ESP32-PaxCounter/src/power.cpp

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// Basic config
#include "globals.h"
#include "power.h"
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// Local logging tag
static const char TAG[] = __FILE__;
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#ifdef BAT_MEASURE_ADC
esp_adc_cal_characteristics_t *adc_characs =
(esp_adc_cal_characteristics_t *)calloc(
1, sizeof(esp_adc_cal_characteristics_t));
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#ifndef BAT_MEASURE_ADC_UNIT // ADC1
static const adc1_channel_t adc_channel = BAT_MEASURE_ADC;
#else // ADC2
static const adc2_channel_t adc_channel = BAT_MEASURE_ADC;
#endif
static const adc_atten_t atten = ADC_ATTEN_DB_11;
static const adc_unit_t unit = ADC_UNIT_1;
#endif // BAT_MEASURE_ADC
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#ifdef HAS_PMU
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AXP20X_Class pmu;
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void AXP192_powerevent_IRQ(void) {
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pmu.readIRQ();
if (pmu.isVbusOverVoltageIRQ())
ESP_LOGI(TAG, "USB voltage %.2fV too high.", pmu.getVbusVoltage() / 1000);
if (pmu.isVbusPlugInIRQ())
ESP_LOGI(TAG, "USB plugged, %.2fV @ %.0mA", pmu.getVbusVoltage() / 1000,
pmu.getVbusCurrent());
if (pmu.isVbusRemoveIRQ())
ESP_LOGI(TAG, "USB unplugged.");
if (pmu.isBattPlugInIRQ())
ESP_LOGI(TAG, "Battery is connected.");
if (pmu.isBattRemoveIRQ())
ESP_LOGI(TAG, "Battery was removed.");
if (pmu.isChargingIRQ())
ESP_LOGI(TAG, "Battery charging.");
if (pmu.isChargingDoneIRQ())
ESP_LOGI(TAG, "Battery charging done.");
if (pmu.isBattTempLowIRQ())
ESP_LOGI(TAG, "Battery high temperature.");
if (pmu.isBattTempHighIRQ())
ESP_LOGI(TAG, "Battery low temperature.");
// short press -> esp32 deep sleep mode, can be exited by pressing user button
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#ifdef HAS_BUTTON
if (pmu.isPEKShortPressIRQ() && (RTC_runmode == RUNMODE_NORMAL)) {
enter_deepsleep(0, HAS_BUTTON);
}
#endif
// long press -> shutdown power, can be exited by another longpress
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if (pmu.isPEKLongtPressIRQ()) {
AXP192_power(pmu_power_off); // switch off Lora, GPS, display
pmu.shutdown(); // switch off device
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}
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pmu.clearIRQ();
// refresh stored voltage value
read_voltage();
}
void AXP192_power(pmu_power_t powerlevel) {
switch (powerlevel) {
case pmu_power_off:
pmu.setChgLEDMode(AXP20X_LED_OFF);
pmu.setPowerOutPut(AXP192_DCDC1, AXP202_OFF);
pmu.setPowerOutPut(AXP192_LDO3, AXP202_OFF);
pmu.setPowerOutPut(AXP192_LDO2, AXP202_OFF);
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// pmu.setPowerOutPut(AXP192_DCDC3, AXP202_OFF);
break;
case pmu_power_sleep:
pmu.setChgLEDMode(AXP20X_LED_BLINK_1HZ);
// we don't cut off DCDC1, because then display blocks i2c bus
pmu.setPowerOutPut(AXP192_LDO3, AXP202_OFF); // gps off
pmu.setPowerOutPut(AXP192_LDO2, AXP202_OFF); // lora off
break;
default: // all rails power on
pmu.setPowerOutPut(AXP192_LDO2, AXP202_ON); // Lora on T-Beam V1.0
pmu.setPowerOutPut(AXP192_LDO3, AXP202_ON); // Gps on T-Beam V1.0
pmu.setPowerOutPut(AXP192_DCDC1, AXP202_ON); // OLED on T-Beam v1.0
pmu.setChgLEDMode(AXP20X_LED_LOW_LEVEL);
break;
}
}
void AXP192_showstatus(void) {
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if (pmu.isBatteryConnect())
if (pmu.isChargeing())
ESP_LOGI(TAG, "Battery charging, %.2fV @ %.0fmAh",
pmu.getBattVoltage() / 1000, pmu.getBattChargeCurrent());
else
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ESP_LOGI(TAG, "Battery not charging");
else
ESP_LOGI(TAG, "No Battery");
if (pmu.isVBUSPlug())
ESP_LOGI(TAG, "USB powered, %.0fmW",
pmu.getVbusVoltage() / 1000 * pmu.getVbusCurrent());
else
ESP_LOGI(TAG, "USB not present");
}
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void AXP192_init(void) {
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if (pmu.begin(i2c_readBytes, i2c_writeBytes, AXP192_PRIMARY_ADDRESS) ==
AXP_FAIL)
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ESP_LOGI(TAG, "AXP192 PMU initialization failed");
else {
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// configure AXP192
pmu.setDCDC1Voltage(3300); // for external OLED display
pmu.setTimeOutShutdown(false); // no automatic shutdown
pmu.setTSmode(AXP_TS_PIN_MODE_DISABLE); // TS pin mode off to save power
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// switch ADCs on
pmu.adc1Enable(AXP202_BATT_VOL_ADC1, true);
pmu.adc1Enable(AXP202_BATT_CUR_ADC1, true);
pmu.adc1Enable(AXP202_VBUS_VOL_ADC1, true);
pmu.adc1Enable(AXP202_VBUS_CUR_ADC1, true);
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// switch power rails on
AXP192_power(pmu_power_on);
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#ifdef PMU_INT
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pinMode(PMU_INT, INPUT_PULLUP);
attachInterrupt(digitalPinToInterrupt(PMU_INT), PMUIRQ, FALLING);
pmu.enableIRQ(AXP202_VBUS_REMOVED_IRQ | AXP202_VBUS_CONNECT_IRQ |
AXP202_BATT_REMOVED_IRQ | AXP202_BATT_CONNECT_IRQ |
AXP202_CHARGING_FINISHED_IRQ,
1);
pmu.clearIRQ();
#endif // PMU_INT
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ESP_LOGI(TAG, "AXP192 PMU initialized");
}
}
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#endif // HAS_PMU
void calibrate_voltage(void) {
#ifdef BAT_MEASURE_ADC
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// configure ADC
#ifndef BAT_MEASURE_ADC_UNIT // ADC1
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ESP_ERROR_CHECK(adc1_config_width(ADC_WIDTH_BIT_12));
ESP_ERROR_CHECK(adc1_config_channel_atten(adc_channel, atten));
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#else // ADC2
// ESP_ERROR_CHECK(adc2_config_width(ADC_WIDTH_BIT_12));
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ESP_ERROR_CHECK(adc2_config_channel_atten(adc_channel, atten));
#endif
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// calibrate ADC
esp_adc_cal_value_t val_type = esp_adc_cal_characterize(
unit, atten, ADC_WIDTH_BIT_12, DEFAULT_VREF, adc_characs);
// show ADC characterization base
if (val_type == ESP_ADC_CAL_VAL_EFUSE_TP) {
ESP_LOGI(TAG,
"ADC characterization based on Two Point values stored in eFuse");
} else if (val_type == ESP_ADC_CAL_VAL_EFUSE_VREF) {
ESP_LOGI(TAG,
"ADC characterization based on reference voltage stored in eFuse");
} else {
ESP_LOGI(TAG, "ADC characterization based on default reference voltage");
}
#endif
}
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bool batt_sufficient() {
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#if (defined HAS_PMU || defined BAT_MEASURE_ADC)
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uint16_t volts = read_voltage();
return ((volts < 1000) ||
(volts > OTA_MIN_BATT)); // no battery or battery sufficient
#else
return true;
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#endif
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}
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uint16_t read_voltage() {
uint16_t voltage = 0;
#ifdef HAS_PMU
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voltage = pmu.isVBUSPlug() ? 0xffff : pmu.getBattVoltage();
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#else
#ifdef BAT_MEASURE_ADC
// multisample ADC
uint32_t adc_reading = 0;
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#ifndef BAT_MEASURE_ADC_UNIT // ADC1
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for (int i = 0; i < NO_OF_SAMPLES; i++) {
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adc_reading += adc1_get_raw(adc_channel);
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}
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#else // ADC2
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int adc_buf = 0;
for (int i = 0; i < NO_OF_SAMPLES; i++) {
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ESP_ERROR_CHECK(adc2_get_raw(adc_channel, ADC_WIDTH_BIT_12, &adc_buf));
adc_reading += adc_buf;
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}
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#endif // BAT_MEASURE_ADC_UNIT
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adc_reading /= NO_OF_SAMPLES;
// Convert ADC reading to voltage in mV
voltage = esp_adc_cal_raw_to_voltage(adc_reading, adc_characs);
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#endif // BAT_MEASURE_ADC
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#ifdef BAT_VOLTAGE_DIVIDER
voltage *= BAT_VOLTAGE_DIVIDER;
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#endif // BAT_VOLTAGE_DIVIDER
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#endif // HAS_PMU
return voltage;
}