SIMPLE = T / Written by IDL: Fri Apr 28 00:10:15 2017 BITPIX = -32 / IEEE single precision floating point NAXIS = 2 / number of array dimensions NAXIS1 = 256 /Number of positions along axis 1 NAXIS2 = 256 /Number of positions along axis 2 EXTEND = T MISSION = 'New Horizons' / Mission name HOSTNAME= 'NEW HORIZONS' / Host name (PDS terminology) HOSTID = 'NH ' / Host ID (PDS terminology) INSTRU = 'lor ' / Instrument APID = '0x639 ' / Application ID of science data MET = 300583262 / First packet MET (from instrument or HS bus) METEND = 300583262 / Last packet MET (from instrument or HS bus) MET_HK = 300583261 / MET from housekeeping used in header HSCOMPR = 'LOSSLESS' / High-speed compression mode OBSCOMPL= 'COMPLETE' / Observation completion status MISSPACK= 0 / Missing CCSDS packets (-1 = N/A) STARTMET= 300583261.78 / Actual start time (in MET seconds) STOPMET = 300583261.98 / Actual stop time (in MET seconds) DURMET = 0.199999988079071 / Observation duration (in MET seconds) METSRC = 'HK_Info ' / Source of above three times EXPTIME = 0.2 / Exposure time ARCHDATE= '2016/231' / Date of MOC archive file GRT = 21414.553006691 / Ground receipt time from STP DATE = '2017-04-27T15:08:26' / Time file was created by SOC SOCVER = 6.3 / SOC pipeline software version SOCLOC = 'TSOC ' / SOC location where processed (TSOC or CSOC) LOADID = '15201 ' / Sequence load ID REQID = 'DPLR_O_RING_DEP_LORRI_211' / Request ID REQREC = 'SSR2 ' / Recorder used REQCOMM = '--- ' / Request comment OPNAV = 'SCIENCE ' / Optical navigation type MSNPHASE= 'PLUTO ' / Mission phase MSNSUBPH= 'DP1 ' / Mission subphase SCIGRP = 'Group 3 ' / Science group SAPID = 2105 / Science Activity Plan ID SAPNAME = 'O_RING_DEP_LORRI_211' / Science Activity Plan name SAPDESC = '--- ' / Science Activity Plan description VISITID = 43773 / Visit ID VISITNAM= 'O_RING_DEP_LORRI_211' / Visit name VISITDSC= 'Ring search, outbound, high-resolution with LORRI' / Visit descriptioRIDEALNG= 'YES ' / Riding along with other instrument TARGET = 'PLUTO ' / Intended target TRGFOVN = 0 / Num targets in view THRUSTX = 'ENABLED ' / X thrusters enabled THRUSTY = 'ENABLED ' / Y thrusters enabled THRUSTZ = 'ENABLED ' / Z thrusters enabled SCANRATE= -999.0 / G/C scan rate RCMODE = 'DISABLED' / Relative control mode PNTMTHD = 'RADEC=90.76,14.68=PLUTO' / Pointing method SCSPIN = '3-Axis ' / Spacecraft spin state SPCSEP = '***GEOMETRY SECTION*************************************' SPCQUAL = 'RECONSTRUCTED' / QUALITY: PREDICT (poor); RECONSTRUCTED SPCSTAT = 'OK ' / SPICE status [OK or INCOMPLETE ...] SPCINST0= 'NH_LORRI' / Starting SPICE Instrument or FRAME SPCINSTR= 'NH_LORRI' / Final SPICE Instrument or FRAME SPCMET0 = 300583261.78 / RAW MET timestamp SPCMETDL= 0.09999999403953552 / [s] delta, (Mid-obs time) - (RAW MET) SPCCBTNM= 'PLUTO ' / [text] Target input name SPCCBTID= 999 / [SPICE ID] Target SPCSCLK0= '0300583261:39000' / Spacecraft CLocK timestamp SPCINSID= -98300 / [SPICE ID] Instrument SPCSCID = -98 / [SPICE ID] Spacecraft SPCSCNAM= 'NH_SPACECRAFT' / [SPICE Name] Spacecraft SPCSCET = 491549411.9563007 / [s past J2000] Spacecraft mid-obs time, TDB SPCSCLK = '3/0300583261:44000' / Mid-obs Spacecraft CLocK SPCSCDP = 15029163094000.0 / [SCLK milli-ticks] Spacecraft mid-obs time SPCUTCID= '2015-211T17:29:03.773' / [ISO DOY] Spacecraft mid-obs time, UTC SPCUTCAL= '2015-07-30T17:29:03.773' / [Cal d] Spacecraft mid-obs time, UTC SPCUTCJD= 'JD 2457234.2285159' / [Julian d] Spacecraft mid-obs time, UTC SPCPSEP = '******INSTRUMENT POINTING*******************************' SPCBRRA = 90.66749595360342 / [degrees] Boresight RA, EME J2000 SPCBRDEC= 14.45593952489931 / [degrees] Boresight DEC, EME J2000 SPCEMEN = 23.02157830820373 / [degrees] EME J2k North Clk Angle, CW from UP SPCPAXIN= 293.0215783082037 / [degrees] Instr +X Pos ang, E from EMEJ2k N SPCPAYIN= 23.02157830820374 / [degrees] Instr +Y Pos ang, E from EMEJ2k N SPCPAZIN= -999.0 / [degrees] Instr +Z Pos ang, E from EMEJ2k N SPCQA = 0.5994795347331674 / cos(theta/2) - Quaternion to transform SPCQX = 0.7754615014124713 / sin(theta/2) * X - instrument vectors SPCQY = -0.1532226221304039 / sin(theta/2) * Y - to EME J2000 vectors SPCQZ = 0.1257242034403263 / sin(theta/2) * Z - ***N.B. SPICE FORMAT RATEX = -7.704335887405981 / [urad/s] Angular rate about inst frame +X axis RATEY = 3.03683984109158 / [urad/s] Angular rate about inst frame +Y axis RATEZ = -19.55430130293958 / [urad/s] Angular rate about inst frame +Z axis RATEXY = 8.281255199932728 / [urad/s] Drift rate magnitude in inst XY Plane RATEYZ = 19.78871131899664 / [urad/s] Drift rate magnitude in inst YZ Plane RATEXZ = 21.01731407464132 / [urad/s] Drift rate magnitude in inst XZ Plane RATEMAG = 21.23558068743489 / [urad/s] Drift rate of Angular rate vector SPCSCQA = 0.2289171578436268 / cos(theta/2) - Quaternion to transform SPCSCQX = -0.6709267239455654 / sin(theta/2) * X - Spacecraft vectors SPCSCQY = 0.7032071621543169 / sin(theta/2) * Y - to EME J2000 vectors SPCSCQZ = -0.05435028091316035 / sin(theta/2) * Z - ***N.B. SPICE FORMAT SPCTSEP0= '******Target: Target->S/C****************************' SPCTCB = 'PLUTO ' / [SPICE name] Target name SPCTSCX = 226871.2382351775 / [km] S/C vec wrt Target, X, EMEJ2000 SPCTSCY = -18704783.02933565 / [km] S/C vec wrt Target, Y SPCTSCZ = -4888014.297469689 / [km] S/C vec wrt Target, Z SPCTSCVX= 0.1454249228644322 / [km/s] S/C vel vec wrt Target, X SPCTSCVY= -13.3450686769688 / [km/s] S/C vel vec wrt Target, Y SPCTSCVZ= -3.501480588626627 / [km/s] S/C vel vec wrt Target, Z SPCTRANG= 19334245.84786097 / [km] S/C range to Target center SPCTTGJD= 'JD 2457234.2277695' / [Julian d] Time at Target, UTC SPCTSEP1= '******Target: Target->Sun****************************' SPCTSOX = -1204660120.710171 / [km] Sun vec wrt Target, X, EMEJ2000 SPCTSOY = 4442829829.538531 / [km] Sun vec wrt Target, Y SPCTSOZ = 1749569584.269507 / [km] Sun vec wrt Target, Z SPCTSOVX= -5.380713305033424 / [km/s] Sun vel vec wrt Target, X SPCTSOVY= -0.8256017240808204 / [km/s] Sun vel vec wrt Target, Y SPCTSOVZ= 1.344596978255576 / [km/s] Sun vel vec wrt Target, Z SPCTSORN= 4924524000.435758 / [km] Sun range to Target center SPCTSEP2= '******Target: Target->EarthObserver****************************' SPCTEOX = -1112995921.521695 / [km] Earth observer vec wrt Target, X, EMEJ2000SPCTEOY = 4331798803.243452 / [km] Earth obs vec wrt Target, Y SPCTEOZ = 1701491754.972585 / [km] Earth obs vec wrt Target, Z SPCTEOVX= 17.8493179338885 / [km/s] Earth obs vel vec wrt Target, X SPCTEOVY= 15.59216914778312 / [km/s] Earth obs vel vec wrt Target, Y SPCTEOVZ= 8.462462633952294 / [km/s] Earth obs vel vec wrt Target, Z SPCTEORN= 4785218384.289794 / [km] Earth observer range to Target center SPCTEOJD= 'JD 2457234.4125122' / [Julian d] Time at Earth observer SPCTSEPB= '******Target: Body-fixed info****************************' SPCTSCLA= -43.18432808661802 / [degrees] planetocentric Sub-S/C latitude SPCTSCLO= 131.2831525645901 / [degrees] planetocentric Sub-S/C EAST longitudeSPCTSOLA= 51.60830571559036 / [degrees] planetocentric Sub-Solar latitude SPCTSOLO= 292.6607707576456 / [degrees] planetocentric Sub-Solar EAST long. SPCTNAZ = 269.7833873479914 / [degrees] Target North Azimuth, CW from UP SPCSEPS = '******S/C->SUN****************************************' SPCSSCX = -1204971608.454938 / [km] Sun vec wrt S/C observer, X, EMEJ2000 SPCSSCY = 4461505452.04918 / [km] Sun vec wrt S/C obs, Y SPCSSCZ = 1754473643.128737 / [km] Sun vec wrt S/C obs, Z SPCSSCVX= -5.526138228240288 / [km/s] Sun obs vel vec wrt S/C obs, X SPCSSCVY= 12.51946695299086 / [km/s] Sun vel vec wrt S/C obs, Y SPCSSCVZ= 4.846077566920322 / [km/s] Sun vel vec wrt S/C obs, Z SPCSSCRN= 4943193829.932269 / [km] S/C observer range to sun center SPCSSCJD= 'JD 2457234.0376742' / [Julian d] Time at Sun SPCSEPE = '******EARTH->S/C****************************************' SPCESCX = 1113884190.278461 / [km] S/C observer vec wrt earth, X, EMEJ2000 SPCESCY = -4350008696.207447 / [km] S/C obs vec wrt earth, Y SPCESCZ = -1706137572.973943 / [km] S/C obs vec wrt earth, Z SPCESCVX= -17.81398621457356 / [km/s] S/C obs vel vec wrt earth, X SPCESCVY= -28.80367986326959 / [km/s] S/C obs vel vec wrt earth, Y SPCESCVZ= -11.90594176841795 / [km/s] S/C obs vel vec wrt earth, Z SPCESCRN= 4803563163.355524 / [km] S/C observer range to earth center SPCESCJD= 'JD 2457234.0430649' / [Julian d] Time at Earth SPCKSEP = '******SPICE KERNELS*************************************' SPCKNUM = 45 / COUNT OF LOADED SPICE KERNELS: SPCK0001= 'naif0012.tls' / SPICE kernel 0001 SPCK0002= 'new-horizons_1456.tsc' / SPICE kernel 0002 SPCK0003= 'nh_stars_kbo_centaur_ppinp.tpc' / SPICE kernel 0003 SPCK0004= 'pck00010.tpc' / SPICE kernel 0004 SPCK0005= 'nh_v220.tf' / SPICE kernel 0005 SPCK0006= 'nh_allinstruments_v002.ti' / SPICE kernel 0006 SPCK0007= 'nh_alice_v200.ti' / SPICE kernel 0007 SPCK0008= 'nh_lorri_v201.ti' / SPICE kernel 0008 SPCK0009= 'nh_pepssi_v110.ti' / SPICE kernel 0009 SPCK0010= 'nh_ralph_v100.ti' / SPICE kernel 0010 SPCK0011= 'nh_rex_v100.ti' / SPICE kernel 0011 SPCK0012= 'nh_sdc_v101.ti' / SPICE kernel 0012 SPCK0013= 'nh_swap_v200.ti' / SPICE kernel 0013 SPCK0014= 'nh_soc_misc_v001.tf' / SPICE kernel 0014 SPCK0015= 'sb-2002jf56-2.bsp' / SPICE kernel 0015 SPCK0016= 'jup260.bsp' / SPICE kernel 0016 SPCK0017= 'kbo_centaur_horizons_20131129.bsp' / SPICE kernel 0017 SPCK0018= 'kbo_centaur_20170422.bsp' / SPICE kernel 0018 SPCK0019= 'sb-2014mu69-20150903_s6.bsp' / SPICE kernel 0019 SPCK0020= 'nh_extras.bsp' / SPICE kernel 0020 SPCK0021= 'nh_stars.bsp' / SPICE kernel 0021 SPCK0022= 'NavPE_de433_od128.bsp' / SPICE kernel 0022 SPCK0023= 'NavSE_plu047_od123.bsp' / SPICE kernel 0023 SPCK0024= 'nh_nep_ura_000.bsp' / SPICE kernel 0024 SPCK0025= 'nh_recon_e2j_v1.bsp' / SPICE kernel 0025 SPCK0026= 'nh_recon_j2sep07_prelimv1.bsp' / SPICE kernel 0026 SPCK0027= 'nh_recon_pluto_od122_v01.bsp' / SPICE kernel 0027 SPCK0028= 'merged_nhpc_2006_v001.bc' / SPICE kernel 0028 SPCK0029= 'merged_nhpc_2007_v001.bc' / SPICE kernel 0029 SPCK0030= 'merged_nhpc_2008_v001.bc' / SPICE kernel 0030 SPCK0031= 'merged_nhpc_2009_v001.bc' / SPICE kernel 0031 SPCK0032= 'merged_nhpc_2010_v001.bc' / SPICE kernel 0032 SPCK0033= 'merged_nhpc_2011_v001.bc' / SPICE kernel 0033 SPCK0034= 'merged_nhpc_2012_v001.bc' / SPICE kernel 0034 SPCK0035= 'merged_nhpc_2013_v001.bc' / SPICE kernel 0035 SPCK0036= 'merged_nhpc_2014_v001.bc' / SPICE kernel 0036 SPCK0037= 'merged_nhpc_2015_v039.bc' / SPICE kernel 0037 SPCK0038= 'merged_nhpc_2016_v003.bc' / SPICE kernel 0038 SPCK0039= 'merged_nhpc_2017_01_v011.bc' / SPICE kernel 0039 SPCK0040= 'merged_nhpc_2017_02_v004.bc' / SPICE kernel 0040 SPCK0041= 'merged_nhpc_2017_03_v004.bc' / SPICE kernel 0041 SPCK0042= 'nhpc_2017_094_02.bc' / SPICE kernel 0042 SPCK0043= 'nhpc_2017_095_01.bc' / SPICE kernel 0043 SPCK0044= 'nhpc_2017_096_01.bc' / SPICE kernel 0044 SPCK0045= 'nhpc_2017_097_01.bc' / SPICE kernel 0045 WCSSEP = '******World Coordinate System keywords******************' CRPIX1 = 127.5 / [WCS PIXEL] x-coordinate of reference pixel CRPIX2 = 127.5 / [WCS PIXEL] y-coordinate of reference pixel CD1_1 = -0.001046967905881239 / dRA/dNAXIS1 linear transform. paramam. CD1_2 = 0.0004448769298277089 / dRA/dNAXIS2 linear transform. paramam. CD2_1 = 0.0004448769298277089 / dDEC/dNAXIS1 linear transform. paramam. CD2_2 = 0.001046967905881239 / dDEC/dNAXIS2 linear transform. paramam. CTYPE1 = 'RA---TAN-SIP' / Coordinate type for the first axis CTYPE2 = 'DEC--TAN-SIP' / Coordinate type for the second axis RADESYS = 'ICRS ' / Coordinate system definition EQUINOX = 2000.0 / Epoch of mean equator and equinox CUNIT1 = 'deg ' / Units for first axis CUNIT2 = 'deg ' / Units for second axis CRVAL1 = 90.66749595360342 / [deg] Right Ascension at reference pixel CRVAL2 = 14.45593952489931 / [deg] Declination at reference pixel A_ORDER = 3 / Forward SIP; Cubic A_3_0 = -7.309363944497E-08 / Forward SIP; x**3 x y**0 A_2_1 = 5.8838389330992E-12 / Forward SIP; x**2 x y**1 A_1_2 = -7.2810573079073E-08 / Forward SIP; x**1 x y**2 A_0_3 = -7.7222124763245E-15 / Forward SIP; x**0 x y**3 A_2_0 = 1.4853153381189E-06 / Forward SIP; x**2 x y**0 A_1_1 = 9.7959645967839E-07 / Forward SIP; x**1 x y**1 A_0_2 = -1.5598396806578E-09 / Forward SIP; x**0 x y**2 B_ORDER = 3 / Forward SIP; Cubic B_3_0 = -7.7221397202775E-15 / Forward SIP; x**3 x y**0 B_2_1 = -7.2808075457509E-08 / Forward SIP; x**2 x y**1 B_1_2 = 5.883838638417601E-12 / Forward SIP; x**1 x y**2 B_0_3 = -7.3096142266041E-08 / Forward SIP; x**0 x y**3 B_2_0 = -1.0305814188049E-09 / Forward SIP; x**2 x y**0 B_1_1 = 1.4825209196581E-06 / Forward SIP; x**1 x y**1 B_0_2 = 9.814427226874801E-07 / Forward SIP; x**0 x y**2 AP_ORDER= 3 / Reverse SIP; Cubic AP_3_0 = 7.3440595935636E-08 / Reverse SIP; x**3 x y**0 AP_1_2 = 7.3440595935636E-08 / Reverse SIP; x**1 x y**2 AP_2_0 = -1.4975995507201E-06 / Reverse SIP; x**2 x y**0 AP_1_1 = -9.8955970313209E-07 / Reverse SIP; x**1 x y**1 BP_ORDER= 3 / Reverse SIP; Cubic BP_2_1 = 7.3440595935636E-08 / Reverse SIP; x**2 x y**1 BP_0_3 = 7.3440595935636E-08 / Reverse SIP; x**0 x y**3 BP_1_1 = -1.4975995507201E-06 / Reverse SIP; x**1 x y**1 BP_0_2 = -9.8955970313209E-07 / Reverse SIP; x**0 x y**2 PACMMNT0= '*** Position angles (PAs): XYZ axes, degrees east of EMEJ2k North' PACMMNT1= '*** on plane perpendicular to boresight; -999 => Boresight' PA_XINST= 293.0215783082037 / [degrees] PA +X, East of EMEJ2k North PA_YINST= 23.02157830820374 / [degrees] PA +Y, East of EMEJ2k North PA_ZINST= -999.0 / [degrees] PA +Z, East of EMEJ2k North PA_SUN = 63.2249766981854 / [degrees] PA of SUN, East of EMEJ2k North PA_SUN_X= 130.2033983899817 / [degrees] PA from +X to Sun, East of EMEJ2k N PA_SUN_Y= 40.20339838998166 / [degrees] PA from +Y to Sun, East of EMEJ2k N PA_SUN_Z= -999.0 / [degrees] PA from +Z to Sun, East of EMEJ2k N ELCMMNT0= '*** Elongation angles: Angular separation btw vector to' ELCMMNT1= '*** the target and the instrument line of sight.' SOL_ELON= 15.14380240377944 / [degrees] Angle btw SUN and Instr Boresight EAR_ELON= 14.50377341954988 / [degrees] Angle btw EARTH and Instr Boresight HIGHSSEP= '********************************************************' WINDOWX = 0 / X origin of window WINDOWY = 0 / Y origin of window WINDOWW = 257 / Window width WINDOWH = 0 / Window height CPLANE = 0 / Color/plane number INSTSSEP= '********************************************************' LVPS_00 = 711 / EPU +5 voltage LVPS_01 = 159 / EPU +5 current LVPS_02 = 718 / FPU +15 voltage LVPS_03 = 96 / FPU +15 current LVPS_04 = 715 / FPU +6 voltage LVPS_05 = 162 / FPU +6 current LVPS_06 = 0 / FPU heater current LVPS_07 = 700 / EPU +2.5 voltage LVPS_08 = 487 / Intermediate ring temperature LVPS_09 = 500 / Mounting foot-top temperature LVPS_10 = 487 / M2 mirror mount temperature LVPS_11 = 431 / Radiator temperature LVPS_12 = 496 / Baffle-aft temperature LVPS_13 = 470 / Baffle-forward temperature LVPS_14 = 486 / M1 mirror support temperature LVPS_15 = 488 / M1 mirror temperature FPU_0 = 2200 / CCD temperature FPU_1 = 26639 / M1 V/F temperature FPU_2 = 28207 / M2 V/F temperature FPU_3 = 29523 / FPU board V/F temperature EXPOSURE= 200 / Exposure time (1 ms) CLMP2 = 0 / Calibration lamp #2 level CLMP1 = 0 / Calibration lamp #1 level TEMPCVRT= 1 / Temperature convers enable 0=disable,1=enable CLMP2PE = 0 / Cal. Lamp #2 Power Enable 0=on, 1=off CLMP1PE = 0 / Cal. Lamp #1 Power Enable 0=on, 1=off SOURCE = 0 / 0=CCD,1=FPUp1,2=FPUp2,3=DPUp1,4=DPUp2 FORMAT = 1 / Image format 0=1x1, 1=4x4 EXPMODE = 0 / Exposure Mode 0=Manual, 1=Automatic HDRSRC = 'IMAGE_DESCRIPTOR' / Source of housekeeping values above COMMENT ********************************************************* COMMENT *** LORRI Level 2 software name and version info *** COMMENT ********************************************************* L2_SWNAM= 'lorri_level2_pipeline' /Level 2 calibration software L2_SWVER= '1.3.1 ' /software version tag COMMENT ********************************************************* COMMENT *** LORRI Level 2 software logic flow control flags *** COMMENT ********************************************************* IMGSUBTR= 'OMIT ' / image subtraction step BIASCORR= 'PERFORM ' / bias subtraction step FILLCORR= 'PERFORM ' / fill missing data SLINCORR= 'OMIT ' / signal linearization step CTICORR = 'OMIT ' / charge transfer inefficiency step DARKCORR= 'OMIT ' / dark subtraction step SMEARCOR= 'PERFORM ' / smear removal step FLATCORR= 'PERFORM ' / flat-fielding step GEOMCORR= 'OMIT ' / geometric correction step MASKCORR= 'PERFORM ' / mask missing data ABSCCORR= 'PERFORM ' / absolute calibration step COMPERR = 'PERFORM ' / compute error estimate COMPQUAL= 'PERFORM ' / compute quality flags COMMENT ********************************************************* COMMENT *** LORRI Level 2 Reference Filename *** COMMENT ********************************************************* REFDEBIA= 'delta_bias_4x4_synthetic.fit' / debias image filename REFFLAT = 'cflat_grnd_4x4_synthetic_v2.fit' / flat field image filename REFDEAD = 'dead_ground_4x4_synthetic.fit' / dead pixel image filename REFHOT = 'hot_ground_4x4_synthetic.fit' / hot pixel image filename REFSUBIM= ' ' / subtraction image filename COMMENT ********************************************************* COMMENT *** LORRI Level 2 Absolute Calibration Parameters *** COMMENT *** Rxxx keyword units=(DN/s/pixel)/(erg/cm^2/s/A/sr) *** COMMENT *** Pxxx keyword units=(DN/s)/(erg/cm^2/s/A) *** COMMENT ********************************************************* BIASMTHD= 'median of dark column data' / Method used to calculate bias value BIASLEVL= 535.000000000 / median bias level of dark columns, units=DN RDNOISE = 1.10000000000 / Read noise, units=DN CCDGAIN = 22.0000000000 / CCD gain, units=e/DN PIVOT = 6076.20019531 / LORRI pivot wavelength. units=angstroms RSOLAR = 4092000.00000 / Conv to radiance for solar source RPLUTO = 3955000.00000 / Conv to radiance for pluto source RPHOLUS = 4746000.00000 / Conv to radiance for 5145 pholus source RCHARON = 4039000.00000 / Conv to radiance for charon source RJUPITER= 3605000.00000 / Conv to radiance for jupiter source PPLUTO = 1.00299995454E+16 / Conv to irradiance for pluto source PSOLAR = 1.03799996516E+16 / Conv to irradiance for solar source PPHOLUS = 1.20400002165E+16 / Conv to irradiance for 5145 pholus source PCHARON = 1.02499995814E+16 / Conv to irradiance for charon source PJUPITER= 9.14400040557E+15 / Conv to irradiance for jupiter source PHOTZPT = 18.9700000000 / Zero point for visual magnitude, V COMMENT ********************************************************* COMMENT *** LORRI Level 2 Calibrated telemetry items *** COMMENT ********************************************************* EPU_P5VO= 5.04305504857 / EPU +5 voltage. units=Volts EPU_P5CU= 0.159159000000 / EPU +5 current. units=Amps FPU_P15V= 14.9797220368 / FPU +15 voltage. units=Volts FPU_P15C= 0.0488736000000 / FPU +15 current. units=Amps FPU_P6_V= 6.05666080780 / FPU +6 voltage. units=Volts FPU_P6_C= 0.162162000000 / FPU +6 current. units=Amps FPU_HTRC= 0.00000000000 / FPU heater current. units=Amps EPU_25PV= 2.50228518180 / EPU +2.5 voltage. units=Volts RINGTEMP= -70.4446924814 / Intermediate ring temp. units=celsius MFOOTTMP= -65.8151995582 / Mounting foot-top temp. units=celsius M2MNTTMP= -70.4446924814 / M2 mirror mount temp. units=celsius RADTEMP = -90.3808435418 / Radiator temp. units=celsius BAFATEMP= -67.2398321861 / Baffle-aft temp. units=celsius BAFFTEMP= -76.4968269980 / Baffle-forward temp. units=celsius M1SUPTMP= -70.8007466057 / M1 mirror support temp. units=celsius M1MIRTMP= -70.0886308310 / M1 mirror temp. units=celsius CCDTEMP = -79.9749000000 / CCD temperature. units=celsius M1VFTEMP= -69.3365267000 / M1 V/F temperature. units=celsius M2VFTEMP= -70.0378635000 / M2 V/F temperature. units=celsius FPUBTEMP= 29.5861040000 / FPU board V/F temp. units=celsius STEMPCVR= 'ENABLE ' / Temperature conversion enable SCLMP2PE= 'OFF ' / Cal lamp 2 power enable SCLMP1PE= 'OFF ' / Cal lamp 2 power enable SSOURCE = 'CCD ' / Image source SFORMAT = '4X4 ' / Image format SEXPMODE= 'MANUAL ' / Exposure mode PDUNAME = 'Level 2 LORRI image' / END D¥ÝDzêtDvš/D{ /D{›DvÑ¡DvDsivD{*¢D†Î°D†GŽD„‚mD„0îD…vjD„×#D„O¦DƒâDƒ¨DƒcÑD‚ÞOD€IpD€èiD„P$D‚ 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