public void Configure(AnalogPatternBuilder aPattern, int clockRate, bool loop) { analogOutputTask = new Task(); foreach (string keys in aPattern.AnalogPatterns.Keys) { AddToAnalogOutputTask(analogOutputTask, keys); } string clockSource = ""; SampleQuantityMode sqm; if(loop) { sqm = SampleQuantityMode.ContinuousSamples; analogOutputTask.Stream.WriteRegenerationMode = WriteRegenerationMode.AllowRegeneration; } else { sqm = SampleQuantityMode.FiniteSamples; analogOutputTask.Stream.WriteRegenerationMode = WriteRegenerationMode.DoNotAllowRegeneration; } analogOutputTask.Timing.ConfigureSampleClock(clockSource, clockRate, SampleClockActiveEdge.Rising, sqm, aPattern.PatternLength); analogOutputTask.Triggers.StartTrigger.ConfigureDigitalEdgeTrigger( (string)Environs.Hardware.GetInfo("AOPatternTrigger"), DigitalEdgeStartTriggerEdge.Rising); analogOutputTask.Control(TaskAction.Verify); }
public void Configure(AnalogPatternBuilder aPattern, int clockRate) { analogOutputTask = new Task(); foreach (string keys in aPattern.AnalogPatterns.Keys) { AddToAnalogOutputTask(analogOutputTask, keys); } string clockSource = ""; analogOutputTask.Timing.ConfigureSampleClock(clockSource, clockRate, SampleClockActiveEdge.Rising, SampleQuantityMode.FiniteSamples, aPattern.PatternLength); analogOutputTask.Triggers.StartTrigger.ConfigureDigitalEdgeTrigger( (string)Environs.Hardware.GetInfo("AOPatternTrigger"), DigitalEdgeStartTriggerEdge.Rising); analogOutputTask.Control(TaskAction.Verify); }