PDS_VERSION_ID = PDS3 /*--------------------------------------------------------------------------*/ /*----- -----*/ /*----- FILE CHARACTERISTICS DATA ELEMENTS -----*/ /*----- -----*/ /*--------------------------------------------------------------------------*/ FILE_NAME = "SPIM_1AR_12400A01_E_01.FIT" RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 2880 FILE_RECORDS = 3356 INTERCHANGE_FORMAT = BINARY /*--------------------------------------------------------------------------*/ /*----- DATA OBJECT POINTERS -----*/ /*--------------------------------------------------------------------------*/ ^HEADER = ("SPIM_1AR_12400A01_E_01.FIT",1) ^CLEANDATA_QUBE = ("SPIM_1AR_12400A01_E_01.FIT",2881) ^WAVELENGTH_QUBE = ("SPIM_1AR_12400A01_E_01.FIT",2352961) ^DC_QUBE = ("SPIM_1AR_12400A01_E_01.FIT",4703041) ^RAW_QUBE = ("SPIM_1AR_12400A01_E_01.FIT",7053121) ^TIME_RECORDS_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9403201) ^FUNC_PARAMETERS_COLLECTION = ("SPIM_1AR_12400A01_E_01.FIT",9429121) ^GEO_RECORD_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9455041) ^GEO_SPACECRAFT_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9480961) ^GEO_IRFOV_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9501121) ^GEO_COORDINATES_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9564481) ^GEO_TRANSMATRIX_TABLE = ("SPIM_1AR_12400A01_E_01.FIT",9642241) /*--------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------*/ /*----- IDENTIFICATION DATA ELEMENTS -----*/ /*--------------------------------------------------------------------------*/ PRODUCT_ID = "SPIM_1AR_12400A01_E_01.FIT" PRODUCT_TYPE = RDR PRODUCT_CREATION_TIME = 2014-11-07 STANDARD_DATA_PRODUCT_ID = CLEANED DISTRIBUTION_TYPE = DATA RELEASE_ID = 0002 REVISION_ID = 0000 SOURCE_PRODUCT_ID = "SPIM_0BR_12400A01_E_05.DAT" SOURCE_DATA_SET_ID = "N/A" DATA_SET_ID = "MEX-M-SPI-2-IRRDR-CLEANED-EXT4-V1.0" DATA_SET_NAME = "MEX EXT4 SPICAM MARS CLEANED IR RDR V1.0" PRODUCER_ID = MEX_SPI_TEAM PRODUCER_FULL_NAME = "FRANCK MONTMESSIN" PRODUCER_INSTITUTION_NAME = "LATMOS,IPSL/CNRS,FRANCE" ORBIT_NUMBER = 12400 SEQUENCE_NUMBER = 1 START_TIME = 2013-10-03T13:46:00.710 STOP_TIME = 2013-10-03T14:44:48.710 SPACECRAFT_CLOCK_START_COUNT = "1/0328887958.26590" SPACECRAFT_CLOCK_STOP_COUNT = "1/0328891486.26580" MISSION_PHASE_NAME = "ME Phase 28" INSTRUMENT_ID = SPICAM INSTRUMENT_NAME = "SPICAM" INSTRUMENT_TYPE = "SPECTROMETER" MISSION_ID = MEX MISSION_NAME = "MARS EXPRESS" INSTRUMENT_HOST_NAME = "MARS EXPRESS" INSTRUMENT_HOST_ID = MEX TARGET_TYPE = STAR MEX:SPICAM_TARGET = "STAR" ^MEX_ORIENTATION_DESC = "MEX_ORIENTATION_DESC.TXT" SPACECRAFT_POINTING_MODE = "INERT" SPACECRAFT_POINTING_MODE_DESC = "This pointing mode is used for science observations nominally around the pericentre. In this pointing mode the Z-axis of the spacecraft points towards the centre of Mars and the X-axis perpendicular to the ground track." /*--------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------*/ /*----- INSTRUMENT AND DETECTOR DESCRIPTIVE DATA ELEMENTS -----*/ /*--------------------------------------------------------------------------*/ CHANNEL_ID = "IR" /*--------------------------------------------------------------------------*/ /*----- GENERAL PARAMETERS -----*/ /*--------------------------------------------------------------------------*/ MEX:SPICAM_DATA_SS = "F" /* -> Status P preliminary or F final */ DESCRIPTION = "This file contains a general header and a frequency array followed by all records of a IR SPICAM observation. A measurement requires several communication sessions to collect and transmit measurement data (a spectrum). Sessions of one spectrum are collected and transmitted in one measurement cycle. Each record consists of first a header providing the time of the beginning of the measurement cycle and six system monitor's values measured one time at the beginning of each measurement cycle. This header is then followed by detector 0 and/or 1 spectra." DATA_QUALITY_ID = 20000000 ^DATA_QUALITY_ID_DESC = "DATA_QUALITY_ID_DESC.TXT" /*--------------------------------------------------------------------------*/ /*----- FUNCTIONAL PARAMETERS -----*/ /*----- DEFINITIONS AND VALUES -----*/ /*--------------------------------------------------------------------------*/ /* */ /* EXIT - A bit specifying a lab mode (bit set to 0) or a flight mode */ /* (bit set to 1) */ /* SOURCE - A bit specifying a host command (bit set to 0)or a ROM */ /* command (bit set to 1). A host command is received from the */ /* memory of host computer, a ROM command is a command stored in */ /* program controller and invoked by host command. */ /* TIME - AOTF chopping period : 1.4 ms, 2.8 ms, 5.6 ms, and 11.2 ms */ /* */ /* GAIN - Amplifiers gain factor : 1, 3, 8.25, or 26 */ /* */ /* DAC - AOTF power control : 0...4096 */ /* */ /* NUMBER_SPECTRA - Number of spectra in the sequence of measurement */ /* NUMBER_POINTS - Number of expected points by spectrum */ /* NUMBER_CHANNELS - Number of channels (detectors) activated */ /* NUMBER_BLOCKS - Number of blocks */ /* SIZE_BLOCK - Correspond to the size of a block, on board packed */ /* data transmitted from the spacecraft in spectral points*/ MEX:SPICAM_IR_EXIT = 1 MEX:SPICAM_IR_SOURCE = 0 MEX:SPICAM_IR_TIME = 11.200000 MEX:SPICAM_IR_GAIN = 8.2500000 MEX:SPICAM_IR_GAINBST = 0 MEX:SPICAM_IR_DAC = 1744 MEX:SPICAM_IR_NUMBER_SPECTRA = 883 MEX:SPICAM_IR_NUMBER_POINTS = 332 MEX:SPICAM_IR_NUMBER_CHANNELS = 2 MEX:SPICAM_IR_NUMBER_BLOCKS = 1 MEX:SPICAM_IR_SIZE_BLOCK = 332 MEX:SPICAM_IR_PELTIER = 1 /*--------------------------------------------------------------------------*/ /*----- GEOMETRICAL PARAMETERS -----*/ /*--------------------------------------------------------------------------*/ /* */ /* FOV_POS - IR FOV position vector (theta, phi) in the spacecraft */ /* referential. In degrees */ /* SLIT_CENTER - Slit center position vector (theta, phi) in the */ /* spacecraft referential. In degrees */ MEX:SPICAM_TARGET = "STAR "/* -> SPICAM Pointing target */ SUB_SOLAR_LATITUDE = 12.491 /* -> Solar latitude on MARS (degrees) */ SUB_SOLAR_LONGITUDE = 87.273 /* -> Solar longitude on MARS (degrees) */ SOLAR_DISTANCE = 1.62500 /* -> Distance between planet and sun (AU)*/ SOLAR_LONGITUDE = 30.494 /* -> Solar longitude (MARS orbital pos.) */ MEX:SPICAM_SUNDEC = -22.691 /* -> Solar declination (degrees) */ MEX:SPICAM_SUNRA = 297.862 /* -> Solar Right ascension (degrees) */ MEX:SPICAM_IRSHIFT = 0 /* -> IR/UV delta (pixels) */ MEX:SPICAM_IRFOVPOS = ( 90.000, 89.830) MEX:SPICAM_IR_SLIT_C = ( 90.000, 89.830) /*--------------------------------------------------------------------------*/ /*----- DATA OBJECTS DEFINITION -----*/ /*--------------------------------------------------------------------------*/ OBJECT = HEADER BYTES = 2880 HEADER_TYPE = FITS INTERCHANGE_FORMAT = BINARY RECORDS = 1 DESCRIPTION = "FITS HEADER" END_OBJECT = HEADER OBJECT = CLEANDATA_QUBE AXES = 3 AXIS_NAME = (SAMPLE, LINE, BAND) CORE_ITEMS = ( 883, 332, 2) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = IEEE_REAL CORE_BASE = 0.000000e+00 CORE_MULTIPLIER = 1.000000e+00 CORE_NULL = -32768 CORE_VALID_MINIMUM = -32752 CORE_LOW_REPR_SATURATION = -32767 CORE_LOW_INSTR_SATURATION = -32766 CORE_HIGH_REPR_SATURATION = -32765 CORE_HIGH_INSTR_SATURATION = -32764 SUFFIX_ITEMS = (1,0,0) SUFFIX_BYTES = 4 END_OBJECT = CLEANDATA_QUBE OBJECT = WAVELENGTH_QUBE AXES = 3 AXIS_NAME = (SAMPLE, LINE, BAND) CORE_ITEMS = ( 883, 332, 2) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = IEEE_REAL CORE_BASE = 0.000000e+00 CORE_MULTIPLIER = 1.000000e+00 CORE_NULL = -32768 CORE_VALID_MINIMUM = -32752 CORE_LOW_REPR_SATURATION = -32767 CORE_LOW_INSTR_SATURATION = -32766 CORE_HIGH_REPR_SATURATION = -32765 CORE_HIGH_INSTR_SATURATION = -32764 SUFFIX_ITEMS = (1,0,0) SUFFIX_BYTES = 4 END_OBJECT = WAVELENGTH_QUBE OBJECT = DC_QUBE AXES = 3 AXIS_NAME = (SAMPLE, LINE, BAND) CORE_ITEMS = ( 883, 332, 2) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = IEEE_REAL CORE_BASE = 0.000000e+00 CORE_MULTIPLIER = 1.000000e+00 CORE_NULL = -32768 CORE_VALID_MINIMUM = -32752 CORE_LOW_REPR_SATURATION = -32767 CORE_LOW_INSTR_SATURATION = -32766 CORE_HIGH_REPR_SATURATION = -32765 CORE_HIGH_INSTR_SATURATION = -32764 SUFFIX_ITEMS = (1,0,0) SUFFIX_BYTES = 4 END_OBJECT = DC_QUBE OBJECT = RAW_QUBE AXES = 3 AXIS_NAME = (SAMPLE, LINE, BAND) CORE_ITEMS = ( 883, 332, 2) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = IEEE_REAL CORE_BASE = 0.000000e+00 CORE_MULTIPLIER = 1.000000e+00 CORE_NULL = -32768 CORE_VALID_MINIMUM = -32752 CORE_LOW_REPR_SATURATION = -32767 CORE_LOW_INSTR_SATURATION = -32766 CORE_HIGH_REPR_SATURATION = -32765 CORE_HIGH_INSTR_SATURATION = -32764 SUFFIX_ITEMS = (1,0,0) SUFFIX_BYTES = 4 END_OBJECT = RAW_QUBE OBJECT = FUNC_PARAMETERS_COLLECTION INTERCHANGE_FORMAT = BINARY NAME = "FUNC_PARAMETERS_COLLECTION" BYTES = 22520 DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 332 NAME = FREQUENCY DESCRIPTION = "Vector of frequencies." OBJECT = ELEMENT BYTES = 4 NAME = FREQUENCY DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = T_D0 DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = T_D0 DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = T_D1 DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = T_D1 DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = T_AOTF DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = T_AOTF DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = T_BASE DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = T_BASE DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = POWER_RF DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = POWER_RF DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY OBJECT = ARRAY INTERCHANGE_FORMAT = BINARY AXES = 1 AXIS_ITEMS = 883 NAME = PVS DESCRIPTION = "Structure containing functional parameters of the instrument. " OBJECT = ELEMENT BYTES = 4 NAME = PVS DATA_TYPE = IEEE_REAL END_OBJECT = ELEMENT END_OBJECT = ARRAY END_OBJECT = FUNC_PARAMETERS_COLLECTION /*--------------------------------------------------------------------------*/ /*----- TIME RECORDS DEFINITION -----*/ /*--------------------------------------------------------------------------*/ OBJECT = TIME_RECORDS_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 7 ROWS = 883 ROW_BYTES = 20 DESCRIPTION = "Structure array containing the time of each record" ^STRUCTURE = "TIME_RECORDS_TABLE.FMT" END_OBJECT = TIME_RECORDS_TABLE /*--------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------*/ /*----- GEOMETRY OBJECTS DEFINITION -----*/ /*--------------------------------------------------------------------------*/ OBJECT = GEO_RECORD_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 2 ROWS = 883 ROW_BYTES = 26 DESCRIPTION = "Structure array containing the time and number of each record" ^STRUCTURE = "GEO_RECORD_TABLE.FMT" END_OBJECT = GEO_RECORD_TABLE OBJECT = GEO_SPACECRAFT_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 4 ROWS = 883 ROW_BYTES = 16 DESCRIPTION = "Structure array containing geometrical information relative to the S/C." ^STRUCTURE = "GEO_SPACECRAFT_TABLE.FMT" END_OBJECT = GEO_SPACECRAFT_TABLE OBJECT = GEO_IRFOV_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 16 ROWS = 883 ROW_BYTES = 64 DESCRIPTION = "Structure array containing geometrical information relative to field of view" ^STRUCTURE = "GEO_IRFOV_TABLE.FMT" END_OBJECT = GEO_IRFOV_TABLE OBJECT = GEO_COORDINATES_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 21 ROWS = 883 ROW_BYTES = 84 DESCRIPTION = "Structure array containing the S/C coordinates in different referentials" ^STRUCTURE = "GEO_COORDINATES_TABLE.FMT" END_OBJECT = GEO_COORDINATES_TABLE OBJECT = GEO_TRANSMATRIX_TABLE INTERCHANGE_FORMAT = BINARY COLUMNS = 6 ROWS = 883 ROW_BYTES = 24 DESCRIPTION = "Structure array of the transformation matrix coordinates from the local referential to EMEJ2000." ^STRUCTURE = "GEO_TRANSMATRIX_TABLE.FMT" END_OBJECT = GEO_TRANSMATRIX_TABLE /*--------------------------------------------------------------------------*/ END