mirror of https://github.com/ArduPilot/ardupilot
504 lines
14 KiB
C++
504 lines
14 KiB
C++
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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originally written by Jose Julio, Pat Hickey and Jordi Muñoz
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Heavily modified by Andrew Tridgell
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*/
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#include <AP_HAL/AP_HAL.h>
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#include "AP_Baro.h"
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extern const AP_HAL::HAL& hal;
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#define CMD_MS5611_RESET 0x1E
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#define CMD_MS5611_PROM_Setup 0xA0
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#define CMD_MS5611_PROM_C1 0xA2
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#define CMD_MS5611_PROM_C2 0xA4
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#define CMD_MS5611_PROM_C3 0xA6
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#define CMD_MS5611_PROM_C4 0xA8
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#define CMD_MS5611_PROM_C5 0xAA
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#define CMD_MS5611_PROM_C6 0xAC
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#define CMD_MS5611_PROM_CRC 0xAE
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#define CMD_CONVERT_D1_OSR4096 0x48 // Maximum resolution (oversampling)
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#define CMD_CONVERT_D2_OSR4096 0x58 // Maximum resolution (oversampling)
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// SPI Device //////////////////////////////////////////////////////////////////
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AP_SerialBus_SPI::AP_SerialBus_SPI(enum AP_HAL::SPIDevice device, enum AP_HAL::SPIDeviceDriver::bus_speed speed) :
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_device(device),
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_speed(speed),
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_spi(NULL),
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_spi_sem(NULL)
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{
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}
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void AP_SerialBus_SPI::init()
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{
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_spi = hal.spi->device(_device);
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if (_spi == NULL) {
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hal.scheduler->panic(PSTR("did not get valid SPI device driver!"));
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}
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_spi_sem = _spi->get_semaphore();
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if (_spi_sem == NULL) {
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hal.scheduler->panic(PSTR("AP_SerialBus_SPI did not get valid SPI semaphroe!"));
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}
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_spi->set_bus_speed(_speed);
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}
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uint16_t AP_SerialBus_SPI::read_16bits(uint8_t reg)
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{
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uint8_t tx[3] = { reg, 0, 0 };
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uint8_t rx[3];
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_spi->transaction(tx, rx, 3);
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return ((uint16_t) rx[1] << 8 ) | ( rx[2] );
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}
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uint32_t AP_SerialBus_SPI::read_24bits(uint8_t reg)
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{
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uint8_t tx[4] = { reg, 0, 0, 0 };
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uint8_t rx[4];
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_spi->transaction(tx, rx, 4);
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return (((uint32_t)rx[1])<<16) | (((uint32_t)rx[2])<<8) | ((uint32_t)rx[3]);
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}
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bool AP_SerialBus_SPI::write(uint8_t reg)
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{
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uint8_t tx[1] = { reg };
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_spi->transaction(tx, NULL, 1);
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return true;
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}
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bool AP_SerialBus_SPI::sem_take_blocking()
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{
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return _spi_sem->take(10);
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}
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bool AP_SerialBus_SPI::sem_take_nonblocking()
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{
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return _spi_sem->take_nonblocking();
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}
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void AP_SerialBus_SPI::sem_give()
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{
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_spi_sem->give();
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}
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/// I2C SerialBus
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AP_SerialBus_I2C::AP_SerialBus_I2C(AP_HAL::I2CDriver *i2c, uint8_t addr) :
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_i2c(i2c),
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_addr(addr),
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_i2c_sem(NULL)
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{
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}
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void AP_SerialBus_I2C::init()
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{
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_i2c_sem = _i2c->get_semaphore();
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if (_i2c_sem == NULL) {
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hal.scheduler->panic(PSTR("AP_SerialBus_I2C did not get valid I2C semaphore!"));
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}
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}
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uint16_t AP_SerialBus_I2C::read_16bits(uint8_t reg)
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{
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uint8_t buf[2];
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if (_i2c->readRegisters(_addr, reg, sizeof(buf), buf) == 0) {
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return (((uint16_t)(buf[0]) << 8) | buf[1]);
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}
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return 0;
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}
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uint32_t AP_SerialBus_I2C::read_24bits(uint8_t reg)
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{
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uint8_t buf[3];
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if (_i2c->readRegisters(_addr, reg, sizeof(buf), buf) == 0) {
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return (((uint32_t)buf[0]) << 16) | (((uint32_t)buf[1]) << 8) | buf[2];
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}
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return 0;
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}
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bool AP_SerialBus_I2C::write(uint8_t reg)
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{
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return _i2c->write(_addr, 1, ®) == 0;
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}
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bool AP_SerialBus_I2C::sem_take_blocking()
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{
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return _i2c_sem->take(10);
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}
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bool AP_SerialBus_I2C::sem_take_nonblocking()
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{
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return _i2c_sem->take_nonblocking();
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}
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void AP_SerialBus_I2C::sem_give()
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{
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_i2c_sem->give();
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}
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/*
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constructor
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*/
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AP_Baro_MS56XX::AP_Baro_MS56XX(AP_Baro &baro, AP_SerialBus *serial, bool use_timer) :
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AP_Baro_Backend(baro),
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_serial(serial),
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_updated(false),
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_state(0),
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_last_timer(0),
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_use_timer(use_timer),
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_D1(0.0f),
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_D2(0.0f)
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{
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_instance = _frontend.register_sensor();
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_serial->init();
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// we need to suspend timers to prevent other SPI drivers grabbing
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// the bus while we do the long initialisation
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hal.scheduler->suspend_timer_procs();
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if (!_serial->sem_take_blocking()){
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hal.scheduler->panic(PSTR("PANIC: AP_Baro_MS56XX: failed to take serial semaphore for init"));
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}
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_serial->write(CMD_MS5611_RESET);
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hal.scheduler->delay(4);
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// We read the factory calibration
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// The on-chip CRC is not used
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_C1 = _serial->read_16bits(CMD_MS5611_PROM_C1);
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_C2 = _serial->read_16bits(CMD_MS5611_PROM_C2);
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_C3 = _serial->read_16bits(CMD_MS5611_PROM_C3);
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_C4 = _serial->read_16bits(CMD_MS5611_PROM_C4);
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_C5 = _serial->read_16bits(CMD_MS5611_PROM_C5);
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_C6 = _serial->read_16bits(CMD_MS5611_PROM_C6);
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if (!_check_crc()) {
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hal.scheduler->panic(PSTR("Bad CRC on MS5611"));
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}
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// Send a command to read Temp first
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_serial->write(CMD_CONVERT_D2_OSR4096);
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_last_timer = hal.scheduler->micros();
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_state = 0;
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_s_D1 = 0;
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_s_D2 = 0;
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_d1_count = 0;
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_d2_count = 0;
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_serial->sem_give();
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hal.scheduler->resume_timer_procs();
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if (_use_timer) {
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hal.scheduler->register_timer_process(FUNCTOR_BIND_MEMBER(&AP_Baro_MS56XX::_timer, void));
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}
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}
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/**
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* MS5611 crc4 method based on PX4Firmware code
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*/
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bool AP_Baro_MS56XX::_check_crc(void)
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{
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int16_t cnt;
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uint16_t n_rem;
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uint16_t crc_read;
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uint8_t n_bit;
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uint16_t n_prom[8] = { _serial->read_16bits(CMD_MS5611_PROM_Setup),
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_C1, _C2, _C3, _C4, _C5, _C6,
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_serial->read_16bits(CMD_MS5611_PROM_CRC) };
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n_rem = 0x00;
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/* save the read crc */
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crc_read = n_prom[7];
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/* remove CRC byte */
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n_prom[7] = (0xFF00 & (n_prom[7]));
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for (cnt = 0; cnt < 16; cnt++) {
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/* uneven bytes */
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if (cnt & 1) {
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n_rem ^= (uint8_t)((n_prom[cnt >> 1]) & 0x00FF);
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} else {
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n_rem ^= (uint8_t)(n_prom[cnt >> 1] >> 8);
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}
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for (n_bit = 8; n_bit > 0; n_bit--) {
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if (n_rem & 0x8000) {
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n_rem = (n_rem << 1) ^ 0x3000;
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} else {
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n_rem = (n_rem << 1);
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}
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}
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}
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/* final 4 bit remainder is CRC value */
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n_rem = (0x000F & (n_rem >> 12));
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n_prom[7] = crc_read;
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/* return true if CRCs match */
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return (0x000F & crc_read) == (n_rem ^ 0x00);
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}
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/*
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Read the sensor. This is a state machine
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We read one time Temperature (state=1) and then 4 times Pressure (states 2-5)
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temperature does not change so quickly...
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*/
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void AP_Baro_MS56XX::_timer(void)
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{
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// Throttle read rate to 100hz maximum.
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if (hal.scheduler->micros() - _last_timer < 10000) {
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return;
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}
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if (!_serial->sem_take_nonblocking()) {
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return;
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}
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if (_state == 0) {
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// On state 0 we read temp
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uint32_t d2 = _serial->read_24bits(0);
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if (d2 != 0) {
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_s_D2 += d2;
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_d2_count++;
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if (_d2_count == 32) {
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// we have summed 32 values. This only happens
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// when we stop reading the barometer for a long time
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// (more than 1.2 seconds)
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_s_D2 >>= 1;
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_d2_count = 16;
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}
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if (_serial->write(CMD_CONVERT_D1_OSR4096)) { // Command to read pressure
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_state++;
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}
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} else {
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/* if read fails, re-initiate a temperature read command or we are
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* stuck */
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_serial->write(CMD_CONVERT_D2_OSR4096);
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}
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} else {
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uint32_t d1 = _serial->read_24bits(0);;
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if (d1 != 0) {
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// occasional zero values have been seen on the PXF
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// board. These may be SPI errors, but safest to ignore
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_s_D1 += d1;
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_d1_count++;
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if (_d1_count == 128) {
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// we have summed 128 values. This only happens
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// when we stop reading the barometer for a long time
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// (more than 1.2 seconds)
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_s_D1 >>= 1;
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_d1_count = 64;
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}
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// Now a new reading exists
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_updated = true;
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if (_state == 4) {
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if (_serial->write(CMD_CONVERT_D2_OSR4096)) { // Command to read temperature
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_state = 0;
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}
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} else {
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if (_serial->write(CMD_CONVERT_D1_OSR4096)) { // Command to read pressure
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_state++;
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}
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}
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} else {
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/* if read fails, re-initiate a pressure read command or we are
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* stuck */
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_serial->write(CMD_CONVERT_D1_OSR4096);
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}
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}
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_last_timer = hal.scheduler->micros();
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_serial->sem_give();
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}
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void AP_Baro_MS56XX::update()
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{
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if (!_use_timer) {
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// if we're not using the timer then accumulate one more time
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// to cope with the calibration loop and minimise lag
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accumulate();
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}
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if (!_updated) {
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return;
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}
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uint32_t sD1, sD2;
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uint8_t d1count, d2count;
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// Suspend timer procs because these variables are written to
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// in "_update".
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hal.scheduler->suspend_timer_procs();
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sD1 = _s_D1; _s_D1 = 0;
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sD2 = _s_D2; _s_D2 = 0;
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d1count = _d1_count; _d1_count = 0;
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d2count = _d2_count; _d2_count = 0;
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_updated = false;
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hal.scheduler->resume_timer_procs();
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if (d1count != 0) {
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_D1 = ((float)sD1) / d1count;
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}
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if (d2count != 0) {
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_D2 = ((float)sD2) / d2count;
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}
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_calculate();
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}
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/* MS5611 class */
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AP_Baro_MS5611::AP_Baro_MS5611(AP_Baro &baro, AP_SerialBus *serial, bool use_timer)
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:AP_Baro_MS56XX(baro, serial, use_timer)
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{}
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// Calculate Temperature and compensated Pressure in real units (Celsius degrees*100, mbar*100).
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void AP_Baro_MS5611::_calculate()
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{
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float dT;
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float TEMP;
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float OFF;
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float SENS;
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// Formulas from manufacturer datasheet
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// sub -15c temperature compensation is not included
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// we do the calculations using floating point
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// as this is much faster on an AVR2560, and also allows
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// us to take advantage of the averaging of D1 and D1 over
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// multiple samples, giving us more precision
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dT = _D2-(((uint32_t)_C5)<<8);
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TEMP = (dT * _C6)/8388608;
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OFF = _C2 * 65536.0f + (_C4 * dT) / 128;
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SENS = _C1 * 32768.0f + (_C3 * dT) / 256;
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if (TEMP < 0) {
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// second order temperature compensation when under 20 degrees C
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float T2 = (dT*dT) / 0x80000000;
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float Aux = TEMP*TEMP;
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float OFF2 = 2.5f*Aux;
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float SENS2 = 1.25f*Aux;
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TEMP = TEMP - T2;
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OFF = OFF - OFF2;
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SENS = SENS - SENS2;
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}
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float pressure = (_D1*SENS/2097152 - OFF)/32768;
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float temperature = (TEMP + 2000) * 0.01f;
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_copy_to_frontend(_instance, pressure, temperature);
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}
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/* MS5607 Class */
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AP_Baro_MS5607::AP_Baro_MS5607(AP_Baro &baro, AP_SerialBus *serial, bool use_timer)
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:AP_Baro_MS56XX(baro, serial, use_timer)
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{}
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// Calculate Temperature and compensated Pressure in real units (Celsius degrees*100, mbar*100).
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void AP_Baro_MS5607::_calculate()
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{
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float dT;
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float TEMP;
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float OFF;
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float SENS;
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// Formulas from manufacturer datasheet
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// sub -15c temperature compensation is not included
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// we do the calculations using floating point
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// as this is much faster on an AVR2560, and also allows
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// us to take advantage of the averaging of D1 and D1 over
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// multiple samples, giving us more precision
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dT = _D2-(((uint32_t)_C5)<<8);
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TEMP = (dT * _C6)/8388608;
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OFF = _C2 * 131072.0f + (_C4 * dT) / 64;
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SENS = _C1 * 65536.0f + (_C3 * dT) / 128;
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if (TEMP < 0) {
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// second order temperature compensation when under 20 degrees C
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float T2 = (dT*dT) / 0x80000000;
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float Aux = TEMP*TEMP;
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float OFF2 = 61.0f*Aux/16.0f;
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float SENS2 = 2.0f*Aux;
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TEMP = TEMP - T2;
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OFF = OFF - OFF2;
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SENS = SENS - SENS2;
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}
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float pressure = (_D1*SENS/2097152 - OFF)/32768;
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float temperature = (TEMP + 2000) * 0.01f;
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_copy_to_frontend(_instance, pressure, temperature);
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}
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/* MS563 Class */
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AP_Baro_MS5637::AP_Baro_MS5637(AP_Baro &baro, AP_SerialBus *serial, bool use_timer)
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: AP_Baro_MS56XX(baro, serial, use_timer)
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{
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}
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// Calculate Temperature and compensated Pressure in real units (Celsius degrees*100, mbar*100).
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void AP_Baro_MS5637::_calculate()
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{
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int32_t dT, TEMP;
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int64_t OFF, SENS;
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int32_t raw_pressure = _D1;
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int32_t raw_temperature = _D2;
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// Formulas from manufacturer datasheet
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// sub -15c temperature compensation is not included
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dT = raw_temperature - (((uint32_t)_C5) << 8);
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TEMP = 2000 + ((int64_t)dT * (int64_t)_C6) / 8388608;
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OFF = (int64_t)_C2 * (int64_t)131072 + ((int64_t)_C4 * (int64_t)dT) / (int64_t)64;
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SENS = (int64_t)_C1 * (int64_t)65536 + ((int64_t)_C3 * (int64_t)dT) / (int64_t)128;
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if (TEMP < 2000) {
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// second order temperature compensation when under 20 degrees C
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int32_t T2 = ((int64_t)3 * ((int64_t)dT * (int64_t)dT) / (int64_t)8589934592);
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int64_t aux = (TEMP - 2000) * (TEMP - 2000);
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int64_t OFF2 = 61 * aux / 16;
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int64_t SENS2 = 29 * aux / 16;
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TEMP = TEMP - T2;
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OFF = OFF - OFF2;
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SENS = SENS - SENS2;
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}
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int32_t pressure = ((int64_t)raw_pressure * SENS / (int64_t)2097152 - OFF) / (int64_t)32768;
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float temperature = TEMP * 0.01f;
|
|
_copy_to_frontend(_instance, (float)pressure, temperature);
|
|
}
|
|
|
|
/*
|
|
Read the sensor from main code. This is only used for I2C MS5611 to
|
|
avoid conflicts on the semaphore from calling it in a timer, which
|
|
conflicts with the compass driver use of I2C
|
|
*/
|
|
void AP_Baro_MS56XX::accumulate(void)
|
|
{
|
|
if (!_use_timer) {
|
|
// the timer isn't being called as a timer, so we need to call
|
|
// it in accumulate()
|
|
_timer();
|
|
}
|
|
}
|