mirror of
https://github.com/RobTillaart/Arduino.git
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221 lines
4.9 KiB
C++
221 lines
4.9 KiB
C++
//
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// FILE: MAX31855.cpp
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// AUTHOR: Rob Tillaart
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// VERSION: 0.4.2
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// PURPOSE: Arduino library for MAX31855 chip for K type thermocouple
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// DATE: 2014-01-01
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// URL: https://github.com/RobTillaart/MAX31855_RT
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//
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// HISTORY: see changelog.md
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#include "MAX31855.h"
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MAX31855::MAX31855()
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{
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}
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void MAX31855::begin(const uint8_t select)
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{
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begin(255, select, 255);
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}
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void MAX31855::begin(const uint8_t clock, const uint8_t select, const uint8_t miso)
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{
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_clock = clock;
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_miso = miso;
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_select = select;
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_hwSPI = (_clock == 255);
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_lastTimeRead = 0;
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_offset = 0;
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_SeebeckC = K_TC;
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_status = STATUS_NOREAD;
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_temperature = MAX31855_NO_TEMPERATURE;
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_internal = MAX31855_NO_TEMPERATURE;
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_rawData = 0;
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setSPIspeed(1000000);
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pinMode(_select, OUTPUT);
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digitalWrite(_select, HIGH);
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if (_hwSPI)
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{
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#if defined(ESP32)
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if (_useHSPI) // HSPI
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{
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mySPI = new SPIClass(HSPI);
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mySPI->end();
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mySPI->begin(14, 12, 13, _select); // CLK=14 MISO=12 MOSI=13
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}
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else // VSPI
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{
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mySPI = new SPIClass(VSPI);
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mySPI->end();
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mySPI->begin(18, 19, 23, _select); // CLK=18 MISO=19 MOSI=23
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}
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#else // generic hardware SPI
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mySPI = &SPI;
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mySPI->end();
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mySPI->begin();
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#endif
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delay(1);
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}
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else
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{
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pinMode(_clock, OUTPUT);
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digitalWrite(_clock, LOW);
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pinMode(_miso, INPUT);
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}
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}
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void MAX31855::setSPIspeed(uint32_t speed)
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{
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_SPIspeed = speed;
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_spi_settings = SPISettings(_SPIspeed, MSBFIRST, SPI_MODE0);
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};
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#if defined(ESP32)
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void MAX31855::setGPIOpins(uint8_t clock, uint8_t miso, uint8_t mosi, uint8_t select)
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{
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_clock = clock;
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_miso = miso;
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_select = select;
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pinMode(_select, OUTPUT);
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digitalWrite(_select, HIGH);
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// disable SPI and enable again
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mySPI->end();
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mySPI->begin(clock, miso, mosi, select);
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}
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#endif
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uint8_t MAX31855::read()
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{
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// return value of _read()
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// BITS DESCRIPTION
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// -------------------------------
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// 00 - 02 STATUS
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// 03 RESERVED
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// 04 - 15 INTERNAL
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// 16 FAULT-BIT
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// 17 RESERVED
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// 18 - 30 TEMPERATURE (RAW)
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// 31 SIGN
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uint32_t value = _read();
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if (value == 0xFFFFFFFF) // needs a pull up on MISO pin to work properly!
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{
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// bit 3 and bit 17 should always be 0 - P10 datasheet
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_status = STATUS_NO_COMMUNICATION;
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return _status;
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}
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_lastTimeRead = millis();
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// process status bit 0-2
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_status = value & 0x0007;
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// if (_status != STATUS_OK) // removed in 0.4.0 as internal can be valid.
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// {
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// return _status;
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// }
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value >>= 3;
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// reserved bit 3, always 0
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value >>= 1;
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// process internal bit 4-15
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_internal = (value & 0x07FF) * 0.0625;
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// negative flag set ?
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if (value & 0x0800)
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{
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_internal = -128 + _internal;
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}
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value >>= 12;
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// Fault bit ignored as we have the 3 status bits
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// _fault = value & 0x01;
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value >>= 1;
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// reserved bit 17, always 0
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value >>= 1;
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// process temperature bit 18-30 + sign bit = 31
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_temperature = (value & 0x1FFF) * 0.25;
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// negative flag set ?
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if (value & 0x2000)
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{
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_temperature = -2048 + _temperature;
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}
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return _status;
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}
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uint32_t MAX31855::_read(void)
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{
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_rawData = 0;
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// DATA TRANSFER
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if (_hwSPI)
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{
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mySPI->beginTransaction(_spi_settings);
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digitalWrite(_select, LOW); // must be after mySPI->beginTransaction() - see #14 STM32
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for (uint8_t i = 0; i < 4; i++)
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{
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_rawData <<= 8;
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_rawData += mySPI->transfer(0);
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}
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digitalWrite(_select, HIGH);
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mySPI->endTransaction();
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}
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else // Software SPI
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{
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// split _swSPIdelay in equal dLow and dHigh
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// dLow should be longer one when _swSPIdelay = odd.
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uint16_t dHigh = _swSPIdelay/2;
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uint16_t dLow = _swSPIdelay - dHigh;
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digitalWrite(_select, LOW);
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for (int8_t i = 31; i >= 0; i--)
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{
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_rawData <<= 1;
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digitalWrite(_clock, LOW);
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if (dLow > 0) delayMicroseconds(dLow); // DUE might need 1 us
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if ( digitalRead(_miso) ) _rawData++;
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digitalWrite(_clock, HIGH);
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if (dHigh > 0) delayMicroseconds(dHigh); // DUE
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}
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digitalWrite(_select, HIGH);
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}
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return _rawData;
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}
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float MAX31855::getTemperature()
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{
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// offset needs to be added after multiplication TCfactor
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// not before otherwise offset will be larger / smaller
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// default behaviour
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if (_SeebeckC == K_TC) return _temperature + _offset;
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// EXPERIMENTAL OTHER THERMOCOUPLES
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// to be tested
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// in practice this works also for K_TC but is way slower..
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// 1: reverse calculate the Voltage measured (is this correct?)
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float Vout = K_TC * (_temperature - _internal); // PAGE 8 datasheet
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// 2: from Voltage to corrected temperature using the Seebeck Coefficient
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float _temp = Vout / _SeebeckC + _internal + _offset;
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return _temp;
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}
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// -- END OF FILE --
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