ardupilot/libraries/AP_BattMonitor/AP_BattMonitor_Backend.h

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/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
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#include <AP_Common/AP_Common.h>
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#include "AP_BattMonitor.h"
class AP_BattMonitor_Backend
{
public:
// constructor. This incorporates initialisation as well.
AP_BattMonitor_Backend(AP_BattMonitor &mon, AP_BattMonitor::BattMonitor_State &mon_state, AP_BattMonitor_Params &params);
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// we declare a virtual destructor so that BattMonitor driver can
// override with a custom destructor if need be
virtual ~AP_BattMonitor_Backend(void) {}
// initialise
virtual void init() {};
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// read the latest battery voltage
virtual void read() = 0;
/// returns true if battery monitor instance provides time remaining info
virtual bool has_time_remaining() const { return false; }
/// returns true if battery monitor instance provides consumed energy info
virtual bool has_consumed_energy() const { return false; }
/// returns true if battery monitor instance provides current info
virtual bool has_current() const = 0;
// returns true if battery monitor provides individual cell voltages
virtual bool has_cell_voltages() const { return false; }
// returns true if battery monitor provides temperature
virtual bool has_temperature() const { return false; }
// returns true if temperature retrieved successfully
virtual bool get_temperature(float &temperature) const;
// capacity_remaining_pct - returns true if the battery % is available and writes to the percentage argument
// returns false if the battery is unhealthy, does not have current monitoring, or the pack_capacity is too small
virtual bool capacity_remaining_pct(uint8_t &percentage) const WARN_IF_UNUSED;
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// return true if cycle count can be provided and fills in cycles argument
virtual bool get_cycle_count(uint16_t &cycles) const { return false; }
// return true if state of health (as a percentage) can be provided and fills in soh_pct argument
bool get_state_of_health_pct(uint8_t &soh_pct) const;
/// get voltage with sag removed (based on battery current draw and resistance)
/// this will always be greater than or equal to the raw voltage
float voltage_resting_estimate() const;
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// update battery resistance estimate and voltage_resting_estimate
virtual void update_resistance_estimate();
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// updates failsafe timers, and returns what failsafes are active
virtual AP_BattMonitor::Failsafe update_failsafes(void);
// returns false if we fail arming checks, in which case the buffer will be populated with a failure message
bool arming_checks(char * buffer, size_t buflen) const;
// reset remaining percentage to given value
virtual bool reset_remaining(float percentage);
// return mavlink fault bitmask (see MAV_BATTERY_FAULT enum)
virtual uint32_t get_mavlink_fault_bitmask() const { return 0; }
// logging functions
void Log_Write_BAT(const uint8_t instance, const uint64_t time_us) const;
void Log_Write_BCL(const uint8_t instance, const uint64_t time_us) const;
// set desired MPPT powered state (enabled/disabled)
virtual void mppt_set_powered_state(bool power_on) {};
// Update an ESC telemetry channel's power information
void update_esc_telem_outbound();
// amps: current (A)
// dt_us: time between samples (micro-seconds)
static float calculate_mah(float amps, float dt_us) { return (float) (amps * dt_us * AUS_TO_MAH); }
// check if a option is set
bool option_is_set(const AP_BattMonitor_Params::Options option) const {
return (uint16_t(_params._options.get()) & uint16_t(option)) != 0;
}
#if AP_BATTERY_SCRIPTING_ENABLED
virtual bool handle_scripting(const BattMonitorScript_State &battmon_state) { return false; }
#endif
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protected:
AP_BattMonitor &_mon; // reference to front-end
AP_BattMonitor::BattMonitor_State &_state; // reference to this instances state (held in the front-end)
AP_BattMonitor_Params &_params; // reference to this instances parameters (held in the front-end)
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// checks what failsafes could be triggered
void check_failsafe_types(bool &low_voltage, bool &low_capacity, bool &critical_voltage, bool &critical_capacity) const;
void update_consumed(AP_BattMonitor::BattMonitor_State &state, uint32_t dt_us);
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private:
// resistance estimate
uint32_t _resistance_timer_ms; // system time of last resistance estimate update
float _voltage_filt; // filtered voltage
float _current_max_amps; // maximum current since start-up
float _current_filt_amps; // filtered current
float _resistance_voltage_ref; // voltage used for maximum resistance calculation
float _resistance_current_ref; // current used for maximum resistance calculation
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};
#if AP_BATTERY_SCRIPTING_ENABLED
struct BattMonitorScript_State {
float voltage; // Battery voltage in volts
bool healthy; // True if communicating properly
uint8_t cell_count; // Number of valid cells in state
uint8_t capacity_remaining_pct=UINT8_MAX; // Remaining battery capacity in percent, 255 for invalid
uint16_t cell_voltages[32]; // allow script to have up to 32 cells, will be limited internally
uint16_t cycle_count=UINT16_MAX; // Battery cycle count, 65535 for unavailable
/*
all of the following float variables should be set to NaN by the
script if they are not known.
consumed_mah will auto-integrate if set to NaN
*/
float current_amps=nanf(""); // Battery current in amperes
float consumed_mah=nanf(""); // Total current drawn since start-up in milliampere hours
float consumed_wh=nanf(""); // Total energy drawn since start-up in watt hours
float temperature=nanf(""); // Battery temperature in degrees Celsius
};
#endif // AP_BATTERY_SCRIPTING_ENABLED