#pragma once #include "SIM_I2CDevice.h" #include namespace SITL { class MS5XXX : public I2CDevice { public: MS5XXX(); protected: int rdwr(I2C::i2c_rdwr_ioctl_data *&data) override; void update(const class Aircraft &aircraft) override; private: // float pressure; // float temperature; // time we last updated the measurements (simulated internal // workings of sensor) uint32_t last_update_ms; void reset(); enum class Command : uint8_t { RESET = 0x1E, READ_CONVERSION = 0x00, // prom reading commands: READ_C0 = 0xa0, READ_C1 = 0xa2, READ_C2 = 0xa4, READ_C3 = 0xa6, READ_C4 = 0xa8, READ_C5 = 0xaa, READ_C6 = 0xac, READ_CRC = 0xae, // conversion start commands: CONVERT_D2_OSR_1024 = 0x54, CONVERT_D1_OSR_1024 = 0x44, }; enum class State : uint8_t { COLD = 5, COLD_WAIT = 6, UNINITIALISED = 7, RUNNING = 17, RESET_START = 27, RESET_WAIT = 28, CONVERSION_D1_START = 37, CONVERSION_D1_WAIT = 38, CONVERSION_D2_START = 47, CONVERSION_D2_WAIT = 48, }; State state = State::COLD; uint32_t command_start_us; uint8_t convert_out[3]; bool prom_loaded = false; uint16_t loaded_prom[128/16]; virtual void load_prom(uint16_t *loaded_prom, uint8_t len) const = 0; uint16_t conversion_time_osr_1024_us = 2280; virtual void convert(float P_Pa, float Temp_C, uint32_t &D1, uint32_t &D2) =0; virtual void convert_forward(int32_t D1, int32_t D2, float &P_Pa, float &Temp_C) = 0; virtual void get_pressure_temperature_readings(float &P_Pa, float &Temp_C) = 0; void convert_D1(); void convert_D2(); }; } // namespace SITL