private async void ChangeIt_ButtonOnClick(object sender, RoutedEventArgs e)
{
SIUnits siUnit = (SIUnits)Enum.Parse(typeof(SIUnits), SiUnitComboBox.SelectedItem.ToString());
SensorData sensorData = new SensorData("_time_", ValueTextBox.Text, siUnit.ToString(), _sensor.Id);
var result = await _apiHandler.ChangeSensorValue(_sensor.Id, sensorData);
MessageDialog msgDialog = new MessageDialog("Sensor was changed!");
msgDialog.Commands.Add(new UICommand("OK"));
if (result.Answer != null)
{
var msgDialogResult = await msgDialog.ShowAsync();
if (msgDialogResult.Label == "OK")
{
Frame.GoBack();
}
}
}
/// <summary>
/// Initializes a new instance of the <see cref="SIUnitDefinition"/> class.
/// </summary>
/// <param name="name">The name of the unit.</param>
/// <param name="units">The SI units.</param>
/// <exception cref="ArgumentNullException">Thrown if <paramref name="name"/> is <c>null</c>.</exception>
public SIUnitDefinition(string name, SIUnits units)
{
_name = name.ThrowIfNull(nameof(name));
SI = units;
}
public void CapacitorTest()
{
Circuit sim = new Circuit();
var volt0 = sim.Create <DCVoltageSource>();
var cap0 = sim.Create <CapacitorElm>(2E-4);
var res0 = sim.Create <Resistor>();
var switch0 = sim.Create <SwitchSPDT>();
/*sim.Connect(volt0, 1, switch0, 1);
* sim.Connect(switch0, 1, switch0, 1);
* sim.Connect(switch0, 2, res0, 1);
* sim.Connect(cap0, 1, res0, 0);
* sim.Connect(res0, 1, volt0, 0);*/
// leadNeg 0
// leadPos 1
sim.Connect(volt0, 1, switch0, 1);
sim.Connect(switch0, 0, cap0, 0);
sim.Connect(cap0, 1, res0, 0);
sim.Connect(res0, 1, volt0, 0);
sim.Connect(switch0, 2, volt0, 0);
switch0.setPosition(0);
var capScope0 = sim.Watch(cap0);
for (int x = 1; x <= 28000; x++)
{
sim.doTick();
}
Debug.LogF("{0} [{1}]", sim.time, SIUnits.Normalize(sim.time, "s"));
{
double voltageHigh = capScope0.Max((f) => f.voltage);
int voltageHighNdx = capScope0.FindIndex((f) => f.voltage == voltageHigh);
Debug.Log("voltageHigh", voltageHigh, voltageHighNdx);
double voltageLow = capScope0.Min((f) => f.voltage);
int voltageLowNdx = capScope0.FindIndex((f) => f.voltage == voltageLow);
Debug.Log("voltageLow ", voltageLow, voltageLowNdx);
double currentHigh = capScope0.Max((f) => f.current);
int currentHighNdx = capScope0.FindIndex((f) => f.current == currentHigh);
Debug.Log("currentHigh", currentHigh, currentHighNdx);
double currentLow = capScope0.Min((f) => f.current);
int currentLowNdx = capScope0.FindIndex((f) => f.current == currentLow);
Debug.Log("currentLow ", currentLow, currentLowNdx);
Assert.AreEqual(27999, voltageHighNdx);
Assert.AreEqual(0, voltageLowNdx);
Assert.AreEqual(0, currentHighNdx);
Assert.AreEqual(27999, currentLowNdx);
}
switch0.setPosition(1);
sim.analyze();
capScope0.Clear();
for (int x = 1; x <= 28000; x++)
{
sim.doTick();
}
Debug.Log();
Debug.LogF("{0} [{1}]", sim.time, SIUnits.Normalize(sim.time, "s"));
{
double voltageHigh = capScope0.Max((f) => f.voltage);
int voltageHighNdx = capScope0.FindIndex((f) => f.voltage == voltageHigh);
Debug.Log("voltageHigh ", voltageHigh, voltageHighNdx);
double voltageLow = capScope0.Min((f) => f.voltage);
int voltageLowNdx = capScope0.FindIndex((f) => f.voltage == voltageLow);
Debug.Log("voltageLow ", voltageLow, voltageLowNdx);
double currentHigh = capScope0.Max((f) => f.current);
int currentHighNdx = capScope0.FindIndex((f) => f.current == currentHigh);
Debug.Log("currentHigh", currentHigh, currentHighNdx);
double currentLow = capScope0.Min((f) => f.current);
int currentLowNdx = capScope0.FindIndex((f) => f.current == currentLow);
Debug.Log("currentLow ", currentLow, currentLowNdx);
Assert.AreEqual(voltageHighNdx, currentLowNdx);
Assert.AreEqual(voltageLowNdx, currentHighNdx);
Assert.AreEqual(0, voltageHighNdx);
Assert.AreEqual(27999, voltageLowNdx);
Assert.AreEqual(27999, currentHighNdx);
Assert.AreEqual(0, currentLowNdx);
}
}
