urn:nasa:pds:orex.otes:data_engl1:20170922t194013s240_ote_engl1.dat
1.0
OSIRIS-REx OTES Converted Engineering (L1) Data Product 2017-09-22T19:40:13.240Z
1.7.0.0
Product_Observational
2019-02-01
1.0
Initial version.
2017-09-22T19:40:13.240Z
2017-09-22T19:40:13.240Z
Engineering
Partially Processed
OSIRIS-REx
Mission
urn:nasa:pds:context:investigation:mission.orex
data_to_investigation
OSIRIS-REx Thermal Emission Spectrometer (OTES)
OSIRIS-REx
Spacecraft
Origins, Spectral Interpretation, Resource Identification, Security - Regolith Explorer Spacecraft
urn:nasa:pds:context:instrument_host:spacecraft.orex
is_instrument_host
OTES
Instrument
urn:nasa:pds:context:instrument:otes.orex
is_instrument
Engineering
Equipment
20170922T194013S240_ote_engl1.dat
2019-05-04T15:51:17.594Z
1886148
0
7794
Binary table of converted OTES Engineering values acquired while the instrument is in idle mode.
88
0
242
sclk
1
1
UnsignedMSB4
4
%10d
s
OTES time in seconds
sclk_sub
2
5
UnsignedMSB2
2
%5d
OTES time in sub-seconds. Each count represents 1/(2^16) seconds
idp_transaction_counter
3
7
UnsignedMSB2
2
%5d
Counts the number of telemetry transactions (engineering or science) transmitted
cip_cmd_echo
4
9
UnsignedByte
1
%3d
CIP Type of last valid command received
idp_cmd_echo
5
10
UnsignedByte
1
%3d
IDP Type of last valid command received
cmd_seq_echo
6
11
UnsignedByte
1
%3d
Echo of the IDP Sequence ID of the last valid command received
cmd_accept_cnt
7
12
UnsignedByte
1
%3d
Number of accepted commands
cmd_rejected_cnt
8
13
UnsignedByte
1
%3d
Number of rejected commands
cal_flag_driver_pulse_width
9
14
UnsignedByte
1
%3d
Calibration flag driver pulse width 00 equals 50ms; 01 equals 100ms; 10 equals 150ms
reserved1
10
15
UnsignedByte
1
%3d
snap_status
11
16
UnsignedByte
1
%3d
SNAP Status, 0 equals In Reset, 1 equals Running
servo_ctrl_status
12
17
UnsignedByte
1
%3d
Servo Controller Status, 0 equals Off, 1 equals On
ir_heater_ctrl_status
13
18
UnsignedByte
1
%3d
IR Heater Controller status, 0 equals Off, 1 equals On
read_table_status
14
19
UnsignedByte
1
%3d
Read Table Status, 0 equals Table A, 1 equals Table B
reserved2
15
20
UnsignedByte
1
%3d
laser1_power_status
16
21
UnsignedByte
1
%3d
Laser 1 Power Status, 0 equals Off, 1 equals On
laser2_power_status
17
22
UnsignedByte
1
%3d
Laser 2 Power Status, 0 equals Off, 1 equals On
led1_power_status
18
23
UnsignedByte
1
%3d
LED 1 Power Status, 0 equals Off, 1 equals On
led2_power_status
19
24
UnsignedByte
1
%3d
LED 2 Power Status, 0 equals Off, 1 equals On
ir_htr_temp_sel_status
20
25
UnsignedByte
1
%3d
IR Heater Temp Select Status, 0 equals Temp 1, 1 equals Temp 2
cal_flag_status
21
26
UnsignedByte
1
%3d
Cal Flag Status, 0 equals Commanded Close, 1 equals Commanded Open
gravity_comp_status
22
27
UnsignedByte
1
%3d
Gravity Compensation Status; 0 - off, 1 - on
sample_direction
23
28
UnsignedByte
1
%3d
Sample Direction; 0 - samples taken during forward motion, 1 - samples taken during backward motion
time_update_cnt
24
29
UnsignedByte
1
%3d
Counts the number of Time Update commands received
time_tick_watchdog_cnt
25
30
UnsignedByte
1
%3d
Counts the number of times the time tick counter watchdog has expired
sngl_bit_err_cnt
26
31
UnsignedByte
1
%3d
Single Bit Error Counter
dbl_bit_err_cnt
27
32
UnsignedByte
1
%3d
Double Bit Error Counter
eeprom_power
28
33
UnsignedByte
1
%3d
EEPROM Power, 0 equals Off, 1 equals On
acq_cal_ick_cnt_err
29
34
UnsignedByte
1
%3d
Acquisition/Calibration ICK Count Error, 0 equals No error, 1 equals ICK count in Acquisition or Calibration command
cal_flag_fault
30
35
UnsignedByte
1
%3d
Cal Flag Fault Protection, 0 equals Disabled, 1 equals Enabled, Default is disabled
cal_flag_fault_timeout
31
36
UnsignedByte
1
%3d
Cal Flag Fault Protection Timeout, 0 equals No Timeout, 1 equals Fault protection was enabled
snap_watchdog
32
37
UnsignedByte
1
%3d
SNAP Watchdog, 0 equals Disabled, 1 equals Enabled, Default is enabled
snap_watchdog_timeout
33
38
UnsignedByte
1
%3d
SNAP Watchdog Timeout, 0 equals No timeout, 1 equals Timeout
diagnostic_enabled
34
39
UnsignedByte
1
%3d
Diagnostic Enable/Disable, 0 equals Disabled, 1 equals Enabled
time_update_fault_protect
35
40
UnsignedByte
1
%3d
Time Update Fault Protection, 0 equals Disabled, 1 equals Enabled
acquisition_id
36
41
UnsignedByte
1
%3d
Acquisition ID Echo from acquisition command
ir_gain
37
42
UnsignedByte
1
%3d
8 Bit IR signal gain used during current 2 second scan
ick_counter
38
43
UnsignedMSB2
2
%5d
Counts the number of 2 second scans (ICKs) during the execution of an acquisition command
sample_counter
39
45
UnsignedMSB2
2
%5d
Indicates the number of samples taken during the current 2 second scan (ICK)
zone_status
40
47
UnsignedByte
1
%3d
Displays the current zone (1 – 5) while the Acquisition command is executing
table_load_block_status
41
48
UnsignedByte
1
%3d
Indicates the Block Address associated with the Table Load Command
table_load_block_checksum
42
49
UnsignedMSB4
4
%10d
Indicates the Block Address associated with the Table Load Command
reserved3
43
53
UnsignedByte
1
%3d
table_store_checksum
44
54
UnsignedMSB4
4
%10d
Indicates the byte by byte summation of table data written to EEPROM via the Table Store Execute command
table_read_checksum
45
58
UnsignedMSB4
4
%10d
Indicates the byte by byte summation of table data read from EEPROM on power up
reserved4
46
62
UnsignedMSB2
2
%5d
reserved5
47
64
UnsignedMSB2
2
%5d
reserved6
48
66
UnsignedMSB2
2
%5d
reserved7
49
68
UnsignedMSB4
4
%10d
os_pos_05hz_x
50
72
IEEE754MSBSingle
4
%14.5e
Optical Switch Position. This is the same as 16 bit SNAP parameter Os Pos; but with the MSB dropped to fit into this byte
fringe_count
51
76
UnsignedMSB2
2
%5d
Fringe Count. Indicates the number of fringes that occur over the 1.8 second scan window
param_subaddress
52
78
UnsignedByte
1
%3d
Identifies the parameter block
peak_fringe_signal_x
53
79
IEEE754MSBDouble
8
%14.5e
V
Peak Fringe Analog Signal in Volts. SNAP reports the peak fringe signal over the last 2 second scan period.
snap_param_1
54
87
IEEE754MSBDouble
8
%14.5e
SNAP Parameter 1 is a set of hardware diagnostic parameters which may have values within the dynamic range of the given data type. The data contained in this parameter is not all the same type and cycles between sets of values that vary significantly from one housekeeping record to the next. Any parameter necessary to use or interpret scientific data are decoded into separate engineering data parameters, e.g fringe_analog.
snap_param_2
55
95
IEEE754MSBDouble
8
%14.5e
SNAP Parameter 2 is a set of hardware diagnostic parameters which may have values within the dynamic range of the given data type. The data contained in this parameter is not all the same type and cycles between sets of values that vary significantly from one housekeeping record to the next. Any parameter necessary to use or interpret scientific data are decoded into separate engineering data parameters, e.g fringe_analog.
snap_param_3
56
103
IEEE754MSBDouble
8
%14.5e
SNAP Parameter 3 is a set of hardware diagnostic parameters which may have values within the dynamic range of the given data type. The data contained in this parameter is not all the same type and cycles between sets of values that vary significantly from one housekeeping record to the next. Any parameter necessary to use or interpret scientific data are decoded into separate engineering data parameters, e.g fringe_analog.
snap_param_4
57
111
IEEE754MSBDouble
8
%14.5e
SNAP Parameter 4 is a set of hardware diagnostic parameters which may have values within the dynamic range of the given data type. The data contained in this parameter is not all the same type and cycles between sets of values that vary significantly from one housekeeping record to the next. Any parameter necessary to use or interpret scientific data are decoded into separate engineering data parameters, e.g fringe_analog.
fringe_analog_x
58
119
IEEE754MSBSingle
4
%14.5e
V
Fringe Analog. Average of 8 samples taken relative to the time stamp
tach_analog_x
59
123
IEEE754MSBSingle
4
%14.5e
V
Motor Tachometer Analog. Average of 8 samples taken relative to the time stamp
reserved9
60
127
UnsignedMSB2
2
%5d
reserved10
61
129
UnsignedMSB2
2
%5d
ir_detector_temp_1_analog_x
62
131
IEEE754MSBSingle
4
%14.5e
degC
Temperature of IR detector – sensor 1
ir_detector_temp_2_analog_x
63
135
IEEE754MSBSingle
4
%14.5e
degC
Temperature of IR detector – sensor 2
black_body_temp_1_analog_x
64
139
IEEE754MSBSingle
4
%14.5e
degC
Temperature of black body – sensor 1
black_body_temp_2_analog_x
65
143
IEEE754MSBSingle
4
%14.5e
degC
Temperature of black body – sensor 2
primary_mirror_temp_1_analog_x
66
147
IEEE754MSBSingle
4
%14.5e
degC
Temperature of primary mirror – sensor 1
primary_mirror_temp_2_analog_x
67
151
IEEE754MSBSingle
4
%14.5e
degC
Temperature of primary mirror – sensor 2
secondary_mirror_tmp_1_anlog_x
68
155
IEEE754MSBSingle
4
%14.5e
degC
Temperature of secondary mirror – sensor 1
secondary_mirror_tmp_2_anlog_x
69
159
IEEE754MSBSingle
4
%14.5e
degC
Temperature of secondary mirror – sensor 2
cal_ref_temp_analog_x
70
163
IEEE754MSBSingle
4
%14.5e
degC
Temperature of calibration reference
cal_actuator_temp_analog_x
71
167
IEEE754MSBSingle
4
%14.5e
degC
Temperature of calibration flag actuator
beam_splitter_temp_analog_x
72
171
IEEE754MSBSingle
4
%14.5e
degC
Temperature of beam splitter
laser_temp_analog_x
73
175
IEEE754MSBSingle
4
%14.5e
degC
Temperature of laser
motor_temp_analog_x
74
179
IEEE754MSBSingle
4
%14.5e
degC
Temperature of motor
cal_res_1_analog_x
75
183
IEEE754MSBSingle
4
%14.5e
ohm
Value of calibration resistor 1 (Ohms)
cntrl_brd_temp_analog_x
76
187
IEEE754MSBSingle
4
%14.5e
degC
Temperature of control board
cal_res_2_analog_x
77
191
IEEE754MSBSingle
4
%14.5e
ohm
Value of calibration resistor 2 (Ohms)
agnd_status_analog_x
78
195
IEEE754MSBSingle
4
%14.5e
V
Analog Ground Status. Average of 8 samples taken relative to the time stamp
pos15v_status_analog_x
79
199
IEEE754MSBSingle
4
%14.5e
V
+15V Status. Average of 8 samples taken relative to the time stamp
pos12v_status_analog_x
80
203
IEEE754MSBSingle
4
%14.5e
V
+12V Status. Average of 8 samples taken relative to the time stamp
pos10v_status_analog_x
81
207
IEEE754MSBSingle
4
%14.5e
V
+10V Status. Average of 8 samples taken relative to the time stamp
pos5v_status_analog_x
82
211
IEEE754MSBSingle
4
%14.5e
V
+5V Status. Average of 8 samples taken relative to the time stamp
pos3_3v_status_analog_x
83
215
IEEE754MSBSingle
4
%14.5e
V
+3.3V Status. Average of 8 samples taken relative to the time stamp
pos2_5v_status_analog_x
84
219
IEEE754MSBSingle
4
%14.5e
V
+2.5V Status. Average of 8 samples taken relative to the time stamp
pos1_5v_status_analog_x
85
223
IEEE754MSBSingle
4
%14.5e
V
+1.5V Status. Average of 8 samples taken relative to the time stamp
neg15v_status_analog_x
86
227
IEEE754MSBDouble
8
%14.5e
V
-15V Status. Average of 8 samples taken relative to the time stamp
neg12v_status_analog_x
87
235
IEEE754MSBSingle
4
%14.5e
V
-12V Status. Average of 8 samples taken relative to the time stamp
neg5v_status_analog_x
88
239
IEEE754MSBSingle
4
%14.5e
V
-5V Status. Average of 8 samples taken relative to the time stamp