mSWSB00020521.fits[2048,2048][double]: Ohashi_Mask No bad pixels, min=0., max=0. (old) Line storage mode, physdim [2048,2048], length of user area 16403 s.u. Created Thu 12:57:20 31-Oct-2019, Last modified Thu 12:57:20 31-Oct-2019 Pixel file "mSWSB00020521.fits" [ok] EXTEND = T / Presence of FITS extension COMMENT ++++++++++ SUBARU COMMON COMMENT --------- About This Data DATASET = '##NODATA##' / ID of an observation dataset FRAMEID = 'SWSB00020521' / Image sequential number EXP-ID = 'SWSB00020521' / ID of the exposure this data was taken OBS-ALOC= 'Observation' / Allocation mode (STAND-BY/OBSERVATION) COMMENT --------- Observation ID OBSERVER= '"Konishi, Kushibiki, Yoshikawa, Motohara, Takahashi, Terao"' / Observ PROP-ID = 'o18011 ' / Proposal ID OBSERVAT= 'NAOJ ' / Observatory name TELESCOP= 'Subaru ' / Telescope name INSTRUME= 'SWIMS ' / Instrument name INS-VER = 'SWS-H000C000T000F001' / Instrument version (H: Hardware, C: Control-s COMMENT --------- Telescope Setting FOC-POS = '##NODATA##' / Focus where the instrument is attached TELFOCUS= 'CS_IR ' / Focus where a beam is reachable FOC-VAL = -0.060 / Encoder value of the focus unit (mm) INSROT = -0.000 / Typical inst. rot. angle at exp.(degree) INR-STR = -0.000 / Instrument Rotator angle at Start (degree) INR-END = 0.000 / Instrument Rotator angle at end (degree) INST-PA = 134.000 / P.A. of Instrument flange (degree) AUTOGUID= 'OFF ' / Auto Guide ON/OFF M2-TYPE = 'CS_IR ' / Type of the Secondary Mirror (Opt/IR) COMMENT --------- Size, Coordinate, etc CDELT1 = 0.00002647 / X-scale projected on detector (CUNIT1/pix) CDELT2 = 0.00002648 / Y-scale projected on detector (CUNIT2/pix) CTYPE1 = 'RA---TAN' / Pixel coordinate system CTYPE2 = 'DEC--TAN' / Pixel coordinate system CUNIT1 = 'deg ' / Units used in both CRVAL1 and CDELT1 CUNIT2 = 'deg ' / Units used in both CRVAL2 and CDELT2 CRPIX1 = -61.2 / Reference position in X (pixel) CRPIX2 = 976.3 / Reference position in Y (pixel) CRVAL1 = 217.11564583 / Physical value of the reference pixel X CRVAL2 = 19.91432778 / Physical value of the reference pixel Y CD1_1 = -0.00002647 / Pixel coordinate translation matrix CD1_2 = -0.00000005 / Pixel coordinate translation matrix CD2_1 = -0.00000007 / Pixel coordinate translation matrix CD2_2 = 0.00002648 / Pixel coordinate translation matrix LONPOLE = 180.0 / North pole of standard system (degree) BSCALE = 1.00000000 / Real=(fits-value)*BSCALE+BZERO BZERO = 0.00000000 / Real=(fits-value)*BSCALE+BZERO BUNIT = 'ADU ' / Unit of original pixel values WCS-ORIG= 'SUBARU Toolkit' / Origin of the WCS value COMMENT --------- Date TIMESYS = 'UTC ' / Explicit time scale specification DATE-OBS= '2019-01-27' / Observation start date (yyyy-mmm-dd) UT = '16:24:37.325' / Typical UTC during exposure (HH:MM:SS.SSS) UT-STR = '16:24:29.804' / UTC at start of exposure (HH:MM:SS.SSS) UT-END = '16:24:46.910' / UTC at end of exposure (HH:MM:SS.SSS UT1-UTC = -0.05818 / difference between UT1 and UTC HST = '06:24:37.325' / Typical Hawaii Standard Time during exposure (H HST-STR = '06:24:29.804' / HST at start of exposure (HH:MM:SS.SSS) HST-END = '06:24:46.910' / HST at end of exposure (HH:MM:SS.SSS) LST = '02:10:33.1017' / Typical Local Sidereal Time during exposure (HH LST-STR = '02:10:25.5605' / LST at start of exposure (HH:MM:SS.SSS) LST-END = '02:10:42.7131' / LST at end of exposure (HH:MM:SS.SSS) MJD = 58510.68376550 / Typical Modified Julian Date during exposure MJD-STR = 58510.68367840 / MJD at start of exposure MJD-END = 58510.68387640 / MJD at end of exposure COMMENT --------- Object DATA-TYP= 'DOMEFLAT' / Data type (OBJECT, FLAT, DARK, etc.) RADESYS = 'FK5 ' / Equatorial coordinate system OBJECT = 'Ohashi_Mask' / Target description EQUINOX = 2000.000 / Standard FK5 (years) RA = '14:28:26.745' / RA of telescope pointing (HH:MM:SS.SSS) RA2000 = '14:28:26.745' / RA(J2000) pointing (HH:MM:SS.SSS) DEC = '+19:54:51.59' / DEC of pointing (+/-DD:MM:SS.SS) DEC2000 = '+19:54:51.59' / DEC(J2000) of pointing (+/-DD:MM:SS.SS) AZIMUTH = 89.99999 / Azimuth of telescope pointing (degree) AZ-STR = 89.99992 / Azimuth angle at exposure start (degree) AZ-END = 90.00004 / Azimuth angle at exposure end (degree) ALTITUDE= 89.96424 / Altitude of telescope pointing (degree) ALT-STR = 89.96422 / Altitude at start exposure (degree) ALT-END = 89.96423 / Altitude at exposure end (degree) AIRMASS = 1.000 / Typical air mass during exposure AIRM-STR= 1.000 / Air mass at exposure start AIRM-END= 1.000 / Air mass at exposure end ZD = 0.03576 / Zenith Distance at typical time (degree) ZD-STR = 0.03578 / Zenith distance at exposure start (degree) ZD-END = 0.03577 / Zenith distance at exposure end (degree) SECZ = 1.000 / SEC(Zenith Distance) at typical time SECZ-STR= 1.000 / SEC(Zenith Distance) at exposure start SECZ-END= 1.000 / SEC(Zenith Distance) at exposure end OBS-MOD = 'IMAG ' / Observation Mode COMMENT --------- Optics FILTER01= 'J ' / Filter/Grism name in Wheel 1 FILTER02= 'OPEN ' / Filter/Grism name in Wheel 2 FILTER03= 'IRHP_B ' / Filter/Grism name in Wheel 3 COMMENT --------- Spectroscopy SLIT = 'TBW ' / Identifier of the entrance slit used SLT-LEN = -9999.000 / Length of the slit used (arcsec) SLT-PA = -9999.0 / Slit Position Angle (degree) SLT-WID = -9999.000 / Width of the slit used (arcsec) SLTCPIX1= -9999.0 / Slit center projected on detector (pixel) SLTCPIX2= -9999.0 / Slit center projected on detector (pixel) DISPAXIS= -9999.0 / Dispersion axis in frame DISPERSR= 'J ' / Identifier of the disperser used WAV-MIN = 900.0000 / Shortest wavelen.focused on detector (nm) WAV-MAX = 1400.0000 / Longest wavelen. focused on detector (nm) WAVELEN = 1040.0000 / Wavelength at detector center (nm) COMMENT --------- Detector DETECTOR= 'HAWAII-2RG 17086 ENG' / Detector name DETPXSZ1= 0.0180 / Detector pixel size in axis1 (mm) DETPXSZ2= 0.0180 / Detector pixel size in axis2 (mm) DET-SMPL= 1 / 0- Ramp mode; 1- Fowler sampling mode DET-RST = 0 / Number of resets before integration DET-NSMP= 1 / number of ramps COADD = 1 / Frame is created by # of sub-exposures EXP1TIME= 10.000 / One exposure time (sec) EXPTIME = 10.00 / Integration time of one frame = EXPTIME * COADD DET-TMP = 90.00 / Detector temperature (K) GAIN = 2.780 / AD conversion factor (electron/ADU) PRD-MIN1= 1 / Start X pos. of partial readout (pixel) PRD-RNG1= 2048 / X Range of the partial readout (pixel) PRD-MIN2= 1 / Start pos Y of partial readout (pixel) PRD-RNG2= 2048 / Y range of the partial readout (pixel) EFP-MIN1= 5 / Start X pos. of effective area (pixel) EFP-RNG1= 2040 / X Range of overscan area (pixel) EFP-MIN2= 5 / Start Y pos. of effective area (pixel) EFP-RNG2= 2040 / Y Range of overscan area (pixel) BIN-FCT1= 1 / Binning factor of X axis (pixel) BIN-FCT2= 1 / Binning factor of Y axis (pixel) COMMENT --------- Weather Condition WEATHER = 'Fine ' / Weather condition at exposure start SEEING = 0.65 / StarSize FWHM at telescope focus (arcsec) DOM-WND = 0.00 / Wind velocity in the dome (m/s) DOM-WSTR= 0.00 / Wind velocity in dome at exposure start (m/s) DOM-WEND= 0.00 / Wind velocity in dome at exposure end (m/s) DOM-TMP = 271.25 / Temperature measured in the dome (K) DOM-TSTR= 271.35 / Temp. in the dome at exposure start (K) DOM-TEND= 271.35 / Temp. in the dome at exposure end (K) DOM-HUM = 20.8 / Humidity measured in the dome DOM-HSTR= 20.8 / Humidity in the dome at exposure start (%) DOM-HEND= 20.8 / Humidity in the dome at exposure end (%) DOM-PRS = 614.50 / Atmospheric pressure in the Dome (hpa) DOM-PSTR= 614.50 / Atmospheric pressure in the Dome at exposure st DOM-PEND= 614.50 / Atmospheric pressure in the Dome at exposure en OUT-WND = 4.10 / Wind velocity outside of dome (m/s) OUT-WSTR= 4.10 / Outside wind velocity at exposure start (m/s) OUT-WEND= 4.10 / Outside wind velocity at exposure end (m/s) OUT-TMP = 269.65 / Temperature measured outside of dome (K) OUT-TSTR= 269.55 / Outside temperature at exposure start (K) OUT-TEND= 269.65 / Outside temperature at exposure end (K) OUT-HUM = 29.8 / Humidity measured outside of dome (%) OUT-HSTR= 29.8 / Outside humidity at exposure start (%) OUT-HEND= 29.9 / Outside humidity at exposure end (%) OUT-PRS = 614.50 / Atmospheric pressure outside dome (hpa) OUT-PSTR= 614.50 / Outside Atmos.press. at exposure start (hpa) OUT-PEND= 614.50 / Outside Atmos.press. at exposure end (hpa) COMMENT --------- Subaru Device Dependent header Block for SWIMS COMMENT --------- Geodetic Information 2_OBSLAT= 204.5317 / Telescope geodetic latitude (degree) 2_OBSLON= 19.825 / Telescope geodetic longitude (degree) 2_OBSALT= 4200.0 / Telescope altitude (m) COMMENT --------- Telescope and Dome 2_M1CVR = 'OPEN ' / M1 cover position 2_CELCVR= 'OPEN ' / Cell cover position 2_DOMPOS= -89.990000 / Dome position (degree) 2_DOMSLT= '##NODATA##' / Dome slit position (OPEN/CLOSE) COMMENT --------- Dithering 2_DSETID= 'SWSB00020511' / Frame ID of a set of dithering data 2_DPOSID= 'SWSB00020511' / Frame ID at the same position of a set of dithe 2_DITIDX= 1 / Current position in the dithering 2_DITRAD= 20.0 / Width of dithering pattern (arcsec) 2_DITNUM= 1 / Number of dithering positions 2_DITANG= 0.0 / Position angle of the dithering pattern (degree 2_PAOFST= 134.0 / SWIMS Position angle offset (degree) 2_SWSPA = 0.0 / Position angle of SWIMS (degree) COMMENT --------- Optical Arm 2_OPTARM= 'blue ' / optical arm 2_DETCH = 1 / detector channel COMMENT --------- Filter Wheel 2_FILT01= 'J ' / Filter/Grism name of Wheel 1 2_FILT02= 'OPEN ' / Filter/Grism name of Wheel 2 2_FILT03= 'IRHP_B ' / Filter/Grism name of Wheel 3 2_NSLT01= 6 / Slot number of Wheel 1 2_ADDR01= 103200 / Motor step of Wheel 1 2_HLVL01= 1.2564 / Hall sensor voltage of Wheel 1 2_NSLT02= 6 / Slot number of Wheel 2 2_ADDR02= 103279 / Motor step of Wheel 2 2_HLVL02= 0.7253 / Hall sensor voltage of Wheel 2 2_NSLT03= 1 / Slot number of Wheel 3 2_ADDR03= 165325 / Motor step of Wheel 3 2_HLVL03= 2.5000 / Hall sensor voltage of Wheel 3 COMMENT --------- Temperature 2_TDPH1 = 57.720 / Temperature at Diaphram_01 (K) 2_TDPH2 = 62.390 / Temperature at Diaphram_02 (K) 2_TCLDF1= 66.150 / Temperature at ColdFrame_01 (K) 2_TCLDF2= 77.610 / Temperature at ColdFrame_02 (K) 2_TMOSCH= 28.000 / Temperature at MosuColdHead (K) 2_TCRBTM= 30.203 / Temperature at CarouselBottom (K) 2_TDMMSK= 59.254 / Temperature at DummyMask (K) 2_TMSRS = 120.980 / Temperature at MosuRadiationShield (K) 2_TOPTB1= 78.771 / Temperature at OptBench_01 (K) 2_TCOLL = 117.940 / Temperature at Collimator (K) 2_TOPTB3= 75.714 / Temperature at OptBench_03 (K) 2_TOPTB4= 71.392 / Temperature at OptBench_04 (K) 2_TCAMR = 28.000 / Temperature at Camera_Red (K) 2_TCAMB = 28.000 / Temperature at Camera_Blue (K) 2_T218B7= 28.000 / Temperature at LS218 CH7 2_TTHMP1= 28.000 / Temperature at ThermalPath_01 (K) 2_TTHMP2= 0.000 / Temperature at ThermalPath_02 (K) 2_TDETB = 89.998 / Temperature at Blue Detector Mount (K) 2_T332_2= 0.000 / Temperature LS332 CH2 2_TDETR = 80.001 / Temperature at Red Detector Mount (K) COMMENT --------- Vacuum level 2_PMAIN = 1.81E-08 / Vacuum level at Main dewar (Torr) 2_PMOSU = 1.1E-07 / Vacuum level at MOSU dewar (Torr) COMMENT --------- Detector 2_RAWDIR= '/home/anir/share/kiki/Data/H2RG-17086-ASIC-54/FSRamp/20190128012429' 2_JD2_ID= '#164 ' / JADE2 card serial number 2_USB_ID= '#4 ' / USB cable number 2_DC5_ID= '#20 ' / DC5V cable number 2_NREADS= 1 / number of read frames in each group of ramp 2_ORSTFR= 0 / 1/0 enable/disable the option of output reset f 2_PLSLED= 0 / 1/0 enable/disable pulse LED at end of each rea 2_CSIDF = 1 / 1/0 enable/disable clocking of SCA in drop fram 2_IDLEMD= 1 / 0->do nothing in idle mode; 1->continuously tak 2_NRAMPS= 1 / number of ramps 2_NGRPS = 1 / number of groups per ramp 2_NDROPS= 0 / number of drop frames in each group of ramp 2_BUFMOD= 3 / 0 unbuffered mode, no source current; 2 buffere COMMENT --------- Teledyne Original Header 2_FSTMOD= 0 / SlowMode=0,FasMode=1 2_NXTRAP= 0 / Number of extra pixels per row 2_NXTRAL= 0 / Number of extra lines per frame 2_REFOUT= 0 / Reference output.0 disabled; 1 enabled with ref 2_REFPIX= 0 / Interleave reference pixel mode. 0 disabled; 1 2_ACQTM = 2458511.18367 / UTC Julian time 2_ACQTM1= '2019-01-27-16:24:29.183' / UTC time (YYYY-MM-DD HH:MM:SS.MS) 2_ASIC_N= 54 / ASIC serial number 2_SCA_ID= 17086 / SCA number 2_MUXTYP= 2 / 1- H1RG; 2- H2RG; 4- H4RG 2_NOTPTS= 32 / Number of detector outputs 2_NADCS = 1 / Number of averaged ADCs used per output 2_PDDET = 0 / Power down detector 2_CLKOFF= 0 / Turn off clocks 2_WRMTST= 0 / 0- cold test; 1- warm test 2_CLOCK = 0 / 0- normal clocking; 1- enhanced horizontal cloc 2_GLBRST= 0 / 0- pixel-by-pixel or line-by-line rest; 1- glob 2_FRMMOD= 0 / 0- full frame mode; 1- window mode 2_CAMLNK= 0 / If Camlink readout enabled (1 enabled) 2_EXPMOD= 1 / 0- Ramp mode; 1- Fowler sampling mode 2_NRSTS = 0 / Number of resets before integration 2_FRMTIM= 1.475 / Frame time 2_EXPTIM= 8.525 / sec 2_ACQTYP= 2 / Dark Current Ramp Sequence (2) 2_DATMOD= 5 / Parallel read, 8 bit bus, 16 bit data 2_DATLVL= 1 / 0- CMO; 1- LVDS 2_ASICGN= 8 / 8 (12dB, large Cin) 2_NOMGN = 8 / 8 (12dB, large Cin) 2_AMPRST= 0 / 0- Reset once per frame; 1- Reset once per row 2_KTCRMV= 0 / 0- No kTC Removal; 1- kTC Removal 2_SRCCUR= 3 / 0-No source current to inp ; 1 - Source current 2_AMPIN = 1 / 0- VREFMAIN as ref; 1- InPCommon as ref; 2- use 2_V4321 = '0x4502 ' / preamp input by user 2_BZERO = 32768 / Data is Unsigned Integer 2_UNITS = 'ADU ' / ADC digital steps 2_TSTTN = 'SWIMS ' / Test station id. 2_HXRGVR= 'v4.1 ' / HXRG IDL software version number 2_BSCALE= 1 / No scaling 2_BIAS00= 0.371 / V, h6000 setting 2_BIAS01= 0.010 / uA, h6001 setting 2_BIAS02= 0.622 / V, h6002 setting 2_BIAS03= 0.010 / uA, h6003 setting 2_BIAS04= 1.851 / V, h6004 setting 2_BIAS05= 0.010 / uA, h6005 setting 2_BIAS06= 3.300 / V, h6006 setting 2_BIAS07= 0.010 / uA, h6007 setting 2_BIAS08= 0.000 / V, h6008 setting 2_BIAS09= 0.010 / uA, h6009 setting 2_BIAS10= 0.000 / V, h600A setting 2_BIAS11= 0.010 / uA, h600B setting 2_BIAS12= 3.245 / V, h600C setting 2_BIAS13= 0.010 / uA, h600D setting 2_BIAS14= 3.245 / V, h600E setting 2_BIAS15= 0.010 / uA, h600F setting 2_BIAS16= 0.000 / V, h6010 setting 2_BIAS17= 0.010 / uA, h6011 setting 2_BIAS18= 0.000 / V, h6012 setting 2_BIAS19= 0.010 / uA, h6013 setting 2_BIAS20= 0.000 / V, h6014 setting 2_BIAS21= 0.010 / uA, h6015 setting 2_BIAS22= 0.000 / V, h6016 setting 2_BIAS23= 0.010 / uA, h6017 setting 2_BIAS24= 0.000 / V, h6018 setting 2_BIAS25= 0.010 / uA, h6019 setting 2_BIAS26= 0.000 / V, h601A setting 2_BIAS27= 0.010 / uA, h601B setting 2_BIAS28= 0.000 / V, h601C setting 2_BIAS29= 0.010 / uA, h601D setting 2_BIAS30= 0.000 / V, h601E setting 2_BIAS31= 0.010 / uA, h601F setting 2_BIAS32= 0.000 / V, h6020 setting 2_BIAS33= 0.010 / uA, h6021 setting 2_BIAS34= 0.000 / V, h6022 setting 2_BIAS35= 0.010 / uA, h6023 setting 2_BIAS36= 0.000 / V, h6024 setting 2_BIAS37= 0.010 / uA, h6025 setting 2_BIAS38= 0.000 / V, h6026 setting 2_BIAS39= 0.010 / uA, h6027 setting 2_BIAS40= 1.251 / V, h6028 setting 2_BIAS41= 5.400 / uA, h6029 setting 2_BIAS42= 1.103 / V, h602A setting 2_BIAS43= 5.300 / uA, h602B setting 2_BIAS44= 1.239 / V, h602C setting 2_BIAS45= 0.010 / uA, h602D setting 2_BIAS46= 0.250 / V, h602E setting 2_BIAS47= 8.000 / uA, h602F setting 2_BIAS48= 1.814 / V, h6030 setting 2_BIAS49= 5.000 / uA, h6031 setting 2_BIAS50= 0.123 / V, h6032 setting 2_BIAS51= 4.000 / uA, h6033 setting 2_BIAS52= 1.036 / V, h6034 setting 2_BIAS53= 1.500 / uA, h6035 setting 2_BIAS54= 0.999 / V, h6036 setting 2_BIAS55= 1.400 / uA, h6037 setting 2_MCLK = 10.0000 / MHz. Master Clock. 2_INTTIM= 1.475 / integration time 2_VDDA1V= 3.313 / ASIC VDDA1_V 2_VDDA1I= 68.032 / ASIC VDDA1_I 2_VDDA2V= 0.004 / ASIC VDDA2_V 2_VDDA2I= -0.003 / ASIC VDDA2_I 2_VDDA3V= 0.004 / ASIC VDDA3_V 2_VDDA3A= -0.003 / ASIC VDDA3_I 2_VDDA4V= 0.004 / ASIC VDDA4_V 2_VDDA4A= -0.004 / ASIC VDDA4_I 2_VREF1V= 3.300 / ASIC VRef1_V 2_VREF1A= 0.020 / ASIC VRef1_I 2_VREF2V= 0.000 / ASIC VRef2_V 2_VREF2A= -0.001 / ASIC VRef2_I 2_VREF3V= 0.000 / ASIC VRef3_V 2_VREF3A= -0.001 / ASIC VRef3_I 2_VREF4V= 0.001 / ASIC VRef4_V 2_VREF4A= 0.000 / ASIC VRef4_I 2_VD331V= 3.322 / ASIC VDD3p3_1_V 2_VD331I= 7.969 / ASIC VDD3p3_1_I 2_VD332V= 3.322 / ASIC VDD3p3_2_V 2_VD332I= 0.825 / ASIC VDD3p3_2_I 2_VD333V= 3.322 / ASIC VDD3p3_3_V 2_VD333I= 0.823 / ASIC VDD3p3_3_I 2_VD334V= 3.322 / ASIC VDD3p3_4_V 2_VD334I= 0.828 / ASIC VDD3p3_4_I 2_VDD1V = 2.460 / ASIC VDD1_V 2_VDD1I = 7.559 / ASIC VDD1_I 2_VDD2V = 2.460 / ASIC VDD2_V 2_VDD2I = 0.678 / ASIC VDD2_I 2_VDD3V = 2.460 / ASIC VDD3_V 2_VDD3A = 0.668 / ASIC VDD3_I 2_VDD4V = 2.460 / ASIC VDD4_V 2_VDD4A = 0.675 / ASIC VDD4_I 2_VDIO1V= 3.211 / ASIC VDDIO1_V 2_VDIO1A= 97.837 / ASIC VDDIO1_I 2_VDIO2V= 3.205 / ASIC VDDIO2_V 2_VDIO2A= 20.721 / ASIC VDDIO2_I 2_VDIO3V= 3.206 / ASIC VDDIO3_V 2_VDIO3A= 20.661 / ASIC VDDIO3_I 2_VDIO4V= 3.205 / ASIC VDDIO4_V 2_VDIO4A= 20.721 / ASIC VDDIO4_I 2_VRSTV = 0.379 / Telemetry VReset_V 2_VRSTI = 0.000 / Telemetry VReset_I 2_DSUBV = 0.625 / Telemetry DSub_V 2_DSUBI = 0.000 / Telemetry DSub_I 2_VBGTV = 2.118 / Telemetry VBiasGate_V 2_VBGTI = 0.000 / Telemetry VBiasGate_I 2_VBPWV = 3.211 / Telemetry VBiasPower_V 2_VBPWI = 0.584 / Telemetry VBiasPower_I 2_CELDRV= 0.013 / Telemetry CellDrain_V 2_CELDRI= -0.407 / Telemetry CellDrain_I 2_DRAINV= 0.150 / Telemetry Drain_V 2_DRAINI= -2.689 / Telemetry Drain_I 2_VDDAV = 3.236 / Telemetry VDDA_V 2_VDDAI = 0.191 / Telemetry VDDA_I 2_VDDV = 3.294 / Telemetry VDD_V 2_VDDI = 0.017 / Telemetry VDD_I 2_REFSPV= 2.326 / Telemetry RefSample_V 2_REFSPI= 0.000 / Telemetry RefSample_I 2_REFCBV= 3.017 / Telemetry RefColBuf_V 2_REFCBI= 0.000 / Telemetry RefColBuf_I 2_VNBISV= 332454.000 / Telemetry VNBias_V 2_VNBISI= 0.000 / Telemetry VNBias_I 2_VPBISV= 3.249 / Telemetry VPBias_V 2_VPBISI= 0.677 / Telemetry VPBias_I 2_VNCSCV= 332454.000 / Telemetry VNCasc_V 2_VNCSCI= 0.021 / Telemetry VNCasc_I 2_VPCSCV= 3.249 / Telemetry VPCasc_V 2_VPCSCI= 0.000 / Telemetry VPCasc_I 2_VBOBV = 332454.000 / Telemetry VBiasOutBuf_V 2_VBOBI = 0.024 / Telemetry VBiasOutBuf_I 2_XSTART= 1 / X start position 2_XSTOP = 2048 / X stop position 2_YSTART= 1 / Y start position 2_YSTOP = 2048 / Y stop position COMMENT --------- Observing time 2_T_OBS = 14.975 / total observing time (sec) 2_T_PIX = 10.000 / integration time per pixel (sec) 2_T_OVH = 4.975 / overhead (sec) 2_T_CMD = 10.000 / commanded T_PIX (sec) COMMENT --------- MOSU 2_MSKID = 11 / Slit Mask ID 2_MSKNAM= 'SLOT11 ' / Slit Mask Name 2_SBRNAM= 'SLOT11 ' / SBR Filename COMMENT --------- Another arm 2_ANOFID= 'SWSR00023191' / FRAMEID for another arm