20.1: SPT header (7/16/02)

keyword = <default_val> comment datatype option_flg

(option_flg: Y = optional; N = required; C = constant, i.e. default_val overrides code)

SIMPLE = T data conform to FITS standard L1 C BITPIX = bits per data value I2 N NAXIS = 0 number of data axes I2 N EXTEND = T File may contain standard extensions L1 N NEXTEND = Number of standard extensions I2 N GROUPS = F image is in group format L1 C DATE = date this file was written (yyyy-mm-dd) C10 N FILENAME= name of file C39 N FILETYPE= type of data found in data file C09 N TELESCOP= HST telescope used to acquire data C03 C INSTRUME= identifier for instrument used to acquire data C06 N EQUINOX = 2000.0 equinox of celestial coord. system R4 C / DATA DESCRIPTOR KEYWORDS ROOTNAME= rootname of the observation set C34 N DEFAULTS= F default values used in reformatting these data L1 N PROC_TYP= NORMAL type of pipeline processing C12 N / TARGET INFORMATION TARGNAME= proposer's target name C30 N RA_TARG = right ascension of the target (deg) (J2000) R8 N DEC_TARG= declination of the target (deg) (J2000) R8 N ECL_LONG= ecliptic longitude of the target (deg) (J2000) R8 N ECL_LAT = ecliptic latitude of the target (deg) (J2000) R8 N GAL_LONG= galactic longitude of the target (deg) (J2000) R8 N GAL_LAT = galactic latitude of the target (deg) (J2000) R8 N / OTHER COORDINATE SYSTEM INFORMATION APER_REF= aperture used for reference position C10 N ELON_REF= ecliptic longitude at reference position (deg) R8 N ELAT_REF= ecliptic latitude at reference position (deg) R8 N GLON_REF= galactic longitude at reference position (deg) R8 N GLAT_REF= galactic latitude at reference position (deg) R8 N / PROPOSAL INFORMATION PROPOSID= PEP proposal identifier I4 N LINENUM = proposal logsheet line number C15 N / SOFTWARE VERSION KEYWORDS FLTSWVER= flight software version number C08 Y OPUS_VER= OPUS software system version number C18 N / TIME CONVERSION KEYWORDS CLKDRFTR= spacecraft clock drift rate R8 N CLKRATE = spacecraft clock rate R8 N SPCLINCN= spacecraft clock at UTC0 R8 N UTC0 = Coordinated Universal Time (Mod Julian Date) R8 N / SUPPORT SCHEDULE: PROGRAMMATIC DATA PROGRMID= program id (base 36) C03 N PR_INV_L= last name of principal investigator C30 N PR_INV_F= first name of principal investigator C20 N PR_INV_M= middle name / initial of principal investigator C20 N ACCPDATE= proposal acceptance date (yyyyddd) C07 N OBSET_ID= observation set id C02 N CALIBRAT= Y calibrate data flag C01 N OBSERVTN= observation number (base 36) C03 N EXPACKET= expected number of source packets I4 N PRODTYPE= output product medium type C18 N OPFORMAT= output product format specification C18 N CALIBTYP= calibration type : E, I or Blank C01 N CDBSDATA= cdbs notification flag: 'CAL' or 'FALSE' C05 N / SUPPORT SCHEDULE: FLAGS AND INDICATORS SS_OBSMD= Support schedule specified operating mode C15 N SS_APER = proposed aperture name C16 N SS_DTCTR= proposed detector to use C10 N SS_GRTNG= proposed spectroscopic element in grating wheel C07 N SS_CWAVE= proposed central wavelength R8 N SS_NSTEP= proposed number of peakup search steps I2 N SS_STPSZ= proposed peakup scan stepsize in milli-arcseconds R4 N SS_PKCNT= proposed centering method used in peakup acq. C15 N SS_RPT = 1 proposed number of repeat exposures in set I2 N SS_SEGMT= BOTH proposed segment name for exposure C04 N SS_STMRT= 0 proposed STIM pulse injection rate I4 N PLANTIME= Planned exposure time (seconds) R4 N / SUPPORT SCHEDULE: DATA GROUP II DATA WRD11_14= word 11/14 (0-255) I2 N PSTRTIME= predicted obs. start time (yyyy.ddd:hh:mm:ss) C18 N PSTPTIME= predicted obs. stop time (yyyy.ddd:hh:mm:ss) C18 N APEROBJ = si object aperture id C10 N APERSKY = si sky aperture id C10 N TARG_ID = SPSS target ID from proposal+target no. C15 N APERTYPE= aperture type (SICS, SIAS, SIDS) C18 N RA_V1 = 0.0 right ascension of v1 axis of st (deg) R8 N DEC_V1 = 0.0 declination of v1 axis of st (deg) R8 N PA_V3 = 0.0 position angle of V3-axis of HST (deg) R4 N APEROFFX= 0.0 x comp of object offset in aperture (arcsec) R4 N APEROFFY= 0.0 y comp of object offset in aperture (arcsec) R4 N ANGLESEP= 0.0 ang separation of target from ref obj (arcsec) R4 N DGESTAR = FGS ID(F1,F2,F3) concat. w/ dom. gd. star id C12 N SGESTAR = FGS ID(F1,F2,F3) concat. w/ subdom. gd. star id C12 N PA_APER = 0.0 position ang of aperture used with target (deg) R4 N PA_REF = 0.0 position ang of target from ref. object (deg) R4 N SAAAVOID= SAA model for SAA Avoidance (range 02-99) C02 N TARAQMOD= target acquisition mode (values 00, 01, 02, 03) C02 N POSTNSTX= 0.0 position of space telescope x axis (km) R8 N POSTNSTY= 0.0 position of space telescope y axis (km) R8 N POSTNSTZ= 0.0 position of space telescope z axis (km) R8 N VELOCSTX= 0.0 vel of space telescope along x axis (km/sec) R8 N VELOCSTY= 0.0 vel of space telescope along y axis (km/sec) R8 N VELOCSTZ= 0.0 vel of space telescope along z axis (km/sec) R8 N RA_SUN = 0.0 right ascension of the sun (deg) R8 N DEC_SUN = 0.0 declination of the sun (deg) R8 N RA_MOON = 0.0 right ascension of the moon (deg) R8 N DEC_MOON= 0.0 declination of the moon (deg) R8 N VELABBRA= 0.0 aberration in position of the target R4 N ANNPARRA= 0.0 par. shift in position, non-solar sys target R4 N V2APERCE= 0.0 V2 offset of target from aper fiducial (arcsec) R4 N V3APERCE= 0.0 V3 offset of target from aper fiducial (arcsec) R4 N EQRADTRG= 0.0 equatorial radius of target (km) R4 N FLATNTRG= 0.0 flattening of target R4 N NPDECTRG= 0.0 north pole declination of target (deg) R4 N NPRATRG = 0.0 north pole right ascension of target (deg) R4 N ROTRTTRG= 0.0 rotation rate of target R4 N LONGPMER= 0.0 longitude of prime meridian (deg) R4 N EPLONGPM= 0.0 epoch of longitude of prime meridian (sec) R4 N SURFLATD= 0.0 surface feature latitude (deg) R4 N SURFLONG= 0.0 surface feature longitude (deg) R4 N SURFALTD= 0.0 surface feature altitude (km) R4 N MTFLAG = moving target flag; T if it is a moving target C01 N S0INVMAG= 0.0 S0 inverse magnitude R8 N S0XDIR = 0.0 S0 X direction R8 N S0YDIR = 0.0 S0 Y direction R8 N S0ZDIR = 0.0 S0 Z direction R8 N TRK_TYPE= track 48 or track 51 commanding used C03 N T51_RATE= 0.0 rate of motion commanded (arcsecs/sec) R4 N T51_ANGL= 0.0 position angle of motion of aperture (deg) R4 N TARGDIST= distance to target from Earth's center (km) R8 N PAR_CORR= parallax correction used (Y, N, or A) C01 N RA_REF = 0.0 right ascension of reference object (deg) R8 N DEC_REF = 0.0 declination of reference object (deg) R8 N / ONBOARD EPHEMERIS MODEL PARAMETERS EPCHTIME= 0.0 epoch time of parameters (secs since 1/1/85) R8 N SDMEANAN= 0.0 2nd deriv coef for mean anomaly (revs/sec/sec) R8 N SDMA3SQ = 0.0 3 * (SDMEANAN**2) radians/second**2. R8 N HSTHORB = 0.0 half the duration of the ST orbit (seconds) R8 N CIRVELOC= 0.0 circular orbit linear velocity (meters/second) R8 N COSINCLI= 0.0 cosine of inclination R8 N ECCENTRY= 0.0 eccentricity R8 N ECCENTX2= 0.0 eccentricity times 2 R8 N ECBDX4D3= 0.0 eccentricity cubed times 4/3 R8 N ESQDX5D2= 0.0 eccentricity squared times 5/2 R8 N ECBDX3 = 0.0 eccentricity cubed times 3 R8 N FDMEANAN= 0.0 1st derivative coef for mean anomly (revs/sec) R8 N RCASCNRD= 0.0 rt chge right ascension ascend node (rads/sec) R8 N RCASCNRV= 0.0 rt chge right ascension ascend node (revs/sec) R8 N ARGPERIG= 0.0 argument of perigee (revolutions) R8 N MEANANOM= 0.0 mean anomaly (radians) R8 N RCARGPER= 0.0 rate change of argument of perigee (revs/sec) R8 N RASCASCN= 0.0 right ascension of ascending node (revolutions) R8 N SINEINCL= 0.0 sine of inclination R8 N SEMILREC= 0.0 semi-latus rectum (meters) R8 N TIMEFFEC= 0.0 time parameters took effect (secs since 1/1/85) R8 N OBSSTRTT= 0.0 predicted obs. start time (secs since 1/1/85) R8 N / PROPOSAL INFO: Instrument Configuration CONFIG = proposed instrument configuration C15 N OPMODE = proposed operation mode C18 N SPEC_1 = spectral element C20 N SPEC_2 = spectral element C20 N SPEC_3 = spectral element C20 N SPEC_4 = spectral element C20 N APER_1 = instrument aperture C15 N APER_2 = instrument aperture C15 N APER_3 = instrument aperture C15 N APER_4 = instrument aperture C15 N / PROPOSAL INFO: Target Description TAR_TYPE= target type C15 N TARDESCR= target description C68 Y TARDESC2= target description (cont.) C68 Y TARGCAT = first target category C24 Y TARKEY1 = TARGCAT descriptive kwd C68 Y TARKEY2 = TARGCAT descriptive kwd C68 Y TARKEY3 = TARGCAT descriptive kwd C68 Y TARKEY4 = TARGCAT descriptive kwd C68 Y TARKEY5 = TARGCAT descriptive kwd C68 Y TARGCAT2= second target category C24 Y TARKEY6 = TARGCAT2 descriptive kwd C68 Y TARKEY7 = TARGCAT2 descriptive kwd C68 Y TARKEY8 = TARGCAT2 descriptive kwd C68 Y TARKEY9 = TARGCAT2 descriptive kwd C68 Y TARKEY10= TARGCAT2 descriptive kwd C68 Y ALIAS1 = synonym for target name C30 Y ALIAS2 = synonym for target name C30 Y / PROPOSAL INFO: Flux Information MAG_V = expected V Magnitude R4 N SURF_V = expected V surface brightness R4 N MAG_B = expected B Magnitude R4 N SURF_B = expected B surface brightness R4 N MAG_U = expected U Magnitude R4 N SURF_U = expected U surface brightness R4 N MAG_R = expected R Magnitude R4 N SURF_R = expected R surface brightness R4 N COL_B_V = expected B-V color R4 N COL_U_B = expected U-B color R4 N COL_V_R = expected V-R color R4 N E_B_V = E(B-V) R4 N EXTNCT_V= extinction in V R4 N / PROPOSAL INFO: Exposure Information CMD_EXP = commanded time per exposure (from TRANS) R4 N / PROPOSAL INFO: Moving Target Information MT_LV1_1= moving target information C68 Y MT_LV1_2= moving target information C68 Y MT_LV1_3= moving target information C68 Y MT_LV1_4= moving target information C68 Y MT_LV1_5= moving target information C68 Y MT_LV2_1= moving target information C68 Y MT_LV2_2= moving target information C68 Y MT_LV2_3= moving target information C68 Y MT_LV2_4= moving target information C68 Y MT_LV2_5= moving target information C68 Y MT_LV3_1= moving target information C68 Y MT_LV3_2= moving target information C68 Y MT_LV3_3= moving target information C68 Y MT_LV3_4= moving target information C68 Y MT_LV3_5= moving target information C68 Y / PROPOSAL INFO: Target Properties REDSHIFT= target redshift from proposal R8 N PARALLAX= target parallax from proposal R8 N RA_PROP = target right ascension from proposal (degrees) R8 N DEC_PROP= target declination from proposal (degrees) R8 N PEQUINOX= equinox of coordinate system from proposal C07 N MU_RA = target proper motion from proposal (degrees RA) R8 N MU_DEC = target proper motion from proposal (deg. DEC) R8 N MU_EPOCH= epoch of proper motion from proposal C07 N SP_TYPE = target spectral type from proposal C15 N RAD_VEL = target radial velocity from proposal (km/sec) R8 N / PROPOSAL INFO: Spatial Scan Info SCAN_TYP= C:bostrophidon; D:C with dwell; N:N/A C18 N SCAN_WID= scan width (arcsec) R8 N ANG_SIDE= angle between sides of parallelogram (deg) R8 N DWELL_LN= dwell pts/line for scan pointing (1-99,0 if NA) I4 N DWELL_TM= wait time (duration) at each dwell point (sec) R8 N SCAN_ANG= position angle of scan line (deg) R8 N SCAN_RAT= commanded rate of the line scan (arcsec/sec) R8 N NO_LINES= number of lines per scan (1-99,0 if NA) I4 N SCAN_LEN= scan length (arcsec) R8 N SCAN_COR= scan coordinate frame of ref: celestial,vehicle C18 N / PROPOSAL INFO: Auxiliary PARENTID= PEP proposal identifier of the parent proposal I4 N PROPTTL1= proposal title C68 Y PROPTTL2= proposal title (cont.) C68 Y PROP_TYP= proposal type C20 N / APERTURE PARAMETERS HOSV2CNT= V2 coordinate of aperture fiducial (arcsec) R8 N HOSV3CNT= V3 coordinate of aperture fiducial (arcsec) R8 N HOSISHA = Aperture shape ;Pickle, Circle, Quad, Rectangle C01 N HOSIVDM = Half-length of aperture major axis (arcsec) R8 N HOSAPOR = Rotation angle to orient SICS and V2/V3 (deg) R8 N HOSIMPAR= Parity of SICS to V2/V3 (-1=left, +1=right) I2 N HOSIASX = x coord. of aperture fiducial in SIAS (pixels) R8 N HOSIASY = y coord. of aperture fiducial in SIAS (pixels) R8 N HOSD1 = 1st coordinate axis increment (arcsec) R8 N HOSD2 = 2nd coordinate axis increment (arcsec) R8 N HOSTH1 = Angle from V3 to line of incr 1st axis (degrees) R8 N HOSTH2 = Angle from V3 to line of incr 2nd axis (degrees) R8 N / SIAS to SICS CONVERSION HOSPOLY = Polynomial degree for SIAS to SICS conversion I2 N AS2CSX00= 0.0 0 order, 0 coefficient for x-coord SIAS to SICS R8 N AS2CSX10= 0.0 1 order, 0 coefficient for x-coord SIAS to SICS R8 N AS2CSX11= 0.0 1 order, 1 coefficient for x-coord SIAS to SICS R8 N AS2CSX20= 2 order, 0 coefficient for x-coord SIAS to SICS R8 Y AS2CSX21= 2 order, 1 coefficient for x-coord SIAS to SICS R8 Y AS2CSX22= 2 order, 2 coefficient for x-coord SIAS to SICS R8 Y AS2CSX30= 3 order, 0 coefficient for x-coord SIAS to SICS R8 Y AS2CSX31= 3 order, 1 coefficient for x-coord SIAS to SICS R8 Y AS2CSX32= 3 order, 2 coefficient for x-coord SIAS to SICS R8 Y AS2CSX33= 3 order, 3 coefficient for x-coord SIAS to SICS R8 Y AS2CSX40= 4 order, 0 coefficient for x-coord SIAS to SICS R8 Y AS2CSX41= 4 order, 1 coefficient for x-coord SIAS to SICS R8 Y AS2CSX42= 4 order, 2 coefficient for x-coord SIAS to SICS R8 Y AS2CSX43= 4 order, 3 coefficient for x-coord SIAS to SICS R8 Y AS2CSX44= 4 order, 4 coefficient for x-coord SIAS to SICS R8 Y AS2CSY00= 0.0 0 order, 0 coefficient for y-coord SIAS to SICS R8 N AS2CSY10= 0.0 1 order, 0 coefficient for y-coord SIAS to SICS R8 N AS2CSY11= 0.0 1 order, 1 coefficient for y-coord SIAS to SICS R8 N AS2CSY20= 2 order, 0 coefficient for y-coord SIAS to SICS R8 Y AS2CSY21= 2 order, 1 coefficient for y-coord SIAS to SICS R8 Y AS2CSY22= 2 order, 2 coefficient for y-coord SIAS to SICS R8 Y AS2CSY30= 3 order, 0 coefficient for y-coord SIAS to SICS R8 Y AS2CSY31= 3 order, 1 coefficient for y-coord SIAS to SICS R8 Y AS2CSY32= 3 order, 2 coefficient for y-coord SIAS to SICS R8 Y AS2CSY33= 3 order, 3 coefficient for y-coord SIAS to SICS R8 Y AS2CSY40= 4 order, 0 coefficient for y-coord SIAS to SICS R8 Y AS2CSY41= 4 order, 1 coefficient for y-coord SIAS to SICS R8 Y AS2CSY42= 4 order, 2 coefficient for y-coord SIAS to SICS R8 Y AS2CSY43= 4 order, 3 coefficient for y-coord SIAS to SICS R8 Y AS2CSY44= 4 order, 4 coefficient for y-coord SIAS to SICS R8 Y / SICS to SIAS CONVERSION CS2ASX00= 0.0 0 order, 0 coefficient for x-coord SICS to SIAS R8 N CS2ASX10= 0.0 1 order, 0 coefficient for x-coord SICS to SIAS R8 N CS2ASX11= 0.0 1 order, 1 coefficient for x-coord SICS to SIAS R8 N CS2ASX20= 2 order, 0 coefficient for x-coord SICS to SIAS R8 Y CS2ASX21= 2 order, 1 coefficient for x-coord SICS to SIAS R8 Y CS2ASX22= 2 order, 2 coefficient for x-coord SICS to SIAS R8 Y CS2ASX30= 3 order, 0 coefficient for x-coord SICS to SIAS R8 Y CS2ASX31= 3 order, 1 coefficient for x-coord SICS to SIAS R8 Y CS2ASX32= 3 order, 2 coefficient for x-coord SICS to SIAS R8 Y CS2ASX33= 3 order, 3 coefficient for x-coord SICS to SIAS R8 Y CS2ASX40= 4 order, 0 coefficient for x-coord SICS to SIAS R8 Y CS2ASX41= 4 order, 1 coefficient for x-coord SICS to SIAS R8 Y CS2ASX42= 4 order, 2 coefficient for x-coord SICS to SIAS R8 Y CS2ASX43= 4 order, 3 coefficient for x-coord SICS to SIAS R8 Y CS2ASX44= 4 order, 4 coefficient for x-coord SICS to SIAS R8 Y CS2ASY00= 0.0 0 order, 0 coefficient for y-coord SICS to SIAS R8 N CS2ASY10= 0.0 1 order, 0 coefficient for y-coord SICS to SIAS R8 N CS2ASY11= 0.0 1 order, 1 coefficient for y-coord SICS to SIAS R8 N CS2ASY20= 2 order, 0 coefficient for y-coord SICS to SIAS R8 Y CS2ASY21= 2 order, 1 coefficient for y-coord SICS to SIAS R8 Y CS2ASY22= 2 order, 2 coefficient for y-coord SICS to SIAS R8 Y CS2ASY30= 3 order, 0 coefficient for y-coord SICS to SIAS R8 Y CS2ASY31= 3 order, 1 coefficient for y-coord SICS to SIAS R8 Y CS2ASY32= 3 order, 2 coefficient for y-coord SICS to SIAS R8 Y CS2ASY33= 3 order, 3 coefficient for y-coord SICS to SIAS R8 Y CS2ASY40= 4 order, 0 coefficient for y-coord SICS to SIAS R8 Y CS2ASY41= 4 order, 1 coefficient for y-coord SICS to SIAS R8 Y CS2ASY42= 4 order, 2 coefficient for y-coord SICS to SIAS R8 Y CS2ASY43= 4 order, 3 coefficient for y-coord SICS to SIAS R8 Y CS2ASY44= 4 order, 4 coefficient for y-coord SICS to SIAS R8 Y / V2/V3 APERTURE VERTICES APVER1V2= V2 coordinate of aperture vertex 1 (arcsecs) R8 N APVER1V3= V3 coordinate of aperture vertex 1 (arcsecs) R8 N APVER2V2= V2 coordinate of aperture vertex 2 (arcsecs) R8 N APVER2V3= V3 coordinate of aperture vertex 2 (arcsecs) R8 N APVER3V2= V2 coordinate of aperture vertex 3 (arcsecs) R8 N APVER3V3= V3 coordinate of aperture vertex 3 (arcsecs) R8 N APVER4V2= V2 coordinate of aperture vertex 4 (arcsecs) R8 N APVER4V3= V3 coordinate of aperture vertex 4 (arcsecs) R8 N / ASSOCIATION KEYWORDS ASN_ID = NONE unique identifier assigned to association C10 N ASN_TAB = NONE name of the association table C23 N END XTENSION= extension type C08 N BITPIX = bits per data value I2 N NAXIS = number of data axes I2 N NAXIS1 = length of first data axis I4 Y PCOUNT = 0 number of group parameters I2 C GCOUNT = 1 number of groups I2 C INHERIT = T inherit the primary header L1 C EXTNAME = extension name C08 N EXTVER = extension version number I2 N ROOTNAME= rootname of the observation set C34 N EXPNAME = 9 character exposure identifier C09 N ASN_MTYP= Role of the Member in the Association C12 N / INTERNAL HEADER IDENTIFIERS LQHDRVER= Science Header Version Number I4 N LQINSTR = Instrument Identifier I4 N LQPROGID= PROG ID I4 N LQOBSET = OBSET ID I4 N LQOBSID = OBS ID I4 N LQIMGTYP= Image Type: memory, diagnostic, detector C08 N LQDETNO = Detector Number (FUV or NUV) C08 N LQITIME = Integration Time R8 N LQSTIME1= Exposure Start Time: HST Time I4 N LQSTIME2= Exposure Start Time: DIB Coarse Time I4 N LQSTIME3= Exposure Start Time: Fine Time I4 N LQCTIME1= Exposure End Time: HST Time I4 N LQCTIME2= Exposure End Time: DIB Coarse Time I4 N LQCTIME3= Exposure End Time: Fine Time I4 N / FLIGHTS SOFTWARE ENGINEERING PARAMETERS LQFSWMAJ= Flight Software Major Revision Number I4 N LQFSWMIN= Flight Software Minor Revision Number I4 N LQOBSNUM= Flight Observation Number I4 N LQNUMWDS= Number of 16-bit words in this image I4 N LQSDFLNS= Number of SDF lines in this image I4 N LQBENCH = Test Bench in use I4 N LQITDNUM= Intermediate Time Tag Dump Number I4 N LQITDTOT= Cumulative number of Time Tag words dumped I4 N LQEXPTTB= Requested buffer size for time tag images I4 N LQFULIND= Full Image indicator C08 N LQNULIMG= Null image flag C08 N LQSWMODE= FSW Mode: 0=Boot or 1=Operate C08 N LQMEBID = Current MEB side (0=MEB1, 1=MEB2) C08 N / EXPOSURE PARAMETERS LQDIBERR= DIB command error flag C08 N LQEXPSER= Exposure start error flag C08 N LQDIBEXC= DIB exception occurred flag C08 N LQLEVTEX= Local Event Threshold Exceed flag C08 N LQBADMD = Invalid DIB software Mode flag C08 N LQDMATO = DMA Timeout flag C08 N LQEXPTO = Exposure Timeout flag C08 N LQEXPABO= Exposure Aborted flag C08 N LQDFFOV = Number of SD FIFO overflows during exposure I4 N LQNUMSUB= Number of subarrays (1-8) I4 N LQSUB0ST= Subarray 0 Stim Pulse indicator flag C08 N LQSUB1ST= Subarray 1 Stim Pulse indicator flag C08 N LQSUB2ST= Subarray 2 Stim Pulse indicator flag C08 N LQSUB3ST= Subarray 3 Stim Pulse indicator flag C08 N LQSUB4ST= Subarray 4 Stim Pulse indicator flag C08 N LQSUB5ST= Subarray 5 Stim Pulse indicator flag C08 N LQSUB6ST= Subarray 6 Stim Pulse indicator flag C08 N LQSUB7ST= Subarray 7 Stim Pulse indicator flag C08 N LQSUB0XS= Subarray 0 X Size I4 N LQSUB0YS= Subarray 0 Y Size I4 N LQSUB0XC= Subarray 0 X Corner Coordinate I4 N LQSUB0YC= Subarray 0 Y Corner Coordinate I4 N LQSUB1XS= Subarray 1 X Size I4 N LQSUB1YS= Subarray 1 Y Size I4 N LQSUB1XC= Subarray 1 X Corner Coordinate I4 N LQSUB1YC= Subarray 1 Y Corner Coordinate I4 N LQSUB2YS= Subarray 2 Y Size I4 N LQSUB2XC= Subarray 2 X Corner Coordinate I4 N LQSUB2XS= Subarray 2 X Size I4 N LQSUB2YC= Subarray 2 Y Corner Coordinate I4 N LQSUB3XS= Subarray 3 X Size I4 N LQSUB3YS= Subarray 3 Y Size I4 N LQSUB3XC= Subarray 3 X Corner Coordinate I4 N LQSUB3YC= Subarray 3 Y Corner Coordinate I4 N LQSUB4XS= Subarray 4 X Size I4 N LQSUB4YS= Subarray 4 Y Size I4 N LQSUB4XC= Subarray 4 X Corner Coordinate I4 N LQSUB4YC= Subarray 4 Y Corner Coordinate I4 N LQSUB5XS= Subarray 5 X Size I4 N LQSUB5YS= Subarray 5 Y Size I4 N LQSUB5XC= Subarray 5 X Corner Coordinate I4 N LQSUB5YC= Subarray 5 Y Corner Coordinate I4 N LQSUB6XS= Subarray 6 X Size I4 N LQSUB6YS= Subarray 6 Y Size I4 N LQSUB6XC= Subarray 6 X Corner Coordinate I4 N LQSUB6YC= Subarray 6 Y Corner Coordinate I4 N LQSUB7XS= Subarray 7 X Size I4 N LQSUB7YS= Subarray 7 Y Size I4 N LQSUB7XC= Subarray 7 X Corner Coordinate I4 N LQSUB7YC= Subarray 7 Y Corner Coordinate I4 N / DOPPLER CORRECTION INFORMATION LQDOPMAG= Number Pixels of Doppler Correction I4 N LQDOPCOR= Doppler Correction flag C08 N LQDOPZER= Commanded time of zero doppler shift I4 N LQDOPPER= HST orbital doppler correction Period I4 N / MEMORY DUMP DEFINITION LQMDSRC = Memory Dump source 1=DCE, 2=DIB, 3=CS C08 N LQMDWDS = Number of memory words dumped I4 N LQMDADDR= Memory Dump Start Address I4 N / ENGINEERING DIAGNOSTIC DEFINITION LQDDERR = ED Data Error; 0=No error 1=Error C08 N LQDDMODE= ED Diagnostic Data Mode (ANALOG,DIGITAL,DERIVED) C08 N LQDDSAMP= ED number of samples I4 N LQDDPER = ED Sample Period (in 10 msec increments) R8 N LQDDREP = ED Repeat Count I4 N LQDDIT01= Address of ED Diagnostic Item 1 I4 N LQDDIT02= Address of ED Diagnostic Item 2 I4 N LQDDIT03= Address of ED Diagnostic Item 3 I4 N LQDDIT04= Address of ED Diagnostic Item 4 I4 N LQDDIT05= Address of ED Diagnostic Item 5 I4 N LQDDIT06= Address of ED Diagnostic Item 6 I4 N LQDDIT07= Address of ED Diagnostic tem 7 I4 N LQDDIT08= Address of ED Diagnostic Item 8 I4 N LQDDIT09= Address of ED Diagnostic Item 9 I4 N LQDDIT10= Address of ED Diagnostic Item 10 I4 N LQDDIT11= Address of ED Diagnostic Item 11 I4 N LQDDIT12= Address of ED Diagnostic Item 12 I4 N LQDDIT13= Address of ED Diagnostic Item 13 I4 N LQDDIT14= Address of ED Diagnostic Item 14 I4 N LQDDIT15= Address of ED Diagnostic Item 15 I4 N LQDDIT16= Address of ED Diagnostic Item 16 I4 N / CALIBRATION LAMP INFORMATION LQLAMPID= Current Lamp ID (0=D1, 1=D2, 2=P1, 3=P2) C08 N LQPILVL = PtNe lamp current level: lo,med,hi,NotValid(N/V) C08 N LQDILVL = Deuterium Lamp Current Level (lo,med,hi,notVld) C08 N LQPLAMP1= Platinum-Neon Lamp 1 Status 0=off, 1=on C08 N LQPLAMP2= Platinum-Neon Lamp 2 Status 0=off, 1=on C08 N LQDLAMP1= Deuterium Lamp 1 Status 0=off, 1=on C08 N LQDLAMP2= Deuterium Lamp 2 Status 0=off, 1=on C08 N / TDF LOG INFORMATION LQTDFINI= Initial TDF State: 0=TDF down, 1=TDF up C08 N LQTDFSTA= TDF Monitoring Status (Ignore/Look) C08 N LQTDFINT= Number of TDF Interrupts I4 N LQTDFDH = Time of TDF Down: HST Time I4 N LQTDFDC = Time of TDF Down: DIB Coarse Time I4 N LQTDFDF = Time of TDF Down: Fine Time I4 N / TARGET ACQUISITION INFORMATION LQTATYPE= Target Acquisition Type CHR N LQTASTAT= Target Acquisition Status Code C08 N LQTAFLOR= Floored Threshold I4 N LQTAERR = Last Target Acq Err C08 N LQTASCAN= Spiral Scan Size I4 N LQTAFLAG= TA Global Stat Flag C08 N LQTALOCL= TA Local Threshold I4 N LQTAUSEL= Use Local Thresholding(0=No, 1=Yes) C3 N LQTAEMSG= Target Acq Err Msg C08 N LQTAEPHS= Target Acq Err Phase C08 N LQTACENT= Centroid Indicator: 1=FLUXWT,2=FLUXFLR,3=BRIGHT C08 N LQTAPCNT= Percent of max dwell level (for local threshold) I4 N LQTADWLS= Number of dwell points I4 N LQTADSLW= Dispersion Slew R4 N LQTAXSLW= Cross Dispersion Slew I4 N LQTADXCR= Dsrd X Disp Coordin R4 N LQTADYCR= Dsrd Y Coordinate R4 N LQTASTEP= Scan step size I4 N LQTAXCOR= Average cross dispersion coordinate R8 N LQTAYCOR= Average Y Coordinate R8 N LQTATOTL= Event total I4 N LQTAMXCR= Msrd X Disp Coordin R8 N LQTAMYCR= Msrd Y Coordinate R8 N LQTADPOS= Target Dispersion Position I4 N LQTAXPOS= Target Cross Dispersion Position R8 N LQTAXDCS= X dispersion coefficient scale R8 N LQTAXDSC= X dispersion slope coefficient R8 N LQTAXDIC= X dispersion intercept coefficient R8 N LQTAFGRA= OSM1 Grating ID C08 N LQTAFX01= Flux at Dwell Point 1 I4 N LQTAFX02= Flux at Dwell Point 2 I4 N LQTAFX03= Flux at Dwell Point 3 I4 N LQTAFX04= Flux at Dwell Point 4 I4 N LQTAFX05= Flux at Dwell Point 5 I4 N LQTAFX06= Flux at Dwell Point 6 I4 N LQTAFX07= Flux at Dwell Point 7 I4 N LQTAFX08= Flux at Dwell Point 8 I4 N LQTAFX09= Flux at Dwell Point 9 I4 N LQTAFX10= Flux at Dwell Point 10 I4 N LQTAFX11= Flux at Dwell Point 11 I4 N LQTAFX12= Flux at Dwell Point 12 I4 N LQTAFX13= Flux at Dwell Point 13 I4 N LQTAFX14= Flux at Dwell Point 14 I4 N LQTAFX15= Flux at Dwell Point 15 I4 N LQTAFX16= Flux at Dwell Point 16 I4 N LQTAFX17= Flux at Dwell Point 17 I4 N LQTAFX18= Flux at Dwell Point 18 I4 N LQTAFX19= Flux at Dwell Point 19 I4 N LQTAFX20= Flux at Dwell Point 20 I4 N LQTAFX21= Flux at Dwell Point 21 I4 N LQTAFX22= Flux at Dwell Point 22 I4 N LQTAFX23= Flux at Dwell Point 23 I4 N LQTAFX24= Flux at Dwell Point 24 I4 N LQTAFX25= Flux at Dwell Point 25 I4 N LQTAFX26= Flux at Dwell Point 26 I4 N LQTAFX27= Flux at Dwell Point 27 I4 N LQTAFX28= Flux at Dwell Point 28 I4 N LQTAFX29= Flux at Dwell Point 29 I4 N LQTAFX30= Flux at Dwell Point 30 I4 N LQTAFX31= Flux at Dwell Point 31 I4 N LQTAFX32= Flux at Dwell Point 32 I4 N LQTAFX33= Flux at Dwell Point 33 I4 N LQTAFX34= Flux at Dwell Point 34 I4 N LQTAFX35= Flux at Dwell Point 35 I4 N LQTAFX36= Flux at Dwell Point 36 I4 N LQTAFX37= Flux at Dwell Point 37 I4 N LQTAFX38= Flux at Dwell Point 38 I4 N LQTAFX39= Flux at Dwell Point 39 I4 N LQTAFX40= Flux at Dwell Point 40 I4 N LQTAFX41= Flux at Dwell Point 41 I4 N LQTAFX42= Flux at Dwell Point 42 I4 N LQTAFX43= Flux at Dwell Point 43 I4 N LQTAFX44= Flux at Dwell Point 44 I4 N LQTAFX45= Flux at Dwell Point 45 I4 N LQTAFX46= Flux at Dwell Point 46 I4 N LQTAFX47= Flux at Dwell Point 47 I4 N LQTAFX48= Flux at Dwell Point 48 I4 N LQTAFX49= Flux at Dwell Point 49 I4 N END XTENSION= extension type C08 N BITPIX = bits per data value I2 N NAXIS = number of data axes I2 N NAXIS1 = length of first data axis I4 Y PCOUNT = 0 number of group parameters I2 C GCOUNT = 1 number of groups I2 C INHERIT = T inherit the primary header L1 C EXTNAME = extension name C08 N EXTVER = extension version number I2 N ROOTNAME= rootname of the observation set C34 N EXPNAME = 9 character exposure identifier C09 N ASN_MTYP= Role of the Member in the Association C12 N / ENGINEERING DIAGNOSTIC SNAPSHOT 1 lOBSNUM = Observation Number I4 N lCSMEM01= CS Memory Monitor #1 I4 N lCSMEM07= CS Memory Monitor #7 I4 N lNEDCOLL= Normal Engineering Data (NED) collection flag C08 N lLIMCKEN= Limits Checking Enabled flag 0=disabled,1=enabled C08 N lELOGWRP= Error Log wraparound flag 0=no, 1=yes C08 N lBKGDMON= background processing software enabled flag C08 N lDMPSTAT= image or memory dump in progress flag C08 N lCHKSUM = checksum being calculated by FSW flag C08 N lELOGNUM= Last error code processed by FSW I4 N lIMCMDAC= Number of immediate MAR accepted by the FSW I4 N lELOGMSG= Last error parameter processed by FSW I4 N lNRCMDAC= Number of normal MAR accepted by FSW from RIU I4 N lCMDATAC= Number of parameters accepted by FSW since init. I4 N lIPLTHTR= Interface plate heater monitor R4 N lHDRCNT = Number of headers currently stored in EDAC RAM I4 N lCMDFIFO= RIU Command FIFO status flag (full, half, empty) C08 N lSDFFIFO= SDF FIFO status flag (full, half-full, empty) C08 N lTIMETAG= Time Tag image allocated flag I4 N lTCUERR = Time code Update error flag C08 N lDUMPTO = DUMP timeout flag C08 N lSDRESTR= Science Data buffer RESTORE flag C08 N lMACINHB= Normal MAR processing suspended flag C08 N l5VMEC = 5 volt mech dc/dc converter monitor R8 N lOBAFTBT= Optical Bench AFT Bulkhead Temperature R8 N lIMGINSP= Pointer in Img Buff of next image to be inserted I4 N lIN3PANT= Inboard v3 PANel Temp R8 N lFITBT = FITting B Temp R8 N lCSMEM02= CS memory monitor #2 I4 N lCSMEM03= CS memory monitor #3 I4 N lCSMEM04= CS memory monitor #4 I4 N lCSMEM05= CS memory monitor #5 I4 N lCSMEM06= CS memory monitor #6 I4 N lCSMEM08= CS memory monitor #8 I4 N lCSMEM09= CS memory monitor #9 I4 N lCSMEM10= CS memory monitor #10 I4 N lCSMEM11= CS memory monitor #11 I4 N lCSMEM12= CS memory monitor #12 I4 N lDMPWAIT= Time allowed to complete a dump before timeout I4 N lIMCMDPC= Number of immediate MAR processed by FSW I4 N lNUMLINE= Number of SDF lines of img data stored in memory I4 N lNRMQUE = Number of entries in Normal MAR queue I4 N lIMGCNT = Number of images currently stored in CS memory I4 N lDETHTR = DETector HeaTer monitor I4 N lERRCNT = Number of errors sent to the NSSC-I by the FSW I4 N lELOGIND= Index into the internal FSW error log I4 N lBUSWAIT= BUS Wait status flag 0=disbled, 1=enabled C08 N lDOGTIME= Watchdog timer reset hardware enable flag C08 N lINPCLK = Clock input to 82380 chip enabled flag C08 N lTIMGAT0= Gate to external timer 0 enable flag C08 N lTIMGAT1= Gate to external timer 1 enable flag C08 N lTIMGAT2= Gate to external timer 2 enable flag C08 N lDERDIAG= Derived Diagnostic in progress flag C08 N lALGDIAG= Analog Diagnostic in progress flag C08 N lDIGDIAG= Digital Diagnostic in progress flag C08 N lFITAT = FITting A Temp R8 N lMAJFCNT= Major Frame count I4 N lHC15VB = +15 volts from Thermal Control power converter B R8 N lLASTNRM= Number of last normal MAR command processed I4 N lNRCMDPC= Number of normal MAR processed by the FSW I4 N lLSTCKSM= Last checksum or CRC computed by the FSW I4 N lDATQUE = Number of entries in the parameter data queue I4 N lMINFCNT= Minor frame count I4 N lLOOPCNT= Loop counter (to show that a function is running) I4 N lLASTIMM= Number of last immediate MAR command processed I4 N lSESDATA= SES A/D data FIFO empty flag C08 N lSESEMPT= SES A/D address FIFO empty flag C08 N lSESFULL= SES A/D address FIFO full flag C08 N lSESINT = SES hardware data interrupt flag C08 N l15VOP = 15 volt operate converter monitor R8 N l15VMEC = 15 volt monitor for the mech power converter R8 lFITCT = FITting C Temp R8 N lCST = CS Board Temp R8 N l5VOP = 5 volt operate converter monitor R8 N lO3FPANT= Out v3 For PANel Temperature R8 N lIMGEXTP= Pointer to image buffer of next image to extract I4 N lIN2PANT= INboard v2 PANel Tmp R8 N lO2APANT= Out v2 Aft PANel Temperature R8 N lNUVFBT = NUV Front Blkhd Temperature R8 N lHC15VA = +15 volts from Thermal Control power converter A R8 N lCALCVRT= CALib CoVeR Temp R8 N lM15VOP = -15V OPer mode reg R8 N lOBFWDBT= Optical Bench FWD Bulkhead Temperature R8 N lLVPGND1= LVPs GrouND I4 N lSES1GND= SES1 GrND power I4 N lDCDRILM= Auxiliary current limit setting R8 N lMCOMTSK= Mce COMm TaSK active C08 N lRSTFAIL= mce forced RSeT FAIL C08 N lMINITTO= Mce INIT TimeOut C08 N lSESADCS= SES A/D Collctn Stat C08 N lEXPOTIM= commanded EXPOsure TIMe R8 N lBANKNUM= memory mon BANK NUM I4 N lMCMDAC = Mce CoMmanDs ACcpted I4 N lWAIT = Wait in progress C08 N lTIMECOD= TIME CODe update flag C08 N lTDF = Take Data Flag C08 N lTDFRESP= Take Data Flag RESPonse C08 N lSLEWCON= SLEW CONfirmation I4 N lTESTRES= selfTEST RESult C08 N lSLFTEST= Self Test in progress C08 N lLASTDIB= LAST DIB command processed C08 N lIMGDMPD= IMaGes DuMPeD I4 N lEXPOSTA= EXPOsure STAtus C08 N lUPSETCT= mce ser i/f UPSET CT I4 N lNULLIMG= NULL IMaGe counter I4 N lMCMDREJ= Mce CoMmanDs REJcted I4 N lCSPAGE = CS PAGE C08 N lSHPOS = External Shutter position C08 N lCSOPVER= Control Section Operate flight s/w version number I4 N lSHUTRAW= External shutter raw position read switch states C08 N lSHUTRLY= External shutter sensor relays (MEB switches) C08 N lSHPENAB= External shutter primary motor enable readback C08 N lSHPSTAT= External shutter primary mechanism status C08 N lSHBSTAT= External shutter backup mechanism status C08 N lFULLSET= Active FULL setup indicator C08 N lSHBSPD = External shutter backup motor speed R4 N lSHBHOLD= External shutter backup motor commanded holdoff R8 N lNUMSUBS= Number of subarrays currently defined C08 N lSHBMVNG= External shutter backup motor moving status bit C08 N lDETSET = Active Detector setup indicator C08 N lBKMSTCK= Background monitoring stack check flag C08 N lBKMNCRC= Background monitoring CRC check flag C08 N lANCLDIR= Ancillary Stepper Motor Direction readback bit C08 N lANCLSEL= Ancillary Motor Select readback bit C08 N lANCLHLD= Ancillary Motor Holdoff Duration setting I2 N lANCLSPD= Ancillary Motor Speed selection readback bit C08 N lTAPHASE= Last phase(current phase) of target acquisition C08 N lTAGDUMP= Time Tag Dump pointer I4 N lTADWNUM= Current Target ACQ Dwell point number I2 N lTADWCNT= Target ACQ dwell count I2 N lTAGFILL= Time Tag Fill pointer I2 N / FUV DETECTOR ITEMS lDCEDECA= DCE Digitized Event counter A R8 N lDCEDECB= DCE Digitized Event counter B R8 N lDCEFECA= DCE Fast Event Counter A R8 N lDCEFECB= DCE Fast Event Counter B R8 N lDCETIME= DCE Timer R8 N lDCEOPER= DCE boot=0 OPER=1 C08 N lDCEFSWV= DCE Flight Software Version R8 N lDCEWDOG= DCE WatchDOG enabled C08 N lDCEDIGA= DCE DIGitizer volts reference A R8 N lDCEDIGB= DCE DIGitizer volts reference B R8 N lDCESTMA= DCE record of STIM setting to digitizer A C08 N lDCESTMB= DCE record of STIM setting to digitizer B C08 N lDCFHVAN= DCe FHV stat ANalog R8 N lDCIMONA= DCE HV current A R8 N lDCIMONB= DCE HV current B R8 N lDCHVMNA= DCE HV output voltage monitor A R8 N lDCHVMNB= DCE HV output voltage monitor B R8 N lDCEQANA= DCE QHVA status analog R8 N lDCEQANB= DCE QHVB status analog R8 N lDCSTATE= DCE HV State (Off,NomA,NomB,Nom,Low,Und,Set,On) C08 N lDCEILIM= DCE HV current limit setting R8 N lDCHVPWR= DCE HVPS power status bit C08 N lDCEQPWR= DCE HV grid power status bit C08 N lDCCRPCA= DCe Count Rate Protection Counts threshold A R8 N lDCCRPCB= DCe Count Rate Protection Counts threshold B R8 N lDCCRPIA= DCe Count Rate Protection Initialize time A R8 N lDCCRPIB= DCe Count Rate Protection Initialize time B R8 N lDCEAUXI= DCE Auxiliary power supply current R8 N lDCEACTT= DCE ACTuator Temp R8 N lDCAMPAT= DCe AMP A Temperature R8 N lDCAMPBT= DCe AMP B Temperature R8 N lDCETEMP= DCE TEMPerature R8 N lDCDVAAT= DCE Det Vacuum Assy A temperature R8 N lDCDVABT= DCE Det Vacuum Assy B temperature R8 N lDCHVFMT= DCe HVFM Temperature R8 N lDCHVPST= DCe HVPS Temperature R8 N lDCIPT = DCe Ion Pump Temperature R8 N lDCLVPCT= DCe LVPC Temperature R8 N lDCTDCAT= DCe TDC A Temperature R8 N lDCTDCBT= DCe TDC B Temperature R8 N lDCP15TA= DCE +15v TDC A R8 N lDCM15TA= DCE -15v TDC A R8 N lDCP5TA = DCE +5v TDC A R8 N lDCM5TA = DCE -5v TDC A R8 N lDCP15TB= DCE +15v TDC B R8 N lDCM15TB= DCE -15v TDC B R8 N lDCP5TB = DCE +5v TDC B R8 N lDCM5TB = DCE -5v TDC B R8 N lDCP15D = DCE +15v DCE R8 N lDCM15D = DCE -15v DCE R8 N lDCP5DA = DCE +5v DCE A R8 N lDCP5DB = DCE +5v DCE B R8 N lDCP5DC = DCE +5v DCE C R8 N lDCLVPCP= DCe LVPC Power R8 N lDCESDC1= DCE Science Data Port Counter 1 R8 N lDCESDC2= DCE Science Data Port Counter 2 R8 N lDCEPKTC= DCE PacKeT Counter R8 N lDCECMDX= DCE Commands executed counter R8 N lDCELSTC= DCE LaST Command Opcode executed R8 N lDCERMPB= DCE high voltage ramp in progress, segment B C08 N lDCERMPA= DCE high voltage ramp in progress, segment A C08 N lDCECMDR= DCE Commands received counter R8 N lDCECRC = DCE CRC transfer memory (UL/DL or calc result) R8 N lDCERMPT= DCE hv RaMP Time R8 N lDCECOMM= DCE cs COMM tsk stat C08 N lDCEHVEN= DCE HVPS SW enable status C08 N lDPWRSTA= Dce cs PoWeR STAtus C08 N lDCDUPQA= DCE TDC Upper Charge Threshold A R8 N lDCDUPQB= DCE TDC Upper Charge Threshold B R8 N lDCDLOQA= DCE TDC Lower Charge Threshold A R8 N lDCDLOQB= DCE TDC Lower Charge Threshold B R8 N lDCDTTAX= DCE TDC Timing Threshold AX R8 N lDCDTTBX= DCE TDC Timing Threshold BX R8 N lDCDTTAY= DCE TDC Timing Threshold AY R8 N lDCDTTBY= DCE TDC Timing Threshold BY R8 N lDCHVSTA= DCE High Voltage Command Level A R8 N lDCHVSTB= DCE High Voltage Command Level B R8 N lDCHVNMA= DCE HV Nominal Setting A R8 N lDCHVNMB= DCE HV Nominal Setting B R8 N lDCHVTGA= DCE HV Target Level A R8 N lDCHVTGB= DCE HV Target Level B R8 N lDCHVLOA= DCE HV Level for HVLOW Segment A R8 N lDCHVLOB= DCE HV Level for HVLOW Segment B R8 N lDCHVMXA= DCE HV Command Level Maximum A R8 N lDCHVMXB= DCE HV Command Level Maximum B R8 N lDCDBWAX= DCE TDC Begin Walk Adjust AX R8 N lDCDBWBX= DCE TDC Begin Walk Adjust BX R8 N lDCDEWAX= DCE TDC End Walk Adjust AX R8 N lDCDEWBX= DCE TDC End Walk Adjust BX R8 N lDCDBWAY= DCE TDC Begin Walk Adjust AY R8 N lDCDBWBY= DCE TDC Begin Walk Adjust BY R8 N lDCDEWAY= DCE TDC End Walk Adjust AY R8 N lDCDEWBY= DCE TDC End Walk Adjust BY R8 N lDCDSHAX= DCE TDC Image Shift AX R8 N lDCDSHBX= DCE TDC Image Shift BX R8 N lDCDSHAY= DCE TDC Image Shift AY R8 N lDCDSHBY= DCE TDC Image Shift BY R8 N lDCDSTAX= DCE TDC Image Stretch AX R8 N lDCDSTBX= DCE TDC Image Stretch BX R8 N lDCDSTAY= DCE TDC Image Stretch AY R8 N lDCDSTBY= DCE TDC Image Stretch BY R8 N lDCINHIB= DCE-FUV Inhibit mode flag C08 N lDCSHKFL= DCE Saved Housekeeping Buffer Flag C08 N lDCSHKID= DCE Saved Housekeeping Buffer Index I2 N lDCRMDIR= DCE-FUV Detector Door Motor Direction C08 N lDCRMPWR= DCE-FUV Detector Door Motor Power Status C08 N lDCRDPOS= DCE-FUV Detector Door Position Analog I2 N lDCRMENA= DCE-FUV Detector Door Motor Enable Status C08 N lDCRDCLS= DCE-FUV Detector Door CLOSE Status C08 N lDCRDOPN= DCE-FUV Detector Door Motor Power Status C08 N lDCRDLAT= DCE-FUV Detector Door Latch Status C08 N lDCRAXPR= DCE-FUV Detector Auxillary Power Status C08 N lDCRAENA= DCE-FUV Detector Door Actuator Enable Status C08 N lDCRACT1= DCE-FUV Detector Door Actuator Winding #1 Power C08 N lDCRACT2= DCE-FUV Detector Door Actuator Winding #2 Power C08 N lDCRDTMR= DCE-FUV Detector Door Task Countdown Timer I2 N / MAMA SUBSYSTEM TELEMETRY ITEMS lMEVENTS= MAMA event counter R8 N lMMCPV = Mama MCP Voltage R8 N lMPCVOLT= MAMA PC voltage R8 N lMROWCFG= Mama ROW decode CnFG I4 N lMCOLCFG= Mama COL decode CnFG I4 N lMCHAMPT= Mama CHarge AMPlif T R8 N lMDECODT= Mama DECODe pwb Tmp R8 N lMP5V = Mama +5V voltage R8 N lMP5VI = Mama +5V I R8 N lMGLBEXC= Mama GLoB thrs EXCdd C08 N lMGLBERR= Mama GLoBal event ERR C08 N lMCHKSUM= Mama mce CHecKSuM C08 N lMRAMTST= Mama mce RAM TeST C08 N lMINEVER= Mama INteg EVent ERr C08 N lMDOGRST= Mama DOG timer ReSeT C08 N lMHVSOFF= Mama HV Supply OFF C08 N lMSTBY = Mama STandBY mode C08 N lMBSDOVR= Mama BSD OVeRride dis C08 N lMDCDDIS= Mama DeCoDe asic DISab C08 N lMHVENAB= Mama High Voltag ENAB C08 N lMHIVON = Mama HIgh Voltage ON C08 N lMBSDET = Mama Bright Scene DET C08 N lMMCPI = Mama MCP I R8 N lMTHRSV = Mama THReShold Volt R8 N lMHIBIAS= Mama HIgh BIAS volt R8 N lMLOBIAS= Mama LOw BIAS voltag R8 N lMGLBMON= Mama GLoBal MON stat C08 N lMEVTYPE= Mama EVent TYPE C08 N lMGLEVIP= Mama GLob EVnt InPer R8 N lMGLBTHR= Mama GLoBal THResh R8 N lMP15V = Mama +15V voltage R8 N lMP15VI = Mama +15V I R8 N lMM15V = Mama -15V Voltage R8 N lMM15VI = Mama -15V Current R8 N lMMCETMP= Mama MCE TeMP R8 N lMLVPST = Mama LVPS pwb Temp R8 N lPCCMDD = mama PC volt CMDD R8 N lTHRCMDD= mama THRshold v CMDD R8 N lMP8AMPV= Mama +8V AMPlif Volt R8 N lMP8AMPI= Mama +8v AMPlifier I R8 N lMCPLIM = Mama MCP LIMit cmded R8 N lMCPCMDD= Mama MCP volt CMDeD R8 N lMHVPST = Mama HVPS pwb Temp R8 N lMP8VREF= Mama +8V REF voltage R8 N lMP5DISC= Mama+5v DISCrim volt R8 N lMP5VDI = Mama +5V Discrim I R8 N lMM2DISC= Mama-2V DISCrim volt R8 N lMM2VDI = Mama -2V Discrim I R8 N lMCIMCER= Mama Cmd Inhb MCE Rset C08 N lMCIHVOF= Mama Cmd Inhb Hi V OFf C08 N lMSLOSUS= Mama SLOw SUSpd init C08 N lMPWRSTA= Mama cs PoWeR STAtus C08 N / APERTURE RELATED ITEMS lAPXMTRT= Aperture cross-dispersion dir. motor temperature R8 N lAPDMTRT= Aperture dispersion direction motor temperature R8 N lAPXSTAT= Aperture cross-dispersion mechanism status C08 N lAPDSTAT= Aperture dispersion direction mechanism SW status C08 N lAPXSTP = Aperture cross-dispersion dir. SW step position R8 N lAPDSTP = Aperture dispersion direction SW step position R8 N lAPDINHB= Dispersion Aperture power inhibit bits C08 N lAPDPHSB= Disp Aperture motor winding B last phase value I2 N lAPDPHSA= Disp Aperture motor winding A last phase value I2 N lAPXPHSB= X-Disp Aperture motor winding B last phase value I2 N lAPXPHSA= X-Disp Aperture motor winding A last phase value I2 N lAPXSPD = Aperture cross-dispersion dir. commanded speed R4 N lAPXHOLD= Aperture cross-dispersion dir. commanded holdoff R8 N lAPDMTRI= Aperture dispersion direction motor current C08 N lAPDOVRD= Aperture dispersion direction mechanism override C08 N lAPXOVRD= Aperture cross-dispersion dir. mechanism override C08 N lAPDMVNG= Aperture dispersion dir. motor moving status bit C08 N lAPXMVNG= Aperture cross-dispersion motor moving status bit C08 N lAPXRLAY= X-Disp Aperture motor relay closed readback bit C08 N lAPDRLAY= Disp Aperture motor relay closed readback bit C08 N lAPXINHB= Cross-Dispersion Aperture power inhibit bits C08 N lAPMPOS = Aperture mechanism position C08 N lAPXMTRI= Aperture cross-dispersion direction motor current C08 N lAPDSPD = Aperture dispersion direction commanded speed R4 N lAPDHOLD= Aperture dispersion direction commanded holdoff R8 N lAPDOVHT= Aperture dispersion direction mechanism overheat C08 N lAPXOVHT= Aperture cross-dispersion dir. mechanism overheat C08 N lAPXLVDT= Aperture cross-disp. LVDT, raw resolver position I4 N lAPDLVDT= Aperture dispersion LVDT, raw resolver position I4 N / OPTICS SELECT MECHANISM ITEMS lOM1MTRT= OSM1 motor temperature R8 N lOM2MTRT= OSM2 motor temperature R8 N lOMFMTRT= OSM1 Focus motor temperature R8 N lOM1STAT= OSM1 mechanism status C08 N lOM2STAT= OSM2 mechanism status C08 N lOMFLVDT= OSM1 Focus motor LVDT I2 N lOMFSTAT= OSM1 Focus mechanism status C08 N lOM1POSC= OSM1 resolver coarse position I4 N lOM2POSC= OSM2 resolver coarse position I4 N lOM1POSF= OSM1 resolver fine position I4 N lOM2POSF= OSM2 resolver fine position I4 N lOM1STP = OSM1 motor SW step position R8 N lOM2STP = OSM2 motor step position R8 N lOMFSTP = OSM1 Focus motor step position R8 N lOMFPHSB= OSM1 Focus motor winding B last phase value I2 N lOMFPHSA= OSM1 Focus motor winding A last phase value I2 N lOSMLAMB= OSM Grating central wavelength I4 N lOSMOFST= OSM Absolute move offset parameter C08 N lOSMDIR = OSM Stepper motor direction bit C08 N lOSMSPED= OSM motor speed selection readback bits C08 N lOSMHOLD= OSM motor holdoff duration setting readback C08 N lOSMSEL = OSM motor select readback bits C08 N lOSM1POS= OSM mechanism position C8 N lOSM2POS= OSM mechanism position C8 N lOM1MVNG= OSM1 mechanism moving status bit C08 N lOM2MVNG= OSM2 mechanism moving status bit C08 N lOM2PHSB= OSM2 motor winding B last phase value I2 N lOM2PHSA= OSM2 motor winding A last phase value I2 N lOM1PHSB= OSM1 motor winding B last phase value I2 N lOM1PHSA= OSM1 motor winding A last phase value I2 N lOM2INHC= OSM2 course resolver inhibit readback bit C08 N lOM2INHF= OSM2 fine resolver inhibit readback bit C08 N lOM1INHC= OSM1 course resolver inhibit readback bit C08 N lOM1INHF= OSM1 fine resolver inhibit readback bit C08 N lOM1RLY = OSM1 motor relay closed readback bit C08 N lOM2RLY = OSM2 motor relay closed readback bit C08 N lOMFRLAY= OSM1 focus motor relay closed readback bit C08 N lOMFMVNG= OSM1 Focus mechanism moving status bit C08 N lOM1OVRD= OSM1 mechanism override C08 N lOM2OVRD= OSM2 mechanism override C08 N lOMFOVRD= OSM1 Focus mechanism override C08 N lOM1SPD = OSM1 commanded speed R4 N lOM2SPD = OSM2 commanded speed R4 N lOMFSPD = OSM1 Focus commanded speed R4 N lOM1HOLD= OSM1 commanded holdoff R8 N lOM2HOLD= OSM2 commanded holdoff R8 N lOMFHOLD= OSM1 Focus commanded holdoff R8 N lOM1INHB= OSM1 motor inhibit C08 N lOM2INHB= OSM2 motor inhibit C08 N lOMFINHB= OSM1 Focus motor inhibit C08 N lOM1OVHT= OSM1 mechanism overheat C08 N lOM2OVHT= OSM2 mechanism overheat C08 N lOMFOVHT= OSM1 Focus mechanism overheat C08 N / CALIBRATION LAMP ITEMS lPNLMP1I= Pt/Ne Lamp 1 current monitor I4 N lPNLMP2I= Pt/Ne Lamp 2 current monitor I4 N lD2LMP1T= D2 LaMP 1 Temp R8 N lD2LMP2T= Deuterium lamp secondary Temp R8 N lD2LMP1I= Deuterium 2 Lamp 1 current monitor R8 N lD2LMP2I= Deuterium 2 Lamp 2 current monitor R8 N lPNLMP1T= PtNe LaMP 1 Temperature R8 N lPNLMP2T= PtNe LaMP 2 Temperature R8 N lCLGND1 = Cal Lamp GND 1 I4 N lCL30V = Cal Lamp +30 V R8 N lCL30VI = +30 volt Cal Lamp current monitor R8 N lD2ILVL = Deuterium lamps current setting C08 N lPNILVL = Platinum-neon lamps current setting C08 N lD2ENA1 = Deuterium lamp 1 enable bit C08 N lD2ENA2 = Deuterium lamp 2 enable bit C08 N lPNENA1 = Platinum-neon lamp 1 enable bit C08 N lPNENA2 = Platinum-neon lamp 2 enable bit C08 N lCLCRLAY= Cal lamp relay position C08 N / DIB ITEMS lDIBT = DIB Board Temperature R8 N lDIBCTIM= Coarse TIMe I4 N lDLSTERR= Dib LaST ERRor C08 N lDIBERRC= DIB ERRor Counter I4 N lDIBCNTR= DIB reset CouNTeR I4 N lDIBRSET= DIB reason for ReSET I4 N lDICMDAC= DIb CoMmanDs Accepted I4 N lDICMDPC= DIb CoMmanDs ProCessed I4 N lDIBEXPO= DIB EXPOsure in progress C08 N lDMATO = dib DMA TimeOut C08 N lDIBWAIT= DIB WAIT state C08 N lDIBINIT= DIB INITialize stat C08 N lDBUSERR= Dib BUS ERRor count I4 N lDLOCEXC= Dib LOCal thr EXCdd C08 N lDEVTERR= Dib EVnT check ERRor C08 N lDOVRFLW= Dib scidata OVeRFLoW C08 N lDIBTLM = DIB TeLeMtry enabled C08 N lDIBPAGE= DIB PAGing status C08 N lDEVTCHK= Dib EVnT CHK in prog C08 N lDIBMODE= DIB fsw MODE C08 N END XTENSION= extension type C08 N BITPIX = bits per data value I2 N NAXIS = number of data axes I2 N NAXIS1 = length of first data axis I4 Y PCOUNT = 0 number of group parameters I2 C GCOUNT = 1 number of groups I2 C INHERIT = T inherit the primary header L1 C EXTNAME = extension name C08 N EXTVER = extension version number I2 N ROOTNAME= rootname of the observation set C34 N EXPNAME = 9 character exposure identifier C09 N ASN_MTYP= Role of the Member in the Association C12 N / ENGINEERING DIAGNOSTIC SNAPSHOT 2 LOBSNUM = Observation Number I4 N LCSMEM01= CS Memory Monitor #1 I4 N LCSMEM07= CS Memory Monitor #7 I4 N LNEDCOLL= Normal Engineering Data (NED) collection flag C08 N LLIMCKEN= Limits Checking Enabled flag 0=disabled,1=enabled C08 N LELOGWRP= Error Log wraparound flag 0=no, 1=yes C08 N LBKGDMON= background processing software enabled flag C08 N LDMPSTAT= image or memory dump in progress flag C08 N LCHKSUM = checksum being calculated by FSW flag C08 N LELOGNUM= Last error code processed by FSW I4 N LIMCMDAC= Number of immediate MAR accepted by the FSW I4 N LELOGMSG= Last error parameter processed by FSW I4 N LNRCMDAC= Number of normal MAR accepted by FSW from RIU I4 N LCMDATAC= Number of parameters accepted by FSW since init. I4 N LIPLTHTR= Interface plate heater monitor R4 N LHDRCNT = Number of headers currently stored in EDAC RAM I4 N LCMDFIFO= RIU Command FIFO status flag (full, half, empty) C08 N LSDFFIFO= SDF FIFO status flag (full, half-full, empty) C08 N LTIMETAG= Time Tag image allocated flag I4 N LTCUERR = Time code Update error flag C08 N LDUMPTO = DUMP timeout flag C08 N LSDRESTR= Science Data buffer RESTORE flag C08 N LMACINHB= Normal MAR processing suspended flag C08 N L5VMEC = 5 volt mech dc/dc converter monitor R8 N LOBAFTBT= Optical Bench AFT Bulkhead Temperature R8 N LIMGINSP= Pointer in Img Buff of next image to be inserted I4 N LIN3PANT= Inboard v3 PANel Temp R8 N LFITBT = FITting B Temp R8 N LCSMEM02= CS memory monitor #2 I4 N LCSMEM03= CS memory monitor #3 I4 N LCSMEM04= CS memory monitor #4 I4 N LCSMEM05= CS memory monitor #5 I4 N LCSMEM06= CS memory monitor #6 I4 N LCSMEM08= CS memory monitor #8 I4 N LCSMEM09= CS memory monitor #9 I4 N LCSMEM10= CS memory monitor #10 I4 N LCSMEM11= CS memory monitor #11 I4 N LCSMEM12= CS memory monitor #12 I4 N LDMPWAIT= Time allowed to complete a dump before timeout I4 N LIMCMDPC= Number of immediate MAR processed by FSW I4 N LNUMLINE= Number of SDF lines of img data stored in memory I4 N LNRMQUE = Number of entries in Normal MAR queue I4 N LIMGCNT = Number of images currently stored in CS memory I4 N LDETHTR = DETector HeaTer monitor I4 N LERRCNT = Number of errors sent to the NSSC-I by the FSW I4 N LELOGIND= Index into the internal FSW error log I4 N LBUSWAIT= BUS Wait status flag 0=disbled, 1=enabled C08 N LDOGTIME= Watchdog timer reset hardware enable flag C08 N LINPCLK = Clock input to 82380 chip enabled flag C08 N LTIMGAT0= Gate to external timer 0 enable flag C08 N LTIMGAT1= Gate to external timer 1 enable flag C08 N LTIMGAT2= Gate to external timer 2 enable flag C08 N LDERDIAG= Derived Diagnostic in progress flag C08 N LALGDIAG= Analog Diagnostic in progress flag C08 N LDIGDIAG= Digital Diagnostic in progress flag C08 N LFITAT = FITting A Temp R8 N LMAJFCNT= Major Frame count I4 N LHC15VB = +15 volts from Thermal Control power converter B R8 N LLASTNRM= Number of last normal MAR command processed I4 N LNRCMDPC= Number of normal MAR processed by the FSW I4 N LLSTCKSM= Last checksum or CRC computed by the FSW I4 N LDATQUE = Number of entries in the parameter data queue I4 N LMINFCNT= Minor frame count I4 N LLOOPCNT= Loop counter (to show that a function is running) I4 N LLASTIMM= Number of last immediate MAR command processed I4 N LSESDATA= SES A/D data FIFO empty flag C08 N LSESEMPT= SES A/D address FIFO empty flag C08 N LSESFULL= SES A/D address FIFO full flag C08 N LSESINT = SES hardware data interrupt flag C08 N L15VOP = 15 volt operate converter monitor R8 N L15VMEC = 15 volt monitor for the mech power converter R8 N LFITCT = FITting C Temp R8 N LCST = CS Board Temp R8 N L5VOP = 5 volt operate converter monitor R8 N LO3FPANT= Out v3 For PANel Temperature R8 N LIMGEXTP= Pointer to image buffer of next image to extract I4 N LIN2PANT= INboard v2 PANel Tmp R8 N LO2APANT= Out v2 Aft PANel Temperature R8 N LNUVFBT = NUV Front Blkhd Temperature R8 N LHC15VA = +15 volts from Thermal Control power converter A R8 N LCALCVRT= CALib CoVeR Temp R8 N LM15VOP = -15V OPer mode reg R8 N LOBFWDBT= Optical Bench FWD Bulkhead Temperature R8 N LLVPGND1= LVPs GrouND I4 N LSES1GND= SES1 GrND power I4 N LDCDRILM= Auxiliary current limit setting R8 N LMCOMTSK= Mce COMm TaSK active C08 N LRSTFAIL= mce forced RSeT FAIL C08 N LMINITTO= Mce INIT TimeOut C08 N LSESADCS= SES A/D Collctn Stat C08 N LEXPOTIM= commanded EXPOsure TIMe R8 N LBANKNUM= memory mon BANK NUM I4 N LMCMDAC = Mce CoMmanDs ACcpted I4 N LWAIT = Wait in progress C08 N LTIMECOD= TIME CODe update flag C08 N LTDF = Take Data Flag C08 N LTDFRESP= Take Data Flag RESPonse C08 N LSLEWCON= SLEW CONfirmation I4 N LTESTRES= selfTEST RESult C08 N LSLFTEST= Self Test in progress C08 N LLASTDIB= LAST DIB command processed C08 N LIMGDMPD= IMaGes DuMPeD I4 N LEXPOSTA= EXPOsure STAtus C08 N LUPSETCT= mce ser i/f UPSET CT I4 N LNULLIMG= NULL IMaGe counter I4 N LMCMDREJ= Mce CoMmanDs REJcted I4 N LCSPAGE = CS PAGE C08 N LSHPOS = External Shutter position C08 N LCSOPVER= Control Section Operate flight s/w version number I4 N LSHUTRAW= External shutter raw position read switch states C08 N LSHUTRLY= External shutter sensor relays (MEB switches) C08 N LSHPENAB= External shutter primary motor enable readback C08 N LSHPSTAT= External shutter primary mechanism status C08 N LSHBSTAT= External shutter backup mechanism status C08 N LFULLSET= Active FULL setup indicator C08 N LSHBSPD = External shutter backup motor speed R4 N LSHBHOLD= External shutter backup motor commanded holdoff R8 N LNUMSUBS= Number of subarrays currently defined C08 N LSHBMVNG= External shutter backup motor moving status bit C08 N LDETSET = Active Detector setup indicator C08 N LBKMSTCK= Background monitoring stack check flag C08 N LBKMNCRC= Background monitoring CRC check flag C08 N LANCLDIR= Ancillary Stepper Motor Direction readback bit C08 N LANCLSEL= Ancillary Motor Select readback bit C08 N LANCLHLD= Ancillary Motor Holdoff Duration setting I2 N LANCLSPD= Ancillary Motor Speed selection readback bit C08 N LTAPHASE= Last phase(current phase) of target acquisition C08 N LTAGDUMP= Time Tag Dump pointer I4 N LTADWNUM= Current Target ACQ Dwell point number I2 N LTADWCNT= Target ACQ dwell count I2 N LTAGFILL= Time Tag Fill pointer I2 N / FUV DETECTOR ITEMS LDCEDECA= DCE Digitized Event counter A R8 N LDCEDECB= DCE Digitized Event counter B R8 N LDCEFECA= DCE Fast Event Counter A R8 N LDCEFECB= DCE Fast Event Counter B R8 N LDCETIME= DCE Timer R8 N LDCEOPER= DCE boot=0 OPER=1 C08 N LDCEFSWV= DCE Flight Software Version R8 N LDCEWDOG= DCE WatchDOG enabled C08 N LDCEDIGA= DCE DIGitizer volts reference A R8 N LDCEDIGB= DCE DIGitizer volts reference B R8 N LDCESTMA= DCE record of STIM setting to digitizer A C08 N LDCESTMB= DCE record of STIM setting to digitizer B C08 N LDCFHVAN= DCe FHV stat ANalog R8 N LDCIMONA= DCE HV current A R8 N LDCIMONB= DCE HV current B R8 N LDCHVMNA= DCE HV output voltage monitor A R8 N LDCHVMNB= DCE HV output voltage monitor B R8 N LDCEQANA= DCE QHVA status analog R8 N LDCEQANB= DCE QHVB status analog R8 N LDCSTATE= DCE HV State (Off,NomA,NomB,Nom,Low,Und,Set,On) C08 N LDCEILIM= DCE HV current limit setting R8 N LDCHVPWR= DCE HVPS power status bit C08 N LDCEQPWR= DCE HV grid power status bit C08 N LDCCRPCA= DCe Count Rate Protection Counts threshold A R8 N LDCCRPCB= DCe Count Rate Protection Counts threshold B R8 N LDCCRPIA= DCe Count Rate Protection Initialize time A R8 N LDCCRPIB= DCe Count Rate Protection Initialize time B R8 N LDCEAUXI= DCE Auxiliary power supply current R8 N LDCEACTT= DCE ACTuator Temp R8 N LDCAMPAT= DCe AMP A Temperature R8 N LDCAMPBT= DCe AMP B Temperature R8 N LDCETEMP= DCE TEMPerature R8 N LDCDVAAT= DCE Det Vacuum Assy A temperature R8 N LDCDVABT= DCE Det Vacuum Assy B temperature R8 N LDCHVFMT= DCe HVFM Temperature R8 N LDCHVPST= DCe HVPS Temperature R8 N LDCIPT = DCe Ion Pump Temperature R8 N LDCLVPCT= DCe LVPC Temperature R8 N LDCTDCAT= DCe TDC A Temperature R8 N LDCTDCBT= DCe TDC B Temperature R8 N LDCP15TA= DCE +15v TDC A R8 N LDCM15TA= DCE -15v TDC A R8 N LDCP5TA = DCE +5v TDC A R8 N LDCM5TA = DCE -5v TDC A R8 N LDCP15TB= DCE +15v TDC B R8 N LDCM15TB= DCE -15v TDC B R8 N LDCP5TB = DCE +5v TDC B R8 N LDCM5TB = DCE -5v TDC B R8 N LDCP15D = DCE +15v DCE R8 N LDCM15D = DCE -15v DCE R8 N LDCP5DA = DCE +5v DCE A R8 N LDCP5DB = DCE +5v DCE B R8 N LDCP5DC = DCE +5v DCE C R8 N LDCLVPCP= DCe LVPC Power R8 N LDCESDC1= DCE Science Data Port Counter 1 R8 N LDCESDC2= DCE Science Data Port Counter 2 R8 N LDCEPKTC= DCE PacKeT Counter R8 N LDCECMDX= DCE Commands executed counter R8 N LDCELSTC= DCE LaST Command Opcode executed R8 N LDCERMPB= DCE high voltage ramp in progress, segment B C08 N LDCERMPA= DCE high voltage ramp in progress, segment A C08 N LDCECMDR= DCE Commands received counter R8 N LDCECRC = DCE CRC transfer memory (UL/DL or calc result) R8 N LDCERMPT= DCE hv RaMP Time R8 N LDCECOMM= DCE cs COMM tsk stat C08 N LDCEHVEN= DCE HVPS SW enable status C08 N LDPWRSTA= Dce cs PoWeR STAtus C08 N LDCDUPQA= DCE TDC Upper Charge Threshold A R8 N LDCDUPQB= DCE TDC Upper Charge Threshold B R8 N LDCDLOQA= DCE TDC Lower Charge Threshold A R8 N LDCDLOQB= DCE TDC Lower Charge Threshold B R8 N LDCDTTAX= DCE TDC Timing Threshold AX R8 N LDCDTTBX= DCE TDC Timing Threshold BX R8 N LDCDTTAY= DCE TDC Timing Threshold AY R8 N LDCDTTBY= DCE TDC Timing Threshold BY R8 N LDCHVSTA= DCE High Voltage Command Level A R8 N LDCHVSTB= DCE High Voltage Command Level B R8 N LDCHVNMA= DCE HV Nominal Setting A R8 N LDCHVNMB= DCE HV Nominal Setting B R8 N LDCHVTGA= DCE HV Target Level A R8 N LDCHVTGB= DCE HV Target Level B R8 N LDCHVLOA= DCE HV Level for HVLOW Segment A R8 N LDCHVLOB= DCE HV Level for HVLOW Segment B R8 N LDCHVMXA= DCE HV Command Level Maximum A R8 N LDCHVMXB= DCE HV Command Level Maximum B R8 N LDCDBWAX= DCE TDC Begin Walk Adjust AX R8 N LDCDBWBX= DCE TDC Begin Walk Adjust BX R8 N LDCDEWAX= DCE TDC End Walk Adjust AX R8 N LDCDEWBX= DCE TDC End Walk Adjust BX R8 N LDCDBWAY= DCE TDC Begin Walk Adjust AY R8 N LDCDBWBY= DCE TDC Begin Walk Adjust BY R8 N LDCDEWAY= DCE TDC End Walk Adjust AY R8 N LDCDEWBY= DCE TDC End Walk Adjust BY R8 N LDCDSHAX= DCE TDC Image Shift AX R8 N LDCDSHBX= DCE TDC Image Shift BX R8 N LDCDSHAY= DCE TDC Image Shift AY R8 N LDCDSHBY= DCE TDC Image Shift BY R8 N LDCDSTAX= DCE TDC Image Stretch AX R8 N LDCDSTBX= DCE TDC Image Stretch BX R8 N LDCDSTAY= DCE TDC Image Stretch AY R8 N LDCDSTBY= DCE TDC Image Stretch BY R8 N LDCINHIB= DCE-FUV Inhibit mode flag C08 N LDCSHKFL= DCE Saved Housekeeping Buffer Flag C08 N LDCSHKID= DCE Saved Housekeeping Buffer Index I2 N LDCRMDIR= DCE-FUV Detector Door Motor Direction C08 N LDCRMPWR= DCE-FUV Detector Door Motor Power Status C08 N LDCRDPOS= DCE-FUV Detector Door Position Analog I2 N LDCRMENA= DCE-FUV Detector Door Motor Enable Status C08 N LDCRDCLS= DCE-FUV Detector Door CLOSE Status C08 N LDCRDOPN= DCE-FUV Detector Door Motor Power Status C08 N LDCRDLAT= DCE-FUV Detector Door Latch Status C08 N LDCRAXPR= DCE-FUV Detector Auxillary Power Status C08 N LDCRAENA= DCE-FUV Detector Door Actuator Enable Status C08 N LDCRACT1= DCE-FUV Detector Door Actuator Winding #1 Power C08 N LDCRACT2= DCE-FUV Detector Door Actuator Winding #2 Power C08 N LDCRDTMR= DCE-FUV Detector Door Task Countdown Timer I2 N / MAMA SUBSYSTEM TELEMETRY ITEMS LMEVENTS= MAMA event counter R8 N LMMCPV = Mama MCP Voltage R8 N LMPCVOLT= MAMA PC voltage R8 N LMROWCFG= Mama ROW decode CnFG I4 N LMCOLCFG= Mama COL decode CnFG I4 N LMCHAMPT= Mama CHarge AMPlif T R8 N LMDECODT= Mama DECODe pwb Tmp R8 N LMP5V = Mama +5V voltage R8 N LMP5VI = Mama +5V I R8 N LMGLBEXC= Mama GLoB thrs EXCdd C08 N LMGLBERR= Mama GLoBal event ERR C08 N LMCHKSUM= Mama mce CHecKSuM C08 N LMRAMTST= Mama mce RAM TeST C08 N LMINEVER= Mama INteg EVent ERr C08 N LMDOGRST= Mama DOG timer ReSeT C08 N LMHVSOFF= Mama HV Supply OFF C08 N LMSTBY = Mama STandBY mode C08 N LMBSDOVR= Mama BSD OVeRride dis C08 N LMDCDDIS= Mama DeCoDe asic DISab C08 N LMHVENAB= Mama High Voltag ENAB C08 N LMHIVON = Mama HIgh Voltage ON C08 N LMBSDET = Mama Bright Scene DET C08 N LMMCPI = Mama MCP I R8 N LMTHRSV = Mama THReShold Volt R8 N LMHIBIAS= Mama HIgh BIAS volt R8 N LMLOBIAS= Mama LOw BIAS voltag R8 N LMGLBMON= Mama GLoBal MON stat C08 N LMEVTYPE= Mama EVent TYPE C08 N LMGLEVIP= Mama GLob EVnt InPer R8 N LMGLBTHR= Mama GLoBal THResh R8 N LMP15V = Mama +15V voltage R8 N LMP15VI = Mama +15V I R8 N LMM15V = Mama -15V Voltage R8 N LMM15VI = Mama -15V Current R8 N LMMCETMP= Mama MCE TeMP R8 N LMLVPST = Mama LVPS pwb Temp R8 N LPCCMDD = mama PC volt CMDD R8 N LTHRCMDD= mama THRshold v CMDD R8 N LMP8AMPV= Mama +8V AMPlif Volt R8 N LMP8AMPI= Mama +8v AMPlifier I R8 N LMCPLIM = Mama MCP LIMit cmded R8 N LMCPCMDD= Mama MCP volt CMDeD R8 N LMHVPST = Mama HVPS pwb Temp R8 N LMP8VREF= Mama +8V REF voltage R8 N LMP5DISC= Mama+5v DISCrim volt R8 N LMP5VDI = Mama +5V Discrim I R8 N LMM2DISC= Mama-2V DISCrim volt R8 N LMM2VDI = Mama -2V Discrim I R8 N LMCIMCER= Mama Cmd Inhb MCE Rset C08 N LMCIHVOF= Mama Cmd Inhb Hi V OFf C08 N LMSLOSUS= Mama SLOw SUSpd init C08 N LMPWRSTA= Mama cs PoWeR STAtus C08 N / APERTURE RELATED ITEMS LAPXMTRT= Aperture cross-dispersion dir. motor temperature R8 N LAPDMTRT= Aperture dispersion direction motor temperature R8 N LAPXSTAT= Aperture cross-dispersion mechanism status C08 N LAPDSTAT= Aperture dispersion direction mechanism SW status C08 N LAPXSTP = Aperture cross-dispersion dir. SW step position R8 N LAPDSTP = Aperture dispersion direction SW step position R8 N LAPDINHB= Dispersion Aperture power inhibit bits C08 N LAPDPHSB= Disp Aperture motor winding B last phase value I2 N LAPDPHSA= Disp Aperture motor winding A last phase value I2 N LAPXPHSB= X-Disp Aperture motor winding B last phase value I2 N LAPXPHSA= X-Disp Aperture motor winding A last phase value I2 N LAPXSPD = Aperture cross-dispersion dir. commanded speed R4 N LAPXHOLD= Aperture cross-dispersion dir. commanded holdoff R8 N LAPDMTRI= Aperture dispersion direction motor current C08 N LAPDOVRD= Aperture dispersion direction mechanism override C08 N LAPXOVRD= Aperture cross-dispersion dir. mechanism override C08 N LAPDMVNG= Aperture dispersion dir. motor moving status bit C08 N LAPXMVNG= Aperture cross-dispersion motor moving status bit C08 N LAPXRLAY= X-Disp Aperture motor relay closed readback bit C08 N LAPDRLAY= Disp Aperture motor relay closed readback bit C08 N LAPXINHB= Cross-Dispersion Aperture power inhibit bits C08 N LAPMPOS = Aperture mechanism position C08 N LAPXMTRI= Aperture cross-dispersion direction motor current C08 N LAPDSPD = Aperture dispersion direction commanded speed R4 N LAPDHOLD= Aperture dispersion direction commanded holdoff R8 N LAPDOVHT= Aperture dispersion direction mechanism overheat C08 N LAPXOVHT= Aperture cross-dispersion dir. mechanism overheat C08 N LAPXLVDT= Aperture cross-disp. LVDT, raw resolver position I4 N LAPDLVDT= Aperture dispersion LVDT, raw resolver position I4 N / OPTICS SELECT MECHANISM ITEMS LOM1MTRT= OSM1 motor temperature R8 N LOM2MTRT= OSM2 motor temperature R8 N LOMFMTRT= OSM1 Focus motor temperature R8 N LOM1STAT= OSM1 mechanism status C08 N LOM2STAT= OSM2 mechanism status C08 N LOMFLVDT= OSM1 Focus motor LVDT I2 N LOMFSTAT= OSM1 Focus mechanism status C08 N LOM1POSC= OSM1 resolver coarse position I4 N LOM2POSC= OSM2 resolver coarse position I4 N LOM1POSF= OSM1 resolver fine position I4 N LOM2POSF= OSM2 resolver fine position I4 N LOM1STP = OSM1 motor SW step position R8 N LOM2STP = OSM2 motor step position R8 N LOMFSTP = OSM1 Focus motor step position R8 N LOMFPHSB= OSM1 Focus motor winding B last phase value I2 N LOMFPHSA= OSM1 Focus motor winding A last phase value I2 N LOSMLAMB= OSM Grating central wavelength I4 N LOSMOFST= OSM Absolute move offset parameter C08 N LOSMDIR = OSM Stepper motor direction bit C08 N LOSMSPED= OSM motor speed selection readback bits C08 N LOSMHOLD= OSM motor holdoff duration setting readback C08 N LOSMSEL = OSM motor select readback bits C08 N LOSM1POS= OSM mechanism position C8 N LOSM2POS= OSM mechanism position C8 N LOM1MVNG= OSM1 mechanism moving status bit C08 N LOM2MVNG= OSM2 mechanism moving status bit C08 N LOM2PHSB= OSM2 motor winding B last phase value I2 N LOM2PHSA= OSM2 motor winding A last phase value I2 N LOM1PHSB= OSM1 motor winding B last phase value I2 N LOM1PHSA= OSM1 motor winding A last phase value I2 N LOM2INHC= OSM2 course resolver inhibit readback bit C08 N LOM2INHF= OSM2 fine resolver inhibit readback bit C08 N LOM1INHC= OSM1 course resolver inhibit readback bit C08 N LOM1INHF= OSM1 fine resolver inhibit readback bit C08 N LOM1RLY = OSM1 motor relay closed readback bit C08 N LOM2RLY = OSM2 motor relay closed readback bit C08 N LOMFRLAY= OSM1 focus motor relay closed readback bit C08 N LOMFMVNG= OSM1 Focus mechanism moving status bit C08 N LOM1OVRD= OSM1 mechanism override C08 N LOM2OVRD= OSM2 mechanism override C08 N LOMFOVRD= OSM1 Focus mechanism override C08 N LOM1SPD = OSM1 commanded speed R4 N LOM2SPD = OSM2 commanded speed R4 N LOMFSPD = OSM1 Focus commanded speed R4 N LOM1HOLD= OSM1 commanded holdoff R8 N LOM2HOLD= OSM2 commanded holdoff R8 N LOMFHOLD= OSM1 Focus commanded holdoff R8 N LOM1INHB= OSM1 motor inhibit C08 N LOM2INHB= OSM2 motor inhibit C08 N LOMFINHB= OSM1 Focus motor inhibit C08 N LOM1OVHT= OSM1 mechanism overheat C08 N LOM2OVHT= OSM2 mechanism overheat C08 N LOMFOVHT= OSM1 Focus mechanism overheat C08 N / CALIBRATION LAMP ITEMS LPNLMP1I= Pt/Ne Lamp 1 current monitor I4 N LPNLMP2I= Pt/Ne Lamp 2 current monitor I4 N LD2LMP1T= D2 LaMP 1 Temp R8 N LD2LMP2T= Deuterium lamp secondary Temp R8 N LD2LMP1I= Deuterium 2 Lamp 1 current monitor R8 N LD2LMP2I= Deuterium 2 Lamp 2 current monitor R8 N LPNLMP1T= PtNe LaMP 1 Temperature R8 N LPNLMP2T= PtNe LaMP 2 Temperature R8 N LCLGND1 = Cal Lamp GND 1 I4 N LCL30V = Cal Lamp +30 V R8 N LCL30VI = +30 volt Cal Lamp current monitor R8 N LD2ILVL = Deuterium lamps current setting C08 N LPNILVL = Platinum-neon lamps current setting C08 N LD2ENA1 = Deuterium lamp 1 enable bit C08 N LD2ENA2 = Deuterium lamp 2 enable bit C08 N LPNENA1 = Platinum-neon lamp 1 enable bit C08 N LPNENA2 = Platinum-neon lamp 2 enable bit C08 N LCLCRLAY= Cal lamp relay position C08 N / DIB ITEMS LDIBT = DIB Board Temperature R8 N LDIBCTIM= Coarse TIMe I4 N LDLSTERR= Dib LaST ERRor C08 N LDIBERRC= DIB ERRor Counter I4 N LDIBCNTR= DIB reset CouNTeR I4 N LDIBRSET= DIB reason for ReSET I4 N LDICMDAC= DIb CoMmanDs Accepted I4 N LDICMDPC= DIb CoMmanDs ProCessed I4 N LDIBEXPO= DIB EXPOsure in progress C08 N LDMATO = dib DMA TimeOut C08 N LDIBWAIT= DIB WAIT state C08 N LDIBINIT= DIB INITialize stat C08 N LDBUSERR= Dib BUS ERRor count I4 N LDLOCEXC= Dib LOCal thr EXCdd C08 N LDEVTERR= Dib EVnT check ERRor C08 N LDOVRFLW= Dib scidata OVeRFLoW C08 N LDIBTLM = DIB TeLeMtry enabled C08 N LDIBPAGE= DIB PAGing status C08 N LDEVTCHK= Dib EVnT CHK in prog C08 N LDIBMODE= DIB fsw MODE C08 N END