public void WriteExample2( )
        {
            #region WriteExample2

            SiemensFetchWriteNet siemens = new SiemensFetchWriteNet(" 192.168.1.110", 2000);

            // 拼凑数据,这样的话,一次通讯就完成数据的全部写入
            byte[] buffer = new byte[8];
            siemens.ByteTransform.TransByte((short)1234).CopyTo(buffer, 0);
            siemens.ByteTransform.TransByte((short)2100).CopyTo(buffer, 2);
            siemens.ByteTransform.TransByte(12353423).CopyTo(buffer, 4);

            OperateResult write = siemens.Write("M100", buffer);
            if (write.IsSuccess)
            {
                // success
            }
            else
            {
                // failed
            }

            // 上面的功能等同于三个数据分别写入,下面的性能更差点,因为进行了三次通讯,而且每次还要判断是否写入成功
            //siemens.Write( "M100", (short)1234 );
            //siemens.Write( "M100", (short)2100 );
            //siemens.Write( "M100", 12353423 );

            #endregion
        }
        public void ReadExample( )
        {
            #region ReadExample1


            SiemensFetchWriteNet siemensTcpNet = new SiemensFetchWriteNet(" 192.168.1.110", 2000);

            // 此处以M100寄存器作为示例
            byte   byte_M100   = siemensTcpNet.ReadByte("M100").Content;       // 读取M100的值
            short  short_M100  = siemensTcpNet.ReadInt16("M100").Content;      // 读取M100-M101组成的字
            ushort ushort_M100 = siemensTcpNet.ReadUInt16("M100").Content;     // 读取M100-M101组成的无符号的值
            int    int_M100    = siemensTcpNet.ReadInt32("M100").Content;      // 读取M100-M103组成的有符号的数据
            uint   uint_M100   = siemensTcpNet.ReadUInt32("M100").Content;     // 读取M100-M103组成的无符号的值
            float  float_M100  = siemensTcpNet.ReadFloat("M100").Content;      // 读取M100-M103组成的单精度值
            long   long_M100   = siemensTcpNet.ReadInt64("M100").Content;      // 读取M100-M107组成的大数据值
            ulong  ulong_M100  = siemensTcpNet.ReadUInt64("M100").Content;     // 读取M100-M107组成的无符号大数据
            double double_M100 = siemensTcpNet.ReadDouble("M100").Content;     // 读取M100-M107组成的双精度值
            string str_M100    = siemensTcpNet.ReadString("M100", 10).Content; // 读取M100-M109组成的ASCII字符串数据

            // 读取数组
            short[]  short_M100_array  = siemensTcpNet.ReadInt16("M100", 10).Content;  // 读取M100-M101组成的字
            ushort[] ushort_M100_array = siemensTcpNet.ReadUInt16("M100", 10).Content; // 读取M100-M101组成的无符号的值
            int[]    int_M100_array    = siemensTcpNet.ReadInt32("M100", 10).Content;  // 读取M100-M103组成的有符号的数据
            uint[]   uint_M100_array   = siemensTcpNet.ReadUInt32("M100", 10).Content; // 读取M100-M103组成的无符号的值
            float[]  float_M100_array  = siemensTcpNet.ReadFloat("M100", 10).Content;  // 读取M100-M103组成的单精度值
            long[]   long_M100_array   = siemensTcpNet.ReadInt64("M100", 10).Content;  // 读取M100-M107组成的大数据值
            ulong[]  ulong_M100_array  = siemensTcpNet.ReadUInt64("M100", 10).Content; // 读取M100-M107组成的无符号大数据
            double[] double_M100_array = siemensTcpNet.ReadDouble("M100", 10).Content; // 读取M100-M107组成的双精度值

            #endregion
        }
        public void WriteExample( )
        {
            #region WriteExample1

            SiemensFetchWriteNet siemens = new SiemensFetchWriteNet(" 192.168.1.110", 2000);

            // 此处以M100寄存器作为示例
            siemens.Write("M100", (short)1234);                  // 写入M100  short值  ,W3C0,R3C0 效果是一样的
            siemens.Write("M100", (ushort)45678);                // 写入M100  ushort值
            siemens.Write("M100", 1234566);                      // 写入M100  int值
            siemens.Write("M100", (uint)1234566);                // 写入M100  uint值
            siemens.Write("M100", 123.456f);                     // 写入M100  float值
            siemens.Write("M100", 123.456d);                     // 写入M100  double值
            siemens.Write("M100", 123456661235123534L);          // 写入M100  long值
            siemens.Write("M100", 523456661235123534UL);         // 写入M100  ulong值
            siemens.Write("M100", "K123456789");                 // 写入M100  string值

            // 读取数组
            siemens.Write("M100", new short[] { 123, 3566, -123 });                                    // 写入M100  short值  ,W3C0,R3C0 效果是一样的
            siemens.Write("M100", new ushort[] { 12242, 42321, 12323 });                               // 写入M100  ushort值
            siemens.Write("M100", new int[] { 1234312312, 12312312, -1237213 });                       // 写入M100  int值
            siemens.Write("M100", new uint[] { 523123212, 213, 13123 });                               // 写入M100  uint值
            siemens.Write("M100", new float[] { 123.456f, 35.3f, -675.2f });                           // 写入M100  float值
            siemens.Write("M100", new double[] { 12343.542312d, 213123.123d, -231232.53432d });        // 写入M100  double值
            siemens.Write("M100", new long[] { 1231231242312, 34312312323214, -1283862312631823 });    // 写入M100  long值
            siemens.Write("M100", new ulong[] { 1231231242312, 34312312323214, 9731283862312631823 }); // 写入M100  ulong值

            #endregion
        }
        public void ClassTest( )
        {
            #region Usage

            // 实例化对象,指定PLC的ip地址
            SiemensFetchWriteNet siemens = new SiemensFetchWriteNet(" 192.168.1.110", 2000);
            // 举例读取M100的值
            short D100 = siemens.ReadInt16("M100").Content;

            #endregion
        }
Exemplo n.º 5
0
        /// <summary>
        /// 实例化一个西门子的设备对象,从配置信息创建
        /// </summary>
        /// <param name="element">配置信息</param>
        public DeviceSiemens(XElement element)
        {
            NodeSiemens nodeSiemens = new NodeSiemens( );

            nodeSiemens.LoadByXmlElement(element);
            LoadRequest(element);

            if (nodeSiemens.PlcType == NodeSiemens.PLCFW)
            {
                isS7Net           = false;
                siemensFetchWrite = new SiemensFetchWriteNet(nodeSiemens.IpAddress, nodeSiemens.Port);
                siemensFetchWrite.ConnectTimeOut = nodeSiemens.ConnectTimeOut;
                ReadWriteDevice = siemensFetchWrite;
                ByteTransform   = siemensFetchWrite.ByteTransform;
                UniqueId        = siemensFetchWrite.ConnectionId;
            }
            else
            {
                isS7Net = true;
                if (nodeSiemens.PlcType == NodeSiemens.PLC300)
                {
                    siemensS7Net = new SiemensS7Net(SiemensPLCS.S300);
                }
                else if (nodeSiemens.PlcType == NodeSiemens.PLC1200)
                {
                    siemensS7Net = new SiemensS7Net(SiemensPLCS.S1200);
                }
                else if (nodeSiemens.PlcType == NodeSiemens.PLC1500)
                {
                    siemensS7Net = new SiemensS7Net(SiemensPLCS.S1500);
                }
                else if (nodeSiemens.PlcType == NodeSiemens.PLC200Smart)
                {
                    siemensS7Net = new SiemensS7Net(SiemensPLCS.S200Smart);
                }
                else
                {
                    siemensS7Net = new SiemensS7Net(SiemensPLCS.S1200);
                }

                siemensS7Net.IpAddress      = nodeSiemens.IpAddress;
                siemensS7Net.ConnectTimeOut = nodeSiemens.ConnectTimeOut;
                ByteTransform   = siemensS7Net.ByteTransform;
                ReadWriteDevice = siemensS7Net;
                UniqueId        = siemensS7Net.ConnectionId;
            }


            TypeName = "西门子设备";
        }
Exemplo n.º 6
0
 public override void DeviceConn(SiemensFetchWriteConfig config)
 {
     siemensFWNet = new SiemensFetchWriteNet();
     if (!System.Net.IPAddress.TryParse(config.IP, out System.Net.IPAddress address))
     {
         throw new Exception("IpAddress input wrong");
     }
     siemensFWNet.IpAddress = config.IP;
     siemensFWNet.Port      = config.Port;
     try
     {
         OperateResult connect = siemensFWNet.ConnectServer();
         if (!connect.IsSuccess)
         {
             throw new Exception("Connect Failed");
         }
     }
     catch (Exception ex)
     {
         Console.WriteLine(ex.Message);
     }
 }
        public void ClassTest2( )
        {
            #region Usage2

            // 实例化对象,指定PLC的ip地址和端口号
            SiemensFetchWriteNet siemens = new SiemensFetchWriteNet(" 192.168.1.110", 2000);

            // 连接对象
            OperateResult connect = siemens.ConnectServer( );
            if (!connect.IsSuccess)
            {
                Console.WriteLine("connect failed:" + connect.Message);
                return;
            }

            // 举例读取M100的值
            short D100 = siemens.ReadInt16("M100").Content;

            siemens.ConnectClose( );

            #endregion
        }
        public void ReadExample2( )
        {
            #region ReadExample2

            SiemensFetchWriteNet siemens = new SiemensFetchWriteNet(" 192.168.1.110", 2000);

            OperateResult <byte[]> read = siemens.Read("M100", 4);
            if (read.IsSuccess)
            {
                float temp  = siemens.ByteTransform.TransInt16(read.Content, 0) / 10f;
                float press = siemens.ByteTransform.TransInt16(read.Content, 2) / 100f;
                int   count = siemens.ByteTransform.TransInt32(read.Content, 2);

                // do something
            }
            else
            {
                // failed
            }


            #endregion
        }
 public FormSiemensFW( )
 {
     InitializeComponent( );
     siemensFWNet = new SiemensFetchWriteNet( );
 }