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RFmxWlanMXPropertyId Enumeration

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  • Updated2024-07-17
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RFmxWlanMXPropertyId Enumeration

RFmxWlanMXPropertyId Enumeration

Specifies all the attribute identifiers.

Namespace:  NationalInstruments.RFmx.WlanMX
Assembly:  NationalInstruments.RFmx.WlanMX.Fx40 (in NationalInstruments.RFmx.WlanMX.Fx40.dll) Version: 24.5.0.49283 (24.5.0.49283)

Syntax

public enum RFmxWlanMXPropertyId
Public Enumeration RFmxWlanMXPropertyId

Members

  Member nameValueDescription
SelectedPorts10489853Specifies the instrument port to be configured to acquire a signal. Use RFmxInstr_GetAvailablePorts function to get the valid port names.
CenterFrequency10485761 Specifies the expected carrier frequency of the RF signal that needs to be acquired. This value is expressed in Hz. The signal analyzer tunes to this frequency.

On a MIMO session, use segment(n) along with a named or default signal instance as the selector string to configure this method. Refer to the Selector Strings topic for information about the string syntax for named signals.

ReferenceLevel10485762 Specifies the reference level which represents the maximum expected power of the RF input signal. This value is expressed in dBm for RF devices and Vpk-pk for baseband devices.

On a MIMO session, use port::(deviceName)/(channelNumber) as a selector string to configure or read this property per port. If you do not specify port string, this method is configured for all ports. Refer to the Selector Strings topic for information about the string syntax for named signals.

ExternalAttenuation10485763 Specifies the attenuation of a switch (or cable) connected to the RF IN connector of the signal analyzer. This value is expressed in dB. For more information about attenuation, refer to the Attenuation and Signal Levels topic for your device in the NI RF Vector Signal Analyzers Help .
ReferenceLevelHeadroom10489852 Specifies the margin RFmx adds to the SetReferenceLevel(String, Double) method. The margin avoids clipping and overflow warnings if the input signal exceeds the configured reference level.
TriggerType10485764Specifies the trigger type.
DigitalEdgeTriggerSource10485765 Specifies the source terminal for the digital edge trigger. This method is used only when you set the SetTriggerType(String, RFmxWlanMXTriggerType) method to DigitalEdge .

On a MIMO session, this method configures the digital edge trigger on the master port. By default, the Selected Ports method is configured to "segment0/chain0" and is considered as the master port.

DigitalEdgeTriggerEdge10485766 Specifies the active edge for the trigger. This method is used only when you set the SetTriggerType(String, RFmxWlanMXTriggerType) method to DigitalEdge .
IQPowerEdgeTriggerSource10485767 Specifies the channel from which the device monitors the trigger. This method is used only when you set the SetTriggerType(String, RFmxWlanMXTriggerType) method to IQPowerEdge . On a MIMO session, configures the IQ Power edge trigger on the master port. By default, the selected port configured to segment0/chain0 is considered as master port.
IQPowerEdgeTriggerLevel10485768 Specifies the power level at which the device triggers. This value is expressed in dB when you set the SetIQPowerEdgeTriggerLevelType(String, RFmxWlanMXIQPowerEdgeTriggerLevelType) method to Relative and in dBm when you set the IQ Power Edge Level Type method to Absolute .
IQPowerEdgeTriggerLevelType10489855 Specifies the reference for the SetIQPowerEdgeTriggerLevel(String, Double) method. The IQ Power Edge Level Type method is used only when you set the SetTriggerType(String, RFmxWlanMXTriggerType) method to IQPowerEdge .
IQPowerEdgeTriggerSlope10485769Specifies whether the device asserts the trigger when the signal power is rising or falling.
TriggerDelay10485770Specifies the trigger delay time. This value is expressed in seconds.
TriggerMinimumQuietTimeMode10485771Specifies whether the measurement computes the minimum quiet time used for triggering.
TriggerMinimumQuietTimeDuration10485772Specifies 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.
TriggerGateEnabled10485802Enables time-domain gating of the acquired signal for SEM measurement.
TriggerGateLength10485803 Specifies the maximum duration of time for each record used for computing the spectrum when you are performing an SEM measurement and when you set the SetTriggerGateEnabled(String, RFmxWlanMXTriggerGateEnabled) method to True .
Standard10485773 Specifies the signal under analysis as defined in IEEE Standard 802.11 .
ChannelBandwidth10485774 Specifies the channel spacing as defined under section 3.1 of IEEE Standard 802.11–2016 (pp. 130) . This value is specified in Hz.
NumberOfFrequencySegments10485775Specifies the number of frequency segments for 802.11ac and 802.11ax signals.
NumberOfReceiveChains10485776Specifies the number of receive chains for OFDM standards.
OfdmFrequencySegmentIndex10485780Specifies the frequency segment index to be analyzed in an 80+80 MHz 802.11ax signal. You must set this method to either of the valid values when you want to analyze one of the two segments.
OfdmTransmitPowerClass10485781 Specifies the STA transmit power classification as defined in annexture D.2.2 of IEEE Standard 802.11–2016 , if you set the SetStandard(String, RFmxWlanMXStandard) method to Standard802_11p .
OfdmFrequencyBand10485782 Specifies the ISM frequency band. The SEM measurement uses this information to select an appropriate mask as defined in IEEE Standard 802.11n – 2009 .
OfdmAutoPpduTypeDetectionEnabled10485799Specifies whether to enable auto detection of the PPDU type when performing the OFDMModAcc measurement.
OfdmPpduType10485783 Specifies the PPDU type when you set the SetOfdmAutoPpduTypeDetectionEnabled(String, RFmxWlanMXOfdmAutoPpduTypeDetectionEnabled) method to False .
OfdmHeaderDecodingEnabled10485800Specifies whether to enable the decoding of the header fields in the PPDU.
OfdmEhtSigCompressionEnabled10485818 Specifies whether to enable EHT-SIG compression. This method is applicable only for 802.11be MU PPDU signals.
OfdmNumberOfUsers10485784Specifies the number of users in a multi-user (MU) PPDU.
OfdmMcsIndex10485785 Specifies the modulation and coding scheme (MCS) index or the data rate when you set the SetOfdmHeaderDecodingEnabled(String, RFmxWlanMXOfdmHeaderDecodingEnabled) method to False .
OfdmScramblerSeed10485821 Specifies the scrambler seed for combined signal demodulation. This is applicable only if SetCombinedSignalDemodulationEnabled(String, RFmxWlanMXOfdmModAccCombinedSignalDemodulationEnabled) is set to True.
OfdmFecCodingType10485810Specifies the type of forward error correction (FEC) coding used.
OfdmRUSize10485786Specifies the size of the resource unit (RU) or the multiple resource unit (MRU) in terms of number of subcarriers for 802.11ax and 802.11be signals.
OfdmRUOffsetMruIndex10485787 Specifies the location of RU or MRU for a user. If an RU is configured, the RU Offset is in terms of the index of a 26-tone RU, assuming the entire bandwidth is composed of 26-tone RUs. If an MRU is configured, the MRU Index is as defined in the Table 36-8 to Table 36-15 of IEEE P802.11be/D6.0 .
OfdmGuardIntervalType10485788Specifies the size of the guard interval of OFDM symbols.
OfdmLtfSize10485789 Specifies the LTF symbol size. This method is applicable only for 802.11ax and 802.11be signals.

For 802.11ax Trigger-based PPDU, you must always configure this method. For other signals, you must configure this method, if OFDMHeaderDecodingEnabled is False.

OfdmPreFecPaddingFactor10485811Specifies the pre-FEC padding factor used in 802.11ax TB PPDU and 802.11be TB PPDU for decoding PLCP service data unit (PSDU) bits.
OfdmLdpcExtraSymbolSegment10485812Specifies the presence of an extra OFDM symbol segment for LDPC in the 802.11ax TB PPDU and 802.11be TB PPDU.
OfdmPEDisambiguity10485809Specifies the packet extension disambiguity information.
OfdmStbcEnabled10485813Specifies whether space-time block coding is enabled. This method is applicable only for 802.11ax TB PPDU.
OfdmNumberOfSpaceTimeStreams10485790Specifies the number of space time streams.
OfdmSpaceTimeStreamOffset10485791Specifies the space time stream offset.
OfdmNumberOfHESigBSymbols10485792Specifies the number of HE-SIG-B symbols.
OfdmNumberOfEhtSigSymbols10485819 Specifies the number of EHT-SIG symbols. This method is applicable only for 802.11be MU PPDU signals.
OfdmDcmEnabled10485793Specifies whether the dual carrier modulation (DCM) is applied to the data field of the 802.11ax TB PPDU signals.
OfdmNumberOfLtfSymbols10485794Specifies the number of HE-LTF or EHT-LTF symbols in the 802.11ax TB PPDU or 802.11be TB PPDU, respectively.
OfdmMUMimoLtfModeEnabled10485801Specifies whether the LTF sequence corresponding to each space-time stream is masked by a distinct orthogonal code.
OfdmPreamblePuncturingEnabled10485807Specifies whether the 802.11ax MU PPDU or the 802.11be MU PPDU signal is preamble punctured.
OfdmPreamblePuncturingBitmap10485808 Specifies the punctured 20 MHz sub-channels in the 802.11ax MU PPDU or the 802.11be MU PPDU signal when preamble puncturing is enabled.

The binary representation of the signed integer is interpreted as the bitmap, where a '0' bit indicates that the corresponding sub-channel is punctured. In the binary representation, the least significant bit (LSB) maps to the 20 MHz sub-channel lower in frequency, and the most significant bit (MSB) maps to the 20 MHz sub-channel higher in frequency. For a 80+80 MHz PPDU, the LSB represents the lowest sub-channel in the lower frequency segment. The puncturing information for the 20 MHz sub-channels of a 80 MHz PPDU are encoded in the least significant four bits. The puncturing information for the 20 MHz sub-channels of a 80+80 MHz PPDU or a 160 MHz PPDU is encoded in the least significant eight bits. The puncturing information for the 20 MHz sub-channels of a 320 MHz PPDU is encoded in the least significant sixteen bits.

OfdmAutoPhaseRotationDetectionEnabled10485820 Specifies whether to enable auto detection of phase rotation coefficients.
OfdmPhaseRotationCoefficient110485815 Specifies the phase rotation coefficient 1 as defined in IEEE Standard P802.11be/D6.0 .
OfdmPhaseRotationCoefficient210485816 Specifies the phase rotation coefficient 2 as defined in IEEE Standard P802.11be/D6.0 .
OfdmPhaseRotationCoefficient310485817 Specifies the phase rotation coefficient 3 as defined in IEEE Standard P802.11be/D6.0 .
DetectedStandard10485777 Returns the standard detected by the AutoDetectSignal(String, Double) function.
DetectedChannelBandwidth10485778 Returns the channel bandwidth detected by the AutoDetectSignal(String, Double) . The value is expressed in Hz.
DetectedBurstLength10485779 Returns the duration of the packet detected by the AutoDetectSignal(String, Double) function. The value is expressed in seconds.
DsssModAccMeasurementEnabled10498058 Specifies whether to enable the DSSSModAcc measurement, which is a measurement of the modulation accuracy on signals conforming to the DSSS PHY defined in section 15 and the High Rate DSSS PHY defined in section 16 of IEEE Standard 802.11-2016 .
DsssModAccAcquisitionLengthMode10498059Specifies whether the measurement automatically computes the acquisition length of the waveform based on DSSSModAcc properties.
DsssModAccAcquisitionLength10498060 Specifies the length of the waveform to be acquired for the DSSSModAcc measurement when you set the SetAcquisitionLengthMode(String, RFmxWlanMXDsssModAccAcquisitionLengthMode) method to Manual . This value is expressed in seconds.
DsssModAccMeasurementOffset10498061Specifies the number of data chips to be ignored from the start of the data field for the EVM computation. This value is expressed in chips.
DsssModAccMaximumMeasurementLength10498062Specifies the maximum number of data chips that the measurement uses to compute EVM. This value is expressed in chips.
DsssModAccPulseShapingFilterType10498063 Specifies the type of pulse shaping filter used at the transmitter. This method is ignored when you set the SetEqualizationEnabled(String, RFmxWlanMXDsssModAccEqualizationEnabled) method to True .
DsssModAccPulseShapingFilterParameter10498064Specifies the value of the filter roll-off when you set the Pulse Shaping Filter Type method to Raised Cosine or Root Raised Cosine. This method is ignored if you set the Pulse Shaping Filter Type method to Rectangular.
DsssModAccEqualizationEnabled10498065 Specifies whether to enable equalization. The IEEE Standard 802.11-2016 does not allow equalization for computing EVM. If you enable equalization, the measurement does not support I/Q impairment estimation.
DsssModAccBurstStartDetectionEnabled10498170Specifies whether the measurement detects the rising edge of a burst in the acquired waveform.
DsssModAccEvmUnit10498066Specifies the unit for the EVM results.
DsssModAccPowerMeasurementEnabled10498067Specifies whether power measurement is performed. This measurement computes power of various fields in the PPDU.
DsssModAccPowerNumberOfCustomGates10498068Specifies the number of custom gates used for power measurement.
DsssModAccPowerCustomGateStartTime10498069Specifies the start time of the custom power gate. This value is expressed in seconds.
DsssModAccPowerCustomGateStopTime10498070Specifies the stop time for the custom power gate. This value is expressed in seconds.
DsssModAccFrequencyErrorCorrectionEnabled10498092Specifies whether to enable frequency error correction.
DsssModAccChipClockErrorCorrectionEnabled10498093Specifies whether to enable chip clock error correction.
DsssModAccIQOriginOffsetCorrectionEnabled10498094Specifies whether to enable I/Q origin offset correction.
DsssModAccSpectrumInverted10498171Specifies whether the spectrum of the measured signal is inverted.
DsssModAccDataDecodingEnabled10498172Specifies whether to decode data bits and check for the validity of the cyclic redundancy check (CRC).
DsssModAccAveragingEnabled10498095Specifies whether to enable averaging for DSSSModAcc measurement.
DsssModAccAveragingCount10498096 Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWlanMXDsssModAccAveragingEnabled) method to True .
DsssModAccAllTracesEnabled10498097Specifies whether to enable all the traces computed by DSSSModAcc measurement.
DsssModAccNumberOfAnalysisThreads10498161Specifies the maximum number of threads used for parallelism for DSSSModAcc measurement.
DsssModAccResultsRmsEvmMean10498098Returns the RMS EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_2016Mean10498108Returns the peak EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_2016Maximum10498109Returns the peak EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_2007Mean10498101Returns the peak EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_2007Maximum10498102Returns the peak EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_1999Mean10498099Returns the peak EVM of the burst. This value is expressed as a percentage or in dB.
DsssModAccResultsPeakEvm802_11_1999Maximum10498100Returns the peak EVM of the burst. This value is expressed as percentage or in dB.
DsssModAccResultsNumberOfChipsUsed10498125Returns the number of chips used for the DSSSModAcc measurement.
DsssModAccResultsFrequencyErrorMean10498126Returns the carrier frequency error of the transmitter. This value is expressed in Hz.
DsssModAccResultsChipClockErrorMean10498130Returns the chip clock error of the transmitter. This value is expressed in parts per million (ppm).
DsssModAccResultsIQGainImbalanceMean10498131Returns the I/Q gain imbalance. This value is expressed in dB.
DsssModAccResultsIQQuadratureErrorMean10498135Returns the I/Q quadrature error. This value is expressed in degrees.
DsssModAccResultsIQOriginOffsetMean10498139Returns the I/Q origin offset. This value is expressed in dB.
DsssModAccResultsRmsMagnitudeErrorMean10498146Returns the RMS magnitude error of the received constellation, which is the RMS level of the one minus the magnitude error of the received constellation symbols. This value is expressed as a percentage.
DsssModAccResultsRmsPhaseErrorMean10498147Returns the RMS phase error of the received constellation, which is the RMS level of difference between the ideal and the actual values of the phase of the received constellation symbols. This value is expressed in degrees.
DsssModAccResultsPreambleAveragePowerMean10498162Returns the average power of the preamble field of the PPDU. This value is expressed in dBm.
DsssModAccResultsPreamblePeakPowerMaximum10498163Returns the peak power of the preamble field of the PPDU. This value is expressed in dBm.
DsssModAccResultsHeaderAveragePowerMean10498164Returns the average power of the header field of the PPDU. This value is expressed in dBm.
DsssModAccResultsHeaderPeakPowerMaximum10498165Returns the peak power of the header field of the PPDU. This value is expressed in dBm.
DsssModAccResultsDataAveragePowerMean10498166Returns the average power of the data field of the PPDU. This value is expressed in dBm.
DsssModAccResultsDataPeakPowerMaximum10498167Returns the peak power of the data field of the PPDU. This value is expressed in dBm.
DsssModAccResultsPpduAveragePowerMean10498168Returns the average power of the PPDU. This value is expressed in dBm.
DsssModAccResultsPpduPeakPowerMaximum10498169Returns the peak power of the PPDU. This value is expressed in dBm.
DsssModAccResultsCustomGateAveragePowerMean10498110Returns the average power of the custom gate. This value is expressed in dBm.
DsssModAccResultsCustomGatePeakPowerMaximum10498111Returns the peak power of the custom gate. This value is expressed in dBm.
DsssModAccResultsDataModulationFormat10498152Returns the data modulation format results of the analyzed waveform.
DsssModAccResultsPayloadLength10498153Returns the payload length of the acquired burst. This value is expressed in bytes.
DsssModAccResultsPreambleType10498154Returns the detected preamble type of the acquired burst.
DsssModAccResultsLockedClocksBit10498156Returns the value of the locked clocks bit in the Long PHY SERVICE field.
DsssModAccResultsHeaderCrcStatus10498157 Returns whether the header cyclic redundancy check (CRC) is successfully passed, as defined in section 16.2.3.7 of IEEE Standard 802.11 2016 .
DsssModAccResultsPsduCrcStatus10498158Indicates whether the cyclic redundancy check (CRC) of the received decoded PLCP service data unit (PSDU) has passed.
OfdmModAccMeasurementEnabled10502144Specifies whether to enable OFDMModAcc measurement for OFDM based standards.
OfdmModAccAveragingEnabled10502146Specifies whether to enable averaging for OFDMModAcc measurements.
OfdmModAccAveragingCount10502147 Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWlanMXOfdmModAccAveragingEnabled) method to True .
OfdmModAccAveragingType10502316 Specifies the averaging type for the OFDMModAcc measurement. This method is considered only when you set the OfdmModAccAveragingEnabled method to True and when you set the OfdmModAccAveragingCount method to a value greater than 1.
OfdmModAccVectorAveragingTimeAlignmentEnabled10502317 Specifies whether to enable time alignment for the acquired I/Q data across multiple acquisitions. This method is considered only when you set the OfdmModAccAveragingEnabled method to True , when you set the OfdmModAccAveragingCount method to a value greater than 1, and when you set the RFmxWlanMXOfdmModAccAveragingType method to Vector . You can set this method to False when there is no time offset between the acquired I/Q data of all averaging counts.
OfdmModAccVectorAveragingPhaseAlignmentEnabled10502318 Specifies whether to enable phase alignment for the acquired I/Q data across multiple acquisitions. This method is considered only when you set the OfdmModAccAveragingEnabled method to True , when you set the OfdmModAccAveragingCount method to a value greater than 1, and when you set the RFmxWlanMXOfdmModAccAveragingType method to Vector . You can set this method to False when there is no phase offset between the acquired I/Q data of all averaging counts.
OfdmModAccMeasurementMode10502246Specifies whether the measurement calibrates the noise floor of analyzer or performs the ModAcc measurement.
OfdmModAccEvmReferenceDataSymbolsMode10502291Specifies whether to use an acquired waveform or a reference waveform to create reference data symbols (ideal constellation points) for an EVM computation.
OfdmModAccEvmUnit10502152Specifies the unit for EVM results.
OfdmModAccAcquisitionLengthMode10502153Specifies whether the measurement automatically computes the acquisition length of the waveform based on other OFDMModAcc properties.
OfdmModAccAcquisitionLength10502154 Specifies the length of the waveform to be acquired for the OFDMModAcc measurement, when you set the SetAcquisitionLengthMode(String, RFmxWlanMXOfdmModAccAcquisitionLengthMode) method to Manual . This value is expressed in seconds.
OfdmModAccMeasurementOffset10502155Specifies the number of data symbols to be ignored from the start of the data field for EVM computation. This value is expressed in symbols.
OfdmModAccMaximumMeasurementLength10502156Specifies the maximum number of OFDM symbols that the measurement uses to compute EVM. This value is expressed in symbols.
OfdmModAccCombinedSignalDemodulationEnabled10502346Specifies whether to enable demodulation of the signal that is formed by combining signals from multiple transmitter chains.
OfdmModAccReferenceDataConstellationIdentifier10502347Identifies the reference files used for combined signal demodulation. The value of this method must be same as the value of the Reference Data Identifier string specified while creating the reference files. This is applicable only if SetCombinedSignalDemodulationEnabled(String, RFmxWlanMXOfdmModAccCombinedSignalDemodulationEnabled) is set to True.
OfdmModAccBurstStartDetectionEnabled10502277Specifies whether the measurement detects a rising edge of a burst in the acquired waveform.
OfdmModAccFrequencyErrorEstimationMethod10502270Specifies the PPDU fields that the measurement uses to estimate the carrier frequency error in the acquired signal.
OfdmModAccCommonClockSourceEnabled10502157Specifies whether the transmitter uses the same reference clock signal for generating the RF carrier and the symbol clock.
OfdmModAccCommonPilotErrorScalingReference10502353 Specifies whether common pilot error is computed relative to only LTF or scaling by average CPE.
OfdmModAccAmplitudeTrackingEnabled10502158Specifies whether to enable pilot-based mean amplitude tracking per OFDM data symbol.
OfdmModAccPhaseTrackingEnabled10502159Specifies whether to enable pilot-based common phase error correction per OFDM data symbol.
OfdmModAccSymbolClockErrorCorrectionEnabled10502160Specifies whether to enable symbol clock error correction.
OfdmModAccSpectrumInverted10502266Specifies whether the spectrum of the measured signal is inverted. The inversion happens when the I and the Q components of the baseband complex signal are swapped.
OfdmModAccChannelEstimationType10502161Specifies the fields in the PPDU used to estimate the channel frequency response.
OfdmModAccChannelEstimationInterpolationType10502250Specifies the interpolation type and/or smoothing type used on the channel estimates.
OfdmModAccChannelEstimationSmoothingLength10502251Specifies the length of the triangular-weighted moving window across subcarriers that is used for averaging the channel estimate.
OfdmModAccChannelEstimationRelativeDelaySpread10502327Specifies the expected channel delay spread relative to the OFDM symbol length.
OfdmModAccChannelEstimationLLtfEnabled10502279Specifies whether to use the legacy channel estimation field for combining with the reference channel frequency response.
OfdmModAccPowerMeasurementEnabled10502167Specifies whether power measurements are performed.
OfdmModAccPowerNumberOfCustomGates10502168Specifies the number of custom gates for power measurement.
OfdmModAccPowerCustomGateStartTime10502169Specifies the start time of the custom power gate. This value is expressed in seconds.
OfdmModAccPowerCustomGateStopTime10502170 Specifies the stop time of the custom power gate, and must be greater than the corresponding SetPowerCustomGateStartTime(String, Double) method. This value is expressed in seconds.
OfdmModAccChannelMatrixPowerEnabled10502285Specifies whether the channel frequency response matrix power measurements are enabled. This enables cross-power measurements for MIMO signals and user-power measurements for MU signals.
OfdmModAccIQImpairmentsEstimationEnabled10502267Specifies whether to enable the estimation of I/Q gain imbalance, I/Q quadrature error, and I/Q timing skew impairments.
OfdmModAccIQImpairmentsModel10502171Specifies the I/Q impairments model used by the measurement for estimating I/Q impairments.
OfdmModAccIQGainImbalanceCorrectionEnabled10502172Specifies whether to enable I/Q gain imbalance correction.
OfdmModAccIQQuadratureErrorCorrectionEnabled10502173Specifies whether to enable I/Q quadrature error correction.
OfdmModAccIQTimingSkewCorrectionEnabled10502174Specifies whether to enable I/Q timing skew correction.
OfdmModAccIQImpairmentsPerSubcarrierEnabled10502271Specifies whether to estimate I/Q impairments independently for each subcarrier.
OfdmModAccUnusedToneErrorMaskReference10502252Specifies the reference used to create the unused tone error mask for the 802.11ax or 802.11be TB PPDU signals.
OfdmModAccDataDecodingEnabled10502283Specifies whether to decode data bits and check for the validity of the cyclic redundancy check (CRC).
OfdmModAccNoiseCompensationEnabled10502247Specifies whether the contribution of the instrument noise is compensated for EVM computation.
OfdmModAccNoiseCompensationInputPowerCheckEnabled10502248Specifies whether the measurement checks if any high power signal is present at the RFIn port of the instrument while performing noise floor calibration.
OfdmModAccNoiseCompensationReferenceLevelCoercionLimit10502249Specifies the reference level coercion limit for noise compensation. This value is expressed in dB.
OfdmModAccOptimizeDynamicRangeForEvmEnabled10502268Specifies whether to optimize the analyzer's dynamic range for the EVM measurement.
OfdmModAccOptimizeDynamicRangeForEvmMargin10502269 Specifies the margin above the reference level you specify when you set the SetOptimizeDynamicRangeForEvmEnabled(String, RFmxWlanMXOfdmModAccOptimizeDynamicRangeForEvmEnabled) method to True . This value is expressed in dB.
OfdmModAccAutoLevelAllowOverflow10502321 Specifies whether the AutoLevel(String, Double) function should search for the optimum reference levels while allowing ADC overflow.
OfdmModAccAllTracesEnabled10502149Specifies whether to enable all the traces computed by the OFDMModAcc measurement.
OfdmModAccNumberOfAnalysisThreads10502148Specifies the maximum number of threads used for parallelism for the OFDMModAcc measurement.
OfdmModAccResultsCompositeRmsEvmMean10502254 Returns the RMS EVM of all subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set OFDMModAccAveragingEnabled method to True, this method returns the mean of RMS EVM results for the specified user that is computed for each averaging count.

OfdmModAccResultsCompositeDataRmsEvmMean10502255 Returns the RMS EVM of data-subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of data RMS EVM results computed for each averaging count.

OfdmModAccResultsCompositePilotRmsEvmMean10502256 Returns the RMS EVM of pilot-subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method is set to True, this method returns the mean of pilot RMS EVM results computed for each averaging count.

OfdmModAccResultsStreamRmsEvmMean10502260 Returns the stream RMS EVM of all subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of Stream RMS EVM results computed for each averaging count.

OfdmModAccResultsStreamDataRmsEvmMean10502261 Returns the stream RMS EVM of data subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of Stream Data RMS EVM results computed for each averaging count.

OfdmModAccResultsStreamPilotRmsEvmMean10502262 Returns the stream RMS EVM of pilot subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of stream Pilot RMS EVM results computed for each averaging count.

OfdmModAccResultsChainRmsEvmMean10502257 Returns the chain RMS EVM of all subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of chain RMS EVM results computed for each averaging count.

OfdmModAccResultsChainDataRmsEvmMean10502258 Returns the chain RMS EVM of data subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of data chain RMS EVM results computed for each averaging count.

OfdmModAccResultsChainPilotRmsEvmMean10502259 Returns the chain RMS EVM of pilot subcarriers in all OFDM symbols. This value is expressed as a percentage or in dB.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of pilot chain RMS EVM results computed for each averaging count.

OfdmModAccResultsUserStreamRmsEvmMean10502263 Returns the RMS EVM of all subcarriers in all OFDM symbols for the specified user. This value is expressed as a percentage or in dB.

This result is applicable for MU PPDU. When you set OFDMModAccAveragingEnabled method to True, this method returns the mean of User Stream RMS EVM results for the specified user that is computed for each averaging count.

OfdmModAccResultsUserStreamDataRmsEvmMean10502264 Returns the RMS EVM of data-subcarriers in all OFDM symbols for the specified user. This value is expressed as a percentage or in dB.

This result is applicable for MU PPDU. When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of data RMS EVM results for the specified user that is computed for each averaging count.

OfdmModAccResultsUserStreamPilotRmsEvmMean10502265 Returns the RMS EVM of pilot-subcarriers in all OFDM symbols for the specified user. This value is expressed as a percentage or in dB.

This result is applicable for MU PPDU. When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of pilot RMS EVM results for the specified user that is computed for each averaging count.

OfdmModAccResultsLSigRmsEvmMean10502331 Returns the RMS EVM of subcarriers in the L-SIG symbol. This value is expressed as a percentage or in dB.
OfdmModAccResultsSigRmsEvmMean10502332 Returns the RMS EVM of subcarriers in the SIG symbol. This value is expressed as a percentage or in dB.
OfdmModAccResultsSigBRmsEvmMean10502333 Returns the RMS EVM of subcarriers in the SIG-B symbol. This value is expressed as a percentage or in dB.
OfdmModAccResultsUSigRmsEvmMean10502334 Returns the RMS EVM of subcarriers in the U-SIG symbol. This value is expressed as a percentage or in dB.
OfdmModAccResultsEhtSigRmsEvmMean10502335 Returns the RMS EVM of subcarriers in the EHT-SIG symbol. This value is expressed as a percentage or in dB.
OfdmModAccResultsLStfAveragePowerMean10502202Returns the average power of the L-STF or STF field. This value is expressed in dBm.
OfdmModAccResultsLStfPeakPowerMaximum10502203Returns the peak power of the L-STF or STF field. This value is expressed in dBm.
OfdmModAccResultsLLtfAveragePowerMean10502204Returns the average power of the L-LTF or LTF field. This value is expressed in dBm.
OfdmModAccResultsLLtfPeakPowerMaximum10502205Returns the peak power of the L-LTF or LTF field. This value is expressed in dBm.
OfdmModAccResultsLSigAveragePowerMean10502206Returns the average power of the L-SIG or SIGNAL field. This value is expressed in dBm.
OfdmModAccResultsLSigPeakPowerMaximum10502207Returns the peak power of the L-SIG or SIGNAL field. This value is expressed in dBm.
OfdmModAccResultsRLSigAveragePowerMean10502208Returns the average power of the RL-SIG field. This value is expressed in dBm.
OfdmModAccResultsRLSigPeakPowerMaximum10502209Returns the peak power of the RL-SIG field. This value is expressed in dBm.
OfdmModAccResultsHTSigAveragePowerMean10502210Returns the average power of the HT-SIG field. This value is expressed in dBm.
OfdmModAccResultsHTSigPeakPowerMaximum10502211Returns the peak power of the HT-SIG field. This value is expressed in dBm.
OfdmModAccResultsVhtSigAAveragePowerMean10502212Returns the average power of the VHT-SIG-A field. This value is expressed in dBm.
OfdmModAccResultsVhtSigAPeakPowerMaximum10502213Returns the peak power of the VHT-SIG-A field. This value is expressed in dBm.
OfdmModAccResultsHESigAAveragePowerMean10502214Returns the average power of the HE-SIG-A field. This value is expressed in dBm.
OfdmModAccResultsHESigAPeakPowerMaximum10502215Returns the peak power of the HE-SIG-A field. This value is expressed in dBm.
OfdmModAccResultsUSigAveragePowerMean10502336Returns the average power of the U-SIG field. This value is expressed in dBm.
OfdmModAccResultsUSigPeakPowerMaximum10502337Returns the peak power of the U-SIG field. This value is expressed in dBm.
OfdmModAccResultsVhtSigBAveragePowerMean10502216Returns the average power of the VHT-SIG-B field. This value is expressed in dBm.
OfdmModAccResultsVhtSigBPeakPowerMaximum10502217Returns the peak power of the VHT-SIG-B field. This value is expressed in dBm.
OfdmModAccResultsHESigBAveragePowerMean10502218Returns the average power of the HE-SIG-B field. This value is expressed in dBm.
OfdmModAccResultsHESigBPeakPowerMaximum10502219Returns the peak power of the HE-SIG-B field. This value is expressed in dBm.
OfdmModAccResultsEhtSigAveragePowerMean10502338Returns the average power of the EHT-SIG field. This value is expressed in dBm.
OfdmModAccResultsEhtSigPeakPowerMaximum10502339Returns the peak power of the EHT-SIG field. This value is expressed in dBm.
OfdmModAccResultsHTStfAveragePowerMean10502220Returns the average power of the HT-STF field. This value is expressed in dBm.
OfdmModAccResultsHTStfPeakPowerMaximum10502221Returns the peak power of the HT-STF field. This value is expressed in dBm.
OfdmModAccResultsHTGFStfAveragePowerMean10502222Returns the average power of the HT-GF-STF. This value is expressed in dBm.
OfdmModAccResultsHTGFStfPeakPowerMaximum10502223Returns the peak power of the HT-GF-STF. This value is expressed in dBm.
OfdmModAccResultsVhtStfAveragePowerMean10502224Returns the average power of the VHT-STF field. This value is expressed in dBm.
OfdmModAccResultsVhtStfPeakPowerMaximum10502225Returns the peak power of the VHT-STF field. This value is expressed in dBm.
OfdmModAccResultsHEStfAveragePowerMean10502226Returns the average power of the HE-STF field. This value is expressed in dBm.
OfdmModAccResultsHEStfPeakPowerMaximum10502227Returns the peak power of the HE-STF field. This value is expressed in dBm.
OfdmModAccResultsEhtStfAveragePowerMean10502340Returns the average power of the EHT-STF field. This value is expressed in dBm.
OfdmModAccResultsEhtStfPeakPowerMaximum10502341Returns the peak power of the EHT-STF field. This value is expressed in dBm.
OfdmModAccResultsHTDltfAveragePowerMean10502228Returns the average power of the HT-DLTF. This value is expressed in dBm.
OfdmModAccResultsHTDltfPeakPowerMaximum10502229Returns the peak power of the HT-DLTF field. This value is expressed in dBm.
OfdmModAccResultsHTEltfAveragePowerMean10502230Returns the average power of the HT-ELTF field. This value is expressed in dBm.
OfdmModAccResultsHTEltfPeakPowerMaximum10502231Returns the peak power of the HT-ELTF field. This value is expressed in dBm.
OfdmModAccResultsVhtLtfAveragePowerMean10502232Returns the average power of the VHT-LTF field. This value is expressed in dBm.
OfdmModAccResultsVhtLtfPeakPowerMaximum10502233Returns the peak power of the VHT-LTF field. This value is expressed in dBm.
OfdmModAccResultsHELtfAveragePowerMean10502234Returns the average power of the HE-LTF field. This value is expressed in dBm.
OfdmModAccResultsHELtfPeakPowerMaximum10502235Returns the peak power of the HE-LTF field. This value is expressed in dBm.
OfdmModAccResultsEhtLtfAveragePowerMean10502342Returns the average power of the EHT-LTF field. This value is expressed in dBm.
OfdmModAccResultsEhtLtfPeakPowerMaximum10502343Returns the peak power of the EHT-LTF field. This value is expressed in dBm.
OfdmModAccResultsDataAveragePowerMean10502236Returns the average power of the data field. This value is expressed in dBm.
OfdmModAccResultsDataPeakPowerMaximum10502237Returns the peak power of the data field. This value is expressed in dBm.
OfdmModAccResultsPEAveragePowerMean10502238Returns the average power of the packet extension field. This value is expressed in dBm.
OfdmModAccResultsPEPeakPowerMaximum10502239Returns the peak power of the packet extension field. This value is expressed in dBm.
OfdmModAccResultsPpduAveragePowerMean10502240Returns the average power of the PPDU. This value is expressed in dBm.
OfdmModAccResultsPpduPeakPowerMaximum10502241Returns the peak power of the PPDU. This value is expressed in dBm.
OfdmModAccResultsCustomGateAveragePowerMean10502242Returns the average power of the custom gate. This value is expressed in dBm.
OfdmModAccResultsCustomGatePeakPowerMaximum10502243Returns the peak power of the custom gate. This value is expressed in dBm.
OfdmModAccResultsCrossPowerMean10502286 Returns the cross power. The cross power for chain x is the power contribution from streams other than stream x in the chain. This value is expressed in dB.
OfdmModAccResultsUserPowerMean10502287 Returns the user power. User power is the frequency domain power measured over subcarriers occupied by a given user. This value is expressed in dBm.

When you set the OFDMModAccAveragingEnabled method to True, this method returns the mean of chain RMS EVM results computed for each averaging count.

OfdmModAccResultsStreamPowerMean10502348 Returns average stream power across iterations for combined signal demodulation. This is applicable only if SetCombinedSignalDemodulationEnabled(String, RFmxWlanMXOfdmModAccCombinedSignalDemodulationEnabled) is set to True.
OfdmModAccResultsSpectralFlatnessMargin10502179Returns the spectral flatness margin, which is the minimum of the upper and lower spectral flatness margins. This value is expressed in dB.
OfdmModAccResultsSpectralFlatnessMarginSubcarrierIndex10502180 Returns the subcarrier index corresponding to the GetSpectralFlatnessMargin(String, Double) result.
OfdmModAccResultsUnusedToneErrorMargin10502181Returns the unused tone error margin, which is the minimum difference between the unused tone error mask and the unused tone error across 26-tone RUs. This value is expressed in dB.
OfdmModAccResultsUnusedToneErrorMarginRUIndex10502182 Returns the 26-tone RU index corresponding to the GetUnusedToneErrorMargin(String, Double) result.
OfdmModAccResultsBurstStartTimeMean10502320Returns the absolute time corresponding to the detected start of the analyzed burst. The start time is computed with respect to the initial time value of the acquired waveform. This value is expressed in seconds.
OfdmModAccResultsNumberOfSymbolsUsed10502166Returns the number of OFDM symbols used by the measurement.
OfdmModAccResultsNoiseCompensationApplied10502183Returns whether the noise compensation is applied. 
OfdmModAccResultsFrequencyErrorMean10502184Returns the carrier frequency error of the transmitter. This value is expressed in Hz.
OfdmModAccResultsFrequencyErrorCcdf10Percent10502185Returns the 10% point of Complementary Cumulative Distribution Function (CCDF) of the absolute frequency error. This value is expressed in Hz.
OfdmModAccResultsSymbolClockErrorMean10502186Returns the symbol clock error of the transmitter.
OfdmModAccResultsRelativeIQOriginOffsetMean10502187Returns the relative I/Q origin offset, which is the ratio of the power of the DC subcarrier to the total power of all the subcarriers. This value is expressed in dB.
OfdmModAccResultsAbsoluteIQOriginOffsetMean10502188Returns the absolute I/Q origin offset, which is the power of the DC subcarrier. This value is expressed in dBm.
OfdmModAccResultsIQGainImbalanceMean10502189Returns the I/Q gain imbalance, which is the ratio of the RMS amplitude of the in-phase (I) component of the signal to the RMS amplitude of the quadrature-phase (Q) component of the signal. This value is expressed in dB.
OfdmModAccResultsIQQuadratureErrorMean10502190Returns the I/Q quadrature error, which is a measure of deviation of the phase difference between the quadrature-phase (Q) and the in-phase (I) component of the signal from 90 degrees. This value is expressed in degrees.
OfdmModAccResultsIQTimingSkewMean10502191Returns the I/Q timing skew, which is the difference between the group delay of the in-phase (I) and quadrature (Q) components of the signal. This value is expressed in seconds.
OfdmModAccResultsRmsCommonPhaseErrorMean10502192Returns the RMS common phase error.
OfdmModAccResultsRmsCommonPilotErrorMean10502253Returns the RMS common pilot error. This value is expressed as a percentage.
OfdmModAccResultsPpduType10502193Returns the PPDU type of the measured signal.
OfdmModAccResultsMcsIndex10502194Returns the MCS index or the data rate of the measured signal.
OfdmModAccResultsAggregation10502345Returns the value of the Aggregation field as decoded from the high-throughput signal (HT-SIG) field of 802.11n signal.
OfdmModAccResultsFecCodingType10502314Returns the FEC coding type for a specified user.
OfdmModAccResultsRUSize10502195Returns the RU or the MRU size.
OfdmModAccResultsRUOffsetMruIndex10502196 Returns the location of RU or MRU for a user. If an RU is configured, the RU Offset is in terms of the index of a 26-tone RU, assuming the entire bandwidth is composed of 26-tone RUs. If an MRU is configured, the MRU Index is as defined in Table 36-8 to Table 36-15 of IEEE P802.11be/D6.0 .
OfdmModAccResultsNumberOfUsers10502197Returns the number of users.
OfdmModAccResultsNumberOfHESigBSymbols10502198Returns the number of HE-SIG-B symbols.
OfdmModAccResultsGuardIntervalType10502199Returns the size of the guard interval of OFDM symbols.
OfdmModAccResultsLtfSize10502200 Returns the HE-LTF size or EHT-LTF size when you set the SetStandard(String, RFmxWlanMXStandard) method to Standard802_11ax or Standard802_11be , respectively.
OfdmModAccResultsNumberOfSpaceTimeStreams10502201Returns the number of space time streams.
OfdmModAccResultsSpaceTimeStreamOffset10502288Returns the space time stream offset. This method is applicable only to 802.11ax and 802.11be signals.
OfdmModAccResultsDcmEnabled10502315Returns whether DCM is enabled for a specified user.
OfdmModAccResultsLSigParityCheckStatus10502280Returns whether the parity check has passed either for the SIGNAL field of the 802.11a/g waveform or for the L-SIG field of the 802.11n/802.11ac/802.11ax/802.11be waveforms.
OfdmModAccResultsSigCrcStatus10502281Returns whether the cyclic redundancy check (CRC) has passed either for the HT-SIG field of the 802.11n waveform, for the VHT-SIG-A field of the 802.11ac waveform, or for the HE-SIG-A field of the 802.11ax waveform.
OfdmModAccResultsSigBCrcStatus10502282Returns whether the cyclic redundancy check (CRC) has passed for the HE-SIG-B field of the 802.11ax MU PPDU waveform.
OfdmModAccResultsUSigCrcStatus10502289Returns whether the cyclic redundancy check (CRC) has passed for the U-SIG field of the 802.11be waveform.
OfdmModAccResultsEhtSigCrcStatus10502290Returns whether the cyclic redundancy check (CRC) has passed for the EHT-SIG field of the 802.11be waveform.
OfdmModAccResultsPsduCrcStatus10502284Indicates whether the cyclic redundancy check (CRC) of the received decoded PLCP service data unit (PSDU) has passed.
OfdmModAccResultsScramblerSeed10502344Returns the detected initial state of the scrambler, which is used to scramble the data bits in the device under test (DUT). RFmx uses the same seed to descramble the received bit-sequence.
OfdmModAccResultsPEDuration10502293Returns the duration of the packet extension field for the 802.11ax and 802.11be signals. This value is expressed in seconds.
OfdmModAccResultsPhaseRotationCoefficient110502328 Specifies the phase rotation coefficient 1 as defined in IEEE Standard P802.11be/D6.0.
OfdmModAccResultsPhaseRotationCoefficient210502329 Specifies the phase rotation coefficient 2 as defined in IEEE Standard P802.11be/D6.0.
OfdmModAccResultsPhaseRotationCoefficient310502330 Specifies the phase rotation coefficient 3 as defined in IEEE Standard P802.11be/D6.0.
SemMeasurementEnabled10506240Specifies whether to enable the spectral emission mask (SEM) measurement.
SemMaskType10506242Specifies whether the mask used for the SEM measurement is defined either as per the standard or as specified by you.
SemCarrierIntegrationBandwidth10506245Returns the integration bandwidth of the carrier as per the standard and channel bandwidth. This value is expressed in Hz.
SemNumberOfOffsets10506246 Specifies the number of offset segments for the SEM measurement when you set the SetMaskType(String, RFmxWlanMXSemMaskType) method to Custom .
SemOffsetStartFrequency10506247Specifies the start frequency of the offset segment relative to the carrier frequency. This value is expressed in Hz.
SemOffsetStopFrequency10506248Specifies the stop frequency of the offset segment relative to carrier frequency. This value is expressed in Hz.
SemOffsetSideband10506249Specifies whether the offset segment is present on one side or on both sides of the carrier.
SemOffsetRelativeLimitStart10506250Specifies the relative power limit corresponding to the start of the offset segment. This value is expressed in dB.
SemOffsetRelativeLimitStop10506251Specifies the relative power limit corresponding to the end of the offset segment. This value is expressed in dB.
SemSpanAuto10506252Specifies whether the frequency range of the spectrum used for SEM measurement is computed automatically by the measurement or is configured by you.
SemSpan10506253Specifies the frequency range of the spectrum used for the SEM measurement. This value is expressed in Hz.
SemSweepTimeAuto10506257Specifies whether the sweep time for the SEM measurement is computed automatically or is configured by you.
SemSweepTimeInterval10506258Specifies the sweep time for the SEM measurement. This value is expressed in seconds.
SemAveragingEnabled10506259Specifies whether to enable averaging for the SEM measurement.
SemAveragingCount10506260 Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWlanMXSemAveragingEnabled) method to True .
SemAveragingType10506261Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for SEM measurement.
SemAmplitudeCorrectionType10506262Specifies whether the amplitude of the frequency bins, used in the measurement, is corrected for external attenuation at the RF center frequency, or at the individual frequency bins. Use the RFmxInstr_CfgExternalAttenuationTable function to configure the external attenuation table.
SemAllTracesEnabled10506263Specifies whether to enable the traces to be stored and retrieved after performing the SEM measurement.
SemNumberOfAnalysisThreads10506264Specifies the maximum number of threads used for parallelism for SEM measurement.
SemResultsMeasurementStatus10506267Returns the overall measurement status, indicating whether the spectrum exceeds the SEM measurement mask limits in any of the offset segments.
SemResultsCarrierAbsoluteIntegratedPower10506268 Returns the average power of the carrier channel over the bandwidth indicated by the GetCarrierIntegrationBandwidth(String, Double) method. This value is expressed in dBm.
SemResultsCarrierAbsolutePeakPower10506270 Returns the peak power in the carrier channel over the bandwidth indicated by the GetCarrierIntegrationBandwidth(String, Double) method. This value is expressed in dBm. SEM mask level is determined by this result.
SemResultsCarrierPeakFrequency10506271Returns the frequency at which the peak power occurs in the carrier channel. This value is expressed in Hz.
SemResultsLowerOffsetMeasurementStatus10506273Returns the lower offset segment measurement status indicating whether the spectrum exceeds the SEM measurement mask limits in the lower offset segment.
SemResultsLowerOffsetAbsoluteIntegratedPower10506274Returns the average power of the lower (negative) offset channel over the bandwidth obtained by the start and stop frequencies of the offset channel. This value is expressed in dBm.
SemResultsLowerOffsetRelativeIntegratedPower10506275Returns the average power of the lower (negative) offset segment relative to the peak power of the carrier channel. This value is expressed in dB.
SemResultsLowerOffsetAbsolutePeakPower10506276Returns the peak power measured in the lower (negative) offset segment. This value is expressed in dBm.
SemResultsLowerOffsetRelativePeakPower10506277Returns the peak power of the lower (negative) offset segment relative to the peak power of the carrier channel. This value is expressed in dB.
SemResultsLowerOffsetPeakFrequency10506278Returns the frequency at which the peak power occurs in the lower (negative) offset channel. This value is expressed in Hz.
SemResultsLowerOffsetMargin10506279Returns the margin from the SEM measurement mask for the lower (negative) offset. This value is expressed in dB.
SemResultsLowerOffsetMarginAbsolutePower10506280 Returns the power level of the spectrum corresponding to the result of the GetLowerOffsetMargin(String, Double) method. This value is expressed in dBm.
SemResultsLowerOffsetMarginRelativePower10506281 Returns the power level of the spectrum corresponding to the result of the GetLowerOffsetMargin(String, Double) method. This value is expressed in dB.
SemResultsLowerOffsetMarginFrequency10506282 Returns the frequency of the spectrum corresponding to the result of the GetLowerOffsetMargin(String, Double) method. This value is expressed in Hz.
SemResultsUpperOffsetMeasurementStatus10506283Returns the upper offset (positive) segment measurement status indicating if the spectrum exceeds the SEM measurement mask limits in the upper offset segment.
SemResultsUpperOffsetAbsoluteIntegratedPower10506284Returns the average power of the offset (positive) offset channel over the bandwidth determined by the start and stop frequencies of the offset channel. This value is expressed in dBm.
SemResultsUpperOffsetRelativeIntegratedPower10506285Returns the average power of the offset (positive) offset segment relative to the peak power of the carrier channel. This value is expressed in dB.
SemResultsUpperOffsetAbsolutePeakPower10506286Returns the peak power of the offset (positive) offset segment. This value is expressed in dBm.
SemResultsUpperOffsetRelativePeakPower10506287Returns the peak power of the offset (positive) segment relative to the peak power of the carrier channel. This value is expressed in dB.
SemResultsUpperOffsetPeakFrequency10506288Returns the frequency at which the peak power occurs in the offset (positive) channel. This value is expressed in Hz.
SemResultsUpperOffsetMargin10506289Returns the margin from the SEM measurement mask for the offset (positive). This value is expressed in dB.
SemResultsUpperOffsetMarginAbsolutePower10506290 Returns the power level of the spectrum corresponding to the result of the GetUpperOffsetMargin(String, Double) method. This value is expressed in dBm.
SemResultsUpperOffsetMarginRelativePower10506291 Returns the power level of the spectrum corresponding to the result of the GetUpperOffsetMargin(String, Double) method. This value is expressed in dB.
SemResultsUpperOffsetMarginFrequency10506292 Returns the frequency of the spectrum corresponding to the result of the GetUpperOffsetMargin(String, Double) method. This value is expressed in Hz.
TxpMeasurementEnabled10489856Specifies whether to enable the transmit power (TXP) measurement.
TxpMaximumMeasurementInterval10489858Specifies the maximum measurement interval. This value is expressed in seconds.
TxpBurstDetectionEnabled10489859Specifies whether the measurement detects the start and the end of a WLAN packet automatically.
TxpAveragingEnabled10489860Specifies whether to enable averaging for the TXP measurement.
TxpAveragingCount10489861 Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWlanMXTxpAveragingEnabled) method to True .
TxpAllTracesEnabled10489862Specifies whether to enable the traces to be stored and retrieved after performing the TXP measurement.
TxpNumberOfAnalysisThreads10489863Specifies the maximum number of threads used for parallelism for TXP measurement.
TxpResultsAveragePowerMean10489865Returns the average power of the acquired signal. This value is expressed in dBm.
TxpResultsPeakPowerMaximum10489873Returns the peak power of the acquired signal. This value is expressed in dBm.
PowerRampMeasurementEnabled10493962Specifies whether to enable PowerRamp measurement.
PowerRampAcquisitionLength10493964Specifies the duration of the signal to be acquired for the PowerRamp measurement. This value is expressed in seconds.
PowerRampAveragingEnabled10493972Specifies if averaging is enabled for PowerRamp measurements.
PowerRampAveragingCount10493973 Specifies the number of acquisitions used for averaging when you set the SetAveragingEnabled(String, RFmxWlanMXPowerRampAveragingEnabled) method to True .
PowerRampAllTracesEnabled10493974Specifies whether to enable all the traces computed by the PowerRamp measurement.
PowerRampNumberOfAnalysisThreads10493975Specifies the maximum number of threads used for parallelism for PowerRamp measurement.
PowerRampResultsRiseTimeMean10493976Returns the power-ramp rise time of the burst. This value is expressed in seconds.
PowerRampResultsFallTimeMean10493977Returns the power-ramp fall time of the burst. This value is expressed in seconds.
AutoLevelInitialReferenceLevel10485796 Specifies the initial reference level which the AutoLevel(String, Double) function uses to estimate the peak power of the input signal. This value is expressed in dBm.
SampleClockRateFactor10485814Specifies the factor by which the sample clock rate is multiplied at the transmitter to generate a signal compressed in the frequency domain and expanded in the time domain.
LimitedConfigurationChange10485797Specifies the set of properties that are considered by RFmx in the locked signal configuration state.
ResultFetchTimeout10534912Specifies the time, in seconds, to wait before results are available in the RFmxWLAN_PropertyNode. Set this value to a time longer than expected for fetching the measurement. A value of -1 specifies that the RFmxWLAN Property Node waits until the measurement is complete.

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