#define FAN_PIN 12 #define L_LED_PIN 13 #define BMP280_I2C_ADDRESS 0x76 // BMP280 conneciton: D1 = SCL; D2 = SDA // minimum value to start both fan's is 110 // without queeking noise is 255 #define FAN_ON_TEMP 26 #define FAN_OFF_MAX_TEMP 24 #define FAN_ON_STATE HIGH #define FAN_OFF_STATE LOW #define BMP280_CHECK_INTERVAL_MS 60000 // every 60000 = 60 seconds float bmp280_temp = -99.9; uint32_t bmp280_lastcheck_millis = BMP280_CHECK_INTERVAL_MS; uint8_t fan_state = LOW; void setup() { // put your setup code here, to run once: // setup serial Serial.begin(115200); Serial.println(); delay(1000); // setup BMP280 Serial.println("Sensor BMP280 init status: " + String(sensor_bmp280_begin(BMP280_I2C_ADDRESS))); bmp280_temp = sensor_bmp280_temperature(); // setup FAN Pin pinMode(FAN_PIN, OUTPUT); pinMode(L_LED_PIN, OUTPUT); } void loop() { // put your main code here, to run repeatedly: if ((bmp280_lastcheck_millis + BMP280_CHECK_INTERVAL_MS) <= millis()) { bmp280_temp = sensor_bmp280_temperature(); Serial.println("Temperature: " + String(bmp280_temp) + "°C"); digitalWrite(L_LED_PIN, HIGH); if (fan_state > 0 && bmp280_temp <= FAN_OFF_MAX_TEMP) { fan_state = FAN_OFF_STATE; // off } if (bmp280_temp >= FAN_ON_TEMP) { fan_state = FAN_ON_STATE; } Serial.println("FAN state: " + String(fan_state)); analogWrite(FAN_PIN, fan_state); digitalWrite(L_LED_PIN, LOW); bmp280_lastcheck_millis = millis(); } }