// ----------------------------------------------------------------------------- // MHZ19 CO2 sensor // Based on: https://github.com/nara256/mhz19_uart // http://www.winsen-sensor.com/d/files/infrared-gas-sensor/mh-z19b-co2-ver1_0.pdf // Uses SoftwareSerial library // Copyright (C) 2017-2018 by Xose PĂ©rez // ----------------------------------------------------------------------------- #if SENSOR_SUPPORT && MHZ19_SUPPORT #pragma once #include "Arduino.h" #include "BaseSensor.h" #include #define MHZ19_REQUEST_LEN 8 #define MHZ19_RESPONSE_LEN 9 #define MHZ19_TIMEOUT 1000 #define MHZ19_GETPPM 0x8600 #define MHZ19_ZEROCALIB 0x8700 #define MHZ19_SPANCALIB 0x8800 #define MHZ19_AUTOCALIB_ON 0x79A0 #define MHZ19_AUTOCALIB_OFF 0x7900 class MHZ19Sensor : public BaseSensor { public: // --------------------------------------------------------------------- // Public // --------------------------------------------------------------------- MHZ19Sensor(): BaseSensor() { _count = 1; _sensor_id = SENSOR_MHZ19_ID; } ~MHZ19Sensor() { if (_serial) delete _serial; } // --------------------------------------------------------------------- void setRX(unsigned char pin_rx) { if (_pin_rx == pin_rx) return; _pin_rx = pin_rx; _dirty = true; } void setTX(unsigned char pin_tx) { if (_pin_tx == pin_tx) return; _pin_tx = pin_tx; _dirty = true; } // --------------------------------------------------------------------- unsigned char getRX() { return _pin_rx; } unsigned char getTX() { return _pin_tx; } // --------------------------------------------------------------------- // Sensor API // --------------------------------------------------------------------- // Initialization method, must be idempotent void begin() { if (!_dirty) return; _dirty = false; if (_serial) delete _serial; _serial = new SoftwareSerial(_pin_rx, _pin_tx, false, 32); _serial->enableIntTx(false); _serial->begin(9600); calibrateAuto(false); } // Descriptive name of the sensor String description() { char buffer[28]; snprintf(buffer, sizeof(buffer), "MHZ19 @ SwSerial(%u,%u)", _pin_rx, _pin_tx); return String(buffer); } // Descriptive name of the slot # index String slot(unsigned char index) { return description(); }; // Address of the sensor (it could be the GPIO or I2C address) String address(unsigned char index) { char buffer[6]; snprintf(buffer, sizeof(buffer), "%u:%u", _pin_rx, _pin_tx); return String(buffer); } // Type for slot # index unsigned char type(unsigned char index) { if (index == 0) return MAGNITUDE_CO2; return MAGNITUDE_NONE; } void pre() { _read(); } // Current value for slot # index double value(unsigned char index) { if (index == 0) return _co2; return 0; } void calibrateAuto(boolean state){ _write(state ? MHZ19_AUTOCALIB_ON : MHZ19_AUTOCALIB_OFF); } void calibrateZero() { _write(MHZ19_ZEROCALIB); } void calibrateSpan(unsigned int ppm) { if( ppm < 1000 ) return; unsigned char buffer[MHZ19_REQUEST_LEN] = {0}; buffer[0] = 0xFF; buffer[1] = 0x01; buffer[2] = MHZ19_SPANCALIB >> 8; buffer[3] = ppm >> 8; buffer[4] = ppm & 0xFF; _write(buffer); } protected: // --------------------------------------------------------------------- // Protected // --------------------------------------------------------------------- void _write(unsigned char * command) { _serial->write(command, MHZ19_REQUEST_LEN); _serial->write(_checksum(command)); _serial->flush(); } void _write(unsigned int command, unsigned char * response) { unsigned char buffer[MHZ19_REQUEST_LEN] = {0}; buffer[0] = 0xFF; buffer[1] = 0x01; buffer[2] = command >> 8; buffer[3] = command & 0xFF; _write(buffer); if (response != NULL) { unsigned long start = millis(); while (_serial->available() == 0) { if (millis() - start > MHZ19_TIMEOUT) { _error = SENSOR_ERROR_TIMEOUT; return; } yield(); } _serial->readBytes(response, MHZ19_RESPONSE_LEN); } } void _write(unsigned int command) { _write(command, NULL); } void _read() { unsigned char buffer[MHZ19_RESPONSE_LEN] = {0}; _write(MHZ19_GETPPM, buffer); // Check response if ((buffer[0] == 0xFF) && (buffer[1] == 0x86) && (_checksum(buffer) == buffer[MHZ19_RESPONSE_LEN-1])) { unsigned int value = buffer[2] * 256 + buffer[3]; if (0 <= value && value <= 5000) { _co2 = value; _error = SENSOR_ERROR_OK; } else { _error = SENSOR_ERROR_OUT_OF_RANGE; } } else { _error = SENSOR_ERROR_CRC; } } uint8_t _checksum(uint8_t * command) { uint8_t sum = 0x00; for (unsigned char i = 1; i < MHZ19_REQUEST_LEN-1; i++) { sum += command[i]; } sum = 0xFF - sum + 0x01; return sum; } double _co2 = 0; unsigned int _pin_rx; unsigned int _pin_tx; SoftwareSerial * _serial = NULL; }; #endif // SENSOR_SUPPORT && MHZ19_SUPPORT