/*************************************************************************** * Example sketch for the ADS1115_WE library * * This sketch shows how to obtain results using different scales / formats. * * Further information can be found on: * https://wolles-elektronikkiste.de/ads1115 * ***************************************************************************/ #include #include #define I2C_ADDRESS 0x48 ADS1115_WE adc(I2C_ADDRESS); void setup() { Wire.begin(); Serial.begin(9600); if(!adc.init()){ Serial.println("ADS1115 not connected!"); } adc.setVoltageRange_mV(ADS1115_RANGE_6144); //comment line/change parameter to change range adc.setCompareChannels(ADS1115_COMP_0_GND); //comment line/change parameter to change channel adc.setMeasureMode(ADS1115_CONTINUOUS); //comment line/change parameter to change mode Serial.println("ADS1115 Example Sketch - Results in different scales / formats"); Serial.println("All results are for channel 0 vs. GND"); Serial.println(); } void loop() { /* Output in Volt or in Millivolt */ float voltageInMillivolt = adc.getResult_mV(); Serial.print("Result in Millivolt [mV]: "); Serial.println(voltageInMillivolt); float voltageInVolt = adc.getResult_V(); Serial.print("Result in Volt [V]: "); Serial.println(voltageInVolt); /* Get the raw result from the conversion register. The conversion register * contains the conversion result of the amplified (!) voltage. This means the * value depends on the voltage as well as on the voltage range. E.g. if the * voltage range is 6.144 mV (ADS1115_RANGE_6144), +32767 is 6.144 mV; if the * range is 4.096 mV, +32767 is 4.096 mV, and so on. */ int rawResult = adc.getRawResult(); Serial.print("Raw Result : "); Serial.println(rawResult); /* Scaling of the result to a different range: * The results in the conversion register are in a range of -32767 to +32767 * You might want to receive the result in a different scale, e.g. -1023 to 1023. * For -1023 to 1023, and if you have chosen e.g. ADS1115_RANGE_4096, 0 Volt would * give 0 as result and 4.096 mV would give 1023. -4.096 mV would give -1023. */ int scaledResult = adc.getResultWithRange(-1023, 1023); Serial.print("Scaled result : "); Serial.println(scaledResult); /* Scaling of the result to a different range plus scaling to a voltage range: * You can use this variant if you also want to scale to a voltage range. E.g. in * in order to get results equivalent to an Arduino UNO (10 bit, 5000 mV range), you * would choose getResultWithRange(-1023, 1023, 5000). A difference to the Arduino * UNO is that you can measure negative voltages. * You have to ensure that the voltage range you scale to is smaller than the * measuring voltage range. For this example only ADS1115_RANGE_6144 would cover the * scale up to 5000 mV. */ int scaledResultWithMaxVoltage = adc.getResultWithRange(-1023, 1023, 5000); Serial.print("Scaled result with voltage scale : "); Serial.println(scaledResultWithMaxVoltage); /* This function returns the voltage range ADS1115_RANGE_XXXX in Millivolt */ unsigned int voltRange = adc.getVoltageRange_mV(); Serial.print("Voltage Range of ADS1115 [mV]: "); Serial.println(voltRange); Serial.println("-------------------------------"); delay(2000); }