Agilent Technologies 8922M Betriebsanweisung

Agilent Technologies 8922M/S GSM Test SetProgramming Reference GuideAgilent Part No. 08922-90212Printed in UKJanuary, 1998

ContentsContents-822 LOGGing SubsystemDATA:FLUSh ...

6-2Bit Error Test Subsystem

6-3Bit Error Test SubsystemBITSBITSDescription Sets/queries the number of BITS to test to make this Bit Error Test measurement complete.Syntax BETest:

6-4Bit Error Test SubsystemTYPETYPEDescription Selects/queries the Bit Error Test measurement TYPE. This defines the Bit Error Testmeasurement TYPE for

7-17Bit Error Test Commands(Measure Subsystem)

7-2Bit Error Test Commands (Measure Subsystem)Continued Over

7-3Bit Error Test Commands (Measure Subsystem)

7-4Bit Error Test Commands (Measure Subsystem)BESelectBESelectDescription Selects/queries the Bit Error SELected Bit Error Test measurement to display

7-5Bit Error Test Commands (Measure Subsystem)BERRor:IRATioBERRor:IRATioDescription Sets CRC Intermediate RATio MEASurement attributes. Queries the CR

7-6Bit Error Test Commands (Measure Subsystem)CRC:COUNtCRC:COUNtDescription Sets the CRC COUNt MEASurement attributes. Queries the CRC COUNt (complete

7-7Bit Error Test Commands (Measure Subsystem)CRC:RATioCRC:RATioDescription Sets CRC RATio MEASurement attributes. Queries the CRC RATio (completed).S

ContentsContents-925 MS Information SubsystemCIPHering:AMODe...

7-8Bit Error Test Commands (Measure Subsystem)FERasure:IRATioFERasure:IRATioDescription Sets Frame ERasure Intermediate RATio MEASurement attributes.

7-9Bit Error Test Commands (Measure Subsystem)FLTYpeFLTYpeDescription Selects/queries the Frame Loss Selected Bit Error Test measurement to display (C

7-10Bit Error Test Commands (Measure Subsystem)SSTatus

8-18Cell Configuration SubsystemNOTE If you have the Agilent 8922M/S Option 010 Multi-Band Test System, you will haveaccess to additional GPIB command

8-2Cell Configuration SubsystemContinued Over

8-3Cell Configuration SubsystemContinued Over

8-4Cell Configuration SubsystemContinued Over

8-5Cell Configuration SubsystemContinued Over

8-6Cell Configuration Subsystem

8-7Cell Configuration SubsystemABCChABCChDescription Selects/queries the Auxiliary BCCH.This defines the state of the auxiliaryBCCH data andclock output

ContentsContents-1027 Oscilloscope Commands (Measure Subsystem)MARKer:LEVel:AM...

8-8Cell Configuration SubsystemCCHannel:SDCCH8:ARFCnCCHannel:SDCCH8:ARFCnDescription Sets/queries the Control CHannel ARFCN (Absolute Radio Frequency C

8-9Cell Configuration SubsystemCACADescription Sets/queries the Cell Allocation.Entries in CA table must be in contiguous ascending order. The allocati

8-10Cell Configuration SubsystemMA2MA2Description Sets/queries the Mobile Allocation 2.This is a binary string representing which CA ARFCNs will be in

8-11Cell Configuration Subsystem[:GSM900]:CA[:GSM900]:CADescription Sets/queries the Cell Allocation.This is a binary string representing which ARFCNs

8-12Cell Configuration Subsystem[:GSM900]:MA2[:GSM900]:MA2Description Sets/queries the Mobile Allocation 2.This is a binary string representing which C

8-13Cell Configuration SubsystemLAI:MNCodeLAI:MNCodeDescription Sets/queries the Mobile Area Code (2 decimal digits).Syntax CCONfigure:LAI:MNCode?CCONfig

8-14Cell Configuration SubsystemSCELl:NCCSCELl:NCCDescription Sets/queries the Serving Cell Network Colour Code.Syntax CCONfigure:SCELl:NCC?CCONfigure:SC

9-19Cell Control Subsystem

9-2Cell Control SubsystemContinued Over

9-3Cell Control SubsystemContinued Over

ContentsContents-1132 RF Analyzer SubsystemAGC:CALibrate...

9-4Cell Control SubsystemContinued Over

9-5Cell Control SubsystemContinued Over

9-6Cell Control SubsystemContinued Over

9-7Cell Control Subsystem

9-8Cell Control SubsystemAUDio:DAI:ATEStAUDio:DAI:ATEStDescription This selects the DAI (Digital Audio Interface) Audio Test mode.Syntax CELL:AUDio:DA

9-9Cell Control SubsystemAUDio:LOOPback:OFFAUDio:LOOPback:OFFDescription Turns MS Loopback OFF.Syntax CELL:AUDio:LOOPback:OFFOptions Not Applicable.AU

9-10Cell Control SubsystemAUDio:SPEech:EDELayAUDio:SPEech:EDELayDescription Selects/queries the speech Echo delay.This is the delay time for the ECHO

9-11Cell Control SubsystemCALL:CONNectCALL:CONNectDescription Selects/queries the connect (mode).Syntax CELL:CALL:CONNect?CELL:CALL:CONNect <string

9-12Cell Control SubsystemCALL:COUNt:RACHCALL:COUNt:RACHDescription COUNt of RACHs received during this call or since COUNt:RESet.Syntax CELL:CALL:COU

9-13Cell Control SubsystemCALL:ORIGinateCALL:ORIGinateDescription Executes an ORIGinate (i.e., make) a CALL.This attempts a BS originated (MS terminat

ContentsContents-1235 Spectrum Analyzer SubsystemATTenuator ...

9-14Cell Control SubsystemCALL:SIGNalingCALL:SIGNalingDescription Selects / queries the amount of signaling performed by the Agilent 8922M/S.Syntax CE

9-15Cell Control SubsystemCALL:STATus:CIPHering[:STATe]CALL:STATus:CIPHering[:STATe]Description Queries the CIPHering STATe.Syntax CELL:CALL:STATus:CI

9-16Cell Control SubsystemCALL:STATus:RR[:STATe]CALL:STATus:RR[:STATe]Description Queries the Radio Source STATe.Syntax CELL:CALL:STATus:RR[:STATe]?Op

9-17Cell Control SubsystemCALL:STATus:TCH:MALLocationCALL:STATus:TCH:MALLocationDescription Queries the current Traffic CHannel Mobile ALLocation as ‘M

9-18Cell Control SubsystemCALL:TCHControlCALL:TCHControlDescription Sets/queries the TCH Control selection.Syntax CELL:CALL:TCHControl?CELL:CALL:TCHCo

9-19Cell Control SubsystemMS:DRX[:STATe]MS:DRX[:STATe]Description Selects/queries the Discontinuous RX (receiver) STATe.Syntax CELL:MS:DRX[:STATe]?CEL

9-20Cell Control SubsystemMS:TLEVelMS:TLEVelDescription Selects/queries the MS’s TX (transmitter) power LEVel.Syntax CELL:MS:TLEVel?CELL:MS:TLEVel <

9-21Cell Control SubsystemTCH1 or TCH2:TSLotTCH1 or TCH2:TSLotDescription Sets/queries the Traffic CHannel Timeslot.Syntax CELL:TCH1 | TCH2:TSLot?CELL:

9-22Cell Control SubsystemTCH1 or TCH2:TYPE

10-110Configure Subsystem

ContentsContents-1339 Tests SubsystemCOMMent1...

10-2Configure SubsystemContinued Over

10-3Configure SubsystemContinued Over

10-4Configure SubsystemContinued Over

10-5Configure SubsystemContinued Over

10-6Configure Subsystem

10-7Configure SubsystemBADDressBADDressDescription Sets/queries the GPIB Bus Address.Syntax CONFigure:BADDress?CONFigure:BADDress <integer> | [:I

10-8Configure SubsystemCOMPatibleCOMPatibleDescription This command toggles the Agilent 8922M/S to an Agilent 8922G/E emulation. Thisenables backward c

10-9Configure SubsystemOFLevel:AUXinOFLevel:AUXinDescription Sets/queries the RF OFfset Level at the AUX RF In port. In effect when OFLevel:MODE‘ON’ is

10-10Configure SubsystemOPERation:AUTOOPERation:AUTODescription Enables several auto-ranging routines, providing automatic adjustment of the affectedse

10-11Configure SubsystemPRINt:DESTinationPRINt:DESTinationDescription Selects/queries the PRINter DESTination (port).Syntax CONFigure:PRINt:DESTination

ContentsContents-14 Appendix C - [:FNUM-MOD] - Floating Point Numeric (less MODE)Commands ...

10-12Configure SubsystemPRINt:PRINterPRINt:PRINterDescription Selects/queries the printer type connectedSyntax CONFigure:PRINt:PRINter?CONFigure:PRINt:

10-13Configure SubsystemROSCillator:CALibrateROSCillator:CALibrateDescription Executes a calibration cycle for the reference.Syntax CONFigure:ROSCillat

10-14Configure SubsystemROUTROUTDescription Selects/queries the OPT 001 REF OUT that appears on the rear panel.Syntax CONFigure:ROUT?CONFigure:ROUT <

10-15Configure SubsystemSPORt:PARitySPORt:PARityDescription Selects/queries the Serial PORt PARity bits setting.Syntax CONFigure:SPORt:PARity?CONFigure

10-16Configure SubsystemSPORt:STOPSPORt:STOPDescription Selects/queries the STOP length - the number of stop bits used when using the Serial PORt.Synta

11-111CW Subsystem

11-2CW SubsystemPMZeroPMZeroDescription Zeroes the Power Meter in order to make calibrated CW Power measurements. Note: Theuser should disconnect the

12-112CW Commands (Measure Subsystem)

12-2CW Commands (Measure Subsystem)

12-3CW Commands (Measure Subsystem)FREQuency[:ABSolute]FREQuency[:ABSolute]Description Sets the CW ABSolute FREQuency MEASurement attributes.Queries t

1-11Command GuidelinesRules and guidelines for using General Purpose Interface Bus (GPIB)programming are contained in this chapter. Chapters 3 and onw

12-4CW Commands (Measure Subsystem)POWerPOWerDescription Sets the CW POWer MEASurement attributes. Queries the CW POWer MEASurementresult.NOTE: This i

13-113DISPlay SubsystemNOTE If you have the Agilent 8922M/S Option 010 Multi-Band Test System, you will haveaccess to additional GPIB commands. These

13-2DISPlay SubsystemPCS?PCSSpstring

13-3DISPlay Subsystem[:SCReen][:SCReen]Description Selects/queries the screen to activate,display andperform anynecessary screen transitionalfunctiona

13-4DISPlay SubsystemCELL:TCH[:SELect]CELL:TCH[:SELect]Description Selects/queries which TCH parameters to display on the Cell Control screen.Syntax D

13-5DISPlay SubsystemFREezeFREezeDescription Screen freezing prevents the Agilent 8922M/S from updating the display when runningtests. The measurement

13-6DISPlay SubsystemPULSe:VIEWPULSe:VIEWDescription Selects/queries the PULSe On/Off VIEW to be selected when DISPlay:SCReen PULSe isselected.Syntax

14-114DSP Analyzer Subsystem

14-2DSP Analyzer Subsystem

14-3DSP Analyzer SubsystemAMPLitude:MARKer:POSition:FALLAMPLitude:MARKer:POSition:FALLDescription Sets/queries the AMPLitude MARKer FALL trace positi

1-2Command GuidelinesCommand NamesCommand NamesGenerally all commands of greater than four characters have an alternate abbreviated formusing only the

14-4DSP Analyzer SubsystemAMPLitude:TIMEAMPLitude:TIMEDescription Sets/queries the TIME to make amplitude measurements.GPIB units are seconds (S), bit

15-115DSP Analyzer Commands(Measure Subsystem)

15-2DSP Analyzer Commands (Measure Subsystem)Continued Over

15-3DSP Analyzer Commands (Measure Subsystem)

15-4DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:AMPLitude[:AMPLitude]:AMPLitudeDescription Sets the AMPLitude measurement attributes. Querie

15-5DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:MARKer:LEVEL:MID[:AMPLitude]:MARKer:LEVEL:MIDDescription Sets/queries the AMPLitude MARKer M

15-6DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:MARKer:TIME:FALL[:AMPLitude]:MARKer:TIME:FALLDescription Sets/queries the MARKer FALL trace

15-7DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:MARKer:TIME:RISE[:AMPLitude]:MARKer:TIME:RISEDescription Sets/queries the MARKer RISE trace

15-8DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:NPFLatness[:AMPLitude]:NPFLatnessDescription Queries the Negative Peak FLatness measurement

15-9DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:TRACe[:AMPLitude]:TRACeDescription Returns the DSP Analyzer AMPLitude TRACe measured data le

1-3Command GuidelinesIf you have Agilent Technologies 8922M/S Option 010Quotationmarks“ ”, enclose command and string entries. Be sure to follow the c

15-10DSP Analyzer Commands (Measure Subsystem)FBITFBITDescription Sets/queries the position of the First (useful) BIT attributes.Queries the position

15-11DSP Analyzer Commands (Measure Subsystem)PHASe[:ERRor]:PEAKPHASe[:ERRor]:PEAKDescription Queries the PEAK PHASe ERRor MEASurement result over the

15-12DSP Analyzer Commands (Measure Subsystem)PHASe:MARKer:ERRorPHASe:MARKer:ERRorDescription Queries the PHASe ERRor measurement result. This is the

15-13DSP Analyzer Commands (Measure Subsystem)PHASe:MBURst:COUNtPHASe:MBURst:COUNtDescription Sets the number of bursts to be measured. Queries the nu

15-14DSP Analyzer Commands (Measure Subsystem)SSTatusSSTatusDescription Queries the Sync STatus for the current DSP measurement.Syntax MEASure:DSPanal

16-116EMMI Subsystem (Agilent 8922M Only)

16-2EMMI Subsystem (Agilent 8922M Only)

16-3EMMI Subsystem (Agilent 8922M Only)BRATeBRATeDescription Selects/queries EMMI part Baud RATe.Syntax EMMI:BRATe?EMMI:BRATe <string>Options ”6

16-4EMMI Subsystem (Agilent 8922M Only)DATA <data entry>DATA <data entry>Description Writes the DATA to the EMMI port.Syntax EMMI:DATA <

16-5EMMI Subsystem (Agilent 8922M Only)TIMEout:MS:RESPonseTIMEout:MS:RESPonseDescription Sets/queries the EMMI TIMEout (time limit) allowed for the mo

© Copyright 1998, Agilent Technologies. All rights reserved. Reproduction, adaptation, or translation without priorwritten permission is prohibited, e

1-4Command GuidelinesUnits of MeasureUnits of MeasureUnits for measure-mentsThese are implemented such that a measurement query result will bereturned

16-6EMMI Subsystem (Agilent 8922M Only)TIMEout:MS:RESPonse

17-117Fast Bit Error Test

17-2Fast Bit Error Test

17-3Fast Bit Error TestBITSBITSDescription Sets/Queries the number of bits used during a measurement.Syntax FBETest:BITS?FBETest:BITS <integer>

17-4Fast Bit Error TestRFGenerator:ATSLotRFGenerator:ATSLotDescription Sets/Queries the automatic pulse modulation for the adjacent timeslots of the b

18-118Fast Bit Error Test (Measure Subsystem)

18-2Fast Bit Error Test (Measure Subsystem)

18-3Fast Bit Error Test (Measure Subsystem)BTEStedBTEStedDescription Queries the number of Bits TESted for the completed Bit Error Test measurements.S

18-4Fast Bit Error Test (Measure Subsystem)BERRor:IRATioBERRor:IRATioDescription Queries the Bit ERRor Intermediate RATio.NOTE This can only be querie

19-119Fast TX Carrier Power (Measure Subsystem)

1-5Command GuidelinesMeasurement SubsystemsMeasurement SubsystemsMeasure SubsystemCommandsMeasure commands are used to control measurements and get ba

19-2Fast TX Carrier Power (Measure Subsystem)FTCPower[:POWer]FTCPower[:POWer]Description Queries the Fast Transmitter Carrier Power MEASurement result

20-120Hop Control Subsystem

20-2Hop Control SubsystemContinued Over

20-3Hop Control Subsystem

20-4Hop Control SubsystemADDRessADDRessDescription Sets/queries the ADDRess for entering hop frequencies into the hoptables and for enteringthe next f

20-5Hop Control SubsystemCTENdCTENdDescription This Clear To ENd command replaces the RF ANalyzer hop frequency entry and the RFGenerator hop frequenc

20-6Hop Control SubsystemRFANalyzer or RFGenerator:CTENdRFANalyzer or RFGenerator:CTENdDescription This Clear To ENd command replaces the RF ANalyzer

20-7Hop Control SubsystemRFANalyzer or RFGenerator:INSertRFANalyzer or RFGenerator:INSertDescription This INSerts an entry of 0 MHz into the RF ANalyz

20-8Hop Control SubsystemRFANalyzer or RFGenerator[:TRIGger]:ASTateRFANalyzer or RFGenerator[:TRIGger]:ASTateDescription Selects/queries the RF ANalyz

21-121IEEE 488.2 Common CommandsIEEE 488.2 mandates the use of some common commands. These commands have aspecial syntax (beginning with a *), which i

1-6Command GuidelinesOptional CommandsOptional CommandsThe following lists the optional command groups that are used with many of the GPIBCommand Subs

21-2IEEE 488.2 Common Commands*CLS (Clear Status)*CLS (Clear Status)Description The *CLS (clear status) common command clears the status datastructure

21-3IEEE 488.2 Common Commands*ESE (Event Status Enable)*ESE (Event Status Enable)Description The *ESE command sets the Standard Event Status Enable R

21-4IEEE 488.2 Common Commands*ESR? (Event Status Register)*ESR? (Event Status Register)Description The *ESR? query returns the contents of the Standa

21-5IEEE 488.2 Common Commands*IDN? (Identification Number)*IDN? (Identification Number)Description The *IDN? query allows the instrument to identify i

21-6IEEE 488.2 Common Commands*OPC (Operation Complete)*OPC (Operation Complete)Description The *OPC (operation complete) command will cause the instr

21-7IEEE 488.2 Common Commands*OPT?*OPT?Description The *OPT? query will return a string containing the instrumentoptions that are installed. Returns

21-8IEEE 488.2 Common Commands*RCL (Recall)*RCL (Recall)Description The *RCL command restores the state of the instrument from thespecified internal sa

21-9IEEE 488.2 Common Commands*RST (Reset)*RST (Reset)Description The *RST command places the instrument in a known state.Command Syntax *RSTExampleOU

21-10IEEE 488.2 Common Commands*SAV (Save)*SAV (Save)Description The *SAV command stores the current state of the instrument in aninternal save regist

21-11IEEE 488.2 Common Commands*SRE (Service Request Enable)*SRE (Service Request Enable)The *SRE command sets the Service Request Enable Register bit

1-7Command GuidelinesCommand DescriptionsCommand DescriptionsEach command in this guide is given a description, an example of its syntax and possibleo

21-12IEEE 488.2 Common Commands*STB? (Status Byte)*STB? (Status Byte)Description The *STB? query returns the current value of the instrument’s statusb

21-13IEEE 488.2 Common Commands*TST? (Test)*TST? (Test)Description The *TST query causes the instrument to perform a self-test. Theresult of the test

21-14IEEE 488.2 Common Commands*WAI (Wait)*WAI (Wait)The *WAI command pauses the instrument, preventing it fromexecuting any further GPIB commands or

22-122LOGGing SubsystemLogging commands are used to control protocol logging through the ProtocolLogging interface on the rear panel.

22-2LOGGing Subsystem

22-3LOGGing SubsystemDATA:FLUShDATA:FLUShDescription FLUSh the LOGGing DATA - empties the contents of the log into an output stream to theexternal mon

22-4LOGGing SubsystemSTATeSTATeDescription Selects/queries the current LOGGing STATeSyntax LOGGing:STATe?LOGGing:STATe <string>Options ’LOG’ | ’

23-123Measurement Sync Subsystem

23-2Measurement Sync Subsystem

23-3Measurement Sync SubsystemBURSt:LENGthBURSt:LENGthDescription Selects/queries the MSYNc user-defined BURSt LENGth for the selected burst numberSynt

1-8Command GuidelinesOutput RF Spectrum Modulation Reference Measurement AveragingOutput RF Spectrum Modulation Reference MeasurementAveragingThe Agil

23-4Measurement Sync SubsystemBURSt:TYPEBURSt:TYPEDescription Selects/queries the MSYNc BURSt TYPE for the selected burst numberNote: this selects the

23-5Measurement Sync SubsystemSYNC:MODESYNC:MODEDescription Selects/queries the SYNC MODE algorithm that is used to determine the location of thedemod

23-6Measurement Sync SubsystemSYNC:MODE

24-124Mobile Station Commands(Measure Subsystem)

24-2Mobile Station Commands (Measure Subsystem)

24-3Mobile Station Commands (Measure Subsystem)MS:TERRorMS:TERRorDescription Queries the Mobile Station Timing Error actually Measured by the Agilent

24-4Mobile Station Commands (Measure Subsystem)SACCh:ACEL1:RLEVelSACCh:ACEL1:RLEVelDescription Queries the Adjacent Cell RX Level.Syntax MEASure:CELL:

24-5Mobile Station Commands (Measure Subsystem)SACCh:RESetSACCh:RESetDescription RESets the SACCH measurement results.Syntax MEASure:CELL:SACCh:RESetO

24-6Mobile Station Commands (Measure Subsystem)SACCh:TLEVel

25-125MS Information SubsystemNOTE If you have the Agilent 8922M/S Option 010 Multi-Band Test System, you will haveaccess to additional GPIB commands.

2-12GPIB Tutorial and ExamplesThis Chapter introduces the user to automatic GSM mobile phone testing using theAgilent 8922M and Agilent 8922S GSM Test

25-2MS Information Subsystem

25-3MS Information SubsystemCIPHering:AMODeCIPHering:AMODeDescription Selects/queries the CIPhering Authentication MODe.Syntax MSINfo:CIPHering:AMODe?

25-4MS Information SubsystemCIPHering:KICIPHering:KIDescription Sets/queries the Authentication Key (KI).Syntax MSINfo:CIPHering:KI?MSINfo:CIPHering:K

25-5MS Information SubsystemMS:ATTachMS:ATTachDescription Selects/queries the IMSI attach/detach mode.Syntax MSINfo:MS:ATTach?MSINfo:MS:ATTach <str

25-6MS Information SubsystemMS:IMEI:REQuestMS:IMEI:REQuestDescription Fetches the International Mobile Equipment Identity from the MS. A call must be

25-7MS Information SubsystemMS:LAI:MCCode?MS:LAI:MCCode?Description Queries the Mobile Country Code portion of the last LAI.Syntax MSINfo:MS:MCCode?Op

25-8MS Information Subsystem[:PAGing]:IMSIdentity[:PAGing]:IMSIdentityDescription Sets/queries the MS’s PAGing IMSI (International Mobile Subscriber I

26-126OSCilloscope Subsystem

26-2OSCilloscope Subsystem

26-3OSCilloscope SubsystemCONTrolCONTrolDescription Selects/queries the OSCilloscope CONTrols - various fields will appear based on theCONTrol selectio

2-2GPIB Tutorial and ExamplesGPIB Programming ExercisesGPIB Programming ExercisesBefore StartingPower-up the Agilent 8922M/S and carry out the followi

26-4OSCilloscope SubsystemSCALe:TIMESCALe:TIMEDescription Selects/queries the horizontal sweep time per division.Syntax OSCilloscope:SCALe:TIME?OSCill

26-5OSCilloscope SubsystemSCALe:VERTical:OFFSetSCALe:VERTical:OFFSetDescription Sets/queries the number of divisions that the displayed signalis VERTi

26-6OSCilloscope SubsystemTRIGger:MODETRIGger:MODEDescription Selects/queries how measurements are armed to accept a trigger.IMPORTANT This command wi

26-7OSCilloscope SubsystemTRIGger:SENSeTRIGger:SENSeDescription Selects/queries whether TRIGgering occurs on the positive-going (POS) or negative-goin

26-8OSCilloscope SubsystemTRIGger:TYPE

27-127Oscilloscope Commands (Measure Subsystem)

27-2Oscilloscope Commands (Measure Subsystem)

27-3Oscilloscope Commands (Measure Subsystem)MARKer:LEVel:AMMARKer:LEVel:AMDescription Queries the MARKer LEVel which is the signal level of the curre

27-4Oscilloscope Commands (Measure Subsystem)MARKer:TIMEMARKer:TIMEDescription Queries the MARKer TIME MEASurement which time elapsed from the trigger

28-128Output RF Spectrum Subsystem

2-3GPIB Tutorial and ExamplesExercise A - Establishing a LinkExercise A - Establishing a LinkOriginate a CallBegin the program by setting the GPIB add

28-2Output RF Spectrum Subsystem

28-3Output RF Spectrum SubsystemFREQuency:OFFSetFREQuency:OFFSetDescription Sets/queries the Output RF Spectrum FREQuency OFFSet setting. This field is

28-4Output RF Spectrum SubsystemMODEMODEDescription Selects/queries the MODE for Output RF Spectrum measurements.Syntax ORFSpectrum:MODE?ORFSpectrum:M

29-129Output RF Spectrum Commands(Measure Subsystem)

29-2Output RF Spectrum Commands (Measure Subsystem)

29-3Output RF Spectrum Commands (Measure Subsystem)FBITFBITDescription Queries the position of the First (useful) BIT in time relative to when the Out

29-4Output RF Spectrum Commands (Measure Subsystem)MARKer:TIMEMARKer:TIMEDescription Queries the MARKer TIME which is the marker’s position relative

29-5Output RF Spectrum Commands (Measure Subsystem)SSTatusSSTatusDescription Queries the Sync STatus for the current DSP measurement.Syntax MEASure:OR

29-6Output RF Spectrum Commands (Measure Subsystem)TRACeTRACeDescription Queries the Output RF Spectrum MEASurement result and returns 417 floating-poi

30-130PULSe On/Off Ratio Subsystem

2-4GPIB Tutorial and ExamplesExample B - Controlling the MobileExample B - Controlling the MobileMobiles need to be tested on a variety of frequency c

30-2PULSe On/Off Ratio Subsystem

30-3PULSe On/Off Ratio SubsystemMARKer[:POSition]:FALLMARKer[:POSition]:FALLDescription Sets/queries the PULSe MARKer FALL trace POSition setting. The

30-4PULSe On/Off Ratio SubsystemMARKer:OPOSition:RISEMARKer:OPOSition:RISEDescription Sets/queries the PULSe Off POSition RISE setting. This is the ti

31-131Pulse On/Off Ratio Commands(Measure Subsystem)

31-2Pulse On/Off Ratio Commands (Measure Subsystem)

31-3Pulse On/Off Ratio Commands (Measure Subsystem)FBITFBITDescription Queries the position of the First (useful) BIT in time relative to when the Pul

31-4Pulse On/Off Ratio Commands (Measure Subsystem)MARKer:LEVel:RISEMARKer:LEVel:RISEDescription Queries the RISE trace MARKer LEVel which is relative

31-5Pulse On/Off Ratio Commands (Measure Subsystem)MARKer:TIME:RISEMARKer:TIME:RISEDescription Queries the RISE trace TIME which is the marker’s posit

31-6Pulse On/Off Ratio Commands (Measure Subsystem)SSTatusSSTatusDescription Queries the Sync STatus for the current DSP measurement.Syntax MEASure:PU

31-7Pulse On/Off Ratio Commands (Measure Subsystem)TRACe:FALLTRACe:FALLDescription Queries the Pulse On/Off FALL TRACe MEASurement result and returns

2-5GPIB Tutorial and ExamplesExample B - Controlling the MobileTips:The BASIC FOR NEXT loop is ideal for controlling the TX Levels. For example, start

31-8Pulse On/Off Ratio Commands (Measure Subsystem)TRACe:RISE

32-132RF Analyzer Subsystem

32-2RF Analyzer SubsystemContinued Over

32-3RF Analyzer Subsystem

32-4RF Analyzer SubsystemAGC:CALibrateAGC:CALibrateDescription Does an open loop AGC CALibration if in FRAN:AGC:MODE ‘CLOSED’.Syntax RFANalyzer:AGC:CA

32-5RF Analyzer SubsystemAMPLitude2AMPLitude2Description Sets/queries the amplitude (input level to assume) of the AUX RF IN port. Used whenRFAN:INP

32-6RF Analyzer SubsystemFREQuencyFREQuencyDescription Sets/queries the non-hop FREQuency for the RF ANalyzer.Default GPIB unit is HZ.Default display

32-7RF Analyzer SubsystemFREQuency:OFFSetFREQuency:OFFSetDescription Sets/queries the Hop Frequency OFFSet for the RF ANalyzer.Default GPIB unit is HZ

32-8RF Analyzer SubsystemARFCn

33-133RF Generator Subsystem

ContentsContents-11 Command GuidelinesCommand Names...

2-6GPIB Tutorial and ExamplesExample C - Making MeasurementsExample C - Making MeasurementsIn this section we first add a TX Power measurement, then mo

33-2RF Generator Subsystem

33-3RF Generator SubsystemAMPLitude1AMPLitude1Description Sets/queries the amplitude of the RF Generator when the RF IN/OUT port is selected.GPIB and

33-4RF Generator SubsystemFREQuencyFREQuencyDescription Sets/queries the non-hop FREQuency of the RF Generator.Default GPIB unit is HZ.Default display

33-5RF Generator SubsystemMODulation:DCAM:DVALueMODulation:DCAM:DVALueDescription Sets/queries the DC AM DAC VALue for RFG:MODE:DCAM selected as TCH L

33-6RF Generator SubsystemMODulation:PULSe:MODEMODulation:PULSe:MODEDescription Selects/queries the pulse modulation level MODE.Syntax RFGenerator:MOD

34-134SMS Cell Broadcast Subsystem

34-2SMS Cell Broadcast Subsystem

34-3SMS Cell Broadcast SubsystemCONTrolCONTrolDescription Selects/queries whether or not the CBCH is being configured.Syntax SMSCb:CONTrol?SMSCb:CONTro

34-4SMS Cell Broadcast SubsystemSTATusSTATusDescription Queries the status of the CBCH.Syntax SMSCb:STATus?Options Returns a value of; ’OFF’ | ’IDLE’

34-5SMS Cell Broadcast SubsystemMESS1 or MESS2:IDENtifierMESS1 or MESS2:IDENtifierDescription Selects/queries the source of the message.Syntax SMSCb:ME

2-7GPIB Tutorial and ExamplesExample C - Making MeasurementsTips:For help, look at the “PERFORM FAST POWER MEASUREMENT” section of exampleprogram 1.DS

34-6SMS Cell Broadcast SubsystemMESS1 or MESS2:LANGuage

35-135Spectrum Analyzer Subsystem

35-2Spectrum Analyzer SubsystemContinued Over

35-3Spectrum Analyzer Subsystem

35-4Spectrum Analyzer SubsystemATTenuatorATTenuatorDescription Selects/queries the input ATTenuator GSM900 and EGSM900 selection. This is only validwh

35-5Spectrum Analyzer SubsystemATTenuator:MODEATTenuator:MODEDescription Selects/queries the ATTenuator2 MODE selection.Syntax SANalyzer:ATTenuator2:M

35-6Spectrum Analyzer SubsystemMARKer:POSitionMARKer:POSitionDescription Selects/queries the MARKer POSition setting.Syntax SANalyzer:MARKer:POSition?

35-7Spectrum Analyzer SubsystemSPANSPANDescription SPAN setting.Default GPIB units HZ;Default and display unit is MHz.Syntax SANalyzer:SPAN?SANalyzer:

35-8Spectrum Analyzer SubsystemVBWidth

36-136Spectrum Analyzer Commands(Measure Subsystem)

2-8GPIB Tutorial and ExamplesExample C - Making MeasurementsSelect commands from section “GPIB Commands Used in Exercises” to create thefollowing prog

36-2Spectrum Analyzer Commands (Measure Subsystem)

36-3Spectrum Analyzer Commands (Measure Subsystem)MARKer:FREQuencyMARKer:FREQuencyDescription Queries the MARKer FREQuency MEASurement result.GPIB uni

36-4Spectrum Analyzer Commands (Measure Subsystem)TRACe

37-137Status Subsystem

37-2Status Subsystem

37-3Status SubsystemStatus Subsystem - Status ByteStatus Subsystem - Status ByteThe Status subsystem is used for setting and querying the various cond

37-4Status SubsystemStatus Subsystem - Status ByteEvent register bitdefinitions1 - Measurement Limit(s) Exceeded8 - EMMI Status Register Event Summary1

37-5Status SubsystemStatus Subsystem - Status ByteEvent register bitdefinitions7 - Power On Occurred6 - User Request1 - Request Control0 - Operation Co

37-6Status SubsystemStatus Subsystem - Status ByteEMMI Status RegisterEvent register bit def-initions3 - Response timeout2 - Mobile XON timeout1 - NAK

37-7Status SubsystemCONDitionCONDitionDescription Queries the contents of the CONDition register associated with the status structure definedin the com

2-9GPIB Tutorial and ExamplesExample C - Making MeasurementsReceiver Sensitivity TestBit Error Ratio (BER) is the primary measure of GSM receiver sens

37-8Status SubsystemPTRanistionPTRanistionDescription Sets/queries the Positive TRansition filter. Setting a bit in the positive transition filtercause

38-138System Subsystem

38-2System SubsystemSYSTem[:ERRor]SYSTem[:ERRor]Description Queries the SYSTem ERRor queue. This returns an error number and a correspondingquoted me

39-139Tests Subsystem

39-2Tests Subsystem

39-3Tests SubsystemCOMMent1COMMent1Description Sets/Queries the first line of the comment field. This field describes the test procedure file.Syntax TESTs

39-4Tests SubsystemEXECution:DESTinationEXECution:DESTinationDescription Sets/Queries the output destination field for the test results. The test resul

39-5Tests SubsystemEXECution:HEADing1EXECution:HEADing1Description Sets/Queries the first line of the output heading field.Syntax TESTs:EXECution:HEADin

39-6Tests SubsystemEXECution:RESultsEXECution:RESultsDescription Sets/Queries the output results sent to the output device (CRT/Printer).Syntax TESTs:

39-7Tests SubsystemEXECution:RUNEXECution:RUNDescription Sets/Queriesthe testrunning mode. It enables the test tobe runcontinuously orpaused aftereach

2-10GPIB Tutorial and ExamplesExample C - Making MeasurementsTips:Experiment with shorter AGC settling times, notice the reported BER increase. Tryin

39-8Tests SubsystemLIBRary?LIBRary?Description Queries the test library informationSyntax TESTs:LIBRary?TEST:LIBR?Options This query returns the follo

39-9Tests SubsystemPROCedure:LOCationPROCedure:LOCationDescription Sets/Queries the location from where the Test Procedure can be found.Syntax TESTs:P

39-10Tests SubsystemPROCedure:PRINt:PARameterPROCedure:PRINt:PARameterDescription Prints out all the Test Procedure parametersSyntax TESTs:PROCedure:P

39-11Tests SubsystemSEQNumber?SEQNumber?Description Queries the test number that has been set for a particular sequence number. This is alsodefined in

39-12Tests SubsystemSPEC?

40-140Trigger Subsystem

40-2Trigger SubsystemContinued Over

40-3Trigger Subsystem

40-4Trigger SubsystemABORtABORtDescription ABORts TRIGgering of a measurement that has been triggered using TRIGger:IMMediate.Syntax TRIGger:ABORtOpti

40-5Trigger SubsystemBETest:MODEBETest:MODEDescription Selects/queries the Bit Error Test measurement TRIGger MODE.Syntax TRIGger:BETest:MODE?TRIGger:

2-11GPIB Tutorial and ExamplesExample D - Adding RobustnessExample D - Adding RobustnessThere are several additions which can be made to your program

40-6Trigger SubsystemDDEMod:SOURceDDEMod:SOURceDescription Selects/queries the Digital DEMod TRIGger SOURce.Syntax TRIGger:DDEMod:SOURce?TRIGger:DDEMo

40-7Trigger SubsystemHTCH:ARFCn[:SPECific]HTCH:ARFCn[:SPECific]Description Sets/queries the SPECific ARFCn to use for a Hopping TCH measurement whenTRIG

40-8Trigger SubsystemMODE[:DSP]MODE[:DSP]Description Selects/queries the DSP TRIGger MODE as SINGLE or CONTinuous. This is used forPhase, Amplitude, O

40-9Trigger SubsystemSOURceSOURceDescription Selects/queries the measurement TRIGger SOURce.Syntax TRIGger:SOURce?TRIGger:SOURce <string>Options

40-10Trigger SubsystemUMEMory:STATusUMEMory:STATusDescription Queries the current STAT e of the memory.Syntax TRIGger:UMEMory:STATe?Options Returns ’N

A-1AAppendix A - [:INUM] - Integer NumericFieldsOptional commands that apply to Integer Numeric Entry fields.

A-2Appendix A - [:INUM] - Integer Numeric FieldsINCRement Sets and queries the field’s current INCRement value.INCRement <UP | DOWN | (

B-1BAppendix B - [:FNUM] - Floating PointNumeric FieldsOptional commands that apply to Floating Point Numeric Entry fields.

B-2Appendix B - [:FNUM] - Floating Point Numeric Fields

B-3Appendix B - [:FNUM] - Floating Point Numeric FieldsCommandsCommandsUNITs UNITs?UNITs <GPIB unit>Sets/queries the GPIB fundamental UNITs that

2-12GPIB Tutorial and ExamplesExample E - Faster TestingExample E - Faster TestingLoad and run example program 1, then program 2, then program 3, or l

B-4Appendix B - [:FNUM] - Floating Point Numeric FieldsCommands

C-1CAppendix C - [:FNUM-MOD] - Floating PointNumeric (less MODE)Optional commands that apply to Floating Point Numeric Entry fields. Thesecommands are

C-2Appendix C - [:FNUM-MOD] - Floating Point Numeric (less MODE)

C-3Appendix C - [:FNUM-MOD] - Floating Point Numeric (less MODE)CommandsCommandsUNITs UNITs?UNITs <GPIB unit>Sets/queries the GPIB fundamental U

C-4Appendix C - [:FNUM-MOD] - Floating Point Numeric (less MODE)Commands

D-1DAppendix D - [:MM] - Measurement FieldsThe following list of optional commands that control Measurement fieldfunctions. These attributes are liste

D-2Appendix D - [:MM] - Measurement Fields

D-3Appendix D - [:MM] - Measurement FieldsCommandsCommandsSTATe STATe?STATeON | OFF | 1 | 0Selects/queries the STATe of the measurement to be ON or OF

D-4Appendix D - [:MM] - Measurement FieldsCommandsLLIMit:DUNitsLLIMit:DUNits?LLIMit:DUNits <measurement unit>Sets/Queries the measurement Low LI

E-1EAppendix E - [:MM-MOD] - MeasurementFields (less UNITs, DUNits, AUNits)The following list of optional commands that control Measurement fieldfunct

2-13GPIB Tutorial and ExamplesExample E - Faster TestingExample program 3 uses the Agilent 8922M/S Aux RF Out port to simulate a mobileoperating in a

E-2Appendix E - [:MM-MOD] - Measurement Fields (less UNITs, DUNits, AUNits)

E-3Appendix E - [:MM-MOD] - Measurement Fields (less UNITs, DUNits, AUNits)CommandsCommandsSTATe STATe?STATe ON | OFF | 1 | 0Selects/queries the STATe

E-4Appendix E - [:MM-MOD] - Measurement Fields (less UNITs, DUNits, AUNits)CommandsREFerence:STATeREFerence:STATe?REFerence:STATe ON | OFF | 1 | 0Sets

F-1FAppendix F - [:AVG] - Measurement FieldsUsing AveragingThe following list of optional commands that apply to measurement fields thatuse averaging.

F-2Appendix F - [:AVG] - Measurement Fields Using Averaging

F-3Appendix F - [:AVG] - Measurement Fields Using AveragingCommandsCommandsAVERage AVERageMEASurement AVERage commands. NOTE : These are only useful

F-4Appendix F - [:AVG] - Measurement Fields Using AveragingCommands

G-1GAppendix G - [:MET] - Measurement FieldsUsing MetersThe following is a list of optional commands that apply to measurement fields thatuse meters. T

G-2Appendix G - [:MET] - Measurement Fields Using Meters

G-3Appendix G - [:MET] - Measurement Fields Using MetersCommandsCommandsMETer METerMETer commands. NOTE : These are only useful for continuous measur

2-14GPIB Tutorial and ExamplesGPIB Commands Used in ExercisesGPIB Commands Used in ExercisesCommands used in exercise A:Preset the instrumentOUTPUT Uu

G-4Appendix G - [:MET] - Measurement Fields Using MetersCommands

H-1HAppendix H - [:MULTI-B] - MeasurementFields Using Multi-BurstThe syntax diagram below lists the optional commands that can be used withmulti-burst

H-2Appendix H - [:MULTI-B] - Measurement Fields Using Multi-Burst

H-3Appendix H - [:MULTI-B] - Measurement Fields Using Multi-BurstCommandsCommandsMBURst:MINimumReturns the minimum value of a measurement over the num

H-4Appendix H - [:MULTI-B] - Measurement Fields Using Multi-BurstCommands

2-15GPIB Tutorial and ExamplesGPIB Commands Used in ExercisesCommands used in exercise C:Query Fast TX Carrier Power (TX Peak Power)OUTPUT Uut;”MEAS:F

ContentsContents-24 AF Generator SubsystemAMPLitude ...

2-16GPIB Tutorial and ExamplesExample ProgramsQuery the completed bit error test resultOUTPUT Uut;”MEAS:BET:BERR:RATIO1?”ENTER Uut;BerppmReset the SAC

2-17GPIB Tutorial and ExamplesExample ProgramsTest ListTx TestsARFCN Tx LevelsTx Power 1, 65, 124 5, 6, 7, 8, 9, 10, 11, 12, 13,14, 15Peak and rms pha

2-18GPIB Tutorial and ExamplesSample OutputSample OutputAnswer call when mobile ringsResults from Fast Power MeasurementARFCN TXLEV POWER dBm 1

2-19GPIB Tutorial and ExamplesProgram 1Program 110 !RE-STORE “PROG1”20 !RE-SAVE “PROG1:,1404”30 !============================================

2-20GPIB Tutorial and ExamplesProgram 1550 !560 !Bit error ratio test570 !580 Numberpwr=1 !The number of downlink power levels

2-21GPIB Tutorial and ExamplesProgram 11190 Busport=INT(Uut/100) !Get the GPIB port code from Uutaddress1200 CLEAR Busport !Clear bus from any aborted

2-22GPIB Tutorial and ExamplesProgram 11700 OUTPUT Uut;”RFG:AMPL1 “;Bchpwr !Set the downlink power for normalsignalling1710 OUTPUT Uut;”TRIG:MODE ‘SIN

2-23GPIB Tutorial and ExamplesProgram 12200 OUTPUT Uut;”CELL:CALL:STATUS:STATE?” !Check the call statusfor connected2210 ENTER Uut;Status$2220

2-24GPIB Tutorial and ExamplesProgram 12650 Threedb=ABS(Anlevel-Slpwr(Arcount,Txcount)) !Calculate differencebetween measured and expected2660

2-25GPIB Tutorial and ExamplesProgram 13090 UNTIL Reparfcn=Arfcn OR Time=Maxtime !If reported ARFCNmatches programmed ARFCN310

ContentsContents-38 Cell Configuration SubsystemABCCh...

2-26GPIB Tutorial and ExamplesProgram 13500 ELSE !3 consecutive reportsat RxQual 4 or less to3510 Instance=0 !be be sure the mobilehas stabalized. Th

2-27GPIB Tutorial and ExamplesProgram 13950 REPEAT !to clear the call3960 Time=Time+13970

2-28GPIB Tutorial and ExamplesProgram 14460 Run$=”no”4470 IF Answer$=”Y” OR Answer$=”y” THEN Run$=”yes”4480 UNTIL Run$<>”yes”4490 END450

2-29GPIB Tutorial and ExamplesProgram 2Program 210 !RE-STORE “PROG2”20 !RE-SAVE “PROG2:,1404”30 !============================================

2-30GPIB Tutorial and ExamplesProgram 2540 Leveltol=1 !Power tolerence to indicate TX Level has settledafter change (dB)550 Fpthres

2-31GPIB Tutorial and ExamplesProgram 21140 Message$(7)=”Results from BER Test”1150 Message$(8)=”ARFCN Downlink dBm BER1% RxQual RxLev

2-32GPIB Tutorial and ExamplesProgram 21690 !1700!================================================================================1710 !1720 !CREAT

2-33GPIB Tutorial and ExamplesProgram 22200 DATA -40,-28,-18,-10,0,180,360,542.769,547.769,552.769,560.769,570.769 !Maskcorner times in us2210 DATA

2-34GPIB Tutorial and ExamplesProgram 22710 GOTO Timeflag !If wait too long,goto timeout code2720 EN

2-35GPIB Tutorial and ExamplesProgram 23160 OUTPUT Uut;”MEASURE:DSPANALYZER:PTCP?” !Tx power3170 ENTER Uut;Slpwr(Arcount,Txcount)3180 OUTPUT

ContentsContents-4CALL:TCH:ARFCn ...

2-36GPIB Tutorial and ExamplesProgram 23610 Errcount=Errcount+1 !settles note an error3620 Error$(Errcount)=”Mobile’s output power did not

2-37GPIB Tutorial and ExamplesProgram 24040 Time=0 !Agilent 8922M/S iswaiting for a report, after a SACCH4050 REPEAT !reset it returns -14060

2-38GPIB Tutorial and ExamplesProgram 24480 Clock(3)=TIMEDATE !Start call clearingtimer4490 !4500!===================================================

2-39GPIB Tutorial and ExamplesProgram 24950 Error$(1)=”No Errors”4960 END IF4970 FOR X=1 TO Errcount4980 PRINT Error$(X)4990 NEXT X

2-40GPIB Tutorial and ExamplesProgram 35540 !5550 !==============================================================================5560 !end of progr

2-41GPIB Tutorial and ExamplesProgram 3470 !GENERAL MEASUREMENT SET UP SPECIFIED480 !490 Uut=714 !GPIB address of Agilent 89

2-42GPIB Tutorial and ExamplesProgram 31100 Message$(9)=” Seconds.”1110 Message$(10)=”Time for phone to camp and answer page: “1120 Message$(11)=”T

2-43GPIB Tutorial and ExamplesProgram 31640!================================================================================1650 !1660 !SELECT Agilen

2-44GPIB Tutorial and ExamplesProgram 32140!=================================================================================2150 !2160 !ESTABLISH A

2-45GPIB Tutorial and ExamplesProgram 32600 OUTPUT Uut;”MEASURE:DSPANALYZER:MSUM?” !power versus time mask2610 ENTER Uut;Mask$(Arcount,Txcoun

ContentsContents-5ROSCillator:OFFset...

2-46GPIB Tutorial and ExamplesProgram 33050 Deltapower=ABS(Fastpower1-Fastpower2) !Look for change sincelast measurement3060 Count=Count+1

2-47GPIB Tutorial and ExamplesProgram 33490 Clock(2)=TIMEDATE-Clock(2) !Stop measurement timer3500 Clock(3)=TIMEDATE !Start call clearingtimer3510 !3

2-48GPIB Tutorial and ExamplesProgram 34020!====================================================================================4030 !SUBROUTINES BEL

2-49GPIB Tutorial and ExamplesProgram 34560 IF Func$=”TXON” THEN !These commands configure thegenerator to begin4570 OUTPUT Uut;”RFG:AMPL2 7DBM”

2-50GPIB Tutorial and ExamplesTransient Settling TimesTransient Settling TimesThe following transient settling (wait times) should be considered when

2-51GPIB Tutorial and ExamplesTransient Settling Timesc) Setting the Agilent 8922M/S to an Activated state. Must wait for the CELLCONTROL Signaling (R

2-52GPIB Tutorial and ExamplesTransient Settling Times2. The following operations may affect how much wait time is needed between GPIB orIBASIC comman

2-53GPIB Tutorial and ExamplesTransient Settling Timese) Arming DSP Analyzer, Output RF Spectrum or Pulse On/Off measurements inSingle mode from IBASI

2-54GPIB Tutorial and ExamplesTransient Settling Times

3-13AF Analyzer Subsystem

ContentsContents-615 DSP Analyzer Commands (Measure Subsystem)[:AMPLitude]:AMPLitude ...

3-2AF Analyzer SubsystemContinued Over

3-3AF Analyzer Subsystem

3-4AF Analyzer SubsystemAINAINDescription Selects/queries the state of the front panel AUDIO IN LO BNC connector. FLOAT meansAUDIO IN LO will be used

3-5AF Analyzer SubsystemDETector:PKLocationDETector:PKLocationDescription Selects/queries the PeaK DETector Location.Syntax AFANalyzer:DETector:PKLoca

3-6AF Analyzer SubsystemFILTer1FILTer1Description Selects/queries the AF Analyzer Filter 1.Syntax AFANalyzer:FILTer1?AFAN:FILT1?AFANalyzer:FILTer1 <

3-7AF Analyzer SubsystemINPutINPutDescription Selects/queries the AF ANalyzer INPut. This selection determines what signal is to bemeasured by the AF

3-8AF Analyzer SubsystemRANGingRANGingDescription Selects/queries the RANGing (Gain Cntl) STATe.Syntax AFANalyzer:RANGing?AFANalyzer:RANGing <strin

4-14AF Generator Subsystem

4-2AF Generator Subsystem

4-3AF Generator SubsystemAMPLitudeAMPLitudeDescription Sets/queries the AF Generator Audio Output AMPLitude, which will be present at the frontpanel A

ContentsContents-718 Fast Bit Error Test (Measure Subsystem)BTESted...

4-4AF Generator SubsystemFREQuency

5-15Audio Frequency Commands(Measure Subsystem)

5-2Audio Frequency Commands (Measure Subsystem)Continued Over

5-3Audio Frequency Commands (Measure Subsystem)

5-4Audio Frequency Commands (Measure Subsystem)ACLevelACLevelDescription Sets the AC Level MEASurement attributes.GPIB unit is V.Display units are dBm

5-5Audio Frequency Commands (Measure Subsystem)DCFMDCFMDescription Sets the DC FM Level MEASurement attributes. Queries the DC Level MEASurementresult

5-6Audio Frequency Commands (Measure Subsystem)FMFMDescription Sets the FM deviation MEASurement attributes. Queries the FM deviation MEASurementresul

5-7Audio Frequency Commands (Measure Subsystem)SINadSINadDescription Sets the SINad MEASurement attributes. Queries the SINad MEASurement result.GPIB

5-8Audio Frequency Commands (Measure Subsystem)SINad

6-16Bit Error Test Subsystem