Example #1
0
        public TPCANStatus Init()
        {
            TPCANStatus   result;
            StringBuilder strMsg;

            result = PCANBasic.Initialize(mChannel, mBaudrate);

            if (result != TPCANStatus.PCAN_ERROR_OK)
            {
                strMsg = new StringBuilder(256);
                PCANBasic.GetErrorText(result, 0, strMsg);
                MessageBox.Show(strMsg.ToString());
            }
            else
            {
                MessageBox.Show("PCAN-USB was initialized successfully!");

                // Turn the power source oparationa on
                byte[] data = { 0x01, mDeviceId };
                Write("000", data);

                //
                data    = new byte[8];
                data[0] = 0x02;
                Write("202", data);
                StartTimers();
            }

            return(result);
        }
Example #2
0
        public bool Open([Implicit] ICallContext context)
        {
            if (!m_open)
            {
                TPCANStatus result = PCANBasic.Initialize(m_handle, ToPCANBaudrate(m_baudrate), TPCANType.PCAN_TYPE_ISA, 0, 0);
                if (this.UpdateStatusFromOperation(result) == TPCANStatus.PCAN_ERROR_OK)
                {
                    if (context != null && context.LoggingEnabled)
                    {
                        context.Logger.Log("Open", "Opened successfully");
                    }
                    m_open = true;

                    if (m_receiverThread == null)
                    {
                        m_receiverThread = new Thread(new ThreadStart(this.ReceiveThreadHandler));
                        m_receiverThread.Start();
                        //Core.Main.ServiceManager.Get<>
                    }

                    return(true);
                }
                else
                {
                    if (context != null)
                    {
                        context.Logger.LogError("PCAN", "Open failed");
                    }
                }
            }
            return(false);
        }
Example #3
0
        private void Initialize_Click(object sender, EventArgs e)
        {
            TPCANStatus stsResult;

            PCANBasic.Uninitialize(m_PcanHandle);

            stsResult = PCANBasic.Initialize(m_PcanHandle, m_Baudrate, m_HwType, Convert.ToUInt32(0x04),
                                             Convert.ToUInt16(3));

            if (stsResult != TPCANStatus.PCAN_ERROR_OK)
            {
                MessageBox.Show(Convert.ToString(stsResult));
            }
            else
            {
                MessageBox.Show("Connection Successful!");
                boardVoltageTimer          = new System.Timers.Timer(350);
                boardVoltageTimer.Elapsed += boardVoltage_thread;
                boardVoltageTimer.Enabled  = true;

                statusUpdateTimer          = new System.Timers.Timer(100);
                statusUpdateTimer.Elapsed += statusUpdate_;
                statusUpdateTimer.Enabled  = true;

                chnlSwitchTimer          = new System.Timers.Timer(100);
                chnlSwitchTimer.Elapsed += chnlSwitchThread;
                chnlSwitchTimer.Enabled  = true;

                toggleSwitch1.Enabled  = false;;
                porSWITCH.Enabled      = false;
                crntRatingTBar.Enabled = false;
                Initialize.Enabled     = false;
            }
        }
Example #4
0
File: PCAN.cs Project: fbstj/lib.cs 
 public PCAN(Ports device, long baudrate)
 {
     iface   = device;
     Bitrate = baudrate;
     PCANBasic.Initialize((byte)iface, baud);
     rx = new Thread(_read);
     rx.IsBackground = true;
     rx.Start();
 }
Example #5
0
        public void Open(Baudrate speed)
        {
            TPCANBaudrate bitrate;

            switch (speed)
            {
            case Baudrate.Baudrate5000:
                bitrate = TPCANBaudrate.PCAN_BAUD_5K;
                break;

            case Baudrate.Baudrate10000:
                bitrate = TPCANBaudrate.PCAN_BAUD_10K;
                break;

            case Baudrate.Baudrate20000:
                bitrate = TPCANBaudrate.PCAN_BAUD_20K;
                break;

            case Baudrate.Baudrate50000:
                bitrate = TPCANBaudrate.PCAN_BAUD_50K;
                break;

            case Baudrate.Baudrate100000:
                bitrate = TPCANBaudrate.PCAN_BAUD_100K;
                break;

            case Baudrate.Baudrate125000:
                bitrate = TPCANBaudrate.PCAN_BAUD_125K;
                break;

            case Baudrate.Baudrate250000:
                bitrate = TPCANBaudrate.PCAN_BAUD_250K;
                break;

            case Baudrate.Baudrate500000:
                bitrate = TPCANBaudrate.PCAN_BAUD_500K;
                break;

            case Baudrate.Baudrate800000:
                bitrate = TPCANBaudrate.PCAN_BAUD_800K;
                break;

            case Baudrate.Baudrate1000000:
                bitrate = TPCANBaudrate.PCAN_BAUD_1M;
                break;

            default:
                throw new Exception("Invalid baudrate.");
            }

            var ret = PCANBasic.Initialize(Channel, bitrate);

            CheckError(ret);
        }
Example #6
0
        /*
         * The handle of a PCAN Channel (see TPCANHandle).
         * Btr0Btr1  The speed for the communication (BTR0BTR1 code).
         * HwType  The type of hardware and operation mode (see TPCANMode).
         * IOPort  The I/O address for the parallel port.
         * Interrupt  Interrupt number of the parallel port
         */
        public void Btn_connectCAN_Click(object sender, EventArgs e)
        {
            TPCANStatus stsResult;


            //CAN/LIN0
            m_PcanHandle = Convert.ToByte("51", 16);
            stsResult    = PCANBasic.Initialize(
                m_PcanHandle,
                TPCANBaudrate.PCAN_BAUD_250K);
            //250kbs

            /*if(appCANbaudrate.SelectedIndex==0){
             *  stsResult = PCANBasic.Initialize(
             *           m_PcanHandle,
             *           TPCANBaudrate.PCAN_BAUD_250K);
             * }else {
             *  stsResult = PCANBasic.Initialize(
             *           m_PcanHandle,
             *           TPCANBaudrate.PCAN_BAUD_500K);
             *
             * }*/



            if (stsResult != TPCANStatus.PCAN_ERROR_OK)
            {
                MessageBox.Show(GetFormatedError(stsResult));
            }
            else
            {
                // Prepares the PCAN-Basic's PCAN-Trace file
                //
                //ConfigureTraceFile();
                // Display messages in grid
                //
                tmrDisplay.Enabled = true;
            }
            tmrRead.Enabled         = true;
            btnSaveSettings.Enabled = true;
            btnReleseCAN.Enabled    = true;
            Btn_connectCAN.Enabled  = false;


            IncludeTextMessage("CAN connected");
            // Sets the connection status of the main-form
            //
            //SetConnectionStatus(stsResult == TPCANStatus.PCAN_ERROR_OK);
        }
Example #7
0
 private void btnConnect_Click(object sender, RoutedEventArgs e)
 {
     stsResult = PCANBasic.Initialize(m_PcanHandle, m_Baudrate, m_HwType, Convert.ToUInt32("0100", 16), 3);
     if (stsResult == TPCANStatus.PCAN_ERROR_OK)
     {
         btnConnect.IsEnabled = false;
         cbDevice.IsEnabled   = false;
         cbBaudRate.IsEnabled = false;
         btnRefresh.IsEnabled = false;
         tbAlarmLog.Text     += "Device was successfully configured\n";
     }
     else
     {
         tbAlarmLog.Text += $"{stsResult}\n";
     }
 }
Example #8
0
        /// <summary>
        /// Inits the can bus channel.
        /// </summary>
        private void initCanBusChannel()
        {
            UInt32      iBuffer;
            TPCANStatus stsResult;

            // Clears the Channel combioBox and fill it again with
            // the PCAN-Basic handles for no-Plug&Play hardware and
            // the detected Plug&Play hardware
            try
            {
                for (int i = 0; i < m_HandlesArray.Length; i++)
                {
                    // Checks for a Plug&Play Handle and, according with the return value, includes it
                    // into the list of available hardware channels.
                    stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_CHANNEL_CONDITION, out iBuffer, sizeof(UInt32));
                    if ((stsResult == TPCANStatus.PCAN_ERROR_OK) && (iBuffer == PCANBasic.PCAN_CHANNEL_AVAILABLE))
                    {
                        this._canChannel = m_HandlesArray[i];
                        break;
                    }
                }
            }
            catch (DllNotFoundException)
            {
                //MessageBox.Show("Unable to find the library: PCANBasic.dll !", "Error", MessageBoxButtons.OK, MessageBoxIcon.Error);
                Environment.Exit(-1);
            }
            catch (Exception ee)
            {
                Console.WriteLine(ee.Message);
            }

            if (this._canChannel > 0)
            {
                // Connects a selected PCAN-Basic channel
                stsResult = PCANBasic.Initialize(this._canChannel, m_Baudrate, TPCANType.PCAN_TYPE_ISA, 0, 0); //no use this line parameters
                if (stsResult != TPCANStatus.PCAN_ERROR_OK)
                {
                    isConnectToCanbus = false;
                }
                else
                {
                    isConnectToCanbus = true;
                }
            }
        }
Example #9
0
File: PCAN.cs Project: fbstj/lib.cs 
        /// <summary>Enmerate all ports, and their USB Device Number</summary>
        public static List <Ports> All()
        {
            var         all = new List <Ports>();
            uint        fff = 0;
            TPCANStatus status;

            foreach (Ports d in Enum.GetValues(typeof(Ports)))
            {
                PCANBasic.Initialize((byte)d, TPCANBaudrate.PCAN_BAUD_1M);
                status = PCANBasic.GetValue((byte)d, TPCANParameter.PCAN_DEVICE_NUMBER, out fff, 1);
                if (status != TPCANStatus.PCAN_ERROR_INITIALIZE)
                {
                    all.Add(d);
                }
                PCANBasic.Uninitialize((byte)d);
            }
            return(all);
        }
Example #10
0
        //private void btnInit_Click(object sender, EventArgs e)

        /*
         * strBitrate 波特率
         *
         */
        private bool PCAN_Init(string strBitrate)
        {
            bool bInitRet = false;

            m_PcanHandle = Convert.ToUInt16("51", 16);
            m_Baudrate   = TPCANBaudrate.PCAN_BAUD_500K;
            m_HwType     = TPCANType.PCAN_TYPE_ISA;

            TPCANStatus stsResult;

            // Connects a selected PCAN-Basic channel
            //
            if (m_IsFD)
            {
                stsResult = PCANBasic.InitializeFD(m_PcanHandle, strBitrate);
            }
            else
            {
                stsResult = PCANBasic.Initialize(
                    m_PcanHandle,
                    m_Baudrate,
                    m_HwType,
                    256,  // Convert.ToUInt32(strIO, 16),
                    3);   // Convert.ToUInt16(strInterrupt));
            }
            if (stsResult != TPCANStatus.PCAN_ERROR_OK)
            {
                if (stsResult != TPCANStatus.PCAN_ERROR_CAUTION)
                {
                    //MessageBox.Show(GetFormatedError(stsResult));
                    bInitRet = false;
                }
            }
            else
            {
                // Prepares the PCAN-Basic's PCAN-Trace file
                bInitRet = true;
            }

            return(bInitRet);
        }
Example #11
0
        public TPCANStatus connect(TPCANHandle handler, TPCANBaudrate baudrate, TPCANType type, UInt32 io, UInt16 interrupt)
        {
            TPCANStatus stsResult;

            m_PcanHandle = handler;

            // Connects a selected PCAN-Basic channel
            //
            stsResult = PCANBasic.Initialize(
                m_PcanHandle,
                baudrate,
                type,
                io,
                interrupt);

            readCanTimer = new Timer(50);
            readCanTimer.Start();
            readCanTimer.Elapsed += OnTimedEvent;

            return(stsResult);
        }
Example #12
0
        public bool OpenCan(short Channel, int ID, short Speed, bool m_IsFD = false)
        {
#if PROGRAM_RUNNING
            TPCANStatus stsResult;
            UInt32      iBuffer;

            //-----------------------------[ Init can board ]
            // Connects a selected PCAN-Basic channel
            //
            try
            {
                try
                {
                    m_PcanHandle[Channel] = (byte)ID;

                    switch (Speed)
                    {
                    case 0: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_5K; break;

                    case 1: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_10K; break;

                    case 2: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_20K; break;

                    case 3: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_33K; break;

                    case 4: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_47K; break;

                    case 5: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_50K; break;

                    case 6: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_83K; break;

                    case 7: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_95K; break;

                    case 8: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_100K; break;

                    case 9: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_125K; break;

                    case 10: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_250K; break;

                    case 11: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_500K; break;

                    case 12: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_800K; break;

                    case 13: m_Baudrate[Channel] = TPCANBaudrate.PCAN_BAUD_1M; break;
                    }
                    if (m_IsFD)
                    {
                        string s = "f_clock_mhz = 20,nom_brp = 5,nom_tseg1 = 2,nom_tseg2 = 1,nom_sjw = 1,data_brp = 2,data_tseg1 = 3, data_tseg2 = 1,data_sjw = 1";
                        stsResult = PCANBasic.InitializeFD(
                            m_PcanHandle[Channel],
                            s);
                    }
                    else
                    {
                        //m_HwType = TPCANType.PCAN_TYPE_ISA;

                        stsResult = PCANBasic.Initialize(
                            m_PcanHandle[Channel],
                            m_Baudrate[Channel],
                            m_HwType[Channel],
                            0x100,
                            3);
                    }
                    if (stsResult != TPCANStatus.PCAN_ERROR_OK)
                    {
                        uMessageBox.Show(promptText: GetFormatedError(stsResult), title: "경고"); //MessageBox.Show(GetFormatedError(stsResult));
                    }
                    else
                    {
                        // Prepares the PCAN-Basic's PCAN-Trace file
                        //
                        ConfigureTraceFile((short)Channel);
                    }


                    //-----------------------------[ Open can board ]
                    // Gets the current status of the message filter
                    //
                    if (!GetFilterStatus((short)Channel, out iBuffer))
                    {
                        return(false);
                    }

                    // The filter will be full opened or complete closed
                    //
                    iBuffer = PCANBasic.PCAN_FILTER_OPEN;

                    // The filter is configured
                    //
                    stsResult = PCANBasic.SetValue(
                        m_PcanHandle[Channel],
                        TPCANParameter.PCAN_MESSAGE_FILTER,
                        ref iBuffer,
                        sizeof(UInt32));

                    // If success, an information message is written, if it is not, an error message is shown
                    //

                    if (stsResult == TPCANStatus.PCAN_ERROR_OK)
                    {
                        Open[Channel] = true;
                    }
                    else
                    {
                        Open[Channel] = false;
                    }

                    if (stsResult == TPCANStatus.PCAN_ERROR_OK)
                    {
                        return(true);
                    }
                    else
                    {
                        uMessageBox.Show(promptText: GetFormatedError(stsResult), title: "경고");  //MessageBox.Show(GetFormatedError(stsResult));
                    }
                }
                catch (Exception Msg)
                {
                    //MessageBox.Show(Msg.Message + "\n" + Msg.StackTrace);
                    uMessageBox.Show(promptText: Msg.Message + "\n" + Msg.StackTrace, title: "경고"); //MessageBox.Show(GetFormatedError(stsResult));
                }
            }
            finally
            {
            }
            return(false);
#else
            return(true);
#endif
        }
Example #13
0
        private void GetHwInfor()
        {
            UInt32        iBuffer;
            TPCANStatus   stsResult;
            bool          isFD;
            UInt32        Ch;
            UInt32        DeviceCh;
            StringBuilder HwName = new StringBuilder();

            //StringBuilder HwDevice = new StringBuilder();

            // Clears the Channel combioBox and fill it again with
            // the PCAN-Basic handles for no-Plug&Play hardware and
            // the detected Plug&Play hardware
            //
            CanList.Clear();
            try
            {
                for (int i = 0; i < m_HandlesArray.Length; i++)
                {
                    // Includes all no-Plug&Play Handles
                    if (m_HandlesArray[i] <= PCANBasic.PCAN_DNGBUS1)
                    {
                        CanList.Add(FormatChannelName(m_HandlesArray[i]));
                    }
                    else
                    {
                        // Checks for a Plug&Play Handle and, according with the return value, includes it
                        // into the list of available hardware channels.
                        //
                        stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_CHANNEL_CONDITION, out iBuffer, sizeof(UInt32));
                        if ((stsResult == TPCANStatus.PCAN_ERROR_OK) && ((iBuffer & PCANBasic.PCAN_CHANNEL_AVAILABLE) == PCANBasic.PCAN_CHANNEL_AVAILABLE))
                        {
                            stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_CONTROLLER_NUMBER, out Ch, sizeof(UInt32));
                            stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_HARDWARE_NAME, HwName, 20);
                            stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_CHANNEL_FEATURES, out iBuffer, sizeof(UInt32));
                            isFD      = (stsResult == TPCANStatus.PCAN_ERROR_OK) && ((iBuffer & PCANBasic.FEATURE_FD_CAPABLE) == PCANBasic.FEATURE_FD_CAPABLE);

                            if (isFD)
                            {
                                string s = "f_clock_mhz = 20,nom_brp = 5,nom_tseg1 = 2,nom_tseg2 = 1,nom_sjw = 1,data_brp = 2,data_tseg1 = 3, data_tseg2 = 1,data_sjw = 1";
                                stsResult = PCANBasic.InitializeFD(
                                    m_HandlesArray[i],
                                    s);
                            }
                            else
                            {
                                //m_HwType = TPCANType.PCAN_TYPE_ISA;

                                stsResult = PCANBasic.Initialize(
                                    m_HandlesArray[i],
                                    m_Baudrate[i],
                                    m_HwType[i],
                                    0x100,
                                    3);
                            }
                            stsResult = PCANBasic.GetValue(m_HandlesArray[i], TPCANParameter.PCAN_DEVICE_NUMBER, out DeviceCh, sizeof(UInt32));
                            PCANBasic.Uninitialize(m_HandlesArray[i]);
                            //CanList.Add(FormatChannelName(m_HandlesArray[i], isFD, (Int32)Ch));

                            CanList.Add(FormatChannelName(m_HandlesArray[i], isFD, (Int32)Ch, HwName.ToString(), DeviceCh));
                        }
                    }
                }
            }
            catch (DllNotFoundException)
            {
                //MessageBox.Show("Unable to find the library: PCANBasic.dll !", "Error!"/*, System.Windows.Forms.MessageBoxButtons.OK, System.Windows.Forms.MessageBoxIcon.Error*/);
                uMessageBox.Show(title: "Error!", "Unable to find the library: PCANBasic.dll !"); //MessageBox.Show(GetFormatedError(stsResult));
                //Environment.Exit(-1);
            }
            return;
        }
Example #14
0
        public PeakCan(int p_peak_id, TPCANBaudrate p_baud_rate = TPCANBaudrate.PCAN_BAUD_1M)
        {
            TPCANStatus status;
            uint        condition;
            uint        device_id;

            foreach (TPCANHandle channel in USB_CHANNELS)
            {
                status = PCANBasic.GetValue(channel, TPCANParameter.PCAN_CHANNEL_CONDITION, out condition, sizeof(UInt32));
                if (status == TPCANStatus.PCAN_ERROR_OK && (condition & PCANBasic.PCAN_CHANNEL_AVAILABLE) == PCANBasic.PCAN_CHANNEL_AVAILABLE)
                {
                    status = PCANBasic.Initialize(channel, p_baud_rate);
                    if (status == TPCANStatus.PCAN_ERROR_OK)
                    {
                        status = PCANBasic.GetValue(channel, TPCANParameter.PCAN_DEVICE_NUMBER, out device_id, sizeof(UInt32));
                        if (status == TPCANStatus.PCAN_ERROR_OK && device_id == p_peak_id)
                        {
                            m_sock = channel;
                        }

                        PCANBasic.Uninitialize(channel);
                    }
                }
            }

            if (m_sock == 0)
            {
                throw new Exception($"PEAK CAN USB adapt with id 0x{p_peak_id:X} not found");
            }
            else
            {
                status = PCANBasic.Initialize(m_sock, p_baud_rate);

                if (status != TPCANStatus.PCAN_ERROR_OK)
                {
                    throw new Exception($"Error initializing CAN with id 0x{p_peak_id:X}");
                }

                status = PCANBasic.Reset(m_sock);
                if (status != TPCANStatus.PCAN_ERROR_OK)
                {
                    throw new Exception(GetFormatedError(status));
                }

                uint numeric_buffer = PCANBasic.PCAN_PARAMETER_ON;
                status = PCANBasic.SetValue(m_sock, TPCANParameter.PCAN_RECEIVE_EVENT, ref numeric_buffer, sizeof(UInt32));

                if (status != TPCANStatus.PCAN_ERROR_OK)
                {
                    throw new Exception(GetFormatedError(status));
                }

                status = PCANBasic.GetStatus(m_sock);
                if (status != TPCANStatus.PCAN_ERROR_OK)
                {
                    throw new Exception(GetFormatedError(status));
                }
            }

            m_queue_rx = new BlockingCollection <TPCANMsg>();
            m_queue_tx = new BlockingCollection <TPCANMsg>();

            m_thread_stop            = false;
            m_thread_rx              = new Thread(new ThreadStart(ReadRawFrame));
            m_thread_rx.IsBackground = true;
            m_thread_rx.Start();

            m_thread_tx = new Thread(new ThreadStart(WriteRawFrame));
            m_thread_tx.IsBackground = true;
            m_thread_tx.Start();
        }
Example #15
0
        private void btOpen_Click(object sender, EventArgs e)
        {
            switch (cbDevice.SelectedIndex)
            {
            case (int)CONNECTON_TYPES.USB:
                try
                {
                    serial.PortName = cbPort.SelectedItem.ToString();
                    serial.BaudRate = 115200;
                    serial.Open();
                    serial.DiscardInBuffer();
                    serial.DiscardOutBuffer();

                    System.Threading.Thread.Sleep(100);
                    serial.DtrEnable = true;
                    System.Threading.Thread.Sleep(100);
                    serial.DtrEnable = false;
                    System.Threading.Thread.Sleep(100);

                    this.Text = nazev_aplikace + " - " + serial.PortName.ToString();
                }
                catch (Exception x)
                {
                    MessageBox.Show(x.Message);
                    return;
                }
                break;


            case (int)CONNECTON_TYPES.PEAK:
                TPCANStatus stsResult;
                m_PcanHandle = 0x51;

                // Connects a selected PCAN-Basic channel
                //
                stsResult = PCANBasic.Initialize(
                    m_PcanHandle,
                    TPCANBaudrate.PCAN_BAUD_100K,
                    TPCANType.PCAN_TYPE_ISA,
                    (UInt32)100,
                    (UInt16)3);

                if (stsResult != TPCANStatus.PCAN_ERROR_OK)
                {
                    MessageBox.Show(GetFormatedError(stsResult));
                    return;
                }

                this.Text = nazev_aplikace + " - PEAK";
                tReader.Start();
                // Sets the connection status of the main-form
                //

                break;

            case (int)CONNECTON_TYPES.VSCP:
                vscp = new vscp_daemon_iface();
                if (!vscp.Open(tbIp.Text, 9598))
                {
                    MessageBox.Show("Server error!");
                    return;
                }
                if (!vscp.Login(tbUser.Text, tbPass.Text))
                {
                    MessageBox.Show("Login or password failure");
                    return;
                }
                tReader.Start();
                break;

            default:
                break;
            }



            btClose.Enabled = true;
            btOpen.Enabled  = false;
            btSend.Enabled  = true;
        }
Example #16
0
        /*---------------------------------------------------------------------------------------------------*/
        public bool startDevice()
        {
            TPCANStatus result1 = 0;

            //if (CANINDEX != 0 && CANINDEX != 1)
            //{
            //    MessageBox.Show("请指定设备参数");
            //    return false;
            //}
            if (Form_SetCANParam.form_setcan.checkCANFDMode.Checked == true)
            {
                result1 = PCANBasic.InitializeFD(PCAN_PARA1.PCANIndex, "f_clock_mhz=20, nom_brp=5, nom_tseg1=2, nom_tseg2=1, nom_sjw=1, data_brp=2, data_tseg1=3, data_tseg2=1, data_sjw=1");
            }
            else
            {
                result1 = PCANBasic.Initialize(PCAN_PARA1.PCANIndex, PCAN_PARA1.BTR0_1, TPCANType.PCAN_TYPE_ISA, 0x378, 3);
            }
            if (result1 == TPCANStatus.PCAN_ERROR_OK)
            {
                //MessageBox.Show("设备启动成功");
                switch (PCAN_PARA1.PCANIndex)
                {
                case 0x0051:
                    PCAN_COMMON_VAL.pcan_init_flag0 = 0x69;    //通道1初始化成功标志
                    break;

                case 0x0052:
                    PCAN_COMMON_VAL.pcan_init_flag1 = 0x69;    //通道1初始化成功标志}
                    break;

                case 0x0053:
                    PCAN_COMMON_VAL.pcan_init_flag2 = 0x69;    //通道1初始化成功标志
                    break;

                case 0x0054:
                    PCAN_COMMON_VAL.pcan_init_flag3 = 0x69;    //通道1初始化成功标志}
                    break;

                case 0x0055:
                    PCAN_COMMON_VAL.pcan_init_flag4 = 0x69;    //通道1初始化成功标志
                    break;

                case 0x0056:
                    PCAN_COMMON_VAL.pcan_init_flag5 = 0x69;    //通道1初始化成功标志}
                    break;

                case 0x0057:
                    PCAN_COMMON_VAL.pcan_init_flag6 = 0x69;    //通道1初始化成功标志
                    break;

                case 0x0058:
                    PCAN_COMMON_VAL.pcan_init_flag7 = 0x69;    //通道1初始化成功标志}
                    break;
                }
                if (Form_SetCANParam.form_setcan.checkCANFDMode.Checked == true)
                {
                    Form_BasicFunction.form_basic.checkEnableCANFD.Enabled = true;
                    Form_BasicFunction.form_basic.EnableCANFD_BRS.Enabled  = true;
                }
                else
                {
                    Form_BasicFunction.form_basic.checkEnableCANFD.Checked = false;
                    Form_BasicFunction.form_basic.checkEnableCANFD.Enabled = false;
                    Form_BasicFunction.form_basic.EnableCANFD_BRS.Enabled  = false;
                    Form_BasicFunction.form_basic.EnableCANFD_BRS.Checked  = false;
                }
                if (thread == null)
                //if(true)//方便连续直接打开设备
                {
                    thread = new Thread(receivingThread);
                    thread.Start();
                }
                IsOpen = true;
                return(true);
            }
            else
            {
                goto errorReporting;
            }

errorReporting:
            if (result1 == TPCANStatus.PCAN_ERROR_ILLHW)
            {
                MessageBox.Show("请插入PCAN-USB设备");
            }
            else
            {
                MessageBox.Show("PCAN-USB打开失败");
            }
            return(false);
        }