TCS improvements
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@ -18,6 +18,8 @@ will consitute of a breaking change warranting a new major release:
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## Changed
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## Changed
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- TCS: Remove OBC IF board thermal module, which is exactly identical to OBC module and therefore
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obsolete.
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- Swapped PL and PS I2C, BPX battery and MGT are connected to PS I2C now for firmware versions
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- Swapped PL and PS I2C, BPX battery and MGT are connected to PS I2C now for firmware versions
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equal or above v4. However, this software version is compatible to both v3 and v4 of the firmware.
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equal or above v4. However, this software version is compatible to both v3 and v4 of the firmware.
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- The firmware version variables are global statics inititalized early during the program
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- The firmware version variables are global statics inititalized early during the program
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@ -40,6 +42,8 @@ will consitute of a breaking change warranting a new major release:
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- TMP1075: Devices did not go to OFF mode when being set faulty.
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- TMP1075: Devices did not go to OFF mode when being set faulty.
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- Update PL PCDU 1 in TCS mode tree on the EM.
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- Update PL PCDU 1 in TCS mode tree on the EM.
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- TMP1075: Possibly ignored health commands.
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- TMP1075: Possibly ignored health commands.
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- TCS CTRL: Limit number of heater handler messages sent in case there are not sensors available
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anymore.
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# Added
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# Added
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@ -1247,25 +1247,6 @@ void ThermalController::ctrlObc() {
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}
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}
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}
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}
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void ThermalController::ctrlObcIfBoard() {
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currThermalComponent = OBCIF_BOARD;
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sensors[0].first = deviceTemperatures.q7s.isValid();
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sensors[0].second = deviceTemperatures.q7s.value;
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sensors[1].first = sensorTemperatures.tmp1075Tcs0.isValid();
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sensors[1].second = sensorTemperatures.tmp1075Tcs0.value;
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sensors[2].first = sensorTemperatures.tmp1075Tcs1.isValid();
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sensors[2].second = sensorTemperatures.tmp1075Tcs1.value;
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numSensors = 3;
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HeaterContext htrCtx(heater::HEATER_3_OBC_BRD, heater::HEATER_2_ACS_BRD, obcIfBoardLimits);
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ctrlComponentTemperature(htrCtx);
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if (componentAboveUpperLimit and not obcTooHotFlag) {
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triggerEvent(tcsCtrl::OBC_OVERHEATING, tempFloatToU32());
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obcTooHotFlag = true;
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} else if (not componentAboveUpperLimit) {
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obcTooHotFlag = false;
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}
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}
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void ThermalController::ctrlSBandTransceiver() {
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void ThermalController::ctrlSBandTransceiver() {
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currThermalComponent = SBAND_TRANSCEIVER;
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currThermalComponent = SBAND_TRANSCEIVER;
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sensors[0].first = deviceTemperatures.syrlinksPowerAmplifier.isValid();
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sensors[0].first = deviceTemperatures.syrlinksPowerAmplifier.isValid();
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@ -1531,7 +1512,6 @@ void ThermalController::performThermalModuleCtrl(const HeaterSwitchStates& heate
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ctrlIfBoard();
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ctrlIfBoard();
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ctrlTcsBoard();
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ctrlTcsBoard();
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ctrlObc();
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ctrlObc();
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ctrlObcIfBoard();
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ctrlSBandTransceiver();
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ctrlSBandTransceiver();
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ctrlPcduP60Board();
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ctrlPcduP60Board();
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ctrlPcduAcu();
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ctrlPcduAcu();
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@ -1599,9 +1579,11 @@ void ThermalController::ctrlComponentTemperature(HeaterContext& htrCtx) {
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// No sensors available, so switch the heater off. We can not perform control tasks if we
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// No sensors available, so switch the heater off. We can not perform control tasks if we
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// are blind..
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// are blind..
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if (chooseHeater(htrCtx.switchNr, htrCtx.redSwitchNr)) {
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if (chooseHeater(htrCtx.switchNr, htrCtx.redSwitchNr)) {
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if (heaterCtrlAllowed()) {
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// Also track the counter to prevent heater handler message spam. The heater handle can only
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heaterSwitchHelper(htrCtx.switchNr, HeaterHandler::SwitchState::OFF, currThermalComponent);
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// process 2 messages per cycle.
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}
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if (heaterCtrlAllowed() and (thermalStates[currThermalComponent].noSensorAvailableCounter < 3)) {
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heaterSwitchHelper(htrCtx.switchNr, HeaterHandler::SwitchState::OFF, currThermalComponent);
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}
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}
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}
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}
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}
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resetSensorsArray();
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resetSensorsArray();
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@ -1612,18 +1594,18 @@ bool ThermalController::selectAndReadSensorTemp(HeaterContext& htrCtx) {
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sensors[i].second > SANITY_LIMIT_LOWER_TEMP and
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sensors[i].second > SANITY_LIMIT_LOWER_TEMP and
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sensors[i].second < SANITY_LIMIT_UPPER_TEMP) {
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sensors[i].second < SANITY_LIMIT_UPPER_TEMP) {
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sensorTemp = sensors[i].second;
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sensorTemp = sensors[i].second;
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thermalStates[currThermalComponent].errorCounter = 0;
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thermalStates[currThermalComponent].noSensorAvailableCounter = 0;
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return true;
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return true;
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}
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}
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}
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}
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thermalStates[currThermalComponent].errorCounter++;
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thermalStates[currThermalComponent].noSensorAvailableCounter++;
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if (currThermalComponent != RW and currThermalComponent != ACS_BOARD) {
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if (currThermalComponent != RW and currThermalComponent != ACS_BOARD) {
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if (thermalStates[currThermalComponent].errorCounter <= 3) {
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if (thermalStates[currThermalComponent].noSensorAvailableCounter <= 3) {
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triggerEvent(tcsCtrl::NO_VALID_SENSOR_TEMPERATURE, currThermalComponent);
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triggerEvent(tcsCtrl::NO_VALID_SENSOR_TEMPERATURE, currThermalComponent);
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}
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}
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} else {
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} else {
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if (thermalStates[currThermalComponent].errorCounter <= 8) {
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if (thermalStates[currThermalComponent].noSensorAvailableCounter <= 8) {
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triggerEvent(tcsCtrl::NO_VALID_SENSOR_TEMPERATURE, currThermalComponent);
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triggerEvent(tcsCtrl::NO_VALID_SENSOR_TEMPERATURE, currThermalComponent);
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}
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}
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}
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}
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@ -47,7 +47,7 @@ struct TempLimits {
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};
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};
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struct ThermalState {
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struct ThermalState {
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uint8_t errorCounter;
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uint8_t noSensorAvailableCounter;
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// Is heating on for that thermal module?
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// Is heating on for that thermal module?
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bool heating = false;
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bool heating = false;
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heater::Switch heaterSwitch = heater::Switch::NUMBER_OF_SWITCHES;
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heater::Switch heaterSwitch = heater::Switch::NUMBER_OF_SWITCHES;
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@ -74,7 +74,6 @@ enum ThermalComponents : uint8_t {
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IF_BOARD = 5,
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IF_BOARD = 5,
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TCS_BOARD = 6,
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TCS_BOARD = 6,
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OBC = 7,
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OBC = 7,
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OBCIF_BOARD = 8,
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SBAND_TRANSCEIVER = 9,
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SBAND_TRANSCEIVER = 9,
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PCDUP60_BOARD = 10,
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PCDUP60_BOARD = 10,
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PCDUACU = 11,
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PCDUACU = 11,
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@ -331,7 +330,6 @@ class ThermalController : public ExtendedControllerBase {
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void ctrlIfBoard();
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void ctrlIfBoard();
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void ctrlTcsBoard();
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void ctrlTcsBoard();
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void ctrlObc();
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void ctrlObc();
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void ctrlObcIfBoard();
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void ctrlSBandTransceiver();
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void ctrlSBandTransceiver();
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void ctrlPcduP60Board();
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void ctrlPcduP60Board();
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void ctrlPcduAcu();
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void ctrlPcduAcu();
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