OBJECT = COLUMN NAME = "TABLE_TIME_UTC" DATA_TYPE = TIME START_BYTE = 1 BYTES = 23 UNIT = "N/A" DESCRIPTION = "UTC Time in PDS standard format YYYY-MM-DDThh:mm:ss.sss" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TABLE_TIME_OOBT" DATA_TYPE = CHARACTER START_BYTE = 26 BYTES = 17 MISSING_CONSTANT = " 9/9999999.99999" DESCRIPTION = "Orbiter On Board Time OOBT is represented as: Reset number (integer starting at 1) / seconds. Reset number 1 starts at 2003-01-01T00:00:00 UTC The time resolution is 1/65536 s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TABLE_TYPE" DATA_TYPE = CHARACTER START_BYTE = 46 BYTES = 3 DESCRIPTION = "Possible values: TBL for Configuration table containing the operational parameters which can be modified in the onboard software CTL for Control sequence, used to get a detailed status of the experiment (also containing the configuration table" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TABLE_NUMBER" DATA_TYPE = CHARACTER START_BYTE = 52 BYTES = 12 FORMAT = "N/A" DESCRIPTION = "Table number, given in the form x/y , where: x is the current number of the table in the PDS dataset y is the maximum number of tables found in the PDS dataset" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TABLE_BYTES_HEX" DATA_TYPE = CHARACTER START_BYTE = 67 BYTES = 17 DESCRIPTION = "Configuration table, containing all the operational parameters, given as 6 bytes in Hexadecimal format (one link-packet between PIU and RPC-MIP), separated by a blank character. The description is given below : byte 0 bits 4,3 : Interference frequency #1 byte 1 bits 4,3 : Interference frequency #2 byte 2 bits 4,3 : Interference frequency #3 byte 3 bits 7,6 : Transmission_level bits 5,4 : Transmitter_odd_sweeps bits 3,2 : Transmitter_even_sweeps bits 1,0 : Extremum_threshold byte 4 bits 7,6,5 : Sweep_mode_bandwidth bits 4,3,2 : Survey_mode_bandwidth bit 1 : Ampl_pas bit 0 : Autoloop byte 5 bit 7 : Watchdog bits 6,5,4 : Science_sequence_number bit 3 : LDL_type bit 2 : Mode bits 1,0 : TM_rate" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INTERF_FREQ1" DATA_TYPE = ASCII_INTEGER START_BYTE = 86 BYTES = 4 UNIT = KILOHERTZ FORMAT = "I4" DESCRIPTION = "Interference frequency number 1 i.e. frequency to be ignored during the on-boar extremum detection the active modes" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INTERF_FREQ2" DATA_TYPE = ASCII_INTEGER START_BYTE = 91 BYTES = 4 UNIT = KILOHERTZ FORMAT = "I4" DESCRIPTION = "Interference frequency number 2 i.e. frequency to be ignored during the on-boar extremum detection the active modes" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "INTERF_FREQ3" DATA_TYPE = ASCII_INTEGER START_BYTE = 96 BYTES = 4 UNIT = KILOHERTZ FORMAT = "I4" DESCRIPTION = "Interference frequency number 3 i.e. frequency to be ignored during the on-boar extremum detection the active modes" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TRANSMISSION_LEVEL" DATA_TYPE = ASCII_REAL START_BYTE = 101 BYTES = 5 UNIT = "N/A" FORMAT = "F5.3" DESCRIPTION = "Level of the transmitted signal Possible values: {1.000, 0.500, 0.250, 0.125} 1.000 for full level, (156 mV RMS in MIP mode, 30 V RMS in LDL mode) 0.500 for nominal level, (78 mV RMS in MIP mode, 15 V RMS in LDL mode) 0.250 for low level, (39 mV RMS in MIP mode, 7.5 V RMS in LDL mode) 0.125 for minimum level, (19.5 mV RMS in MIP mode, 3.75 V RMS in LDL mode) " END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TRANSMISSION_ODD" DATA_TYPE = CHARACTER START_BYTE = 108 BYTES = 29 UNIT = "N/A" DESCRIPTION = "Transmitter configuration for odd sweeps (1, 3, ...) Possible values: mono with E1 mono with E2 stereo with E1-E2 phased stereo with E1-E2 anti-phased" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TRANSMISSION_EVEN" DATA_TYPE = CHARACTER START_BYTE = 140 BYTES = 29 UNIT = "N/A" DESCRIPTION = "Transmitter configuration for even sweeps (2, 4, ...) Possible values: mono with E1 mono with E2 stereo with E1-E2 phased stereo with E1-E2 anti-phased" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "MODE" DATA_TYPE = CHARACTER START_BYTE = 172 BYTES = 9 UNIT = "N/A" DESCRIPTION = "SDL/LDL transmitter configuration: Possible values: {MIP alone, LDL mode} MIP alone for SDL LDL mode for LDL" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "AUTOLOOP" DATA_TYPE = CHARACTER START_BYTE = 184 BYTES = 16 UNIT = "N/A" DESCRIPTION = "Autoloop : an auto-loop can be set between emission and reception Possible values: MIP with sensor MIP auto-loop ON" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "AMPL_PAS" DATA_TYPE = ASCII_INTEGER START_BYTE = 202 BYTES = 1 UNIT = DECIBEL FORMAT = "I1" DESCRIPTION = "Coding level for the power spectrum in Passive mode 0 dB = 0.6 microV*Hz**-0.5 Possible values: {2, 4} 2, for 16 values from 0 to 30 dB 4, for 16 values from 0 to 60 dB" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "EXT_THRESHOLD" DATA_TYPE = ASCII_INTEGER START_BYTE = 204 BYTES = 1 UNIT = DECIBEL FORMAT = "I1" DESCRIPTION = "Amplitude threshold for the extremum detection 0 dB = 0.6 microV*Hz**-0.5 Possible values: 1 2 4 8" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "SURVEY_BAND" DATA_TYPE = ASCII_INTEGER START_BYTE = 206 BYTES = 1 UNIT = "N/A" FORMAT = "I1" DESCRIPTION = "Frequency table used in Survey modes Possible values: 0 to 7 Frequency tables are described below, with details on bandwidth resolution number of steps Table #0 (nominal) from 28 kHz to 3472 kHz, decomposed as: 28 - 224 kHz 7 kHz 29 238 - 448 kHz 14 kHz 16 476 - 896 kHz 28 kHz 16 952 - 1792 kHz 56 kHz 16 1904 - 3472 kHz 112 kHz 15 Table #1 from 28 kHz to 665 kHz 28 - 665 kHz 7 kHz 92 Table #2 from 259 kHz to 896 kHz 259 - 896 kHz 7 kHz 92 Table #3 from 518 kHz to 1792 kHz 518 - 1792 kHz 14 kHz 92 Table #4 from 924 kHz to 3472 kHz 924 - 3472 kHz 28 kHz 92 Table #5 from 357 kHz to 987 kHz, decomposed as: 28 - 343 kHz 7 kHz 46 357 - 987 kHz 14 kHz 46 Table #6 from 28 kHz to 1582 kHz, decomposed as: 28 - 224 kHz 7 kHz 29 238 - 630 kHz 14 kHz 29 658 - 1582 kHz 28 kHz 34 Table #7 from 266 kHz to 2184 kHz, decomposed as: 266 - 896 kHz 14 kHz 46 924 - 2184 kHz 28 kHz 46" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "SWEEP_BAND" DATA_TYPE = ASCII_INTEGER START_BYTE = 208 BYTES = 1 UNIT = "N/A" FORMAT = "I1" DESCRIPTION = "Frequency table used in Sweep modes Possible values: 0 to 7 Frequency tables are described below, with details on bandwidth resolution number of steps Table #0 (nominal) from 28 kHz to 3472 kHz, decomposed as: 28 - 224 kHz 7 kHz 29 238 - 448 kHz 14 kHz 16 476 - 896 kHz 28 kHz 16 952 - 1792 kHz 56 kHz 16 1904 - 3472 kHz 112 kHz 15 Table #1 from 28 kHz to 665 kHz 28 - 665 kHz 7 kHz 92 Table #2 from 259 kHz to 896 kHz 259 - 896 kHz 7 kHz 92 Table #3 from 518 kHz to 1792 kHz 518 - 1792 kHz 14 kHz 92 Table #4 from 924 kHz to 3472 kHz 924 - 3472 kHz 28 kHz 92 Table #5 from 357 kHz to 987 kHz, decomposed as: 28 - 343 kHz 7 kHz 46 357 - 987 kHz 14 kHz 46 Table #6 from 28 kHz to 1582 kHz, decomposed as: 28 - 224 kHz 7 kHz 29 238 - 630 kHz 14 kHz 29 658 - 1582 kHz 28 kHz 34 Table #7 from 266 kHz to 2184 kHz, decomposed as: 266 - 896 kHz 14 kHz 46 924 - 2184 kHz 28 kHz 46" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "WATCHDOG" DATA_TYPE = CHARACTER START_BYTE = 211 BYTES = 12 UNIT = "N/A" DESCRIPTION = "MIP watchdog status Possible values: watchdog on watchdog off" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TM_RATE" DATA_TYPE = CHARACTER START_BYTE = 226 BYTES = 12 UNIT = "N/A" DESCRIPTION = "Telemetry rate Possible values: minimum rate normal rate burst rate" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "SEQUENCE_NR" DATA_TYPE = CHARACTER START_BYTE = 241 BYTES = 27 UNIT = "N/A" DESCRIPTION = "MIP sequence number Possible values: nominal sequence complementary sequence nr 1 complementary sequence nr 2 complementary sequence nr 3 complementary sequence nr 4 complementary sequence nr 5 complementary sequence nr 6 complementary sequence nr 7" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "LDL_TYPE" DATA_TYPE = CHARACTER START_BYTE = 271 BYTES = 10 UNIT = "N/A" DESCRIPTION = "LDL type Possible values: normal LDL mixed LDL" END_OBJECT = COLUMN