/* * ActuatorCmd.cpp * * Created on: 4 Aug 2022 * Author: Robin Marquardt */ #include "ActuatorCmd.h" #include "util/MathOperations.h" #include "util/CholeskyDecomposition.h" #include #include #include #include #include ActuatorCmd::ActuatorCmd(AcsParameters *acsParameters_) { acsParameters = *acsParameters_; } ActuatorCmd::~ActuatorCmd(){ } void ActuatorCmd::cmdSpeedToRws(const int32_t *speedRw0, const int32_t *speedRw1, const int32_t *speedRw2, const int32_t *speedRw3, const double *rwTrqIn, const double *rwTrqNS, double *rwCmdSpeed) { using namespace Math; // Scaling the commanded torque to a maximum value double torque[4] = {0, 0, 0, 0}; double maxTrq = acsParameters.rwHandlingParameters.maxTrq; VectorOperations::add(rwTrqIn, rwTrqNS, torque, 4); double maxValue = 0; for (int i = 0; i < 4; i++) { // size of torque, always 4 ? if (abs(torque[i]) > maxValue) { maxValue = abs(torque[i]); } } if (maxValue > maxTrq) { double scalingFactor = maxTrq / maxValue; VectorOperations::mulScalar(torque, scalingFactor, torque, 4); } // Calculating the commanded speed in RPM for every reaction wheel double speedRws[4] = {*speedRw0, *speedRw1, *speedRw2, *speedRw3}; double deltaSpeed[4] = {0, 0, 0, 0}; double commandTime = acsParameters.onBoardParams.sampleTime, inertiaWheel = acsParameters.rwHandlingParameters.inertiaWheel; double radToRpm = 60 / (2 * PI); // factor for conversion to RPM // W_RW = Torque_RW / I_RW * delta t [rad/s] double factor = commandTime / inertiaWheel * radToRpm; VectorOperations::mulScalar(torque, factor, deltaSpeed, 4); VectorOperations::add(speedRws, deltaSpeed, rwCmdSpeed, 4); } void ActuatorCmd::cmdDipolMtq(const double *dipolMoment, double *dipolMomentUnits) { // Convert to Unit frame MatrixOperations::multiply(*acsParameters.magnetorquesParameter.inverseAlignment, dipolMoment, dipolMomentUnits, 3, 3, 1); // Scaling along largest element if dipol exceeds maximum double maxDipol = acsParameters.magnetorquesParameter.DipolMax; double maxValue = 0; for (int i = 0; i < 3; i++) { if (abs(dipolMomentUnits[i]) > maxDipol) { maxValue = abs(dipolMomentUnits[i]); } } if (maxValue > maxDipol) { double scalingFactor = maxDipol / maxValue; VectorOperations::mulScalar(dipolMomentUnits, scalingFactor, dipolMomentUnits, 3); } }