/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- /* * APM_Baro.cpp - barometer driver * * 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 #include // table of user settable parameters const AP_Param::GroupInfo AP_Baro::var_info[] PROGMEM = { // NOTE: Index numbers 0 and 1 were for the old integer // ground temperature and pressure // @Param: ABS_PRESS // @DisplayName: Absolute Pressure // @Description: calibrated ground pressure // @Increment: 1 AP_GROUPINFO("ABS_PRESS", 2, AP_Baro, _ground_pressure, 0), // @Param: ABS_PRESS // @DisplayName: ground temperature // @Description: calibrated ground temperature // @Increment: 1 AP_GROUPINFO("TEMP", 3, AP_Baro, _ground_temperature, 0), AP_GROUPEND }; // calibrate the barometer. This must be called at least once before // the altitude() or climb_rate() interfaces can be used void AP_Baro::calibrate(void (*callback)(unsigned long t)) { float ground_pressure = 0; float ground_temperature = 0; while (ground_pressure == 0 || !healthy) { read(); // Get initial data from absolute pressure sensor ground_pressure = get_pressure(); ground_temperature = get_temperature(); callback(20); } // let the barometer settle for a full second after startup // the MS5611 reads quite a long way off for the first second, // leading to about 1m of error if we don't wait for (uint16_t i = 0; i < 10; i++) { do { read(); } while (!healthy); ground_pressure = get_pressure(); ground_temperature = get_temperature(); callback(100); } // now average over 5 values for the ground pressure and // temperature settings for (uint16_t i = 0; i < 5; i++) { do { read(); } while (!healthy); ground_pressure = ground_pressure * 0.8 + get_pressure() * 0.2; ground_temperature = ground_temperature * 0.8 + get_temperature() * 0.2; callback(100); } _ground_pressure.set_and_save(ground_pressure); _ground_temperature.set_and_save(ground_temperature / 10.0f); } // return current altitude estimate relative to time that calibrate() // was called. Returns altitude in meters // note that this relies on read() being called regularly to get new data float AP_Baro::get_altitude(void) { float scaling, temp; if (_last_altitude_t == _last_update) { // no new information return _altitude; } // this has no filtering of the pressure values, use a separate // filter if you want a smoothed value. The AHRS driver wants // unsmoothed values scaling = (float)_ground_pressure / (float)get_pressure(); temp = ((float)_ground_temperature) + 273.15f; _altitude = log(scaling) * temp * 29.271267f; _last_altitude_t = _last_update; // ensure the climb rate filter is updated _climb_rate_filter.update(_altitude, _last_update); return _altitude; } // return current climb_rate estimeate relative to time that calibrate() // was called. Returns climb rate in meters/s, positive means up // note that this relies on read() being called regularly to get new data float AP_Baro::get_climb_rate(void) { // we use a 7 point derivative filter on the climb rate. This seems // to produce somewhat reasonable results on real hardware return _climb_rate_filter.slope() * 1.0e3; }