/* OscilloscopeGeneratorTrigger.cs
*
* This example sets up the generator to generate a 1 kHz triangle waveform, 4 Vpp.
* It also sets up the oscilloscope to perform a block mode measurement, triggered on "Generator new period".
* A measurement is performed and the data is written to OscilloscopeGeneratorTrigger.csv.
*
* Find more information on http://www.tiepie.com/LibTiePie .
*/
using System;
using System.IO;
using System.Threading;
using TiePie.Hardware;
class OscilloscopeGeneratorTrigger
{
public static void Main()
{
// Print library information:
PrintInfo.PrintLibraryInfo();
// Enable network search:
Network.AutoDetectEnabled = true;
// Update device list:
DeviceList.Update();
// Try to open an oscilloscope with block measurement support and a generator in the same device:
Oscilloscope scp = null;
Generator gen = null;
for (var i = 0u; i < DeviceList.Count; i++)
{
using (var item = DeviceList.GetItemByIndex(i))
{
if (item.CanOpen(DeviceType.Oscilloscope) && item.CanOpen(DeviceType.Generator))
{
scp = item.OpenOscilloscope();
if (scp.MeasureModes.HasFlag(MeasureMode.Block))
{
gen = item.OpenGenerator();
break;
}
else
{
scp.Dispose();
scp = null;
}
}
}
}
if (scp != null && gen != null)
{
try
{
// Oscilloscope settings:
// Get the number of channels:
var channelCount = Convert.ToUInt16(scp.Channels.Count);
// Set measure mode:
scp.MeasureMode = MeasureMode.Block;
// Set sample frequency:
scp.SampleRate = 1e6; // 1 MHz
// Set record length:
scp.RecordLength = 10000; // 10 kS
var recordLength = scp.RecordLength; // Read actual record length.
// Set pre sample ratio:
scp.PreSampleRatio = 0; // 0 %
// For all channels:
foreach (var ch in scp.Channels)
{
// Enable channel to measure it:
ch.Enabled = true;
// Set range:
ch.Range = 8; // 8 V
// Set coupling:
ch.Coupling = Coupling.DCV; // DC Volt
}
// Set trigger timeout:
scp.Trigger.TimeOut = 1; // 1 s
// Disable all channel trigger sources:
foreach (var ch in scp.Channels)
ch.Trigger.Enabled = false;
// Locate trigger input:
TriggerInput triggerInput = scp.TriggerInputs.GetByID(TriggerInputID.GeneratorNewPeriod); // or TriggerInputID.GeneratorStart or TriggerInputID.GeneratorStop
if (triggerInput == null)
throw new System.Exception("Unknown trigger input!");
// Enable trigger input:
triggerInput.Enabled = true;
// Generator settings:
// Set signal type:
gen.SignalType = SignalType.Triangle;
// Set frequency:
gen.Frequency = 1e3; // 1 kHz
// Set amplitude:
gen.Amplitude = 2; // 2 V
// Set offset:
gen.Offset = 0; // 0 V
// Enable output:
gen.OutputEnable = true;
// Print oscilloscope info:
PrintInfo.PrintDeviceInfo(scp);
// Print generator info:
PrintInfo.PrintDeviceInfo(gen);
// Start measurement:
scp.Start();
// Start signal generation:
gen.Start();
// Wait for measurement to complete:
while (!scp.IsDataReady)
Thread.Sleep(10); // 10 ms delay, to save CPU time.
// Stop generator:
gen.Stop();
// Disable output:
gen.OutputEnable = false;
// Get data:
var data = scp.GetData();
// Output CSV data:
var filename = "OscilloscopeGeneratorTrigger.csv";
using (var file = new StreamWriter(filename))
{
// Write csv header:
file.Write("Sample");
for (var i = 0; i < channelCount; i++)
file.Write($",Ch{i + 1}");
file.Write(Environment.NewLine);
// Write the data to csv:
for (var i = 0ul; i < recordLength; i++)
{
file.Write($"{i}");
for (var ch = 0; ch < channelCount; ch++)
file.Write($",{data[ch][i]}");
file.Write(Environment.NewLine);
}
Console.WriteLine($"Data written to: {filename}");
}
}
catch (System.Exception e)
{
Console.WriteLine($"Exception: {e.Message}");
Environment.Exit(1);
}
// Close oscilloscope:
scp.Dispose();
scp = null;
// Close generator:
gen.Dispose();
gen = null;
}
else
{
Console.WriteLine("No oscilloscope available with block measurement support!");
Environment.Exit(1);
}
Environment.Exit(0);
}
}
OscilloscopeGeneratorTrigger.cs
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