// Returns the Reference voltage , indexed by the configuration tab.
private decimal GetRefVoltage(int refVoltageConfIndex)
{
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(m_Component);
// Reference voltage.
float tempFloat = 0;
switch (refVoltageConfIndex)
{
case 1:
float.TryParse(prms.m_Ref_Voltage.Value, out tempFloat);
if (m_cbReference.SelectedItem.ToString().Contains(INTERNAL_BYPASSED) ||
m_cbReference.SelectedItem.ToString().Contains(REF_INTERNAL_REF) ||
m_cbReference.SelectedItem.ToString().Contains(INTERNAL_VDDA_4) ||
m_cbReference.SelectedItem.ToString().Contains(INTERNAL_VDDA_3))
tempFloat = (float) m_nudRefVoltage.Value;
break;
case 2:
float.TryParse(prms.m_Ref_Voltage_Config2.Value, out tempFloat);
if (m_cbReference2.SelectedItem.ToString().Contains(INTERNAL_BYPASSED) ||
m_cbReference2.SelectedItem.ToString().Contains(REF_INTERNAL_REF) ||
m_cbReference2.SelectedItem.ToString().Contains(INTERNAL_VDDA_4) ||
m_cbReference2.SelectedItem.ToString().Contains(INTERNAL_VDDA_3))
tempFloat = (float)m_nudRefVoltage2.Value;
break;
case 3:
float.TryParse(prms.m_Ref_Voltage_Config3.Value, out tempFloat);
if (m_cbReference3.SelectedItem.ToString().Contains(INTERNAL_BYPASSED) ||
m_cbReference3.SelectedItem.ToString().Contains(REF_INTERNAL_REF) ||
m_cbReference3.SelectedItem.ToString().Contains(INTERNAL_VDDA_4) ||
m_cbReference3.SelectedItem.ToString().Contains(INTERNAL_VDDA_3))
tempFloat = (float)m_nudRefVoltage3.Value;
break;
case 4:
float.TryParse(prms.m_Ref_Voltage_Config4.Value, out tempFloat);
if (m_cbReference4.SelectedItem.ToString().Contains(INTERNAL_BYPASSED) ||
m_cbReference4.SelectedItem.ToString().Contains(REF_INTERNAL_REF) ||
m_cbReference4.SelectedItem.ToString().Contains(INTERNAL_VDDA_4) ||
m_cbReference4.SelectedItem.ToString().Contains(INTERNAL_VDDA_3))
tempFloat = (float)m_nudRefVoltage4.Value;
break;
default:
// Should not fall here, as of now only 4 configuration is supported.
tempFloat = -1;
break;
}
return (decimal)tempFloat;
}
private void CyADC_DelSigControl_Load(object sender, EventArgs e)
{
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(m_Component);
string paramInputBufferGain = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_GAIN,
prms.m_Input_Buffer_Gain.Expr);
string prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.ADC_REFERENCE, m_cbReference.Text);
SetAParameter(CyADC_DelSigParameters.ADC_REFERENCE, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG2,
m_cbReference2.Text);
SetAParameter(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG2, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG3,
m_cbReference3.Text);
SetAParameter(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG3, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG4,
m_cbReference4.Text);
SetAParameter(CyADC_DelSigParameters.ADC_REFERENCE_CONFIG4, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.REF_VOLTAGE, m_nudRefVoltage.Text);
SetAParameter(CyADC_DelSigParameters.REF_VOLTAGE, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG2,
m_nudRefVoltage2.Text);
SetAParameter(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG2, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG3,
m_nudRefVoltage3.Text);
SetAParameter(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG3, prm, false);
prm = m_Component.ResolveEnumDisplayToId(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG4,
m_nudRefVoltage4.Text);
SetAParameter(CyADC_DelSigParameters.REF_VOLTAGE_CONFIG4, prm, false);
// Test the input Buffer gain when loading and if not valid input buffer gain found
// assign the default value
if (!m_cbInputBufferGain.Items.Contains(paramInputBufferGain))
{
m_cbInputBufferGain.SelectedItem = "Gain_1X";
m_cbInputBufferGain.Text = "1";
SetAParameter(CyADC_DelSigParameters.INPUT_BUFFER_GAIN, "Gain_1X", false);
}
}
// Update the ADC mode of all configuration tabs.
private bool UpdateInputRangeList1(bool not)
{
float vrefValue;
string tempStr;
bool retVal = true;
IEnumerable<string> InputRangeEnums = m_Component.GetPossibleEnumValues(
CyADC_DelSigParameters.INPUT_RANGE);
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(m_Component);
float.TryParse(prms.m_Ref_Voltage.Value, out vrefValue);
// Since we dont save the VDDA value in to symbol for input range type VDDA selection
int index = 0;
m_cbInputRange.Items.Clear();
m_cbInputRange2.Items.Clear();
m_cbInputRange3.Items.Clear();
m_cbInputRange4.Items.Clear();
List<string> modifiedInputRange = new List<string>();
foreach (string str in InputRangeEnums)
{
tempStr = String.Format(InputRangeFormat[index], (vrefValue * adcGain[index]).ToString());
modifiedInputRange.Add(tempStr);
index++;
}
if (m_rbModeDifferential.Checked)
{
m_rbModeDifferential2.Checked = true;
m_rbModeDifferential3.Checked = true;
m_rbModeDifferential4.Checked = true;
// ONLY show the differential options in the "Input Range" paramter.
for (int i = 0; i < modifiedInputRange.Count; i++)
{
string str = modifiedInputRange[i];
if (!str.Contains(INPUT_SINGLE_TYPE))
{
m_cbInputRange.Items.Add(str);
m_cbInputRange2.Items.Add(str);
m_cbInputRange3.Items.Add(str);
m_cbInputRange4.Items.Add(str);
}
}
}
else
{
m_rbModeSingle2.Checked = true;
m_rbModeSingle3.Checked = true;
m_rbModeSingle4.Checked = true;
// ONLY show the single options in the "Input Range" paramter.
for (int i = 0; i < modifiedInputRange.Count; i++)
{
string str = modifiedInputRange[i];
if (str.Contains(INPUT_SINGLE_TYPE))
{
m_cbInputRange.Items.Add(str);
m_cbInputRange2.Items.Add(str);
m_cbInputRange3.Items.Add(str);
m_cbInputRange4.Items.Add(str);
}
}
}
UpdateInputModeSelection(m_cbInputRange, CyADC_DelSigParameters.INPUT_RANGE, prms.m_ADC_Input_Range.Expr);
UpdateInputModeSelection(m_cbInputRange2, CyADC_DelSigParameters.INPUT_RANGE_CONFIG2,
prms.m_ADC_Input_Range_Config2.Expr);
UpdateInputModeSelection(m_cbInputRange3, CyADC_DelSigParameters.INPUT_RANGE_CONFIG3,
prms.m_ADC_Input_Range_Config3.Expr);
UpdateInputModeSelection(m_cbInputRange4, CyADC_DelSigParameters.INPUT_RANGE_CONFIG4,
prms.m_ADC_Input_Range_Config4.Expr);
return retVal;
}
// Update the ADC mode of all configuration tabs
private void UpdateInputRangeList(int index)
{
float vrefValue;
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(m_Component);
vrefValue = (float) GetRefVoltage(index);
switch (index)
{
case 1:
UpdateInputRangeList(m_cbInputRange, vrefValue);
UpdateInputModeSelection(m_cbInputRange, CyADC_DelSigParameters.INPUT_RANGE,
prms.m_ADC_Input_Range.Expr);
break;
case 2:
UpdateInputRangeList(m_cbInputRange2, vrefValue);
UpdateInputModeSelection(m_cbInputRange2, CyADC_DelSigParameters.INPUT_RANGE_CONFIG2,
prms.m_ADC_Input_Range_Config2.Expr);
break;
case 3:
UpdateInputRangeList(m_cbInputRange3, vrefValue);
UpdateInputModeSelection(m_cbInputRange3, CyADC_DelSigParameters.INPUT_RANGE_CONFIG3,
prms.m_ADC_Input_Range_Config3.Expr);
break;
case 4:
UpdateInputRangeList(m_cbInputRange4, vrefValue);
UpdateInputModeSelection(m_cbInputRange4, CyADC_DelSigParameters.INPUT_RANGE_CONFIG4,
prms.m_ADC_Input_Range_Config4.Expr);
break;
default:
break;
}
}
private void UpdateInputRangeList(ComboBox list, float vrefValue)
{
IEnumerable<string> InputRangeEnums = m_Component.GetPossibleEnumValues(
CyADC_DelSigParameters.INPUT_RANGE);
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(m_Component);
int index = 0;
string tempStr;
List<string> modifiedInputRange = new List<string>();
foreach (string str in InputRangeEnums)
{
tempStr = String.Format(InputRangeFormat[index], (vrefValue * adcGain[index]).ToString());
modifiedInputRange.Add(tempStr);
index++;
}
list.Items.Clear();
if (m_rbModeDifferential.Checked)
{
// ONLY show the differential options in the "Input Range" paramter.
for (int i = 0; i < modifiedInputRange.Count; i++)
{
string str = modifiedInputRange[i];
if (!str.Contains(INPUT_SINGLE_TYPE))// && m_rbModeDifferential.Checked)
{
list.Items.Add(str);
}
}
}
else
{
// ONLY show the single options in the "Input Range" paramter.
for (int i = 0; i < modifiedInputRange.Count; i++)
{
string str = modifiedInputRange[i];
if (str.Contains(INPUT_SINGLE_TYPE))
{
list.Items.Add(str);
}
}
}
}
public void UpdateFormFromParams(ICyInstEdit_v1 inst)
{
UnhookAllEvents();
CyADC_DelSigParameters prms = new CyADC_DelSigParameters(inst);
#region Config1
//Set the ADC resolution
string paramResolution = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.RESOLUTION,
prms.m_ADC_Resolution.Expr);
if (m_cbResolution.Items.Contains(paramResolution))
{
m_cbResolution.SelectedItem = paramResolution;
m_cbResolution.Text = prms.m_ADC_Resolution.Expr;
}
// set the ADC mode
string paramAdcMode = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_INPUT_MODE,
prms.m_ADC_Input_Mode.Expr);
if (!paramAdcMode.Contains(INPUT_DIFFERENTIAL))
{
m_rbModeSingle.Checked = true;
}
//Set the ADC Input Range
string paramInputRange = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_RANGE,
prms.m_ADC_Input_Range.Expr);
if (m_cbInputRange.Items.Contains(paramInputRange))
{
m_cbInputRange.SelectedItem = paramInputRange;
m_cbInputRange.Text = prms.m_ADC_Input_Range.Expr;
}
//Set the Input Buffer Gain
string paramInputBufferGain = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_GAIN,
prms.m_Input_Buffer_Gain.Expr);
if (m_cbInputBufferGain.Items.Contains(paramInputBufferGain))
{
m_cbInputBufferGain.SelectedItem = paramInputBufferGain;
m_cbInputBufferGain.Text = prms.m_Input_Buffer_Gain.Expr;
}
//Set the Conversion Mode
string paramConvMode = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.CONVERSION_MODE,
prms.m_Conversion_Mode.Expr);
if (m_cbConvMode.Items.Contains(paramConvMode))
{
m_cbConvMode.SelectedItem = paramConvMode;
m_cbConvMode.Text = prms.m_Conversion_Mode.Expr;
}
//Set ADC Reference
string paramReference = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_REFERENCE,
prms.m_ADC_Reference.Expr);
if (m_cbReference.Items.Contains(paramReference))
{
m_cbReference.SelectedItem = paramReference;
m_cbReference.Text = prms.m_ADC_Reference.Expr;
}
//Set ADC Input Buffer Mode
string paramBufferMode = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_MODE,
prms.m_Input_Buffer_Mode.Expr);
if (m_cbInputBufferMode.Items.Contains(paramBufferMode))
{
m_cbInputBufferMode.SelectedItem = paramBufferMode;
m_cbInputBufferMode.Text = prms.m_Input_Buffer_Mode.Expr;
}
//Reference voltage.
float tempFloat;
float.TryParse(prms.m_Ref_Voltage.Value, out tempFloat);
m_nudRefVoltage.Value = (decimal)tempFloat;
// Conversion/Sample Rate
int tempSampleRate;
int.TryParse(prms.m_Sample_Rate.Value, out tempSampleRate);
m_nudConvRate.Value = (decimal)tempSampleRate;
// Comment text box
commentTextBox1.Text = prms.m_Comment_Config1.Value;
// Config Name text box
configNameTextBox1.Text = prms.m_Config1_Name.Value;
nameLabel1.Text = inst.InstanceName + "_" + prms.m_Config1_Name.Value;
#endregion
#region Config2
//Set the ADC resolution
string paramResolution2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.RESOLUTION_CONFIG2,
prms.m_ADC_Resolution_Config2.Expr);
if (m_cbResolutionConfig2.Items.Contains(paramResolution2))
{
m_cbResolutionConfig2.SelectedItem = paramResolution2;
m_cbResolutionConfig2.Text = prms.m_ADC_Resolution_Config2.Expr;
}
//Set the ADC Input Range
string paramInputRange2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_RANGE_CONFIG2,
prms.m_ADC_Input_Range_Config2.Expr);
if (m_cbInputRange2.Items.Contains(paramInputRange2))
{
m_cbInputRange2.SelectedItem = paramInputRange2;
m_cbInputRange2.Text = prms.m_ADC_Input_Range_Config2.Expr;
}
//Set the Input Buffer Gain
string paramInputBufferGain2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_GAIN,
prms.m_Input_Buffer_Gain_Config2.Expr);
if (m_cbInputBufferGain2.Items.Contains(paramInputBufferGain2))
{
m_cbInputBufferGain2.SelectedItem = paramInputBufferGain2;
m_cbInputBufferGain2.Text = prms.m_Input_Buffer_Gain_Config2.Expr;
}
//Set the Conversion Mode
string paramConvMode2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.CONVERSION_MODE,
prms.m_Conversion_Mode_Config2.Expr);
if (m_cbConvMode2.Items.Contains(paramConvMode2))
{
m_cbConvMode2.SelectedItem = paramConvMode2;
m_cbConvMode2.Text = prms.m_Conversion_Mode_Config2.Expr;
}
//Set ADC Reference
string paramReference2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_REFERENCE,
prms.m_ADC_Reference_Config2.Expr);
if (m_cbReference2.Items.Contains(paramReference2))
{
m_cbReference2.SelectedItem = paramReference2;
m_cbReference2.Text = prms.m_ADC_Reference_Config2.Expr;
}
//Set ADC Input Buffer Mode
string paramBufferMode2 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_MODE,
prms.m_Input_Buffer_Mode_Config2.Expr);
if (m_cbInputBufferMode2.Items.Contains(paramBufferMode2))
{
m_cbInputBufferMode2.SelectedItem = paramBufferMode2;
m_cbInputBufferMode2.Text = prms.m_Input_Buffer_Mode_Config2.Expr;
}
//Reference voltage.
float.TryParse(prms.m_Ref_Voltage_Config2.Value, out tempFloat);
m_nudRefVoltage2.Value = (decimal)tempFloat;
// Conversion/Sample Rate
int.TryParse(prms.m_Sample_Rate_Config2.Value, out tempSampleRate);
m_nudConvRate2.Value = (decimal)tempSampleRate;
// Comment text box
commentTextBox2.Text = prms.m_Comment_Config2.Value;
// Config Name text box
configNameTextBox2.Text = prms.m_Config2_Name.Value;
nameLabel2.Text = inst.InstanceName + "_" + prms.m_Config2_Name.Value;
#endregion
#region Config3
//Set the ADC resolution
string paramResolution3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.RESOLUTION_CONFIG3,
prms.m_ADC_Resolution_Config3.Expr);
if (m_cbResolutionConfig3.Items.Contains(paramResolution3))
{
m_cbResolutionConfig3.SelectedItem = paramResolution3;
m_cbResolutionConfig3.Text = prms.m_ADC_Resolution_Config3.Expr;
}
//Set the ADC Input Range
string paramInputRange3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_RANGE_CONFIG3,
prms.m_ADC_Input_Range_Config3.Expr);
if (m_cbInputRange3.Items.Contains(paramInputRange3))
{
m_cbInputRange3.SelectedItem = paramInputRange3;
m_cbInputRange3.Text = prms.m_ADC_Input_Range_Config3.Expr;
}
//Set the Input Buffer Gain
string paramInputBufferGain3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_GAIN,
prms.m_Input_Buffer_Gain_Config3.Expr);
if (m_cbInputBufferGain3.Items.Contains(paramInputBufferGain3))
{
m_cbInputBufferGain3.SelectedItem = paramInputBufferGain3;
m_cbInputBufferGain3.Text = prms.m_Input_Buffer_Gain_Config3.Expr;
}
//Set the Conversion Mode
string paramConvMode3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.CONVERSION_MODE,
prms.m_Conversion_Mode_Config3.Expr);
if (m_cbConvMode3.Items.Contains(paramConvMode3))
{
m_cbConvMode3.SelectedItem = paramConvMode3;
m_cbConvMode3.Text = prms.m_Conversion_Mode_Config3.Expr;
}
//Set ADC Reference
string paramReference3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_REFERENCE,
prms.m_ADC_Reference_Config3.Expr);
if (m_cbReference3.Items.Contains(paramReference3))
{
m_cbReference3.SelectedItem = paramReference3;
m_cbReference3.Text = prms.m_ADC_Reference_Config3.Expr;
}
//Set ADC Input Buffer Mode
string paramBufferMode3 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_MODE,
prms.m_Input_Buffer_Mode_Config3.Expr);
if (m_cbInputBufferMode3.Items.Contains(paramBufferMode3))
{
m_cbInputBufferMode3.SelectedItem = paramBufferMode3;
m_cbInputBufferMode3.Text = prms.m_Input_Buffer_Mode_Config3.Expr;
}
//Reference voltage.
float.TryParse(prms.m_Ref_Voltage_Config3.Value, out tempFloat);
m_nudRefVoltage3.Value = (decimal)tempFloat;
// Conversion/Sample Rate
int.TryParse(prms.m_Sample_Rate_Config3.Value, out tempSampleRate);
m_nudConvRate3.Value = (decimal)tempSampleRate;
// Comment text box
commentTextBox3.Text = prms.m_Comment_Config3.Value;
// Config Name text box
configNameTextBox3.Text = prms.m_Config3_Name.Value;
nameLabel3.Text = inst.InstanceName + "_" + prms.m_Config3_Name.Value;
#endregion
#region Config4
//Set the ADC resolution
string paramResolution4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.RESOLUTION_CONFIG4,
prms.m_ADC_Resolution_Config4.Expr);
if (m_cbResolutionConfig4.Items.Contains(paramResolution4))
{
m_cbResolutionConfig4.SelectedItem = paramResolution4;
m_cbResolutionConfig4.Text = prms.m_ADC_Resolution_Config4.Expr;
}
//Set the ADC Input Range
string paramInputRange4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_RANGE_CONFIG4,
prms.m_ADC_Input_Range_Config4.Expr);
if (m_cbInputRange4.Items.Contains(paramInputRange4))
{
m_cbInputRange4.SelectedItem = paramInputRange4;
m_cbInputRange4.Text = prms.m_ADC_Input_Range_Config4.Expr;
}
//Set the Input Buffer Gain
string paramInputBufferGain4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_GAIN,
prms.m_Input_Buffer_Gain_Config4.Expr);
if (m_cbInputBufferGain4.Items.Contains(paramInputBufferGain4))
{
m_cbInputBufferGain4.SelectedItem = paramInputBufferGain4;
m_cbInputBufferGain4.Text = prms.m_Input_Buffer_Gain_Config4.Expr;
}
//Set the Conversion Mode
string paramConvMode4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.CONVERSION_MODE,
prms.m_Conversion_Mode_Config4.Expr);
if (m_cbConvMode4.Items.Contains(paramConvMode4))
{
m_cbConvMode4.SelectedItem = paramConvMode4;
m_cbConvMode4.Text = prms.m_Conversion_Mode_Config4.Expr;
}
//Set ADC Reference
string paramReference4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_REFERENCE,
prms.m_ADC_Reference_Config4.Expr);
if (m_cbReference4.Items.Contains(paramReference4))
{
m_cbReference4.SelectedItem = paramReference4;
m_cbReference4.Text = prms.m_ADC_Reference_Config4.Expr;
}
//Set ADC Input Buffer Mode
string paramBufferMode4 = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.INPUT_BUFFER_MODE,
prms.m_Input_Buffer_Mode_Config4.Expr);
if (m_cbInputBufferMode4.Items.Contains(paramBufferMode4))
{
m_cbInputBufferMode4.SelectedItem = paramBufferMode4;
m_cbInputBufferMode4.Text = prms.m_Input_Buffer_Mode_Config4.Expr;
}
//Reference voltage.
float.TryParse(prms.m_Ref_Voltage_Config4.Value, out tempFloat);
m_nudRefVoltage4.Value = (decimal)tempFloat;
// Conversion/Sample Rate
int.TryParse(prms.m_Sample_Rate_Config4.Value, out tempSampleRate);
m_nudConvRate4.Value = (decimal)tempSampleRate;
// Comment text box
commentTextBox4.Text = prms.m_Comment_Config4.Value;
// Config Name text box
configNameTextBox4.Text = prms.m_Config4_Name.Value;
nameLabel4.Text = inst.InstanceName + "_" + prms.m_Config4_Name.Value;
#endregion
#region Common configuration
// Clock Source check box
if (m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_CLOCK, prms.m_ADC_Clock.Expr) ==
CyADC_DelSigParameters.S_INTERNAL)
{
m_rbClockInternal.Checked = true;
m_rbClockExternal.Checked = false;
}
else
{
m_rbClockInternal.Checked = false;
m_rbClockExternal.Checked = true;
}
// Start of Conversion check box
if (m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.START_OF_CONVERSION,
prms.m_Start_of_Conversion.Expr) == CyADC_DelSigParameters.S_SOFTWARE)
{
m_cbSocHardware.Checked = false;
}
else
{
m_cbSocHardware.Checked = true;
}
// Configs
int temp;
int.TryParse(prms.m_Configs.Value, out temp);
m_nudConfig.Value = (decimal)temp;
UpdateConfigTabs(temp);
// Enable Vref Vss
m_cbEnable_Vref_Vss.Checked = m_Component.ResolveEnumIdToDisplay(CyADC_DelSigParameters.ADC_nVref,
prms.m_Enable_Vref_Vss.Expr).Equals(Boolean.TrueString);
#endregion
UpdateAllBufferGain();
CheckAllFreq(false);
//UpdateRefVoltagesEnable();
m_cbReference_Validating(this, new CancelEventArgs());
DisplayInterruptMessage();
UpdateRefVoltagesEnable();
UpdateAllInputRangeList();
HookAllEvents();
CheckRefVoltage(m_nudRefVoltage, m_cbReference);
CheckRefVoltage(m_nudRefVoltage2, m_cbReference2);
CheckRefVoltage(m_nudRefVoltage3, m_cbReference3);
CheckRefVoltage(m_nudRefVoltage4, m_cbReference4);
}