#pragma once #include "AP_BattMonitor.h" #include "AP_BattMonitor_Backend.h" #if HAL_ENABLE_DRONECAN_DRIVERS #include #define AP_BATTMONITOR_UAVCAN_TIMEOUT_MICROS 5000000 // sensor becomes unhealthy if no successful readings for 5 seconds #ifndef AP_BATTMONITOR_UAVCAN_MPPT_DEBUG #define AP_BATTMONITOR_UAVCAN_MPPT_DEBUG 0 #endif class AP_BattMonitor_DroneCAN : public AP_BattMonitor_Backend { public: enum BattMonitor_DroneCAN_Type { UAVCAN_BATTERY_INFO = 0 }; /// Constructor AP_BattMonitor_DroneCAN(AP_BattMonitor &mon, AP_BattMonitor::BattMonitor_State &mon_state, BattMonitor_DroneCAN_Type type, AP_BattMonitor_Params ¶ms); static const struct AP_Param::GroupInfo var_info[]; void init() override {} /// Read the battery voltage and current. Should be called at 10hz void read() override; /// capacity_remaining_pct - returns true if the percentage is valid and writes to percentage argument bool capacity_remaining_pct(uint8_t &percentage) const override; bool has_temperature() const override { return _has_temperature; } bool has_current() const override { return true; } bool has_consumed_energy() const override { return _has_consumed_energy; } bool has_time_remaining() const override { return _has_time_remaining; } bool has_cell_voltages() const override { return _has_cell_voltages; } bool get_cycle_count(uint16_t &cycles) const override; // return mavlink fault bitmask (see MAV_BATTERY_FAULT enum) uint32_t get_mavlink_fault_bitmask() const override; static void subscribe_msgs(AP_DroneCAN* ap_dronecan); static AP_BattMonitor_DroneCAN* get_dronecan_backend(AP_DroneCAN* ap_dronecan, uint8_t node_id, uint8_t battery_id); static void handle_battery_info_trampoline(AP_DroneCAN *ap_dronecan, const CanardRxTransfer& transfer, const uavcan_equipment_power_BatteryInfo &msg); static void handle_battery_info_aux_trampoline(AP_DroneCAN *ap_dronecan, const CanardRxTransfer& transfer, const ardupilot_equipment_power_BatteryInfoAux &msg); static void handle_mppt_stream_trampoline(AP_DroneCAN *ap_dronecan, const CanardRxTransfer& transfer, const mppt_Stream &msg); void mppt_set_powered_state(bool power_on) override; // reset remaining percentage to given value bool reset_remaining(float percentage) override; private: void handle_battery_info(const uavcan_equipment_power_BatteryInfo &msg); void handle_battery_info_aux(const ardupilot_equipment_power_BatteryInfoAux &msg); void update_interim_state(const float voltage, const float current, const float temperature_K, const uint8_t soc); static bool match_battery_id(uint8_t instance, uint8_t battery_id) { // when serial number is negative, all batteries are accepted. Else, it must match return (AP::battery().get_serial_number(instance) < 0) || (AP::battery().get_serial_number(instance) == (int32_t)battery_id); } // MPPT related enums and methods enum class MPPT_FaultFlags : uint8_t { OVER_VOLTAGE = (1U<<0), UNDER_VOLTAGE = (1U<<1), OVER_CURRENT = (1U<<2), OVER_TEMPERATURE = (1U<<3), }; void handle_mppt_stream(const mppt_Stream &msg); void mppt_check_powered_state(); #if AP_BATTMONITOR_UAVCAN_MPPT_DEBUG static void mppt_report_faults(const uint8_t instance, const uint8_t fault_flags); static const char* mppt_fault_string(const MPPT_FaultFlags fault); #endif // Return true if the DroneCAN state of charge should be used. // Return false if state of charge should be calculated locally by counting mah. bool use_CAN_SoC() const; AP_BattMonitor::BattMonitor_State _interim_state; HAL_Semaphore _sem_battmon; AP_DroneCAN* _ap_dronecan; uint8_t _soc; uint8_t _node_id; uint16_t _cycle_count; float _remaining_capacity_wh; float _full_charge_capacity_wh; bool _has_temperature; bool _has_cell_voltages; bool _has_time_remaining; bool _has_consumed_energy; bool _has_battery_info_aux; uint8_t _instance; // instance of this battery monitor AP_Float _curr_mult; // scaling multiplier applied to current reports for adjustment // MPPT variables struct { bool is_detected; // true if this UAVCAN device is a Packet Digital MPPT bool powered_state; // true if the mppt is powered on, false if powered off bool vehicle_armed_last; // latest vehicle armed state. used to detect changes and power on/off MPPT board uint8_t fault_flags; // bits holding fault flags uint32_t powered_state_remote_ms; // timestamp of when request was sent, zeroed on response. Used to retry } _mppt; void handle_outputEnable_response(const CanardRxTransfer&, const mppt_OutputEnableResponse&); Canard::ObjCallback mppt_outputenable_res_cb{this, &AP_BattMonitor_DroneCAN::handle_outputEnable_response}; Canard::Client *mppt_outputenable_client; }; #endif