public void ConfigureMeasurementTest() { NIScope testScope = new NIScope("SIM", false, false, "Simulate = 1"); MeasurementConfiguration measConfig = MeasurementConfiguration.GetDefault(); ConfigureMeasurement(testScope, measConfig, "0"); //Validate basic property sets Assert.AreEqual(measConfig.SampleRate_Hz, testScope.Acquisition.SampleRateMin); Assert.AreEqual(measConfig.ScopeTriggerSource, testScope.Trigger.Source.ToString()); Assert.AreEqual(measConfig.TriggerEdge, testScope.Trigger.EdgeTrigger.Slope); Assert.AreEqual(measConfig.ScopeTriggerType, testScope.Trigger.Type); //Validate that the measurement time is properly calculated by teh code Assert.AreEqual(measConfig.MeasurementTime_s, testScope.Acquisition.TimePerRecord.TotalSeconds, 1e-6); //Validate that various trigges are setup correctly measConfig.ScopeTriggerType = ScopeTriggerType.Immediate; ConfigureMeasurement(testScope, measConfig, "0"); Assert.AreEqual(measConfig.ScopeTriggerType, testScope.Trigger.Type); measConfig.ScopeTriggerType = ScopeTriggerType.Software; ConfigureMeasurement(testScope, measConfig, "0"); Assert.AreEqual(measConfig.ScopeTriggerType, testScope.Trigger.Type); testScope.Close(); }
public bool TryStopTask() { //如果是主卡,判断是否有任何从卡没有完成,否则不能出来 if (_staticConfig.TriggerConfig.MasterOrSlave == AITriggerMasterOrSlave.Master) { bool canOut = false; while (!canOut) { canOut = true; lock (TClockDevice.Lock) { foreach (var s in TClockDevice.SlaveOver) { if (s.Value == false) { canOut = false; } } } } } //如果是从卡,设置让主卡可以出来 else if (_staticConfig.TriggerConfig.MasterOrSlave == AITriggerMasterOrSlave.Slave) { lock (TClockDevice.Lock) { TClockDevice.SlaveOver[_staticConfig.ResourceName] = true; } } lock (TClockDevice.Lock) { if (TClockDevice.SyncDevices != null && TClockDevice.SyncDevices.Contains(scopeSession)) { TClockDevice.SyncDevices.Remove(scopeSession); } } try { if (tClockSession != null) { tClockSession = null; } if (scopeSession != null) { scopeSession.Close(); scopeSession.Dispose(); scopeSession = null; } } catch (Exception e) { throw new Exception(e.ToString()); } AIState = Status.Idle; return(true); }
static void Main() { NIScope myScope = new NIScope("5154", false, false); ScopeConfiguration scopeConfig = GetDefaultScopeConfiguration(); MeasurementConfiguration measConfig = GetDefaultMeasurementConfiguration(); ConfigureScope(myScope, scopeConfig, "0"); ConfigureMeasurement(myScope, measConfig, "0"); MeasurementResults myResults = MeasureChannel(myScope, "0"); Console.WriteLine(myResults.AverageValue_V); Console.ReadKey(); myScope.Close(); }
public void ConfigureScopeTest() { NIScope testScope = new NIScope("SIM", false, false, "Simulate = 1"); ScopeConfiguration scopeConfig = ScopeConfiguration.GetDefault(); ConfigureScope(testScope, scopeConfig, "0"); //Check that all properties are properly applied to the scope session Assert.AreEqual((double)scopeConfig.InputImpedance, testScope.Channels["0"].InputImpedance, "Impedance"); Assert.AreEqual(scopeConfig.ScopeCouplingMode, testScope.Channels["0"].Coupling, "Coupling"); Assert.AreEqual(scopeConfig.VerticalOffset_V, testScope.Channels["0"].Offset, "Offset"); Assert.AreEqual(scopeConfig.VerticalRange_V, testScope.Channels["0"].Range, "Range"); Assert.AreEqual(scopeConfig.ProbeAttenuation, testScope.Channels["0"].ProbeAttenuation, "Probe Attenuation"); Assert.AreEqual(scopeConfig.ScopeClockSource, testScope.Timing.ReferenceClockSource.ToString(), "Clock Source"); testScope.Close(); }
public void FinishAcquisition() { //throw new NotImplementedException(); scopeSession.Close(); }