eive/eive-obsw
eive/eive-obsw
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Merge branch 'main' into add-blob-stats-tm
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This commit is contained in:
Marius Eggert 2024-02-29 12:58:06 +01:00
commit e908ee119e
8 changed files with 81 additions and 61 deletions
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2
CHANGELOG.md
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@ -29,6 +29,7 @@ will consitute of a breaking change warranting a new major release:
- The `PTG_CTRL_NO_ATTITUDE_INFORMATION` will now actually trigger a fallback into safe mode - The `PTG_CTRL_NO_ATTITUDE_INFORMATION` will now actually trigger a fallback into safe mode
and is triggered by the `AcsController` now. and is triggered by the `AcsController` now.
- Fixed a corner case, in which an invalid speed command could be sent to the `RwHandler`. - Fixed a corner case, in which an invalid speed command could be sent to the `RwHandler`.
- Fixed calculation of desaturation torque for faulty RWs.
## Changed ## Changed
@ -42,6 +43,7 @@ will consitute of a breaking change warranting a new major release:
also limits the rotation for the reference target quaternion to prevent spikes in required also limits the rotation for the reference target quaternion to prevent spikes in required
rotation rates. rotation rates.
- Updated QUEST and Sun Vector Params to new values. - Updated QUEST and Sun Vector Params to new values.
- Removed the satellites's angular momentum from desaturation calculation.
- Bumped internal `sagittactl` library to v11.11. - Bumped internal `sagittactl` library to v11.11.
## Added ## Added

42
mission/controller/AcsController.cpp
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@ -396,7 +396,7 @@ void AcsController::performPointingCtrl() {
bool allRwAvailable = true; bool allRwAvailable = true;
double rwPseudoInv[4][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}}; double rwPseudoInv[4][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
ReturnValue_t result = guidance.getDistributionMatrixRw(&sensorValues, *rwPseudoInv); ReturnValue_t result = guidance.getDistributionMatrixRw(&sensorValues, *rwPseudoInv, &rwAvail);
if (result == acsctrl::MULTIPLE_RW_UNAVAILABLE) { if (result == acsctrl::MULTIPLE_RW_UNAVAILABLE) {
if (multipleRwUnavailableCounter >= if (multipleRwUnavailableCounter >=
acsParameters.rwHandlingParameters.multipleRwInvalidTimeout) { acsParameters.rwHandlingParameters.multipleRwInvalidTimeout) {
@ -433,10 +433,10 @@ void AcsController::performPointingCtrl() {
VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4); VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4);
actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq); actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq);
ptgCtrl.ptgDesaturation( ptgCtrl.ptgDesaturation(
&acsParameters.idleModeControllerParameters, mgmDataProcessed.mgmVecTot.value, allRwAvailable, &rwAvail, &acsParameters.idleModeControllerParameters,
mgmDataProcessed.mgmVecTot.isValid(), rotRateB, sensorValues.rw1Set.currSpeed.value, mgmDataProcessed.mgmVecTot.value, mgmDataProcessed.mgmVecTot.isValid(),
sensorValues.rw2Set.currSpeed.value, sensorValues.rw3Set.currSpeed.value, sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
sensorValues.rw4Set.currSpeed.value, mgtDpDes); sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value, mgtDpDes);
break; break;
case acs::PTG_TARGET: case acs::PTG_TARGET:
@ -456,10 +456,10 @@ void AcsController::performPointingCtrl() {
VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4); VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4);
actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq); actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq);
ptgCtrl.ptgDesaturation( ptgCtrl.ptgDesaturation(
&acsParameters.targetModeControllerParameters, mgmDataProcessed.mgmVecTot.value, allRwAvailable, &rwAvail, &acsParameters.targetModeControllerParameters,
mgmDataProcessed.mgmVecTot.isValid(), rotRateB, sensorValues.rw1Set.currSpeed.value, mgmDataProcessed.mgmVecTot.value, mgmDataProcessed.mgmVecTot.isValid(),
sensorValues.rw2Set.currSpeed.value, sensorValues.rw3Set.currSpeed.value, sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
sensorValues.rw4Set.currSpeed.value, mgtDpDes); sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value, mgtDpDes);
break; break;
case acs::PTG_TARGET_GS: case acs::PTG_TARGET_GS:
@ -476,10 +476,10 @@ void AcsController::performPointingCtrl() {
VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4); VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4);
actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq); actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq);
ptgCtrl.ptgDesaturation( ptgCtrl.ptgDesaturation(
&acsParameters.gsTargetModeControllerParameters, mgmDataProcessed.mgmVecTot.value, allRwAvailable, &rwAvail, &acsParameters.gsTargetModeControllerParameters,
mgmDataProcessed.mgmVecTot.isValid(), rotRateB, sensorValues.rw1Set.currSpeed.value, mgmDataProcessed.mgmVecTot.value, mgmDataProcessed.mgmVecTot.isValid(),
sensorValues.rw2Set.currSpeed.value, sensorValues.rw3Set.currSpeed.value, sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
sensorValues.rw4Set.currSpeed.value, mgtDpDes); sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value, mgtDpDes);
break; break;
case acs::PTG_NADIR: case acs::PTG_NADIR:
@ -498,10 +498,10 @@ void AcsController::performPointingCtrl() {
VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4); VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4);
actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq); actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq);
ptgCtrl.ptgDesaturation( ptgCtrl.ptgDesaturation(
&acsParameters.nadirModeControllerParameters, mgmDataProcessed.mgmVecTot.value, allRwAvailable, &rwAvail, &acsParameters.nadirModeControllerParameters,
mgmDataProcessed.mgmVecTot.isValid(), rotRateB, sensorValues.rw1Set.currSpeed.value, mgmDataProcessed.mgmVecTot.value, mgmDataProcessed.mgmVecTot.isValid(),
sensorValues.rw2Set.currSpeed.value, sensorValues.rw3Set.currSpeed.value, sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
sensorValues.rw4Set.currSpeed.value, mgtDpDes); sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value, mgtDpDes);
break; break;
case acs::PTG_INERTIAL: case acs::PTG_INERTIAL:
@ -520,10 +520,10 @@ void AcsController::performPointingCtrl() {
VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4); VectorOperations<double>::add(torquePtgRws, rwTrqNs, torqueRws, 4);
actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq); actuatorCmd.scalingTorqueRws(torqueRws, acsParameters.rwHandlingParameters.maxTrq);
ptgCtrl.ptgDesaturation( ptgCtrl.ptgDesaturation(
&acsParameters.inertialModeControllerParameters, mgmDataProcessed.mgmVecTot.value, allRwAvailable, &rwAvail, &acsParameters.inertialModeControllerParameters,
mgmDataProcessed.mgmVecTot.isValid(), rotRateB, sensorValues.rw1Set.currSpeed.value, mgmDataProcessed.mgmVecTot.value, mgmDataProcessed.mgmVecTot.isValid(),
sensorValues.rw2Set.currSpeed.value, sensorValues.rw3Set.currSpeed.value, sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
sensorValues.rw4Set.currSpeed.value, mgtDpDes); sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value, mgtDpDes);
break; break;
default: default:
sif::error << "AcsController: Invalid mode for performPointingCtrl" << std::endl; sif::error << "AcsController: Invalid mode for performPointingCtrl" << std::endl;

2
mission/controller/AcsController.h
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@ -89,6 +89,8 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
int32_t cmdSpeedRws[4] = {0, 0, 0, 0}; int32_t cmdSpeedRws[4] = {0, 0, 0, 0};
int16_t cmdDipoleMtqs[3] = {0, 0, 0}; int16_t cmdDipoleMtqs[3] = {0, 0, 0};
acsctrl::RwAvail rwAvail;
#if OBSW_THREAD_TRACING == 1 #if OBSW_THREAD_TRACING == 1
uint32_t opCounter = 0; uint32_t opCounter = 0;
#endif #endif

24
mission/controller/acs/Guidance.cpp
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@ -327,28 +327,32 @@ void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], do
} }
ReturnValue_t Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues, ReturnValue_t Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues,
double *rwPseudoInv) { double *rwPseudoInv, acsctrl::RwAvail *rwAvail) {
bool rw1valid = (sensorValues->rw1Set.state.value and sensorValues->rw1Set.state.isValid()); rwAvail->rw1avail = (sensorValues->rw1Set.state.value and sensorValues->rw1Set.state.isValid());
bool rw2valid = (sensorValues->rw2Set.state.value and sensorValues->rw2Set.state.isValid()); rwAvail->rw2avail = (sensorValues->rw2Set.state.value and sensorValues->rw2Set.state.isValid());
bool rw3valid = (sensorValues->rw3Set.state.value and sensorValues->rw3Set.state.isValid()); rwAvail->rw3avail = (sensorValues->rw3Set.state.value and sensorValues->rw3Set.state.isValid());
bool rw4valid = (sensorValues->rw4Set.state.value and sensorValues->rw4Set.state.isValid()); rwAvail->rw4avail = (sensorValues->rw4Set.state.value and sensorValues->rw4Set.state.isValid());
if (rw1valid and rw2valid and rw3valid and rw4valid) { if (rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and rwAvail->rw4avail) {
std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverse, 12 * sizeof(double)); std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverse, 12 * sizeof(double));
return returnvalue::OK; return returnvalue::OK;
} else if (not rw1valid and rw2valid and rw3valid and rw4valid) { } else if (not rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and
rwAvail->rw4avail) {
std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW1, std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW1,
12 * sizeof(double)); 12 * sizeof(double));
return acsctrl::SINGLE_RW_UNAVAILABLE; return acsctrl::SINGLE_RW_UNAVAILABLE;
} else if (rw1valid and not rw2valid and rw3valid and rw4valid) { } else if (rwAvail->rw1avail and not rwAvail->rw2avail and rwAvail->rw3avail and
rwAvail->rw4avail) {
std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW2, std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW2,
12 * sizeof(double)); 12 * sizeof(double));
return acsctrl::SINGLE_RW_UNAVAILABLE; return acsctrl::SINGLE_RW_UNAVAILABLE;
} else if (rw1valid and rw2valid and not rw3valid and rw4valid) { } else if (rwAvail->rw1avail and rwAvail->rw2avail and not rwAvail->rw3avail and
rwAvail->rw4avail) {
std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW3, std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW3,
12 * sizeof(double)); 12 * sizeof(double));
return acsctrl::SINGLE_RW_UNAVAILABLE; return acsctrl::SINGLE_RW_UNAVAILABLE;
} else if (rw1valid and rw2valid and rw3valid and not rw4valid) { } else if (rwAvail->rw1avail and rwAvail->rw2avail and rwAvail->rw3avail and
not rwAvail->rw4avail) {
std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW4, std::memcpy(rwPseudoInv, acsParameters->rwMatrices.pseudoInverseWithoutRW4,
12 * sizeof(double)); 12 * sizeof(double));
return acsctrl::SINGLE_RW_UNAVAILABLE; return acsctrl::SINGLE_RW_UNAVAILABLE;

3
mission/controller/acs/Guidance.h
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@ -44,7 +44,8 @@ class Guidance {
double targetSatRotRate[3], double errorQuat[4], double errorSatRotRate[3], double targetSatRotRate[3], double errorQuat[4], double errorSatRotRate[3],
double &errorAngle); double &errorAngle);
ReturnValue_t getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv); ReturnValue_t getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv,
acsctrl::RwAvail *rwAvail);
private: private:
const AcsParameters *acsParameters; const AcsParameters *acsParameters;

44
mission/controller/acs/control/PtgCtrl.cpp
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@ -1,11 +1,5 @@
#include "PtgCtrl.h" #include "PtgCtrl.h"
#include <fsfw/globalfunctions/constants.h>
#include <fsfw/globalfunctions/math/MatrixOperations.h>
#include <fsfw/globalfunctions/math/QuaternionOperations.h>
#include <fsfw/globalfunctions/math/VectorOperations.h>
#include <fsfw/globalfunctions/sign.h>
PtgCtrl::PtgCtrl(AcsParameters *acsParameters_) { acsParameters = acsParameters_; } PtgCtrl::PtgCtrl(AcsParameters *acsParameters_) { acsParameters = acsParameters_; }
PtgCtrl::~PtgCtrl() {} PtgCtrl::~PtgCtrl() {}
@ -68,9 +62,9 @@ void PtgCtrl::ptgLaw(AcsParameters::PointingLawParameters *pointingLawParameters
// Inverse of gainMatrix // Inverse of gainMatrix
double gainMatrixInverse[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}}; double gainMatrixInverse[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
gainMatrixInverse[0][0] = 1 / gainMatrix[0][0]; gainMatrixInverse[0][0] = 1. / gainMatrix[0][0];
gainMatrixInverse[1][1] = 1 / gainMatrix[1][1]; gainMatrixInverse[1][1] = 1. / gainMatrix[1][1];
gainMatrixInverse[2][2] = 1 / gainMatrix[2][2]; gainMatrixInverse[2][2] = 1. / gainMatrix[2][2];
double pMatrix[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}}; double pMatrix[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
MatrixOperations<double>::multiply( MatrixOperations<double>::multiply(
@ -146,9 +140,10 @@ void PtgCtrl::ptgNullspace(const bool allRwAvabilable,
4); 4);
} }
void PtgCtrl::ptgDesaturation(AcsParameters::PointingLawParameters *pointingLawParameters, void PtgCtrl::ptgDesaturation(const bool allRwAvailable, const acsctrl::RwAvail *rwAvail,
AcsParameters::PointingLawParameters *pointingLawParameters,
const double *magFieldB, const bool magFieldBValid, const double *magFieldB, const bool magFieldBValid,
const double *satRate, const int32_t speedRw0, const int32_t speedRw1, const int32_t speedRw0, const int32_t speedRw1,
const int32_t speedRw2, const int32_t speedRw3, double *mgtDpDes) { const int32_t speedRw2, const int32_t speedRw3, double *mgtDpDes) {
if (not magFieldBValid or not pointingLawParameters->desatOn) { if (not magFieldBValid or not pointingLawParameters->desatOn) {
return; return;
@ -162,17 +157,24 @@ void PtgCtrl::ptgDesaturation(AcsParameters::PointingLawParameters *pointingLawP
double magFieldBT[3] = {0, 0, 0}; double magFieldBT[3] = {0, 0, 0};
VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3); VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
// calculate angular momentum of the satellite
double angMomentumSat[3] = {0, 0, 0};
MatrixOperations<double>::multiply(*(acsParameters->inertiaEIVE.inertiaMatrixDeployed), satRate,
angMomentumSat, 3, 3, 1);
// calculate angular momentum of the reaction wheels with respect to the nullspace RW speed // calculate angular momentum of the reaction wheels with respect to the nullspace RW speed
// relocate RW speed zero to nullspace RW speed // relocate RW speed zero to nullspace RW speed
double refSpeedRws[4] = {0, 0, 0, 0}; double refSpeedRws[4] = {0, 0, 0, 0};
VectorOperations<double>::mulScalar(acsParameters->rwMatrices.nullspaceVector, VectorOperations<double>::mulScalar(acsParameters->rwMatrices.nullspaceVector,
pointingLawParameters->nullspaceSpeed, refSpeedRws, 4); pointingLawParameters->nullspaceSpeed, refSpeedRws, 4);
if (not allRwAvailable) {
if (not rwAvail->rw1avail) {
refSpeedRws[0] = 0.0;
} else if (not rwAvail->rw2avail) {
refSpeedRws[1] = 0.0;
} else if (not rwAvail->rw3avail) {
refSpeedRws[2] = 0.0;
} else if (not rwAvail->rw4avail) {
refSpeedRws[3] = 0.0;
}
}
VectorOperations<double>::subtract(speedRws, refSpeedRws, speedRws, 4); VectorOperations<double>::subtract(speedRws, refSpeedRws, speedRws, 4);
// convert speed from 10 RPM to 1 RPM // convert speed from 10 RPM to 1 RPM
VectorOperations<double>::mulScalar(speedRws, 1e-1, speedRws, 4); VectorOperations<double>::mulScalar(speedRws, 1e-1, speedRws, 4);
// convert to rad/s // convert to rad/s
@ -188,16 +190,12 @@ void PtgCtrl::ptgDesaturation(AcsParameters::PointingLawParameters *pointingLawP
// calculate total angular momentum // calculate total angular momentum
double angMomentumTotal[3] = {0, 0, 0}; double angMomentumTotal[3] = {0, 0, 0};
VectorOperations<double>::add(angMomentumSat, angMomentumRw, angMomentumTotal, 3); VectorOperations<double>::subtract(angMomentumRw, pointingLawParameters->desatMomentumRef,
angMomentumTotal, 3);
// calculating momentum error
double deltaAngMomentum[3] = {0, 0, 0};
VectorOperations<double>::subtract(angMomentumTotal, pointingLawParameters->desatMomentumRef,
deltaAngMomentum, 3);
// resulting magnetic dipole command // resulting magnetic dipole command
double crossAngMomentumMagField[3] = {0, 0, 0}; double crossAngMomentumMagField[3] = {0, 0, 0};
VectorOperations<double>::cross(deltaAngMomentum, magFieldBT, crossAngMomentumMagField); VectorOperations<double>::cross(angMomentumTotal, magFieldBT, crossAngMomentumMagField);
double factor = double factor =
pointingLawParameters->deSatGainFactor / VectorOperations<double>::norm(magFieldBT, 3); pointingLawParameters->deSatGainFactor / VectorOperations<double>::norm(magFieldBT, 3);
VectorOperations<double>::mulScalar(crossAngMomentumMagField, factor, mgtDpDes, 3); VectorOperations<double>::mulScalar(crossAngMomentumMagField, factor, mgtDpDes, 3);

18
mission/controller/acs/control/PtgCtrl.h
View File

@ -1,11 +1,16 @@
#ifndef PTGCTRL_H_ #ifndef PTGCTRL_H_
#define PTGCTRL_H_ #define PTGCTRL_H_
#include <math.h> #include <fsfw/globalfunctions/math/MatrixOperations.h>
#include <fsfw/globalfunctions/math/QuaternionOperations.h>
#include <fsfw/globalfunctions/math/VectorOperations.h>
#include <fsfw/globalfunctions/sign.h>
#include <mission/acs/defs.h> #include <mission/acs/defs.h>
#include <mission/controller/acs/AcsParameters.h> #include <mission/controller/acs/AcsParameters.h>
#include <mission/controller/acs/SensorValues.h> #include <mission/controller/acs/SensorValues.h>
#include <stdio.h> #include <mission/controller/controllerdefinitions/AcsCtrlDefinitions.h>
#include <cmath>
class PtgCtrl { class PtgCtrl {
/* /*
@ -38,10 +43,11 @@ class PtgCtrl {
const int32_t speedRw0, const int32_t speedRw1, const int32_t speedRw2, const int32_t speedRw0, const int32_t speedRw1, const int32_t speedRw2,
const int32_t speedRw3, double *rwTrqNs); const int32_t speedRw3, double *rwTrqNs);
void ptgDesaturation(AcsParameters::PointingLawParameters *pointingLawParameters, void ptgDesaturation(const bool allRwAvabilable, const acsctrl::RwAvail *rwAvail,
const double *magFieldB, const bool magFieldBValid, const double *satRate, AcsParameters::PointingLawParameters *pointingLawParameters,
const int32_t speedRw0, const int32_t speedRw1, const int32_t speedRw2, const double *magFieldB, const bool magFieldBValid, const int32_t speedRw0,
const int32_t speedRw3, double *mgtDpDes); const int32_t speedRw1, const int32_t speedRw2, const int32_t speedRw3,
double *mgtDpDes);
/* @brief: Commands the stiction torque in case wheel speed is to low /* @brief: Commands the stiction torque in case wheel speed is to low
* torqueCommand modified torque after anti-stiction * torqueCommand modified torque after anti-stiction

7
mission/controller/controllerdefinitions/AcsCtrlDefinitions.h
View File

@ -21,6 +21,13 @@ static constexpr ReturnValue_t SINGLE_RW_UNAVAILABLE = MAKE_RETURN_CODE(0xA3);
//! [EXPORT] : [COMMENT] Multiple RWs have failed. //! [EXPORT] : [COMMENT] Multiple RWs have failed.
static constexpr ReturnValue_t MULTIPLE_RW_UNAVAILABLE = MAKE_RETURN_CODE(0xA4); static constexpr ReturnValue_t MULTIPLE_RW_UNAVAILABLE = MAKE_RETURN_CODE(0xA4);
struct RwAvail {
bool rw1avail = false;
bool rw2avail = false;
bool rw3avail = false;
bool rw4avail = false;
};
enum SetIds : uint32_t { enum SetIds : uint32_t {
MGM_SENSOR_DATA, MGM_SENSOR_DATA,
MGM_PROCESSED_DATA, MGM_PROCESSED_DATA,