Swath Name = "L1A_AIRS_QA_Subset"
Level = "level1A"
# Footprints = 90
# scanlines per scanset = 3
The names "GeoTrack" and "GeoXTrack" have a special meaning for this document: "Cross-Track" data fields have a hidden dimension of "GeoXTrack"; "Along-Track" data fields have a hidden dimension of "GeoTrack"; "Full Swath Data Fields have hidden dimensions of both "GeoTrack" and "GeoXTrack".
Name | Value | Explanation |
GeoXTrack | 90 | Dimension across track for footprint positions. Same as number of footprints per scanline. |
GeoTrack | # of scan lines in swath | Dimension along track for footprint positions. Same as number of scanlines in granule. (Nominally 45 for Level-2, AMSU, and AIRS/Vis low-rate engineering; 135 for AIRS/Vis and HSB high-rate quantities) |
CalXTrack | 6 | Dimension "across" track for calibration footprint positions. Same as number of calibration footprints per scanline. (NUM_FOOTPRINTS_AIRS_CALIB) (Footprints are ordered: 1-4: spaceviews (ports 3, 4, 1, 2); 5: blackbody radiomentric calibration source; 6: spectral/photometric calibration sources) |
SpaceXTrack | 4 | Dimension "across" track for spaceview calibration footprint positions. (NUM_FOOTPRINTS_AIRS_SPACE) |
BBXTrack | 1 | Dimension "across" track for blackbody calibration footprint positions. (NUM_FOOTPRINTS_AIRS_BB) |
GeoTrack | # of scan lines in swath | Dimension along track for footprint positions. Same as number of scanlines in granule. (Nominally 45 for Level-2, AMSU, and AIRS/Vis low-rate engineering; 135 for AIRS/Vis and HSB high-rate quantities) |
SubTrack | 9 | VIS detector elements per AIRS footprint along track (9) |
SubXTrack | 8 | VIS samples per AIRS footprint across track (8) |
Bulb | 3 | Number of photometric calibration sources (light bulbs) that can be used as sources for photometric calibration (3) |
GainHistory | 5 | Number of photometric gain calculations to store for use in smoothing of gain (5) |
GeoLocationsPerSpot | 4 | Geolocations for the 4 corner pixels in the order: trailing first scanned; trailing last-scanned; leading first-scanned; leading last-scanned. Each footprint also has a central geolocation associated with the swath geolocation lat/lon/time of the footprint. |
Channel | 4 | Dimension of radiance array |
PVModule | 10 | Number of Photovoltaic modules in AIRS (10) |
Name | Explanation |
Latitude | Footprint boresight Latitude in degrees North (-90.0 ... 90.0) |
Longitude | Footprint boresight Longitude in degrees East (-180.0 ... 180.0) |
Time | Footprint "shutter" TAI Time: floating-point elapsed seconds since Jan 1, 1993 |
Name | Type | Extra Dimensions | Explanation |
processing_level | string of 8-bit characters | None | Zero-terminated character string denoting processing level ("level1A") |
instrument | string of 8-bit characters | None | Zero-terminated character string denoting instrument ("AIRS") |
DayNightFlag | string of 8-bit characters | None | Zero-terminated character string denoting granule as day and/or night: (Always "Day", "Night", or "Both") |
AutomaticQAFlag | string of 8-bit characters | None | Zero-terminated character string denoting granule data quality: (Always "Passed", "Failed", or "Suspect") |
NumTotalData | 32-bit integer | None | Total number of expected data points |
NumProcessData | 32-bit integer | None | Number of data points which are present and can be processed routinely (state = 0) |
NumSpecialData | 32-bit integer | None | Number of data points which are present and can be processed only as a special test (state = 1) |
NumBadData | 32-bit integer | None | Number of data points which are present but cannot be processed (state = 2) |
NumMissingData | 32-bit integer | None | Number of expected data points which are not present (state = 3) |
NumLandSurface | 32-bit integer | None | Number of data points for which the surface is more than 90% land |
NumOceanSurface | 32-bit integer | None | Number of data points for which the surface is less than 10% land |
node_type | string of 8-bit characters | None | Zero-terminated character string denoting whether granule is ascending, descending, or pole-crossing: ("Ascending" and "Descending" for entirely ascending or entirely descending granules, or "NorthPole" or "SouthPole" for pole-crossing granules) |
start_year | 32-bit integer | None | Year in which granule started, UTC (e.g. 1999) |
start_month | 32-bit integer | None | Month in which granule started, UTC (1 ... 12) |
start_day | 32-bit integer | None | Day of month in which granule started, UTC (1 ... 31) |
start_hour | 32-bit integer | None | Hour of day in which granule started, UTC (0 ... 23) |
start_minute | 32-bit integer | None | Minute of hour in which granule started, UTC (0 ... 59) |
start_sec | 32-bit floating-point | None | Second of minute in which granule started, UTC (0.0 ... 59.0) |
start_orbit | 32-bit integer | None | Orbit number of mission in which granule started |
end_orbit | 32-bit integer | None | Orbit number of mission in which granule ended |
orbit_path | 32-bit integer | None | Orbit path of start orbit (1 ... 233? as defined by EOS project) |
granule_number | 32-bit integer | None | Number of granule within orbit (1 ... 17?) |
num_scansets | 32-bit integer | None | Number of scansets in granule (1 ... 45) |
num_scanlines | 32-bit integer | None | Number of scanlines in granule (3 * num_scansets) |
start_Latitude | 64-bit floating-point | None | Latitude of spacecraft at start of granule |
start_Longitude | 64-bit floating-point | None | Longitude of spacecraft at start of granule |
start_Time | 64-bit floating-point | None | TAI Time at start of granule |
end_Latitude | 64-bit floating-point | None | Latitude of spacecraft at end of granule |
end_Longitude | 64-bit floating-point | None | Longitude of spacecraft at end of granule |
end_Time | 64-bit floating-point | None | TAI Time at end of granule |
eq_x_longitude | 32-bit floating-point | None | Longitude of spacecraft at southward equator crossing nearest granule start |
eq_x_tai | 64-bit floating-point | None | Time of eq_x_longitude in TAI units |
orbitgeoqa | 32-bit integer | None | Orbit Geolocation QA: bit 0 (LSB): bad input value (last scanline); bit 1: bad input value (first scanline); bit 2: PGS_EPH_GetEphMet() returned PGSEPH_E_NO_SC_EPHEM_FILE; bit 3: PGS_EPH_GetEphMet() returned PGSEPH_E_BAD_ARRAY_SIZE; bit 4: PGS_EPH_GetEphMet() returned PGSTD_E_TIME_FMT_ERROR; bit 5: PGS_EPH_GetEphMet() returned PGSTD_E_TIME_VALUE_ERROR; bit 6: PGS_EPH_GetEphMet() returned PGSTD_E_SC_TAG_UNKNOWN; bit 7: PGS_EPH_GetEphMet() returned PGS_E_TOOLKIT; bit 8: PGS_TD_UTCtoTAI() returned PGSTD_E_NO_LEAP_SECS; bit 9: PGS_TD_UTCtoTAI() returned PGSTD_E_TIME_FMT_ERROR; bit 10: PGS_TD_UTCtoTAI() returned PGSTD_E_TIME_VALUE_ERROR; bit 11: PGS_TD_UTCtoTAI() returned PGS_E_TOOLKIT; bit 12: PGS_CSC_DayNight() returned PGSTD_E_NO_LEAP_SECS; bit 13: PGS_CSC_DayNight() returned PGSCSC_E_INVALID_LIMITTAG; bit 14: PGS_CSC_DayNight() returned PGSCSC_E_BAD_ARRAY_SIZE; bit 15: PGS_CSC_DayNight() returned PGSCSC_W_ERROR_IN_DAYNIGHT; bit 16: PGS_CSC_DayNight() returned PGSCSC_W_BAD_TRANSFORM_VALUE; bit 17: PGS_CSC_DayNight() returned PGSCSC_W_BELOW_HORIZON; bit 18: PGS_CSC_DayNight() returned PGSCSC_W_PREDICTED_UT1; bit 19: PGS_CSC_DayNight() returned PGSTD_E_NO_UT1_VALUE; bit 20: PGS_CSC_DayNight() returned PGSTD_E_BAD_INITIAL_TIME; bit 21: PGS_CSC_DayNight() returned PGSCBP_E_TIME_OUT_OF_RANGE; bit 22: PGS_CSC_DayNight() returned PGSCBP_E_UNABLE_TO_OPEN_FILE; bit 22: PGS_CSC_DayNight() returned PGSMEM_E_NO_MEMORY; bit 24: PGS_CSC_DayNight() returned PGS_E_TOOLKIT; bit 25-31: not used |
num_satgeoqa | 16-bit integer | None | Number of scans with problems in satgeoqa |
num_glintgeoqa | 16-bit integer | None | Number of scans with problems in glintgeoqa |
num_moongeoqa | 16-bit integer | None | Number of scans with problems in moongeoqa |
num_ftptgeoqa | 16-bit integer | None | Number of footprints with problems in ftptgeoqa |
num_zengeoqa | 16-bit integer | None | Number of footprints with problems in zengeoqa |
num_demgeoqa | 16-bit integer | None | Number of footprints with problems in demgeoqa |
num_fpe | 16-bit integer | None | Number of floating point errors |
LonGranuleCen | 16-bit integer | None | Longitude of the center of the granule in degrees (-180 ... 180) |
LatGranuleCen | 16-bit integer | None | Latitude of the center of the granule in degrees (-90 ... 90) |
LocTimeGranuleCen | 16-bit integer | None | Local time at the center of the granule in minutes past midnight (0 ... 1439) |
apid_414_cnt | AIRS Engineering Packet Counts (see below) | None | Counts of packets of APID 414 (AIRS fixed high-rate engineering 1) by condition |
apid_415_cnt | AIRS Engineering Packet Counts (see below) | None | Counts of packets of APID 415 (AIRS fixed high-rate engineering 2) by condition |
apid_416_cnt | AIRS Engineering Packet Counts (see below) | None | Counts of packets of APID 416 (AIRS flexible high-rate engineering 1) by condition |
apid_417_cnt | AIRS Engineering Packet Counts (see below) | None | Counts of packets of APID 417 (AIRS flexible high-rate engineering 2) by condition |
reflector_dev | Unlimited Engineering Struct (see below) | GeoXTrack (= 90) | Statistics describing deviations of the viewing angle "scanang" from expected scan position for each footprint position averaged over the scanlines in the granule (degrees) |
apid_404_cnt | AIRS Science/Calibration Packet Counts (see below) | None | Counts of packets of APID 404 (AIRS Science) by condition |
PHOPOWERVOLT | Limited Engineering Struct (see below) | None | Photo calibrator power voltage (not redundant) (volts) |
PSTEMPSTATUS1 | Limited Engineering Struct (see below) | None | Power supply temperature status 1 (active A or B) (Kelvins) |
RAD1TEMP | Limited Engineering Struct (see below) | None | 1st stage radiator temperature (active A or B) (Kelvins) |
RAD2TEMPVA | Limited Engineering Struct (see below) | None | 2nd stage radiator temperature voltage A (Kelvins) |
RAD2TEMPVB | Limited Engineering Struct (see below) | None | 2nd stage radiator temperature voltage B (Kelvins) |
CHDRIVECURRVA | Limited Engineering Struct (see below) | None | Chopper drive current voltage A (Amps) |
CHDRIVECURRVB | Limited Engineering Struct (see below) | None | Chopper drive current voltage B (Amps) |
FPDETREFTMPVA | Limited Engineering Struct (see below) | None | Focal plane IR detector reference temperature voltage A (volts) |
FPDETREFTMPVB | Limited Engineering Struct (see below) | None | Focal plane IR detector reference temperature voltage B (volts) |
PSCURRVG1SA | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 1 A (amps) |
PSCURRVG1SB | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 1 A (amps) |
PSCURRVG2S1A | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-1 A (amps) |
PSCURRVG2S1B | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-1 B (amps) |
PSCURRVG2S2A | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-2 A (amps) |
PSCURRVG2S2B | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-2 B (amps) |
PSCURRVG2S3A | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-3 A (amps) |
PSCURRVG2S3B | Limited Engineering Struct (see below) | None | Power Supply current voltage for group 2-3 B (amps) |
SCMOTORTEMPA | Limited Engineering Struct (see below) | None | Scannner motor temperature A (Kelvins) |
SCMOTORTEMPB | Limited Engineering Struct (see below) | None | Scannner motor temperature B (Kelvins) |
SPSMATEMP | Limited Engineering Struct (see below) | None | Spectrometer SMA motor support temperature (active A or B) (Kelvins) |
SPTEMP | Limited Engineering Struct (see below) | None | Spectrometer temperature (active A or B) (Kelvins) |
STADMTEMP | Limited Engineering Struct (see below) | None | Structure ADM temperature output (active A or B) (Kelvins) |
STSEMLOCTEMP | Limited Engineering Struct (see below) | None | Structure SEM location temperature output (Kelvins) |
FPDETTEMPVA | Limited Engineering Struct (see below) | None | Focal plane IR detector temperature voltage A (Kelvins) |
FPDETTEMPVB | Limited Engineering Struct (see below) | None | Focal plane IR detector temperature voltage B (Kelvins) |
SPGRATNGTMP1 | Limited Engineering Struct (see below) | None | Spectrometer grating temperature 1 (active A or B) (Kelvins) |
SPGRATNGTMP2 | Limited Engineering Struct (see below) | None | Spectrometer grating temperature 2 (active A or B) (Kelvins) |
CLTTHRM1A | Limited Engineering Struct (see below) | None | Cooler A Electronics Temperature 1 |
CLTTHRM1B | Limited Engineering Struct (see below) | None | Cooler B Electronics Temperature 1 |
CLCURRPRIMA | Limited Engineering Struct (see below) | None | Cooler A Average Peak Input Current |
CLCURRPRIMB | Limited Engineering Struct (see below) | None | Cooler B Average Peak Input Current |
CLTHEXCHA | Limited Engineering Struct (see below) | None | Cooler A Baseplate Temperature |
CLTHEXCHB | Limited Engineering Struct (see below) | None | Cooler B Baseplate Temperature |
CLTCHDPCA | Limited Engineering Struct (see below) | None | Cooler A Cold Head Temperature |
CLTCHDPCB | Limited Engineering Struct (see below) | None | Cooler B Cold Head Temperature |
CLVBACCELPA | Limited Engineering Struct (see below) | None | Cooler A Active Accel Output |
CLVBACCELPB | Limited Engineering Struct (see below) | None | Cooler B Active Accel Output |
apid_405_cnt | AIRS Science/Calibration Packet Counts (see below) | None | Counts of packets of APID 405 (AIRS Space) by condition |
apid_406_cnt | AIRS Science/Calibration Packet Counts (see below) | None | Counts of packets of APID 406 (AIRS Blackbody) by condition |
apid_407_cnt | AIRS Science/Calibration Packet Counts (see below) | None | Counts of packets of APID 407 (AIRS Spectral/Photometric) by condition |
DCRCount | 32-bit integer | None | Number of times a Direct Current Restore was executed for any module |
xtrack_err | 32-bit floating-point | Channel (= 4) | cross-track pixel location error estimate per channel (km) |
track_err | 32-bit floating-point | Channel (= 4) | Along-track pixel location error estimate per channel (km) |
align_1_2_nadir | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-nadir AIRS footprints (45 & 46) between VIS channels 1 & 2 |
align_2_3_nadir | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-nadir AIRS footprints (45 & 46) between VIS channels 2 & 3 |
align_2_4_nadir | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-nadir AIRS footprints (45 & 46) between VIS channels 2 & 4 |
align_1_2_maxang | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-limb AIRS footprints (1 & 90) between VIS channels 1 & 2 |
align_2_3_maxang | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-limb AIRS footprints (1 & 90) between VIS channels 2 & 3 |
align_2_4_maxang | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-limb AIRS footprints (1 & 90) between VIS channels 2 & 4 |
align_vis_airs | 32-bit floating-point | None | Expected error (km) between the pixel locations for the corner locations of near-nadir AIRS footprints (45 & 46) between the AIRS center and all VIS channels |
cal_reflector_dev | Unlimited Engineering Struct (see below) | CalXTrack (= 6) | Statistics describing deviations of the viewing angle "scanang" from expected scan position for each calibration footprint position averaged over the scanlines in the granule (degrees) |
Name | Type | Extra Dimensions | Explanation |
satheight | 32-bit floating-point | None | Satellite altitude at nadirTAI in km above reference ellipsoid (e.g. 725.2) |
satroll | 32-bit floating-point | None | Satellite attitude roll angle at nadirTAI (-180.0 ... 180.0 angle about the +x (roll) ORB axis, +x axis is positively oriented in the direction of orbital flight completing an orthogonal triad with y and z.) |
satpitch | 32-bit floating-point | None | Satellite attitude pitch angle at nadirTAI (-180.0 ... 180.0 angle about +y (pitch) ORB axis. +y axis is oriented normal to the orbit plane with the positive sense opposite to that of the orbit's angular momentum vector H.) |
satyaw | 32-bit floating-point | None | Satellite attitude yaw angle at nadirTAI (-180.0 ... 180.0 angle about +z (yaw) axis. +z axis is positively oriented earthward parallel to the satellite radius vector R from the spacecraft center of mass to the center of the Earth.) |
satgeoqa | 32-bit integer | None | Satellite Geolocation QA flags: bit 0 (LSB): bad input value; bit 1: PGS_TD_TAItoUTC() returned PGSTD_E_NO_LEAP_SECS; bit 2: PGS_TD_TAItoUTC() returned PGS_E_TOOLKIT; bit 3: PGS_EPH_EphemAttit() returned PGSEPH_W_BAD_EPHEM_VALUE; bit 4: PGS_EPH_EphemAttit() returned PGSEPH_E_BAD_EPHEM_FILE_HDR; bit 5: PGS_EPH_EphemAttit() returned PGSEPH_E_NO_SC_EPHEM_FILE; bit 6: PGS_EPH_EphemAttit() returned PGSEPH_E_NO_DATA_REQUESTED; bit 7: PGS_EPH_EphemAttit() returned PGSTD_E_SC_TAG_UNKNOWN; bit 8: PGS_EPH_EphemAttit() returned PGSEPH_E_BAD_ARRAY_SIZE; bit 9: PGS_EPH_EphemAttit() returned PGSTD_E_TIME_FMT_ERROR; bit 10: PGS_EPH_EphemAttit() returned PGSTD_E_TIME_VALUE_ERROR; bit 11: PGS_EPH_EphemAttit() returned PGSTD_E_NO_LEAP_SECS; bit 12: PGS_EPH_EphemAttit() returned PGS_E_TOOLKIT; bit 13: PGS_CSC_ECItoECR() returned PGSCSC_W_BAD_TRANSFORM_VALUE; bit 14: PGS_CSC_ECItoECR() returned PGSCSC_E_BAD_ARRAY_SIZE; bit 15: PGS_CSC_ECItoECR() returned PGSTD_E_NO_LEAP_SECS; bit 16: PGS_CSC_ECItoECR() returned PGSTD_E_TIME_FMT_ERROR; bit 17: PGS_CSC_ECItoECR() returned PGSTD_E_TIME_VALUE_ERROR; bit 18: PGS_CSC_ECItoECR() returned PGSCSC_W_PREDICTED_UT1; bit 19: PGS_CSC_ECItoECR() returned PGSTD_E_NO_UT1_VALUE; bit 20: PGS_CSC_ECItoECR() returned PGS_E_TOOLKIT; bit 21: PGS_CSC_ECRtoGEO() returned PGSCSC_W_TOO_MANY_ITERS; bit 22: PGS_CSC_ECRtoGEO() returned PGSCSC_W_INVALID_ALTITUDE; bit 23: PGS_CSC_ECRtoGEO() returned PGSCSC_W_SPHERE_BODY; bit 24: PGS_CSC_ECRtoGEO() returned PGSCSC_W_LARGE_FLATTENING; bit 25: PGS_CSC_ECRtoGEO() returned PGSCSC_W_DEFAULT_EARTH_MODEL; bit 26: PGS_CSC_ECRtoGEO() returned PGSCSC_E_BAD_EARTH_MODEL; bit 27: PGS_CSC_ECRtoGEO() returned PGS_E_TOOLKIT; bit 28-31: not used |
glintgeoqa | 16-bit integer | None | Glint Geolocation QA flags: bit 0 (LSB): bad input value; bit 1: PGS_CBP_Earth_CB_Vector() returned PGSCBP_W_EARTH_CB_ID; bit 2: PGS_CBP_Earth_CB_Vector() returned PGSCBP_E_INVALID_CB_ID; bit 3: PGS_CBP_Earth_CB_Vector() returned PGSTD_E_BAD_INITIAL_TIME; bit 4: PGS_CBP_Earth_CB_Vector() returned PGSCBP_E_BAD_ARRAY_SIZE; bit 5: PGS_CBP_Earth_CB_Vector() returned PGSCBP_E_UNABLE_TO_OPEN_FILE; bit 6: PGS_CBP_Earth_CB_Vector() returned PGSCBP_E_TIME_OUT_OF_RANGE; bit 7: PGS_CBP_Earth_CB_Vector() returned PGSTD_E_NO_LEAP_SECS; bit 8: PGS_CBP_Earth_CB_Vector() returned PGSCBP_W_BAD_CB_VECTOR; bit 9: PGS_CBP_Earth_CB_Vector() returned PGS_E_TOOLKIT; bit 10: PGS_CSC_ECItoECR() returned any 'W' class return code (for Glint); bit 11: PGS_CSC_ECItoECR() returned any 'E' class return code (for Glint); bit 12: PGS_CSC_ECRtoGEO() returned any 'W' class return code (for Glint); bit 13: PGS_CSC_ECRtoGEO() returned any 'E' class return code (for Glint); bit 14: PGS_CSC_ECItoECR() returned any 'W' class return code (for Sun); bit 15: PGS_CSC_ECItoECR() returned any 'E' class return code (for Sun) |
moongeoqa | 16-bit integer | None | Moon Geolocation QA flags: bit 0: bad input value; bit 1: PGS_TD_TAItoUTC() returned PGSTD_E_NO_LEAP_SECS; bit 2: PGS_TD_TAItoUTC() returned PGS_E_TOOLKIT; bit 3: PGS_CBP_Sat_CB_Vector() returned PGSCSC_W_BELOW_SURFACE; bit 4: PGS_CBP_Sat_CB_Vector() returned PGSCBP_W_BAD_CB_VECTOR; bit 5: PGS_CBP_Sat_CB_Vector() returned PGSCBP_E_BAD_ARRAY_SIZE; bit 6: PGS_CBP_Sat_CB_Vector() returned PGSCBP_E_INVALID_CB_ID; bit 7: PGS_CBP_Sat_CB_Vector() returned PGSMEM_E_NO_MEMORY; bit 8: PGS_CBP_Sat_CB_Vector() returned PGSCBP_E_UNABLE_TO_OPEN_FILE; bit 9: PGS_CBP_Sat_CB_Vector() returned PGSTD_E_BAD_INITIAL_TIME; bit 10: PGS_CBP_Sat_CB_Vector() returned PGSCBP_E_TIME_OUT_OF_RANGE; bit 11: PGS_CBP_Sat_CB_Vector() returned PGSTD_E_SC_TAG_UNKNOWN; bit 12: PGS_CBP_Sat_CB_Vector() returned PGSEPH_E_BAD_EPHEM_FILE_HDR; bit 13: PGS_CBP_Sat_CB_Vector() returned PGSEPH_E_NO_SC_EPHEM_FILE; bit 14: PGS_CBP_Sat_CB_Vector() returned PGS_E_TOOLKIT; bit 15: not used |
nadirTAI | 64-bit floating-point | None | TAI time at which instrument is nominally looking directly down. (between footprints 15 & 16 for AMSU or between footprints 45 & 46 for AIRS/Vis & HSB) |
sat_lat | 64-bit floating-point | None | Satellite latitude in degrees (-90.0 ... 90.0) |
sat_lon | 64-bit floating-point | None | Satellite longitude in degrees (-180.0 ... 180.0) |
scan_node_type | 8-bit integer | None | 'A' for ascending, 'D' for descending, 'N' for North-Polar, 'S' for South-Polar |
EngDataFormt1 | 16-bit integer | None | Data field format used for multiple alternate lists from HR Eng packet 1 (=0 for default; see AIRS THB Table 4-2) |
EngDataFormt2 | 16-bit integer | None | Data field format used for multiple alternate lists from HR Eng packet 2 (=0 for default; see AIRS THB Table 4-2) |
EdABIndic1 | 32-bit floating-point | None | EDC A/B Powered on Indicator (A=2.5 B=0) (Volts) |
EdABIndic2 | 32-bit floating-point | None | EDC A/B Powered on Indicator (A=2.5 B=0) (Volts) |
OpMode | 16-bit integer | None | Instrument Operations Mode. See AIRS Command Handbook, section 7.2.4, for a definition of each bit. |
ScOpModeCurr | 8-bit integer | None | Scanner Operating Mode - current mode |
ScOpModeCmded | 8-bit integer | None | Scanner Operating Mode - commanded mode |
RTShrdMemFail | 8-bit integer | None | Flag indicating test of remote term mem failed - bit 15 (msb) of sw status wd 1 |
MemoryFail | 8-bit integer | None | RAM failure detected by Perform Memory Test - bit 12 of software status word 1 |
ROMCksumError | 8-bit integer | None | ROM checksum error detected by Perform Memory Test - bit 11 of sw status word 1 |
RTMessgeError | 8-bit integer | None | Summit chip reported remote terminal message error - bit 9 of sw status word 1 |
MissingEDTC | 8-bit integer | None | End of Data Transfer Cycle msg not recvd in time - bit 8 of sw status word 1 |
MissngTimSync | 8-bit integer | None | S/C time code or sync signals missing several times - bit 7 of sw status word 1 |
VCXOConstrErr | 8-bit integer | None | VCXO Constr Error - bit 6 of software status word 1 |
InsClkHldgOvw | 8-bit integer | None | Flag indicating inst clock holding reg overwritten - bit 5 of sw status word 1 |
InstClkAdjust | 8-bit integer | None | Flag indicating inst clock adjusted to s/c time signal - bit 3 of sw status wd 1 |
ResetCause | 8-bit integer | None | Cause of the latest software reset - bits 2 - 0 (lsbs) of software status word 1 |
ICIProtFault | 8-bit integer | None | ICI Protection Fault - bit 14 of software status word 2 |
ICIInvalRange | 8-bit integer | None | ICI Invalid Range - bit 13 of software status word 2 |
ICIInvChannel | 8-bit integer | None | Flag indicating invalid port number in a serial cmd - bit 11 of sw status word 2 |
RTBITFail | 8-bit integer | None | Flag indicating remote terminal BIT test failed - bit 10 of sw status word 2 |
AmaRelayFaild | 8-bit integer | None | Flag indicating AMA actuator selection failed - bit 14 of software status word 3 |
AmaStepFailed | 8-bit integer | None | Actuator failed to move requested number of steps - bit 13 of sw status word 3 |
Ama3EndState | 8-bit integer | None | AMA end state for actuator #3 - bits 12 - 10 of software status word 3 |
Ama2EndState | 8-bit integer | None | AMA end state for actuator #2 - bits 9 - 7 of software status word 3 |
ScnrOpnFail | 8-bit integer | None | Flag indicating scanner failed to perform as expected - bit 5 of sw status wd 2 |
Ama1EndState | 8-bit integer | None | AMA end state for actuator #1 - bits 6 - 4 of software status word 3 |
AmaSwStatus | 8-bit integer | None | AMA software processing state - bits 3 - 1 of software status word 3 |
ScannrAtPoint | 8-bit integer | None | Flag indicating scanner is pointing in cmded direction - bit 0 of sw status wd 3 |
AmaInvSwState | 8-bit integer | None | Flag indicating AMA reached an illegal state - bit 15 (msb) of sw status word 3 |
spacecraft_state | 8-bit integer | None | Spacecraft state (0=LNCH; 1=STBY; 2=SCI; 3=SAFE; 4=SRVL; 5-7=UNDF) |
moonang | 32-bit floating-point | SpaceXTrack (= 4) | Angle (degrees) between the center of the moon and the boresight |
DpCircCount | 16-bit integer | None | Data Processing circumvention counts (active A or B) (counts) |
DpCircBasThr | 16-bit integer | None | Data Processing circumvention base threshold (active A or B) |
ViSnsrArrTemp | 32-bit floating-point | None | Vis/NIR Sensor Array Temperature (Celcius) |
ScHeadTemp1 | 32-bit floating-point | None | Scanner Head Housing Temperature 1 (active A or B) (Celcius) |
ViPowerVolt | 32-bit floating-point | None | Vis/NIR Power Voltage (not redundant) (Volts) |
PhoPowerVolt | 32-bit floating-point | None | Photo calibrator power voltage (not redundant) (volts) |
PhotoCalOn | 32-bit floating-point | None | Photo calibrator power on (0.0 = off 3.75 = on) (not redundant) (volts) |
PhoCalLamp1On | 32-bit floating-point | None | Photo calibrator lamp 1 on (0.0 = not 4.5 = sel) (not redundant) (volts) |
PhoCalLamp2On | 32-bit floating-point | None | Photo calibrator lamp 2 on (0.0 = not 4.5 = sel) (not redundant) (volts) |
PhoCalLamp3On | 32-bit floating-point | None | Photo calibrator lamp 3 on (0.0 = not 4.5 = sel) (not redundant) (volts) |
Name | Type | Extra Dimensions | Explanation |
ftptgeoqa | 32-bit integer | None | Footprint Geolocation QA flags: bit 0 (LSB): bad input value; bit 1: PGS_TD_TAItoUTC() returned PGSTD_E_NO_LEAP_SECS; bit 2: PGS_TD_TAItoUTC() returned PGS_E_TOOLKIT; bit 3: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_MISS_EARTH; bit 4: PGS_CSC_GetFOV_Pixel() returned PGSTD_E_SC_TAG_UNKNOWN; bit 5: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_ZERO_PIXEL_VECTOR; bit 6: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_BAD_EPH_FOR_PIXEL; bit 7: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_INSTRUMENT_OFF_BOARD; bit 8: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_BAD_ACCURACY_FLAG; bit 9: PGS_CSC_GetFOV_Pixel() returned PGSCSC_E_BAD_ARRAY_SIZE; bit 10: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_DEFAULT_EARTH_MODEL; bit 11: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_DATA_FILE_MISSING; bit 12: PGS_CSC_GetFOV_Pixel() returned PGSCSC_E_NEG_OR_ZERO_RAD; bit 13: PGS_CSC_GetFOV_Pixel() returned PGSMEM_E_NO_MEMORY; bit 14: PGS_CSC_GetFOV_Pixel() returned PGSTD_E_NO_LEAP_SECS; bit 15: PGS_CSC_GetFOV_Pixel() returned PGSTD_E_TIME_FMT_ERROR; bit 16: PGS_CSC_GetFOV_Pixel() returned PGSTD_E_TIME_VALUE_ERROR; bit 17: PGS_CSC_GetFOV_Pixel() returned PGSCSC_W_PREDICTED_UT1; bit 18: PGS_CSC_GetFOV_Pixel() returned PGSTD_E_NO_UT1_VALUE; bit 19: PGS_CSC_GetFOV_Pixel() returned PGS_E_TOOLKIT; bit 20: PGS_CSC_GetFOV_Pixel() returned PGSEPH_E_BAD_EPHEM_FILE_HDR; bit 21: PGS_CSC_GetFOV_Pixel() returned PGSEPH_E_NO_SC_EPHEM_FILE; bit 22-31: not used |
zengeoqa | 16-bit integer | None | Satellite zenith Geolocation QA flags: bit 0 (LSB): (Spacecraft) bad input value; bit 1: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_W_BELOW_HORIZON; bit 2: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_W_UNDEFINED_AZIMUTH; bit 3: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_W_NO_REFRACTION; bit 4: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_E_INVALID_VECTAG; bit 5: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_E_LOOK_PT_ALTIT_RANGE; bit 6: PGS_CSC_ZenithAzimuth(S/C) returned PGSCSC_E_ZERO_INPUT_VECTOR; bit 7: PGS_CSC_ZenithAzimuth(S/C) returned PGS_E_TOOLKIT; bit 8: (Sun) bad input value; bit 9: (suppressed) PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_W_BELOW_HORIZON (This is not an error condition - the sun is below the horizon at night); bit 10: PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_W_UNDEFINED_AZIMUTH; bit 11: PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_W_NO_REFRACTION; bit 12: PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_E_INVALID_VECTAG; bit 13: PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_E_LOOK_PT_ALTIT_RANGE; bit 14: PGS_CSC_ZenithAzimuth(Sun) returned PGSCSC_E_ZERO_INPUT_VECTOR; bit 15: PGS_CSC_ZenithAzimuth(Sun) returned PGS_E_TOOLKIT |
demgeoqa | 16-bit integer | None | Digital Elevation Model (DEM) Geolocation QA flags: bit 0 (LSB): bad input value; bit 1: Could not allocate memory; bit 2: Too close to North or South pole. Excluded; bit 3: Layer resolution incompatibility. Excluded; bit 4: Any DEM Routine (elev) returned PGSDEM_E_IMPROPER_TAG; bit 5: Any DEM Routine (elev) returned PGSDEM_E_CANNOT_ACCESS_DATA; bit 6: Any DEM Routine (land/water) returned PGSDEM_E_IMPROPER_TAG; bit 7: Any DEM Routine (land/water) returned PGSDEM_E_CANNOT_ACCESS_DATA; bit 8: Reserved for future layers; bit 9: Reserved for future layers; bit 10: PGS_DEM_GetRegion(elev) returned PGSDEM_M_FILLVALUE_INCLUDED; bit 11: PGS_DEM_GetRegion(land/water) returned PGSDEM_M_FILLVALUE_INCLUDED; bit 12: Reserved for future layers; bit 13: PGS_DEM_GetRegion(all) returned PGSDEM_M_MULTIPLE_RESOLUTIONS; bit 14: PGS_CSC_GetFOV_Pixel() returned any 'W' class return code; bit 15: PGS_CSC_GetFOV_Pixel() returned any 'E' class return code |
state | 32-bit integer | None | Data state: 0:Process, 1:Special, 2:Erroneous, 3:Missing |
footprint_TAI | 64-bit floating-point | None | TAI time of calibration footprint |
Limited Engineering Struct: This type is used for engineering data fields for which there are known "yellow" limits
Field Name | Type | Explanation |
min | 32-bit floating-point | Minimum value field takes on in granule (not valid when num_in = 0) |
max | 32-bit floating-point | Maximum value field takes on in granule (not valid when num_in = 0) |
mean | 32-bit floating-point | Mean of in-range values field takes on in granule (not valid when num_in = 0) |
dev | 32-bit floating-point | Standard Deviation of in-range values field takes on in granule (not valid when num_in = 0) |
num_in | 32-bit integer | Count of in-range values field takes on in granule |
num_lo | 32-bit integer | Count of out-of-range low values field takes on in granule |
num_hi | 32-bit integer | Count of out-of-range high values field takes on in granule |
num_bad | 32-bit integer | Count of occassions on which field takes on invalid flag value (-9999) in granule |
range_min | 32-bit floating-point | Minimum in-range value. Any value less than this is counted in num_lo and is not used in the calculation of mean & dev. |
range_max | 32-bit floating-point | Maximum in-range value. Any value greater than this is counted in num_hi and is not used in the calculation of mean & dev. |
missing | 8-bit integer | Missing limits flags. Bit 0 (LSB) is 1 when yellow low (range_min) limit is missing; Bit 1 is high when yellow high (range_max) limit is missing; other bits unused, set to 0. |
max_track | 32-bit integer | GeoTrack index (counting from 1) where max was found |
max_xtrack | 32-bit integer | GeoXTrack index (counting from 1) where max was found |
min_track | 32-bit integer | GeoTrack index (counting from 1) where min was found |
min_xtrack | 32-bit integer | GeoXTrack index (counting from 1) where min was found |
Unlimited Engineering Struct: This type is used for engineering data fields for which there are NOT known "yellow" limits
Field Name | Type | Explanation |
min | 32-bit floating-point | Minimum value field takes on in granule (not valid when num = 0) |
max | 32-bit floating-point | Maximum value field takes on in granule (not valid when num = 0) |
mean | 32-bit floating-point | Mean of values field takes on in granule (not valid when num = 0) |
dev | 32-bit floating-point | Standard Deviation of values field takes on in granule (not valid when num = 0) |
num | 32-bit integer | Count of occurrences of field in granule (not including those counted in num_bad) |
num_bad | 32-bit integer | Count of occassions on which field takes on invalid flag value (-9999) in granule |
max_track | 32-bit integer | GeoTrack index (counting from 1) where max was found |
max_xtrack | 32-bit integer | GeoXTrack index (counting from 1) where max was found |
min_track | 32-bit integer | GeoTrack index (counting from 1) where min was found |
min_xtrack | 32-bit integer | GeoXTrack index (counting from 1) where min was found |
AIRS Engineering Packet Counts: This type tracks counts of packets received during an interval by conditions under which they were received
Field Name | Type | Explanation |
missing_in | 16-bit integer | Count of packets missing between packets that are present |
missing_ends | 16-bit integer | Count of packets missing at beginning or end of granule timespan: missing packets for which there are either no existing packets before them or no existing packets after them. (When all data is missing all packets will be counted here) |
good | 16-bit integer | Count of packets not counted in any other category |
AIRS Science/Calibration Packet Counts: This type tracks counts of packets received during an interval by conditions under which they were received
Field Name | Type | Explanation |
missing_in | 16-bit integer | Count of packets missing between packets of any AIRS APID that are present |
missing_ends | 16-bit integer | Count of packets missing at beginning or end of granule timespan: missing packets for which there are either no existing packets before them or no existing packets after them. (When all data is missing all packets will be counted here) |
at_noop | 16-bit integer | Count of packets for which the spacecraft mode is not operational for some or all of the packet interval |
illegal_mode | 16-bit integer | Count of packets for which there was an illegal instrument mode |
special_cal | 16-bit integer | Count of packets for which the instrument was in a special calibration mode |
invalid_data | 16-bit integer | Count of invalid packets (includes missing engineering) |
good | 16-bit integer | Count of packets not counted in any other category |