charge_control: block charging if external temperature is too low
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d7b8c90cb4
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5c6497fb82
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@ -2,6 +2,7 @@
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#include <fxp.h>
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#include <fxp.h>
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#include "bmp280.h"
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#include "power_switch.h"
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#include "power_switch.h"
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#include "measurement.h"
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#include "measurement.h"
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#include "charge_pump.h"
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#include "charge_pump.h"
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@ -10,17 +11,18 @@
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#include "charge_control.h"
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#include "charge_control.h"
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static const char *CHARGE_STATE_TEXT[] = {
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static const char *CHARGE_STATE_TEXT[CHARGE_NUM_STATES] = {
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"WAIT_CHARGEPUMP",
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"WAIT_CHARGEPUMP",
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"INITIAL",
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"INITIAL",
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"INITIAL_HOLD",
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"INITIAL_HOLD",
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"TRANSITION",
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"TRANSITION",
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"FLOAT",
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"FLOAT",
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"SLEEP",
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"SLEEP",
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"HIGH_TEMPERATURE"
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"HIGH_INTERNAL_TEMPERATURE",
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"LOW_EXTERNAL_TEMPERATURE"
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};
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};
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static const char *DISCHARGE_STATE_TEXT[] = {
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static const char *DISCHARGE_STATE_TEXT[DISCHARGE_NUM_STATES] = {
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"WAIT_CHARGEPUMP",
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"WAIT_CHARGEPUMP",
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"OK",
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"OK",
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"VOLTAGE_LOW",
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"VOLTAGE_LOW",
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@ -56,6 +58,9 @@ static fxp_t load_current_limit;
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static fxp_t internal_temperature_limit;
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static fxp_t internal_temperature_limit;
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static fxp_t internal_temperature_recovery;
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static fxp_t internal_temperature_recovery;
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static fxp_t external_temperature_limit;
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static fxp_t external_temperature_recovery;
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static fxp_t sleep_solar_current;
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static fxp_t sleep_solar_current;
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static fxp_t sleep_solar_excess_voltage;
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static fxp_t sleep_solar_excess_voltage;
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@ -86,9 +91,15 @@ static enum ChargeState control_solar_charging(
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solar_switch_onoff_duration = 0;
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solar_switch_onoff_duration = 0;
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}
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}
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// temperature limit
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// internal temperature limit: prevent overheating of the power transistors.
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if(meas->avg_temperature > internal_temperature_limit) {
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if(meas->avg_temperature > internal_temperature_limit) {
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return CHARGE_HIGH_TEMPERATURE;
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return CHARGE_HIGH_INTERNAL_TEMPERATURE;
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}
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// external temperature limit: prevent charging the battery if temperature is too low.
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if(bmp280_are_measurements_valid() &&
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bmp280_get_temperature() < external_temperature_limit) {
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return CHARGE_LOW_EXTERNAL_TEMPERATURE;
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}
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}
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// low-current limit (go to sleep at night)
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// low-current limit (go to sleep at night)
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@ -195,7 +206,7 @@ static void solar_fsm_update(uint64_t uptime_ms, struct MeasurementResult *meas)
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// temperature limit
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// temperature limit
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if(meas->temperature > internal_temperature_limit) {
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if(meas->temperature > internal_temperature_limit) {
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charge_state = CHARGE_HIGH_TEMPERATURE;
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charge_state = CHARGE_HIGH_INTERNAL_TEMPERATURE;
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break;
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break;
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}
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}
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break;
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break;
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@ -217,7 +228,7 @@ static void solar_fsm_update(uint64_t uptime_ms, struct MeasurementResult *meas)
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break;
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break;
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case CHARGE_HIGH_TEMPERATURE:
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case CHARGE_HIGH_INTERNAL_TEMPERATURE:
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if(charge_state_entered) {
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if(charge_state_entered) {
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power_switch_solar_off();
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power_switch_solar_off();
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}
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}
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@ -228,6 +239,21 @@ static void solar_fsm_update(uint64_t uptime_ms, struct MeasurementResult *meas)
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}
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}
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break;
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break;
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case CHARGE_LOW_EXTERNAL_TEMPERATURE:
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if(charge_state_entered) {
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power_switch_solar_off();
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}
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// this state can only be entered if the BMP280 measurement is valid, so
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// no need to check it again here.
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if(bmp280_get_temperature() > external_temperature_recovery) {
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charge_state = CHARGE_WAIT_CHARGEPUMP;
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break;
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}
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break;
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default:
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default:
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// unknown state
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// unknown state
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break;
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break;
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@ -329,6 +355,9 @@ void charge_control_init(void)
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internal_temperature_limit = fxp_div(FXP_FROM_INT(FLASH_CONFIG_INTERNAL_TEMPERATURE_LIMIT), FXP_FROM_INT(10));
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internal_temperature_limit = fxp_div(FXP_FROM_INT(FLASH_CONFIG_INTERNAL_TEMPERATURE_LIMIT), FXP_FROM_INT(10));
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internal_temperature_recovery = fxp_div(FXP_FROM_INT(FLASH_CONFIG_INTERNAL_TEMPERATURE_RECOVERY), FXP_FROM_INT(10));
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internal_temperature_recovery = fxp_div(FXP_FROM_INT(FLASH_CONFIG_INTERNAL_TEMPERATURE_RECOVERY), FXP_FROM_INT(10));
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external_temperature_limit = fxp_div(FXP_FROM_INT(FLASH_CONFIG_EXTERNAL_TEMPERATURE_LIMIT), FXP_FROM_INT(10));
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external_temperature_recovery = fxp_div(FXP_FROM_INT(FLASH_CONFIG_EXTERNAL_TEMPERATURE_RECOVERY), FXP_FROM_INT(10));
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sleep_solar_current = fxp_div(FXP_FROM_INT(FLASH_CONFIG_SLEEP_SOLAR_CURRENT), FXP_FROM_INT(1000));
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sleep_solar_current = fxp_div(FXP_FROM_INT(FLASH_CONFIG_SLEEP_SOLAR_CURRENT), FXP_FROM_INT(1000));
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sleep_solar_excess_voltage = fxp_div(FXP_FROM_INT(FLASH_CONFIG_SLEEP_SOLAR_EXCESS_VOLTAGE), FXP_FROM_INT(1000));
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sleep_solar_excess_voltage = fxp_div(FXP_FROM_INT(FLASH_CONFIG_SLEEP_SOLAR_EXCESS_VOLTAGE), FXP_FROM_INT(1000));
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}
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}
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@ -381,7 +410,8 @@ void charge_control_update(uint64_t uptime_ms, struct MeasurementResult *meas)
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bool charge_control_is_idle(void)
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bool charge_control_is_idle(void)
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{
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{
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return (((charge_state == CHARGE_SLEEP)
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return (((charge_state == CHARGE_SLEEP)
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|| (charge_state == CHARGE_HIGH_TEMPERATURE))
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|| (charge_state == CHARGE_HIGH_INTERNAL_TEMPERATURE)
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|| (charge_state == CHARGE_LOW_EXTERNAL_TEMPERATURE))
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&& ((discharge_state == DISCHARGE_VOLTAGE_LOW)
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&& ((discharge_state == DISCHARGE_VOLTAGE_LOW)
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|| (discharge_state == DISCHARGE_OVERCURRENT)));
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|| (discharge_state == DISCHARGE_OVERCURRENT)));
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}
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}
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@ -390,7 +420,8 @@ bool charge_control_is_idle(void)
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bool charge_control_is_charge_blocked(void)
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bool charge_control_is_charge_blocked(void)
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{
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{
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switch(charge_state) {
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switch(charge_state) {
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case CHARGE_HIGH_TEMPERATURE:
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case CHARGE_HIGH_INTERNAL_TEMPERATURE:
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case CHARGE_LOW_EXTERNAL_TEMPERATURE:
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case CHARGE_WAIT_CHARGEPUMP:
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case CHARGE_WAIT_CHARGEPUMP:
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return true;
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return true;
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@ -15,7 +15,10 @@ enum ChargeState
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CHARGE_TRANSITION,
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CHARGE_TRANSITION,
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CHARGE_FLOAT,
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CHARGE_FLOAT,
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CHARGE_SLEEP,
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CHARGE_SLEEP,
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CHARGE_HIGH_TEMPERATURE
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CHARGE_HIGH_INTERNAL_TEMPERATURE,
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CHARGE_LOW_EXTERNAL_TEMPERATURE,
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CHARGE_NUM_STATES
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};
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};
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enum DischargeState
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enum DischargeState
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@ -23,7 +26,9 @@ enum DischargeState
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DISCHARGE_WAIT_CHARGEPUMP,
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DISCHARGE_WAIT_CHARGEPUMP,
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DISCHARGE_OK,
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DISCHARGE_OK,
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DISCHARGE_VOLTAGE_LOW,
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DISCHARGE_VOLTAGE_LOW,
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DISCHARGE_OVERCURRENT
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DISCHARGE_OVERCURRENT,
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DISCHARGE_NUM_STATES
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};
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};
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// Error flags
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// Error flags
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