void DHTerrorHandler(DHT22_ERROR_t errorCode) { switch(errorCode) { case DHT_ERROR_NONE: DHT22ok = true; break; default: DHT22ok = false; } } float getTemperatureC(){ if (DHT22ok) { return myDHT22.getTemperatureC(); } } float getHumidity(){ if (DHT22ok) { return myDHT22.getHumidity(); } } float getPanel(){ float value = mapfloat(average(PANEL), 409, 819, 0, 100); if (value>0) { return value; // % } else { return 0; // % } } float getBattery() { float temp = average(BAT); Serial.print("Battery: "); Serial.println(temp); Serial.println("*******************"); temp = mapfloat(temp, 613, 825, 0, 100); if (temp>100) temp=100; if (temp<0) temp=0; return temp; } float getLight(){ //float temp = mapfloat(average(S5), 370, 1021, 0, 100); float temp = mapfloat(average(S5), 30, 1023, 0, 100); if (temp>100) temp=100; if (temp<0) temp=0; //Serial.print("light: "); //Serial.println(((float)((float)average(S5)/1023)*Vref)); return temp; // return ((float)((float)average(S5)/1023)*Vref); } float getNoise() { unsigned long temp = 0; int temp_actual = 0; int max_temp = 0; float mVRaw = 0; float max_mVRaw = 0; float dB_temp = 0; float dB = 0; int n = 200; digitalWrite(IO1, HIGH); //VH_MICS2710 delay(500); // LE DAMOS TIEMPO A LA FUENTE Y QUE DESAPAREZCA EL TRANSITORIO // // for (int i=0; i