// // FILE: CHT8305.cpp // AUTHOR: Rob Tillaart // VERSION: 0.1.5 // PURPOSE: Arduino library for CHT8305 temperature and humidity sensor // URL: https://github.com/RobTillaart/CH8305 // // HISTORY: see changelog.md #include "CHT8305.h" ///////////////////////////////////////////////////// // // PUBLIC // CHT8305::CHT8305(TwoWire *wire) { _wire = wire; _address = CHT8305_DEFAULT_ADDRESS; // default AD0 to GND. } #if defined (ESP8266) || defined(ESP32) int CHT8305::begin(int sda, int scl, const uint8_t address) { if ((address < 0x40) || (address > 0x43)) return CHT8305_ERROR_ADDR; _wire = &Wire; _address = address; if ((sda < 255) && (scl < 255)) { _wire->begin(sda, scl); } else { _wire->begin(); } if (! isConnected()) return CHT8305_ERROR_CONNECT; return CHT8305_OK; } #endif int CHT8305::begin(const uint8_t address) { if ((address < 0x40) || (address > 0x43)) return CHT8305_ERROR_ADDR; _address = address; _wire->begin(); if (! isConnected()) return CHT8305_ERROR_CONNECT; return CHT8305_OK; } bool CHT8305::isConnected() { _wire->beginTransmission(_address); return (_wire->endTransmission() == 0); } uint8_t CHT8305::getAddress() { return _address; } //////////////////////////////////////////////// // // READ THE SENSOR // int CHT8305::read() { // do not read too fast if (millis() - _lastRead < 1000) { return CHT8305_ERROR_LASTREAD; } _lastRead = millis(); uint8_t data[4] = {0, 0, 0, 0 }; _readRegister(CHT8305_REG_TEMPERATURE, &data[0], 4); uint16_t tmp = data[0] << 8 | data[1]; _temperature = tmp * (165.0 / 65535.0) - 40.0; tmp = data[2] << 8 | data[3]; _humidity = tmp / 655.35; // == / 65535 * 100% if (_tempOffset != 0.0) _temperature += _tempOffset; if (_humOffset != 0.0) _humidity += _humOffset; return CHT8305_OK; } int CHT8305::readTemperature() { // do not read too fast if (millis() - _lastRead < 1000) { return CHT8305_ERROR_LASTREAD; } _lastRead = millis(); uint8_t data[2] = {0, 0}; _readRegister(CHT8305_REG_TEMPERATURE, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; _temperature = tmp * (165.0 / 65535.0) - 40.0; if (_tempOffset != 0.0) _temperature += _tempOffset; return CHT8305_OK; } int CHT8305::readHumidity() { // do not read too fast if (millis() - _lastRead < 1000) { return CHT8305_ERROR_LASTREAD; } _lastRead = millis(); uint8_t data[2] = {0, 0}; _readRegister(CHT8305_REG_HUMIDITY, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; _humidity = tmp / 655.35; // == / 65535 * 100% if (_humOffset != 0.0) _humidity += _humOffset; return CHT8305_OK; } // MilliSeconds since start sketch uint32_t CHT8305::lastRead() { return _lastRead; }; float CHT8305::getHumidity() { return _humidity; }; float CHT8305::getTemperature() { return _temperature; }; void CHT8305::setConversionDelay(uint8_t cd) { if (cd < 8) cd = 8; _conversionDelay = cd; } uint8_t CHT8305::getConversionDelay() { return _conversionDelay; } void CHT8305::setHumOffset(float offset) { _humOffset = offset; }; void CHT8305::setTempOffset(float offset) { _tempOffset = offset; }; float CHT8305::getHumOffset() { return _humOffset; }; float CHT8305::getTempOffset() { return _tempOffset; }; //////////////////////////////////////////////// // // CONFIG REGISTER // void CHT8305::setConfigRegister(uint16_t bitmask) { uint8_t data[2]; data[0] = bitmask >> 8; data[1] = bitmask & 0xFF; _writeRegister(2, &data[0], 2); } uint16_t CHT8305::getConfigRegister() { uint8_t data[2] = { 0, 0}; _readRegister(CHT8305_REG_CONFIG, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; return tmp; } void CHT8305::softReset() { _setConfigMask(CHT8305_CFG_SOFT_RESET); } void CHT8305::setI2CClockStretch(bool on) { if (on) _setConfigMask(CHT8305_CFG_CLOCK_STRETCH); else _clrConfigMask(CHT8305_CFG_CLOCK_STRETCH); } bool CHT8305::getI2CClockStretch() { return (getConfigRegister() & CHT8305_CFG_CLOCK_STRETCH) > 0; } void CHT8305::setHeaterOn(bool on) { if (on) _setConfigMask(CHT8305_CFG_HEATER); else _clrConfigMask(CHT8305_CFG_HEATER); } bool CHT8305::getHeater() { return (getConfigRegister() & CHT8305_CFG_HEATER) > 0; } void CHT8305::setMeasurementMode(bool both) { if (both) _setConfigMask(CHT8305_CFG_MODE); else _clrConfigMask(CHT8305_CFG_MODE); } bool CHT8305::getMeasurementMode() { return (getConfigRegister() & CHT8305_CFG_MODE) > 0; } bool CHT8305::getVCCstatus() { return (getConfigRegister() & CHT8305_CFG_VCCS) > 0; } void CHT8305::setTemperatureResolution(uint8_t res) { if (res == 1) _setConfigMask(CHT8305_CFG_TEMP_RES); else _clrConfigMask(CHT8305_CFG_TEMP_RES); } uint8_t CHT8305::getTemperatureResolution() { if (getConfigRegister() & CHT8305_CFG_TEMP_RES) return 1; return 0; } void CHT8305::setHumidityResolution(uint8_t res) { _clrConfigMask(CHT8305_CFG_HUMI_RES); // set bits to 00 if (res == 2)_setConfigMask(0x0200); // 8 bit if (res == 1)_setConfigMask(0x0100); // 11 bit // default == 00 if not 1 or 2 // 14 bit } uint8_t CHT8305::getHumidityResolution() { return (getConfigRegister() & CHT8305_CFG_HUMI_RES) >> 8; } void CHT8305::setVCCenable(bool enable) { if (enable) _setConfigMask(CHT8305_CFG_VCC_ENABLE); else _clrConfigMask(CHT8305_CFG_VCC_ENABLE); } bool CHT8305::getVCCenable() { return (getConfigRegister() & CHT8305_CFG_VCC_ENABLE) > 0; } //////////////////////////////////////////////// // // ALERT (config register) // bool CHT8305::setAlertTriggerMode(uint8_t mode) { if (mode > 3) return false; // check 0,1,2,3 _clrConfigMask(CHT8305_CFG_ALERT_MODE); uint16_t mask = mode << 6; _setConfigMask(mask); return true; } uint8_t CHT8305::getAlertTriggerMode() { return (getConfigRegister() & CHT8305_CFG_ALERT_MODE) >> 6; } bool CHT8305::getAlertPendingStatus() { return (getConfigRegister() & CHT8305_CFG_ALERT_PENDING) > 0; } bool CHT8305::getAlertHumidityStatus() { return (getConfigRegister() & CHT8305_CFG_ALERT_HUMI) > 0; } bool CHT8305::getAlertTemperatureStatus() { return (getConfigRegister() & CHT8305_CFG_ALERT_TEMP) > 0; } bool CHT8305::setAlertLevels(float temperature, float humidity) { // range check if ((temperature < -40 ) || (temperature > 125)) return false; if ((humidity < 0 ) || (humidity > 100)) return false; uint16_t tmp = humidity * (127.0 / 100.0); uint16_t mask = tmp << 9; tmp = (temperature + 40.0) * (511.0 / 165.0); mask |= tmp; _writeRegister(CHT8305_REG_ALERT, (uint8_t *)&mask, 2); return true; } float CHT8305::getAlertLevelTemperature() { uint16_t data = 0; _readRegister(CHT8305_REG_ALERT, (uint8_t *)&data, 2); data &= 0x01FF; data <<= 7; return data * (165.0 / 65535.0) - 40.0; } float CHT8305::getAlertLevelHumidity() { uint16_t data = 0; _readRegister(CHT8305_REG_ALERT, (uint8_t *)&data, 2); data &= 0xFE00; return data * (100.0 / 65535.0); } //////////////////////////////////////////////// // // VOLTAGE // float CHT8305::getVoltage() { uint8_t data[2] = { 0, 0}; _readRegister(CHT8305_REG_VOLTAGE, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; return tmp * (5.0 / 32768.0); // best guess } //////////////////////////////////////////////// // // META DATA // uint16_t CHT8305::getManufacturer() { uint8_t data[2] = { 0, 0}; _readRegister(CHT8305_REG_MANUFACTURER, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; return tmp; } uint16_t CHT8305::getVersionID() { uint8_t data[2] = { 0, 0}; _readRegister(CHT8305_REG_VERSION, &data[0], 2); uint16_t tmp = data[0] << 8 | data[1]; return tmp; } //////////////////////////////////////////////// // // PRIVATE // int CHT8305::_readRegister(uint8_t reg, uint8_t * buf, uint8_t size) { _wire->beginTransmission(_address); _wire->write(reg); int n = _wire->endTransmission(); if (n != 0) return CHT8305_ERROR_I2C; if (reg == CHT8305_REG_TEMPERATURE) // wait for conversion... { delay(_conversionDelay); // 2x 6.5 ms @ 14 bit = 14 (10 works). } n = _wire->requestFrom(_address, size); if (n == size) { for (uint8_t i = 0; i < size; i++) { buf[i] = _wire->read(); } } return CHT8305_OK; } int CHT8305::_writeRegister(uint8_t reg, uint8_t * buf, uint8_t size) { _wire->beginTransmission(_address); _wire->write(reg); for (uint8_t i = 0; i < size; i++) { _wire->write(buf[i]); } int n = _wire->endTransmission(); if (n != 0) return CHT8305_ERROR_I2C; return CHT8305_OK; } void CHT8305::_setConfigMask(uint16_t mask) { uint16_t tmp = getConfigRegister(); tmp |= mask; setConfigRegister(tmp); } void CHT8305::_clrConfigMask(uint16_t mask) { uint16_t tmp = getConfigRegister(); tmp &= ~mask; setConfigRegister(tmp); } // -- END OF FILE --