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-example.1.1.source-code.ADS1115GpioExample Maven / Gradle / Ivy

/*
 * #%L
 * **********************************************************************
 * ORGANIZATION  :  Pi4J
 * PROJECT       :  Pi4J :: Java Examples
 * FILENAME      :  ADS1115GpioExample.java
 *
 * This file is part of the Pi4J project. More information about
 * this project can be found here:  http://www.pi4j.com/
 * **********************************************************************
 * %%
 * Copyright (C) 2012 - 2016 Pi4J
 * %%
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as
 * published by the Free Software Foundation, either version 3 of the
 * License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Lesser Public License for more details.
 *
 * You should have received a copy of the GNU General Lesser Public
 * License along with this program.  If not, see
 * .
 * #L%
 */


import java.io.IOException;
import java.text.DecimalFormat;

import com.pi4j.gpio.extension.ads.ADS1115GpioProvider;
import com.pi4j.gpio.extension.ads.ADS1115Pin;
import com.pi4j.gpio.extension.ads.ADS1x15GpioProvider.ProgrammableGainAmplifierValue;
import com.pi4j.io.gpio.GpioController;
import com.pi4j.io.gpio.GpioFactory;
import com.pi4j.io.gpio.GpioPinAnalogInput;
import com.pi4j.io.gpio.event.GpioPinAnalogValueChangeEvent;
import com.pi4j.io.gpio.event.GpioPinListenerAnalog;
import com.pi4j.io.i2c.I2CBus;
import com.pi4j.io.i2c.I2CFactory.UnsupportedBusNumberException;

/**
 * 

 * This example code demonstrates how to use the ADS1115 Pi4J GPIO interface
 * for analog input pins.
 * 
 *
 * @author Robert Savage
 */
public class ADS1115GpioExample {


    public static void main(String args[]) throws InterruptedException, UnsupportedBusNumberException, IOException {

        System.out.println("<--Pi4J--> ADS1115 GPIO Example ... started.");

        // number formatters
        final DecimalFormat df = new DecimalFormat("#.##");
        final DecimalFormat pdf = new DecimalFormat("###.#");

        // create gpio controller
        final GpioController gpio = GpioFactory.getInstance();

        // create custom ADS1115 GPIO provider
        final ADS1115GpioProvider gpioProvider = new ADS1115GpioProvider(I2CBus.BUS_1, ADS1115GpioProvider.ADS1115_ADDRESS_0x48);

        // provision gpio analog input pins from ADS1115
        GpioPinAnalogInput myInputs[] = {
                gpio.provisionAnalogInputPin(gpioProvider, ADS1115Pin.INPUT_A0, "MyAnalogInput-A0"),
                gpio.provisionAnalogInputPin(gpioProvider, ADS1115Pin.INPUT_A1, "MyAnalogInput-A1"),
                gpio.provisionAnalogInputPin(gpioProvider, ADS1115Pin.INPUT_A2, "MyAnalogInput-A2"),
                gpio.provisionAnalogInputPin(gpioProvider, ADS1115Pin.INPUT_A3, "MyAnalogInput-A3"),
            };

        // ATTENTION !!
        // It is important to set the PGA (Programmable Gain Amplifier) for all analog input pins.
        // (You can optionally set each input to a different value)
        // You measured input voltage should never exceed this value!
        //
        // In my testing, I am using a Sharp IR Distance Sensor (GP2Y0A21YK0F) whose voltage never exceeds 3.3 VDC
        // (http://www.adafruit.com/products/164)
        //
        // PGA value PGA_4_096V is a 1:1 scaled input,
        // so the output values are in direct proportion to the detected voltage on the input pins
        gpioProvider.setProgrammableGainAmplifier(ProgrammableGainAmplifierValue.PGA_4_096V, ADS1115Pin.ALL);


        // Define a threshold value for each pin for analog value change events to be raised.
        // It is important to set this threshold high enough so that you don't overwhelm your program with change events for insignificant changes
        gpioProvider.setEventThreshold(500, ADS1115Pin.ALL);


        // Define the monitoring thread refresh interval (in milliseconds).
        // This governs the rate at which the monitoring thread will read input values from the ADC chip
        // (a value less than 50 ms is not permitted)
        gpioProvider.setMonitorInterval(100);


        // create analog pin value change listener
        GpioPinListenerAnalog listener = new GpioPinListenerAnalog()
        {
            @Override
            public void handleGpioPinAnalogValueChangeEvent(GpioPinAnalogValueChangeEvent event)
            {
                // RAW value
                double value = event.getValue();

                // percentage
                double percent =  ((value * 100) / ADS1115GpioProvider.ADS1115_RANGE_MAX_VALUE);

                // approximate voltage ( *scaled based on PGA setting )
                double voltage = gpioProvider.getProgrammableGainAmplifier(event.getPin()).getVoltage() * (percent/100);

                // display output
                System.out.println(" (" + event.getPin().getName() +") : VOLTS=" + df.format(voltage) + "  | PERCENT=" + pdf.format(percent) + "% | RAW=" + value + "       ");
            }
        };

        myInputs[0].addListener(listener);
        myInputs[1].addListener(listener);
        myInputs[2].addListener(listener);
        myInputs[3].addListener(listener);

        // keep program running for 10 minutes
        Thread.sleep(600000);

        // stop all GPIO activity/threads by shutting down the GPIO controller
        // (this method will forcefully shutdown all GPIO monitoring threads and scheduled tasks)
        gpio.shutdown();

        System.out.println("Exiting ADS1115GpioExample");
    }
}