that should do the job
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EIVE/eive-obsw/pipeline/pr-main This commit looks good
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commit
d2c0c1709e
@ -66,7 +66,11 @@ void PayloadPcduHandler::doShutDown() {
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}
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state = States::PL_PCDU_OFF;
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quickTransitionAlreadyCalled = false;
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adcSet.setReportingEnabled(false);
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{
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PoolReadGuard pg(&adcSet);
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adcSet.setReportingEnabled(false);
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adcSet.setValidity(false, true);
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}
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// No need to set mode _MODE_POWER_DOWN, power switching was already handled
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setMode(MODE_OFF);
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}
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@ -86,6 +90,7 @@ ReturnValue_t PayloadPcduHandler::stateMachineToNormal(Mode_t modeFrom, Submode_
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using namespace plpcdu;
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bool doFinish = true;
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if (toNormalOneShot) {
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PoolReadGuard pg(&adcSet);
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adcSet.setReportingEnabled(true);
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toNormalOneShot = false;
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}
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@ -114,23 +119,23 @@ ReturnValue_t PayloadPcduHandler::stateMachineToNormal(Mode_t modeFrom, Submode_
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state = States::ON_TRANS_ADC_CLOSE_ZERO;
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adcCountdown.setTimeout(50);
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adcCountdown.resetTimer();
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adcState = AdcStates::BOOT_DELAY;
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adcState = AdcState::BOOT_DELAY;
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doFinish = false;
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// If the values are not close to zero, we should not allow transition
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monMode = MonitoringMode::CLOSE_TO_ZERO;
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}
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}
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if (state == States::ON_TRANS_ADC_CLOSE_ZERO) {
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if (adcState == AdcStates::BOOT_DELAY) {
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if (adcState == AdcState::BOOT_DELAY) {
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doFinish = false;
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if (adcCountdown.hasTimedOut()) {
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adcState = AdcStates::SEND_SETUP;
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adcState = AdcState::SEND_SETUP;
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adcCmdExecuted = false;
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}
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}
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if (adcState == AdcStates::SEND_SETUP) {
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if (adcState == AdcState::SEND_SETUP) {
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if (adcCmdExecuted) {
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adcState = AdcStates::NORMAL;
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adcState = AdcState::NORMAL;
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doFinish = true;
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adcCountdown.setTimeout(100);
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adcCountdown.resetTimer();
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@ -175,11 +180,11 @@ ReturnValue_t PayloadPcduHandler::stateMachineToNormal(Mode_t modeFrom, Submode_
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ReturnValue_t PayloadPcduHandler::buildNormalDeviceCommand(DeviceCommandId_t* id) {
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switch (adcState) {
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case (AdcStates::SEND_SETUP): {
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case (AdcState::SEND_SETUP): {
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*id = plpcdu::SETUP_CMD;
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return buildCommandFromCommand(*id, nullptr, 0);
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}
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case (AdcStates::NORMAL): {
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case (AdcState::NORMAL): {
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*id = plpcdu::READ_WITH_TEMP_EXT;
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return buildCommandFromCommand(*id, nullptr, 0);
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}
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@ -191,7 +196,7 @@ ReturnValue_t PayloadPcduHandler::buildNormalDeviceCommand(DeviceCommandId_t* id
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}
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ReturnValue_t PayloadPcduHandler::buildTransitionDeviceCommand(DeviceCommandId_t* id) {
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if (adcState == AdcStates::SEND_SETUP) {
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if (adcState == AdcState::SEND_SETUP) {
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*id = plpcdu::SETUP_CMD;
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return buildCommandFromCommand(*id, nullptr, 0);
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}
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@ -212,9 +217,9 @@ void PayloadPcduHandler::updateSwitchGpio(gpioId_t id, gpio::Levels level) {
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}
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void PayloadPcduHandler::fillCommandAndReplyMap() {
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insertInCommandAndReplyMap(plpcdu::READ_CMD, 2, &adcSet);
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insertInCommandAndReplyMap(plpcdu::READ_TEMP_EXT, 1, &adcSet);
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insertInCommandAndReplyMap(plpcdu::READ_WITH_TEMP_EXT, 1, &adcSet);
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insertInCommandAndReplyMap(plpcdu::READ_CMD, 2);
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insertInCommandAndReplyMap(plpcdu::READ_TEMP_EXT, 1);
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insertInCommandAndReplyMap(plpcdu::READ_WITH_TEMP_EXT, 1);
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insertInCommandAndReplyMap(plpcdu::SETUP_CMD, 1);
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}
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@ -278,27 +283,31 @@ ReturnValue_t PayloadPcduHandler::interpretDeviceReply(DeviceCommandId_t id,
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break;
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}
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case (READ_CMD): {
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PoolReadGuard pg(&adcSet);
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if (pg.getReadResult() != returnvalue::OK) {
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return pg.getReadResult();
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{
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PoolReadGuard pg(&adcSet);
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if (pg.getReadResult() != returnvalue::OK) {
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return pg.getReadResult();
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}
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handleExtConvRead(packet);
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checkAdcValues();
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adcSet.setValidity(true, true);
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}
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handleExtConvRead(packet);
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checkAdcValues();
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adcSet.setValidity(true, true);
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handlePrintout();
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break;
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}
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case (READ_WITH_TEMP_EXT): {
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PoolReadGuard pg(&adcSet);
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if (pg.getReadResult() != returnvalue::OK) {
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return pg.getReadResult();
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{
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PoolReadGuard pg(&adcSet);
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if (pg.getReadResult() != returnvalue::OK) {
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return pg.getReadResult();
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}
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handleExtConvRead(packet);
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uint8_t tempStartIdx = ADC_REPLY_SIZE + TEMP_REPLY_SIZE - 2;
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adcSet.tempC.value =
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max1227::getTemperature(packet[tempStartIdx] << 8 | packet[tempStartIdx + 1]);
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checkAdcValues();
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adcSet.setValidity(true, true);
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}
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handleExtConvRead(packet);
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uint8_t tempStartIdx = ADC_REPLY_SIZE + TEMP_REPLY_SIZE - 2;
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adcSet.tempC.value =
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max1227::getTemperature(packet[tempStartIdx] << 8 | packet[tempStartIdx + 1]);
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checkAdcValues();
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adcSet.setValidity(true, true);
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handlePrintout();
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break;
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}
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@ -370,9 +379,11 @@ void PayloadPcduHandler::quickTransitionBackToOff(bool startTransitionToOff, boo
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States currentState = state;
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pullAllGpiosLow(200);
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state = States::STACK_5V_SWITCHING;
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adcState = AdcStates::OFF;
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adcState = AdcState::OFF;
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if (startTransitionToOff) {
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sif::debug << "transition back to off" << std::endl;
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startTransition(MODE_OFF, 0);
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sif::debug << "blubwapfwa" << std::endl;
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}
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if (notifyFdir) {
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triggerEvent(TRANSITION_BACK_TO_OFF, static_cast<uint32_t>(currentState));
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@ -400,108 +411,94 @@ void PayloadPcduHandler::checkAdcValues() {
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float lowerBound = 0.0;
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float upperBound = 0.0;
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bool adcTransition = false;
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adcTransition = state == States::ON_TRANS_DRO and adcCountdown.isBusy();
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// Now check against voltage and current limits, depending on state
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if (state >= States::ON_TRANS_DRO and not adcTransition) {
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if (ssrToDroInjectionRequested) {
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handleFailureInjection("SSR to DRO", NEG_V_OUT_OF_BOUNDS);
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ssrToDroInjectionRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[NEG_V_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[NEG_V_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_NEG_V_FB], lowerBound, upperBound,
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NEG_V_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[DRO_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[DRO_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_DRO_DIV_6], lowerBound, upperBound,
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U_DRO_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[DRO_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_DRO], upperBound, I_DRO_OUT_OF_BOUNDS)) {
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adcTransition = adcState == AdcState::NORMAL and adcCountdown.isBusy();
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if (NO_ADC_CHECKS) {
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return;
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}
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// Now check against voltage and current limits.
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if (ssrToDroInjectionRequested) {
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handleFailureInjection("SSR to DRO", NEG_V_OUT_OF_BOUNDS);
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ssrToDroInjectionRequested = false;
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return;
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}
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if (droToX8InjectionRequested) {
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handleFailureInjection("X8 to TX", U_X8_OUT_OF_BOUNDS);
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droToX8InjectionRequested = false;
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return;
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}
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if (txToMpaInjectionRequested) {
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handleFailureInjection("TX to MPA", U_TX_OUT_OF_BOUNDS);
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txToMpaInjectionRequested = false;
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return;
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}
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if (mpaToHpaInjectionRequested) {
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handleFailureInjection("MPA to HPA", U_HPA_OUT_OF_BOUNDS);
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mpaToHpaInjectionRequested = false;
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return;
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}
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if (allOnInjectRequested) {
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handleFailureInjection("All On", U_HPA_OUT_OF_BOUNDS);
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allOnInjectRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[NEG_V_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[NEG_V_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_NEG_V_FB], lowerBound, upperBound, NEG_V_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[DRO_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[DRO_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_DRO_DIV_6], lowerBound, upperBound,
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U_DRO_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[DRO_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_DRO], upperBound, I_DRO_OUT_OF_BOUNDS)) {
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#if OBSW_VERBOSE_LEVEL >= 1
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sif::warning << "Detected out of bounds current for DRO: " << adcSet.processed[I_DRO]
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<< ", Raw: " << adcSet.channels[I_DRO] << std::endl;
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sif::warning << "Detected out of bounds current for DRO: " << adcSet.processed[I_DRO]
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<< ", Raw: " << adcSet.channels[I_DRO] << std::endl;
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#endif
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return;
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}
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return;
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}
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adcTransition = state == States::ON_TRANS_X8 and adcCountdown.isBusy();
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if (state >= States::ON_TRANS_X8 and not adcTransition) {
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if (droToX8InjectionRequested) {
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handleFailureInjection("X8 to TX", U_X8_OUT_OF_BOUNDS);
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droToX8InjectionRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[X8_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[X8_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_X8_DIV_6], lowerBound, upperBound,
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U_X8_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[X8_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_X8], upperBound, I_X8_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[X8_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[X8_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_X8_DIV_6], lowerBound, upperBound, U_X8_OUT_OF_BOUNDS)) {
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return;
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}
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adcTransition = state == States::ON_TRANS_TX and adcCountdown.isBusy();
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if (state >= States::ON_TRANS_TX and not adcTransition) {
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if (txToMpaInjectionRequested) {
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handleFailureInjection("TX to MPA", U_TX_OUT_OF_BOUNDS);
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txToMpaInjectionRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[TX_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[TX_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_TX_DIV_6], lowerBound, upperBound,
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U_TX_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[TX_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_TX], upperBound, I_TX_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[X8_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_X8], upperBound, I_X8_OUT_OF_BOUNDS)) {
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return;
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}
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adcTransition = state == States::ON_TRANS_MPA and adcCountdown.isBusy();
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if (state >= States::ON_TRANS_MPA and not adcTransition) {
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if (mpaToHpaInjectionRequested) {
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handleFailureInjection("MPA to HPA", U_HPA_OUT_OF_BOUNDS);
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mpaToHpaInjectionRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[MPA_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[MPA_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_MPA_DIV_6], lowerBound, upperBound,
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U_MPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[MPA_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_MPA], upperBound, I_MPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[TX_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[TX_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_TX_DIV_6], lowerBound, upperBound, U_TX_OUT_OF_BOUNDS)) {
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return;
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}
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adcTransition = state == States::ON_TRANS_HPA and adcCountdown.isBusy();
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if (state >= States::ON_TRANS_HPA and not adcTransition) {
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if (allOnInjectRequested) {
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handleFailureInjection("All On", U_HPA_OUT_OF_BOUNDS);
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allOnInjectRequested = false;
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return;
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}
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params.getValue(PARAM_KEY_MAP[HPA_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[HPA_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_HPA_DIV_6], lowerBound, upperBound,
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U_HPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[HPA_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_HPA], upperBound, I_HPA_OUT_OF_BOUNDS)) {
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sif::warning << "PayloadPcduHandler::checkCurrent: I HPA exceeded limit: Measured "
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<< adcSet.processed[I_HPA] << " mA" << std::endl;
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return;
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}
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params.getValue(PARAM_KEY_MAP[TX_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_TX], upperBound, I_TX_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[MPA_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[MPA_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_MPA_DIV_6], lowerBound, upperBound,
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U_MPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[MPA_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_MPA], upperBound, I_MPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[HPA_U_LOWER_BOUND], lowerBound);
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params.getValue(PARAM_KEY_MAP[HPA_U_UPPER_BOUND], upperBound);
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if (not checkVoltage(adcSet.processed[U_HPA_DIV_6], lowerBound, upperBound,
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U_HPA_OUT_OF_BOUNDS)) {
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return;
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}
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params.getValue(PARAM_KEY_MAP[HPA_I_UPPER_BOUND], upperBound);
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if (not checkCurrent(adcSet.processed[I_HPA], upperBound, I_HPA_OUT_OF_BOUNDS)) {
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sif::warning << "PayloadPcduHandler::checkCurrent: I HPA exceeded limit: Measured "
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<< adcSet.processed[I_HPA] << " mA" << std::endl;
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return;
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}
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transitionOk = true;
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}
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@ -521,6 +518,8 @@ void PayloadPcduHandler::checkJsonFileInit() {
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bool PayloadPcduHandler::checkVoltage(float val, float lowerBound, float upperBound, Event event) {
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bool tooLarge = false;
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sif::debug << "CHecking voltage. Value: " << val << ", lower bound: " << lowerBound
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<< ", upper bound: " << upperBound << std::endl;
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if (val < lowerBound or val > upperBound) {
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if (val > upperBound) {
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tooLarge = true;
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@ -698,6 +697,8 @@ ReturnValue_t PayloadPcduHandler::handleDoubleParamUpdate(std::string key,
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return params.writeJsonFile();
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}
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LocalPoolDataSetBase* PayloadPcduHandler::getDataSetHandle(sid_t sid) { return &adcSet; }
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#ifdef XIPHOS_Q7S
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ReturnValue_t PayloadPcduHandler::extConvAsTwoCallback(SpiComIF* comIf, SpiCookie* cookie,
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const uint8_t* sendData, size_t sendLen,
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@ -76,6 +76,8 @@ class PayloadPcduHandler : public DeviceHandlerBase {
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#endif
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private:
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static constexpr bool NO_ADC_CHECKS = false;
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enum class States : uint8_t {
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PL_PCDU_OFF,
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STACK_5V_SWITCHING,
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@ -84,20 +86,7 @@ class PayloadPcduHandler : public DeviceHandlerBase {
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// Solid State Relay, enable battery voltages VBAT0 and VBAT1. This will also switch on
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// the ADC
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ON_TRANS_SSR,
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ON_TRANS_ADC_CLOSE_ZERO,
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// Enable Dielectric Resonant Oscillator and start monitoring voltages as
|
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// soon as DRO voltage reaches 6V
|
||||
ON_TRANS_DRO,
|
||||
// Switch on X8 compoennt and monitor voltages for 5 seconds
|
||||
ON_TRANS_X8,
|
||||
// Switch on TX component and monitor voltages for 5 seconds
|
||||
ON_TRANS_TX,
|
||||
// Switch on MPA component and monitor voltages for 5 seconds
|
||||
ON_TRANS_MPA,
|
||||
// Switch on HPA component and monitor voltages for 5 seconds
|
||||
ON_TRANS_HPA,
|
||||
// All components of the experiment are on
|
||||
PL_PCDU_ON,
|
||||
ON_TRANS_ADC_CLOSE_ZERO
|
||||
} state = States::PL_PCDU_OFF;
|
||||
|
||||
duallane::Submodes pwrSubmode = duallane::Submodes::A_SIDE;
|
||||
@ -106,7 +95,7 @@ class PayloadPcduHandler : public DeviceHandlerBase {
|
||||
|
||||
enum class MonitoringMode { NONE, CLOSE_TO_ZERO, NEGATIVE } monMode = MonitoringMode::NONE;
|
||||
|
||||
enum class AdcStates { OFF, BOOT_DELAY, SEND_SETUP, NORMAL } adcState = AdcStates::OFF;
|
||||
enum class AdcState { OFF, BOOT_DELAY, SEND_SETUP, NORMAL } adcState = AdcState::OFF;
|
||||
|
||||
bool goToNormalMode = false;
|
||||
plpcdu::PlPcduAdcSet adcSet;
|
||||
@ -180,6 +169,7 @@ class PayloadPcduHandler : public DeviceHandlerBase {
|
||||
ReturnValue_t serializeFloat(uint32_t& param, float val);
|
||||
ReturnValue_t handleDoubleParamUpdate(std::string key, ParameterWrapper* parameterWrapper,
|
||||
const ParameterWrapper* newValues);
|
||||
LocalPoolDataSetBase* getDataSetHandle(sid_t sid) override;
|
||||
};
|
||||
|
||||
#endif /* LINUX_DEVICES_PLPCDUHANDLER_H_ */
|
||||
|
Loading…
Reference in New Issue
Block a user