RFmx WCDMA DotNET

RFmxWcdmaMXPropertyId Enumeration

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Updated2024-07-17
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Specifies all the attribute identifiers.

Namespace: NationalInstruments.RFmx.WcdmaMX
Assembly: NationalInstruments.RFmx.WcdmaMX.Fx40 (in NationalInstruments.RFmx.WcdmaMX.Fx40.dll) Version: 24.5.0.49286 (24.5.0.49286)

Syntax

public enum RFmxWcdmaMXPropertyId

Public Enumeration RFmxWcdmaMXPropertyId

Members

Member name	Value	Description
CenterFrequency	5,242,881	For a single-carrier measurement, this method specifies the center frequency of the acquired RF signal.For multi-carrier measurements, this method specifies the reference frequency for the values in the SetCarrierFrequency(String, Double) method. This value is expressed in Hz.
ReferenceLevel	5,242,882	Specifies the reference level that represents the maximum expected power of the RF input signal. This value is expressed in dBm for RF devices and V_pk-pk for baseband devices.
ExternalAttenuation	5,242,883	Specifies the attenuation of a switch or cable connected to the RF IN connector of the signal analyzer. This value is expressed in dB.
TriggerType	5,242,884	Specifies the trigger type.
DigitalEdgeTriggerSource	5,242,885	Specifies the source terminal for the digital edge trigger.
DigitalEdgeTriggerEdge	5,242,886	Specifies the active edge for the trigger.
IQPowerEdgeTriggerSource	5,242,887	Specifies the channel from which the device monitors the trigger. This method is used only when you set the SetTriggerType(String, RFmxWcdmaMXTriggerType) method to IQPowerEdge.
IQPowerEdgeTriggerLevel	5,242,888	Specifies the power level at which the device triggers. This value is expressed in dB when the SetIQPowerEdgeTriggerLevelType(String, RFmxWcdmaMXIQPowerEdgeTriggerLevelType) method is set to Relative and in dBm when the IQ Power Edge Level Type method is set to Absolute.
IQPowerEdgeTriggerSlope	5,242,889	Specifies whether the device asserts the trigger when the signal power is rising or when it is falling.
TriggerDelay	5,242,890	Specifies the trigger delay time. This value is expressed in seconds.
TriggerMinimumQuietTimeMode	5,242,891	Specifies whether the measurement computes the minimum quiet time used for triggering.
TriggerMinimumQuietTimeDuration	5,242,892	Specifies the time duration for which the signal must be quiet before the signal analyzer arms the I/Q power edge trigger. This value is expressed in seconds.
LinkDirection	5,242,893	Specifies the link direction of the units under test. The unit under test is either the base station or the user equipment.
NumberOfCarriers	5,242,894	Specifies the number of carriers.
CarrierFrequency	5,242,895	Specifies the center frequency of the carrier, relative to the RF SetCenterFrequency(String, Double).This value is expressed in Hz.
ChannelConfigurationMode	5,242,896	Specifies the channel configuration mode.
NumberOfChannels	5,242,900	Specifies the number of user-defined channels.
SpreadingFactor	5,242,901	Specifies the spreading factor of the channel.
SpreadingCode	5,242,902	Specifies the spreading code of the channel.
ModulationType	5,242,903	Specifies the modulation type for the channel.
Branch	5,242,904	Specifies the branch on which the data is modulated in the channel.
UplinkTestModel	5,242,905	Specifies the uplink test model when the user sets the SetChannelConfigurationMode(String, RFmxWcdmaMXChannelConfigurationMode) method to TestModel.
UplinkScramblingType	5,242,907	Specifies the type of scrambling to use for the measurement.
UplinkScramblingCode	5,242,908	Specifies the scrambling code for the uplink channel.
Band	5,242,912	Specifies the Universal Mobile Telecommunications System (UMTS) operation band.
ReferenceLevelHeadroom	5,246,972	Specifies the margin RFmx adds to the Reference Level method. The margin avoids clipping and overflow warnings if the input signal exceeds the configured reference level.
SelectedPorts	5,246,973	Specifies the instrument port to be configured to acquire a signal. Use RFmxInstrMX.GetAvailablePorts Method to get the valid port names.
IQPowerEdgeTriggerLevelType	5,246,975	Specifies the reference for the SetIQPowerEdgeTriggerLevel(String, Double) method.
AcpMeasurementEnabled	5,246,976	Specifies whether to enable the ACP measurement.
AcpCarrierIntegrationBandwidth	5,246,981	Returns the frequency range over which the measurement integrates the carrier power. This value is expressed in Hz.
AcpNumberOfOffsets	5,246,984	Specifies the number of offset channels.
AcpOffsetFrequency	5,246,986	Returns the center frequency of the offset channel, relative to the center frequency of the carrier(s). This value is expressed in Hz.
AcpOffsetPowerReferenceCarrier	5,246,988	Specifies the carrier used as the power reference to measure the offset channel relative power.
AcpOffsetPowerReferenceSpecific	5,246,989	Specifies the index of the reference carrier.
AcpOffsetIntegrationBandwidth	5,246,990	Returns the frequency range, over which the measurement integrates the offset channel power. This value is expressed in Hz.
AcpMeasurementMethod	5,246,994	Specifies the method for performing the ACP measurement.
AcpNumberOfAnalysisThreads	5,246,996	Specifies the maximum number of threads used for parallelism for the ACP measurement.
AcpAveragingCount	5,246,997	Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWcdmaMXAcpAveragingEnabled) to True.
AcpAveragingEnabled	5,246,998	Specifies whether to enable averaging for the ACP measurement.
AcpAveragingType	5,247,000	Specifies the averaging type for averaging the spectrum of multiple acquisitions. The averaged spectrum is used for ACP measurement.
AcpRbwFilterAutoBandwidth	5,247,003	Specifies whether the measurement computes the RBW.
AcpRbwFilterBandwidth	5,247,004	Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(String, RFmxWcdmaMXAcpRbwAutoBandwidth) method to False.This method is valid only if you set the SetRbwFilterType(String, RFmxWcdmaMXAcpRbwFilterType) method to Gaussian or Flat. This value is expressed in Hz.
AcpRbwFilterType	5,247,005	Specifies the shape of the digital RBW filter.
AcpSweepTimeAuto	5,247,006	Specifies whether the measurement computes the sweep time.
AcpSweepTimeInterval	5,247,007	Specifies the sweep time when you set the SetSweepTimeAuto(String, RFmxWcdmaMXAcpSweepTimeAuto) method to False. This value is expressed in seconds.
AcpNoiseCompensationEnabled	5,247,008	Specifies whether to enable compensation of the channel powers for the inherent noise floor of the signal analyzer. Supported Devices: PXIe-5663/5665/5668R, PXIe-5830/5831/5832.
AcpAllTracesEnabled	5,247,009	Specifies whether to enable the traces to be stored and retrieved after performing the ACP measurement.
AcpResultsTotalCarrierPower	5,247,010	Returns the sum of all active carrier powers, where each carrier power corresponds to the value of the GetCarrierAbsolutePower(String, Double) method. For a single-carrier measurement, total carrier power is the same as carrier absolute power. This value is expressed in dBm.
AcpResultsCarrierAbsolutePower	5,247,014	Returns the carrier power.This value is expressed in dBm.
AcpResultsCarrierRelativePower	5,247,015	Returns the carrier power relative to the GetTotalCarrierPower(String, Double).This value is expressed in dB.
AcpResultsLowerOffsetAbsolutePower	5,247,020	Returns the lower offset channel power. This value is expressed in dBm.
AcpResultsLowerOffsetRelativePower	5,247,021	Returns the lower offset channel power relative to the power of the carrier(s) that you specify in the SetOffsetPowerReferenceCarrier(String, RFmxWcdmaMXAcpOffsetPowerReferenceCarrier) method.This value is expressed in dB.
AcpResultsUpperOffsetAbsolutePower	5,247,026	Returns the upper offset channel power.This value is expressed in dBm.
AcpResultsUpperOffsetRelativePower	5,247,027	Returns the upper offset channel power relative to the power of the carrier(s) that you specify in the SetOffsetPowerReferenceCarrier(String, RFmxWcdmaMXAcpOffsetPowerReferenceCarrier) method.This value is expressed in dB.
AcpIFOutputPowerOffsetAuto	5,247,028	Specifies whether the measurement computes an IF output power level offset for the offset channels to improve the dynamic range of the ACP measurement.
AcpNearIFOutputPowerOffset	5,247,029	Specifies the power offset to use to adjust the IF output power level for offset channels near the carrier channel. Adjusting the IF output power level improves the dynamic range. This value is expressed in dB.
AcpFarIFOutputPowerOffset	5,247,030	Specifies the power offset to use to adjust the IF output power level for offset channels that are far from the carrier channel. Adjusting the IF output power level improves the dynamic range. This value is expressed in dB.
AcpAmplitudeCorrectionType	5,247,032	Specifies whether the amplitude of the frequency bins, used in measurements, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuation function to configure the external attenuation table.
AcpSequentialFftSize	5,247,033	Specifies the number of bins to use for FFT computation when the SetMeasurementMethod(String, RFmxWcdmaMXAcpMeasurementMethod) method is set to SequentialFft.
AcpFftOverlapMode	5,247,034	Specifies how overlapping is applied when computing the FFT of the acquired samples.
AcpFftOverlap	5,247,035	Returns the number of samples to overlap between consecutive chunks while performing FFT.
ChpMeasurementEnabled	5,255,168	Specifies whether to enable the CHP measurement.
ChpCarrierIntegrationBandwidth	5,255,170	Returns the frequency range, over which the measurement integrates the power. This value is expressed in Hz.
ChpNumberOfAnalysisThreads	5,255,171	Specifies the maximum number of threads used for parallelism for the CHP measurement.
ChpAveragingCount	5,255,174	Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWcdmaMXChpAveragingEnabled) method to True.
ChpAveragingEnabled	5,255,175	Specifies whether to enable averaging for the CHP measurement.
ChpAveragingType	5,255,177	Specifies the averaging type for averaging the spectrum of multiple acquisitions.
ChpRbwFilterAutoBandwidth	5,255,180	Specifies whether the measurement computes the RBW.
ChpRbwFilterBandwidth	5,255,181	Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(String, RFmxWcdmaMXChpRbwAutoBandwidth) method to False. This method is valid only if you set the SetRbwFilterType(String, RFmxWcdmaMXChpRbwFilterType) method to Gaussian or Flat. This value is expressed in Hz.
ChpRbwFilterType	5,255,182	Specifies the shape of the digital RBW filter.
ChpSweepTimeAuto	5,255,185	Specifies whether the measurement computes the sweep time.
ChpSweepTimeInterval	5,255,186	Specifies the sweep time when you set the SetSweepTimeAuto(String, RFmxWcdmaMXChpSweepTimeAuto) method to False. This value is expressed in seconds.
ChpAllTracesEnabled	5,255,188	Specifies whether to enable the traces to be stored and retrieved after performing the CHP measurement.
ChpResultsCarrierAbsolutePower	5,255,189	Returns the carrier power integrated over a bandwidth of 5 MHz.
ChpResultsTotalCarrierPower	5,255,192	Returns the sum of all active carrier powers, where each carrier power corresponds to the value of the GetCarrierAbsolutePower(String, Double) method. For a single-carrier measurement, total carrier power is the same as carrier absolute power. This value is expressed in dBm.
ChpResultsCarrierRelativePower	5,255,193	Returns the carrier power relative to the value of the GetTotalCarrierPower(String, Double) method.This value is expressed in dB.
ChpAmplitudeCorrectionType	5,255,195	Specifies whether the amplitude of the frequency bins, used in measurements, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuation function to configure the external attenuation table.
ObwMeasurementEnabled	5,267,456	Specifies whether to enable the OBW measurement.
ObwNumberOfAnalysisThreads	5,267,459	Specifies the maximum number of threads used for parallelism for the OBW measurement.
ObwSpan	5,267,460	Returns the frequency range around the center frequency, to acquire for the measurement. This value is expressed in Hz.
ObwAveragingCount	5,267,462	Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWcdmaMXObwAveragingEnabled) method to True.
ObwAveragingEnabled	5,267,463	Specifies whether to enable averaging for the OBW measurement.
ObwAveragingType	5,267,465	Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW measurement.
ObwRbwFilterAutoBandwidth	5,267,468	Specifies whether the measurement computes the RBW.
ObwRbwFilterBandwidth	5,267,469	Specifies the bandwidth of the RBW filter used to sweep the acquired signal when you set the SetRbwFilterAutoBandwidth(String, RFmxWcdmaMXObwRbwAutoBandwidth) method to False. This method is valid only if you set the SetRbwFilterType(String, RFmxWcdmaMXObwRbwFilterType) method to Gaussian or Flat. This value is expressed in Hz.
ObwRbwFilterType	5,267,470	Specifies the shape of the digital RBW filter.
ObwSweepTimeAuto	5,267,471	Specifies whether the measurement computes the sweep time.
ObwSweepTimeInterval	5,267,472	Specifies the sweep time when you set the SetSweepTimeAuto(String, RFmxWcdmaMXObwSweepTimeAuto) method to False. This value is expressed in seconds.
ObwAllTracesEnabled	5,267,474	Specifies whether to enable the traces to be stored and retrieved after performing the OBW measurement.
ObwResultsOccupiedBandwidth	5,267,475	Returns the bandwidth containing 99% of the total integrated power of the acquired signal around the center of the carriers.This value is expressed in Hz.
ObwResultsAbsolutePower	5,267,476	Returns the total integrated power of the acquired signal.This value is expressed in dBm.
ObwResultsStartFrequency	5,267,477	Returns the start frequency of the occupied bandwidth.This value is expressed in Hz.
ObwResultsStopFrequency	5,267,478	Returns the stop frequency of the occupied bandwidth.This value is expressed in Hz.
ObwAmplitudeCorrectionType	5,267,482	Specifies whether the amplitude of the frequency bins, used in measurements, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuation function to configure the external attenuation table.
SemMeasurementEnabled	5,275,648	Specifies whether to enable the SEM measurement.
SemCarrierIntegrationBandwidth	5,275,653	Returns the frequency range over which the measurement integrates the carrier power. This value is expressed in Hz.
SemNumberOfOffsets	5,275,659	Returns the number of offset segments.
SemOffsetBandwidthIntegral	5,275,660	Returns the resolution of the spectrum to compare with spectral mask limits as an integer multiple of the RBW.
SemOffsetStartFrequency	5,275,668	Returns the start frequency of the offset segment relative to the center frequency of the carrier(s). This value is expressed in Hz.
SemOffsetStopFrequency	5,275,669	Returns the stop frequency of the offset segment relative to the center frequency of the carrier(s). This value is expressed in Hz.
SemOffsetRbwFilterBandwidth	5,275,671	Returns the bandwidth of the RBW filter used to sweep the acquired offset segment. This value is expressed in Hz.
SemOffsetRbwFilterType	5,275,672	Returns the shape of the digital RBW filter.
SemNumberOfAnalysisThreads	5,275,677	Specifies the maximum number of threads used for parallelism for the SEM measurement.
SemAveragingCount	5,275,678	Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWcdmaMXSemAveragingEnabled) method to True.
SemAveragingEnabled	5,275,679	Specifies whether to enable averaging for the SEM measurement.
SemAveragingType	5,275,681	Specifies the averaging type for averaging multiple spectrum acquisitions.
SemSweepTimeAuto	5,275,685	Specifies whether the measurement computes the sweep time.
SemSweepTimeInterval	5,275,686	Specifies the sweep time when you set the SetSweepTimeAuto(String, RFmxWcdmaMXSemSweepTimeAuto) method to False.This value is expressed in seconds.
SemAllTracesEnabled	5,275,687	Specifies whether to enable the traces to be stored and retrieved after performing the SEM measurement.
SemResultsTotalCarrierPower	5,275,688	Returns the sum of all active carrier powers, where each carrier power corresponds to the value of the SEM Results Carrier Abs Pwr method. For a single-carrier measurement, total carrier power is the same as carrier absolute power. This value is expressed in dBm.
SemResultsMeasurementStatus	5,275,689	Indicates the overall SEM measurement status, based on the value of the GetLowerOffsetMeasurementStatus(String, RFmxWcdmaMXSemLowerOffsetMeasurementStatus) and the GetUpperOffsetMeasurementStatus(String, RFmxWcdmaMXSemUpperOffsetMeasurementStatus) properties.
SemResultsCarrierAbsoluteIntegratedPower	5,275,693	Returns the carrier power. This value is expressed in dBm.
SemResultsCarrierRelativeIntegratedPower	5,275,694	Returns the carrier power relative to the GetTotalCarrierPower(String, Double).This value is expressed in dB.
SemResultsCarrierAbsolutePeakPower	5,275,695	Returns the peak power in the carrier channel.This value is expressed in dBm.
SemResultsCarrierPeakFrequency	5,275,696	Returns the frequency at which the peak power is observed in the carrier channel.This value is expressed in Hz.
SemResultsLowerOffsetAbsoluteIntegratedPower	5,275,700	Returns the power measured in the lower, or negative, offset segment.This value is expressed in dBm.
SemResultsLowerOffsetRelativeIntegratedPower	5,275,701	Returns the power measured in the lower, or negative, offset segment relative to the GetTotalCarrierPower(String, Double) method.This value is expressed in dB.
SemResultsLowerOffsetAbsolutePeakPower	5,275,702	Returns the peak power measured in the lower, or negative, offset segment.This value is expressed in dBm.
SemResultsLowerOffsetRelativePeakPower	5,275,703	Returns the peak power measured in the lower, or negative, offset segment relative to the GetTotalCarrierPower(String, Double) method.This value is expressed in dB.
SemResultsLowerOffsetPeakFrequency	5,275,704	Returns the frequency at which the peak power is observed in the lower offset segment.This value is expressed in Hz.
SemResultsLowerOffsetMargin	5,275,705	Returns the margin of the lower offset segment.This value is expressed in dB.
SemResultsLowerOffsetMarginAbsolutePower	5,275,706	Returns the power at the frequency corresponding to the GetLowerOffsetMargin(String, Double) method.This value is expressed in dBm.
SemResultsLowerOffsetMarginRelativePower	5,275,707	Returns the power at the frequency corresponding to the value of the GetLowerOffsetMargin(String, Double) method and relative to the GetTotalCarrierPower(String, Double) method. This value is expressed in dB.
SemResultsLowerOffsetMarginFrequency	5,275,708	Returns the frequency corresponding to the GetLowerOffsetMargin(String, Double) method.This value is expressed in Hz.
SemResultsLowerOffsetMeasurementStatus	5,275,709	Indicates the measurement status based on the GetLowerOffsetMargin(String, Double) method.
SemResultsUpperOffsetAbsoluteIntegratedPower	5,275,713	Returns the power measured in the upper, or positive, offset segment.This value is expressed in dBm.
SemResultsUpperOffsetRelativeIntegratedPower	5,275,714	Returns the power measured in the upper, or positive, offset segment relative to the GetTotalCarrierPower(String, Double) method.This value is expressed in dB.
SemResultsUpperOffsetAbsolutePeakPower	5,275,715	Returns the peak power measured in the upper, or positive, offset segment.This value is expressed in dBm.
SemResultsUpperOffsetRelativePeakPower	5,275,716	Returns the peak power measured in the upper, or positive, offset segment relative to the value of the GetTotalCarrierPower(String, Double) method.This value is expressed in dB.
SemResultsUpperOffsetPeakFrequency	5,275,717	Returns the frequency at which the peak power is observed in the upper offset segment.This value is expressed in Hz.
SemResultsUpperOffsetMargin	5,275,718	Returns the margin of the upper offset segment.This value is expressed in dB.
SemResultsUpperOffsetMarginAbsolutePower	5,275,719	Returns the power at the frequency corresponding to the GetUpperOffsetMargin(String, Double) method.This value is expressed in dBm.
SemResultsUpperOffsetMarginRelativePower	5,275,720	Returns the power at the frequency corresponding to the value of the GetUpperOffsetMargin(String, Double) method relative to the value of the GetTotalCarrierPower(String, Double) method. This value is expressed in dB.
SemResultsUpperOffsetMarginFrequency	5,275,721	Returns the frequency corresponding to the GetUpperOffsetMargin(String, Double) method. This value is expressed in Hz.
SemResultsUpperOffsetMeasurementStatus	5,275,722	Indicates the measurement status based on the GetUpperOffsetMargin(String, Double) method.
SemAmplitudeCorrectionType	5,275,724	Specifies whether the amplitude of the frequency bins, used in measurements, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuation function to configure the external attenuation table.
ResultFetchTimeout	5,292,032	Specifies the time to wait before results are available in the RFmxWCDMA_PropertyNode.This value is expressed in seconds.
AutoLevelInitialReferenceLevel	5,296,128	Specifies the initial reference level that the AutoLevel(String, Double, Double) function uses to estimate the peak power of the input signal.This value is expressed in dBm.
TransmitterArchitecture	5,296,129	Specifies the RF architecture at the transmitter for a multicarrier signal.
LimitedConfigurationChange	5,296,131	Specifies the set of properties that are considered by RFmx in the locked signal configuration state.
ModAccMeasurementEnabled	5,312,512	Specifies whether to enable the ModAcc measurement.
ModAccSynchronizationMode	5,312,514	Specifies whether the measurement is performed from the frame, slot, or symbol boundary.
ModAccMeasurementOffset	5,312,515	Specifies the measurement offset to skip from the synchronization boundary. This value is expressed in slots. The synchronization boundary is specified by the SetSynchronizationMode(String, RFmxWcdmaMXModAccSynchronizationMode) method.
ModAccMeasurementLength	5,312,516	Specifies the duration of the ModAcc measurement. This value is expressed in slots.
ModAccSpectrumInverted	5,312,517	Specifies whether the spectrum of the signal is inverted.
ModAccIQOffsetRemovalEnabled	5,312,518	Specifies whether to remove the I/Q offset before the ModAcc measurement.
ModAccTransientRemovalEnabled	5,312,519	Specifies whether the measurement excludes 25 microseconds from the start and end of each slot while computing the RMS EVM, peak EVM, RMS magnitude error and RMS phase error results.
ModAccAllTracesEnabled	5,312,520	Specifies whether to enable the traces after performing the modulation accuracy (ModAcc) measurement.
ModAccResultsRmsEvm	5,312,529	Returns the RMS EVM of the composite signal.This value is expressed as a percentage.
ModAccResultsPeakEvm	5,312,530	Returns the peak EVM of the composite signal.This value is expressed as a percentage.
ModAccResultsRmsMagnitudeError	5,312,531	Returns the RMS magnitude error of the composite signal.This value is expressed as a percentage.
ModAccResultsRmsPhaseError	5,312,532	Returns the RMS phase error of the composite signal.This value is expressed in degrees.
ModAccResultsRho	5,312,533	Returns the figure of merit used to characterize the modulation accuracy composite code domain signal. It refers to the fraction of the total power that can be correlated to the correct active channels in the detected reference signal.
ModAccResultsIQOriginOffset	5,312,534	Returns the I/Q origin offset of the composite signal of a carrier. This value is expressed in dB. The I/Q origin offset is a measure of the DC component present in the I/Q signal being measured.
ModAccResultsFrequencyError	5,312,535	Returns the frequency offset of the composite signal.This value is expressed in Hz.
ModAccResultsChipRateError	5,312,536	Returns the chip rate error of the composite signal.This value is expressed in ppm.
ModAccResultsPeakCde	5,312,537	Returns the maximum code domain error value (CDE).This value is expressed in dB.
ModAccResultsPeakCdeCode	5,312,539	Returns the spreading code corresponding to the value of the GetPeakCde(String, Double) method.
ModAccResultsPeakActiveCde	5,312,540	Returns the maximum value among the active code domain errors (CDEs) for a carrier. This value is expressed in dB.
ModAccResultsPeakActiveCdeSpreadingFactor	5,312,541	Returns the spreading factor of the channel corresponding to the value of the GetPeakActiveCde(String, Double) method for a carrier.
ModAccResultsPeakActiveCdeCode	5,312,542	Returns the spreading code of the channel corresponding to the value of the GetPeakActiveCde(String, Double) method for a carrier.
ModAccResultsPeakRcde	5,312,546	Returns the maximum value among the relative code domain errors (RCDEs) for all active channels for a carrier. This value is expressed in dB.
ModAccResultsPeakRcdeSpreadingFactor	5,312,547	Returns the spreading factor of the channel corresponding to the value of the GetPeakRcde(String, Double) method for a carrier.
ModAccResultsPeakRcdeCode	5,312,548	Returns the spreading code of the channel corresponding to the value of the GetPeakRcde(String, Double) method for a carrier.
ModAccResultsNumberOfDetectedChannels	5,312,549	Returns the number of detected channels when you set the SetChannelConfigurationMode(String, RFmxWcdmaMXChannelConfigurationMode) method to AutoDetect. If you set the Channel Configuration Mode method to UserDefined or TestModel, this method returns the number of configured channels.
ModAccResultsDetectedSpreadingFactor	5,312,550	Returns the spreading factor of the detected channel.
ModAccResultsDetectedSpreadingCode	5,312,551	Returns the spreading code of the detected channel.
ModAccResultsDetectedModulationType	5,312,552	Returns the modulation type of the detected channel.
ModAccResultsDetectedBranch	5,312,553	Returns the branch of the detected channel.
ModAccResultsPeakCdeBranch	5,312,554	Returns the branch corresponding to the value of the GetPeakCde(String, Double) method.
ModAccResultsPeakActiveCdeBranch	5,312,555	Returns the branch of the channel corresponding to the value of the GetPeakActiveCde(String, Double) method for a carrier.
ModAccResultsPeakRcdeBranch	5,312,556	Returns the branch of the channel corresponding to the value of the GetPeakRcde(String, Double) method for a carrier.
ModAccResultsIQGainImbalance	5,312,557	Returns the I/Q gain imbalance of the composite signal of a carrier. This value is expressed in dB. The I/Q gain imbalance is the ratio of the magnitude of the I component to the Q component of the I/Q signal being measured.
ModAccResultsIQQuadratureError	5,312,558	Returns the I/Q quadrature error of the composite signal of a carrier. This value is expressed in degrees. Quadrature error is a measure of the error in the phase between I and Q components of the signal being measured.
ModAccResultsMultiCarrierIQOriginOffset	5,312,559	Returns the estimated I/Q origin offset of the multicarrier signal when the SetTransmitterArchitecture(String, RFmxWcdmaMXTransmitterArchitecture) method is set to LOPerBand. This value is expressed in dB.
ModAccRrcFilterEnabled	5,312,571	Specifies whether to enable the RRC filter. Use this method to disable the filter if the received signal is already RRC-filtered.
ModAccIQGainImbalanceRemovalEnabled	5,312,572	Specifies whether to remove I/Q gain imbalance before the ModAcc Measurement.
ModAccIQQuadratureErrorRemovalEnabled	5,312,573	Specifies whether to remove the I/Q quadrature error before the ModAcc measurement.
QevmMeasurementEnabled	5,316,608	Specifies whether to enable the QPSK EVM measurement.
QevmMeasurementLength	5,316,611	Specifies the duration of the QEVM measurement. This value is expressed in chips.
QevmAveragingEnabled	5,316,613	Specifies whether to enable averaging for the QEVM measurement.
QevmAveragingCount	5,316,614	Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWcdmaMXQevmAveragingEnabled) method to True.
QevmSpectrumInverted	5,316,615	Specifies whether the spectrum of the signal is inverted.
QevmIQOffsetRemovalEnabled	5,316,616	Specifies whether to remove the I/Q offset before the QEVM measurement.
QevmRrcFilterEnabled	5,316,619	Specifies whether to enable the RRC filter. Use this method to disable the filter if the received signal is already RRC-filtered.
QevmAllTracesEnabled	5,316,620	Specifies whether to enable the traces to be stored and retrieved after performing the QEVM measurement.
QevmNumberOfAnalysisThreads	5,316,621	Specifies the maximum number of threads used for parallelism for the QEVM measurement.
QevmResultsMeanRmsEvm	5,316,622	Returns the mean of the RMS EVM values for a QPSK signal. This value is expressed as a percentage. This value is obtained by averaging the RMS EVMs over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The EVM of a chip is the magnitude of the vector difference between the received chip and the ideal chip. The RMS EVM is obtained from all the chips in the measurement interval.
QevmResultsMaximumRmsEvm	5,316,623	Returns the maximum value of the RMS EVMs for a QPSK signal. This value is expressed as a percentage. This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The EVM of a chip is the magnitude of the vector difference between the received chip and the ideal chip. The RMS EVM is obtained from all the chips in the measurement interval.
QevmResultsMeanPeakEvm	5,316,624	Returns the mean of peak EVMs for a QPSK signal. This value is expressed as a percentage. This value is obtained by averaging the peak EVMs over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The EVM of a chip is the magnitude of the vector difference between the received chip and the ideal chip. The peak EVM is obtained from all the chips in the measurement interval.
QevmResultsMaximumPeakEvm	5,316,625	Returns the maximum value of the peak EVMs for a QPSK signal. This value is expressed as a percentage. This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The EVM of a chip is the magnitude of the vector difference between the received chip and the ideal chip. The peak EVM is obtained from all the chips in the measurement interval.
QevmResultsMeanMagnitudeError	5,316,626	Returns the mean of RMS magnitude errors for a QPSK signal. This value is expressed as a percentage.This value is obtained by averaging the RMS magnitude errors over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The magnitude error of a chip is the difference in the magnitudes of the received chip and the ideal chip. The RMS magnitude error is obtained from all the chips in the measurement interval.
QevmResultsMaximumMagnitudeError	5,316,627	Returns the maximum value of the RMS magnitude errors for a QPSK signal. This value is expressed as a percentage. This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The magnitude error of a chip is the difference in the magnitudes of the received chip and the ideal chip. The RMS magnitude error is obtained from all the chips in the measurement interval.
QevmResultsMeanPhaseError	5,316,628	Returns the mean of the RMS phase error values for a QPSK signal. This value is expressed as a percentage.This value is obtained by averaging the RMS phase errors obtained over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The phase error of a chip is the difference in the phases of the received chip and the ideal chip. The RMS phase error is obtained from all the chips in the measurement interval.
QevmResultsMaximumPhaseError	5,316,629	Returns the maximum value of the RMS phase errors for a QPSK signal. This value is expressed in degrees. This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The phase error of a chip is the difference in the phases of the received chip and the ideal chip. The RMS phase error is obtained from all the chips in the measurement interval.
QevmResultsMeanFrequencyError	5,316,630	Returns the mean of the frequency errors for a QPSK signal. This value is expressed in Hz.This value is obtained by the mean of frequency errors obtained over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The frequency error is the estimated difference between the carrier frequency of the received signal and the ideal signal.
QevmResultsMaximumFrequencyError	5,316,631	Returns the maximum value of the frequency errors for a QPSK signal. This value is expressed in Hz.This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method. The frequency error is the estimated difference between the carrier frequency of the received signal and the ideal signal.
QevmResultsMeanIQOriginOffset	5,316,632	Returns the mean of I/Q origin offsets for a QPSK signal. This value is expressed in dB.This value is obtained by averaging the I/Q origin offsets over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The I/Q origin offset is a measure of the DC component present in the I/Q signal being measured.
QevmResultsMaximumIQOriginOffset	5,316,633	Returns the maximum value of the I/Q origin offsets for a QPSK signal. This value is expressed in dB.This value is obtained over all averaging iterations. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The I/Q Origin Offset is the amount of DC component present in the I/Q signal being measured.
QevmResultsMeanChipRateError	5,316,634	Returns the mean of the chip rate errors for a QPSK signal. This value is expressed in ppm. This value is obtained by averaging the chip rate errors over all averaging acquisitions. The number of acquisitions is specified by the value of the SetAveragingCount(String, Int32) method.The chip rate error is the estimated error between the chip clock rate of the transmitted signal and the chip clock rate at the receiver.
QevmResultsMaximumChipRateError	5,316,635	Returns the maximum chip rate error value for a QPSK signal. This value is expressed in ppm. This value is obtained over all averaging iterations. The number of acquisitions is specified by the SetAveragingCount(String, Int32) method.The chip rate error is the estimated error between the chip clock rate of the transmitted signal and the chip clock rate at the receiver.
SlotPhaseMeasurementEnabled	5,324,800	Specifies whether to enable the SlotPhase measurement.
SlotPhaseSynchronizationMode	5,324,802	Specifies whether the measurement is performed from the frame or the slot boundary.
SlotPhaseMeasurementOffset	5,324,803	Specifies the measurement offset to skip from the synchronization boundary. This value is expressed in slots. The synchronization boundary is specified by the SetSynchronizationMode(String, RFmxWcdmaMXSlotPhaseSynchronizationMode) method.
SlotPhaseMeasurementLength	5,324,804	Specifies the duration of the SlotPhase measurement. This value is expressed in slots.
SlotPhaseSpectrumInverted	5,324,807	Specifies whether the signal spectrum is inverted.
SlotPhaseTransientRemovalEnabled	5,324,808	Specifies whether the SlotPhase measurement excludes 25 microseconds from the start and end of each slot while computing the linear-fit chip phase error, which is used to compute phase discontinuities at the slot boundaries.
SlotPhaseRrcFilterEnabled	5,324,809	Specifies whether to enable the RRC filter. Use this method to disable the filter if the received signal is already RRC-filtered.
SlotPhaseAllTracesEnabled	5,324,812	Specifies whether to enable the traces to be stored and retrieved after performing the SlotPhase measurement.
SlotPhaseResultsMaximumPhaseDiscontinuity	5,324,814	Returns the maximum of all the measured phase discontinuity values at the slot boundaries.
SlotPhaseResultsDiscontinuityCountGreaterThanLimit1	5,324,815	Returns the number of times the phase discontinuity values exceed the Limit 1 value for the acquired signal. Limit 1 is fixed at 36 degrees.
SlotPhaseResultsDiscontinuityCountGreaterThanLimit2	5,324,816	Returns the number of times the phase discontinuity values exceed the Limit 2 value for the acquired signal. Limit 2 is fixed at 66 degrees.
SlotPhaseResultsDiscontinuityMinimumDistance	5,324,817	Returns the minimum distance between two phase discontinuity measurements exceeding the Limit 1 value. Limit 1 is fixed at 36 degrees. This value is expressed in slots.
CdaMeasurementEnabled	5,328,896	Specifies whether to enable the CDA measurement.
CdaSynchronizationMode	5,328,898	Specifies whether the measurement is performed from the frame, slot, or symbol boundary.
CdaMeasurementOffset	5,328,899	Specifies the measurement offset to skip from the synchronization boundary. This value is expressed in slots. The synchronization boundary is specified by the SetSynchronizationMode(String, RFmxWcdmaMXCdaSynchronizationMode) method.
CdaMeasurementLength	5,328,900	Specifies the duration of the code domain measurement. This value is expressed in slots.
CdaSpectrumInverted	5,328,901	Specifies whether the spectrum of the signal is inverted.
CdaIQOffsetRemovalEnabled	5,328,902	Specifies whether to remove the I/Q offset before the CDA measurement.
CdaRrcFilterEnabled	5,328,903	Specifies whether to enable the RRC filter. Use this method to disable the filter if the received signal is already RRC-filtered.
CdaMeasurementChannelSpreadingFactor	5,328,905	Specifies the spreading factor of the measurement channel. This value is used to compute the symbol results of the CDA measurement.
CdaMeasurementChannelSpreadingCode	5,328,906	Specifies the spreading code of the measurement channel. This value is used to compute the symbol results of the CDA measurement.
CdaMeasurementChannelModulationType	5,328,907	Specifies the modulation type of the measurement channel. This value is used to compute the symbol results of the CDA measurement.
CdaMeasurementChannelBranch	5,328,908	Specifies the branch of the measurement channel. This value is used to compute the symbol results of the CDA measurement.
CdaPowerUnit	5,328,909	Specifies the measurement unit of all power results, except GetTotalPower(String, Double).
CdaAllTracesEnabled	5,328,917	Specifies whether to enable the traces after performing the CDA measurement.
CdaResultsRmsSymbolEvm	5,328,919	Returns the RMS EVM for the measurement channel. This value is expressed as a percentage.
CdaResultsPeakSymbolEvm	5,328,920	Returns the peak EVM for the measurement channel. This value is expressed as a percentage.
CdaResultsRmsSymbolMagnitudeError	5,328,921	Returns the RMS magnitude error for the measurement channel. This value is expressed as a percentage.
CdaResultsRmsSymbolPhaseError	5,328,922	Returns the RMS phase error for the measurement channel. This value is expressed in degrees.
CdaResultsTotalPower	5,328,923	Returns the mean power of the received signal, sampled at ideal inter-symbol-interference free points. This value is expressed in dBm.
CdaResultsMeanSymbolPower	5,328,924	Returns the mean power of the symbols for the measurement channel. This value is expressed in dB or dBm.
CdaResultsTotalActivePower	5,328,927	Returns the sum of all the active channel powers. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsPeakActivePower	5,328,929	Returns the largest code power among the set of active channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsMeanActivePower	5,328,930	Returns the average of all the active channel powers. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsPeakInactivePower	5,328,931	Returns the largest code power among the set of inactive channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsMeanInactivePower	5,328,932	Returns the average code power among the set of inactive channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsIMeanActivePower	5,328,937	Returns the average code power among the set of active in-phase channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsQMeanActivePower	5,328,938	Returns the average code power among the set of active quadrature-phase channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsIPeakInactivePower	5,328,939	Returns the largest code power among the set of inactive in-phase channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsQPeakInactivePower	5,328,940	Returns the largest code power among the set of inactive quadrature-phase channels in the code domain. If you set the SetPowerUnit(String, RFmxWcdmaMXCdaPowerUnit) method to dBm, the measurement returns an absolute value; otherwise, the measurement returns a value relative to the GetTotalPower(String, Double) method. This value is expressed in dB or dBm.
CdaResultsChipRateError	5,328,941	Returns the chip rate error of the composite signal. This value is expressed in ppm.
SlotPowerMeasurementEnabled	5,332,992	Specifies whether to enable the SlotPower measurement.
SlotPowerMeasurementOffset	5,332,994	Specifies the measurement offset to skip from the synchronization boundary. This value is expressed in slots. The synchronization boundary is specified by the SetSynchronizationMode(String, RFmxWcdmaMXSlotPowerSynchronizationMode) method.
SlotPowerMeasurementLength	5,332,995	Specifies the duration of the SlotPower measurement. This value is expressed in slots.
SlotPowerSpectrumInverted	5,332,996	Specifies whether the spectrum of the signal is inverted.
SlotPowerRrcFilterEnabled	5,332,997	Specifies whether to enable the RRC filter.
SlotPowerSynchronizationMode	5,332,999	Specifies whether the measurement is performed from the frame or slot boundary.

RFmx WCDMA DotNET

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RFmxWcdmaMXPropertyId Enumeration

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