portapack-mayhem/firmware/common/battery.cpp
2024-08-28 11:32:24 +02:00

168 lines
5.3 KiB
C++

#include "battery.hpp"
#include "event_m0.hpp"
#include "portapack.hpp"
#include "ads1110.hpp"
#include "max17055.hpp"
// uncomment if you want to emulate batt management system
// #define USE_BATT_EMULATOR
extern I2C portapack::i2c0;
namespace battery {
constexpr uint32_t BATTERY_UPDATE_INTERVAL = 20000;
BatteryManagement::BatteryModules BatteryManagement::detected_ = BatteryManagement::BATT_NONE;
ads1110::ADS1110 battery_ads1110{portapack::i2c0, 0x48};
max17055::MAX17055 battery_max17055{portapack::i2c0, 0x36};
Thread* BatteryManagement::thread = nullptr;
bool BatteryManagement::calcOverride = false;
void BatteryManagement::detect() {
// try to detect supported modules
detected_ = BATT_NONE;
if (battery_ads1110.detect()) {
battery_ads1110.init();
detected_ = BATT_ADS1110;
return;
}
if (battery_max17055.detect()) {
// battery_max17055.init(); //detect will call this on each "re detect"
detected_ = BATT_MAX17055;
return;
}
// add new supported module detect + init here
#ifdef USE_BATT_EMULATOR
if (detected_ == BATT_NONE) {
detected_ = BATT_EMULATOR;
return;
}
#endif
}
void BatteryManagement::init(bool override) {
calcOverride = override;
detect();
// sets timer to query and broadcats this info
create_thread();
}
// set if the default percentage calculation should be overrided by voltage based one
void BatteryManagement::set_calc_override(bool override) {
calcOverride = override;
}
// sets the values, it the currend module supports it.
void BatteryManagement::getBatteryInfo(uint8_t& valid_mask, uint8_t& batteryPercentage, uint16_t& voltage, int32_t& current) {
if (detected_ == BATT_NONE) {
valid_mask = BATT_VALID_NONE;
return;
} else if (detected_ == BATT_ADS1110) {
battery_ads1110.getBatteryInfo(valid_mask, voltage);
batteryPercentage = calc_percent_voltage(voltage);
return;
} else if (detected_ == BATT_MAX17055) {
battery_max17055.getBatteryInfo(valid_mask, batteryPercentage, voltage, current);
if (calcOverride) {
valid_mask &= ~BATT_VALID_PERCENT; // indicate it is voltage based
batteryPercentage = calc_percent_voltage(voltage);
}
return;
}
// add new module query here
#ifdef USE_BATT_EMULATOR
if (detected_ == BATT_EMULATOR) {
batteryPercentage += 5; // %
if (batteryPercentage > 100) batteryPercentage = 0;
voltage = rand() % 1000 + 3000; // mV
current = rand() % 150; // mA
isCharging = rand() % 2;
valid_mask = 7;
return true;
}
#endif
(void)current;
}
uint16_t BatteryManagement::read_register(const uint8_t reg) {
if (detected_ == BATT_MAX17055) {
return battery_max17055.read_register(reg);
}
return 0xFFFF;
}
bool BatteryManagement::write_register(const uint8_t reg, const uint16_t value) {
if (detected_ == BATT_MAX17055) {
return battery_max17055.write_register(reg, value);
}
return false;
}
uint8_t BatteryManagement::getPercent() {
if (detected_ == BATT_NONE) return 102;
uint8_t validity = 0;
uint8_t batteryPercentage = 0;
uint16_t voltage = 0;
int32_t current = 0;
getBatteryInfo(validity, batteryPercentage, voltage, current);
if ((validity & BATT_VALID_VOLTAGE) != BATT_VALID_VOLTAGE) return 102;
if (calcOverride || ((validity & BATT_VALID_PERCENT) != BATT_VALID_PERCENT)) {
validity &= ~BATT_VALID_PERCENT; // indicate it is voltage based
batteryPercentage = calc_percent_voltage(voltage);
}
return batteryPercentage;
}
uint8_t BatteryManagement::calc_percent_voltage(uint16_t voltage) {
// Calculate the remaining battery percentage
uint8_t batteryPercentage = (float)(voltage - BATTERY_MIN_VOLTAGE) / (float)(BATTERY_MAX_VOLTAGE - BATTERY_MIN_VOLTAGE) * 100.0;
// Limit the values to the valid range
batteryPercentage = (batteryPercentage > 100) ? 100 : batteryPercentage;
return batteryPercentage;
}
uint16_t BatteryManagement::getVoltage() {
if (detected_ == BATT_NONE) return 0;
uint8_t validity = 0;
uint8_t batteryPercentage = 0;
uint16_t voltage = 0;
int32_t current = 0;
getBatteryInfo(validity, batteryPercentage, voltage, current);
if ((validity & BATT_VALID_VOLTAGE) != BATT_VALID_VOLTAGE) return 0;
return voltage;
}
msg_t BatteryManagement::timer_fn(void* arg) {
(void)arg;
uint8_t validity = 0;
uint8_t batteryPercentage = 102;
uint16_t voltage = 0;
int32_t current = 0;
chThdSleepMilliseconds(1000); // wait ui for fully load
while (1) {
if (!detected_) {
detect(); // try to detect it again, it maybe disconnected while pp was powered up
chThdSleepMilliseconds(500);
}
if (detected_) {
BatteryManagement::getBatteryInfo(validity, batteryPercentage, voltage, current);
// send local message
BatteryStateMessage msg{validity, batteryPercentage, current >= 0, voltage};
EventDispatcher::send_message(msg);
}
chThdSleepMilliseconds(BATTERY_UPDATE_INTERVAL);
}
return 0;
}
void BatteryManagement::create_thread() {
thread = chThdCreateFromHeap(NULL, 512, NORMALPRIO, BatteryManagement::timer_fn, nullptr);
}
} // namespace battery