Exemplo n.º 1
0
 private void OpenReader()
 {
     PrintLn("Opening reader...");
     rdr = (SerialReader)Utilities.ConnectReader();
     //rdr = (SerialReader)Reader.Create("eapi:///" + serialPortName);
     rdr.ParamSet("/reader/baudRate", 9600);
     //rdr.Log += new SerialReader.LogHandler(rdr_Log);
     rdr.Connect();
     PrintLn("Opened reader on port " + Utilities.ReaderPortName);
 }
Exemplo n.º 2
0
        /// <summary>
        /// Full access contructor
        /// </summary>
        /// <param name="ComPortName"></param>
        /// <param name="ComBaudrate">Should be 115200. Other rates supported and listed in Mercury Docs</param>
        /// <param name="ReadOnTime">How long in milliseconds the reader is on before being turned off for ReadOffTime</param>
        /// <param name="ReadOffTime">How long in milliseconds the reader is off before being turned back on for ReadOnTime</param>
        /// <param name="ReadPower">Power in centi-dBm sent to the antennae. The max value is 3000 and should probably always be set to max</param>
        /// <param name="ReadTime">Total time the reader reads for when ReadTags() is called in milliseconds. If this value is more than
        ///                        60000 you begin to risk throttling due to overheating</param>
        public M6eMicroRFID(string ComPortName, int ComBaudrate, int ReadOnTime, int ReadOffTime, int ReadPower, int ReadTime)
        {
            SerialPort = new SerialPort(ComPortName, ComBaudrate);
            BaseReader = Reader.Create("eapi:///" + SerialPort.PortName);
            RFIDReader = (SerialReader)BaseReader;
            IsReading  = false;

            BaseReader.Connect();

            READER_ASYNC_ON_TIME  = ReadOnTime;
            READER_ASYNC_OFF_TIME = ReadOffTime;
            READER_READ_POWER     = ReadPower;
            READER_READ_TIME      = ReadTime;

            RFIDReader.ParamSet("/reader/region/id", Reader.Region.OPEN);           //Open Region
            RFIDReader.ParamSet("/reader/gen2/q", new Gen2.DynamicQ());             //This determines how many internal tag "slots" the reader is looking to fill
            RFIDReader.ParamSet("/reader/gen2/BLF", Gen2.LinkFrequency.LINK250KHZ); //Rate at which the tags signal back to the reader
            RFIDReader.ParamSet("/reader/gen2/tari", Gen2.Tari.TARI_6_25US);        //Controls how long it takes a tag to reader to send a communication
            RFIDReader.ParamSet("/reader/gen2/session", Gen2.Session.S1);           //Controls how often tags respond to inventory rounds
            RFIDReader.ParamSet("/reader/gen2/tagEncoding", Gen2.TagEncoding.M8);   //Controls how many times a signal is repeated so that far away tags still get the message.
            RFIDReader.ParamSet("/reader/gen2/target", Gen2.Target.A);              //This controls what order tags are read in. State A are tags which have not been read. State B are tags which have been read.
            RFIDReader.ParamSet("/reader/radio/readPower", READER_READ_POWER);
            RFIDReader.ParamSet("/reader/read/asyncOnTime", READER_ASYNC_ON_TIME);
            RFIDReader.ParamSet("/reader/read/asyncOffTime", READER_ASYNC_OFF_TIME);
            RFIDReader.ParamSet("/reader/read/plan", new SimpleReadPlan(new int[] { 1, 2, 3, 4 }, TagProtocol.GEN2));
        }
Exemplo n.º 3
0
 private void OpenReader()
 {
     PrintLn("Opening reader...");
     rdr = (SerialReader)Utilities.ConnectReader();
     //rdr = (SerialReader)Reader.Create("eapi:///" + serialPortName);
     rdr.ParamSet("/reader/baudRate", 9600);
     //rdr.Log += new SerialReader.LogHandler(rdr_Log);
     rdr.Connect();
     PrintLn("Opened reader on port " + Utilities.ReaderPortName);
 }