mirror of https://github.com/ArduPilot/ardupilot
148 lines
5.9 KiB
C++
148 lines
5.9 KiB
C++
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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#include "AP_BattMonitor.h"
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extern const AP_HAL::HAL& hal;
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const AP_Param::GroupInfo AP_BattMonitor::var_info[] PROGMEM = {
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// @Param: MONITOR
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// @DisplayName: Battery monitoring
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// @Description: Controls enabling monitoring of the battery's voltage and current
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// @Values: 0:Disabled,3:Voltage Only,4:Voltage and Current
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// @User: Standard
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AP_GROUPINFO("MONITOR", 0, AP_BattMonitor, _monitoring, AP_BATT_MONITOR_DISABLED),
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// @Param: VOLT_PIN
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// @DisplayName: Battery Voltage sensing pin
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// @Description: Setting this to 0 ~ 13 will enable battery current sensing on pins A0 ~ A13. For the 3DR power brick on APM2.5 it should be set to 13. On the PX4 it should be set to 100. On the Pixhawk powered from the PM connector it should be set to 2.
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// @Values: -1:Disabled, 0:A0, 1:A1, 2:Pixhawk, 13:A13, 100:PX4
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// @User: Standard
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AP_GROUPINFO("VOLT_PIN", 1, AP_BattMonitor, _volt_pin, AP_BATT_VOLT_PIN),
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// @Param: CURR_PIN
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// @DisplayName: Battery Current sensing pin
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// @Description: Setting this to 0 ~ 13 will enable battery current sensing on pins A0 ~ A13. For the 3DR power brick on APM2.5 it should be set to 12. On the PX4 it should be set to 101. On the Pixhawk powered from the PM connector it should be set to 3.
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// @Values: -1:Disabled, 1:A1, 2:A2, 3:Pixhawk, 12:A12, 101:PX4
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// @User: Standard
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AP_GROUPINFO("CURR_PIN", 2, AP_BattMonitor, _curr_pin, AP_BATT_CURR_PIN),
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// @Param: VOLT_MULT
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// @DisplayName: Voltage Multiplier
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// @Description: Used to convert the voltage of the voltage sensing pin (BATT_VOLT_PIN) to the actual battery's voltage (pin_voltage * VOLT_MULT). For the 3DR Power brick on APM2 or Pixhawk, this should be set to 10.1. For the Pixhawk with the 3DR 4in1 ESC this should be 12.02. For the PX4 using the PX4IO power supply this should be set to 1.
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// @User: Advanced
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AP_GROUPINFO("VOLT_MULT", 3, AP_BattMonitor, _volt_multiplier, AP_BATT_VOLTDIVIDER_DEFAULT),
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// @Param: AMP_PERVOLT
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// @DisplayName: Amps per volt
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// @Description: Number of amps that a 1V reading on the current sensor corresponds to. On the APM2 or Pixhawk using the 3DR Power brick this should be set to 17. For the Pixhawk with the 3DR 4in1 ESC this should be 17.
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// @Units: A/V
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// @User: Standard
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AP_GROUPINFO("AMP_PERVOLT", 4, AP_BattMonitor, _curr_amp_per_volt, AP_BATT_CURR_AMP_PERVOLT_DEFAULT),
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// @Param: AMP_OFFSET
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// @DisplayName: AMP offset
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// @Description: Voltage offset at zero current on current sensor
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// @Units: Volts
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// @User: Standard
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AP_GROUPINFO("AMP_OFFSET", 5, AP_BattMonitor, _curr_amp_offset, 0),
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// @Param: CAPACITY
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// @DisplayName: Battery capacity
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// @Description: Capacity of the battery in mAh when full
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// @Units: mAh
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// @Increment: 50
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// @User: Standard
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AP_GROUPINFO("CAPACITY", 6, AP_BattMonitor, _pack_capacity, AP_BATT_CAPACITY_DEFAULT),
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AP_GROUPEND
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};
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// Default constructor.
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// Note that the Vector/Matrix constructors already implicitly zero
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// their values.
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//
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AP_BattMonitor::AP_BattMonitor(void) :
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_voltage(0),
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_current_amps(0),
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_current_total_mah(0),
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_last_time_micros(0)
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{
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AP_Param::setup_object_defaults(this, var_info);
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}
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// init - setup the battery and voltage pins
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void
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AP_BattMonitor::init()
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{
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_volt_pin_analog_source = hal.analogin->channel(_volt_pin);
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_curr_pin_analog_source = hal.analogin->channel(_curr_pin);
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}
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// read - read the voltage and current
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void
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AP_BattMonitor::read()
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{
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if (_monitoring == AP_BATT_MONITOR_DISABLED) {
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return;
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}
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// read voltage
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if (_monitoring == AP_BATT_MONITOR_VOLTAGE_ONLY || _monitoring == AP_BATT_MONITOR_VOLTAGE_AND_CURRENT) {
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// this copes with changing the pin at runtime
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_volt_pin_analog_source->set_pin(_volt_pin);
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_voltage = _volt_pin_analog_source->voltage_average() * _volt_multiplier;
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}
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// read current
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if (_monitoring == AP_BATT_MONITOR_VOLTAGE_AND_CURRENT) {
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uint32_t tnow = hal.scheduler->micros();
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float dt = tnow - _last_time_micros;
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// this copes with changing the pin at runtime
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_curr_pin_analog_source->set_pin(_curr_pin);
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_current_amps = (_curr_pin_analog_source->voltage_average()-_curr_amp_offset)*_curr_amp_per_volt;
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if (_last_time_micros != 0 && dt < 2000000.0f) {
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// .0002778 is 1/3600 (conversion to hours)
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_current_total_mah += _current_amps * dt * 0.0000002778f;
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}
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_last_time_micros = tnow;
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}
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}
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/// capacity_remaining_pct - returns the % battery capacity remaining (0 ~ 100)
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uint8_t AP_BattMonitor::capacity_remaining_pct() const
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{
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return (100.0f * (_pack_capacity - _current_total_mah) / _pack_capacity);
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}
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/// exhausted - returns true if the voltage remains below the low_voltage for 10 seconds or remaining capacity falls below min_capacity_mah
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bool AP_BattMonitor::exhausted(float low_voltage, float min_capacity_mah)
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{
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// return immediately if disabled
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if (_monitoring == AP_BATT_MONITOR_DISABLED) {
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return false;
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}
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// get current time
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uint32_t tnow = hal.scheduler->millis();
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// check voltage
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if ((_voltage != 0) && (low_voltage > 0) && (_voltage < low_voltage)) {
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// this is the first time our voltage has dropped below minimum so start timer
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if (_low_voltage_start_ms == 0) {
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_low_voltage_start_ms = tnow;
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}else if (tnow - _low_voltage_start_ms > AP_BATT_LOW_VOLT_TIMEOUT_MS) {
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return true;
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}
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}else{
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// acceptable voltage so reset timer
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_low_voltage_start_ms = 0;
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}
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// check capacity if current monitoring is enabled
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if ((_monitoring == AP_BATT_MONITOR_VOLTAGE_AND_CURRENT) && (min_capacity_mah>0) && (_pack_capacity - _current_total_mah < min_capacity_mah)) {
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return true;
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}
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// if we've gotten this far battery is ok
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return false;
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}
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