private void buttonStart_Click(object sender, EventArgs e)
{
uint status;
status = Imports.SetChannel(_handle, Imports.Channel.ChannelA, 1, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelB, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelC, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelD, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
short enable = 0;
uint delay = 0;
short threshold = 25000;
short auto = 0;
status = Imports.SetSimpleTrigger(_handle, enable, Imports.Channel.ChannelA, threshold, Imports.ThresholdDirection.Rising, delay, auto);
_ready = false;
_callbackDelegate = BlockCallback;
_channelCount = 4;
string data;
int x;
textMessage.Clear();
textData.Clear();
bool retry;
uint sampleCount = 1000;
PinnedArray <short>[] minPinned = new PinnedArray <short> [_channelCount];
PinnedArray <short>[] maxPinned = new PinnedArray <short> [_channelCount];
int timeIndisposed;
short[] minBuffers = new short[sampleCount];
short[] maxBuffers = new short[sampleCount];
minPinned[0] = new PinnedArray <short>(minBuffers);
maxPinned[0] = new PinnedArray <short>(maxBuffers);
status = Imports.SetDataBuffers(_handle, Imports.Channel.ChannelA, maxBuffers, minBuffers, (int)sampleCount, 0, Imports.RatioMode.None);
textMessage.AppendText("BlockData\n");
/* find the maximum number of samples, the time interval (in timeUnits),
* the most suitable time units, and the maximum _oversample at the current _timebase*/
int timeInterval;
int maxSamples;
while (Imports.GetTimebase(_handle, _timebase, (int)sampleCount, out timeInterval, out maxSamples, 0) != 0)
{
textMessage.AppendText("Timebase selection\n");
_timebase++;
}
textMessage.AppendText("Timebase Set\n");
/* Start it collecting, then wait for completion*/
_ready = false;
_callbackDelegate = BlockCallback;
do
{
retry = false;
status = Imports.RunBlock(_handle, 0, (int)sampleCount, _timebase, out timeIndisposed, 0, _callbackDelegate, IntPtr.Zero);
if (status == (short)StatusCodes.PICO_POWER_SUPPLY_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_NOT_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_UNDERVOLTAGE)
{
status = Imports.ChangePowerSource(_handle, status);
retry = true;
}
else
{
textMessage.AppendText("Run Block Called\n");
}
}while (retry);
textMessage.AppendText("Waiting for Data\n");
while (!_ready)
{
Thread.Sleep(100);
}
Imports.Stop(_handle);
if (_ready)
{
short overflow;
status = Imports.GetValues(_handle, 0, ref sampleCount, 1, Imports.DownSamplingMode.None, 0, out overflow);
if (status == (short)StatusCodes.PICO_OK)
{
textMessage.AppendText("Have Data\n");
for (x = 0; x < sampleCount; x++)
{
data = maxBuffers[x].ToString();
textData.AppendText(data);
textData.AppendText("\n");
}
}
else
{
textMessage.AppendText("No Data\n");
}
}
else
{
textMessage.AppendText("data collection aborted\n");
}
Imports.Stop(_handle);
foreach (PinnedArray <short> p in minPinned)
{
if (p != null)
{
p.Dispose();
}
}
foreach (PinnedArray <short> p in maxPinned)
{
if (p != null)
{
p.Dispose();
}
}
}
private void buttonStart_Click(object sender, EventArgs e)
{
uint status;
status = Imports.SetChannel(_handle, Imports.Channel.ChannelA, 1, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelB, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelC, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
status = Imports.SetChannel(_handle, Imports.Channel.ChannelD, 0, Imports.Coupling.PS5000A_DC, Imports.Range.Range_2V, 0);
short enable = 0;
uint delay = 0;
short threshold = 25000;
short auto = 0;
Imports.tPS5000ATriggerChannelPropertiesV2[] properties = new Imports.tPS5000ATriggerChannelPropertiesV2[1];
// status = Imports.SetSimpleTrigger(_handle, enable, Imports.Channel.ChannelA, threshold, Imports.ThresholdDirection.Rising, delay, auto);
properties[0].thresholdLower = 25000;
properties[0].thresholdUpper = 25000;
properties[0].hysteresisLower = 100;
properties[0].hysteresisUpper = 100;
properties[0].Channel = Imports.Channel.ChannelA;
Imports.tPS5000ACondition[] conditions = new Imports.tPS5000ACondition[1];
conditions[0].source = Imports.Channel.ChannelA;
conditions[0].condition = Imports.TriggerState.True;
Imports.tPS5000ADirection[] directions = new Imports.tPS5000ADirection[1];
directions[0].channel = Imports.Channel.ChannelA;
directions[0].direction = Imports.ThresholdDirection.Above;
directions[0].mode = Imports.ThresholdMode.Level;
status = Imports.SetTriggerChannelConditionsV2(_handle, conditions, 1, Imports.PS5000A_CONDITIONS_INFO.PS5000A_CLEAR);
status = Imports.SetTriggerChannelPropertiesV2(_handle, properties, 1, 1);
status = Imports.SetTriggerChannelConditionsV2(_handle, conditions, 1, Imports.PS5000A_CONDITIONS_INFO.PS5000A_ADD);
status = Imports.SetTriggerChannelDirectionsV2(_handle, directions, 1);
status = Imports.SetAutoTriggerMicroSeconds(_handle, 0);
_ready = false;
_callbackDelegate = BlockCallback;
_channelCount = 4;
string data;
int x;
textMessage.Clear();
textData.Clear();
bool retry;
uint sampleCount = 1000;
PinnedArray <short>[] minPinned = new PinnedArray <short> [_channelCount];
PinnedArray <short>[] maxPinned = new PinnedArray <short> [_channelCount];
int timeIndisposed;
short[] databuffer = new short[sampleCount];
//short[] minBuffers = new short[sampleCount];
//short[] maxBuffers = new short[sampleCount];
//minPinned[0] = new PinnedArray<short>(minBuffers);
//maxPinned[0] = new PinnedArray<short>(maxBuffers);
//status = Imports.SetDataBuffers(_handle, Imports.Channel.ChannelA, maxBuffers, minBuffers, (int)sampleCount, 0, Imports.RatioMode.None);
status = Imports.SetDataBuffer(_handle, Imports.Channel.ChannelA, databuffer, (int)sampleCount, 0, Imports.RatioMode.None);
textMessage.AppendText("BlockData\n");
/*Find the maximum number of samples and the time interval(in nanoseconds).
* If the function returns PICO_OK, the timebase will be used.
*/
int timeInterval;
int maxSamples;
while (Imports.GetTimebase(_handle, _timebase, (int)sampleCount, out timeInterval, out maxSamples, 0) != 0)
{
textMessage.AppendText("Timebase selection\n");
_timebase++;
}
textMessage.AppendText("Timebase Set\n");
/* Start it collecting, then wait for completion*/
_ready = false;
_callbackDelegate = BlockCallback;
do
{
retry = false;
status = Imports.RunBlock(_handle, 0, (int)sampleCount, _timebase, out timeIndisposed, 0, _callbackDelegate, IntPtr.Zero);
if (status == (short)StatusCodes.PICO_POWER_SUPPLY_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_NOT_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_UNDERVOLTAGE)
{
status = Imports.ChangePowerSource(_handle, status);
retry = true;
}
else
{
textMessage.AppendText("Run Block Called\n");
}
}while (retry);
textMessage.AppendText("Waiting for Data\n");
while (!_ready)
{
Thread.Sleep(100);
}
Imports.Stop(_handle);
if (_ready)
{
short overflow;
status = Imports.GetValues(_handle, 0, ref sampleCount, 1, Imports.RatioMode.None, 0, out overflow);
if (status == (short)StatusCodes.PICO_OK)
{
textMessage.AppendText("Have Data\n");
chartData.Series[0].Points.Clear();
for (int I = 0; I < 1000; I++)
{
chartData.Series[0].Points.AddXY(I, databuffer[I]);
}
// for (x = 0; x < sampleCount; x++)
// {
// data = maxBuffers[x].ToString();
// textData.AppendText(data);
// textData.AppendText("\n");
// }
}
else
{
textMessage.AppendText("No Data\n");
}
}
else
{
textMessage.AppendText("data collection aborted\n");
}
Imports.Stop(_handle);
foreach (PinnedArray <short> p in minPinned)
{
if (p != null)
{
p.Dispose();
}
}
foreach (PinnedArray <short> p in maxPinned)
{
if (p != null)
{
p.Dispose();
}
}
}
void start(uint sampleCountAfter = 50000, uint sampleCountBefore = 50000, int write_every = 100)
{
uint all_ = sampleCountAfter + sampleCountBefore;
uint status;
int ms;
status = Imports.MemorySegments(_handle, 1, out ms);
Voltage_Range = 200;
status = Imports.SetChannel(_handle, Imports.Channel.ChannelA, 1, Imports.Coupling.PS5000A_AC, Imports.Range.Range_200mV, 0);
//status = Imports.SetChannel(_handle, Imports.Channel.ChannelA, 1, Imports.Coupling.PS5000A_DC, Imports.Range.Range_200mV, 0);
const short enable = 1;
const uint delay = 0;
const short threshold = 25000;
const short auto = 22222;
status = Imports.SetBandwidthFilter(_handle, Imports.Channel.ChannelA, Imports.BandwidthLimiter.PS5000A_BW_20MHZ);
status = Imports.SetSimpleTrigger(_handle, enable, Imports.Channel.External, threshold, Imports.ThresholdDirection.Rising, delay, auto);
_ready = false;
_callbackDelegate = BlockCallback;
_channelCount = 1;
//string data;
int x;
bool retry;
PinnedArray <short>[] minPinned = new PinnedArray <short> [_channelCount];
PinnedArray <short>[] maxPinned = new PinnedArray <short> [_channelCount];
int timeIndisposed;
short[] minBuffersA = new short[all_];
short[] maxBuffersA = new short[all_];
minPinned[0] = new PinnedArray <short>(minBuffersA);
maxPinned[0] = new PinnedArray <short>(maxBuffersA);
status = Imports.SetDataBuffers(_handle, Imports.Channel.ChannelA, maxBuffersA, minBuffersA, (int)sampleCountAfter + (int)sampleCountBefore, 0, Imports.RatioMode.None);
//int timeInterval;
//int maxSamples;
//while (Imports.GetTimebase(_handle, _timebase, (int)sampleCount, out timeInterval, out maxSamples, 0) != 0)
//{
// _timebase++;
//}
_ready = false;
_callbackDelegate = BlockCallback;
do
{
retry = false;
status = Imports.RunBlock(_handle, (int)sampleCountBefore, (int)sampleCountAfter, _timebase, out timeIndisposed, 0, _callbackDelegate, IntPtr.Zero);
if (status == (short)StatusCodes.PICO_POWER_SUPPLY_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_NOT_CONNECTED || status == (short)StatusCodes.PICO_POWER_SUPPLY_UNDERVOLTAGE)
{
status = Imports.ChangePowerSource(_handle, status);
retry = true;
}
else
{
// textMessage.AppendText("Run Block Called\n");
}
}while (retry);
while (!_ready)
{
Thread.Sleep(30);
}
Imports.Stop(_handle);
if (_ready)
{
short overflow;
status = Imports.GetValues(_handle, 0, ref all_, 1, Imports.RatioMode.None, 0, out overflow);
if (status == (short)StatusCodes.PICO_OK)
{
for (x = 0; x < all_; x++)
{
masA[x] += maxBuffersA[x] + minBuffersA[x];//=========================================================!
}
}
}
Imports.Stop(_handle);
foreach (PinnedArray <short> p in minPinned)
{
if (p != null)
{
p.Dispose();
}
}
foreach (PinnedArray <short> p in maxPinned)
{
if (p != null)
{
p.Dispose();
}
}
}
