Modbus工业协议在Android中的应用

时间:2023-03-08 21:31:24

现在工业信息画发展,很多工厂都需要做信息化展示,通常都是利用Android一体机来进行展示和交互。

Modbus协议是全球第一个用于工业现场的总线协议,与外设交互可以采用串口通信,tcp等方式;通常在Android中都是用tcp来进行读写,在Android中有Modbus4J.jar这个jar包使用;

简单介绍modbustcp:

读取的是从机 有几点需要知道 从机的ip地址,端口号(一般为502),slaveID,需要读的寄存器地址

读保持寄存器的功能号为03

先需要根据ip连接:

private void connectIP() {

        try {

            IpParameters tcpParameters = new IpParameters();

            tcpParameters.setHost(MyApplication.getInstance().getIp_electric());

            tcpParameters.setPort(PORT);

            ModbusFactory modbusFactory = new ModbusFactory();

            master = modbusFactory.createTcpMaster(tcpParameters, true);

            master.setTimeout(TIME_OUT);

            master.setRetries(0);

            master.init();

            if (master.isInitialized()) {

                mConnected = true;

                new Thread(readTask).start();

            }

        } catch (Exception e) {

            master.destroy();

            e.printStackTrace();

            // L.e(getClass().getSimpleName(), e.getMessage());

            try {

                Thread.sleep(10 * 1000);

            } catch (Exception ex) {

            }

            connectIP();

        }

    }

由以上代码当master初始化成功之后 开棋=

    /**

     * 板卡读线程

     */

    public Runnable readTask = new Runnable() {

        @SuppressLint("SimpleDateFormat")

        @SuppressWarnings("static-access")

        @Override

        public void run() {

            while (mConnected) {

                try {

                    String msg = Utils.imitateData(master, SLAVE_ID).toString();

                    Log.i("msg", msg);

                    Map<String, String> map = Utils.formatResult(msg);

                    str = msg;

                    Thread.currentThread().sleep(1000);

                } catch (Exception e) {

                    e.printStackTrace();

                }

            }

        }

    };
msg为读取结果 独取出来是类似与多个键值对的形式 需要自己进行拆分
imitateData为读取数据的方法 如下:

public static BatchResults<String> imitateData(ModbusMaster master,

			int slaveID) {

		BatchResults<String> results = null;

		BatchRead<String> batchRead = new BatchRead<String>();

		//读int部分

		batchRead.addLocator(Config.Voltage_1, BaseLocator.holdingRegister(

				slaveID, 0000, DataType.TWO_BYTE_INT_UNSIGNED));

		batchRead.addLocator(Config.Voltage_2, BaseLocator.holdingRegister(

				slaveID, 0002, DataType.TWO_BYTE_INT_UNSIGNED));

		batchRead

				.addLocator(Config.Electricity_1, BaseLocator

						.holdingRegister(slaveID, 0004,

								DataType.TWO_BYTE_INT_UNSIGNED));

		batchRead

				.addLocator(Config.Electricity_2, BaseLocator

						.holdingRegister(slaveID, 0006,

								DataType.TWO_BYTE_INT_UNSIGNED));

		//读float部分 电表1

		batchRead.addLocator(Config.Voltage_Va_1, BaseLocator.holdingRegister(

				slaveID, 8, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Vb_1, BaseLocator.holdingRegister(

				slaveID, 10, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Vc_1, BaseLocator

				.holdingRegister(slaveID, 12, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Avg_1, BaseLocator

				.holdingRegister(slaveID, 14, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_A_1, BaseLocator

				.holdingRegister(slaveID, 16, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_B_1, BaseLocator

				.holdingRegister(slaveID, 18, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_C_1, BaseLocator

				.holdingRegister(slaveID, 20, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_Avg_1, BaseLocator

				.holdingRegister(slaveID, 22, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Energy_Positive_1, BaseLocator

				.holdingRegister(slaveID, 24, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Energy_Reverse_1, BaseLocator

				.holdingRegister(slaveID, 26, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		//读电表2 float部分

		batchRead.addLocator(Config.Voltage_Va_2, BaseLocator

				.holdingRegister(slaveID, 28, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Vb_2, BaseLocator

				.holdingRegister(slaveID, 30, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Vc_2, BaseLocator

				.holdingRegister(slaveID, 32, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Voltage_Avg_2, BaseLocator

				.holdingRegister(slaveID, 34, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_A_2, BaseLocator

				.holdingRegister(slaveID, 36, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_B_2, BaseLocator

				.holdingRegister(slaveID, 38, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_C_2, BaseLocator

				.holdingRegister(slaveID, 40, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Electricity_Avg_2, BaseLocator

				.holdingRegister(slaveID, 42, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Energy_Positive_2, BaseLocator

				.holdingRegister(slaveID, 44, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		batchRead.addLocator(Config.Energy_Reverse_2, BaseLocator

				.holdingRegister(slaveID, 46, DataType.FOUR_BYTE_FLOAT_SWAPPED));

		try {

			results = master.send(batchRead);

		} catch (ModbusTransportException e) {

			e.printStackTrace();

		} catch (ErrorResponseException e) {

			e.printStackTrace();

		}

		return results;

	}

  以上就根据每个寄存器的数据类型进行读取0-46位的数据

 

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