// ----------------------------------------------------------------------------- // SI7021 / HTU21D Sensor over I2C // Copyright (C) 2017-2019 by Xose PĂ©rez // ----------------------------------------------------------------------------- #if SENSOR_SUPPORT && SI7021_SUPPORT #pragma once #include #include "I2CSensor.h" #include "../utils.h" #define SI7021_SCL_FREQUENCY 200 #define SI7021_CHIP_SI7021 0x15 #define SI7021_CHIP_HTU21D 0x32 #define SI7021_CMD_TMP_HOLD 0xE3 #define SI7021_CMD_HUM_HOLD 0xE5 #define SI7021_CMD_TMP_NOHOLD 0xF3 #define SI7021_CMD_HUM_NOHOLD 0xF5 PROGMEM const char si7021_chip_si7021_name[] = "SI7021"; PROGMEM const char si7021_chip_htu21d_name[] = "HTU21D"; class SI7021Sensor : public I2CSensor<> { public: // --------------------------------------------------------------------- // Public // --------------------------------------------------------------------- SI7021Sensor() { _sensor_id = SENSOR_SI7021_ID; } // --------------------------------------------------------------------- // Sensor API // --------------------------------------------------------------------- // Initialization method, must be idempotent void begin() { if (!_dirty) return; _init(); _dirty = !_ready; } // Descriptive name of the sensor String description() { char name[10]; strncpy_P(name, _chip == SI7021_CHIP_SI7021 ? si7021_chip_si7021_name : si7021_chip_htu21d_name, sizeof(name) ); char buffer[25]; snprintf(buffer, sizeof(buffer), "%s @ I2C (0x%02X)", name, _address); return String(buffer); } // Descriptive name of the slot # index String slot(unsigned char index) { return description(); }; // Type for slot # index unsigned char type(unsigned char index) { if (index == 0) return MAGNITUDE_TEMPERATURE; if (index == 1) return MAGNITUDE_HUMIDITY; return MAGNITUDE_NONE; } // Pre-read hook (usually to populate registers with up-to-date data) void pre() { _error = SENSOR_ERROR_UNKNOWN_ID; if (_chip == 0) return; _error = SENSOR_ERROR_OK; double value; value = _read(SI7021_CMD_TMP_NOHOLD); if (_error != SENSOR_ERROR_OK) return; _temperature = (175.72 * value / 65536) - 46.85; value = _read(SI7021_CMD_HUM_NOHOLD); if (_error != SENSOR_ERROR_OK) return; value = (125.0 * value / 65536) - 6; _humidity = constrain(value, 0, 100); } // Current value for slot # index double value(unsigned char index) { if (index == 0) return _temperature; if (index == 1) return _humidity; return 0; } protected: // --------------------------------------------------------------------- // Protected // --------------------------------------------------------------------- void _init() { // I2C auto-discover unsigned char addresses[] = {0x40}; _address = _begin_i2c(_address, sizeof(addresses), addresses); if (_address == 0) return; // Check device i2c_write_uint8(_address, 0xFC, 0xC9); _chip = i2c_read_uint8(_address); if ((_chip != SI7021_CHIP_SI7021) & (_chip != SI7021_CHIP_HTU21D)) { _count = 0; i2cReleaseLock(_address); _previous_address = 0; _error = SENSOR_ERROR_UNKNOWN_ID; // Setting _address to 0 forces auto-discover // This might be necessary at this stage if there is a // different sensor in the hardcoded address _address = 0; } else { _count = 2; } _ready = true; } unsigned int _read(uint8_t command) { // Request measurement i2c_write_uint8(_address, command); // When not using clock stretching (*_NOHOLD commands) delay here // is needed to wait for the measurement. // According to datasheet the max. conversion time is ~22ms nice_delay(50); // Clear the last to bits of LSB to 00. // According to datasheet LSB of RH is always xxxxxx10 unsigned int value = i2c_read_uint16(_address) & 0xFFFC; // We should be checking there are no pending bytes in the buffer // and raise a CRC error if there are _error = SENSOR_ERROR_OK; return value; } unsigned char _chip; double _temperature = 0; double _humidity = 0; }; #endif // SENSOR_SUPPORT && SI7021_SUPPORT