This page gives information about the RPW Flight Procedures (RFP).
According to the FOP preparation plan, the flight procedures are divided into three categories: the Flight Control Procedures (FCP), the Contingency Recovery Procedures (CRP) and the Commissioning Procedures (COM).
The RPW procedures files are archived in the /Procedures folder of the https://gitlab.obspm.fr/ROC/OpsLib gitlab repository (restricted access). A test version of this repository is available in https://gitlab.obspm.fr/ROC/OpsLib-Test (restricted access).
For each of these categories, a table is given with the following columns:
The possible RPW instrument modes are listed here.
The SOC provides to the instrument teams an online "Procedure Builder" than can be used to create/edit procedures. The site dedicated to RPW is available here. Nevertheless, the SOC cannot guarantee that this tool will be maintained during the whole mission, and the instrument teams are invited to develop and maintain their own tool. In the case of the ROC, the FIGARO tool, accessible via the MUSIC Web portal will replace at medium term the SOC procedure builder.
The procedures are delivered as MOIS import format files, which are formatted 97-2003 Excel files (see the FOP procedure input ICD for more details).
The naming convention can be found in the FOP preparation plan.
Please visit the operation guidelines page before editing a procedure! |
The table below gives the list of generic procedures, other than specific to the contingency recovery or commissioning operations (see next sections).
Name | Description | Mode at start | Intermediate mode (if any) | Mode at end | Author(s) | Status | Comments |
---|---|---|---|---|---|---|---|
Go from SCIENCE/BACKUP mode to SAFE mode properly, then switch OFF the RPW prime power interface via OBCP. | RPW_SCIENCE RPW_BACKUP | RPW_OFF | Done | ||||
IW-FCP-002 | Go from SCIENCE/BACKUP mode to SAFE mode properly, then switch OFF the RPW redundant power interface via OBCP. | RPW_SCIENCE RPW_BACKUP | RPW_OFF | Done | |||
IW-FCP-010 | Boot RPW DBS in prime power interface (UNIT_A) | RPW_OFF | RPW_SAFE (prime) | Done | |||
IW-FCP-011 | Boot RPW DBS in redundant power interface (UNIT_B) | RPW_OFF | RPW_SAFE (prime B) | Done | |||
IW-FCP-030 | Boot RPW DAS from EEPROM1 | RPW_SAFE | RPW_STANDBY | ||||
IW-FCP-031 | Enter SERVICE mode and switch on RPW equipment | RPW_STANDBY | RPW_SERVICE (with all equipement ON) | ||||
IW-FCP-032 | Enter SERVICE mode | RPW_STANDBY | RPW_SERVICE (with all equipment OFF) | ||||
IW-FCP-033 | Switch the converter (CONV) | RPW_SERVICE | RPW_SERVICE | ||||
IW-FCP-034 | BOOT LFR from EEPROM1 + Disabled Verif Boot | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-035 | BOOT THR from EEPROM1 + Disabled Verif Boot | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-036 | BOOT TDS from EEPROM1 + Disabled Verif Boot | RPW_SERVICE | RPW_SERVICE | Done | |||
Switch ON BIAS | RPW_SERVICE | RPW_SERVICE | Done | ||||
IW-FCP-038 | PA Switch ON | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-039 | SCM switch ON | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-040 | Configure TDS, LFR and THR for the RPW_SCIENCE mode with the NORMAL-DEFAULT config. | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-041 | Configure the Bias for the RPW_SCIENCE with the NORMAL-DEFAULT config. | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-042 | Enter in RPW_SCIENCE mode | RPW_SERVICE | RPW_SCIENCE | Done | |||
Configure and execute the BIAS sweep | RPW_SCIENCE | RPW_SCIENCE | Done | ||||
IW-FCP-044 | Internal Calibration for LFR | RPW_SCIENCE | RPW_SCIENCE | Done | |||
IW-FCP-045 | BIAS Calibration | RPW_SCIENCE | RPW_SCIENCE | Done | |||
IW-FCP-035 | Enter in RPW mode safe | RPW_SCIENCE | RPW_SAFE | Done | |||
IW-FCP-036 | BIAS Calibration | RPW_SCIENCE | RPW_SCIENCE | Done | |||
IW-FCP-037 | Enter in RPW_SURVEY-BURST_DEFAULT | RPW_SCIENCE | RPW_SCIENCE-BURST_DEFAULT | Done | |||
IW-FCP-038 | Configure TDS, LFR and THR for the RPW_SCIENCE-BURST_DEFAULT config | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-039 | Configure DPU and DAS + configure HK period | RPW_SAFE | RPW_SERVICE | Done | |||
IW-FCP-040 | LOAD TDS, LFR common parameters | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-041 | Configure TDS, LFR for sbm1 mode | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-042 | Configure TDS, LFR for sbm2 mode | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-043 | Configure TDS LFM parameters | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-044 | Configure internal Calibration for THR | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-045 | DUMP configurations and clear all the counters and statistic information in the DAS HK reports | RPW_SERVICE | RPW_SERVICE | Done | |||
IW-FCP-046 | Enter in RPW_SURVEY-BACKUP (through RPW Service mode) | RPW_SCIENCE | RPW_SCIENCE-BACKUP | Done | |||
IW-FCP-027xx | Enter in RPW_SURVEY-BURST_TDS_single_ended | RPW_SCIENCE | To be done | ||||
IW-FCP-028xx | Enter in RPW_SURVEY-BURST_TDS_dipole | RPW_SCIENCE | RPW_SCIENCE | To be done | |||
IW-FCP-030xx | Fix the current value on BIAS 1,2,3 | RPW_SCIENCE | RPW_SCIENCE | Done | |||
IW-FCP-XXX | Enter in RPW STANDBY mode | RPW_SAFE | RPW_STANDBY | To be done | |||
IW-FCP-XXX | Enter in RPW SAFE mode | RPW_STANDBY | RPW_SAFE | To be done | |||
IW-FCP-XXX | Enter in RPW SERVICE mode from the RPW SCIENCE mode | RPW_SCIENCE | RPW_SERVICE | To be done |
The table below gives the list of procedures specific to the contingency recovery operations.
Name | Description | Configuration at start | Configuration at end | Author(s) | Creation date | Status | Comments |
---|---|---|---|---|---|---|---|
The table below gives the list of procedures specific to the commissionning operations, including ANT and iBoom deployments, as well as the interference campaign.
Name | Description | Configuration at start | Configuration at end | Author(s) | Creation date | Status | Comments |
---|---|---|---|---|---|---|---|
Action items relative to the flight procedures
# | Description | Assignee | Comment | Issue | Done |
---|---|---|---|---|---|
1 | IW-FCP-021: TNR-HFR must be set in specific mag. config during the LFR calibration, in order to check B measurements | ||||
2 | Identify formal parameters for each procedure | ||||
3 | Check that expected TM are provided in procedures (e.g., Ack., dump, etc.) | ||||
4 | Merge procedures that can be run with formal parameters (e.g., EEPROM1/EEPROM2/RAM loading, PRIME-A/PRIME-B, etc.) | ||||
5 | Complete the document of Sylvain Lodiot about the instrument state model (see document "rpw.docx" attached below). Especially see for the power (for STANDBY mode, need to split) |