SIMPLE = T / HDU 0========================================== BITPIX = 8 / Number of bits per data pixel NAXIS = 0 / Number of data axes EXTEND = T / FITS dataset may include extensions COMMENT +------------------+ COMMENT | XTE - FITS File | COMMENT | Generated by XFF | COMMENT +------------------+ COMMENT >>>>> >>>>> <<<<< <<<<< COMMENT > This file is written following certain XTE-GOF < COMMENT > conventions which are documented in XFF/95-004 < COMMENT >>>>> >>>>> <<<<< <<<<< ORIGIN = 'XTE-SOC ' / Configuration control-------------------------- CREATOR = 'XFF - Revision: 6.1.0' / COMMENT $Id: xft.tmpl,v 1.4 1996/01/26 12:51:14 soccm Exp soccm $ / RCS symbol CHECKSUM= '7QmP9PjO7PjO7PjO' / ASCII encoded HDU checksum DATASUM = ' 0' / Data unit checksum written in ASCII DATE = '1999-02-11' / FITS file creation date (dd/mm/yy) DATE-OBS= '1999-01-19T23:55:12' / Start date for data TIME-OBS= '23:55:12' / Start time for data DATE-END= '1999-01-20T00:00:48' / End date for data TIME-END= '00:00:48' / End time for data TIMESYS = 'TT ' / XTE time will be TT (Terrestrial Time) MJDREFI = 49353 / 1994.0(UTC) expressed in TT (integer part) MJDREFF = 0.000696574074 / 1994.0(UTC) expressed in TT (fractional part) / MJD = JD - 2400000.5 TIMEZERO= 3.37843037E+00 / Clock correction TIMEUNIT= 's ' TIMEREF = 'LOCAL ' / No pathlength corrections TASSIGN = 'SATELLITE' / Spacecraft clock CLOCKAPP= T / Clock correction applied TIERRELA= 1.0E-9 / Short-term clock stability TIERABSO= 1.000E-04 / Absolute precision of clock correction TIMVERSN= 'XFF/95-004' / XFF design document TSTART = 1.594076480000000E+08 / As in the "TIME" column: raw space craft cloc TSTOP = 1.594079840000000E+08 / add TIMEZERO and MJDREF for absolute TT OBJECT = '3C273 ' / Source information block----------------------- RA_PNT = 1.87281998E+02 / Nominal pointing DEC_PNT = 2.05200000E+00 / Nominal pointing EQUINOX = 2000.0 / J2000.0 RADECSYS= 'FK5 ' / Julian coordinate reference frame OBSERVER= 'WERNER COLLMAR' / Observation information block------------------ OBS_ID = '40177-01-01-00' / --- HISTORY xft.tmpl,v 1.4 1996/01/26 12:51:14 soccm Exp soccm $ HISTORY $xft,v 1.7 1996/01/29 16:21:56 soccm Exp soccm $ END ----------------------------------------------------------------------- XTENSION= 'BINTABLE' / HDU 1========================================== BITPIX = 8 / 8-bit bytes NAXIS = 2 / 2-dimensional Binary Table NAXIS1 = 678 / Number of bytes per row NAXIS2 = 21 / Number of rows PCOUNT = 0 / No group parameters (required keyword) GCOUNT = 1 / One data group (required keyword) TFIELDS = 18 / Number of columns TIMEPIXR= 0 / Time stamps refer to the start of each pixel COMMENT +--------------------------+ COMMENT | XTE - HEXTE | COMMENT | Science Data | COMMENT | Archive | COMMENT +--------------------------+ EXTNAME = 'XTE_SA ' / Science Array data table EXTVER = 1 EXTLEVEL= 1 / Level in DB hierarchy: Data table ORIGIN = 'XTE-SOC ' CREATOR = 'XFF - Revision: 6.1.0' / HDUDOC = 'XFF/95-004: Rots, Hilldrup, Barnette: XFF Design Document' HDUVERS = '1.0.0 ' HDUCLASS= 'OGIP ' HDUCLAS1= 'ARRAY ' HDUCLAS2= 'TOTAL ' HDUCLAS3= 'COUNT ' LONGSTRN= 'OGIP 1.0' / The OGIP long string convention may be used. COMMENT This FITS file may contain long string keyword values that are COMMENT continued over multiple keywords. This convention uses the '&' COMMENT character at the end of a string which is then continued COMMENT on subsequent keywords whose name = 'CONTINUE'. CHECKSUM= 'RdMaRbLSRbLYRbLY' / ASCII encoded HDU checksum DATASUM = '0000000546730044' / Data checksum, ASCII encoded DATE = '1999-02-11' / FITS file creation date (dd/mm/yy) DATE-OBS= '1999-01-19T23:55:12' / Start date for data TIME-OBS= '23:55:12' / Start time for data DATE-END= '1999-01-20T00:00:48' / End date for data TIME-END= '00:00:48' / End time for data TIMESYS = 'TT ' / XTE time will be TT (Terrestrial Time) MJDREFI = 49353 / 1994.0(UTC) expressed in TT (integer part) MJDREFF = 0.000696574074 / 1994.0(UTC) expressed in TT (fractional part) / MJD = JD - 2400000.5 TIMEZERO= 3.37843037E+00 / Clock correction TIMEUNIT= 's ' TIMEREF = 'LOCAL ' / No pathlength corrections TASSIGN = 'SATELLITE' / Spacecraft clock CLOCKAPP= T / Clock correction applied TIERRELA= 1.0E-9 / Short-term clock stability TIERABSO= 1.000E-04 / Absolute precision of clock correction TIMVERSN= 'XFF/95-004' / XFF design document TSTART = 1.594076480000000E+08 / As in the "TIME" column: raw space craft cloc TSTOP = 1.594079840000000E+08 / add TIMEZERO and MJDREF for absolute TT OBJECT = '3C273 ' / Source information block----------------------- RA_PNT = 1.87281998E+02 / Nominal pointing DEC_PNT = 2.05200000E+00 / Nominal pointing EQUINOX = 2000.0 / J2000.0 RADECSYS= 'FK5 ' / Julian coordinate reference frame OBSERVER= 'WERNER COLLMAR' / Observation information block------------------ OBS_ID = '40177-01-01-00' / --- TELESCOP= 'XTE ' INSTRUME= 'HEXTE ' OBS_MODE= 'POINTING' / Pointing, slew, or scan APPID = 88 / Application ID (CCSDS jargon) DATAMODE= 'Archive ' / Configuration ID 0x00000000 TIMEDEL = 16.00 / Time resolution DELTAT = 16.00 / Telemetry interval GAINAPP = T / Ph analyzer gain correction applied? TDDES = 'O[XTE] & I[HEXTE] & G[1]' / Root data descriptor TTYPE1 = 'Time ' / Time : Packet data time stamp (sec since 1 Ja n 1994) TUNIT1 = 's ' TDDES1 = 'TIME ' TFORM1 = 'D ' TTYPE2 = 'IDFNo ' / IDFNo : IDF at end of archive data accumulati on TUNIT2 = 'Count ' TDDES2 = 'S[idfEndArch] ' TPACK2 = '32 ' TFORM2 = 'J ' TTYPE3 = 'GoodCnt ' / GoodCnt : Total good event count over 4 detec tors TUNIT3 = 'Count ' TDDES3 = 'S[ctGoodEvt] ' TPACK3 = '32 ' TFORM3 = 'J ' TTYPE4 = 'LiveTimeDet0' / LiveTimeDet0 : Detector 1 livetime TUNIT4 = 'Count ' TDDES4 = 'D[0] & S[liveTime] ' TPACK4 = '32 ' TFORM4 = 'J ' TTYPE5 = 'LiveTimeDet1' / LiveTimeDet1 : Detector 2 livetime TUNIT5 = 'Count ' TDDES5 = 'D[1] & S[liveTime] ' TPACK5 = '32 ' TFORM5 = 'J ' TTYPE6 = 'LiveTimeDet2' / LiveTimeDet2 : Detector 3 livetime TUNIT6 = 'Count ' TDDES6 = 'D[2] & S[liveTime] ' TPACK6 = '32 ' TFORM6 = 'J ' TTYPE7 = 'LiveTimeDet3' / LiveTimeDet3 : Detector 4 livetime TUNIT7 = 'Count ' TDDES7 = 'D[3] & S[liveTime] ' TPACK7 = '32 ' TFORM7 = 'J ' TTYPE8 = 'SpecDet0' / SpecDet0 : Detector 1 Histogram TUNIT8 = 'Count ' TZERO8 = 32768 TDDES8 = 'D[0] & E[0~63] & C[0~63;2,64~127;4,128~255;8] ' TPACK8 = '16,32;8,32' TFORM8 = '64I ' TDIM8 = '(64) ' 1CTYP8 = 'CHANNEL ' 1CPIX8 = '0~63;2,64~127;4,128~255;8' TTYPE9 = 'SpecDet1' / SpecDet1 : Detector 2 Histogram TUNIT9 = 'Count ' TZERO9 = 32768 TDDES9 = 'D[1] & E[0~63] & C[0~63;2,64~127;4,128~255;8] ' TPACK9 = '16,32;8,32' TFORM9 = '64I ' TDIM9 = '(64) ' 1CTYP9 = 'CHANNEL ' 1CPIX9 = '0~63;2,64~127;4,128~255;8' TTYPE10 = 'SpecDet2' / SpecDet2 : Detector 3 Histogram TUNIT10 = 'Count ' TZERO10 = 32768 TDDES10 = 'D[2] & E[0~63] & C[0~63;2,64~127;4,128~255;8] ' TPACK10 = '16,32;8,32' TFORM10 = '64I ' TDIM10 = '(64) ' 1CTYP10 = 'CHANNEL ' 1CPIX10 = '0~63;2,64~127;4,128~255;8' TTYPE11 = 'SpecDet3' / SpecDet3 : Detector 4 Histogram TUNIT11 = 'Count ' TZERO11 = 32768 TDDES11 = 'D[3] & E[0~63] & C[0~63;2,64~127;4,128~255;8] ' TPACK11 = '16,32;8,32' TFORM11 = '64I ' TDIM11 = '(64) ' 1CTYP11 = 'CHANNEL ' 1CPIX11 = '0~63;2,64~127;4,128~255;8' TTYPE12 = 'TimSerCnt' / TimSerCnt : PHA multiscalar binning; 4 bands TUNIT12 = 'Count ' TZERO12 = 32768 TDDES12 = 'D[0~3] & E[0~63] & T[0;1;16] & C[(S[msLimit1]~S[msLimit2]),((S[msLi&' CONTINUE 'mit2]+1)~S[msLimit3]),((S[msLimit3]+1)~S[msLimit4]),((S[msLimit4]+1&' CONTINUE ')~S[msLimit5])] ' TPACK12 = '16,64 ' TFORM12 = '64I ' TDIM12 = '(4,16) ' 1CTYP12 = 'CHANNEL ' 1CPIX12 = '(S[msLimit1]~S[msLimit2]),((S[msLimit2]+1)~S[msLimit3]),((S[msLimit&' CONTINUE '3]+1)~S[msLimit4]),((S[msLimit4]+1)~S[msLimit5])' 2CTYP12 = 'TIME ' 2CUNI12 = 's ' 2CRPX12 = 1 2CRVL12 = 0 2CRVR12 = 'Time ' 2CDLT12 = 1 TTYPE13 = 'MsLimit1' / MsLimit1 : Multiscalar binning limit 1 TUNIT13 = 'Count ' TDDES13 = 'S[msLimit1] ' TPACK13 = '8 ' TFORM13 = 'B ' TTYPE14 = 'MsLimit2' / MsLimit2 : Multiscalar binning limit 2 TUNIT14 = 'Count ' TDDES14 = 'S[msLimit2] ' TPACK14 = '8 ' TFORM14 = 'B ' TTYPE15 = 'MsLimit3' / MsLimit3 : Multiscalar binning limit 3 TUNIT15 = 'Count ' TDDES15 = 'S[msLimit3] ' TPACK15 = '8 ' TFORM15 = 'B ' TTYPE16 = 'MsLimit4' / MsLimit4 : Multiscalar binning limit 4 TUNIT16 = 'Count ' TDDES16 = 'S[msLimit4] ' TPACK16 = '8 ' TFORM16 = 'B ' TTYPE17 = 'MsLimit5' / MsLimit5 : Multiscalar binning limit 5 TUNIT17 = 'Count ' TDDES17 = 'S[msLimit5] ' TPACK17 = '8 ' TFORM17 = 'B ' TTYPE18 = 'ClstrPosition' / ClstrPosition : Cluster position TUNIT18 = 'Count ' TDDES18 = 'S[ClstrPosition] ' TPACK18 = '8 ' TFORM18 = 'B ' END