OBJECT = COLUMN COLUMN_NUMBER = 1 NAME = DATE DATA_TYPE = TIME START_BYTE = 1 BYTES = 23 DESCRIPTION = "S/C clock date in UTC" FORMAT = A22 END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 2 NAME = JULIAN_DATE DATA_TYPE = ASCII_REAL START_BYTE = 25 BYTES = 14 DESCRIPTION = "S/C clock date in Modified Julian Date 2000" FORMAT = "F14.8" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 3 NAME = SHADOW DATA_TYPE = ASCII_INTEGER START_BYTE = 40 BYTES = 1 DESCRIPTION = "Status flag, if the SPEDE -X probe is in shadow or not: 0 = in sun 1 = in S/C shadow 2 = in Earth or Moon umbra 3 = in S/C and Earth or Moon umbra 4 = in Earth or Moon penumbra 5 = in S/C shadow and Earth or Moon penumbra 9 = unknown situation" FORMAT = "I1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 4 NAME = SC_MX_SUN_ANGLE DATA_TYPE = ASCII_REAL START_BYTE = 42 BYTES = 7 DESCRIPTION = "The angular separation between the spacecraft -X-axis and the sun direction" UNIT = "Deg" MISSING_CONSTANT= "1.E32" FORMAT = "F7.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 5 NAME = SC_MY_SUN_ANGLE DATA_TYPE = ASCII_REAL START_BYTE = 50 BYTES = 7 DESCRIPTION = "The angular separation between the spacecraft -Y-axis and the sun direction" UNIT = "Deg" MISSING_CONSTANT= "1.E32" FORMAT = "F7.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 6 NAME = SC_MZ_SUN_ANGLE DATA_TYPE = ASCII_REAL START_BYTE = 58 BYTES = 7 DESCRIPTION = "The angular separation between the spacecraft -Z-axis and the sun direction" UNIT = "Deg" MISSING_CONSTANT= "1.E32" FORMAT = "F7.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 7 NAME = SC_SA_ANGLE DATA_TYPE = ASCII_REAL START_BYTE = 66 BYTES = 7 DESCRIPTION = "The angular separation between the spacecraft +Z-axis and the solar array +Z-axis." UNIT = "Deg" MISSING_CONSTANT= "1.E32" FORMAT = "F7.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 8 NAME = GSE_X DATA_TYPE = ASCII_REAL START_BYTE = 74 BYTES = 9 DESCRIPTION = "S/C position X-component in GSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 9 NAME = GSE_Y DATA_TYPE = ASCII_REAL START_BYTE = 84 BYTES = 9 DESCRIPTION = "S/C position Y-component in GSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 10 NAME = GSE_Z DATA_TYPE = ASCII_REAL START_BYTE = 94 BYTES = 9 DESCRIPTION = "S/C position Z-component in GSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 11 NAME = LSE_X DATA_TYPE = ASCII_REAL START_BYTE = 104 BYTES = 9 DESCRIPTION = "S/C position X-component in LSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 12 NAME = LSE_Y DATA_TYPE = ASCII_REAL START_BYTE = 114 BYTES = 9 DESCRIPTION = "S/C position Y-component in LSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 13 NAME = LSE_Z DATA_TYPE = ASCII_REAL START_BYTE = 124 BYTES = 9 DESCRIPTION = "S/C position Z-component in LSE coordinates" UNIT = "km" MISSING_CONSTANT= "1.E32" FORMAT = "F9.1" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 14 NAME = TIME_INCREMENT DATA_TYPE = ASCII_REAL START_BYTE = 134 BYTES = 7 UNIT = "s" DESCRIPTION = "Time difference between start of integration periods of subsequent measurements in units of seconds" FORMAT = "F7.3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 15 NAME = MINUS_X_BIAS DATA_TYPE = ASCII_REAL START_BYTE = 142 BYTES = 6 DESCRIPTION = "wave data -X bias voltage" UNIT = "V" FORMAT = "F6.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 16 NAME = PLUS_X_BIAS DATA_TYPE = ASCII_REAL START_BYTE = 149 BYTES = 6 DESCRIPTION = "wave data +X bias voltage" UNIT = "V" FORMAT = "F6.2" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 17 NAME = WAVE_POWER DATA_TYPE = ASCII_REAL START_BYTE = 156 BYTES = 130 ITEM_BYTES = 12 ITEMS = 10 ITEM_OFFSET = 13 DESCRIPTION = "Wave power at the frequency step, starting from 5 kHz, then decreasing by half in each step: item 1: 5000 Hz item 2: 2500 Hz item 3: 1250 Hz item 4: 625 Hz item 5: 313 Hz item 6: 156 Hz item 7: 78 Hz item 8: 39 Hz item 9: 20 Hz item 10: 10 Hz. The power is calculated from the raw data with the formula p = raw^2/(2*N^3)" FORMAT = "E12.5E3" END_OBJECT = COLUMN OBJECT = COLUMN COLUMN_NUMBER = 18 NAME = FLAGS DATA_TYPE = CHARACTER START_BYTE = 287 BYTES = 16 DESCRIPTION = "16th (LS) flag: 0 = the result is checked and found correct 1 = the result is checked and possibly corrected, warnings concerning quality 2 = the result is checked, and found unreliable (no corrections) 9 = the result is unchecked 15th flag: F = frequency measurement, p = original pulse measurement, P = corrected pulse measurement, _ = not applicaple (as in wave measurement) 14th flag: 1 = the first measurement in an measurement vector, _ = following measurements 13th flag: R = the reference voltage was fluctuating during this measurement, _ = the reference voltage was OK (the reference voltage value is obtained from the housekeeping data)" FORMAT = "A16" END_OBJECT = COLUMN