// // FILE: MAX31850.cpp // AUTHOR: Rob.Tillaart@gmail.com // VERSION: 0.1.2 // DATE: 2021-06-03 // PUPROSE: Arduino library for the MAX31850 thermocouple temperature sensor. #include "MAX31850.h" // OneWire commands #define STARTCONVO 0x44 #define READSCRATCH 0xBE #define WRITESCRATCH 0x4E // SCRATCHPAD registers // bit 1 = reserved bit 0 = error flag #define TC_TEMP_LSB 0 #define TC_TEMP_MSB 1 // bit 3 = reserved bit 0-2 = error codes #define INTERN_TEMP_LSB 2 #define INTERN_TEMP_MSB 3 // 4 address bits 0..15 #define CONFIGURATION 4 #define RESERVED_1 5 #define RESERVED_2 6 #define RESERVED_3 7 #define SCRATCHPAD_CRC 8 ///////////////////////////////////////////////////////////////////////////// // // MAX31850 // MAX31850::MAX31850(OneWire* oneWire) { _oneWire = oneWire; _addresFound = false; _typeTC = 'K'; // most used. _TCTemp = 0; _internalTemp = 0; _errorBits = 0; _failFlag = false; _addrBits = 0; } bool MAX31850::begin(uint8_t retries) { _addresFound = false; for (uint8_t r = retries; (r > 0) && (_addresFound == false); r--) { _oneWire->reset(); _oneWire->reset_search(); _deviceAddress[0] = 0x00; _oneWire->search(_deviceAddress); _addresFound = _deviceAddress[0] != 0x00 && _oneWire->crc8(_deviceAddress, 7) == _deviceAddress[7]; } return _addresFound; } bool MAX31850::getAddress(uint8_t* buffer) { if (_addresFound) { for (uint8_t i = 0; i < 8; i++) { buffer[i] = _deviceAddress[i]; } } return _addresFound; } void MAX31850::requestTemperatures(void) { _oneWire->reset(); _oneWire->skip(); _oneWire->write(STARTCONVO, 0); } bool MAX31850::isConversionComplete(void) { return (_oneWire->read_bit() == 1); } float MAX31850::read(void) { ScratchPad scratchPad; for (int i = 0; i < 9; i++) scratchPad[i] = 0; // NO CRC CHECK readScratchPad(scratchPad, 5); _failFlag = scratchPad[TC_TEMP_LSB] & 0x01; int16_t rawTemperature = (((int16_t)scratchPad[TC_TEMP_MSB]) << 6) | scratchPad[TC_TEMP_LSB] >> 2; _TCTemp = 0.25 * rawTemperature; _errorBits = scratchPad[INTERN_TEMP_LSB] & 0x07; rawTemperature = (((int16_t)scratchPad[INTERN_TEMP_LSB]) << 4) | scratchPad[INTERN_TEMP_LSB] >> 4; _internalTemp = 0.0625 * rawTemperature; _addrBits = scratchPad[CONFIGURATION] & 0x0F; return _TCTemp; } float MAX31850::getTempTC(void) { return _TCTemp; } float MAX31850::getTempInternal(void) { return _internalTemp; } uint8_t MAX31850::getErrorCode() { return _errorBits; } uint8_t MAX31850::getAddressPins() { return _addrBits; }; bool MAX31850::setTypeTC(char typeTC) { switch(toupper(typeTC)) { case 'E': case 'J': case 'K': case 'N': case 'R': case 'S': case 'T': _typeTC = toupper(typeTC); return true; } return false; } char MAX31850::getTypeTC() { return _typeTC; } ///////////////////////////////////////////////////////////////////////////// // // PROTECTED // void MAX31850::readScratchPad(uint8_t *scratchPad, uint8_t fields) { _oneWire->reset(); _oneWire->select(_deviceAddress); _oneWire->write(READSCRATCH); for (uint8_t i = 0; i < fields; i++) { scratchPad[i] = _oneWire->read(); } _oneWire->reset(); } ///////////////////////////////////////////////////////////////////////////// // // MAX31851 // MAX31851::MAX31851(OneWire * onewire) : MAX31850(onewire) { } // -- END OF FILE --