List of Solar Orbiter platform HK parameter data retrieved at LESIA
...
Page
...
is "in progess"
...
SOLO HK data availability
SOLO HK parameter data are stored as EDDS XML format file files into:
https://rpw.lesia.obspm.fr/roc/data/private/solo/rpw/data/SOLO_HK/
Data retreived
New data are requested from Solar Orbiter EDDS at ESOC every 24h.
STATUS: Current archive needs to be re-processed to include new parameters
SOLO HK data retreived at LESIA
Table below gives the list of SOLO HK parameter data retrieved at LESIA
"NRU02586, NRU02588, NRU02288, NRU02769, NRU02775, NRU02785, NRU02809, NRU02805, NRU02815, NRU02755, NRU02773, NRU02774, NRU02582, NRU02369, NRU02564, NRU02724, NRU02753, NRU02787, NRUD2026, NRUD2086, NRUD2033, NRUD2087, NRUD2032, NRUD2169, NRUD2093, NRUD2194, NRUD2027, NRUD2167, NRUD2193, NRUD2235, NPWD4002, NPWD4008, NPWD4004, NPWD4010,
NCA3Z025, NCA3Z026, NCA3Z027, NCA3Z028, NPWD2521, NPWD2771, NPWD3021,
NPWD3521, NCFT55P0, NCFT55U0, NPWD4255, NPWD4256, NPWD4257, NPWD4258,
NPWD4267, NPWD4268, NPWD4269, NPWD4270, NPWD2516, NPWD3015, NPWT2516,
NPWT3015"
...
.
Mnemonic A | Mnemonic B | Description | Comment |
---|---|---|---|
NRU02586 | NRU12586 | ANY_4_1_6 RPW ANT SRP | PZ ANT Hinge temperature |
NRU02588 | NRU12588 | ANY_4_1_8 RPW 2 SRP | PY ANT Hinge temperature |
NRU02288 | NRU12288 | ANY_1_4_8 RPW 3 SRP | MY ANT Hinge temperature |
NRU02769 | NRU12769 | ANP_2_2_9 RPW ANT 1 | PZ ANT PA temperature |
NRU02775 | NRU12775 | ANP_2_2_15 RPW ANT 1 | PZ ANT PA temperature |
NRU02785 | NRU12785 | ANP_3_1_5 RPW ANT 1 | PZ ANT PA temperature |
NRU02809 | NRU12809 | ANP_4_1_9 RPW 2 | PY ANT PA temperature |
NRU02805 | NRU12805 | ANP_4_1_5 RPW 2 | PY ANT PA temperature |
NRU02815 | NRU12815 | ANP_4_1_15 RPW 2 | PY ANT PA temperature |
NRU02755 | NRU12755 | ANP_2_1_15 RPW 3 | MY ANT PA temperature |
NRU02773 | NRU12773 | ANP_2_2_13 RPW 3 | MY ANT PA temperature |
NRU02774 | NRU12774 | ANP_2_2_14 RPW 3 | MY ANT PA temperature |
NRU02582 | NRU12582 | ANY_4_1_2 RPW EB URP | RPW EB URP temperature |
NRU02369 | NRU12369 | ANY_2_2_9 RPW EB URP | RPW EB URP temperature |
NRU02564 | NRU12564 | ANY_3_6_4 RPW EB URP | RPW EB URP temperature |
NRU02724 | NRU12724 | ANP_1_2_4 RPW SCM | RPW SCM temperature |
NRU02753 | NRU12753 | ANP_2_1_13 RPW SCM | RPW SCM temperature |
NRU02787 | NRU12787 | ANP_3_1_7 RPW SCM | RPW SCM temperature |
NRUD2026 | NRUT2026 | RSA_1_2_10 RPW 1_MLI A | PZ ANT hinge nom (microswitch status) |
NRUD2086 | NRUT2086 | RSA_2_2_10 RPW 1_MLI B | PZ ANT hinge red (microswitch status) |
NRUD2033 | NRUT2033 | RSA_1_2_3 RPW 1 STACER A | PZ ANT stacer nom (microswitch status) |
NRUD2087 | NRUT2087 | RSA_2_2_9 RPW 1 STACER B | PZ ANT stacer red (microswitch status) |
NRUD2032 | NRUT2086 | RSA_1_2_4 RPW 2_MLI A | PY ANT hinge nom (microswitch status) |
NRUD2169 | NRUT2169 | RSA_3_3_7 RPW 2_MLI B | PY ANT hinge red (microswitch status) |
NRUD2093 | NRUT2093 | RSA_2_2_3 RPW 2 STACER A | PY ANT stacer nom (microswitch status) |
NRUD2194 | NRUT2194 | RSA_4_1_2 RPW 2 STACER B | PY ANT stacer red (microswitch status) |
NRUD2027 | NRUT2027 | RSA_1_2_9 RPW 3_MLI A | PY ANT stacer red (microswitch status) |
NRUD2167 | NRUT2167 | RSA_3_3_9 RPW 3_MLI B | MY ANT hinge red (microswitch status) |
NRUD2193 | NRUT2193 | RSA_4_1_3 RPW 3 STACER A | MY ANT stacer nom (microswitch status) |
NRUD2235 | NRUT2235 | RSA_4_3_1 RPW 3 STACER B | MY ANT stacer red (microswitch status) |
NPWD4002 | NPWT4002 | IFA_DPL1_CH1_IOUT_TM | PZ ANT boom nom |
NPWD4008 | NPWT4008 | IFA_DPL2_CH1_IOUT_TM | PZ ANT boom red |
NPWD4004 | NPWT4004 | IFA_DPL1_CH2_IOUT_TM | MY ANT boom nom |
NPWD4010 | NPWT4010 | IFA_DPL2_CH2_IOUT_TM | MY ANT boom red |
NCA3Z025 | |||
NCA3Z026 | |||
NCA3Z027 | |||
NCA3Z028 | |||
NPWD2521 | A_LCL1_20 WDE-1 PWR TM | ||
NPWD2771 | A_LCL2_20 WDE-2 PWR TM | ||
NPWD3021 | A_LCL3_20 WDE-3 TM | ||
NPWD3521 | A_LCL5_20 WDE-4 PWR TM | ||
NCFT55P0 | SADE-A calibrated PY array position (deg) | ||
NCFT55U0 | SADE-A calibrated MY array position (deg) | ||
NPWD4255 | IFA_ISA1_NOM_TM | ||
NPWD4256 | IFA_VSA1_NOM_TM | ||
NPWD4257 | IFA_ISA1_RED_TM | ||
NPWD4258 | IFA_VSA1_RED_TM | ||
NPWD4267 | IFA_ISA2_NOM_TM | ||
NPWD4268 | IFA_VSA2_NOM_TM | ||
NPWD4269 | IFA_ISA2_RED_TM | ||
NPWD4270 | IFA_VSA2_RED_TM | ||
NPWD2516 | A_LCL1_15 STR-1 TM Prime Star Tracker LCL current | ||
NPWD3015 | A_LCL3_14 STR-2 TM Backup Star Tracker LCL current | ||
NPWT2516 | |||
NPWT3015 | |||
NRU02707 | |||
NRU12707 | |||
NRU02724 | ANP_1_2_4 RPW SCM | ||
NRNRU02753 | ANP_2_1_13 RPW SCM | ||
NRU02787 | ANP_3_1_7 RPW SCM |
SOLO HK data description
# I was forwarded the following list of interesting SC parameters, which I have filled in with the PCF_NAME of the corresponding entity in the MIB.
...
# NPWD2516 A_LCL1_15 STR-1 TM Prime Star Tracker LCL current
# NPWD3015 A_LCL3_14 STR-2 TM Backup Star Tracker LCL current
# These are for PCDU-A, for equivalent PCDU-B parameters substitute NPWTxxxx.
# STR currents typically have a lot of jitter because photon integration is less power-intensive than detector readout. How you see this may be a bit weird, in that the PCDU sampling may happen to mostly miss the readout peak, or mostly sample it, and these sampling sync effects can potentially change based on artificial things like switchovers. There may also be some additional variation due to the thermo-electric cooler, when active. There are LCL status parameters as well, but frankly for simplicity I would probably just take the current, if the engineering value is within a few bits of zero then the LCL is off.