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111 lines
5.1 KiB
Java
111 lines
5.1 KiB
Java
/*
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* Author: Jon Trulson <jtrulson@ics.com>
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* Copyright (c) 2016 Intel Corporation.
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*
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* This program and the accompanying materials are made available under the
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* terms of the The MIT License which is available at
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* https://opensource.org/licenses/MIT.
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*
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* SPDX-License-Identifier: MIT
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*/
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import upm_h803x.H803X;
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public class H803X_Example
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{
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private static String defaultDev = "/dev/ttyUSB0";
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public static void main(String[] args) throws InterruptedException
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{
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// ! [Interesting]
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if (args.length > 0)
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defaultDev = args[0];
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System.out.println("Using device " + defaultDev);
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System.out.println("Initializing...");
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// Instantiate an H803X instance, using MODBUS slave address 1, and
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// default comm parameters (9600, 8, N, 2)
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H803X sensor = new H803X(defaultDev, 1);
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// output the Slave ID (manufacturer, model, serno)
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System.out.println("Slave ID: " + sensor.getSlaveID());
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System.out.println();
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while (true)
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{
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// update our values from the sensor
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sensor.update();
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// H8035 / H8036
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System.out.println("Consumption (kWh): "
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+ sensor.getConsumption());
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System.out.println("Real Power (kW): "
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+ sensor.getRealPower());
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if (sensor.isH8036())
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{
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// The H8036 has much more data available...
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System.out.println("Reactive Power (kVAR): "
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+ sensor.getReactivePower());
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System.out.println("Apparent Power (kVA): "
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+ sensor.getApparentPower());
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System.out.println("Power Factor: "
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+ sensor.getPowerFactor());
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System.out.println("Volts Line to Line: "
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+ sensor.getVoltsLineToLine());
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System.out.println("Volts Line to Neutral: "
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+ sensor.getVoltsLineToNeutral());
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System.out.println("Current: " + sensor.getCurrent());
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System.out.println("Real Power Phase A (kW): "
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+ sensor.getRealPowerPhaseA());
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System.out.println("Real Power Phase B (kW): "
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+ sensor.getRealPowerPhaseB());
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System.out.println("Real Power Phase C (kW): "
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+ sensor.getRealPowerPhaseC());
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System.out.println("Power Factor Phase A: "
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+ sensor.getPowerFactorPhaseA());
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System.out.println("Power Factor Phase B: "
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+ sensor.getPowerFactorPhaseB());
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System.out.println("Power Factor Phase C: "
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+ sensor.getPowerFactorPhaseC());
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System.out.println("Volts Phase A to B: "
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+ sensor.getVoltsPhaseAToB());
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System.out.println("Volts Phase B to C: "
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+ sensor.getVoltsPhaseBToC());
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System.out.println("Volts Phase A to C: "
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+ sensor.getVoltsPhaseAToC());
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System.out.println("Volts Phase A to Neutral: "
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+ sensor.getVoltsPhaseAToNeutral());
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System.out.println("Volts Phase B to Neutral: "
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+ sensor.getVoltsPhaseBToNeutral());
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System.out.println("Volts Phase C to Neutral: "
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+ sensor.getVoltsPhaseCToNeutral());
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System.out.println("Current Phase A: "
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+ sensor.getCurrentPhaseA());
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System.out.println("Current Phase B: "
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+ sensor.getCurrentPhaseB());
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System.out.println("Current Phase C: "
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+ sensor.getCurrentPhaseC());
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System.out.println("Avg Real Power (kW): "
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+ sensor.getAvgRealPower());
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System.out.println("Min Real Power (kW): "
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+ sensor.getMinRealPower());
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System.out.println("Max Real Power (kW): "
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+ sensor.getMaxRealPower());
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}
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System.out.println();
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Thread.sleep(2000);
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}
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// ! [Interesting]
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}
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}
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