OBJECT = COLUMN
NAME = "SCET_STAR_WHOLE"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 1
BYTES = 4
DESCRIPTION = "It is the number of integer seconds
in the spacecraft clock"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_STAR_FRAC"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 5
BYTES = 2
DESCRIPTION = "It is the number of 2^-16 seconds
in the spacecraft clock counts"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "OST_LINE_NUMBER"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 7
BYTES = 2
DESCRIPTION = "Sequential number of the OST line
relevant to the current frame,
starting from zero"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "OST_LINE"
DATA_TYPE = MSB_BIT_STRING
START_BYTE = 9
BYTES = 12
DESCRIPTION = "It is the number of the OST
line relevant to Scientific Data
contained in the packet"
OBJECT = BIT_COLUMN
NAME = "SPARE"
BIT_DATA_TYPE = "N/A"
START_BIT = 1
BITS = 8
DESCRIPTION = "All bits are set to 0."
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "MODE_DURATION"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 9
BITS = 24
DESCRIPTION = "Duration of the mode expressed in PRI"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "SPARE"
BIT_DATA_TYPE = "N/A"
START_BIT = 33
BITS = 2
DESCRIPTION = "All bits are set to 0."
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "MODE_SELECTION"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 35
BITS = 4
DESCRIPTION = "SSx, AIS,CAL,REC."
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "DCG_CONFIGURATION"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 39
ITEMS = 2
ITEM_BITS = 2
BITS = 4
DESCRIPTION = "For SS modes, each digit correspond
to a transmitted band:
0=B1, 1=B2, 2=B3, 3=B4"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "PI_BAND_SEL"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 43
ITEMS = 2
ITEM_BITS = 3
BITS = 6
DESCRIPTION = "Band used in the first half of the PIS slot:
0=B1, 1=B2, 2=B3, 3=B4"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "PIM_RX"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 49
BITS = 1
DESCRIPTION = "0 = PISd data from the dipole antenna,
1 = PISm data from the monopole antenna"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "REF_ALG_SEL"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 50
BITS = 2
DESCRIPTION = "Selection of the algorithm used for
on-board range processing of the signal:
0 -❯ in TRK use the default reference functions;
1 -❯ in TRK use contrast method
to evaluate the reference functions;
2 -❯ in TRK use First Specular Return method to evaluate
the reference functions;"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "LOL_LOGIC_MF"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 52
BITS = 2
DESCRIPTION = "This field is significant only in SS mode.
These two bits are used in a AND logic port with the bit that
represent the state of the tracking in the two frequencies."
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "PRESET_TRACKING"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 54
BITS = 1
DESCRIPTION = "0 = acquisition/tracking operation,
1 = pre-set tracking operation"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "F_NPM_ADDRESS"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 55
BITS = 2
DESCRIPTION = "Band of the Noise Power Measurament
during ACQ
f_NPM =00-❯B1
f_NPM =01-❯B2
f_NPM =10-❯B3
f_NPM =11-❯B4"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "SLOPE_ADDRESS"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 57
BITS = 4
DESCRIPTION = "Inter addressing the value to be used
in on-board processing to point
the synthetic aperture perpendicularly to the terrain slope"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "TX_POWER"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 61
BITS = 4
DESCRIPTION = "The power level of the transmitted signal in count"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "A2_0_OST_ABSCISSA"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 65
BITS = 12
DESCRIPTION = "This parameter is used to initialize
the contrast method for on-board range processing"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "IE_FM"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 77
BITS = 4
DESCRIPTION = "Individual echoes or flash memories"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "FM_FRAMES"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 81
BITS = 16
DESCRIPTION = "Consecutive frames in FLASH MEMORY"
END_OBJECT = BIT_COLUMN
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "FRAME_ID"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 21
BYTES = 2
DESCRIPTION = "Frame ID."
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "ANCILLARY_DATA_HEADER"
DATA_TYPE = MSB_BIT_STRING
START_BYTE = 23
BYTES = 6
DESCRIPTION = " The Ancillary Data Header describes the scientific
Data type, the order of the data packets and their segmentation."
OBJECT = BIT_COLUMN
NAME = "SCIENTIFIC_DATA_TYPE"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 1
BITS = 2
DESCRIPTION = "00: acquisition raw
01: uncompress acquisition telemetry
10: tracking raw
11: uncompress tracking telemetry"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "SCIENTIFIC_DATA_SOURCE_SEQ_COUNTER"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 3
BITS = 14
DESCRIPTION = "The Source Sequnce Counter specifies the order
of the packets in which the Scientific Data acquired in a single
frame are sub divided ;in a self standing packet ,the counter shall
assume the only value zero.
In case of Scientific Data Types 00 and 11
acquired in the same frame ,two different counters shall be
considered. The counters starts from zero and they are reset for each
new Frame_ID value"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "SCIENTIFIC_DATA_SEGM_FLAG"
BIT_DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BIT = 17
BITS = 2
DESCRIPTION = "In case of data segmentation, this field
implements packet grouping so defined:
01b -❯First source packet of a group
00b -❯Continuation source packet of a group
10b -❯Last source packet of a group
10b -❯A self standing source packet not
Belonging to a group"
END_OBJECT = BIT_COLUMN
OBJECT = BIT_COLUMN
NAME = "SPARE"
BIT_DATA_TYPE = "N/A"
START_BIT = 19
BITS = 30
DESCRIPTION = "All bits are set to 0."
END_OBJECT = BIT_COLUMN
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "FIRST_PRI_OF_FRAME"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 29
BYTES = 4
DESCRIPTION = "First pri of the frame "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_FRAME_WHOLE"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 33
BYTES = 4
DESCRIPTION = "SCET time of the frame "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_FRAME_FRAC"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 37
BYTES = 2
DESCRIPTION = "SCET time of the frame "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_PERICENTER_WHOLE"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 39
BYTES = 4
DESCRIPTION = "Pericenter passage time "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_PERICENTER_FRAC"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 43
BYTES = 2
DESCRIPTION = "Pericenter passage time "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_PAR_WHOLE"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 45
BYTES = 4
DESCRIPTION = "Number of seconds in SCET time to the pericenter passing.
This is the basic for calculation of all parameters in the
Orbit Determination block "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SCET_PAR_FRAC"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 49
BYTES = 2
DESCRIPTION = "Number of seconds in SCET time to the pericenter passing.
This is the basic for calculation of all parameters in the
Orbit Determination block "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "H_SCET_PAR"
DATA_TYPE = IEEE_REAL
START_BYTE = 51
BYTES = 4
DESCRIPTION = "Altitude of the spacecraft evaluated at the beginning of
the frame using dedicated polynomial formula "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "VT_SCET_PAR"
DATA_TYPE = IEEE_REAL
START_BYTE = 55
BYTES = 4
DESCRIPTION = "Tangential velocity of the spacecraft evaluated at the
beginning of the frame using dedicated polynomial formula
"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "VR_SCET_PAR"
DATA_TYPE = IEEE_REAL
START_BYTE = 59
BYTES = 4
DESCRIPTION = "Radial velocity of the spacecraft evaluated at the
beginning of the frame using dedicated polynomial formula
"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "N_0"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 63
BYTES = 4
DESCRIPTION = "It is an offset equal to 36 PRIs "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "DELTA_S_MIN"
DATA_TYPE = IEEE_REAL
START_BYTE = 67
BYTES = 4
DESCRIPTION = "The space to be covered by the spacecraft during NB
pulses DS min=5500m. "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "NB_MIN"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 71
BYTES = 2
DESCRIPTION = "Minimum number of PRI in one frame "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "M_OCOG"
DATA_TYPE = IEEE_REAL
START_BYTE = 73
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "Maximum of the signal power in the OCOG window for the
frequency F1 andF2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "INDEX_OCOG"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 81
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "OCOG position value sampled (Range:1to 512) for frequency
F1 and F2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "TRK_THRESHOLD"
DATA_TYPE = IEEE_REAL
START_BYTE = 85
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "Loss of Lock threshold, evaluated starting from the noise
level, for frequency F1 and F2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "INI_IND_TRK_THRESHOLD"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 93
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "First sample (Range:1 to 512) of a sub-window, located in
the receiving window, used to evaluate the noise level and
then the TRK_Threshold_F1 and F2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "LAST_IND_TRK_THRESHOLD"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 97
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Last sample (Range:1 to512) of a sub-window, Located in
the receiving window, used to evaluate the noise level and
then the TRK_Threshold_F1 and F2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "INI_IND_FSRM"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 101
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "First sample of on board FSR method window for F1 and F2
(Range: 1to 512) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "LAST_IND_FSRM"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 105
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Last sample of on board FSR method window for F1 and F2
(Range: 1 to 512) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SPARE_4"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 109
BYTES = 12
ITEMS = 3
ITEM_BYTES = 4
DESCRIPTION = "All bits are set to 0. "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "DELTA_S_SCET_PAR"
DATA_TYPE = IEEE_REAL
START_BYTE = 121
BYTES = 4
DESCRIPTION = "MARSIS footprint size at the pericenter"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "NB_SCET_PAR"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 125
BYTES = 2
DESCRIPTION = "Number of frames taken in order to accommodate DS "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "NA_SCET_PAR"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 127
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Actual number of pulses over which the aperture was
acquired for frequency F1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "A2_INI_CM"
DATA_TYPE = IEEE_REAL
START_BYTE = 131
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "a2 starting value for the on board Contrast Method for
the frequency F1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "A2_OPT"
DATA_TYPE = IEEE_REAL
START_BYTE = 139
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "a2 optimum value evaluated by the on board Contrast
Method for the frequency F1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REF_CA_OPT"
DATA_TYPE = IEEE_REAL
START_BYTE = 147
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "Optimum value of the integrated modulus of the signal,
evaluated by the on board Contrast Method to estimate the
a2_opt_F1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "DELTA_T"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 155
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Signal peak position (Range:1...512) evaluated by the on
board FSR Method for F1.(This value is zero in case of
FSRM failure) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SF"
DATA_TYPE = IEEE_REAL
START_BYTE = 159
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "Peak value of the signal square modulus evaluated by the
on board FSR Method for F1 (This value is zero in case of
FSRM failure) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "I_C"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 167
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Sample (range:1to 512) where the signal square modulus
exceeds the threshold in the FSR Method(This value is -1
in case of threshold comparison failure) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "AGC_SA_FOR_NEXT_FRAME"
DATA_TYPE = IEEE_REAL
START_BYTE = 171
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "AGC=Automated Gain Control Setting for Next Frame(db) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "AGC_SA_LEVELS_CURRENT_FRAME"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 179
BYTES = 2
ITEMS = 2
ITEM_BYTES = 1
DESCRIPTION = "AGC Level Current FrameF1. This value is reported in
samples "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "RX_TRIG_SA_FOR_NEXT_FRAME"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 181
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "RX window position for Next Frame F1 (us) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "RX_TRIG_SA_PROGR"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 185
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "RX window position for the current frame F1 (samples) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "INI_IND_OCOG"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 189
BYTES = 2
DESCRIPTION = "First sample (Range:1 to 512) of the OCOG window "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "LAST_IND_OCOG"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 191
BYTES = 2
DESCRIPTION = "Last sample (Range:1 to512) of the OCOG window "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "OCOG"
DATA_TYPE = IEEE_REAL
START_BYTE = 193
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "OCOG position value forF1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "A"
DATA_TYPE = IEEE_REAL
START_BYTE = 201
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "Signal energy for the AGC tracker Error evaluation for
frequency F1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "C_LOL"
DATA_TYPE = MSB_INTEGER
START_BYTE = 209
BYTES = 4
ITEMS = 2
ITEM_BYTES = 2
DESCRIPTION = "Loss of Lock-frequency F1. Tracking status: if ❯=0 no
tracking if❮0 tracking. "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SPARE_5"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 213
BYTES = 6
ITEMS = 3
ITEM_BYTES = 2
DESCRIPTION = "All bits are set to 0."
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_MINUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 219
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_MINUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 220
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_ZERO_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 221
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_ZERO_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 222
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bitL2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_PLUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 223
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_PLUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 224
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_MINUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 225
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_MINUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 226
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_ZERO_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 227
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_ZERO_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 228
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_RE_EXP_PLUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 229
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "MAX_IM_EXP_PLUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 230
BYTES = 1
DESCRIPTION = "Maximum data output exponent (This value is used to
convert the 8 bit L1B signal into the 32 bit L2 signal) "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SPARE_6"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 231
BYTES = 8
ITEMS = 8
ITEM_BYTES = 1
DESCRIPTION = "All bits are set to 0."
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "AGC_PIS_PT_VALUE"
DATA_TYPE = IEEE_REAL
START_BYTE = 239
BYTES = 8
ITEMS = 2
ITEM_BYTES = 4
DESCRIPTION = "AGC PISPT Value Band 1/2 (db). "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "AGC_PIS_LEVELS"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 247
BYTES = 2
ITEMS = 2
ITEM_BYTES = 1
DESCRIPTION = "AGC PIS Levels Band 1/2,HW register, binary "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "K_PIM"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 249
BYTES = 1
DESCRIPTION = "Parameter used in the Passive Noise Measurement
Processing ,which can't exceed the value of 5 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "PIS_MAX_DATA_EXP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 250
BYTES = 2
ITEMS = 2
ITEM_BYTES = 1
DESCRIPTION = "PIS Maximum output data exp B1/B2 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "PROCESSING_PRF"
DATA_TYPE = IEEE_REAL
START_BYTE = 252
BYTES = 4
DESCRIPTION = "Value used for OBP. When set to zero The PRF calculated
on board is used "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "SPARE_7"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 256
BYTES = 1
DESCRIPTION = "All bits are set to 0. "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_MINUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 257
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Module Doppler -1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_MINUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 769
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Phase Doppler -1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_ZERO_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 1281
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Module Doppler 0 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_ZERO_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 1793
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Phase Doppler 0 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_PLUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 2305
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Module Doppler +1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_PLUS1_F1_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 2817
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F1 Phase Doppler +1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_MINUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 3329
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Module Doppler -1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_MINUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 3841
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Phase Doppler -1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_ZERO_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 4353
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Module Doppler 0 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_ZERO_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 4865
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Phase Doppler 0 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "REAL_ECHO_PLUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 5377
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Module Doppler 1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "IMAG_ECHO_PLUS1_F2_DIP"
DATA_TYPE = MSB_UNSIGNED_INTEGER
START_BYTE = 5889
BYTES = 512
ITEMS = 512
ITEM_BYTES = 1
DESCRIPTION = "Dipole F2 Phase Doppler 1 "
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "PIS_F1"
DATA_TYPE = MSB_INTEGER
START_BYTE = 6401
BYTES = 256
ITEMS = 128
ITEM_BYTES = 2
DESCRIPTION = "16-bit/sample Passive Ionosphere data, first band"
END_OBJECT = COLUMN
OBJECT = COLUMN
NAME = "PIS_F2"
DATA_TYPE = MSB_INTEGER
START_BYTE = 6657
BYTES = 256
ITEMS = 128
ITEM_BYTES = 2
DESCRIPTION = "16-bit/sample Passive Ionosphere data, second band"
END_OBJECT = COLUMN
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