private void knob2_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { var knob2value = knob2.Value.ToString(); var knob1value = knob1.Value.ToString(); ChangeWave(knob2value, knob1value); }
private void slide_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { double temp = slide.Value * 4096; set_speed_mode[0] = (byte)(temp / 256); set_speed_mode[1] = (byte)(temp % 256); send_data(set_speed_mode); }
private void setpointNumericEdit_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { controller.SetPoint = setpointNumericEdit.Value; }
private void iSlider_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { controller.SetIntegralGain(iSlider.Value); }
private void pSlider_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { controller.SetProportionalGain(pSlider.Value); }
/// <summary> /// On trigger conductance change on IV tab /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void ivTriggerConductanceNumericEdit_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { this.ivTriggerVoltageNumericEdit.Value = -this.ivTriggerConductanceNumericEdit.Value * m_1G0 * Math.Abs(this.ivVoltageForTraceNumericEdit.Value) * Math.Pow(10, int.Parse(this.ivGainPoweComboBox.Text)); }
private void TK_FuelTankLevel_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { }
private void GG_MEPS_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { }
private void knob1_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { var knob2value = amplitude_knob.Value.ToString(); var knob1value = frequency_knob.Value.ToString(); }
private void emHoldOnMinConductanceNumericEdit_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { this.emHoldOnMinVoltageNumericEdit.Value = GetVoltageFromConductnace(this.emHoldOnMinConductanceNumericEdit.Value); }
/// <summary> /// On Output update delay change on IV tab /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void ivOutputUpdateDelayNumericEdit_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { this.ivTimeOfOneIVCycleNumericEdit.Value = this.ivOutputUpdateDelayNumericEdit.Value * this.ivSamplesPerCycleNumericEdit.Value; this.ivOutputUpdateRateNumericEdit.Value = 1000 / e.NewValue; }
private void controlVoltageNumericEditor_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { controller.LaserVoltage = controlVoltageNumericEditor.Value; }
/// <summary> /// On IV Amplitude change /// </summary> /// <param name="sender"></param> /// <param name="e"></param> private void ivVoltageAmplitudeNumericEdit_AfterChangeValue(object sender, AfterChangeNumericValueEventArgs e) { // // sets the voltage in which we display the trace to be whithing the boundries of +-amplitude. // if (Math.Abs(this.ivVoltageForTraceNumericEdit.Value) > Math.Abs(this.ivVoltageAmplitudeNumericEdit.Value)) { this.ivVoltageForTraceNumericEdit.Value = (this.ivVoltageForTraceNumericEdit.Value > 0) ? this.ivVoltageAmplitudeNumericEdit.Value : (-this.ivVoltageAmplitudeNumericEdit.Value); } }