/// <summary>
/// Gonfigs the GPTC setting.
/// </summary>
/// <returns>System.Int16.</returns>
/// <exception cref="InvalidOperationException">
/// GPTC_Clear Fail, error: " + err
/// or
/// GPTC_Setup Fail, error: " + err
/// or
/// GPTC_Control Fail, error: " + err
/// or
/// GPTC_9524_SetCombineEcdData Fail, error: " + err
/// </exception>
private short GonfigGPTC()
{
short err = DASK.NoError;
// GPTC Setup
for (int i = 0; i < gptcCtrl.GPTCNum; i++)
{
err = DASK.GPTC_Clear(GetHandle(), gptcCtrl.GCtr[i]);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Clear Fail, error: " + err);
}
err = DASK.GPTC_Setup(GetHandle(), gptcCtrl.GCtr[i], gptcCtrl.Mode, 0, 0, 0, 0);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Setup Fail, error: " + err);
}
err = DASK.GPTC_Control(GetHandle(), gptcCtrl.GCtr[i], gptcCtrl.GPTC_Ctrl_ParmeID[i], 1);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Control Fail, error: " + err);
}
}
if (gptcCtrl.SetCombined)
{
err = DASK.GPTC_9524_SetCombineEcdData(GetHandle(), true);
if (err < 0)
{
throw new InvalidOperationException("GPTC_9524_SetCombineEcdData Fail, error: " + err);
}
}
return(err);
}
static void Main(string[] args)
{
short err;
ushort card_num = 0;
short card;
uint ReadCount = 60;
ushort Group = 0; // Load Cell Channel Group
ushort XMode = DASK.P9524_AI_XFER_DMA;
ushort ADC_Range = 0;
ushort ADC_SampRate = DASK.P9524_ADC_60_SPS;
ushort ConfigCtrl = DASK.P9524_VEX_Range_10V | DASK.P9524_AI_BufAutoReset;
ushort TrigCtrl = 0;
uint dwTrigValue = 0;
ushort GCtr0 = DASK.P9524_CTR_QD0;
ushort Mode = DASK.P9524_x4_AB_Phase_Decoder;
ushort Channel = DASK.P9524_AI_LC_CH0;
byte Stopped = 0;
byte HalfReady = 0;
uint AccessCnt;
int viewidx = 0;
ushort overrunFlag = 0;
double ActualRate;
IntPtr BufPtr1;
ushort BufID1;
IntPtr BufPtr2;
ushort BufID2;
double[] voltageArray = new double[ReadCount];
ushort DFStage = 2;
uint SPKRejThreshold = 16;
StreamWriter sw = new StreamWriter("acq.csv");
BufPtr1 = Marshal.AllocHGlobal((int)(sizeof(uint) * (ReadCount)));
BufPtr2 = Marshal.AllocHGlobal((int)(sizeof(uint) * (ReadCount)));
card = DASK.Register_Card(DASK.PCI_9524, card_num);
if (card < 0)
{
throw new InvalidOperationException("DSA_Register_Card Fail, error: " + card);
}
//Enable Decoder0
err = DASK.GPTC_Clear((ushort)card, GCtr0);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Clear Fail, error: " + err);
}
err = DASK.GPTC_Setup((ushort)card, GCtr0, Mode, 0, 0, 0, 0);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Setup Fail, error: " + err);
}
//apply parameter 4 to "2" to combine data to AI
err = DASK.GPTC_Control((ushort)card, GCtr0, DASK.P9524_CTR_Enable, 2);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Control Fail, error: " + err);
}
err = DASK.AI_AsyncDblBufferMode((ushort)card, true);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferMode Fail, error: " + err);
}
/*In Double Buffer Mode, you should setup two buffers*/
err = DASK.AI_ContBufferSetup((ushort)card, BufPtr1, ReadCount, out BufID1);
if (err < 0)
{
throw new InvalidOperationException("AI_ContBufferSetup Fail, error: " + err);
}
err = DASK.AI_ContBufferSetup((ushort)card, BufPtr2, ReadCount, out BufID2);
if (err < 0)
{
throw new InvalidOperationException("AI_ContBufferSetup Fail, error: " + err);
}
/*Load Cell Group*/
/*Set DSP - it is necessary fot Load Cell Group*/
err = DASK.AI_9524_SetDSP((ushort)card, Channel, DASK.P9524_SPIKE_REJ_ENABLE, DFStage, (ushort)SPKRejThreshold);
if (err < 0)
{
throw new InvalidOperationException("AI_9524_SetDSP Fail, error: " + err);
}
err = DASK.AI_9524_Config((ushort)card, Group, XMode, ConfigCtrl, TrigCtrl, (ushort)dwTrigValue);
if (err < 0)
{
throw new InvalidOperationException("AI_9524_Config Fail, error: " + err);
}
Console.WriteLine("\nPress any key to start AI Infinite Acquisition\n");
Console.ReadKey(true);
Console.WriteLine("\nYou can press any key to stop...\n\n");
err = DASK.AI_ContReadChannel((ushort)card, Channel, ADC_Range, new ushort[] { BufID1 }, ReadCount, ADC_SampRate, DASK.ASYNCH_OP);
if (err < 0)
{
throw new InvalidOperationException("AI_ContReadChannel Fail, error: " + err);
}
do
{
err = DASK.AI_AsyncDblBufferHalfReady((ushort)card, out HalfReady, out Stopped);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferHalfReady Fail, error: " + err);
}
System.Threading.Thread.Sleep(1);
if (HalfReady == 1)
{
if (viewidx == 0)
{
Console.WriteLine("Buffer 1 HalfReady, Process the data of Buffer 1\n");
/*Process buffer 1 data*/
DASK.AI_ContVScale((ushort)card, ADC_Range, BufPtr1, voltageArray, (int)ReadCount);
for (int j = 0; j < ReadCount; j = j + 2)
{
//fprintf(fin, "AI0:,%13.9f,2's Complement Decoder Valuse:, %d\n", voltageArray[i], (int)(Buffer1[i + 1] * 256) / 256);
sw.WriteLine(voltageArray[j] + "," + (int)(((uint *)(void *)BufPtr1)[j + 1] * 256) / 256);
}
viewidx = 1;
/*Tell the driver you complete the buffer 1 process*/
err = DASK.AI_AsyncDblBufferHandled((ushort)card);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferHandled Fail, error: " + err);
}
}
else
{
Console.WriteLine("Buffer 2 HalfReady, Process the data of Buffer 2\n");
/*Process buffer 2 data*/
DASK.AI_ContVScale((ushort)card, ADC_Range, BufPtr2, voltageArray, (int)ReadCount);
for (int j = 0; j < ReadCount; j = j + 2)
{
//fprintf(fin, "AI0:,%13.9f,2's Complement Decoder Valuse:, %d\n", voltageArray[i], (int)(Buffer1[i + 1] * 256) / 256);
sw.WriteLine(voltageArray[j] + "," + (int)(((uint *)(void *)BufPtr2)[j + 1] * 256) / 256);
}
viewidx = 0;
/*Tell the driver you complete the buffer 2 process*/
err = DASK.AI_AsyncDblBufferHandled((ushort)card);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferHandled Fail, error: " + err);
}
}
// This function can check if the overrun occurs. If the
// function is called, AI_AsyncDblBufferHandled() should
// be called to let driver to know user buffer is processed
// completely
err = DASK.AI_AsyncDblBufferOverrun((ushort)card, 0, out overrunFlag);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferOverrun Fail, error: " + err);
}
if (overrunFlag != 0)
{
Console.WriteLine("OVERRUN:\n" + overrunFlag);
DASK.AI_AsyncDblBufferOverrun((ushort)card, 1, out overrunFlag);
}
}
} while ((Stopped == 0) && (Console.KeyAvailable == false));
DASK.GetActualRate_9524((ushort)card, Group, ADC_SampRate, out ActualRate);
Console.WriteLine("\n\nGeneral Purpose Channel 0 Acquisition Done in " + ActualRate + "Hz");
Console.WriteLine("The acquired data stored in acq.dat\n");
/*Clear AI setting while existing*/
err = DASK.AI_AsyncClear((ushort)card, out AccessCnt);
if (err < 0)
{
Console.WriteLine("AI_AsyncClear Error:" + err + "\n");
DASK.AI_ContBufferReset((ushort)card);
DASK.Release_Card((ushort)card);
}
if ((ConfigCtrl & DASK.P9524_AI_BufAutoReset) == 0)
{
err = DASK.AI_ContBufferReset((ushort)card);
if (err < 0)
{
throw new InvalidOperationException("AI_ContBufferReset Fail, error: " + err);
}
}
DASK.GPTC_Clear((ushort)card, GCtr0);
DASK.Release_Card((ushort)card);
Console.Write("Press any key to save data . . .");
sw.Close();
Console.ReadKey(true);
}
/// <summary>
/// Gets the load cell offset.
/// Use this function to get an average of offset when load cell is in steady status
/// </summary>
/// <returns>System.Double.</returns>
/// <exception cref="InvalidOperationException">
/// AI_AsyncDblBufferMode Fail, error: " + err
/// or
/// AI_ContBufferSetup Fail, error: " + err
/// or
/// GetLoadCellOffset SetDSP Fail, error: " + err
/// or
/// AI_ContScanChannels Fail, error: " + err
/// </exception>
public double GetLoadCellOffset()
{
double offset = 0.0;
short err = -1;
IntPtr OffsetCalBf;
double[] OffsetVolbuf;
uint calSampleNum = 512;
ushort BufID;
OffsetCalBf = Marshal.AllocHGlobal((int)(sizeof(uint) * calSampleNum));
OffsetVolbuf = new double[((int)calSampleNum)];
///////Disable fun of AI data combined with enconder, otherwise the caculated offset is going to BOOM
err = DASK.GPTC_9524_SetCombineEcdData(GetHandle(), false);
if (err < 0)
{
throw new InvalidOperationException("GPTC_9524_SetCombineEcdData Fail, error: " + err);
}
for (int i = 0; i < gptcCtrl.GPTCNum; i++)
{
err = DASK.GPTC_Clear(GetHandle(), gptcCtrl.GCtr[i]);
if (err < 0)
{
throw new InvalidOperationException("GPTC_Clear Fail, error: " + err);
}
}
///////
err = DASK.AI_AsyncDblBufferMode((ushort)GetHandle(), false);
if (err < 0)
{
throw new InvalidOperationException("AI_AsyncDblBufferMode Fail, error: " + err);
}
err = DASK.AI_ContBufferSetup((ushort)GetHandle(), OffsetCalBf, calSampleNum, out BufID);
if (err < 0)
{
throw new InvalidOperationException("AI_ContBufferSetup Fail, error: " + err);
}
err = SetDSP();
if (err < 0)
{
throw new InvalidOperationException("GetLoadCellOffset SetDSP Fail, error: " + err);
}
// Start Acquisition. The acquired raw data will be stored in the set buffer.
//ushort ADC_SampRate = DASK.P9524_ADC_2K_SPS;
err = DASK.AI_ContScanChannels((ushort)GetHandle(), config_para.ai_select_channel, config_para.ai_chnl_range, new ushort[] { BufID }, calSampleNum, config_para.ai_sample_rate, DASK.SYNCH_OP);
if (err < 0)
{
throw new InvalidOperationException("AI_ContScanChannels Fail, error: " + err);
}
DASK.AI_ContVScale(GetHandle(), config_para.ai_chnl_range, OffsetCalBf, OffsetVolbuf, (int)calSampleNum);
for (int i = 0; i < calSampleNum; i++)
{
offset = offset + OffsetVolbuf[i];
}
offset = offset / calSampleNum;
DASK.AI_ContBufferReset(GetHandle());
uint ai_access_cnt;
DASK.AI_AsyncClear(GetHandle(), out ai_access_cnt);
return(offset);
}