urn:nasa:pds:mars2020_rimfax:data_calibrated:rimfax_calibrated_00016
2.0
Mars 2020 RIMFAX Calibrated Data Product rimfax_calibrated_00016
1.16.0.0
Product_Observational
2022-01-06
2.0
Reprocessed with improved calibration in Release 3.
See Release Notes for more information.
2021-08-07
1.0
Initial product version.
2021-03-07T05:12:13.880Z
2021-03-07T05:32:47.623Z
Mars 2020
Mission
urn:nasa:pds:context:investigation:mission.mars2020
data_to_investigation
Mars 2020
Host
urn:nasa:pds:context:instrument_host:spacecraft.mars2020
is_instrument_host
Radar Imager for Mars Subsurface Exploration
Instrument
urn:nasa:pds:context:instrument:mars2020.rimfax
is_instrument
Mars
Planet
urn:nasa:pds:context:target:planet.mars
data_to_target
1
Surface Mission
668365832
668367066
1
00016
00016
Sol-00016M13:51:42.294
Sol-00016M14:11:43.028
13:19:18
00016
13:39:19
00016
13.5690329
13.5758746
1
154
155
230
231
26
27
2021-03-07T05:12:13.880Z
2021-03-07T05:32:47.623Z
2459280.71682731
2459280.73110675
1197
2020
18.44513505
18.44527990
77.45103403
77.45149726
-2235.846
-2235.235
naif0012.tls
m2020_v04.tf
m2020_tp_ops210303_iau2000_v1.tf
m2020_lmst_ops210303_v1.tsc
M2020_168_SCLKSCET.00007.tsc
pck00010.tpc
mar097.bsp
m2020_ls_ops210303_iau2000_v1.bsp
m2020_surf_rover_loc.bsp
m2020_struct_v01.bsp
m2020_surf_rover_tlm_spanned.bc
rimfax_calibrated_00016
processing_information_to_data_object
M2020EDRGEN
"V7.0 2-17-2021"
CODMAC LEVEL 1 TO LEVEL 2 CONVERSION VIA JPL/MIPL M2020EDRGEN
rimrdr
2.0 2021-12-29
Generation of RIMFAX CDR from Raw Data and other products
urn:nasa:pds:mars2020_rimfax:document:rimfax_cdr_sis
data_to_document
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edm0030386n__a_1ax1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edm0030386n__a_9ax1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edm0030386n__a_e6x1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edr0030386n__a_1ax1rfax02201j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edr0030386n__a_9ax1rfax02201j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm1_0016_0668365861edr0030386n__a_e6x1rfax02201j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm2_0016_0668365861edm0030386n__a_01r1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm2_0016_0668365861edm0030386n__a_01x1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm2_0016_0668365861edr0030386n__a_01r1rfax02201j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xm2_0016_0668365861edr0030386n__a_01x1rfax02201j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edm0030386n__a_1ax1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edm0030386n__a_9ax1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edm0030386n__a_e6x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edr0030386n__a_1ax1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edr0030386n__a_9ax1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365833edr0030386n__a_e6x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365983ehk0030389n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668365983ehm0030389n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366103ehk0030415n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366103ehm0030415n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366226ehk0030439n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366226ehm0030439n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366463ehk0030488n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366463ehm0030488n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366584ehk0030517n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366584ehm0030517n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366703ehk0030539n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366703ehm0030539n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366825ehk0030553n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366825ehm0030553n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366944ehk0030577n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668366944ehm0030577n__a_e6r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367039ehk0030578n__a_e6r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367039ehm0030578n__a_e6r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edm0030578n__a_1ax1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edm0030578n__a_9ax1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edm0030578n__a_e6x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edr0030578n__a_1ax1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edr0030578n__a_9ax1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs1_0016_0668367040edr0030578n__a_e6x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365832ehk0030386n__a_00r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365832ehm0030386n__a_00r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edm0030386n__a_01x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edm0030386n__a_1bx1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edm0030386n__a_9bx1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edm0030386n__a_e7x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edr0030386n__a_01x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edr0030386n__a_1bx1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edr0030386n__a_9bx1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365833edr0030386n__a_e7x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365859ehk0030386n__a_01r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365859ehm0030386n__a_01r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365860ehk0030386n__a_01r1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668365860ehm0030386n__a_01r1rfax02201j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668366344ehk0030463n__a_01r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668366344ehm0030463n__a_01r1aut_04096j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edm0030578n__a_01x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edm0030578n__a_1bx1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edm0030578n__a_9bx1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edm0030578n__a_e7x1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edr0030578n__a_01x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edr0030578n__a_1bx1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edr0030578n__a_9bx1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367040edr0030578n__a_e7x1rfax02101j.dat
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367066ehk0030578n__a_01r1rfax02101j.csv
data_to_associate
urn:nasa:pds:mars2020_rimfax:data_raw:xs2_0016_0668367066ehm0030578n__a_01r1rfax02101j.csv
data_to_associate
rimfax_calibrated_00016.csv
2022-01-06T00:00
0
106040
7-Bit ASCII Text
The first line in the file contains column headings.
rimfax_calibrated_00016
106040
PDS DSV 1
844
Carriage-Return Line-Feed
Comma
90
1
record_number
1
ASCII_Integer
Numerical ordinal label of [non-header] table record
record_number_stats
0844
0001
record_type
2
ASCII_Integer
Type of table record: 0 = Active Sounding Measurement, 1 = Passive Radiometry Measurement, 5 = Housekeeping Measurement, 8 = Calibration Array
record_type_stats
8
0
calibration_array_object
3
ASCII_Integer
Integer label of the Calibration Array object contained in this table record. This field is referenced by the integer values of the parameters: amplitude_correction_ref, phase_correction_ref, gating_amplitude_correction_ref
calibration_array_object_stats
6
1
utc
4
ASCII_String
Universal Time Coordinated (YYYY-MM-DDTHH:MM:SS.SSS)
jdate
5
ASCII_Real
days
Julian date (days)
jdate_stats
2459280.73110675
2459280.71682731
doy
6
ASCII_Integer
days
Day of Earth year (days)
doy_stats
66
66
year
7
ASCII_Integer
years
Earth year (years)
year_stats
2021
2021
local_mean_solar_time
8
ASCII_String
Local mean solar time (LMST) (HH:MM:SS.SSS [Mars])
local_true_solar_time
9
ASCII_String
Local true solar time (LTST) (HH:MM:SS [Mars])
sol
10
ASCII_Integer
sols
Sol of the Mars 2020 Perseverance mission [Landing Sol 0 was on Feb 18, 2021] (sols)
sol_stats
00016
00016
ls
11
ASCII_Real
deg
Solar longitude, measured from northern spring equinox = 0 (deg Ls)
ls_stats
13.5758746
13.5690329
mars_year
12
ASCII_Integer
years
Mars year [April 11, 1955 = start of Year 1 OR May 24, 1953 = start of Year 0] (years [Mars])
mars_year_stats
36
36
sclk
13
ASCII_Integer
s
System time in SCLK seconds [Time 0 = midnight on Jan 1, 1980] (s)
sclk_stats
668367066
668365832
sclk_sub_ns
14
ASCII_Integer
ns
System time SCLK subseconds, in whole-number of nanoseconds (ns)
sclk_sub_ns_stats
999999999
026106210
sun_lat
15
ASCII_Real
deg
[Planetocentric] Sub-solar latitude (deg)
sun_lat_stats
5.73482563
5.73198023
sun_lon
16
ASCII_Real
deg
[Planetocentric East] Sub-solar longitude (deg)
sun_lon_stats
57.62380091
52.61951607
sun_dist
17
ASCII_Real
AU
Distance between sun and Mars centers (AU)
sun_dist_stats
1.59003059
1.59001485
sun_inc
18
ASCII_Real
deg
Incidence angle of sun with respect to the normal to the local ellipsoid surface, measured from Zenith = 0 (deg)
sun_inc_stats
27.4334
23.2474
sun_az
19
ASCII_Real
deg
Azimuth direction of sun within the gravity-normal plane, measured clockwise from North = 0 (deg)
sun_az_stats
245.0872
238.7646
ant_lat
20
ASCII_Real
deg
[Planetocentric] Latitude of RIMFAX antenna frame origin (deg)
ant_lat_stats
18.44527444
18.44513009
ant_lon
21
ASCII_Real
deg
[Planetocentric East] Longitude of RIMFAX antenna frame origin (deg)
ant_lon_stats
77.45148185
77.45101778
ant_elev
22
ASCII_Real
m
[Geodetic] Elevation of RIMFAX antenna frame origin (m)
ant_elev_stats
-2234.584
-2235.180
ant_az
23
ASCII_Real
deg
Azimuth angle of antenna: Angle between North and the projection of the antenna +X (forwards) axis onto the gravity-normal plane (ie, angle of rotation of the antenna around the gravity vector), measured clockwise from North = 0. (deg)
ant_az_stats
89.8672
70.6901
ant_pitch
24
ASCII_Real
deg
Pitch angle of antenna: Angle between the antenna +X (forwards) axis and its projection onto the gravity-normal plane (ie, rotation around the antenna +Y (right-wards) axis as projected onto the gravity-normal plane). Measured in the right-hand sense, from Horizontal = 0. Pitch >0 when front of antenna is pointing up, above horizontal. (deg)
ant_pitch_stats
3.2566
-1.7002
ant_roll
25
ASCII_Real
deg
Roll angle of antenna: Angle between the antenna +Y (right-wards) axis and the gravity-normal plane, as measured within the antenna's YZ plane (ie, rotation around the antenna +X (forward) axis). Measured in the right-hand sense, from Horizontal = 0. Roll > 0 when right of antenna is pointing down, below horizontal. (deg)
ant_roll_stats
1.8104
-1.2490
ant_tilt
26
ASCII_Real
deg
Tilt angle of antenna: Angle between the antenna's maximum tilt vector and its projection onto the gravity-normal plane; measured from Horizontal = 0. (deg)
ant_tilt_stats
3.4249
0.1581
ant_tiltaz
27
ASCII_Real
deg
Tilt-azimuth angle of antenna: Angle between North and the projection of the antenna's maximum tilt vector onto the gravity-normal plane; measured clockwise from North = 0. (deg)
ant_tiltaz_stats
299.5993
42.3271
rover_lat
28
ASCII_Real
deg
[Planetocentric] Latitude of rover RNAV frame origin (deg)
rover_lat_stats
18.44527990
18.44513505
rover_lon
29
ASCII_Real
deg
[Planetocentric East] Longitude of rover RNAV frame origin (deg)
rover_lon_stats
77.45149726
77.45103403
rover_rad
30
ASCII_Real
km
[Planetocentric] Distance from center of Mars to RNAV frame origin (km)
rover_rad_stats
3391.937578
3391.936997
rover_lat_geodetic
31
ASCII_Real
deg
[Geodetic] Latitude of rover RNAV frame origin (deg)
rover_lat_geodetic_stats
18.64941702
18.64927083
rover_elev
32
ASCII_Real
m
[Geodetic] Elevation of rover RNAV frame origin (m)
rover_elev_stats
-2235.235
-2235.846
rover_sapp_quality
33
ASCII_Integer
Surface Attitude, Position, and Pointing (SAPP) quality flag
rover_sapp_quality_stats
2
2
rover_left_bogie
34
ASCII_Real
rad
Angle of left bogie joint (rad)
rover_left_bogie_stats
0.088926
-0.084748
rover_right_bogie
35
ASCII_Real
rad
Angle of right bogie joint (rad)
rover_right_bogie_stats
0.077717
-0.067337
rover_left_differential
36
ASCII_Real
rad
Angle of left differential joint (rad)
rover_left_differential_stats
0.025739
-0.029197
rover_right_differential
37
ASCII_Real
rad
Angle of right differential joint (rad)
rover_right_differential_stats
0.042454
-0.012077
rover_steer_lf
38
ASCII_Real
rad
Steer angle of left-front wheel (rad)
rover_steer_lf_stats
0.840408
0.000043
rover_steer_lr
39
ASCII_Real
rad
Steer angle of left-rear wheel (rad)
rover_steer_lr_stats
0.000043
-0.791236
rover_steer_rf
40
ASCII_Real
rad
Steer angle of right-front wheel (rad)
rover_steer_rf_stats
0.001065
-0.839727
rover_steer_rr
41
ASCII_Real
rad
Steer angle of right-rear wheel (rad)
rover_steer_rr_stats
0.791236
-0.000043
system_rmc_site
42
ASCII_Integer
Site rover motion counter (RMC 1)
system_rmc_site_stats
3
3
system_rmc_drive
43
ASCII_Integer
Drive rover motion counter (RMC 2)
system_rmc_drive_stats
578
386
system_rmc_pose
44
ASCII_Integer
Pose rover motion counter (RMC 3)
system_rmc_pose_stats
8
1
system_rmc_arm
45
ASCII_Integer
Arm rover motion counter (RMC 4)
system_rmc_arm_stats
0
0
system_rmc_sha
46
ASCII_Integer
SHA rover motion counter (RMC 5)
system_rmc_sha_stats
0
0
system_rmc_drill
47
ASCII_Integer
Drill rover motion counter (RMC 6)
system_rmc_drill_stats
0
0
system_rmc_rsm
48
ASCII_Integer
RSM rover motion counter (RMC 7)
system_rmc_rsm_stats
62
0
system_rmc_hga
49
ASCII_Integer
HGA rover motion counter (RMC 8)
system_rmc_hga_stats
102
0
edr_raw_product_name
50
ASCII_String
Name of Raw EDR data product containing this record's Sounding measurement
hk_raw_product_name
51
ASCII_String
Name of Raw EHK data product containing this record's Housekeeping measurement
config_id_hk
52
ASCII_Integer
Identifier of RIMFAX configuration mode at time of Housekeeping Measurement
config_id_hk_stats
230
0
electronics_temp
53
ASCII_Real
degC
Temperature of RIMFAX electronics, an average of Term_RF1 (hkAdcB3 in EHK) and Term_RF2 (hkAdcB4 in EHK) (deg C)
electronics_temp_stats
2230.500
2182.000
base_temp
54
ASCII_Real
degC
Temperature of VAMP UHFA/RMFX base, a 10-second average (deg C)
base_temp_stats
4627500000000000000.000
4627360000000000000.000
config_id
55
ASCII_Integer
Identifier of RIMFAX configuration mode
config_id_stats
231
1
mode_name
56
ASCII_String
General name of configuration mode
activity_name
57
ASCII_String
Sequence ID for Rimfax Activity in which measurement was collected. Used in uplink planning process and as a means (along with config_id/mode) to group measurements into EDRs.
calibration_cable
58
ASCII_Integer
Indicates measured signal is: 0 = from the Antenna, 1 = from the Calibration Cable, 2 = alternating between Antenna and Calibration Cable (for 1-Freq. Passive measurement only)
calibration_cable_stats
1
0
stationary_sounding
59
ASCII_Integer
Indicates measurement is part of a: 0 = Traverse/Mobile set, 1 = Stationary set
stationary_sounding_stats
1
0
passive_sounding
60
ASCII_Integer
Indicates measured signal is: 0 = returned/received from Active transmission, 1 = ambient/received with no prior transmission, ie Passive or listen-only
passive_sounding_stats
0
0
long_integration_sounding
61
ASCII_Integer
Indicates measurement is: 0 = Nominal precision (16 bits), 1 = High precision (LIS, 32 bits)
long_integration_sounding_stats
0
0
start_frequency
62
ASCII_Integer
MHz
Starting frequency of measured bandwidth range (MHz)
start_frequency_stats
150
150
stop_frequency
63
ASCII_Integer
MHz
Ending frequency of measured bandwidth range (MHz)
stop_frequency_stats
1200
1200
measurement_sample_frequency_increment
64
ASCII_Real
MHz
Frequency interval covered by each data sample measured (MHz)
measurement_sample_frequency_increment_stats
3.442623
0.215076
n_measurement_samples
65
ASCII_Integer
Number of frequency-domain data samples measured
n_measurement_samples_stats
4882
305
sweep_bandwidth
66
ASCII_Integer
MHz
Range of frequencies measured (MHz)
sweep_bandwidth_stats
1050
1050
sweep_time
67
ASCII_Real
ms
Duration of one individual radar-signal generation sweep through frequency bandwidth for Active Meas; Duration of one individual receive-only sweep through frequency bandwidth for Passive Meas (ms)
sweep_time_stats
50.000
3.125
sweeps_per_sounding
68
ASCII_Integer
Number of bandwidth sweeps integrated into one recorded measurement
sweeps_per_sounding_stats
32
2
gate_frequency
69
ASCII_Real
MHz
Frequency of the gate signal (MHz)
gate_frequency_stats
367.600
1.600
tx_delay
70
ASCII_Integer
ns
Time delay of transmitter gate (ns)
tx_delay_stats
20
0
tx_attenuation
71
ASCII_Integer
dB
Attenuation in the transmit path, higher values represent lower output power (dB)
tx_attenuation_stats
31
0
rx_delay
72
ASCII_Integer
ns
Time delay of receiver gate (ns)
rx_delay_stats
40
0
rx_attenuation
73
ASCII_Integer
dB
Attenuation in the receive path, higher values represent more dampening of the received signal (dB)
rx_attenuation_stats
31
0
sounding_group_spacing
74
ASCII_Integer
cm
Commanded distance between sounding groups. A group includes one soundig of each mode, each executed in immediate sequence, ie, effectively at the same location. Actual distance between measurements may deviate slightly. (Value = 0 for non-Traverse/Mobile measurements.) (cm)
sounding_group_spacing_stats
10
0
sounding_counter
75
ASCII_Integer
Absolute total count of soundings since start of M2020 mission
sounding_counter_stats
2020
1197
sounding_number
76
ASCII_Integer
Count of soundings since RIMFAX was last powered on (ie since last execution of "Power-On" Activity)
sounding_number_stats
824
1
sounding_number_sol
77
ASCII_Integer
Count of soundings since start of Sol
sounding_number_sol_stats
824
1
amplitude_correction_ref
78
ASCII_Integer
Integer-value reference to one of the integer-label fields of the calibration_array_object parameter column (in one of the first several records/rows of this data table). The record with the matching integer-label field contains an Amplitude Correction Array which was applied in the frequency domain during processing (1D array length = number_of_frequency_samples)
amplitude_correction_ref_stats
6
2
phase_correction_ref
79
ASCII_Integer
Integer-value reference to one of the integer-label fields of the calibration_array_object parameter column (in one of the first several records/rows of this data table). The record with the matching integer-label field contains a Phase Correction Array which was applied in the frequency domain during processing (1D array length = number_of_frequency_samples)
phase_correction_ref_stats
5
1
gating_amplitude_correction_ref
80
ASCII_Integer
Integer-value reference to one of the integer-label fields of the calibration_array_object parameter column (in one of the first several records/rows of this data table). The record with the matching integer-label field contains a Gating Amplitude Correction Array which was applied in the time domain during processing (1D array length = n_samples_time)
radiometric_correction
81
ASCII_Real
Multiplicative factor by which values are radiometrically calibrated, applied in the time domain during processing
radiometric_correction_stats
1.00000
1.00000
time_zero_correction
82
ASCII_Real
ns
Change in reference time-delay (from Raw data) such that the first data sample corresponds to a time-delay of 0 ns and the antenna radar feedpoint, applied in the frequency domain during processing (ns)
time_zero_correction_stats
20.000
20.000
window_function
83
ASCII_String
Name of window function, applied in the frequency domain during processing
zero_padding_samples
84
ASCII_Integer
Total number of samples on which fourier transform is run. The measured Raw data samples (for which N = n_measurement_samples) are padded with additional samples (all containing a value of 0) above and below the measured frequency band, applied in the frequency domain during processing.
zero_padding_samples_stats
32768
32768
max_time_depth
85
ASCII_Real
ns
Maximum time-depth range of processed data (ie, end time of last data sample) (ns)
max_time_depth_stats
2324.762
49.997
sample_time_increment
86
ASCII_Real
ns
Time increment of each processed data sample, for Active Meas records only (ns)
sample_time_increment_stats
0.1418922
0.0088646
sample_frequency_increment
87
ASCII_Real
MHz
Frequency increment of each unprocessed data sample, for Passive Meas records only; Set to 0 for single-frequency Passive Meas (MHz)
n_samples_time
88
ASCII_Integer
Number of data samples in this processed, time-domain data record, for Active Meas records only
n_samples_time_stats
16384
5640
n_samples_frequency
89
ASCII_Integer
Number of data samples in this unprocessed, frequency-domain data record, for Passive Meas records only
n_samples
90
ASCII_Integer
Number of samples in this record, regardless of record type
n_samples_stats
16384
0
16384
1
0
sounding_samples
ASCII_Real
16
amplitude_ratio
Sounding Samples
sounding_samples_stats
5.993148678e+08
-5.512400771e+08