Last Updated: August 29, 2007
This topic contains the following sections:
How are the Measurements in the Dedicated Physical Channel Measurement Suite Made?
Dedicated Physical Channel Measurement Suite Measurement Parameters
Dedicated Physical Channel Measurement Suite Measurement Limits
Dedicated Physical Channel Measurement Suite Results Configuration
The Dedicated Physical Channel measurement suite contains a collection of measurements which are all made using the same set of signal samples. The following measurements are included in the Dedicated Physical Channel measurement suite:
Mean Power (see Mean Power (MPOW) Measurement Description)
RRC Filtered Mean Power (see RRC Filtered Mean Power (RRCP) Measurement Description)
Adjacent Channel Leakage Ratio (see Adjacent Channel Leakage Ratio (ACLR) Measurement Description)
Spectrum Emission Mask (see Spectrum Emission Mask (SEM) Measurement Description)
Error Vector Magnitude (see Error Vector Magnitude (EVM) Measurement Description)
Frequency Error (see Frequency Error (FERR) Measurement Description)
Peak Code Domain Error (see Peak Code Domain Error (PCDE) Measurement Description)
This parameter sets the burst synchronization mode for the Dedicated Physical Channel measurement suite.
This setting does not apply to the EVM, FERR and PCDE measurements since these measurements are fixed to use the midamble sync according to the standard requirement.
SCPI command: SETup:TDPChannel:BURSt:SYNC[?]
This parameter sets the multi-measurement count for the Dedicated Physical Channel measurement suite.
SCPI command: SETup:TDPChannel:COUNt[:SNUMber][?]
This parameter sets the trigger state to single trigger mode or continuous trigger mode for the Dedicated Physical Channel measurement suite.
The Trigger Arm is displayed on the front panel in the status bar within the Dedicated Physical Channel Suite window, which can be accessed by selecting DPCH Results.
SCPI command: SETup:TDPChannel:CONTinuous[?]
This parameter sets the trigger source for the Dedicated Physical Channel measurement suite.
SCPI command: SETup:TDPChannel:TRIGger:SOURce[?]
This parameter sets the trigger delay for the Dedicated Physical Channel measurement suite.
SCPI command: SETup:TDPChannel:TRIGger:DELay[?]
This parameter sets the timeout value in seconds for the Dedicated Physical Channel measurement suite.
SCPI command: SETup:TDPChannel:TIMeout[:STIMe][?]
This parameter sets the frequency spacing between Spectrum Emission Mask measurements for the 30 kHz filter.
SCPI command: SETup:TDPChannel:SEMask:FREQuency:SPACing[?]
This parameter sets the frequency spacing between Spectrum Emission Mask measurements for the 1 MHz filter.
SCPI command: SETup:TDPChannel:SEMask:FREQuency:SPACing[?]
This parameter sets the DPCH channel type.
SCPI command: RFANalyzer:CHANnel:UPLink:DPCHannel:TYPE:TCALibration[?]
This parameter sets the DPCH basic midamble code.
SCPI command: RFANalyzer:UPLink:DPCHannel:MIDamble[:BASic][?]
This parameter sets the DPCH maximum midamble Shift.
SCPI command: RFANalyzer:UPLink:DPCHannel:MIDamble:SHIFt:MAXimum[?]
This parameter sets the DPCH midamble shift index.
SCPI command: RFANalyzer:UPLink:DPCHannel:MIDamble:SHIFt[:INDex][?]
This parameter shows the DPCH midamble offset. It is calculated based on the DPCH Max Midamble Shift and DPCH Midamble Shift Index.
SCPI command: RFANalyzer:UPLink:DPCHannel:MIDamble:OFFSet?
The Dedicated Physical Channel Suite Setup Measurement Limits tab allows you to set limits and test tolerances for measurements in the Dedicated Physical Channel measurement suite.
Limits define the boundaries on which a measurement is considered to pass or fail.
Test tolerances, which are derived from uncertainties, regulatory requirements and criticality to system performance, are used to relax the minimum requirements specified in the standard. For information about test tolerances, refer to 3GPP TS 34.122 section F.2.
This parameter sets the limit applied to the pass/fail result for the mean power measurement in the Dedicated Physical Channel measurement suite.
The available limit configurations are:
Generic - This setting allows generic limits and test tolerances to be set. The limit value sets both the upper and lower limit for this measurement.
Maximum Power - This setting allows you to set the upper and lower limit and test tolerance for the maximum output power. The default settings used for this configuration are defined according to the power class 2 of wireless device. See 3GPP TS 34.122 section 5.2.
Minimum Power - This setting allows you to set the upper limit and test tolerance for the minimum output power. The default settings used for this configuration are the default minimum power settings described in 3GPP TS 34.122 section 5.4.2.2.2 (limits) and section F.2 (test tolerances).
SCPI command: SETup:TDPChannel:MPOWer:LIMit:CONFig[?]
This parameter sets the limit level for the generic or minimum power limit configuration in the mean power measurement.
SCPI commands: SETup:TDPChannel:MPOWer:LIMit:GENeric[:LEVel][?], SETup:TDPChannel:MPOWer:LIMit:PMINimum[:LEVel][?]
This parameter sets the upper limit level for the maximum power limit configuration in the mean power measurement.
SCPI command: SETup:TDPChannel:MPOWer:LIMit:PMAXimum:UPPer[:LEVel][?]
This parameter sets the lower limit level for the maximum power limit configuration in the mean power measurement.
SCPI command: SETup:TDPChannel:MPOWer:LIMit:PMAXimum:LOWer[:LEVel][?]
This parameter sets the test tolerance level for the currently selected limit configuration in the mean power measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI commands: SETup:TDPChannel:MPOWer:LIMit:GENeric:TTOLerance[?], SETup:TDPChannel:MPOWer:LIMit:PMAXimum:TTOLerance[?], SETup:TDPChannel:MPOWer:LIMit:PMINimum:TTOLerance[?]
This parameter sets the limit level for the generic limit configuration in the RRC filtered mean power measurement. The default setting uses the default open loop settings described in 3GPP TS 34.122 section 5.4.1.3.2 (limits) and section F.2 (test tolerances).
SCPI command: SETup:TDPChannel:RRCPower:LIMit:GENeric[:LEVel][?]
This parameter sets the test tolerance level for the currently selected limit configuration in the RRC filtered mean power measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:RRCPower:LIMit:GENeric:TTOLerance[?]
This parameter sets the limit for the ±1.6 MHz Offset from the carrier in the ACLR measurement.
SCPI command: SETup:TDPChannel:ACLRatio:LIMit[?]
This parameter sets the limit for the ±3.2 MHz Offset from the carrier in the ACLR measurement.
SCPI command: SETup:TDPChannel:ACLRatio:LIMit[?]
This parameter sets the test tolerance level for the ACLR measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:ACLRatio:TTOLerance[?]
This parameter sets the pass/fail limit for the 30 kHz Band, ±0.8 MHz frequency offset in the spectrum emission mask measurement.
SCPI command: SETup:TDPChannel:SEMask:LIMit[?]
This parameter sets the pass/fail limit for the 30 kHz Band, ±1.8 MHz frequency offset in the spectrum emission mask measurement.
SCPI command: SETup:TDPChannel:SEMask:LIMit[?]
This parameter sets the pass/fail limit for the 30 kHz Band, ±2.4 MHz frequency offset in the spectrum emission mask measurement.
SCPI command: SETup:TDPChannel:SEMask:LIMit[?]
This parameter sets the pass/fail limit for the 1 MHz Band, ±2.4 MHz frequency offset in the spectrum emission mask measurement.
SCPI command: SETup:TDPChannel:SEMask:LIMit[?]
This parameter sets the pass/fail limit for the 1 MHz Band, ±4.0 MHz frequency offset in the spectrum emission mask measurement.
SCPI command: SETup:TDPChannel:SEMask:LIMit[?]
This parameter sets the test tolerance level for the spectrum emission mask measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:SEMask:TTOLerance[?]
This parameter sets the limit at which the measurement will fail if the average Error Vector Magnitude result is above this limit. If the Enable Test Tolerances parameter is enabled, then the test tolerance is also used by the test set to determine if this measurement passes or fails.
SCPI command: SETup:TDPChannel:EVM:LIMit[?]
This parameter sets the test tolerance for the Error Vector Magnitude measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:EVM:TTOLerance[?]
This parameter sets the limit at which the measurement will fail if the average Frequency Error result is above this limit. If the Enable Test Tolerances parameter is enabled, then the test tolerance is also used by the test set to determine if this measurement passes or fails.
SCPI command: SETup:TDPChannel:FERRor:LIMit[?]
This parameter sets the test tolerance for the Frequency Error measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:FERRor:TTOLerance[?]
This parameter sets the limit at which the measurement will fail if the average Peak Code Domain Error (PCDE) result is above this limit. If the Enable Test Tolerances parameter is enabled, then the PCDE test tolerance limit is also used by the test set to determine if this measurement passes or fails.
SCPI command: SETup:TDPChannel:PCERror:LIMit[?]
This parameter sets the test tolerance for the Peak Code Domain Error measurement. The Enable Test Tolerances parameter must be On for the Tolerance to be applied to this measurement.
SCPI command: SETup:TDPChannel:PCERror:TTOLerance[?]
This parameter selects whether or not all test tolerance levels are applied to measurement pass/fail results.
SCPI commands: SETup:MEASurement:TTOLerance[:SELected][?], SETup:MEASurement:TTOLerance:TCALibration[?]
The parameters on the Results Configuration tab allow you to configure the following attributes of the Dedicated Physical Channel measurement suite on the front panel:
Enable or disable different measurement result views.
Select whether or not to show each measurement result view on the Summary tab.
Select the order for displaying each measurement result view on the Summary tab.
Select which measurement result views should be expanded on individual tab pages.
The Dedicated Physical Channel measurement suite will complete and meet its measurement accuracy specifications when the signal meets the following input signal conditions:
Typically, the Dedicated Physical Channel measurement suite performs auto-ranging. However, if the measured signal is within ±9 dB of the expected input level with ≤ 7 dB crest factor then auto-ranging is not performed and the fastest measurement time is achieved.
Mean Power and RRC Filtered Mean Power measurements:
Input signal level is between -65 dBm and +28 dBm
Adjacent Channel Leakage Ratio and Spectrum Emission Mask measurement:
For this measurement the test set's receiver uses auto-ranging to adjust for the level of the signal being measured; therefore the expected signal level does not need to be specified during measurement setup. However, it is recommended that Expected Power be configured to match the actual signal level expected to ensure the auto-ranging procedure executes as quickly as possible.
Input signal level into the test set's RF IN/OUT connector is between +5 dBm and +28 dBm, in a 1.28 MHz bandwidth
Error Vector Magnitude (EVM), Frequency Error, and Peak Code Domain Error (PCDE) measurements:
For this measurement the test set's receiver uses auto-ranging to adjust for the level of the signal being measured; therefore the expected signal level does not need to be specified during measurement setup. However, it is recommended that Expected Power be configured to match the actual signal level expected to ensure the auto-ranging procedure executes as quickly as possible.
Input signal level into the test set's RF IN/OUT connector is between -25 dBm and +28 dBm, in a 1.28 MHz bandwidth
Maximum Frequency Error is ±1 kHz
Maximum Error Vector Magnitude is 20% rms
Maximum Timing Error is ±50 chips
Triggering choices available for the Dedicated Physical Channel measurement suite are RF Rise, Immediate, and External.
You must perform alignments on the test set at regular intervals to maintain the specified performance of this measurement suite (see Alignment Overview).