public void OpenCloseTest() { using (MpsseDevice mpsse = new FT2232H("")) { SpiDevice spi = new SpiDevice(mpsse); } }
private static void DisableLine(FT2232H mpsse) { FtdiPin PinDirection = (FtdiPin)(FtdiPin.TCK | FtdiPin.TDI | FtdiPin.TMS | FtdiPin.GPIOL0 | FtdiPin.GPIOL1); FtdiPin PinState = (FtdiPin)(FtdiPin.CS | FtdiPin.GPIOL0 | FtdiPin.GPIOL1); mpsse.SetDataBitsLowByte(PinState, PinDirection); }
public void TransmitTest() { using (MpsseDevice mpsse = new FT2232H("")) { SpiDevice spi = new SpiDevice(mpsse); byte[] tData = { 0x0D, 0x01, 0x0F }; spi.write(tData); } }
static void Main(string[] args) { try { for (int repeat = 1; repeat < 11; repeat++) { SpocReaderData spocReaderData = new SpocReaderData(); List <byte> RawData = new List <byte>(); MpsseDevice.MpsseParams mpsseParams = new MpsseDevice.MpsseParams(); mpsseParams.clockDevisor = 1; UInt16 NumOfBytesToRead = 6500; String csvFilename = "ReadData_" + DateTime.Now.ToString("ddMMMyy--HH.mm.ss") + ".csv"; String xmlFilename = "ReadData_" + DateTime.Now.ToString("ddMMMyy--HH.mm.ss") + ".xml"; using (var mpsse = new FT2232H("", mpsseParams)) { // configure FTDI port for MPSSE Use mpsse.AdaptiveClocking = false; mpsse.ThreePhaseDataClocking = false; mpsse.ClkDivideBy5 = false; Stopwatch stopWatch = new Stopwatch(); stopWatch.Start(); while (stopWatch.ElapsedMilliseconds < 5000) { EnableLine(mpsse); var OutputData = mpsse.BytesInOnMinusEdgeWithMsbFirst(NumOfBytesToRead); DisableLine(mpsse); Console.Write("."); RawData.AddRange(OutputData); } int HighBit = 30; List <List <BinData> > ReadBuffer = TruncateData(RawData, HighBit); spocReaderData.RawFocusData = RawData.ToArray(); // write to files ReadInfo readInfo = new ReadInfo { readerData = spocReaderData, parameters = mpsseParams, numOfBytesToRead = NumOfBytesToRead }; //WriteToCsv(ReadBuffer[0], csvFilename); WriteToXML(readInfo, xmlFilename); } } } catch (Exception ex) { Console.WriteLine("Error: " + ex.Message); } }
public void LoopbackTest() { using (MpsseDevice mpsse = new FT2232H("")) { SpiDevice spi = new SpiDevice(mpsse); mpsse.Loopback = true; byte[] tData = { 0x0A, 0x01, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0xFF }; byte[] rData = spi.readWrite(tData); Assert.IsTrue(tData.SequenceEqual(rData)); } }
public void Read() { Random r = new Random(); const uint size = 60000; using (MpsseDevice mpsse = new FT2232H("")) { SpiDevice spi = new SpiDevice(mpsse); mpsse.Loopback = true; byte[] rData = mpsse.read(); Assert.AreNotEqual(rData.Length, 0); } }
public void LoopbackBigTest() { Random r = new Random(); MpsseDevice.MpsseParams mpsseParams = new MpsseDevice.MpsseParams(); mpsseParams.clockDevisor = 0; //mpsseParams.DataWriteEvent = new FtdiDevice.DataTransferEvent(); const uint size = 60000; using (MpsseDevice mpsse = new FT2232H("", mpsseParams)) { SpiDevice spi = new SpiDevice(mpsse); mpsse.Loopback = true; byte[] tData = new byte[size]; r.NextBytes(tData); byte[] rData = spi.readWrite(tData); Assert.IsTrue(tData.SequenceEqual(rData)); } }