2011-12-28 05:32:21 -04:00
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/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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2011-11-27 01:43:34 -04:00
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/*
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APM_MS5611.cpp - Arduino Library for MS5611-01BA01 absolute pressure sensor
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Code by Jose Julio, Pat Hickey and Jordi Muñoz. DIYDrones.com
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2011-11-05 22:11:25 -03:00
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2011-11-27 01:43:34 -04:00
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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Sensor is conected to standard SPI port
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Chip Select pin: Analog2 (provisional until Jordi defines the pin)!!
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Variables:
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Temp : Calculated temperature (in Celsius degrees * 100)
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Press : Calculated pressure (in mbar units * 100)
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2011-11-05 22:11:25 -03:00
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2011-11-27 01:43:34 -04:00
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Methods:
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init() : Initialization and sensor reset
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2011-12-09 02:35:40 -04:00
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read() : Read sensor data and _calculate Temperature, Pressure and Altitude
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2011-11-27 01:43:34 -04:00
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This function is optimized so the main host don´t need to wait
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You can call this function in your main loop
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2012-02-12 20:00:06 -04:00
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Maximum data output frequency 100Hz - this allows maximum oversampling in the chip ADC
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2011-11-27 01:43:34 -04:00
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It returns a 1 if there are new data.
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get_pressure() : return pressure in mbar*100 units
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get_temperature() : return temperature in celsius degrees*100 units
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2011-11-05 22:11:25 -03:00
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2011-11-27 01:43:34 -04:00
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Internal functions:
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_calculate() : Calculate Temperature and Pressure (temperature compensated) in real units
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2011-11-05 22:11:25 -03:00
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2011-11-27 01:43:34 -04:00
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*/
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2012-07-02 00:44:02 -03:00
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#include <FastSerial.h>
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#include <SPI.h>
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#include "AP_Baro_MS5611.h"
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2011-11-27 01:49:17 -04:00
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2011-11-30 00:32:42 -04:00
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/* on APM v.24 MS5661_CS is PG1 (Arduino pin 40) */
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#define MS5611_CS 40
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2011-11-27 01:49:17 -04:00
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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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uint32_t volatile AP_Baro_MS5611::_s_D1;
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uint32_t volatile AP_Baro_MS5611::_s_D2;
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uint8_t volatile AP_Baro_MS5611::_d1_count;
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uint8_t volatile AP_Baro_MS5611::_d2_count;
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uint8_t AP_Baro_MS5611::_state;
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uint32_t AP_Baro_MS5611::_timer;
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bool AP_Baro_MS5611::_sync_access;
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bool volatile AP_Baro_MS5611::_updated;
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2011-12-09 02:35:40 -04:00
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uint8_t AP_Baro_MS5611::_spi_read(uint8_t reg)
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{
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uint8_t return_value;
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uint8_t addr = reg; // | 0x80; // Set most significant bit
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digitalWrite(MS5611_CS, LOW);
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SPI.transfer(addr); // discarded
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return_value = SPI.transfer(0);
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digitalWrite(MS5611_CS, HIGH);
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return return_value;
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2011-11-05 22:11:25 -03:00
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}
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2011-12-09 02:35:40 -04:00
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uint16_t AP_Baro_MS5611::_spi_read_16bits(uint8_t reg)
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{
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uint8_t byteH, byteL;
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uint16_t return_value;
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uint8_t addr = reg; // | 0x80; // Set most significant bit
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digitalWrite(MS5611_CS, LOW);
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SPI.transfer(addr); // discarded
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byteH = SPI.transfer(0);
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byteL = SPI.transfer(0);
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digitalWrite(MS5611_CS, HIGH);
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return_value = ((uint16_t)byteH<<8) | (byteL);
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return return_value;
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}
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2011-11-05 22:11:25 -03:00
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2011-12-09 02:35:40 -04:00
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uint32_t AP_Baro_MS5611::_spi_read_adc()
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{
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uint8_t byteH,byteM,byteL;
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uint32_t return_value;
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uint8_t addr = 0x00;
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digitalWrite(MS5611_CS, LOW);
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SPI.transfer(addr); // discarded
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byteH = SPI.transfer(0);
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byteM = SPI.transfer(0);
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byteL = SPI.transfer(0);
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digitalWrite(MS5611_CS, HIGH);
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return_value = (((uint32_t)byteH)<<16) | (((uint32_t)byteM)<<8) | (byteL);
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return return_value;
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}
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void AP_Baro_MS5611::_spi_write(uint8_t reg)
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{
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digitalWrite(MS5611_CS, LOW);
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SPI.transfer(reg); // discarded
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digitalWrite(MS5611_CS, HIGH);
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}
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2011-11-27 01:43:34 -04:00
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// Public Methods //////////////////////////////////////////////////////////////
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// SPI should be initialized externally
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bool AP_Baro_MS5611::init( AP_PeriodicProcess *scheduler )
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{
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scheduler->suspend_timer();
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2011-11-27 01:43:34 -04:00
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pinMode(MS5611_CS, OUTPUT); // Chip select Pin
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digitalWrite(MS5611_CS, HIGH);
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delay(1);
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2011-12-09 02:35:40 -04:00
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_spi_write(CMD_MS5611_RESET);
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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 = _spi_read_16bits(CMD_MS5611_PROM_C1);
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C2 = _spi_read_16bits(CMD_MS5611_PROM_C2);
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C3 = _spi_read_16bits(CMD_MS5611_PROM_C3);
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C4 = _spi_read_16bits(CMD_MS5611_PROM_C4);
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C5 = _spi_read_16bits(CMD_MS5611_PROM_C5);
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C6 = _spi_read_16bits(CMD_MS5611_PROM_C6);
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2011-12-28 05:32:21 -04:00
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//Send a command to read Temp first
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_spi_write(CMD_CONVERT_D2_OSR4096);
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2011-12-21 08:22:37 -04:00
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_timer = micros();
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_state = 0;
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Temp=0;
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Press=0;
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2012-02-14 12:55:32 -04:00
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2012-07-02 00:44:02 -03:00
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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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2012-04-30 03:11:55 -03:00
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scheduler->resume_timer();
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2011-12-28 05:32:21 -04:00
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scheduler->register_process( AP_Baro_MS5611::_update );
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2012-07-02 00:44:02 -03:00
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// wait for at least one value to be read
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while (!_updated) ;
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2011-12-28 05:32:21 -04:00
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healthy = true;
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return true;
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}
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2011-11-27 01:43:34 -04:00
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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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2011-12-21 08:22:37 -04:00
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void AP_Baro_MS5611::_update(uint32_t tnow)
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{
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if (_sync_access) return;
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2012-02-12 20:00:06 -04:00
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// Throttle read rate to 100hz maximum.
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// note we use 9500us here not 10000us
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// the read rate will end up at exactly 100hz because the Periodic Timer fires at 1khz
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if (tnow - _timer < 9500) {
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return;
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}
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_timer = tnow;
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2012-07-02 00:44:02 -03:00
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if (_state == 0) {
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_s_D2 += _spi_read_adc(); // On state 0 we read temp
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_d2_count++;
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if (_d2_count == 32) {
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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_D2 >>= 1;
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_d2_count = 16;
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}
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_state++;
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_spi_write(CMD_CONVERT_D1_OSR4096); // Command to read pressure
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} else {
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_s_D1 += _spi_read_adc();
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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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_state++;
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_updated = true; // New pressure reading
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if (_state == 5) {
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_spi_write(CMD_CONVERT_D2_OSR4096); // Command to read temperature
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_state = 0;
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} else {
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_spi_write(CMD_CONVERT_D1_OSR4096); // Command to read pressure
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}
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2011-12-21 08:22:37 -04:00
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}
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2011-12-09 02:35:40 -04:00
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}
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uint8_t AP_Baro_MS5611::read()
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{
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_sync_access = true;
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bool updated = _updated;
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if (updated) {
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uint32_t sD1, sD2;
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uint8_t d1count, d2count;
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// we need to disable interrupts to access
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// _s_D1 and _s_D2 as they are not atomic
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cli();
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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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sei();
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if (d1count != 0) {
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D1 = sD1 / d1count;
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}
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if (d2count != 0) {
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D2 = sD2 / d2count;
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}
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2011-12-09 02:35:40 -04:00
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_raw_press = D1;
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_raw_temp = D2;
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}
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_sync_access = false;
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_calculate();
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if (updated) {
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_last_update = millis();
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}
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2011-12-09 02:35:40 -04:00
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return updated ? 1 : 0;
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2011-11-05 22:11:25 -03:00
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}
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2011-11-27 01:43:34 -04:00
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// Calculate Temperature and compensated Pressure in real units (Celsius degrees*100, mbar*100).
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2011-12-09 02:35:40 -04:00
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void AP_Baro_MS5611::_calculate()
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2011-11-05 22:11:25 -03:00
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{
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2011-11-27 01:43:34 -04:00
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int32_t dT;
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2012-02-13 06:39:18 -04:00
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int64_t TEMP; // 64 bits
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int64_t OFF;
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int64_t SENS;
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int64_t P;
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2011-11-27 01:43:34 -04:00
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// Formulas from manufacturer datasheet
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2012-02-12 20:00:06 -04:00
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// as per data sheet some intermediate results require over 32 bits, therefore
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// we define parameters as 64 bits to prevent overflow on operations
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// sub -20c temperature compensation is not included
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2012-07-02 00:44:02 -03:00
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// Serial.printf("D1=%lu D2=%lu\n", (unsigned long)D1, (unsigned long)D2);
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dT = D2-((int32_t)C5*256);
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2012-02-13 06:39:18 -04:00
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TEMP = 2000 + ((int64_t)dT * C6)/8388608;
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2012-02-14 12:55:32 -04:00
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OFF = (int64_t)C2 * 65536 + ((int64_t)C4 * dT ) / 128;
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2012-02-13 06:39:18 -04:00
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SENS = (int64_t)C1 * 32768 + ((int64_t)C3 * dT) / 256;
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2011-11-27 01:43:34 -04:00
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if (TEMP < 2000){ // second order temperature compensation
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2012-02-17 05:46:05 -04:00
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int64_t T2 = (((int64_t)dT)*dT) >> 31;
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2012-02-13 06:39:18 -04:00
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int64_t Aux_64 = (TEMP-2000)*(TEMP-2000);
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2012-02-17 05:46:05 -04:00
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int64_t OFF2 = (5*Aux_64)>>1;
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int64_t SENS2 = (5*Aux_64)>>2;
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2011-11-27 01:43:34 -04:00
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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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2012-02-14 12:55:32 -04:00
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2011-11-27 01:43:34 -04:00
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P = (D1*SENS/2097152 - OFF)/32768;
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Temp = TEMP;
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Press = P;
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2011-11-05 22:11:25 -03:00
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}
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2011-11-30 00:32:23 -04:00
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int32_t AP_Baro_MS5611::get_pressure()
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2011-11-05 22:11:25 -03:00
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{
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2011-11-27 01:43:34 -04:00
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return(Press);
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}
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2011-11-05 22:11:25 -03:00
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2011-11-30 00:32:23 -04:00
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int16_t AP_Baro_MS5611::get_temperature()
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2011-11-27 01:43:34 -04:00
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{
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2011-12-16 23:57:54 -04:00
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// callers want the temperature in 0.1C units
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return(Temp/10);
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2011-11-05 22:11:25 -03:00
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}
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2011-11-30 00:32:23 -04:00
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int32_t AP_Baro_MS5611::get_raw_pressure() {
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return _raw_press;
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}
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int32_t AP_Baro_MS5611::get_raw_temp() {
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return _raw_temp;
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}
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