{'CCSD3ZF0000100000001NJPL3IF0PDS200000001': 'SFDU_LABEL',
 'CCSD3ZF0000100000001NJPL3IF0PDS200000001_source': 'SFDU_LABEL',
 'RECORD_TYPE': 'FIXED_LENGTH',
 'RECORD_TYPE_source': 'FIXED_LENGTH',
 'RECORD_BYTES': 4736,
 'RECORD_BYTES_source': '4736',
 'FILE_RECORDS': 6210,
 'FILE_RECORDS_source': '6210',
 'INTERCHANGE_FORMAT': 'BINARY',
 'INTERCHANGE_FORMAT_source': 'BINARY',
 '^TABLE': 'VG2_SAT.DAT',
 '^TABLE_source': '"VG2_SAT.DAT"',
 '^TABLE_fmt': '"VG2_SAT.DAT"',
 '^SPECTRAL_SERIES': 'VG2_SAT.DAT',
 '^SPECTRAL_SERIES_source': '"VG2_SAT.DAT"',
 '^SPECTRAL_SERIES_fmt': '"VG2_SAT.DAT"',
 '^SPECTRUM': 'VG2SNESR.DAT',
 '^SPECTRUM_source': '"VG2SNESR.DAT"',
 '^SPECTRUM_fmt': '"VG2SNESR.DAT"',
 'DATA_SET_ID': 'VG1/VG2-S-IRIS-3-RDR-V1.0',
 'DATA_SET_ID_source': '"VG1/VG2-S-IRIS-3-RDR-V1.0"',
 'SPACECRAFT_ID': 'VG2',
 'SPACECRAFT_ID_source': 'VG2',
 'MISSION_PHASE_NAME': 'SATURN ENCOUNTER',
 'MISSION_PHASE_NAME_source': '"SATURN ENCOUNTER"',
 'TARGET_NAME': 'SATURN',
 'TARGET_NAME_source': 'SATURN',
 'START_TIME': datetime.datetime(1981, 8, 24, 2, 54, 33),
 'START_TIME_source': '1981-236T02:54:33',
 'START_TIME_day': -6704,
 'START_TIME_sec': 10473,
 'START_TIME_fmt': '1981-236T02:54:33',
 'STOP_TIME': datetime.datetime(1981, 8, 27, 20, 30, 32),
 'STOP_TIME_source': '1981-239T20:30:32',
 'STOP_TIME_day': -6701,
 'STOP_TIME_sec': 73832,
 'STOP_TIME_fmt': '1981-239T20:30:32',
 'SPACECRAFT_CLOCK_START_COUNT': '4394500',
 'SPACECRAFT_CLOCK_START_COUNT_source': '"4394500"',
 'SPACECRAFT_CLOCK_STOP_COUNT': '4405700',
 'SPACECRAFT_CLOCK_STOP_COUNT_source': '"4405700"',
 'INSTRUMENT_NAME': 'INFRARED INTERFEROMETER SPECTROMETER AND\nRADIOMETER',
 'INSTRUMENT_NAME_source': '"INFRARED INTERFEROMETER SPECTROMETER AND\nRADIOMETER"',
 'INSTRUMENT_NAME_unwrap': 'INFRARED INTERFEROMETER SPECTROMETER AND RADIOMETER',
 'INSTRUMENT_ID': 'IRIS',
 'INSTRUMENT_ID_source': 'IRIS',
 'DESCRIPTION': 'This file contains the IRIS data for the Voyager 2 encounter with Saturn.',
 'DESCRIPTION_source': '"\n  This file contains the IRIS data for the Voyager 2 encounter with Saturn."',
 'TABLE': {'OBJECT': 'TABLE',
  'OBJECT_source': 'TABLE',
  'NAME': 'IRIS_HEADER',
  'NAME_source': 'IRIS_HEADER',
  'INTERCHANGE_FORMAT': 'BINARY',
  'INTERCHANGE_FORMAT_source': 'BINARY',
  'COLUMNS': 85,
  'COLUMNS_source': '85',
  'ROWS': 6210,
  'ROWS_source': '6210',
  'ROW_BYTES': 364,
  'ROW_BYTES_source': '364',
  'ROW_SUFFIX_BYTES': 4372,
  'ROW_SUFFIX_BYTES_source': '4372',
  'FDS_COUNT': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'FDS_COUNT',
   'NAME_source': 'FDS_COUNT',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 1,
   'START_BYTE_source': '1',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 3488600,
   'VALID_MINIMUM_source': '3488600',
   'VALID_MAXIMUM': 4405700,
   'VALID_MAXIMUM_source': '4405700',
   'DESCRIPTION': 'Flight Data System Count (FDSC) is the\nnumber of 48 second data frames taken since an arbitrary epoch.  The final\ntwo digits are modulo 60.  This is the primary Voyager data identifier.',
   'DESCRIPTION_source': '"Flight Data System Count (FDSC) is the\nnumber of 48 second data frames taken since an arbitrary epoch.  The final\ntwo digits are modulo 60.  This is the primary Voyager data identifier."',
   'DESCRIPTION_unwrap': 'Flight Data System Count (FDSC) is the number of 48 second data frames taken since an arbitrary epoch.  The final two digits are modulo 60.  This is the primary Voyager data identifier.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PICTURE_BODY': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PICTURE_BODY',
   'NAME_source': 'PICTURE_BODY',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 13,
   'START_BYTE_source': '13',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1,
   'VALID_MINIMUM_source': '-1',
   'VALID_MAXIMUM': 72,
   'VALID_MAXIMUM_source': '72',
   'DESCRIPTION': 'Identification of the picture (target)\nbody currently viewed by the instrument.  (See further documentation for\nlisting of valid values)',
   'DESCRIPTION_source': '"Identification of the picture (target)\nbody currently viewed by the instrument.  (See further documentation for\nlisting of valid values)"',
   'DESCRIPTION_unwrap': 'Identification of the picture (target) body currently viewed by the instrument.  (See further documentation for listing of valid values)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'CENTRAL_BODY': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'CENTRAL_BODY',
   'NAME_source': 'CENTRAL_BODY',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 17,
   'START_BYTE_source': '17',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -8,
   'VALID_MINIMUM_source': '-8',
   'VALID_MAXIMUM': 8,
   'VALID_MAXIMUM_source': '8',
   'DESCRIPTION': 'Identifier for the central planetary body\nof the encounter (5=Jupiter, 6=Saturn, 7=Uranus, 8=Neptune : Negative numbers\nindicate that the instrument is looking at the rings associated with that\nplanet)',
   'DESCRIPTION_source': '"Identifier for the central planetary body\nof the encounter (5=Jupiter, 6=Saturn, 7=Uranus, 8=Neptune : Negative numbers\nindicate that the instrument is looking at the rings associated with that\nplanet)"',
   'DESCRIPTION_unwrap': 'Identifier for the central planetary body of the encounter (5=Jupiter, 6=Saturn, 7=Uranus, 8=Neptune : Negative numbers indicate that the instrument is looking at the rings associated with that planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q5_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q5_LATITUDE',
   'NAME_source': 'Q5_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 25,
   'START_BYTE_source': '25',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 90.0,
   'VALID_MAXIMUM_source': '90.0',
   'DESCRIPTION': 'Latitude of Q5 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q5 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q5_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q5_LONGITUDE',
   'NAME_source': 'Q5_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 29,
   'START_BYTE_source': '29',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q5 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q5 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'EMISS_ANGLE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'EMISS_ANGLE',
   'NAME_source': 'EMISS_ANGLE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 33,
   'START_BYTE_source': '33',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 180.0,
   'VALID_MAXIMUM_source': '180.0',
   'DESCRIPTION': 'Angle (degrees) between the local normal and\nthe optic axis at the point of intersection of the latter with the surface\nof the currently viewed picture (target) body.',
   'DESCRIPTION_source': '"Angle (degrees) between the local normal and\nthe optic axis at the point of intersection of the latter with the surface\nof the currently viewed picture (target) body."',
   'DESCRIPTION_unwrap': 'Angle (degrees) between the local normal and the optic axis at the point of intersection of the latter with the surface of the currently viewed picture (target) body.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DIST_SC_PB': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'DIST_SC_PB',
   'NAME_source': 'DIST_SC_PB',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 37,
   'START_BYTE_source': '37',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 4680000.0,
   'VALID_MAXIMUM_source': '4.68E+06',
   'DESCRIPTION': 'Range of spacecraft to the picture body\n(in kilometers).',
   'DESCRIPTION_source': '"Range of spacecraft to the picture body\n(in kilometers)."',
   'DESCRIPTION_unwrap': 'Range of spacecraft to the picture body (in kilometers).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PB_SUBSC_LAT': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PB_SUBSC_LAT',
   'NAME_source': 'PB_SUBSC_LAT',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 41,
   'START_BYTE_source': '41',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 90.0,
   'VALID_MAXIMUM_source': '90.0',
   'DESCRIPTION': 'Planetographic latitude (degrees) of the\nsub-spacecraft point on the picture (target) body currently viewed by the\ninstrument.',
   'DESCRIPTION_source': '"Planetographic latitude (degrees) of the\nsub-spacecraft point on the picture (target) body currently viewed by the\ninstrument."',
   'DESCRIPTION_unwrap': 'Planetographic latitude (degrees) of the sub-spacecraft point on the picture (target) body currently viewed by the instrument.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PB_SUBSC_LON': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PB_SUBSC_LON',
   'NAME_source': 'PB_SUBSC_LON',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 45,
   'START_BYTE_source': '45',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': "West longitude (degrees) of the sub-spacecraft\npoint on the picture (target) body currently viewed by the instrument. The\nlongitude refers to the 'System III', or deep interior rotation period of the\ngaseous body.",
   'DESCRIPTION_source': '"West longitude (degrees) of the sub-spacecraft\npoint on the picture (target) body currently viewed by the instrument. The\nlongitude refers to the \'System III\', or deep interior rotation period of the\ngaseous body."',
   'DESCRIPTION_unwrap': "West longitude (degrees) of the sub-spacecraft point on the picture (target) body currently viewed by the instrument. The longitude refers to the 'System III', or deep interior rotation period of the gaseous body.",
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SC_PHASE_ANG': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SC_PHASE_ANG',
   'NAME_source': 'SC_PHASE_ANG',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 49,
   'START_BYTE_source': '49',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 180.0,
   'VALID_MAXIMUM_source': '180.0',
   'DESCRIPTION': 'Angle (degrees) between the spacecraft and\nsolar directions at the center of the picture (target) body currently viewed\nby the instrument.',
   'DESCRIPTION_source': '"Angle (degrees) between the spacecraft and\nsolar directions at the center of the picture (target) body currently viewed\nby the instrument."',
   'DESCRIPTION_unwrap': 'Angle (degrees) between the spacecraft and solar directions at the center of the picture (target) body currently viewed by the instrument.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PB_SEMI_DIAM': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PB_SEMI_DIAM',
   'NAME_source': 'PB_SEMI_DIAM',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 53,
   'START_BYTE_source': '53',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 51.75,
   'VALID_MAXIMUM_source': '51.75',
   'DESCRIPTION': 'Angular semi-diameter (degrees) of the\ncurrently viewed picture (target) body.',
   'DESCRIPTION_source': '"Angular semi-diameter (degrees) of the\ncurrently viewed picture (target) body."',
   'DESCRIPTION_unwrap': 'Angular semi-diameter (degrees) of the currently viewed picture (target) body.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_1': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_1',
   'NAME_source': 'RAD_NORM_1',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 57,
   'START_BYTE_source': '57',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '1st in series of 8 radiometer samples  taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"1st in series of 8 radiometer samples  taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '1st in series of 8 radiometer samples  taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_2': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_2',
   'NAME_source': 'RAD_NORM_2',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 61,
   'START_BYTE_source': '61',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '2nd in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"2nd in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '2nd in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_3': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_3',
   'NAME_source': 'RAD_NORM_3',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 65,
   'START_BYTE_source': '65',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '3rd in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"3rd in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '3rd in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_4': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_4',
   'NAME_source': 'RAD_NORM_4',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 69,
   'START_BYTE_source': '69',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '4th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"4th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '4th in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_5': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_5',
   'NAME_source': 'RAD_NORM_5',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 73,
   'START_BYTE_source': '73',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '5th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"5th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '5th in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_6': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_6',
   'NAME_source': 'RAD_NORM_6',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 77,
   'START_BYTE_source': '77',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '6th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"6th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '6th in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_7': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_7',
   'NAME_source': 'RAD_NORM_7',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 81,
   'START_BYTE_source': '81',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '7th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"7th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '7th in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_NORM_8': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_NORM_8',
   'NAME_source': 'RAD_NORM_8',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 85,
   'START_BYTE_source': '85',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 8.58e-06,
   'VALID_MAXIMUM_source': '8.58E-06',
   'DESCRIPTION': '8th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'DESCRIPTION_source': '"8th in series of 8 radiometer samples taken\nduring a 48 second data frame with the normal gain channel.  The quantity\ngiven is power at the detector in Watts. (-1.0 indicates data off the planet)"',
   'DESCRIPTION_unwrap': '8th in series of 8 radiometer samples taken during a 48 second data frame with the normal gain channel.  The quantity given is power at the detector in Watts. (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_1': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_1',
   'NAME_source': 'RAD_HIGH_1',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 89,
   'START_BYTE_source': '89',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '1st in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"1st in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '1st in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_2': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_2',
   'NAME_source': 'RAD_HIGH_2',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 93,
   'START_BYTE_source': '93',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '2nd in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"2nd in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '2nd in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_3': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_3',
   'NAME_source': 'RAD_HIGH_3',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 97,
   'START_BYTE_source': '97',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '3rd in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"3rd in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '3rd in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_4': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_4',
   'NAME_source': 'RAD_HIGH_4',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 101,
   'START_BYTE_source': '101',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '4th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"4th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '4th in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_5': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_5',
   'NAME_source': 'RAD_HIGH_5',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 105,
   'START_BYTE_source': '105',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '5th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"5th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '5th in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_6': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_6',
   'NAME_source': 'RAD_HIGH_6',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 109,
   'START_BYTE_source': '109',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '6th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"6th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '6th in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_7': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_7',
   'NAME_source': 'RAD_HIGH_7',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 113,
   'START_BYTE_source': '113',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '7th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"7th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '7th in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_HIGH_8': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_HIGH_8',
   'NAME_source': 'RAD_HIGH_8',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 117,
   'START_BYTE_source': '117',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -1.0,
   'VALID_MINIMUM_source': '-1.0',
   'VALID_MAXIMUM': 1.07e-06,
   'VALID_MAXIMUM_source': '1.07E-06',
   'DESCRIPTION': '8th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)',
   'DESCRIPTION_source': '"8th in series of 8 radiometer samples taken\nduring a 48 second data frame with the high gain channel.  The quantity\ngiven is power at the detector in Watts.  (-1.0 indicates data off the\nplanet)"',
   'DESCRIPTION_unwrap': '8th in series of 8 radiometer samples taken during a 48 second data frame with the high gain channel.  The quantity given is power at the detector in Watts.  (-1.0 indicates data off the planet)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'LOCAL_TIME_HR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'LOCAL_TIME_HR',
   'NAME_source': 'LOCAL_TIME_HR',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 121,
   'START_BYTE_source': '121',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 24.0,
   'VALID_MAXIMUM_source': '24.0',
   'DESCRIPTION': 'Local time (hours).',
   'DESCRIPTION_source': '"Local time (hours)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SCET_YR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SCET_YR',
   'NAME_source': 'SCET_YR',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 125,
   'START_BYTE_source': '125',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 80,
   'VALID_MINIMUM_source': '80',
   'VALID_MAXIMUM': 81,
   'VALID_MAXIMUM_source': '81',
   'DESCRIPTION': 'Spacecraft Event Time (year).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft.',
   'DESCRIPTION_source': '"Spacecraft Event Time (year).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft."',
   'DESCRIPTION_unwrap': 'Spacecraft Event Time (year).  Greenwich Mean Time (GMT) of data acquisition by the spacecraft.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SCET_DAY': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SCET_DAY',
   'NAME_source': 'SCET_DAY',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 129,
   'START_BYTE_source': '129',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 1,
   'VALID_MINIMUM_source': '1',
   'VALID_MAXIMUM': 366,
   'VALID_MAXIMUM_source': '366',
   'DESCRIPTION': 'Spacecraft Event Time (day).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft.',
   'DESCRIPTION_source': '"Spacecraft Event Time (day).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft."',
   'DESCRIPTION_unwrap': 'Spacecraft Event Time (day).  Greenwich Mean Time (GMT) of data acquisition by the spacecraft.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SCET_HR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SCET_HR',
   'NAME_source': 'SCET_HR',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 133,
   'START_BYTE_source': '133',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 23,
   'VALID_MAXIMUM_source': '23',
   'DESCRIPTION': 'Spacecraft Event Time (hour).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft.',
   'DESCRIPTION_source': '"Spacecraft Event Time (hour).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft."',
   'DESCRIPTION_unwrap': 'Spacecraft Event Time (hour).  Greenwich Mean Time (GMT) of data acquisition by the spacecraft.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SCET_MIN': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SCET_MIN',
   'NAME_source': 'SCET_MIN',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 137,
   'START_BYTE_source': '137',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 59,
   'VALID_MAXIMUM_source': '59',
   'DESCRIPTION': 'Spacecraft Event Time (minutes).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft.',
   'DESCRIPTION_source': '"Spacecraft Event Time (minutes).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft."',
   'DESCRIPTION_unwrap': 'Spacecraft Event Time (minutes).  Greenwich Mean Time (GMT) of data acquisition by the spacecraft.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SCET_SEC': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SCET_SEC',
   'NAME_source': 'SCET_SEC',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 141,
   'START_BYTE_source': '141',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 59,
   'VALID_MAXIMUM_source': '59',
   'DESCRIPTION': 'Spacecraft Event Time (seconds).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft.',
   'DESCRIPTION_source': '"Spacecraft Event Time (seconds).  Greenwich\nMean Time (GMT) of data acquisition by the spacecraft."',
   'DESCRIPTION_unwrap': 'Spacecraft Event Time (seconds).  Greenwich Mean Time (GMT) of data acquisition by the spacecraft.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ERT_YR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ERT_YR',
   'NAME_source': 'ERT_YR',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 145,
   'START_BYTE_source': '145',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 80,
   'VALID_MINIMUM_source': '80',
   'VALID_MAXIMUM': 81,
   'VALID_MAXIMUM_source': '81',
   'DESCRIPTION': 'Earth receive time (year).  Time is\nGreenwich Mean Time (GMT).',
   'DESCRIPTION_source': '"Earth receive time (year).  Time is\nGreenwich Mean Time (GMT)."',
   'DESCRIPTION_unwrap': 'Earth receive time (year).  Time is Greenwich Mean Time (GMT).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ERT_DAY': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ERT_DAY',
   'NAME_source': 'ERT_DAY',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 149,
   'START_BYTE_source': '149',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 365,
   'VALID_MAXIMUM_source': '365',
   'DESCRIPTION': 'Earth receive time (day).  Time is\nGreenwich Mean Time (GMT).',
   'DESCRIPTION_source': '"Earth receive time (day).  Time is\nGreenwich Mean Time (GMT)."',
   'DESCRIPTION_unwrap': 'Earth receive time (day).  Time is Greenwich Mean Time (GMT).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ERT_HR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ERT_HR',
   'NAME_source': 'ERT_HR',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 153,
   'START_BYTE_source': '153',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 23,
   'VALID_MAXIMUM_source': '23',
   'DESCRIPTION': 'Earth receive time (hour).  Time is\nGreenwich Mean Time (GMT).',
   'DESCRIPTION_source': '"Earth receive time (hour).  Time is\nGreenwich Mean Time (GMT)."',
   'DESCRIPTION_unwrap': 'Earth receive time (hour).  Time is Greenwich Mean Time (GMT).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ERT_MIN': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ERT_MIN',
   'NAME_source': 'ERT_MIN',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 157,
   'START_BYTE_source': '157',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 59,
   'VALID_MAXIMUM_source': '59',
   'DESCRIPTION': 'Earth receive time (minutes).  Time is\nGreenwich Mean Time (GMT).',
   'DESCRIPTION_source': '"Earth receive time (minutes).  Time is\nGreenwich Mean Time (GMT)."',
   'DESCRIPTION_unwrap': 'Earth receive time (minutes).  Time is Greenwich Mean Time (GMT).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ERT_SEC': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ERT_SEC',
   'NAME_source': 'ERT_SEC',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 161,
   'START_BYTE_source': '161',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 59,
   'VALID_MAXIMUM_source': '59',
   'DESCRIPTION': 'Earth receive time (seconds).  Time is\nGreenwich Mean Time (GMT).',
   'DESCRIPTION_source': '"Earth receive time (seconds).  Time is\nGreenwich Mean Time (GMT)."',
   'DESCRIPTION_unwrap': 'Earth receive time (seconds).  Time is Greenwich Mean Time (GMT).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DIST_CB_SUN': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'DIST_CB_SUN',
   'NAME_source': 'DIST_CB_SUN',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 165,
   'START_BYTE_source': '165',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 1470000000.0,
   'VALID_MAXIMUM_source': '1.47E+09',
   'DESCRIPTION': 'Range of the central planetary body to\nthe sun (in kilometers)',
   'DESCRIPTION_source': '"Range of the central planetary body to\nthe sun (in kilometers)"',
   'DESCRIPTION_unwrap': 'Range of the central planetary body to the sun (in kilometers)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DIST_SC_CB': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'DIST_SC_CB',
   'NAME_source': 'DIST_SC_CB',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 169,
   'START_BYTE_source': '169',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 2900000.0,
   'VALID_MAXIMUM_source': '2.90E+06',
   'DESCRIPTION': 'Range of spacecraft to the center of the\ncentral planetary body (in kilometers).',
   'DESCRIPTION_source': '"Range of spacecraft to the center of the\ncentral planetary body (in kilometers)."',
   'DESCRIPTION_unwrap': 'Range of spacecraft to the center of the central planetary body (in kilometers).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DIST_PB_SUN': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'DIST_PB_SUN',
   'NAME_source': 'DIST_PB_SUN',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 173,
   'START_BYTE_source': '173',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 1470000000.0,
   'VALID_MAXIMUM_source': '1.47E+09',
   'DESCRIPTION': 'Range of the picture body to the sun\n(in kilometers).',
   'DESCRIPTION_source': '"Range of the picture body to the sun\n(in kilometers)."',
   'DESCRIPTION_unwrap': 'Range of the picture body to the sun (in kilometers).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DIST_SC_PBTP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'DIST_SC_PBTP',
   'NAME_source': 'DIST_SC_PBTP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 177,
   'START_BYTE_source': '177',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 23000000.0,
   'VALID_MAXIMUM_source': '2.30E+07',
   'DESCRIPTION': 'Range of the spacecraft to the picture body\ntangent point (in kilometers).',
   'DESCRIPTION_source': '"Range of the spacecraft to the picture body\ntangent point (in kilometers)."',
   'DESCRIPTION_unwrap': 'Range of the spacecraft to the picture body tangent point (in kilometers).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SC_ALT': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SC_ALT',
   'NAME_source': 'SC_ALT',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 181,
   'START_BYTE_source': '181',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 4680000.0,
   'VALID_MAXIMUM_source': '4.68E+06',
   'DESCRIPTION': 'Altitude of the spacecraft above a reference\nsurface or physical surface of the picture (target) body currently viewed\nby the instrument (in kilometers).',
   'DESCRIPTION_source': '"Altitude of the spacecraft above a reference\nsurface or physical surface of the picture (target) body currently viewed\nby the instrument (in kilometers)."',
   'DESCRIPTION_unwrap': 'Altitude of the spacecraft above a reference surface or physical surface of the picture (target) body currently viewed by the instrument (in kilometers).',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q1_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q1_LATITUDE',
   'NAME_source': 'Q1_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 185,
   'START_BYTE_source': '185',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q1 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q1 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q1_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q1_LONGITUDE',
   'NAME_source': 'Q1_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 189,
   'START_BYTE_source': '189',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q1 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q1 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q2_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q2_LATITUDE',
   'NAME_source': 'Q2_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 193,
   'START_BYTE_source': '193',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q2 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q2 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q2_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q2_LONGITUDE',
   'NAME_source': 'Q2_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 197,
   'START_BYTE_source': '197',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q2 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q2 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q3_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q3_LATITUDE',
   'NAME_source': 'Q3_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 201,
   'START_BYTE_source': '201',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q3 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q3 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q3_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q3_LONGITUDE',
   'NAME_source': 'Q3_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 205,
   'START_BYTE_source': '205',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q3 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q3 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q4_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q4_LATITUDE',
   'NAME_source': 'Q4_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 209,
   'START_BYTE_source': '209',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q4 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q4 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q4_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q4_LONGITUDE',
   'NAME_source': 'Q4_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 213,
   'START_BYTE_source': '213',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q4 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q4 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q6_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q6_LATITUDE',
   'NAME_source': 'Q6_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 217,
   'START_BYTE_source': '217',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q6 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q6 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q6_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q6_LONGITUDE',
   'NAME_source': 'Q6_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 221,
   'START_BYTE_source': '221',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q6 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q6 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q7_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q7_LATITUDE',
   'NAME_source': 'Q7_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 225,
   'START_BYTE_source': '225',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q7 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q7 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q7_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q7_LONGITUDE',
   'NAME_source': 'Q7_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 229,
   'START_BYTE_source': '229',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q7 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q7 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q8_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q8_LATITUDE',
   'NAME_source': 'Q8_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 233,
   'START_BYTE_source': '233',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q8 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q8 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q8_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q8_LONGITUDE',
   'NAME_source': 'Q8_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 237,
   'START_BYTE_source': '237',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q8 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q8 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q9_LATITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q9_LATITUDE',
   'NAME_source': 'Q9_LATITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 241,
   'START_BYTE_source': '241',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q9 point in degrees.',
   'DESCRIPTION_source': '"Latitude of Q9 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q9_LONGITUDE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q9_LONGITUDE',
   'NAME_source': 'Q9_LONGITUDE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 245,
   'START_BYTE_source': '245',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q9 point in degrees.',
   'DESCRIPTION_source': '"Longitude of Q9 point in degrees."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q5_LATITUDE_750': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q5_LATITUDE_750',
   'NAME_source': 'Q5_LATITUDE_750',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 249,
   'START_BYTE_source': '249',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -90.0,
   'VALID_MINIMUM_source': '-90.0',
   'VALID_MAXIMUM': 200.0,
   'VALID_MAXIMUM_source': '200.0',
   'DESCRIPTION': 'Latitude of Q5 point at line count 750\n in degrees.',
   'DESCRIPTION_source': '"Latitude of Q5 point at line count 750\n in degrees."',
   'DESCRIPTION_unwrap': 'Latitude of Q5 point at line count 750 in degrees.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q5_LONGITUDE_750': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q5_LONGITUDE_750',
   'NAME_source': 'Q5_LONGITUDE_750',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 253,
   'START_BYTE_source': '253',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0.0,
   'VALID_MINIMUM_source': '0.0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Longitude of Q5 point at line count 750\nin degrees.',
   'DESCRIPTION_source': '"Longitude of Q5 point at line count 750\nin degrees."',
   'DESCRIPTION_unwrap': 'Longitude of Q5 point at line count 750 in degrees.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'OPTIC_AXIS': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'OPTIC_AXIS',
   'NAME_source': 'OPTIC_AXIS',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 257,
   'START_BYTE_source': '257',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -150.72,
   'VALID_MINIMUM_source': '-150.72',
   'VALID_MAXIMUM': 13.25,
   'VALID_MAXIMUM_source': '13.25',
   'DESCRIPTION': 'Angular distance between the line-of-sight and the\nray from the spacecraft to the closest limb point (in degrees).  Used to\ndetermine how far from the limb spacecraft is viewing.',
   'DESCRIPTION_source': '"Angular distance between the line-of-sight and the\nray from the spacecraft to the closest limb point (in degrees).  Used to\ndetermine how far from the limb spacecraft is viewing."',
   'DESCRIPTION_unwrap': 'Angular distance between the line-of-sight and the ray from the spacecraft to the closest limb point (in degrees).  Used to determine how far from the limb spacecraft is viewing.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SUB_SOLAR_LAT': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SUB_SOLAR_LAT',
   'NAME_source': 'SUB_SOLAR_LAT',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 261,
   'START_BYTE_source': '261',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': -23.15,
   'VALID_MINIMUM_source': '-23.15',
   'VALID_MAXIMUM': 45.23,
   'VALID_MAXIMUM_source': '45.23',
   'DESCRIPTION': 'Planetographic latitude (degrees) of the sub-solar\npoint on the picture (target) body currently viewed by the instrument.',
   'DESCRIPTION_source': '"Planetographic latitude (degrees) of the sub-solar\npoint on the picture (target) body currently viewed by the instrument."',
   'DESCRIPTION_unwrap': 'Planetographic latitude (degrees) of the sub-solar point on the picture (target) body currently viewed by the instrument.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SUB_SOLAR_LON': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SUB_SOLAR_LON',
   'NAME_source': 'SUB_SOLAR_LON',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 265,
   'START_BYTE_source': '265',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': "West longitude (degrees) of the sub-solar\npoint on the picture (target) body currently viewed by the instrument. The\nlongitude refers to the 'System III', or deep interior rotation period of\nthe gaseous body.",
   'DESCRIPTION_source': '"West longitude (degrees) of the sub-solar\npoint on the picture (target) body currently viewed by the instrument. The\nlongitude refers to the \'System III\', or deep interior rotation period of\nthe gaseous body."',
   'DESCRIPTION_unwrap': "West longitude (degrees) of the sub-solar point on the picture (target) body currently viewed by the instrument. The longitude refers to the 'System III', or deep interior rotation period of the gaseous body.",
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SOL_ZENITH_ANG': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SOL_ZENITH_ANG',
   'NAME_source': 'SOL_ZENITH_ANG',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 269,
   'START_BYTE_source': '269',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 180.0,
   'VALID_MAXIMUM_source': '180.0',
   'DESCRIPTION': 'Angle (degrees) between the local normal and the\nsun at the point of intersection of the instrument optic axis with the\nsurface of the currently viewed picture (target) body.',
   'DESCRIPTION_source': '"Angle (degrees) between the local normal and the\nsun at the point of intersection of the instrument optic axis with the\nsurface of the currently viewed picture (target) body."',
   'DESCRIPTION_unwrap': 'Angle (degrees) between the local normal and the sun at the point of intersection of the instrument optic axis with the surface of the currently viewed picture (target) body.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'Q5_PHASE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'Q5_PHASE',
   'NAME_source': 'Q5_PHASE',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 273,
   'START_BYTE_source': '273',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 180.0,
   'VALID_MAXIMUM_source': '180.0',
   'DESCRIPTION': 'Angle (degrees) between the direction to\nthe sun and the instrument optic axis at the point of intersection of the\nlatter with the picture (target) body.',
   'DESCRIPTION_source': '"Angle (degrees) between the direction to\nthe sun and the instrument optic axis at the point of intersection of the\nlatter with the picture (target) body."',
   'DESCRIPTION_unwrap': 'Angle (degrees) between the direction to the sun and the instrument optic axis at the point of intersection of the latter with the picture (target) body.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SOL_AZIMUTH_ANG': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SOL_AZIMUTH_ANG',
   'NAME_source': 'SOL_AZIMUTH_ANG',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 277,
   'START_BYTE_source': '277',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 360.0,
   'VALID_MAXIMUM_source': '360.0',
   'DESCRIPTION': 'Sun azimuth angle for Q5 point.',
   'DESCRIPTION_source': '"Sun azimuth angle for Q5 point."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'EMISS_ANGLE_750': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'EMISS_ANGLE_750',
   'NAME_source': 'EMISS_ANGLE_750',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 281,
   'START_BYTE_source': '281',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 180.0,
   'VALID_MAXIMUM_source': '180.0',
   'DESCRIPTION': 'Emission angle for line count 750.',
   'DESCRIPTION_source': '"Emission angle for line count 750."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'AVG_BTEMP_22MU': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'AVG_BTEMP_22MU',
   'NAME_source': '"AVG_BTEMP_22MU"',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 285,
   'START_BYTE_source': '285',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 0,
   'VALID_MAXIMUM_source': '0',
   'DESCRIPTION': 'Brightness temperature (Kelvin) of the observed\nscene averaged over the spectral interval 400 to 500 cm-1.  This region lies\nbetween the S(0) and S(1) collision-induced absorption lines of hydrogen.\n(Jupiter & Saturn only)',
   'DESCRIPTION_source': '"Brightness temperature (Kelvin) of the observed\nscene averaged over the spectral interval 400 to 500 cm-1.  This region lies\nbetween the S(0) and S(1) collision-induced absorption lines of hydrogen.\n(Jupiter & Saturn only)"',
   'DESCRIPTION_unwrap': 'Brightness temperature (Kelvin) of the observed scene averaged over the spectral interval 400 to 500 cm-1.  This region lies between the S(0) and S(1) collision-induced absorption lines of hydrogen. (Jupiter & Saturn only)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'AVG_BTEMP_5MU': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'AVG_BTEMP_5MU',
   'NAME_source': '"AVG_BTEMP_5MU"',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 289,
   'START_BYTE_source': '289',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 0,
   'VALID_MAXIMUM_source': '0',
   'DESCRIPTION': 'Brightness temperature (Kelvin) of the observed\nscene averaged over the spectral interval 2000 to 2050 cm-1.  The gaseous\nopacity on Jupiter and Saturn is at a minimum in this region.\n(Jupiter & Saturn only)',
   'DESCRIPTION_source': '"Brightness temperature (Kelvin) of the observed\nscene averaged over the spectral interval 2000 to 2050 cm-1.  The gaseous\nopacity on Jupiter and Saturn is at a minimum in this region.\n(Jupiter & Saturn only)"',
   'DESCRIPTION_unwrap': 'Brightness temperature (Kelvin) of the observed scene averaged over the spectral interval 2000 to 2050 cm-1.  The gaseous opacity on Jupiter and Saturn is at a minimum in this region. (Jupiter & Saturn only)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'IR_DET_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'IR_DET_TEMP',
   'NAME_source': 'IR_DET_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 293,
   'START_BYTE_source': '293',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 207.79,
   'VALID_MAXIMUM_source': '207.79',
   'DESCRIPTION': 'IR detector temperature (Kelvin).',
   'DESCRIPTION_source': '"IR detector temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RADIOM_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RADIOM_TEMP',
   'NAME_source': 'RADIOM_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 297,
   'START_BYTE_source': '297',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 200.18,
   'VALID_MAXIMUM_source': '200.18',
   'DESCRIPTION': 'Radiometer temperature (Kelvin).',
   'DESCRIPTION_source': '"Radiometer temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'BEAMSP_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'BEAMSP_TEMP',
   'NAME_source': 'BEAMSP_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 301,
   'START_BYTE_source': '301',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 200.06,
   'VALID_MAXIMUM_source': '200.06',
   'DESCRIPTION': 'Beam splitter temperature (Kelvin).',
   'DESCRIPTION_source': '"Beam splitter temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'MIC_MOT_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'MIC_MOT_TEMP',
   'NAME_source': 'MIC_MOT_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 305,
   'START_BYTE_source': '305',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 200.12,
   'VALID_MAXIMUM_source': '200.12',
   'DESCRIPTION': 'Michelson Motor temperature (Kelvin).',
   'DESCRIPTION_source': '"Michelson Motor temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'RAD_SUR_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'RAD_SUR_TEMP',
   'NAME_source': 'RAD_SUR_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 309,
   'START_BYTE_source': '309',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 199.94,
   'VALID_MAXIMUM_source': '199.94',
   'DESCRIPTION': 'Radiating surface temperature (Kelvin).',
   'DESCRIPTION_source': '"Radiating surface temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PRI_CTR_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PRI_CTR_TEMP',
   'NAME_source': 'PRI_CTR_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 313,
   'START_BYTE_source': '313',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 199.96,
   'VALID_MAXIMUM_source': '199.96',
   'DESCRIPTION': 'Primary mirror center tempature (Kelvin).',
   'DESCRIPTION_source': '"Primary mirror center tempature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PRI_EDG_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PRI_EDG_TEMP',
   'NAME_source': 'PRI_EDG_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 317,
   'START_BYTE_source': '317',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 199.98,
   'VALID_MAXIMUM_source': '199.98',
   'DESCRIPTION': 'Primary mirror edge temperature (Kelvin).',
   'DESCRIPTION_source': '"Primary mirror edge temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'SEC_MIR_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'SEC_MIR_TEMP',
   'NAME_source': 'SEC_MIR_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 321,
   'START_BYTE_source': '321',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 203.23,
   'VALID_MAXIMUM_source': '203.23',
   'DESCRIPTION': 'Secondary mirror temperature (Kelvin).',
   'DESCRIPTION_source': '"Secondary mirror temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'ELECT_TEMP': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'ELECT_TEMP',
   'NAME_source': 'ELECT_TEMP',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 325,
   'START_BYTE_source': '325',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 282.09,
   'VALID_MAXIMUM_source': '282.09',
   'DESCRIPTION': 'Electronics box temperature (Kelvin).',
   'DESCRIPTION_source': '"Electronics box temperature (Kelvin)."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'REJECT_CODE': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'REJECT_CODE',
   'NAME_source': 'REJECT_CODE',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 329,
   'START_BYTE_source': '329',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 5,
   'VALID_MAXIMUM_source': '5',
   'DESCRIPTION': 'Reject code: 0=OK; 1=Too many spikes;\n2=Missing data; 3=Zero peak; 4=No IFM present; 5=problem with symmetrization.',
   'DESCRIPTION_source': '"Reject code: 0=OK; 1=Too many spikes;\n2=Missing data; 3=Zero peak; 4=No IFM present; 5=problem with symmetrization."',
   'DESCRIPTION_unwrap': 'Reject code: 0=OK; 1=Too many spikes; 2=Missing data; 3=Zero peak; 4=No IFM present; 5=problem with symmetrization.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'COLD_CAL': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'COLD_CAL',
   'NAME_source': 'COLD_CAL',
   'DATA_TYPE': 'VAX_INTEGER',
   'DATA_TYPE_source': 'VAX_INTEGER',
   'START_BYTE': 333,
   'START_BYTE_source': '333',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 1,
   'VALID_MAXIMUM_source': '1',
   'DESCRIPTION': 'A flag indicating deep space calibration\ndata.  1=calibration spectrum; 0=spectrum not used for calibration.\n(Neptune only)',
   'DESCRIPTION_source': '"A flag indicating deep space calibration\ndata.  1=calibration spectrum; 0=spectrum not used for calibration.\n(Neptune only)"',
   'DESCRIPTION_unwrap': 'A flag indicating deep space calibration data.  1=calibration spectrum; 0=spectrum not used for calibration. (Neptune only)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'PHASE_RESID': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'PHASE_RESID',
   'NAME_source': 'PHASE_RESID',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 337,
   'START_BYTE_source': '337',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 35.23,
   'VALID_MAXIMUM_source': '35.23',
   'DESCRIPTION': 'Root mean square phase residual.',
   'DESCRIPTION_source': '"Root mean square phase residual."',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'INT_VIS': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'INT_VIS',
   'NAME_source': 'INT_VIS',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 341,
   'START_BYTE_source': '341',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 1.78e-07,
   'VALID_MAXIMUM_source': '1.78E-07',
   'DESCRIPTION': 'The broadband, reflected solar radiometer\nsignal integrated over the 45.6 seconds that IRIS data are taken within the\n48 second data frame.  The quantity given is power at the detector in Watts.',
   'DESCRIPTION_source': '"The broadband, reflected solar radiometer\nsignal integrated over the 45.6 seconds that IRIS data are taken within the\n48 second data frame.  The quantity given is power at the detector in Watts."',
   'DESCRIPTION_unwrap': 'The broadband, reflected solar radiometer signal integrated over the 45.6 seconds that IRIS data are taken within the 48 second data frame.  The quantity given is power at the detector in Watts.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'INT_5MU': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'INT_5MU',
   'NAME_source': '"INT_5MU"',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 345,
   'START_BYTE_source': '345',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 0,
   'VALID_MAXIMUM_source': '0',
   'DESCRIPTION': 'IR radiance near 5mu. (W cm-2 ster-1/cm-1)\n(Voyager 2 Jupiter only)',
   'DESCRIPTION_source': '"IR radiance near 5mu. (W cm-2 ster-1/cm-1)\n(Voyager 2 Jupiter only)"',
   'DESCRIPTION_unwrap': 'IR radiance near 5mu. (W cm-2 ster-1/cm-1) (Voyager 2 Jupiter only)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'INT_IR': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'INT_IR',
   'NAME_source': 'INT_IR',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'START_BYTE': 349,
   'START_BYTE_source': '349',
   'BYTES': 4,
   'BYTES_source': '4',
   'VALID_MINIMUM': 0,
   'VALID_MINIMUM_source': '0',
   'VALID_MAXIMUM': 0,
   'VALID_MAXIMUM_source': '0',
   'DESCRIPTION': 'Integrated thermal emission (W cm-2 ster-1)\nbetween 175 and 2500 cm-1.  (Jupiter and Saturn only)',
   'DESCRIPTION_source': '"Integrated thermal emission (W cm-2 ster-1)\nbetween 175 and 2500 cm-1.  (Jupiter and Saturn only)"',
   'DESCRIPTION_unwrap': 'Integrated thermal emission (W cm-2 ster-1) between 175 and 2500 cm-1.  (Jupiter and Saturn only)',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': ''},
  'DESCRIPTION': '\n    IRIS data files contain reformated IRIS RDR records (header and\n    radiance data) in ascending FDSC time order. The first 364 bytes of\n    each record forms a row in this table, which consists of 85 columns\n    or fields.  Each field has been extracted from the original IRIS\n    RDR header and some fields have been reformated.  Each field is\n    fully described in the associated format file IRIS_ROWFMT.FMT.',
  'DESCRIPTION_source': '"\n    IRIS data files contain reformated IRIS RDR records (header and\n    radiance data) in ascending FDSC time order. The first 364 bytes of\n    each record forms a row in this table, which consists of 85 columns\n    or fields.  Each field has been extracted from the original IRIS\n    RDR header and some fields have been reformated.  Each field is\n    fully described in the associated format file IRIS_ROWFMT.FMT."',
  'DESCRIPTION_unwrap': 'IRIS data files contain reformated IRIS RDR records (header and radiance data) in ascending FDSC time order. The first 364 bytes of each record forms a row in this table, which consists of 85 columns or fields.  Each field has been extracted from the original IRIS RDR header and some fields have been reformated.  Each field is fully described in the associated format file IRIS_ROWFMT.FMT.',
  'END_OBJECT': 'TABLE',
  'END_OBJECT_source': 'TABLE',
  'objects': ['FDS_COUNT',
   'PICTURE_BODY',
   'CENTRAL_BODY',
   'Q5_LATITUDE',
   'Q5_LONGITUDE',
   'EMISS_ANGLE',
   'DIST_SC_PB',
   'PB_SUBSC_LAT',
   'PB_SUBSC_LON',
   'SC_PHASE_ANG',
   'PB_SEMI_DIAM',
   'RAD_NORM_1',
   'RAD_NORM_2',
   'RAD_NORM_3',
   'RAD_NORM_4',
   'RAD_NORM_5',
   'RAD_NORM_6',
   'RAD_NORM_7',
   'RAD_NORM_8',
   'RAD_HIGH_1',
   'RAD_HIGH_2',
   'RAD_HIGH_3',
   'RAD_HIGH_4',
   'RAD_HIGH_5',
   'RAD_HIGH_6',
   'RAD_HIGH_7',
   'RAD_HIGH_8',
   'LOCAL_TIME_HR',
   'SCET_YR',
   'SCET_DAY',
   'SCET_HR',
   'SCET_MIN',
   'SCET_SEC',
   'ERT_YR',
   'ERT_DAY',
   'ERT_HR',
   'ERT_MIN',
   'ERT_SEC',
   'DIST_CB_SUN',
   'DIST_SC_CB',
   'DIST_PB_SUN',
   'DIST_SC_PBTP',
   'SC_ALT',
   'Q1_LATITUDE',
   'Q1_LONGITUDE',
   'Q2_LATITUDE',
   'Q2_LONGITUDE',
   'Q3_LATITUDE',
   'Q3_LONGITUDE',
   'Q4_LATITUDE',
   'Q4_LONGITUDE',
   'Q6_LATITUDE',
   'Q6_LONGITUDE',
   'Q7_LATITUDE',
   'Q7_LONGITUDE',
   'Q8_LATITUDE',
   'Q8_LONGITUDE',
   'Q9_LATITUDE',
   'Q9_LONGITUDE',
   'Q5_LATITUDE_750',
   'Q5_LONGITUDE_750',
   'OPTIC_AXIS',
   'SUB_SOLAR_LAT',
   'SUB_SOLAR_LON',
   'SOL_ZENITH_ANG',
   'Q5_PHASE',
   'SOL_AZIMUTH_ANG',
   'EMISS_ANGLE_750',
   'AVG_BTEMP_22MU',
   'AVG_BTEMP_5MU',
   'IR_DET_TEMP',
   'RADIOM_TEMP',
   'BEAMSP_TEMP',
   'MIC_MOT_TEMP',
   'RAD_SUR_TEMP',
   'PRI_CTR_TEMP',
   'PRI_EDG_TEMP',
   'SEC_MIR_TEMP',
   'ELECT_TEMP',
   'REJECT_CODE',
   'COLD_CAL',
   'PHASE_RESID',
   'INT_VIS',
   'INT_5MU',
   'INT_IR']},
 'SPECTRAL_SERIES': {'OBJECT': 'SPECTRAL_SERIES',
  'OBJECT_source': 'SPECTRAL_SERIES',
  'NAME': 'IRIS_SPECTRA',
  'NAME_source': 'IRIS_SPECTRA',
  'INTERCHANGE_FORMAT': 'BINARY',
  'INTERCHANGE_FORMAT_source': 'BINARY',
  'COLUMNS': 1,
  'COLUMNS_source': '1',
  'ROWS': 6210,
  'ROWS_source': '6210',
  'ROW_BYTES': 4372,
  'ROW_BYTES_source': '4372',
  'ROW_PREFIX_BYTES': 364,
  'ROW_PREFIX_BYTES_source': '364',
  'SAMPLING_PARAMETER_NAME': 'TIME',
  'SAMPLING_PARAMETER_NAME_source': 'TIME',
  'SAMPLING_PARAMETER_UNIT': 'SECOND',
  'SAMPLING_PARAMETER_UNIT_source': 'SECOND',
  'SAMPLING_PARAMETER_INTERVAL': 48.0,
  'SAMPLING_PARAMETER_INTERVAL_source': '48.0',
  'DESCRIPTION': '\n    IRIS data files contain reformated IRIS RDR records (header and\n    radiance data) in ascending FDSC time order.  The last part of each\n    record forms a row in this series, and contains radiance data as a\n    function of wavenumber.  A complete thermal radiance spectrum is\n    sampled every 48 seconds, although not every sample within an\n    interval may be included in a data file.',
  'DESCRIPTION_source': '"\n    IRIS data files contain reformated IRIS RDR records (header and\n    radiance data) in ascending FDSC time order.  The last part of each\n    record forms a row in this series, and contains radiance data as a\n    function of wavenumber.  A complete thermal radiance spectrum is\n    sampled every 48 seconds, although not every sample within an\n    interval may be included in a data file."',
  'DESCRIPTION_unwrap': 'IRIS data files contain reformated IRIS RDR records (header and radiance data) in ascending FDSC time order.  The last part of each record forms a row in this series, and contains radiance data as a function of wavenumber.  A complete thermal radiance spectrum is sampled every 48 seconds, although not every sample within an interval may be included in a data file.',
  'THERMAL_RADIANCE_SPECTRUM': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'THERMAL_RADIANCE_SPECTRUM',
   'NAME_source': 'THERMAL_RADIANCE_SPECTRUM',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'ITEMS': 1093,
   'ITEMS_source': '1093',
   'ITEM_BYTES': 4,
   'ITEM_BYTES_source': '4',
   'START_BYTE': 1,
   'START_BYTE_source': '1',
   'BYTES': 4372,
   'BYTES_source': '4372',
   'SAMPLING_PARAMETER_NAME': 'WAVELENGTH',
   'SAMPLING_PARAMETER_NAME_source': 'WAVELENGTH',
   'SAMPLING_PARAMETER_INTERVAL': 2.15,
   'SAMPLING_PARAMETER_INTERVAL_source': '2.15',
   'MINIMUM_SAMPLING_PARAMETER': 150.175,
   'MINIMUM_SAMPLING_PARAMETER_source': '150.175',
   'MAXIMUM_SAMPLING_PARAMETER': 2500.1,
   'MAXIMUM_SAMPLING_PARAMETER_source': '2500.10',
   'SAMPLING_PARAMETER_UNIT': 'MICROMETER',
   'SAMPLING_PARAMETER_UNIT_source': '"MICROMETER"',
   'DESCRIPTION': '\n      Radiance data in ascending wave number sequence.  Each radiance\n      value is a 4-byte real number, and is sampled at regularly spaced\n      radiance intervals.  These data were extracted from the IRIS RDRs\n      without modification.',
   'DESCRIPTION_source': '"\n      Radiance data in ascending wave number sequence.  Each radiance\n      value is a 4-byte real number, and is sampled at regularly spaced\n      radiance intervals.  These data were extracted from the IRIS RDRs\n      without modification."',
   'DESCRIPTION_unwrap': 'Radiance data in ascending wave number sequence.  Each radiance value is a 4-byte real number, and is sampled at regularly spaced radiance intervals.  These data were extracted from the IRIS RDRs without modification.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': 'COLUMN'},
  'END_OBJECT': 'SPECTRAL_SERIES',
  'END_OBJECT_source': 'SPECTRAL_SERIES',
  'objects': ['THERMAL_RADIANCE_SPECTRUM']},
 'SPECTRUM': {'OBJECT': 'SPECTRUM',
  'OBJECT_source': 'SPECTRUM',
  'NAME': 'IRIS_NOISE_EQUIVALENT',
  'NAME_source': 'IRIS_NOISE_EQUIVALENT',
  'INTERCHANGE_FORMAT': 'BINARY',
  'INTERCHANGE_FORMAT_source': 'BINARY',
  'COLUMNS': 1,
  'COLUMNS_source': '1',
  'ROWS': 1,
  'ROWS_source': '1',
  'ROW_BYTES': 4372,
  'ROW_BYTES_source': '4372',
  'ROW_PREFIX_BYTES': 364,
  'ROW_PREFIX_BYTES_source': '364',
  'DESCRIPTION': 'IRIS noise equivalent spectral radiance (NESR)\ndata.',
  'DESCRIPTION_source': '"IRIS noise equivalent spectral radiance (NESR)\ndata."',
  'DESCRIPTION_unwrap': 'IRIS noise equivalent spectral radiance (NESR) data.',
  'NESR_SPECTRUM': {'OBJECT': 'COLUMN',
   'OBJECT_source': 'COLUMN',
   'NAME': 'NESR_SPECTRUM',
   'NAME_source': 'NESR_SPECTRUM',
   'DATA_TYPE': 'VAX_REAL',
   'DATA_TYPE_source': 'VAX_REAL',
   'ITEMS': 1093,
   'ITEMS_source': '1093',
   'ITEM_BYTES': 4,
   'ITEM_BYTES_source': '4',
   'START_BYTE': 1,
   'START_BYTE_source': '1',
   'BYTES': 4372,
   'BYTES_source': '4372',
   'SAMPLING_PARAMETER_NAME': 'WAVELENGTH',
   'SAMPLING_PARAMETER_NAME_source': 'WAVELENGTH',
   'SAMPLING_PARAMETER_INTERVAL': 2.15,
   'SAMPLING_PARAMETER_INTERVAL_source': '2.15',
   'MINIMUM_SAMPLING_PARAMETER': 150.175,
   'MINIMUM_SAMPLING_PARAMETER_source': '150.175',
   'MAXIMUM_SAMPLING_PARAMETER': 2500.1,
   'MAXIMUM_SAMPLING_PARAMETER_source': '2500.10',
   'SAMPLING_PARAMETER_UNIT': 'MICROMETER',
   'SAMPLING_PARAMETER_UNIT_source': '"MICROMETER"',
   'DESCRIPTION': '\n      Radiance data in ascending wave number sequence.  Each radiance\n      value is a 4-byte real number, and is sampled at regularly spaced\n      radiance intervals.',
   'DESCRIPTION_source': '"\n      Radiance data in ascending wave number sequence.  Each radiance\n      value is a 4-byte real number, and is sampled at regularly spaced\n      radiance intervals."',
   'DESCRIPTION_unwrap': 'Radiance data in ascending wave number sequence.  Each radiance value is a 4-byte real number, and is sampled at regularly spaced radiance intervals.',
   'END_OBJECT': 'COLUMN',
   'END_OBJECT_source': 'COLUMN'},
  'END_OBJECT': 'SPECTRUM',
  'END_OBJECT_source': 'SPECTRUM',
  'objects': ['NESR_SPECTRUM']},
 'END': None,
 'objects': ['TABLE', 'SPECTRAL_SERIES', 'SPECTRUM']}
