In order to stabilize the battery reading,
I modified the process to make 5 consecutive readings, as the process is asynchronous, there is no interference in the main process.
This commit is contained in:
parent
c0c37877b5
commit
3c413bdd52
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@ -23,10 +23,18 @@ void Battery::Update() {
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isCharging = !nrf_gpio_pin_read(chargingPin);
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isCharging = !nrf_gpio_pin_read(chargingPin);
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isPowerPresent = !nrf_gpio_pin_read(powerPresentPin);
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isPowerPresent = !nrf_gpio_pin_read(powerPresentPin);
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if ( isReading ) return;
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// Non blocking read
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// Non blocking read
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samples = 0;
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isReading = true;
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SaadcInit();
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SaadcInit();
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nrfx_saadc_sample();
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nrfx_saadc_sample();
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}
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void Battery::adcCallbackStatic(nrfx_saadc_evt_t const *event) {
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instance->SaadcEventHandler(event);
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}
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}
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void Battery::SaadcInit() {
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void Battery::SaadcInit() {
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@ -68,10 +76,13 @@ void Battery::SaadcEventHandler(nrfx_saadc_evt_t const * p_event) {
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percentRemainingBuffer.insert(percentRemaining);
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percentRemainingBuffer.insert(percentRemaining);
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nrfx_saadc_uninit();
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samples++;
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if ( samples > percentRemainingSamples ) {
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nrfx_saadc_uninit();
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isReading = false;
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} else {
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nrfx_saadc_sample();
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}
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}
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}
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}
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}
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void Battery::adcCallbackStatic(nrfx_saadc_evt_t const *event) {
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instance->SaadcEventHandler(event);
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}
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@ -58,7 +58,7 @@ namespace Pinetime {
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static Battery *instance;
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static Battery *instance;
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nrf_saadc_value_t saadc_value;
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nrf_saadc_value_t saadc_value;
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static constexpr uint8_t percentRemainingSamples = 10;
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static constexpr uint8_t percentRemainingSamples = 5;
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CircBuffer<percentRemainingSamples> percentRemainingBuffer {};
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CircBuffer<percentRemainingSamples> percentRemainingBuffer {};
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static constexpr uint32_t chargingPin = 12;
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static constexpr uint32_t chargingPin = 12;
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@ -74,6 +74,9 @@ namespace Pinetime {
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void SaadcEventHandler(nrfx_saadc_evt_t const * p_event);
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void SaadcEventHandler(nrfx_saadc_evt_t const * p_event);
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static void adcCallbackStatic(nrfx_saadc_evt_t const *event);
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static void adcCallbackStatic(nrfx_saadc_evt_t const *event);
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bool isReading = false;
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uint8_t samples = 0;
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};
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};
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}
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}
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}
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}
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@ -132,7 +132,7 @@ void DisplayApp::Refresh() {
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// clockScreen.SetBleConnectionState(bleController.IsConnected() ? Screens::Clock::BleConnectionStates::Connected : Screens::Clock::BleConnectionStates::NotConnected);
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// clockScreen.SetBleConnectionState(bleController.IsConnected() ? Screens::Clock::BleConnectionStates::Connected : Screens::Clock::BleConnectionStates::NotConnected);
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break;
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break;
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case Messages::UpdateBatteryLevel:
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case Messages::UpdateBatteryLevel:
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// clockScreen.SetBatteryPercentRemaining(batteryController.PercentRemaining());
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batteryController.Update();
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break;
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break;
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case Messages::NewNotification:
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case Messages::NewNotification:
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LoadApp( Apps::NotificationsPreview, DisplayApp::FullRefreshDirections::Down );
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LoadApp( Apps::NotificationsPreview, DisplayApp::FullRefreshDirections::Down );
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@ -84,7 +84,7 @@ void BatteryInfo::UpdateAnim() {
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batteryPercent = batteryController.PercentRemaining();
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batteryPercent = batteryController.PercentRemaining();
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if ( batteryPercent >= 0 ) {
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if ( batteryPercent >= 0 ) {
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if ( batteryController.IsCharging() ) {
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if ( batteryController.IsCharging() and batteryPercent < 100 ) {
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animation +=1;
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animation +=1;
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if (animation >= 100) {
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if (animation >= 100) {
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animation = 0;
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animation = 0;
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@ -111,12 +111,17 @@ void BatteryInfo::UpdateScreen() {
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batteryVoltage = batteryController.Voltage();
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batteryVoltage = batteryController.Voltage();
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if ( batteryPercent >= 0 ) {
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if ( batteryPercent >= 0 ) {
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if ( batteryController.IsCharging() ) {
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if ( batteryController.IsCharging() and batteryPercent < 100 ) {
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, lv_color_hex(0xFF0000));
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, LV_COLOR_RED);
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lv_label_set_text_static(status,"Battery charging");
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lv_label_set_text_static(status,"Battery charging");
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} else if ( batteryPercent == 100 ) {
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, LV_COLOR_BLUE);
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lv_label_set_text_static(status,"Battery is fully charged");
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} else if ( batteryPercent < 10 ) {
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, LV_COLOR_YELLOW);
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lv_label_set_text_static(status,"Battery is low");
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} else {
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} else {
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, lv_color_hex(0x00FF00));
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lv_obj_set_style_local_bg_color(charging_bar, LV_BAR_PART_INDIC , LV_STATE_DEFAULT, LV_COLOR_GREEN);
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lv_label_set_text_static(status,"Battery discharging");
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lv_label_set_text_static(status,"Battery discharging");
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}
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}
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@ -98,7 +98,6 @@ void SystemTask::Work() {
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heartRateController, settingsController, motionController);
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heartRateController, settingsController, motionController);
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displayApp->Start();
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displayApp->Start();
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batteryController.Update();
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displayApp->PushMessage(Pinetime::Applications::Display::Messages::UpdateBatteryLevel);
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displayApp->PushMessage(Pinetime::Applications::Display::Messages::UpdateBatteryLevel);
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heartRateSensor.Init();
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heartRateSensor.Init();
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@ -106,7 +105,6 @@ void SystemTask::Work() {
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heartRateApp = std::make_unique<Pinetime::Applications::HeartRateTask>(heartRateSensor, heartRateController);
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heartRateApp = std::make_unique<Pinetime::Applications::HeartRateTask>(heartRateSensor, heartRateController);
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heartRateApp->Start();
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heartRateApp->Start();
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nrf_gpio_cfg_sense_input(pinButton, (nrf_gpio_pin_pull_t)GPIO_PIN_CNF_PULL_Pulldown, (nrf_gpio_pin_sense_t)GPIO_PIN_CNF_SENSE_High);
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nrf_gpio_cfg_sense_input(pinButton, (nrf_gpio_pin_pull_t)GPIO_PIN_CNF_PULL_Pulldown, (nrf_gpio_pin_sense_t)GPIO_PIN_CNF_SENSE_High);
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nrf_gpio_cfg_output(15);
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nrf_gpio_cfg_output(15);
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nrf_gpio_pin_set(15);
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nrf_gpio_pin_set(15);
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@ -141,7 +139,14 @@ void SystemTask::Work() {
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uint8_t msg;
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uint8_t msg;
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if (xQueueReceive(systemTasksMsgQueue, &msg, 100)) {
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if (xQueueReceive(systemTasksMsgQueue, &msg, 100)) {
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// call the battery controller or use the MSG in DisplayApp to get the battery status ???
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// it is necessary to validate which is the most efficient
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batteryController.Update();
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batteryController.Update();
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//displayApp->PushMessage(Pinetime::Applications::Display::Messages::UpdateBatteryLevel);
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// analyze a more efficient way to do this refreshment
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// this and the UpdateMotion(); can be called on a timer to be independent of the main process ???
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Messages message = static_cast<Messages >(msg);
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Messages message = static_cast<Messages >(msg);
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switch(message) {
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switch(message) {
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case Messages::EnableSleeping:
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case Messages::EnableSleeping:
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