEHI32 = 25 / BHKXA1TBLK11DM7B Yellow upper limit = B_HK_B11DTRDLO34 = -51 / BHKXA1TBLK12DM0A Red lower limit = B_HK_B12D0A_TRDHI34 = 28 / BHKXA1TBLK12DM0A Red upper limit = B_HK_B12D0A_TYELO34 = -51 / BHKXA1TBLK12DM0A Yellow lower limit = B_HK_B12DTYEHI34 = 25 / BHKXA1TBLK12DM0A Yellow upper limit = B_HK_B12DTRDLO36 = -51 / BHKXA1TBLK12DM0B Red lower limit = B_HK_B12D0B_TRDHI36 = 28 / BHKXA1TBLK12DM0B Red upper limit = B_HK_B12D0B_TYELO36 = -51 / BHKXA1TBLK12DM0B Yellow lower limit = B_HK_B12DTYEHI36 = 25 / BHKXA1TBLK12DM0B Yellow upper limit = B_HK_B12DTRDLO38 = -51 / BHKXA1TBLK12DM1A Red lower limit = B_HK_B12D1A_TRDHI38 = 28 / BHKXA1TBLK12DM1A Red upper limit = B_HK_B12D1A_TYELO38 = -51 / BHKXA1TBLK12DM1A Yellow lower limit = B_HK_B12DTYEHI38 = 25 / BHKXA1TBLK12DM1A Yellow upper limit = B_HK_B12DTRDLO40 = -51 / BHKXA1TBLK12DM1B Red lower limit = B_HK_B12D1B_TRDHI40 = 28 / BHKXA1TBLK12DM1B Red upper limit = B_HK_B12D1B_TYELO40 = -51 / BHKXA1TBLK12DM1B Yellow lower limit = B_HK_B12DTYEHI40 = 25 / BHKXA1TBLK12DM1B Yellow upper limit = B_HK_B12DTRDLO42 = -51 / BHKXA1TBLK12DM2A Red lower limit = B_HK_B12D2A_TRDHI42 = 28 / BHKXA1TBLK12DM2A Red upper limit = B_HK_B12D2A_TYELO42 = -51 / BHKXA1TBLK12DM2A Yellow lower limit = B_HK_B12DTYEHI42 = 25 / BHKXA1TBLK12DM2A Yellow upper limit = B_HK_B12DTRDLO44 = -51 / BHKXA1TBLK12DM2B Red lower limit = B_HK_B12D2B_TRDHI44 = 28 / BHKXA1TBLK12DM2B Red upper limit = B_HK_B12D2B_TYELO44 = -51 / BHKXA1TBLK12DM2B Yellow lower limit = B_HK_B12DTYEHI44 = 25 / BHKXA1TBLK12DM2B Yellow upper limit = B_HK_B12DTRDLO46 = -51 / BHKXA1TBLK12DM3A Red lower limit = B_HK_B12D3A_TRDHI46 = 28 / BHKXA1TBLK12DM3A Red upper limit = B_HK_B12D3A_TYELO46 = -51 / BHKXA1TBLK12DM3A Yellow lower limit = B_HK_B12DTYEHI46 = 25 / BHKXA1TBLK12DM3A Yellow upper limit = B_HK_B12DTRDLO48 = -51 / BHKXA1TBLK12DM3B Red lower limit = B_HK_B12D3B_TRDHI48 = 28 / BHKXA1TBLK12DM3B Red upper limit = B_HK_B12D3B_TYELO48 = -51 / BHKXA1TBLK12DM3B Yellow lower limit = B_HK_B12DTYEHI48 = 25 / BHKXA1TBLK12DM3B Yellow upper limit = B_HK_B12DTRDLO50 = -51 / BHKXA1TBLK12DM4A Red lower limit = B_HK_B12D4A_TRDHI50 = 28 / BHKXA1TBLK12DM4A Red upper limit = B_HK_B12D4A_TYELO50 = -51 / BHKXA1TBLK12DM4A Yellow lower limit = B_HK_B12DTYEHI50 = 25 / BHKXA1TBLK12DM4A Yellow upper limit = B_HK_B12DTRDLO52 = -51 / BHKXA1TBLK12DM4B Red lower limit = B_HK_B12D4B_TRDHI52 = 28 / BHKXA1TBLK12DM4B Red upper limit = B_HK_B12D4B_TYELO52 = -51 / BHKXA1TBLK12DM4B Yellow lower limit = B_HK_B12DTYEHI52 = 25 / BHKXA1TBLK12DM4B Yellow upper limit = B_HK_B12DTRDLO54 = -51 / BHKXA1TBLK12DM5A Red lower limit = B_HK_B12D5A_TRDHI54 = 28 / BHKXA1TBLK12DM5A Red upper limit = B_HK_B12D5A_TYELO54 = -51 / BHKXA1TBLK12DM5A Yellow lower limit = B_HK_B12DTYEHI54 = 25 / BHKXA1TBLK12DM5A Yellow upper limit = B_HK_B12DTRDLO56 = -51 / BHKXA1TBLK12DM5B Red lower limit = B_HK_B12D5B_TRDHI56 = 28 / BHKXA1TBLK12DM5B Red upper limit = B_HK_B12D5B_TYELO56 = -51 / BHKXA1TBLK12DM5B Yellow lower limit = B_HK_B12DTYEHI56 = 25 / BHKXA1TBLK12DM5B Yellow upper limit = B_HK_B12DTRDLO58 = -51 / BHKXA1TBLK12DM6A Red lower limit = B_HK_B12D6A_TRDHI58 = 28 / BHKXA1TBLK12DM6A Red upper limit = B_HK_B12D6A_TYELO58 = -51 / BHKXA1TBLK12DM6A Yellow lower limit = B_HK_B12DTYEHI58 = 25 / BHKXA1TBLK12DM6A Yellow upper limit = B_HK_B12DTRDLO60 = -51 / BHKXA1TBLK12DM6B Red lower limit = B_HK_B12D6B_TRDHI60 = 28 / BHKXA1TBLK12DM6B Red upper limit = B_HK_B12D6B_TYELO60 = -51 / BHKXA1TBLK12DM6B Yellow lower limit = B_HK_B12DTYEHI60 = 25 / BHKXA1TBLK12DM6B Yellow upper limit = B_HK_B12DTRDLO62 = -51 / BHKXA1TBLK12DM7A Red lower limit = B_HK_B12D7A_TRDHI62 = 28 / BHKXA1TBLK12DM7A Red upper limit = B_HK_B12D7A_TYELO62 = -51 / BHKXA1TBLK12DM7A Yellow lower limit = B_HK_B12DTYEHI62 = 25 / BHKXA1TBLK12DM7A Yellow upper limit = B_HK_B12DTRDLO64 = -51 / BHKXA1TBLK12DM7B Red lower limit = B_HK_B12D7B_TRDHI64 = 28 / BHKXA1TBLK12DM7B Red upper limit = B_HK_B12D7B_TYELO64 = -51 / BHKXA1TBLK12DM7B Yellow lower limit = B_HK_B12DTYEHI64 = 25 / BHKXA1TBLK12DM7B Yellow upper limit = B_HK_B12DTRDLO66 = -51 / BHKXA1TBLK13DM0A Red lower limit = B_HK_B13D0A_TRDHI66 = 28 / BHKXA1TBLK13DM0A Red upper limit = B_HK_B13D0A_TYELO66 = -51 / BHKXA1TBLK13DM0A Yellow lower limit = B_HK_B13DTYEHI66 = 25 / BHKXA1TBLK13DM0A Yellow upper limit = B_HK_B13DTRDLO68 = -51 / BHKXA1TBLK13DM0B Red lower limit = B_HK_B13D0B_TRDHI68 = 28 / BHKXA1TBLK13DM0B Red upper limit = B_HK_B13D0B_TYELO68 = -51 / BHKXA1TBLK13DM0B Yellow lower limit = B_HK_B13DTYEHI68 = 25 / BHKXA1TBLK13DM0B Yellow upper limit = B_HK_B13DTRDLO70 = -51 / BHKXA1TBLK13DM1A Red lower limit = B_HK_B13D1A_TRDHI70 = 28 / BHKXA1TBLK13DM1A Red upper limit = B_HK_B13D1A_TYELO70 = -51 / BHKXA1TBLK13DM1A Yellow lower limit = B_HK_B13DTYEHI70 = 25 / BHKXA1TBLK13DM1A Yellow upper limit = B_HK_B13DTRDLO72 = -51 / BHKXA1TBLK13DM1B Red lower limit = B_HK_B13D1B_TRDHI72 = 28 / BHKXA1TBLK13DM1B Red upper limit = B_HK_B13D1B_TYELO72 = -51 / BHKXA1TBLK13DM1B Yellow lower limit = B_HK_B13DTYEHI72 = 25 / BHKXA1TBLK13DM1B Yellow upper limit = B_HK_B13DTRDLO74 = -51 / BHKXA1TBLK13DM2A Red lower limit = B_HK_B13D2A_TRDHI74 = 28 / BHKXA1TBLK13DM2A Red upper limit = B_HK_B13D2A_TYELO74 = -51 / BHKXA1TBLK13DM2A Yellow lower limit = B_HK_B13DTYEHI74 = 25 / BHKXA1TBLK13DM2A Yellow upper limit = B_HK_B13DTRDLO76 = -51 / BHKXA1TBLK13DM2B Red lower limit = B_HK_B13D2B_TRDHI76 = 28 / BHKXA1TBLK13DM2B Red upper limit = B_HK_B13D2B_TYELO76 = -51 / BHKXA1TBLK13DM2B Yellow lower limit = B_HK_B13DTYEHI76 = 25 / BHKXA1TBLK13DM2B Yellow upper limit = B_HK_B13DTRDLO78 = -51 / BHKXA1TBLK13DM3A Red lower limit = B_HK_B13D3A_TRDHI78 = 28 / BHKXA1TBLK13DM3A Red upper limit = B_HK_B13D3A_TYELO78 = -51 / BHKXA1TBLK13DM3A Yellow lower limit = B_HK_B13DTYEHI78 = 25 / BHKXA1TBLK13DM3A Yellow upper limit = B_HK_B13DTRDLO80 = -51 / BHKXA1TBLK13DM3B Red lower limit = B_HK_B13D3B_TRDHI80 = 28 / BHKXA1TBLK13DM3B Red upper limit = B_HK_B13D3B_TYELO80 = -51 / BHKXA1TBLK13DM3B Yellow lower limit = B_HK_B13DTYEHI80 = 25 / BHKXA1TBLK13DM3B Yellow upper limit = B_HK_B13DTRDLO82 = -51 / BHKXA1TBLK13DM4A Red lower limit = B_HK_B13D4A_TRDHI82 = 28 / BHKXA1TBLK13DM4A Red upper limit = B_HK_B13D4A_TYELO82 = -51 / BHKXA1TBLK13DM4A Yellow lower limit = B_HK_B13DTYEHI82 = 25 / BHKXA1TBLK13DM4A Yellow upper limit = B_HK_B13DTRDLO84 = -51 / BHKXA1TBLK13DM4B Red lower limit = B_HK_B13D4B_TRDHI84 = 28 / BHKXA1TBLK13DM4B Red upper limit = B_HK_B13D4B_TYELO84 = -51 / BHKXA1TBLK13DM4B Yellow lower limit = B_HK_B13DTYEHI84 = 25 / BHKXA1TBLK13DM4B Yellow upper limit = B_HK_B13DTRDLO86 = -51 / BHKXA1TBLK13DM5A Red lower limit = B_HK_B13D5A_TRDHI86 = 28 / BHKXA1TBLK13DM5A Red upper limit = B_HK_B13D5A_TYELO86 = -51 / BHKXA1TBLK13DM5A Yellow lower limit = B_HK_B13DTYEHI86 = 25 / BHKXA1TBLK13DM5A Yellow upper limit = B_HK_B13DTRDLO88 = -51 / BHKXA1TBLK13DM5B Red lower limit = B_HK_B13D5B_TRDHI88 = 28 / BHKXA1TBLK13DM5B Red upper limit = B_HK_B13D5B_TYELO88 = -51 / BHKXA1TBLK13DM5B Yellow lower limit = B_HK_B13DTYEHI88 = 25 / BHKXA1TBLK13DM5B Yellow upper limit = B_HK_B13DTRDLO90 = -51 / BHKXA1TBLK13DM6A Red lower limit = B_HK_B13D6A_TRDHI90 = 28 / BHKXA1TBLK13DM6A Red upper limit = B_HK_B13D6A_TYELO90 = -51 / BHKXA1TBLK13DM6A Yellow lower limit = B_HK_B13DTYEHI90 = 25 / BHKXA1TBLK13DM6A Yellow upper limit = B_HK_B13DTRDLO92 = -51 / BHKXA1TBLK13DM6B Red lower limit = B_HK_B13D6B_TRDHI92 = 28 / BHKXA1TBLK13DM6B Red upper limit = B_HK_B13D6B_TYELO92 = -51 / BHKXA1TBLK13DM6B Yellow lower limit = B_HK_B13DTYEHI92 = 25 / BHKXA1TBLK13DM6B Yellow upper limit = B_HK_B13DTRDLO94 = -51 / BHKXA1TBLK13DM7A Red lower limit = B_HK_B13D7A_TRDHI94 = 28 / BHKXA1TBLK13DM7A Red upper limit = B_HK_B13D7A_TYELO94 = -51 / BHKXA1TBLK13DM7A Yellow lower limit = B_HK_B13DTYEHI94 = 25 / BHKXA1TBLK13DM7A Yellow upper limit = B_HK_B13DTRDLO96 = -51 / BHKXA1TBLK13DM7B Red lower limit = B_HK_B13D7B_TRDHI96 = 28 / BHKXA1TBLK13DM7B Red upper limit = B_HK_B13D7B_TYELO96 = -51 / BHKXA1TBLK13DM7B Yellow lower limit = B_HK_B13DTYEHI96 = 25 / BHKXA1TBLK13DM7B Yellow upper limit = B_HK_B13DTRDLO98 = -51 / BHKXA1TBLK14DM0A Red lower limit = B_HK_B14D0A_TRDHI98 = 28 / BHKXA1TBLK14DM0A Red upper limit = B_HK_B14D0A_TYELO98 = -51 / BHKXA1TBLK14DM0A Yellow lower limit = B_HK_B14DTYEHI98 = 25 / BHKXA1TBLK14DM0A Yellow upper limit = B_HK_B14DTRDLO100= -51 / BHKXA1TBLK14DM0B Red lower limit = B_HK_B14D0B_TRDHI100= 28 / BHKXA1TBLK14DM0B Red upper limit = B_HK_B14D0B_TYELO100= -51 / BHKXA1TBLK14DM0B Yellow lower limit = B_HK_B14DTYEHI100= 25 / BHKXA1TBLK14DM0B Yellow upper limit = B_HK_B14DTRDLO102= -51 / BHKXA1TBLK14DM1A Red lower limit = B_HK_B14D1A_TRDHI102= 28 / BHKXA1TBLK14DM1A Red upper limit = B_HK_B14D1A_TYELO102= -51 / BHKXA1TBLK14DM1A Yellow lower limit = B_HK_B14DTYEHI102= 25 / BHKXA1TBLK14DM1A Yellow upper limit = B_HK_B14DTRDLO104= -51 / BHKXA1TBLK14DM1B Red lower limit = B_HK_B14D1B_TRDHI104= 28 / BHKXA1TBLK14DM1B Red upper limit = B_HK_B14D1B_TYELO104= -51 / BHKXA1TBLK14DM1B Yellow lower limit = B_HK_B14DTYEHI104= 25 / BHKXA1TBLK14DM1B Yellow upper limit = B_HK_B14DTRDLO106= -51 / BHKXA1TBLK14DM2A Red lower limit = B_HK_B14D2A_TRDHI106= 28 / BHKXA1TBLK14DM2A Red upper limit = B_HK_B14D2A_TYELO106= -51 / BHKXA1TBLK14DM2A Yellow lower limit = B_HK_B14DTYEHI106= 25 / BHKXA1TBLK14DM2A Yellow upper limit = B_HK_B14DTRDLO108= -51 / BHKXA1TBLK14DM2B Red lower limit = B_HK_B14D2B_TRDHI108= 28 / BHKXA1TBLK14DM2B Red upper limit = B_HK_B14D2B_TYELO108= -51 / BHKXA1TBLK14DM2B Yellow lower limit = B_HK_B14DTYEHI108= 25 / BHKXA1TBLK14DM2B Yellow upper limit = B_HK_B14DTRDLO110= -51 / BHKXA1TBLK14DM3A Red lower limit = B_HK_B14D3A_TRDHI110= 28 / BHKXA1TBLK14DM3A Red upper limit = B_HK_B14D3A_TYELO110= -51 / BHKXA1TBLK14DM3A Yellow lower limit = B_HK_B14DTYEHI110= 25 / BHKXA1TBLK14DM3A Yellow upper limit = B_HK_B14DTRDLO112= -51 / BHKXA1TBLK14DM3B Red lower limit = B_HK_B14D3B_TRDHI112= 28 / BHKXA1TBLK14DM3B Red upper limit = B_HK_B14D3B_TYELO112= -51 / BHKXA1TBLK14DM3B Yellow lower limit = B_HK_B14DTYEHI112= 25 / BHKXA1TBLK14DM3B Yellow upper limit = B_HK_B14DTRDLO114= -51 / BHKXA1TBLK14DM4A Red lower limit = B_HK_B14D4A_TRDHI114= 28 / BHKXA1TBLK14DM4A Red upper limit = B_HK_B14D4A_TYELO114= -51 / BHKXA1TBLK14DM4A Yellow lower limit = B_HK_B14DTYEHI114= 25 / BHKXA1TBLK14DM4A Yellow upper limit = B_HK_B14DTRDLO116= -51 / BHKXA1TBLK14DM4B Red lower limit = B_HK_B14D4B_TRDHI116= 28 / BHKXA1TBLK14DM4B Red upper limit = B_HK_B14D4B_TYELO116= -51 / BHKXA1TBLK14DM4B Yellow lower limit = B_HK_B14DTYEHI116= 25 / BHKXA1TBLK14DM4B Yellow upper limit = B_HK_B14DTRDLO118= -51 / BHKXA1TBLK14DM5A Red lower limit = B_HK_B14D5A_TRDHI118= 28 / BHKXA1TBLK14DM5A Red upper limit = B_HK_B14D5A_TYELO118= -51 / BHKXA1TBLK14DM5A Yellow lower limit = B_HK_B14DTYEHI118= 25 / BHKXA1TBLK14DM5A Yellow upper limit = B_HK_B14DTRDLO120= -51 / BHKXA1TBLK14DM5B Red lower limit = B_HK_B14D5B_TRDHI120= 28 / BHKXA1TBLK14DM5B Red upper limit = B_HK_B14D5B_TYELO120= -51 / BHKXA1TBLK14DM5B Yellow lower limit = B_HK_B14DTYEHI120= 25 / BHKXA1TBLK14DM5B Yellow upper limit = B_HK_B14DTRDLO122= -51 / BHKXA1TBLK14DM6A Red lower limit = B_HK_B14D6A_TRDHI122= 28 / BHKXA1TBLK14DM6A Red upper limit = B_HK_B14D6A_TYELO122= -51 / BHKXA1TBLK14DM6A Yellow lower limit = B_HK_B14DTYEHI122= 25 / BHKXA1TBLK14DM6A Yellow upper limit = B_HK_B14DTRDLO124= -51 / BHKXA1TBLK14DM6B Red lower limit = B_HK_B14D6B_TRDHI124= 28 / BHKXA1TBLK14DM6B Red upper limit = B_HK_B14D6B_TYELO124= -51 / BHKXA1TBLK14DM6B Yellow lower limit = B_HK_B14DTYEHI124= 25 / BHKXA1TBLK14DM6B Yellow upper limit = B_HK_B14DTRDLO126= -51 / BHKXA1TBLK14DM7A Red lower limit = B_HK_B14D7A_TRDHI126= 28 / BHKXA1TBLK14DM7A Red upper limit = B_HK_B14D7A_TYELO126= -51 / BHKXA1TBLK14DM7A Yellow lower limit = B_HK_B14DTYEHI126= 25 / BHKXA1TBLK14DM7A Yellow upper limit = B_HK_B14DTRDLO128= -51 / BHKXA1TBLK14DM7B Red lower limit = B_HK_B14D7B_TRDHI128= 28 / BHKXA1TBLK14DM7B Red upper limit = B_HK_B14D7B_TYELO128= -51 / BHKXA1TBLK14DM7B Yellow lower limit = B_HK_B14DTYEHI128= 25 / BHKXA1TBLK14DM7B Yellow upper limit = B_HK_B14DTRDLO130= -51 / BHKXA1TBLK15DM0A Red lower limit = B_HK_B15D0A_TRDHI130= 28 / BHKXA1TBLK15DM0A Red upper limit = B_HK_B15D0A_TYELO130= -51 / BHKXA1TBLK15DM0A Yellow lower limit = B_HK_B15DTYEHI130= 25 / BHKXA1TBLK15DM0A Yellow upper limit = B_HK_B15DTRDLO132= -51 / BHKXA1TBLK15DM0B Red lower limit = B_HK_B15D0B_TRDHI132= 28 / BHKXA1TBLK15DM0B Red upper limit = B_HK_B15D0B_TYELO132= -51 / BHKXA1TBLK15DM0B Yellow lower limit = B_HK_B15DTYEHI132= 25 / BHKXA1TBLK15DM0B Yellow upper limit = B_HK_B15DTRDLO134= -51 / BHKXA1TBLK15DM1A Red lower limit = B_HK_B15D1A_TRDHI134= 28 / BHKXA1TBLK15DM1A Red upper limit = B_HK_B15D1A_TYELO134= -51 / BHKXA1TBLK15DM1A Yellow lower limit = B_HK_B15DTYEHI134= 25 / BHKXA1TBLK15DM1A Yellow upper limit = B_HK_B15DTRDLO136= -51 / BHKXA1TBLK15DM1B Red lower limit = B_HK_B15D1B_TRDHI136= 28 / BHKXA1TBLK15DM1B Red upper limit = B_HK_B15D1B_TYELO136= -51 / BHKXA1TBLK15DM1B Yellow lower limit = B_HK_B15DTYEHI136= 25 / BHKXA1TBLK15DM1B Yellow upper limit = B_HK_B15DTRDLO138= -51 / BHKXA1TBLK15DM2A Red lower limit = B_HK_B15D2A_TRDHI138= 28 / BHKXA1TBLK15DM2A Red upper limit = B_HK_B15D2A_TYELO138= -51 / BHKXA1TBLK15DM2A Yellow lower limit = B_HK_B15DTYEHI138= 25 / BHKXA1TBLK15DM2A Yellow upper limit = B_HK_B15DTRDLO140= -51 / BHKXA1TBLK15DM2B Red lower limit = B_HK_B15D2B_TRDHI140= 28 / BHKXA1TBLK15DM2B Red upper limit = B_HK_B15D2B_TYELO140= -51 / BHKXA1TBLK15DM2B Yellow lower limit = B_HK_B15DTYEHI140= 25 / BHKXA1TBLK15DM2B Yellow upper limit = B_HK_B15DTRDLO142= -51 / BHKXA1TBLK15DM3A Red lower limit = B_HK_B15D3A_TRDHI142= 28 / BHKXA1TBLK15DM3A Red upper limit = B_HK_B15D3A_TYELO142= -51 / BHKXA1TBLK15DM3A Yellow lower limit = B_HK_B15DTYEHI142= 25 / BHKXA1TBLK15DM3A Yellow upper limit = B_HK_B15DTRDLO144= -51 / BHKXA1TBLK15DM3B Red lower limit = B_HK_B15D3B_TRDHI144= 28 / BHKXA1TBLK15DM3B Red upper limit = B_HK_B15D3B_TYELO144= -51 / BHKXA1TBLK15DM3B Yellow lower limit = B_HK_B15DTYEHI144= 25 / BHKXA1TBLK15DM3B Yellow upper limit = B_HK_B15DTRDLO146= -51 / BHKXA1TBLK15DM4A Red lower limit = B_HK_B15D4A_TRDHI146= 28 / BHKXA1TBLK15DM4A Red upper limit = B_HK_B15D4A_TYELO146= -51 / BHKXA1TBLK15DM4A Yellow lower limit = B_HK_B15DTYEHI146= 25 / BHKXA1TBLK15DM4A Yellow upper limit = B_HK_B15DTRDLO148= -51 / BHKXA1TBLK15DM4B Red lower limit = B_HK_B15D4B_TRDHI148= 28 / BHKXA1TBLK15DM4B Red upper limit = B_HK_B15D4B_TYELO148= -51 / BHKXA1TBLK15DM4B Yellow lower limit = B_HK_B15DTYEHI148= 25 / BHKXA1TBLK15DM4B Yellow upper limit = B_HK_B15DTRDLO150= -51 / BHKXA1TBLK15DM5A Red lower limit = B_HK_B15D5A_TRDHI150= 28 / BHKXA1TBLK15DM5A Red upper limit = B_HK_B15D5A_TYELO150= -51 / BHKXA1TBLK15DM5A Yellow lower limit = B_HK_B15DTYEHI150= 25 / BHKXA1TBLK15DM5A Yellow upper limit = B_HK_B15DTRDLO152= -51 / BHKXA1TBLK15DM5B Red lower limit = B_HK_B15D5B_TRDHI152= 28 / BHKXA1TBLK15DM5B Red upper limit = B_HK_B15D5B_TYELO152= -51 / BHKXA1TBLK15DM5B Yellow lower limit = B_HK_B15DTYEHI152= 25 / BHKXA1TBLK15DM5B Yellow upper limit = B_HK_B15DTRDLO154= -51 / BHKXA1TBLK15DM6A Red lower limit = B_HK_B15D6A_TRDHI154= 28 / BHKXA1TBLK15DM6A Red upper limit = B_HK_B15D6A_TYELO154= -51 / BHKXA1TBLK15DM6A Yellow lower limit = B_HK_B15DTYEHI154= 25 / BHKXA1TBLK15DM6A Yellow upper limit = B_HK_B15DTRDLO156= -51 / BHKXA1TBLK15DM6B Red lower limit = B_HK_B15D6B_TRDHI156= 28 / BHKXA1TBLK15DM6B Red upper limit = B_HK_B15D6B_TYELO156= -51 / BHKXA1TBLK15DM6B Yellow lower limit = B_HK_B15DTYEHI156= 25 / BHKXA1TBLK15DM6B Yellow upper limit = B_HK_B15DTRDLO158= -51 / BHKXA1TBLK15DM7A Red lower limit = B_HK_B15D7A_TRDHI158= 28 / BHKXA1TBLK15DM7A Red upper limit = B_HK_B15D7A_TYELO158= -51 / BHKXA1TBLK15DM7A Yellow lower limit = B_HK_B15DTYEHI158= 25 / BHKXA1TBLK15DM7A Yellow upper limit = B_HK_B15DTRDLO160= -51 / BHKXA1TBLK15DM7B Red lower limit = B_HK_B15D7B_TRDHI160= 28 / BHKXA1TBLK15DM7B Red upper limit = B_HK_B15D7B_TYELO160= -51 / BHKXA1TBLK15DM7B Yellow lower limit = B_HK_B15DTYEHI160= 25 / BHKXA1TBLK15DM7B Yellow upper limit = B_HK_B15DHISTORY TASK: FAPPND on FILENAME: sw00412081000b178x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:29 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��L��w�}�}��}��y�z��z��z��s�}�v��|�y��s��s��{�m��j��z��p�i��y��|�q�x�q��|� A�%��GZ��v�~�}��~��z�y��z��z��s�}�v��~��|�y�~��~��s��r��z�m��j��z��q�i��y��~�|�q�y�q��|�]A�%�إL��v�~�}��}��y�y��z��z��t�}�v��~��}�y��~��s��r��{�m��j��z��q�h��z��}�|�q�x�p��{�gA�%��wل��v�}�}��}��z�y��z��z��s�|�u�~��}�y��}��s��r��z�m��j��z��p�i��y��{�q�y�q��{��A�%��I��v�}�}��}��y�y��z��z��s�|�v�~��~��|�y�~��}��t��r��~�{�m��j��z��p�i��y��~�{�q�x�q��|�MA�%�2�L��v�}�}��}��y�y��z��z��s�}�v�~��}��|�y�~��}��s��r��{�m��j��z��p�i��y��|�q�y�p��|�bA�%�P�Tv��v�}�}��}��y�y��z��{��t�}�v�~��~��|�y��}��s��r��{�m��i��{��p�i��y��|�q�x�p��{��A�%�n�M脂��v�}�}��|��z�y��z��z��s�}�v�~��~��|�y��}��t��r��z�m��j��z��p�i��y��{�q�x�p��|��A�%��O7��v�}�}��~��y�y��z��z��s�}�v�~��}��|�y��}��s��r��{�m��j��z��p�i��y��~�|�q�x�q��|�1A�%��KI��v�}�}��}��y�y��z��z��s�}�u�~��}��|�y�~��}��s��r��z�l��j��z��p�h��y��{�q�x�p��|�QA�%�ȥTv��v�}�|��}��z�y��z��z��s�}�v�~��}��|�y�~��}��s��r��z�m��j��z��p�h��y��{�q�x�p��|��A�%��O7��v�}�}��~��y�y��z��z��s�|�v�~��}��|�y��}��s��r��{�m��j��z��q�i��y��{�q�y�p��|�=A�%��KI��v�~�}��~��y�y��z��z��s�}�v�~��}��|�y�~��}��s��r��{�m��j��{��q�i��x��|�q�x�p��{ÎA�%�"�M脂��w�}�}��~��y�y��z��z��s�}�w�~��}�~��|�y��}��s��r��{�m��j��z��p�i��y��|�q�x�p��{�eA�%�@�GZ��v�}�|��~��y�y��z��z��s�}�u��}��|�y��}��s��r��z�m��j��{��p�i��x��~�|�q�x�p��{�DA�%�^�L��v�}�}��~��z�y��z��z��s�}�v�~��}�~��|�y�~��}��s��r��~��{�m��j��z��p�i��y��|�q�x�p��{�[A�%�|�l ��v�}�|��~��y�x��z��z��s�}�v�~��}��|�y�~��}��s��r��z�l��i��z��p�h��x��~�{�q�x�p��{�A�%��L��v�~�}��~��z�z��z��z��s�}�w��~��|�y��}��t��r��{�m��j��{��q�i��y��}�r�x�p��|��A�%��H��u�}�}��}��y�y��z��z��s�}�v�~��}�~��|�y�~��}��s��r��z�m��j��z��p�i��y��~�{�q�x�p��|�cA�%�֥P��v�}�|��}��y�y��z��z��s�|�u�~��}�~��|�y�~��}��s��r��z�m��j��z��q�i��y��{�q�x�q��{��A�%��Qׄ��v�}�|��}��y�y��z��z��s�}�v�~��}��|�y�~��|��s��q��{�m��j��z��p�h��x��{�q�y�p��{¤A�%��O7��v�}�}��}��y�y��z��z��s�|�v�~��}��|�y��}��s��r��{�m��i��y��p�i��y��|�q�x�p��{�A�%�0�M脂��v�}�}��~��y�y��z��z��s�}�v�~��}�~��|�y�~��}��s��r��z�m��j��z��p�h��y��~�{�q�x�q��{øA�%�N�M脂��v�}�}��~��y�y��z��z��s�|�v�~��~��|�x�~��}��s��r��z�l��j��z��p�i��x��~�|�q�x�p��{��A�%�l�O7��v�}�}��}��y�y��y��y��s�|�u�~��~�~��|�y��}��s��q��z�l��j��z��p�h��x��~�{�q�x�o��{�/A�%��L��v�}�}��}��y�y��z��z��s�}�v�}��~�~��|�x�~��}��s��r��z�m��j��z��p�h��x��{�q�x�p��|��A�%��H��~�v�}�|��~��y�y��z��y��s�|�u�}��}�~��|�y�~��}��s��r��~��z�l��j��z��p�h��x��~�{�q�x�p��{�fA�%�ƥP��~�u�}�}��}��y�y��z��z��s�|�u�~��}��|�y�~��}��s��q��{�l��j��z��p�h��y��{�q�x�p��{�.A�%��Qׄ��u�}�}��}��y�y��z��z��s�|�u�~��}�~��|�y�~��}��r��r��z�l��i��z��p�h��y��~�{�q�x�q��{�DA�%��M脂��v�}�}��}��y�y��y��z��s�|�u�~��}�~��|�y�~��}��s��q��z�l��j��z��p�h��y��~�{�q�x�o��{�EA�%� �M脂��~�v�}�|��~��y�y��z��y��s�}�v�~��}�~��|�y�~��}��s��r��z�m��j��z��p�h��x��~�{�q�x�p��{�YA�%�>�Tv��u�}�|��}��y�y��z��z��s�|�u�~��}�~��|�y�~��}��s��r��z�l��j��y��p�i��x��~�{�q�x�p��{�aA�%�\�P��u�}�|��}��y�y��z��z��s�}�u�~��}�~��|�y�~��|��s��r��z�l��j��z��p�h��x��~�{�q�x�p��z�"A�%�z�Qׄ��v�|�|��}��y�x��z��z��s�|�u�}��}�~��|�y�~��}��s��q��z�m��i��z��p�h��x��~�{�q�w�p��{�(A�%��O7��~�u�}�|��~��y�y��z��z��s�|�u�}��}��|�y�~��|��s��r��z�l��i��z��p�h��x��~�z�q�x�p��{�*A�%��Y��~�v�|�|��}��y�y��y��z��s�|�v�}��}�~��|�x�~��}��r��r��~�{�m��j��z��o�h��x��~�{�q�x�o��{�%A�%�ԥTv��~�u�|�|��}��y�y��z��z��s�|�u�~��}��|�x�~��}��s��q��z�l��i��y��p�h��y��~�{�q�x�p��{§A�%��[��~�v�}�|��}��y�x��y��y��r�|�u�}��}�~��|�y�~��}��s��r��~��{�l��i��z��p�h��x��~�{�q�w�p��{�A�%��S&��~�v�}�}��}��y�x��y��y��s�|�v�~��}�~��|�y�~��}��s��q��z�l��i��z��p�h��y��~�{�q�x�o��{��A�%�.�Uń��~�u�|�|��~��y�x��y��y��s�|�u�}��}��|�y�~��}��s��q��~��z�l��j��z��p�h��y��~�{�q�x�p��{��A�%�L�Tv��~�u�}�|��}��y�y��y��y��r�|�v�}��}��|�x�~��}��r��q��z�l��i��z��p�h��y��~�{�p�x�p��{�xA�%�j�P��~�u�}�|��~��y�x��y��y��s�|�u�~��}�~��{�x�~��}��s��r��z�l��i��z��p�h��x��~�{�p�x�p��{�xA�%��W��~�u�}�|��}��y�x��y��z��s�|�u�~��}�~��{�x�~��|��r��q��z�m��i��z��p�h��x��~�{�p�w�p��{�1A�%��Y��~�u�}�|��|��y�x��y��y��s�|�u�}��}�~��|�x�~��}��r��q��z�l��i��z��o�h��x��~�{�p�x�p��{�A�%�ĥ^��~�u�}�|��}��y�x��y��z��s�|�u�}��}�~��|�x�~��}��r��q��~��~�z�l��i��z��p�h��x��{�p�x�o��{A�%��Uń��~�u�|�|��}��y�y��y��y��s�|�u�}��}�~��|�x�~��|��s��q��~��z�l��i��z��p�h��w��~�{�q�x�o��{ËA�%��Uń��~�u�|�|��}��y�y��y��y��s�|�u�}��}�~��{�x�~��|��s��q��~��z�l��j��z��p�h��x��~�{�q�x�o��{��A�%��Tv��~�u�}�|��|��y�x��z��y��s�|�u�}��}�~��|�x�~��|��r��q��z�l��i��y��p�h��x��~�{�q�w�p��{�$A�%�<�Qׄ��~�u�|�|��}��y�y��y��y��s�|�u�}��}�~��{�x�~��|��r��q��~��z�m��i��z��o�h��x��~�{�p�w�o��{��A�%�Z�Uń��~�u�|�|��}��y�x��y��y��s�|�u�}��}�~��{�x�~��|��s��r��z�l��i��z��p�g��y��~�{�p�x�o��{�A�%�x�Xd��u�|�|��}��x�x��y��y��s�|�u�~��}�~��{�x�~��|��s��q��z�l��i��z��p�h��x��~�{�p�w�o��z��A�%��[��~�u�|�|��}��y�x��y��y��s�|�u�}��}�~��{�x�~��|��s��q��z�l��i��z��o�g��x��~�z�q�w�p��{��A�%��Tv��~�u�}�|��}��y�x��y��y��r�|�u�}��}�~��|�x�~��|��r��q��y�l��i��y��p�h��x��~�{�p�w�p��{�A�%�ҥM脁��v�|�|��}��y�x��y��y��r�|�u�}��}�~��|�x�~��|��r��q��~��z�l��h��y��p�h��x��~�{�p�x�o��{��A�%��Tv��~�u�|�|��}��y�x��y��y��r�|�u�}��}�~�~�{�x�~��|��s��q��~��y�l��i��y��p�h��x��{�q�w�o��{�PA�%��S&��~�u�|�|��}��y�x��y��y��r�|�u�}��}�~��{�x�~��|��r��q��~��z�l��i��z��p�h��x��~�z�q�x�p��{�tA�%�,�Uń��~�u�}�|��}��y�x��y��y��s�|�u�}��}�~��{�x�~��|��r��q��~��z�l��i��y��p�h��w��~�{�p�w�p��{�9A�%�J�Qׄ��~�v�|�|��|��y�x��y��y��r�|�u�}��|�~��{�x�~��|��r��q��~��y�l��i��z��o�g��w��~�{�p�w�o��{A�%�h�Tv��~�u�|�|��}��y�x��x��y��s�|�t�}��}�}��|�x�~��|��r��q��~��~�z�l��i��z��o�h��w��~�z�p�w�o��{�A�%��O7��~�u�|�|��}��x�x��x��y��r�|�t�~��}�~��{�x�}��|��r��q��~��y�l��i��z��o�h��w��~�{�p�x�o��z�^A�%��Xd��~�u�|�|��}��y�x��y��x��s�|�u�}��}�~�~�{�x�}��|��r��q��~��y�l��i��z��o�h��w��~�{�q�w�o��zĉA�%�¥Uń��~�u�|�|��}��x�x��y��y��r�|�u�}��}�~�~�{�x�~��}��r��q��~��y�l��h��z��o�g��w��~�{�p�w�o��{īA�%��Tv��~�u�|�|��}��y�x��y��y��s�|�u�}��}�~�~�{�x�~��|��r��q��~��z�l��i��z��p�h��x��~�{�p�w�o��{�A�%��P��~�u�|�|��}��y�x��y��y��r�|�u�}��}�}��{�x�~��|��r��q��~��z�l��i��z��o�h��x��{�p�w�p��z�A�%��\S��~�u�|�{��}��y�x��y��y��s�|�v�}��}�~�~�{�x�~��|��s��q��~��y�l��i��z��o�h��w��~�{�p�x�o��z�=A�%�:�M脂��~�u�|�|��}��x�x��x��y��r�|�u�}��}�~��{�x�~��|��r��q��~��~�z�l��i��z��o�h��x��~�{�p�w�o��z�A�%�X�Uń��~�u�|�{��}��y�x��y��y��r�|�u�~��}�~��{�x�}��}��s��q��~��~�y�l��i��z��p�g��x��~�z�p�w�o��{�QA�%�v�Tv��~�u�|�|��}��y�x��y��y��r�|�v�}��|�~��{�x�~��|��r��r��~�y�l��i��y��p�g��w��~�{�p�w�o��z�tA�%��Xd��~�u�|�{��}��x�x��y��y��r�|�u�}��}�~��{�w�~��|��r��q��~��~�z�l��i��z��p�h��x��~�{�p�w�o��z��A�%��P��~�u�|�{��}��y�x��y��y��r�|�u�}��}�~�~�|�x�}��}��s��q��~��z�l��i��z��p�g��x��~�{�p�w�p��z�{A�%�ХQׄ��~�u�|�|��|��y�x��y��y��s�|�u�}��|�}��{�x�}��|��r��q��~��z�l��i��z��o�h��x��~�z�p�w�o��{�=A�%��Qׄ��~�u�|�{��}��x�x��x��y��r�|�u�}��}�~�~�{�x�~��|��r��q��~��~�y�l��i��z��o�h��w��}�z�p�w�p��{�bA�%��Xd��~�u�|�{��}��x�x��y��y��r�{�t�}��}�~��{�x�~��|��r��q��~��~�y�l��i��z��o�g��w��~�{�p�w�o��z�kA�%�*�Xd��~�u�|�|��|��y�x��y��y��r�|�u�}��}�~��{�x�}��{��r��q��~��z�l��h��y��o�g��x��~�z�p�w�o��z��A�%�x�H��u�|�|��}��z�x��y��y��s�|�u�~��~��|��|�x�}��|��s��q��~��z�l��i��y��p�h��x��~�{�p�w�o��{��A�%��O7��u�|�|��}��y�x��y��y��r�|�u�}��}�~��{�x�~��|��r��q��z�l��i��z��p�h��x��~�{�p�w�p��{�cA�%��Qׄ��~�u�}�|��|��y�x��y��y��s�}�v�~��}�~��|�x�}��|��r��q��~��z�l��i��z��p�h��x��|�q�x�p��z��A�%�ҥGZ��u�|�|��|��y�x��z��y��s�|�u�|��}��{�y�~��}��r��r��z�l��i��y��p�h��x��{�p�x�o��{�A�%��KI��~�u�}�|��}��x�x��y��z��r�|�u�}��}�~�~�|�x�~��}��r��r��z�l��i��y��p�h��x��{�p�w�p��{��A�%��I��~�u�|�|��}��y�y��y��z��s�}�t�}��}�~�~�{�y�~��|��s��r��~��z�l��h��y��p�h��x��~�{�q�w�o��{�A�%�,�Qׄ��}�u�|�|��~��y�y��y��y��r�|�u�}��~��}�x�}��|��r��q��~��z�l��h��z��p�h��w��~�{�q�x�p��{�JA�%�J�GZ��~�u�}�|��}��y�y��y��y��s�|�u�~��}�~��{�x�~��|��s��r��~��{�m��i��z��p�h��x��{�q�x�p��{�%A�%�h�L��v�|�|��|��y�x��z��z��s�|�u�}��}�~��|�x�~��|��s��r��z�l��i��z��q�h��x��~�{�p�x�o��{��A�%��Uń��~�v�|�|��}��y�x��y��z��s�}�v�}��}��{�x��|��s��r��z�m��i��z��p�g��x��~�{�q�x�p��{�A�%��O7��u�}�|��|��y�x��y��y��t�}�v�~��}�~��|�x�~��}��r��r��{�l��i��y��p�h��x��~�{�q�w�p��{�XA�%�¥H��~�u�|�|��}��y�x��y��z��r�|�u�~��}�~��|�x��|��s��q��z�l��i��y��p�h��x��{�p�x�p��{§A�%��L��~�v�}�|��}��y�y��y��z��r�|�u�}��}�~��|�x�~��|��r��q��}��|�m��j��z��o�h��x��~�|�q�w�p��{��A�%��H��~�u�}�|��~��y�y��y��y��r�|�u�}��}�~��|�x�~��}��r��q��~��{�l��i��z��o�h��x��~�{�q�x�o��{�]A�%��L��u�}�|��~��y�x��y��y��s�|�u�|��}�~��{�y�~��}��s��q��~��z�m��i��z��p�h��x��~�{�q�w�p��{��A�%�:�H��~�u�}�|��~��y�x��z��y��s�|�v�}��}�~��{�x�~��}��s��r��z�k��i��z��p�h��x��~�{�q�x�p��{�iA�%�X�O7��~�u�|�|��}��y�y��y��y��s�|�v�}��}�~��|�x�~��|��s��q��~��z�l��i��z��o�h��x��{�q�w�p��{�A�%�v�I��v�{�|��}��y�x��z��z��s�|�u�}��}�~��|�x�~��}��s��q��~��z�l��i��z��p�h��x��~�{�p�w�o��z�!A�%��S&��~�u�|�|��~��y�y��y��y��r�|�t�}��}�~��{�x�}��{��s��q��z�l��i��z��p�i��w��~�{�q�w�p��{��A�%��F��~�u�|�|��}��y�y��y��y��s�|�u�}��}�~��|�x�|��|��s��q��z�l��h��z��p�h��x��~�{�p�x�p��{�'A�%�ХP��~�u�}�|��|��y�x��y��y��r�|�u�}��}�~��|�x�~��|��r��q��~��z�l��i��z��p�h��y��~�{�p�w�p��z��A�%��I��~�u�|�|��|��y�x��y��y��s�|�u�}��}�~��{�x�}��|��s��q��~��~�z�l��i��z��p�h��x��~�{�p�w�o��{��A�%��߄��~�v�|�|��|��x�x��z��y��s�|�t�}��}�~��{�x�~��|��s��q��z�l��i��z��p�g��w��~�{�p�x�o��{�QA�%�*�GZ��~�u�|�|��}��x�x��z��y��s�|�u�~��|�~��{�x�~��}��r��q��~��z�l��i��z��p�h��x��~�{�p�x�p��{·XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 204 / width of table in bytes NAXIS2 = 49 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 73 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BHK188SSPRES' / unused for generic HK data packet TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BHKCMDCNT' / HK Command Count TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BHKERRCNT' / HK Command Error Count TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BHKEXECNT' / Execution Count for SubSystem HK TFORM5 = '1J ' / data format of field: 4-byte INTEGER TZERO5 = 2147483648 / offset for unsigned integers TTYPE6 = 'BTMCMDCNT' / TM Command Count TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTMERRCNT' / TM Command Error Count TFORM7 = '1I ' / data format of field: 2-byte INTEGER TZERO7 = 32768 / offset for unsigned integers TTYPE8 = 'BTMEXECNT' TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BCICMDCNT' / CI Ground Request Command Count TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BCIERRCNT' / CI Ground Request Command Error Count TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BCIEXECNT' / Execution Count for SubSystem CI TFORM11 = '1J ' / data format of field: 4-byte INTEGER TZERO11 = 2147483648 / offset for unsigned integers TTYPE12 = 'BPDCMDCNT' / PD Ground Request Command Count TFORM12 = '1I ' / data format of field: 2-byte INTEGER TZERO12 = 32768 / offset for unsigned integers TTYPE13 = 'BPDERRCNT' / PD Ground Request Command Error Count TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BPDEXECNT' / Execution Count for SubSystem PD TFORM14 = '1J ' / data format of field: 4-byte INTEGER TZERO14 = 2147483648 / offset for unsigned integers TTYPE15 = 'BSBCMDCNT' / SB Ground Request Command Count TFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BSBERRCNT' / SB Ground Request Command Error Count TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BSBEXECNT' / Execution Count for SubSystem SB TFORM17 = '1J ' / data format of field: 4-byte INTEGER TZERO17 = 2147483648 / offset for unsigned integers TTYPE18 = 'BTOCMDCNT' / TO Ground Request Command Count TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BTOERRCNT' / TO Ground Request Command Error Count TFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 32768 / offset for unsigned integers TTYPE20 = 'BTOEXECNT' / Execution Count for SubSystem TO TFORM20 = '1J ' / data format of field: 4-byte INTEGER TZERO20 = 2147483648 / offset for unsigned integers TTYPE21 = 'BMSCMDCNT' / MS Ground Request Command Count TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 32768 / offset for unsigned integers TTYPE22 = 'BMSERRCNT' / MS Ground Request Command Error Count TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BMSEXECNT' / Execution Count for SubSystem MS TFORM23 = '1J ' / data format of field: 4-byte INTEGER TZERO23 = 2147483648 / offset for unsigned integers TTYPE24 = 'BSMCMDCNT' / SM Ground Command Count TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 32768 / offset for unsigned integers TTYPE25 = 'BSMERRCNT' / SM Ground Command Error Count TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 32768 / offset for unsigned integers TTYPE26 = 'BSMEXECNT' / Execution Count for SubSystem SM TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BSHCMDCNT' / SH Ground Request Command Count TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 32768 / offset for unsigned integers TTYPE28 = 'BSHERRCNT' / SH Ground Request Command Error Count TFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 32768 / offset for unsigned integers TTYPE29 = 'BSHEXECNT' / Execution Count for SubSystem SH TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BXRCMDCNT' / XR Ground Request Command Count TFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 32768 / offset for unsigned integers TTYPE31 = 'BXRERRCNT' / XR Ground Request Command Error Count TFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 32768 / offset for unsigned integers TTYPE32 = 'BXREXECNT' / Execution Count for SubSystem XR TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BPWCMDCNT' / PW Ground Request Command Count TFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWERRCNT' / PW Ground Request Command Error Count TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWEXECNT' / Execution Count for SubSystem PW TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BIHCMDCNT' / IH Ground Request Command Count TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BIHERRCNT' / IH Ground Request Command Error Count TFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 32768 / offset for unsigned integers TTYPE38 = 'BIHEXECNT' / Execution Count for SubSystem IH TFORM38 = '1J ' / data format of field: 4-byte INTEGER TZERO38 = 2147483648 / offset for unsigned integers TTYPE39 = 'BSTCMDCNT' / ST Ground Request Command Count TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BSTERRCNT' / ST Ground Request Command Error Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BSTEXECNT' / Execution Count for SubSystem ST TFORM41 = '1J ' / data format of field: 4-byte INTEGER TZERO41 = 2147483648 / offset for unsigned integers TTYPE42 = 'BFOCMDCNT' / FO Ground Request Command Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BFOERRCNT' / FO Ground Request Command Error Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BFOEXECNT' / Execution Count for SubSystem FO TFORM44 = '1J ' / data format of field: 4-byte INTEGER TZERO44 = 2147483648 / offset for unsigned integers TTYPE45 = 'undocumented1' / Byte field not in ITOS database TFORM45 = '1J ' / data format of field: 4-byte INTEGER TZERO45 = 2147483648 / offset for unsigned integers TTYPE46 = 'undocumented2' / Byte field not in ITOS database TFORM46 = '1J ' / data format of field: 4-byte INTEGER TZERO46 = 2147483648 / offset for unsigned integers TTYPE47 = 'BSCCMDCNT' / SC Ground Request Command Count TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 32768 / offset for unsigned integers TTYPE48 = 'BSCERRCNT' / SC Ground Request Command Error Count TFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 32768 / offset for unsigned integers TTYPE49 = 'BSCEXECNT' / Execution Count for SubSystem SC TFORM49 = '1J ' / data format of field: 4-byte INTEGER TZERO49 = 2147483648 / offset for unsigned integers TTYPE50 = 'BFMCMDCNT' / FM Ground Request Command Count TFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 32768 / offset for unsigned integers TTYPE51 = 'BFMERRCNT' / FM Ground Request Command Error Count TFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BFMEXECNT' / Execution Count for SubSystem FM TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BDMCMDCNT' / DM Ground Request Command Count TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BDMERRCNT' / DM Ground Request Command Error Count TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BDMEXECNT' / Execution Count for SubSystem DM TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BBRCMDCNT' / BR Ground Request Command Count TFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BBRERRCNT' / BR Ground Request Command Error Count TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 32768 / offset for unsigned integers TTYPE58 = 'BBREXECNT' / Execution Count for SubSystem BR TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BCACMDCNT' / CA Ground Request Command Count TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 32768 / offset for unsigned integers TTYPE60 = 'BCAERRCNT' / CA Ground Request Command Error Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BCAEXECNT' / Execution Count for SubSystem CA TFORM61 = '1J ' / data format of field: 4-byte INTEGER TZERO61 = 2147483648 / offset for unsigned integers TTYPE62 = 'BDICMDCNT' / DI Ground Request Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BDIERRCNT' / DI Ground Request Command Error Count TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 32768 / offset for unsigned integers TTYPE64 = 'BDIEXECNT' / Execution Count for SubSystem DI TFORM64 = '1J ' / data format of field: 4-byte INTEGER TZERO64 = 2147483648 / offset for unsigned integers TTYPE65 = 'BSPCMDCNT' / SP Ground Request Command Count TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 32768 / offset for unsigned integers TTYPE66 = 'BSPERRCNT' / SP Ground Request Command Error Count TFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 32768 / offset for unsigned integers TTYPE67 = 'BSPEXECNT' / Execution Count for SubSystem SP TFORM67 = '1J ' / data format of field: 4-byte INTEGER TZERO67 = 2147483648 / offset for unsigned integers TTYPE68 = 'BTGCMDCNT' / TG Ground Request Command Count TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 32768 / offset for unsigned integers TTYPE69 = 'BTGERRCNT' / TG Ground Request Command Error Count TFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BTGEXECNT' / Execution Count for SubSystem TG TFORM70 = '1J ' / data format of field: 4-byte INTEGER TZERO70 = 2147483648 / offset for unsigned integers TTYPE71 = 'BFTCMDCNT' / FM Ground Request Command Count TFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BFTERRCNT' / FM Ground Request Command Error Count TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BFTEXECNT' / Execution Count for SubSystem FM TFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers EXTNAME = 'hk188x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675565.90144 TSTOP = 287681565.90142 DATE-OBS= '2010-02-12T13:52:44' DATE-END= '2010-02-12T15:32:44' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5999.99997997284 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 392 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:21' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'EGADFF39EFACEF39' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1597536451' / data unit checksum updated 2010-02-18T17:05:21 TRDHI4 = 2 / BHKERRCNT Red upper limit = BHK_ERRCNT_LIM TYEHI4 = 1 / BHKERRCNT Yellow upper limit = BHK_ERRCNT_LIM TRDHI7 = 2 / BTMERRCNT Red upper limit = BTM_ERRCNT_LIM TYEHI7 = 1 / BTMERRCNT Yellow upper limit = BTM_ERRCNT_LIM TRDHI10 = 2 / BCIERRCNT Red upper limit = BCI_ERRCNT_LIM TYEHI10 = 1 / BCIERRCNT Yellow upper limit = BCI_ERRCNT_LIM TRDHI13 = 2 / BPDERRCNT Red upper limit = BPD_ERRCNT_LIM TYEHI13 = 1 / BPDERRCNT Yellow upper limit = BPD_ERRCNT_LIM TRDHI16 = 2 / BSBERRCNT Red upper limit = BSB_ERRCNT_LIM TYEHI16 = 1 / BSBERRCNT Yellow upper limit = BSB_ERRCNT_LIM TRDHI19 = 2 / BTOERRCNT Red upper limit = BTO_ERRCNT_LIM TYEHI19 = 1 / BTOERRCNT Yellow upper limit = BTO_ERRCNT_LIM TRDHI22 = 2 / BMSERRCNT Red upper limit = BMS_ERRCNT_LIM TYEHI22 = 1 / BMSERRCNT Yellow upper limit = BMS_ERRCNT_LIM TRDHI25 = 2 / BSMERRCNT Red upper limit = BSM_ERRCNT_LIM TYEHI25 = 1 / BSMERRCNT Yellow upper limit = BSM_ERRCNT_LIM TRDHI28 = 2 / BSHERRCNT Red upper limit = BSH_ERRCNT_LIM TYEHI28 = 1 / BSHERRCNT Yellow upper limit = BSH_ERRCNT_LIM TRDHI31 = 2 / BXRERRCNT Red upper limit = BXR_ERRCNT_LIM TYEHI31 = 1 / BXRERRCNT Yellow upper limit = BXR_ERRCNT_LIM TRDHI34 = 2 / BPWERRCNT Red upper limit = BPW_ERRCNT_LIM TYEHI34 = 1 / BPWERRCNT Yellow upper limit = BPW_ERRCNT_LIM TRDHI37 = 2 / BIHERRCNT Red upper limit = BIH_ERRCNT_LIM TYEHI37 = 1 / BIHERRCNT Yellow upper limit = BIH_ERRCNT_LIM TRDHI40 = 2 / BSTERRCNT Red upper limit = BST_ERRCNT_LIM TYEHI40 = 1 / BSTERRCNT Yellow upper limit = BST_ERRCNT_LIM TRDHI43 = 2 / BFOERRCNT Red upper limit = BFO_ERRCNT_LIM TYEHI43 = 1 / BFOERRCNT Yellow upper limit = BFO_ERRCNT_LIM TRDHI48 = 2 / BSCERRCNT Red upper limit = BSC_ERRCNT_LIM TYEHI48 = 1 / BSCERRCNT Yellow upper limit = BSC_ERRCNT_LIM TRDHI51 = 2 / BFMERRCNT Red upper limit = BFM_ERRCNT_LIM TYEHI51 = 1 / BFMERRCNT Yellow upper limit = BFM_ERRCNT_LIM TRDHI57 = 2 / BBRERRCNT Red upper limit = BBR_ERRCNT_LIM TYEHI57 = 1 / BBRERRCNT Yellow upper limit = BBR_ERRCNT_LIM TRDHI60 = 2 / BCAERRCNT Red upper limit = BCA_ERRCNT_LIM TYEHI60 = 1 / BCAERRCNT Yellow upper limit = BCA_ERRCNT_LIM TRDHI63 = 2 / BDIERRCNT Red upper limit = BDI_ERRCNT_LIM TYEHI63 = 1 / BDIERRCNT Yellow upper limit = BDI_ERRCNT_LIM TRDHI66 = 2 / BSPERRCNT Red upper limit = BSP_ERRCNT_LIM TYEHI66 = 1 / BSPERRCNT Yellow upper limit = BSP_ERRCNT_LIM TRDHI69 = 2 / BTGERRCNT Red upper limit = BTG_ERRCNT_LIM TYEHI69 = 1 / BTGERRCNT Yellow upper limit = BTG_ERRCNT_LIM TRDHI72 = 2 / BFTERRCNT Red upper limit = BFT_ERRCNT_LIM TYEHI72 = 1 / BFTERRCNT Yellow upper limit = BFT_ERRCNT_LIM HISTORY TASK: FAPPND on FILENAME: sw00412081000b188x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:30 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��ƀ��/�&��v�� J��'Z��꒑��,��%��貀��^蔀��v��X��F�k��G1�2�2�222�� =�� ]�H��v�V��TA�%��v��/Ŷ��v��t��b��'fT��ꗴ��-��݀��^鴀��v��[��Jޏk��G1�2�2�222�� =�� ]�Z��v�V��lA�%�%��/�F��v�W��Ȁ��z��'r��h��-&��^�Ԁ��v��^r��O��k��G1�2�2�222�� Ԁ��=Ȇ ��]�h��v��V��܀��A�%�a��S��/�܀��v��'}̀��ꣂ��->�� M��؀��D��^��Ѝv��a\��Tn�k��G1�2�2�222�� =�� ]�p��w�W��A�%��v��/�l��v�'��r��'�I��0��-X��"��t��^��v��dD��Y<�k��G3�2�2�222�� =�� ]¶��w�W��A�%��ƀ��/��v��Ȁ��Ƙ��'��ꦙ��-r��9��馀��^�8��v��g0��^ �k��G5�2�2�222�� *��>� ��]��w"�W�� A�%��e��/Ȓ��v��ޘ��'�ǀ��-��Qw��$��ր��^�X��v��j��bҏk��G5�2�2�222�� F��>0� ��]�%��w.�W��j��A�%�Q��/�(��v�_��r��'��ꩤ��-��i0��>��^�z��4�v��m��g��k��G7�2�2�222�� f��>J� ��]��w<�W��P��A�%��ݿ��r��/ɼ��v�ʏ��ʀ��'�Ҁ��0��-ă��π��X��:��^��N�w��o��ll�n��G?�2�2�222�� >f� ��]�T��wA�W��V��A�%��ȴ�տ��8��/�L��v�2��*��'��1��-ރ��Ϙ��p��j��^��f�w��r��q4�o��GA�2�2�222�� >r�!��]�e��wA�W��(��4A�%��ƀݿ�� /�ހ��vȚ��t��B��'��Y��-��ϰY��Ꚁ��^�܀��~�x��u��u��o��GA�2�2�222�� >��!��]�X��wA�X��5��LA�%�A�̣��.��/�n��v��Ȁ��Z��'��ꬒ��.��ʀ��^��x��x��zďo��GA�2�2�222�� ڀ��>��!��]�ŀ��wT�X��>��dA�%�}��ݿ��/��v�m��r��'��͕��.&��ɀ��^��y��{��o��GA�2�2�222�� >̆!��]Ս��wY�X��Gƀ��|A�%��ȴ��/̐��v�Տ��p��'��'��.>��Ѐ��*��^�<��ƍy��~��V�o��GA�2�2�222�� >�!��]�Ѐ��wd�X��P��A�%��'��/� ��v�I��ƀ��( ��.V��:��Z��^�\��ލz��v��o��GA�2�2�222�� *��>��"��]۬��wp�X��Y��A�%�1��ƀݿ��/ͼ��vϳ�� (B��ޕ��.t��&��뎀��^��z��j��o��GE�2�2�222�� X��?�"��]�J��wx�X��bP��A�%�m��e�ݿ��/�L��v��v��֘��(#��g��.��>��뾀��^��{��X��s��GM�2�2�222� �� |��?8�%��]��w��Y��kJ��A�%��ݿ��/�܀��v҄��ʀ��(/��n��.��Vd��4��^��*�{��@��s��GM�2�2�222� �� ?P�%��]�@��w��Y��t>��A�%��Ȁݿ��/�n��v��(;��.��n��L��^��B�{��(��*�s��GM�2�2�222� �� ?h�%��]�ـ��w��Y��}"��A�%�!��ݿ��Ҁ��/��v�T��r��(G��.ڃ��ЅԀ��d��N��^��Z�{��:�s��GM�2�2�222� �� ̀��?��%��]�u��w��Y��(A�%�]��/Ў��vּ��ƀ��6��(S܀��.��Н��|��~��^� ��r�{��J�s��GM�2�2�222� �� ?��%��]� ��w��Y��@A�%��ݿ��/��v�$��N��(_Ҁ��?��/ ��еD��쮀��_@��{��Z�s��GM�2�2�222� �� ?��%��]��w��Y��ƀ��XA�%��v�ݿ��/Ѱ��vٌ��n��f��(k׀��궧��/"��ހ��_`��{��j�s��GM�2�2�222� �� ?̆%��]��w��Y��pA�%��e�ݿ��ŀ��/�@��v��~��(w��3��/:��䴀��Ā��_|��{��x�s��GM�2�2�222� �� :��?�%��]�R��w��Y��A�%�M��ƀݿ��r��/�Ҁ��v�\��(�T��/R��l��܀��>��_��ҍ{��s��GM�2�2�222� �� V��@�%��^g��w��Y��r��A�%��ƀݿ��^��/�b��v�ď��j��(�o��$��/j��$��n��_��{��s��GM�2�2�222� �� r��@�%��^e��w��Y��T��A�%��v�ݿ��F��/��v�,��Ș��(�ހ��5��/��+݀��_��{��j��Ű�s��GO�2�2�222� �� @2�%��^/��w��Y��:��A�%��e�ݿ��8��/Ԏ��v��(��/��C��&��Ҁ��_��{��T��s��GO�2�2�222� �� @L�%��^6��w��Y��A�%�=��ƀݿ�� /� ��v��j��(��/��[N��@��_$��6�{��<��֏s��GQ�2�2�222� �� Ԁ��@f�%��^Y��w��Y��A�%�y��ݿ��/ղ��v�d��澀��(��ҕ��/΃��s��X��2��_ D��N�{��$��s��GQ�2�2�222� �� @��%��^��wĈY��A�%��e�ݿ��/�B��v�̏��*��(�&��/��ъ��p��b��_ d��f�{��s��GQ�2�2�222� �� @��%��^��wΈY��碀��4A�%��ƀ��/�Ҁ��v�4��f��B��(�[��/��Ѣv����_��~�{��s��GQ�2�2�222� �� ,��@��%��^.��w҈Y��LA�%�-��v��܀��/�t��v睏��纀��Z��(�̀��0��Ѻ.��_��|��s��GQ�2�2�222� �� J��@ʆ&��^��w܈Y��dA�%�i��ƀ��ހ��/��v��r��(��&��0.��_ Ā��|��(�s��GQ�2�2�222� �� j��@�&��^��w�Y��n��|A�%��v��ހ��/ؔ��v�m��b��(��꿆��0F��鞀��Ѐ��"��_��ƍ|��8�s��GQ�2�2�222� �� @��&��^"��w��Y��R��A�%��܀��/�$��v�Տ��趀��)n��0^��V��R��_��ލ|��H�s��GQ�2�2�222� �� A�&��^&��x�Y��4��A�%��ƀݿ��Ҁ��/ٴ��v�=�� ){��é��0v����_$��|��~��X�s��GQ�2�2�222� �� A,�&��^)f��x�Y��A�%��v��<��/��w7�� '��+��'��р�5��.�� ~��_LЀ�� [��"��G�2�2�222� �� ʀ��F\�,��^�5��y��^�� A�%��v��<��/�@��w9Y�� ֘'��+��,��р�5�� _M�� ^��"��ޏ��G�2�2�222� �� Fv�,��^�L��z�^�� A�%��v��<��/�Ѐ��w:��6�� '��+��1ߕр�5̃��1�� 4��ހ��_O�� *��a��"��G�2�2�222� �� F��,��^�e��z�^�� A�%�=��v��<��/�`��w<)��'��+�_��6��р�5��IV�� L��_P0�� B��d��"��n��G�2�2�222� �� F��,��^�t��z�^��A�%�y��v��>��/��w=��ހ��'��+��=��р�5��a�� d��>��_QP�� Z��g��"�� 6��G�2�2�222� �� ,��F��,��^��z,�^��(A�%��v��>��/��w>��2��6�'��+��B˕р�6��xƀ�� |��n��_Rp�� r��jr��"�� G�2�2�222� �� D��Fֆ,��^��z8�^�� @A�%��'��>��/��w@a��N�'��+薀��G�р�6,��א~�� _S�� mZ��"��Ə��G�2�2�222� �� \��F�,��_��zD�^��)h��XA�%�-��v��>��/��wAɏ��ڀ��f�'��+�Z��M�р�6D��ר6�� ΀��_T�� pB��"��G�2�2�222� �� t��G�,��_��zP�^��2J��pA�%�i��v��>��/�0��wC1��.��~�'��,��S��р�6\��׿�� Ā��_UЀ�� s*��"��V��G�2�2�222� �� G�,��_Ā��z\�^��;,��A�%��v��@��/��wD��'��,��Xەр�6t��צ�� ܀��.��_V�� ҍ��v��"��!��G�2�2�222� �� G6�,��_΀��zi�^��D��A�%��v��@��/�P��wF��ր��'��,��]��р�6��^�� ^��_X�� ꍆ��x��"��%揄��G�2�2�222� �� GN�,��_!߀��zu�^��L��A�%��v��@��/��wGi��*��Ƙ'��,#U��c�р�6��_Y0��{��"��*��G�2�2�222� �� Ԁ��Gf�,��_(��z��^��UҀ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 192 / width of table in bytes NAXIS2 = 48 / 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 = 287675584.141 TSTOP = 287681536.1083 DATE-OBS= '2010-02-12T13:53:03' DATE-END= '2010-02-12T15:32:15' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5951.96729999781 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 395 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:21' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'JAkVK3kSJAkSJ3kS' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1725477201' / data unit checksum updated 2010-02-18T17:05:21 HISTORY TASK: FAPPND on FILENAME: sw00412081000b18bx001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:30 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= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��$��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�觀I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@_�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��%�M�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��.K��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�0�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��;d�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�� 1�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�&�ڀI��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��`��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��^�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�!�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@'�N�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��X�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@?�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��2�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��t��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�$��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@*�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��,�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��*��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�X:�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%�@#� �I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��πI��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��{�I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��A�%��I��'�J1�J0�,@@�ǀd�d��P�P�Q��끋�S ��d��u0|��Ѐd�:��􂼂��dK��d��Ѐ � ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 25 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 111 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'BPWHKSYNC' / PW HK Packet Sync Mark TFORM2 = '1I ' / data format of field: 2-byte INTEGER TZERO2 = 32768 / offset for unsigned integers TTYPE3 = 'BPWHKPKTID' / PW HK Packet Packet ID TFORM3 = '1B ' / data format of field: BYTE TTYPE4 = 'BPWHKLASTCMD' / PW HK Packet Last Command TFORM4 = '1B ' / data format of field: BYTE TTYPE5 = 'BPWHKCMDDATA' / PW HK Packet Last Command Data 16-bit TFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BPWHKIPESTATUS' / PW HK Packet IPE Interface Status TFORM6 = '1B ' / data format of field: BYTE TTYPE7 = 'BPWHKPIPESTATUS' / PW HK Packet Heat Pipe Switch Status TFORM7 = '1B ' / data format of field: BYTE TTYPE8 = 'BPWHKBLKCONV' / PW HK Packet Block Conversion Switch Status TFORM8 = '1I ' / data format of field: 2-byte INTEGER TZERO8 = 32768 / offset for unsigned integers TTYPE9 = 'BPWHKBLKHEAT' / PW HK Packet Block Heater Switch Status TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BPWHKADCTRAP' / PW HK Packet ADC SEL Trap Status TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BPWHKSTATUS1' / PW HK Packet Various Status Bits TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BPWHKSTATUS2' / PW HK Packet Various Status Bits TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BPWHKSTATUS3' / PW HK Packet Various Status Bits TFORM13 = '1B ' / data format of field: BYTE TTYPE14 = 'undocumented1' / Byte field not in ITOS database TFORM14 = '1B ' / data format of field: BYTE TTYPE15 = 'BPWHKB00PRITEMP' / PW HK Pkt; Block 00 SetPointTemp Primary HeaterTFORM15 = '1I ' / data format of field: 2-byte INTEGER TZERO15 = 32768 / offset for unsigned integers TTYPE16 = 'BPWHKB00SECTEMP' / PW HK Pkt; Block 00 SetPointTemp 2ndary Heater TFORM16 = '1I ' / data format of field: 2-byte INTEGER TZERO16 = 32768 / offset for unsigned integers TTYPE17 = 'BPWHKLHP0PRITEMP' / PW HK Pkt; Pipe 00 SetPointTemp for Loop Heat TFORM17 = '1I ' / data format of field: 2-byte INTEGER TZERO17 = 32768 / offset for unsigned integers TTYPE18 = 'BPWHKB00SPARE' / PW HK Pkt; Block 00 Spare TFORM18 = '1I ' / data format of field: 2-byte INTEGER TZERO18 = 32768 / offset for unsigned integers TTYPE19 = 'BPWHKB00INPUTI' / PW HK Pkt; Block 00 Input Current for DC-DC ConTFORM19 = '1I ' / data format of field: 2-byte INTEGER TZERO19 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL19 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT19 = 'A ' / physical unit of field TTYPE20 = 'BPWHKB0025GND' / PW HK Pkt; Block 00 Voltage on 2.5 Ground ReturTFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BPWHKB00P25VLT' / PW HK Pkt; Block 00 +2.5 Voltage TFORM21 = '1I ' / data format of field: 2-byte INTEGER TZERO21 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL21 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT21 = 'V ' / physical unit of field TTYPE22 = 'BPWHKB00M25VLT' / PW HK Pkt; Block 00 -2.5 Voltage TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL22 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT22 = 'V ' / physical unit of field TTYPE23 = 'BPWHKB00P35VLT' / PW HK Pkt; Block 00 +3.5 Voltage TFORM23 = '1I ' / data format of field: 2-byte INTEGER TZERO23 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL23 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT23 = 'V ' / physical unit of field TTYPE24 = 'BPWHKB00M35VLT' / PW HK Pkt; Block 00 -3.5 Voltage TFORM24 = '1I ' / data format of field: 2-byte INTEGER TZERO24 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL24 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT24 = 'V ' / physical unit of field TTYPE25 = 'BPWHKB00P50VLT' / PW HK Pkt; Block 00 +5.0 Digital Voltage TFORM25 = '1I ' / data format of field: 2-byte INTEGER TZERO25 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL25 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT25 = 'V ' / physical unit of field TTYPE26 = 'BPWHKB00P75VLT' / PW HK Pkt; Block 00 +7.5 Voltage TFORM26 = '1I ' / data format of field: 2-byte INTEGER TZERO26 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL26 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT26 = 'V ' / physical unit of field TTYPE27 = 'BPWHKB00M75VLT' / PW HK Pkt; Block 00 -7.5 Voltage TFORM27 = '1I ' / data format of field: 2-byte INTEGER TZERO27 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL27 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT27 = 'V ' / physical unit of field TTYPE28 = 'BPWHKB00CVTTEMP' / PW HK Pkt; Block 00 DC-DC Converter Module TempTFORM28 = '1I ' / data format of field: 2-byte INTEGER TZERO28 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL28 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT28 = 'Celsius ' / physical unit of field TTYPE29 = 'BPWHKB00TEMP' / PW HK Pkt; Block 00 Temperature TFORM29 = '1I ' / data format of field: 2-byte INTEGER TZERO29 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL29 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT29 = 'Celsius ' / physical unit of field TTYPE30 = 'BPWHKLHPA0TEMP' / PW HK Pkt; LHP 0 (+Y) Comp Chamber (CC) TemperaTFORM30 = '1I ' / data format of field: 2-byte INTEGER TZERO30 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL30 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT30 = 'Celsius ' / physical unit of field TTYPE31 = 'BPWHKLHPB6TEMP' / PW HK Pkt; LHP 1 (-Y) LiqLine @ Cond Outlet TemTFORM31 = '1I ' / data format of field: 2-byte INTEGER TZERO31 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL31 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT31 = 'Celsius ' / physical unit of field TTYPE32 = 'BPWHKTAGFRNTHVLT' / PW HK Pkt; Tagged Source (Front) High Voltage TFORM32 = '1I ' / data format of field: 2-byte INTEGER TZERO32 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL32 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT32 = 'V ' / physical unit of field TTYPE33 = 'BPWHKB01PRITEMP' / PW HK Pkt; Block 01 SetPointTemp Primary HeaterTFORM33 = '1I ' / data format of field: 2-byte INTEGER TZERO33 = 32768 / offset for unsigned integers TTYPE34 = 'BPWHKB01SECTEMP' / PW HK Pkt; Block 01 SetPointTemp 2ndary Heater TFORM34 = '1I ' / data format of field: 2-byte INTEGER TZERO34 = 32768 / offset for unsigned integers TTYPE35 = 'BPWHKLHP1PRITEMP' / PW HK Pkt; Pipe 01 SetPointTemp for Loop Heat TFORM35 = '1I ' / data format of field: 2-byte INTEGER TZERO35 = 32768 / offset for unsigned integers TTYPE36 = 'BPWHKB01SPARE' / PW HK Pkt; Block 01 Spare TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BPWHKB01INPUTI' / PW HK Pkt; Block 01 Input Current for DC-DC ConTFORM37 = '1I ' / data format of field: 2-byte INTEGER TZERO37 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL37 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT37 = 'A ' / physical unit of field TTYPE38 = 'BPWHKB0125GND' / PW HK Pkt; Block 01 Voltage on 2.5 Ground ReturTFORM38 = '1I ' / data format of field: 2-byte INTEGER TZERO38 = 32768 / offset for unsigned integers TTYPE39 = 'BPWHKB01P25VLT' / PW HK Pkt; Block 01 +2.5 Voltage TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL39 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT39 = 'V ' / physical unit of field TTYPE40 = 'BPWHKB01M25VLT' / PW HK Pkt; Block 01 -2.5 Voltage TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL40 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT40 = 'V ' / physical unit of field TTYPE41 = 'BPWHKB01P35VLT' / PW HK Pkt; Block 01 +3.5 Voltage TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL41 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT41 = 'V ' / physical unit of field TTYPE42 = 'BPWHKB01M35VLT' / PW HK Pkt; Block 01 -3.5 Voltage TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL42 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT42 = 'V ' / physical unit of field TTYPE43 = 'BPWHKB01P50VLT' / PW HK Pkt; Block 01 +5.0 Digital Voltage TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL43 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT43 = 'V ' / physical unit of field TTYPE44 = 'BPWHKB01P75VLT' / PW HK Pkt; Block 01 +7.5 Voltage TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL44 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT44 = 'V ' / physical unit of field TTYPE45 = 'BPWHKB01M75VLT' / PW HK Pkt; Block 01 -7.5 Voltage TFORM45 = '1I ' / data format of field: 2-byte INTEGER TZERO45 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL45 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT45 = 'V ' / physical unit of field TTYPE46 = 'BPWHKB01CVTTEMP' / PW HK Pkt; Block 01 DC-DC Converter Module TempTFORM46 = '1I ' / data format of field: 2-byte INTEGER TZERO46 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL46 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT46 = 'Celsius ' / physical unit of field TTYPE47 = 'BPWHKB01TEMP' / PW HK Pkt; Block 01 Temperature TFORM47 = '1I ' / data format of field: 2-byte INTEGER TZERO47 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL47 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT47 = 'Celsius ' / physical unit of field TTYPE48 = 'BPWHKLHPA1TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM48 = '1I ' / data format of field: 2-byte INTEGER TZERO48 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL48 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT48 = 'Celsius ' / physical unit of field TTYPE49 = 'BPWHKLHPB7TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Evap Outlet TemTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL49 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT49 = 'Celsius ' / physical unit of field TTYPE50 = 'BPWHKTAGFRNTTVLT' / PW HK Pkt; Tagged Source (Front) Threshold VoltTFORM50 = '1I ' / data format of field: 2-byte INTEGER TZERO50 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL50 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT50 = 'V ' / physical unit of field TTYPE51 = 'BPWHKB02PRITEMP' / PW HK Pkt; Block 02 SetPointTemp Primary HeaterTFORM51 = '1I ' / data format of field: 2-byte INTEGER TZERO51 = 32768 / offset for unsigned integers TTYPE52 = 'BPWHKB02SECTEMP' / PW HK Pkt; Block 02 SetPointTemp 2ndary Heater TFORM52 = '1I ' / data format of field: 2-byte INTEGER TZERO52 = 32768 / offset for unsigned integers TTYPE53 = 'BPWHKLHP0SECTEMP' / PW HK Pkt; Pipe 02; SetPointTemp for Loop HeatTFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 32768 / offset for unsigned integers TTYPE54 = 'BPWHKB02SPARE' / PW HK Pkt; Block 02 Spare TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BPWHKB02INPUTI' / PW HK Pkt; Block 02 Input Current for DC-DC ConTFORM55 = '1I ' / data format of field: 2-byte INTEGER TZERO55 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL55 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT55 = 'A ' / physical unit of field TTYPE56 = 'BPWHKB0225GND' / PW HK Pkt; Block 02 Voltage on 2.5 Ground ReturTFORM56 = '1I ' / data format of field: 2-byte INTEGER TZERO56 = 32768 / offset for unsigned integers TTYPE57 = 'BPWHKB02P25VLT' / PW HK Pkt; Block 02 +2.5 Voltage TFORM57 = '1I ' / data format of field: 2-byte INTEGER TZERO57 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL57 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT57 = 'V ' / physical unit of field TTYPE58 = 'BPWHKB02M25VLT' / PW HK Pkt; Block 02 -2.5 Voltage TFORM58 = '1I ' / data format of field: 2-byte INTEGER TZERO58 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL58 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT58 = 'V ' / physical unit of field TTYPE59 = 'BPWHKB02P35VLT' / PW HK Pkt; Block 02 +3.5 Voltage TFORM59 = '1I ' / data format of field: 2-byte INTEGER TZERO59 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL59 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT59 = 'V ' / physical unit of field TTYPE60 = 'BPWHKB02M35VLT' / PW HK Pkt; Block 02 -3.5 Voltage TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL60 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT60 = 'V ' / physical unit of field TTYPE61 = 'BPWHKB02P50VLT' / PW HK Pkt; Block 02 +5.0 Digital Voltage TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL61 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT61 = 'V ' / physical unit of field TTYPE62 = 'BPWHKB02P75VLT' / PW HK Pkt; Block 02 +7.5 Voltage TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL62 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT62 = 'V ' / physical unit of field TTYPE63 = 'BPWHKB02M75VLT' / PW HK Pkt; Block 02 -7.5 Voltage TFORM63 = '1I ' / data format of field: 2-byte INTEGER TZERO63 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL63 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT63 = 'V ' / physical unit of field TTYPE64 = 'BPWHKB02CVTTEMP' / PW HK Pkt; Block 02 DC-DC Converter Module TempTFORM64 = '1I ' / data format of field: 2-byte INTEGER TZERO64 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL64 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT64 = 'Celsius ' / physical unit of field TTYPE65 = 'BPWHKB02TEMP' / PW HK Pkt; Block 02 Temperature TFORM65 = '1I ' / data format of field: 2-byte INTEGER TZERO65 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL65 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT65 = 'Celsius ' / physical unit of field TTYPE66 = 'BPWHKLHPA2TEMP' / PW HK Pkt; LHP 0 (+Y) Evaporator Temperature (ATFORM66 = '1I ' / data format of field: 2-byte INTEGER TZERO66 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL66 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT66 = 'Celsius ' / physical unit of field TTYPE67 = 'BPWHKLHPB8TEMP' / PW HK Pkt; LHP 1 (-Y) VapLine @ Cond Outlet TemTFORM67 = '1I ' / data format of field: 2-byte INTEGER TZERO67 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL67 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT67 = 'Celsius ' / physical unit of field TTYPE68 = 'BPWHKTAGREARHVLT' / PW HK Pkt; Tagged Source (Rear) High Voltage TFORM68 = '1I ' / data format of field: 2-byte INTEGER TZERO68 = 2125.2 / data offset (32k shift B_PCB_TAGHV_CNV conversiTSCAL68 = 0.06485595703 / data scaling (B_PCB_TAGHV_CNV conversion) TUNIT68 = 'V ' / physical unit of field TTYPE69 = 'BPWHKB03PRITEMP' / PW HK Pkt; Block 03 SetPointTemp Primary HeaterTFORM69 = '1I ' / data format of field: 2-byte INTEGER TZERO69 = 32768 / offset for unsigned integers TTYPE70 = 'BPWHKB03SECTEMP' / PW HK Pkt; Block 03 SetPointTemp 2ndary Heater TFORM70 = '1I ' / data format of field: 2-byte INTEGER TZERO70 = 32768 / offset for unsigned integers TTYPE71 = 'BPWHKLHP1SECTEMP' / PW HK Pkt; Pipe 03; SetPointTemp for Loop HeatTFORM71 = '1I ' / data format of field: 2-byte INTEGER TZERO71 = 32768 / offset for unsigned integers TTYPE72 = 'BPWHKB03SPARE' / PW HK Pkt; Block 03 Spare TFORM72 = '1I ' / data format of field: 2-byte INTEGER TZERO72 = 32768 / offset for unsigned integers TTYPE73 = 'BPWHKB03INPUTI' / PW HK Pkt; Block 03 Input Current for DC-DC ConTFORM73 = '1I ' / data format of field: 2-byte INTEGER TZERO73 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL73 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT73 = 'A ' / physical unit of field TTYPE74 = 'BPWHKB0325GND' / PW HK Pkt; Block 03 Voltage on 2.5 Ground ReturTFORM74 = '1I ' / data format of field: 2-byte INTEGER TZERO74 = 32768 / offset for unsigned integers TTYPE75 = 'BPWHKB03P25VLT' / PW HK Pkt; Block 03 +2.5 Voltage TFORM75 = '1I ' / data format of field: 2-byte INTEGER TZERO75 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL75 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT75 = 'V ' / physical unit of field TTYPE76 = 'BPWHKB03M25VLT' / PW HK Pkt; Block 03 -2.5 Voltage TFORM76 = '1I ' / data format of field: 2-byte INTEGER TZERO76 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL76 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT76 = 'V ' / physical unit of field TTYPE77 = 'BPWHKB03P35VLT' / PW HK Pkt; Block 03 +3.5 Voltage TFORM77 = '1I ' / data format of field: 2-byte INTEGER TZERO77 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL77 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT77 = 'V ' / physical unit of field TTYPE78 = 'BPWHKB03M35VLT' / PW HK Pkt; Block 03 -3.5 Voltage TFORM78 = '1I ' / data format of field: 2-byte INTEGER TZERO78 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL78 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT78 = 'V ' / physical unit of field TTYPE79 = 'BPWHKB03P50VLT' / PW HK Pkt; Block 03 +5.0 Digital Voltage TFORM79 = '1I ' / data format of field: 2-byte INTEGER TZERO79 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL79 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT79 = 'V ' / physical unit of field TTYPE80 = 'BPWHKB03P75VLT' / PW HK Pkt; Block 03 +7.5 Voltage TFORM80 = '1I ' / data format of field: 2-byte INTEGER TZERO80 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL80 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT80 = 'V ' / physical unit of field TTYPE81 = 'BPWHKB03M75VLT' / PW HK Pkt; Block 03 -7.5 Voltage TFORM81 = '1I ' / data format of field: 2-byte INTEGER TZERO81 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL81 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT81 = 'V ' / physical unit of field TTYPE82 = 'BPWHKB03CVTTEMP' / PW HK Pkt; Block 03 DC-DC Converter Module TempTFORM82 = '1I ' / data format of field: 2-byte INTEGER TZERO82 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL82 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT82 = 'Celsius ' / physical unit of field TTYPE83 = 'BPWHKB03TEMP' / PW HK Pkt; Block 03 Temperature TFORM83 = '1I ' / data format of field: 2-byte INTEGER TZERO83 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL83 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT83 = 'Celsius ' / physical unit of field TTYPE84 = 'BPWHKLHPA3TEMP' / PW HK Pkt; LHP 0 (+Y) Condenser Temperature, -XTFORM84 = '1I ' / data format of field: 2-byte INTEGER TZERO84 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL84 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT84 = 'Celsius ' / physical unit of field TTYPE85 = 'BPWHKLHPB9TEMP' / PW HK Pkt; LHP 1 (-Y) BLock/DM Temperature (B9)TFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL85 = 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT85 = 'Celsius ' / physical unit of field TTYPE86 = 'BPWHKTAGREARTVLT' / PW HK Pkt; Tagged Source (Rear) Threshold VoltaTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 21 / data offset (32k shift B_PCB_TAGTHV_CNV conversTSCAL86 = 0.0006408691406 / data scaling (B_PCB_TAGTHV_CNV conversion) TUNIT86 = 'V ' / physical unit of field TTYPE87 = 'BPWHKB04PRITEMP' / PW HK Pkt; Block 04 SetPointTemp Primary HeaterTFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKB04SECTEMP' / PW HK Pkt; Block 04 SetPointTemp 2ndary Heater TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWHKB04SPARE0' / PW HK Pkt; Block 04 Spare 0 TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWHKB04SPARE1' / PW HK Pkt; Block 04 Spare 1 TFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKB04INPUTI' / PW HK Pkt; Block 04 Input Current for DC-DC ConTFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL91 = 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT91 = 'A ' / physical unit of field TTYPE92 = 'BPWHKB0425GND' / PW HK Pkt; Block 04 Voltage on 2.5 Ground ReturTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWHKB04P25VLT' / PW HK Pkt; Block 04 +2.5 Voltage TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL93 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT93 = 'V ' / physical unit of field TTYPE94 = 'BPWHKB04M25VLT' / PW HK Pkt; Block 04 -2.5 Voltage TFORM94 = '1I ' / data format of field: 2-byte INTEGER TZERO94 = 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL94 = 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT94 = 'V ' / physical unit of field TTYPE95 = 'BPWHKB04P35VLT' / PW HK Pkt; Block 04 +3.5 Voltage TFORM95 = '1I ' / data format of field: 2-byte INTEGER TZERO95 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL95 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT95 = 'V ' / physical unit of field TTYPE96 = 'BPWHKB04M35VLT' / PW HK Pkt; Block 04 -3.5 Voltage TFORM96 = '1I ' / data format of field: 2-byte INTEGER TZERO96 = 36.1201664 / data offset (32k shift B_PCB_3_8V_CNV conversioTSCAL96 = 0.0011023 / data scaling (B_PCB_3_8V_CNV conversion) TUNIT96 = 'V ' / physical unit of field TTYPE97 = 'BPWHKB04P50VLT' / PW HK Pkt; Block 04 +5.0 Digital Voltage TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 50.0006912 / data offset (32k shift B_PCB_5_0V_CNV conversioTSCAL97 = 0.0015259 / data scaling (B_PCB_5_0V_CNV conversion) TUNIT97 = 'V ' / physical unit of field TTYPE98 = 'BPWHKB04P75VLT' / PW HK Pkt; Block 04 +7.5 Voltage TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL98 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT98 = 'V ' / physical unit of field TTYPE99 = 'BPWHKB04M75VLT' / PW HK Pkt; Block 04 -7.5 Voltage TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 74.7995136 / data offset (32k shift B_PCB_7_5V_CNV conversioTSCAL99 = 0.0022827 / data scaling (B_PCB_7_5V_CNV conversion) TUNIT99 = 'V ' / physical unit of field TTYPE100= 'BPWHKB04CVTTEMP' / PW HK Pkt; Block 04 DC-DC Converter Module TempTFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL100= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT100= 'Celsius ' / physical unit of field TTYPE101= 'BPWHKB04TEMP' / PW HK Pkt; Block 04 Temperature TFORM101= '1I ' / data format of field: 2-byte INTEGER TZERO101= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL101= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT101= 'Celsius ' / physical unit of field TTYPE102= 'BPWHKLHPA4TEMP' / PW HK Pkt; LHP 1 (+Y) Condenser Temperature, +XTFORM102= '1I ' / data format of field: 2-byte INTEGER TZERO102= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL102= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT102= 'Celsius ' / physical unit of field TTYPE103= 'BPWHKMASK0TEMP' / PW HK Pkt; Mask Temperature (top center) TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL103= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT103= 'Celsius ' / physical unit of field TTYPE104= 'BPWHKSPARE04TMP' / PW HK Pkt; Block 04 Spare Temperature TFORM104= '1I ' / data format of field: 2-byte INTEGER TZERO104= 1184.830144 / data offset (32k shift B_PCB_TEMP_CNV conversioTSCAL104= 0.038508 / data scaling (B_PCB_TEMP_CNV conversion) TUNIT104= 'Celsius ' / physical unit of field TTYPE105= 'BPWHKB05PRITEMP' / PW HK Pkt; Block 05 SetPointTemp Primary HeaterTFORM105= '1I ' / data format of field: 2-byte INTEGER TZERO105= 32768 / offset for unsigned integers TTYPE106= 'BPWHKB05SECTEMP' / PW HK Pkt; Block 05 SetPointTemp 2ndary Heater TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 32768 / offset for unsigned integers TTYPE107= 'BPWHKB05SPARE0' / PW HK Pkt; Block 05 Spare 0 TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 32768 / offset for unsigned integers TTYPE108= 'BPWHKB05SPARE1' / PW HK Pkt; Block 05 Spare 1 TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BPWHKB05INPUTI' / PW HK Pkt; Block 05 Input Current for DC-DC ConTFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 7.92788992 / data offset (32k shift B_PCB_CURR_CNV conversioTSCAL109= 0.00024194 / data scaling (B_PCB_CURR_CNV conversion) TUNIT109= 'A ' / physical unit of field TTYPE110= 'BPWHKB0525GND' / PW HK Pkt; Block 05 Voltage on 2.5 Ground ReturTFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BPWHKB05P25VLT' / PW HK Pkt; Block 05 +2.5 Voltage TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 24.98002944 / data offset (32k shift B_PCB_2_7V_CNV conversioTSCAL111= 0.00076233 / data scaling (B_PCB_2_7V_CNV conversion) TUNIT111= 'V ' / physical unit of field EXTNAME = 'hk18cx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675547.9515 TSTOP = 287681547.94194 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:26' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5999.99044001102 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 396 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:21' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'OAAVO4AVO9AVO9AV' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '4114780388' / data unit checksum updated 2010-02-18T17:05:21 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: sw00412081000b18cx001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:30 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��k�q��.��ˀ��q��ǉ҈��!��1��Ӏ��ˉ҉�ދ��1��Ԁ��ԉ$��.��ڄى��/��܄��0��΀��A�%�� k�q��-��Ҁ��}��݌��ɉ҈Ń��!��0��w��ωӈ�ɋ��/��܀��般�$��.��׎�y��څ��.��׀��܄��/��A�%��%�k�q��.��v�� Ή҈�� 1��߀��|��Ӊԉ�勏��0��ˀ��؉%��0�� م7��0��ŀ��߄��0��߀��A�%��k�q��.��Հ��q��щ҈˄K��0��{��Չӈ�͋��/��舭�%��.��څo��/��b��߅!��/��A�%�{�%�k�q��.��َ�h��։҈؄O� ��0��W��x��׉щ�Ћ��/��-��É&��.��"�� ܅��/��ޅT��0��4��A�%��)�k�q��-��K��q��ډӈɄ��!��/��I��v��ۉш�ǋ��/��=��爵�(��.��c�� ܅㉀��.��߅��/��A�%�k��sk�q��.��'�݉ՈԄ��!��1��w��Ԉ��Ӌ��0��K��ǉ'��/��ߎ��څ��/��܅��0��3��A�%��$Jk�q��.��s��߉Ԉ̈́ȉ"��1��z��҈�ɋ��0�� �&��/��ŀ��!�؆:�~��/��р��ޅ׈��0��}��A�%�[�k�q��/��w��ӈτ�"��0��}��ӈ��̋��0�� �$��0�� $�چ<�~��0��ޅር��1��A�%�� \k�q��.��q��ӈɄ߉$��0�� 퍅��ӈ��؋��0��̉$��/��$�ۆV��/��!��ޅ��0��A�%�K��$k�q��/��u��҈ӄމ%��1��р��~��ш��ˋ��1�� "��0��р��&�؆9��0��߅刯��1��A�%��k�q��/��r��߉ӈ˄��%��1�� y��ӈ�ۋ��0��݀��Ή!��/��'�چ+��/�� ܅͈��0��A�%�;��k�q��-��߉ӈτƉ$��0��v��҈��ȋ��/�� /��ێ�~��(�چ �~��/�� ޅʈ��/��A�%��k�q��.��u��݉҈τ��$��1�� v��ш��ϋ��0�� É!��/��Ā��&�؅��~��0��܅��0��ǀ��A�%�+�bck�q��.��%�s��'�܉Ԉ̈́��#��0��҈��ҋ��0��B��"�~��ŉ!��/��&�م�~��/�� ܅��0��A�%��k�q��.��v��ډӈӄ��"��/��}��҉�ҋ��/�� Ɖ"��/��#�؅~��/��ۅx��0��A�%��P�k�q��.��x��r��ԉшǄk�#��0��Q��y��݉ш�ȋ��/��Y�� 戹�#��/��s��$�څ��~��/��܅W��/��k��A�%��k�q��.��ގ-�p��'�҉҈̈́T� ��0��!�ډш��׋��0��!��ɉ#��/�� م��~��/��ޅM��0��b��A�%��k�q��.��v��͉҈Є@� ��0��~��׉҉�͋��0�� %��/��؅e��/��݅��0��A�%��k�q��/��{��w�� шɃ��!��1��o��v��!��҈�ɋ��1��W��ى�񈹉#��0��e��ڄ�}��0��^��͉݄��1��G��A�%�+�smk�q��.��y��'��҈σ�"��0��}��u��҈��ҋ��0��P��߉��ĉ%��/��\��ڎ�{��م&��/��]��։ބވ��0��V��A�%��p�k�q��.��n��ӈԄ �#��0�� 덇��Љ�勐��/��Ѐ��ى%��.��څr�~��/��ۉ݅.��0��̀��A�%��o~k�q��/��}��t��҈Ʉa�#��1��w��|��ӈ�΋��1��q�� 刭�%��/��ۅ��/��߉݅S��0��ɀ��A�%��k�q��-��ю%�c��ߌ��҈Մ_�$��0��̀��x��ÉЉ�ދ��0��Ӊ&��.��څ��/��݅��0��܀��A�%��"�k�q��.��w��Ɖ҈˄��%��0��{��&�ȉӈ��ʋ��0��À���'��/�� چ ��/��݅��0��ـ��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 220 / width of table in bytes NAXIS2 = 25 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 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 = 287675547.95548 TSTOP = 287681547.94342 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:26' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5999.98794001341 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 397 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'LHfjOEdiLEdiLEdi' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1906845264' / data unit checksum updated 2010-02-18T17:05:22 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: sw00412081000b18dx001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:30 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��V��݌�� ߈P��0��X��!��ڃÈ��/��ڎ ��܈�q��/��Ј��0��܌ލ��ډ��Q�݂��1��Ҁ��0��A�%�� ٌ��/��|�� ڄ��.��֎��ۈ͈q��/��ր�� Ј戍��/��߀��׌ٌ��ى��P�݂��/��!��р��-��A�%��ߌ��#��߈��1��8��#��#��ك��/��ߎ ��ڈ�p��/��!��҉��0��N��ތ��ى��R�݂��1��i��р��0��dA�%��D��ߌ�� ߇��0��-��!��؄P��.��ݎ�� ڈʈr��/�� ҈舌��/��Ԁ��݌ލ��ى��P�ނ��/��р��/��A�%�{�7��ߌ��!� �ވ9��0��"��ׄe��/��7��ێ ��$�݈�r��/��$�� ҈��/��>��݌ލ��؉��R��/��Ѐ��*��/��7A�%��֎��ی�� ߇��/��؄��/��΀�َ��&�ۈʈr��.��҈鈎��/��ߎ��ڌی��ى��P�₄�/��߀��р��2��.��A�%�k�_Ď��݌��!��ވ��1��ل��/��؎��)�݈߈t��0��N�� ш󈎎��0��܌ݍ� �׉��Q�₄�1��Ҁ��Ѐ��:��0��A�%��񆘎��$��0��"��ڄ܈��/��h��Վ��*�܈шt��/��V��%��Ј��/��n��݌ߍ�#�։��N�傁�1��Ѐ��E��/��5A�%�[�׎��$��ވ��1��"��#��؄��0�� +�ۈ׈u��0��Ј��0��ތ��&�ى��P�悂�1��!�р��M��0��A�%��񂪎��݌��!��އ��0��a��"�؅��/��؎��0�܈ψt��/��ш툍��/��ڌ݌��%�׉��M�肂�0�� Ѐ��V��/��A�%�K�[Վ��ڌ��0��&� ��#�!�ڄ��0��ێ��0�ۈ݈v��0�� "��Ј��0��ތ��(�։��O�ꂂ�1��̀�ݎ.��"�р��\��0��A�%��Q��%��߇È��0��!�!�م��0��ʀ�Վ��/�ۈ҈v��/��!��ш鈐��0��܌ލ�'�؉��Q�낄�0��"�Ѐ��_��0��A�%�;�^ݎ��ތ��!��އ��/��!��؄툣��.��ڎ��/�ڈ؈u��/��!��ψ􈏎��/��܌ݍ�%�։��O�킄�0��!�Ѐ��b��/��A�%��j��݌��!��߇��0��n��!� �ڄ戥��/��ڎ ��1�܈܈w��,��Ј��/��Ӏ��یݍ�&�׉��P��0��ـ��π��d��/�� A�%�+��P��ی��އ��0�� ؄ֈ��/��ێ��.�ڈՈw��0��Ј񈑎��0��ڌ܍�%�׉��O��0��!�Ѐ��e��/��A�%��}��'��܇��/��p��%��!��ل��.��ގ��/�܈߈u��.��"��#��Ј��/��ގ��ތ��$�׉��P��/��р��π��d��/��A�%��x��'��݇ӈ��0�� ք��/��b��ώ��,�܈҈v��/��|��"��ш成��/��s��یݍ�!�׉��O�񂄄0��m��π��d��/��ZA�%��G��܌�� އ��0��"��؄��/��ڎ��)�ۈ׈u��0��ψ򈑎��/��ŀ��ڌݍ��׉��O��0��р��b��0��A�%��1��ތ��!� �݇ӈ��1��-��"��ل{��/��Ȁ�֎��(�ڈ��w��/��Ј��0��݌ލ��Չ��O��0��َ'��Ѐ��^��0��A�%��h��&��އ��1��#��$��ڃ؈��/��ۈΈq��/��"��ψ��0��ƀ��ߌ��։��N�䂃�1��Ѐ��0��A�%�+�ջ��ڌ��߈��1��݀��ׄ��0��َ��݈ۈq��/��ˀ��ψ��0��ɀ��ٌۍ��։��R�傄�1��р��Ѐ��/��A�%��ջ��ތ��!��߇��0��!��ׄ0��.��Ȁ�َ�� ܈ۈq��/��ω��/��܌ލ��׉��O�悄�0��ۀ��р��!��/��A�%��k��،��އ��1�� !��ل��0��ڈΈq��0�� "��(��Ј刐��0��݌��׉��Q�傄�1��Ѐ��%��0��A�%��܌��߇��0��{�� !��ׄ��/��̀�َ��ۈۈq��/�� ш��/��یݍ��Չ��O�䂄�0��ˀ��Ѐ��)��/��A�%��ی��!��݇ψ��0��ل��/��ڎ ��ۈӈr��/��Ј숌��/��ی܌�� ׉��Q�傃�0��π��/��/��;XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 179 / width of table in bytes NAXIS2 = 25 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 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 = 287675547.95698 TSTOP = 287681547.94488 DATE-OBS= '2010-02-12T13:52:26' DATE-END= '2010-02-12T15:32:26' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 5999.98790001869 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 398 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '9iLcJhIZ9hIaGhIY' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1895829990' / data unit checksum updated 2010-02-18T17:05:22 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: sw00412081000b18ex001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:30 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��ʎ��%��͈Ճ��傅�/��ߎ�s�� ǈ̉ۍ)��0��ǀ��,��Մ�ƍ(��0��!�ǉӅ"��{��0��Ӏ��*�ш*��dA�%��j��ێ��"��͈��Ј낃�-��z��Ȉ��ҍ)��/����Յ�͍)��.��ݎ��ʉ҅;��/��ގ��(�ĉӈ��A�%��)� �̈ۃ�񂃄/��Ɉ̉ȍ*��0��"��ՅD�֍)��0��؎��#�ΉӅs��0�� +�ȉ҈/��mA�%��(��̈��.��Ȉ��*��/��򍏍��#��ԅ_�ۍ)��/�� щ҅��/��*�ɉч��A�%�{��َ��'��ˈǄC��.��_��~�� Ɉ��+��/��荒��!��ԅ��*��0��"�ՉӅ̀��/��,�Ήш5��UA�%��녀�ߍ��"��͈��j��-�� ǈ��č-��.��܀�ލ��}��Յ��+��/��߀�؎ �� ىԅ��/��'�҉Ӈʀ��ɀA�%�k��ߎ��&��͈ʄ��/��}��ǈ͍-��0��񍎍��"��ԅՉ�-��1��ހ�ߎ��"�ډӆ��0��΀��)�Չ҈��A�%��疀�ݎ��'��ψ��&��.��#��Ȉ��Ӎ.��0��L��$��ԅ��-��0��B�� !�݉҆8��0��S��*�؉҈L��xA�%�[�q7��'��͈��0��/��!��ƈ��ٍ/��0��ꍌ�� ҅��ٍ/��1�� "�݉цC��Ă��1��C��ߎ��-�ډՈ��A�%��X��ڎ ��%��͈҄��/��.�� }�� ǈɉ�1��/����"� �ӆ�ύ0��0��؀�� ߉ӆF��͂��/��'�ډӈb��A�%�K�#��Ύ��*��̈��3��/��"��ƈ��2��1�� $� �ԅ�Ǎ2��1��ގ ��$�މӆ@��ӂ��0�� -�ۉӈ'��A�%��U��ގ ��'��͈ф��7��/��~��!��ǈŉ�3��/��#� �Ӆ剺�2��1��"�܉҆*��؂��0�� *�ى҈*��7A�%�;��+��ގ ��'��Έ��F��.��!��ǈ��4��/��򍏍��#� �ԅщ��3��/��܎ ��!�ۉ҆!��ۂ��/��)�ى҇؀�� A�%��ʀ��%��̈Ǆ��M��/��ƈ��5��0��񍌍��!��Ӆ��5��0��ڎ�� ىц��݂��0��܎��)�׉ш��A�%�+��u��׎��&��͈Ȅx�W��/��}��Ȉ��7��0��덎�� Ӆ��6��0�� ׉҅�ނ��0��(�։шy��zA�%��܎ ��&��ˈȄ]�T��/��ň��ߍ7��/��̀��򍑍��'��Ӆr��7��0��܎ �� Չ҅Ȁ��ނ��/��ـ�� )�Չ҈��)A�%��w��ێ��%��ˈ��H�X��.��j��}��ň��׍8��/��V��񍓍��$��ԅl�7��0��g��"�щ҅��ނ��0��{��)�҉чŀ��A�%��E��׎ ��%��͈΄/�Y��.��}��ňŉ͍9��0����!��хB�ȍ9��0��!�ωӅ��݂��0��󍨍��*�ω҈��9A�%��&��&��͈��M��/��w��ƈ��9��0��荋��҅6�͍8��0��ގ ��"�ˉ҅}��ڂ��0��*�͉Ӈŀ��uA�%��)��̈��/��݀��!�Ӊǈ��ƍ-��0��򍑍��%�Չ҄߉č-��0��ߎ��$��Ӆ��1��8��,��ч��6A�%�+�ڐ��%��̈ʃʉ��/��ˀ��{��ىǈ��ύ-��0��򍋍�� ۉӅ�ˍ-��1��ߎ�� хI��0�� )��҈��lA�%��ڐ��ڎ ��%��ˈ݄��.��~��߉ǈԉ׍.��/��ր����!�߉хe�ԍ.��0��!��҅��/��̀�� )��҈t��àA�%��@��'��Έ��4��/��!��ň��-��0�� +��҅��ލ.��0��π�ߎ ��"��҅À��0��ݎ��,��Ӈ�� A�%��f��֎��%��͈քW� ��.��|��Ĉȉ�.��0��؀��䍓�� ԅ��-��0�� х􀢅��0��)��҈B��*A�%��㨀��%��͈��.��׀��y��ǈ��/��/����!��҅ى�-��0��ێ�� ŉц��0��܎��*��҇��!XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 500 / width of table in bytes NAXIS2 = 49 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 209 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field TTYPE2 = 'undocumented1' / Byte field not in ITOS database TFORM2 = '1J ' / data format of field: 4-byte INTEGER TZERO2 = 2147483648 / offset for unsigned integers TTYPE3 = 'BXCPKTSINSCCNT' / XC number of command packets received TFORM3 = '1I ' / data format of field: 2-byte INTEGER TZERO3 = 32768 / offset for unsigned integers TTYPE4 = 'BXCPKTSERRSCCNT' / XC S/C Apid (0x0701) error counter TFORM4 = '1I ' / data format of field: 2-byte INTEGER TZERO4 = 32768 / offset for unsigned integers TTYPE5 = 'BXCEXPSEQCOUNT' / XC expected sequence count of next segmented coTFORM5 = '1I ' / data format of field: 2-byte INTEGER TZERO5 = 32768 / offset for unsigned integers TTYPE6 = 'BXCREJECTREASON' / XC command reject reason TFORM6 = '1I ' / data format of field: 2-byte INTEGER TZERO6 = 32768 / offset for unsigned integers TTYPE7 = 'BTOFREEBYTES' / TO Space on downlink RAM disk TFORM7 = '1J ' / data format of field: 4-byte INTEGER TZERO7 = 2147483648 / offset for unsigned integers TTYPE8 = 'BTOPKTSENT' / TO packets sent TFORM8 = '1J ' / data format of field: 4-byte INTEGER TZERO8 = 2147483648 / offset for unsigned integers TTYPE9 = 'BTOFILESSENT' / TO files TFORM9 = '1I ' / data format of field: 2-byte INTEGER TZERO9 = 32768 / offset for unsigned integers TTYPE10 = 'BTOFILEQSENT00' / TO File Queue priority 0 files sent TFORM10 = '1I ' / data format of field: 2-byte INTEGER TZERO10 = 32768 / offset for unsigned integers TTYPE11 = 'BTONUMQUEFLUSH' / TO TFORM11 = '1B ' / data format of field: BYTE TTYPE12 = 'BTORETRYDELQUE' / TO Current size of the retry delete queue TFORM12 = '1B ' / data format of field: BYTE TTYPE13 = 'BTOBUMPFILECNT' / TO TFORM13 = '1I ' / data format of field: 2-byte INTEGER TZERO13 = 32768 / offset for unsigned integers TTYPE14 = 'BFMBOOTSPACE' / Free space on the Boot EEPROM disk, targ/boot TFORM14 = '1J ' / data format of field: 4-byte INTEGER TTYPE15 = 'BFMNORMSPACE' / Free space on the Normal EEPROM disk, targ/normTFORM15 = '1J ' / data format of field: 4-byte INTEGER TTYPE16 = 'BFMTEMPSPACE' / Free space on the scratch RAM disk, targ/temp TFORM16 = '1J ' / data format of field: 4-byte INTEGER TTYPE17 = 'BFMNRAMSPACE' / Free space on the Normal DRAM disk, targ/nram TFORM17 = '1J ' / data format of field: 4-byte INTEGER TTYPE18 = 'BSHPRIMCLK' / SH Free Running Flag TFORM18 = '1B ' / data format of field: BYTE TTYPE19 = 'BSHCURRSLOT' / SH Current Slot Number TFORM19 = '1B ' / data format of field: BYTE TTYPE20 = 'BSHCMDORCNT' / SH BAT Cmd Buffer Overrun Error Count TFORM20 = '1I ' / data format of field: 2-byte INTEGER TZERO20 = 32768 / offset for unsigned integers TTYPE21 = 'BSHCURRCYCLE' / SH Current Cycle Number TFORM21 = '1J ' / data format of field: 4-byte INTEGER TZERO21 = 2147483648 / offset for unsigned integers TTYPE22 = 'undocumented2' / Byte field not in ITOS database TFORM22 = '1I ' / data format of field: 2-byte INTEGER TZERO22 = 32768 / offset for unsigned integers TTYPE23 = 'BSHBBADISRCNT' / SH BAT Bad 1 Hz ISR Count TFORM23 = '1B ' / data format of field: BYTE TTYPE24 = 'BSHPULSE' / SH Source of the 1Hz Pulse TFORM24 = '1B ' / data format of field: BYTE TTYPE25 = 'BMSCBYTESCRUB' / MS Cumulative number of bytes scrubbed since ReTFORM25 = '1J ' / data format of field: 4-byte INTEGER TZERO25 = 2147483648 / offset for unsigned integers TTYPE26 = 'BMSCPASSCOMPL' / MS Passes made thru Bulk Memory since Reset TFORM26 = '1J ' / data format of field: 4-byte INTEGER TZERO26 = 2147483648 / offset for unsigned integers TTYPE27 = 'BMSCSBERRORS' / MS Cumulative number of Single-Bit Errors sinceTFORM27 = '1J ' / data format of field: 4-byte INTEGER TZERO27 = 2147483648 / offset for unsigned integers TTYPE28 = 'BMSCMBERRORS' / MS Cumulative number of Multi-Bit Errors since TFORM28 = '1J ' / data format of field: 4-byte INTEGER TZERO28 = 2147483648 / offset for unsigned integers TTYPE29 = 'BMSRAMCSBERRORS' / MS RAM single-bit error count TFORM29 = '1J ' / data format of field: 4-byte INTEGER TZERO29 = 2147483648 / offset for unsigned integers TTYPE30 = 'BMSRAMCMBERRORS' / MS RAM multi-bit error count TFORM30 = '1J ' / data format of field: 4-byte INTEGER TZERO30 = 2147483648 / offset for unsigned integers TTYPE31 = 'BMSRAMLSBERRADDR' / MS Last RAM single-bit error address TFORM31 = '1J ' / data format of field: 4-byte INTEGER TZERO31 = 2147483648 / offset for unsigned integers TTYPE32 = 'BMSRAMLMBERRADDR' / MS Last RAM multi-bit error address TFORM32 = '1J ' / data format of field: 4-byte INTEGER TZERO32 = 2147483648 / offset for unsigned integers TTYPE33 = 'BMSMACHERRORS' / MS RAM machine check error count TFORM33 = '1J ' / data format of field: 4-byte INTEGER TZERO33 = 2147483648 / offset for unsigned integers TTYPE34 = 'BMSACHERRADDR' / MS Last RAM machine check error address TFORM34 = '1J ' / data format of field: 4-byte INTEGER TZERO34 = 2147483648 / offset for unsigned integers TTYPE35 = 'BMSLIORESETREG' / MS Processor LIO Reset Register TFORM35 = '1J ' / data format of field: 4-byte INTEGER TZERO35 = 2147483648 / offset for unsigned integers TTYPE36 = 'BTMSEVER6CNT' / TM Count of Events with Severity = 6 TFORM36 = '1I ' / data format of field: 2-byte INTEGER TZERO36 = 32768 / offset for unsigned integers TTYPE37 = 'BTMCURRMODE' / TM Current Software Mode TFORM37 = '1B ' / data format of field: BYTE TTYPE38 = 'BTMPREVMODE' / TM Previous Software Mode TFORM38 = '1B ' / data format of field: BYTE TTYPE39 = 'BTMCURLOGINDX' / TM Current Index into the System Reset Log TFORM39 = '1I ' / data format of field: 2-byte INTEGER TZERO39 = 32768 / offset for unsigned integers TTYPE40 = 'BTMSRESETCNT' / TM System Reset Count TFORM40 = '1I ' / data format of field: 2-byte INTEGER TZERO40 = 32768 / offset for unsigned integers TTYPE41 = 'BTMBOOTCNT' / TM Boot Mode Reset Count TFORM41 = '1I ' / data format of field: 2-byte INTEGER TZERO41 = 32768 / offset for unsigned integers TTYPE42 = 'BTMNORMALCNT' / TM Normal Mode Reset Count TFORM42 = '1I ' / data format of field: 2-byte INTEGER TZERO42 = 32768 / offset for unsigned integers TTYPE43 = 'BTMWRESETCNT' / TM System Warm Reset Count TFORM43 = '1I ' / data format of field: 2-byte INTEGER TZERO43 = 32768 / offset for unsigned integers TTYPE44 = 'BTMCRESETCNT' / TM System Cold Reset Count TFORM44 = '1I ' / data format of field: 2-byte INTEGER TZERO44 = 32768 / offset for unsigned integers TTYPE45 = 'BTMLLOGPRVMOD' / TM Log of Last Mode Change: The Mode We EnteredTFORM45 = '1B ' / data format of field: BYTE TTYPE46 = 'BTMLLOGNEWMOD' / TM Log of Last Mode Change: The Mode We Came FrTFORM46 = '1B ' / data format of field: BYTE TTYPE47 = 'BTMLRESETTYPE' / TM Log of Last Mode Change: The Reset Type TFORM47 = '1B ' / data format of field: BYTE TTYPE48 = 'undocumented3' / Byte field not in ITOS database TFORM48 = '1B ' / data format of field: BYTE TTYPE49 = 'BTMLLOGEVENT' / TM Log of Last Mode Change: The Event that CausTFORM49 = '1I ' / data format of field: 2-byte INTEGER TZERO49 = 32768 / offset for unsigned integers TTYPE50 = 'BTMLLOGTIME' / TM Log of Last Mode Change: The Time it HappeneTFORM50 = '1D ' / data format of field: 8-byte DOUBLE TTYPE51 = 'BTMVWBYTESFR' / TM VxWorks SysMem Partition Bytes Free TFORM51 = '1J ' / data format of field: 4-byte INTEGER TZERO51 = 2147483648 / offset for unsigned integers TTYPE52 = 'BTMVWBLCKSFR' / TM VxWorks SysMem Partition Blocks Free TFORM52 = '1J ' / data format of field: 4-byte INTEGER TZERO52 = 2147483648 / offset for unsigned integers TTYPE53 = 'BTMPERCIDLE' / TM System Idle Time Percentage TFORM53 = '1I ' / data format of field: 2-byte INTEGER TZERO53 = 327.68 / data offset (32k shift B_TM_PERCENT_CNV conversTSCAL53 = 0.01 / data scaling (B_TM_PERCENT_CNV conversion) TTYPE54 = 'BTMTEPENABLED' / TM Task Execution Profiler Setting TFORM54 = '1I ' / data format of field: 2-byte INTEGER TZERO54 = 32768 / offset for unsigned integers TTYPE55 = 'BTMVWMAXBLKFR' / TM VxWorks SysMem Partition largest free block TFORM55 = '1J ' / data format of field: 4-byte INTEGER TZERO55 = 2147483648 / offset for unsigned integers TTYPE56 = 'BTMFSBYTESFR' / TM DOS SysMem Partition total free bytes TFORM56 = '1J ' / data format of field: 4-byte INTEGER TZERO56 = 2147483648 / offset for unsigned integers TTYPE57 = 'BTMFSBLCKSFR' / TM DOS SysMem Partition total free blocks TFORM57 = '1J ' / data format of field: 4-byte INTEGER TZERO57 = 2147483648 / offset for unsigned integers TTYPE58 = 'BTMFSMAXBLKFR' / TM DOS SysMem Partition largest free block TFORM58 = '1J ' / data format of field: 4-byte INTEGER TZERO58 = 2147483648 / offset for unsigned integers TTYPE59 = 'BTMFSTOTBYTES' / TM DOS SysMem Partition total memory TFORM59 = '1J ' / data format of field: 4-byte INTEGER TZERO59 = 2147483648 / offset for unsigned integers TTYPE60 = 'BSCSTARTCNT' / SC Script START Commands Count TFORM60 = '1I ' / data format of field: 2-byte INTEGER TZERO60 = 32768 / offset for unsigned integers TTYPE61 = 'BSCTERMCNT' / SC Script STOP Command Count TFORM61 = '1I ' / data format of field: 2-byte INTEGER TZERO61 = 32768 / offset for unsigned integers TTYPE62 = 'BSCCOMPLCNT' / SC Script BREAK Command Count TFORM62 = '1I ' / data format of field: 2-byte INTEGER TZERO62 = 32768 / offset for unsigned integers TTYPE63 = 'BSCNUMSCRIPTS' / SC Number of Scripts Currently Active TFORM63 = '1B ' / data format of field: BYTE TTYPE64 = 'BSCUNSPECSLOT' / SC Minimum Slot for Scripts with Unspecified SlTFORM64 = '1B ' / data format of field: BYTE TTYPE65 = 'BSCTLMPKTCNT' / SC Script CLEAR Command Count TFORM65 = '1J ' / data format of field: 4-byte INTEGER TZERO65 = 2147483648 / offset for unsigned integers TTYPE66 = 'BSCCMDSENT' / SC Script STEP Command Count TFORM66 = '1J ' / data format of field: 4-byte INTEGER TZERO66 = 2147483648 / offset for unsigned integers TTYPE67 = 'FOMSLEWMODESTAT' / Fom Slew Mode Enable Status TFORM67 = '1B ' / data format of field: BYTE TTYPE68 = 'FOMATMODESTAT' / Fom AT Mode Enable Status TFORM68 = '1B ' / data format of field: BYTE TTYPE69 = 'FOMPPTMODESTAT' / Fom PPT Mode Enable Status TFORM69 = '1B ' / data format of field: BYTE TTYPE70 = 'FOMOTTYPE' / Current Observed Target Target Type TFORM70 = '1B ' / data format of field: BYTE TTYPE71 = 'FOMOTOBSNUM' / Current Observed Target Observation Num TFORM71 = '1J ' / data format of field: 4-byte INTEGER TZERO71 = 2147483648 / offset for unsigned integers TTYPE72 = 'FOMOTMERIT' / Current Observed Target Merit TFORM72 = '1E ' / data format of field: 4-byte REAL TTYPE73 = 'FOMOTOBSSECS' / Current Observed Target Secs Until View ConstraTFORM73 = '1J ' / data format of field: 4-byte INTEGER TZERO73 = 2147483648 / offset for unsigned integers TUNIT73 = 's ' / physical unit of field TTYPE74 = 'FOMOTPASTOBSS' / Current Observed Target Past Observed Secs TFORM74 = '1J ' / data format of field: 4-byte INTEGER TZERO74 = 2147483648 / offset for unsigned integers TUNIT74 = 's ' / physical unit of field TTYPE75 = 'FOMOTLASTOBST' / Current Observed Target Last Obs Time (in TIME4TFORM75 = '1J ' / data format of field: 4-byte INTEGER TZERO75 = 2147483648 / offset for unsigned integers TSCAL75 = 1 / data are not scaled TUNIT75 = 's ' / physical unit of field TTYPE76 = 'FOMOTLASTOBSS' / Current Observed Target Last Obs Time (in U1234TFORM76 = '1J ' / data format of field: 4-byte INTEGER TZERO76 = 2147483648 / offset for unsigned integers TUNIT76 = 's ' / physical unit of field TTYPE77 = 'FOMAISLEWSTATE' / ACS Info Slew State TFORM77 = '1B ' / data format of field: BYTE TTYPE78 = 'FOMACSINSAA' / ACS Info In SAA Flag TFORM78 = '1B ' / data format of field: BYTE TTYPE79 = 'FOMLASTSIRCODE' / Last Slew Info Reply Reply Code TFORM79 = '1B ' / data format of field: BYTE TTYPE80 = 'FOMLASTSRRCODE' / Last Slew Request Reply Reply Code TFORM80 = '1B ' / data format of field: BYTE TTYPE81 = 'FOMPPTREQCNT' / FOM PPT Request Count TFORM81 = '1B ' / data format of field: BYTE TTYPE82 = 'FOMATUPDCNT' / FOM AT Update Count TFORM82 = '1B ' / data format of field: BYTE TTYPE83 = 'FOMGRBREQCNT' / GRB Request Count TFORM83 = '1B ' / data format of field: BYTE TTYPE84 = 'FOMTOOREQCNT' / TOO Request Count TFORM84 = '1B ' / data format of field: BYTE TTYPE85 = 'BPWRESPVERIFY' / PW count of Cmd Responses that Verified SuccessTFORM85 = '1I ' / data format of field: 2-byte INTEGER TZERO85 = 32768 / offset for unsigned integers TTYPE86 = 'BPWRESPFAILED' / PW count of Cmd Responses that Failed VerificatTFORM86 = '1I ' / data format of field: 2-byte INTEGER TZERO86 = 32768 / offset for unsigned integers TTYPE87 = 'BPWRESPTIMEOUT' / PW count of Cmd Responses that TimedOut TFORM87 = '1I ' / data format of field: 2-byte INTEGER TZERO87 = 32768 / offset for unsigned integers TTYPE88 = 'BPWHKCMDSENT' / PW count of HK Cmds sent to PCB TFORM88 = '1I ' / data format of field: 2-byte INTEGER TZERO88 = 32768 / offset for unsigned integers TTYPE89 = 'BPWDIAGCMDSENT' / PW count of Diag Cmds sent to PCB TFORM89 = '1I ' / data format of field: 2-byte INTEGER TZERO89 = 32768 / offset for unsigned integers TTYPE90 = 'BPWOTHERCMDSENT' / PW count of anything other than HK or Diag CmdsTFORM90 = '1I ' / data format of field: 2-byte INTEGER TZERO90 = 32768 / offset for unsigned integers TTYPE91 = 'BPWHKRESPRCVD' / PW count of HK packet Responses Received TFORM91 = '1I ' / data format of field: 2-byte INTEGER TZERO91 = 32768 / offset for unsigned integers TTYPE92 = 'BPWDIAGRESPRCVD' / PW count of Diagnostic Packet Responses ReceiveTFORM92 = '1I ' / data format of field: 2-byte INTEGER TZERO92 = 32768 / offset for unsigned integers TTYPE93 = 'BPWSTATRESPRCVD' / PW count of Status packet Responses Received TFORM93 = '1I ' / data format of field: 2-byte INTEGER TZERO93 = 32768 / offset for unsigned integers TTYPE94 = 'BPWSTATPKTTOGND' / PW Flag as to whether Status Pkt comes to the GTFORM94 = '1B ' / data format of field: BYTE TTYPE95 = 'BPWEVENTSDISPLD' / PW Flag as to whether Timeout Events get displaTFORM95 = '1B ' / data format of field: BYTE TTYPE96 = 'BIHFAILCOUNT' / IH failure count (total number of failurs sinceTFORM96 = '1J ' / data format of field: 4-byte INTEGER TZERO96 = 2147483648 / offset for unsigned integers TTYPE97 = 'BIHTLMFAIL' / IH last telemetry point row failure TFORM97 = '1I ' / data format of field: 2-byte INTEGER TZERO97 = 32768 / offset for unsigned integers TTYPE98 = 'BIHBCDHFAIL' / IH last BCDH column failure TFORM98 = '1I ' / data format of field: 2-byte INTEGER TZERO98 = 32768 / offset for unsigned integers TTYPE99 = 'BIHCHECKRATE' / IH check rate (seconds) TFORM99 = '1I ' / data format of field: 2-byte INTEGER TZERO99 = 32768 / offset for unsigned integers TTYPE100= 'BIHFAILRATE' / IH failure rate (samples) TFORM100= '1I ' / data format of field: 2-byte INTEGER TZERO100= 32768 / offset for unsigned integers TTYPE101= 'BIHTASKCFG' / IH task configuration (1 - enabled, 0 - disableTFORM101= '1J ' / data format of field: 4-byte INTEGER TZERO101= 2147483648 / offset for unsigned integers TTYPE102= 'BDIHKDATAMET' / Data MET time, U1234 format TFORM102= '1J ' / data format of field: 4-byte INTEGER TUNIT102= 's ' / physical unit of field TTYPE103= 'BDIHKLAG' / How far DI is lagging, TFORM103= '1I ' / data format of field: 2-byte INTEGER TZERO103= 32768 / offset for unsigned integers TTYPE104= 'BDIHKNFAULTS' / Number of data/software faults found TFORM104= '1B ' / data format of field: BYTE TTYPE105= 'BDIHKLASTFAULT' / Identity of last fault TFORM105= '1B ' / data format of field: BYTE TTYPE106= 'BDIHKBLKRATE' TFORM106= '1I ' / data format of field: 2-byte INTEGER TZERO106= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL106= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT106= 'count ' / physical unit of field TTYPE107= 'BDIHKBLKRATE64S' TFORM107= '1I ' / data format of field: 2-byte INTEGER TZERO107= 524288 / data offset (32k shift BDICONVTIMES16 conversioTSCAL107= 16 / data scaling (BDICONVTIMES16 conversion) TUNIT107= 'count ' / physical unit of field TTYPE108= 'BDIHKNGOODDETS' / Number of detectors functioning TFORM108= '1I ' / data format of field: 2-byte INTEGER TZERO108= 32768 / offset for unsigned integers TTYPE109= 'BDIHKBCDHVER' / Count of BCDH command verifies TFORM109= '1I ' / data format of field: 2-byte INTEGER TZERO109= 32768 / offset for unsigned integers TTYPE110= 'BDIHKDMVER' / Count of DM command verifies TFORM110= '1I ' / data format of field: 2-byte INTEGER TZERO110= 32768 / offset for unsigned integers TTYPE111= 'BDIHKBCDHEXC' / Count of BCDH command exceptions TFORM111= '1I ' / data format of field: 2-byte INTEGER TZERO111= 32768 / offset for unsigned integers TTYPE112= 'BDIHKDMEXC' / Count of DM command exceptions TFORM112= '1I ' / data format of field: 2-byte INTEGER TZERO112= 32768 / offset for unsigned integers TTYPE113= 'BDIHKDMPARITY' / Count of DM parity errors TFORM113= '1I ' / data format of field: 2-byte INTEGER TZERO113= 32768 / offset for unsigned integers TTYPE114= 'BDIHKDMALARMS' / Count of DM alarms TFORM114= '1I ' / data format of field: 2-byte INTEGER TZERO114= 32768 / offset for unsigned integers TTYPE115= 'BDIHKMICERRORS' / Count of MIC errors TFORM115= '1I ' / data format of field: 2-byte INTEGER TZERO115= 32768 / offset for unsigned integers TTYPE116= 'BDIHKTIMELAG' / How far DI is lagging, seconds TFORM116= '1I ' / data format of field: 2-byte INTEGER TZERO116= 32768 / offset for unsigned integers TUNIT116= 's ' / physical unit of field TTYPE117= 'BDIHKGRBFOLLOW' / Is DI doing a GRB follow-up TFORM117= '1B ' / data format of field: BYTE TTYPE118= 'BDIHKFORCEINVAL' / Is data forced to be invalid? TFORM118= '1B ' / data format of field: BYTE TTYPE119= 'BDIHKSLEWING' / Is DI in slew mode TFORM119= '1B ' / data format of field: BYTE TTYPE120= 'BDIHKSAA' / Is DI in SAA mode TFORM120= '1B ' / data format of field: BYTE TTYPE121= 'BDIHKVALID' / Is DI producing valid data TFORM121= '1B ' / data format of field: BYTE TTYPE122= 'BDIHKTRIGGERABLE' / Is DI producing triggerable data TFORM122= '1B ' / data format of field: BYTE TTYPE123= 'BDIHKDAPSAA' / Is DAP believed to be in SAA state? TFORM123= '1B ' / data format of field: BYTE TTYPE124= 'BDIHKUVOTFILTMV' / Is UVOT filter moving? TFORM124= '1B ' / data format of field: BYTE TTYPE125= 'undocumented4' / Byte field not in ITOS database TFORM125= '1B ' / data format of field: BYTE TTYPE126= 'BBRHKTRIGTIME42' / BR HK trigger time (time42) TFORM126= '1D ' / data format of field: 8-byte DOUBLE TUNIT126= 's ' / physical unit of field TTYPE127= 'undocumented5' / Byte field not in ITOS database TFORM127= '1I ' / data format of field: 2-byte INTEGER TZERO127= 32768 / offset for unsigned integers TTYPE128= 'BBRHKTRIGDUR' / BR HK trigger duration TFORM128= '1J ' / data format of field: 4-byte INTEGER TZERO128= 8590065.664 / data offset (2G shift B_BR_4MS_A conversion) TSCAL128= 0.004 / data scaling (B_BR_4MS_A conversion) TTYPE129= 'BBRHKSOURCETYPE' / BR HK source type TFORM129= '1B ' / data format of field: BYTE TTYPE130= 'BBRHKTHETA' / BR HK burst/transient location in radial coord.TFORM130= '1E ' / data format of field: 4-byte REAL TUNIT130= 'rad ' / physical unit of field TTYPE131= 'BBRHKPHI' / BR HK burst/transient location in azimuthal cooTFORM131= '1E ' / data format of field: 4-byte REAL TUNIT131= 'rad ' / physical unit of field TTYPE132= 'BBRHKSTRENGTH' / BR HK burst/transient strength in image units TFORM132= '1E ' / data format of field: 4-byte REAL TTYPE133= 'BBRHKLOCSIGMA' / BR HK burst/transient rms near src location TFORM133= '1E ' / data format of field: 4-byte REAL TTYPE134= 'BBRHKCATNUM' / BR HK burst/transient catalog number of src (-1TFORM134= '1I ' / data format of field: 2-byte INTEGER TZERO134= 32768 / offset for unsigned integers TTYPE135= 'BBRHKTECHNIQUE' / BR HK burst/transient technique to get the src TFORM135= '1I ' / data format of field: 2-byte INTEGER TZERO135= 32768 / offset for unsigned integers TTYPE136= 'BBRHKINTRSGSTR' / BR HK burst/transient source brightness for intTFORM136= '1E ' / data format of field: 4-byte REAL TTYPE137= 'BBRHKRARAD' / BR HK R.A. in radians TFORM137= '1E ' / data format of field: 4-byte REAL TUNIT137= 'rad ' / physical unit of field TTYPE138= 'BBRHKDECRAD' / BR HK Declination in radians TFORM138= '1E ' / data format of field: 4-byte REAL TUNIT138= 'rad ' / physical unit of field TTYPE139= 'BBRHKFBURST' / BR HK burst flag TFORM139= '1B ' / data format of field: BYTE TTYPE140= 'BBRHKFINTERSTING' / BR HK interesting flag TFORM140= '1B ' / data format of field: BYTE TTYPE141= 'BBRHKFIMAGETRIG' / BR HK image trigger flag TFORM141= '1B ' / data format of field: BYTE TTYPE142= 'BBRHKFCONTINUOUS' / BR HK continuous observation flag TFORM142= '1B ' / data format of field: BYTE TTYPE143= 'BBRHKERANGE' / BR HK Trigger energy TFORM143= '1B ' / data format of field: BYTE TTYPE144= 'BBRHKFINRATETRIG' / BR HK processing new rate trigger TFORM144= '1B ' / data format of field: BYTE TTYPE145= 'BBRHKTIMESINCE' / BR HK time since trigger TFORM145= '1J ' / data format of field: 4-byte INTEGER TZERO145= 2147483648 / offset for unsigned integers TTYPE146= 'BBRHKMERIT0' / BR HK Merit item 0 TFORM146= '1I ' / data format of field: 2-byte INTEGER TTYPE147= 'BBRHKMERIT1' / BR HK Merit item 1 TFORM147= '1I ' / data format of field: 2-byte INTEGER TTYPE148= 'BBRHKMERIT2' / BR HK Merit item 2 TFORM148= '1I ' / data format of field: 2-byte INTEGER TTYPE149= 'BBRHKMERIT3' / BR HK Merit item 3 TFORM149= '1I ' / data format of field: 2-byte INTEGER TTYPE150= 'BBRHKMERIT4' / BR HK Merit item 4 TFORM150= '1I ' / data format of field: 2-byte INTEGER TTYPE151= 'BBRHKMERIT5' / BR HK Merit item 5 TFORM151= '1I ' / data format of field: 2-byte INTEGER TTYPE152= 'BBRHKMERIT6' / BR HK Merit item 6 TFORM152= '1I ' / data format of field: 2-byte INTEGER TTYPE153= 'BBRHKMERIT7' / BR HK Merit item 7 TFORM153= '1I ' / data format of field: 2-byte INTEGER TTYPE154= 'BBRHKMERIT8' / BR HK Merit item 8 TFORM154= '1I ' / data format of field: 2-byte INTEGER TTYPE155= 'BBRHKMERIT9' / BR HK Merit item 9 TFORM155= '1I ' / data format of field: 2-byte INTEGER TTYPE156= 'undocumented6' / Byte field not in ITOS database TFORM156= '1I ' / data format of field: 2-byte INTEGER TZERO156= 32768 / offset for unsigned integers TTYPE157= 'BBRHKTRIGNUM' / BR HK trigger number TFORM157= '1J ' / data format of field: 4-byte INTEGER TZERO157= 2147483648 / offset for unsigned integers TTYPE158= 'BBRHKTRYINGTRIG' / BR HK triggers tried since TFORM158= '1J ' / data format of field: 4-byte INTEGER TZERO158= 2147483648 / offset for unsigned integers TTYPE159= 'BBRHKTRYINGMET' / BR HK triggers tried at MET TFORM159= '1J ' / data format of field: 4-byte INTEGER TZERO159= 2147483648 / offset for unsigned integers TUNIT159= 's ' / physical unit of field TTYPE160= 'BCAHKLASTOFFMET' / Last Offset time, U1234 format TFORM160= '1J ' / data format of field: 4-byte INTEGER TTYPE161= 'BCAHKLASTGAINMET' / Last Gain time, U1234 format TFORM161= '1J ' / data format of field: 4-byte INTEGER TTYPE162= 'BCAHKLASTOINDEX' / Last Offset Index TFORM162= '1I ' / data format of field: 2-byte INTEGER TZERO162= 32768 / offset for unsigned integers TTYPE163= 'BCAHKLASTGINDEX' / Last Gain Index TFORM163= '1I ' / data format of field: 2-byte INTEGER TZERO163= 32768 / offset for unsigned integers TTYPE164= 'BCAHKDOINGBLK' / Which block are we currently calibrating TFORM164= '1I ' / data format of field: 2-byte INTEGER TTYPE165= 'undocumented7' / Byte field not in ITOS database TFORM165= '1I ' / data format of field: 2-byte INTEGER TZERO165= 32768 / offset for unsigned integers TTYPE166= 'BTGHKTYPE' / Trigger Status Type TFORM166= '1I ' / data format of field: 2-byte INTEGER TZERO166= 32768 / offset for unsigned integers TTYPE167= 'BTGHKAFTERBURN' / Trigger afterburners running TFORM167= '1I ' / data format of field: 2-byte INTEGER TZERO167= 32768 / offset for unsigned integers TTYPE168= 'BTGHKSCORE' / Trigger Status Score TFORM168= '1E ' / data format of field: 4-byte REAL TTYPE169= 'BTGHKTRIGID' / Trigger Status Trigger ID TFORM169= '1J ' / data format of field: 4-byte INTEGER TZERO169= 2147483648 / offset for unsigned integers TTYPE170= 'BTGHKTRIGEXPTICK' / Trigger Status Trigger Expire, tTICK TFORM170= '1J ' / data format of field: 4-byte INTEGER TZERO170= 2147483648 / offset for unsigned integers TTYPE171= 'BTGHKBESTSCORE' / Trigger Status best trigger strength TFORM171= '1E ' / data format of field: 4-byte REAL TTYPE172= 'BTGHKRATCHET' / Trigger Status number of trigger ratchets TFORM172= '1J ' / data format of field: 4-byte INTEGER TZERO172= 2147483648 / offset for unsigned integers TTYPE173= 'BTGHKNEW' / Trigger Status new trigger found TFORM173= '1J ' / data format of field: 4-byte INTEGER TZERO173= 2147483648 / offset for unsigned integers TTYPE174= 'BTGHKLEVALPER8' / Long trigger evaluations/8 seconds TFORM174= '1I ' / data format of field: 2-byte INTEGER TZERO174= 32768 / offset for unsigned integers TTYPE175= 'BTGHKDITGCPU' / CPU usage by DI+TG TFORM175= '1I ' / data format of field: 2-byte INTEGER TZERO175= 327.68 / data offset (32k shift B_TG_PERCENT conversion)TSCAL175= 0.01 / data scaling (B_TG_PERCENT conversion) TTYPE176= 'BTGHKNTHROTTLED' / Trigger criteria throttled for CPU usage TFORM176= '1I ' / data format of field: 2-byte INTEGER TTYPE177= 'BTGHKVETONUM' / What source catnum is being vetoed TFORM177= '1I ' / data format of field: 2-byte INTEGER TZERO177= 32768 / offset for unsigned integers TTYPE178= 'BPDBCBWRITE' / Circular buffer write index TFORM178= '1J ' / data format of field: 4-byte INTEGER TZERO178= 2147483648 / offset for unsigned integers TTYPE179= 'BPDBCBVALID' / Circular buffer valid length TFORM179= '1J ' / data format of field: 4-byte INTEGER TZERO179= 2147483648 / offset for unsigned integers TTYPE180= 'BPDBCBREAD' / Circular buffer read index TFORM180= '1J ' / data format of field: 4-byte INTEGER TZERO180= 2147483648 / offset for unsigned integers TTYPE181= 'BPDBCBWRLAP' / Circular buffer write wrap count TFORM181= '1I ' / data format of field: 2-byte INTEGER TZERO181= 32768 / offset for unsigned integers TTYPE182= 'BPDBCBRDLAP' / Circular buffer read wrap count TFORM182= '1I ' / data format of field: 2-byte INTEGER TZERO182= 32768 / offset for unsigned integers TTYPE183= 'BPDMICAVGRATE' / MIC input data rate - avg bytes per sec TFORM183= '1J ' / data format of field: 4-byte INTEGER TZERO183= 2147483648 / offset for unsigned integers TUNIT183= 'byte/s ' / physical unit of field TTYPE184= 'BPDBCDHCMDCNT' / BCDH command count TFORM184= '1I ' / data format of field: 2-byte INTEGER TZERO184= 32768 / offset for unsigned integers TTYPE185= 'BPDBCDHERRCNT' / BCDH command error count TFORM185= '1I ' / data format of field: 2-byte INTEGER TZERO185= 32768 / offset for unsigned integers TTYPE186= 'BPDMICCMDCNT' / MIC command count TFORM186= '1B ' / data format of field: BYTE TTYPE187= 'BPDMICERRCNT' / not used in software ver 4.1 TFORM187= '1B ' / data format of field: BYTE TTYPE188= 'BPDMICFPGAERR' / Command buffer FPGA lockup count TFORM188= '1B ' / data format of field: BYTE TTYPE189= 'BPDDSPMTHCNT' / DSP interface method count TFORM189= '1B ' / data format of field: BYTE TTYPE190= 'BPDDSPERRCNT' / DSP interface total errors TFORM190= '1B ' / data format of field: BYTE TTYPE191= 'BPDDSPCMDCNT' / DSP interface commands sent TFORM191= '1B ' / data format of field: BYTE TTYPE192= 'BPDDSPTSKCNT' / DSP interface hipri task count TFORM192= '1B ' / data format of field: BYTE TTYPE193= 'BPDDSPERRTLM' / DSP interface response length errs TFORM193= '1B ' / data format of field: BYTE TTYPE194= 'BDEREQRCVCNT' / DSP Request Received Count TFORM194= '1B ' / data format of field: BYTE TTYPE195= 'BDEREQERRCNT' / DSP Request Error Count TFORM195= '1B ' / data format of field: BYTE TTYPE196= 'BDEHALTCNT' / DSP Count of halts received TFORM196= '1B ' / data format of field: BYTE TTYPE197= 'BDERCVINTCNT' / DSP Count of Received Interrupts TFORM197= '1B ' / data format of field: BYTE TTYPE198= 'BDEXSERRSEG' / DSP Checksum Error Index TFORM198= '1B ' / data format of field: BYTE TTYPE199= 'BDEXSERRCNT' / DSP Total Count of Checksum Errors TFORM199= '1B ' / data format of field: BYTE TTYPE200= 'BDEXSCYCLES' / DSP Spare0 for Science Code TFORM200= '1B ' / data format of field: BYTE TTYPE201= 'BDETXINTCNT' / DSP Spare0 for Science Code TFORM201= '1B ' / data format of field: BYTE TTYPE202= 'BDEPKTERRCNT' / DSP transmit packet error count TFORM202= '1B ' / data format of field: BYTE TTYPE203= 'BDEPKTERRTYP' / DSP transmit packet last error type TFORM203= '1B ' / data format of field: BYTE TTYPE204= 'BDECONTROLFLG' / DSP Current Control flag set by dsp object TFORM204= '1B ' / data format of field: BYTE TTYPE205= 'BDEACTIVITYFLG' / DSP Current Activity flag set by the dsp TFORM205= '1B ' / data format of field: BYTE TTYPE206= 'BDExx32x1' / DSP board science ??? status TFORM206= '1J ' / data format of field: 4-byte INTEGER TZERO206= 2147483648 / offset for unsigned integers TTYPE207= 'BDExx32x2' / DSP board science ??? status TFORM207= '1J ' / data format of field: 4-byte INTEGER TZERO207= 2147483648 / offset for unsigned integers TTYPE208= 'BDExx32x3' / DSP board science ??? status TFORM208= '1J ' / data format of field: 4-byte INTEGER TZERO208= 2147483648 / offset for unsigned integers TTYPE209= 'BDExx32x4' / DSP board science ??? status TFORM209= '1J ' / data format of field: 4-byte INTEGER TZERO209= 2147483648 / offset for unsigned integers EXTNAME = 'hk18fx001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287675565.90234 TSTOP = 287681565.90234 DATE-OBS= '2010-02-12T13:52:44' DATE-END= '2010-02-12T15:32:44' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52366000000000 / [s] UTCF at TSTART TELAPSE = 6000. TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 399 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'K8fDL5ZAK5dAK5ZA' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '1728931274' / data unit checksum updated 2010-02-18T17:05:22 TRDHI4 = 2 / BXCPKTSERRSCCNT Red upper limit = BXC_PKTERRSC_TYEHI4 = 1 / BXCPKTSERRSCCNT Yellow upper limit = BXC_PKTERRCOMMENT Column 6 = BXCREJECTREASON - Discrete value COMMENT 0 = NO ERROR = No error to report yet COMMENT 1 = SB SEND ERROR = The software bus reported an error on the cmd pkCOMMENT 2 = PKT TOO LONG = The cmd pkt's checksum didn't match the pkt data COMMENT 3 = BAD PKT XSUM = The cmd pkt's checksum didn't match the pkt data COMMENT 4 = TOO MANY SEGMENTS = Too many segment reconstructions in progressCOMMENT 5 = SEGMENT TOO LONG = Segmentation length error - reconstructed pacCOMMENT 6 = SEGMENT SEQ ERROR = Segmentation sequence count error - not in oCOMMENT 7 = SEGMENT APID ERR = Segmentation apid error - apid not in progresCOMMENT 8 = ODD PKT LENGTH = Segmentation apid error - apid not in progress TRDLO16 = 10000 / BFMTEMPSPACE Red lower limit = BTEMPSPACE_LIM TRDHI16 = 1000000 / BFMTEMPSPACE Red upper limit = BTEMPSPACE_LIM TYELO16 = 60000 / BFMTEMPSPACE Yellow lower limit = BTEMPSPACE_LITYEHI16 = 900000 / BFMTEMPSPACE Yellow upper limit = BTEMPSPACE_LICOMMENT Column 18 = BSHPRIMCLK - Discrete value COMMENT 0 = UNDEFINED = System Clock is undefined COMMENT 1 = S/C TIME MSG = System Clock is Time Message from S/C COMMENT 2 = S/C 1PPS = System Clock is S/C one hertz hardware COMMENT 3 = BAT 1PPS = System Clock is BAT one hertz hardware COMMENT 4 = VXWORKS = System Clock is vxWorks clock ( PowerPC ) COMMENT 5 = R6K PIT = System Clock is Processor's PIT timer COMMENT 6 = CYGWIN = System Clock is cygwin clock ( PowerPC ) COMMENT 7 = LINUX = System Clock is Linux clock ( PowerPC ) COMMENT 8 = DEBUG = System Clock is debug clock ( PowerPC ) COMMENT 9-255 = UNDEFINED = System Clock is undefined COMMENT Column 24 = BSHPULSE - Discrete value COMMENT 0 = UNDEFINED = 1 PPS Pulse is undefined COMMENT 1 = PRIMARY EXTERNAL = 1 PPS Pulse is primary external COMMENT 2 = REDUNDANT EXTERNAL = 1 PPS Pulse is redundant external COMMENT 4 = MIC INTERNAL = 1 PPS Pulse is MIC internal TRDHI24 = 4 / BSHPULSE Red upper limit = B_SHPULSE_LIM TYEHI24 = 3 / BSHPULSE Yellow upper limit = B_SHPULSE_LIM TRDHI27 = 2 / BMSCSBERRORS Red upper limit = BMS_SBERR_LIM TYEHI27 = 1 / BMSCSBERRORS Yellow upper limit = BMS_SBERR_LIMTRDHI28 = 2 / BMSCMBERRORS Red upper limit = BMS_MBERR_LIM TYEHI28 = 1 / BMSCMBERRORS Yellow upper limit = BMS_MBERR_LIMCOMMENT Column 35 = BMSLIORESETREG - Discrete value COMMENT 0 = LIO POWER ON RESET = Power Cycle Reset COMMENT 2048 = LIO CRITICAL RESET = Critical Reset COMMENT 2304 = LIO CRITICAL ERROR = Critical Error COMMENT 2560 = LIO PAS ERROR = Pas Reset COMMENT 2816 = LIO CHECKSTOP ERROR = Checkstop Error COMMENT 3072 = LIO PCI BRIDGE ERROR = PCI Bridge Error COMMENT 3328 = LIO WATCHDOG ERROR = Watchdog Error COMMENT 3584 = LIO SELFTEST ERROR = SelfTest error COMMENT Column 37 = BTMCURRMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 38 = BTMPREVMODE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 45 = BTMLLOGPRVMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 46 = BTMLLOGNEWMOD - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = OFF = no description COMMENT 2 = BOOT = no description COMMENT 3 = NORM = no description COMMENT 4-255 = UNDEFINED = no description COMMENT Column 47 = BTMLRESETTYPE - Discrete value COMMENT 0 = UNDEFINED = no description COMMENT 1 = BOARD = no description COMMENT 2 = WARM = no description COMMENT 3 = COLD = no description COMMENT 4 = BOOT = no description COMMENT 5 = NORM = no description COMMENT 6 = ASYNC = no description COMMENT 7-255 = UNDEFINED = no description COMMENT Column 49 = BTMLLOGEVENT - Discrete value COMMENT 250 = Ground Command Lockout Mode Entered = no description COMMENT 251 = Command Frame Rejected (reason,frame data) = no description COMMENT 252 = Command Codeblock Hardware Sync Error = no description COMMENT 253 = Codeblock Continuity Loss Detected (HW status) = no descriptioCOMMENT 254 = SIU Hardware Command Detected (command #) = no description COMMENT 949 = Invalid BR Source Catalog entry = no description COMMENT 1041 = BCDH Parity error (packet, block#, met,t10ms) = no descriptioCOMMENT 1042 = BCDH DM Command Exception (packet, block#, met,t10ms) = no deCOMMENT 1043 = BCDH Command Exception (packet, block#, met,t10ms) = no descrCOMMENT 1044 = BCDH Alarm (latchup ? 0x167 : 0x67, block#, met,t10ms) = no dCOMMENT 1045 = DM Alarm (packet, block#, met,t10ms) = no description COMMENT 1046 = MIC error (packet, block#, met,t10ms) = no description COMMENT 1047 = ADC latchup ((block# << 4) + hdm#,met,100usTime,latchcount) =COMMENT 1048 = Bad DMA (packet, block#, met,t10ms) = no description COMMENT 1049 = XA1 Last latchup ((block# << 4) + hdm#,met,100usTime,latchcouCOMMENT 1150 = File Manager Operation Successful = no description COMMENT 1151 = Open Source File Error = no description COMMENT 1152 = Open Destination File Error = no description COMMENT 1153 = Create Directory Error = no description COMMENT 1154 = Delete Directory Error = no description COMMENT 1155 = Delete File Error = no description COMMENT 1156 = List Directory Error = no description COMMENT 1157 = Device Already Exists = no description COMMENT 1158 = Device Doesn't Exist = no description COMMENT 1159 = Invalid File Open Mode = no description COMMENT 1160 = Open File Error = no description COMMENT 1161 = Close File Error = no description COMMENT 1162 = Link Count Not Zero = no description COMMENT 1163 = Attach Monitor Error = no description COMMENT 1164 = Detach Monitor Error = no description COMMENT 1165 = Wipe Link Device Error = no description COMMENT 1166 = Disk Device Invalid = no description COMMENT 1167 = Get File Attributes Error = no description COMMENT 1168 = Set File Attributes Error = no description COMMENT 1169 = Device List Full = no description COMMENT 1170 = Read File Error = no description COMMENT 1171 = Write File Error = no description COMMENT 1172 = Rename File Error = no description COMMENT 1173 = Net Disk Not Found = no description COMMENT 1174 = Wipe Net Disk Error = no description COMMENT 1175 = Net Disk Data Unavailable = no description COMMENT 1176 = Ram Disk Open Error = no description COMMENT 1177 = Ram Disk Get Free Space Error = no description COMMENT 1178 = Ram Device Create Error = no description COMMENT 1179 = DOS File System Device Init Error = no description COMMENT 1180 = Make DOS File System Error = no description COMMENT 1181 = Ram Disk Device Find Error = no description COMMENT 1182 = Ram Disk Malloc Error = no description COMMENT 1183 = DOS File System Doesn't Exist = no description COMMENT 1184 = DOS File System Didn't Exist = no description COMMENT 1185 = Invalid Ram Disk Create Mode = no description COMMENT 1186 = Directory List Full = no description COMMENT 1187 = Source and Destination Reference Same File = no description COMMENT 1188 = Specified Size for RAM Disk Too Small = no description COMMENT 1189 = Invalid FileName Parameter Specified = no description COMMENT 1190 = Invalid Directory Parameter Specified = no description COMMENT 1191 = Invalid Hub Parameter Specified = no description COMMENT 1192 = Invalid Device Parameter Specified = no description COMMENT 1193 = Invalid File Queue Specified = no description COMMENT 1194 = Invalid File Priority Specified = no description COMMENT 1195 = File Already Opened by Another User = no description COMMENT 1196 = Missing File Uplink Packet (Expected offset,Offset received) COMMENT 1500 = Bad Request SI Reply Code (Obs#) = no description COMMENT 1501 = Out of Range SI Reply Code (Obs#, ReplyCode) = no descriptioCOMMENT 1502 = SI Reply Time Out (ReplyObs#) = no description COMMENT 1503 = Bad SI Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1504 = Unrequested slew info reply (ReplyObs#) = no description COMMENT 1505 = Not Expecting slew info reply (ReplyObs#) = no description COMMENT 1506 = TOO Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1507 = GRB Req REJECTED - Max Obs Time Limit Exceeded (Obs#, TotObsSCOMMENT 1508 = Bad Request Slew Req Reply Code (Obs#) = no description COMMENT 1509 = Out of Range SR Reply Code (Obs#, ReplyCode) = no descriptionCOMMENT 1510 = SR Reply Time Out (ReqObs#) = no description COMMENT 1511 = SR Slew Start Time Out (ReqObs#) = no description COMMENT 1512 = SR Slew Settled Time Out (ReqObs#) = no description COMMENT 1514 = Bad SR Reply ObsNum (ReqObs#, ReplyObs#) = no description COMMENT 1515 = Unrequested slew request reply (ReplyObs#) = no descriptionCOMMENT 1516 = Not Expecting slew req reply (ReplyObs#) = no description COMMENT 1518 = Bad GRB Merit Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1519 = Bad GRB Merit Upd TargType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1520 = Bad Xrt Pos Upd ObsNum (ReqObs#, FomAT) = no description COMMENT 1521 = Bad XRT Pos Upd TargetType (ObsNum, TargType 0GRB 1TOO 2PPT) COMMENT 1522 = Bad Set Slew Mode Value (0Disa, 1Ena) = no description COMMENT 1523 = Bad Set AT Mode Value (0Disa, 1Ena) = no description COMMENT 1524 = Bad Set PPT Mode Value (0Disa, 1Ena) = no description COMMENT 1525 = Out of View PPT SI Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1526 = Out of View PPT SR Reply (Obs#, ReplyCode, WaitSecs) = no dCOMMENT 1527 = PPT Target View Constraint (Obs#) = no description COMMENT 1528 = Slew Abort (Obs#) = no description COMMENT 1529 = Updated SI Reply Roll (Obs#) = no description COMMENT 1530 = Updated SR Reply Roll (Obs#) = no description COMMENT 1531 = Unexpected Merit Update - no FomAT (ReqObs#) = no descriptioCOMMENT 1532 = Unexpected XRT Position Upd - no FomAT (ReqObs#) = no descriCOMMENT 1533 = Bad Merit Update Inst (ReqObs#, Inst 0bat 1xrt 2uvot) = no dCOMMENT 1534 = Unexpected ACS settled msg - no FomCurrTarget (AcsMsgObs#) = COMMENT 1535 = Bad ACS Settled msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1536 = Warning - SC is pting to SC initiated target (AcsMsgObs#) = COMMENT 1537 = SC is pting to SafePoint target (AcsMsgObs#) = no descriptiCOMMENT 1538 = GRB Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1539 = TOO Max Obs Time Limit Exceeded - will abort (Obs#, TotObsSecCOMMENT 1540 = Unexpected ACS Slewing msg target - no FomCurrTarget (AcsMsgOCOMMENT 1541 = Bad ACS Slewing msg target (ExpectedObs#, ACSyObs#) = no dCOMMENT 1542 = Bad PPT Request Position value - REJECTED (Obs#) = no descrCOMMENT 1543 = Bad TOO Request Position value - REJECTED (Obs#) = no descriCOMMENT 1544 = Bad GRB Request Position value - REJECTED (Obs#) = no descriCOMMENT 1545 = Bad XRT Position Update Request Position value - REJECTED (OCOMMENT 1546 = Unexpected Slew Req Reply Timeout - no Slews Requested = no COMMENT 1547 = Unexpected Slew Start Timeout - no Slews Requested = no descCOMMENT 1548 = Unexpected Slew End Timeout - no Slews Requested = no descriCOMMENT 1549 = Unexpected Slew Inq Reply Timeout - no Inquiries Requested =COMMENT 350 = Too Much HK Data Received from Software Task (SID, Actual, ExpCOMMENT 351 = Critical Task Not Responding (ApId, Slot#) = no description COMMENT 352 = Required Task Not Responding (ApId, Slot#) = no description COMMENT 353 = Nothing Happens = no description COMMENT 354 = Bad Output ApId received from scheduler (ApId) = no descriptiCOMMENT 355 = Bad Criticality level in HK pkt defn table (level) = no descriCOMMENT 358 = Number of slots exceeded in packet table (apid) = no descriptiCOMMENT 359 = Number of slots exceeded in memory table (apid) = no descriptiCOMMENT 360 = Linked list is full for packet table (apid) = no description COMMENT 361 = Linked list is full for memory table (apid) = no description COMMENT 362 = Commanded packet output packet has invalid apid (apid) = no deCOMMENT 363 = Commanded memory output packet has invalid apid (apid) = no deCOMMENT 364 = Output apid failed validation for packet table (apid) = no desCOMMENT 365 = Output apid failed validation for memory table (apid) = no desCOMMENT 366 = Invalid packet output packet found during init (apid) = no desCOMMENT 367 = Invalid memory output packet found during init (apid) = no desCOMMENT 368 = Received packet with invalid apid (apid) = no description COMMENT 369 = Invalid apid for adding section found for packet output (apid)COMMENT 370 = Input apid failed validation for packet table (apid) = no descCOMMENT 375 = BR Task Not Responding (ApId, Slot#) = no description COMMENT 376 = CA Task Not Responding (ApId, Slot#) = no description COMMENT 377 = CI Task Not Responding (ApId, Slot#) = no description COMMENT 378 = CS Task Not Responding (ApId, Slot#) = no description COMMENT 379 = DI Task Not Responding (ApId, Slot#) = no description COMMENT 380 = DM Task Not Responding (ApId, Slot#) = no description COMMENT 381 = FM Task Not Responding (ApId, Slot#) = no description COMMENT 382 = FO Task Not Responding (ApId, Slot#) = no description COMMENT 383 = FT Task Not Responding (ApId, Slot#) = no description COMMENT 384 = HK Task Not Responding (ApId, Slot#) = no description COMMENT 385 = IH Task Not Responding (ApId, Slot#) = no description COMMENT 386 = MS Task Not Responding (ApId, Slot#) = no description COMMENT 387 = PD Task Not Responding (ApId, Slot#) = no description COMMENT 388 = PW Task Not Responding (ApId, Slot#) = no description COMMENT 389 = SB Task Not Responding (ApId, Slot#) = no description COMMENT 390 = SC Task Not Responding (ApId, Slot#) = no description COMMENT 391 = SH Task Not Responding (ApId, Slot#) = no description COMMENT 392 = SM Task Not Responding (ApId, Slot#) = no description COMMENT 393 = SP Task Not Responding (ApId, Slot#) = no description COMMENT 394 = ST Task Not Responding (ApId, Slot#) = no description COMMENT 395 = TG Task Not Responding (ApId, Slot#) = no description COMMENT 396 = TO Task Not Responding (ApId, Slot#) = no description COMMENT 397 = TM Task Not Responding (ApId, Slot#) = no description COMMENT 398 = XR Task Not Responding (ApId, Slot#) = no description COMMENT 1600 = Bad APID in table (ApId) = no description COMMENT 1601 = Check Failure = no description COMMENT 1602 = To many checks in a single input packet (ApId) = no descriptiCOMMENT 1625 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1626 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1627 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1628 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1629 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1630 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), yeCOMMENT 1631 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), yellowCOMMENT 1632 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1633 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), yellow lCOMMENT 1634 = Leakage Current Failure, DM 0, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1635 = Leakage Current Failure, DM 0, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1636 = Leakage Current Failure, DM 1, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1637 = Leakage Current Failure, DM 1, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1638 = Leakage Current Failure, DM 2, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1639 = Leakage Current Failure, DM 2, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1640 = Leakage Current Failure, DM 3, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1641 = Leakage Current Failure, DM 3, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1642 = Leakage Current Failure, DM 4, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1643 = Leakage Current Failure, DM 4, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1644 = Leakage Current Failure, DM 5, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1645 = Leakage Current Failure, DM 5, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1646 = Leakage Current Failure, DM 6, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1647 = Leakage Current Failure, DM 6, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1648 = Leakage Current Failure, DM 7, Side A (BCDH,FailVal,LLim,HLimCOMMENT 1649 = Leakage Current Failure, DM 7, Side B (BCDH,FailVal,LLim,HLimCOMMENT 1650 = Failure of Block Converter Input Current (BCDH,FailVal,LLim,HCOMMENT 1651 = Failure of Block Converter Temperature (BCDH,FailVal,LLim,HLiCOMMENT 1652 = Failure of Block Converter +5.0V Digital (BCDH,FailVal,LLim,HCOMMENT 1653 = Failure of Block Converter +3.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1654 = Failure of Block Converter +7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1655 = Failure of Block Converter -7.5V (BCDH,FailVal,LLim,HLim), ReCOMMENT 1656 = Failure of Block Temperature (BCDH,FailVal,LLim,HLim), Red liCOMMENT 1657 = Failure of +2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1658 = Failure of -2.5V from BCDH (BCDH,FailVal,LLim,HLim), Red limiCOMMENT 1659 = Check Failure for Tlm Row 34 (BCDH) = no description COMMENT 1660 = Check Failure for Tlm Row 35 (BCDH) = no description COMMENT 1661 = Check Failure for Tlm Row 36 (BCDH) = no description COMMENT 1662 = Check Failure for Tlm Row 37 (BCDH) = no description COMMENT 1663 = Check Failure for Tlm Row 38 (BCDH) = no description COMMENT 1664 = Check Failure for Tlm Row 39 (BCDH) = no description COMMENT 1665 = Check Failure for Tlm Row 40 (BCDH) = no description COMMENT 1666 = Check Failure for Tlm Row 41 (BCDH) = no description COMMENT 1667 = Check Failure for Tlm Row 42 (BCDH) = no description COMMENT 1668 = Check Failure for Tlm Row 43 (BCDH) = no description COMMENT 1669 = Check Failure for Tlm Row 44 (BCDH) = no description COMMENT 1670 = Check Failure for Tlm Row 45 (BCDH) = no description COMMENT 1671 = Check Failure for Tlm Row 46 (BCDH) = no description COMMENT 1672 = Check Failure for Tlm Row 47 (BCDH) = no description COMMENT 1673 = Check Failure for Tlm Row 48 (BCDH) = no description COMMENT 1674 = Check Failure for Tlm Row 49 (BCDH) = no description COMMENT 1675 = Check Failure for Tlm Row 50 (BCDH) = no description COMMENT 1676 = Check Failure for Tlm Row 51 (BCDH) = no description COMMENT 1677 = Check Failure for Tlm Row 52 (BCDH) = no description COMMENT 1678 = Check Failure for Tlm Row 53 (BCDH) = no description COMMENT 1679 = Check Failure for Tlm Row 54 (BCDH) = no description COMMENT 1680 = Check Failure for Tlm Row 55 (BCDH) = no description COMMENT 1681 = Check Failure for Tlm Row 56 (BCDH) = no description COMMENT 1682 = Check Failure for Tlm Row 57 (BCDH) = no description COMMENT 1683 = Check Failure for Tlm Row 58 (BCDH) = no description COMMENT 1684 = Check Failure for Tlm Row 59 (BCDH) = no description COMMENT 1685 = Check Failure for Tlm Row 60 (BCDH) = no description COMMENT 1686 = Check Failure for Tlm Row 61 (BCDH) = no description COMMENT 1687 = Check Failure for Tlm Row 62 (BCDH) = no description COMMENT 1688 = Check Failure for Tlm Row 63 (BCDH) = no description COMMENT 1689 = Check Failure for Tlm Row 64 (BCDH) = no description COMMENT 1690 = Check Failure for Tlm Row 65 (BCDH) = no description COMMENT 1691 = Check Failure for Tlm Row 66 (BCDH) = no description COMMENT 1692 = Check Failure for Tlm Row 67 (BCDH) = no description COMMENT 1693 = Check Failure for Tlm Row 68 (BCDH) = no description COMMENT 1694 = Check Failure for Tlm Row 69 (BCDH) = no description COMMENT 1695 = Check Failure for Tlm Row 70 (BCDH) = no description COMMENT 1696 = Check Failure for Tlm Row 71 (BCDH) = no description COMMENT 1697 = Check Failure for Tlm Row 72 (BCDH) = no description COMMENT 1698 = Check Failure for Tlm Row 73 (BCDH) = no description COMMENT 1699 = Check Failure for Tlm Row 74 (BCDH) = no description COMMENT 1700 = Check Failure for Tlm Row 75 (BCDH) = no description COMMENT 1701 = Check Failure for Tlm Row 76 (BCDH) = no description COMMENT 1702 = Check Failure for Tlm Row 77 (BCDH) = no description COMMENT 1703 = Check Failure for Tlm Row 78 (BCDH) = no description COMMENT 1704 = Check Failure for Tlm Row 79 (BCDH) = no description COMMENT 1705 = Check Failure for Tlm Row 80 (BCDH) = no description COMMENT 1706 = Check Failure for Tlm Row 81 (BCDH) = no description COMMENT 1707 = Check Failure for Tlm Row 82 (BCDH) = no description COMMENT 1708 = Check Failure for Tlm Row 83 (BCDH) = no description COMMENT 1709 = Check Failure for Tlm Row 84 (BCDH) = no description COMMENT 1710 = Check Failure for Tlm Row 85 (BCDH) = no description COMMENT 1711 = Check Failure for Tlm Row 86 (BCDH) = no description COMMENT 1712 = Check Failure for Tlm Row 87 (BCDH) = no description COMMENT 1713 = Check Failure for Tlm Row 88 (BCDH) = no description COMMENT 1714 = Check Failure for Tlm Row 89 (BCDH) = no description COMMENT 1715 = Check Failure for Tlm Row 90 (BCDH) = no description COMMENT 1716 = Check Failure for Tlm Row 91 (BCDH) = no description COMMENT 1717 = Check Failure for Tlm Row 92 (BCDH) = no description COMMENT 1718 = Check Failure for Tlm Row 93 (BCDH) = no description COMMENT 1719 = Check Failure for Tlm Row 94 (BCDH) = no description COMMENT 1720 = Check Failure for Tlm Row 95 (BCDH) = no description COMMENT 1721 = Check Failure for Tlm Row 96 (BCDH) = no description COMMENT 1722 = Check Failure for Tlm Row 97 (BCDH) = no description COMMENT 1723 = Check Failure for Tlm Row 98 (BCDH) = no description COMMENT 1724 = Check Failure for Tlm Row 99 (BCDH) = no description COMMENT 776 = Memory Scrub: Multi bit errors in bulk memory (numErr, lastAddCOMMENT 777 = Memory Scrub: Disabled, Multi bit error message count exceededCOMMENT 778 = Memory Scrub Table: Has been updated successfully = no descripCOMMENT 779 = Memory Scrub Table: Update failed. Reverting to system table. COMMENT 780 = Memory Scrub Table: One complete pass thru memory before EDAC COMMENT 850 = MIC packet length (micWord, bcdhWord, maxLength) = Invalid BCDCOMMENT 851 = MIC command buffer error (lengthReg, statusReg) = BCDH h/w comCOMMENT 852 = MIC enum list (fc, value, subList) = BCDH enum arg not in enumCOMMENT 853 = MIC invalid index (fc, value, subList) = Invalid BCDH command COMMENT 854 = MIC out of range (fc, value, loLimit, hiLimit) = BCDH numeric COMMENT 855 = MIC all targets disabled (word0, word1, word2) = All BCDH or DCOMMENT 856 = MIC internal error (id, value) = Internal software error COMMENT 857 = DMA error: direction (dev:dir, length, p1, p2) = Invalid DMA dCOMMENT 858 = DMA error: semaphore (dev:dir, length, p1, p2) = Unable to acqCOMMENT 859 = DMA error: interrupt (dev:dir, length, p1, p2) = Unable to cleCOMMENT 860 = DMA error: aborted (dev:dir, length, p1, p2) = Hardware aborteCOMMENT 861 = DMA error: timeout (dev:dir, length, p1, p2) = DMA transfer toCOMMENT 862 = BCB write index invalid (rLap, wLap, rIdx, wIdx) = Write indexCOMMENT 863 = BCB read index invalid (rLap, wLap, rIdx, wIdx) = Read index lCOMMENT 864 = BCB buffer overflow (rLap, wLap, rIdx, wIdx) = Read task is fuCOMMENT 865 = BCB read lap invalid (rLap, wLap, rIdx, wIdx) = Read lap is otCOMMENT 867 = MIC configuration error (micCfgFlag, bcdhCfgFlag) = Invalid coCOMMENT 868 = DMA error: length (dev:dir, length, p1, p2) = Invalid DMA lengCOMMENT 869 = DMA error: pointer (dev:dir, length, p1, p2) = Invalid DMA poiCOMMENT 875 = DSP Test = Verify DSP PCI interface COMMENT 876 = DSP Checksum error (index, expect, actual, errs) = DSP checksuCOMMENT 877 = DSP Algorithm was halted (function code) = Processing algorithCOMMENT 878 = DSP Algorithm taking longer than expected (fc) = Processing alCOMMENT 879 = DSP packet length invalid (minLen, maxLen, pktLen) = CCSDS pacCOMMENT 1102 = PCB Resp. Pkt has Bit Errors (Test#,Exp/Rcv,Tests,Pkt/Code/DaCOMMENT 1103 = Too Many Resp Timeouts. Uart Switched (UARTw/Errs,UARTswitcheCOMMENT 1104 = Too Many TimeOut Flips. PW Cmd Failed (UARTw/Errs,UARTflipedTCOMMENT 1105 = PCB UARTs are not present in the current configuration (none)COMMENT 200 = SBLIB: No Error (TaskID,ApID,Pid) = no description COMMENT 201 = SBLIB: Illegal ApID (TaskID,ApID,Pid) = no description COMMENT 202 = SBLIB: Invalid Stream (TaskID,ApID,Pid) = no description COMMENT 203 = SBLIB: Stream Not Inited (TaskID,ApID,Pid) = no description COMMENT 204 = SBLIB: Invalid Packet (TaskID,ApID,Pid) = no description COMMENT 205 = SBLIB: Invalid Packet Length (TaskID,ApID,Pid) = no descriptioCOMMENT 206 = SBLIB: Packet Too Big (TaskID,ApID,Pid) = no description COMMENT 207 = SBLIB: Memory Partition Create Error (TaskID,ApID,Pid) = no deCOMMENT 208 = SBLIB: Memory Allocation Error (TaskID,ApID,Pid) = no descriptCOMMENT 209 = SBLIB: Memory Free Error (TaskID,ApID,Pid) = no description COMMENT 210 = SBLIB: Buffer Overrun Error (TaskID,ApID,Pid) = no descriptionCOMMENT 211 = SBLIB: Time Out (TaskID,ApID,Pid) = no description COMMENT 212 = SBLIB: No Message (TaskID,ApID,Pid) = no description COMMENT 213 = SBLIB: Queue ID Error (TaskID,ApID,Pid) = no description COMMENT 214 = SBLIB: Queue Create Error (Memory) (TaskID,ApID,Pid) = no descCOMMENT 215 = SBLIB: Queue Create Error (ISR) (TaskID,ApID,Pid) = no descripCOMMENT 216 = SBLIB: Queue Create Error (TaskID,ApID,Pid) = no description COMMENT 217 = SBLIB: Queue Delete Error (TaskID,ApID,Pid) = no description COMMENT 218 = SBLIB: Queue Full Error (TaskID,ApID,Pid) = no description COMMENT 219 = SBLIB: Buffer Underrun Error (TaskID,ApID,Pid) = no descriptioCOMMENT 220 = SBLIB: Invalid Pipe ID (TaskID,ApID,Pid) = no description COMMENT 221 = SBLIB: Post to Stream w/ No Destinations (TaskID,ApID,Pid) = nCOMMENT 223 = SBLIB: All Posts from this Stream were Refused (TaskID,ApID,PiCOMMENT 224 = SBLIB: Too Many PIDs specified (ApID,NumPids) = no descriptionCOMMENT 225 = SBLIB: Unknown Error (TaskID,ApID,Pid) = no description COMMENT 450 = SC: Script Exists, but it is no longer running (slot) = no desCOMMENT 451 = SC: Can't find the specified script (slotNum) = no descriptionCOMMENT 452 = SC: Bad Checksum in Command Sent from Script (Slot,Line,SpecifCOMMENT 453 = SC: No more SC HK Slots are Available...all have been used () COMMENT 454 = SC: Can't Load new Script into slot where script already existCOMMENT 455 = SC: Can't start Script with identical name to already running COMMENT 456 = SC: A Previously run script has been successfully unloaded (slCOMMENT 457 = SC: An Error occurred during the UNLOAD of a script () = no deCOMMENT 458 = SC: Successfully LOADed and STARTed a new script (slotnum,prioCOMMENT 459 = SC: An Error occurred during the START of a script () = no desCOMMENT 460 = SC: An Error occurred during the LOAD of a script () = no descCOMMENT 461 = SC: Successfully STOPPED a running script (slotnum) = no descrCOMMENT 462 = SC: Script has finished executing (slotnum) = no description COMMENT 463 = SC: An Error occurred during the STOP of a script (slotnum) = COMMENT 464 = SC: Successfully SUSPENDed a running script (slotnum) = no desCOMMENT 465 = SC: Successfully RESUMEd a running script (slotnum) = no descrCOMMENT 466 = SC: Changed the Active/Passive flag for a running script (slotCOMMENT 467 = SC: Reference made to UnRegistered SC Variable (VarNum,ApID,byCOMMENT 468 = SC: Received an illegal Boolean Flag number (BoolFlag#, byteOfCOMMENT 469 = SC: Received an illegal FC for Adjusting Integer Vars (FC, IntCOMMENT 470 = SC: Received an illegal Integer Variable number (IntVar#, byteCOMMENT 471 = SC: ABSTIME WaitTime already expired, No Cmds sent till Time RCOMMENT 472 = SC: User must provide either SLOT number or SCRIPT name () = nCOMMENT 473 = SC: Both SLOT and SCRIPT specified, but reference different taCOMMENT 474 = SC: Illegal Slot Specified (slotnum) = no description COMMENT 475 = SC: Script started, but maybe not at specified priority (slotnCOMMENT 476 = SC: Script started and completed almost immediately (slotnum,pCOMMENT 477 = SC: Script Already in the desired Enabled/Disabled State () = COMMENT 551 = SE: CVT UnRegister failed () = no description COMMENT 552 = SE: CVT Reference to UnRegistered Mnemonic (AppId, NumItems, MCOMMENT 553 = SE: CVT LinkedList Too Full (AppId, arrayIndex, NumItems, MaxICOMMENT 554 = SE: CVT Rcvd Packet for Empty AppID (AppId) = no description COMMENT 555 = SE: CVT Jam into Empty AppID (AppId) = no description COMMENT 50 = Spacecraft Time Updated (seconds,subseconds) = Time jam event COMMENT 51 = Spacecraft Time Adjusted Forward (seconds,subseconds) = Time foCOMMENT 52 = Spacecraft Time Adjusted Backward (seconds,subseconds) = Time BCOMMENT 53 = 1 PPS Clock Pulse Failed Short = 1PPS Failed short event COMMENT 54 = 1 PPS Clock Pulse Failed Long = 1PPS Failed long event COMMENT 55 = S/C Time Message Too Late = Time Msg too late event COMMENT 56 = Switch to S/C Time Message Clock (pulse) = Switch Back to Time COMMENT 57 = 1 PPS Pulse Invalid For Current System Clock = Current system COMMENT 150 = Invalid Slot# in Command (slot#) = Bad slot value in ground coCOMMENT 151 = Invalid Entry# in Command (entry#) = Bad entry value in groundCOMMENT 152 = Schedule Table Entry Has Too Much Data (slot,entry,length) = TCOMMENT 400 = Memory Loaded from Packet Data (address, numBytes) = no descriCOMMENT 401 = Memory Loaded from File (address, numBytes) fileName: = no desCOMMENT 402 = File Open Failed ( ) fileName: = no description COMMENT 403 = File Read Failed (totBytes, exp, rcvd) fileName: = no descriptCOMMENT 404 = File Write Failed (totBytes, exp, sent) fileName: = no descripCOMMENT 405 = Memory Type/Address Alignment Error (address, memType) = no deCOMMENT 406 = Memory Peek/Poke Size Too Big (size) = no description COMMENT 407 = Mismatch between memory size and memory type (size, memType) =COMMENT 408 = Invalid Memory Type in Ground Command (memType) = no descriptiCOMMENT 409 = Bad Table ID in Ground Command (tableID) = no description COMMENT 410 = Table Data Failed Validation (tableID, item#) = no descriptionCOMMENT 411 = Shell Debug Interface is Disabled = no description COMMENT 412 = Symbol Not Found in Symbol Table ( ) symbol name: = no descripCOMMENT 413 = Symbol Table Parsing Error = no description COMMENT 414 = Start dwell commanded while dwell is active = no description COMMENT 415 = Spawn of memory dwell task failed = no description COMMENT 416 = Delete of memory dwell task failed = no description COMMENT 417 = Dwell defn tbl defines too large output pkt (#bytes) = no descCOMMENT 418 = Dwell defn tbl defines too short delay between pkts (#ticks) =COMMENT 419 = Error in dwell defn tbl entry (entry#, errType, errData) = no COMMENT 420 = New Table Data Loaded (tableID, item#) fileName: = no descriptCOMMENT 421 = Bad Table Item Number (tableID, item#) = no description COMMENT 422 = Table Data File Open Failed (tableID) fileName: = no descriptiCOMMENT 423 = Table Data File Read Failed (tableID) fileName: = no descriptiCOMMENT 424 = Table Data File Write Failed (tableID) fileName: = no descriptCOMMENT 425 = Can't Write to Read-only Table (tableID) = no description COMMENT 1 = Invalid Function Code Received for this Application ID (APID,FC)COMMENT 2 = Invalid Application ID for this Software Bus Pipe (APID,PID) = nCOMMENT 1550 = FileQueue Create Failed (priority,DC,DC,DC,filename) = no desCOMMENT 1551 = FileQueue Max Priority Exceeded (priority) = no description COMMENT 1552 = FileQueue Open Failed (DC,DC,DC,DC,filename) = no descriptionCOMMENT 1553 = FileQueue File Space Overflow (priority) = no description COMMENT 1554 = FileQueue File Deleted Before Send (DC,DC,DC,DC,filename) = nCOMMENT 700 = Diagnostic failed during startup (test #) = no description COMMENT 701 = Memory test passed (startAddress, dataSize) = no description COMMENT 702 = Memory test failed (expValue, rcvValue, errorAddress, totalFaiCOMMENT 703 = Floating Point test passed = no description COMMENT 704 = Floating Point test Failed (test, error) = no description COMMENT 705 = EDAC test passed (startAddress, dataSize, checkPattern, errorTCOMMENT 706 = EDAC test failed (expValue, rcvValue, errorAddress, totalFailsCOMMENT 707 = Invalid Memory Type (memory type) = no description COMMENT 708 = Invalid Alignment Type (align type) = no description COMMENT 709 = Invalid EDAC Expected Error Type (errorType) = no description COMMENT 710 = Addr-Alignment Type Mismatch (startAddress, align_type) = no dCOMMENT 711 = Num Bytes Alignment Mismatch (startAddress, dataSize, alignTypCOMMENT 712 = Addr Num Bytes Mismatch (startAddress, dataSize) = no descriptCOMMENT 713 = DMA Test Failed (device, reason) = no description COMMENT 714 = DMA Test Passed = no description COMMENT 715 = EDAC test invalid addr-num bytes Mismatch (startAddress, dataSCOMMENT 716 = Summit Built-In-Test Passed = no description COMMENT 717 = Summit Built-In-Test Failed (failure) = no description COMMENT 718 = Invalid DMA Device (device) = no description COMMENT 719 = Invalid DMA Size (dataSize) = no description COMMENT 720 = Invalid EEPROM TYPE (eeMemType) = no description COMMENT 721 = DSP Test Passed = no description COMMENT 722 = DSP Test Failed (expValue, rcvValue) = no description COMMENT 723 = Invalid DSP Function Code(funCode) = no description COMMENT 724 = Invalid DSP Priority (priority) = no description COMMENT 725 = Invalid DSP Wait Time(time) = no description COMMENT 726 = Invalid DSP Test Size(testSize) = no description COMMENT 727 = Invalid DSP Test Iteration(iter) = no description COMMENT 728 = Insufficient memory allocation = no description COMMENT 100 = TM Spare Event #00 - Unexpected = no description COMMENT 101 = Reset Due to Processor Watchdog Timeout = no description COMMENT 102 = Reset Due to Comm Card Watchdog Timeout = no description COMMENT 103 = Task Level Warm Resets are no longer supported = no descriptioCOMMENT 104 = Task Level Cold Reset = no description COMMENT 105 = Spurious Processor Reset - Cause Unknown = no description COMMENT 106 = Processor Exception Detected (Exception #, TaskID) = no descriCOMMENT 107 = Floating Point Exception Detected (FPSCR,mask,result,MSR) = noCOMMENT 108 = Task Started = no description COMMENT 109 = Task Stopped = no description COMMENT 110 = Task Reloaded = no description COMMENT 111 = Board Level Reset was Commanded = no description COMMENT 112 = Transition to BOOT Mode was Commanded = no description COMMENT 113 = Transition to NORM Mode was Commanded = no description COMMENT 114 = Cold Reset of Current Mode was Commanded = no description COMMENT 115 = Warm Reset of Current Mode are no longer supported = no descriCOMMENT 116 = Cold Reset of Current Mode Due to Too Many Warm Resets (Task,SCOMMENT 117 = Reset Due to Power Cycle = no description COMMENT 118 = Event Response Reset (Event#) = no description COMMENT 119 = Task Command Failed, Task not Found = no description COMMENT 120 = Illegal Task Specified. You can't do that to this Task = no dCOMMENT 121 = Panic occurred in ISR. See Panic Log = no description COMMENT 600 = Cant disable both 1553 Channels at the same time (thisChan,othCOMMENT 630 = VRTX Event Flag Pend Error (err#) = no description COMMENT 631 = RO Received a packet that was too large for 1553 bus (appId,thCOMMENT 300 = file create failed on (priority) = TO System Event COMMENT 301 = queue (id): max priority exceeded: (priority) = TO System EvenCOMMENT 302 = Invalid parameter size (APID), actual (size) = TO System EventCOMMENT 303 = Invalid telemetry source in cmd (APID), actual (data) = TO SysCOMMENT 304 = file open failed = TO System Event COMMENT 305 = (priority): file space overflow = TO System Event COMMENT 306 = file deleted before send = TO System Event COMMENT 307 = file aborted = TO System Event COMMENT 308 = Telemetry source (id) disabled = TO System Event COMMENT 309 = Telemetry source (id) enabled = TO System Event COMMENT 1000 = Science faultASSERT : Unspecified assertion failure. (#_thisCOMMENT 1001 = Science faultCONTPACKET: The next packet to process is a contCOMMENT 1002 = Science faultSHORTPACKET: Packet length too short. (#_this_faCOMMENT 1003 = Science faultBADPACKET: Packet has other trouble. (#_this_fauCOMMENT 1004 = Science faultMS1010 : The 10 ms counter went to 101 or more.COMMENT 1005 = Science faultTIME : Time is non-consecutive. (#_this_faultCOMMENT 1006 = Science faultMETINFO : Something wrong with MET info. (#_thisCOMMENT 1007 = Science faultOCTSEC : Something is wrong with the 8-second sCOMMENT 1008 = Science faultSURVEYCYCLE: Something is wrong with the SurveyCCOMMENT 1009 = Science faultNOSURVEYFREE: There is no Survey data structure COMMENT 1010 = Science faultUNCLEARABLE: A data type could not be cleared. (COMMENT 1011 = Science faultBADBLOCKNUM: Block number not in expected range.COMMENT 1012 = Science faultAM241SPECTNOTCLEARED: Spectrum is not cleared. (COMMENT 1013 = Science faultRATEHANDLER: The Rate Handler wasn't called ofteCOMMENT 1014 = Science faultDUMP : Something unexpected happened in the dCOMMENT 1015 = Science faultFILEWRITE: Fault during file write. (#_this_faulCOMMENT 1016 = Science faultFILEREAD: Fault during file read. (#_this_faulttCOMMENT 1017 = Science faultREACTIVATEDANGER: Object being reactivated durinCOMMENT 1018 = Science faultPUNTMAX : Maximum calculation overflowed, puntinCOMMENT 1019 = Science faultCALIBTIMEOUT: Timeout error during calibration. COMMENT 1020 = Science faultCALIBBADSTATE: Calibration found bad state. (#_tCOMMENT 1021 = Science faultCALIBABANDON: Calibration abandoned. (#_this_fauCOMMENT 1022 = Science faultGAINOFFNOTFREE: No free gain/offset object availCOMMENT 1023 = Science faultPACKINGFAILURE: Fault packing detector map. (#_tCOMMENT 1024 = Science faultIMAGELOSS: Image result returned is not for mostCOMMENT 1025 = Science faultNOIMPROVEDTRIGGER: Improved trigger expected, buCOMMENT 1026 = Science faultKILLWRONGTRIGGER: Trigger ended is not the curreCOMMENT 1027 = Science faultOBSOLETERATES: Trying to look at di_ratehandler COMMENT 1028 = Science faultBADTRIGGERCRIT: Bad trigger criterion. (#_this_fCOMMENT 1029 = Science faultNOACS : No ACS data for relevant time. (#_thisCOMMENT 1030 = Science faultSOURCETABLE: Something wrong with source table. COMMENT 1031 = Science faultDSP : DSP found something wrong. (#_this_fauCOMMENT 1032 = Science faultINACTIVEBLOCKERROR: Inactive block incompatible COMMENT 1033 = Science faultCOMMANDABLE: Invalid access to commandable valueCOMMENT Column 54 = BTMTEPENABLED - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 67 = FOMSLEWMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 68 = FOMATMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 69 = FOMPPTMODESTAT - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 70 = FOMOTTYPE - Discrete value COMMENT 0 = GRB = GRB Type Target COMMENT 1 = TOO = TOO Type Target COMMENT 2 = PPT = PPT Type Target COMMENT 3 = UNK = Unknown Fom Target Type COMMENT Column 77 = FOMAISLEWSTATE - Discrete value COMMENT 0 = ERROR = ACS Info Slew State Error COMMENT 1 = SLEWING = ACS Info Slewing and not within 10 ArcMin of Target COMMENT 2 = IN10ARCMIN = ACS Info Slewing and within 10 ArcMin of Target COMMENT 3 = SETTLED = ACS Info Settled on Target COMMENT 4 = SAFEMODE = ACS Info SC Safemode COMMENT 5 = InSAA = ACS Info In SAA COMMENT 6 = OutOfSAA = ACS Info Outside SAA COMMENT Column 78 = FOMACSINSAA - Discrete value COMMENT 0 = FALSE = no description COMMENT 1-255 = TRUE = no description TRDHI86 = 2 / BPWRESPFAILED Red upper limit = BPW_RESPFAIL_LITYEHI86 = 1 / BPWRESPFAILED Yellow upper limit = BPW_RESPFAILTRDHI87 = 2 / BPWRESPTIMEOUT Red upper limit = BPW_RESPTOUT_LTYEHI87 = 1 / BPWRESPTIMEOUT Yellow upper limit = BPW_RESPTOUCOMMENT Column 94 = BPWSTATPKTTOGND - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description COMMENT Column 95 = BPWEVENTSDISPLD - Discrete value COMMENT 0 = DISABLED = no description COMMENT 1-255 = ENABLED = no description TRDHI111= 50 / BDIHKBCDHEXC Red upper limit = BDI_BCDHEXC_LIM TYEHI111= 49 / BDIHKBCDHEXC Yellow upper limit = BDI_BCDHEXC_LTRDHI115= 2 / BDIHKMICERRORS Red upper limit = BDI_MICERR_LIMTYEHI115= 1 / BDIHKMICERRORS Yellow upper limit = BDI_MICERR_COMMENT Column 129 = BBRHKSOURCETYPE - Discrete value COMMENT 0 = Empty = BR HK, Source Type, 0=Empty COMMENT 1 = New = BR HK, Source Type, 1=New COMMENT 2 = AutoGRB = BR HK, Source Type, 2=AutoGRB COMMENT 3 = OldGRB = BR HK, Source Type, 3=OldGRB COMMENT 4 = X-ray Binary = BR HK, Source Type, 4=X-ray Binary COMMENT 5 = Black Hole = BR HK, Source Type, 5=Black Hole COMMENT 6 = Pulsar = BR HK, Source Type, 6=Pulsar COMMENT 7 = Soft Gamma Repeater = BR HK, Source Type, 7=Soft Gamma Repeater COMMENT 8 = X-ray Nova = BR HK, Source Type, 8=X-ray Nova COMMENT 9 = Active Galactic Nucleus = BR HK, Source Type, 9=Active Galactic COMMENT 10 = Rapid Burster = BR HK, Source Type, 10=Rapid Burster COMMENT 11 = X-ray Burster = BR HK, Source Type, 11=X-ray Burster COMMENT 12 = Other = BR HK, Source Type, 12=Other COMMENT 13 = Unknown = BR HK, Source Type, 13=Unknown COMMENT 14 = Special1 = BR HK, Source Type, 14=Special1 COMMENT 15 = Special2 = BR HK, Source Type, 15=Special2 COMMENT 16 = Special3 = BR HK, Source Type, 16=Special3 COMMENT 17 = Special4 = BR HK, Source Type, 17=Special4 COMMENT 18 = Special5 = BR HK, Source Type, 18=Special5 COMMENT 19 = Special6 = BR HK, Source Type, 19=Special6 COMMENT 20 = Special7 = BR HK, Source Type, 20=Special7 COMMENT 21 = Special8 = BR HK, Source Type, 21=Special8 COMMENT 22 = Special9 = BR HK, Source Type, 22=Special9 COMMENT 23 = Aversion = BR HK, Source Type, 23=Aversion COMMENT Column 135 = BBRHKTECHNIQUE - Discrete value COMMENT 0 = Clean = BR HK, Technique Used, 0=Clean COMMENT 1 = Back_project = BR HK, Technique Used, 0=Back_project COMMENT 2 = FFT 1 pixel = BR HK, Technique Used, 0=FFT 1 pixel COMMENT 3 = FFT 2 pixel = BR HK, Technique Used, 0=FFT 2 pixel COMMENT 4 = FFT 4 pixel = BR HK, Technique Used, 0=FFT 4 pixel COMMENT 5 = Other = BR HK, Technique Used, 0=Other COMMENT Column 166 = BTGHKTYPE - Discrete value COMMENT 0 = None = TG Status Type, 0=None COMMENT 1 = Long = TG Status Type, 1=Long COMMENT 2 = Short = TG Status Type, 2=Short COMMENT 3-4294967294 = Unknown = TG Status Type, >2=Unknown TRDHI185= 2 / BPDBCDHERRCNT Red upper limit = BPD_BCDHERRCNT_TYEHI185= 1 / BPDBCDHERRCNT Yellow upper limit = BPD_BCDHERRCTRDHI187= 2 / BPDMICERRCNT Red upper limit = BPD_MICERRCNT_LITYEHI187= 1 / BPDMICERRCNT Yellow upper limit = BPD_MICERRCNTTRDHI190= 2 / BPDDSPERRCNT Red upper limit = BPD_DSPERRCNT_LITYEHI190= 1 / BPDDSPERRCNT Yellow upper limit = BPD_DSPERRCNTTRDHI193= 2 / BPDDSPERRTLM Red upper limit = BPD_DSPERRTLM_LITYEHI193= 1 / BPDDSPERRTLM Yellow upper limit = BPD_DSPERRTLMTRDHI195= 2 / BDEREQERRCNT Red upper limit = BPD_DEREQERR_LIMTYEHI195= 1 / BDEREQERRCNT Yellow upper limit = BPD_DEREQERR_TRDHI199= 2 / BDEXSERRCNT Red upper limit = BPD_DEXSERR_LIM TYEHI199= 1 / BDEXSERRCNT Yellow upper limit = BPD_DEXSERR_LITRDHI202= 2 / BDEPKTERRCNT Red upper limit = BPD_DEPKTERR_LIMTYEHI202= 1 / BDEPKTERRCNT Yellow upper limit = BPD_DEPKTERR_HISTORY TASK: FAPPND on FILENAME: sw00412081000b18fx001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:31 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��.��I��d;V��6 sO8��]�� qA�ԉ�i׀�p� �k��P��p��xP� ��v�/o�#�B��W�%��{��s7��s3��s3��%��6%��!`]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��H��G�I��%��%~�%]��w��DD�+�I��Cb��/��E��/�>��]HH�@��A�%��I��;V��6 sO8��;�^�� qA�ԉ�i׀�p� �`��P��p��xP� ��v�/o�#�B��W�%��{��sC��s?��s?��%��P��'8]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%~�%]��w��DD�+�I��Cb��/��4��4��E��>��]HH�@��A�%�%�`��;W��6 sO8��w�`�� qA�ԉ�i׀�p� �I��P��p��xP� ��v�/o�#�B��F�W�%��{��sO��sK��sK��%�#��,�V]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%~�%]��w��DD�+�I��Cb��/��Y��Y��E��>��]HH�@��A�%�a�O��f�� 5;Y��6 sO8��a�� qA�ԉ�i׀� � ��P��p��xP� ��v�/o�#�B�� W�%��{��s[��sW��sW��%�_��S�_��2Ђ]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%~�%]��w��DD�+�I��Cb��/��t��t��E��>��]HH�@��A�%��r��΀�� );Z��6 sO8��bS@�� qA�ԉ�i׀� � �(��P��p��xP� ��v�/p�#�B��΀W�%��{��sg��sc��sc��%��,��8��]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��8��G�I��%��%~�%]��w��B��I��DA?�X��&�� '�>��^HH�D��A�%��6�� ;Z��6 sO8��+�b�@�� qA�ԉ�i׀�0� ��P��p��xP� ��v�/q�#�B��j�%�Ł{��ss��so��so��%�׀��> �]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��t��G�I��%��%~�%]��w��B��I��DA?�X��A��&�p��&j\��{蹟�>��_HH�J��A�%��`�� ;[��6 sO8��g�c �� qA�ԉ�i׀�0� �,��P��p��xP� ��v�/q�#�B��V��%�Ł{��s��s{��s{��%��F��C��]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%~�%]��w��B��w�I��Id?��!��~x��}��tr��>��`HH�N��A�%�Q��p� !�;\��6 sO8��co�� qA�ԉ�i׀�0� ��P��p��xP� ��v�/r�#�B��%�Ł{��s��s��s��%�O��@��I`�]��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%~�%]��w��B��w�I��Id?��a��ԇ��p��p��>4��aHH�U��A�%��`��o�� %�;d��6 sO8��߀c�� qA�ԉ�i׀EP� �!��P�x`��h@� ��v�/v��B��=�%Q�{��s��s��s��%�k��K� ]�� A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��(��G�I��%��%~�%]��w��B��w�I��Id?��џ��U��b<� �?M��bHH�Y��A�%��O�s��׀�� 'e;g��6 sO8��c�� qA�ԉ�i׀�`��1��y0�hP��X0� ��v�/y��B��=�%Q�{��s��s��s��%��3��Q`(]�� A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��d��G�I��%��%~�%]��w��B��w�I��Id?�� !�(��PŻ��?e��bHH�Y��A�%��?�� ,K;i��6 sO8��W�c�� qA�ԉ�i׀w� �H��P��p��xP� ��v�/}��B��o�R�%��{��s��s��s��%��ۄ��Z@W_��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%�c%]��w��B��w�I��Id?��q>� m�$�� m��@`��@��dHH�]��A�%�A�� 2�;o��6 sO8��d+�� qA�ԉ�i׀��P��`� ��v�/}��B��3��%��{��s��s��s��%�?��̓��`p�_��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%�c%]��w��B��w�I��Id?��错�� @��?��@��eHH�d��A�%�}�`�� 4n;o��6 sO8��πdy�� qA�ԉ�i׀��P��p��xP� ��v�/~��B��%�b�{��sǀ�sÀ�sÀ��%�{��f�_��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%�c%]��w��B��w�I��Id?��S��⤄��<��@��eHH�d��A�%��x��i�� 9L;p��6 sO8��d�@�� qA�ԉ�i׀�0� ��P��p��xP� ��v�/~��B��%�b�{��sӀ�sπ�sπ��%��l@�_��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��T��G�I��%��%�c%]��w��B��w�I��Id?��^��L�\��L�Ȅ��9|��@��fHH�h��A�%��"��i�� @#;q��6 sO8��G�eH�� qA�ԉ�i׀�0� �+��P��p��xP� ��v�/~��B��2�%�b�{��s߀�sۀ�sۀ��%��q��_��A��b�G�� >��?�'}Cu��A�%f��?Rɧ>kW��G�I��%��%�c%]��w��B!��I��gnB@�� T��@��8� �A��gHH�l��A�%�1��I��_P� G6;r��6 sO8��Ã�e}�� qA�ԉ�i׀��(��TЀH0��8� ��y�/��I�B��%�'�{��s��s��s��%�/��w� _��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| ��`��ޑ��~x��8˾��B�kHH�y��A�%�m��Ʊ��P� N�;z��6 sO8��ÿ�f�� qA�ԉ�i׀�p��TЀX@��H � ��/��I�B��%�Y�{��s��s��s��%�k��} 'a��A�%��O߀��>��`C��A��@��?]'��K��I��I��%�%�c%]��w��D�>�I��l�C#| ��Y��&sL��&oԄ��3��C+�lHH�{��A�%�� U8;{��6 sO8��fa�� qA�ԉ�i׀��TЀhP��H � ��/��I�B��P�%�Y�{��t��s��s��%��ł�Ea��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| ��t��n��n��2��t�CC�lHH�{��A�%��%Ā��Ɂ��W�� \;{��6 sO8��7�fv@�� qA�ԉ�i׀�Ѐ��ЀH0��8� ��/��I�B��{��%�Y�{��t��t��t��%��ň`ca��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| ��v��s`��-̿�C[�lHH�{��A�%�!�� b�;{��6 sO8��s�f�� qA�ԉ�i׀�Ѐ��ЀH0��8� �� /��I�B��?�ȑ%�Y�{��t��t��t��%��Ŏ�a��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| ��0�� -��d�Cs�lHH�{��A�%�]��Q��۰� i�;{��6 sO8��į�f�� qA�ԉ�i׀�Ѐ��ЀH0��8� ��-�/��I�B��%�Y�{��t'��t#��t#��%�[��w��œ��a��A�%��O߀��>��`C��A��@��?]'��;��I��I��%�%�c%]��w��D�>�I��l�C#| �� ѓ\�� я|��*+�܀C��lHH�{��A�%��͹��S�� pD;|��6 sO8��f�� qA�ԉ�i׀�Ѐ��ЀH0��8� ��Q�/��I�B��ǀ@�%�Y�{��t3��t/��t/��%��o��ř��a��A�%��O߀��>��`C��A��@��?]'��w��I��I��%�%�c%]��w��D�>�I��l�C#| ��V��؄��'p�k�C��lHH�{��A�%��"��!��!@� v�;}��6 sO8��'�f�� qA�ԉ�i׀0��m��ЀhP��8� ��u�/��I�B��|�%�Y�{��t?��t;��t;��%�Ӏ� ��x�ßp�e��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| �� \�8��\�T��'��C��mHH�}��A�%��Љ��@� }�;��6 sO8��c�f�� qA�ԉ�i׀��2��ЀX@��H � ��/��I�B��O��%�Y�{��tK��tG��tG��%�� j�s�åe��A�%��O߀��>��`C��A��@��?]'��I��I��%�%�c%]��w��D�>�I��l�C#| ��#��@|��+��%��_�C��nHH��A�%�M�� ;��6 sO8��ş�g�� qA�ԉ�i׀��H��ЀhP��X0� ��/��I�B��%�Y�{��tW��tS��tS��%�K�� c�l�ê�%e��A�%��O߀��>��`C��A��@��?]'��+��I��I��%�%�c%]��w��D�>�I��l�C#| ��)��i��WX��$��׀C��oHH��A�%��Y��q � �n;��6 sO8��ۀg�� qA�ԉ�i׀��Ԁ��ЀhP��X0� ��/��I�B��׀0�%�Y�{��tc��t_��t_��%�� X�f�ð�Qe��A�%��O߀��>��`C��A��@��?]'��g��I��I��%�f%�c%]��w��B7�'�I��m@��B�-��*&T��*��"h�f�C �"pHH��A�%��@� �X;��6 sO8��g�� qA�ԉ�i׀%Ѐ��x`��X0� ��/��I�B��l�%�Y�{��to��tk��tk��%�À� �x�`�ö�oe��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��z��m��m7��#��ހC+�*qHH��A�%��)��S � �$;��6 sO8��S�g@�� qA�ԉ�i׀��R��}��hP��X0� ��)�/��I�B��_��%�Y�{��t{��tw��tw��%�� a�Z�ü �e��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��ԑ�� V�CF�,rHH��A�%�=��ב�� p� �#;��6 sO8��Ə�gF�� qA�ԉ�i׀��X@��H � ��M�/��I�B��#��%�Y�{��t��t��t��%�;�� X�U��e��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��\��T��΀Ca�8tHH��A�%�y��`� ��;��6 sO8��ˀgz�� qA�ԉ�i׀��hP��X0� ��q�/��I�B�� %�Y�{��t��t��t��%�w�� D�O��`�e��A�%��O߀��>��`C��A��@��?]'��W��I��I��%��%�c%]��w��B��I��C/P��3�� 6�� 5��=�F�Cz�>uHH��A�%��a��0� ��;��6 sO8��g�� qA�ԉ�i׀��X@��8� ��/��I�B��\�%�Y�{��t��t��t��%�� F�I��͐�e��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��}�'�� x�@�� x̀��X�ՀC��CvHH��A�%��ɀ��0� ��;��6 sO8��C�g�� qA�ԉ�i׀��hP��X0� ��/��I�B��o��%�Y�{��t��t��t��%�� 9�@��0g��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��$�K�� c�� RP�� O�C��KxHH��A�%�-��1�� ;��6 sO8��g�@�� qA�ԉ�i׀N�� x`��X0� ��݀/��I�B��3�ԑ%�Y�{��t��t��t��%�+��+��1g��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��p�� P�� ǀC��QyHH��A�%�i��ޙ�� ¤;��6 sO8��ǻ�hO�� qA�ԉ�i׀N�� x`��X0� ��/��I�B��%�Y�{��tÀ�t��t��%�g�� ]g��A�%��O߀��>��`C��A��@��?]'��G��I��I��%��%�c%]��w��B��I��C/P��:Eh��:4\��V�C��[{HH��A�%��e@� �_;��6 sO8��h�� qA�ԉ�i׀N��@�� x`��h@� ��%�/��I�B��L�%�Y�{��tπ�tˀ�tˀ��%��{g��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��k��y#��y��J�΀C��a|HH��A�%��`��i��d�� ;��6 sO8��3�i�� qA�ԉ�i׀N�� x`��h@� ��I�/��I�B��%�Y�{��tۀ�t׀�t׀��%�߀��@�g��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��c��pL��^��F�C�e}HH��A�%��р��_�� ;��6 sO8��o�i�� qA�ԉ�i׀=�� X@��H � ��m�/��I�B��C�đ%�Y�{��t��t��t��%��g��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%]��w��B��I��C/P��}�M��٤��FȾ�C.�j~HH��A�%��-_��S �A�;��6 sO8��ۀ��À�� qA�ԉ�i׀m��P��p��xP� �!��!��/��I�B�� U��%�Y�I��wc��w_��w_��%��~�� @�i��A�%��O߀��>��`C��A��@��?]'��g��I��I��%��%�c%�B��x��DyW+�I��jCU��8S� Y`�� Y`��E�♀M~*��HH��A�%��r��.ǀ��S �H\;��6 sO8��3��À�� qA�ԉ�i׀�� P��p��xP� �!��!��/��I�B�� 3��%��I��wo��wk��wk��%�À��&��%�i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� i7P�� i3��E��M�*��HH��A�%��r��0/��S �N�;��6 sO8��S��{��À�� qA�ԉ�i׀��G��P��p��xP� �!��!��/��I�B�� %��I��w{��ww��ww��%��8tO��+��i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��QS� y �� yЄ��E�㉀M�*��HH��A�%�=��r��1��S �U�;��6 sO8��Տ��À�� qA�ԉ�i׀��ǀ��P��p��xP� �!��!��/��I�B�� %��I��w��w��w��%�;��M>4L��1 �i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� �� P��E��M�*��HH��A�%�y��2��0�\N;��6 sO8��ˀ�n��Ā�� qA�ԉ�i׀��V��P��p��xP� �!��!��/��I�B�� %��I��w��w��w��%�w��V/Ga��7Pi��A�%��O߀��>��`C��A��@��?]'��W��I��I��%��%�c%�B��x��DyW+�I��jCU��dS� ��P�� P��E�䐀M�*��HH��A�%��r��4g��0�b�;��6 sO8��Ā�� qA�ԉ�i׀��P��p��xP� �!��!��/��I�B�� C��%��I��w��w��w��%��U�P��<�.i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� �h�� dЄ��E��M�*��HH��A�%��r��5π��0�i�;��6 sO8��C��@�Ā�� qA�ԉ�i׀��w��P��p��xP� �!��!��/��I�B�� %��I��w��w��w��%��I�P��B�Li��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��SS� �<�� 8��E�倀M*��HH��A�%�-��r��77��0�p>;��6 sO8��G��Ā�� qA�ԉ�i׀��V��P��p��xP� �!��!��/��I�B��ˀ�%��I��w��w��w��%�+��5VEg��H0ji��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� �� E��M&*��HH��A�%�i��8��v�<��6 sO8��ֻ��@�Ā�� qA�ԉ�i׀��Y��P��p��xP� �!��!��/��I�B��%��I��wÀ�w��w��%�g��L1��MЈi��A�%��O߀��>��`C��A��@��?]'��G��I��I��%��%�c%�B��x��DyW+�I��jCU��vS� ��D�� E��p�M>*��HH��A�%��:��}�<��6 sO8��:��Ā�� qA�ԉ�i׀��P��p��xP� �!��!��/��I�B��S��%��I��wπ�wˀ�wˀ��%��q��T�i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� �� E��MV*��HH��A�%��;o��*<��6 sO8��3��Ā�� qA�ԉ�i׀��P��p��xP� �!��!��/��I�B��%��I��wۀ�w׀�w׀��%�߀��Y��i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��#S� �m�� m��E��w�Mn*��HH��A�%��<׀��<��6 sO8��o��@�Ā�� qA�ԉ�i׀��P��p��xP� �!��!��/��I�B��ۀ�%��I��w��w��w��%��`��_@�i��A�%��O߀��>��`C��A��@��?]'��I��I��%��%�c%�B��x��DyW+�I��jCU��S� D�� @Є��E��M�*��HH��XTENSION= '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 = 287676140.57258 TSTOP = 287681576.9676 DATE-OBS= '2010-02-12T14:02:19' DATE-END= '2010-02-12T15:32:55' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 5436.39502000809 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 482 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'DDXGDAVEDAVEDAVE' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3311887285' / data unit checksum updated 2010-02-18T17:05:22 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: sw00412081000b1e2x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:31 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%�쒔��B��=�%Q�@ʧAB�E-CY��B��x@ʧAB�E-CY�=�%Q��z�B�Cu��B��@ʧAB�E-CY�{�C"�3B��.B��@ʧAB�E-CY��{�C"�3B��.B��.��@��B�HHCX�ـ�`��Z��$�$"A�%��*�Պ�B��%�b@ʧAB�E-CY��B��@ʧAB�E-CY��%�b��z�B�Cu��B��@ʧAB�E-CY�{�C"�3B��.B��@ʧAB�E-CY��{�C"�3B��.B��.��@�q�B�BCX� ��`��Z��$�$"A�%�E�}�I�B��%�'C�; BE�DCS侊�B��-��@ʧAB�E-CY�g�%�b�I�B��C�; BE�DCS侀�%�'�I�B�C�; BE�D��I�C�; BE�D�{�C"�3B��.B�I�C�; BE�DCS侀��{�C"�3B��.B��.�I�C��BQ��CT]��`��$�$"��A�%�(��I�B��π�%��C�; BE�DCS侂&?B��C�4�A�CN��%�T�I�B��C�; BE�DCS侀�%��I�B�C�; BE�D��I�C�; BE�DCS侀I�C�; BE�DCS侀I�C�; BE�DCS侀 U��I�C�; BE�DCS侀�.�I�C�8�BE�CS�M��`�� %%"��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 = 287676135.75558 TSTOP = 287680880.79528 DATE-OBS= '2010-02-12T14:02:14' DATE-END= '2010-02-12T15:21:19' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 4745.03969997168 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 534 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '3HdE59c93EcC39c9' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '3072944084' / data unit checksum updated 2010-02-18T17:05:22 HISTORY TASK: FAPPND on FILENAME: sw00412081000b216x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:31 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��m�A�%�*��A�%�-UL�A�%�p˗xXTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 4 / number of rows in table PCOUNT = 0 / size of special data area GCOUNT = 1 / one data group (required keyword) TFIELDS = 1 / number of fields in each row TTYPE1 = 'TIME ' / Secondary header time TFORM1 = '1D ' / data format of field: 8-byte DOUBLE TUNIT1 = 's ' / physical unit of field EXTNAME = 'hk217x001' HDUCLASS= 'OGIP ' / Format conforms to OGIP standards HDUCLAS1= 'ARRAY ' / Time order data HDUCLAS2= 'TOTAL ' / Housekeeping TIMESYS = 'TT ' / Time system MJDREFI = 51910. / Reference MJD Integer part MJDREFF = 0.00074287037 / Reference MJD fractional TIMEREF = 'LOCAL ' / Time reference (barycenter/local) TASSIGN = 'SATELLITE' / Time assigned by clock TIMEUNIT= 's ' / Time unit for timimg header keywords TIERRELA= 1.0E-8 / [s/s] relative errors expressed as rate TIERABSO= 1.0 / [s] timing precision in seconds TSTART = 287676161.13064 TSTOP = 287677405.20962 DATE-OBS= '2010-02-12T14:02:40' DATE-END= '2010-02-12T14:23:24' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 1244.07898002863 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 535 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= 'NpegNoegNoegNoeg' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '23056255' / data unit checksum updated 2010-02-18T17:05:22 HISTORY TASK: FAPPND on FILENAME: sw00412081000b217x001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:31 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%�!q�A�%�O�E�A�%��p�EA�%��5��XTENSION= 'BINTABLE' / binary table extension BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional binary table NAXIS1 = 8 / width of table in bytes NAXIS2 = 8 / 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 = 287676134.23682 TSTOP = 287680879.24102 DATE-OBS= '2010-02-12T14:02:13' DATE-END= '2010-02-12T15:21:18' CLOCKAPP= F / If clock correction are applied (F/T) UTCFINIT= -5.52368000000000 / [s] UTCF at TSTART TELAPSE = 4745.00420004129 TELESCOP= 'SWIFT ' / Telescope (mission) name INSTRUME= ' ' / Instrument name APID = 538 OBS_ID = '00412081000' / Observation ID TARG_ID = 412081 / Target ID SEG_NUM = 0 / Segment number RA_PNT = 356.476568368256 / [deg] RA pointing DEC_PNT = 49.5161321596934 / [deg] Dec pointing PA_PNT = 211.888672331595 / [deg] Position angle (roll) EQUINOX = 2000. / Equinox for pointing RA/Dec RADECSYS= 'FK5 ' / Coordinates System OBJECT = 'Burst (356.418, 49.494)' / Object name RA_OBJ = 356.4183750 / [deg] R.A. Object DEC_OBJ = 49.4937778 / [deg] Dec Object ORIGIN = 'GSFC ' / Source of FITS file PROCVER = '3.13.17 ' / Processing script version SEQPNUM = 7 / Number of times the dataset processed CREATOR = 'unpacket' / Program that created this FITS file DATE = '2010-02-18T17:05:22' / file creation date (YYYY-MM-DDThh:mm:ss UT) CHECKSUM= '8Dha9CgW8Cga8CgU' / HDU checksum updated 2010-02-18T18:32:37 DATASUM = '2889074855' / data unit checksum updated 2010-02-18T17:05:22 HISTORY TASK: FAPPND on FILENAME: sw00412081000b21ax001.hk[1] HISTORY fappend3.0a at 2010-02-18T17:05:32 TRIGTIME= 287676447.552 / [s] MET TRIGger Time for Automatic Target ATTFLAG = '100 ' / Orgin of attitude information END A�%��<��i��P�_��0��0��0��0��R]�n��|��C�C�C�C�C�C�C�C�C�C�C��C��̀��A�%�@(��#�A�%�@Ap��a��\F��3��IS��@�i��P�_��p��0��0��p��p��p��0��p��0��q]�n��|��C�C�C�C�C�C�C�C�C�C�C��C��̀��A�%�� A�%��Ap��(8��|=��Ë�I��Bti��P�_͠��Ѐ�0��0��Ѐ�Ѐ�Ѐ�0��Ѐ�0��ݔ]�oc�|��C�C�C�C�C�C�C�C�C�C�C��C��̀��A�%��`�� A�%��Ap��8�3��Ҁ��S��I��Dhi��P�_�Ѐ�@��0��0��@��@��@��0��@��0��ݵ]�oc�|$��C�C�C�C�C�C�C�C�C�C�C��C��΀��A�%��:� ��A�%�Ap��H23��<��㋎J5��F\i��P�_ٰ� ��0��0� � � ��0� ��0��_�oc�|*��C�C�C�C�C�C�C�C�C�C�C��C��΀��A�%�@1�b ��A�%�@Ap��W�ޛ��s��Jt��HPi��P�_�p�� @��@�� @�� @��_�oc�|2��D�D�D�D�D�D�D�D�D�D�D��D��΀��A�%��'�� A�%��Ap��e�̔��J��J�/�JDi��P�_�P�À��@��@�À�À�À��@�À��@��"_�oc�|8��+�D�D�D�D�D�D�D�D�D�D�D��D��΀��A�%��+:i ��A�%��Ap��t[��T��֓��J��L8i��P�_��P��P��P��P��P_�oc�|?��9�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%�&�� A�%�Ap��v�߰р��#��K0T�N,i��P�_��`��P��P��`��`��`��P��`��P��q_�oc�|F��F�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%�@&��I�A�%�@Ap��K��=��ٳ��Kn��P i��P�_�Ѐ��P��P��P��P��ސa�oc��|L��R�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%��.��I�A�%��Ap��&��b݀��C��K�T�Ri��P�_��0��P��P��0��0��0��P��0��P��ޱa�oc��|S��_�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%��!-w�I�A�%��Ap��"��;��Ӛ�K��Ti��P�`��Ő��P��P�Ő�Ő�Ő��P�Ő��P��a�oc��|Y��l�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%��e�I�A�%�Ap�� ,��c��L*T�U�m��P�` ��P��P��P��P��a�oc��|_��y�E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%�@��I�A�%�@Ap��ɇٔ�dȀ��@�Lh��W��P�`��`��P��P��`��`��`��P��`��P��a�oc��|f��E�E�E�E�E�E�E�E�E�E�E��E��΀��A�%��I�A�%��Ap��8@��@�L�t�Y��P�``��Ѐ�`��`��Ѐ�Ѐ�Ѐ�`��Ѐ�`��>a�oc��|m��F�F�F�F�F�F�F�F�F�F�F��F��΀��A�%��%��I�A�%��Ap��'��@�L��[��P�`��@��`��`��@��@��@��`��@��`��_c�oc�|t��F�F�F�F�F�F�F�F�F�F�F��F��΀��A�%�}�I�A�%�Ap��+ݔ�]π��@�M$t�]�� P�`#p�Ǡ��`��`�Ǡ�Ǡ�Ǡ��`�Ǡ��`��~e�oc�|z��F�F�F�F�F�F�F�F�F�F�F��F��΀��A�%�@#��I�A�%�@Ap��Ⱈ��3@�Mb��_��$P�`)P��`��`��`��`��ߞe�oc�|��F�F�F�F�F�F�F�F�F�F�F��F��΀��A�%��I�A�%��Ap��P��@�M��a��(P�`0�Ȁ��p��p�Ȁ�Ȁ�Ȁ��p�Ȁ��p��e�oc�|��G�G�G�G�G�G�G�G�G�G�G��G��΀��A�%��w�I�A�%��Ap��褔�T��S@�M�$�c��,P�`5��p��p��p��p��e�oc�|��G�G�G�G�G�G�G�G�G�G�G��G��΀��A�%�&��I�A�%�Ap��&��v��@�N��e��0P�`< ��P��p��p��P��P��P��p��P��p�� e�oc�|��G�G�G�G�G�G�G�G�G�G�G��G��΀��A�%�@��I�A�%�@Ap��3�a��l��s@�N]$�g��4P�`B�ɰ��p��p�ɰ�ɰ�ɰ��p�ɰ��p��,e�oc�|��G�G�G�G�G�G�G�G�G�G�G��G��΀��A�%��O�I�A�%��Ap��@Ȳ��Ey��@�N��i��8P�`G��p��p��p��p��Le�oc�|��G�G�G�G�G�G�G�G�G�G�G��G��΀��A�%��I�A�%��Ap��M�h��@�N�T�kx��<>888:D:<888>:@�l8<@>U88B@:vd8<@::8<:DF><>88B<8:L8><88>L:H@==::��<:8>:J:::8@<@<8:D>v@BJ:B:<:<::>>::<��A?AM>>:8A;@8<�<>8@:Z<8><<<<8:>8:8:n�<8:V::<@:>88>:BH<8::>V8D::9A@@vX<:F<8>::<:<<>8><<>:8<:8>FH>:BB:??B:><A�%��W�<<<<<<<<<<<<<<<<LLTTNB�hPL��RPRLLLNXNPLLLRNTԀLPTRiLLVTN�xLPTNNLPNXZRPRLLVPLN`LRPLLR`N\TQQNN��PNLRN^NNNPWaNLNNTvX|NPLLLV�tLRLTPTPLPVXVLLRNXR�TV^NVNPNPNNRP`PXRRNNP��USUaRRNLUOTLP�PRLTNnPLRPPPPLNRLNLN��PLNjNNPTNRLLRNV\PLNNRjLXNNMUTT�lPNZPLRNNPNPPRLRPPRNLPVRPNLRZ\RNVVNSSVNRPA�%�;�#yxxxxxxxxxxxxxxxx``hhbV�|d`��fdf```blbd```fbh�`dhf}``jhb��`dhbb`dblnfdf``jd`bt`fd``ftbpheebb��db`fbrbbbdkub`bbh�l�bd```j��`f`hdhd`djlj``fblf�hjrbjbdbdbbfdtdlffbbd��igiuffb`ich`ddf`hb�d`fdddd`bf`b`b��d`b~bbdhbf``fbjpd`bbf~`lbbaihh��dbnd`fbbdbddf`fddfb`djfdb`fnpfbjjbggjbfdA�%�c�Ĝ��tt||vjxt��zxztttv�vxtttzv|��tx|z�tt~|v��tx|vvtxv��zxztt~xtv�tzxttz�v�|yyvv��xvtzv�vvvx�vtvv|��vxttt~Ɯtzt|x|xtx~�~ttzv�z�|~�v~vxvxvvzx�x�zzvvx�}{}�zzvt}w|txxzt|v�xtzxxxxtvztvtv��xtv�vvx|vzttzv~�xtvvz�t�vvu}||��xv�xtzvvxvxxztzxxzvtx~zxvtz��zv~~v{{~vzxA�%��X��zz��|pȖ~z�Ā~�zzz|�|~zzz�|��z~��zz��|��z~�||z~|��~�zz�~z|�z�~zz��|��||��~|z�|�|||~��|z||��|~zzz�̢z�z�~�~z~��zz�|��|�|~|~||�~�~��||~��|z�}�z~ ~�z�|�~z�~~~~z|�z|z|��~z|�||~�|�zz�|��~z||��z�||{��~|�~z�||~|~~�z�~~�|z~��~|z��|��|��|�~A�%��uy��{ӡ��ϋ�� ñ��׭��Í��+��Ӊ��å��A�%��ݗ�NNNNNNNNNNNNNNNN��Ʈ��2ު��Ǫ��֪��&��Զڬ��Ҫ��貴��4<��P��̮��Ȭ��Ȫ��ʮ��A�%��ڤ��ɽ��O��)C��QY��m��A�%�+��7��#3��q��'��Ke��;��'��s{��7��' ��A�%�S�}�%%%%%%%%%%%%%%%%��K�7G�� 1��;)�� _y��' -��O%�� ;�� 3K�� ;�� A�%�{��aaaaaaaaaaaaaaaa_-K[�E.O=%%!s�#&;Ac9O#%��&�3G_/!/O1!A�%��В͝��%%--'sA)%_o+)+%%%'1')%%%+'-�Y%)-+B%%/-'cQ%)-''%)'13+)+%%/)%'9%+)%%+9'5-**''��)'%+'7''')0:'%''-O1U')%%%/wM%+%-)-)%)/1/%%+'1+c-/7'/')')''+)9)1++'')��.,.:++'%.(-%)�)+%-'G)%+)+))%'+%'%'[s)%'C'')-'+%%+'/5)%''+C%1''&.--cE)'3)%+'')'))+%+))+'%)/+)'%+35+'//',,/'+)A�%��Ft��GGOOI=�cKG��MKMGGGISIKGGGMIO�{GKOMdGGQOI�sGKOIIGKISUMKMGGQKGI[GMKGGM[IWOLLII��KIGMIYIIIKR\IGIIOqSwIKGGGQ�oGMGOKOKGKQSQGGMISM�OQYIQIKIKIIMK[KSMMIIK��PNP\MMIGPJOGK�KMGOIiKGMKMKKGIMGIGI}�KGIeIIKOIMGGMIQWKGIIMeGSIIHPOO�gKIUKGMIIKIKKMGMKKMIGKQMKIGMUWMIQQINNQIMKA�%��[[cc]Q�w_[��a_a[[[]g]_[[[a]c�[_cax[[ec]��[_c]][_]gia_a[[e_[]o[a_[[ao]kc``]]��_][a]m]]]_fp][]]c�g�]_[[[e��[a[c_c_[_ege[[a]ga�cem]e]_]_]]a_o_gaa]]_��dbdpaa][d^c[__a[c]}_[a_a__[]a[][]��_[]y]]_c]a[[a]ek_[]]ay[g]]\dcc�{_]i_[a]]_]__a[a__a][_ea_][aika]ee]bbe]a_A�%��ZZZZZZZZZZZZZZZZoowwqe��so��usuoooq{qsooouqw��oswu�ooywq��oswqqosq{}usuooysoq�ousoou�qwttqq��sqouq�qqqsz�qoqqw�{�qsoooy��ouowswsosy{yoouq{u�wy�qyqsqsqqus�s{uuqqs�xvx�uuqoxrwossuowq�sousussoquoqoq��soq�qqswquoouqysoqqu�o{qqpxww��sq}souqqsqssuoussuqosyusqou}uqyyqvvyqusA�%�C�If��yџ��͉��׫�� )��ч��A�%�k�˧��峛��᝛��˗��×��Ǚ��뿗��՟��!)��=��囗��շ��A�%��ъ��ǯ��3߫��ȫ��׫�� '��շۭ��ӫ��鳵��5=��Q��ͯ��ɭ��ɫ��˯��A�%��[�JJJJJJJJJJJJJJJJ�� ÿ� ��ſ��ÿ��G��ܿ��ſ��ÿ�ӿ�ÿ��!;��ÿ��ſ��ÿ��ɿ��IQ��ǿ�e�ſ��ÿ��ÿ�ſ�� ÿ��ſ��ÿ��ݿ��ÿ��ſ��A�%��L��!�� [��5O��'��]e��y�� !��A�%��f��5��!1��o��%��Ic��;��%��qy�� 5��%��A�%�3҇��I��5E��/��9'�� ]w�� %+��O#��9 ��1I��9�� A�%�[��P::::::::::::::::]+IY�C,M;##q�!$9?c7M!#��$�1E]--M/A�%��0�11993'M51k{7571113=35111739�e1597N11;93o]15933153=?75711;513E175117E3A96633��53173C33353333333333333333mmuuoc��qm��sqsmmmoyoqmmmuou��mqus�mmwuo��mquoomqoy{sqsmmwqmo�msqmms�o}urroo��qomsooooqx�omoou�y�oqmmmw��msmuquqmqwywmmsoys�uwowoqoqoosq�qyssooq��vtv�ssomvpumqqsmuo�qmsqsqqmosmomo��qmo�ooquosmmsow}qmoos�myoonvuu��qo{qmsooqoqqsmuqqsomqwsqoms{}sowwottwosqA�%�#��moooooooooooooooo��wϝ��ˇ�� թ��'��υ��A�%�K�ѷ��㱙��ߛ��ɕ��ŗ��齕��ӝ��'��;��㙕��ӵ��A�%�s��3��ӻ��ù��?뷻��Է��㷻��Ž��˷��˹ǿ��3��ɹ��̹��繻��߷��ý��ɹ��˻ý��AI��̽��]��ٻ��չ��ǻ��շù��׻�Ż��ǽ��A�%��`�,,,,,,,,,,,,,,,,��S�� -G�� U]��q�� A�%��uhhhhhhhhhhhhhhhh��-��)��g��A[�� 3��iq��-��A�%��襤��A��-=��{'��1��Uo��#��G��1��}��)A��1��A�%��[�� U#AQ �; $ E3 i� 17 [/ E �� ) =U % % E' A�%�;��##i7Ue!!'##�O#!8%#YG#')!!%/!!/+# }�!-&0#E'K%oC!##%'%!'!Y#%-%!/'!!��$"$0!!$#�!#=!!!Qi9#!!%+!9'$##Y;)!!#!%!!)+!%%""%!A�%�c�QXXXXXXXXXXXXXXXX//771%}K3/iy535///1;13///717�c/375L//971m[/3711/31;=535//93/1C/53//5C1?74411��31/51A1113:D1/117Y;_13///9�W/5/7373/39;9//51;5m79A1913131153C3;55113��868D551/827/3�35/71Q3/53533/15/1/1e}3/1M113715//519?3/115M/;110877mO31=3/51131335/73351/39531/5=?51991669153A�%��QD��CCKKE9�_GC}�IGICCCEOEGCCCKEK�wCGKI`CCMKE�oCGKEECGEOQIGICCMGCEWCIGCCIWESKHHEE��GECIEUEEEGNXECEEKmOsEGCCCM�kCICKGKGCGMOMCCIEOI�KMUEMEGEGEEIGWGOIIEEG��LJLXIIECLFKCG�GICKEeGCIGIGGCEICECEy�GCEaEEGKEICCIEMSGCEEIaCOEEDLKK�cGEQGCIEEGEGGICKGGIECGMIGECIQSIEMMEJJMEIGA�%��l��eemmg[��ie��kikeeegqgieeemgm�eimk�eeomg��eimggeigqskikeeoiegyekieekygumjjgg��igekgwgggipzgeggm�q�gieeeo��ekemimieioqoeekgqk�mowgogigiggkiyiqkkggi��nlnzkkgenhmeiikemg�iekikiiegkegeg��ieg�ggimgkeekgouieggk�eqggfnmm��igsiekggigiikemiikgeiokigeksukgoogllogkiA�%��xx��znƔ|x��~|~xxxz�z|xxx�z��x|�~�xx��z��x|�zzx|z��~|~xx�|xz�x~|xx~�z��}}zz��|zx~z�zzz|��zxzz��z|xxx�̠x~x�|�|x|��xx~z�~��z�z|z|zz~|�|�~~zz| ��~~zx�{�x||~x�z�|x~|~||xz~xzxz��|xz�zz|�z~xx~z��|xzz~�z�zzy��|z�|x~zz|z||~x�||~zx|�~|zx~��~z��z�z~|A�%�֑�QQQQQQQQQQQQQQQQ��۩��ד��˹�� ᵍ��˕��3��ۑ��˭��A�%�+ֵ��･��맥��)ա��͡��˭ѣ��ɡ��ߩ��+3��G��å��率��A�%�S�t��ѹ��=鵹��ҵ��ᵹ��û��ɵ��ɷŽ��1��Ƿ��ʷ��巹�� ݵ��Ƿ��ɹ��?G��ʻ��[��׹��ӷ��Ź��ӷ��չ�ù��Ż��A�%�{��%��!��_��9S��+��ai��}�� %��A�%�� =JJJJJJJJJJJJJJJJ��9��%5��s��)��Mg��?��)��u}�� !9�� )��A�%��4��M�9I��3�� =+�� a{� �)/�� S'�� = ��!��5M�� = �� A�%�� a/M]�G0Q?!''#u�%(=Cg;Q%'��(�5Ia1#1Q3!!#A�%��F��''//)uC+'aq-+-''')3)+'''/)/�['+/-D''1/)eS'+/))'+)35-+-''1+');'-+''-;)7/,,))��+)'-)9)))+2<)'))/Q3W)+'''1{O'-'/+/+'+131''-)3-e/19)1)+)+))-+;+3--))+��0.0<--)'0*/'+�+-'/)I+'-+-++')-')')]u+')E))+/)-''-)17+'))-E)3))(0//eG+)5+'-))+)++-'/++-)'+1-+)'-57-)11)..1)-+A�%�s��C��>��*:��x$�� .��Rl�� D��.��z��&>��.��A�%��""""""""""""""""�R >N �8 !B0 f� .4X, B �� & :R" " B$ A�%��Ǥ^^^^^^^^^^^^^^^^ f4Rb$ �L 5" VD $&",,( z�*#- B$H"l@ "$"$V "*",$��!!-# � :Nf6 "(6$! V8& "&("""A�%��T��,,44."zH0,fv202,,,.8.0,,,4.4�`,042I,,64.jX,04..,0.8:202,,60,.@,20,,2@.<411..��0.,2.>...07A.,..4V8\.0,,,6�T,2,4040,0686,,2.82j46>.6.0.0..20@0822..0��535A22.,7/4,0�02,4.N0,20200,.2,.,.bz0,.J..04.2,,2.6<0,..2J.8..-544jL0.:0,2..0.002,4002.,0620.,2:<2.66.336.20A�%��T��@@HHB6�\D@z�FDF@@@BLBD@@@HBH�t@DHF]@@JHB~l@DHBB@DBLNFDF@@JD@BT@FD@@FTBPHEEBB��DB@FBRBBBDKUB@BBHjLpBD@@@J�h@F@HDHD@DJLJ@@FBLF~HJRBJBDBDBBFDTDLFFBBD��IGIUFFB@KCH@D�DF@HBbD@FDFDD@BF@B@Bv�D@B^BBDHBF@@FBJPD@BBF^BLBBAIHH~`DBND@FBBDBDDF@HDDFB@DJFDB@FNPFBJJBGGJBFDA�%�;��TTT\\VJ�pXT��ZXZTTTV`VXTTT\V\܈TX\ZqTT^\V��TX\VVTXV`bZXZTT^XTVhTZXTTZhVd\YYVV��XVTZVfVVVX_iVTVV\~`�VXTTT^�|TZT\X\XTX^`^TTZV`Z�\^fV^VXVXVVZXhX`ZZVVX��][]iZZVT_W\TX�XZT\VvXTZXZXXTVZTVTV��XTVrVVX\VZTTZV^dXTVVZrV`VVU]\\�tXVbXTZVVXVXXZT\XXZVTX^ZXVTZbdZV^^V[[^VZXA�%�c��TNNNNNNNNNNNNNNNNhhppj^��lh��nlnhhhjtjlhhhpjp�hlpn�hhrpj��hlpjjhljtvnlnhhrlhj|hnlhhn|jxpmmjj��ljhnjzjjjls}jhjjp�t�jlhhhr��hnhplplhlrtrhhnjtn�przjrjljljjnl|ltnnjjl��qoq}nnjhskphllnhpj�lhnlnllhjnhjhj��lhj�jjlpjnhhnjrxlhjjn�jtjjiqpp��ljvlhnjjljllnhpllnjhlrnljhnvxnjrrjoorjnlA�%��˒��ئ��Ԑ��ȶ��޲��Ȓ��0��؎��Ȫ��A�%��Ǥ��캢��褢��&Ҟ��ʞ��ȪΠ��ƞ��ܦ��(0��D��좞��ܾ��A�%��Ǥ��ζ��:沶��ϲ��޲��Ʋ��ƴº��.��Ĵ��Ǵ��ܾⴶ��ڲ��Ĵ��ƶ��<>888:D:<888@:@�l8<@>U88B@:vd8<@::8<:DF><>88B<8:L8><88>L:H@==::��<:8>:J:::8@<@<8:D>v@BJ:B:<:<::>>::<��A?AM>>:8C;@8<�<>8@:Z<8><><<8:>8:8:n�<8:V::<@:>88>:BH<8::>V:D::9A@@vX<:F<8>::<:<<>8@<<>:8<:8>FH>:BB:??B:><A�%��Ǥ��LLTTNB�hPL��RPRLLLNXNPLLLTNTԀLPTRiLLVTN�xLPTNNLPNXZRPRLLVPLN`LRPLLR`N\TQQNN��PNLRN^NNNPWaNLNNTvX|NPLLLV�tLRLTPTPLPVXVLLRNXR�TV^NVNPNPNNRP`PXRRNNP��USUaRRNLWOTLP�PRLTNnPLRPRPPLNRLNLN��PLNjNNPTNRLLRNV\PLNNRjNXNNMUTT�lPNZPLRNNPNPPRLTPPRNLPVRPNLRZ\RNVVNSSVNRPA�%��Ǥ��``hhbV�|d`��fdf```blbd```hbh�`dhf}``jhb��`dhbb`dblnfdf``jd`bt`fd``ftbpheebb��db`fbrbbbdkub`bbh�l�bd```j��`f`hdhd`djlj``fblf�hjrbjbdbdbbfdtdlffbbd��igiuffb`kch`ddf`hb�d`fdfdd`bf`b`b��d`b~bbdhbf``fbjpd`bbf~blbbaihh��dbnd`fbbdbddf`hddfb`djfdb`fnpfbjjbggjbfd