#ifndef AP_ADC_HIL_H #define AP_ADC_HIL_H /* * AP_ADC_HIL.h * Author: James Goppert * * License: * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. */ #include #include "AP_ADC.h" /// // A hardware in the loop model of the ADS7844 analog to digital converter // @author James Goppert DIYDrones.com class AP_ADC_HIL : public AP_ADC { public: /// // Constructor AP_ADC_HIL(); // Constructor /// // Initializes sensor, part of public AP_ADC interface void Init(); /// // Read the sensor, part of public AP_ADC interface float Ch(unsigned char ch_num); /// // Read 6 sensors at once uint32_t Ch6(const uint8_t *channel_numbers, float *result); // see if Ch6 would block bool new_data_available(const uint8_t *channel_numbers); // Get minimum number of samples read from the sensors uint16_t num_samples_available(const uint8_t *channel_numbers); private: /// // The raw adc array uint16_t adcValue[8]; // the time in microseconds when Ch6 was last requested uint32_t _last_ch6_time; /// // sensor constants // constants declared in cpp file // @see AP_ADC_HIL.cpp static const uint8_t sensors[6]; static const float gyroBias[3]; static const float gyroScale[3]; static const float accelBias[3]; static const float accelScale[3]; static const int8_t sensorSign[6]; /// // gyro set function // @param val the value of the gyro in milli rad/s // @param index the axis for the gyro(0-x,1-y,2-z) inline void setGyro(uint8_t index, int16_t val) { int16_t temp = val * gyroScale[index] / 1000 + gyroBias[index]; adcValue[sensors[index]] = (sensorSign[index] < 0) ? -temp : temp; } /// // accel set function // @param val the value of the accel in milli g's // @param index the axis for the accelerometer(0-x,1-y,2-z) inline void setAccel(uint8_t index, int16_t val) { int16_t temp = val * accelScale[index] / 1000 + accelBias[index]; adcValue[sensors[index+3]] = (sensorSign[index+3] < 0) ? -temp : temp; } /// // Sets the differential pressure adc channel // TODO: implement void setPressure(int16_t val) { } /// // Sets the gyro temp adc channel // TODO: implement void setGyroTemp(int16_t val) { } // read function that pretends to capture new data static void read(uint32_t tnow) { _count++; } static uint16_t _count; // number of samples captured }; #endif