RFmxNR Properties

Specifies the active channel string used to access all subsequent channel-based properties in this instance of the property node. Details

Specifies the instrument port to be configured to acquire a signal. Use RFmxInstr Get Available Ports VI to get the valid port names. Details

Specifies the center frequency of the acquired RF signal. This value is expressed in Hz. The signal analyzer tunes to this frequency. Details

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 V_pk-pk for baseband devices. Details

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. Details

Specifies the margin RFmx adds to the Reference Level property. The margin avoids clipping and overflow warnings if the input signal exceeds the configured reference level. Details

Specifies the type of trigger to be used for signal acquisition. Details

Specifies the source terminal for the digital edge trigger. This property is used only when you set the Trigger Type property to Digital Edge. Details

Specifies the active edge for the trigger. This property is used only when you set the Trigger Type property to Digital Edge. Details

Specifies the channel from which the device monitors the trigger. Details

Specifies the power level at which the device triggers. This value is expressed in dB when you set the IQ Power Edge Level Type property to Relative; and in dBm when you set the IQ Power Edge Level Type property to Absolute. The device asserts the trigger when the signal exceeds the level specified by the value of this property, taking into consideration the specified slope. This property is used only when you set the Trigger Type property to IQ Power Edge. Details

Specifies the reference for the IQ Power Edge Level property. The IQ Power Edge Level Type property is used only when you set the Trigger Type property to IQ Power Edge. Details

Specifies whether the device asserts the trigger when the signal power is rising or when it is falling. The device asserts the trigger when the signal power exceeds the specified level with the slope you specify. Details

Specifies the trigger delay time. This value is expressed in seconds. If the delay is negative, the measurement acquires pre-trigger samples. If the delay is positive, the measurement acquires post-trigger samples. Details

Specifies whether the measurement computes the minimum quiet time used for triggering. Details

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. If you set the IQ Power Edge Slope property to Rising Slope, the signal is quiet below the trigger level. If you set the IQ Power Edge Slope property to Falling Slope, the signal is quiet above the trigger level. Details

Specifies the link direction of the received signal. Details

Specifies the downlink gNodeB (Base Station) category. Refer to the 3GPP 38.104 specification for more information about gNodeB category. Details

Specifies the downlink gNodeB (Base Station) type. Refer to the 3GPP 38.104 specification for more information about gNodeB Type. Details

Specifies the downlink SAN (Satellite Access Node) class representing the satellite constellation as specified in section 6.6.4 of 3GPP 38.108 specification. Details

Specifies the physical antenna that is currently connected to the analyzer. Details

Specifies the power class for the UE as specified in section 6.2 of 3GPP 38.101-1/2/3 specification. Details

Specifies the power boost for PI/2 BPSK signal when you set the Frequency Range property to Range 1. This property is valid only for uplink direction. Details

Specifies whether the values of modulation type, number of resource block clusters, resource block offsets, and number of resource blocks are auto-detected by the measurement or configured by you. Details

Specifies whether to enable the autodetection of the cell ID. Details

Specifies the downlink channel configuration mode. Details

Specifies whether the cell ID of component carrier is auto calculated and configured by the measurement or configured by the user. Details

Specifies whether the cell ID of downlink test model component carriers is auto calculated and configured by the measurement or configured by the user. Details

Specifies the number of subblocks configured in intraband non-contiguous carrier aggregation scenarios. Details

Specifies the offset of the subblock from the Center Freq (Hz). Details

Specifies the frequency of the transmitters local oscillator. This value is expressed in Hz. The frequency is defined per subblock and relative to the respective subblock center frequency. Details

Specifies the frequency used for phase compensation of the signal when you set the Ph Compensation property to User Defined. This value is expressed in Hz. Details

Specifies whether to use channel bandwidth and subcarrier spacing configuration supported in Frequency Range 1 (sub 6GHz), Frequency Range 2-1 (between 24.25GHz and 52.6GHz) or Frequency Range 2-2 (between 52.6GHz and 71GHz). Details

Specifies the evolved universal terrestrial radio access (E-UTRA) or NR operating frequency band of a subblock as specified in section 5.2 of the 3GPP 38.101-1/2/3 specification. Band determines the spectral flatness mask and spectral emission mask. Details

Specifies the adjustment of the center frequency for adjacent E-UTRA and NR Channels in case of nominal spacing. The value is expressed in Hz. Details

Specifies the subblock channel raster which is used for computing nominal spacing between aggregated carriers as specified in section 5.4A.1 of 3GPP 38.101-1/2 specification and section 5.4.1.2 of 3GPP TS 38.104 specification. The value is expressed in Hz. Details

Specifies the spacing between adjacent component carriers (CCs) within a subblock. Details

Specifies the index of the component carrier having its center at the user-configured center frequency. The measurement uses this property along with CC Spacing Type property to calculate the value of the CC Freq. This property is ignored if you set the CC Spacing Type property to User. Details

Specifies the number of component carriers configured within a subblock. Set this property to 1 for single carrier. Details

Specifies the NR test model type when you set the Channel Configuration Mode property to Test Model. Refer to section 4.9.2 of the 3GPP 38.141 specification for more information regarding test model configurations. Details

Specifies the modulation type to be used with the selected test model. Selecting the modulation type is supported only for test models NR-FR2-TM3.1 and NR-FR2-TM2. Details

Specifies the duplexing technique of the signal being measured. Refer to section 4.9.2 of 3GPP 38.141 specification for more information regarding test model configurations based on duplex scheme. Details

Specifies the rated carrier TRP output power. This value is expressed in dBm. Details

Specifies the rated carrier EIRP output power. This value is expressed in dBm. Details

Specifies the channel bandwidth of the signal being measured. This value is expressed in Hz. Details

Specifies the offset of the component carrier from the subblock center frequency that you configure in the Center Frequency property. This value is expressed in Hz. Details

Specifies whether a component carrier has one or more resource elements allocated.

While performing IBE measurement on a subblock, you set this property to False for all secondary component carriers as specified in section 6.4A.2.3 of 3GPP 38.521-1 and 3GPP 38.521-2 specifications. Details

Specifies if a carrier is a NR or an E-UTRA carrier while using dual connectivity (EN-DC) signal. Details

Specifies a physical layer cell identity. Details

Specifies the subcarrier spacing of the reference resource grid when you set the Reference Grid Alignment Mode property to Manual. This should be the largest subcarrier spacing used in the component carrier. This value is expressed in Hz. Details

Specifies the reference resource grid start relative to Reference Point A in terms of resource block offset when you set the Reference Grid Alignment Mode property to Manual. Center of subcarrier 0 in common resource block 0 is considered as Reference Point A. Details

Specifies the reference resource grid size when you set the Grid Size Mode property to Manual. Details

Details

Specifies the number of bandwidth parts present in the component carrier. Details

Specifies the subcarrier spacing of the bandwidth part used in the component carrier. Details

Specifies the cyclic prefix (CP) duration and the number of symbols in a slot for the signal being measured. Details

Specifies the resource grid start relative to Reference Point A in terms of resource block offset when you set the Reference Grid Alignment Mode property to Manual. Details

Specifies the reference resource grid size when you set the Grid Size Mode property to Manual. Details

Specifies the resource block offset of a bandwidth part relative to the resource Grid Start property. Details

Sets the number of consecutive resource blocks in a bandwidth part. Details

Specifies whether Uplink Tx Direct Current location within the carrier is determined. If set to False, DC location is undetermined within the carrier. In ModAcc measurement, IQ impairments are not estimated and compensated, and only General In-Band Emission limits are applied. If set to True, DC location is determined within the carrier.

This property is not supported when Link Direction property is set to Downlink. Details

Specifies the number of users present in the bandwidth part. Details

Specifies the RNTI. Details

Specifies the number of PUSCH slot configurations. Details

Specifies whether transform precoding is enabled. Enable transform precoding when analyzing a DFT-s-OFDM waveform. Details

Specifies the number of clusters of resource allocations with each cluster including one or more consecutive resource blocks. This property is ignored if you set the Auto RB Detection Enabled property to True. Details

Specifies the starting resource block number of a PUSCH cluster. This property is ignored if you set the Auto RB Detection Enabled property to True. Details

Specifies the number of consecutive resource blocks in a physical uplink shared channel (PUSCH) cluster. This property is ignored if you set the Auto RB Detection Enabled property to True. Details

Specifies the modulation scheme used in the physical uplink shared channel (PUSCH) of the signal being measured. Details

Specifies the 3GGP release version for PUSCH DMRS. Details

Specifies the antenna ports used for DMRS transmission. Details

Specifies whether the value of PUSCH DMRS Pwr property is calculated based on the PUSCH DMRS Num CDM Groups property or specified by you. Details

Specifies the factor which boosts the PUSCH DMRS REs. This value is expressed in dB. This property is ignored if you set the PUSCH DMRS Pwr Mode property to CDM Groups. Details

Specifies the number of CDM groups, when you set the PUSCH Transform Precoding Enabled property to False, otherwise it is coerced to 2. Details

Specifies whether the configured Scrambling ID is honored or the Cell ID is used for reference signal generation. Details

Specifies the value of scrambling ID. This property is valid only when you set the PUSCH Transform Precoding Enabled property to False. Details

Specifies the value of PUSCH DMRS nSCID used for reference signal generation. This property is valid only when you set the PUSCH Transform Precoding Enabled property to False. Details

Specifies whether the group hopping is enabled. This property is valid only when you set the PUSCH Transform Precoding Enabled property to True. Details

Specifies whether the sequence hopping is enabled. This property is valid only when you set the PUSCH Transform Precoding Enabled property to True. Details

Specifies whether PUSCH DMRS PUSCH ID is based on Cell ID or specified by you. This property is valid only when you set the PUSCH Transform Precoding Enabled property to True. Details

Specifies the value of PUSCH DMRS PUSCH ID used for reference signal generation. This property is valid only when you set the PUSCH Transform Precoding Enabled property to True and PUSCH DMRS PUSCH ID Mode property to User Defined. Details

Specifies the configuration type of DMRS. Details

Specifies the mapping type of DMRS. Details

Specifies the position of first DMRS symbol in a slot when you set the PUSCH Mapping Type property to Type A. Details

Specifies whether the DMRS is single-symbol or double-symbol. Details

Specifies the number of additional sets of consecutive DMRS symbols in a slot. Details

Specifies whether the PUSCH transmission contains PTRS signals. Details

Specifies the DMRS antenna ports associated with PTRS transmission. This property is valid only if you set the PUSCH PTRS Enabled property to True. Details

Specifies whether the PUSCH PTRS power scaling is calculated as defined in 3GPP specification or specified by you. This property is valid only if you set the PUSCH PTRS Enabled property to True. Details

Specifies the factor by which the PUSCH PTRS REs are boosted. This value is expressed in dB. This property is valid only if you set the PUSCH PTRS Enabled property to True. Details

Specifies the number of PTRS groups per OFDM symbol. This property is valid only if you set the PUSCH PTRS Enabled property to True and PUSCH Transform Precoding Enabled property to True. Details

Specifies the number of samples per each PTRS group. This property is valid only if you set the PUSCH PTRS Enabled property to True and PUSCH Transform Precoding Enabled property to True. Details

Specifies the density of PTRS in time domain. This property is valid only if you set the PUSCH PTRS Enabled property to True. Details

Specifies the density of PTRS in frequency domain. This property is valid only if you set the PUSCH PTRS Enabled property to True and PUSCH Transform Precoding Enabled property to False. Details

Specifies the RE offset to be used for transmission of PTRS as defined in the Table 6.4.1.2.2.1-1 of 3GPP 38.211 specification. This property is valid only if you set the PUSCH PTRS Enabled property to True and PUSCH Transform Precoding Enabled property to False. Details

Specifies the slot allocation in NR Frame. This defines the indices of the allocated slots. Details

Specifies the symbol allocation of each slot allocation. Details

Specifies the number of PDSCH slot configurations. Details

Specifies the number of clusters of resource allocations with each cluster including one or more consecutive resource blocks. Details

Specifies the starting resource block number of a PDSCH cluster. Details

Specifies the number of consecutive resource blocks in a PDSCH cluster. Details

Specifies the modulation scheme used in PDSCH channel of the signal being measured. Details

Specifies the 3GGP release version for PDSCH DMRS. Details

Specifies the antenna ports used for DMRS transmission. Details

Specifies whether the configured PDSCH DMRS Pwr is calculated based on the PDSCH DMRS Num CDM Groups or specified by you. Details

Specifies the factor by which the PDSCH DMRS REs are boosted. This value is expressed in dB. Details

Specifies the number of CDM groups. Details

Specifies whether the configured Scrambling ID is based on Cell ID or specified by you. Details

Specifies the value of scrambling ID used for reference signal generation. Details

Specifies the value of PDSCH DMRS nSCID used for reference signal generation. Details

Specifies the configuration type of DMRS. Details

Specifies the mapping type of DMRS. Details

Specifies the position of first DMRS symbol in a slot for Type A configurations. Details

Specifies whether the DMRS is single-symbol or double-symbol. Details

Specifies the number of additional sets of consecutive DMRS symbols in a slot. Details

Specifies whether PT-RS is present in the transmitted signal. Details

Specifies the DMRS Antenna Ports associated with PTRS transmission. Details

Specifies whether the configured PDSCH PTRS Pwr is calculated as defined in 3GPP specification or configured by you. Details

Specifies the EPRE Ratio Port used to determine the PDSCH PT-RS RE power scaling as defined in the Table 4.1-2 of 3GPP TS 38.214 specification when you set the PDSCH PTRS Power Mode property to Standard. Details

Specifies the factor by which the PDSCH PTRS REs are boosted, compared to PDSCH REs. This value is expressed in dB. The value of this property is taken as an input when you set the PDSCH PTRS Pwr Mode property to User Defined. If you set the PDSCH PTRS Pwr Mode property to Standard, the value is computed from other parameters. Details

Specifies the density of PTRS in time domain Details

Specifies the density of PTRS in frequency domain Details

Specifies the RE Offset to be used for transmission of PTRS as defined in Table 7.4.1.2.2-1 of 3GPP 38.211 specification. Details

Specifies the slot allocation in NR Frame. This defines the indices of the allocated slots. Details

Specifies the symbol allocation of each slot allocation. Details

Specifies the number of CORSETs present in the bandwidth part. Details

Specifies the starting symbol number of the CORESET within a slot. Details

Specifies the number of symbols allotted to CORESET in each slot. Details

Specifies the number of RB clusters present in the CORESET. Details

Specifies the starting resource block of a CORESET cluster. Details

Specifies the number of consecutive resource blocks of CORESET cluster. Details

Specifies the precoding granularity of the CORESET. Details

Specifies the CCE-to-REG mapping type of CORESET. Details

Specifies the RBG bundle size of CORESET for interleaved CCE to REG mapping. Details

Specifies the interleaver size of CORESET for interleaved CCE to REG mapping. Details

Specifies the shift index of CORESET for interleaved CCE to REG mapping. Details

Specifies the number of PDCCH Configurations for a CORESET. Details

Specifies the CCE aggregation level of PDCCH. Details

Specifies the PDCCH CCE offset. Details

Specifies the slot allocation in NR frame. This defines the indices of the allocated slots. Details

Specifies whether synchronization signal block (SSB) is present in the transmitted signal. Details

Specifies the SSB resource grid start relative to Reference Point A in terms of resource block offset. Details

Specifies the SSB resource grid size when you set the Grid Size Mode property to Manual. Details

Specifies the CRB offset for the SS/PBCH block relative to the reference Point A in units of 15 kHz resource blocks for frequency range 1 or 60 kHz resource blocks for frequency range 2-1 and frequency range 2-2. Details

Specifies the basic unit of SSB Subcarrier Offset property for frequency range 2-1 and frequency range 2-2. The property refers to the MIB control element subCarrierSpacingCommon in 3GPP TS 38.331. Details

Specifies an additional subcarrier offset for the SS/PBCH block in units of resource blocks of 15 kHz subcarrier spacing given by SSB Subcarrier Common property for frequency range 1, and of 60kHz subcarrier spacing given by SSB Subcarrier Common property for frequency range 2-1 and frequency range 2-2. Details

Specifies the time difference with which the SS/PBCH block transmit pattern repeats. Details

Specifies the candidate SS/PBCH blocks with different subcarrier spacing configurations as defined in the section 4.1 of 3GPP TS 38.213 specification. In order to configure Case C up to 1.88GHz unpaired spectrum, configure this property to Case C up to 3GHz. Similarly, to configure Case C 1.88GHz to 6GHz unpaired spectrum, configure this property to Case C 3GHz to 6GHz. Details

Specifies the SSB burst(s) indices for the SSB pattern that needs to be transmitted. Details

Specifies the power scaling value for the primary synchronization symbol in the SS/PBCH block. This value is expressed in dB. Details

Specifies the power scaling value for the secondary synchronization symbol in the SS/PBCH block. This value is expressed in dB. Details

Specifies the power scaling value for the PBCH REs in the SS/PBCH block. This value is expressed in dB. Details

Specifies the power scaling value for the PBCH DMRS symbols in the SS/PBCH block. This value is expressed in dB. Details

Specifies the half radio frame in which the SS/PBCH block should be allocated. Details

Specifies the number of active steps in the list. Details

Specifies the units in which List Step Timer Duration and List Step Timer Offset are specified. Details

Specifies the duration of a given list step in units specified by List Step Timer Unit. Details

Specifies the offset from the start of the step for which the measurements are computed. The unit for this property is specified by List Step Timer Unit. This property is valid only when you set the Digital Edge Source property to TimerEvent. Details

Specifies whether to enable the ModAcc measurement. Details

Specifies whether to use the filter in single carrier configurations to minimize leakage into the carrier. Measurement ignores this property, if number of carriers is set to more than 1 or if you set the Acq BW Optimization Enabled property to False, where in the multi carrier filter will always be used. Details

Specifies whether the measurement is performed from slot or frame boundary. Details

Specifies the units in which measurement offset and measurement length are specified. Details

Specifies the measurement offset to skip from the synchronization boundary. The synchronization boundary is specified by the ModAcc Sync Mode property. The unit for this is specified by ModAcc Measurement Length Unit. Details

Specifies the measurement length in units specified by Measurement Length Unit property. Details

Specifies the operation mode of frequency error estimation.

If frequency error is absent in the signal to be analyzed, you may disable frequency estimation to reduce measurement time or to avoid measurement inaccuracy due to error in frequency error estimation. Details

Specifies whether to estimate symbol clock error.

This property is ignored when the Common Clock Source Enabled property is True and the Frequency Error Estimation property is Disabled, in which case, symbol clock error is not estimated.

If symbol clock error is absent in the signal to be analyzed, you may disable symbol clock error estimation to reduce measurement time or to avoid measurement inaccuracy due to error in symbol clock error estimation. Details

Specifies the I/Q impairments model used by the measurement for estimating I/Q impairments. Details

Specifies whether to estimate the IQ origin offset.

If IQ origin offset is absent in the signal to be analyzed, you may disable IQ origin offset estimation to reduce measurement time or to avoid measurement inaccuracy due to error in IQ origin offset estimation. Details

Specifies whether to estimate the IQ impairments such as IQ gain imbalance and quadrature skew. Details

Specifies whether to enable IQ gain imbalance correction. Details

Specifies whether to enable IQ quadrature error correction. Details

Specifies whether to enable IQ timing skew correction. Details

Specifies whether to return I/Q impairments independently for each subcarrier. Details

Specifies whether to measure the magnitude and the phase error. Details

Specifies whether to either use a reference waveform or an acquired waveform to create reference data symbols for EVM computation. Details

Specifies whether the spectrum of the signal being measured is inverted. This happens when I and Q component of the baseband complex signal is swapped. Details

Specifies the method used for channel estimation. Details

Specifies the method used for phase tracking. Details

Specifies the method used for timing tracking. Details

Specifies the interval used for Pre-FFT error estimation. Details

Specifies the units of the EVM results. Details

Specifies the FFT window type used for EVM calculation. Details

Specifies the position of the FFT window used to calculate the EVM when ModAcc FFT Window Type property is set to Custom. The offset is expressed as a percentage of the cyclic prefix length. If you set this property to 0, the EVM window starts at the end of cyclic prefix. If you set this property to 100, the EVM window starts at the beginning of cyclic prefix. Details

Specifies the FFT window length (W). This value is expressed as a percentage of the cyclic prefix length. This property is used when you set the ModAcc FFT Window Type property to 3GPP, where it is needed to calculate the EVM using two different FFT window positions, Delta_C-W/2, and Delta_C+W/2. Details

Specifies whether the DC subcarrier is removed from the EVM results. Details

Specifies whether same reference clock is used for local oscillator and digital-to-analog converter. When same reference clock is used the Carrier Frequency Offset is proportional to Sample Clock Error. Details

Specifies the test condition for Spectral Flatness measurement. Details

Specifies whether the contribution of the instrument noise is compensated for EVM computation.

You must measure the noise floor before applying the noise compensation. The instrument noise floor is measured for the RF path used by the ModAcc measurement and cached for future use. Details

Specifies whether the measurement checks if any high power signal is present at the RFIn port of the instrument while performing noise floor calibration. Details

Specifies the coercion limit for the reference level for noise compensation. When you set ModAcc Meas Mode property to Measure and ModAcc Noise Comp Enabled property to True, the measurement attempts to read noise floor calibration data corresponding to the configured reference level. Details

Specifies whether the measurement should calibrate the noise floor of the analyzer or perform the ModAcc measurement. Details

Specifies whether the DMRS resource elements are included for composite EVM and magnitude and phase error results and traces. Details

Specifies whether the PTRS resource elements are included for composite EVM and magnitude and phase error results and traces. Details

Enables averaging for the measurement. Details

Specifies the number of acquisitions used for averaging when you set the ModAcc Averaging Enabled property to True. Details

Specifies whether the RFmxNR ModAcc Auto Level VI should search for the optimum reference levels while allowing ADC overflow. Details

Specifies whether the input signal has a periodicity shorter than the NR frame duration. Details

Specifies the short frame periodicity in unit specified by Short Frame Length Unit. Details

Specifies the units in which Short Frame Length is specified. Details

Configures the EVM measurement behavior for symbols affected by power transients. Details

It configures the transient duration as specified in section 6.4.2.1a of 3GPP 38.101-1 specification. Details

Specifies transient period power change threshold level in dB. Details

Specifies whether to enable the traces to be stored and retrieved after performing the ModAcc measurement. Details

Specifies the maximum number of threads used for parallelism for the ModAcc measurement. Details

Returns the detected Cell ID, if the Auto Cell ID Detection Enabled property is set to True. A value of -1 is returned, if the measurement fails to auto detect the Cell ID.

Returns the user configured Cell ID, if the Auto Cell ID Detection Enabled property is set to False. Details

Returns the mean value of RMS EVMs calculated over measurement length.

Note   If ModAcc Composite Results Include DMRS property and ModAcc Composite Results Include PTRS property are set to False, EVM is computed only for the shared channel.

Details

Returns the maximum value of peak EVMs calculated over measurement length.

Note   If ModAcc Composite Results Include DMRS property and ModAcc Composite Results Include PTRS property are set to False, EVM is computed only for the shared channel.

Details

Returns the bandwidth part index where ModAcc Results Max Pk Composite EVM occurs. Details

Returns the slot index where ModAcc Results Max Pk Composite EVM occurs. Details

Returns the symbol index where ModAcc Results Max Pk Composite EVM occurs. Details

Returns the subcarrier index where ModAcc Results Max Pk Composite EVM occurs. Details

Returns the RMS mean value of magnitude error calculated over measurement length on all configured channels. Details

Returns the peak value of magnitude error calculated over measurement length on all configured channels. Details

Returns the RMS mean value of Phase error calculated over measurement length on all configured channels. This value is expressed in degrees. Details

Returns the peak value of Phase error calculated over measurement length on all configured channels. This value is expressed in degrees. Details

Returns the mean value (over ModAcc Meas Length) of power calculated on OFDM symbols allocated only with the shared channel. Details

Returns the modulation of the shared channel user data if you set the Auto RB Detection Enabled property to True; otherwise, returns the configured modulation of the shared user data.

In case of downlink test model, the modulation type specified by the 3GPP standard is returned. Details

Returns the mean value of RMS EVMs calculated over measurement length on PUSCH data symbols. Details

Returns the maximum value of peak EVMs calculated over measurement length on PUSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on PUSCH DMRS. Details

Returns the maximum value of peak EVMs calculated over measurement length on PUSCH DMRS. Details

Returns the mean value of RMS EVMs calculated over measurement length on PUSCH PTRS. Details

Returns the maximum value of peak EVMs calculated over measurement length on PUSCH PTRS. Details

Returns the mean value (over Meas Length) of power calculated on PUSCH data REs. Details

Returns the mean value (over Meas Length) of power calculated on PUSCH DMRS REs. Details

Returns the mean value (over Meas Length) of power calculated on PUSCH PTRS REs. Details

Returns the mean value of RMS EVMs calulated over measurement interval for the PUSCH symbols where the transient occurs. Details

Returns the maximum value over Meas Length of peak phase offsets between the reference and measurement slots. Details

Returns the slot index where ModAcc Results PUSCH Pk Phase Offset Max occurs. Details

Returns the mean value of RMS EVMs calculated over measurement length on all QPSK modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on all 16 QAM modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on all 64 QAM modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on all 256 QAM modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on all 1024 QAM modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on all 8 PSK modulated PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on PDSCH data symbols. Details

Returns the maximum value of peak EVMs calculated over measurement length on PDSCH data symbols. Details

Returns the mean value of RMS EVMs calculated over measurement length on PDSCH DMRS. Details

Returns the maximum value of peak EVMs calculated over measurement length on PDSCH DMRS. Details

Returns the mean value of RMS EVMs calculated over measurement length on PDSCH PTRS. Details

Returns the maximum value of peak EVMs calculated over measurement length on PDSCH PTRS. Details

Returns the mean value (over Meas Length) of power calculated on PDSCH data REs. Details

Returns the mean value (over Meas Length) of power calculated on PDSCH DMRS REs. Details

Returns the mean value (over Meas Length) of power calculated on PDSCH PTRS REs. Details

Returns the mean value of RMS EVMs computed over measurement length on PSS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the maximum value of peak EVMs calculated over measurement length on PSS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the mean value of RMS EVMs computed over measurement length on SSS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the maximum value of peak EVMs calculated over measurement length on SSS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the mean value calculated over measurement length of RMS EVMs calculated on PBCH data symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the maximum value calculated over measurement length of peak EVMs calculated on PBCH data symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the mean value calculated over measurement length of RMS EVMs calculated on PBCH DMRS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns the maximum value calculated over measurement length of peak EVMs calculated on PBCH DMRS symbols.

When you set the ModAcc EVM Unit property to Percentage, the measurement returns this result as a percentage. When you set the ModAcc EVM Unit property to dB, the measurement returns this result in dB. Details

Returns In-Band Emission Margin of the component carrier. This value is expressed in dB. Details

Returns In-Band Emission Margin of the subblock's aggregated bandwidth. This value is expressed in dB. Details

Returns the slot index with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2. Details

Returns the peak-to-peak ripple of the magnitude of EVM equalizer coefficients within Range1 for the measurement unit, that has the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. This value is expressed in dB. Details

Returns the peak-to-peak ripple of the magnitude of EVM equalizer coefficients within Range2 for the Measurement unit, that has the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. This value is expressed in dB. Details

Returns the peak-to-peak ripple of the EVM equalizer coefficients from maximum in Range1 to minimum in Range2 for the Measurement unit that has the worst ripple margin among all four ripple results defined in 3section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. This value is expressed in dB. Details

Returns the peak-to-peak ripple of the EVM equalizer coefficients from maximum in Range2 to minimum in Range1 for the Measurement unit that has the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. This value is expressed in dB. Details

Returns the maximum magnitude of the EVM equalizer coefficients within Range1 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. The value is expressed in dB. Details

Returns the minimum magnitude of EVM equalizer coefficients within Range1 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. The value is expressed in dB. Details

Returns the maximum magnitude of EVM equalizer coefficients within Range2 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. The value is expressed in dB. Details

Returns the minimum magnitude of EVM equalizer coefficients within Range2 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. The value is expressed in dB. Details

Returns the maximum subcarrier index magnitude of EVM equalizer coefficients within Range1 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. Details

Returns the minimum subcarrier index magnitude of EVM equalizer coefficients within Range1 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. Details

Returns the maximum subcarrier index magnitude of EVM equalizer coefficients within Range2 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. Details

Returns the minimum subcarrier index magnitude of EVM equalizer coefficients within Range2 for the measurement unit with the worst ripple margin among all four ripple results defined in section 6.4.2.4.1 of 3GPP 38.101-1 specification and section 6.4.2.4.1 of 3GPP 38.101-2 specification. Details

Returns the time difference between the detected slot or frame boundary depending on the sync mode and reference trigger location. This value is expressed in seconds. Details

Returns the estimated carrier frequency offset averaged over measurement length. This value is expressed in Hz. Details

Returns the estimated maximum per slot carrier frequency offset over the Measurement Length. Details

Returns the estimated sample clock error averaged over measurement length. This value is expressed in ppm. Details

Returns the estimated IQ origin offset averaged over measurement length. This value is expressed in dBc. Details

Returns the estimated maximum per slot carrier IQ origin offset over the Measurement Length Details

Returns the estimated IQ gain imbalance averaged over measurement length. This value is expressed in dB. IQ gain imbalance is the ratio of the amplitude of the I component to the Q component of the IQ signal being measured. Details

Returns the estimated quadrature error averaged over measurement length. This value is expressed in degrees. Quadrature error is the measure of skewness in degree of the I component with respect to the Q component of the IQ signal being measured. Details

Returns the estimated IQ Timing Skew averaged over Meas Length. Details

Returns the index of the component carrier that includes the LO of the transmitter according to the Subblock Freq (Hz) and Subblock TX LO Freq properties. If the LO of the transmitter doesn't fall into any component carrier of the subblock, the property returns -1. This result is valid only when you set the Transmitter Architecture property to LO per Subblock. Details

Returns the subcarrier index within the respective component carrier where the transmitter LO is located. Due to its dependence on Subblock Freq (Hz) and Subblock TX LO Freq properties, the value can be fractional, and the LO might reside in between subcarriers of a component carrier. This result is valid only when you set the Transmitter Architecture property to LO per Subblock. Details

Returns the estimated IQ origin offset averaged over measurement length in the subblock. This value is expressed in dBc. This result is valid only when you set the Transmitter Architecture property to LO per Subblock. Details

Specifies whether the noise compensation is applied to the EVM measurement. Details

Specifies whether to enable the ACP measurement. Details

Specifies the method to configure the carrier and the offset channel settings. Details

Specifies the integration bandwidth of a subblock. This value is expressed in Hz. Details

Specifies the offset of the subblock measurement relative to the subblock center. This value is expressed in Hz. Details

Specifies the integration bandwidth of the component carrier (CC). This value is expressed in Hz. Details

Specifies the number of universal terrestrial radio access (UTRA) adjacent channel offsets to be configured at offset positions. For uplink ACP measurement in frequency range 2-1 and frequency range 2-2, and for downlink ACP measurement, the ACP Num UTRA Offsets has to be 0. Details

Specifies the number of evolved universal terrestrial radio access (E-UTRA) adjacent channel offsets to be configured at offset positions. For uplink ACP measurement, and for downlink ACP measurement in frequency range 2-1 and frequency range 2-2, this property has to be 0. Details

Specifies the number of NR adjacent channel offsets to be configured at offset positions. Details

Specifies the number of ENDC adjacent channel offsets to be configured at offset positions. Details

Specifies the additional spacing of ACP offset channels at nominal spacing. Details

Specifies the number of configured offset channels. Details

Specifies the offset frequency of an offset channel. This value is expressed in Hz. The offset frequency is computed from the center of a reference component carrier/subblock to the center of the nearest RBW filter of the offset channel. Details

Specifies the sideband measured for the offset channel. Details

Specifies the integration bandwidth of an offset channel. This value is expressed in Hz. Details

Specifies whether the measurement computes the RBW. Details

Specifies the bandwidth of the RBW filter, used to sweep the acquired signal, when you set the ACP RBW Auto property to False. This value is expressed in Hz. Details

Specifies the shape of the RBW filter. Details

Specifies whether the measurement sets the sweep time. Details

Specifies the sweep time when you set the ACP Sweep Time Auto property to False. This value is expressed in seconds. Details

Specifies the unit for absolute power. Details

Specifies the method for performing the ACP measurement. Details

Specifies whether the noise calibration and measurement is performed manually by the user or automatically by RFmx.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies whether RFmx automatically computes the averaging count used for instrument noise calibration. Details

Specifies the averaging count used for noise calibration when you set the ACP Noise Cal Averaging Auto property to False. Details

Specifies whether RFmx compensates for the instrument noise when performing the measurement when you set ACP Noise Cal Mode property to Auto, or when you set ACP Noise Cal Mode to Manual and ACP Meas Mode property to Measure

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies the noise compensation type.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies whether to enable averaging for the ACP measurement. Details

Specifies the number of acquisitions used for averaging when you set the ACP Averaging Enabled property to True. Details

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for ACP measurement. Details

Specifies whether the measurement calibrates the noise floor of analyzer or performs the ACP measurement.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies the FFT window type to be used to reduce spectral leakage. Details

Specifies the overlap mode when you set the ACP Meas Method property to Sequential FFT. In the Sequential FFT method, the measurement divides all the acquired samples into smaller FFT chunks of equal size. The FFT is then computed for each chunk. The resultant FFTs are averaged to get the spectrum used to compute the ACP. Details

Specifies the samples to overlap between the consecutive chunks as a percentage of the ACP Sequential FFT Size property when you set the ACP Meas Method property to Sequential FFT and the ACP FFT Overlap Mode property to User Defined. This value is expressed as a percentage. Details

Specifies whether the measurement computes an appropriate IF output power level offset for the offset channels to improve the dynamic range of the ACP measurement. This property is applicable only when you set the ACP Meas Method property to Dynamic Range. Details

Specifies the offset that is needed to adjust the IF output power levels for the offset channels that are near the carrier channel to improve the dynamic range. This value is expressed in dB. This property is applicable only when you set the ACP IF Output Pwr Offset Auto property to False and ACP Meas Method property to Dynamic Range. Details

Specifies the offset that is needed to adjust the IF output power levels for the offset channels that are far from the carrier channel to improve the dynamic range. This value is expressed in dB. This property is applicable only when you set the ACP IF Output Pwr Offset Auto property to False and ACP Meas Method property to Dynamic Range. Details

Specifies the number of bins to be used for FFT computation, when you set the ACP Meas Method property to Sequential FFT. Details

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 Configure External Attenuation Table VI to configure the external attenuation table. Details

Specifies whether to enable the traces to be stored and retrieved after performing the ACP measurement. Details

Specifies the maximum number of threads used for parallelism for the ACP measurement. Details

Returns the total power of all the subblocks. The power in each subblock is the sum of powers of all the frequency bins over the integration bandwidth of the subblocks. This value includes the power in the inter-carrier gaps within a subblock, but it does not include the power within the subblock gaps. Details

Returns the sum of powers of all the frequency bins over the integration bandwidth of the subblock. The carrier power is reported in dBm when you set the ACP Pwr Units property to dBm, and in dBm/Hz when you set the ACP Pwr Units property to dBm/Hz. Details

Returns the power measured over the integration bandwidth of the component carrier. The carrier power is reported in dBm when you set the ACP Pwr Units property to dBm, and in dBm/Hz when you set the ACP Pwr Units property to dBm/Hz. Details

Returns the component carrier power relative to its subblock power. This value is expressed in dB. Details

Returns the lower (negative) offset channel power. The carrier power is reported in dBm when you set the ACP Pwr Units property to dBm, and in dBm/Hz when you set the ACP Pwr Units property to dBm/Hz. Details

Returns the power in lower (negative) offset channel relative to the total aggregated power. This value is expressed in dB. Details

Returns the upper (positive) offset channel power. The carrier power is reported in dBm when you set the ACP Pwr Units property to dBm, and in dBm/Hz when you set the ACP Pwr Units property to dBm/Hz. Details

Returns the power in the upper (positive) offset channel relative to the total aggregated power. This value is expressed in dB. Details

Specifies whether to enable the channel power measurement. Details

Specifies whether the measurement sets the sweep time. Details

Specifies the sweep time when you set the CHP Sweep Time Auto property to False. This value is expressed in seconds. Details

Specifies the integration bandwidth (IBW) type used to measure the power of the acquired signal. Integration bandwidth is the frequency interval over which the power in each frequency bin is added to measure the total power in that interval. Details

Specifies the integration bandwidth of the subblock. This value is expressed in Hz. It is the span from left edge of the integration bandwidth of the leftmost carrier to the right edge of the integration bandwidth of the rightmost carrier within a subblock. Details

Specifies the integration bandwidth of a component carrier (CC). This value is expressed in Hz. Details

Specifies whether the measurement computes the RBW. Details

Specifies the bandwidth of the RBW filter, used to sweep the acquired signal, when you set the CHP RBW Auto property to False. This value is expressed in Hz. Details

Specifies the shape of the digital RBW filter. Details

Specifies whether the noise calibration and measurement is performed manually by the user or automatically by RFmx.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies whether RFmx automatically computes the averaging count used for instrument noise calibration. Details

Specifies the averaging count used for noise calibration when you set the CHP Noise Cal Averaging Auto property to False. Details

Specifies whether RFmx compensates for the instrument noise when performing the measurement. To compensate for instrument noise when performing a CHP measurement, set the CHP Noise Cal Mode property to Auto, or set the CHP Noise Cal Mode property to Manual and the CHP Meas Mode property to Measure.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies the noise compensation type.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies whether to enable averaging for the CHP measurement. Details

Specifies the number of acquisitions used for averaging when you set the CHP Averaging Enabled property to True. Details

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for CHP measurement. Details

Specifies whether the measurement calibrates the noise floor of analyzer or performs the CHP measurement.

Refer to the measurement guidelines section in the Noise Compensation Algorithm topic for more information. Details

Specifies the FFT window type to be used to reduce spectral leakage. Details

Specifies whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins Use the RFmxInstr Configure External Attenuation Table VI to configure the external attenuation table. Details

Specifies whether to enable the traces to be stored and retrieved after performing the CHP measurement. Details

Specifies the maximum number of threads used for parallelism for the CHP measurement.

The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations. Details

Returns the total power of all the subblocks. This value is expressed in dBm. The power in each subblock is the sum of powers of all the frequency bins over the integration bandwidth of the subblocks. This value includes the power in the inter-carrier gaps within a subblock, but it does not include the power within the subblock gaps. Details

Returns the sum of powers of all the frequency bins over the integration bandwidth of the subblock. This includes the power in inter-carrier gaps within a subblock. This value is expressed in dBm. Details

Returns the power measured over the integration bandwidth of the component carrier. This value is expressed in dBm. Details

Returns the component carrier power relative to its subblock power. This value is expressed in dB. Details

Specifies whether to enable the OBW measurement. Details

Specifies whether the frequency range of the spectrum used for the OBW measurement is auto computed or configured by the user. Details

Specifies the frequency range around the subblock center frequency, which is used to find the Subblock Occupied Bandwidth. When OBW Span Auto is set to False, the configured span value is used by the measurement. This value is expressed in Hz. Details

Specifies whether the measurement computes the RBW. Details

Specifies the bandwidth of the RBW filter used to sweep the acquired signal, when you set the OBW RBW Auto property to False. This value is expressed in Hz. Details

Specifies the shape of the digital RBW filter. Details

Specifies whether the measurement sets the sweep time. Details

Specifies the sweep time when you set the OBW Sweep Time Auto property to False. This value is expressed in seconds. Details

Specifies whether to enable averaging for the OBW measurement. Details

Specifies the number of acquisitions used for averaging when you set the OBW Averaging Enabled property to True. Details

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for the OBW measurement. Details

Specifies the FFT window type to be used to reduce spectral leakage. Details

Specifies whether the amplitude of frequency bins in the spectrum used by the measurement is corrected for external attenuation at RF center frequency or corrected for external attenuation at individual frequency bins. Use the RFmxInstr Configure External Attenuation Table VI to configure the external attenuation table. Details

Specifies whether to enable the traces to be stored and retrieved after performing the OBW measurement. Details

Specifies the maximum number of threads used for parallelism for the OBW measurement.

The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations. Details

Returns the bandwidth that occupies the specified percentage of the total power of the signal. This value is expressed in Hz. The occupied bandwidth is calculated using the following equation:

Occupied bandwidth = Stop frequency - Start frequency Details

Returns the total power measured in the spectrum acquired by the measurement. This value is expressed in dBm. Details

Returns the start frequency of the occupied bandwidth of carrier/subblock. This value is expressed in Hz. The occupied bandwidth is calculated using the following equation:

Occupied bandwidth = Stop frequency - Start frequency Details

Returns the stop frequency of the occupied bandwidth of carrier/subblock. This value is expressed in Hz. Occupied bandwidth is calculated using the following equation:

Occupied bandwidth = Stop frequency - Start frequency Details

Specifies whether to enable the SEM measurement. Details

Specifies the spectrum emission mask used in the measurement for uplink.

You must set the mask type to Custom to configure the custom offset masks. Refer to section 6.5.2 of the 3GPP 38.101 specification for more information about standard-defined mask types. Details

Specifies the limits to be used in the measurement for Downlink. Details

Specifies the stop frequency for 3rd offset segment to be used in the measurement. This property is valid only for downlink and when you set the SEM DL Mask Type property to Standard. Details

Returns the integration bandwidth of a subblock. This value is expressed in Hz. Integration bandwidth is the span from the left edge of the leftmost carrier to the right edge of the rightmost carrier within the subblock. Details

Returns the aggregated channel bandwidth of a configured subblock. This value is expressed in Hz. The aggregated channel bandwidth is the sum of the subblock integration bandwidth and the guard bands on either side of the subblock integration bandwidth. Details

Returns the integration bandwidth of a component carrier. This value is expressed in Hz. Details

Specifies the rated output power (P_{rated, x}), which is used only to choose the limit table for medium range base station, FR2 Category A and FR2 Category B, and also for NTN supported masks. This value is expressed in dBm. Details

Specifies the number of SEM offset segments. Details

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Specifies whether the offset segment is present either on one side or on both sides of a carrier. Details

Specifies the bandwidth of the resolution bandwidth (RBW) filter used to sweep the acquired offset segment, when you set the SEM Offset RBW Auto property to False. This value is expressed in Hz. Details

Specifies the shape of a digital RBW filter. Details

Specifies the resolution of a spectrum to compare with the spectral mask limits as an integer multiple of the RBW. Details

Specifies the criteria to determine the measurement fail status. Details

Specifies the definition of the the start frequency and stop frequency of the offset segments. Details

Specifies the absolute power limit corresponding to the beginning of an offset segment. This value is expressed in dBm. Details

Specifies the absolute power limit corresponding to the end of an offset segment. This value is expressed in dBm. Details

Specifies the relative power limit corresponding to the beginning of the offset segment. This value is expressed in dB. Details

Specifies the relative power limit corresponding to the end of the offset segment. This value is expressed in dB. Details

Specifies whether the measurement sets the sweep time. Details

Specifies the sweep time when you set the SEM Sweep Time Auto property to False. This value is expressed in seconds. Details

Specifies whether to enable averaging for the SEM measurement. Details

Specifies the number of acquisitions used for averaging when you set the SEM Averaging Enabled property to True. Details

Specifies the averaging type for averaging multiple spectrum acquisitions. The averaged spectrum is used for SEM measurement. Details

Specifies the FFT window type to be used to reduce spectral leakage. Details

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 Configure External Attenuation Table VI to configure the external attenuation table. Details

Specifies whether to enable the traces to be stored and retrieved after performing the SEM measurement. Details

Specifies the maximum number of threads used for parallelism for the SEM measurement.

The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations. Details

Returns the sum of powers of all the subblocks. This value includes the power in the inter-carrier gap within a subblock, but it excludes power in the inter-subblock gaps. This value is expressed in dBm. Details

Returns the overall measurement status based on the standard mask type that you configure in the SEM UL Mask Type property. Details

Returns the power measured over the SEM CC IBW property. This value is expressed in dBm. Details

Returns the power measured over the SEM CC IBW property. This value is expressed in dBm. Details

Returns the component carrier power relative to SEM Results Subblock Pwr. This value is expressed in dB. Details

Returns the peak power in the component carrier. This value is expressed in dBm. Details

Returns the frequency at which peak power occurs in the component carrier. This value is expressed in Hz. Details

Returns the measurement status based on the spectrum emission limits defined by the standard mask type that you configure in the SEM UL Mask Type property. Details

Returns the lower (negative) offset segment power. This value is expressed in dBm. Details

Returns the power in the lower (negative) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the peak power in the lower (negative) offset segment. This value is expressed in dBm. Details

Returns the peak power in the lower (negative) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the frequency at which the peak power occurs in the lower (negative) offset segment. This value is expressed in Hz. Details

Returns the margin from the absolute limit mask for lower (negative) offset. Margin is defined as the minimum difference between the spectrum and the limit mask. This value is expressed in dB. Details

Returns the power at which the Margin occurs in the lower (negative) offset segment. This value is expressed in dBm. Details

Returns the power at which the Margin occurs in the lower (negative) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the frequency at which the Margin occurs in the lower (negative) offset. This value is expressed in Hz. Details

Returns the measurement status based on the user-configured standard measurement limits. Spectrum emission limits can be defined by setting SEM UL Mask Type property. Details

Returns the upper (positive) offset segment power. This value is expressed in dBm. Details

Returns the power in the upper (positive) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the peak power in the upper (positive) offset segment. This value is expressed in dBm. Details

Returns the peak power in the upper (positive) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the frequency at which the peak power occurs in the upper (positive)offset segment. This value is expressed in Hz. Details

Returns the margin from the absolute limit mask for upper (positive) offset. Margin is defined as the minimum difference between the spectrum and the limit mask. This value is expressed in dB. Details

Returns the power at which the Margin occurs in the upper (positive) offset segment. This value is expressed in dBm. Details

Returns the power at which the Margin occurs in the upper (positive) offset segment relative to SEM Results Total Aggregated Pwr property. This value is expressed in dB. Details

Returns the frequency at which the Margin occurs in the upper (positive) offset. This value is expressed in Hz. Details

Specifies whether to enable the TXP measurement. Details

Specifies the measurement offset to skip from the start of acquired waveform for TXP measurement. This value is expressed in seconds. Details

Specifies the measurement interval. This value is expressed in seconds. Details

Specifies whether to enable averaging for TXP measurement. Details

Specifies the number of acquisitions used for averaging when Averaging Enabled is True. Details

Enables the traces to be stored and retrieved after the TXP measurement is performed. Details

Specifies the maximum number of threads used for parallelism inside TXP measurement. Details

Returns the average power of the acquired signal. Details

Returns the peak power of the acquired signal. Details

Specifies whether to enable the PVT measurement. Details

Specifies whether the measurement interval is computed by the measurement or configured by the user through Measurement Interval property. Details

Specifies the measurement interval when the Measurement Interval Auto property is set to False. This value is expressed in seconds. Details

Specifies the PVT measurement method. Details

Specifies whether to enable averaging for the power versus time (PVT) measurement. Details

Specifies the number of acquisitions used for averaging when you set the PVT Averaging Enabled property to True. Details

Specifies the measurement averaging type. Details

Specifies the time excluded from the OFF region before the burst and at the beginning for uplink and downlink, respectively. The value is expressed in seconds. Details

Specifies the time excluded from the OFF region after the burst and at the end for uplink and downlink, respectively. The value is expressed in seconds. Details

Specifies whether to enable the traces to be stored and retrieved after performing the power versus time (PVT) measurement. Details

Specifies the maximum number of threads used for parallelism inside the PVT measurement.

The number of threads can range from 1 to the number of physical cores. The number of threads you set may not be used in calculations. The actual number of threads used depends on the problem size, system resources, data availability, and other considerations. Details

Returns the measurement status indicating whether the off power before and after is within the standard defined limit. Details

Returns the OFF power in the segment before the captured burst for the uplink direction, while it returns NaN in the segment after the captured burst for the downlink direction. The segment is defined as one slot prior to a short transient segment and the burst.

This value is expressed in dBm. Details

Returns the OFF power in the segment after the captured burst for the uplink direction, while it returns NaN in the segment after the captured burst for the downlink direction. The segment is defined as one slot after the burst and a short transient segment. This value is expressed in dBm. Details

Returns the average ON power within the measurement interval. This value is expressed in dBm. Details

Returns the width of the captured burst for the uplink direction, while it returns NaN of the captured burst for the downlink direction. This value is expressed in seconds. Details

Returns the NaN for the uplink direction, while it returns the peak power value of 70/N us windowed power during all OFF regions in the measurement interval. This value is expressed in dBm/MHz. Details

Returns the NaN for the uplink direction, while it returns the PVT Results Pk Windowed OFF Pwr to the 3GPP limit. This value is expressed in dB. Details

Returns the NaN for the uplink direction, while it returns the time offset of the PVT Results Pk Windowed OFF Pwr. This value is expressed in seconds. Details

Specifies whether RFmx optimizes the acquisition bandwidth. This may cause acquisition center frequency or local oscillator (LO) to be placed at different position than you configured. Details

Specifies the RF architecture at the transmitter, whether each component carriers have a separate LO or one common LO for the entire subblock. Details

Specifies whether phase compensation is disabled, auto-set by the measurement or set by the you. Details

Specifies whether to align the bandwidthparts and the SSB in a component carrier to a reference resource grid automatically or manually. Details

Specifies whether to set the grid size of all BWPs and SSB in a component carrier automatically or manually. Details

Specifies the set of properties that are considered by RFmx in the locked signal configuration state. Details

Specifies the time to wait before results are available in the RFmxNR Property Node. This value is expressed in seconds. Details