#pragma once #include #include "AP_ESC_Telem_Backend.h" #if HAL_WITH_ESC_TELEM #define ESC_TELEM_MAX_ESCS 12 #define ESC_TELEM_DATA_TIMEOUT_MS 5000UL #define ESC_RPM_DATA_TIMEOUT_US 1000000UL class AP_ESC_Telem { public: friend class AP_ESC_Telem_Backend; AP_ESC_Telem(); /* Do not allow copies */ AP_ESC_Telem(const AP_ESC_Telem &other) = delete; AP_ESC_Telem &operator=(const AP_ESC_Telem&) = delete; static AP_ESC_Telem *get_singleton(); // get an individual ESC's slewed rpm if available, returns true on success bool get_rpm(uint8_t esc_index, float& rpm) const; // get an individual ESC's raw rpm if available bool get_raw_rpm(uint8_t esc_index, float& rpm) const; // get an individual ESC's temperature in centi-degrees if available, returns true on success bool get_temperature(uint8_t esc_index, int16_t& temp) const; // get an individual motor's temperature in centi-degrees if available, returns true on success bool get_motor_temperature(uint8_t esc_index, int16_t& temp) const; // get an individual ESC's current in Ampere if available, returns true on success bool get_current(uint8_t esc_index, float& amps) const; // get an individual ESC's usage time in seconds if available, returns true on success bool get_usage_seconds(uint8_t esc_index, uint32_t& usage_sec) const; // get an individual ESC's voltage in Volt if available, returns true on success bool get_voltage(uint8_t esc_index, float& volts) const; // get an individual ESC's consumption in milli-Ampere.hour if available, returns true on success bool get_consumption_mah(uint8_t esc_index, float& consumption_mah) const; // return the average motor frequency in Hz for dynamic filtering float get_average_motor_frequency_hz() const; // return all of the motor frequencies in Hz for dynamic filtering uint8_t get_motor_frequencies_hz(uint8_t nfreqs, float* freqs) const; // get the number of valid ESCs uint8_t get_num_active_escs() const; // return the last time telemetry data was received in ms for the given ESC or 0 if never uint32_t get_last_telem_data_ms(uint8_t esc_index) const { if (esc_index >= ESC_TELEM_MAX_ESCS) {return 0;} return _telem_data[esc_index].last_update_ms; } // send telemetry data to mavlink void send_esc_telemetry_mavlink(uint8_t mav_chan); // udpate at 10Hz to log telemetry void update(); private: // callback to update the rpm in the frontend, should be called by the driver when new data is available void update_rpm(const uint8_t esc_index, const uint16_t new_rpm, const float error_rate); // callback to update the data in the frontend, should be called by the driver when new data is available void update_telem_data(const uint8_t esc_index, const AP_ESC_Telem_Backend::TelemetryData& new_data, const uint16_t data_mask); // rpm data volatile AP_ESC_Telem_Backend::RpmData _rpm_data[ESC_TELEM_MAX_ESCS]; // telemetry data volatile AP_ESC_Telem_Backend::TelemetryData _telem_data[ESC_TELEM_MAX_ESCS]; uint32_t _last_telem_log_ms[ESC_TELEM_MAX_ESCS]; uint32_t _last_rpm_log_us[ESC_TELEM_MAX_ESCS]; bool _have_data; static AP_ESC_Telem *_singleton; }; namespace AP { AP_ESC_Telem &esc_telem(); }; #endif