Description - Agilent Technologies
Contents
1. Measurement Downconverter Log Voltmeter Counter DVM Hi 5 DVM Lo emodulation IF1 Counter Downconverter IF 2 Land Q Link SS amp Link SS PCI Bus Analog 9 Digital Demodulated FM RF Interface Module Input and output signals are routed through the RF Interface module The RF Interface module consists of a directional bridge for sampling incoming power and hybrid power splitters which create 4 bidirectional ports two receiver ports and two source ports RF amplifiers video gain circuits and fast and slow power detectors The source signals can be looped back through the input switch to cross calibrate the Measurement Downconverter and the Power Detector The directional bridge couples power to the Power Detector 504 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen block diagram fm Block Diagram The RF Interface module provides two identical RF Source path connections to the In Out port of the instrument There is about 25 dB of isolation between the two source paths There is about 35 dB of isolation between the source paths and either receiver path The RFIO module has nominally 23 dB of insertion loss in the source path A temperature sensing circuit facilitates compensation for path loss variation with temperature The sampled input power fr2. A Establish a call qu E 15 EN Sn Press the blue SHIFT key Press the green PRESET key Connect the mobile to the Test Set Turn the mobile on and wait for it to camp On the mobile press 1 2 3 then press send oan Fw NP Check for Connected in the Active Cell field B Select measurements D These black boxes indicate M that access probe power measurement results are Loc Y Measurement Selection being displayed in the lower HEY m arabe measurement window and iN ricis meen channel power results are EE channel Pouer being displayed in the upper Digital Average Pouer measurement window V Handoff Waveform Quality Waveform Quality Code Domain Frame Error Rate The gray boxes indicate that the measurement is being made but the results are not being displayed TN 1 Press the Measurement selection key 2 Highlight a measurement and press the knob 3 Repeat steps 1 and 2 to add measurements 441 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_make_meas fm How Do I View a Graphical Measurement How Do View a Graphical Measurement Neasurenent Instrument Screen i Ce
3. Sustem Config Screen RF IN OUT RF IN OUT Amplitude Offset Utilities RF IN OUT Amplitude Offset State Off lessage Number Frequency MHz Offset dB Loo a 1 Off Off 2 o 2 Off off ee RE IN OUT Amptd 3 off off up Offset Setup j 4 off off il 5 Off Off 6 Off Off 7 Off off 8 Off Off RF IN OUT Amplitude Offset Setup Value RF In Out Amplitude Offset State Frequency 1 Off Offset 1 Off Frequency 2 Off offset 2 Off Frequency 3 Off Offset 3 Off Close FK 4 E Nenu Frequency t off X E Backoround Rctive Cell Bus Tupe 18 2000 Ne Connected I p Pss eot s raa n eee 1 On the Configuration Summary screen not shown press the RF IN OUT Amptd Offset F5 key 2 On the RF IN OUT Amplitude Offset screen press the RF IN OUT Amptd Offset Setup F2 key 3 Enter the amplitude offset for the test frequencies you use 4 Press the Close Menu F6 key 452 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen op overview sys config fm How Do Configure the Test Set for My Test System C Check message log Sustem Config Screen ic oo s J Call disconnected No response to registration request RF IN OUT Amptd Offset Setup Clear Nessage Log Return E Background Rctive Cell Sus Tupe 18 2000 Connected IE BA 2 Nds IntRef 1 From any System Config screen press the Message Log F7 key and view the message log 2 Press the
4. L returns num value gt lt Sp gt lt num value gt DB gt L gt returns num value lt sp gt 1 ON 0 OFF __s L gt returns 1 0 gt lt sp gt lt num value n SNUMber 1 a Command 7 returns num value gt NUMBer L STATe Sp num value gt gt L gt returns num value gt lt Sp gt 1 ON 0 OFF gt L gt STIMe 1 _ STATe L TIME Ls see Command Sp 1 ON O0 orF gt L gt returns 1 0 4 sp num value S MS US NS gt returns num value W returns 1 0 lt sp gt lt num value S MS US NS returns num value 360 S Hp8960 E1962B CDMA 20003 1 reference guide Chapters icdma2000 hpib setup wquality fm SETup WQUality SETup WQUality CDPower lIQINactive LIMit Function Sets queries the pass fail limit for inactive channel power on the Code Domain Power measurement Setting Range 100 to 0 dB Query Range 100 to 0 dB RST Setting 26 dB OUTPUT 714 SETUP WQUALITY CDPOWER IOINACTIVE LIMIT Sets code domain power measurement s pass fail limit Programming Example 26 DB SETup WQUality CDPNoise IQNoise LIMit Function Sets queries the pass fail limit fo
5. 300 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 300 to 399 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 399 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 2 4 200 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 200 to 299 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 100 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 100 to 199 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 0 Extension Bit This bit is always 0 Program Example STATus QUEStionable ERRors CDMA Condition Register Bit Assignment OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 4 STATUS 4 STATUS 4 STATUS 4 STATUS 4 STATUS QUESTIONABLE ERRORS CDMA ENABLE 1024 QUESTIONABLE ERRORS CDMA EVENT
6. Function Sets queries the Walsh code used for the forward fundamental channel The Walsh codes allowed for use with this command are part of a reserved codespace that has been created by fixing other code channels to pre determined values Reserving this codespace eliminates the possibility of conflicts that can arise with lower walsh code sets which are used in certain radio configurations Setting Range CODE10 CODE14 CODE26 CODE30 CODE42 CODE46 CODEB8 CODE62 Query Range CODE10 CODE14 CODE26 CODE30 CODE42 CODE46 CODE58 CODE62 RST Setting CODE10 Programming Example OUTPUT 714 CALL FCHANNEL WALSH CODE14 ISets the forward fundamental channel walsh code to 14 210 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call fchannel fm CALL HANDoff CALL HANDoff CALL HANDoff zl IMMediate Diagram Conventions on page 171 CALL HANDoff IMMediate Function Initiates a handoff to e the handoff system type selected by the CALL SETup SYSTem command e the handoff frequency band selected by the CALL SETup BAND command e the handoff physical channel selected by the CALL SETup CHANnel command A handoff will occur within the current system if the current cell system type see CALL CELL SYSTem is the same as the current handoff system type see CALL SETup SYSTem Programming Example OUTPUT 714 CALL
7. Programming Example OUTPUT 714 RFANalyzer CONTrol MEASurement FREQuency AUTO OFF Enables manual control of the measurement signal path tune frequency 334 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm RFANalyzer CONTrol POWer AUTO RFANalyzer Function Sets queries the test set s receiver input power control mode ON automatic OFF manual Setting Range 1 ON 0 OFF Query Range 1 0 RST setting 1 on Programming Example OUTPUT 714 RFANALYZER CONTROL POWER AUTO OFF Enables manual control of the expected input power level RFANalyzer CONTrol UPLink FREQuency AUTO Function Sets queries the test set s demodulation signal path tune frequency control mode ON automatic OFF manual Setting Range 1 ON 0 OFF Query Range 1 0 RST setting 1 on Programming Example OUTPUT 714 RFANALYZER CONTROL UPLINK FREQUENCY AUTO OFF demodulation signal path tune frequency Enables manual control of the RFANalyzer CW EXPected POWer Function Sets queries the expected CW receiver input power This setting is only used when the Operating Mode is set to CW See CALL CELL OPERating Setting Range 60 dBm to 453 dBm Query Range 60 dBm to 453 dBm RST setting 13 dBm Programming Example OUTPUT 714 RFANALYZER CW EXPECTED POWER 20 335 S Hp8960 E1962B CDMA 20
8. 92 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step4 ac fm Step 4 Make Connection Call Connection Synchronization Commands The test set has a set of commands designed specifically for call connection and release synchronization Call Connection Synchronization Commands Synchronization Command Command Syntax Call Connected State Query CALL CONNected STATe Call State Change Detector Arm CALL CONNected ARM IMMediate Call State Change Detector Timeout CALL CONNected TIMeout e Call Connected State Query The CALL CONN query allows the control program to determine if a call is in the connected state or in the idle state Responses Returned by the CALL CONN Query Response Meaning 1 The call is in the connected state 0 The call is in the idle state If the call is in one of the transitory states the query waits until the call reaches the idle state or connected state before returning a value e Call State Change Detector Arm Command The test set has a call state change detector which can be used to temporarily hold the response to a CALL CONN query until the call state has moved from idle to connected or vice versa Without the call state change detector the CALL CONN query only hangs if the call is in a transitory state Otherwise it immediately returns a 1 or 0 Therefore if a call connection process is started and the CALL CONN qu
9. CALL TOTal POWer CALL TOTal POWer CALL TOTal POWer T gt returns num value AMPLitude gt SELected L gt DIGital2000 s 2 STATE l gt returns 1 0 gt SELected DIGital2000 Diagram Conventions on page 171 CALL TOTal POWer AMPLitude SELected Function Queries the total RF power settings for the current system type Total RF power is the sum of cell power level and AWGN power level The return value for this query is not necessarily the power level being transmitted by the test set at the moment this command is processed by the test set It may return a value that the test set has been requested to transmit but that has been pended or delayed for some reason To query the power level the test set is transmitting at the moment the command is sent use the CALL STATus TOTal POWer AMPLitude SELected command The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Query Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL TOTAL POWER AMPLITUDE SELECTED 290 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_total_power fm CALL TOTal POWer CALL TOTal POWer STATe SELected Function Queries the total RF power state for the curr
10. OUTPUT 71 STATUS STATUS t STATUS STATUS t STATUS OPERATION OPERATION OPERATION OPERATION OPERATION KEYPRESSED KEYPRESSED KEYPRESSED KEYPRESSED KEYPRESSED EVENT CONDITION ENABLE 16 IQueries the Keypressed Event Register Queries the Keypressed Condition Register Sets IKeypressed Enable Iregister for bit 4 Sets the Keypressed Negative Transition IRegister for bit 1 Sets the IKeypressed Positive ITransition Register for bit 2 STATus OPERation NMRReady Register Bit Assignments The STATus OPERation N MRReady register bits indicate when a measurement has been completed and new measurement results are available Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 TA2000 Summary bit This bit is the summary message bit for the STATus OPERation NMRReady TA2000 register 8 256 CDMA Summary bit This bit is the summary message bit for the STATus OPERation NMRReady CDMA register 7 128 DIGital2000 Summary bit This bit is
11. Programming Example OUTPUT 714 SETUP DAPOWER CONTINUOUS ON Sets measurement to single trigger mode 42 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 meas adherence desc fm Test Adherence to Standards Function Sets queries the trigger arm state for the digital average power measurement The trigger arm state determines whether the digital average measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP DAPOWER CONTINUOUS ON Sets measurement to single trigger mode Function Sets queries the trigger arm state for the digital average power measurement The trigger arm state determines whether the digital average measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP DAPOWER CONTINUOUS ON Sets measurement to single trigger mode Table 2 IS 98 D Standards TIA EIA 98 D E1962B 3 1 Frequency Requirements Supports Band Class 0 7 3 4 1 Demodulation of Forward Traffic Channel with Yes AWGN 3 4 2
12. Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER ICHANNEL ALL 315 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch wquality fm FETCh WQUality FETCh WQUality CDPower ICHannel BIN bin num Function Queries the I channel results for a specific measurement graph bar bin on the code domain graph Bins are numbered 0 through 15 starting from the left side of the graph to the right side of the graph This query returns a string of 4 comma separated values 1 active or 0 inactive Walsh code spread factor and power Setting bin num range 0 to 15 Query FETCh WQUality CDPower ICHannel BIN 0 returns 1 active or 0 inactive Walsh code spread factor and power for bin 0 Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER ICHANNEL BIN 13 Queries the I channel code domain power level in bin 13 FETCh WQUality CDPower ICHannel COUNIt BIN Function This query indicates how many bins contain measurement data For example if 13 is returned bins 0 through 12 contain measurement data and bins 13 through 15 contain 9 91 E 37 results Query Range 0 to 15 Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER ICHANNEL COUNT BIN FETCh WQUality CDPower QCHannel ALL Function Queries the code domain power in the Q channel This query returns a string of 64 comma separated values These represent 4 values for eac
13. put error handler here END IF Call is connected so proceed with control program Process for Making a Mobile Station Originated Call Figure 4 Process for Making a Mobile Station Originated Call CALL CONN TIM command CALL CONN ARM command Send CALL CONN query command Enter response from CALL CONN query Proceed with Send CALL END control program command Invoke error handler 96 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step4 ac fm Step 4 Make Connection NOTE The test set cannot originate a call from the mobile station You must physically dial a number on the mobile station and press send or send commands to a test bus built into the mobile station For mobile station originated calls where the call is originated by physically dialing a number as opposed to using a test bus ensure that the call state change detector timeout time is long enough to allow the number to be dialed Example 11 Programming Example OUTPUT Test set CALL CONN TIM 10 Set timeout time to 10 seconds OUTPUT Test set CALL CONN ARM Arm the change detector DISP Initiate a call from the mobile OUTPUT Test_set CALL CONN Initiate a call connected state query ENTER Test set Call connected Program hangs here until origination passes or fails IF NOT Call connected THEN OUTPUT Test set CALL END put error handler here gt END IF Call is connected Pr
14. Positive Transition Filter Register for bit 1 STATus QUEStionable ERRors AMPS Condition Register Bit Assignment The STATus QUEStionable ERRors AMPS register bits will be used to indicate information about AMPS related test set device specific errors positive error numbers Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 MUI Maskable Messages This bit is a 1 when a Maskable Message has occurred Maskable Messages are not displayed on the test set display 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 396 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 9 512 900 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 900 to 999 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 256 800 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 800 to 899 range occurs After setting the Positive Transition Filt
15. Programming Example OUTPUT 714 CALL STATUS Returns the current call processing state CALL STATus CELL SYSTem TYPE Function Queries the current system type that the test set is currently emulating When the test set is in active cell operating mode see CALL CELL OPERating the current system type is selected by the CALL CELL SYSTem command When the test set is in any test mode operating mode see CALL CELL 0PERating or CW operating mode this command will return the corresponding system type Query Range DIG2000 CW RST Setting DIG2000 Programming Example OUTPUT 714 CALL STATUS CELL SYSTEM TYPE CALL STATus LOOPback Function Queries the current loopback mode Loopback mode indicates if the selected service option is currently SO2 or SO9 loopback and a call is connected in the current system The test set does not attempt to verify that data is actually being looped back by the mobile station when responding to this query Loopback mode is set using the CALL CELL SOPTION command Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS LOOPBACK 279 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus TOTal POWer AMPLitude SELected Function Queries the total RF power of the currently selected syst
16. CALL END CALL END CALL gt END Diagram Conventions on page 171 CALL END Function Disconnects any calls or connections in progress Aborts any outstanding registrations or base station pages in progress as well as mobile station originations Programming Example OUTPUT 714 CALL END 206 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_end fm CALL CELL ESCape MODE CALL CELL ESCape MODE CALL gt ESCape gp 1 ON O orF L gt CELL gt MODE returns 1 0 Diagram Conventions on page 171 CALL CELL ESCape MODE Function Sets queries CDG escape mode When escape mode is on the test set is configured as a base station that sends in its overhead messages all 1 s in the messaging fields used to signal mobile country code MCC and mobile network code MNC A mobile station that supports escape mode will respond by assuming MCC MNC compatibility and perform registrations using only the mobile station identification number MSIN Setting Range 1 ON 0 OFF Query Range 0 1 RST Setting 0 off Programming Example OUTPUT 714 CALL CELL ESCAPE MODE 1 Sets CDG escape mode on 207 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_escape fm CALL FCHannel CALL FCHannel CALL FCHannel
17. QUESTIONABLE ERRORS CDMA CONDITION QUESTIONABLE ERRORS CDMA NTRANSITION 2 QUESTIONABLE ERRORS CDMA PTRANSITION 2 IQueries and clears the Questionable Errors CDMA Event Register IQueries and clears the Questionable Errors CDMA Condition Register ISets the Questionable Errors CDMA Enable IRegister for bit 10 ISets the Questionable Errors CDMA Negative Transition IFilter Register for bit 1 ISets the Questionable Errors CDMA Positive Tranasition IFilter Register for bit 1 STATus QUEStionable ERRors COMMon Register Bit Assignments The STATus QUEStionable ERRors COMMon register bits will be used to indicate information about the COMMon test set device specific errors positive error numbers Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 400 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 9 512 900 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error
18. Trigger Arm Single remote operation full preset RST command Measurement Parameters all set to defaults Maskable Message Display State On manual operation full preset Maskable Message Display State Off remote operation full preset Status Preset Preset Descriptions The STATUS PRESET command sets the status system as defined in SCPI 1995 Volume 2 Command Reference section 20 7 All of the enable registers are set to 0 all PTR registers are set to 1 and all NTR registers are set to 0 Example OUTPUT 714 STATUS PRESET Related Topics SYSTem PRESet IPresets the STATus subsystem 117 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen inst states fm Receiver Control Receiver Control The test set normally sets all receiver parameters automatically using call control settings You may want to control the test set s receiver parameters manually rather than allowing the test set to control them This ability is referred to as manual receiver control Refer to the Block Diagram on page 504 for a description of the Signal Downconversion paths These paths the measurement downconverter and the demodulation downconverter can be manually adjusted to different input frequencies Manual vs Automatic Receiver Control e Auto mode is the default for all operating modes except CW which defaults to manual mode The receiver s expected power and fr
19. gt returns num value Lr CALL MS REPorted CAPability SCHannel FORWard RCONfig gt returns string gt TURBO a gt returns YES NO UNKN gt L m gt DRATe1 returns a aiment string _ DRATe2 z gt returns gag cimi d string _ Diagram Conventions on page 171 222 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_sch_forw fm CALL MS REPorted SCHannel FORWard CALL MS REPorted CAPability SCHannel FORWard SUPPort Function This query only command returns the mobile station s capability to support a forward supplemental channel SCH as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD SUPPPORT CALL MS REPorted CAPability SCHannel FORWard CONVolution SUPPort Function This query only command returns the mobile station s capability to support convolutional coding on the forward supplemental channel as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD CONVOLUTION SUPPORT CALL MS REPorted CAPability SCHannel FORWard CONVolution DRATe1 MAXimum Function This query only command returns the mobile station s maximum convolutional coder
20. 86 S Hp8960 E1962B CDMA 2000 3 1 reference guideXChaptersicdma2000 prog generic step2 ac fm Step 3 Set Measurement Parameters Step 3 Set Measurement Parameters The following information provides additional details on Step 3 of the Programming Flowchart This information is applicable to all test applications Description In this step you set up the conditions under which the measurements operate You do this by configuring measurement parameters Contents e Measurement Parameters Overview e Generic Measurement Parameters e Measurement Specific Measurement Parameters Measurement Parameters Overview There are two different types of measurement parameters e Generic Measurement Parameters e Measurement Specific Measurement Parameters The SETup subsystem is used to configure measurement parameters Each individual measurement parameter can be set and queried using the associated SETup subsystem command The general hierarchy of the SETup subsystem command structure is as follows SETup lt measurement mnemonic gt lt measurement parameter gt lt parameter setting value gt NOTE Not all measurements use all measurement parameters Refer to the GPIB syntax listing for the detailed list of measurement parameters for individual measurements 87 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step3_ac fm Step 3 Set Measurement Parameters Generic Measurement
21. CALL STATus SCHannel LEVel SELected Function Queries the current forward supplemental channel SCH level The forward supplemental channel level is set using the CALL SCHannel commands Query Range 0 to 30 dB 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS SCHANNEL LEVEL 285 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus SCHannel STATe SELected Function Queries the current on off state of the forward supplemental channel SCH The forward supplemental channel on off state is set using the CALL SCHannel commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS SCHANNEL STATE CALL STATus OCNSource LEVel SELected Function Queries the orthogonal channel noise source OCNS level for the selected system type The OCNS level is set using the CALL OCNSource commands Query Range 0 to 20 dB 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS OCNSOURCE LEVEL SELECTED CALL STATus OCNSource STATe SELected Function Queries the current on off state of the orthogonal channel noise simulator channel OCNS The OCNS channel on off state is set using the CALL OCNSource commands Query Range 1 0 RS
22. Range 1 ON 0 OFF Query Range 1 0 RST Setting OFF Programming Example OUTPUT 714 CALL AWGNOISE POWER STATE SELECTED ON Turns on AWGN 194 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call awgn fm CALL BAND CALL BAND CALL gt BAND RT gt sp IMT2000 JCDMa KPCS USCellular USPCs E NMT450 gt DIGital2000 gt returns IMT2000 JCDM KPCS USC USPC NMT450 Diagram Conventions on page 171 CALL BAND SELected Function Sets queries a frequency band for the system type specified by the command s system type parameter The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range IMT2000 JCDMa Japan CDMA KPCS Korean PCS USCellular U S Cellular USPCs U S PCS NMT450 Query Range IMT2000 JCDMa Japan CDMA KPCS Korean PCS USCellular U S Cellular USPCs U S PCS NMT450 RST Setting U S PCS Programming Example OUTPUT 714 CALL BAND KPCS Selects the Korean PCS cell band 195 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_band fm CALL CHANnel CALL CHANnel CALL CHANnel SELected is DIGital2000 Diagram Conventions on page 171 gt SELected B oV yy v gt IMT2000 JCDMa KPCS
23. Receiver Example The received power setting reflects the power at the DUT This means the value displayed for received power does not change however the test set s hardware changes internally to expect a level that includes the offset With the test sets received power set to 12 dBm the RF IN OUT Amplitude Offset State set to On and a 3 dB offset at some frequency The received power displays 12 dBm to reflect the level at the DUT The test set s internal hardware changes to receive 9 dBm the power received at the test set s RF IN OUT connector after the 3 dB loss in the network Figure 2 Amplitude Offset Receiver Example Signal Flow Agilent 8960 Input Power setting 12 dBm aN la DUT Amplitude offset 3 dB 3 dB network bidirectional Instrument Plane DUT Plane Power 9 dBm Power 12 dBm The input power setting reflects the power at the DUT plane Related Topics SYSTem CORRection 48 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_meas fm Call Processing 2 Call Processing 49 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters ch_call_processing fm Active Cell Operating Mode Active Cell Operating Mode Active cell mode is used to emulate an IS 2000 cell interacting with the mobile station MS and is the default operating mode Active Cell Features The basic features provided by active cell oper
24. The discriminator audio has an uncalibrated volume control provided due to the high tolerances involved Typically the DDS mode is used to feed the MIC input of a radio or it may simply be used as a general purpose low distortion function generator Audio echo can be selected to route the received audio to the front panel audio output connector RF Sources The test set can contain two identical RF sources The RF sources are used to provide analog or digitally modulated RF carriers for use in parametric testing of mobile stations encompassing a variety of cellular radio formats In general the sources have a frequency range of 292 MHz to 2 7 GHz and an amplitude range of 10 dBm to 127 dBm The RF sources consist of a Synthesized Signal Generator module followed by a Vector Output module and an RF Attenuator module Baseband modulation information is supplied to the RF sources from a Baseband Generator module preceded by an Audio Section module The various components which make up the test set source system are described in the following sections 508 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 gen block diagram fm Block Diagram Baseband Generators The purpose of the Baseband Generator module is to provide for the modulation type currently in effect properly formatted baseband signals to the modulation circuits on the RF Source modules The Baseband Generator performs several functions related to the gen
25. gt reads Positive Transition Filter register 3 reads event register 3 Diagram Conventions on page 171 390 L gt EVENt j gt CONDition reads condition register ENABle lt sp gt lt num value writes to enable gt NTRansition sp num value writes to gt PTRansition sp num value writes to register x L gt reads enable register Negative Transition Filter reg ister i reads Negative Transition Filter register Positive Transition Filter register reads Positive Transition Filter register S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable STATus QUEStionable Condition Register Bit Assignment The STATus QUEStionable register contains bits which give an indication that the data currently being acquired or generated is of questionable quality due to some condition affecting the functionality associated with that bit Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 QUEStionable HARDware This bit is
26. 321 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_initiate_description fm INITiate INITiate INITiate CAPPOwer gt ON _ Ls OFF CFERror Y CPOWer DAPower Voy Y FSTability WQUality Y 7 10N returns comma separated list of CPOW DAP WQU CFER FST CAPP NONE INITiate _ COUNt L gt DONE s returns CPOW DAP WQU CFER FST NONE WAIT CLEar L gt ALL l FLAG lt sp gt INCLude EXCLude ALL CAPPower s lt sp gt INCLude EXCLude CFERror __s lt sp gt INCLude EXCLude 14 CPOWer s lt Sp gt INCLude EXCLude DAPower ________s lt gp gt INCLude EXCLude gt FSTability sp INCLude EXCLude _s Lt 4 4 WQUality _____s lt sp gt INCLude EXCLude gt Diagram Conventions on page 171 322 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_initiate fm INITiate lt measurement mnemonic gt ON INITiate Function These commands initiate start the following measurements e CAPP Access Probe Power e CFER Frame Error Rate e CPOW Channel Power DAP Digital Average Power e FST Frequency Stability e WQU Waveform Quality This command also queries the active state using the ON keyword in place of a measurement mnemonic The INITiate command
27. 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 MS reject order received This bit is a 1 if the Service Option or Radio Configuration change was rejected by the MS while connected 3 8 Carrier not detected on new This bit is a 1 when no power is detected by the test channel set after a handoff or when making a call 2 4 Handoff completion not received This bit is a 1 if the test set does not receive a handoff completion message from the MS 1 2 Release order not received This bit is a 1 if the MS does not send the call release to the test set 394 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Binary Condition Description Number Weighting 0 1 Extension Bit This bit is always 0 Program Example STATus QUEStionable CALL TA2000 Register Bit Assignment OUTPUT 714 STATUS QUESTIONABLE CALL TA2000 EVENT Queries and clears the Questionable Call Event Register OUTPUT 714 STATUS QUESTIONABLE CALL TA2000 CONDITION Queries and clears the Questionable Call Condition Register OUTPUT 714 STATUS QUESTIONABLE CALL TA2000 ENABLE 1024 Sets the Questionable Call Enable Register for bit 10 OUTPUT 71
28. AMPLitude returns real SELected DIGital2000 Ls STATe returns 1 0 SELected L gt DIGital2000 277 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus AWGNoise POWer AMPLitude returns real SELected DIGital2000 gt 8TATe returns 1 0 SELected DIGital2000 CALL STATus PILot Ei X returns num val N LEVel SELected DIGital2000 STATe gt returns 1 0 SELected DIGital2000 CALL STATus SYNC returns 1 0 L gt LEVel 4l SELected DIGital2000 gt STATe returns num value SELected DIGital2000 CALL STATus gt PAGing returns num value gt Ls LEVel SELected gt DIGital2000 STATe returns 1 0 5 SELected 278 S Hp8960 E1962B CDMA 200013 1 reference guideXChaptersicdma2000 hpib call status fm DIGital2000 CALL STATus Diagram Conventions on page 171 CALL STATus STATe Function Queries the status of the call Status can be idle paging call alerting connected access probe releasing handoff or registering Query Range IDLE PAG CALL CONN APR REL HAND REG RST Setting IDLE
29. Analog To Digital Converter Module Following the Measurement Downconverter and Demodulation Downconverter IF 1 is the Analog to Digital Converter module The purpose of the Analog to Digital Converter module is to convert the downconverted analog signals into digital data streams which can be processed by the Digital Signal Processing module In order to maintain the radio link of non CDMA formats the downconversion path through the Demodulation Downconverter module has a dedicated A D conversion path In order to optimize measurement throughput the fast RF power detector also has a single dedicated A D path This allows power measurements in many cases to be made concurrently with other measurements The two outputs from the Measurement Downconverter module and the Audio In signal share a single multiplexed A D path The outputs of the various analog to digital converters on the Analog to Digital Converter module share a common data bus to the Digital Signal Processing module Digital Signal Processing Module The Digital Signal Processing DSP module is responsible for a variety of tasks within the overall test set architecture These tasks are demodulating data from the radio under test data received from the Demodulation Downconverter module and sending the demodulated data bits to the Protocol Processor module for some systems perform audio measurements using audio information sent to the DSP module from the Protocol Processo
30. CALL CELL POWer SAMPlitude SELected Function The setting form of this command performs two functions 1 sets the cell power level and 2 turns the cell power on off state to on The query form returns the cell power level including compensation for amplitude offset or NAN The optional SELected keyword in this command specifies that the cell power level being set or queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Cell power and AWGN see CALL AWGWNoise POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting a cell power level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of cell power and AWGN causing total RF power limits to be exceeded see CALL STATus TOTal POWer AMPLitude SELected for the allowable range of total RF power levels e Greater than 10 dB difference between cell power and AWGN Amplitude offset causing total RF power limits to be exceeded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz Resolution 0 01 dB Query Range Same as setting range Resolution 0 01 dB RST Setting 55 dBm 1 23 MHz Programming Exampl
31. Press the Ce11 Band F8 key and select the band in which you would like to bring up the call Press the Radio Config F11 key and select the radio configuration in which you would like to bring up the call Check the rest of the Call Parms settings keys F7 through F12 then press the More key to check the settings displayed on the 2 of 3 and 3 of 3 menus Make sure the cell settings such as SID System Identification are compatible with the mobile station See How Do I Change Cell Information on page 447 7 Turn on power to the mobile station and wait for an indication that it has found service 8 Make a mobile station originated call or wait for the mobile station to perform power up registration then press the Originate Call F3 key Verify that the call is connected 445 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen op overview setup call fm How Do Change Call Parameters How Do I Change Call Parameters Call Setup Screen Call Control Active Cell Operating Mode Call Parms Dperating finde Pelt Pouer ES hoo OxESSEDIBG T EI e TUS SONUS cuum Eus ncc 450 US Cellular me msm oxta003000 n mm Slot Cass Sloted e Call Slot Cucle Index 2 00 Protocol Revision 8 cs 2000 feun Band Class Protocol Rev aging 151 ms operatino node 6 05 200 3 Max EIRP dBi Regist
32. RFANalyzer MANual MEASurement MFRequency to specify a frequency and turn manual mode on e RFANalyzer MANual MEASurement FREQuency to specify a frequency 118 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 gen bse rcvr test fm Receiver Control Demodulation receiver frequency Demodulation receiver frequency commands are used to manually tune the test set s demodulation downconverter input signal path see Block Diagram The demodulation downconverter signal path is part of the function that demodulates information from the mobile station s reverse channel transmissions The commands are e RFANalyzer CONTrol UPLink FREQuency AUTO to turn manual mode on off e RFANalyzer MANual UPLink MFRequency to specify a frequency and turn manual mode on e RFANalyzer MANual UPLink FREQuency to specify a frequency NOTE Manual control of the demodulation receiver frequency is rarely needed Use the measurement receiver when manual receiver frequency control is required Effects on Receiver Control When Changing Operating Mode After selecting the operating mode and setting one or more receiver controls to manual the receiver control settings remain as you set them until you change operating mode Changing operating mode causes some or all receiver parameters to return to automatic control Related Topics RFANalyzer 119 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cd
33. Ready TA2000 IRegister for Sets Negative Transition bit 1 the New Measurement IResults Ready TA2000 Positive ITransition Register Ifor bit 2 Queries the New Measurement ts New Measurement Results the New Measurement Results 383 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus PRESet STATus PRESet STATus gt PRESet Diagram Conventions on page 171 STATus PRESet Function Presets the status subsystem Presetting the status subsystem performs the following functions Allenable registers are set to 0 not enabled e All Positive Transition Registers PTR s are set to 1 positive transitions enabled e All Negative Transition Registers NTR s are set to 0 negative transitions disabled 384 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib status preset fm STATus QUEStionable STATus QUEStionable STATus QUEStionable gt reads event register L gt EVENt gt CONDition reads condition register gt ENABle sp num value writes to enable register L gt reads enable register gt NTRansition s lt sp gt lt num value writes to Nega tive Transition Filter register L reads Negative Transition Filter register L gt PTRansition Sp num value writes to Positive Transi
34. e QPCH Indicator bits applied only when the test set s operating mode is IS 2000 test mode See CALL D2KTest QPC Hannel INDicator PAGing Fixed F QPCH Parameters e QPCH RATE is fixed at 9600 bps e QPCH CCI SUPPORTED is fixed at 0 e NUM QPCH is fixed at 1 e The F QPCH Walsh code is fixed at code channel number 80 GPIB Examples Setting F QPCH Level relative to pilot channel level OUTPUT 714 CALL QPCH RTP 3 DB would set the F QPCH state on and set the level relative to the forward channel pilot to 3 dB See CALL QPCHannel SLEVel RTPilot SELected Querying F QPCH Level relative to cell power level OUTPUT 714 CALL QPCH LEVel would query the last F QPCH relative to cell power level setting See CALL QPCHannel LEVel RTCell SELected 60 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 gen bse qpch fm Configuring the F QPCH Forward Quick Paging Channel Operating Considerations The Walsh code number for the QPCH channel is fixed at code 80 from the Walsh 128 set When the QPCH state is on the test set will send out slotted quick pages single mode regardless of the mobile station s ability to support quick paging If the mobile station does not support quick paging the presence of quick pages should not affect its ability to respond to normal pages The QPCH relative to pilot level is sent to the mobile station in the Extended System Parameters messa
35. sp 809 S17 S055 L gt returns SO9 SO17 SO55 L gt RCONfig3 lt sp gt S01 S03 S055 _____s L gt returns SO1 SO3 SO55 RCONfig4 gt lt sp gt S0O1 S03 SO055 L gt returns 501 S03 S055 L gt RCONfig5 gt L gt returns 5017 9055 gt lt sp gt S017 5055 gt Diagram Conventions on page 171 275 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_soption fm CALL CELL SOPTION CALL CELL SOPTion SELected SELected Function Sets queries the service option for the system type and radio configuration specified by command parameters The first optional SELected keyword in this command specifies that the service option being set queried applies to the current system type The second optional SELected keyword in this command specifies that the service option being set queried applies to the current radio configuration Specifying a non current radio configuration when setting a service option will cause the test set to store that service option for use when the specified radio configuration is current Specifying a non current radio configuration when querying a service option will return a stored service option that is not the current service option To set make current a radio configuration or query the current radio configuration use the CALL CELL RCONfig
36. 15 characters formatted as follows A B C D where A 0 to 223 B C D 0 to 255 no embedded spaces Factory 0 0 0 0 this parameter is not affected by any reset operation and can only be changed by direct setting user access Related Configuring the Test Set s LAN on page 525 Topics Programming Example OUTPUT 714 SYSTEM COMMUNICATE LAN SELF ADDRESS 130 015 156 255 Sets the ILAN IP laddress 422 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib system communicate fm SYSTem COMMunicate SYSTem COMMunicate LAN SELF DGATeway Function Sets queries the LAN IP router gateway address for the test set Setting Range 15 characters formatted as follows A B C D where A 0 to 223 B C D 0 to 255 no embedded spaces blank field Query Range 15 characters formatted as follows A B C D where A B C D 0 to 255 no embedded spaces blank field Factory blank field this parameter is not affected by any reset operation setting Programming Example OUTPUT 714 SYSTEM COMMUNICATE LAN SELF DGATEWAY 130 2 6 200 SYSTem COMMunicate LAN SELF SMASk Function Sets queries the subnet mask of the test set based on the LAN IP address selected The subnet mask changes according to the value of A used for the LAN IP address If A is less than or equal to 127 the subnet mask is 255 0 0 0 If A is greater than 127 and less or equal to 191 the subne
37. 7 Pn i Identification Failure 8 800 Messages 8 Channel Mode Not Supported 9 900 Messages 9 Data Summary 14 STATUS OPERATION NMRREADY GSM STATUS OPERATION CALL GSM Extension Bit 0 Extension Bit 0 Tx Power 1 Idle 1 Power vs Time 2 Connected 2 Phase Freq Error 3 Alerting 3 Output RF Spectrum 4 BCH Changing 4 Bit 2 Analog Audio 5 Bit 2 TCH Changing 5 status Decoded Audio 6 STATUS Control Status Changing 6 OPERATION Fast Bit Error Rate 7 ERE hay BS Originating 7 CALL Bit Error 8 BS Disconnecting 8 Q Tuning 9 Dynamic Power 10 GBER 11 125 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview Status Reporting Structure For STATus QUEStionable CALL GSM DATA Register STATUS QUESTIONABLE CALL GSM DATA Extension Bit Attach Failure Detach Failure Routing Area Update Failure Start Data Connection Failure No Data Received Recently Downlink Timed Out Uplink Immediate Assignment Failure Downlink Immediate Assignment Failure MS Unexpectedly Ended TBF End Data Connection Failure Bit 14 STATUS QUESTIONABLE CALL GSM OOnNOOR WD c e 126 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structure For The AMPS Registers STATUS QUESTIONABLE ERRORS AMPS Extension Bit 100 Messages 1 200 Messages 2 300 Messages
38. 9 Trigger Late or Rise Late Indicates that either the rising edge of the DUT s burst was late or due to a late trigger late relative to a transmitted burst the measurement sampling operation didn t start until after the rising edge of the transmitted burst 10 Signal Too Noisy Indicates that the measurement algorithm has found the signal measured to be too noisy to provide accurate results 11 Sync Not Found Indicates that the midamble was not found therefore the measurement was not synchronized 12 Oven Out of Range Indicates that a temperature controlled oven other than the internal timebase oven is outside of its operating range The power meter s oven is checked and its condition reported with this value The internal timebase generates a temporary error message out of lock that is sent to the system error queue and the display This is not an integrity indicator value it is an error message 13 Unidentified Error Indicates errors which are not covered by the other integrity values Examples include parameter errors algorithm memory errors too many measurements measurements unavailable unable to control autorange unable to converge default calibration data used 14 PCM Full Scale Warning Indicates that the PCM signal has reached plus or minus full scale The measurement made will be accurate on the PCM signal but would typically indicate an overdriven or oscillating element in the DUT 15 Questionable Result for PGS
39. Blue indicates a hypertext STATe lt sp gt 1 ON 0 OFF gt link to the command s MO MN d L gt returns 1 0 description table SETup measurement CONTinuous s lt sp gt 1 ON 0 OFF gt SELected me returns 1 0 s ls DIGital136 See Identifier Description gt TA136 below gt TA2000 CDMA ___ 171 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_syntax_book_diagr_convent fm Diagram Conventions Diagram Description Statement elements are connected by lines Each line can be followed in only one direction as indicated by the arrow at the end of the line Any combination of statement elements that can be generated by starting at the Root Element and following the line the direction of the arrow is syntactically correct The drawings show the proper use of spaces Where spaces are required they are indicated by sp otherwise no spaces are allowed between statement elements Complex Command Description A complex command sets the state of the parameter to ON and is used to set a value for that parameter These parameters amplitude frequency gain number time and value can be used as a complex command Refer to the specific command for the parameter that applies Identifier Description Some test applications are able to test more than one radio format There may be commands queries that are shared by more than one radio format in the some of these test
40. CDMA 2000 Mobile Test GSM Mobile Test GPRS Mobile Test null string Programming Example OUTPUT 714 SYSTEM APPLICATION CURRENT NAME SYSTem APPLication CURRent REVision Function Queries the test set for the currently running test application revision number Query Range Any string up to 20 characters including null A typical example would be A 01 01 for a licensed version Programming Example OUTPUT 714 SYSTEM APPLICATION CURRENT REVISION SYSTem APPLication CATalog LICense lt test application name gt lt revision gt Function Query the license status for a selected revision The query must include two strings separated by a comma The test application name and revision must be entered as they appear in the test application Setup menu with the exception that the string is not case sensitive and can be entered in any combination of upper and lower case letters The returned values are e LIC indicates this is a licensed test application e NLIC indicates this is not a licensed test application e PART only part of the test application with multiple radio formats is licensed e UNKN indicates that license status is unknown Query Range LIC NLIC UNKN Programming Example OUTPUT 714 SYSTEM APPLICATION CATALOG LICENSE GSM mobile test A 05 06 414 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma200
41. CDPNOISE QCHANNEL ALL FETCh WQUality CDPNoise QCHannel BIN bin num Function Queries a specific bin on the code domain graph The bars on the graph bins are numbered 0 through 15 starting from the left side of the graph to the right side of the graph This query returns 4 comma separated values Walsh code spread factor noise power and power Query FETCh WQUality CDPNoise QCHannel BIN 0 returns Walsh code spread factor noise power and power for bin 0 Programming Example OUTPUT 714 F Queries the 318 ETCH WQUALITY CDPNOISE QCHANNEL BIN 13 Q channel power in bin 13 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 hpib fetch wquality fm FETCh WQUality FETCh WQUality CDPNoise QCHannel COUNI BIN Function This query indicates how many bins contain measurement data For example if 13 is returned bins 0 through 12 contain measurement data and bins 13 through 15 contain 9 91 E 37 results Query Range 0 to 15 Programming Example OUTPUT 714 FETCH WQUALITY CDPNOISE OCHANNEL COUNT BIN 319 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch wquality fm INITiate Subsystem INITiate Subsystem Syntax Diagrams and Command Descriptions INITiate on page 322 Description INITiate Command Functions The INITiate subsystem is used to e Start activate individual or multiple concurrent measur
42. DDT or a DMC command is syntactically invalid see IEEE 488 2 10 7 6 3 489 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 ts err msg neg100 fm 100 through 199 Error Message Descriptions Error Message Description 184 Macro parameter error Indicates that a command inside the macro definition had the wrong number or type of parameters 490 S Hp8960 E1962B CDMA 2000 3 1 reference guideYXChaptersicdma2000 ts err msg neg100 fm 100 through 199 Error Message Descriptions 100 through 199 Error Message Descriptions Description A device specific error indicates that the instrument has detected an error that occurred because some operations did not properly complete possibly due to an abnormal hardware or firmware condition For example an attempt by the user to set an out of range value will generate a device specific error These are general errors generated by the core instrument When one of these errors is generated the 100 errors bit in the questionable error status register is set Error Message Description 101 Assert Cycle power Assert message lt message1 gt messagel will appear as If the DSP generated the assert P DSP T task ID E error code C error classif gt F1 lt flag 1 gt F2 flag 2 gt If the Protocol processor generated the assert P Protocol T task ID L line number F file name If the Hos
43. Description The RFANalyzer command subsystem performs lower level functions that control the test set s measuring receiver The measuring receiver includes three separate signal paths Power detector Demodulation Measurement Refer to the Block Diagram on page 504 for a description of the signal paths The RFANalyzer commands allow manual settings to the tune frequency or expected power level to each of these paths if it is necessary to override automatic settings Syntax Diagrams and Command Descriptions RFANalyzer on page 333 332 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer_description fm RFANalyzer RFANalyzer RFANalyzer AUTO i poWer RFANalyzer CONTrol MEASurement FREQuency AUTO sp 1 ON O OFF RFANalyzer CW amp EXPected gt POWer RFANalyzer MANual MEASurement gt POWer Diagram Conventions on page 171 gt POWer 4Z AUTO returns num value gt DIGital2000 gt SELected J gt returns 1 0 L gt UPLink s FREQuency s AUTO __s lt sp gt 1 ON 0 OFF gt lt sp gt 1 ON 0 OFF L gt returns 1 0 gt L gt returns 1 0 1DIGital2000 i MFRequency FREQuency returns num value sp
44. SYSTem PRESet SYSTem PRESet SySTem PRESet 1 4 L gt PRESet2 full preset trigger arm continuous N L gt PRESet3 partial preset trigger arm no change Diagram Conventions on page 171 SYSTem PRESet 1 not recommended for use Function Not recommended for use at this time See SYSTem PRESet3 for a recommended partial preset Performs a partial preset This command is intended to be used when changing from remote operation to manual operation and a partial preset is needed Any call in process is disconnected and all measurements are aborted and inactivated Measurement parameters are not changed A partial preset will not modify any measurement settings including trigger arm See Trigger Arm Single or Continuous Description on page 142 Related Topics See Partial Preset on page 116 for more details Programming Example OUTPUT 714 SYSTEM PRESET Partial preset when changing from remote to manual operation SYSTem PRESet2 Function Performs a full preset of the test set This is the remote equivalent of pressing the SHIFT Preset keys on the front panel of the test set All parameters are set to their default values All measurements are aborted the trigger arm is set to continuous See Trigger Arm Single or Continuous Description on page 142 The RST command will set the trigger arm to single Related Topics See Full Prese
45. Setting Range 29 to 85 Resolution integer Query Range 29 to 85 RST Setting 29 12 seconds Programming Example OUTPUT 714 CALL REGISTER TIMER RPERIOD 35 261 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_register fm CALL CELL RFGenerator CALL CELL RFGenerator CALL p gt RFGenerator FREQuency sp num value HZ KHZ MHZ GHZ gt CELL gt returns num value Diagram Conventions on page 171 CALL CELL RFGenerator FREQuency Function Sets queries the RF generator CDMA forward channel frequency If no units are specified the setting defaults to Hz The test set will tune to the frequency entered using this command when the CALL CELL CONTrol DOWNIlink FREQuency AUTO command is set to manual Setting Range 292 MHz to 2700 MHz Resolution 0 1 Hz Query Range 292 MHz to 2700 MHz Resolution 0 1 Hz RST Setting 851 MHz Programming Example OUTPUT 714 CALL CELL RFGENERATOR FREQUENCY 450 MHZ Sets the CDMA forward channel frequency to 450 MHz 262 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_rfgen fm CALL CELL RLGain CALL CELL RLGain CALL RLCain Sp num value y Ls T eCEBB TTPilot m returns num value Diagram Conventions on page 171 CALL CELL RLGain TTPilot Function
46. Step 2 Configure Test Set and Mobile Station Parameters Set Cell Power To set the output power of the test set use the following command Command to Set Cell Power Command Example CALL POW num value CALL POW 75 Active Cell and Test Mode Considerations You can use the CALL POW command to set the cell power in both active cell and test mode However in test mode you may prefer to manually control the output power of the test set using the CALL RFG commands Set Mobile Station Transmit Power In active cell mode use one of the following commands to set the mobile station transmit power level depending upon which test application you are using Commands to Set Mobile Station Transmit Power Command Example CALL MS TXL band mnemonic num CALL MS TXL DCS num value value CALL SET MS channel type CALL SET MS DIG TXL PCS mnemonic TXL band mnemonic num num value value CALL lt channel mnemonic gt MS TXL lt band CALL PDTCH MS TXL DCS mnemonic gt BURS lt num value gt BURS lt num value gt In addition to setting the mobile station transmit level these commands also automatically configure the test set s receiver at the expected input level whether in active cell or test mode However in test mode you must also send the appropriate test mode commands to the mobile station to command it to output at the correct level This is due to the fact that
47. command Setting Range S01 SO2 SO3 SO9 S017 S055 Query Range SO1 S02 S03 S09 S017 S055 RST Setting SO2 for RCONfig1 RCONfig3 and RCONfig4 SO17 for RCONfig2 and RCONfig5 Programming Example OUTPUT 714 CALL CELL SOPTION Queries the service option of the currently selected system type and radio configuration OUTPUT 714 CALL CELL SOPTION SO3 Selects service option 3 for the currently selected system type and radio configuration OUTPUT 714 CALL CELL SOPTION DIGital2000 RCONFIG3 SO3 Sets the service option for the digital 2000 system and radio configuration 3 to service option 3 If this system and radio configuration are not current service option 3 is stored and will be lused when digital 2000 and radio configuration 3 are current 276 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call soption fm CALL STATus CALL STATus CALL STATus returns IDLE PAG CALL CONN STATe 3 L VOICe APR REL HAND REG CELL SYSTem returns DIG2000 CW L gt TYPE T LOOPback returns 1 0 gt CALL STATus TOTal POWer 7 returns num value gt AMPLitude SELected DIGital2000 DIGital95 gt STATe returns 1 0 SELected DIGital2000 DIGital95 gt CALL STATus CELL POWer _s
48. is defined in IEEE Std 488 2 1992 10 32 A full preset is also accomplished using the SYStem PRESet2 command A full preset restores the majority of settings to their default values and sets measurement trigger arm to single SRE The SRE service request enable command is defined in IEEE Std 488 2 1992 10 34 The parameter range for this command is 0 through 255 SRE The SRE service request enable query is defined in IEEE Std 488 2 1992 10 35 Values returned by this query range from 0 through 255 STB The STB read status byte query is defined in IEEE Std 488 2 1992 10 36 Values returned by this query range from 0 through 255 WAI The WAI wait to continue command is defined in IEEE Std 488 2 1992 10 39 The WAI command prevents the test set from executing any further commands or queries until all pending operation flags are false The WAI common command is not recommended for use as an overlapped command See also Obtaining Identification Information IDN 438 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_common fm Manual Operation Manual Operation 439 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters ch_manual_operation fm Manual Operation 440 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters ch_manual_operation fm How Do Make Measurements on a Mobile How Do I Make Measurements on a Mobile
49. lt sp gt 1 ON 0 OFF STATe L returns 1 0 gt LIMit C lt sp gt 1 ON 0 OFF STATe L gt returns 1 0 L gt TIMeout sp num value S MS US NS L gt returns num value Diagram Conventions on page 171 199 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_connected fm CALL CONNected STATe CALL CONNected STATe Function Queries the connected disconnected state of the call A one is returned if the call is in the connected state zero is returned if the call is in the idle disconnected state If the call is in any state other than connected or idle the query will hang until the call state transitions to the connected or idle state When used in conjunction with the CALL CONNected ARM and CALL CONNected TIMeout commands the CALL CONNected STATe command allows the control program to synchronize to call connection disconnection See Connected Idle Query and Call State Change Detector Query Range 0 1 RST Setting 0 Programming Example OUTPUT 714 CALL CONNECTED STATE returns 1 if call is connected 0 if call is idle CALL CONNected ARN IMMediate Function Sets arms the call state change detector Arming this detector allows the control program to tell the test set that it is expecting a change in the state of a call prior to initiating the state change Once armed the detector remains armed until there is a call s
50. sets the forward pilot channel PICH level and 2 turns the PICH state to ON The query form returns the PICH level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 0 to 10 dB Resolution 0 01 dB Query Range 0 to 10 dB Resolution 0 01 dB RST Setting 7 dBm Programming Example OUTPUT 714 CALL PILOT SLEVel 10 Sets the cell pilot state to ON and sets the level to 10 dB 247 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_pilot fm CALL PILot CALL PILOT LEVel SELected Function Sets queries the forward pilot channel PICH level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 0 to 10 dB Resolution 0 01 dB Query Range 0 to 10 dB Resolution 0 01 dB RST Setting 7 dB Programming Example OUTPUT 714 CALL PILOT LEVEL 10 CALL PILOT STATe SELected Function Sets queries the forward pilot channel PICH state The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 1 ON O OFF Query Range 1 0 RST Setting 1 on Programming Example OUTPUT 714 CALL PILOT STATE OFF 248 S Hp8960 E196
51. 0c cece eee eee ees 497 Decr A O erinra 6 eh mede CE a a eR 497 500 through 599 Test Application Hardware Device Specific Error 500 DORR 6 nob eS EN SOE OP ORNATE ES HOO SER Ea E dq dd ER KA 500 600 through 699 Error Message Descriptions 000 cece eee eee ee ees 501 eh a our bebe hada we Oe arr ieee eee Seid aoe ee 501 700 through 799 Error Message Descriptions 00 cc cece eee eee eens 502 RTT Tende irr NR A RE ER ETO YT TTL Re ee a eee E E ES 502 800 through 899 Error Message Descriptions 0 ccc cece eee eens 503 HT sut hl REEL TET TOT ETE OTT TITO TS TITIO 503 Block Diarani eel nh ETT RETRO TOT T OTI TTE a E 504 27 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm LISSE uus A dox OH dA RR SER CR ORC 95S 859099 OS NEU o C dr 504 Forward Channel Description usc sare dee e oe e aH ae SHARON ONAL cs 510 DESC acusa 4 ded edili ded Oed S dd ee se a ded did d edid ee ee 510 Data ee no ke es ee EOE 510 Closed Loop Power Control es eue 0 dx e ed x CHI eor P dpa d UR OR eee es a 511 Confisuration ses aded xod x heroe ac s dX ar V Rd r er car iab 513 Obtaining Identification Information IDN 0 0c ee eee 515 Depp 4 25 65 6 8666954 SE RESID ES OOS FG SHEE OS CO EER CARI ae eas 515 err Ve PPP a OE bead Wh EAL rr E 515 Hardware Configuration Report 0 0 0 eee eee e eens 516 De nk who eh ee rrr TT 516 Kelated TODO S 66 kad dus 30s RARE ER
52. 1 reference guideXChaptersicdma2000 prog generic step5 ac fm Step 6 Reconfigure Test Set and Mobile Station Connection Parameters Step 6 Reconfigure Test Set and Mobile Station Connection Parameters The following information provides additional details on Step 6 of the Programming Flowchart This information is applicable to all test applications Description After performing a set of measurements on the mobile station using the configuration established in step 2 you may want to change this configuration and test the mobile station again This step involves changing testing conditions such as channel mobile station transmit power level or cell power Contents e Change Channels e Change Other Connection Parameters Change Channels In a manufacturing environment it is common to test a mobile station on more than one channel Some or all of the tests may be performed on multiple channels to verify the mobile station s performance in a range of operating frequencies Perform a Handoff Handover in Active Cell Mode If you are operating in active cell mode to change channels you perform a handoff handover to the new channel The control program sends the commands to initiate the handoff handover and then determines whether the transition was successfully completed This is accomplished using the CALL STATus query The CALL STATus query immediately returns the state of the call at the time the query is
53. 1 through 20 are listed in the RF IN OUT Amplitude Offset Setup menu When any of the 20 offsets are manually set to On the RF IN OUT Amplitude Offset State and the associated frequency state are also set to On Points Remote users can query the test set to determine the number of offsets that are in the On state OUTPUT 714 SYSTEM CORRECTION POINTS Query returns the number of frequencies that have their loffset states set to On RF IN OUT Amplitude Offset The offset values allow the test set to represent the RF level at the DUT Transmitter Example When you set transmit power level the test set uses the amplitude offset value to adjust the power so that the power at the DUT will match the transmit power setting With the test set s transmit power set to 85 dBm the RFIN OUT Amplitude Offset State set to On and a 3 dB offset at some frequency The power transmitted from the test set will be 82 dBm the 3 dB loss in the network means that the DUT will be see 85 dBm 47 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 conf meas fm Measurement Related Configuration Figure 1 Amplitude Offset Transmitter Example Agilent 8960 Transmit Power setting 85 dBm gt AAA C DUT Amplitude offset 2 3 dB 3 dB network bidirectional Instrument Plane DUT Plane Power 82 dBm Power 85 dBm The transmit power setting reflects the power at the DUT plane
54. 1990 EN 55011 1991 AkV CD 8kV AD IEC 61000 4 2 1995 A1 1998 EN 61000 4 2 1995 3 V m 80 1000 MHz IEC 61000 4 3 1995 EN 61000 4 3 1995 0 5V signal lines 1kV power lines TEC 61000 4 4 1995 EN 61000 4 4 1995 0 5 kV line line 1 kV line ground TEC 61000 4 5 1995 EN 61000 4 5 1995 3V 0 15 80 MHz IEC 61000 4 6 1996 EN 61000 4 6 1996 1 cycle 100 IEC 61000 4 11 1994 EN 61000 4 11 1994 Safety IEC 61010 1 1990 A1 1992 A2 1995 EN 61010 1 1993 A2 1995 Canada CSA C22 2 No 1010 1 1992 Supplemental Information 11 The product was tested in a typical configuration with Agilent Technologies test systems 14 December 2000 Rieke R M Evans Quality Manager 14 December 2000 MARAL W V Roland Reliability amp Regulatory Engineering Manager For further information please contact your local Agilent Technologies sales office agent or distributor Authorized EU representative Agilent Technologies Deutschland GmbH Herrenberger StraBe 130 D71034 Boblingen Germany 10 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E 1962 9001 7titlepage fm DECLARATION OF CONFORMITY According to ISO IEC Guide 22 and CEN CENELEC EN45014 Manufacturer s Name Manufacturer s Address Declares that the product Product Name Model Number Product Options Agilent Technologies UK Ltd Electronic Products amp Solutions Group Queensferry South Queensferry West Lothian EH30 9TG Scotland United Kingdom Agilent Tec
55. 20 0 cee ee eee 452 A Configure instrument information and setup 0 ccc cece eee eee 452 B Set ampht ude offs tS uad ck due dod dee eee ROEUREdARESA E AUR RR ER dE RR Reda 452 L Check message IE usse eee ac Y debo EE eS db dd e deb EC EE ded 453 How Do I End a Call sis datos cw ene ot stus RU ea d Parc x acd SON ARE gae a i ae Ye 454 Front Panel Connectors sss RZ EXAa a 3X G4 EAE EX DE AUR OR ACER OR ER ECRU RURCN 455 25 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm LOSS pgs dedi 4 Xd d A ARAS dX ER OO HS 4 GU d ONCE a SICH CU de doi 455 Rear Panel Connectoress uri 2 eu dea a maraa aa eiwd rc GC e Ra HR RU RE RU S 457 Be se ee re ee ee ee cdi del eee ee Ero cd edet d 457 Remote Local ModB iussa 22 eee hee Rn RR n ea oe Poe E aca dox a ea o 461 Deer 452534 9 4 X IY EGRE VY E COE CERE Yd EN VOCE 461 Instrument Status Area a eu sacare d eR RC RR GC C nies La de al RR RAD beg ewe na 462 LESTIE cud wk A E IEROR E EE I E 853 OS Heo ad E Paca E o IC 462 Troubleshootng 455 24 9 nh RR 99 99A 84 HO AC RR Ro 9s A OE OOO RC RC 465 Access Probe Power Troubleshooting eee 467 Possible Setup Issues 1 2 3919 0 9 d tud rinn o ROS ERA eo Qe OR qd die 467 Interpreting Integrity Indicator values 0 0 eee eee eee 467 Related Topics ae as ee ee Sa eee aes ETT Sek ae ei eee eee ee 467 Channel Power Measurement Troubleshooting llle 468 Possible Setup INED 11 dirae
56. 4 02 05 BOOT PROTOCOL BOOT ROM REV MOM PROTOCOL BSP 1 7 DSP BOOT ROM REV 4 00 01 516 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_hw_report fm GPIB Query Use the following Basic example as a model to store the test set s configuration as an HTML file DIM Buf1 20000 Bu 2 20000 Hardware Configuration Report This is the minimum space for the arrays OUTPUT 714 SYSTEM CONFIGURE INFORMATION HARDWARE VERBOSE ENTER 714 Buf1 Buf2 le TO HW htm le Buf1 Buf2 GPIB Example 10 20 30 40 CREATE HW htm 1 50 ASSIGN Fil 60 OUTPUT Fil 70 END Create an HTML file In the future the hardware configuration report may increase in length More space would then need to be allocated for the arrays Display the HTML file using a web browser or HTML text editor Related Topics SYSTem CONFigure INFormation HARDware VERBose on page 420 Obtaining Identification Information IDN on page 515 517 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_hw_report fm Revision Information Revision Information This document describes features and functionality that are part of the Agilent Technologies E1962B cdma2000 Mobile Test Application releases This document contains the original features as well as enhancements that have been added over time Select the appropriate link below to view the required release e B XX release
57. 50 OUTPUT 714 INIT TXP PFER 60 END The example shown is from the E1960A GSM test application Commands the test set to perform a traffic channel handover and execute two setup commands After the two setup commands have finished the WAIT command is sent to prevent the test set from executing the INITiate command until the handover is finished 160 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync callpro fm Table 7 Overlapped Commands Call Processing Event Synchronization Command Purpose Of Command Example OPComplete Places a 1 in the test set s output queue when the associated command s pending operation flag goes false Controlling program hangs on this query until the 1 is retrieved 10 OUTPUT 714 CALI 20 OUTPUT 714 SETUP TXP CONT OFF 30 OUTPUT 714 SETUP PFER CONT OFF 40 OUTPUT 714 CALI 50 ENTER 714 Op complete 60 OUTPUT 714 INIT TXP PFER 70 END The example shown is from the E1960A GSM test application Commands the test set to perform a traffic channel handover and execute two setup commands After the two setup commands have finished the OPC command is sent to hang program execution until a 1 is put in the test set s output queue satisfying the ENTER statement and allowing program execution to continue with the INITiate command L TCH 65 L TCH OPC Operating Considerations When using the call processing subsy
58. CDMA 20003 1 reference guideXChapterscdma2000 hpib call fchannel fm CALL FCHannel CALL FCHannel LEVel SELected Function Sets queries the level of the forward fundamental channel FCH The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Setting Range 0 to 30 dB Resolution 0 01 dB Query Range 0 to 30 dB Resolution 0 01 dB RST Setting 15 6 dB Programming Example OUTPUT 714 CALL FCHANNEL LEVEL SELECTED 10 dB 209 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call fchannel fm CALL FCHannel CALL FCHannel STATe SELected Function Sets queries the on off state of the forward fundamental channel FCH The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Setting Range 1 ONJO OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL FCHANNEL STATE DIGITAL2000 OFF ITurns off the forward fundamental channel CALL FCHannel WALSh
59. Digital2000 errors applicable to only the IS 2000 System Type e Digital95 errors applicable to only the IS 95 System Type When one of these errors is generated the 200 errors bit in the questionable error status register is set Table 9 TA2000 Call Processing Errors Error Message Description 271 Release order not received 272 Handoff completion not received 273 Carrier not detected on new channel 274 MS reject order received reason 275 Unexpected message received and ignored Table 10 CDMA Call Processing Errors Error Message Description 270 Traffic channel preamble not received 271 MS ack of initial BS ack order not received 272 MS ack order not received 273 Service Option or Radio Configuration rejected by MS 274 Service response not received 275 Service request not received 276 Service connect completion not received 277 Call drop timer timed out 278 Status response not received 494 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos200 fm Table 10 CDMA Call Processing Errors Continued 200 through 299 Error Message Descriptions Error Message Description 279 Walsh code cannot be changed while a call is connected 280 PN Offset cannot be changed while a call is connected Table 11 Digital2000 Call Processing Errors Error Message Description 270 F SCH assi
60. E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call rconfig fm CALL REGister CALL REGister CALL REGister Loss DONE s returns 1 0 OPComplete returns 1 SEQuential Voy vov WAIT lt sp gt lt num value eee gt returns num value Ls TIMer Complex Command I RPERiod lt sp gt lt num value gt Li returns num value L gt STATe ____s lt sp gt 1 ON 0 OFF Mn returns 1 0 Diagram Conventions on page 171 259 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 hpib call register fm CALL REGister CALL REGister IMMediate Function Generates a zone based forced registration Programming Example OUTPUT 714 CALL ORIGINATE CALL REGister IMMediate DONE Function See Call Processing Event Synchronization Query Range 1 0 Programming Example OUTPUT 714 CALL ORIGINATE DONE CALL REGister IMMediate OPComplete Function See Call Processing Event Synchronization Query Range 1 Programming Example OUTPUT 714 CALL ORIGINATE OPCOMPLETE CALL REGister IMMediate SEQuential Function See Call Processing Event Synchronization Programming Example OUTPUT 714 CALL ORIGINATE SEQUENTIAL CALL REGister IMMediate WAIT Function See Call Processi
61. ET EEE E 475 26 S Hp8960 E1962B CDMA 2000 3 1_reference_guide e1962 90017_bookTOC fm Error Messare DOE La duco ode ee Ede edo CR Re de CR E oe X p CR S CR 476 elt a a E do OEEOEERUP EO PIRE PERO KU E mee ee eee 476 o diro NENQTETTETIQITQO III TITOLI ITI eed ye Hose eee eens 476 Fixed Timer Messap6e uu a ee dead RR ret ere urd ees GAS hate o oss ege a a S 477 HB cor 6 vee hese Beck nd Enn eO T TREE ATT Manual User Error Messages llle rn 480 IEEE Lo Erb RICEE FECE SHOR SEGA EEE EAR EEE eh EI 480 400 through 499 Error Message Descriptions 00 cece eee eee eee ees 481 IDE E ha he ik Pea e cde EC 481 300 through 399 Error Message Descriptions 0000 cece eee eee eens 482 B DM ee ee ee RS PRESE eee ee ee a ee ee res 482 200 through 299 Error Message Descriptions 00 cece eee eee eee ees 484 B a e 6655 hE S ERROR SEE E E Oe CERE OEEA E Id 484 100 through 199 Error Message Descriptions 00 0c cece eee eee eee ees 487 LORD x icedona Y 3a eee NOR ew Ede Jen es a CREER D 487 100 through 199 Error Message Descriptions 00 ccc eee e eee eee ees 491 hse hss ansia Re ee en ee er eee ee ee ee eee ee ee AR ERR 491 200 through 299 Error Message Descriptions 00 ccc cece eee eee ees 494 es od ro ROG cod da EEE EO E REN UO ee 494 300 through 399 Link Control Device Specific Error 0 0 cee eee 496 400 through 499 Error Message Descriptions
62. Ede CREE ERES DER a eee Ek 38 Frequency Stability Measurement Description 0 0 eee eee eee 39 How is a frequency stability measurement made llle 39 Operatmg T UEM a iiq23CEOHEERERCICEPRERDPPEXA EE ERE PEOR RE ADU THER 39 Input Signal Requisenents g saaus asked d CIO CR ORO EX RR Reed Y ha E OR 39 Worst Case Freguency Error used dA boeken pb REY kird Add dene ER EP T qESRA E 39 THOSE aida dep dura EE E AP da deed ed di dd ee 39 Teele TOPi i3 ordi d A ee n EH EE ACE eer ERA Lb CR ees 39 Waveform Quality Code Domain Measurement Description 00000e 40 How is a Waveform Quality Code Domain Power measurement made 40 Input Signal Requirements ao kORX Gd Rx dU CREE d A dX REG d Nac ccc doo aca OR 41 Tee ee TONER 65 55 454 eae QI E Up P RE edd dq X Eh EE aid dd dc e 41 Test Adherence to Standards 0 ccc eee eee e 42 Standards Table TP 42 Measurement Related Configuration cele 45 LORIE acris ikud oe A CE EX CREE Rock dp 3 ARR EE EG RE bbc 3 43 dod Eee 45 15 S Hp8960 E1962B CDMA 2000V3 1 reference guideYe1962 90017 bookTOC fm Related TopitS i a oh ee eo LOT T D DU OT T TUTTI 48 Call Processing issu ERRARE EORR 64 OS OHS EER ENS OE ORE ORR HEROES 49 Active Cell Operating Mode 0 0 ccc eee hen 50 Pe Cel a L1 ab GA ERR ERA o EAR AC ede e RR E AGA ASA OO 50 ee ee TOs Loa dub he ih EQ EA RR heed C ead ed ee dir Ue Eo ie o ird 50 Test
63. GPIB regardless of the multi measurement state Triggering Triggering is always immediate for this measurement Trigger Delay and other trigger sources are not used Related Topics READ Subsystem SETup FSTability INITiate FETCh FSTability Receiver Control Test Adherence to Standards 39 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_fstab_desc fm Waveform Quality Code Domain Measurement Description Waveform Quality Code Domain Measurement Description How is a Waveform Quality Code Domain Power measurement made Each waveform waveform quality measurement returns a number of measurements which includes rho the percentage of signal energy that correlates with a perfect IS 2000 signal after time offset and frequency error have been removed This measurement is designed to analyze signals that may be made up of multiple code channels as in the case of radio configurations three and above Any time a call is connected waveform quality measurements can be made Any combination of service option radio configuration or data rate can be measured Waveform quality measurements are made by sampling the down converted input signal then applying DSP Digital Signal Processing techniques to determine the original data input to the mobile station transmitter s Walsh spreading function for each channel The DSP then generates a representation of what the ideal sign
64. IN OUT Amplitude Offset State to On 429 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_correction fm SYSTem CURRent TA SYSTem CURRent TA SYSTem CURRent gt TA gt 1MODel returns string NAME returns string gt REVision returns string Diagram Conventions SYSTem CURRent TA MODel Function Queries the model number of the test application running Printable ASCII characters up to a 15 character string Query Range ASCII codes 32 126 decimal excluding comma and semicolon RST Setting non volatile read from the test set s hard disk SYSTem CURRent TA NAME Function Queries the name of the test application running Printable ASCII characters up to a 25 character string This command is not recommended see SYSTem APPLication CURRent NAME Query Range ASCII codes 32 126 decimal excluding comma and semicolon RST Setting non volatile read from the test set s hard disk SYSTem CURRent TA REVision Function Queries the coordinated codeware revision for the test application running Printable ASCII characters up to a 20 character string This command is not recommended see SYSTem APPLication CURRent REVision Query Range ASCII codes 32 126 decimal excluding comma and semicolon RST Setting non volatile read from the test set s hard disk 430 S Hp89
65. INITiate DONE command returns the string NONE indicating that all initiated measurements have gone through the measuring state see Measurement States on page 142 320 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_initiate_description fm INITiate Subsystem NOTE Trigger arming for each measurement is controlled in the SETup subsystem The choices are 10 20 30 40 50 single or continuous The best practice during remote operation is to use single measurement mode This simplifies the tasks of starting concurrent measurements then using the INIT subsystem commands to determine which measurements are ready to be FETChed OUTPUT 714 SETup ALL CONTinuous OFF selects single trigger mode OUTPUT 714 INITiate DAPower WQUality starts digital average power and waveform accuracy measurements LOOP OUTPUT 714 INITiate DONE query to find out if any measurements are done 60 ENTER 714 Meas completeS 70 SELECT Meas completeS 80 CASE DAP tests for the string DTXP indicating digital average power measurement is done 90 OUTPUT 714 FETCh DAPower POWer Queries average digital TX power measurement 100 110 120 130 140 150 160 170 180 ENTER 714 Dtxpower CASE WQU tests for the string WQU indicating that the waveform quality measurement is done OUTPUT 714 FETCh WQU RHO Queries rho ENTER 714 rho END SELECT EXIT IF Meas complete NONE END LOOP END
66. L gt returns lt string gt m gt MNCode gt gp lt string gt L gt returns lt string gt Ls MSINumber gt lt sp gt lt string gt L gt returns lt string gt gt CALL gt PAGing gt LEVel lt sp gt lt num value gt DB SELected L gt returns num value gt DIGital2000 gt SCINdex A lt sp gt lt num value gt MAXimum p returns num value gt LS STATe lt sp gt 1 ON 0 OFF gt SELected L gt returns 1 0 gt DIGital2000 Diagram Conventions on page 171 243 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_paging fm CALL PAGing CALL PAGing SLEVel SELected Function The setting form of this command performs two functions 1 sets the forward paging channel PCH level and 2 turns the PCH on off state to ON The query form returns the PCH level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 0 to 20 dB Query Range 0 to 20 dB NAN RST Setting 12 dB Programming Example OUTPUT 714 CALL PAGING SLEVEL SELECTED 10 CALL PAGing DRATe Function Sets queries the forward paging channel PCH data rate Setting Range FULL HALF Query Range FULL HALF RST Setting FULL Programming Example O
67. Limit Mode feature On key F10 in Call Parms 2 of 3 screen For the GPIB command syntax see CALL CONNected LIMit STATe To measure only the first access probe and prevent triggering on subsequent access probes set Trigger Arm in the Access Probe Power Setup menu to Single and press the START SINGLE hardkey When the mobile station registers and access probe power measurement will likely be triggered Registrations can occur on mobile station power up which is a function of the mobile station s programming Registrations may be requested by the test set at pre determined time intervals which will periodically cause the access probe power measurement to update To control timer based registrations access the Registration Parameters menu see C Set registration parameters For GPIB syntax information on timer based registrations see CALL REGister 32 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 meas accprobe desc fm Access Probe Power Measurement Description Input Signal Requirements See Input Signal Requirements Related Topics CALL CELL APARameter SETup CAPPower INITiate FETCh CAPPower READ ABORt Channel Power Measurement Description Test Adherence to Standards 33 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_accprobe_desc fm Channel Power Measurement Description Channel Power Measurement
68. OPERation NMRReady DIGital2000 STATus gt OPERation NMRReady TA2000 gt reads event register gt EVENt 3 m gt CONDition reads condition register gt ENABle Sp num value writes to enable register reads enable register NTRansition sp num value writes to Negative Transition Filter register gt reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register gt gt reads Positive Transition Filter register gt reads event register gt Diagram Conventions on page 171 370 S EVENt m gt CONDition reads condition register gt ENABle sp num value writes to enable register gt reads enable register NTRansition sp num value writes to Negative Transition Filter register reads Negative Transition Filter register gt PTRansition gt lt sp gt lt num value writes to Positive Transition Filter register gt reads Positive Transition Filter register S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation Register Bit Assignments STATus OPERation The OPERation status register set contains bits which give an indication of conditions tha
69. OUTPUT 714 CALL D2KTEST EIRPOWER MAXIMUM 2 Sets the mobile station max EIRP to 2 dBW 204 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_d2ktest fm CALL D2KTest CALL D2KTest ESNumber HEX Function Sets queries the test mode ESN Electronic Serial Number Setting Range Up to eight characters containing alphanumerics 0123456789ABCDEF or NULL Query Range String of up to eight characters containing alphanumerics 0123456789ABCDEF or NULL RST Setting 00000000 Programming Example OUTPUT 714 CALL D2KTEST ESNUMBER HEX ABCD1234 Sets the mobile station s ESN to ABCD1234 CALL D2KTest QPCHannel INDicator PAGing Function Sets queries the QPCH Quick Paging Channel paging indicators Setting this parameter to ALL1 will cause the slotted mode mobile station operating in the idle state to monitor the paging channel during each assigned slot When this parameter is set to ALLO the mobile station will not monitor the paging channel Note QPCH configuration change indicators are not settable The test set will always transmit configuration change indicators as 0 bits Setting Range ALLO ALL1 Query Range ALLO ALL1 RST Setting ALLO Programming Example OUTPUT 714 CALL D2KTEST QPCH IND ALLO Sets the paging indicators to O off 205 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call d2ktest fm
70. OUTPUT 714 SETUP WQUALITY COUNT SNUMBER 5 ITurns on multi measurements and sets the number of measurements to 5 SETup WQUality COUNt NUMBer Function Sets queries the number of waveform quality measurements to be made when the multi measurement state is ON Setting Range 1 to 999 Query Range 1 to 999 RST Setting 10 Programming Example OUTPUT 714 SETUP WQUALITY COUNT NUMBER 5 ISets the number of measurements to 5 when the multi measurement state is set to ON 362 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup wquality fm SETup WQUality SETup WQUality COUNt STATe Function Sets queries the multi measurement state of the waveform quality measurement Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP WQUALITY COUNT STATE ON ITurns on multi measurements SETup WQUality TIMeout STIMe Function The setting form of this command performs two functions 1 sets the waveform quality measurement s timeout value and 2 sets the waveform quality measurement s timeout STATe to 1 on The query form returns the waveform quality measurement s timeout value Setting Range 1 to 999 seconds Resolution 1 second Query Range 1 to 999 RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP WQUALITY TIMEOUT STIME 5S Sets timeout state to ON
71. POWER Verify that the product is set to match the available line voltage the correct fuse is installed and all safety precautions are taken Note the instrument s external markings described under Safety Symbols 3 S Hp8960 E1962B CDMA 2000V3 1 reference guide WE 1962 9001 7titlepage fm 4 S GROUND THE INSTRUMENT To minimize shock hazard the instrument chassis and cover must be connected to an electrical protective earth ground The instrument must be connected to the ac power mains through a grounded power cable with the ground wire firmly connected to an electrical ground safety ground at the power outlet Any interruption of the protective grounding conductor or disconnection of the protective earth terminal will cause a potential Shock hazard that could result in personal injury FUSES Only fuses with the required rated current voltage and specified type normal blow time delay etc should be used Do not use repaired fuses or short circuited fuse holders To do so could cause a shock or fire hazard DO NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE Do not operate the instrument in the presence of flammable gases or fumes DO NOT REMOVE THE INSTRUMENT COVER Operating personnel must not remove instrument covers Component replacement and internal adjustments must be made only by qualified service personnel Instruments that appear damaged or defective should be made inoperative and secured against unintended operation unti
72. POWer SELected to meet Specifications Related Topics READ Subsystem SETup WQUality INITiate FETCh WQUality Test Adherence to Standards 41 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_wquality_desc fm Test Adherence to Standards Test Adherence to Standards This document refers to the 3GPP2 C S0011 A IS 2000 standard a version of IS 98 D Standards Table This table is organized by Standard number For more information about the measurements refer to the Measurements section Function Sets queries the trigger arm state for the digital average power measurement The trigger arm state determines whether the digital average measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP DAPOWER CONTINUOUS ON Sets measurement to single trigger mode Function Sets queries the trigger arm state for the digital average power measurement The trigger arm state determines whether the digital average measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off
73. Phase Error N Pd Magnitude Error Z T zz channet Continugus 988 0 I ji Close FCH Service A fenu Option Setup y T Backoround Jnctive cell is Type 15 2000 7 Connected Lan 10f2 inther I I 10f3 Waveform Quality Setup Protocol Rev 6 Gs 2000 Trigger Arm leasurenent 1 Radio Config XFud3 Rus3 801 Echo 1 Press the measurement setup F1 key 2 Highlight a parameter and press the knob 3 Enter a value or selection and press the knob NOTE For statistical measurement results change the Multi Measurement Count parameter from Off to a number 1 4 Press the Close Menu F6 key 443 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen op overview meas setup fm How Do I Turn Off a Measurement How Do Turn Off a Measurement Close Tleasurement Close Nenu E Background Measurement Instrument Screen Digital Average Power Digital Average Power 14 32 con Measurement Selection wm Access Probe Pouer Channel Pouer Digital Average Pouer E Handoff Waveform Quality Juaveform Quality Code Domain Frame Error Rate Active Cell 1 Press the MEASUREMENT SELECTION key 2 Use the knob to highlight the measurem
74. Ready Condition Register Sets New IReady Enable Regigter t 4 Ifor bi Sets the New IReady Negative for New IRegister Sets the 4 Measurement Results Measurement Results Transition bate 1 Measurement IResults Ready Positive ITransition Register Ifor bit 2 STATus OPERation NMRReady AMPS Condition Register Bit Assignment The STATus OPERation N MRReady AMPS register bits indicate when a measurement has been completed and new measurement results are available Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 377 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation Bit Binary Condition Description Number Weighting d 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This
75. Return F12 key 453 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen op overview sys config fm How Do End a Call How Do I End a Call Call Control ae Operating Node Active Cell Susten Tupe 15 2000 End Call Paging IMSI Setup y Handoff Setup y Call Setup Screen Active Cell Operating Mode Call Parns Cell Pouer zam ESN ex OxE95ED1B6 dBm 1 23 hz ESN Decimal 3915305398 Cell Band ncc u50 US Cellular me TsIN 0113003000 eee Slot Class Slotted Slot Cucle Index 2 00 3 Protocol Revision 6 15 2000 Reu0 Band Class Protocol Rev NS Operating lode 5 18 2000 Max EIRP BLD Registration Tupe Pouer Up Radio Contig PCH Supported Yes Fud3 Rusa Enhanced RC Support Yes S01 Echo Min Power Control Step Unknoun TS Called Party Humber 123456 FCH Service Option Setup y active Cell Sus Tupe 15 2000 Connected intret 1of3 10f2 1 Press the CALL SETUP key 2 Press the End Call F3 key or end the call from the mobile 3 Check for Idle in the Active Cell status field 454 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_end_call fm Front Panel Connectors Front Panel Connectors Description DATA ENTRY Be SET RF IN OUT BD OW eo
76. SLEVel Complex Command LEVel STATe L S WALSh Diagram Conventions on page 171 CALL FCHannel SLEVel SELected Sp num value gt DB I IX gt SELected L returns num value gt DIGital2000 lt sp gt lt num value DB gt SELected returns num value gt DIGital2000 _ lt sp gt 1 ON 0 OFF gt SELected ___ returns 1 0 gt DIGital2000 lt Sp gt CODE10 CODE14 CODE26 CODE30 CODE301 CODE42 CODE46 CODE58 CODE62 gt returns CODE10 CODE14 CODE26 CODE42 CODE46 CODE58 CODE62 keyword Function The setting form of this command performs two functions 1 sets the forward fundamental channel FCH level and 2 turns the FCH state to ON The query form of this command returns the FCH level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected Setting Range 0 to 30 dB Resolution 0 01 dB Query Range 0 to 30 dB Resolution 0 01 dB RST Setting 15 6 dB Programming Example ISets the forward fundamental channel OUTPUT 714 CALL FCHANNEL SLEVEL DIGITAL2000 10 dB State to ON and sets the level to 10 dB 208 S Hp8960 E1962B
77. Sets queries reverse link traffic to pilot level RLGAIN_TRAFFIC_PILOT gain RLGAIN_TRAFFIC_PILOT is sent in an overhead message to the mobile station and is used by the mobile station to adjust the reverse channel traffic channel level relative to the reverse channel pilot This parameter applies only when the current radio configuration is greater than 2 Each integer translates into a 1 8 dB step Setting Range 32 to 31 Resolution integer Query Range 32 to 31 Resolution integer RST Setting 0 Programming Example OUTPUT 714 CALL CELL RLGAIN TTPILOT 8 263 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_rigain fm CALL SCHannel CALL SCHannel CALL 2 SCHannel lt sp gt lt num value DB gt 5 SLEVel SELected returns num value s DIGital2000 Complex Command gt ENCoder lt Sp gt TURBo CONVolution M returns TURB CONV gt LEVel lt sp gt lt num value DB gt SELected s returns num value DIGital2000 s STATe s lt sp gt 1 ON 0 OFF i gt SELected L gt returns num value J DIGital2000 gt CALL 8CHannel gt DRATe gt RCONfigl s lt sp gt BP 9600 BPS19200 BPS38400 BPS76800 BPS153600 gt ho de string gt RCONfig2 s lt sp gt BPS14400 BPS28800 BPS57600 BPS11520
78. Setting Range 1 Hz to 20 kHz Resolution 0 1 HZ Query Range 1 Hz to 20 kHz Resolution 0 1 Hz RST setting 1 kHz Programming Example OUTPUT 714 AFGENERATOR FREQUENCY 1000 Sets the audio generator frequency to 1000 Hz 177 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_afgenerator fm AFGenerator AFGenerator PULSe STATe Function Sets queries the audio generator pulse state The pulse state must be on when the test set s audio generator is used for audio stimulation during a decoded audio measurement When the state is on the audio signal from the test set is pulsed at a 10 Hz rate with a 5096 duty cycle Setting Range 0 OFF 1 ON Query Range 0 1 RST setting 0 off Programming Example OUTPUT 714 AFGENERATOR PULSE ON Sets the audio generator pulse to ON AFGenerator VOLTage SAMPlitude Function Sets queries the amplitude of the audio generator in volts and turns the state to on The units V mV are optional If no units are specified then units default to V Setting Range 0 to 9 V pk Resolution 0 5 mV pk lt 1 V pk output 5 mV pk 1 V pk output Query Range 0 to 9 V pk Resolution e 0 5 mV pk lt 1 V pk output 5 mV pk 1 V pk output RST setting 0V Programming Example OUTPUT 714 AFGENERATOR VOLTAGE 2 1 Sets the state to on and the output
79. The GPIB address is not affected by any reset operation and can only be changed by direct access to the parameter itself Related Topics SYSTem COMMunicate on page 421 527 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 conf gpib fm Test Application Switching Test Application Switching Description Different radio formats such as GSM AMPS CDMA 2000 or TIA EIA 136 can be tested when the optional test applications are purchased from Agilent Technologies The test set allows you to select a different test application and switch to it a reboot makes the test application functional The reboot will happen automatically when the you tell the test set to switch test applications Switching to another test application takes about one minute Some radio formats are combined as fast switching test applications Switching formats in a fast switching test application takes less than 2 seconds Test Application Switching GPIB Command In order to switch to another test application use this GPIB command OUTPUT 714 SYSTEM APPLICATION SELECT NAME GSM MOBILE TEST Sending this command causes the test set to reboot Test Application Revision and Licensing Each test application must have a valid license and revision to function Licensed revisions of test applications are available from Agilent Technologies It may take several seconds before revision model and name information is returned Test Applic
80. Topics Reading Error Messages 147 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_gen_integrity fm Measurement Progress Report Measurement Progress Report Description The measurement progress report is a query of how far along a multi measurement cycle has progressed When the multi measurement count is greater than one the measurement progress report will indicate the number of measurements that have completed The returned value will be the last update and not the actual number because the value is updated periodically and not for each multi measurement cycle Every measurement has the measurement progress report available Example OUTPUT 714 FETCH DAPOWER ICOUNT Returns the approximate number of Imulti measurement cycles completed during a Imulti measurement count cycle Related Topics Statistical Measurement Results 148 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog meas progress fm Concurrent Measurements Concurrent Measurements Description A number of measurements can be initiated with the INITiate command while other measurements are being made and the test set will perform as many operations simultaneously as its architecture allows This technique is referred to as concurrency Performing measurements concurrently can greatly improve test throughput Operating Considerations The test set has three parallel signal paths to impr
81. an Access Probe Power measurement made 0 00 cee eee ee eee 32 Considerations when making Access Probe Power measurements 32 Input Signal Reguiremenis i2 22143 44 24 03x X 4 oe HAE uir en EE es 33 Related Topics oh ee dA ak eR ER es OS b dede oe ee t cea dE dea 33 Channel Power Measurement Description 0 0 00 cece eee eens 34 How is a Channel Power measurement made 0 00 c eee eee eee ees 34 Channel Power Measurement Calibration 0 ccc cece eens 34 Channel Power Measurement Speed 0 0 c cece eee ee eee eee e eee 34 Input Signal Requirements 224da dades ee or R bee A RR ACE do cR EORR CR uo ox doo 34 DENT TUN 5 oa echo ache a EE SEI IH dE Enea ee as 35 Digital Average Power Measurement Description llle ees 36 How is a Digital Average Power measurement made lesus 36 Digital Average Power measurement characteristics 0 0 0 0 ee eee eee eee 36 Input Signal Bodl Poniente 6 5 6 54 6 5696 d RE REE OE REESE DREADED aO d d EOS 36 Foara TOR 4225441243 HE dob ERO dt bee EAE A odes ees te ek De dd ed qd 36 Frame Error Rate Measurement Description 0 0 0c e eee eee eee eee 37 How is an FER frame error rate measurement made 0 000 eee eee 37 Confidence Level Description 6 46 4545660 60 hea 6645 O55 FORESTER EA SORE OE SES ER 37 Inp t Signal Reguiremenis cea aa ge 5 ee oe Oh ee 3 37 Related 2 aod dod c ERR Ee e
82. and other operations that simulate in service mobile interaction When CALL is selected closed loop power control will be automatically set to its active mode See CALL CELL CLPControl REVerse MODE for closed loop power control commands D2KTest mode commands the test set to transmit a forward CDMA channel with no call processing capability In this mode a mobile station that complies with IS 2000 test mode will camp on to the forward channel The test set will continually send an F FCH on the user entered Walsh code which the mobile station can use to make FER measurements The mobile station must begin transmitting the R FCH before reverse link measurements can be made Setting Range CALL D2KTest CW Query Range CALL D2KT CW RST Setting CALL Programming Example OUTPUT 714 CALL CELL OPERATING MODE D2KTEST Selects IS 2000 test mode 240 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_operating fm CALL ORIGinate CALL ORIGinate gt CALL gt ORIGinate I DONE returns 1 0 J L gt OPComplete returns 1 gt SEQuential Ls WAIT Diagram Conventions on page 171 241 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib call originate fm CALL ORIGinate CALL ORIGinate Function Generates a page attempt to the mobile station If the call attempt fails the test set will ret
83. and sets the timeout time to 5 seconds SETup WQUality TIMeout STATe Function Sets queries the waveform quality measurement s timeout state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP WQUALITY TIMEOUT STATE ON 363 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_wquality fm SETup WQUality SETup WQUality TIMeout TIME Function Sets queries the waveform quality measurement s timeout setting to be used when the timeout state is set to ON Setting Range 1 to 999 seconds Resolution 1 second Query Range 1 to 999 RST Setting 10 seconds Programming Example OUTPUT 714 SETUP WOUALITY TIMEOUT TIME 5S 364 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup wquality fm STATus Subsystem STATus Subsystem Description The STATus subsystem is used to communicate current test set status information to the controlling application program Syntax Diagrams and Command Descriptions STATus OPERation on page 366 STATus PRESet on page 384 STATus QUEStionable on page 385 Standard Event Status Register on page 409 Status Byte Register on page 408 Status Register Bit Definitions Status Byte Register Bit Assignments on page 408 Standard Event Status Register Bit Assignment on page 410 STATus QUEStionab
84. as well as errors 141 through 149 are generated when parsing a character data element This particular error message is used if the device cannot detect a more specific error 141 Invalid character data Indicates that the character data element contains an invalid character or the particular element received is not valid for the header 144 Character data too long Indicates the character data element contains more than twelve characters see IEEE 488 2 7 7 1 4 488 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 ts err msg neg100 fm 100 through 199 Error Message Descriptions Error Message Description 148 Character not allowed Indicates a legal character data element was encountered where prohibited by the device 150 String data error This error as well as errors 151 through 159 are generated when parsing a string data element This particular error message is used if the device cannot detect a more specific error 151 Invalid string data Indicates that a string data element was expected but was invalid see IEEE 488 2 7 7 5 2 For example an END message was received before the terminal quote character 158 String data not allowed Indicates that a string data element was encountered but was not allowed by the device at this point in parsing 160 Block data error This error as well as errors 161 through 169 are generated when p
85. avgpow 730 IF dap integ 0 THEN 740 PRINT Average power avgpow dBm 750 ELSE 760 PRINT Integrity error for average power dap integ 770 END IF 780 CASE CPOW 790 OUTPUT A FETC CPOW 800 ENTER A cpow integ chpow 810 IF cpow integ 0 THEN 820 PRINT Channel power chpow dBm 830 ELSE 840 PRINT Integrity error for channel power cpow integ 850 END IF 860 CASE WQU 870 OUTPUT A FETC WQU INT 880 ENTER A wq int 890 OUTPUT A FETC WQU RHO 900 ENTER A rho 910 OUTPUT A FETC WQU CDP IOQN IQIN 920 ENTER A noise res igin res 930 IF wq int O THEN 940 PRINT Waveform quality multi code rho rho 950 IF noise res 0 THEN 960 PRINT Noise level OK 970 ELSE 980 PRINT Noise level FAILS 990 END IF 1000 IF igin_res 0 THEN 1010 PRINT Inactive code channels OK 1020 ELSE 1030 PRINT Inactive code channels FAIL 1040 END IF 77 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_getting_started_step5_ac fm Step 5 INITiate and FETCh Measurements 1050 1060 1070 1080 1090 1100 1110 1120 1130 1140 1150 1160 1170 1180 1190 1200 1210 1220 1230 1340 1350 1360 1370 1380 1390 1400 78 ELSE PRINT Integrity error for waveform quality wq int END IF END SELECT EXIT IF measdone NONE END LOOP Simul end TIMEDATE PRINT PRINT Concurrent measurement time Simul end Simul start Hand start TIMEDATE OUTPUT A INIT HWQ Han
86. bit in the questionable error status register is set Error Message Description 601 Instrument failure Audio generator hardware is not Indicates a problem occurs when attempting to responding control the test set s audio generator 501 S Hp8960 E1962B CDMA 2000V3 1 reference guide XChaptersicdma2000 ts err msg pos600 fm 700 through 799 Error Message Descriptions 700 through 799 Error Message Descriptions Description A device specific error indicates that the instrument has detected an error that occurred because some operations did not properly complete possibly due to an abnormal hardware or firmware condition For example an attempt by the user to set an out of range value will generate a device specific error Errors are categorized as follows e TA2000 errors common to the test application e CDMA errors common to the IS 95 and IS 2000 system type e Digital2000 errors applicable to only the IS 2000 system type e Digital95 errors applicable to only the IS 95 system type When one of these errors is generated the 700 errors bit in the questionable error status register is set Table 12 CDMA Measurement Errors Error Message Description 701 Digital average power measurement is not responding 702 Waveform quality measurement is not responding 703 Channel power measurement is not responding 704 Frame error rate measurement is not responding 705 Access probe
87. bit is always 0 3 8 Reserved for future use This bit is always 0 2 4 Frequency Stability New This is a 1 if the measurement has been completed Measurement Result Ready and has produced new results 1 2 Reserved for future use This bit is always 0 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation NMRReady AMPS OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 STATUS STATUS STATUS STATUS STATUS OPERATION NMRREADY AMPS EVENT OPERATION NMRREADY AMPS CONDITION Queries the New Measurement IResults Ready AMPS Event Register Results Ready Queries the New Measurement AMPS Condition Register OPERATION NMRREADY AMPS ENABLE 8 Sets New Measurement Results IReady AMPS Enable Regigter Ifor bit 3 OPERATION NMRREADY AMPS NTR 2 Sets the New Measurement Results IReady AMPS Negative Transition IRegister for bit 1 OPERATION NMRREADY AMPS PTR 4 Sets the New Measurement IResults Ready AMPS Positive ITransition Register Ifor bit 2 STATus OPERation NMRReady CDMA Register Bit Assignments The STATus OPERation N MRReady CDMA register bits indicate when a measurement has been completed and new measurement results are available Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0
88. call state moves from the idle state If the timer expires before the call state has moved from the idle or connected state the call state change detector is disarmed which releases the CALL CONN query if it is currently hanging 94 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step4 ac fm Step 4 Make Connection Process for Making a Base Station Originated Call Figure 3 Process for Making a Base Station Originated Call Set paging number Set paging repeat state Originate a call Send CALL CONN query Enter response from CALL CONN query No Call connected Yes Proceed with control program Send CALL END command Invoke error handler NOTE It is not necessary for you to send the CALL CONN TIM and CALL CONN ARM commands as they are automatically sent by the test set during a base station originated call or base station release 95 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step4 ac fm Step 4 Make Connection Example 10 Programming Example OUTPUT Test set CALL PAG PNUM 0000574016 Set paging number OUTPUT Test set CALL PAG REP ON Set paging repeat state OUTPUT Test set CALL ORIG Start a base station originated call OUTPUT Test set CALL CONN Hanging GPIB query ENTER Test set Call connected Program hangs here until origination passes or fails IF NOT Call connected THEN OUTPUT Test set CALL END
89. cdma2000_gen_bse_fch fm Configuring the F Paging Channel F PCH Configuring the F Paging Channel F PCH The F Paging channel parameters are configured using the following call processing subsystem functions and commands Settable F Paging Parameters F Paging level e F Paging state F Paging data rate e F Paging IMSI type e F Paging IMSI MCC mobile country code F Paging IMSI MNC mobile network code F Paging IMSI MSIN mobile station identification number e F Paging maximum slot cycle index Fixed F Paging Parameters The F Paging Walsh code is fixed at code channel number 1 GPIB Examples Setting the F Paging state and level complex command OUTPUT 714 CALL PAG 12 DB would set the F Paging state on and set the level to 12 dB See CALL PAGing SLEVel SELected Setting the F Paging data rate OUTPUT 714 CALL PAGING DRATE HALF would set the F Paging data rate to half rate See CALL PAGing DRATe Operating Considerations The Walsh code number for the F Paging channel is fixed at code 1 from the 64 Walsh code set The test set will page the mobile station in slotted mode unless the mobile station has registered as non slotted The test set will use the lesser value of CALL MS REPorted SCINdex a mobile station reported parameter or CALL PAGing SCINdex MAXimum a settable paging channel parameter for slotted mode paging The test set will automatically upda
90. fm Standard Event Status Register Number Bit Binary Weighting Condition Description 2 4 Query Error This bit is set to 1 if an error has occurred while trying to read the test set s output queue The following events cause a query error e An attempt is made to read data from the output queue when no data is present or is pending e Data in the output queue has been lost An example of this would be an output queue overflow Reserved for future use This bit will always be 0 Operation Complete This bit is set to 1 when the test set has completed all pending operations and is ready to accept new commands This bit is only generated in response to the OPC IEEE 488 2 common command Program Example Standard Event Status Register OUTPUT 714 ESR IQueries reads the Standard Event Status Register 411 S Hp8960 E1962B CDMA 20003 1 reference guideYXChaptersicdma2000 hpib status std evnt fm SYSTem Subsystem SYSTem Subsystem Description The SYSTem subsystem performs system level configuration functions of the test set Syntax Diagrams and Command Descriptions SYSTem APPLication on page 413 SYSTem BEEPer on page 419 SYSTem COMMunicate on page 421 SYSTem CONFigure INFormation HARDware VERBose on page 420 SYSTem CORRection on page 424 SYSTem APPLication on page 413 SYSTem ERRor on page 431 SYSTem MEASurement RE
91. for 1024 bit 1 bit 391 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable STATus QUEStionable CALL Condition Register Bit Assignment The STATus QUEStionable CALL registers will contain information about which event s occurred during call processing that indicate what call processing procedure failed Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 TA2000 Summary bit This bit is the summary message bit for the STATus QUEStionable CALL TA2000 register 8 256 CDMA Summary bit This bit is the summary message bit for the STATus QUEStionable CALL CDMA register 7 128 DIGital2000 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors CALL DIGital2000 register 6 64 DIGital95 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors CALL DIGital95 register 5 32 TA136 Summary bit This bit is the summary message bit for the STATus QUEStionable CALL TA136 register 4 16 DIGital136 Summary bit This bit is the summary message bit for
92. generator It has a fixed sensitivity of 20 KHz volt and a frequency range of 100Hz to 20 KHz GPIB The GPIB connector allows test set control with compatible devices 458 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 gen rearpanel con fm Rear Panel Connectors LAN PORT This RJ 45 connector provides connection for down loading firmware upgrades or new test applications into the test set No other types of communication are possible with the LAN port PRINTER Not functional for this release SERIAL 1 Not functional for this release SERIAL 2 Not functional for this release SERIAL 3 Not functional for this release TEST SET SYNCH IN Not functional for this release TEST SET SYNCH OUT Not functional for this release TIMEBASE ADJUST This is the timebase adjust cover removing this screw allows access for timebase adjustment TRIG IN Not functional for this release TRIG OUT This BNC connector allows for synchronization of the test set to other equipment and is configured by setting Frame Trigger Parameters VGA OUT This DB 15 connector allows the user to simultaneously route the test set s display to another monitor 459 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen rearpanel con fm Rear Panel Connectors 10 MHZ REF IN This BNC connector accepts an external 10 MHz timebase signal The nominal input impedance is 50 ohm This version of test se
93. if CELL BAND returns KPCS 2 Null String 3 TSB 74 if CELL BAND returns USC or ARIB_T53 if CELL BAND returns JCDM 4 IS 95B 5 IS 95B plus 6 IS 2000 RevO 7 Null string Query Range 0 to 7 9 91 E 36 RST Setting 9 91 E 36 Programming Example OUTPUT 714 CALL MS REPORTED PREVISION CALL MS REPorted QPCHannel SUPPort Function Queries whether the mobile supports quick paging When the test set s quick paging channel state is on it will send out slotted quick pages Query Range YES NO UNKN RST Setting CLEARED Programming Example OUTPUT 714 CALL MS REPORTED OPCHANNEL SUPPORT 234 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 hpib call ms reported opq fm CALL MS REPorted lt RCON ENH REG SCIN SCL gt CALL MS REPorted lt RCON ENH REG SCIN SCL gt CALL MS REPorted RCONfig ENHanced gt returns YES NO UNEN L gt SUPPort gt REGistration T returns ZONE TIMER POWERUP Ls TYPE POWERDOWN PARAMETERCHANGE ORDERED DISTANCE USERZONE CLEARED SCINdex gt returns num value SCLass gt returns SLOT NSL UNKN Diagram Conventions on page 171 CALL MS REPorted RCONfig ENHanced SUPPort Function Queries whether or not the mobile station supports enhanced radio configurations as reported by the mobile station If the mobile station supports any radio configu
94. if it is locked or unlocked Returns 0 or 1 Query Range 0 unlocked 1 locked 435 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_roscillator fm SYSTem SYNChronized SYSTem SYNChronized SYSTem gt SYNChronized gt returns num value Diagram Conventions on page 171 SYSTem SYNChronized Function Sets queries the test set to see that all prior sequential commands have completed or that all prior overlapped commands have started indicating that the input buffer is synchronized Setting Bit 12 of the status operation condition register is pulsed Query Range 1 436 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_synchronized fm IEEE 488 2 Common Commands IEEE 488 2 Common Commands Description CLS The CLS clear status command is defined in IEEE Std 488 2 1992 10 3 This command will also clear and close the error message screen on the test set s display ESE The ESE standard event status enable command is defined in IEEE Std 488 2 1992 10 10 ESE The ESE standard event status enable query is defined in IEEE Std 488 2 1992 10 11 ESR The ESR standard event status register query is defined in IEEE Std 488 2 1992 10 12 TDN The IDN identification query is defined in IEEE Std 488 2 1992 10 14 IDN is used to retrieve information abo
95. is associated with the SETup SETup Subsystem on page 339 and the FETCh Subsystem on page 298 One or more measurements can be initiated with the same program line see Concurrent Measurements on page 149 and the Programming Example below This command is also used to activate a measurement See INITiate Programming Examples how INIT commands are used on page 320 Range CPOW DAP WQU CFER FST CAPP Programming Example OUTPUT 714 INITIATE CPOWER WQUALITY ON Initiates a channel power and a waveform quality measurement INITiate ON Function Queries the measurements that are on Returns a comma separated list of measurement mnemonics Query Range CPOW DAP WQU CFER FST CAPP NONE Programming Example OUTPUT 714 INITIATE ON INITiate lt measurement mnemonic OFF Function Deactivates the selected measurement See Measurement States on page 142 Only one measurement can be deactivated at a time To stop one or more measurements and leave them in the active state use ABORt on page 174 Programming Example OUTPUT 714 INITIATE CPOWER OFF Deactivates the channel power measurement 323 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_initiate fm INITiate INITiate COUNt Function Queries the number of measurements that have been initiated are active See Measurement States o
96. is established In test mode the mobile station synchronizes to the BSE signal and transmits an appropriate signal which the test set analyzes 81 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step1 ac fm Step 1 Set Up the Test Set The test set s operating mode is set using the following command Command to Set the Test Set s Operating Mode Command Example CALL OPER MODE operating mode CALL OPER MODE CELL e Set Amplitude Offsets To achieve accurate measurement results it is important to account for losses in the cabling and fixturing between the mobile station and test set You must determine what the losses are for your test setup and then specify the appropriate frequency dependent amplitude offset values You can specify amplitude offsets for up to 20 frequencies using the following commands Commands to Set Amplitude Offsets Command Example SYST CORR FREQ lt freq1 gt lt freq2 gt lt freq3 gt SYST CORR FREQ 800MHz 1800MHz 1900MHz SYST CORR SGAin lt offset1 gt lt offset2 gt lt offset3 gt SYST CORR 0 7 1 0 1 2 e Set Display Mode To achieve a slightly faster test execution speed you can disable the front panel display on the test set using the DISP MODE FAST command 82 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step1 ac fm Step 2 Configure Test S
97. is in the inactive state A measurement is activated selected with an INITiate command If a measurement is initiated while in its measurement cycle it will terminate that measurement and restart it The active state is not a single state but a collection of any state other than the inactive state Deactivating de selecting the measurement is accomplished through an INITiate lt MEAS gt OFF command Manually a measurement is activated by selecting it from the Measurement Selection menu A measurement is inactivated by pressing the Measurement Selection key scrolling to measurement in the Measurement Selection menu and then pressing F4 Close Measurement Figure 9 The Test Set s Measurement States Inactive State Activate Deactivate Active State Idle State Wait for Trigger State Measuring State 141 S Hp8960 E1962B CDMA 20003 1 reference guideYXChaptersicdma2000 prog trig fm Triggering of Measurements Measurement States The following examples describe states of the test set under various conditions Refer to Figure 9 on page 141 Example 17 Inactive State If the test set has just been powered on or any form of preset has been performed then the measurement state is inactive Example 18 Wait for Trigger State If a measurement has been initiated with the INITiate command but has not been triggered or a measurement has been selected f
98. no measurements are done Start a set of concurrent measurements using INITiate command Determine if a measurement is done using INITiate DONE query INITiate DONE query INITiate DONE query returns NONE all returns name of measurements are done measurement that is done Use FETCh query to obtain a set of measurement results Is measurement result valid Continue program Invoke Error Handler 99 S Hp8960 E1962B CDMA 2000V3 1 reference guide XChapterscdma2000 prog generic step5 ac fm Step 5 INITiate and FETCh Measurements Start a Set of Concurrent Measurements The INITiate command is used to start measurements Each individual measurement can be started using the INITiate command For starting measurements the syntax of the INITiate command is as follows INITiate measurement mnemonic gt ON More than one measurement can be started using a single INITiate command For example OUTPUT Test set INIT TXP PFER starts the transmit power measurement and the phase and frequency error measurement These measurements then run concurrently Determine if a Measurement Is Done Use the INITiate DONE query command to determine which measurement has completed This command is a query only and returns only one response per query The responses returned and their meanings are shown in the following table Table 3 Responses Returned from INITiate DONE Query Response String Me
99. num value HZ KHZ MHZ GHZ ES gp num value DBM returns num value 4 gt sp num value HZ KHZ MFRequency MHZ GHZ FREQuency gt returns num value gt Sp num value DBM gt SELected L returns num value s 333 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm RFANalyzer RFANalyzer AUTO POWer SELected Function Queries the expected input power for the currently selected system type when the test set s power detector control mode is set to automatic You can also query a specific system type by replacing SELected with a system type mnemonic such as DIG2000 The test set s power control mode is set by the RFANalyzer CONTrol POWer AUTO command Query Range 69 dBm to 30 dBm Resolution 0 01 dBm RST setting 13 dBm Programming Example OUTPUT 714 RFANalyzer AUTO POWER SELECTED Queries the expected input power for the currently selected system type when the power detector is set to automatic control mode RFANalyzer CONTrol MEASurement FREQuency AUTO Function Turns on off the auto Meas Frequency feature which determines the measurement downconverter signal path frequency control mode See Block Diagram ON automatic OFF manual Setting Range 1 ON 0 OFF Query Range 1 0 RST setting 1 on
100. of hardware is not installed in the test set or the hardware has failed in a way which leads the instrument controller to believe it isn t installed 4 Hardware Error Indicates that a hardware failure has occurred These include failures such as a phase lock loop out of lock defective DSP samplers or power detectors that can not be calibrated 5 Over Range Indicates that the input signal is over range The amplitude of the device under test s DUT s signal is causing the voltage at a DSP sampler to be above its maximum input level or the frequency is too high or the voltage measured is beyond the maximum voltmeter range either positive or negative 144 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog gen integrity fm Integrity Indicator Table 6 Integrity Integrity Indicator Message Indicator Number 6 Under Range Indicates that the input signal is under range The amplitude of the DUT s signal is not high enough for the DSP sampler to produce accurate results with the measurement algorithm 7 Burst Short Indicates that the burst duration is too short or part of the burst was not sampled due to improper triggering 8 Trigger Early or Fall Early Indicates that the DUT s burst amplitude fell prematurely or due to an early trigger early relative to a transmitted burst the measurement sampling operation terminated before the falling edge of the burst
101. of the test set e Remote annunciator R turns on when the test set is operated remotely e Listen annunciator L turns on when the test set is listening to a command e Talk annunciator T turns on when the test set is providing information over GPIB e SRQ annunciator S turns on when an SRQ is active 463 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen inst status fm Instrument Status Area 464 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen inst status fm Troubleshooting 6 Troubleshooting 465 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersch error messages fm Troubleshooting 466 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersYch error messages fm Access Probe Power Troubleshooting Access Probe Power Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SETup CAPPower CONTinuous If single triggering is used during manual operation press the START SINGLE key to trigger each measurement The input signal must conform to Input Signal Requirements on page 33 Access probe power mea
102. or query any data or results Display Backlight Dimming The test set s display brightness parameter has two settings at this time high and medium The life of the display s backlight will be maximized when brightness is set to medium The test set has an auto dimming feature that will lower the display brightness automatically if approximately 10 minutes pass without a key being pressed on the test set s front panel The display will return to the brightness level shown in the Display Brightness field when the test set is set to local and any front panel key is pressed There is no other user control for this feature Syntax Diagram and Command Descriptions DISPlay 294 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib display description fm DISPlay DISPlay s gt DISPlay BRIGhtness lt sp gt HIGH MEDium L gt returns HIGH MEDium 5 MESSage gt MASKable gt STATe sp 1 oN O OFF gt returns 1 0 gt MODE lt Sp gt FAST TRACk gt returns FAST TRACK m gt WINDow ERRor s CLEar 0PERator MESSagel s lt sp gt string up to 30 characters MESSage2 MESSage3 MESSage4 Diagram Conventions on page 171 295 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters c
103. power measurement for the currently selected system type Cell power state is set using the CALL CELL POWer commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS CELL POWER STATE SELECTED CALL STATus AWGNoise POWer AMPLitude SELected Function Queries the current power level of the additive white Gaussian noise AWGN source for the currently selected system type AWGN power level is set using the CALL AWGNoise POWer commands Query Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz including amplitude offset if on Resolution 0 01 dB RST Setting 54 0 dBm 1 23 MHz Programming Example OUTPUT 714 CALL STATUS AWGNOISE POWER AMPLITUDE SELECTED IQueries the current AWGN power for the current system type CALL STATus AWGNoise POWer STATe SELected Function Queries the current on off state of the additive white Gaussian noise AWGN source for the currently selected system type AWGN power level on off state is set using the CALL AWGNoise POWer commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS AWGNOISE POWER STATE SELECTED 281 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib call status fm CALL STATus CALL STATus PILot LEVel SELected Function Queries the current forward pilot level for the currently selected system
104. product was tested in a typical configuration with Agilent Technologies test systems 14 December 2000 MARAL W V Roland Reliability amp Regulatory Engineering Manager For further information please contact your local Agilent Technologies sales office agent or distributor Authorized EU representative Agilent Technologies Deutschland GmbH Herrenberger StraBe 130 D71034 Boblingen Germany S Hp8960 E1962B CDMA 2000 3 1_reference_guide E 1962 9001 7titlepage fm Manufacturer s Declaration This statement is provided to comply with the requirements of the German Sound Emission Directive from 18 January 1991 This product has a sound pressure emission at the operator position 70 dB A e Sound Pressure Lp 70 dB A e At Operator Position e Normal Operation According to ISO 7779 1988 EN 27779 1991 Type Test Herstellerbescheinigung Diese Information steht im Zusammenhang mit den Anforderungen der Maschinenl rminformationsverordnung vom 18 Januar 1991 e Schalldruckpegel Lp 70 dB A Am Arbeitsplatz e Normaler Betrieb e Nach ISO 7779 1988 EN 27779 1991 Typpr fung 13 S Hp8960 E1962B CDMA 2000V3 1 reference guide WE 1962 9001 7titlepage fm 14 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E 1962 9001 7titlepage fm Measurementis 5 00 a 80 nsn o riw tbe se e ee e i bine cae eee 31 Access Probe Power Measurement Description 0 0 0 0 cece eee eens 32 How is
105. query returns one or more strings each string is separated by a comma Query Range AMPS 136 Mobile Test CDMA 2000 Mobile Test GSM Mobile Test GPRS Mobile Test Programming Example OUTPUT 714 SYSTEM APPLICATION CATALOG NAME 415 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_application fm SYSTem APPLication SYSTem APPLication CATalog NAME COUNt Function Queries the test set for the total number test application names stored on the hard drive Up to 30 test applications can be stored Query Range 0 through 30 Programming Example OUTPUT 714 SYSTEM APPLICATION CATALOG NAME COUNT SYSTem APPLication FORMat NAME lt format name gt Switches radio formats in a fast switching test application A licensed fast switching test Function application must be selected to use this command Queries the test set for the name of the fast switching test application This string is not case sensitive Setting Range A string that represents the name of a radio format included in a fast switching test application Query Range A string up to 25 characters or the null string Programming Example OUTPUT 714 SYSTEM APPLICATION FORMAT NAME AMPS 136 OUTPUT 714 SYSTEM APPLICATION FORMAT NAME SYSTem APPLication FORMat LlCense lt format name gt Function Queries the test set fo
106. regard to case To query the name of the all test applications installed in the test set use this GPIB query OUTPUT 714 SYSTEM APPLICATION CATALOG NAME To query the name of the selected test application running or not use this GPIB query OUTPUT 714 SYSTEM APPLICATION SELECT NAME To query the name of the currently running test application use this GPIB query OUTPUT 714 SYSTEM APPLICATION CURRENT NAME To query the number of test applications installed in the test set use this GPIB query OUTPUT 714 SYSTEM APPLICATION CATALOG NAME COUNT The test application names can also be displayed in the Test Application Setup menu on the test set s display Related Topics SYSTem APPLication on page 413 Test Application Switching on page 528 532 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 conf name fm Index Symbols IDN 515 Numerics 3GPP standards adherence to 42 A access probe power FETCh command 299 integrity 299 access probe power measurement 32 ABORt command 175 access probe power measurement programming 109 active cell operating mode 50 240 Active Cell Status 199 active cell system type 289 active link 67 active versus inactive measurements 142 address GPIB 527 LAN 525 adherence to 3GPP IS 2000 and CDMA standards 42 adherence to CDMA standards 42 Amplitude 177 amplitude offset 452 frequency 424 RF IN OUT port 424 arith
107. revision of the test application currently running use this GPIB command OUTPUT 714 SYSTEM APPLICATION CURRENT REVISION To query all of the revisions available for a test application use this GPIB command OUTPUT 714 SYSTEM APPLICATION CATALOG REVISION AMPS 136 MOBILE TEST To select a revision of a test application use this GPIB command OUTPUT 714 SYSTEM APPLICATION SELECT REVISION GSM mobile test A 04 01 To query the number of revisions for a specified test application OUTPUT 714 SYSTEM APPLICATION CATALOG REVISION COUNT GSM MOBILE TEST 530 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_rev fm Test Application Revisions and Licenses Test Application License Status Query The test application license status can be queried for a particular test application and revision using the following GPIB query OUTPUT 714 SYSTEM APPLICATION CATALOG LICENSE GSM mobile test A 04 01 This query returns one of the following e LIC This revision of test application appears to have a LICense The test application may have been developed before licensing and therefore needs no license e NLIC This test application does not appear to have a license Selecting a Not LICensed revision will result in an error 130 e PART Some PART of the test application does not appear to have a license e UNKN This test application has UNKNown license status NOTE If you switch to a
108. state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SE Tup CPOWer on page 343 If single triggering is used during manual operation press the START SINGLE key to trigger each measurement Digital average power measurement results are affected by the Amplitude Offset value Use the SYSTem CORRection GAIN command to set offset values The test set receiver s expected signal amplitude and channel number or frequency must be set up correctly for accurate measurements This is normally done automatically see Active Cell Operating Mode but can also be done manually see Receiver Control on page 118 See Triggering of Measurements on page 140 for a description of each trigger setting 468 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 ts cpower fm Channel Power Measurement Troubleshooting Interpreting Integrity Indicator values If Over Range 5 is returned the input power has exceeded 37 dBm or is greater than 8 dB above the expected power level of the receiver If Under Range 6 is returned the input power is below 69 dBm or is less than 20 dB below the expected power level of the receiver See RFANalyzer AUTO POWer SELected on page 334 for the GPIB command to query expected power If the signal has both over range and under range conditions only the over range 5 will be indicated Figure
109. string returned by the command CALL MS REPorted BCLass Each time a new mobile station registers with the test set the test set will have the mobile station report band classes mobile station reported operating mode for each band class and mobile station reported max EIRP if the operating mode is CDMA for each band class These results are referred to as Status Request Information Query Range xx null where xx is a numeric value RST Setting Null Programming Example OUTPUT 714 CALL MS REPORTED EIRP when sent to a mobile station supporting US cellular analog operating mode and US PCS CDMA operating mode bands might return something similar to the following string null substring gt lt sp gt 50 lt sp gt lt sp gt lt sp gt lt sp gt lt sp gt Note that this string consists of a leading comma and space denoting a null substring followed by the maximum EIRP for the second band US PCS CDMA operating mode CALL MS REPorted BWType Function Queries station class mark bandwidth support Query Range BWT20 BWT25 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED BWTYPE 216 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 hpib call ms reported b fm CALL MS REPorted CAPability CCHannel DEDicated CALL MS REPorted CAPability CCHannel DEDicated CALL MS REPorted CAPability CCHannel DEDicated z gt
110. test set transmits all forward CDMA channels Pilot Sync and Paging with full overhead messaging however no message or data exchange takes place with the mobile station To make measurements on the reverse channel in test mode the mobile station must first synchronize to the test set s forward pilot channel and demodulate the sync and paging channels This is consistent with normal system acquisition procedures and results in the mobile station reaching the mobile station idle state In active cell operating mode the mobile station at this point would autonomously perform a power up registration after entering the idle state A call would then be initiated and the RF link would be established and maintained according to the applicable message protocol However in test mode the test set and mobile station are directed to the same FCH fundamental channel by the system controller or through manual user interfaces Since data is not looped back to the test set in test mode the mobile station must count the frame errors and report FER frame error rate through the digital interface Forward CDMA channels available in test mode In test mode the test set can be configured to transmit a forward channel that emulates a base station operating in radio configuration RC 1 2 3 4 or 5 The following channels are available with power level control depending on the selected radio configuration e Pilot e Sync e Paging only transmits overhead
111. the BSE is not transmitting call processing commands to the mobile station e Manually Setting Expected Power Sending the CALL commands in Table Commands to Set Mobile Station Transmit Power automatically sets the expected input level of the test set s receiver However there is another option for setting the receiver s input level in both active cell and test mode It is often beneficial to manually set the expected input power level using the RFAN commands rather than using the CALL commands When you set the expected power manually you tell the test set exactly what power level to expect Whereas the CALL commands simply tell the test set the range of input level to expect based on the definition of the mobile station power level for example an AMPS 136 mobile station transmitting at power level 3 has an output level in the range of 20 dBm to 26 dBm 85 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step2_ac fm Step 2 Configure Test Set and Mobile Station Parameters Set Up Additional Connection Parameters Depending upon the test application you are using there may be other connection parameters to specify such as timeslot timing advance vocoder or data rates and types In active cell mode you may also choose to set up network parameters such as base station identifier numbers for example SID and color codes All of these parameters are configured using the CALL subsystem
112. to 1199 e JCDM Japanese CDMA 1 to 799 801 to 1039 1041 to 1199 e KPCS Korean PCS 0 to 599 e USC US Cellular 1 to 799 991 to 1023 e USPC U S PCS 0 to 1199 e NMT450 1 to 300 539 to 871 1039 to 1473 1792 to 2016 RST Setting Channel 384 I8 2000 system US PCS band Programming Example OUTPUT 714 CALL CHANNEL Queries the channel number of the currently selected system and band OUTPUT 714 CALL CHANNEL 384 Sets the channel number of the currently selected system and band OUTPUT 714 CALL CHANNEL DIGital2000 KPCS 384 Sets the channel number for the Digital 2000 system and Korean PCS band to 384 If this system and band are not current the value 384 is stored and will be transmitted when Digital 2000 and Korean IPCS are current 197 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call channel fm CALL CELL CLPControl CALL CELL CLPControl CALL CLPControl REVerse gt MODE __s sp ACTive UP DOWN gt CELL ALTernating gt returns ACT UP DOWN ALT STEP lt Sp gt DB1 DBHalf DBQuarter gt returns DB1 DBH DBQ Diagram Conventions on page 171 CALL CELL CLPControl REVerse MODE Function Sets queries the reverse CDMA channel closed loop power control mode When ACTive is selected the test set will send power control bits that raise or lower the power level of the mobile station depend
113. to 7 dBm with nominal power extended set to 0 false See CALL CELL APARameter POWer NOMinal EXTended Resolution integer Query Range 8 to 7 dBm with nominal power extended set to 0 false See CALL CELL APARameter POWer NOMinal EXTended Resolution integer RST Setting 0 Programming Example OUTPUT 714 CALL CELL APARAMETER POWER NOMINAL OFFSET 5 Sets the nomiinal power offset to 5 dB CALL CELL APARameter POWer NOMinal EXTended Function Sets queries extended nominal power Setting this parameter to 1 true introduces a 16 dB offset to the open loop power control correction range The extended nominal power range is from 24 dB to 9 dB inclusive With this parameter set to 0 false the open loop power control correction range is 8 dB to 7 dB See CALL CELL APARameter POWer NOMinal OFFset Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 Programming Example OUTPUT 714 CALL CELL APARAMETER POWER NOMINAL EXTENDED ON 188 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call aparameter fm CALL CELL APARameter CALL CELL APARameter POWer INITial Function Sets queries the initial power correction the mobile station will apply to the open loop equation to adjust power during system access when transmitting the initial access probe in an access probe sequence Setting Rang
114. trigger source to auto OUTPUT Test set SET MACC TIM 15 Sets timeout state to ON and time to 15 sec OUTPUT Test set SET MACC EVM10 STAT ON Turns the EVM10 State ON l kkxkxkxkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkkkk kkkkk kkk kkk kkkkkxkk Configure Digital TX Power Measurement OUTPUT Test set SET DTXP COUN 5 OUTPUT Test set SET DTXP TRIG SOUR AUTO OUTPUT Test set SET DTXP TIM 5 poookckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckck ck ck ck kk Configure Frequency Stability Measurement OUTPUT Test set SET FST COUN 3 OUTPUT Test set SET FST TIM 10 l kkxkxkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk kkk kkk kkk kkk kkkkxkk Configure Analog TX Power Measurement OUTPUT Test set SET ATXP COUN 5 OUTPUT Test set SET ATXP TRIG SOUR AUTO OUTPUT Test set SET ATXP TIM 15 91 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step3 ac fm Step 4 Make Connection Step 4 Make Connection The following information provides additional details on Step 4 of the Programming Flowchart This information is applicable to all test applications Description In this step you make a connection between the mobile station and test set How you do this depends upon whether you are in active cell or test mode In active cell mode you establish a phone call between the test set and mobile station In tes
115. type Forward pilot level is set using the CALL PILot commands Query Range 0 to 10 dB 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS PILOT LEVEL SELECTED CALL STATus PILot STATe SELected Function Queries the current forward channel pilot level state for the currently selected system type Forward pilot level on off state is set using the CALL PILot commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS PILOT STATE SELECTED CALL STATus SYNC LEVel SELected Function Queries the current forward sync channel level for the currently selected system type The forward sync channel level is set using the CALL SYNC commands Query Range 0 to 20 dB 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS SYNC LEVEL SELECTED 282 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus SYNC STATe SELected Function Queries the current sync channel level state for the currently selected system type The forward sync channel level on off state is set using the CALL SYNC commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS SYNC STATE SELECTED CALL STATus PAGin
116. 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CAPPOWER CONTINUOUS OFF Sets measurement to single trigger mode 341 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_acc_probe_pwr fm SETup CAPPower SETup CAPPovwer TIMeout STIMe Function The setting form of this command performs two functions 1 sets the access probe power measurement s timeout see Timeouts value and 2 sets the access probe power measurement s timeout STATe to 1 on The query form returns the access probe power measurement timeout value Setting Range 0 1 to 999 9 seconds Resolution 0 1 second uery ange 0 1 to Q R 0 1 to 999 9 RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP CAPPOWER TIMEOUT STIME 5 S ISets timeout state to ON and sets the timeout time to 5 seconds SETup CAPPower TIMeout STATe Function Sets queries the access probe power measurement s timeout see Timeouts state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CAPPOWER TIMEOUT STATE ON SETup CAPPower TIMeout TIME Function Sets queries the access probe power measurement s timeout see Timeouts setting to be used when the timeout state is set to ON Setting Range 0 1 to 999 9 seconds Resolution 0 1 secon
117. 0 3 1 reference guideYChaptersicdma2000 conf meas fm Measurement Related Configuration Offset 1 20 Up to 20 different offset values can be defined by you to correct network loss or gain Duplicate offsets are allowed as long as they are associated with different frequencies Remote User Sending any new offset values in subsequent commands will write over the original values and set the state to Off for any offsets not set with the new command There are two different commands to set offsets e Offsets are set and the offset state is set to On with this complex command OUTPUT 714 SYSTEM CORRECTION SGAIN 2 55 3 12 3 68 4 23 4 74 5 3 A complex command that sets up to 20 comma separated offsets and sets the state to On for the frequencies offsets and RFIN OUT Amplitude Offset State e Offsets are set with this command OUTPUT 714 SYSTEM CORRECTION GAIN 3 12 3 68 4 23 Sets up to 20 separated offset values Manual User Manual users may set the state or the value for any of the 20 offsets from the RF IN OUT Amplitude Offset Setup menu Offset values may be set in any order i e set Offset 1 and then skip to Offset 20 The offset state and value is individually controlled for manual users In order to manually set the RF offsets go to the SYSTEM CONFIG screen and press the RF IN OUT Amptd Offset key F5 Amplitude offset gain loss and state settings are found by pressing the RF IN OUT Amptd Offset Setup key F2 RF offsets
118. 0 BPS230400 gt gt returns string gt RCONfig3 s lt sp gt BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 L gt returns string gt RCONfig4 s lt sp gt BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 BPS307200 gt returns string ee ee returns string L gt SELected _s lt SP gt BPS9600 BPS14400 BPS19200 BPS28800 BPS38400 BPS57600 BPS76800 BPS115200 BPS153600 BPS230400 BPS307200 Note Data rates used with the SELected keyword must be compatible with the currently selected radio configuration If a data rate that does not belong to the selected radio configuration s rate set is used an error message will be generated See Diagram Conventions on page 171 264 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_schannel fm CALL SCHannel CALL SCHannel SLEVel SELected Function The setting form of this command performs two functions 1 sets the level of the forward supplemental channel SCH and 2 turns the state of the SCH on The query form of this command returns the level of the SCH The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Setting Range 0 to 20 dB
119. 0 Messages 700 Messages 800 Messages 900 Messages RUI Maskable Messages REONDURWN O STATUS OPERATION CALL COMMON DATA Extension Bit Data Connection Status Idle Data Connection Status Attached Data Connection Status Transferring Data Connection Status Data Connected Data Connected Status Off Data Connected Control Status Changing Starting Data Connection 124 Extension Bit Call Control Status Idle Call Control Status Connected Call Control Status Alerting Call Control Status Registering Bit 1 BUS Call Control Status Handover STATUS QUESTIONABLE Call Control Status Changing OPERATION ERRORS BS Originating CALL Registering BS Initiated Data Summary RONOUNRWN O STATUS OPERATION NMRREADY COMMON Extension Bit Hg Audio Anal 2 TUE OPERATION 3 NMRREADY 4 5 Bit 14 5 STATUS OPERATION 7 CALL COMMON S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview Status Reporting Structure For The GSM Test Application STATUS QUESTIONABLE CALL GSM STATUS QUESTIONABLE ERRORS GSM Extension Bit 0 Extension Bit 0 Date Link Failure 1 100 Messages 1 Radio Link Failure 2 200 Messages 2 Immediate Assignment Failure 3 CALL 300 Messages 3 Channel Assignment Failure 4 400 Messages 4 Handover Failure 5 ae US 500 Messages 5 ee No Response to Page 6 600 Messages 6 Channel Assignment gt Fames 7 GUES IONABLE 700 Messages
120. 0 hpib system application fm SYSTem APPLication SYSTem APPLication CATalog REVision lt test application name gt Function Query the test set for all of the revision numbers stored on the test set s hard drive You must specify a test application The test application name must be entered as it appears in the test application Setup menu with the exception that the string is not case sensitive and can be entered in any combination of upper and lower case letters Query Range One or more comma separated strings or a null string Programming Example OUTPUT 714 SYSTEM APPLICATION CATALOG REVISION AMPS 136 MOBILE TEST SYSTem APPLication CATalog REVision COUNt lt test application name gt Function Queries the test set for the number of revisions present on the hard disk for a specified test application Up to 30 revisions can be stored for a test application The test application name must be entered as it appears in the test application Setup menu with the exception that the string is not case sensitive and can be entered in any combination of upper and lower case letters Query Range 0 through 30 Programming Example OUTPUT 714 SYSTEM APPLICATION CATALOG REVISION COUNT AMPS 136 MOBILE TEST SYSTem APPLication CATalog NAME Function Queries the test set for all of the names of the test applications stored on the hard drive This
121. 00 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm RFANalyzer RFANalyzer MANual POWer SELected Function Sets queries the receiver input power for the currently selected system type when the test set s receiver input power control mode is set to manual The test set s receiver power control mode is set by the RFANalyzer CONTrol POWer AUTO command The test set s measuring receiver will include amplitude offsets along with this setting to calculate input power range settings Setting Range Test application and system type dependent approximately 25 to 43 dBm Resolution 0 01 dBm Query Range Test application and system type dependent approximately 25 to 43 dBm RST setting 75 dBm Programming Example OUTPUT 714 RFANALYZER MANUAL POWER SELECTED 24 DBM Sets the manual power control mode expected input power level for the currently selected system type to 24 dBm RFANalyzer MANual MEASurement MFRequency Function The setting form of this command performs two functions 1 sets the Meas Frequency of the test set s measurement signal path and 2 selects manual auto off tune mode for the test set s measurement signal path See Block Diagram The query form of this command returns the tune frequency of the test set s measurement signal path The tune mode for the test set s measurement signal path can be returned to auto using the RF
122. 00 prog sync callstate fm Call Processing State Synchronization Related Topics CALL CONNected TIMeout on page 201 CALL CONNected ARM IMMediate on page 200 CALL STATus STATe on page 279 Instrument Status Area on page 462 158 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync callstate fm Call Processing Event Synchronization Call Processing Event Synchronization Description Using the call processing subsystem overlapped command synchronization commands you can query the test set to find out when an overlapped command operation is done DONE OPC force the test set to not execute any more commands until an overlapped command operation has completed WAIT or simply force an overlapped command to behave as a sequential command SEQ Pending Operation Flags Associated with each overlapped command the test set maintains a binary indicator known as a pending operation flag A pending operation flag is set true when the operation started by the overlapped command is executing and is set false when the operation is no longer executing NOTE In addition to the call processing subsystem overlapped commands the test set also provides the measurement related INITiate measurement overlapped commands 159 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 prog sync callpro fm Call Processing Event Synchronization Call Processing Subsystem Over
123. 000V3 1 reference guideChaptersicdma2000 prog generic step5 ac fm Step 5 INITiate and FETCh Measurements Example Integrity Indicators Value Returned Description message also appears on test set Normal No Result Available Measurement Timeout Over Range QI N ej oO Under Range Example 13 Programming Example OUTPUT Test set FETC DTXP ENTER Test set Integrity Avg dig pow IF Integrity 0 THEN PRINT AVG DIG POW Avg dig pow ELSE PRINT DTXP Measurement Error PRINT DTXP Measurement Integrity is Integrity END IF Alternative Measurement Process You may choose to test in a sequential way rather than use the concurrent measurement process For instance instead of using the INIT DONE query to determine when a measurement is complete you may choose to initiate a set of measurements and then simply fetch them sequentially Example 14 Programming Example OUTPUT Test set INIT DTXP MACC OUTPUT Test set FETC DTXP POW ENTER Test set Avg dig pow OUTPUT Test set FETC MACC EVM 1 ENTER Test set Max EVMI1 In this example the test set starts both measurements at the same time However if the MACC measurement finishes first the results are not fetched until the DTXP measurement finishes Therefore this process requires that you understand the order in which measurements will complete in order to optimize your testing Speed 102 S Hp8960 E1962B CDMA 2000V3
124. 1 Frame error count e Range 0 to 10 000 000 9 91 E 37 Resolution 1 frame Frames tested e Range 0 to 10 000 000 9 91 E 37 e Resolution 1 frame 304 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_fetch_cferror fm FETCh CFERror Programming Example OUTPUT 714 FETCH CFERROR Returns integrity confidence limit pass fail result frame error ratio frame error count frames tested 305 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_fetch_cferror fm FETCh FSTability FETCh FSTability gt FETCh FSTability returns Integrity Worst Freq Error oom Avg Freq FERRor returns Worst Freq Error s Ls WORSt 4 gt ALL gt returns Min Freq Error Max Freq Error Avg Freq Error Worst Freq Error AVERage returns Avg Freq Error gt L gt MAXimum gt returns Max Freq Error gt Ls MINimum gt returns Min Freq Error FETCh gt FSTability gt FREQuency returns Avg Freq gt l AVERage J ALL returns Min Freq Max Freq Avg Freq Std Dev Freq Ls MAXimum returns Max Freq s L S MINimum returns Min Freq L S9SDEViation returns Std Dev Freq 7 ICOunt 5 returns Intermediate Count gt INTegrity returns Integrity Diagr
125. 1 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm 22 CAEC HANDO Serge 9 4d de wapa OA oO MO due Ple desto SR RA SOC Le RO PR S 211 CALLECELL MCGod s cr arent Te ine esr xim de 1d Maec d etes iw 212 CADIbDGILLININGOGS d dea Cx eero duae d a E RR UR Ca a Mare ds 213 CALL MS REPorted lt BCL BWT OPER MODE EIRP gt 0 0 0 0 cee eee 214 CALL MS REPorted CAPability CCHannel DEDicated 0 00 cece eee 217 CALL MS REPorted CAPability FCHannel 0 0 ccc ee eee ee 219 CALL MS REPorted QUERY 3e ceci d Sra aberat ace e e e CR dr aie P ae P ose be 221 CALL MS REPorted SCHannel FORWard 0 cece eens 222 CALL MS REPorted CAPability SCHannel REVerse 00 cc eee eee aes 226 CATA MS RE Ported Clara 6 s edd chee died ack ae eie RR a wee eee Yit Fudibs 230 CALL MS REPorted ESN 234 Sica d dE mx ER Su ts 231 CALL MS REPorted lt MCC MNC MSIN gt eese Rh s 232 CALL MS REPorted lt ONUM PREV QPCH CPCL gt eeeeeeeeeee eee 233 CALL MS REPorted cRCON ENH REG SCIN SCL eee 235 CALLECELL NIDentity ues 2t Re RECAP din e e ERO e EMO Pe e E RIA 237 CAER OCGNS OUTE o vaa oh oak E Ur m Ob BORO WEAN ooo wee es 238 CALLGECEELOPERatiN S s aS rese RA a Oh AiO Atk a erac epi ET CP 240 CALC ORIGINA e de 5x oed 9c fines ri EARUM adc Weare Sra Pols E O unu t 241 CALI PACUBB eet a SR cd ua Aa tant c Sede idi mad 243 CALL PIBOES Ze CURA Cue Ea dod san uad cr Ret acd edt
126. 12 Channel Power Under Range Over Range Integrity Indicators Integrity Indicator Level relative to expected power 37 dBm Over Range 8 dB Capture Range 20 dB Under Range 61 dB 69 dB ee NAN Not a Number Related Topics Integrity Indicator on page 144 Channel Power Measurement Description on page 34 469 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_cpower fm Digital Average Power Troubleshooting Digital Average Power Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SETup DAPower If single triggering is used during manual operation press the START SINGLE key to trigger each measurement The input signal must conform to Input Signal Requirements on page 36 Digital average power measurement results are affected by the Amplitude Offset value Use the SYSTem CORRection GAIN command to determine offset values The test set receiver s expected signal amplitude and channel number or frequency must be set up correctly for accurate measurements This is normally done automatically see Active Cell Operating Mode but ca
127. 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 378 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation Bit Binary Condition Description Number Weighting 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bit is always 0 3 8 CPOWer New Measurement This bit is a 1 if the measurement has been Result Ready completed and has produced new results This bit is a zero at power on after a preset and while a measurement is in Measuring States See Triggering of Measurements on page 140 2 4 WQUality New Measurement This bit is a 1 if the measurement has been Result Ready completed and has produced new results This bit is a zero at power on after a preset and while a measurement is in Measuring States See Triggering of Measurements on page 140 1 2 DAPower New Measurement This bit is a 1 if the measurement has been Result Ready completed and has produced new res
128. 15 Resolution integer RST Setting 10 Programming Example OUTPUT 714 CALL CELL APARAMETER PREAMBLE 5 Sets the preamble size to 5 CALL CELL APARameter SEQuence REQuest MAXimum Function Sets queries the maximum number of access probes the mobile station will transmit per access channel request Setting Range 1 to 15 Resolution integer Query Range 1 to 15 Resolution integer RST Setting 1 Programming Example OUTPUT 714 CALL CELL APARAMETER SEQUENCE REQUEST MAXIMUM 5 Sets the maximum number of access probes the mobile station will transmit per access channel Irequest to 5 CALL CELL APARameter SEQuence RESPonse MAXimum Function Sets queries the maximum number of access probes the mobile station will transmit per access channel response Setting Range 1 to 15 Resolution integer Query Range 1 to 15 Resolution integer RST Setting 1 Programming Example OUTPUT 714 CALL CELL APARAMETER SEQUENCE RESPONSE MAXIMUM 5 Sets the maximum number of access probes the mobile station will transmit per access channel response to 5 190 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_aparameter fm CALL AWGNoise POWer CALL AWGNoise POWer Y CALL AWGNoise s POWer Xp Sp num value DBM Samplitude SB
129. 1962B CDMA 2000 3 1 reference guideXChaptersicdma2000 prog getting started flowchart ac fm Programming Getting Started Guide for cdma2000 Mobile Test Introduction Useful on line links Go to the 8960 Family Support Site on either the CD ROM or the Internet The CD ROM should self launch to its home page The URL for the website is http www agilent com find 8960support Navigate to the Programming page for this test application The illustrations on the back of the Programming Flowchart show you how to navigate to this page The following links are under the heading Getting Started on the Programming page e Programming Getting Started Guide This online version of this guide contains links to more detailed information about each step which may be useful as you develop your control program Control Program Examples These examples are for you to download You may want to use these as templates for your own control program or to execute The control program explained in the Getting Started Guide is also available here for you to download It is a fully functional control program About the Programming Examples Presented in this Guide Programming Language Programming examples presented in this guide are written in the HP BASIC also known as RMB or Rocky Mountain BASIC and C programming languages The use of HP BASIC is not an endorsement of the HP BASIC product Line Numbers All of the programming examples
130. 247 CALECH LLP PNOVISELSroweucte bu bette MEEK Ree Ree eee Riees tue VE eon 249 CALC BEL PP OW 68 ameet net wip Oe ea ai ee lk detta e ae AO ea c gee eR ERO 250 57290 el 8 Hr el ad 4 DOS t rnt Ge I cs ar Oe SE eati bn pepe oen 254 Gerd ed a Be 0 Oc S io deci teen ona Re E ee E C d 255 CAELECELELRCON BE a E edi uu CER ratones cues doe E e 258 CALL REGIST edida s ra a ata REOR Best ot ede Ap Massi ied RR Rt d en 259 CALLDCBELEBEGeOnerator a perc ERA eet hot be P SUCCI RE des ow be on e o 262 CALISDCEEBBLDGSI ks ia seas Re REC DRE ec dbi RA 263 CALL SCHa nel 425 5 ste RR ew ER CRESEGR A RE ERA EE EG des Ra 264 CAXLESZSIE Tub BANI dia aue Noose besa O oe ott a E QOre t Aoi a aede te e RNC tee 269 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm C ALLISETOISOEHUANRBL 5 2 ara DRE ARR Ed EEUU LOI Ce c rex do eo 270 CALL SETup HAN DOE 5 05 s acy x 2365 PREG dood ae d eS eNOS oH eee SERA 212 CALL SETup SYSTem 03 oy od enews 348 4 RR eee h eee ted EON CREE eee ee anew e EAR 273 CALLDCELDLISSEDSBDLLY 2d amar a biwneadidta sea cawederk wee bas eae aecd eee 274 CALLIECELL SOPTION 242444 tust eu DT d ds eee Ci cae RE vr ue vers sae dass aes 275 CALLS TALUS uasa he 3E uide edes nBxeep Ae nseudeesrdqs p dms ex wes autas 277 CALLSY NG 55550 mapaa ac one sea x C RAM Ub RITU V E FERIAM AREA ES E E S Va 287 CALLDDOBLELSYSTOU uve ds been dehy E een oa dona eee eo eee Eqs Ordo XU A 289 CALL PO TA POW BE vou xcu Ra Ra
131. 2B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_pilot fm CALL CELL PNOFfset CALL CELL PNOFfset CALL x gt PNOFfset gt lt sp gt lt num value gt oe gt returns num value Diagram Conventions on page 171 CALL CELL PNOFfest Function Sets queries the pseudonoise PN offset The PN offset is the timing of the cell s short codes relative to system time This command may take up to 2 seconds to complete The PN offset cannot be changed while a call is connected Setting Range 0 to 511 Query Range 0 to 511 RST Setting 12 Programming Example OUTPUT 714 CALL CELL PNOFFSET 333 sets the PN offset to 333 249 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_pnoffset fm CALL CELL POWer CALL CELL POWer p CALL POWer lt sp gt lt num value DBM icer E L gt SELected L gt returns num value gt N N Complex Command gt DIGital2000 CW AMPLitude sp num value DBM gt gt SELected M returns num value DIGital2000 CW lt sp gt 1 ON 0 OFF L gt 1 STATe Diagram Conventions on page 171 SELected returns 1 0 DIGital2000 _ Lc CW 250 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib call power tm CALL CELL POWer
132. 3 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch wquality fm FETCh WQUality FETCh WQUality ALL Function Queries the waveform quality code domain power measurements Measurement results are returned in the following order integrity rho frequency error time error carrier feedthrough phase error magnitude error and error vector magnitude EVM If the multi measurement state is on each result represents the average of a number of waveform quality code domain power measurements Multi measurement state by default is off To set up multi measurements see SETup WQUality COUNt SNUMber Query Integrity e Range 0 to 16 Resolution 1 Rho e Range 0 000 to 1 000 9 91 E37 e Resolution 0 001 Frequency Error e Range 9999 0 to 9999 0 Hz 9 91 E 37 Resolution 0 1 Hz Time Error e Range 99 99 to 99 99 us 9 91 E437 Resolution 0 01 us Carrier Feedthrough e Range 100 to 0 0 dB 9 91 E 37 e Resolution 0 1 Phase Error e Range 180 0 to 180 0 degrees e Resolution 0 1 Magnitude Error e Range 0 to 100 9 91 E 37 Resolution 0 01 Error Vector Magnitude EVM e Range 0 to 100 e Resolution 0 01 Programming Example OUTPUT 714 FETCH WQUALITY ALL Returns integrity rho frequency error time error carrier feedthrough phase error magnitude error EVM 314 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_fetc
133. 3 400 Messages 4 500 Messages 5 SEI 600 Messages 6 QUESTIONABLE 700 Messages 7 ERRORS 800 Messages 8 900 Messages 9 STATUS OPERATION NMRREADY AMPS Extension Bit Analog Transmit Power Frequency Stability SE Frequency Modulation OPERATION NMRREADY 127 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structure For The DIGital136 Registers STATUS QUESTIONABLE ERRORS DIGITAL 136 Extension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 600 Messages 700 Messages 800 Messages 900 Messages Bit 4 STATUS QUESTIONABLE ERRORS D co 410 01 WD O STATUS OPERATION NMRREADY DIGITAL 136 Extension Bit Digital Transmit Power Modulation Accuracy Adjacent Channel Power ote ie Loopback BER Digital IQ Adjust OPERATION NMRREADY Digital Dynamic Power 128 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structures For The TA136 Registers STATUS QUESTIONABLE ERRORS TA136 Extension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 600 Messages 700 Messages 800 Messages 900 Messages Bit 5 STATUS QUESTIONABLE ERRORS oo 4100 1 i 0o O amp O 129 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsyste
134. 3 1 reference guideXChapterscdma2000 conf display mode fm Display Mode Track Fast Writing Messages to the Display The capability to write up to four 30 character lines of text to the front panel display for operator messages is available when the display is in Fast Mode This feature can be used to control the flow of software running on an external controller by pressing softkeys on the test set s front panel For example by displaying a message that prompts the operator to press a front panel softkey and then monitoring that softkey through status register bits the programmer can design code that starts measurements stops measurements or branches to a selected routine or function without the need for access to the external computer s keyboard The GPIB commands for writing messages to the display are found in the DISPlay OPERator MESSage table The status bit register GPIB commands and bit definitions for monitoring the test set s sofkeys are found in the STATus OPERation KEYPressed Register Bit Assignments table Related Topics DISPlay on page 295 STATus OPERation KEYPressed Register Bit Assignments on page 375 522 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 conf display mode fm Test Set Beeper Test Set Beeper Description This parameter allows you to change the beeper state to on or off A beep will indicate error conditions caused during manual or remote operation of th
135. 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bit is always 0 3 8 Reserved for future use This bit is always 0 2 4 Reserved for future use This bit is always 0 1 2 Audio Analyzer This is the summary message bit for the STATus OPERation NMRReady COMMon Audio Analyzer register 0 1 Extension Bit This bit is always 0 380 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation Program Examples STATus OPERation NMRReady COMMon OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT 714 714 714 714 714 STATUS STATUS STATUS STATUS STATUS OPERATION NMRREADY COMMON OPERATION NMRREADY COMMON OPERATION NMRREADY COMMON OPERATION NMRREADY COMMON OPERATION NMRREADY COMMON EVENT Queries the New Measurement IResults Ready Comm
136. 4 STATUS QUESTIONABLE CALL TA2000 NTRANSITION 2 Sets the Questionable Call Negative Transition Filter Register for bit 1 OUTPUT 714 STATUS QUESTIONABLE CALL TA2000 PTRANSITION 2 Sets the Questionable Call Positive Transition Filter Register for bit 1 STATus QUEStionable ERRors Condition Register Bit Assignment The STATus QUEStionable ERRors register bits will be used to indicate information about test set device specific errors positive error numbers Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 TA2000 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors TA2000 register 8 256 CDMA Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors CDMA register 7 128 DIGital2000 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors DIGital2000 register 6 64 DIGital95 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors DIGital95 register 5 32 TA136 Summary bit This bit is the summary message bi
137. 5 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 F12 softkey This bit is a 1 when the test set s F12 softkey has been pressed 10 1024 F11 softkey This bit is a 1 when the test set s F11 softkey has been pressed 9 512 F10 softkey This bit is a 1 when the test set s F10 softkey has been pressed 8 256 F9 softkey This bit is a 1 when the test set s F9 softkey has been pressed 7 128 F8 softkey This bit is a 1 when the test set s F8 softkey has been pressed 6 64 F7 softkey This bit is a 1 when the test set s F7 softkey has been pressed 5 32 F6 softkey This bit is a 1 when the test set s F6 softkey has been pressed 4 16 F5 softkey This bit is a 1 when the test set s F5 softkey has been pressed 3 8 F4 softkey This bit is a 1 when the test set s F4 softkey has been pressed 2 4 F3 softkey This bit is a 1 when the test set s F3 softkey has been pressed 1 2 F2 softkey This bit is a 1 when the test set s F2 softkey has been pressed 0 1 F1 softkey This bit is a 1 when the test set s F1 softkey has been pressed 375 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation Program Examples STATus OPERation KEYPressed OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71
138. 60 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib system current fm SYSTem ERRor SYSTem ERRor SYSTem ERRor gt returns num value string s Diagram Conventions on page 171 SYSTem ERRor Function Queries the contents of the error event queue The error event queue may contain one or more messages with an error or event description Manual users may view the message log from the SYSTEM CONFIG screen The contents of the error event queue and the message log may not match For example manual user errors are not displayed with SYSTem ERRor They are viewed from the Message Log See Error Messages Query Error Event Queue e Range 0 to 100 messages up to 255 characters in length Programming Example OUTPUT 714 SYSTEM ERROR Query the contents of the Error Event Queue 431 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_error fm SYSTem MEASurement RESet SYSTem MEASurement RESet SYSTem gt MEASurement gt RESet J Diagram Conventions on page 171 SYSTem MEASurement RESet Function Aborts all measurements If continuous triggering is enabled measurements will begin a new measurement cycle Setting Measurement results are set to their default values when measurement reset occurs 432 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_meas_reset fm
139. 67 4245 Latin America Region Headquarters fax 305 267 4286 5200 Blue Lagoon Drive Suite 950 Miami Florida 33126 U S A Australia New Zealand Agilent Technologies Australia Pty Ltd AustraliaNew Zealand 347 Burwood Highway tel 1 800 629 485 tel 0 800 738 378 Forest Hill Victoria 3131 fax 61 3 9272 0749 fax 64 4 802 6881 Asia Pacific Agilent Technologies tel 852 3197 7777 24 F Cityplaza One fax 852 2506 9233 111 Kings Road Taikoo Shing Hong Kong 9 S Hp8960 E1962B CDMA 2000V3 1 reference guide VE 1962 9001 7titlepage fm DECLARATION OF CONFORMITY According to ISO IEC Guide 22 and CEN CENELEC EN45014 Manufacturer s Name Agilent Technologies UK Ltd Agilent Technologies Inc Manufacturer s Address Electronic Products amp Solutions 24001 E Mission Avenue Group Queensferry Liberty Lake South Queensferry Washington West Lothian EH30 9TG 99019 9599 Scotland United Kingdom USA Declares that the product Product Name 8960 Series 10 Wireless Communications Test Set Model Number E5515B Product Options This declaration covers all options of the above product Conforms with the following European Directives The product herewith compiles with the requirements of the Low Voltage Directive 72 23 EEC and the EMC Directive 89 336 EFC including 93 68 EFC and carries the CE Marking accordingly EMC Standard Limit IEC 61326 1 1997 A1 1998 EN 61326 1 1997 A1 1998 Group 1 Class A H CISPR 11
140. 9 Rolaren TIME reperio A ax YU EP EXE bee bake tira IRE EA dd ve dd 69 Programimit vit cade a3 ddr AGAM KU A ea aed ea d ada dad see des 71 Step 1 Set up the Test Set iau sea xoa E Re ROMO CAU REOR Oe ee hoe 73 Fully Preset the Test Set uopedyda3ax4 4 RW 655446890546 AOL eee kE EANA OR JUD SRS 73 Turn on ihe GPIB Debugger 442534 X4 ASS 5 4 a dier OHS GEE EEL E 73 17 S Hp8960 E1962B CDMA 2000 3 1_reference_guide e1962 90017_bookTOC fm Set Test Sets Operating Bode das hk aC d 4 HE d x dh RR ROCCO aO dp d dA 73 Step 2 Configure Test Set and Mobile Station Parameters 00000e cues 74 Configure the Test Set Parameters 0 0 0 ccc ene eens 74 Configure the Generated Code Channels 0c cece cent eee eens 74 Configure the Mobile Station Parameters 0 0c cc cece eee eens 74 Step 3 Set Measurement Parameters 0 0 cee eee eens 75 Step 4 Make a connection uu oe ow oe AIDS E SCR OE EER EREAA RODS 85 SR TRB ERS 76 Select an example iu dear tac 4X Rr AC dope Y d oe REAL REC Ros ee OU E ERRMSG 76 MS initiated connection 6 i nib eee bie ee hee ed Ed 3xGdaqesaczbee seeded d d ORE CR A 76 Test Set initiated connection 22 a6 da Seek oe es bees el eGo ewe ERTL AFER BERE aed 76 Step 5 INITiate and FETCh Measurements 00 cece eee eee ee ees 77 INI Tate measurements and FETCH results vsi6 56 ded cvs udewee db eeseewedaew es TT Step 6 Reconfigure Test Set and Mobile Station Conne
141. 9 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 300 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 300 to 399 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 401 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 2 4 200 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 200 to 299 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 100 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 100 to 199 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 0 Extension Bit This bit is always 0 Program Example STATus QUEStionable ERRors COMMon Register Bit Assignments OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 4 STATUS Q
142. 960 E1962B CDMA 2000 3 1_reference_guide e1962 90017_bookTOC fm DOSE EDU 6k dd b ee bee G4 E E dde add bd Gdadddbiusieedd d edd 528 Related Pe 5g EET TT EL T TOTO TOT TOT UT EI TIT 529 Test Application Revisions and Licenses 00 cece eet eee eee e eens 530 DES 0 6 66h eo ONG RV RR HICRON NUR ACA C SOS ESSE bE eR RR 530 Related IS oy 6 5 ae eens aed a a 4 a cea Ah eed 4d Re nie ao ck er dene mes 531 Test Application Name ica eda eror a oo eee ACER HY Xe eS oO ae dhe des 532 Tg 21 nir PIDE aa ha ee a eee ee 532 Fead TODIDE 5444s c QE dA eee OR CICER ed A bee eee ee een E dA AER 532 29 S Hp8960 E1962B CDMA 2000V3 1 reference guideYe1962 90017 bookTOC fm 30 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm Measurements 1 Measurements 31 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters ch_measurements fm Access Probe Power Measurement Description Access Probe Power Measurement Description How is an Access Probe Power measurement made The access probe power measurement is a channel power measurement see Channel Power Measurement Description triggered by a rise in RF power detected on the test set s RF input The power threshold is approximately 55 dBm BW Access probe sequences are transmitted by the mobile station during registration or mobile station originated calls Access probe sequences consist of a series of RF power steps which increase in power accord
143. 960 E1962B CDMA 2000V3 1 reference guide XChapterscdma2000 hpib initiate fm READ Subsystem READ Subsystem Syntax Diagram and Command Descriptions READ on page 328 Description The READ command provides a sequential method to make measurements and retrieve the results READ will hang the GPIB bus until the measurement is completed or until the timeout value has been exceeded Associated SETup commands for each measurement are used with the READ command to retrieve desired measurement results in a sequential manner Sending a READ command is equivalent to an INITiate FETCh cycle for a measurement A READ command executes an abort action on that measurement followed by an INITiate and a FETCH READ commands can be mixed with FETCH queries in order to make combinations of sequential and overlapped operations One measurement can be issued a READ command sequential and the next measurement can be issued INITiate FETCh commands overlapped if necessary The advantage of using the READ commands to obtain measurement results as opposed to the INITiate FETCh method is tis simpler Fewer commands are required to obtain measurement results Some disadvantages of using READ over INITiate and FETCh are The test set does not process any additional GPIB commands until the requested measurement results are available The sequential nature of the READ command does not allow the user to make concurrent m
144. 962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call ms reported e fm CALL MS REPorted lt MCC MNC MSIN gt CALL MS REPorted lt MCC MNC MSIN gt CALL MS REPorted gt MCCode returns string MNCode returns string MSINumber returns string Diagram Conventions on page 171 CALL MS REPorted MCCode Function Queries the mobile country code MCC as reported by the mobile station Query Range 0 to 999 RST Setting Null string Programming Example OUTPUT 714 CALL MS REPORTED MCCODE CALL MS REPorted MNCode Function Queries the mobile network code MNC as reported by the mobile station Query Range 0 to 999 RST Setting Nullstring Programming Example OUTPUT 714 CALL MS REPORTED MNCODE CALL MS REPorted MSINumber Function Queries the mobile station reported mobile station identification number Query Range returns up to 10 digits RST Setting Nullstring Programming Example OUTPUT 714 CALL MS REPORTED MSINUMBER 232 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call ms reported m fm CALL MS REPorted lt ONUM PREV QPCH CPCL gt CALL MS REPorted lt ONUM PREV QPCH CPCL gt CALL gt MS REPorted ONUMber returns string gt PCONtrol gt STEP gt returns DB1 DBH DBQ Ls MINimum UNKN gt PREVision
145. ALL SETUP key 2 Press the More key 3 Press the Cell Info F2 key 4 Press the Cell Parameters F2 key 2 Set a cell parameter ri 2 Call Setup Screen cell Pouer System ID SID Netuork ID NI etes y Escape node Cell nce Cell mic Hunber of Steps Access Paging Data Rate Tiax Request Seq Parameters ol na asp Value Systen 1D SID Protocol Rev Reoistration COO Parameters V Netuork ID NID T 6 18 2000 Escape tode Off ICT c Radio Confio VIS Paging Data Rate Full an 3 N Ea ax Slot Cycle Index 1 FCH Service 7 Menu F PCH State Off _OPtion setup y N74 active Cell Gus Tupe 15 2000 Idle offset Lora 1 Turn the knob to highlight a parameter and then press the knob 2 Enter a value or selection and press the knob 3 Press the Close Menu F6 key 447 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_cell_info fm How Do I Change Cell Information B Set access parameters 1 Select the Access Parameters menu Call Setup Screen Cell Info Cell I
146. ANalyzer CONTrol MEASurement FREQuency AUTO command Setting Range 292 5 MHz to 2700 MHz Resolution 0 1 Hz Query Range 292 5 MHz to 2700 MHz RST setting 896 MHz Programming Example OUTPUT 714 RFANALYZER MANUAL MEASUREMENT MFREQUENCY 942 6 MHZ Enables manual control of the measurement signal path tune frequency and sets the tune frequency to 942 6 MHz 336 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm RFANalyzer RFANalyzer MANual MEASurement FREQuency Function Sets queries Meas Frequency the measurement downconverter signal path frequency control mode See Block Diagram This setting is applied when manual mode is selected see RFANalyzer CONTrol MEASurement FREQuency AUTO Setting Range 292 5 MHz to 2700 MHz Resolution 0 1 Hz Query Range 292 5 MHz to 2700 MHz RST setting 896 MHz Programming Example OUTPUT 714 RFANALYZER MANUAL MEASUREMENT FREQUENCY 942 6 MHZ Sets the measurement signal path tune frequency to 942 6 MHz when manual control mode is used RFANalyzer MANual UPLink MFRequency Function The setting form of this command performs two functions 1 sets the tune frequency of the test set s demodulation signal path and 2 selects manual tune mode for the test set s demodulation signal path The query form of this command returns the tune frequency of the test set s demodulation signal p
147. Agilent Technologies 8960 Series 10 Wireless Communications Test Set Agilent Technologies E1962B cdma2000 Mobile Test Application Reference Guide cdma2000 Test Application Revision B 01 1000 1805 Copyright Agilent Technologies 2000 All Rights Reserved www agilent com find 8960support e Agilent Technologies Notice Information contained in this document is subject to change without notice All Rights Reserved Reproduction adaptation or translation without prior written permission is prohibited except as allowed under the copyright laws This material may be reproduced by or for the U S Government pursuant to the Copyright License under the clause at DFARS 52 227 7013 APR 1988 Agilent Technologies Inc Learning Products Department 24001 E Mission Liberty Lake WA 99019 9599 U S A Edition Print Date All Editions and Updates of this manual and their creation dates are listed below March 2001 E1962B Test Application Revision B 01 2 S Hp8960 E1962B CDMA 2000V3 1 reference guide WE 1962 9001 7titlepage fm Safety Summary The following general safety precautions must be observed during all phases of operation of this instrument Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design manufacture and intended use of the instrument Agilent Technologies Inc assumes no liability for the customer s failure to comply with th
148. BPS19200 BPS38400 BPS76800 BPS153600 RST Setting BPS9600 Programming Example OUTPUT 714 CALL SCHANNEL DRATE RCONFIG3 BPS38400 CALL SCHannel DRATe RCONfig4 Function Sets queries the data rate of the radio configuration 4 RC4 forward supplemental channel SCH in bits per second Setting Range BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 BPS307200 Query Range BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 BPS307200 RST Setting BPS9600 Programming Example OUTPUT 714 CALL SCHANNEL DRATE RCONFIG4 BPS76800 CALL SCHannel DRATe RCONfig5 Function Sets queries the data rate of the radio configuration 5 RC5 forward supplemental channel SCH in bits per second Setting Range BPS14400 BPS28800 BPS57600 BPS115200 BPS230400 Query Range BPS14400 BPS28800 BPS57600 BPS115200 BPS230400 RST Setting BPS14400 Programming Example OUTPUT 714 CALL SCHANNEL DRATE RCONFIG5 BPS57600 268 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_schannel fm CALL SETup BAND CALL SETup BAND CALL gt SETup BAND pps ee a TTSRCA gt SELected NMT450 gt DIGital2000_ 5 returns IMT2000 JCDM KkPCS USC USPC NMT450 Diagram Conventions on page 171 CALL SETup BAND SELected Function Sets queries the frequency band that the mobile station w
149. CDMA channel OCNS is calculated to make the sum of the walsh coded channels sum up to the cell power setting Cell power is set using the CALL CELL POWer commands Data Patterns Rates All data patterns are 215 1 PRBS Data rates available on the FCH fundamental channel depend on the RC radio configuration and include Table 14 Forward FCH Data Rates RC1 RC2 RC3 RC4 RC5 1 2 kbps 1 8 kbps 1 5 kbps 1 5 kbps 1 8 kbps 2 4 kbps 3 6 kbps 2 7 kbps 2 7 kbps 3 6 kbps 4 8 kbps 7 2 kbps 4 8 kbps 4 8 kbps 7 2 kbps 9 6 kbps 14 4 kbps 9 6 kbps 9 6 kbps 14 4 kbps FCH data rates can be set using the CALL TRAFfic commands 510 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_forward_channel fm Forward Channel Description Data rates available on the SCH supplemental channel also depend on the RC radio configuration and include Table 15 Forward SCH Data Rates RC3 RC4 RC5 9 6 kbps 9 6 kbps 14 4 kbps 19 2 kbps 19 2 kbps 28 8 kbps 38 4 kbps 38 4 kbps 57 6 kbps 76 8 kbps 76 8 kbps 115 2 kbps 153 6 kbps 153 6 kbps 240 4 kbps NA 307 2 kbps NA SCH data rates can be set using the CALL SCHannel commands Closed Loop Power Control There is no active closed loop power control on the forward channel The only closed loop power control bit patterns available are e Alternating up down e Allup e All down Cl
150. DSYSUBEHL cua dap DeC Ab Sae CI CES d AERE ed EE UE ACT Rc RC 176 Desr M a sie hE Ae Eh baa See ER Spr dd d ob oe 54 ee Thess 176 AFGenerator MMC Pe 177 CALibration Subsystem 4 005 059 6 8 CHEK RW 5S Sed BS OE ER AOR a OREN HES 180 BR ie hic kw ea i ae ape M SERO De Oe ee 180 Syntax Diagram and Command Descriptions 000 cece eee tenes 180 CG clit PPP ee eee ee ee ee ee ee ee eee ee ee re 181 CALL Subsystem 253 dcr Soke addin ede ae orb goa Shad phew bday uve o a dE 185 DIO Luiz 8A SK A EKER ES GORE ERED SS ICONE O3 Y diac acd bo E V gx 185 Syntax Diagrams and Command Descriptions 0000 cece eee teens 185 CALLLICELLJ APARameter i22 06005 eos Reha Rx Reade ae aw Oe eds 187 CALL AWGNoise POWER ss Fes ce XGA ER ERO eee kab GER iad Shee Ed PR ERY 191 CALIABAN Do 04 0 ows d Ropa RE RE Re re eee ha EROR Rog diro ded ee eRe EEE ERS 195 CALMCHA NRG sve 6s OE CER e ose ee C eee eU AUR Roe AR ee ees 196 CALL CELL CLPControl sss x ex cA ar nennen ERE NATO Ou Cd X ct RC AN 198 CALLACON Nected tS EXTR g c2cc tied chee md ebur dran eR ge Rata 199 CALL CELL CONTrol DOWNlink FREQuency AUTO 0 0 0 00 eee eee 203 CAMA DART Sh 64 4 5654 648 GGRER ASAD DERE D SERS REROM SARS OOO EADS ORE RORY 204 CALICBND o ccnds Peart ivibeloeGe ca dtad dads PO RERPREE AMET AE RPE AGREES 206 CALLEFCRELL IESCApSEMODE 343274 3 3x EARS RASTA SEARED SESE I De 207 CALL FCHannel dod PX ES WEE Seb wc UR Oo RE duit dpi Rea ROC X 208 2
151. Demodulation of Forward Traffic Channel with Yes Fading 3 5 1 Receiver Sensitivity and Dynamic Range Yes 3 5 2 Single Tone Desensitization Tests 1 and 2 Yes with external signal generator 3 5 3 Intermodulation Spurious Response Attenuation Tests 1 and 2 Yes with external signal generator 3 5 4 Adjacent Channel Selectivity Yes with external CDMA generator 3 7 1 Supervision Paging Channel Yes but does not provide timing measurements 43 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_adherence_desc fm Test Adherence to Standards Table 2 IS 98 D Standards TIA EIA 98 D E1962B 4 1 Transmit Frequency Accuracy Uses the rho or EVM measurement method 4 3 1 Time Reference Yes with external fader and external timing measurement device Tolerance 4 3 2 Reverse Pilot Channel to Code Channel Time Yes Tolerance 4 3 2 Reverse Pilot Channel to Code Channel Phase Yes 4 3 4 Waveform Quality and Frequency Accuracy Uses the rho or EVM measurement method The test set also measures multi coded waveform quality a non standard but more useful measurement 4 3 5 Code Domain Power The test set measures multi coded waveform quality a non standard but more useful measurement 4 4 1 Range of Open Loop Power Uses access probe power measurement Enhanced Access Channel is not supported 4 4 3 Access Probe Output Power Yes 4 4 4 R
152. Description How is a Channel Power measurement made Channel power measurements are made by analyzing a digitized version of the input signal s downconverted IF using the test set s DSP see Block Diagram Triggering occurs on the test set s internal 20 ms frame clock The measurement is cross calibrated with the detected average power to determine the absolute power level Channel power measurements are limited to a 1 23 MHz bandwidth and can be made on either power gated or non power gated input signals Channel Power Measurement Calibration Channel power measurements are calibrated using the CALibration CPOWer command Refer to CALibration Subsystem for a description of channel power calibration Channel Power Measurement Speed There are two channel power measurement speeds fast and normal See SETup CPOWer MSPeed for GPIB command syntax Normal channel power measurements like average power measurements analyze a 10 millisecond sample of the input signal which is one half of a CDMA frame Since there is always at least one on power control group in each half frame the test set is able to search for and measure power during at least one on period Therefore normal channel power measurements can be made when the mobile station is transmitting less than full data rate or is in one of the echo service options mobile station is gating its output power according to speech activity Fast channe
153. Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bit is always 0 3 8 Reserved for future use This bit is always 0 2 4 Reserved for future use This bit is always 0 1 2 Reserved for future use This bit is always 0 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation NMRReady TA2000 OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 STATUS STATUS STATUS STATUS STATUS OPERATION NMRREADY TA2000 EVENT OPERATION NMRREADY TA2000 OPERATION NMRREADY TA2000 NTR 2 OPERATION NMRREADY TA2000 PTR 4 Queries the New Measurement IResults Ready TA2000 Event Register CONDITION IResults Ready TA2000 Condition Register OPERATION NMRREADY TA2000 ENABLE 8 Se Ready TA2000 Enable Register Ifor bit Sets
154. E PRINT Measurement problem check for signal level over under range condition END IF END Returned Values The measurements returned by this program are Integrity returns the measurement integrity indicator 0 means a successful measurement with no errors Freq error returns the worst case frequency error in parts per million PPM Frequency returns the average frequency 113 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog fstab fm Programming a Frequency Stability Measurement Related Topics Frequency Stability Measurement Description on page 39 Frequency Stability Measurement Troubleshooting on page 471 Control Program Example on page 1 114 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog fstab fm Programming a Waveform Quality Code Domain Measurement Programming a Waveform Quality Code Domain Measurement This section provides an example of how to make a waveform quality measurement via GPIB The following program example assumes that the mobile station s antenna output is connected to the RF IN OUT connector and the mobile station has found service For information on configuring the test set for a call see Step 4 Make a connection on page 76 The basic procedure to measure waveform quality is as follows 1 Make a call 2 Configure the waveform quality and code domain power measurement setup parameters using the SET
155. E 37 results Query Range 0 to 15 Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER OCHANNEL COUNT BIN FETCh WQUality CDPNoise IQNoise FAIL Function Queries the code domain power noise measurement pass fail indicator indicating whether the noise power level exceeded the level set using the SETup WQUality CDPNoise IQNoise LIMit command 0 passed 1 failed 9 91 E 37 undefined Query Range 0 1 9 91 E 37 Programming Example OUTPUT 714 FETCH WQUALITY CDPNOISE IOQNOISE FAIL FETCh WQUality CDPNoise ICHannel ALL Function Queries the code domain noise power in the I channel This query returns 64 comma separated values These represent 4 values for each of 16 bins maximum Query FETCh WQUality CDPNoise ICHannel ALL returns Walsh code spread factor noise power and power for bin 0 The integer value following power for bin 0 will be the beginning of bin 1 Walsh code spread factor noise power and power for bin 1 This pattern will repeat until the values for the last bin bin 15 have been returned Programming Example OUTPUT 714 FETCH WQUALITY CDPNOISE ICHANNEL ALL 317 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch wquality fm FETCh WQUality FETCh WQUality CDPNoise ICHannel BIN bin num Function Queries a specific bin on the code domain graph The bars on the graph bins are numbered 0 th
156. ED DROP TIMER STATE 0 201 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call connected fm CALL CONNected STATe CALL CONNected LIMit STATe Function When call limit mode is on the test set will not respond to the access probe for origination or page responses from the mobile For either a base station page or mobile station origination this command forces the mobile to repeatedly send access probes Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL CONNECTED LIMIT 0 202 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call connected fm CALL CELL CONTrol DOWNlink FREQuency AUTO CALL CELL CONTrol DOWNIink FREQuency AUTO CALL CONTrol gt DOWNlink FREQuency gt AUTO lt sp gt 1 ON 0 OFF l gt CELL gt returns 1 0 Diagram Conventions on page 171 CALL CELL CONTrol DOWNlink FREQuency AUTO Function Sets queries whether the user or the base station emulator is in control of the RF generator s CDMA forward channel frequency setting If set to on 1 the base station emulator is in control and the frequency will automatically be set by the test set This is done by mapping the selected CDMA physical channel number to a frequency as defined in applicable standards If set to off 0 the forward channel frequency is directly settable Ref
157. EDicated on page 217 CALL MS REPorted CAPability FCHannel on page 219 CALL MS REPorted QUERy on page 221 CALL MS REPorted SCHannel FORWard on page 222 CALL MS REPorted CAPability SCHannel REVerse on page 226 CALL MS REPorted CLEar on page 230 CALL MS REPorted ESN on page 231 CALL OCNSource on page 238 CALL CELL OPERating on page 240 CALL ORIGinate on page 241 CALL PAGing on page 243 CALL PILot on page 247 CALL CELL PNOFfset on page 249 CALL CELL POWer on page 250 CALL CELL PROTocol on page 254 CALL QPCHannel on page 255 CALL CELL RCONfig on page 258 CALL REGister on page 259 CALL CELL RFGenerator on page 262 CALL CELL RLGain on page 263 CALL SCHannel on page 264 CALL SETup BAND on page 269 CALL SETup CHANnel on page 270 CALL SETup HANDoff on page 272 CALL SETup SYSTem on page 273 CALL CELL SIDentity on page 274 CALL CELL SOPTION on page 275 CALL STATus on page 277 CALL SYNC on page 287 185 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib call description fm CALL Subsystem CALL MS REPorted lt MCC MNC MSIN gt on page 232 CALL TOTal POWer AMPLitude SELected on page 290 CALL MS REPorted lt ONUM PREV QPCH CPCL gt on page CALL TRAFfic on page 292 233 CALL MS REPorted lt RCON ENH REG SCIN SCL gt o
158. ERAGE FETCh FSTabil ity FREQuency ALL Function Queries the frequency stability frequency measurement Measurement results are returned in the following order minimum frequency maximum frequency average frequency and standard deviation frequency Query Minimum maximum average frequency e Range 100 E 6 to 3 E 9 Resolution 1 Hz Standard deviation frequency e Range 0 to 500 E43 Hz Resolution 0 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FREQUENCY ALL Returns minimum maximum average and standard deviation frequency 309 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch fstability fm FETCh FSTability FETCh FSTability FREQuency MAXimum Function Queries the frequency stability maximum frequency of a multi measurement Query Range 100 E 6 to 3 E49 Resolution 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FREQUENCY MAXIMUM FETCh FSTability FREQuency MINimum Function Queries the frequency stability minimum frequency of a multi measurement Query Range 100 E 6 to 3 E 9 Resolution 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FREQUENCY MINIMUM FETCh FSTability FREQuency SDEViation Function Queries the frequency stability frequency standard deviation of a multi measurement Query Range 0 to 500 E43 Hz Resolution 0 1 Hz Pro
159. ETup CPOWer COUNt STATe Function Sets queries the channel power multi measurement state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CPOWER COUNT STATE ON Turns on channel power multi measurements SETup CPOWer MSPeed Function Sets queries the channel power measurement speed Channel power measurement speed is determined by the measurement sampling period NORMal channel power measurements are sampled for 10 milliseconds while FAST channel power measurements are sampled for 1 25 milliseconds NORMal speed channel power measurements are compatible with both gated RF or non gated signals Since NORMal channel power measurements are slower than FAST measurements use NORMal when measuring gated input signals Gated input signals occur when radio configuration 1 or 2 are selected and any data rate other than full is selected See CALL TRAFfic and CALL CELL RCOMfig FAST channel power measurement speed is compatible only with non gated RF signals Non gated signals occur when radio configuration 3 4 or 5 are selected or radio configuration 1 or 2 is selected with full rate See CALL TRAF fic and CALL CELL RCONfig Setting Range NORMal FAST Query Range NORM FAST RST Setting NORM Programming Example OUTPUT 714 SETUP CPOWER MSPEED FAST Sets up fast channel power me
160. FETCh DAPower FETCh amp DAPower gt returns Integrity Indicator then Digital Average Power measurement results or average c ALL i i of results if multi measurement state is on gt ICOunt returns Intermediate Count gt INTegrity gt returns Integrity Diagram Conventions on page 171 FETCh DAPower ALL Function Queries a digital average power measurement result This query returns an integrity indicator followed by a digital average power measurement result if results are available If the multi measurement state is on the result represents the average of a number of digital average power measurements Multi measurement state by default is off To set up multi measurements see SETup DAPower COUNt SNUMber Query Range 100 to 100 dBm 9 91 E 37 e Resolution 0 01 dB Programming Example OUTPUT 714 FETCH DAPOWER ALL Returns integrity average transmit power FETCh DAPower ICOunt Function Queries the intermediate count of measurements completed in a multi measurement The multi measurement state by default is off To set up multi measurements see SETup DAPower COUNt SNUMber Query Range 0 to 999 Programming Example OUTPUT 714 FETCH DAPOWER ICOUNT FETCh DAPower INTegrity Function Queries the measurement integrity indicator for the last digital average power measurement completed Zero indicates a n
161. HANDOFF IMMEDIATE initiates a handoff 211 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_handoff fm CALL CELL MCCode CALL CELL MCCode CALL gt MCCode Sp num value Ls fs CEnny returns num value Diagram Conventions on page 171 CALL CELL MCCode Function Sets queries the mobile country code MCC This parameter can be set any time and will be sent out in the next overhead message When escape mode is on see CALL CELL ESCape MODE command description this parameter is not used Setting Range 0 to 999 Query Range 0 to 999 RST Setting 310 Programming Example OUTPUT 714 CALL CELL MCCODE 310 Sets the mobile country code to 310 212 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_mccode fm CALL CELL MNCode CALL CELL MNCode CALL gt MNCode Sp num value gt CELL returns num value Diagram Conventions on page 171 CALL CELL MNCode Function Sets queries the mobile network code MNC also referred to as IMSI 11 12 or cell network code This parameter can be set any time and will be sent out in the next overhead message When escape mode is on see the CALL CELL ESCape MODE command description this parameter is not used Setting Range 0 to 99 Query Range 0 to 99 RST Setting 0 Progra
162. HARDWARE QUESTIONABLE HARDWARE QUESTIONABLE HARDWARE CONDITION ENABLE 1024 Queries and clears the Questionable Hardware Event Register IQueries and clears the Questionable Hardware Condition Register IHardware Enable IRegister for bit 10 NTRANSITION 2 Sets the Questionable ISets the Questionable Hardware Negative Transition Filter IRegister for bit 1 PTRANSITION 2 Sets the Questionable IHardware Positive Transition Filter IRegister for bit 1 407 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status questionable fm Status Byte Register STB STB NOTE The Status Byte Register can also be read with a serial poll For example the command Status Byte Register Status_byte SPOLL 714 would perform a serial poll of the Status Byte Register returning and releasing RQS bit 6 Status Byte Register Bit Assignments Bit Binary Label Description Number Weighting 7 128 STATus OPERation Summarizes the STATus OPERation Status Register which fans out to the NMRReady and CALL Status Registers 6 64 RQS SRQ TRUE Master RQS is read by a serial poll SPOLL Suniel Seams Master Summary Status is read by a STB query defined by IEEE 488 2 5 32 Standard Event Status Register Summarizes the Standard Event Status Register 4 16 Message Available SCPI Defined 3 8 STATus QUEStion
163. L CONTinuous Function Sets the trigger arm state for all measurements Determines whether all measurements will make one measurement then stop OFF single or automatically rearm upon completion of one measurement and repeat the process ON continuous This setting overrides previously set trigger arm settings for individual measurements Setting Range ON OFF Programming Example OUTPUT 714 SETup ALL CONTinuous OFF Sets all measurements to single trigger mode 340 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_all_continuous fm SETup CAPPower SETup CAPPower NOTE SETup gt CAPPower CONTinuous Sp 1 oON O0 OFF gt returns 1 0 SETup gt CAPPower gt TIMeout Sp num value gt S MS US NS STIMe gt returns num value hcm Command STATe s lt sp gt 1 ON 0 OFF Diagram Conventions on page 171 SETup CAPPower CONTinuous gt returns1 0 TIME Sp num value S MS US NS returns num value Function Sets queries the trigger arm state for the access probe power measurement The trigger arm state determines whether the access probe power measurement will be made on the first access probe in an access probe sequence then stop 0 OFF single or automatically re arm and make measurements on each of the following access probes 1 ON continuous Setting Range 1 ON
164. LET r3 Rh REN E esa ede 436 IEEE 488 2 Common Commands 0 eee cence een nnes 437 Ib lox cio i ee ee ee eee 437 rb hhh eee oa ee as eae 438 Manual OBeratinfissvese s ves 6556s Va Ga xad ew VA ee ka M 439 How Do I Make Measurements on a Mobile 0 cece eee ee eee 441 FOU b UE E I MERERI T TETTE TIT T ETT 441 B Select measurements izsauaaedsdREXRRROAC Ado ROG ERA G ERA KORR ROCK ECRCRLGUR 441 How Do I View a Graphical Measurement 0 0 00 ccc eee ee ee eee 442 How Do I Change the Measurement Setup 0 0 cc eee eee ee eee eens 443 A Select a measurement Sos is cade eee XAR RENE d EE ERERSESAd ERRARE 443 B Set up the measurement Lauda ee e E dac o CR EO e EOD 443 How Do I Turn Off a Measurement 20 0 cc eee eee nae 444 How Do I Set Up a Call 3 uq ey Rao d ode D di qd di qp bee opo e ee ae 445 How Do I Change Call Parameters seeeeeeeee ern 446 How Do I Change Cell Information ua ck x y de XCCXCCAOR CX ek CICER ORC 447 A Set cell parameters oe ne xx EE ED GAG RC CERCARE TR OAD ORE eR AL 447 B Get access BURIED Luiuurad da dea kd dece oO EC Ee e edic SECO ede 448 C Set registration parameters diereutiibee ua dddaqhrraaddekrdtsd AAA RR EE 449 How Do I Change Code Channel Levels eller 450 How Do I Perform a bandon how ein wade os Sy eee Ree Re eee MEMOS Bee eee PX EXE EG 451 How Do I Configure the Test Set for My Test System 0
165. Lected t returns num value N b N DIGital2000 Complex Command gt AMPLitude x gt lt sp gt lt num value DBM gt eee NN returns num value s gt DIGital2000 Ls STATe a gt lt sp gt 1 0N 0 OFF gt SELected 34 returns 1 0 gt 1DIGital2000 j Diagram Conventions on page 171 191 S Hp8960 E1962B CDMA 200033 1 reference guideXChaptersicdma2000 hpib call awgn fm CALL AWGNoise POWer CALL AWGNoise POWer SAMPlitude SELected Function The setting form of this command performs two functions 1 sets the additive white gaussian noise AWGN level and 2 turns the AWGN on off state to on The query form returns the AWGN power level or NAN The optional SELected keyword in this command specifies that the AWGN power level being queried applies to the current system type AWGN and cell power see CALL CELL POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting an AWGN level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of AWGN and cell power causing total RF power limits to be exceeded see CALL TOTal POWer AMPLitude SELected for the allowable range of total RF power e Greater than 10 dB difference between cell power and AWGN e Amplitude offset causing total RF power limits to be exce
166. M Indicates that the user attempted to make an FBER measurement in a phase 1 system FBER is only possible in a phase 2 GSM system This indicator is available only when the selected broadcast band is PGSM 16 Questionable Result Due To Channel Mode Indicates that the channel mode was set to Enhanced Full Rate Speech while a Decoded Audio measurement was active Decoded Audio is not supported for EFR Speech 145 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_gen_integrity fm Integrity Indicator Table 6 Integrity Integrity Indicator Message Indicator Number 17 Can not Correlate Indicates that the test sets internally generated reference signal does not correlate with the received signal Some conditions that could cause this integrity indicator result include the following aninput signal that is corrupted e the input signal is extremely distorted e the input signal is off by more than 10 ms e the frequency of the input signal deviates more than allowed something is wrong with the long code mask coming from the mobile ID 18 Frequency Out Of Range Indicates that a Channel Power Measurement was attempted at a frequency for which there is no calibration data The test set display will indicate 4 dashes 19 Uncalibrated Due To Temperature Indicates that the current temperature of the test set is different than the calibration data temperature by more than 10
167. M hardware is not responding 498 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos400 fm 400 through 499 Error Message Descriptions Error Message Description 460 Hardware failure Hardware doesn t support This error occurs when a setting is attempted that requested operation is not possible with the test set s hardware The current firmware needs new hardware in order to work board ID names 3 GHZ ATTENUATOR 1 3GHZ ATTENUATOR 2 AUDIO BD ROM BASEBAND GENERATOR 1 ROM BASEBAND GENERATOR 2 DEMOD DOWNCONVERTER VECTOR OUTPUT BOARD 1 VECTOR OUTPUT BOARD 2 IVF MEASUREMENT MEASUREMENT DOWCONVERTER RF POWER DETECTORS REFERENCE MODULE SYNTH DOUBLER 1 SYNTH DOUBLER 2 TIMING REF MOMENTUM INSTRUMENT RF MOTHER BOARD JUMPER BOARD DIGITAL MOTHER BOARD FLAT PANEL ADAPTER REAR PANEL BOARD lt EEPROM board ID names Instrument Eeprom ID State Atten 1 Eeprom ID State Atten 2 Eeprom ID State Audio Eeprom ID State BaseBandGen 1 Eeprom ID State BaseBandGen 2 Eeprom ID State Demod DC Eeprom ID State Digital Mother Board Eeprom ID State IQ Output 1 Eeprom ID State IQ Output 2 Eeprom ID State IVF Meas Eeprom ID State Jumper Board Eeprom ID State Meas DC Eeprom ID State RF Mother Board Eeprom ID State RF Interface Eeprom ID State Ref Mod Eeprom ID State Sig Gen 1 Eeprom ID State Sig Gen 2 E
168. MMUNICATE GPIB SELF ADDRESS 14 Sets the GPIB address to 14 421 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib system communicate fm SYSTem COMMunicate SYSTem COMMunicate GPIB DEBug STATe Function Sets queries the test set s SCPI debugger state When the state is on enhanced error messages generated from GPIB commands with syntax errors are shown the test set display The error message is printed along with the syntax ERR is displayed at the end of the incorrect node Non printable characters will be replaced with the symbol See Error Messages on page 474 for a list of the errors The debugger state should be set to on only during GPIB code development Test times will increase if the debugger state is left on Setting Range 0 OFF 1 ON Query 0 1 RST setting 0 off Programming Example OUTPUT 714 SYSTEM COMMUNICATE GPIB DEBUG STATE ON Sets debugger to on SYSTem COMMunicate LAN SELF ADDRess Function Sets queries the test set s LAN IP address The value of A is used to determine the subnet mask see SYSTem COMMunicate LAN SELF SMASk on page 423 If the LAN address is changed the subnet mask should be checked to insure that it is set to the proper class for that LAN address Setting Range 15 characters formatted as follows A B C D where A 0 to 223 B C D 0 to 255 no embedded spaces Query Range
169. March 2001 on page 518 B XX release March 2001 These are the original features of the Agilent E1962B Transmitter Measurements Channel Power Average Power Peak Detector Thermal Detector Access Probe Power e Modulation Quality Rho Frequency Error Time Error Modulation Quality Multi Code Rho Frequency Error Time Error EVM Code Domain Power Receiver Measurements e Sensitivity Dynamic Range Access Probe Power e Demodulation of FCH with AWGN e Loopback Support with Service Option 002 009 and 055 518 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 secure features fm Revision Information IS 2000 Functionality Call Processing Registration One Button Page Autoanswer MS Origination Hard Handoff Band and Channel e RF Generator Pilot Sync Paging Quick Paging FCH OCNS and AWGN Channels e Radio Configuration Support Forward RC1 Reverse RC1 Forward RC2 Reverse RC2 Forward RC3 Reverse RC3 Forward RC4 Reverse RC3 Forward RC5 Reverse RC4 519 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 secure features fm Display Brightness Display Brightness Description This parameter allows you to adjust the brightness of the test set s display The test set s display screen has two brightness settings e medium brightness high brightness Example OUTP
170. Measurement Description Digital Average Power Measurement Description How is a Digital Average Power measurement made Digital average power measurements are broadband power measurements made on the RF input before frequency downconversion see Block Diagram Digital average power measurements return the true rms power level of the input signal Triggering is handled by internal mechanisms and autoranging is used No external triggering is available The input waveform is detected by a peak detector with sufficient AM bandwidth to track the instantaneous power changes of a CDMA signal Each measurement is made by analyzing a 10 millisecond period one half of a frame of the detected waveform The test set s digital signal processor DSP determines the true rms value of the signal If the input signal is power gated only the active power control groups will be measured This measurement uses autoranging based on the open loop power control response of the mobile station to set up the receiver signal path attenuation Digital Average Power measurement characteristics The digital average power measurement has greater than 2 GHZ bandwidth For this reason significant signal energy outside the IS 2000 SR1 1 25 MHz signal bandwidth will increase the measured value This measurement can be made on signals that are power gated or signals that are not power gated It is not necessary to specify whether the input signal is power gate
171. Mobile Test 63 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 prog getting started flowchart ac fm Programming Getting Started Guide for cdma2000 Mobile Test Introduction Introduction The Getting Started Guide is organized around the basic set of tasks a control program normally performs when testing a mobile station in a manufacturing environment Conventions used in this Getting Started Guide Throughout this Getting Started Guide the term test set refers to an Agilent Technologies 8960 Series 10 wireless communications test set with the E1962B cdma2000 mobile test application installed The variable A used in the steps of the Getting Started Guide refers to the test set s GPIB address How to use this Getting Started Guide The most effective way to use this Getting Started Guide is with the Programming Flowchart included in the front inside pocket of this guide and the 8960 User Documentation This documentation is found in two locations the 8960 Family Support Site updated frequently on the Internet or e the User Documentation CD ROM shipped with your test application Each step on the Programming Flowchart is illustrated with example program code in this guide Using this Getting Started Guide the Programming Flowchart and the on line information about 8960 programming you will be able to generate a control program to perform fundamental mobile station manufacturing tests 64 S Hp8960 E
172. NS level is a calculated value used to balance the relative power levels of the following channels to sum to 100 e OCNS Paging PCH Pilot PICH e Sync SCH e Fundamental FCH e Supplemental SCH Quick Paging QPCH If the contribution of OCNS is calculated to be 30 dB or less the OCNS state is turned off Query Range 0 to 20 dB NAN Resolution 0 01 dB RST Setting NAN Programming Example OUTPUT 714 CALL OCNSOURCE LEVEL Queries the calculated OCNS level 238 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ocnsource fm CALL OCNSource CALL OCNSource STATe SELected Function Queries the on off state of the orthogonal channel noise simulator OCNS The optional SELected keyword in this command specifies that the OCNS on off state being queried applies to the current system type The OCNS level is a calculated value used to balance the relative power levels of the following channels to sum to 10046 OCNS e Paging PCH e Pilot PICH e Sync SCH e Fundamental FCH e Supplemental SCH Quick Paging QPCH If the contribution of OCNS is calculated to be 30 dB or less the OCNS state is turned off Setting Range 1 0 RST Setting 1 on Programming Example OUTPUT 714 CALL OCNSOURCE STATE CALL OCNSource WALSh SELected Function Sets queries the Walsh code used for the ortho
173. OR ER E WOO RC RO EORR Ie abaci ope 3 974 517 Revision Information 2 uzubad ERO eddie hoe PEDE QU RICE UHR REA 518 BS 7 x Pi i rrr 518 Display Brightness 3s ace Gwe Ge ae BNA Rae A EC OI La PACCO OL RC Par AO ORC 520 lb sl nno RM v E H 520 Betatod TODA cua case xar ad d EHE EGRE 4C IIO C E e OR RO doa woo acd sas 520 Display Mode CPrack E 8L i uad dedo X e CCCII CARE RR CR hee ee ER ERS 521 RSE dade oe dogied dd dde er tr b AIL EA EP UP idLibei pides 521 Writing Messages to the Display 0 0 ccc eee ee 522 BLUT TNR dd ad edarbierbb idi Pss bevA de oxide dddied et bd eqabeP d didus 522 Test Set Beeper ada d d XC Cp EDI SIDA Gd E ecd dedo ava ROE E deae dod ORR RAYE 523 DBT 2234 ZDF O eC ob C EY FECI CEU EH OE IOPC d x COE 523 Related TOpitS Lora ded aad EU V d SU PE ee ne ee em Ru e SION ed dox wie i es 523 Timebase Description Configuration 0 00 eee eee eee en ees 524 E SOIN 246950 ee eae eee er ee eee ea ee a ee ee ee ee ees eee ee m 524 eE EEEE S 5 sie E SSO TTL ro 524 Configuring the Test Sets LAN 0 0 cc ee ere 525 SOSA 45 25 39 ok 46 9S pe e X Oe 8 e d RE es cu d x depo SES 525 OCA Topics RT E TE CENSET T TT ETT T TT TIT 526 Configuring the Test Set s GPIB 0 ee 527 Deis 5 4 Fhe ES E EER 69 y V FCD GA ee ER 527 Related TR REA hs he es ee ae eee ere re 527 Test Application Switching 65 a aed bade eee e x yee eRe edo EX a CR CE DR CREE ES 528 28 S Hp8
174. Operatrir MoOS srs ia oco Ene HR oS EAR AE OE CIRCE CE ACC ER RU DE e d 51 Forward CDMA channels available in test mode eee eee eee al Related TODIUE cs sacka dade 4 S V SH KR ROI ORE ASS OOOH EOE OER do dO ees 51 CW Operating Mode sos ed Vane ung xv ERA PRETEREA UP Ri ACA E 3o ern 52 OW Test Mode Pa Laid dd t rw rbd b deRVESEddd ue For ERI ied dias 52 Related Topics go uy bee ee aote lc ded 53 Configuring the F FCH Traffic Channel Forward Fundamental Traffic Channel 54 Settable F FCH Parameter gg iid ne deh ddd Rd dd GREY dd RA Rd 3x Xo 4 dud 54 GPIB BEBE uu 47335 0 74 233 43 9E bodie d dd de esrb Bcc e daa dc 54 Operating Considerations ook hah OCIO 9x e EOD ICA CRCRCACR RE e CR CAEN 54 EOS Mero RETENTO odds bons hie bee Heed TUTTI 54 Configuring the F Paging Channel F PCH 0 ccc ccc cece eee 55 Settable F Paging Parameters 4 cs 46464644964 e susi X wary rrr xd ex NER do 55 Fixed F Paging Parameters 46066406 6039 dx qx ac OY a Ko Cea ROCA Rea CR ACH c a d 55 GPIB PROGR 4224452 dddur thread eect dor Rer bead de EE ode e edd 55 pe rating Considerations iei wd CHAR ee Oda We 55 te TED Lir he OA he DEI Se ened Ghd oe tee LM sd 56 Configuring the F SCH Forward Supplemental Channel 0005 57 Settable F SCH Parameters ccc cece cee cece eee hh heh 57 Fixed F SCH Parameters a ve re e 57 GPIB PINES serirrro irrika reeet e aanerer ipii dE iE 57 Operating Considerations
175. PCH Current Level dB 278 F QPCH channel parameters 60 F QPCH Desired Level dB 255 F QPCH Indicator Bits 204 F QPCH Relative Level 255 F QPCH Relative to Pilot Level 255 F QPCH State 255 frame error rate initiate command 322 read command 328 SETup commands 351 frame error rate confidence limit FETCh command 304 frame error rate count FETCh command 304 frame error rate frames counted FETCh command 304 frame error rate integrity indicator FETCh command 304 frame error rate measurement 37 ABORt command 175 frame error rate measurement programming 111 112 frame error rate measurements 304 FETCh commands 304 frame error rate ratio FETCh command 304 Frequency 177 frequency stability 306 Frequency kHz Mininum Maximum Average 306 Frequency MHz amplitude offset 424 frequency error 306 FETCh command 312 frequency error Hz mininum maximum average 306 Frequency Stability Frequency 306 integrity 306 intermediate count 306 frequency stability frequency error 306 initiate command 322 worst frequency error 306 frequency stability FSTability measurement 39 frequency stability measurement ABORt command 175 frequency stability setup measurement timeout 356 multi measurement count 356 timeout 356 trigger arm 356 F SCH Current Level dB 278 F SCH Desired Level dB 264 F SCH Level 264 F Sync Current Level dB 278 F Sync Level 287 Fu
176. PIB bus traffic and reduced time configuring hardware This is because the number of measurements specified in the multi measurement count value are performed during one measurement cycle Programming Example OUTPUT 714 SETUP DAPOWER COUNt 10 Enters a Digital Average Power count lof 10 and turns the Digital Average Power Imulti measurement state on Related Topics Measurement Progress Report 138 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_statistics fm Timeouts Timeouts Description The primary use of measurement timeouts is to regain control of the test set s GPIB in cases where the bus could potentially hang The time normally required for a measurement to complete may vary greatly depending on the individual measurement its settings it s multiple measurement count value and so forth Because of this you may need to set the timeout longer than the default for measurements where a large number of multiple measurements are requested or where measurement triggers may be infrequent Be careful when setting a timeout that is shorter than the default It is possible to specify a timeout that is so short the measurement does not even have a chance to begin Measurement timeouts should always be at least several seconds long Timeout units default to S seconds The seconds suffix is an optional part of the command If you want MS milliseconds US microseconds or NS nanosecond
177. PONSE message This occurs before re transmitting the PAGING REQUEST if the maximum number of re transmissions have not been exceeded 5 seconds T3212 Location update timer The location update timer is set to zero periodic location update by the MS are disabled If the MS camps to the BCH and decodes a new MCC or MNC from the one it last camped on it should perform a location update zero infinite time T3250 TMSI reallocation timer Time the network waits after sending the TMSI REALLOCATION COMMAND until receiving TMSI REALLOCATION COMPLETE This occurs before aborting the procedure and releasing the Radio Resource connection 5 seconds T3260 Authentication response timer Time the network waits after an AUTHENTICATION REQUEST until receiving AUTHENTICATION RESPONSE This occurs before aborting the procedure and releasing the Radio Resource connection 5 seconds 479 S Hp8960 E1962B CDMA 2000W3 1 reference guideXChapterscdma2000 ts err fixed timer fm Manual User Error Messages Manual User Error Messages Description These messages are intended to be displayed on the manual user interface only and are not entered into the Error Event Queue Error Message Description The function you requested is not yet available The test set does not have this capability IQ Calibration completed successfully for modulator lt N gt N is the IQ modulator num
178. PUT 714 CALL CELL POWER STATE OFF Turns off cell power 253 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call power fm CALL CELL PROTocol CALL CELL PROTocol CALL x gt PROTocol gt lt Sp gt PREVision6 CELL L SELected gt returns 6 s DIGital2000 lt Sp gt PREVision6 returns 6 Diagram Conventions on page 171 CALL CELL PROTocol SELected Function Sets queries the protocol standard Currently there is only one protocol revision available PREV6 PREVision6 corresponds with IS2000 Rev0 Setting Range PREVision6 Query Range 6 RST Setting PREV6 Programming Example OUTPUT 714 CALL CELL PROT PREV6 254 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_protocol fm CALL QPCHannel CALL QPCHannel CALL QPCHannel a gt RTPilot sSp num value DB i SLEVel gt SELected gt returns num value gt DIGital2000 gt LEVel _ m gt returns num value L gt RTCe11 J Ls SELected DIGital2000 LS RTPilot x1 Sp s num value DB gt Ls SELected J gt returns num value 1DIGital2000 gt STATe l gt lt sp gt 1 ON 0 OFF 3 E SELected L gt returns 1 0 gt DIGital2000 Diagram Conventions on page 171 CALL QPCHanne
179. Parameters There are three types of generic measurement parameters e Measurement Count used by most measurements Measurement Count State Measurement Count Number e Measurement Timeout used by all measurements Measurement Timeout State Measurement Timeout Time e Measurement Trigger used by most measurements Trigger Arm used by all measurements Trigger Source not applicable to analog measurements Trigger Delay not applicable to analog measurements Measurement Count Parameters The measurement count parameters control measurement averaging The STATe command turns averaging on or off and the NUMBer command determines the number of averages The SNUMber command is a complex command which allows you to turn averaging on and set the number of averages in one command Statistical Measurement Results Parameters Parameter Command Syntax Measurement Count SETup lt meas mnemonic gt COUNt STATe lt ON 1 OFF 0 gt State Measurement Count SETup meas mnemonic COUNt NUMBer numeric Number value Measurement Count SETup meas mnemonic COUNt SNUMber numeric Number and State value Example 1 Programming Example OUTPUT Test set SET DTXP COUN 10 sets the multi measurement count state to ON and set the number of averages to 10 for the digital transmit power measurement 88 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step3 ac fm Step 3 Set Me
180. Qsqrdidc X Rud xau di Ru 115 Related Topics ghee he hee ha a0 4a NIRE PERO 115 Preset Descriptions uua ae 4 AER e e ge o Y o COP Rege ee e a 116 DS DEAL Ciro do dE EX E SED Ee ICE Ro de de Ne EO Pl 116 REL TODO io 32 9969 d Eb VERE E ee UP UP Ee 99 re ea 117 Recewer Cont al aues a rerent ps ri Ee kee OF Go COR CORR OR C OR ee Rearend 118 Manual vs Automatic Receiver Control 00 ccc eee eee een nee 118 Manual Receiver Control Parameters 2 2 0 0 icssdene send dvews waeeeceuaeeen 118 Effects on Receiver Control When Changing Operating Mode 119 Related TUBE i oe ed eo eed Eee icr e oe Ee Enea e Ee dedo eR 119 Status Subsystem Overview ccce 120 SSH eee oe o ee ERO HER I OR o dodo dol EROR OR CER leon a OPER qe JO on 121 Teele Oe a dele edad ed EP DR de bh FAS dac esrb bei dde dus cs 137 Statistical Measurement Results 22i 138 DOR DUIS ee O d ER EOD C 3 9 40 Joao det Ee a e o ec E cm E en 138 Prupeumums Example 4 6606 6446 6 680d CA 0d 0495495499409 600 CR ORC qd E KO OS 138 Bend DDR odiis 3 COE RSS E AES EEO 5 E EE Rp E Eo do 138 19 S Hp8960 E1962B CDMA 2000V3 1 reference guideYe1962 90017 bookTOC fm Timeouts use bes rope race eG OS bad xu ERI P nio eder x eap 139 DESSDBUDIE 3 5 23 3 4 92 ene bee dene eee qo ecd dL dde d ied Ab Wd c e d 139 bre So 8 hh ee ake 139 Related Te LL cid iretges 6555S OS o Ro Noob ee 139 Triggering of Measurements 4452542 9a ydo eR RRRENET EG x3 6a yy x e
181. RA Cy ee 140 Trigger Source CORDE La ae rd d d dE o E n do Cc o OR re ra did 140 D o A i ack eh EA EEE EEEE A E EAE TEETE ET 140 Related TopitS Lic ER OE ud Wed EJ iE dod dir es d 1i dea a e dod 143 Integrity Indicato ua x xr a X RACE ARAUCA A E S3 OR SE ee RRS 144 DESEE ee Oe er ee eo es Oe Rain Re qe dead AE GE Mog ar cdd Sede eaa edo 144 Example Programi ns ee Cee ee ee one TT mw 147 HEISE ee a did obe eed EP ERI UI ER rb bd dd he Es Jg dr dd 147 Measurement Progress Reports i 4656 ceu ao y o OO XAR EAR OCC AO RR RACK x 148 ho vs uoo PPP ah ow eh AANA SME EN A E ee BREE 148 Loe ee ee ee ee eee a RR dud do doo ee ob dO d Oo eco re ao 148 BERI TRIS Lea 234 34d Rid dd dd d E E oo b d EC d dpi bids d 148 Concurrent Measurements llle 149 Ih cogno PET 149 Betutod TODO a es sacaxa so esxoed A3 T3 EWER RE ROG ION Opa ES d d RO Roc ordo eo ac d 149 Invalid Measurement Results 5222222422424 24 93 GORERRXA ARX REA SX Ra RE R 150 BESOINS dubupt bidsnxddiaddAqiubeewttiioebcPuesembEe QbLcdurevd ids 150 Dealing With Semicolon Separated Response Data Lists l llle 151 lb gno mI 151 Measurement Event Synchronization eee ee eee teenies 153 Pep uan 640 d REG RE REEDED OPERA A 9 MOERORE OR feo cO d dowd 4 153 bd ie ers DONE a qua m3 dopo dd d d d dd ES I CR IE Ed ECC EROS HERR REA AR 153 Programming DONE bc dou ebd degno Ed e e OCC ON Jen 28 Ge d Ecce ico 154 Operating Considerations iuoxesasaddihbhetzadasvex
182. REESE Re X acts gals Bee eee eee ees 290 CALL PRA Pie S fare Vans go EX ABE et sca ac ERR NM eee ey ea ur aco Qe eee eae 292 CALLDCTRIGPer FYPE ncaa ef ade EN ACC E ERE XOPRR AERE RC ES CAA Ee EC RC ERN 293 DISPlay uS SB 22 23 4 5 508 ch caer ERR QR ACA eae ee INR dO eee eae ee ene aera 294 DESIO 6nd pt has qo 479 dc ER RW deer cao dw QE Ce a hae RR Cra bees 294 Syntax Diagram and Command Descriptions 0 00 e eee eens 294 IIS PAY 2 c2tc nreioed ere ed te geeee te nbadi tet eeeehSee Mieke eter deeb SaSeens 295 FETCh Subsystem auae see dad VeRO Row SHE te cEX G eee wee rx PY E Eau 298 Daer O 2 1o x se ek Do Fel eodd QE We derat Ue cA be E ERG ed 298 Syntax Diagrams and Command Descriptions 0 0c cece eee teens 298 WETOMCAPPOWE ax cee eee eRe Re hess eee Sek Wa eee eee L eae tae eee Ke 299 FE TCMmCOPOWer 1225 2x ur ves a AN o ROS a Ren eas EROS PE Oh ec ee Oe 300 EBIGhIAPONWOE xui ues are exited RO CN OR RC Ra en ee ed EROR a rw deas a e AR da 302 FETCH CFER TOT MPH a a a a a a a a T a 304 FETCh FSTabhbility TR eana Sh De we alse e ld a EAA mee eae E a 306 FETCH WQOQUAalitY 5 2 i da peg TREO ndo eg aeg EEN akaran HEU ERR EXE 312 INITiat BID SVBU BE a sra a d eten t ONS WAS RRA CED RERS BAO RA aA ep ON 320 Syntax Diagrams and Command Descriptions 00 0c cece eee ee eee 320 Tipus EDDIE Loader do RERO IEE E dcos Rod ac ee RE DUE dida ae dope ede dat io Modelo ES 320 INITiate Programming Examples how INIT comma
183. RM State change detector armed 530 OUTPUT A CALL CONN STAT 540 ENTER A MS State 550 END WHILE 560 PRINT Connection established test in progress o Test Set initiated connection In this case there is no need to use atimeout or arm the state change detector These two functions occur automatically when attempting a test set originated call 570 PRINT Attempting connection from test set 580 WHILE TS State 0 This while loop checks for an established call 590 OUTPUT A CALL ORIG 600 OUTPUT A CALL ORIG DONE 610 ENTER A TS State 620 END WHILE 630 PRINT Connection established test in progress 76 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog getting started step4 ac fm Step 5 INITiate and FETCh Measurements Step 5 INITiate and FETCh Measurements INITiate measurements and FETCh results In a typical control program many measurements are run concurrently The code below is an example of how you might choose to organize your program to efficiently run and time concurrent measurements Refer to the additional details about this step available on the Internet for more information about the different measurement results that are available and how to fetch them 640 Simul start TIMEDATE 650 OUTPUT A INIT DAP C CPOW WQU 660 LOOP 670 OUTPUT A INIT DONE 680 ENTER A measdone 690 SELECT measdone 700 CASE DAP 710 OUTPUT A FETC DAP 720 ENTER A dap integ
184. RRent TA on page 430 Test Application Name on page 532 529 S Hp8960 E1962B CDMA 20003 1 reference guide XChaptersicdma2000 conf ta switch fm Test Application Revisions and Licenses Test Application Revisions and Licenses Description Different revisions of the test applications in your test set provide different capabilities The selected test application revision is loaded after the next test application switch or power cycle of the test set Once you select a revision the revision does not change unless you select another revision You can query the selected revision all available revisions and the total count of available revisions for a selected test application These queries are helpful when selecting revisions but are not usually necessary when switching test applications NOTE The Agilent E1960A GSM mobile test application revisions prior to A 04 00 do not support test application switching If you select a revision prior to A 04 00 you will not have a path to switch back to later revisions If you accidentally switch to a non supported revision use the firmware upgrade process to load firmware with the correct revision Test Application Revision Queries and Commands These are commands to query revision information or select a revision To query a selected test application revision running or not use this GPIB command OUTPUT 714 SYSTEM APPLICATION SELECT REVISION AMPS 136 MOBILE TEST To query the
185. Register Selects which Events can set the Summary Message Bit Test Set States Continuously Monitored Logical OR Summary Message Bit Summary Message Bit The Summary Message is a single bit message which indicates whether or not one or more of the enabled events have occurred since the last reading or clearing of the Event Register The test set logically ANDs corresponding bits in the Event and Enable registers and then performs an inclusive OR on all the resulting bits to generate the Summary Message By use of the enable bits the application program can direct the test set to set the Summary Message to the 1 or TRUE state for a single event or an inclusive OR of any group of events The Summary Message is TRUE logic 1 if the register contains some information and an enabled event in the Event Register is set TRUE The Summary Message is FALSE logic 0 if the queue is empty and no enabled events are TRUE Registers can be cleared by reading all the information from the queue Registers can also be cleared using the CLS clear status command 135 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog status reg fm Status Subsystem Overview Service Request Enabling Register Model SRQ Summary Message Bits read by Serial Poll Service Request 5 4 3 2 1 0 Status Byte Register Generation Service Request Enable Register SRE lt integer gt SRE Status Bye Regist
186. Resolution 0 01 dB Query Range 0 to 20 dB Resolution 0 01 dB RST Setting 15 6 dB Programming Example OUTPUT 714 CALL SCHANNEL SLEVel SELECTED 10 Sets the cell s forward supplemental channel state to on and the level to 10 dB CALL SCHannel ENCoder Function Sets queries which encoder is used for the supplemental data If the SCH data rate has been set to the base rate for the current radio configuration base rates are data rates below 19 2 kbps the convolutional encoder is used regardless of this parameter setting If the SCH data rate has been set to the highest rate available for the current radio configuration the convolutional encoder is used regardless of this parameter setting The current radio configuration is selected by the CALL CELL RCONfig command Setting Range TURBo CONVolution Query Range TURB CONV RST Setting CONVolution Programming Example OUTPUT 714 CALL SCHANNEL ENCODER TURBO Sets the SCH encoder to turbo mode 265 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_schannel fm CALL SCHannel CALL SCHannel LEVel SELected Function Sets queries the level of the forward supplemental channel SCH The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is on
187. STem CORRection SYSTem CORRection SGAin Function Sets queries up to 20 comma separated amplitude offset values in dB This command sets the state to On See Measurement Related Configuration on page 45 The units dB are optional If no units are specified then units default to dB Sending a null list no values sets the state of all offsets to Off Setting Range 0 to 20 values between 100 to 100 Resolution 0 01 Query Range 1 to 20 values between 100 to 100 and NAN 9 91E 37 Resolution 0 01 Factory Offsets 1 through 20 are set to 0 00 dB state is set to Off Setting Programming Example OUTPUT 714 SYSTEM CORRECTION SGAIN 2 55 3 12 3 68 4 23 4 74 5 3 A complex command that sets up to 20 comma separated offsets land sets the state to On for the frequencies offsets and RF IN OUT Amplitude Offset State OUTPUT 714 SYSTEM CORRECTION SGAIN Sets the state for all frequencies and offsets to Off 425 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_correction fm SYSTem CORRection SYSTem CORRection GAIN Function Sets queries up to 20 comma separated frequency values in MHz The units GHz MHz kHz Hz are optional If no units are specified units default to Hz See Measurement Related Configuration on page 45 Sending a null list no values sets the state of all frequencies to Off Setting Range 0 to 20 comma sepa
188. Set on page 432 SYSTem PRESet on page 433 SYSTem SYNChronized on page 436 412 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 hpib system description fm SYSTem APPLication SYSTem APPLication SYSTem APPLication Ls FORMat SYSTem gt APPLication SELect Diagram Conventions l cuRRent L NAME returns string gt REVision returns string m gt CATalog returns COUNt strings gt L NAME TL gt LICense EN Sp TA name revision returns LIC NLIC PART UNKN gt COUNt returns num value gt gt REVision _ lt sp gt lt TA name gt returns COUNt strings gt COUNt lt sp gt lt TA name gt returns num value s p format name gt gt NAME returns string 2 LICense sp TA name gt s returns LIC NLIC lt sp gt lt TA name gt gt NAME L returns string REVision sp TA name revision gt K Sp TA name gt returns string gt 413 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_application fm SYSTem APPLication SYSTem APPLication CURRent NAME Function Queries the test set for the name of the currently running test application Query Range AMPS 136 Mobile Test
189. T Amplitude Offset table will be used Indicates that an amplitude offset value for that frequency has already been entered The test set will use the amplitude offset value entered first 124 Warning Source over range due to requested settings The setting selected for total transmit power a combination of cell power awgn power amplitude offset is above the test set s range 125 Warning Source under range due to requested settings The setting selected for total transmit power a combination of cell power awgn power amplitude offset is below the test set s range 130 Configuration error Unable to switch to indicated Test Application The test application selected is not available for this test set 131 Configuration error Current Test Application is not licensed License N Select another Test Application The test application selected is not licensed Select another revision or test application that is licensed License L 132 Configuration error Selected Test Application Format is not available Indicates that the fast switching operation will not activate a particular radio format Check the revision number of the test application associated with the radio format does the revision correspond with what the fast switching test application needs 492 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos100 fm 100 through 199 Error Message D
190. T Setting 0 Off Programming Example OUTPUT 714 CALL STATUS OCNS STATE SELECTED 286 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL SYNC CALL SYNC CALL gt SYNC L SLEVel Complex Command lt sp gt lt num value DB SELected L gt returns num value gt DIGital2000 LEVel sp num value DB SELected gt returns num value 4 Ls DIGital2000 gt STATe lt sp gt 1 ON 0 OFF gt SELected L gt returns 1 0 J L gt DIGital2000 Diagram Conventions on page 171 CALL SYNC SLEVel SELected Function The setting form of this command performs two functions 1 sets the sync channel SYNCH level and 2 turns the SYNCH state to ON The query form returns the SYNCH level set queried applies to the current system type The optional SELected keyword in this command specifies that the frequency band being Setting Range 0 to 20 dB Resolution 0 01 dB Query Range 0 to 20 dB Resolution 0 01 dB RST Setting 16 dB Programming Example OUTPUT 714 CALL SYNC SLEVel 16 Sets the SYNCH state to ON and sets the level to 16 dB 287 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call sync fm CALL SYNC CALL SYNC LEVel SELected Function Sets queries the forw
191. TPUT A SET DAP COUN 5 5 measurement average 370 Setup E1962B channel power 380 OUTPUT A SET CPOW CONT ON Continuous measurement 390 OUTPUT A SET CPOW TIM 3 400 OUTPUT A SET CPOW COUN 5 410 OUTPUT A SET CPOW MSP FAST Channel power sampling set to fast 420 Setup E1962B waveform quality 430 OUTPUT A SET WQU CONT ON 440 OUTPUT A SET WQU TIM 10 450 OUTPUT A SET WQU COUN 3 460 OUTPUT A SET WQU CDP IQIN LIM 30 Sets dB limit for inactive code channels 470 Setup E1962B handoff waveform quality 480 OUTPUT A SET HWO TIM 5 75 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started step3 ac fm Step 4 Make a connection Step 4 Make a connection Select an example The mobile station MS must be connected with the test set in order to perform measurements The origination of this connection can either be the mobile station or the test set Use one of two sections of code below to fit your testing need MS initiated connection The following code queries the test set for the connection status and then stops the program if a connection is not established within fifteen seconds of arming the state change detector This gives adequate time for the MS to connect with the test set 490 PRINT Make a call from the Mobile Station 500 WHILE MS State 0 This while loop checks for an established call 510 OUTPUT A CALL CONN TIM 15 520 OUTPUT A CALL CONN A
192. The test set returns a numeric value indicating the outcome of the calibration attempt Manually initiating the IQ calibration routines requires pressing the SYSTEM CONFIG hardkey then pressing the 1 of 2 hardkey then pressing the Service softkey Manually initiating the channel power or digital average power calibrations is performed by selecting the measurement and pressing a softkey Syntax Diagram and Command Descriptions CALibration 180 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_calibration_description fm CALibration CALibration CALibration CPOWer gt returns 0 1 2 3 or 340 m DAPower gt returns 0 1 2 3 or 340 y gt MEL uS returns 0 for pass or 340 for fail SI m 1102 returns 0 for pass or 340 for fail gt DATE 1 lt sp gt lt Year gt lt Month gt lt Day gt gt gt returns lt Year gt lt Month gt lt Day gt Diagram Conventions on page 171 181 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_calibration fm CALibration CALibration CPOWer Function Initiates IF level calibration used by access probe power and channel power measurements No other GP IB commands are processed until this calibration has completed Query Range e 0 Calibration passed e 1 Channel power calibration failed due to temperature drift Wait for tempera
193. Tiate on page 322 for more details about this query The INITiate DONE query returns at least one of the following indicators for each pass through the loop e CPOW The channel power measurement results are available e DAP The digital average power measurement results are available e WQU The waveform quality measurement results are available e WAIT There are one or more measurements which are in the measuring state which are not excluded from the query See INITiate DONE FLAG lt measurement mnemonic gt on page 325 When WAIT is returned at least one measurement is not ready to be fetched yet e NONE There are no measurements currently in the measuring state This assumes no measurements have been excluded See INITiate DONE FLAG lt measurement mnemonic gt on page 325 This would indicate that all measurements results are available or none have been initiated 153 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 prog meas sync fm Measurement Event Synchronization Programming Example The following example assumes that the mobile is transmitting on a digital traffic channel and no measurements other than digital TX power DTXP and digital modulation accuracy MACO are being triggered See Transition Filters on page 134 10 OUTPUT 714 SETup DAPower CONTinuous OFF Sets digital average power 20 Itrigger mode to single 30 OUTPUT 714 SETUP WQUality CONTinuous OFF Sets wavr
194. Tus OPERation CALL CDMA register 7 128 DIGital2000 Summary bit This bit is the summary message bit for the STATus OPERation CALL DIGital2000 register 6 64 DIGital95 Summary bit This bit is the summary message bit for the STATus OPERation CALL DIGital95 register 5 32 TA136 Summary bit This bit is the summary message bit for the STATus OPERation CALL TA136 register 4 16 DIGital136 Summary bit This bit is the summary message bit for the STATus OPERation CALL DIGITAL136 register 3 8 AMPS Summary bit This bit is the summary message bit for the STATus OPERation CALL AMPS register 2 4 GSM Summary bit This bit is the summary message bit for the STATus OPERation CALL GSM register 372 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation Bit Binary Condition Description Number Weighting 1 2 COMMon Summary bit This bit is the summary message bit for the STATus OPERation CALL COMMon register 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation CALL OUTPUT 71 OUTPUT OUTPUT OUTPUT OUTPUT 14 STATUS OPERATION CALL 4 STATUS OPERATION CALL EVENT 14 STATUS OPERATION CALL NTR 4 IQueries the Operation Call Event IRegister 14 STATUS OPERATION CALL CONDITION Queries the Operation Call Condition Register 14 STATUS OPERATION CALL ENABLE 4 Sets the Operation Ca
195. UEST 4 STATUS 4 STATUS 4 STATUS 4 STATUS Q Q Q QUESTIONABLE ERRORS COMMON CONDITION IONABLE ERRORS COMMON EVENT UESTIONABLE ERRORS COMMON ENABLE 1024 UESTIONABLE ERRORS COMMON NTRANSITION 2 UESTIONABLE ERRORS COMMON PTRANSITION 2 IQueries and clears the Questionable Errors Common Event Register IQueries the and clears the Questionable Errors Common Condition Register ISets the Questionable Errors Common Enable IRegister for bit 10 ISets the Questionable Errors Common Negative Transition IRegister for bit 1 ISets the Questionable Errors Common Positive Tranasition IRegister for bit 1 STATus QUEStionable ERRors DlIGital2000Condition Register Bit Assignment The STATus QUEStionable ERRors DIGital2000 register bits will be used to indicate information about DIGital2000 related test set device specific errors positive error numbers Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 402 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapte
196. UMber Function Sets queries the number of frequency stability measurements to be made in a mulit measurement setup This command sets the count and automatically sets the multi measurement STATe command to 1 on Setting Range 1 to 999 uery ange 1 to Q R 1 to 999 RST Setting 10 on Programming Example OUTPUT 714 SETUP FSTABILITY COUNT SNUMBER 5 ITurns on multi measurements and sets the number of measurements to 5 SETup FSTability COUNt NUMBer Function Sets queries the number of frequency stability measurements to be made when mulit measurement state is ON Setting Range 1 to 999 uery ange 1 to Q R 1 to 999 RST Setting 10 Programming Example OUTPUT 714 SETUP FSTABILITY COUNT NUMBER 5 Sets the number of measurements to 5 when the multi measurement state is set to ON 357 S Hp8960 E1962B CDMA 200013 1 reference guideXChaptersicdma2000 hpib setup fstability fm SETup FSTability SETup FSTability COUNt STATe Function Sets queries the multi measurement state of the frequency stability measurement Setting Range 1 ON 0 OFF uery ange Q R 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP FSTABILITY COUNT STATE ON Turns on multi measurements SETup FSTability TIMeout S TIMe Function Sets queries the frequency stability measurement s timeout setting and automatically sets the timeout st
197. USCellular 7 USPCs gt lt sp gt lt num value returns num value NMT450 196 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_channel fm CALL CHANnel CALL CHANnel SELected SELected Function Sets queries the physical channel number for the system type and frequency band specified by command parameters The first optional SELected keyword in this command specifies that the channel being set queried applies to the current system type To set make current a system type use the CALL CELL SYSTem commands The second optional SELected keyword in this command specifies that the channel being set queried applies to the current cell band Specifying a non current band when setting a channel number will cause the test set to store the channel number for use when the specified band is made current Also specifying a non current band when querying a channel number will return a stored channel number that is not the current channel the test set is transmitting To set make current a frequency band or query the current frequency band use the CALL BAND command Setting Range e IMT2000 0 to 1199 e JCDM Japanese CDMA 1 to 799 801 to 1039 1041 to 1199 e KPCS Korean PCS 0 to 599 e USC US Cellular 1 to 799 991 to 1023 e USPC U S PCS 0 to 1199 e NMTA50 1 to 300 539 to 871 1039 to 1473 1792 to 2016 Query Range e IMT2000 0
198. UT 714 DISPLAY BRIGHTNESS MEDIUM sets screen brightness to medium Related Topics DISPlay on page 295 520 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 conf brightness fm Display Mode Track Fast Display Mode Track Fast Description There are two display modes to select from when operating the test set remotely Display mode fast e Display mode track Fast Mode When operating remotely there is often no need for the display to be updated as measurements are made Using the fast display mode will increase the speed of the test set when it is operated remotely Fast mode is designed for remote use only The test set returns to track mode if you change to manual operation e No screen or menu items are visible except error messages Error messages will be displayed in their normal location e This instrument is being operated remotely will be displayed at the bottom of the screen Example OUTPUT 714 DISPLAY MODE FAST Selects fast mode Track Mode The track display mode is used to allow users to see what the test set is doing while it is being controlled remotely Track mode is the default mode of the test set e Any changes made remotely will be updated on the screen if that screen is displayed The error message window will be displayed as required when an error occurs Example OUTPUT 714 DISPLAY MODE TRACK Selects track mode 521 S Hp8960 E1962B CDMA 2000
199. UTPUT 714 CALL PAGING DRATE HALF Sets the PCH data rate to half CALL PAGing IMSI TYPE Function Sets queries the international mobile subscriber identity IMSI type This parameter will be overwritten when a new MSIN Mobile Station Identification Number is reported by the mobile station Setting Range ALL MCMS MNMS MSIN MOMS mobile country code MCC mobile station identification number MSIN MNMC mobile network code MNC mobile station identification number MSIN MSIN mobile station identification number MSIN only Query Range ALL MCMS MNMS MSIN RST Setting ALL Programming Example OUTPUT 714 CALL PAGING IMSI TYPE MCMS 244 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call paging fm CALL PAGing CALL PAGing IMSI MCC Function Sets queries the mobile country code This parameter will be overwritten when a new MSIN Mobile Station Identification Number is reported by the mobile station If paging MCC is reported by the mobile station and there are fewer digits than expected the test set will assume leading zeroes Setting Range 3 digit string Query Range 3 digit string RST Setting 310 OUTPUT 714 CALL PAGING IMSI MCC Programming Example 922 CALL PAGing IMSI MNC Function Sets queries the mobile network code This parameter will be overwritten when a new MSIN Mobile Station Identifica
200. VER COMPLETE or HANDOVER FAILURE or the MS re establishes the call before the old channels are released If the timer expires and the network has not received a correctly decoded L2 format A or B or TCH frame then the newly allocated channels are released 2 seconds T3105 Physical information repetition timer Time the network waits after sending the PHYSICAL INFORMATION message until receiving a correctly decoded L2 format A or B or TCH frame This occur before re transmitting the PHYSICAL INFORMATION message or releasing the newly allocated channels 50 ms T3107 Channel assignment timer Time the network waits after transmitting an ASSIGNMENT COMMAND message until receiving the ASSESSMENT FAILURE message or the MS re establishes the call before releasing the old and the new channels 3 seconds T3109 Signalling disconnection timer Time the network waits after sending the CHANNEL RELEASE message before disconnecting the signalling link 5 seconds T3111 Channel deactivation after disconnection timer Time the network waits after disconnecting the signalling link before deactivating the channel 500 ms 478 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_fixed_timer fm Fixed Timer Messages Timer Name Description Value T3113 Paging timer Time the network waits after transmitting the PAGING REQUEST message until receiving the PAGING RES
201. _questionable fm STATus QUEStionable Program Example STATus QUEStionable CALL CDMA Register Bit Assignment OUTPUT 714 STATUS QUESTIONABLE CALL CDMA EVENT Queries and clears the Questionable Call CDMA Event Register OUTPUT 714 STATUS QUESTIONABLE CALL CDMA CONDITION Queries and clears the Questionable Call CDMA Condition Register OUTPUT 714 STATUS QUESTIONABLE CALL CDMA ENABLE 1024 Sets the Questionable Call CDMA Enable Register for bit 10 OUTPUT 714 STATUS QUESTIONABLE CALL CDMA NTRANSITION 2 Sets the Questionable Call CDMA Negative Transition Filter Register for bit 1 OUTPUT 714 STATUS QUESTIONABLE CALL CDMA PTRANSITION 2 Sets the Questionable Call CDMA Positive Transition Filter Register Ufor bit 1 STATus QUEStionable CALL TA2000 Condition Register Bit Assignment The STATus QUEStionable CALL TA2000 registers will contain information about which event s occurred during call processing that indicate what call processing procedure failed Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0
202. able Summary Message comes from the Status Register STATus QUEStionable Status Register which fans out to the CALL and HARDware Status Registers 2 4 Error Event Queue SCPI Defined 1 2 Reserved 0 1 Reserved Program Example Status Byte Register Bit Assignments OUTPUT 714 STB IQueries the Status Byte 408 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status status byte fm Standard Event Status Register Standard Event Status Register ESR ESR gt Reads and clears the Std Event Status p Register gt ESE ESE Reads the Std Event Status Register E Enable Register ESE ESE gt Writes to the Std Event Status Register K Enable Register gt Diagram Conventions on page 171 409 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_std_evnt fm Standard Event Status Register Standard Event Status Register Bit Assignment Bit Binary Condition Description Number Weighting 15 32768 Reserved by IEEE This bit will always be 0 14 16384 Reserved by IEEE This bit will always be 0 13 8192 Reserved by IEEE This bit will always be 0 12 4096 Reserved by IEEE This bit will always be 0 11 2048 Reserved by IEEE This bit will always be 0 10 1024 Reserved by IEEE This bit will always be 0 9 512 Reserved by IEEE This bit will always be 0 8 256 Reserved by IEEE Th
203. al would be given the coding and data in use at the time of transmission The ideal waveform is then compared with the waveform being measured to determine the waveform quality Table 1 Waveform Quality Code Domain Power measurement results on page 40 lists the Waveform Quality Code Domain Power measurements Table 1 Waveform Quality Code Domain Power measurement results Waveform Quality Code Domain Power Rho Code Domain Power I Channel Frequency Error Code Domain Power Q Channel Timing Error Code Domain Power Noise I Channel Carrier Feedthrough Code Domain Power Noise Q Channel Phase Error Magnitude Error Error Vector Magnitude EVM For more information about Code Domain Power measurements refer to lt link to product note gt 40 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_wquality_desc fm Waveform Quality Code Domain Measurement Description Input Signal Requirements The Waveform Quality measurement meets or exceeds specifications when the following requirements are met The frequency of the signal being measured must be in the range of 412 MHz to 483 MHz 800 MHz to 960 MHz or 1 7 GHz to 2 0 GHz and within 100 kHz of the expected frequency The signal level into the test set s RF IN OUT connector must be in the range of 25 dBm to 37 dBm and within 9 dBm of the expected input power see RFANalyzer AUTO
204. alized command causes the test set to return a mnemonic indicating if a measurement is done If not the returned mnemonic will indicate if the measurement is still executing This command supports synchronization method three See INITiate DONE on page 324 STATUS lt register gt Status bits in the register are provided to indicate the test set s call processing state These bits support synchronization methods five and six Status bits in the STATus OPERation NMRReady Register Bit Assignments on page 376 are provided to indicate when a measurement is ready to be fetched These bits support synchronization method three and Six Many other status bits are provided in the GPIB status subsystem that are useful for synchronization See STATus Subsystem on page 365 SYSTem SYNChronized on page 436 This specialized command puts a 1 in the test set s output queue the test set responds to the query by sending a 1 to the external controller indicating that all prior sequential commands have completed and all prior overlapped commands have at least begun execution The condition bit is set then cleared See STATus OPERation Register Bit Assignments on page 371 This command supports synchronization four and six OPC on page 437 OPC on page 437 and WAT on page 438 not recommended Note These commands look at all of the test set s operations collectively Because multiple processes are likely to be executing at th
205. am Conventions on page 171 306 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib fetch fstability fm FETCh FSTability FETCh FSTability ALL Function Queries the full results of a frequency stability measurement Returns integrity worst case frequency error and average frequency Query Worst case frequency error e Range 500 to 500 parts per million ppm Resolution 0 01 ppm Average frequency Range 100 E 6 to 3 E 9 Hz Resolution 0 01 ppm Programming Example OUTPUT 714 FETCH FSTABILITY ALL Returns integrity worst case frequency error and average frequency FETCh FSTability FERRor WORSt Function Queries the worst case frequency stability measurement during a multi measurement Query Range 500 to 500 parts per million ppm Resolution 0 01 ppm Programming Example OUTPUT 714 FETCH FSTABILITY FERROR WORST 307 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch fstability fm FETCh FSTability FETCh FSTability FERRor ALL Function Queries the full results of a frequency stability Measurement results are returned in the following order minimum frequency error maximum frequency error average frequency error worst case frequency error Query Maximum minimum frequency error e Range 500 E43 to 500 E 3 Hz Resolution 1 Hz Average frequency error e Range 500 E43 to 500 E 3 Hz R
206. am example 79 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started step6 ac fm Step 7 End the Connection Step 7 End the Connection End the Connection The CALL END command ends the mobile connection A CALL DCON STAT query is used to ensure the connection has ended 1640 PRINT End call 1650 PRINT 1660 OUTPUT A CALL END 1670 OUTPUT A CALL CONN STAT Queries status of connection 1680 ENTER A State 1690 IF State 1 1700 PRINT Mobile did not disconnect 1710 ELSE IF State 0 1720 PRINT Mobile successfully disconnected 1730 END IF 1740 Timeout SUB Timeout Global timeout handler from Step 1 1750 PRINT Program timed out 1760 CLEAR 7 1770 CLEAR 714 1780 SUBEND 1790 OUTPUT A SYST PRES3 Partial reset retains test set configuration 1800 END 80 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started step7 ac fm Step 1 Set Up the Test Set Step 1 Set Up the Test Set The following information provides additional details on Step 1 of the Programming Flowchart This information is applicable to all test applications Description In this step you initialize the test set and set up the general operating conditions Contents e Initialize the Test Set e Set Up General Operating Conditions Initialize the Test Set e Fully Preset the Test Set It is important to get the test set to a k
207. and executed This can present a problem unless the external controller is properly synchronized to the test set s execution of commands Overlapped commands allow the test set to use its internal resources as efficiently as possible Methods for synchronization The test set s GPIB command set supports the following methods to achieve synchronization for overlapped commands In some cases combinations of these methods will provide the best results Methods one and two do not require the external controller to query the test set nor to perform any branching or decision making associated with information acquired from the test set Methods three through six rely on responses from the test set to an external controller indicating that some event has occurred The external controller can then make decisions based on these responses to control the flow of commands to the test set and other devices in the test system Force the test set to execute overlapped commands sequentially Force the test set to wait until an overlapped command is done executing before executing any more commands Query the test set to determine when a command has finished executing 1 2 3 4 Query the test set to determine when all commands sent to it have at least begun executing 5 Query the test set to determine the current call or data connection processing state 6 Program the test set to generate a service request when an operation has completed or the
208. ange of Closed Loop Power Control Yes but does not make timing measurements Test 2 not supported 4 4 5 Maximum RF Output Power Yes Spurious emissions uses and external spectrum analyzer 4 4 6 Minimum Controlled Output Power Uses channel power measurement 4 4 7 Standby Output Power and Gated Output Power Yes The test set provides call setup HP859XE and HP 85725C are needed to make the measurement 4 4 9 Code Channel to Reverse Pilot Output Power Accuracy Yes except Enhanced Access Channel Header Enhanced Access Channel Data and Reverse Common Control Channel Data 4 4 10 Reverse Pilot Channel Phase Discontinuity Yes The test set provides call setup HP859XE and HP 85725C are needed to make the measurement 4 5 1 Conducted Spurious Emissions Yes The test set provides call setup HP859XE and HP 85725C are needed to make the measurement 44 S Hp8960 E1962B CDMA 2000 3 1 reference guideXChaptersicdma2000 meas adherence desc fm Measurement Related Configuration Measurement Related Configuration Description Amplitude offset is provided in order to compensate for loss or gain of the external network between the test set and the DUT device under test The test set allows you to select up to 20 different offsets at 20 different frequencies There are 5 non volatile amplitude offset parameters that require your attention e RF IN OUT Amplitude Offset State Freq
209. aning lt MEASUREMENT1 MEASUREMENTI is done mnemonic lt MEASUREMENT2 MEASUREMENT is done mnemonic WAIT There are one or more measurements that are in progress but none of those measurements are done yet NONE No measurements are in progress Once a measurement is reported as being complete via the INITiate DONE query it is removed from the done list it is not reported again To use the INITiate DONE query properly your control program should immediately fetch a measurement s results once it is reported as being complete Obtain a Set of Measurement Results In order to minimize bus traffic and reduce test time the test set s measurements are designed to return multiple measured values in response to a single measurement request For example if a transmit power measurement with averaging is initiated there are five measurement results available These are Measurement integrity value Average value Minimum value Maximum value Standard deviation value orRWN Hn The test set can return the measurement results in a variety of formats to suit your needs using the FETCh subsystem The general structure of the FETCh command is as follows FETCh measurement mnemonic result format 100 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step5 ac fm Step 5 INITiate and FETCh Measurements For example the transmitter power measurement results can be returned a
210. applications Identifiers are used to specify the radio format for the command query The command query is sent to the active radio format if you don t use an identifier An identifier must be used when sending commands to the inactive radio format Developing Code It is recommended that you set the Test Set s operating environment to debug To set the Test Set debug mode to ON use the following syntax SYSTem COMMunicate GPIB DEBug ON Units of Measure Amplitude linear V Frequency Hz Power logarithmic dBm Time S 172 S Hp8960 E1962B CDMA 2000 3 1 reference guideXChaptersicdma2000 hpib syntax book diagr convent fm ABORt Subsystem ABORt Subsystem Description The ABORt command causes a measurement cycle in progress to stop If the measurement is not being continuously armed trigger arm set to single the measurement will remain in the idle state after this event If the measurement is being continuously armed trigger arm set to continuous a new measurement cycle will begin after ABORt If an ABORt command is issued from any measurement state other than measuring the command is ignored Other Commands that Execute an ABORt Action INITiate lt meas gt will execute an ABORt lt meas gt as part of the INITiate meas command READ lt meas gt will execute an ABORt lt meas gt action that aborts just one trigger sequence and then combines the INITiate and FETCh commands Synta
211. ard pilot channel SYNCH level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 0 to 20 dB Resolution 0 01 dB Query Range 0 to 20 dB Resolution 0 01 dB RST Setting 16 dB Programming Example OUTPUT 714 CALL SYNC LEVEL 16 Set the SYNCH channel level to 16 dB CALL SYNC STATe SELected Function Sets queries the synchronization SYNCH channel state The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 1 ON O OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL SYNC STATE OFF Turns off the SYNCH channel 288 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call sync fm CALL CELL SYSTem CALL CELL SYSTem CALL gt SYSTEM lt sp gt DIGital2000 Ls CELL _ L gt TYPE returns DIG2000 Diagram Conventions on page 171 CALL CELL SYSTem TYPE Function Sets queries the active cell system type Setting Range DIGital2000 Query Range DIG2000 RST Setting DIGital2000 Programming Example OUTPUT 714 CALL CELL SYSTEM TYPE DIG2000 Sets the system type to DIGital2000 289 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call system fm
212. ardware is not available 401 Hardware failure Protocol processor hardware is not responding 402 Hardware failure Demod receiver hardware is not responding 1403 Hardware failure Measurement receiver hardware is not responding 404 Hardware failure RF source 1 hardware is not responding 405 Hardware failure RF source 1 digital modulation hardware is not responding 406 Hardware failure RF source 1 level hardware is not responding 407 Hardware failure DSP demod control hardware is not responding 408 Hardware failure 2nd demod receiver hardware is not responding 409 Hardware failure Base station emulator trigger hardware is not responding 410 Hardware failure Audio source hardware is not responding 411 Hardware failure RF source 2 hardware is not responding 412 Hardware failure Internal voltmeter hardware is not responding 413 Hardware failure Fixed timebase input is not responding 497 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos400 fm 400 through 499 Error Message Descriptions Error Message Description 414 Hardware failure Fixed external reference output is not responding 415 Hardware failure Instrument reference is not responding 416 Hardware failure Bit clock A is not responding 417 Hardware failure RF source 2 frequency hardware is not responding 418 Har
213. are generated when parsing a data element which appears to be numeric including non decimal numeric types This particular error is used if the device cannot detect a more specific error 121 Invalid character in number Indicates an invalid character for the data type being parsed was encountered For example an alpha in a decimal numeric or a 9 in octal data 123 Exponent too large Indicates the magnitude of an exponent was greater than 32000 see IEEE 488 2 7 7 2 4 1 124 Too many digits Indicates the mantissa of a decimal numeric data element contained more than 255 digits excluding leading zeros see IEEE 488 2 7 7 2 4 1 128 Numeric data not allowed Indicates that a legal numeric data element was received but the device does not accept one in this position for the header 130 Suffix error This error as well as errors 131 through 139 are generated when parsing a suffix This particular error message is used if the device cannot detect a more Specific error 131 Invalid suffix Indicates the suffix does not follow the syntax described in IEEE 488 2 7 7 3 2 or the suffix is inappropriate for this device 134 Suffix too long Indicates the suffix contain more than 12 characters see IEEE 488 2 7 7 3 4 138 Suffix not allowed Indicates that a suffix was encountered after a numeric element that does not allow suffixes 140 Character data error This error
214. arsing a block data element This particular error message is used if the device cannot detect a more specific error 161 Invalid block data Indicates a block data element was expected but was invalid see IEEE 488 2 7 7 6 2 For example and END message was received before the end length was satisfied 168 Block data not allowed Indicates a legal block data element was encountered but not allowed by the device at this point in parsing 170 Expression error This error as well as errors 171 through 179 are generated when parsing an expression data element This particular error message is used if the device cannot detect a more specific error 171 Invalid expression Indicates the expression data element was invalid see IEEE 488 2 7 7 7 2 For example unmatched parentheses or an illegal character 178 Expression data not allowed Indicates a legal expression data was encountered but was not allowed by the device at this point in parsing 180 Macro error This error as well as error 181 through 189 are generated when defining a macro or execution a macro This particular error message is used if the device cannot detect a more specific error 181 Invalid output macro definition Indicates that a macro parameter place holder was encountered outside of a macro definition 183 Invalid inside macro definition Indicates that the program message unit sequence sent with a
215. ase OUTPUT 714 SYSTEM ROSCILLATOR LOCKED returns 1 or 0 locked or unlocked condition for timebase Related Topics SYSTem ROSCillator Rear Panel Connectors 524 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_timebase fm Configuring the Test Set s LAN Configuring the Test Sets LAN Description LAN IP Address The LAN address is a character string with a maximum of 15 characters and a format of A B C D where A is between 0 and 223 and B C and D are between 0 and 255 No embedded spaces are allowed The address may be manually set viewed in the system configuration screen The LAN address can be set queried using the SYSTem subsystem The LAN address is a non volatile parameter The LAN address is not affected by any reset operation and can only be changed by direct access to the parameter itself NOTE If the LAN address is set to a different network class the subnet mask will change to the default net mask for the new network class For convenience the DATA port on the front panel may be configured as a LAN port When a RJ45 jumper cable part number E5515 61160 is connected from the LAN PORT on the rear panel to the ETHERNET TO FRONT PANEL port also on the rear panel the user has LAN access from the front panel of the test set Without the RJ45 jumper cable the test set connection to a LAN is the rear panel LAN PORT connector LAN Default Gateway The LAN router d
216. asurement Parameters Measurement Timeout Parameters Measurement timeout parameters control the maximum time that a measurement executes TIMe sets the amount of time and STATe determines if the timeout is in use The STIMe command is a complex command which enables you to set both parameters in one command Measurement Timeout Parameters Parameters Command Syntax Measurement SETup meas mnemonic TIMeout STIMe numeric Timeout Time and value suffix State Measurement SETup meas mnemonic TIMeout STATe lt ON 1 OFF 0 gt Timeout State Measurement SETup meas mnemonic TIMeout TIME numeric Timeout Time value suffix Example 2 Programming Example OUTPUT Test set SET DTXP TIM 10 sets the measurement timeout state to ON and set the measurement timeout time to 10 seconds for the digital transmit power measurement Measurement Trigger Parameters There are three measurement trigger parameters They control the arming of a measurement the source of the trigger and the trigger s delay Thetrigger arm parameter determines whether the test set makes one measurement and then stops single or automatically re arms upon completion of one measurement and repeats the process continuous The recommended setting when writing a control program is single CONTinuous OFF e The trigger source parameter selects the source of the measurement trigger signal The recommended Trigger Source s
217. asurements 345 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_cpower fm SETup CPOWer SETup CPOWer TIMeout STIMe Function The setting form of this command performs two functions 1 sets the channel power measurement s timeout see Timeouts value and 2 sets the channel power measurement s timeout STATe to 1 on The query form returns the channel power measurement s timeout value Setting Range 0 1 to 999 9 seconds Resolution 0 1 second Query Range 0 1 to 999 9 RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP CPOWER TIMEOUT STIME 5 S ISets timeout state to ON and sets the timeout time to 5 seconds SETup CPOWer TIMeout STATe Function Sets queries the channel power measurements timeout see Timeouts state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CPOWER TIMEOUT STATE ON SETup CPOWer TIMeout TIME Function Sets queries the channel power measurement timeout see Timeouts setting to be used when the timeout state is set to ON Setting Range 0 1 to 999 9 seconds Resolution 0 1 second Query Range 0 1 to 999 9 RST Setting 10 seconds Programming Example OUTPUT 714 SETUP CPOWER TIMEOUT TIME 5 S 346 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup cpow
218. at a macro related execution error occurred 485 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_neg200 fm 200 through 299 Error Message Descriptions Error Message Description 271 Macro syntax error Indicates that a syntactically legal macro program data sequence according to IEEE 488 2 10 7 2 could not be executed due to a syntax error within the macro definition 272 Macro execution error Indicates that a syntactically legal macro program data sequence could not be executed due to some error in the macro definition see IEEE 488 2 10 7 6 3 273 Illegal macro label Indicates that the macro label was not accepted it did not agree with the definition in IEEE 488 2 10 7 3 274 Macro parameter error Indicates that the macro definition improperly used a macro parameter placeholder see IEEE 4882 10 7 3 275 Macro definition too long Indicates that a syntactically legal macro program data sequence could not be executed because the string of block contents were too long for the device to handle TEEE 488 2 10 7 6 1 276 Macro recursion error Indicates that a syntactically legal macro program data sequence count not be executed because it would be recursive see IEEE 488 2 10 7 6 6 277 Macro redefinition not allowed Indicates that redefining an existing macro label see IEEE 488 2 10 7 6 4 278 Macro header not found Indi
219. ate to ON Setting Range 0 1 to 999 seconds Resolution 0 1 second Query Range 0 1 to 999 RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP FSTABILITY TIMEOUT STIME 5S ISets timeout state to ON and sets the timeout time to 5 seconds SETup FSTability TIMeout STATe Function Sets queries the frequency stability measurement s timeout state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP FSTABILITY TIMEOUT STATE ON 358 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_fstability fm SETup FSTability SETup FSTability TIMeout TIME Function Sets queries the frequency stability measurement s timeout setting Setting Range 0 1 to 999 seconds Resolution 0 1 second Query Range 0 1 to 999 seconds Resolution 0 1 second RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP FSTABILITY TIMEOUT TIME 55S 359 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib setup fstability fm SETup WQUality SETup WQUality CDPower IQINactive SETup 5 WQUality 5 CONTinuous L S COUNt SETup WQUality 5 TIMeout Diagram Conventions on page 171 L gt CDPNoise IQNoise SETup WQUality Sp num value DB L gt LIMit L gt LIMit
220. ath The tune mode for the test set s demodulation path can be returned to auto using the RFANalyzer CONTrol UPLink FREQuency AUTO command Setting Range 292 5 MHz to 2700 MHz Resolution 0 1 Hz Query Range 292 5 MHz to 2700 MHz RST setting 896 MHz Programming Example OUTPUT 714 RFANALYZER MANUAL UPLINK MFREQUENCY 1955 030 MHZ Enables manual control of the demodulation signal path tune frequency and sets the tune frequency Ito 1955 030 MHz 337 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm RFANalyzer RFANalyzer MANual UPLink FREQuency Function Sets queries the tune frequency of the test set s demodulation signal path This setting is applied when manual mode is selected see RFANalyzer CONTrol UPLink FREQuency AUTO Setting Range 292 5 MHz to 2700 MHz Resolution 0 1 Hz Query Range 292 5 MHz to 2700 MHz RST setting 896 MHz Programming Example OUTPUT 714 RFANALYZER MANUAL UPLINK FREQUENCY 942 6 MHZ Sets the test set s demodulation signal path tune frequency to 942 6 MHz 338 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_rfanalyzer fm SETup Subsystem SETup Subsystem Description The SETup subsystem is used to configure the test set for each measurement Typical settings include Multi Measurement Count how many measurements will be made each time a measure
221. ath Externally applied audio signals can be analyzed through the test set s DSP module for such characteristics as AC level SINAD or distortion The audio signal to be analyzed is input to the test set using the front panel Audio IN High Low connectors The signal is then routed to the Analog To Digital Converter module s measurement sampler for analysis by the DSP module The Audio In connector accepts signals from 20 Hz to 15 KHz at input levels from 10 mV to 20 V peak 507 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen block diagram fm Block Diagram Audio 1 Path The Audio 1 path provides analog baseband signals used for frequency modulation of the test set s RF sources Up to four separate audio sources may be summed together in any combination to provide the composite Audio 1 output These include the external FM input internal direct digital synthesis DDS regenerated SAT and audio echo input The external FM input accepts an externally supplied audio signal with a peak voltage between 0 25 and 2 V peak The internal DDS generates low distortion audio signals from DC to 20 KHz with 0 1 Hz resolution One to four signals may be generated and internally summed with independent level control of each waveform The SAT regeneration circuit outputs a signal which is phase locked to a received SAT signal This is useful for testing situations where the test set needs to emulate a mobile station The audio ech
222. ating mode are Selection of radio configuration Selection of service options voice echo or data loopback Call setup and disconnection both mobile station originated and paging Mobile station registrations Hard handoffs between frequency bands and physical RF channels Service option negotiation during access state or on traffic channels Voice echoing through the mobile s earpiece Automatic control of the test set s demodulation receiver Mobile station reported information such as mobile station parameters Closed loop power control Setting the Test Set s Operating Mode to Active Cell Mode The active cell operating mode is set using the following test set command OUTPUT 714 CALL OPERating MODE CALL Related Topics Test Operating Mode on page 51 CW Operating Mode on page 52 50 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen bse active fm Test Operating Mode Test Operating Mode When the test set is in test operating mode as opposed to active cell operating mode it is necessary for the mobile station under test to be capable of independently performing operations that normally occur through over the air signaling This capability is referred to as test mode and is usually accomplished using commands which are sent to the mobile station from a system controller usually a personal computer through a proprietary digital interface See test mode paper In test mode the
223. ation Switching Programming Example This program example shows you how to switch to the GSM test application 1 Query the list of test application names to get exact spelling of the GSM test application This is not necessary if you already know the exact name 2 Query the test set to get a list of all revisions for GSM Mobile Test This is not necessary if you are not changing revisions 3 Select a revision of GSM Mobile Test This is required if you are changing revisions 4 Select the GSM test application This will switch test applications and cause the test set to reboot 10 OUTPUT 714 SYSTEM APPLICATION CATALOG NAME 20 IQueries all of the test application names 30 ENTER 714 N 40 PRINT The CATALOG names that are loaded are N 50 OUTPUT 714 SYSTEM APPLICATION CATALOG REVISION GSM MOBILE TEST 60 IQueries all revisions of GSM MOBILE TEST 70 ENTER 714 Cat rev 80 PRINT The revisions for the GSM Mobile Test Application are Cat rev 90 OUTPUT 714 SYSTEM APPLICATION SELECT REVISION GSM MOBILE TEST A 04 01 100 Selects a revision 110 OUTPUT 714 SYSTEM APPLICATION SELECT NAME GSM MOBILE TEST 120 Switches the test application to GSM MOBILE TEST 130 END 528 S Hp8960 E1962B CDMA 20003 1 reference guide XChaptersicdma2000 conf ta switch fm Test Application Switching Related Topics Test Application Revisions and Licenses on page 530 SYSTem APPLication on page 413 SYSTem CU
224. audae d WO 4569 ARO OSE eee 57 Related TODA usas dvd pq AS RR 945 6040040599906 JC HE RE CGU Sacs RR 57 Configuring the F Pilot Channel Forward PICH 20 0 cece eee eee 58 Settable F Pilot Parameters 44 4 x CECI e d ROC CORO OR Fe ERK OO HERRERA 58 Fixed P Pilot Parameters occa 64d R664 ONG GC POE we ee Oe a OG ENE 58 GPIB Esim YR TEE ab ede ee bake meee Heeb eee T TIT 58 Operating Considerations uuu d d OCEAN oo OR ea eee ee eR 58 Related TOpitS ahi d aca de quw au dV AR Xd rq o eee 58 Configuring the F OCNS Forward Orthogonal Channel Noise Simulator 59 pettable F OCNS Parameters icacadvauceevcesdeseeasacnuwceeeesdeaaadaus 59 16 S Hp8960 E1962B CDMA 2000 3 1_reference_guide e1962 90017_bookTOC fm Fixed F OCNS Parameters isnsakakur Ru RRRRREGHAGEARERAGG EAGURRE REA RR RE 59 OIE ee dons saam cdd E oed eo E EAE E 59 LInerame Cons er DD BN cn wa bE Swe Dae OR WER Ae OPER EE RE 59 Oe Oe 4 564 9 deck aab Brat Eee UR Ade deed dad ai o o 2 Ee RAG Mcd we dic 59 Configuring the F QPCH Forward Quick Paging Channel 0000 60 Settable F QPCH Parameters iaaaasassd add kd ERR qx E GR 040 d Rec e050 854 60 Id F OPCH PSEIUSDBES 13 4 44d ERA dake beh ends Cows HEEE ORE IRERCSER vrs 60 GPIB ee 125 5 9d da EOS RR ANC dope COR a adr OR doc SER a Rer 60 Operating Considerations Lundi daa dd eg d ER UHEA ACRACRCRCRCOCR ERE dew EERE SEE d n 61 BOSE DESCR 45 SE ORE TESI EE CEES OE Oe euos dde ER EDU 61 Configuring
225. ber that you are attempting to calibrate N is 1 or 2 IQ Calibration failed for modulator lt N gt N is the IQ modulator number that you are attempting to calibrate N is 1 or 2 The function you requested is not available in this TA This function is used in another Test Application IQ Calibration for modulator 1 in progress 10 minutes Call processing disabled This error is cleared by either the IQ Calibration completed successfully for modulator N or IQ Calibration failed for modulator N IQ Calibration for modulator 2 in progress 6 minutes Call processing disabled This error is cleared by either the IQ Calibration completed successfully for modulator N or IQ Calibration failed for modulator N Instrument warning Audio generator instrument has been closed The audio generator instrument was closed automatically by the test set Measurement warning Audio Analyzer instrument has been closed The audio analyzer instrument was closed automatically by the test set Measurement warning Analog audio measurement has been closed Analog audio measurements have been closed by the test set Protocol warning Setting change has terminated the link with the DUT Some setting change has caused the call to disconnect Warning Call processing disabled The call processing functions are not active because the test set is performing calibration opera
226. cap_sch_rev fm CALL MS REPorted CLEar CALL MS REPorted CLEar CALL gt MS gt REPorted gt CLEar z L gt ALL Diagram Conventions on page 171 CALL MS REPorted CLEar ALL Function Clears the mobile station database clear MS amp capability info The following mobile station data is cleared e Page MS Information e Status Request Information e Queriable MS Information mobile capabilities e Registration Type e Mobile Protocol Capability Indication e MS Called Party Number After the MS database is cleared the test set will re acquire the mobile station for the Status Request Information during the next registration Programming Example OUTPUT 714 CALL MS REPORTED CLEAR ALL 230 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call ms reported clear fm CALL MS REPorted ESN CALL MS REPorted ESN CALL 5 MS gt REPorted ESNumber returns string HEX Diagram Conventions on page 171 CALL MS REPorted ESNumber HEX Function Queries the hexadecimal formatted version of the electronic serial number Returns a string of hexadecimal characters Used only in active cell operating mode Query Range 0x00000000 to OXFFFFFFFTF or null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED ESNUMBER HEX Queries the Hexadecimal value of the ESN 231 S Hp8960 E1
227. cates that a legal macro label in the GMS see IEEE 488 2 10 13 could not be executed because the header was not previously defined 486 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 ts err msg neg200 fm 100 through 199 Error Message Descriptions 100 through 199 Error Message Descriptions Description A command error indicates that the test set s GPIB parser has detected an IEEE 488 2 syntax error When one of these errors is generated the command error bit in the event status register is set Error Message Description 100 Command error This event bit Bit 5 indicates a syntax error or a semantic error or a GET command was entered see IEEE 488 2 11 5 1 1 4 101 Invalid character Indicates a syntactic elements contains a character which is invalid for that type 102 Syntax error Indicates that an unrecognized command or data type was encountered For example a string was received when the device does not accept strings 103 Invalid separator The parser was expecting a separator and encountered an illegal character For example the semicolon was omitted after a program message unit 104 Data type error The parser recognized a data element different than one allowed For example numeric or string data was expected but block data was encountered 105 Get not allowed Indicates a Group Execute Trigger was received within a program mes
228. cle Index 243 maximum value 138 MCC mobile station reported 232 MCC manually setting 445 Meas Frequency 333 measurement change setup 443 selecting 441 view a graphical 442 measurement averaging 138 measurement cycle 140 measurement error 503 measurement progress report 148 MEASUREMENT RESET key 175 432 measurement speed channel power 343 measurement states 140 Measurement Timeout waveform quality 360 measurement timeout access probe power 341 channel power 343 digital average power 347 frame error rate 351 frequency stability 356 measurement triggering 140 measurements access probe power description 32 active versus inactive 142 channel power description 34 code domain description 40 digital average power description 36 frame error rate description 37 frequency stability description 39 how to turn off measurements 444 waveform quality code domain description 40 measuring continuous measurement state 142 measuring single measurement state 142 Message Log 431 message log 453 message log how to access 476 minimum value 138 mixed data types problems with 151 MNC mobile station reported 232 mobile country code 212 mobile network code 213 mobile station originated call 67 MSIN mobile station reported 232 Multi Measurement Count waveform quality 360 multi measurement count access probe power 341 channel power 343 digital average power 347 freque
229. command 322 integrity 302 intermediate count 302 read command 328 digital average power measurement 36 digital average power measurement calibration 180 Display Brightness 295 Display Mode 295 display mode 296 downlink speech source control of 149 E Eighth Traffic Data Rate 292 EIRP effective isotropic radiated power 214 mobile station reported 214 Encoder Type 264 end call 454 enhanced radio configuration support mobile station reported 235 error message log how to access 476 Escape Mode 207 ESN mobile station reported 231 ESN Hex 204 ESN hexadecimal 231 establish an active link 67 EVM FETCh command 312 execution error 484 Expected CW Power 333 external trigger source 140 External Trigger Type 293 ExtRef 435 F FCH Service Option Setup 277 FCH support mobile station reported 219 FER initiate command 322 read command 328 FER measurement programming 111 112 F FCH Traffic 534 Current Level dB 278 F FCH Traffic Level 208 F FCH Traffic Walsh Code 208 five millisecond frame support mobile station reported 219 F OCNS Walsh Code 238 forced registration 260 forward DCCH radio configurations supported mobile station reported 217 forward fundamental channel radio configuration support mobile station reported 219 F Paging Current Level dB 278 F Paging Level 243 Desired Level dB 243 F Pilot Current Level dB 278 F Pilot Level 247 F Q
230. command The output queue and the MAV are not affected by the CLS command Service Request Enable Register The Service Request Enable Register is an 8 bit register that enables corresponding summary messages in the Status Byte Register Enabling the service request with the SRE command allows you to choose which bits in the Status Byte Register will trigger a service request The Service Request Enable Register is read with the SRE query The returned value is the sum of the binary weighted values of the Service Request Enable Register with a range of 0 through 63 or 128 through 191 The value of the unused bit 6 will always be zero Related Topics STATus Subsystem on page 365 137 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Statistical Measurement Results Statistical Measurement Results Description Most measurements have a setup window that provides for the entry of a multi measurement count value This specifies how many measurements the test set will perform to obtain a set of values from which to calculate the following statistical measurement results Average arithmetic mean of measurement set e Minimum value from measurement set e Maximum value from measurement set Standard Deviation of measurement set Operating Considerations The advantages of using the multi measurement feature to obtain statistical measurement data include reduced time associated with G
231. cted state query ENTER Test set Call connected Program hangs here until state change or timer expires IF Call connected THEN Check if disconnection successful put error handler here END IF Call is disconnected so proceed with control program End the Mobile Station Test Mode Transmission In test mode you must send the necessary test mode commands to end the mobile station transmission Partially Preset the Test Set At this point it is good practice to partially preset the test set by sending the SYST PRES3 command This command stops all measurement and call processing processes but does not reset all values to default 108 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step ac fm Programming an Access Probe Power Measurement Programming an Access Probe Power Measurement This section provides an example of how to make an access probe power measurement via GPIB The following program example assumes that the mobile station s antenna output is connected to the RF IN OUT connector and the mobile station has found service The basic procedure to measure access probe power is as follows 1 Turn call limit on see CALL CONNected LIMit S TATe on page 202 2 Set up initial power step size number of steps and the maximum number of access probes for requests and responses see CALL CELL APARameter on page 187 3 Turn the access probe power measurement tim
232. ction Parameters 79 Reconfigure the Channel Band and Power Level 0 0 eee eee eee 79 Kecu n ieur R50 Bs kos bos 2h TOIT TITLE TT 79 Step 7 End the Connection cua ew x REX XX G3 E YU ER X WA Ow Oe x x X RYE YES 80 POTOSI aaa dog a xD nr de dod Re eap eee a o I HER ea PE CR wm 80 Step 1 Set Up the Test Set ee hh s 81 o cs a ee ee ee er re eee ee re ee re 81 Step 2 Configure Test Set and Mobile Station Parameters 00000 eee ena 83 DSO kes 5 55 eek ddd He VE PEE ARR ate ka eed ia eae 83 Step 3 Set Measurement Parameters 20 0 ccc eens 87 DRCOG go dacaceogcie doe 3d RAE cur BEE eere da OR AE go dd Sos E EAE RS 87 Step 4 Make Connection 4iisa us ad y ark aye RR VAR a OS Ep ed ORC a RON 92 ZERO iud duc sd Fe PEE dedii on dod eR ACCES eod ico dapi ond bed 92 Step 5 INITiate and FETCh Measurements 00 ccc cece ee eee eens 98 POSADA 5 245 4S RV ORO CARERS Qe ox COR ROC 4S br oa RR ol acd bacs Ca a pue SRLS 98 Step 6 Reconfigure Test Set and Mobile Station Connection Parameters 103 lo o gr c T EEE E E E E CPC ORE a ae 103 Step 7 End Connection uud as ome eO OCCUR Ae e EY EC CR AC eee ee 105 ZIP ONE ick ee 4 hd 0 SERERE eden usps ded EROR E eio teu b f 105 Programming an Access Probe Power Measurement 00 e cece eee eee 109 Programming Example Luo oaa xad PAK E QE LA ae dax o ded EEAS EENAA 109 18 S Hp8960 E1962B CDMA 2000V3 1 ref
233. curred 256 800 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 800 to 899 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 128 700 Errors The condition bit will be pulsed to a 1 and immediately back to 0 if an error in the 700 to 799 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you may query the Event Register to find out which of these errors occurred 64 600 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 600 to 699 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 32 500 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 500 to 599 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 16 400 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 400 to 499 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred
234. d Input Signal Requirements The digital average power measurement meets or exceeds specifications when the following requirements are met The frequency of the signal being measured must be in the range of 412 MHz to 483 MHz 800 MHz to 960 MHz or 1 7 GHz to 2 0 GHz The signal level into the test set s RF IN OUT connector must be between 37 dBm and 30 dBm The test set can autorange to a signal that is between 8 dBm to 20 dBm of the expected level see RFANalyzer AUTO POWer SELected Related Topics READ Subsystem SETup DA Power INITiate FETCh DAPower Channel Power Measurement Description Test Adherence to Standards 36 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_dapower_desc fm Frame Error Rate Measurement Description Frame Error Rate Measurement Description How is an FER frame error rate measurement made FER measurements are used to test the performance of a mobile station receiver During each FER measurement the test set sends a sequence of bits to the mobile station and the mobile station attempts to demodulate and re transmit the same bits back to the test set The test set keeps a running count of the measured frames and the number of frames that contained bit errors A call must be connected with a loopback service option selected see CALL CELL SOPTION to perform frame error rate measurements Intermediate measureme
235. d Query Range 0 1 to 999 9 RST Setting 10 seconds Programming Example OUTPUT 714 SETUP CAPPOWER TIMEOUT TIME 5 S 342 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup acc probe pwr fm SETup CPOWer SETup CPOWer SETup CPOWer Ls COUNt SETup CPOWer MSPeed TIMeout Diagram Conventions on page 171 gt CONTinuous lt sp gt 1 ON 0 OFF __s L gt returns 1 0 gt lt sp gt lt num value gt s Is SNUMber bore Command LS NUMBer jJ gt returns num value Sp num value gt s L gt returns num value gt S STATe lt Ssp gt 1 ON 0 OFF gt L gt returns1 0 4 lt Sp gt NORMa1 FAST L gt returns NORM FAST sp num value S MS US NS STIMe T _ STATe TIME Sp 1 ON O orF gt L gt returns num value s cmm Command L gt returns1 0 lt sp gt lt num value gt S MS US NS L gt returns num value 343 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib setup cpower fm SETup CPOWer SETup CPOWer CONTinuous Function Sets queries the trigger arm state for the channel power measurement The trigger arm state det
236. d 9554S od ESE oO d oi ed ee ee 9 365 SETA Tas OPIBBAtIOt iip du ix dup PLA TRAE CER bbb Udo dis dtt ovde dcum dod d 366 STATUS PRESSE seort teerien eta RE REXRqe Pd bd e dede ide a 384 STATusQUEBSLUonable 4226 xam ERE Yan Fea paced Se Rp dg dee Rcx n ace 385 Status Byte HESISIGE su iau aded upamdeneqQxPbyas bevy bx ppeqprdeuwpE eg ace 3upy eus 408 Standard Event Status Register 0 0 0 nent e een eeee 409 SYSTem Subsystem awn g ewe ee da eae aawole ee oe Oabe Daa aa eae waka ee ea diene 412 I po 4 45 60 85 465 05 01 aS ee NOE oS OR ees KR Gee Ses 412 Syntax Diagrams and Command Descriptions 0 0 00 cece eee eee ees 412 SYS lenvArPlicanon sou te eek ead Se FRU WR V lee RA ee d a eee eRe es 413 Related TONS a5 hse d Ge OO EE kk Ro SONEA EEEE 418 SYSTem BEEP M D m 419 SYSTem CONFigure INFormation HARDware VERBose 00000 eee 420 Dye Lem COM MubI6abe 2442 9 inure Iac ac eda oed borse ga qd Fa eX UC SURR P dp os 421 SY STe CORRECCION aus d d Som EX A eee eee E E Roo RERO a Kn e A Soin de AUR CUR 424 24 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm SYelem Uiitent DA 252532 e C4 dr d d Ue i Ra RH 430 SYS env ERRO P c e 431 SYSTem MEASurement RESet 00 ccc cee ehh n 432 SYSTem PRIDE EUMD 433 SYSTem ROSCillator usate omuia e acra e ds eed E tsar ereddeoeet Reade ON UH UON 435 SYSTem SYNChronized i2 usw su R4 CRI ERR SI
237. d Topics Error Messages on page 474 476 S Hp8960 E1962B CDMA 200033 1 reference guideXChapterscdma2000 ts err msg log fm Fixed Timer Messages Fixed Timer Messages Description This is the list of fixed timers with a brief explanation and their values timer expiry message appears in its own window on the test set display The user has no access to these values and can not change them None of the fixed timers are active when operating mode is Test Mode Timer Name Description Value T100 RADIO LINK TIMEOUT Detects the presence of the radio link by 4 SACCH detecting SACCH frames every 480 ms multiframes That is 1 92 seconds if the SACCH is completely absent T200 Data link timer Used for re transmission on the data link 155 ms for FACCH The value varies depending on the message type T301 Alerting ringing timer Timer used to limit the amount of time a 20 seconds user has to answer a call T303 Mobility Management connection Time the network waits after sending a CM 10 seconds timer SERVICE REQUEST until receiving a response This occurs before initiating call clearing procedures towards the MS T305 Release timer Time the network waits after transmittinga 10 seconds DISCONNECT message until receiving a RELEASE message T306 In band tones release timer Time the network waits after transmitting a 10 seconds DISCONNECT message while in band tones announcements are provided until r
238. data rate on the forward supplemental channel for rate set 1 as reported by the mobile station Query Range BPS9600 BPS19200 BPS76800 BPS153600 BPS307200 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD CONVOLUTION DRATE1 MAXIMUM CALL MS REPorted CAPability SCHannel FORWard CONVolution DRATe2 MAXimum Function This query only command returns the mobile station s maximum convolutional coder data rate on the forward supplemental channel for rate set 2 as reported by the mobile station Query Range BPS14400 BPS28800 BPS57600 BPS230400 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD CONVOLUTION DRATE2 MAXIMUM 223 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_sch_forw fm CALL MS REPorted SCHannel FORWard CALL MS REPorted CAPability SCHannel FORWard COUNt Function This query only command returns the mobile station s capability to support multiple forward supplemental channels as reported by the mobile station Query Range 0 1 2 9 91 E 37 RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD COUNT CALL MS REPorted CAPability SCHannel FORWard RCONfig Function This query only command returns
239. de Chapters cdma2000_hpib_display fm DISPlay DISPlay WINDow ERRor CLEar Function Clears the error message from the display screen but not from the Message Log Programming Example OUTPUT 714 DISPLAY WINDOW ERROR CLEAR Clears an error message from the display DISPlay OPERator MESSage Function Allows the operator to enter up to four messages each up to 30 characters in length These messages will be printed to the display when the command is sent and DISPlay MODE is set to FAST Setting 1 213 4 1 uppermost field 4 lowermost field Factory Each message is initialized to a null string Nothing will be displayed until one or more of the setting four GPIB messages is sent to the test set Programming Example OUTPUT 714 DISP OPER MESS1 Press F6 to stop test IWrites the message Press F6 to stop test to the uppermost display field 297 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_display fm FETCh Subsystem FETCh Subsystem Description The FETCh query is a function that allows users to query results from a measurement that was previously INITiated or READ It does NOT begin a measurement If no measurement is in progress it will return the integrity and measurement values from the last measurement made or return an integrity of No Result Available and results of NAN If a measurement is in process the query will hang until the
240. degrees C when attempting a Channel Power Measurement 20 Potential Receiver Saturation Indicates that an input signal immediately prior to the measured input was high enough to potentially saturate the receiver hardware 21 Parameter Error Indicates that a measurement setup parameter has been set in a way that gives invalid measurement results 22 Unsupported Configuration Indicates that some parameter other than a measurement setup parameter has been set so that it causes an invalid measurement result Typically this would be a base station emulator parameter 23 Call Processing Operation Failed Indicates that a call processing operation base station emulator needed in the course of making the measurement could not complete 146 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_gen_integrity fm Integrity Indicator Example Program 10 OUTPUT 714 INITiate DAPower Start Digital Average measurement 20 OUTPUT 714 FETCH DAPower Request measurement results 30 ENTER 714 Integrity Tx power Read measurement results 40 IF Integrity 0 THEN Permits measurement to be printed if integrity indicator 50 lindicates a successful measurement 60 PRINT Analog TX Power Tx power if 0 then measurement was successful 70 ELSE 80 PRINT Measurement integrity questionable integrity value Integrity If 90 lintegrity 100 lnot zero 110 then print 120 lintegrity 130 value 140 END IF 150 END Related
241. dicator value is returned for every completed measurement It is recommended that the user take advantage of this feature in every measurement The returned value defines whether or not a problem was encountered by the measurement process It is not however guaranteed to be the only or root cause of the measurement problem This is because some of the conditions surrounding a measurement may interact and the test set may have insufficient information to determine the root cause of the measurement problem However in most cases the value returned is the most likely cause of the problem Not all of the integrity indicator values are available for each measurement or test application if a value doesn t apply it will not be available Example Questionable Result for PGSM 15 and Questionable Result Due To Channel Mode 16 are GSM only integrity indicator values NOTE Measurement synchronization must be set to midamble in order for GSM measurements to return integrity indicator 8 9 11 Table 6 Integrity Integrity Indicator Message Indicator Number 0 Normal Indicates the measurement completed successfully without error and the result is accurate 1 No Result Available Indicates that there is no measurement result and returns NAN not a number 2 Measurement Timeout Indicates that a measurement has timed out The measurement timeout state must be set to ON 3 Hardware Not Installed Indicates that a piece
242. dition Register A condition is a test set state that is either TRUE or FALSE a GPIB command error has occurred or a GPIB command error has not occurred Each bit in a Condition Register is assigned to a particular test set state A Condition Register continuously monitors the hardware and firmware states assigned to it There is no latching or buffering of any bits in a Condition Register it is updated in real time Condition Registers are read only Condition Registers in the test set are 16 bits long and may contain unused bits All unused bits return a zero value when read Transition Filters In the test set the Transition Filters are implemented as two registers a 16 bit positive transition PTR register and a 16 bit negative transition NTR register For each bit in the Condition Register a Transition Filter bit determines the state transitions which will set a corresponding bit in the Event Register Transition Filters may be set to pass positive transitions PTR negative transitions NTR or either PTR or NTR A positive transition refers to a condition bit which has changed from 0 to 1 A negative transition refers to a condition bit which has changed from 1 to 0 A positive transition of a bit in the Condition register will be latched in the Event Register if the corresponding bit in the positive transition filter is set to 1 A positive transition of a bit in the Condition register will not be latched in the Event Register if the c
243. dma2000_hpib_display fm DISPlay DISPlay BRIGhtness Function Sets queries the test set s display brightness A display backlight dimming feature lowers the display brightness after approximately 10 minutes without any manual user interaction with the test set See Display Backlight Dimming on page 294 Setting Range MEDium HIGH Query Range MED HIGH Factory HIGH this parameter is not affected by any reset operation and can only be changed by direct setting user access Programming Example OUTPUT 714 DISPLAY BRIGHTNESS MEDIUM Sets display brightness to medium DISPlay MESSage MASKable STATe Function Blocks maskable messages from appearing on the test set display screen but not from the Message Log Maskable messages are reported to the Message Log in either state See Error Messages on page 474 Setting Range On Off Query Range On Off Factory On setting Programming Example OUTPUT 714 DISPLAY MESSAGE MASKABLE STATE OFF Prevents certain messages from appearing on the display DISPlay MODE Function Sets queries the test set s display mode See Display Mode Track Fast for a description of fast and track display modes Setting Range FAST TRACK Query Range FAST TRAC RST setting TRACK Programming Example OUTPUT 714 DISPLAY MODE FAST Sets display mode to fast 296 S Hp8960 E1962B CDMA 2000 3 1_reference_gui
244. doff automatically occurs WAIT 5 OUTPUT A FETC HWQ INT ENTER A hwq int OUTPUT A FETC HWOQ RHO ENTER A hwq rho IF hwq int 0 THEN PRINT Handoff waveform qualuty multi code rho hwq rho ELSE PRINT Integrity error for handoff waveform quality hwq int END IF Hand end TIMEDATE PRINT PRINT Handoff measurement time Hand end Hand start PRINT PRINT TOTAL TEST TIME Hand end Simul start S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started stepb5 ac fm Step 6 Reconfigure Test Set and Mobile Station Connection Parameters Step 6 Reconfigure Test Set and Mobile Station Connection Parameters Reconfigure the Channel Band and Power Level The example below contains the code appropriate for testing at a new power level and then handing the call off to a different band and channel 1410 OUTPUT A CALL POW DIG2000 72 1420 OUTPUT A CALL SET BAND DIG2000 USPC Handoff active band to US PCS 1430 OUTPUT A CALL SET CHAN 384 Channel is 384 1440 OUTPUT A CALL HAND Execute handoff 1450 WAIT 2 1460 OUTPUT A CALL STAT STAT 1470 ENTER A hand stat 1480 IF hand stat CONN 1490 PRINT Handoff unsuccessful 1500 GOTO 1390 1510 ELSE IF hand statS CONN 1610 PRINT Handoff successful 1620 END IF 1630 OUTPUT A SET DAP CONT ON Set average power measurement to continuous Reconfigure the MS There are no MS parameters reconfigured in this progr
245. dware failure RF source 2 digital modulation hardware is not responding 419 Hardware failure RF source 2 level hardware is not responding 420 Hardware failure RF source hopping hardware is not responding 421 Hardware failure Digital demod hopping hardware is not responding 422 Hardware failure Misc VI hardware is not responding 423 Hardware failure Unable to access networking information 424 Hardware failure Bit clock B is not responding 425 Hardware failure Invalid EEPROM checksum lt EEPROM board ID gt See the list of EEPROM board ID names below 426 Hardware failure Unable to write to EEPROM lt EEPROM board ID gt See the list of EEPROM board ID names below 427 Hardware failure Unable to read from EEPROM lt EEPROM board ID gt See the list of EEPROM board ID names below 428 Hardware failure Board not identified lt board ID gt See the list of board ID names below 429 Hardware failure Could not create board identification lt board ID gt See the list of board ID names below 430 Hardware failure Control version not compatible with FW lt board ID gt See the list of board ID names below 431 Hardware failure RF IO DAC cannot be calibrated due to present temperature 432 Hardware failure RF hardware is not responding 433 Hardware failure RF source FM hardware is not responding 434 Hardware failure Audio source F
246. e OUTPUT 714 SETUP DAPOWER CONTINUOUS ON Sets measurement to single trigger mode SETup DAPower COUNIt SNUMber Function The setting form of this command performs two functions 1 sets the number of digital average power measurements to be made in a multi measurement and 2 sets the multi measurement STATe command to 1 on The query form returns the number of digital average power multi measurements to be made when mulit measurement state is ON Setting Range 1 to 999 Query Range 1 to 999 RST Setting Off 10 when STATe On Programming Example OUTPUT 714 SETUP DAPOWER COUNT SNUMBER 5 ITurns on multi measurements and sets the number of measurements to 5 SETup DAPower COUNt NUMBer Function Sets queries the number of digital average power measurements to be made when the multi measurement state is ON Setting Range 1 to 999 uery ange 1 to Q R 1 to 999 RST Setting 10 Programming Example OUTPUT 714 SETUP DAPOWER COUNT NUMBER 5 ISets the number of measurements to 5 when the multi measurement state is set to ON 348 S Hp8960 E1962B CDMA 2000 3 1 reference guideYXChaptersicdma2000 hpib setup dapower fm SETup DAPower SETup DAPower COUNt STATe Function Sets queries the multi measurement state of the digital average power measurement Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Exampl
247. e OUTPUT 714 CALL CELL POWER SAMPLITUDE 30 Sets the cell power state to ON and sets RF output power to 30 dBm 251 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call power fm CALL CELL POWer CALL CELL POWer AMPLitude SELected Function Sets queries the cell power level including compensation for amplitude offset The optional SELected keyword in this command specifies that the cell power level being set or queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Cell power and AWGN see CALL AWGWNoise POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting a cell power level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of cell power and AWGN causing total RF power limits to be exceeded see CALL STATus TOTal POWer AMPLitude SELected for the allowable range of total RF power levels e Greater than 10 dB difference between cell power and AWGN e Amplitude offset causing total RF power limits to be exceeded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz Resolution 0 01 dB Query Range Same as sett
248. e OUTPUT 714 SETUP DAPOWER COUNT STATE ON Turns on multi measurements SETup DAPower TIMeout STIMe Function The setting form of this command performs two functions 1 sets the digital average power measurement s timeout value and 2 sets the digital average power measurement s timeout STATe to 1 on The query form returns the channel power measurement s timeout value Setting Range 1 to 999 seconds Resolution 1 second Query Range 1 to 999 RST Setting 10 seconds on Programming Example OUTPUT 714 SETUP DAPOWER TIMEOUT STIME 5S Sets timeout state to ON and sets the timeout time to 5 seconds 349 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib setup dapower fm SETup DAPower SETup DAPower TIMeout STATe Function Sets queries the digital average power measurement s timeout state Setting Range 1 ON 0 OFF Query Range 1 0 8 RST Setting 0 off Programming Example OUTPUT 714 SETUP DAPOWER TIMEOUT STATE ON SETup DAPower TIMeout TIME Function Sets queries the digital average power measurement s timeout setting to be used when the timeout state is set to ON Setting Range 1 to 999 seconds Resolution 1 second Query Range 1 to 999 RST Setting 10 seconds Programming Example OUTPUT 714 SETUP DAPOWER TIMEOUT TIME 5S 350 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChap
249. e 16 to 15 dB Resolution 1 dB uery ange 16 to Q R 16 to 15 dB Resolution 1 dB RST Setting 0 Programming Example OUTPUT 714 CALL CELL APARAMETER POWER INITIAL 10 Sets the initial power to 10 dB CALL CELL APARameter POWer STEP LEVel Function Sets queries the step increase between each mobile station access probe during each access probe sequence Setting Range 0 to 7 dB per step Resolution integer Query Range 0 to 7 dB per step Resolution integer RST Setting 3 dB Programming Example OUTPUT 714 CALL CELL APARAMETER POWER STEP 5 Sets the power step size to 5 dB per step CALL CELL APARameter POWer STEP COUNt Function Sets queries the maximum number of power level steps in a single access probe sequence Setting Range 0 to 7 Query Range 0 to 7 RST Setting 3 Programming Example OUTPUT 714 CALL CELL APARAMETER POWER STEP COUNT 5 Sets the number of access probes in a single access probe sequence to 5 189 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_aparameter fm CALL CELL APARameter CALL CELL APARameter PREamble Function Sets queries the access parameters message preamble length The access channel preamble length is expressed in units of 20 millisecond frames Setting Range 0 to 15 Resolution integer Query Range 0 to
250. e US00000123 Printable ASCII characters excluding comma and semicolon up to a 20 character string Firmware revision example 0 NOTE The IDN query will always indicate that the firmware revision is zero SYSTem APPLication CURRent REVision is the recommended way to query the firmware revision Related Topics Hardware Configuration Report 515 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_ident fm Hardware Configuration Report Hardware Configuration Report Description You can generate a list of the test set s hardware configuration over the LAN or GPIB The LAN query is the easiest and most direct way to query the test set s hardware configuration This method uses your web browser to display a formatted report The GPIB query returns an unformatted character string that must be buffered and saved to an HTML file to provide formatted text LAN Query 1 Refer to the SYSTEM CONFIG screen to determine the LAN address 2 Open a web browser and enter LAN address gt iconfig For example if your LAN address is 130 2 2 147 you would enter 130 2 2 147 iconfig 3 The web browser will then display formatted text A partial list of the hardware configuration information is shown below Agilent Technologies 8960 Series 10 ES515A Serial Number US00000097 Current Test Application E19604 GSM Mobile Test 4 04 01 Instrument Options Installed RF Source 2 HOST BOOT ROM REV
251. e Frequency signal e 10 kHz 6 kHz Intermediate Frequency signal The Measurement Downconverter module is designed for very high performance operation to ensure accurate and repeatable measurement results The Measurement Downconverter module contains two downconversion stages two local oscillators and a logarithmic IF envelope detector Both first and second LO synthesizers are tunable The first LO is used when tuning to the RF input frequency and the second LO is used when setting second IF frequency which is fed to the measurement sampler on the Analog To Digital Converter module 505 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen block diagram fm Block Diagram Link Subsystem The Link Subsystem maintains the radio link for all CDMA formats The Link Subsystem has three parts e Link Subsystem Analog e Link Subsystem Digital e Protocol Processor The Link Subsystem Analog board processes the signal from the Demodulation Downconverter through a 12 bit DAC The digital data is sent to the Link Subsystem Digital board and processed into I Q digital data The I Q digital data is returned to the Link Subsystem Analog board and converted into I Q analog baseband signals The I Q baseband signals are sent to the I Q modulator in the RF Source The Link Subsystem Digital board provide Layer 1 digital signal processing There are several Field Programmable Logic Arrays which are programmed for different CDMA formats
252. e do dC EO ono E ERE ACH EUER EO EO o 468 Interpreting Integrity Indicator values 0 ccc ccc eee ee eee nae 469 RENE hh Nod didi i pn ORE RE hee Eee REO eG ie D 469 Digital Average Power Troubleshooting cece eee eee eens 470 Possible Setup ISSUE 1 4 iic or Ov SS 4 Roe Sc ka o od ee s Ro dC cca vob dod 470 Interpreting Integrity Indicator values 4 44 i esses kes iad dh RETE RS da 470 Related Topics 106i 3 La bre ah be ee he ee ct a 470 Frequency Stability Measurement Troubleshooting llle 471 cas th ee ee EE Oo o ICI E ee a 471 Interpreting Integrity Indicator values 15222cssssusasec ok xo xe 471 Related TOPICS i 9G oe AAE OEA 250700212 10 TD 471 Frame Error Rate Measurement Troubleshooting 0 0 eee eee eens 472 Possible Setup Issues hn nd bac adedid d hdd seek ER Eq de Edd dd ER EP kid Ee 472 Interpreting Integrity Indicator values 4 64 4054 aaa ERROR Y XX Rc RE 472 RKelated TOP CS i43 ooo eG ee SUR ROO CE FREE ad AN d quU EE P 472 Waveform Quality Measurement Troubleshooting lees 473 Possible Setup IMMER non ce brrRadeed dii dk dor duck bodedid bd debe e eddie 473 Interpreting Integrity Indicator values 2 66 ee ee eee s 473 Pease eo oe 3 Qoid ds d a e E b JE boda d d eee ee Ed eee bh a es 473 Error Message apa o ac x aca FREER DER e EAE ERD RAR RC ROC UI SAGE DEERE REA 474 Do O ion sas he Gk dried cb e ACA UC do dp bates a EE OA ee AERA 474 ir es EEE E E E a EE a E E E E
253. e error occurred The device cannot detect the more specific errors described for errors 251 through 259 251 Missing mass storage Indicates that a legal program command or query could not be executed because of missing mass storage 252 Missing media Indicates that a legal program command or query could not be executed because of missing media For example no disk 253 Corrupt media Indicates that a legal program command or query could not be executed because of corrupt media For example bad disk or wrong format 254 Media full Indicates that a legal program command or query could not be executed because the media is full For example there is no room left on the disk 255 Directory full Indicates that a legal program command or query could not be executed because the media directory was full 256 File name not found Indicates that a legal program command or query could not be executed because the file name was not found on the media 257 File name error Indicates that a legal program command or query could not be executed because the file name on the device media was in error For example an attempt was made to read or copy a nonexistent file 258 Media protected Indicates that a legal program command or query could not be executed because the media was protected For example the write protect switch on a memory card was set 270 Macro error Indicates th
254. e measured before confidence limit checking can begin A speed up feature which is always active allows the test set to end an FER measurement before reaching the minimum number of frames required to apply confidence limit checking The speed up feature calculates a maximum value of frame errors allowed before confidence limit checking begins and ends the FER measurement with a fail indication if this limit is exceeded Input Signal Requirements The FER measurement meets or exceeds specifications when the following requirements are met The frequency of the signal being measured must be in the range of 412 MHz to 483 MHz 800 MHz to 960 MHz or 1 7 GHz to 2 0 GHz and within 100 kHz of the expected frequency The signal level into the test set s RF IN OUT connector must be in the range of 25 dBm to 37 dBm and within 9 dBm of the expected input power see RFANalyzer AUTO POWer SELected to meet Specifications 37 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 meas fer desc fm Frame Error Rate Measurement Description Related Topics READ Subsystem SETup CFERror INITiate FETCh CFERror Test Adherence to Standards 38 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_fer_desc fm Frequency Stability Measurement Description Frequency Stability Measurement Description How is a frequency stability measurement made The Frequency Stability measureme
255. e on the reverse supplemental channel for rate set 2 as reported by the mobile station Query Range BPS14400 BPS28800 BPS57600 BPS230400 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE CONVOLUTION DRATE2 MAXIMUM 227 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_sch_rev fm CALL MS REPorted CAPability SCHannel REVerse CALL MS REPorted CAPability SCHannel REVerse COUNt Function This query only command returns the mobile station s capability to support multiple reverse supplemental channels as reported by the mobile station Query Range 0 1 2 9 91 E 37 RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE COUNT CALL MS REPorted CAPability SCHannel REVerse RCONfig Function This query only command returns the mobile station s capability to support reverse supplemental channel radio configurations as reported by the mobile station This query returns a comma separated string of any combination of 3 4 5 or null Query Range 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE RCONFIG CALL MS REPorted CAPability SCHannel REVerse TURBo SUPPort Function This query only command returns the mobile station s capabili
256. e same time it is recommended that the other commands above be used instead 166 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync gen fm Test System Synchronization Overview Related Topics Call Processing State Synchronization on page 155 Measurement Event Synchronization on page 153 Call Processing Event Synchronization on page 159 SYSTem SYNChronized on page 436 167 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync gen fm Test System Synchronization Overview 168 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync gen fm GPIB Commands 4 GPIB Commands 169 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersch hpib command syntax fm GPIB Commands 170 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersich hpib command syntax fm Diagram Conventions Diagram Conventions Description AFGenerator gt FREQuency Sp num value gt HZ v MHZ GHZ gt m i EY i Pi Vertical bar oot Elemen Root Space Bold indicates separates choices Element required default setting Node gt Commands enclosed in square brackets are optional L gt VOLTage gt lt sp gt lt num value V MV gt J SAMPlitude y See Complex Command _ Y Description below AMPLitude sp num value V MV 5 gt
257. e test set A 100 ms 1 24 kHz audible tone beep is generated when an error message is logged and the beeper state is set to on If two errors are generated in quick succession two beeps are generated to indicate that more than one error has been logged The beeper state can be manually set in the Instrument Setup window found in the SYSTEM CONFIG screen Example OUTPUT 714 SYSTEM BEEPER STATE OFF Related Topics SYSTem BEEPer on page 419 523 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 conf beeper fm Timebase Description Configuration Timebase Description Configuration Description The time base source is selected by the test set either an internal time base or an external source if a suitable signal is detected is used as the reference oscillator If a 10 MHz 100 ppm signal that has an input level from 0 to 13 dBm is connected to the 10 MHz REF IN connector on the rear panel the test set will automatically select the external timebase You can read the status window at the bottom of the test set display for the EXT REF indicator or query the test set to verify if it is using an external time base or an internal time base You may also query the test set to verify if the time base is locked The reference oscillator functionality is controlled through the SYSTEM subsystem Example OUTPUT 714 SYSTEM ROSCILLATOR TIMEBASE returns INT or EXT internal or external timeb
258. e was received that contained more data than the device could handle due to memory or related device specific requirements 224 Illegal parameter value Indicates that the value selected was not part of the list of values given 225 Out of memory The device has insufficient memory to perform the requested operation 226 Lists not the same length Attempted to use LIST structure having individual LIST s of unequal lengths 230 Data corrupt or stale Indicates invalid data a new reading started but not completed since the last access 231 Data questionable Indicates that measurement accuracy is suspect 484 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 ts err msg neg200 fm 200 through 299 Error Message Descriptions Error Message Description 233 Invalid version Indicates that a legal program data element was parsed but could not be executed because the version of the data is incorrect to the device For example a not supported file version a not supported instrument version 240 Hardware error Indicates that a legal program command or query could not be executed because of a hardware problem in the device 241 Hardware missing Indicates that a legal program command or query could not be executed because of missing device hardware For example an option was not installed 250 Mass storage error Indicates that a mass storag
259. e what call processing procedure failed Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Call drop timer timed out This bit is a 1 after 250 consecutive bad frames are counted indicating that the reverse link is lost 3 8 Service connect completion not This bit is a 1 when the test set has not received a received message from the MS that it has completed the change to a new Service Option or Radio Configuration 2 4 Service Option or Radio This bit is a 1 when the MS receives a Service Configuration rejected by MS Option or a Radio Configuration that it does not support 1 2 Traffic channel preamble not This bit is a 1 if no preamble was received from the received MS 0 1 Extension Bit This bit is always 0 393 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status
260. easurements Concurrent measurements require the overlapped commands INITiate DONE and FETCh e The READ command does not provide measurement results such as statistics that are available using the INITiate FETCh method The READ commands have pre defined measurement results If additional results are needed from a measurement they may be obtained with a FETCh query NOTE Trigger arming for each measurement is controlled in the SETup subsystem Best practice during remote operation is to set trigger arm to single Continuous Off 326 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib read description fm READ Subsystem Program Example READ DAPower OUTPUT 714 READ DAPower Starts digital average power measurement As soon as the Imeasurement cycle has completed the test set provides the digital average power measurement results to the Icontrolling application ENTER 714 Integrity Digital power Enters the integity indicator and Idigital average power measurement values into controlling application 327 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib read description fm READ READ gt gt WV CAPPower returns Integrity Access Probe Power 4 ls ALL CFERror returns Integrity Confidence pass fail ROTE Frame Error Ratio Frame Error Count Frames Tested CPOWer returns Integrity Channel Power R ALL DAPow
261. eceiving a RELEASE message T308 Release timer Time the network waits after sending a 10 seconds RELEASE message until receiving a RELEASE COMPLETE message This occurs before re transmitting the RELEASE or releasing the Mobility Management connection T310 Call proceeding timer Time the network waits after receiving a 10 seconds CALL CONFIRMED message until receiving a ALERTING CONNECT or DISCONNECT message before initiating clearing procedures towards the MS 477 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 ts err fixed timer fm Fixed Timer Messages Timer Name Description Value T313 Connect acknowledge timer Time the network waits after transmitting a CONNECT message until receiving the CONNECT ACKNOWLEDGE message before performing clearing procedures with the MS 10 seconds T323 Modify complete timer Time the network waits after sending a MODIFY message during call mode changes until receiving a MODIFY COMPLETE or MODIFY REJECT message before initiating call clearing procedures 10 seconds T3101 Immediate assignment timer Time the network waits after sending the IMMEDIATE ASSIGNMENT or IMMEDIATE ASSIGNMENT EXTENDED message until the main signalling link is established before releasing the newly allocated channels 1 second T3103 Handover timer Time the network waits after transmitting a HANDOVER COMMAND message until receiving HANDO
262. edadbh ekectio5 xa brides 154 Call Processing State Synchronization eee 155 Call Processing State QUEry ora HAS REG d XC Y dE eO ed Oca 155 HOS EDU 2142155 jai ax COE dd Pa CR he aei dox p ad io aware a bud db 156 RB TRIPS basen ad d dd dod e bd Edo red d APER dL P Ed E 158 Call Processing Event Synchronization cc cece eee eee teens 159 DRI 413 5 vd b IO E E i CREE E393 Fono V wee o ea 159 Call Processing Subsystem Overlapped Commands llleuun 161 Related MO oiii d 882546 RAG ee eB pne inf eee RUN Medo dei dea AE Ade 162 20 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm Test System Synchronization Overview ccc eee ee ee eee eens 163 Ne eund dE EC ERS OE ECCO E E E E E ee EE RS 163 Commands used for synchronization 0 i000 0050s0 ee ese edu REOR XOROR RO EORR 166 fe Topi ea ae re re T COO TT TT TS rey er re 167 GPIB Commands i054 eeees ei eden eines eS we ATS es FRR SEER ATER ORs 169 Diagram Conventions ve sed baw 3 d 3E ACE qr Sopa bacs PE Eoo dog b da C Roe Yo ads 171 HET Reni RTT TET CA TO T TIT T TI TETTE 171 ABORt Subs VeleMlies i404 eyes OE 3 Re o e RC CREER CER ROSEO REL EROR CERCA 173 GIS gk ea dr 2 debate do lp EAA AACR Re Os a maed ai de Meu dics 173 Syntax Diagram and Command Descriptions 000 cc eee ee eee eee 173 ABORE 2244040504 dared SA trer na GM ERGGUR RES RERO ESSERI QE EM Eq E XGA seas 174 APGenerator SU
263. eded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting Range 170 dBm 1 23 MHz to 35dBm 1 23 MHz NAN Resolution 0 01 dB Query Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz NAN Resolution 0 01 dB RST Setting NAN Programming Example OUTPUT 714 CALL AWGNOISE POWER SAMPLITUDE 30 Sets the AWGN power level to 30 dBM 1 23 MHz and turns the state on 192 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_awgn fm CALL AWGNoise POWer CALL AWGNoise POWer AMPLitude SELected Function Sets queries the additive white gaussian noise AWGN level The optional SELected keyword in this command specifies that the AWGN power level being queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword AWGN and cell power see CALL CELL POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting an AWGN level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of AWGN and cell power causing total RF power limits to be exceeded see CALL TOTal POWer AMPLitude SELected for range of total RF power e Greater than 10 dB difference between cell power and AWGN Amp
264. efault gateway is a character string with a maximum of 15 characters and a format of A B C D where A is between 0 and 223 and B C and D are between 0 and 255 no embedded spaces are allowed If the default gateway is set to a format not allowed with the LAN address or the subnet mask that have been selected the default gateway will be set to a null string indicated by a blank field on the test set display The address may be manually set viewed in the system configuration screen The LAN default gateway can be set queried using the SYSTem subsystem The LAN default gateway is the address of a router that routes messages between networks and or subnets If this value is not specified LAN communications will be limited to the network and subnet specified by the LAN IP address and the subnet mask Your network administrator will know if a default gateway is needed and if so the address of the router If the default gateway address is not needed by your network it may be disabled by entering any of the following values 0 zero null string 0 0 0 0 The LAN default gateway is a non volatile parameter The LAN default gateway is not affected by any reset operation and can only be changed by direct access to the parameter itself 525 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_lan fm Configuring the Test Set s LAN LAN Subnet Mask The LAN subnet mask address is a character string with a maxi
265. egative Transition Filter you can query the Event Register to find out which of these errors occurred 397 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 2 4 200 Errors occurred The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 200 to 299 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors 100 Errors occurred The condition is be pulsed to a 1 and immediately back to 0 if an error in the 100 to 199 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors 0 Extension Bit This bit is always 0 Program Example STATus QUEStionable ERRors AMPS Condition Register Bit Assignment OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT OUTPUT 4 STATUS 14 STATUS 14 STATUS 4 STATUS 4 STATUS QUESTIONABLE ERRORS AMPS ENABLE 1024 QUESTIONABLE ERRORS AMPS EVENT QUESTIONABLE ERRORS AMPS CONDITION QUESTIONABLE ERRORS AMPS NTRANSITION 2 QUESTIONABLE ERRORS AMPS PTRANSITION 2 STATus QUEStionable ERRors CDMA Register Bi
266. egative Transition Filter you can query the Event Register to find out which of these errors occurred 32 500 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 500 to 599 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 16 400 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 400 to 499 range occurs Query the Event Register to find out if one of these errors occurred 300 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 300 to 399 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 405 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 2 4 200 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 200 to 299 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 100 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an er
267. em type The total RF power is equal to the sum of the cell power setting see CALL CELL POWer and the AWGN setting see CALL AWGNoise POWer Query Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz including amplitude offset 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS TOTAL POWER AMPLITUDE SELECTED CALL STATus TOTal POWer STATe SELected Function Queries the current total RF power measurement s state for the currently selected system type This query will return a 1 on if either current cell power CALL CELL POWer or current AWGN CALL AWGNoise POWer power states are on Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 CALL STATUS TOTAL POWER STATE SELECTED CALL STATus CELL POWer AMPLitude SELected Function Queries the current cell power for the selected system type Cell power is set using the CALL CELL POWer commands Query Range 170 dBm 1 23 MHz to 35 dBm 1 23 MHz including amplitude offset if on Resolution 0 01 dB RST Setting 55 0 dBm 1 23 MHz Programming Example OUTPUT 714 CALL STATUS CELL POWER AMPLITUDE SELECTED 280 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus CELL POWer STATe SELected Function Queries the state of the cell
268. ements e Turn individual measurements off e Determine the number of measurements currently active INIT COUNT Determine the names of the measurements currently active INIT ON e Determine which measurements are finished INIT DONE What Happens When a Measurement is INITiated When a measurement is started using INITiate commands a new measurement cycle is started If the selected measurement is currently in a measurement cycle it is aborted If a timeout is specified the timeout period begins when a measurement is initiated NOTE The INITiate subsystem is derived from SCPI but has some modifications to make it more compatible with the manual operation of the test set Most notably the choice of single or continuous measurement triggering is made using the SETup subsystem INITiate Programming Examples how INIT commands are used The INITiate command is used to start measurements INITiate commands allow multiple measurements to be started without waiting for other measurement processes to complete For example the following code starts the Digital Average Power and Waveform Quality measurements and then uses the INITiate DONE command in a loop to query the status of these measurements see Measurement Event Synchronization on page 153 When the measurements are done the FETCh command is used to acquire the results and the results are entered into variables in the controlling application The program ends when the
269. en the measurement is out of range and results are far below the present measurement range 9 91E 37 NAN 9 91E437 is returned by the test set when the measurement is out of range but it can not be determined if measurement results are far above or far below the measurement range If a measurement exceeds its measurement timeout value before a valid result is determined 9 91E 37 is returned FETCH and READ Invalid Results When a FETCH or READ query is performed on a measurement with invalid results the integrity indicator returns a value of 1 indicating No Result Available Manual Users Invalid Results Manual users will generally see four dashes on the test set display When the measurement timeout value has been exceeded Measurement Timeout is displayed as well as the four dashes 150 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_invalid_results fm Dealing With Semicolon Separated Response Data Lists Dealing With Semicolon Separated Response Data Lists Description In accordance with IEEE 488 2 1992 Section 8 4 1 the test set uses the semicolon as the response message unit separator RMUS The RMUS separates sequential response message unit elements from one another when multiple response message unit elements are sent in a response message This condition would occur when combining multiple queries into a single GPIB transaction Query Response Data Types Used By T
270. ent system type The total RF power state is 1 on if either cell power or AWGN power is on The return value for this query is not necessarily the total power state at the moment this command is processed by the test set This command may return a state that has been requested of the test set but that has been pended or delayed for some reason To query the power state of the test set at the moment use the CALL STATus TOTal POWer STATe SELected command The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 CALL TOTAL POWER STATE SELECTED 291 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_total_power fm CALL TRAFfic CALL TRAFfic CALL gt TRAFfic DRATe gt lt Sp gt EIGHth QUARter HALF FULL gt gt returns EIGH QUAR HALF FULL Diagram Conventions on page 171 CALL TRAFfic DRATe Function Sets queries the traffic channel TCH and fundamental channel FCH data rates used when a loopback service option is selected see CALL CELL SOPTION TCH data rate is not applied when a call is in echo mode service options 1 3 17 and 32768 If one of these service options is selected the data rate is stored It will be applied when a loopback service option is selected Setti
271. ent you want to turn off 3 Press Close Measurement F4 4 Press Close Menu F6 ire or Call Parns Cell Pouer dBm 1 23 MHZ Cell Band US Cellular Protocol Reu 6 18 2000 Radio Config Fud3 Rus3 02 Loopback FCH Service Option Setup 444 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_turn_off_meas fm How Do I Set Up a Call How Do I Set Up a Call The Call Parms keys and Call Control keys provide access to the parameters needed to set up a call mR wow Ne 9 Call Setup Screen f Call Control Active Cell Operating Mode Call Parms PEN IN J Operating Node Cell Pouer f 1 ais Active Cell Nobile Station Information 55 00 ESH Hex dBm 1 23 MHz E Sustem Tupe ESH Decimal Cell Band a bh LUN 15 2000 nce US PCS IER 3 l 8 Y MNC V J NSIH Ne NA E CERIS Slot Class Sm Call Slot Cucle Index j Protocol Revision Band Class Protocol Reu nS Operating Node 6 9 2000 Max EIRP CdBlD Registration Type Radio Config FTS Sauni Ech oppona Fud3 Rusa E 4 v Enhanced RC Support IN p 02 Loopback Paging INSI Setup Nin Pouer Control Step Unknoun Register iS Called Party Humber FCH Service Nobile Option Setup e D 1of2 C W forse 1of3 Press the CALL SETUP key Press the Operating Mode F2 key and set the operating mode to Active Cell
272. eout timer on using the SETup CAPPower TIMeout STATe command If the timeout timer is not turned on and an access probe is not received the measurement will hang on the FETCh command indefinitely 4 Turn on the mobile station and perform a registration wait for power on or send CALL REGister MMediate 5 Turn off timer based registration see CALL REGister TIMer STATe 6 Initiate the access probe power measurement using the INITiate lt measurement mnemonic ON on page 323 The measurement mnemonic gt for access probe power measurements is CAPP 7 Perform a page or mobile station originated call Wait for the mobile station to finish transmitting the desired number of access probes 8 Use the FETCh CAPPower ALL command to obtain the measurement results IMPORTANT Ifthe trigger arm state was set to continuous return it to single before attempting a different measurement or attempting any call processing procedure Programming Example Not available at the time of this printing See lt gt Returned Values This query returns an integrity indicator followed by a channel power measurement result if results are available Related Topics Access Probe Power Measurement Description on page 32 Access Probe Power Troubleshooting on page 467 Control Program Example on page 1 109 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 prog accprobe fm Prog
273. eprom ID State Time Ref Eeprom ID State Display Interface Eeprom ID State Rear Panel Eeprom ID State 499 S Hp8960 E1962B CDMA 2000V3 1 reference guide Chaptersicdma2000 ts err msg pos400 fm 500 through 599 Test Application Hardware Device Specific Error 500 through 599 Test Application Hardware Device Specific Error Description These errors are generated when a problem occurs with a hardware module that is required for a particular test application When one of these errors is generated the 500 errors bit in the questionable error status register is set No hardware specific errors are currently defined for this test application 500 S Hp8960 E1962B CDMA 2000V3 1 reference guide Chaptersicdma2000 ts err msg pos500 fm 600 through 699 Error Message Descriptions 600 through 699 Error Message Descriptions Description These errors are generated when a problem occurs that is specific to one of the test set s instruments These errors are part of the test set s core Note that these measurements may not be present in every test application and therefore these errors may not be present in every test application There is no plan at present to support test application specific instruments An instrument in this context refers to the measurement like functionality such as the audio generator and not to the test set as a whole When one of these errors is generated the 600 errors
274. equency settings are set automatically according to the call control settings you specify Channel number Cell Band Rvs Power Ctrl Cell Power and others e Manual mode allows you to override some or all of the automatic settings by first selecting the manual mode for the setting and then specifying the desired value You can set the receiver s expected power by pressing the Call Parms More key until 3 of 3 is displayed and selecting Manual in the Reve Power Ctrl field A full or partial preset of the test set including cycling power returns the test set back to auto mode Manual Receiver Control Parameters The following parameters manually control the test set s receiver Digital receiver power Revr Power Ctrl e CW receiver power e Measurement receiver frequency Meas Frequency e Demodulation receiver frequency Digital receiver power For all operating modes except for CW the expected power from the mobile station is set manually using the RFANalyzer MANual POWer SELected command CW receiver power For CW operating mode the expected power from the mobile station is set manually using the RFANalyzer CW EXPected POWer commands Measurement receiver frequency Measurement receiver frequency commands are used to manually tune the test set s measurement downconverter input signal path see Block Diagram The commands are e RFANalyzer CONTrol MEASurement FREQuency AUTO to turn manual mode on off e
275. er Channel Power measurement DAPower Digital Average Power measurement e FSTability Frequency Stability measurement e WQUality Waveform Quality measurement Programming Example OUTPUT 714 ABORT WQUALITY Aborts the waveform quality code domain power measurements 175 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_abort fm AFGenerator Subsystem AFGenerator Subsystem Description The AFGenerator subsystem is used to control the audio source that is available at the Audio Output connector Syntax Diagram and Command Descriptions AFGenerator on page 177 176 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_afgenerator_description fm AFGenerator AFGenerator AFGenerator FREQuency gt lt sp gt lt num value HZ KHZ MHZ GHZ gt returns num value L gt PULSe Sp 1 ON 0 oFF S STATel returns 1 0 L VOLTage Sp num value V MV i SAMPlitude TERAS returns num value Complex Command gt AMPLitude gt lt sp gt lt num value V MV returns num value S 8TATe gt gp 1 ON O OoFF returns 1 0 Diagram Conventions on page 171 AFGenerator FREQuency Function Sets queries the frequency of the audio generator The units HZ KHZ MHZ GHZ are optional If no units are specified then units default to HZ
276. er and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 128 700 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 700 to 799 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 64 600 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 600 to 699 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 32 500 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 500 to 599 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 16 400 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 400 to 499 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 300 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 300 to 399 range occurs After setting the Positive Transition Filter and the N
277. er gt returns Integrity Digital Avg Power gt GALL FSTability returns Integrity Worst Freq Error Avg Freq m ALL M WQUality returns Integrity Rho Frequency Error tranny 1 Time Error Carrier Feedthrough Phase Error Magnitude Error EVM READ Diagram Conventions on page 171 READ CAPPower ALL Function Initiates and fetches an access probe power measurement as a sequential operation Measurement results are returned in the following order integrity access probe power Query Access probe power e Range 100 to 100 dBm e Resolution 0 01 dB 328 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_read fm READ CFERror ALL READ Function Initiates and fetches the FER frame error rate measurements as a sequential operation FER measurement results are returned in the following order integrity confidence limit pass fail result frame error ratio frame error count frames tested Query Integrity Range 0 to 16 see Integrity Indicator Resolution 1 Confidence limit pass fail result Range 0 to 3 0 passed 1 failed 2 max frames 3 undetermined Resolution 1 Frame error ratio e Range 0 00 to 100 00 9 91 E 37 e Resolution 0 01 Frame error count e Range 0 to 10 000 000 9 91 E 37 Resolution 1 frame Frames tested e Range 0 to 10 000 000 9 91 E 37 e Resoluti
278. er Measurement This section provides an example of how to make a digital average power measurement via GPIB The following program example assumes that the mobile station s antenna output is connected to the RF IN OUT connector and the mobile station has found service For information on configuring the test set for a call see Step 4 Make a connection on page 76 The basic procedure to measure digital average power is as follows 1 OU co N Make a call Configure the digital average power setup parameters using the SETup DAPower subsystem Start the digital average power measurement using the INITiate subsystem Use the INITiate DONE command to determine when the FER measurement has finished Use the FETCh DAPower command to obtain the measurement results Programming Example Not available at the time of this printing Returned Values This program returns an integrity indicator followed by a digital average power measurement result if results are available Related Topics Digital Average Power Measurement Description on page 36 Digital Average Power Troubleshooting on page 470 Control Program Example on page 1 111 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 prog dap fm Programming an FER Frame Error Rate Measurement Programming an FER Frame Error Rate Measurement This section provides an example of how to make an FER measuremen
279. er The Status Byte Register is an 8 bit register that provides single bit summary messages each summary message summarizes and overlaying status data structure Summary messages always track the current status of the associated status data structure Service request enabling determines if one or more of the summary messages will generate a message Device status reporting is defined in IEEE 488 2 1992 11 1 The Status Byte Register contains the STB and RQS or MSS messages from the test set The Status Bute Register can be read with either a serial poll or the STB common query The value for bit 6 is dependent on which method used When reading with a serial poll the status byte and the RQS message are returned as a single data byte The RQS message indicates if the SRQ is TRUE The Status Byte Register is not affected by a serial poll the RQS is set to FALSE when polled The STB query allows you to read the status byte and the MSS The response represents the sum of the binary weighted values of the Status Byte Register from bit 0 5 and 7 The Master Summary Status MSS message from bit 6 indicates when there is at least one reason for requesting service 136 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview The Message Available MAV summary message from bit 4 is TRUE when there is a message is in the output queue The Status Byte Register is cleared with the CLS common
280. er fm SETup DAPower SETup gt DAPower gt CONTinuous SETup DAPower Diagram Conventions on page 171 L gt COUNt SETup DAPower lt sp gt 1 ON 0 OFF gt gt returns 1 0 gt lt sp gt lt num value L SNUMber 1 SS heise Command gt returns num value LS NUMBer gt TIMeout L_ STATe Sp num value gt s L gt returns num value gt lt Ssp gt 1 ON 0 OFF gt I STATe L s TIME L gt returns 1 0 4 sp num value S MS US NS L gt STIMe gt returns num value W Sis dieit Command __s lt sp gt 1 ON 0 OFF gt returns 1 0 Sp num value gt S MS US NS Ls returns num value s 347 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_dapower fm SETup DAPower SETup DAPower CONTinuous Function Sets queries the trigger arm state for the digital average power measurement The trigger arm state determines whether the digital average measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Exampl
281. er to CALL CELL RFGenerator to set the CDMA forward channel frequency Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 1 auto Programming Example OUTPUT 714 CALL CELL CONTROL DOWNLINK FREQUENCY AUTO OFF Enables manual frequency setting 203 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call control fm CALL D2KTest CALL D2KTest CALL D2KTest s EIBBowar Sp num value DBW DBM _s MAXimum _ gt returns dBm num value L gt ESNumber HEX gt lt sp gt lt string gt gt returns string QPCHannel 5 INDicator _ 8p ALLO ALL1 i PAGing gt returns ALLO ALL1 Diagram Conventions on page 171 CALL D2KTest ElRPower MAXimum Function Sets queries the test mode maximum EIRP Effective Isotropic Radio Power The test set will adjust its receiver power range expecting a normal open loop power control response from the mobile station However when cell power is lowered the expected power to the test set s receiver will not increase beyond max EIRP If an amplitude offset is turned on see SYSTem CORRection SGAin the test set will automatically adjust the max EIRP value to correct for path loss Setting Range 30 to 10 dBW Resolution 1 dBW Query Range 30 to 10 dBW Resolution 1 dBW RST Setting 7 dBW Programming Example
282. eration and processing of these base band modulation signals These are Transform data and clock signals from the Protocol Processor module into base band analog I Q modulation signals for the I Q modulator in the Vector Output module Transform data from the Protocol Processor module into baseband FSK modulation for the FM modulator in the Signal Generator module Provide baseband FM path source selection gain adjustment and summing node for analog FM signals from the Audio module and internally generated baseband FSK signals which are output to the FM modulator in the Signal Generator module e Transform burst and adjacent timeslot signals from the Protocol Processor module into baseband burst modulation signals for the burst modulator in the Vector Output module 509 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen block diagram fm Forward Channel Description Forward Channel Description Description The forward channels transmitted by the test set in test mode include e Pilot Channel e Sync Channel e Paging Channel overhead messages only 1 Quick Paging Channel all on or all off indicators 1 Traffic or Fundamental Channel depending on the radio configuration e 1 Supplemental Channel RC3 RC4 or RC5 only e 1 OONS Channel e AWGN Relative power levels can be set for all channels except for OCNS orthogonal channel noise simulator which is used to simulate other users on the forward
283. erence guidele1962 90017 bookTOC fm Returned Values 14 dudous dod d bb E Ed iriban icd dc dew 6b p bei fad ddbe 109 BENE DRE ff aar dob OPTED ER ed Eae ded dS qb Ei odio d ER a c edd 109 Programming a Channel Power Measurement 0 00 cece eee 110 Programmunp Example 5 sid 606 0h A ORC e SO RGCR RC Ra UNE VOR due ar 110 Dr VEDI 1 1 opui a di abd d cepa HR ae Ri d e cr e de Obi 110 Raluted Topito ee a a edd qu ER AO ERE dedo odd RE REO RH EROR obs dod o do 110 Programming a Digital Average Power Measurement lees 111 Preserve Example 1urisdEdabqe ee bk ak QA RA QR ESSERI Ede hdd debes 111 Il Ris MeqMEMTT T vrmm 111 Rolated TORIC iud ER RC ROLE AO HERR Edd ER SSR d EO Ra A 111 Programming an FER Frame Error Rate Measurement lesse 112 Program Example 45 2244 Edd ee o E33 d rd esddud QU ERO EAxbE EAE dd EET 112 REDET T AEE po a Pr etre 112 ee Top Oi auda pad ud dO 48d E83 O3 ode d ab cd Cic CORR be ordeo eR a d d SEES 112 Programming a Frequency Stability Measurement cece eee eee 113 Programmong Example aa vusaRARRSYPFUECINPIEC RI EPDERX YA EOS EDO RE EES 113 Be VOD Loi 3 524 40 qoM IE Oed dedo ded GN eR EERE de a 113 hii e 6 ah bh ee ade os be Tt T TTD 114 Programming a Waveform Quality Code Domain Measurement 115 Progprammnong Example uod Ve EDOGoHOCREPEE UE EROR EI oh RE ERS 115 Returned Values luioisveusesseioied1 Xd4dde ewexexesxus
284. ermines whether the channel power measurement will be made once then stop 0 OFF single or automatically re arm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CPOWER CONTINUOUS OFF Sets measurement to single trigger mode SETup CPOWer COUNt SNUMber Function The setting form of this command performs two functions 1 sets the number of channel power measurements to be made in a multi measurement and 2 sets the multi measurement STATe command to 1 on The query form returns the number of channel power multi measurements to be made when mulit measurement state is ON Setting Range 1 to 999 Query Range 1 to 999 RST Setting Off 10 when STATe On Programming Example OUTPUT 714 SETUP CPOWER COUNT SNUMBER 5 Turns on multi measurements and sets the number of measurements to 5 SETup CPOWer COUNt NUMBer Function Sets queries the number of channel power measurements to be made when the mulit measurement state is ON Setting Range 1 to 999 Query Range 1 to 999 RST Setting 10 Programming Example OUTPUT 714 SETUP CPOWER COUNT NUMBER 5 Sets the number of channel power multi measurements to 5 344 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup cpower fm SETup CPOWer S
285. ers cdma2000_hpib_call_ms_reported_rst fm CALL CELL NIDentity CALL CELL NIDentity CALL NIDentity gt lt sp gt lt num value CELL gt returns num value Diagram Conventions on page 171 CALL CELL NIDentity Function Sets queries the network ID NID This parameter can be set any time and will be sent out in the next overhead message Setting Range 0 to 65535 Query Range 0 to 65595 RST Setting 1 Programming Example OUTPUT 714 CALL CELL NIDENTITY 3056 Sets the network identifier to 3056 237 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call nid fm CALL OCNSource CALL OCNSource CALL OCNSource gt LEVel returns num value SELected l gt DIGital2000 DIGital95 L S8TATe gt returns 1 ON 0 0FF L gt SELected L gt DIGital2000 DIGitalss5 gt WALSh gt lt sp gt CODE5 CODE13 CODE21 CODE29 gt SELected A CODE37 CODE45 CODE53 CODE61 p SHIGICaIABOD ls returns 5 13 21 29 37 45 53 61 L DIGital95 Diagram Conventions on page 171 CALL OCNSource LEVel SELected Function Queries the calculated level of the orthogonal channel noise simulator OCNS The optional SELected keyword in this command specifies that the OCNS level being queried applies to the current system type The OC
286. erse SUPPort Function This query only command returns the mobile station s capability to support the reverse supplemental channel as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE SUPPORT CALL MS REPorted CAPability SCHannel REVerse CONVolution SUPPort Function This query only command returns the mobile station s capability to support convolutional coding on the reverse supplemental channel as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE CONVOLUTION SUPPORT CALL MS REPorted CAPability SCHannel REVerse CONVolution DRATe1 MAXimum Function This query only command returns the mobile station s maximum convolutional coder data rate on the reverse supplemental channel for rate set 1 as reported by the mobile station Query Range BPS9600 BPS19200 BPS76800 BPS153600 BPS307200 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE CONVOLUTION DRATE1 MAXIMUM CALL MS REPorted CAPability SCHannel REVerse CONVolution DRATe2 MAXimum Function This query only command returns the mobile station s maximum convolutional coder data rat
287. ery is sent before the call state has transitioned from idle to one of the transitory states the query immediately returns a 0 This indicates that the call is in the idle state and therefore that the connection attempt failed In reality the call likely connected but not until after the CALL CONN query immediately returned a 0 When the call state change detector is armed during a connection attempt if the CALL CONN query is sent while the call state is still idle the query waits until the state changes to connected and then returns al The CALL CONNected ARM IMMediate command is used to arm this call state change detector 93 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step4_ac fm Step 4 Make Connection e Call State Change Detector Timeout Command If the call state change detector is armed and a call connection is attempted but the call state never changes from the idle state the CALL CONN query hangs the bus This easily happens if the mobile is badly broken the mobile is not connected to the test set or no one pushes the send button on the mobile The CALL CONNected TIMeout command is used to set the timeout value for the call state change detector The timeout timer is started whenever the call state change detector is armed and should be set to the maximum amount of time the control program should wait between arming the detector and the beginning of the connection process when the
288. es the calibration of the IQ modulator for RF generator 1 It takes some time to complete calibration and can t be aborted except by cycling the power switch e Calibrates the IQ modulator for RF generator 1 Returns a value indicating success or failure of calibration Query Range e 0 Pass e 340 Fail Programming Example OUTPUT 714 CALIBRATION IQ1 Performs a calibration of the IQ modulator for RF generator 1 and returns 0 or 340 NOTE When the calibration is done the test set display will display IQ Calibration completed successfully for modulator 1 CALibration IQ2 Function Sets queries the calibration of the IQ modulator for RF generator 2 It takes some time to complete calibration and can t be aborted except by cycling the power switch e Calibrates the IQ modulator for RF generator 2 e Returns a value indicating success or failure of calibration Query Range e 0 Pass e 340 Fail Programming Example OUTPUT 714 CALIBRATION IQ2 Performs a calibration of the IQ modulator for RF generator 2 and returns 0 or 340 NOTE When the calibration is done the test set display will display IQ Calibration completed successfully for modulator 2 183 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_calibration fm CALibration CALibration DATE Function Sets queries the date of the last system calibration done to t
289. escriptions Error Message Description 133 Configuration error Selected Test Application The radio format selected is not licensed Select Format is not licensed License N another revision or obtain a licensed revision of the test application test application that is licensed License L 134 Configuration error Unable to switch to selected The Test Application Format name used is correct but Test Application Format for some reason the test set can not switch to that format 150 Calibration operation Recalibrating due to present Indicates that the test set is recalibrating due to temperature hardware inaccuracies based on temperature changes Any measurements that are running will be temporarily aborted and then restarted after the recalibration is complete 493 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos100 fm 200 through 299 Error Message Descriptions 200 through 299 Error Message Descriptions Description A device specific error indicates that the instrument has detected an error that occurred because some operations did not properly complete possibly due to an abnormal hardware or firmware condition For example an attempt by the user to set an out of range value will generate a device specific error Errors are categorized as follows e TA2000 errors with test application scope e CDMA errors common to the IS 95 and IS 2000 System Types e
290. ese requirements GENERAL This product is a Safety Class 1 instrument provided with a protective earth terminal The protective features of this product may be impaired if it is used in a manner not specified in the operation instructions All Light Emitting Diodes LEDs used in this product are Class 1 LEDs as per IEC 60825 1 This product has been designed and tested in accordance with IEC Publication 1010 Safety Requirements for Electronic Measuring Apparatus and has been supplied in a safe condition This instruction documentation contains information and warnings which must be followed by the user to ensure safe operation and to maintain the product in a safe condition ENVIRONMENTAL CONDITIONS This instrument is intended for indoor use in an installation category II pollution degree 2 environment It is designed to operate at a maximum relative humidity of 95 and at altitudes of up to 2000 meters Refer to the Specifications tables for the ac mains voltage requirements and ambient operating temperature range Ventilation Requirements When installing the product in a cabinet the convection into and out of the product must not be restricted The ambient temperature outside the cabinet must be less than the maximum operating temperature of the product by 4 C for every 100 watts dissipated in the cabinet If the total power dissipated in the cabinet is greater than 800 watts then forced convection must be used BEFORE APPLYING
291. esolution 1 Hz Worst case frequency error Range 500 to 500 parts per million ppm Resolution 0 01 Programming Example OUTPUT 714 Fl ETCH FSTABILITY FERROR ALL Returns minimum maximum average and worst case frequency error FETCh FSTabil ity FERRor AVERage Function Queries the average frequency error measurement Query Range 500 E 3 to 500 E 3 Hz Resolution 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FERROR AVERAGE 308 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_fetch_fstability fm FETCh FSTability FETCh FSTability FERRor MAXimum Function Queries the maximum frequency error measurement of a multi measurement Query Range 500 E 3 to 500 E 3 Hz Resolution 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FERROR MAXIMUM FETCh FSTabil ity FERRor MINimum Function Queries the minimum frequency error measurement of a multi measurement Query Range 500 E 3 to 500 E 3 Hz Resolution 1 Hz Programming Example OUTPUT 714 Fl FETCh FSTabil ETCH FSTABILITY FERROR MINIMUM ity FREQuency AVERage Function Queries the frequency stability average frequency of a multi measurement Query Range 100 E 6 to 3 E 9 Hz Resolution 1 Hz Programming Example OUTPUT 714 FETCH FSTABILITY FREQUENCY AV
292. est Set The test set can return the following data types in response to queries character data char ASCII characters A Z 65 90 decimal underscore 95 decimal digits 48 57 decimal e string data ASCII characters enclosed in quotes for example 5551212 or PGSM numeric response data nr1 numeric data in the form dddddddd e numeric response data nr3 numeric data in the form ddd ddd E dddd Semicolon Separated Response Data Lists Containing Mixed Data Types Problems can occur when trying to enter semicolon separated response data lists containing mixed data types For example If the following command string is sent to the test set the test set will respond by constructing a response message which contains multiple response message unit elements that is one response message unit element for each query item contained in the command string Some response message unit elements are string data type some are character data type and some are nr3 data type OUTPUT 714 CALL MS REP IMSI PCL REV SBAN NUM MCC MNC LAC An example response message generated by the test set in response to the above OUTPUT statement would be 001012345678901 4 00000000E 000 PHAS1 PGSM 5551212 9 91E37 9 91E37 9 91E37 Constructing the following data entry statement will account for multiple responses from the query ENTER 714 Imsi Pcl Rev Sban Onum Mcc Mnc Lac In the Basic programming en
293. et the test set will have the mobile station report band classes mobile station reported operating mode for each band class and mobile station reported max EIRP if the operating mode is CDMA for each band class These results are referred to as Status Request Information Query Range US Cell Jpn Cell Kor PCS US PCS IMT 2000 null RST Setting Null Programming Example OUTPUT 714 CALL MS REPORTED BCLASS when sent to a mobile station supporting US cellular and US PCS bands returnw the string lt sp gt US lt sp gt Cell lt sp gt lt sp gt lt sp gt US lt sp gt PCS Note string is 16 characters 8 per band plus a comma and space separating the two bands CALL MS REPorted OPERating MODE Function This query returns up to three concatenated mobile station reported operating modes Each operating mode that is included in the returned string is right justified within an 8 character slot Each 8 character slot is followed by a comma and a space until the last band is sent The last band in the string will not have an appended comma and a space Each operating mode that is included in the returned string will correspond by its position in the string with the position of each band class in the string returned by the command CALL MS REPorted BCLass Each time a new mobile station registers with the test set the test set will have the mobile station report band classes mobile station re
294. et and Mobile Station Parameters Step 2 Configure Test Set and Mobile Station Parameters The following information provides additional details on Step 2 of the Programming Flowchart This information is applicable to all test applications Description In this step you configure the parameters that allow a connection to be made between the test set and mobile station This mainly involves setting up channels and power levels Contents e Set Up Channels e Set Cell Power e Set Mobile Station Transmit Power e Set Up Additional Connection Parameters Set Up Channels Setting up channels involves specifying the channel associated with every band and channel type for example analog or digital and then setting the active band and channel type e Specify Channel Numbers All of the test set s test applications can test in more than one frequency band for example US Cellular US PCS or Korean PCS To produce the most efficient code you should configure the channel information for each band in advance Then to move to a new band during testing you only need to send the command to change bands You do not need to also specify the channel of the new band This reduces test time To set up the channel number for the various bands use one of the following commands depending upon which test application you are using Commands to Set the Channel for a Band Command Example CALL cha
295. et to any value lower than the last user setting of the input power This is to avoid power spikes on the output and possible receiver damage on the input during transitions associated with preset operations Partial Preset behaves OUTPUT 714 SYSTEM PRESET3 Command for a partial preset when user in remote operation SYSTEM PRESETS is the recommended command for a partial preset operation The SYSTEM PRESETT I command is not recommended for use at this time Full Preset A full preset requires you to select new measurements and configure their parameters If measurement parameters do not need to be changed use a partial preset to save time Example OUTPUT 714 RST Recommended command for a full preset sets trigger arm to single OUTPUT 714 SYSTEM PRESET2 Command for a full preset sets trigger arm to continuous The RST common command is the recommended command for a full preset operation RST gives the same results as partial preset with the exception of Trigger Arm and the measurement parameters NOTE Transmit power is not set to OFF during a full preset transmit power is set to the default value Table 4 Full Preset Behavior Function Full Preset Result Trigger Arm Continuous manual operation full preset or SYSTEM PRESET2 command 116 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 gen inst states fm Table 4 Full Preset Behavior Function Full Preset Result
296. etting when writing a control program is AUTO NOTE Trigger source is always IMMediate for analog measurements and cannot be changed by the user Thetrigger delay parameter controls the delay between the trigger event the point in time at which the trigger signal is received and the start of sampling Negative values indicate that the sampling should occur prior to the trigger event NOTE Trigger delay is not applicable to analog measurements Measurement Trigger Parameters Parameter Command Syntax Trigger Arm SETup meas mnemonic CONTinuous lt ON 1 OFF 0 gt Trigger Source SETup meas mnemonic TRIGger SOURce lt AUTO IMMediate PROTocol RISE gt Trigger Delay SETup meas mnemonic TRIGger DELay numeric value suffix 89 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step3 ac fm Step 3 Set Measurement Parameters NOTE You can set the Trigger Arm for all measurements to single CONTinuous OFF using the following command syntax SETup ALL CONTinuous OFF Example 3 Programming Example OUTPUT Test_set SET CONT OFF sets the trigger arm to single for all measurements Example 4 Programming Example OUTPUT Test set SET DTXP TRIG SOUR AUTO sets the trigger source to AUTO for the digital transmit power measurement Example 5 Programming Example OUTPUT Test set SET DTXP TRIG DEL 10 US sets the trigger delay to 10 microseconds for the dig
297. f 850 00 MHz Off 860 00 MHz Off 870 00 MHz Off 880 00 MHz Off 10 890 00 MHz Off 11 900 00 MHz Off 12 910 00 MHz Off 13 920 00 MHz Off 14 930 00 MHz Off 15 940 00 MHz Off 16 950 00 MHz Off 17 960 00 MHz Off 18 970 00 MHz Off 19 980 00 MHz Off 20 990 00 MHz Off O oND oe w N bP Programming Example OUTPUT 714 SYSTEM CORRECTION SFREQUENCY 1710 2 MHZ 1805 2 MHZ 1784 8 MHZ 1879 8 MHZ Sets up to 20 comma separated frequencies and sets the state to On for the frequency loffset and RF IN OUT Amplitude Offset State OUTPUT 714 SYSTEM ORRECTION SFREQUENCY Sets the state for all frequencies and offsets to Off 428 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib system correction fm SYSTem CORRection SYSTem CORRection STATe Function Sets queries the RF IN OUT Amplitude Offset State The state must be On before any of the offsets are active regardless of the state for any of the frequencies or offsets When the RF IN OUT Amplitude Offset State is On the Instrument Status Area will indicate Offset regardless of the state for any of the frequencies or offsets Setting any of the frequency or offset states to On will set the RF IN OUT Amplitude Offset State to On See Measurement Related Configuration on page 45 Setting 0 OFF 1 ON Query 0 1 Factory 0 off Setting Programming Example OUTPUT 714 SYSTEM CORRECTION STATE ON Sets the RF
298. for accurate measurements This is normally done automatically see Active Cell Operating Mode but can also be done manually see Receiver Control on page 118 Interpreting Integrity Indicator values An integrity indicator of 17 Can not correlate indicates that the received signal did not correlate with an internally generated reference signal See Integrity Indicator on page 144 Related Topics Waveform Quality Code Domain Measurement Description on page 40 473 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 ts wquality fm Error Messages Error Messages Error Message Descriptions Fixed Timer Messages on page 477 Manual User Error Messages on page 480 400 through 499 Error Message Descriptions on page 481 800 through 399 Error Message Descriptions on page 482 200 through 299 Error Message Descriptions on page 484 100 through 199 Error Message Descriptions on page 487 100 through 199 Error Message Descriptions on page 491 200 through 299 Error Message Descriptions on page 494 300 through 399 Link Control Device Specific Error on page 496 400 through 499 Error Message Descriptions on page 497 500 through 599 Test Application Hardware Device Specific Error on page 500 600 through 699 Error Message Descriptions on page 501 700 through 799 Error Message Descriptions on page 502 800 through 899 Error Message Descri
299. form quality 40 Itrigger mode to single 50 OUTPUT 714 INITiate DAPower WQUality Begin digital average power and 60 Iwaveform quality measurements 70 REPEAT 80 OUTPUT 714 INITiate DONE Queries the test set for measurements 90 Ithat are done 100 ENTER 714 Meas done String value representing DONE measurements 110 NONE if no measurements are done 120 SELECT Meas done This variable will be set to WAIT until measurements 130 lare DONE 140 CASE DAP Characters must be upper case 150 OUTPUT 714 FETCH DAPower If this case is selected 160 digital average power is FETCHed 170 ENTER 714 Integrity Dapower meas 180 PRINT Digital Average Power is Dapower meas 190 CASE WQU Characters must be uppercase 200 OUTPUT 714 FETCH WQUality RHO If this case is selected 210 Ithe rho measurement is FETCHed 220 ENTER 714 rho meas 230 PRINT Rho is rho meas 240 END SELECT 250 UNTIL Meas done NONE When all triggered measurements have completed 260 Ithe INITiate DONE query returns NONE 270 END Operating Considerations Only one indicator is returned per query To ensure that when a measurement completes it will remain in a state that qualifies it as DONE use the SETup subsystem to set all active measurements to single CONTinous OFF trigger mode 154 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog meas sync fm Call Processing State Synchronization Cal
300. g LEVel SELected Function Queries the current paging level for the currently selected system type The forward paging channel level is set using the CALL PAGing commands Query Range 0 to 20 dB 9 91 E437 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS PAGING LEVEL SELECTED CALL STATus PAGing STATe SELected Function Queries the current paging level state for the currently selected system type The forward paging channel level is set using the CALL PAGing commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS PAGING STATE SELECTED CALL STATus QPCHannel LEVel RTCell SELected Function Queries the current forward quick paging channel QPCH level relative to the cell power level The forward quick paging channel level is set using the CALL QPCHannel commands Query Range 0 to 15 dB 9 91 E 37 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS OPCHANNEL LEVEL RTCELL DIGITAL2000 283 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_status fm CALL STATus CALL STATus QPCHannel LEVel RTPilot SELected Function Queries the current forward quick paging channel QPCH level relative to the pilot level The forward quick paging channel level is set us
301. ge to allow mobile stations to adjust their expected receiver power level When the state of the QPCH is on see CALL QPCHannel STATe OCNS see Configuring the F OCNS Forward Orthogonal Channel Noise Simulator is calculated based on the channel power when QPCH is present in the signal When the QPCH state is off the output power is not fully calibrated Related Topics CALL QPCHannel 61 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_qpch fm Configuring the F Sync Channel Forward SYNC Configuring the F Sync Channel Forward SYNC The F Sync channel parameters are configured using the following call processing subsystem functions and commands Settable F Sync Parameters e F Sync level e F Sync state Fixed F Sync Parameters The F Sync Walsh code is fixed at code channel number 32 GPIB Examples Setting the F Sync state and level complex command OUTPUT 714 CALL SYNC 16 DB would set the F Sync state on and set the level to 16 dB See CALL SYNC SLEVel SELected Querying the F Sync Level OUTPUT 714 CALL SYNC LEVel would query the last setting that was made to the F PICH level See CALL PILOT LEVel SELected Related Topics CALL SYNC 62 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_sync fm Programming Getting Started Guide for cdma2000 Mobile Test Programming Getting Started Guide for cdma2000
302. gistration period 259 registration type mobile station reported 235 response unit message separator RMUS 151 Rev License 413 reverse DCCH radio configurations supported mobile station reported 217 reverse fundamental channel radio configuration support mobile station reported 219 reverse power control 198 RF Gen Freq 262 RF Gen Freq Ctrl 203 RF IN OUT Amplitude Offset State 424 RF IN OUT Amptd Offset 424 RF IN OUT Amptd Offset Setup 424 RF rise trigger source 140 rho FETCh command 312 read command 328 RL Gain Traffic to Pilot 263 RL Traffic to Pilot Gain 263 Rvs Link Freq 333 Rvs Power Ctrl 198 S screen brightness 296 semicolon use of in compound queries 151 setting up access probe power 341 channel power 343 frame error rate 351 SID 274 single triggering 142 slot cycle class mobile station reported 235 slot cycle index mobile station reported 235 SOC manually setting 445 standard deviation 138 station class mark bandwidth support 214 mobile station reported 214 status preset 117 step size reverse link power control 198 Subnet Mask 421 supplemental channel support forward mobile station reported 222 supplemental channel support reverse mobile station reported 226 sync channel fixed parameters 62 querying sync channel level 62 settable parameters 62 setting sync channel state and level 62 SYNC channel parameters 62 sync channel parameters 62 synchroni
303. gn ignored due to F SCH state off 271 F SCH assign ignored due to no call connected 272 F SCH assign ignored due to lack of support in current radio configuration 273 Query MS capability info ignored due to no call connected 495 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos200 fm 300 through 399 Link Control Device Specific Error 300 through 399 Link Control Device Specific Error These errors are generated when a problem occurs in maintaining the link between the test set and a DUT These errors generally occur when a message is received from the DUT that is unexpected When one of these errors is generated the 300 errors bit in the questionable error status register is set Refer to Standard Event Status Register on page 409 for information on this register No link control errors are currently defined for this test application 496 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos300 fm 400 through 499 Error Message Descriptions 400 through 499 Error Message Descriptions Description These errors are generated when a problem occurs in one of the test set s hardware modules that is part of the test set s core instrument When one of these errors is generated the 400 errors bit in the questionable error status register is set Error Message Description 400 Hardware failure H
304. gonal channel noise simulator OCNS The optional SELected keyword in this command specifies that the OCNS Walsh code being set queried applies to the current system type The Walsh codes allowed for use with this command are part of a reserved codespace that has been created by fixing other code channels to pre determined values Reserving this codespace eliminates the possibility of conflicts that can arise with lower walsh code sets which are used in certain radio configurations Setting Range CODE5 CODE13 CODE21 CODE29 CODE37 CODE45 CODE53 CODE61 Query Range 5 13 21 29 37 45 53 61 RST Setting CODE53 Programming Example OUTPUT 714 CALL OCNSOURCE WALSH CODE13 Sets the OCNS channel walsh code to 13 239 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ocnsource fm CALL CELL OPERating CALL CELL 0PERating CALL gt CELL OPERating gt MODE 4 gt Sp CALL D2kKTest cw returns CALL D2KT CW Diagram Conventions on page 171 CALL CELL OPERating MODE Function Sets queries the operating mode of the base station emulator If a call is in progress during a change in operating mode it will be dropped CALL is the default operating mode In CALL mode also called active cell mode signaling between the mobile station and the base station emulator is used for call origination handoffs
305. gramming Example OUTPUT 714 FETCH FSTABILITY FREQUENCY SDEVIATION 310 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib fetch fstability fm FETCh FSTability FETCh FSTability ICOunt Function Queries the intermediate count of measurements completed in a multi measurement Query Range 0 to 999 Programming Example OUTPUT 714 FETCH FSTABILITY ICOUNT FETCh FSTability INTegrity Function Queries the measurement integrity indicator for the last frequency stability measurement completed Zero indicates a normal measurement See Integrity Indicator on page 144 for information about non zero integrity results Query Range 1 through 16 Programming Example OUTPUT 714 FETCH FSTABILITY INTEGRITY IReturns the integrity indicator for the frequency stability measurement 311 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch fstability fm FETCh WQUality FETCh _s WQUality FETCh WQUality CDPower IQINactive VV 4 i V V V FEEDChrough MERRor Magnitude Error EVM measurement result or aver age of results if multi measurement state is on EVM returns gt returns EERROE returns TCOunt _________s returns INTegrity _____s returns returns PERBROT 5 returns RHO re
306. gt returns num value QPCHannel _ y gt returns YES NO UNKNZ C SUPPOort Diagram Conventions on page 171 CALL MS REPorted ONUMber Function Queries the phone number the mobile station dialed in a mobile originated call Used only in active cell mode Returns a string of up to 16 digits Query Range up to 16 digits 0 through 9 or null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED ONUMBER Returns the phone number the mobile dialed CALL MS REPorted PCONtrol STEP MINimum Function Queries the mobile reported minimum power control step size The actual power control step size used by the mobile during closed loop power control is set using the CALL CELL CLPControl REVerse STEP command The mobile reported minimum power control step size indicates the smallest step the mobile is capable of making during closed loop power control Query Range DB1 DBH DHQ UNKN RST Setting DB1 Programming Example OUTPUT 714 CALL MS REPORTED PCON STEP MINIMUM 233 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 hpib call ms reported opq fm CALL MS REPorted lt ONUM PREV QPCH CPCL gt CALL MS REPorted PREVision Function Queries the mobile reported protocol revision The values returned have the following definitions 0 Null String 1 J_STD 008 if CELL BAND returns USPC or Korean PCS
307. guide Chapters cdma2000_hpib_status_operation fm STATus OPERation Program Examples STATus OPERation OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 STATUS STATUS STATUS STATUS STATUS OPERATION ENABLE 1024 OPERATION EVENT Queries the Operation Event IRegister OPERATION CONDITION Queries the Operation Condition IRegister Sets the Operation Enable IRegister for bit 10 OPERATION NTR 1024 Sets the Operation Negative Transition IRegister for bit 10 OPERATION PTR 512 Sets the Operation Event Positive Transition IRegister for bit 9 STATus OPERation CALL Condition Register Bit Assignment The STATus OPERation CALL register bits will be used to indicate status of processes that occur during normal call processing operations Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 TA2000 Summary bit This bit is the summary message bit for the STATus OPERation CALL TA2000 register 8 256 CDMA Summary bit This bit is the summary message bit for the STA
308. h CAPPower ALL Function Queries the access probe power measurement results This query returns an integrity indicator followed by the most recent access probe power measurement result if results are available Query e Range 100 to 100 dBm 9 91 E437 Resolution 0 01 dBm Programming Example OUTPUT 714 FETCH CAPPower ALL Returns integrity access probe power measurement FETCh CAPPower INTegrity Function Queries the measurement integrity indicator for the last access probe power measurement completed Zero indicates a normal measurement See Integrity Indicator on page 144 for information about non zero integrity results Query Range 0 through 23 Programming Example OUTPUT 714 FETCH CAPPower INTegrity IQueries the integrity indicator for the most recent access probe power results 299 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib fetch acc probe pwr fm FETCh CPOWer FETCh CPOWer FETCh gt CPOWer gt returns Integrity Indicator then Channel T Power measurement result or average of results if multi measurement state is on ICOunt returns Intermediate Count CHINTegrity gt returns Integrity Diagram Conventions on page 171 FETCh CPOWer ALL Function Queries a channel power measurement result This query returns an integrity indicator followed by a channel power measurement
309. h of 16 bins maximum Query FETCh WQUality CDPower QCHannel ALL returns 1 active or 0 inactive Walsh code spread factor and power for bin 0 The integer value following power for bin 0 will be the beginning of bin 1 1 active or 0 inactive Walsh code spread factor power for bin 1 This pattern will repeat until the values for the last bin bin 15 have been returned Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER OCHANNEL ALL 316 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib fetch wquality fm FETCh WQUality FETCh WQUality CDPower QCHannel BIN bin num Function Queries a specific bin on the code domain graph The bars on the graph bins are numbered 0 through 15 starting from the left side of the graph to the right side of the graph This query returns a string of 4 comma separated values 1 active or 0 inactive Walsh code spread factor and power Query FETCh WQUality CDPower QCHannel BIN 0 returns 1 active or 0 inactive Walsh code spread factor and power for bin 0 Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER OQCHANNEL BIN 13 Queries the Q channel power in bin 13 FETCh WQUality CDPower QCHannel COUNI BIN Function This query indicates how many bins contain measurement data For example if 13 is returned bins 0 through 12 contain measurement data and bins 13 through 15 contain 9 91
310. h_wquality fm FETCh WQUality FETCh WQUality ICOunt Function Queries the intermediate count of measurements completed in a multi measurement Query Range 0 to 999 Programming Example OUTPUT 714 FETCH WQUALITY ICOUNT FETCh WQUality CDPower lGlNactive FAIL Function Queries the code domain measurement s pass fail result indicating whether the power level in the inactive code channels exceeded the level set using the SETup WQUality CDPower IQINactive LIMit command Query Range 0 1 9 91 E437 0 passed 1 failed 9 91 E 37 undefined Programming Example OUTPUT 714 FETCH WQUALITY CDPOWER IOINACTIVE FAIL FETCh WQUality CDPower ICHannel ALL Function Queries the I channel code domain power measurement results for all 16 measurement graph bars bins This query returns a string consisting of 64 comma separated values These represent 4 values for each of 16 bins maximum Since measurements will usually have less than 16 bins higher numbered bins frequently return 9 91 E 37 results Query FETCh WQUality CDPower ICHannel ALL returns 1 active or 0 inactive Walsh code spread factor and power for bin 0 The integer value following power for bin 0 will be the beginning of bin 1 1 active or 0 inactive Walsh code spread factor and power for bin 1 This pattern will repeat until the values for the last bin bin 15 have been returned
311. he test set not the IQ calibration date Returns a comma separated list Y YYY MM DD in that order Setting Sets the system calibration date Range e Year 0000 to 9999 e Month 01 to 12 e Day 01to31 Query Returns the date when system calibration was performed Range e Year 0000 to 9999 e Month 1 to 12 e Day 1to 31 Programming Example OUTPUT 714 CALIBRATION DATE 1999 01 04 Sets the date of the last system calibration year month and day 184 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_calibration fm CALL Subsystem CALL Subsystem Description The CALL subsystem handles all setup control and query functions for call processing This includes mobile station MS and Base Station cell functions Syntax Diagrams and Command Descriptions CALL CELL APARameter on page 187 CALL AWGNoise POWer on page 191 CALL BAND on page 195 CALL CHANnel on page 196 CALL CELL CLPControl on page 198 CALL CONNected S TATe on page 199 CALL CELL CONTrol DOWNIink FREQuency AUTO on page 203 CALL D2KTest on page 204 CALL END on page 206 CALL CELL ESCapel MODE on page 207 CALL FCHannel on page 208 CALL HANDoff on page 211 CALL CELL MCCode on page 212 CALL CELL MNCode on page 213 CALL MS REPorted lt BCL BWT OPER MODE EIRP gt on page 214 CALL MS REPorted CAPability CCHannel D
312. hen QPCH is present in the signal When QPCH is not present the output power is not fully calibrated Query Range 0 to 15 dB NAN Resolution 0 01 dB RST Setting 10 dB Programming Example OUTPUT 714 CALL QPCHANNEL LEVEL RTCELL DIGITAL2000 CALL QPCHannel LEVel RTPilot SELected Function Sets queries the forward quick paging channel QPCH level relative to the pilot level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type The QPCH channel is slotted pulsed The test set adjusts OCNS orthogonal channel noise simulator to an appropriate level for the periods of time when the slotted QPCH signal is pulsed on When QPCH is pulsed off the output level will not be fully calibrated Query Range 2 to 5 dB Resolution integer RST Setting 3 Programming Example OUTPUT 714 CALL QPCHANNEL LEVEL RTPILOT SELECTED queries the QPCH level relative to the pilot level 256 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_qpchannel fm CALL QPCHannel CALL QPCHannel STATe Function Sets queries the forward quick paging channel s QPCH state When the state of the forward QPCH channel is on the test set will transmit it even if the mobile station does not support QPCH The QPCH channel is slotted pulsed The test set adj
313. hnologies Inc 24001 E Mission Avenue Liberty Lake Washington 99019 9599 USA 8960 Series 10 Wireless Communications Test Set E5515C This declaration covers all options of the above product Conforms with the following European Directives The product herewith compiles with the requirements of the Low Voltage Directive 72 23 EEC and the EMC Directive 89 336 EFC including 93 68 EFC and carries the CE Marking accordingly EMC Safety Supplemental Information Standard IEC 61326 1 1997 A1 1998 EN 61326 1997 A1 1998 CISPR 11 1990 EN 55011 1991 IEC 61000 4 2 1995 A1 1998 EN 61000 4 2 1995 IEC 61000 4 3 1995 EN 61000 4 3 1995 IEC 61000 4 4 1995 EN 61000 4 4 1995 IEC 61000 4 5 1995 EN 61000 4 5 1995 IEC 61000 4 6 1996 EN 61000 4 6 1996 IEC 61000 4 11 1994 EN 61000 4 11 1994 Limit Group 1 Class A H 4kV CD 8kV AD 3 V m 80 1000 MHz 0 5kV signal lines 1kV power lines 0 5 kV line line 1 kV line ground 3V 0 15 80 MHz 1 cycle 100 IEC 61010 1 1990 A1 1992 A2 1995 EN 61010 1 1993 A2 1995 Canada CSA C22 2 No 1010 1 1992 11 The product was tested in a typical configuration with Agilent Technologies test systems 01 May 2001 01 May 2001 RIN PER R M Evans Quality Manager Mh ALL W V Roland Reliability amp Regulatory Engineering Manager For further information please contact your local Agilent Technologies sales office agent or distributor Authorized EU representat
314. hrough RCONfig5 Query Range See command descriptions for RCONfig1 through RCONfig5 RST Setting BPS9600 Programming Example OUTPUT 714 CALL SCHANNEL DRATE Queries the data rate for the currently selected radio configuration CALL SCHannel DRATe RCONfig1 Function Sets queries the data rate of the radio configuration 1 RC1 forward supplemental channel SCH in bits per second Setting Range BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 Query Range BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 RST Setting BPS9600 Programming Example OUTPUT 714 CALL SCHANNEL DRATE RCONFIG1 BPS38400 267 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call schannel fm CALL SCHannel CALL SCHannel DRATe RCONfig2 Function Sets queries the data rate of the radio configuration 3 RC3 forward supplemental channel SCH in bits per second Setting Range BPS14400 BPS28800 BPS57600 BPS115200 BPS230400 Query Range BPS14400 BPS28800 BPS57600 BPS115200 BPS230400 RST Setting BPS14400 Programming Example OUTPUT 714 CALL SCHANNEL DRATE RCONFIG2 BPS28800 CALL SCHannel DRATe RCONfig3 Function Sets queries the data rate of the radio configuration 3 RC3 forward supplemental channel SCH in bits per second Setting Range BPS9600 BPS19200 BPS38400 BPS76800 BPS153600 Query Range BPS9600
315. ill be handed off to Frequency bands are associated with a handoff system type and the CALL SETup SYSTem command determines the current handoff system type The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current handoff system type To initiate a handoff see the CALL HANDoff command description Setting Range e DIGital2000 IMT2000 JCDMa KPCS USCellular USPCs NMT450 Query Range e DIGital2000 IMT2000 JCDMa KPCS USCellular USPCs NMT450 RST Setting USPOCs Programming Example OUTPUT 714 CALL SETUP BAND KPCS Sets the handoff frequency band to Korean PCS cell band for handoffs to the IS 2000 system type 269 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call setup band fm CALL SETup CHANnel CALL SETup CHANnel CALL SETup CHANnel SELected DIGital2000 Diagram Conventions on page 171 gt SELected EN IMT2000 JCDMa KPCS USCellular USPCs A NMTA450 Sp num value L returns num value 270 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_setup_channel fm CALL SETup CHANnel CALL SETup CHANnel SELected SELected Function Sets queries the handoff physical channel The handoff physical channel number is associated with a ha
316. ilter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 16 400 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 400 to 499 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 300 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 300 to 399 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 403 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 2 4 200 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 200 to 299 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 100 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 100 to 199 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors
317. imeout value Setting Range 1 to 200 000 seconds Resolution 1 second uery ange 1 to Q R 1 to 200 000 RST Setting 200 seconds on Programming Example OUTPUT 714 SETUP CFERROR TIMEOUT STIME 2009 Sets timeout state to ON and sets the timeout time to 200 seconds SETup CFERror TIMeout STATe Function Sets queries the FER frame error rate measurement s timeout state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CFERROR TIMEOUT STATE ON SETup CFERror TIMeout TIME Function Sets queries the FER frame error rate measurement s timeout setting to be used when the timeout state is set to ON Setting Range 1 to 200 000 seconds Resolution 1 second Query Range 1 to 200 000 RST Setting 200 seconds Programming Example OUTPUT 714 SETUP CFERROR TIMEOUT TIME 200S 353 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib setup cfer fm SETup CFERror SETup CFERror CONFidence SLEVel Function The setting form of this command performs two functions 1 sets the FER frame error rate i E confidence level and 2 sets the FER measurements confidence limit STATe to 1 The query form of this command returns the FER measurement confidence level setting Setting Range 80 to 99 99 percent Resolution 0 01 percent Query Range 80 to 99 99 RST Setting 95 perce
318. imum Function This query only command returns the mobile station s maximum turbo coder data rate on the forward supplemental channel for rate set 2 as reported by the mobile station Query Range BPS14400 BPS28800 BPS57600 BPS230400 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD TURBO DRATE2 MAXIMUM 225 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call ms reported cap sch forw fm CALL MS REPorted CAPability SCHannel REVerse CALL MS REPorted CAPability SCHannel REVerse gt CALL MS REPorted CAPability SCHannel REVerse gt returns YES NO UNKN R SUPPort 1 CONVolution gt YES NO gt o rer UNKN gt DRATel s returns gt MAXimum string gt DRATe2 z gt returns s MAXimum string S L gt COUNt gt returns num value ES CALL MS REPorted CAPability SCHannel REVerse RCONfig gt returns string TURBO a gt returns YES NO UNKN gt L upro gt DRATe1 returns PE string gt gt DRATe2 4 z gt returns gag cimi d string Diagram Conventions on page 171 226 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call ms reported cap sch rev fm CALL MS REPorted CAPability SCHannel REVerse CALL MS REPorted CAPability SCHannel REV
319. in the 900 to 999 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 256 800 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 800 to 899 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 128 700 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 700 to 799 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 64 600 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 600 to 699 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 32 500 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 500 to 599 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 16 400 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 400 to 49
320. in the guide with line numbers are sections from a control program example available on line for you to download Code that is not part of the download control program example does not have line numbers This code may represent an alternate method of performing the task or may illustrate a feature not used by the control program example 65 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 prog getting started flowchart ac fm Programming Getting Started Guide for cdma2000 Mobile Test Introduction Syntax used in Programming Examples The programming examples use the shortened form of the command syntax to minimize GPIB bus transactions The shortened form of a command is defined by use of capital letters in the command syntax For the command syntax RFANalyzer CONTrol MEASurement FREQuency AUTO the shortened form would be RFAN CONT MEAS FREQ AUTO The programming examples do not include optional nodes Optional nodes in the command syntax are defined by enclosing the node inside the brackets For example the command syntax CALL CELL POWer SAMPlitude 80dBm appears in the programming examples as CALL POW 80dBm Programming examples make extensive use of compound commands using the and the separators Refer to the on line information for the definition and use of these command separators Complex Commands Complex commands are used to configure the state and assign values to parameters sim
321. ing advance 104 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step6 ac fm Step 7 End Connection Step 7 End Connection The following information provides additional details on Step 7 of the Programming Flowchart This information is applicable to all test applications Description In this step you release the call in active cell mode or end the mobile station transmission in test mode Contents Release the Call in Active Cell Mode e End the Mobile Station Test Mode Transmission Partially Preset the Test Set Release the Call in Active Cell Mode In active cell mode you can release the call with the mobile station in one of two ways Release from the Base Station Release from the Mobile Station 105 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step7 ac fm Step 7 End Connection Releasing an Active Call from the Base Station Figure 7 Process for Releasing an Active Call from the Base Station Send CALL END command Send CALL CONN query command Enter response from CALL CONN query Call connected Proceed with control Invoke error program handler Example 15 Programming Example OUTPUT Test set CALL END Initiate a base station release OUTPUT Test set CALL CONN Send call connected state query ENTER Test set Call connected Program hangs here until state change or timer expires IF Ca
322. ing call processing subsystem functions and commands Settable F OCNS Parameters e F OCNS Walsh code Fixed F OCNS Parameters e F OCNS level calculated value based on summation of all other code channels e OCNS CCI SUPPORTED is fixed at 0 e NUM OOCNS is fixed at 1 e F OCNS Walsh code is fixed at code channel number 80 GPIB Examples Setting F OCNS Walsh code OUTPUT 714 CALL OCNSOURCE WALSH CODES would set the F OCNS Walsh code to 10 See CALL OCNSource WALSh SELected Querying F OCNS level OUTPUT 714 CALL OCNSOURCE LEVEL would query the last F OCNS calculation See CALL OCNSource LEVel SELected Operating Considerations F OCNS is a read only value The F OCNS value is calculated to provide a summing value that results in a total code channel value equalling 10046 of cell power If the current desired code channel levels do not allow for a valid OCNS calculation an error message will be displayed Related Topics CALL OCNSource 59 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_ocns fm Configuring the F QPCH Forward Quick Paging Channel Configuring the F QPCH Forward Quick Paging Channel The quick paging channel parameters are configured using the following call processing subsystem functions and commands Settable F QPCH Parameters e QPCH Level relative to pilot channel power QPCH Level relative to cell power e QPCH State on or off
323. ing on the received signal strength of the reverse channel When UP is selected the test set sends all 0 up power control bits When DOWN is selected the test set sends all 1 down power control bits When ALTernate is selected the test set sends alternating up down power control bits Setting Range ACTive UP DOWN ALTernate Query Range ACT UP DOWN ALT RST Setting ACTive Programming Example OUTPUT 714 CALL CELL CLPCONTROL REVERSE MODE ALTERNATING Sets the closed loop power control mode to alternating up down bits CALL CELL CLPControl REVerse STEP Function Sets queries the reverse CDMA channel closed loop power control step size This setting tells the mobile station how much to increase or decrease the power according to the power control bit Setting Range DB1 DBHalf DBQuarter Query Range DB1 DBH DBQ RST Setting DB1 1 dB Programming Example OUTPUT 714 CALL CELL CLPCONTROL REVERSE STEP DBQUARTER Sets the closed loop power control step size to 0 25 dB 198 S Hp8960 E1962B CDMA 20003 1 reference guideYXChapterscdma2000 hpib call clpcontrol fm CALL CONNected STATe CALL CONNected STATe CALL CONNected R STATe E gt ARM F la IMMediate L DONE returns 1 0 L OPComplete s returns 1 s Ls SEQuential Ls WAIT DROP TIMer
324. ing range Resolution 0 01 dB RST Setting 55 dBm 1 23 MHz Programming Example OUTPUT 714 CALL CELL POWER AMPLITUDE 30 Sets the cell power level 30 dBm 252 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_power fm CALL CELL POWer CALL CELL POWer STATe SELected Function Sets queries the cell power state The optional SELected keyword in this command specifies that the cell power state being set or queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Cell power and AWGN see CALL AWGWNoise POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting a cell power level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of cell power and AWGN causing total RF power limits to be exceeded see CALL STATus TOTal PO Wer AMPLitude SELected for the allowable range of total RF power levels e Greater than 10 dB difference between cell power and AWGN e Amplitude offset causing total RF power limits to be exceeded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting ON Programming Example OUT
325. ing the CALL QPCHannel commands Query Range 2 to 5 dB 9 91 E437 Resolution integer RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS OPCHANNEL LEVEL RTPILOT SELECTED 284 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 hpib call status fm CALL STATus QPCHannel STATe CALL STATus Function Queries the current on off state of the forward quick paging channel QPCH When the QPCH is set to off the current QPCH level will be set to 9 91 E 37 The forward quick paging channel on off state is set using the CALL QPCHannel commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS OPCHANNEL STATE CALL STATus FCHannel LEVel SELected Function Queries the current forward fundamental channel FCH level The forward fundamental channel level is set using the CALL FCHannel commands Query Range 0 to 30 dB 9 91 E437 Resolution 0 01 dB RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL STATUS FCHANNEL LEVEL CALL STATus FCHannel STATe SELected Function Queries the current forward fundamental channel FCH on off state The forward fundamental channel on off state is set using the CALL FC Hannel commands Query Range 1 0 RST Setting 0 Off Programming Example OUTPUT 714 CALL STATUS FCHANNEL STATE DIGITAL2000
326. ing to the step size setting until the maximum number of steps is reached or the call processing event completes for example when the call connects When the test set is making access probe power measurements in the continuous trigger arm state it will display the power level of the most recent access probe power measurement Considerations when making Access Probe Power measurements IMPORTANT Access probe power measurements must not be left in Continuous Trigger Arm mode Attempting any other measurements while in this state will result in 4 dashes The access probe measurement setup menu provides control over the following access probe parameters e Number of Steps in the access probe sequence NUM STEP in the standards Power Step PWR STEP in the standards This parameter specifies the step increase in transmit power between each access probe within an access probe sequence e Maximum Request Sequence MAX REQ SEQ in the standards This parameter specifies the maximum number of access probe sequences for an access channel request Changing the number of steps and step size will affect the power level displayed if more than one access probe is transmitted by the mobile station However the number of access probes transmitted depends on whether or not the test set responds by acknowledging the access request thereby ending the access attempt To prevent the test set from responding to the access probe request turn the Call
327. ion 260 Index 537
328. ion press the START SINGLE key to trigger each measurement This measurement is not designed to measure digital signals See Input Signal Requirements on page 39 Interpreting Integrity Indicator values See Integrity Indicator on page 144 Related Topics Frequency Stability Measurement Description on page 39 471 S Hp8960 E1962B CDMA 200013 1 reference guideXChapterscdma2000 ts fstab fm Frame Error Rate Measurement Troubleshooting Frame Error Rate Measurement Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SETup CFERror CONTinuous on page 352 If single triggering is used during manual operation press the START SINGLE key to trigger each measurement The test set receiver s expected signal amplitude and channel number or frequency must be set up correctly for accurate measurements This is normally done automatically see Active Cell Operating Mode but can also be done manually see Receiver Control on page 118 A call must be connected with a loopback service option selected see CALL CELL SOPTION to perform frame error rate measurement
329. ion in the Condition Register There is no buffering so while an event bit is set subsequent transitions in the Condition Register corresponding to that bit are ignored Event Registers are read only Event Registers in the test set are 16 bits long and may contain unused bits All unused bits return a zero value when read Event Enable Register The Event Enable Register defines which bits in the Event Register will be used to generate the Summary Message Each bit in the Enable Register has a corresponding bit in the Event Register The test set logically ANDs corresponding bits in the Event and Enable registers and then performs an inclusive OR on all the resulting bits to generate the Summary Message By using the enable bits the application program can direct the test set to set the Summary Message to the 1 or TRUE state for a single event or an inclusive OR of any group of events Enable Registers are read write Enable Registers in the test set are 16 bits long and may contain unused bits which correspond to unused bits in the associated Event Register All unused bits return a zero value when read and are ignored when written to Enable Registers are unaffected by a CLS clear status command or queries 134 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Standard Event Status Register Model Standard Event Status Register Latched Conditions Standard Event Status Enable
330. is bit is always 0 12 4096 Reserved for future use This bit is always 0 404 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 900 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 900 to 999 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 256 800 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 800 to 899 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 128 700 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 700 to 799 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 64 600 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 600 to 699 range occurs After setting the Positive Transition Filter and the N
331. is bit will always be 0 7 128 Power On This bit is set to 1 if the power supply has been turned off and on since the last time this register was read or otherwise cleared Defined in IEEE Std 488 2 1992 11 5 1 1 2 6 64 Reserved for future use This bit will always be 0 5 32 Command Error This bit is set to 1 if the test set detects an error while trying to process a command The following events cause a command error e An IEEE 488 2 syntax error The test set received a message that did not follow the syntax defined by the standard e Asemantic error For example the test set received an incorrectly spelled command e The test set received a group execution trigger GET inside a program message 4 16 Execution Error This bit is set to 1 if the test set detects an error while trying to execute a command The following events cause a execution error e A lt PROGRAM DATA gt element received in a command is outside the legal range for the test set or it is inconsistent with the operation of the test set e The test set could not execute a valid command due to some test set hardware firmware condition 3 8 Device Dependent Error This bit is set to 1 if a test set operation does not execute properly due to an internal condition such as overrange This bit indicates that the error was not a command query or execution error 410 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status std evnt
332. istration fm Programming 3 Programming 71 S Hp8960 E1962B CDMA 20003 1 reference guideXChapters ch general programming fm Programming 72 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapters ch general programming fm Step 1 Set up the Test Set Step 1 Set up the Test Set This step explains how to e Fully Preset the Test Set e Turn on the GPIB Debugger e Set Test Set s Operating Mode Fully Preset the Test Set To set up the test set you begin by sending the RST command along with a global timeout The RST command is used to perform a full reset of the test set returning it to a known state 100 A 714 E5515C GPIB Address 110 ON TIMEOUT 7 20 CALL Timeout Calls Timeout routine in Step 7 120 OUTPUT A RST Turn on the GPIB Debugger Another useful tool that you may want to turn on at this time is the system command GPIB debugger When on error messages appear on the test set s screen when the test set receives an unknown GPIB command The message contains information about what type of error was caused and indicates where in the syntax the error occurred Troubleshooting like locating and fixing typing errors for example becomes easier using the GPIB command debugger 130 OUTPUT A SYST COMM GPIB DEB STAT ON NOTE The GPIB debugger assists you when debugging code This command should be taken out of your code once development is completed because it slows program executi
333. ital transmit power measurement Measurement Specific Measurement Parameters Measurement specific measurement parameters set up operating conditions for a specific measurement For example e Setting the channel power measurement speed in IS 2000 e Setting ORFS frequency offsets in GPRS e Setting number of bits for the FBER measurement in GSM Refer to the GPIB syntax listing for the detailed list of measurement parameters for individual measurements Example 6 Programming Example OUTPUT Test set SET CPOW MSP FAST sets the IS 2000 channel power measurement speed to fast Example 7 Programming Example OUTPUT Test set SET ORFS SWIT FREQ 400 KHZ sets the first ORFS offset to 400 kHz Example 8 Programming Example OUTPUT Test set SET FBER COUN 10000 sets the number of fast BER bits to test to 10 000 bits 90 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step3 ac fm Step 3 Set Measurement Parameters Example 9 Program Example Setting Both Generic and Measurement Specific Measurement Parameters Set trigger arm to single for all measurements OUTPUT Test set SET CONT OFF l kkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkkk Configure Modulation Accuracy Measurement OUTPUT Test set SET MACC COUN 5 Example of using a complex command to set both the measurement count state and number at the same time OUTPUT Test set SET MACC TRIG SOUR AUTO Sets
334. its calibration measurements are traceable to the United States National Institute of Standards and Technology to the extent allowed by the Institute s calibration facility and to the calibration facilities of other International Standards Organization members 5 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E1962 90017titlepage fm Agilent Technologies Warranty Statement for Commercial Products Agilent Technologies 8960 Series 10 Wireless Communications Test Set Agilent Technologies E1962B cdma2000 Mobile Test Application Duration of Warranty 1 year 1 Agilent Technologies warrants Agilent Technologies hardware accessories and supplies against defects in materials and workmanship for the period specified above If Agilent Technologies receives notice of such defects during the warranty period Agilent Technologies will at its option either repair or replace products which prove to be defective Replacement products may be either new or like new Agilent Technologies warrants that Agilent Technologies software will not fail to execute its programming instructions for the period specified above due to defects in material and workmanship when properly installed and used If Agilent Technologies receives notice of such defects during the warranty period Agilent Technologies will replace software media which does not execute its programming instructions due to such defects Agilent Technologies does not warrant that the ope
335. ive Agilent Technologies Deutschland GmbH Herrenberger StraBe 130 D71034 Boblingen Germany 11 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E 1962 9001 7titlepage fm 12 DECLARATION OF CONFORMITY According to ISO IEC Guide 22 and CEN CENELEC EN45014 Manufacturer s Name Agilent Technologies Inc Manufacturer s Address 24001 E Mission Avenue Liberty Lake Washington 99019 9599 USA Declares that the product Product Name 8960 Series 10 Wireless Communications Test Set Model Number E5515T Product Options This declaration covers all options of the above product Conforms with the following European Directives The product herewith compiles with the requirements of the Low Voltage Directive 72 23 EEC and the EMC Directive 89 336 EFC including 93 68 EFC and carries the CE Marking accordingly EMC Standard Limit IEC 61326 1 1997 A1 1998 EN 61326 1 1997 A1 1998 Group 1 Class A H CISPR 11 1990 EN 55011 1991 4kV CD 8kV AD IEC 61000 4 2 1995 A1 1998 EN 61000 4 2 1995 3 V m 80 1000 MHz IEC 61000 4 3 1995 EN 61000 4 3 1995 0 5V signal lines 1kV power lines TEC 61000 4 4 1995 EN 61000 4 4 1995 0 5 kV line line 1 kV line ground TEC 61000 4 5 1995 EN 61000 4 5 1995 3V 0 15 80 MHz TEC 61000 4 6 1996 EN 61000 4 6 1996 1 cycle 100 TEC 61000 4 11 1994 EN 61000 4 11 1994 Safety IEC 61010 1 1990 A1 1992 A2 1995 EN 61010 1 1993 A2 1995 Canada CSA C22 2 No 1010 1 1992 Supplemental Information 11 The
336. kable Messages Display State found in the Instrument Setup menu gives users a way to block these messages and the associated beep from ever happening When the state is Off these messages and their associated beep will be blocked The Maskable Message Display State can be set manually or with the following GPIB command OUTPUT 714 DISPLAY MESSAGE MASKABLE STATE OFF Prevents certain messages from appearing on the display Instrument Maskable Messages nstrument warning Audio Generator instrument has been closed nstrument warning Audio Analyzer instrument has been closed nstrument warning Analog Audio instrument has been closed Related Topics SYSTem ERRor on page 431 475 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 ts err msg fm Error Message Log Error Message Log Description When an error message is displayed it is also logged in the error message log This log is only accessible manually it is not available through GPIB The error message log can have two pages it can be displayed by pressing the F7 menu key from the SYSTEM CONFIG screen Next Page and Previous Page controls are provided All errors and events that are generated are displayed in the error message log When the log is full a new message is sent to the log and the oldest message is removed from the log The log is cleared when the test set powers up or when the user presses F10 Clear Error Message Log Relate
337. kckckckck ckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckck kk ck kk 80 IF NOT Call connected THEN 90 DISP CALL NOT CONNECTED 100 ELSE 110 DISP CALL IS CONNECTED 120 END IF 130 END 156 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync callstate fm Call Processing State Synchronization Call State Change Detector This feature provides a method for holding off the Connected Idle Query results until a change in call processing states is detected Arming the call state change detector is useful only for mobile station originated calls or disconnects only It is armed automatically when call processing functions originating from the test set are requested The call state change detector becomes disarmed when any of the following conditions have been met the call processing state has changed to either connected or idle or e the attempt to connect or disconnect a call has failed and one of the test set s Fixed Timers has timed out or e no call processing state changes occurred within the time period specified by the Call State Change Detector Timeout The following command arms the call state change detector OUTPUT 714 CALL CONNECTED ARM IMMEDIATE Example 22 Mobile Station Originated Call Arming the Change Detector The following example illustrates the use of the call state change detector along with the connected idle query to synchroni
338. l SLEVel RTPilot SELected Function The setting form of this command performs two functions 1 sets the forward quick paging channel QPCH level relative to the pilot level and 2 turns the QPCH state to ON The query form returns the QPCH level relative to the pilot level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type The QPCH channel is slotted pulsed When the state of the QPCH is on see CALL QPCHannel STATe OCNS is calculated based on the channel power when QPCH is present in the signal When the QPCH state is off the output power is not fully calibrated Query Range 2 to 5 dB Resolution integer RST Setting 3 Programming Example OUTPUT 714 CALL OPCHANNEL SLEVEL RTPILOT SELECTED Sets the QPCH level state to on and queries the QPCH level relative to the pilot power 255 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_qpchannel fm CALL QPCHannel CALL QPCHannel LEVel RTCell SELected Function Queries the forward quick paging channel QPCH level relative to the cell power level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type The QPCH channel is slotted pulsed When the state of the QPCH is on OCNS is calculated based on the channel power w
339. l Connectors Description PRINTER GPIB e i ETHERNET TO TIMEBASE EXT INTERFACE FRONT PADEL CONTROL ADJUST cy OUT E PORT EXT SIG GEN FRAME SYNCH eJ Vo TESTSET TEST SET COUNTER IN SYNCHIN SYNCHOUT SERIALI SERIAL2 SERIAL 3 _ Lj L Tr OUT DATAIN CLKIN DATA VALID IN me s 10 MHz REF MOD IN BER 457 S Hp8960 E1962B CDMA 2000V3 1 reference guideYChaptersicdma2000 gen rearpanel con fm Rear Panel Connectors BASEBAND I O Not functional for this release CLK IN Not functional for this release COUNTER IN Not functional for this release DATA IN Not functional for this release DATA VALID IN Not functional for this release ETHERNET TO FRONT PANEL This RJ 45 connector is used with a separate LAN jumper cable to connect the front panel DATA connector to the rear panel LAN PORT The the DATA connector on the front panel is connected internally to the ETHERNET TO FRONT PANEL connector on the rear panel In order to use the front panel DATA connector the user must connect the rear panel LAN PORT to the rear panel ETHERNET TO FRONT PANEL connector with the LAN jumper cable The LAN jumper cable part number E5515 61160 is supplied with the test set EXT INTERFACE CONTROL Not functional for this release EXT SIG GEN FRAME SYNCH Not functional for this release FM MOD IN This BNC connector let s you use an external signal to frequency modulate the test set s RF
340. l Processing State Synchronization Call Processing State Query The CALL STATUS STATE query returns the current call processing state This is a list of all possible values for this test application IDLE Idle is returned when the test set is not on a call PAG Paging is returned when the test set is in the process of paging the MS CALL Call is returned when an alert message is sent to the MS during a call setup due to a page CONN Connected is returned when the test set and the MS are connected on a call APR Access probe is returned when the test set has received an access probe REL Releasing is returned when the test set is in the process of releasing the MS from a call using over the air signalling as part of a MS or BS originated release procedure HAND Handoff is returned when the test set is in the process of handing off the MS REG Registering is returned when the test set is in the process of performing a registration with the MS The following command returns the current state of a call OUTPUT 714 CALL STATUS STATE See the Instrument Status Area on page 462for call processing state information 155 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_sync_callstate fm Call Processing State Synchronization Description Connected Idle Query This query will determine if a call is connected or disconnected by returning a
341. l power measurements do not perform the search for on power control groups Fast channel power measurements only sample the input signal for 1 25 milliseconds and are applicable only when the input signal power is not power gated An example of a condition which would result in the mobile station transmitting a non power gated signal would be when the mobile station is in a loopback service option on a call or not and is transmitting full rate data Input Signal Requirements The channel power measurement meets or exceeds specifications when the following input signal requirements are met The frequency of the signal being measured must be within the range of 412 MHz to 483 MHz 800 MHz to 960 MHz or 1 7 GHz to 2 0 GHz and be within 100 kHz of the expected frequency The average power level of the signal at the RF IN OUT connector must be between 61 dBm to 37 dBm The test set can autorange to a signal that is between 8 dBm to 20 dBm of the expected level see RFANalyzer AUTO POWer SELected 34 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 meas cpower desc fm Channel Power Measurement Description Related Topics READ Subsystem SETup CPO Wer INITiate FETCh CPOWer Digital Average Power Measurement Description Test Adherence to Standards 35 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_meas_cpower_desc fm Digital Average Power
342. l they can be repaired by qualified service personnel WARNING The WARNING sign denotes a hazard It calls attention to a procedure practice or the like which if not correctly performed or adhered to could result in personal injury Do not proceed beyond a WARNING sign until the indicated conditions are fully understood and met CAUTION The CAUTION sign denotes a hazard It calls attention to an operating procedure or the like which if not correctly performed or adhered to could result in damage to or destruction of part or all of the product Do not proceed beyond a CAUTION sign until the indicated conditions are fully understood and met Hp8960 E1962B CDMA 2000 3 1_reference_guide E 1962 9001 7titlepage fm Safety Symbols N Caution refer to accompanying documents A N Warning risk of electric shock L Earth ground terminal Alternating current Frame or chassis terminal CH Standby supply Units with this symbol are not completely disconnected from ac mains when this switch is off Product Markings CE the CE mark is a registered trademark of the European Community A CE mark accompanied by a year indicated the year the design was proven CSA the CSA mark is a registered trademark of the Canadian Standards Association CERTIFICATION Agilent Technologies certifies that this product met its published specifications at the time of shipment from the factory Agilent Technologies further certifies that
343. lapped Command Synchronization Commands Table 7 Overlapped Commands Command Purpose Of Command Example DONE Returns a 0 if the associated command s pending operation flag is true or a 1 if it is false 10 OUTPUT 714 CALL TCH 65 20 OUTPUT 714 SETUP TXP CONT OFF 30 OUTPUT 714 SETUP PFER CONT OFF 40 REPEAT 50 OUTPUT 714 CALL TCH DONE 60 ENTER 714 Process done 70 UNTIL Process done 80 OUTPUT 714 INIT TXP PFER 90 END The example shown is from the E1960A GSM test application Commands the test set to perform a traffic channel handover and execute two setup commands After the two setup commands have finished the DONE command is used to find out if the handover is finished SEQuential Forces an overlapped command to execute in a sequential manner No subsequent commands will be executed until the pending operation flag for this operation is false OUTPUT 714 CALL TCH SEQ 65 The example shown is from the E1960A GSM test application Commands the test set to perform a traffic channel handover and to not execute any more commands until the pending operation flag associated with the CALL TCH command is false WAIT Forces the test set to wait until the associated command s pending operation flag is false before executing any more commands 10 OUTPUT 714 CALL TCH 65 20 OUTPUT 714 SETUP TXP CONT OFF 30 OUTPUT 714 SETUP PFER CONT OFF 40 OUTPUT 714 CALL TCH WAIT
344. le Condition Register Bit Assignment on page 391 STATus QUEStionable CALL Condition Register Bit Assignment on page 392 STATus QUEStionable ERRors Condition Register Bit Assignment on page 395 STATus QUEStionable HARDware Condition Register Bit Assignment on page 406 STATus OPERation Register Bit Assignments on page 371 STATus OPERation CALL Condition Register Bit Assignment on page 372 STATus OPERation NMRReady Register Bit Assignments on page 376 Related Topics Status Subsystem Overview on page 120 365 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status description fm STATus OPERation STATus OPERation STATus OPERation gt ENABle pO L gt EVENt i 5 CONDition gt lt sp gt lt num value NTRansition4 L gt reads enable register reads event register reads condition register writes to enable register gt 5 Sp num value writes to Negative Transition Filter register L gt reads Negative Transition Filter register gt iPTRansition sp num value writes to Positive Transition Filter register gt reads Positive Transition Filter register 43 STATus s OPERation CALL gt reads event register EVENt gt CONDition reads condition register 5 ENABle s lt
345. le only when the operating mode is set to IS 2000 Test The F SCH channel in forward channel radio configurations 1 and 2 is supported only when operating mode is set to IS 2000 Test Related Topics CALL SCHannel 57 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_sch fm Configuring the F Pilot Channel Forward PICH Configuring the F Pilot Channel Forward PICH The F Pilot parameters are configured using the following call processing subsystem functions and commands Settable F Pilot Parameters e F Pilot level e F Pilot state e PN Offset Fixed F Pilot Parameters e F Pilot Walsh code is fixed at code channel number 0 GPIB Examples Setting the F Pilot Level OUTPUT 714 CALL PIL 8 DB would set the F Pilot state on and set the level to 8 dB See CALL PILOT SLEVel SELected Querying the F Pilot Level OUTPUT 714 CALL PIL LEVel would query the last setting that was made to the F Pilot level See CALL PILOT LEVel SELected Operating Considerations The Walsh code number for the F Pilot channel is fixed at code 0 of the Walsh 64 set Related Topics CALL PILot 58 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_pich fm Configuring the F OCNS Forward Orthogonal Channel Noise Simulator Configuring the F OCNS Forward Orthogonal Channel Noise Simulator The F OCNS channel parameters are configured using the follow
346. le to arm and make the measurement Pressing Shift Start Single Stop causes all measurements with trigger arm set to single to abort the measurement It is unnecessary to arm a measurement if trigger arm is set to continuous it will continue to cycle in the measuring state 142 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_trig fm Table 5 Trigger Arm Default Settings Triggering of Measurements Action Trigger Arm Default Setting Power up of test set Continuous Manual Full Preset Continuous RST Remote Full Preset Single Partial Preset No change Trigger Delay Description Trigger delay controls the delay time between the trigger and the start of sampling Resolution is 1 nanosecond per measurement and the units are in seconds A negative value indicates the sampling should occur prior to the trigger The default is zero seconds which is preferred for most measurements Related Topics Integrity Indicator 143 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 prog trig fm Integrity Indicator Integrity Indicator Description The test set can evaluate its own performance and make a determination as to the validity of a measurement result The test set evaluates the conditions surrounding a measurement and reports to the user its evaluation of these conditions in a parameter called the measurement integrity indicator A measurement integrity in
347. litude offset causing total RF power limits to be exceeded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting Range 120 dBm 1 23 MHz to 15 dBm 1 23 MHz NAN Resolution 0 01 dB Query Range 120 dBm 1 23 MHz to 15 dBm 1 23 MHz NAN Resolution 0 01 dB RST Setting NAN Programming Example OUTPUT 714 CALL AWGNOISE POWER AMPLITUDE 30 Set the AWGN level to 30 dBM 1 25 MHz 193 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call awgn fm CALL AWGNoise POWer CALL AWGNoise POWer STATe SELected Function Sets queries the additive white gaussian noise AWGN state The optional SELected keyword in this command specifies that the AWGN power level being queried applies to the current system type AWGN and cell power see CALL CELL POWer are absolute power levels and make up the total forward channel RF output power Depending on the cell power setting an AWGN level may be within the range listed below but cause an error message to be displayed Possible causes are e Sum of AWGN and cell power causing total RF power limits to be exceeded see CALL TOTal POWer AMPLitude SELected for range of total RF power e Greater than 10 dB difference between cell power and AWGN e Amplitude offset causing total RF power limits to be exceeded see SYSTem CORRection GAIN to set or query the amplitude offset value Setting
348. ll Traffic Data Rate 292 FULL PRESET key 433 FULL preset key 384 full preset 116 G GPIB Address 421 GPIB address 527 H Half Traffic Data Rate 292 Handoff 211 handoff 68 cdma2000 451 handoff band setting 269 handoff channel setting 270 handoff waveform quality initiate command 322 handoff waveform quality measurement ABORt command 175 handoff setting up 272 handoff setting up system type 273 handoff system type 273 Index Index handover See handoff hardware error 497 I I 313 I Q calibration 180 idle measurement state 142 immediate trigger source 140 inactive IQ channel power limit code domain power 360 inactive measurement state 142 Initial Power 187 instrument error 501 Instrument Information Test Application 430 integrity access probe power 299 channel power 300 digital average power 302 frequency stability 306 integrity indicator 144 programming example 147 timeout 139 intermediate count channel power 300 digital average power 302 frequency stability 306 IntRef 435 invalid measurement results 150 IS 2000 standards adherence to 42 IS 2000 Test 240 L LAN address 525 LAN IP Address 421 Last Calibration 181 link control error 496 M magnitude error FETCh command 312 make a mobile station originated call 67 Maskable Message Display State 295 421 Max EIRP 204 Max Request Seq 187 Max Response Seq 187 Max Slot Cy
349. ll Enable IRegister for bit 2 Sets the Negative Transition IRegister for bit 2 PTR 256 Sets the Positive Transition IRegister for bit 8 373 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation STATus OPERation CALL COMMon Condition Register Bit Assignment The STATus OPERation CALL COMMon register bits will be used to indicate status of processes that occur during normal call processing operations Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Registering BS initiated This bit is set to a 1 when the Base Station initiates registration 8 256 Reserved for future use This bit is always 0 7 128 BS Originating This bit is a 1 when e Active Cell mode the call processing state leaves the idle state e Test mode the test set has noted a base station origination 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Call Control Status Registering This bit will be a 1 when the test set is in the call control statu
350. ll Pouer avefgen Quality Numeric Rho Frequency Error SU 3 Excel dBn 1 23 MHz rm c cell Band ange trough dBc Vieu Code Domain Hu LORI Power ror f Channer Continuous E EN Code Domain tu Setup Value ERU if Y tocol Rev Power Noise 1 VOCI ES Continuous E off Sees Radio Config Positions XFud3 Rusa 801 Echo d 2 N Close FCH Service J fenu Option Setup q 7 ue l Sus Tupe 15 2000 d 1of2 Ref 1of3 Return 1of2 1 Select a measurement with a graphical view for example Waveform Quality Code Domain 2 Press the Change View F2 key 3 Select the desired graphical view 442 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_view_graph fm How Do Change the Measurement Setup How Do I Change the Measurement Setup A Select a measurement Measurement Selection BB cess Probe Pouer Em Channel Pouer Digital Average Pouer Handoff Waveform Quality Haveform Quality Code Domain Frame Error Rate 1 Press the Measurement selection key 2 Highlight a measurement to set up and press the knob B Set up the measurement Neasurenent Instrument Screen fA Control Waveform Quality Numeric Rho Call Parns 4 Cell Pouer fee lllaveforn Quality Rho Frequency Error E hm Setup E up m n cM Hz dBn 1 23 Hz Ld Tine Error US ell Band Change Carrier Feedthrough dBc Us cellular d 2 Li
351. ll connected THEN Check if disconnection successful put error handler here END IF Call is disconnected so proceed with control program 106 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step ac fm Step 7 End Connection Releasing an Active Call from the Mobile Station Figure 8 Process for Terminating an Active Call from the Mobile Station Send CALL CONN TIM command Send CALL CONN ARM command Send CALL CONN query command Terminate the call from mobile station Enter response from CALL CONN query Proceed with control Invoke error program handler NOTE The test set cannot initiate a call disconnection from the mobile station You must manually push the end button on the mobile station or send commands to a test bus built into the mobile station For a mobile station release where the call is terminated by physically pushing a button on the phone as opposed to using a test bus ensure that the call state change detector timeout time is long enough to allow the end button to be pushed Example 16 Programming Example OUTPUT Test set CALL CONN TIM 5 Set timeout time to 5 seconds OUTPUT Test set CALL CONN ARM Arm the change detector 107 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step7 ac fm Step 7 End Connection DISP Terminate the call from the mobile station OUTPUT Test set CALL CONN Initiate call conne
352. ll ers _ Escape node US PCS E Access Paging Data Rate Tax Request Seq __Paraneters of mos Sint curie Index tla Reso Registration Parameters Reoistration EE Protocol Rev Parameters y Resistration Period 28 Lom Radio Confio XFud3 Rusa pe 802 Loopback Q 3 Close FCH Service j fenu Option Setup y V ey active Cell Sus Tupe 18 2000 Idle offset 1of3 1 Turn the knob to highlight a parameter and then press the knob 2 Enter a value or selection and press the knob 9 Press the Close Menu F6 key How Do Change Cell Information 449 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen op overview cell info fm How Do Change Code Channel Levels How Do I Change Code Channel Levels Call Setup Screen pM d ten mfo Generator Information call Paras cell Pouer Generated Pouer Level Information 65 00 Current Level Desired Level dBn 1 23 MHz Cell Pouer dBm 1 23 MHZ u5 00 45 00 ce1 Band Coge channel E Hea AIGH Pouer dBm 1 23 MHz ort art US Cellular Y Total RF Pouer aBn 1 23 tH 45 00 45 00 JAUGH Pouer Channel Off Generated Code Channel Information 38 PH Offset 12 ea Channel Current Level 4B Desired Level 4B llalsh Code Protocol Rev Trigge
353. lter register S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation NMRReady CDMA STATus gt OPERation NMRReady COMMon STATus OPERation reads event register gt ls EVENt j gt CONDition reads condition register gt ENABle sp num value writes to enable register 4 reads enable register NTRansition gt lt sp gt lt num value writes to Negative Transition Filter register gt reads Negative Transition Filter register gt PTRansition s lt sp gt lt num value writes to Positive Transition Filter register gt reads Positive Transition Filter register reads event register EVENt gt CONDition reads condition register gt ENABle sp num value writes to enable register gt reads enable register NTRansition sp num value writes to Negative Transition Filter register gt reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register gt reads Positive Transition Filter register 369 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation STATus gt
354. lter register gt reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register gt reads Positive Transition Filter register 3 reads event register gt m EVENt gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register gt reads enable register gt NTRansition 5 sp num value writes to Negative Transition Filter registerj reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register J gt reads Positive Transition Filter register 3 389 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable STATus SQUEStionable ERRors TA2000 STATus QUEStionable HARDware reads event register a EVENt ij gt CONDition reads condition register gt ENABle sp num value writes to enable register gt gt reads enable register NTRansition gt lt sp gt lt num value writes to Negative Transition Filter register gt reads Negative Transition Filter register gt PTRansition sp num value writes to Positive Transition Filter register
355. lter register 3 reads Negative Transition Filter register 3 PTRansition sp num value writes to Positive Transition Filter register J reads Positive Transition Filter register 387 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable STATus sQUEStionable ERRors 388 CDMA z gt reads event register 3 n EVENt 4 gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register reads enable register NTRansition gt lt sp gt lt num value writes to Negative Transition Filter register reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register J gt reads Positive Transition Filter register S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable STATus sQUEStionable ERRors COMMon STATus QUEStionable ERRors DIGital2000 reads event register gt L EVENt j m gt CONDition reads condition register gt ENABle sp num value writes to enable register reads enable register gt 7 NTRansition sp num value writes to Negative Transition Fi
356. ly one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Setting Range 0 to 20 dB Resolution 0 01 dB Query Range 0 to 20 dB Resolution 0 01 dB RST Setting 15 6 dB Programming Example OUTPUT 714 CALL SCHANNEL LEVEL SELECTED 10 CALL SCHannel STATe SELected Function Sets queries the on off state of the forward supplemental channel SCH The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type At this time there is only one system type choice DIGital2000 Specifying DIGital2000 will have the same effect as using the optional SELected keyword Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL SCHANNEL STATE SELECTED OFF Turns off the forward supplemental channel 266 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call schannel fm CALL SCHannel CALL SCHannel DRATe SELected Function Sets queries the data rate of the currently selected radio configuration To find out which radio configuration is currently selected see CALL CELL RCONfig Entering a data rate that is not included in the radio configuration s set of valid entries will cause the test set to generate an error message Setting Range See command descriptions for RCONfig1 t
357. m Overview Status Reporting Structure For The DIGital 2000 Registers STATUS QUESTIONABLE ERRORS DIGITAL 2000 Extension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 600 Messages 700 Messages 800 Messages 900 Messages Bit 7 STATUS QUESTIONABLE ERRORS OONOUR WD STATUS OPERATION NMRREADY DIGITAL 2000 Extension Bit HWQuality Reserved for future use SIS Reserved for future use OPERATION NMRREADY 130 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structure For The CDMA Registers STATUS QUESTIONABLE ERRORS CDMA Extension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 600 Messages 700 Messages 800 Messages 900 Messages Bit 8 STATUS QUESTIONABLE ERRORS O oe 410 0 i WN STATUS QUESTIONABLE CALL CDMA Extension Bit Traffic channel preamble not received m 8 Service Option or Radio Configuration rejected by MS TATU Service connect completion not received QUESTIONABLE CALL Call drop timer timed out STATUS OPERATION NMRREADY CDMA Extension Bit DA Power Bit 8 WQUality STATUS C Power OPERATION CFERror NMRREADY CAPPower 131 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structure For The TA 2000 Registers STATUS QUESTIONABLE ERRORS TA 2000 E
358. m type see CALL CELL SYSTem the mobile station will be handed off within the current system If handoff system type is different than active cell system type the call will be handed off to the system indicated by this command Setting Range DIGital2000 Query Range 2000 RST Setting DIG2000 Programming Example OUTPUT 714 CALL SETUP SYSTEM TYPE DIG2000 Selects IS 2000 as the handoff system type 273 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib call setup system fm CALL CELL SIDentity CALL CELL SIDentity CALL SIDentity Sp num value CELL Diagram Conventions on page 171 CALL CELL SIDentity gt returns num value Function Sets queries the system identification number Setting Range 0 to 32767 Query Range 0 to 32767 RST Setting 231 Programming Example OUTPUT 714 CALL CELL SIDENTITY 231 Sets the system identifier to 231 274 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_sid fm CALLI CELL SOPTION CALL CELL SOPTION CALL E SOPTion E gt lt sp gt S01 S02 S03 S09 sr CELL SELected dU SELected Jj S017 SO55 gt DIGital2000 returns SO1 SO02 Ss03 So9 soi7 sO055 gt gt RCONfigl gt lt sp gt SO1 S02 s03 S055 5s returns SO1 S0O2 S03 S055 gt LS RCONfig2
359. ma2000 conf meas fm Measurement Related Configuration Frequency 1 20 Up to 20 different RF offset frequencies can be defined by you to correct network loss or gain When operating at frequencies not specified in the RF IN OUT Amplitude Offset frequency list but between the lowest and highest frequencies in the list the test set will use linear interpolation to define offset values When operating at frequencies above the highest frequency specified or below the lowest frequency specified in the RF IN OUT Amplitude Offset frequency list the test set will use the offset of the closet associated frequency If you repeat a frequency entry only the first entry along with its offset will be used by the test set even though both of the repeated frequencies may be shown If a frequency is repeated a warning will appear NOTE Duplicate RF IN OUT Amplitude Offset Frequency The first occurrence of duplicate is used Remote User If less than 20 frequencies are sent the first positions of the RF IN OUT Amplitude Offset Setup menu will fill in according to the number of frequencies sent This means that if 6 frequencies are sent Frequency 1 through Frequency 6 will reflect the values sent by you and Frequency 7 through Frequency 20 will remain off Sending any new frequency values in subsequent commands will write over the original values and set the state to Off for any frequencies not set with the new command Sending a null list no value
360. ma2000_gen_bse_rcvr_test fm Status Subsystem Overview Status Subsystem Overview The following pages present an overview of the entire status subsystem including test applications which may or may not be loaded in your test set 120 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog status reg fm Status Subsystem Overview Description Overview of STATus Reporting Structure ERROR EVENT QUEUE STATUS QUESTIONABLE ERRORS STATUS QUESTIONABLE STATUS QUESTIONABLE CALL STATUS QUESTIONABLE HARDWARE Extension Bit Power up Self test Fail STATUS BYTE STANDARD EVENT STATUS REGISTER dipidiad Operation Complete 0 2 Query Error 2 3 MAV Device Dependent Error 3 2 Execution Error 4 6 RAS Command Error 5 7 Power On 7 STATUS OPERATION STATUS OPERATION NMRREADY STATUS OPERATION CALL STATUS OPERATION HARDWARE Extension Bit External Time Base in use SYSTEM SYNCHRONIZED STATUS OPERATION KEYPRESSED 121 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog status reg fm Status Subsystem Overview Status Reporting Structure For STATus QUEStionable and STATus OPERation STATUS QUESTIONABLE CALL STATUS QUESTIONABLE ERRORS Extension Bit 0 Extension Bit 0 COMMon Summary 1 COMMon Summary 1 GSM Summary 2 GSM Summary 2 AMPS Summary 3 AMPS Summary 3 DIGital 136 Summary 4 Bit 10 DIGital 136 Summary 4 Bit 1 TA136 Summary 5 STATUS TA136 S
361. mands and processing data received from the GPIB interface controlling hard disk access control of all RF and audio hardware modules routing measurement results received form the Digital Signal Processing and Protocol Processor modules to the appropriate output device display GPIB LAN serial etc Voltmeter Counter Voltmeter The voltmeter is primarily used to measure external DC amp AC voltages A secondary purpose is to measure internal voltages for instrument self diagnostics The external voltmeter is capable of measuring DC voltages up to 50 VDC and AC voltages up to 50 V peak A true RMS detector is used for measuring AC voltages For internal measurements a switch routes the diagnostic MUX output to the Voltmeter 1 path Frequency Counter The Frequency Counter is used to measure external frequencies from the front panel Audio IN High or Low BNC connectors and to measure internal signals for diagnostics The external input can receive a signal between 20 Hz and 50 MHz with a level from 25 mV to 8 V rms The counter circuit is based on the METRON IC This IC contains a reciprocal counter reciprocal counter functions by counting the input signal and a reference signal simultaneously during a selected gate period At the end of this period the counting is stopped and the values of the signal and reference counters are read The ratio of these values is used to calculate the input signal frequency Audio Section Audio Analysis P
362. maximum slot cycle index The test set will page the mobile station using slotted mode unless the mobile station has registered as non slotted The test set will use the lesser value of maximum slot cycle index or CALL MS REPorted SCINdex for slotted paging Setting Range 0 to 7 Query Range 0 to 7 RST Setting 1 Programming Example OUTPUT 714 CALL PAGING SCINDEX 2 CALL PAGing STATe SELected Function Sets queries the forward paging channel on off state The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 1 on Programming Example OUTPUT 714 CALL PAGING STATE DIGITAL2000 OFF Sets the IS 2000 paging on off state to off 246 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call paging fm CALL PILot CALL PILot CALL PILot _ i Sp num value DB L SLEVel gt SELected L gt returns num value Complex Command ea EE gt LEVel sp num value DB _ gt SELected gt returns num value DIGital2000 STATe Sp 1 OoN O0 OoFF SELected returns num value L gt DIGital2000 Diagram Conventions on page 171 CALL PILOT SLEVel SELected Function The setting form of this command performs two functions 1
363. ment is initiated Trigger Arm determines if a measurement will make one measurement then return to idle single or automatically rearm on completion of a measurement and repeat the process continuous Trigger Source how a measurement is triggered Trigger Delay controls the delay time between the trigger and the start of sampling Measurement Timeout length of time before a measurement times out NOTE Trigger arming for each measurement is controlled in the SETup subsystem The choices are single or continuous In most cases it is a best practice during remote operation to use single measurement mode This simplifies the tasks of starting concurrent measurements using the INIT subsystem commands to determine which measurements are ready to be fetched then using the FETCh subsystem to obtain results The command SETup CONTinuous OFF sets all measurements to single trigger mode Syntax Diagrams and Command Descriptions SETup CPOWer on page 343 SETup DAPower on page 347 SETup WQUality on page 360 SETup CFERror on page 351 SETup FSTability on page 356 SETup CAPPower on page 341 SETup ALL CONTinuous on page 340 339 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup description fm SETup ALL CONTinuous SETup ALL CONTinuous SETup gt CONTinuous gt ON OFF Ls ALD Diagram Conventions on page 171 SETup AL
364. messages e Quick Paging with all on or all off indicators e Traffic or Fundamental e 1 Supplemental in radio configuration 3 4 or 5 e 1 OONS Orthogonal Channel Noise Simulator e 1 AWGN Additive White Gaussian Noise Related Topics e CALL CELL 0PERating e How Do I Change Cell Information 51 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen bse test fm CW Operating Mode CW Operating Mode CW operating mode provides an unmodulated carrier of adjustable frequency and amplitude manual adjustment of the measurement receiver and demodulation uplink receiver frequencies and manual setting of the expected CW input power Note Changing the operating mode affects manual receiver control parameters See Effects on Receiver Control When Changing Operating Mode on page 119 CW Test Mode Operation When the test set s operating mode is set to CW No over the air signaling is used No demodulation or channel decoding is available An unmodulated RF signal can be generated while analyzing another signal at the same frequency or at a different frequency No interaction exists between these controls With the exception of mobile reported values all test set measurements are accessible Immediate triggering should be used for most measurements because no overhead signaling is occurring Protocol triggering will time out if time outs are enabled or report an integrity indicator othe
365. metic mean 138 arming triggering 142 Audio Generator 177 automatic auto trigger source 140 averaging measurements 138 AWGN Power 191 AWGN Power dBm 1 23 MHz Current Level 278 Desired Level 191 B band class 214 mobile station reported 214 base station originated call 241 Beeper State 419 brightness screen 296 C Cal first IQ mod 181 Cal first IQ Modulator 181 Cal second IQ mod 181 Cal second IQ Modulator 181 Calibrate Channel Power 181 Calibrate Digital Avg Pwr 181 calibration average power measurement 180 channel power measurement 180 I Q 180 call ending 454 establish a 441 mobile station originated 67 Call Drop Timer 199 Call Limit Mode 199 call originate 241 call parameter changing 446 call processing active cell operating mode 240 call processing state query 155 carrier feedthrough FETCh command 312 CCH parameters 54 57 cdg escape mode 207 CDMA standards adherence to 42 Cell Activated State 50 changing manually 445 Cell Band 195 Cell Channel 196 Cell MCC 212 Cell MNC 213 cell network code 213 cell parameters 445 Cell Parms 445 Cell Power 54 57 250 Cell Power dBm 1 23 MHz Current Level 277 Channel 196 Channel Power 300 channel power initiate command 322 integrity 300 intermediate count 300 read command 328 channel power calibration 180 channel power measurement ABORt command 175 channel power measurement calibration 180 cha
366. mming Example OUTPUT 714 CALL CELL MNCODE 10 Sets the mobile network code to 10 213 S Hp8960 E1962B CDMA 200033 1 reference guideXChaptersicdma2000 hpib call mncode fm CALL MS REPorted lt BCL BWT OPER MODE EIRP gt CALL MS REPorted lt BCL BWT OPER MODE EIRP gt CALL gt MS gt REPorted _ gt BCLAss gt returns US Cell Jpn Cell Kor PCS US PCS Es IMT 2000 nu11 gt BWType returns BWT20 BWT25 UNKN _ OPERating s MODE gt returns string L gt EIRPOower returns string MAXimum Diagram Conventions on page 171 214 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_b fm CALL MS REPorted lt BCL BWT OPER MODE EIRP gt CALL MS REPorted BCLass Function This query returns up to three concatenated mobile station reported frequency band classes frequency bands supported by the mobile station Each band that is included in the returned string is right justified within an 8 character slot Each 8 character slot is followed by a comma and a space until the last band is sent The last band in the string will not have an appended comma and a space The return values for CALL MS REPorted O0PERating MODE and CALL MS REPorted EIRPower MAXimum will consist of an operating mode and a maximum EIRP for each band returned by this command Each time a new mobile station registers with the test s
367. mum of 15 characters and a format of A B C D where A B C and D are between 0 and 255 No embedded spaces are allowed The address may be manually set viewed in the system configuration screen The LAN subnet mask address can be set queried using the SYSTem subsystem The subnet mask number combined with the IP address identifies which network and subnet your computer is on Contact your system administrator for the correct subnet mask for your network The subnet mask determines the boundaries between the subnet ID and the host ID The LAN subnet mask is a non volatile parameter The LAN subnet mask is not affected by any reset operation and can only be changed by direct access to the parameter itself NOTE If the LAN address is set to a different network class the subnet mask will change to the default net mask for the new network class The subnet mask number is obtained from your network administrator Related Topics SYSTem COMMunicate 526 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_conf_lan fm Configuring the Test Set s GPIB Configuring the Test Sets GPIB Description The GPIB address is an integer between 0 and 30 The test set comes with a default address of 14 and may be set queried using the SYSTem subsystem or manually through the system configuration screen by selecting the parameter and changing the number with the knob or the keypad The GPIB address is a non volatile parameter
368. n also be done manually see Receiver Control on page 118 Interpreting Integrity Indicator values See Integrity Indicator on page 144 If over range 5 is returned the input power has exceeded the test set s internal sampler maximum value during some part of the sampling or the input power has exceeded the calibrated range of the test set s power detector If under range 6 is returned the measurement result is below the expected input power level Under range is also indicated if the input power is below the calibrated range of the test set s power detector If the signal has both over range and under range conditions only the over range 5 will be indicated Related Topics Integrity Indicator on page 144 Digital Average Power Measurement Description on page 36 470 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 ts dapower fm Frequency Stability Measurement Troubleshooting Frequency Stability Measurement Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SETup FSTability CONTinuous on page 357 If single triggering is used during manual operat
369. n integer value The value indicates if the call state is idle or connected not if any call state change has occurred Query returns one of the following e 0 idle e 1 connected If the call is in the setup request proceeding alerting or disconnecting state this command will not return a value until the call status proceeds to either connected or idle OUTPUT 714 CALL CONNECTED STATE Example 21 Base Station Originated Call Using the Connected Idle Query The following example illustrates the use of the connected idle query for a base station originated call This code originates a call then waits for the connected idle query to return a result Note that this code does not include the CALL CONNECTED TIME timeout timer or the CALL CONNECTED ARM change detector arm commands These commands are unnecessary since the change detector is armed automatically by the CALL ORIGINATE command and the timeout timer value is never applicable since a base station originated call guarantees a state change 10 OUTPUT 714 CALL ORIGINATE Begin the BS originated call 20 OUTPUT 714 CALL CONNECTED STATE The connect idle query 30 ENTER 714 Call connected Program will hang here until state 40 change or protocol timer expires 50 pockckckckckckckckckckckckckck ckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckckck kc kk kk 60 If mobile is not set to auto answer answer the call 70 pockckckckckckckckckc
370. n page CALL TRIGger TYPE on page 293 235 CALL CELL NIDentity on page 237 186 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_description fm CALL CELL APARameter CALL t CELL gt PREamble APARameter POWer NOMinal LS INITial Ls STEP CALL CELL APARameter Sp num value gt DB L gt returns num value gt OFFset EXTended s lt sp gt 1 ON 0 OFF y returns 1 0 y lt sp gt lt num value gt DB gt L gt returns num value s lt sp gt lt num value gt DB LEVel 1 returns num value Ls COUNC Sp num value s returns num value gt lt sp gt lt num value gt SEQuence 4 I P L gt returns num value gt 7 gt REQuest Diagram Conventions on page 171 sp num value gt a MAXimum L returns num value L gt RESPonse lt sp gt lt num value gt mme e returns num value gt 187 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call aparameter fm CALL CELL APARameter CALL CELL APARameter POWer NOMinal OFFset Function Sets queries the nominal power offset This offset value serves as a correction factor to the open loop power control equation Setting Range 8
371. n page 142 Query Range 0 to 10 Programming Example OUTPUT 714 INITIATE COUNT INITiate DONE Function Queries one at a time which measurements if any are finished or have timed out See Measurement Event Synchronization on page 153 for how to use this command See Measurement States on page 142 to understand the test set s measurement states See INITiate DONE FLAG measurement mnemonic gt on page 325 for include or exclude commands Query Range CPOW DAP WQU CFER FST CAPP NONE WAIT INITiate DONE CLEar Function Clears the done flag from all measurements Programming Example OUTPUT 714 INITIATE DONE CLEAR Clears the done flag INITiate DONE FLAG ALL Function Specifies that all measurements are either included or excluded when the INITitate DONE query is sent If a measurement trigger arm is left in continuous mode the done flag for that measurement will toggle between DONE and WAIT The INITiate DONE query will probably not be able to catch the measurement at the instant it is done therefore the measurement will never appear to be done If a measurement s triggering must be continuously armed you should exclude the measurement using INITiate DONE FLAG lt measurement mnemonic gt Use INITitate DONE FLAG ALL EXCLude to exclude all measurements Once INITiate DONE FLAG has been set to EXCLude for a measurement the use
372. ncy stability 356 multi measurements 138 average 138 count 148 maximum value 138 minimum value 138 standard deviation 138 multiple queries using semicolon separator 151 N NAN Not a Number 150 Network ID NID 237 newlink genCFGCchannel 54 55 57 58 59 60 62 newlink genDTCTest 51 NID 237 noise limit code domain power plus noise 360 Nominal Power 187 Nominal Power Ext 187 Number amplitude offset 424 Number of Steps 187 numeric rho FETCh commands 312 o OCNS Current Level dB 278 Desired Level dB 238 ocns fixed parameters 59 settable parameters 59 setting power level 59 setting Walsh code 59 ocns channel parameters 59 Offset dB amplitude offset 424 offset frequency 424 Operating Mode 277 Active Cell 240 IS 2000 Test 240 operating mode 214 mobile station reported 214 operating modes active cell 50 cw mode 52 test mode 51 originating a call 241 Index 535 Index orthogonal channel noise simulator parameters 59 P paging channel fixed parameters 55 settable parameters 55 setting paging channel data rate 55 setting paging channel state and level 55 paging channel parameters 55 Paging Data Rate 243 Paging MCC 243 Paging MNC 243 Paging MSIN 243 Paging Type 243 parameters changing 446 how to change cell parameters 445 receiver control 118 partial preset 116 PCH parameters 55 phase error FETCh command 312 phone
373. ndoff system type and a handoff cell band The first optional SELected keyword in this command specifies that the channel being set queried applies to the current handoff system type See CALL SETup SYSTem to query or change the current handoff system type The second optional SELected keyword in this command specifies that the channel being set queried applies to the current handoff cell band See CALL SETup BAND to query or change the current handoff cell band Specifying a non current handoff system type or handoff cell band when setting a channel number will cause the test set to store the channel number Specifying a non current handoff system type or handoff cell band when querying a channel number will return a stored channel number that is not current To initiate a handoff see the CALL HANDoff command description Setting Range IMT2000 0 to 1199 e JCDM Japanese CDMA 1 to 799 801 to 1039 1041 to 1199 e KPCS Korean PCS 0 to 599 e USC US Cellular 1 to 799 991 to 1023 e USPC U S PCS 0 to 1199 e NMTA50 1 to 300 539 to 871 1039 to 1473 1792 to 2016 Query Range e IMT2000 0 to 1199 JCDM Japanese CDMA 1 to 799 801 to 1039 1041 to 1199 e KPCS Korean PCS 0 to 599 e USC US Cellular 1 to 799 991 to 1023 e USPC U S PCS 0 to 1199 e NMTA50 1 to 300 539 to 871 1039 to 1473 1792 to 2016 RST Setting Channel 525 I8 2000 system U S PCS band Programmi
374. nds are used 320 LNETPISLB d 3 RC dee ree e Re EORR ee bt Go edd do de deu ndo d eo dedos 322 READ SUDSVEUITL etie boa hee CC CIO E P aov UR o a oe EG o x EL Rd 326 Syntax Diagram aud Command Descriptions ucsuo ehm RR 326 IRE Lu iex 34 48 98 3 9 9 993 e 2e E poo Pone Re obice de eed ee eS ee ed 326 Program Example READ DAPower eeeeeeee eh 327 23 S Hp8960 E1962B CDMA 2000V3 1 reference guidele1962 90017 bookTOC fm RFANalyzer Subsystem 4 223 9 4 409 een CHUA wea ROO ca RH RURO OR AR ES 332 Dh oco MNTTTTTTTIOIT I TIT 332 EAN A260 V rrrTTmTPPPPPPPEPLPCD 333 SETup Subsystem 4 4 443 70 neon ee eda EY eee ebee eh oe cy bee o3 Ere dedo edi 339 rach rds gn hh bodie dede ee 339 Syntax Diagrams and Command Descriptions 0 0 0 cece eee eee ees 339 SETup ALLECONTINUOUS ce Cao KERR een e SEER ERS LEER RSS S OEE IRRES 340 Si ap CAP POWE 4 0 uu ada X ACCRUE OR CAO RE REANO ORC 341 apr OW Cle ey sues ane A paco RECEN SCR RON ICE RERO EEE OA ICA OU P RC Ca SCC d 343 BE pA POWER S 5 2 9 2 3 44 9X 1X RE ed EEN OEE ORR S HEE Oe eae eee d 347 sj olv A ORO o co lt a ee a 351 Oe eNotes ern ony al ee DL ea a ee IE 356 i Wy ISIN Ina a ae a ae oh BER eS Pee hea ee eee OR GO RES 360 STAT s S bsyst mii resos 250b sop Gwe se ocd FA ER M OORT EER AAR ARA eee 365 It el anb RR rc 365 Syntax Diagrams and Command Descriptions 000 cece eee eee ees 365 Beinted Vee ss s 4 d
375. nformation Call Parns Cell Pouer 15 00 Nominal Pouer EL Nominal Pouer Ext leon Band pb ES Initial Pouer US Cellular Pouer Step AN Hunder of Steps 3 access Tax Request Sea Temm ra Parameters y tax Slot Cucle Index Tax Response Seq ew Curr F 0PCH State Preamble Size ERE 0 riter r 6 15 2000 F nt Gain Oraffito Pilot 0 iode CO Registration Paraneters St Fus Tiner Based Registration State On ene Gum Registration Period 23 EXE Option Setup g E Backoround nctive colt is Tupe 15 2000 AN Connected 2 E linthef tors Neh 1 Press the CALL SETUP key 2 Press the More key 3 Press the Cell Info F2 key 4 Press the Access Parameters F3 key 2 Set an access parameter fg Call Setup Screen N y Cell Info Cell Information Call Parns yo Cell Pouer 55 00 Susten ID SID DEEST Netuork ID ID z cell Bana Par sbters Escape node i US PCS F cen nec Cell INC Em jecess Paging Data Rate ES Parameters yl reos sint cucte Index ep Rccess Parameters Value S Reaistraton MOOG 0 00 dB gt ios Parameters dm m Extended 0 Es Initial Pouer 0 00 di Pouer Step 3 00 dB penne Nunber of Steps 3 SECURE ZEN Inaxinum Request Sequence 1 esame 3 C duse ixinun Response Sequence 1 ETA J EM Lj Preanble Size 15 Option Setup g active Celt Tupe 15 2000 Idle offset I I 1 roa 1 Turn the kn
376. ng Event Synchronization Programming Example OUTPUT 714 CALL ORIGINATE WAIT 260 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_register fm CALL REGister CALL REGister TIMer SRPeriod Function Sets the time between time based registrations when timer based registration is on and turns the timer based registration state to on The value is not the actual time The registration period is used in the following equation to determine the time between registrations time between registrations integer portion of 20 8 period 4 x 0 08 seconds Setting Range 29 to 85 Resolution integer Query Range 29 to 85 RST Setting 29 12 seconds Programming Example OUTPUT 714 CALL REGISTER TIMER SRPERIOD 35 Turns the timer s state on and sets the registration period to 35 CALL REGister TIMer STATe Function Sets the state of timer based registrations Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL REGISTER TIMER STATE OFF CALL REGister TIMer RPERiod Function Sets the time between time based registrations when timer based registration is on The value is not the actual time The registration period is used in the following equation to determine the time between registrations time between registrations integer portion of 2 7 8 Period 2 x 0 08 seconds
377. ng Example OUTPUT 714 CALL SETUP CHANNEL Queries the channel number of the current handoff system and band OUTPUT 714 CALL SETUP CHANNEL 384 Sets the channel number of the current handoff system and band OUTPUT 714 CALL SETUP CHANNEL DIGital2000 KPCS 384 Sets the handoff channel number for the IS 2000 system and Korean PCS band to 384 If this system land band are not being handed off to the value 384 is stored and will be transmitted when Digital 12000 and Korean PCS are handed off to 271 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call setup channel fm CALL SETup HANDoff CALL SETup HANDoff CALL SETup gt HANDoff gt l IMMediate Diagram Conventions on page 171 CALL SETup HANDoff IMMediate Function Initiates a handoff within the current system or between systems Programming Example OUTPUT 714 CALL SETUP HANDOFF IMMEDIATE 272 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib call setup handoff fm CALL SETup SYSTem CALL SETup SYSTem CALL SETup SYSTem 5 gt lt sp gt DIGital2000 X TIPE gt returns 2000 Diagram Conventions on page 171 CALL SETup SYSTem TYPE Function Sets queries the system type that will the mobile station will be handed off to when the CALL HANDoff command is used If handoff system type is the same as active cell syste
378. ng Range EIGHth QUARter HALF FULL Query Range EIGH QUAR HALF FULL RST Setting Full Programming Example OUTPUT 714 CALL TRAFfic DRATE HALF Set the data rate to half 292 S Hp8960 E1962B CDMA 20003 1 reference guideYXChapterscdma2000 hpib call traffic fm CALL TRIGger TYPE CALL TRIGger TYPE CALL TRIGger TYPE sp MS20 MS27 MS80 MS2000 gt returns MS20 MS27 MS80 MS2000 Ls 0UTPut Diagram Conventions on page 171 CALL TRIGger OUTPut TYPE Function Sets queries the frame clock that is routed to the TRIG OUT rear panel connector See Rear Panel Connectors on page 457 Each choice consists of a CDMA frame clock period For example M820 is the 20 millisecond frame clock The triggers are based on the internally generated frame clock There is no on off state setting for external triggers Setting Range MS20 MS27 MS80 MS2000 Query Range MS20 MS27 MS80 MS2000 RST Setting MS2000 2 seconds Programming Example OUTPUT 714 CALL TRIGGER OUTPUT TYPE MS27 Sets the external trigger signal to 26 67 ms 293 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call trigger fm DISPlay Subsystem DISPlay Subsystem Description The DISPlay subsystem is used to configure the test set s display mode or display brightness Use of the DISPlay subsystem is not required to set
379. ng a Handoff Making a Handoff See Perform a Handoff Handover in Active Cell Mode on page 103 Related Topics How Do I Perform a Handoff on page 451 How Do I Change Cell Information on page 447 68 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog call handoff fm Performing a Registration Performing a Registration Registering a Mobile Station Registering a mobile station can be performed when the mobile station has found service with the test set s base station emulator in active cell operating mode When a registration has completed the Mobile Station Information window will display the registration data received from the mobile station The test set has the capability to initiate two types of registrations One is a zone basesd registration also referred to as forced registration The other type is timer based registrations a feature which provides a setting for the time interval between registrations See CALL REGister on page 259 Many mobile stations will also perform a registration upon being powered on This usually only takes a few seconds and is currently not controlled by the test set Related Topics How Do I Change Cell Information on page 447 69 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog call registration fm Performing a Registration 70 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog call reg
380. nic gt CALL BAND DIG2000 KPCS If the test application you are using supports testing of both analog and digital channel types then you must also set the channel type using the following command Command to Set the Active Channel Type Command Example CALL lt channel mnemonic gt TYPE lt channel type CALL TCH TYPE mnemonic gt DTC Active Cell and Test Mode Considerations The function of the CALL commands differ depending upon whether you are in active cell or test mode In active cell mode when you use the CALL commands to set the channel numbers the test set s output frequency and receiver frequency are set message is also sent to the mobile station to set its frequency However in test mode since the BSE does not send call processing information to the mobile station the CALL commands only configure the test set s output frequency and receiver frequency You need to also send the appropriate test mode commands to the mobile station to set it to the correct frequency In test mode instead of using the CALL commands to configure the test set s frequencies you may prefer to manually control the RF generator and RF analyzer using the CALL RFG and RFAN commands respectively In either case you must still send the appropriate test mode commands to the mobile station to move it to the proper frequency 84 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog generic step2 ac fm
381. nnel mnemonic band mnemonic CALL TCH EGSM 124 num value CALL SET channel type mnemonic band CALL SET DTC PCS 777 mnemonic gt lt num value gt CALL CHAN lt channel type mnemonic gt lt band CALL CHAN DIG2000 K mnemonic gt lt num value gt PCS 384 83 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step2_ac fm Step 2 Configure Test Set and Mobile Station Parameters This practice also applies to test applications which test both analog and digital channel types In this case you should specify the channel for the analog and digital channel types in advance Then switching between them requires only one command to initiate the change and not an additional change to specify the channel of the new channel type If you specify channels in advance as described the only time you need to specify a channel during testing is if you move to a new channel within the same band and channel type e Set Active Band and Mode Once you have specified the channel information for each band and channel type you must set the active band using one of the following commands depending upon which test application you are using Commands to Set the Active Band Command Example CALL lt channel mnemonic BAND band mnemonic gt CALL TCH BAND EGSM CALL SET lt channel type mnemonic gt BAND band CALL SET DTC BAND mnemonic gt PCS CALL BAND lt channel mnemonic gt lt band mnemo
382. nnel power measurement description 34 channel power measurement programming 110 Clear MS amp Capability Info 230 code channel changing in cdma2000 450 Code Domain Power 313 code domain power read command 328 SETup commands 361 Code Domain Power Noise 313 code domain power noise read command 328 SETup commands 361 code domain power measurement programming 115 code domain power measurements 40 command error 487 compound queries 151 concurrent measurements 149 restrictions 149 confidence limit setting frame error rate 351 configure test set 452 connected idle query 156 CONTINUOUS ALL key 340 continuous triggering 142 control channel parameters 54 57 Curr F QPCH Level Rel to Pilot 255 278 Curr F QPCH State 255 278 cw mode operating mode 52 D Data Rate 264 data rate fundamental channel 292 traffic channel 292 data types mixed problems with 151 query response 151 DCCH frame sizes supported mobile station reported 217 DCCH support mobile station reported 217 debug 421 debug feature 172 Default Gateway 421 default settings full preset 116 measurement timeouts 139 partial preset 116 status preset 117 delay trigger 143 Desired Level dB 238 device specific error 482 491 494 502 dialed number Index 533 Index mobile station reported 233 digital average measurement ABORt command 175 Digital Average Power 302 digital average power initiate
383. nnuous AUDIO IN The input to the audio analyzer is a floating input differential amplifier Both the AUDIO IN High and AUDIO IN Low BNC connectors should be connected to provide noise immunity Refer to the technical specifications for more information AUDIO OUT This BNC connector accesses to the test set s audio generator Refer to the technical specifications for more information 455 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_frontpanel_con fm Front Panel Connectors DATA This RJ 45 connector provides front panel access to the rear panel LAN connection This connector is used for downloading firmware upgrades or new test applications into the test set No other types of communication are possible with the LAN port The the DATA connector on the front panel is connected internally to the ETHERNET TO FRONT PANEL connector on the rear panel In order to use the front panel DATA connector connect the rear panel LAN PORT to the rear panel ETHERNET TO FRONT PANEL connector with the LAN jumper cable The LAN jumper cable part number E5515 61160 is supplied with the test set DVM Not functional for this release RF IN OUT This Type N connector is the path for all RF signals in or out of the test set Refer to the technical Specifications for more information 456 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_frontpanel_con fm Rear Panel Connectors Rear Pane
384. not licensed revision the test set will reboot to the SYSTEM CONFIG screen You will be unable to select any other screen or make any measurements Query or view the Test Application Setup menu to determine the licensed versions of test applications available Revision and license information can be viewed and selected from the SYSTEM CONFIG screen by selecting the Test Application Setup menu Revisions are shown with their license status After the revision number is a letter That letter indicates the revision license status Licensed L Not Licensed N or Unknown U e L This revision of test application appears to have a License The test application may have been developed before licensing and therefore needs no license e N This test application does not appear to have a license Selecting a Not licensed revision will result in an error 130 e P Some Part of the test application does not appear to have a license e U This test application has Unknown license status Related Topics Test Application Switching on page 528 SYSTem APPLication on page 413 531 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 conf rev fm Test Application Name Test Application Name Description The following queries give you details about the test application name To query or switch test applications you must use the test application name as it appears in the catalog without
385. nown state before each production session Sending the RST command fully presets the test set which ends all call processing and measurement processes and restores all values to defaults Clear the Error Queue Before each production session it is useful to clear the error queue of any old messages That way you know that any messages logged are relevant to the current production session Sending the CLS command clears the error queue Set Up General Operating Conditions e Turn Debugger On While developing your code it is very useful to enable the GPIB debugger using the SYST COMM GPIB DEB ON command When the debugger is on the test set alerts you when you send an incorrect command and it also tells you which symbol or letter in the command is incorrect NOTE You should turn the debugger off once you have finished development and your code is stable e Set Operating Mode The test set contains a base station emulator BSE whose primary purpose is to provide enough call processing to allow parametric measurements of a mobile station s RF signal An important characteristic of the test set s base station emulator is its operating mode The operating mode sets the way in which the base station emulator interacts with the mobile station Active cell mode is used when emulating a normal cell Active cell mode allows active signaling between the mobile station and BSE The mobile station camps to the BSE signal and an actual call
386. nse was executed see IEEE 488 2 6 5 7 5 481 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 ts err msg neg400 fm 300 through 399 Error Message Descriptions 300 through 399 Error Message Descriptions Description A device specific error indicates that the instrument has detected an error that occurred because some operations did not properly complete possibly due to an abnormal hardware or firmware condition For example an attempt by the user to set an out of range value will generate a device specific error When one of these errors is generated the device specific error bit in the event status register is set Error Message Description 300 Device specific error This event bit Bit 3 indicates that a device operation did not properly complete due to some condition such as overrange see IEEE 488 2 11 5 1 1 6 311 Memory error Indicates some physical fault in the devices memory such as a parity error 812 PUD memory lost Indicates protected user data saved by the PUD command has been lost see IEEE 488 2 10 27 313 Calibration memory lost Indicates that nonvolatile calibration data used by the CAL command has been lost see IEEE 488 2 10 2 814 Save recall memory lost Indicates that the nonvolatile data saved by the SAV command has been lost see IEEE 488 2 10 33 815 Configuration memory lost Indicates that nonvolatile configurati
387. nt On Programming Example OUTPUT 714 SETUP CFERROR CONFIDENCE 95 sets the FER confidence level to 95 percent SETup CFERror CONFidence STATe Function Sets queries the FER frame error rate measurement confidence limit testing on off state Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CFERROR CONFIDENCE STATE ON 354 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup cfer fm SETup CFERror SETup CFERror CONFidence LEVel Function Sets queries the FER frame error rate measurement s confidence limit level Setting Range 80 to 99 99 Query Range 80 to 99 99 RST Setting 9596 on Programming Example OUTPUT 714 SETUP CFERROR CONFIDENCE LEVEL 95 Isets the confidence level to 95 SETup CFERror CONFidence REQuirement RATio Function Sets queries the FER frame error rate measurement s FER requirement This value specifies the percentage of frame errors used in determining confidence limit pass fail results Setting Range 0 10 to 5 0 Query Range 0 10 to 5 0 RST Setting 1 00 Programming Example OUTPUT 714 SETUP CFERROR CONFIDENCE REQUIREMENT 2 PCT sets the confidence limit requirement to 2 00 percent 355 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib setup cfer fm SETup FSTability SET
388. nt measures the transmitter frequency and frequency error of analog signals including AMPS with a 1 Hz resolution Frequency Error is determined by comparing the frequency of the measured signal to the expected frequency These parameters are determined by the receiver control settings see Manual Receiver Control Parameters on page 118 Operating Considerations This measurement is not used for digital signals For the best accuracy connect the timebase of the signal source with the test set s timebase See 10 MHZ REF IN on page 460 and 10 MHZ REF OUT on page 460 Input Signal Requirements The received signal s frequency must be within the interval 293 MHz to 2 7 GHz and be within 200 kHz of the expected frequency See Measurement receiver frequency on page 118 The power level of the signal source must be between 30 to 43 dBM and be within 3 dB of the expected power See CW receiver power on page 118 If the received signal has FM the modulation index must be no greater than three and the modulation frequency must be between 100 Hz and 15 kHz Worst Case Frequency Error Frequency and Frequency Error measurement results are returned over GPIB in units of Hz Worst Case Frequency Error the greatest error measured during the total sample s is returned in units of ppm parts per million Worst Case Frequency error is only displayed on the test set s display when multi measurements are used but is always available via
389. nt results are periodically available on the front panel display but are not available programmatically through the GPIB interface Confidence Level Description Confidence level testing is a feature of FER measurements that applies statistical analysis to FER measurements so that pass fail test results can be obtained in the shortest possible time When confidence level is on the FER measurement will keep track of the number of frames measured the number of frame errors and perform a statistical analysis of the probability that the value entered in the FER requirement field will or will not be exceeded The confidence level parameter is typically set at 95 percent Each FER measurement will return a Pass result before the maximum frame count is reached if statistically there is a 95 percent probability that the percentage of frame errors would not exceed the FER requirement value if the measurement were allowed to reach the maximum frame count The FER measurement will return a Fail result before the maximum frame count is reached if statistically there is a 95 percent probability that the percentage of frame errors counted would exceed the FER requirement if the measurement were allowed to reach the maximum frame count If confidence level is off or the number of frame errors counted did not result in a pass or a fail result max frames will be returned and the measurement result will be the FER percentage Several hundred frames of data must b
390. number mobile station reported 233 Phone number sent by the mobile 233 pich parameters 58 pilot channel fixed pilot channel parameters 58 querying pilot channel level 58 settable pilot channel parameters 58 setting pilot channel level 58 pilot channel parameters 58 PN Offset 249 power control reverse link 198 reverse link step size 198 power control step size mobile station reported 233 Power Step 187 power transmit 54 57 Preamble Size 187 PRESET key 384 433 preset states full preset 116 partial preset 116 status preset 117 programming debug feature 172 progress report measurement 148 Protocol Rev 254 536 protocol revision mobile station reported 233 protocol trigger source 140 Pulse 177 Q Q 313 Quarter Traffic Data Rate 292 queriable mobile station capability mobile station reported 221 query error 481 query response data types 151 problems with mixed data types 151 quick paging channel fixed parameters 60 settable parameters 60 setting f qpch level relative to cell power level 60 setting f qpch level relative to pilot channel level 60 quick paging channel parameters 60 quick paging channel supported mobile station reported 233 R Radio Config 258 Revr Power Ctrl 333 Receiver Control 332 receiver control automatic or manual control of 118 Reciever Power 333 register mobile station 259 registering the mobile station 260 registration 69 260 re
391. o input is used for retransmitting the received audio after a selectable time delay to check both radio transmit and receive paths simultaneously For most applications only one or two of these Audio 1 path sources are enabled at any given time Audio 2 Path The Audio 2 path provides a secondary means for sending analog baseband signals to the FM modulator Audio 2 contains only one source a DDS similar to that used for Audio 1 Typically the Audio 2 path DDS is used for cases where multiple signals must be summed together with the lowest possible distortion Another potential use of Audio 2 would be to obtain higher output levels than Audio 1 is capable of up to twice as much assuming the two outputs are set to the same frequency and phase and then summed together at the Baseband Generator module Audio 2 is rarely used in practice because the DDS used for Audio 2 is the same DDS that is used for the front panel audio output Audio Out Path Any one of four inputs may be coupled to the front panel audio output connector These include a 4 channel DDS shared with Audio 2 receiver discriminator audio from the Demodulation Downconverter module audio echo from the Analog To Digital Converter module and audio vocoder The front panel output is capable of providing signal levels up to 9 V peak into 600 ohm loads and up to 0 8 V peak into an 8 ohm load e g speaker The output level is calibrated for all modes except discriminator audio
392. ob to highlight a parameter and then press the knob 2 Enter a value or selection and press the knob 3 Press the Close Menu F6 key 448 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_cell_info fm C Set registration parameters 1 Select the Registration Parameters menu Call Setup Screen Cell Info Cell Information Call Parns Cell Pouer 15 00 dBn 1 29 Rz Cell Band US Cellular Parameters j Channel Access Paging Data Rate Em Parameters v mos Slot Cucle Index A Curr F PCH State f 3 N Registration Curr F OPCH Level Protocol Boo E Parameters Rel to Pilot amp 19 2000 Ne PL Gain Traffic to Pilot 0 arc Fud3 Rusa aistrai meters Tiner Based Registration State On mede Wim Registration Period 28 TU SEVES Option Setup y Ei Backoround active cell s Tupe 15 2000 ZAA Connected 2 rI intrer Tors E i 1 Press the CALL SETUP key 2 Press the More key 3 Press the Cell Info F2 key 4 Press the Registration Parameters F4 key 2 Set a registration parameter Cell Info Cell Information Call Parns Call Setup Screen Cell Pouer 55 00 Susten ID SID TS Hetuork 1D ND 1 Cell Band parta
393. obile Test Query Range AMPS 136 Mobile Test CDMA 2000 Mobile Test GSM Mobile Test GPRS Mobile Test null string Programming Example OUTPUT 714 SYSTEM APPLICATION SELECT NAME AMPS 136 MOBILE TEST OUTPUT 714 SYSTEM APPLICATION SELECT NAME 417 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_application fm SYSTem APPLication SYSTem APPLication SELect REVision test application name gt lt revision gt Function Selects a test application revision and a test application The revision does not need to be set in order to switch test applications The only time you select revisions is to change revisions Queries the test set for the revision of a specified test application The test application name and revision must be entered as they appear in the test application Setup menu with the exception that the string is not case sensitive and can be entered in any combination of upper and lower case letters NOTE GSM Mobile Test revisions before A 04 00 did not have test application switching and provide no way to return to revisions that have switching Users will need to reload a revision that has test application switching following the download process for upgrading firmware Setting Range A valid test application name and revision number for any licensed test application Query Range A string up to 20 characters or the null s
394. obile station s capability to support forward dedicated control channels as reported by the mobile station This query returns a comma separated string of any combination of 3 4 5 or null Query Range 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY CCHANNEL DEDICATED FORWARD RCONFIG CALL MS REPorted CAPability CCHannel DEDicated REVerse RCONfig Function This query only command returns the mobile station s capability to support reverse dedicated control channels as reported by the mobile station This query returns a comma separated string of any combination of 3 4 5 or null Query Range 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY CCHANNEL DEDICATED REVERSE RCONFIG 218 S Hp8960 E1962B CDMA 2000 3 1 reference guideYXChaptersicdma2000 hpib call ms reported cap cch fm CALL MS REPorted CAPability FCHannel CALL MS REPorted CAPability FCHannel 4 returns YES NO UNKN gt CALL MS REPorted CAPability FCHannel x l SUPPort gt FRAMe MS5 z returns YES SUPPort J NO UNKN L FORWard gt RCONfig returns string REVerse s RCONfig gt returns string Diagram Conventions on page 171 219 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_fch fm CALL MS REPorted CAPabilit
395. occurred 0 Extension Bit This bit will always be 0 Program Example STATus QUEStionable ERRors DIGital2000 Condition Register Bit Assignment OUTPUT 71 OUTPUT 71 OUTPUT 71 OUTPUT 71 4 STAT 4 STAT US Q 4 STATUS QUESTIONABLE ERRORS DIGI US Q UESTIONABLE ERRORS DIGI 4 STATUS QUESTIONABLE ERRORS DIGITAL2000 EVENT Queries and clears the Questionable Errors DIGITAL2000 Event Register TAL2000 CONDITION Queries and clears the Qestionable Errors DIGITAL2000 Condition Register TAL2000 ENABLE 1024 Sets the Questionable Errors DIGITAL2000 Enable IRegister for bit 10 UESTIONABLE ERRORS DIGITAL2000 NTRANSITION 2 Sets the Questionable Errors DIGITAL2000 Negative Transition Filter IRegister for bit 1 OUTPUT 714 STATUS QUESTIONABLE ERRORS DIGITAL2000 PTRANSITION 2 Sets the Questionable Errors DIGITAL2000 Positive ITransition Filter IRegister for bit 1 STATus QUEStionable ERRors TA2000 Register Bit Assignments The STATus QUEStionable ERRors TA2000 register bits will be used to indicate information about TA2000 related test set device specific errors positive error numbers Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use Th
396. oceed with the control program Make a Test Mode Connection To make a connection between the test set and mobile station in test mode you must send the appropriate test mode commands to the mobile station to command it to synchronize to the test set s signal and begin transmitting You may also want to make a quick power measurement to ensure that the connection has been made 97 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma2000 prog generic step4 ac fm Step 5 INITiate and FETCh Measurements Step 5 INITiate and FETCh Measurements The following information provides additional details on Step 5 of the Programming Flowchart This information is applicable to all test applications Description This step involves making measurements on the mobile station The test set has multiple signal paths and processors which means you can make measurements concurrently and reduce test time Making concurrent measurements involves starting a group of measurements fetching the results of the measurements as they complete and then verifying that the results are valid Contents e Concurrent Measurement Process e Alternative Measurement Process 98 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step5_ac fm Step 5 INITiate and FETCh Measurements Concurrent Measurement Process Figure 5 Process for Making Concurrent Measurements INITiate DONE query returns WAIT
397. ollowing program example assumes that a signal within the measurements range is connected to the RF IN OUT connector see Input Signal Requirements on page 39 The basic procedure to test Frequency Stability is as follows 1 Enter the expected power see RFANalyzer CW EXPected POWer 2 Enter the expected frequency see RFANalyzer MANual MEASurement MFRequency 3 Define the Frequency Stability Setup parameters as desired for measurement timeout and multi measurements see SETup FSTability on page 356 4 Use the INITiate command to start the measurement 5 Use the FETCh FSTability command to obtain the measurement results Programming Example 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 Set the expected frequency and power OUTPUT 714 SETup FSTability CONTinuous OFF Set the frequency stability Imeasurement to single trigger mode OUTPUT 714 SETup FSTability TIMeout 1 S Set a timeout value of 1 second lin case the measurement cannot be made OUTPUT 714 SETup FSTability COUNt 5 Set multi measurements to 5 OUTPUT 714 INITiate FSTability Start the measurement OUTPUT 714 FETCh FSTability Query the returned integrity indicator and the IWorst Case Frequency Error and average Frequency measurements ENTER 714 Integrity Freq error Frequency Enter the returned values into variables IF Integrity 0 THEN See if the integrity value 0 valid measurement ELS
398. om the directional bridge can be amplified by as many as two 18 dB range amplifiers and then can be directed to the fast detector or the slow detector The input power to the fast detector is detected by a diode detector that is part of a feedback loop The input to the slow detector is measured in a bridge using a pair of RMS thermal detectors in a feedback loop Signals from the fast and slow power detectors are calibrated with Gain DAC s Video gain can be applied in 6 dB and 1 5 dB steps Signal Downconversion The test set s downconversion receiver section has two downconversion modules a high performance Measurement Downconversion Module for making measurements and a Demodulation Downconversion Module for maintaining the radio link Demodulation Downconverter Module The Demodulation Downconverter module is used as part of the demodulation receiver that maintains the radio link There are 2 output paths from the Demodulation Downconverter e The GSM AMPS 136 signals are sent out the IF 1 path to the Analog to Digital Converter the digital data then goes to the protocol subsystem e CDMA signals are sent out the IF 2 path where the flexible Link Subsystem maintains the link Measurement Downconverter Module The Measurement Downconverter module provides high quality wide dynamic range spurious free signals to the Analog To Digital Converter module s measurement sampler input These signals are detected envelope of the Intermediat
399. on Set Test Set s Operating Mode The command below can be used to set the test set s operating mode to active cell This means call processing will be used to maintain a link between the test set and the mobile station 140 OUTPUT A CALL OPER MODE CALL There is also a test mode operating mode available It is applicable when the mobile station is being operated without over the air signalling 73 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started step1 ac fm Step 2 Configure Test Set and Mobile Station Parameters Step 2 Configure Test Set and Mobile Station Parameters Configure the Test Set Parameters The programming example below illustrates several cell configurations 150 160 170 180 190 200 210 220 OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT A CAL A CAL A CAL A CAL A CAL A CAL A CAL A CAL ES SEPTER Dru a l m BAND DIG2000 USC Active band is US Cellular CHAN DIG2000 USC 29 Channel is 29 POW DIG2000 50 Cell power is 50 dBm SID 65535 System ID is 65535 RCON F3R3 Radio config is forward link 4 reverse link 3 SOPT RCON3 SO2 Service option is 2 on radio config 3 PROT DIG2000 PREV6 Protocol standard is IS 2000 D2KT ESN HEX 00000000 ESN assignment must use single quotes Configure the Generated Code Channels Specifications to the setup of the generated code channels may be neces
400. on 1 frame 329 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_read fm READ READ CPOWer ALL Function Initiates and fetches a channel power measurement as a sequential operation Measurement results are returned in the following order integrity average channel power If the multi measurement state is on the result represents the average of a number of channel power measurements Multi measurement state by default is off To set up multi measurements see SETup CPOWer COUNt SNUMber Query Channel power Range 100 to 100 dBm Resolution 0 01 dB READ DAPower ALL Function Initiates and fetches a digital average power measurement as a sequential operation Measurement results are returned in the following order integrity digital average transmit power If the multi measurement state is on the result represents the average of a number of digital average power measurements Multi measurement state by default is off To set up multi measurements see SETup DAPower COUNt SNUMber Query Digital average power Range 100 to 100 dBm 9 91 E 37 Resolution 0 01 dB READ FSTability ALL Function Initiates and fetches a frequency stability measurement as a sequential operation Measurement results are returned in the following order integrity worst case frequency error average frequency Query Worst case frequency e
401. on Event Register CONDITION Queries the New Measurement Results Ready Common Condition Register ENABLE 2 Sets New Measurement Results Ready Common Enable Register for bit 1 NTR 2 Sets the New Measurement Results Ready Common Negative Transition IRegister for bit 1 PTR 2 Sets the New Measurement IResults Ready Common Positive ITransition Register for bit 1 381 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation STATus OPERation NMRReady DIGital2000 Register Bit Assignments The STATus OPERation N MRReady DIGital2000 register bits indicate when a measurement has been completed and new measurement results are available Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 d 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bi
402. on data saved by the device has been lost 320 Storage fault Indicates that the firmware detected a fault when using data storage This is not an indication of physical damage or failure of any mass storage element 321 Out of memory An internal operation needed more memory than was available 330 Self test failed Indicates a problem with the device that is not covered by a specific error message The device may require service 340 Calibration failed Indicates a problem during calibration of the device that is not covered by a specific error 350 Queue overflow Indicates that there is no room in the queue and an error occurred but was not recorded This code is entered into the queue in lieu of the code that caused the error 360 Communication error This is the generic communication error for devices that cannot detect the more specific errors described for error 361 through 363 482 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_neg300 fm 300 through 399 Error Message Descriptions Error Message Description 361 Parity error in program message Parity bit not correct when data received for example on a serial port 362 Framing error in program message A stop bit was not detected when data was received for example on a serial port for example a baud rate mismatch 863 Input buffer overrun Software or ha
403. on of this timeout is set using the CALL CONNected TIMeout command and should be greater than the maximum amount of time the control program needs to wait between arming the call state change detector and the connect disconnect operation starting Once the process starts and the call state has moved to one of the transitory states the protocol timers take over and prevent the call state from staying in a transitory state forever See Call Processing State Synchronization Setting Range 0 to 100 seconds Resolution 0 1 seconds Query Range 0 to 100 seconds Resolution 0 1 seconds RST Setting 10 seconds Programming Example OUTPUT 714 CALL CONNECTED TIMEOUT 3 Sets the CALL CONNected STATe query timeout time to 3 seconds OUTPUT 714 CALL CONNECTED TIMEOUT 500 MS Sets the Sets the CALL CONNected STATe query timeout time to 500 milliseconds CALL CONNected DROP TIMer STATe Function Sets queries the call drop rimer The call drop timer indicates loss of reverse link This timer also determines when the demodulation of the reverse link has been unsuccessful for a fixed period The call drop timer is actually a counter that counts bad frames The counter counts for 250 consecutive bad frames which takes about 5 seconds The counter is reset whenever a good frame is received Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting ON Programming Example OUTPUT 714 CALL CONNECT
404. ope amplitude increases and passes through the threshold Protocol Trigger Source When protocol triggering is selected a data capture is triggered by a protocol generated signal The test set s protocol engine knows when the DUT s signal should be present and generates a trigger signal for use by the measurement to trigger the data capture External Trigger Source When external triggering is selected the user supplies an external trigger signal via the rear panel TRIG IN connector in order to trigger data capture The trigger will occur on the rising edge of this signal Immediate Trigger Source When immediate triggering selected the trigger occurs as soon as any pre trigger samples required by the measurement algorithm are taken Data capture is triggered when the measurement is initiated Auto Trigger Source When auto triggering is selected the test set automatically chooses the best trigger source for that measurement This trigger source setting is convenient because the measurement trigger doesn t need to be changed when switching parameters Auto trigger source is the best choice for most users 140 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_trig fm Triggering of Measurements Triggering Process Description The triggering process controls the present and future states of the test set during the measurement cycle Triggers are set up using the SETup commands and can be set up when a measurement
405. ormal measurement See Integrity Indicator on page 144 for information about non zero integrity results Query Range 1 through 16 302 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib fetch dapower fm FETCh DAPower Programming Example OUTPUT 714 FETCH DAPOWER INTegrity IQueries the inegrity indicator for the average digital tranmit power results 303 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib fetch dapower fm FETCh CFERror FETCh CFERror FETCh CFER _ gt returns Integrity confidence pass fail 3 ls ALL _ frame error ratio frame error count frames tested INTegrity returns num value CONFidence gt returns 0 1 2 3 gt gt RATio gt returns num value gt COUNt gt returns num value gt FRAMes gt returns num value Diagram Conventions on page 171 FETCh CFER ALL Function Queries the frame error rate measurement results This measurement returns up to 5 results in the following order integrity confidence limit pass fail result frame error ratio frame error count frames tested Query Integrity e Range 0 to 16 see Integrity Indicator Resolution 1 Confidence limit pass fail result e Range 0 to 3 0 passed 1 failed 2 max frames 3 undetermined Resolution 1 Frame error ratio e Range 0 00 to 100 00 9 91 E37 Resolution 0 0
406. orresponding bit in the positive transition filter is set to 0 A negative transition of a bit in the Condition register will be latched in the Event Register if the corresponding bit in the negative transition filter is set to 1 negative transition of a bit in the Condition register will not be latched in the Event Register if the corresponding bit in the negative transition filter is set to 0 Either transition PTR or NTR of a bit in the Condition Register will be latched in the Event Register if the corresponding bit in both transition filters is set to 1 No transitions PTR or NTR of a bit in the Condition Register will be latched in the Event Register if the corresponding bit in both transition filters is set to 0 Transition Filters are read write Transition Filters are unaffected by a CLS clear status command Transitions Filters are set to pass positive transitions all 16 bits of the PTR register are set to 1 and all 16 bits of the NTR register are set to 0 at power on or after receiving the RST reset command Event Register The Event Register captures bit state transitions in the Condition Register as defined by the Transition Filters Each bit in the Event Register corresponds to a bit in the Condition Register Bits in the Event Register are latched and once set they remain set until cleared by a query of the Event Register or a CLS clear status command This guarantees that the application can t miss a bit state transit
407. osed loop power control bit patterns can be set using the CALL CELL CLPControl commands 511 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen forward channel fm Forward Channel Description 512 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 gen forward channel fm Configuration 4 Configuration 513 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapters ch configure fm Configuration 514 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters ch_configure fm Obtaining Identification Information IDN Obtaining Identification Information IDN Description Test set information is returned from a IDN query The IDN query provides information about the Manufacturer Model Number Serial Number and Firmware Revision IDN is defined in IEEE Std 488 2 1992 10 14 Test Set Information IDN query returns identification information as a comma separated string DIM As 100 OUTPUT 714 IDN returns manufacturer model number serial number and 0 separated by commas ENTER 714 AS PRINT AS prints for example Agilent Technologies 8960 Series 10 E5515B 1US38020105 0 Agilent Technologies is the manufacturer Printable ASCII characters excluding comma and semicolon up to a 25 character string Model number example 8960 Series 10 E5515B Printable ASCII characters excluding comma and semicolon up to a 10 character string Serial number exampl
408. ove measurement throughput e Demodulation downconverter path Measurement downconverter path Power detector path Since measurements are DSP digital signal processor based and there are four A D converters available to digitize or sample the input signal for analysis by the DSP the test set will always have the capability to perform one transmitter measurement one receiver measurement and maintain the radio link concurrently The test set s ability to perform multiple transmitter or multiple receiver tests concurrently will depend on the availability of resources within the test set and availability of the signal to be tested Related Topics Block Diagram 149 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_gen_concurrent fm Invalid Measurement Results Invalid Measurement Results Description Invalid measurement results are returned by the test set when conditions such as signal level are not within the present measurement range Three different invalid measurement results are provided in order to help you understand the condition that caused the invalid result e 9 9E 37 INFinity Infinity e 9 9E437 NINF Negative Infinity e 9 91E 37 NAN Not A Number 9 9E 37 INFinity 9 9E 37 is returned by the test set when the measurement is out of range and results are far above the present measurement range 9 9E 37 NINFinity 9 91E 37 is returned by the test set wh
409. per incident up to the greater of 300 000 or the actual amount paid for the product that is the subject of the claim and for damages for bodily injury or death to the extent that all such damages are determined by a court of competent jurisdiction to have been directly caused by a defective Agilent Technologies product 6 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E1962 9001 7titlepage fm 9 TO THE EXTENT ALLOWED BY LOCAL LAW THE REMEDIES IN THIS WARRANTY STATEMENT ARE CUSTOMER S SOLE AND EXCLUSIVE REMEDIES EXCEPT AS INDICATED ABOVE IN NO EVENT WILL AGILENT TECHNOLOGIES OR ITS SUPPLIERS BE LIABLE FOR LOSS OF DATA OR FOR DIRECT SPECIAL INCIDENTAL CONSEQUENTIAL INCLUDING LOST PROFIT OR DATA OR OTHER DAMAGE WHETHER BASED IN CONTRACT TORT OR OTHERWISE FOR CONSUMER TRANSACTIONS IN AUSTRALIA AND NEW ZEALAND THE WARRANTY TERMS CONTAINED IN THIS STATEMENT EXCEPT TO THE EXTENT LAWFULLY PERMITTED DO NOT EXCLUDE RESTRICT OR MODIFY AND ARE IN ADDITION TO THE MANDATORY STATUTORY RIGHTS APPLICABLE TO THE SALE OF THIS PRODUCT TO YOU ASSISTANCE Product maintenance agreements and other customer assistance agreements are available for Agilent Technologies products For any assistance contact your nearest Agilent Technologies Sales and Service Office 7 S Hp8960 E1962B CDMA 2000V3 1 reference guide YE 1962 9001 7titlepage fm Service and Support Any adjustment maintenance or repair of this product must be performed by
410. ported operating mode for each band class and mobile station reported max EIRP if the operating mode is CDMA for each band class These results are referred to as Status Request Information Query Range DualMode CDMA Analog N Analog W Analog Null RST Setting Null Programming Example OUTPUT 714 CALL MS REPORTED OPER MODE when sent to a mobile station supporting US cellular and US PCS bands might return something similar to the following string sp sp Analog sp sp sp sp sp CDMA Note that this string consists of 16 characters 8 for each band plus a comma and space separating the two operating mode 215 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call ms reported b fm CALL MS REPorted lt BCL BWT OPER MODE EIRP gt CALL MS REPorted EIRPower MAXimum Function This query returns in units of dBW up to three concatenated mobile station reported maximum EIRP effective isotropic radiated power Each maximum EIRP value that is included in the returned string is right justified within an 8 character slot Each 8 character slot is followed by a comma and a space until the last maximum EIRP value is sent The last maximum EIRP value in the string will not have an appended comma and a space Each maximum EIRP value that is included in the returned string will correspond by its position in the string with the position of each band class in the
411. power measurement is not responding Table 13 Digital2000 Measurement Errors Error Message Description 701 Handoff waveform quality measurement is not responding 502 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_pos700 fm 800 through 899 Error Message Descriptions 800 through 899 Error Message Descriptions Description These errors are generated when a problem occurs that is specific to one of the test set s core measurements such as analog audio When one of these errors is generated the 800 errors bit in the questionable error status register is set Error Message Description 801 Measurement failure Analog audio hardware is not Indicates that a problem occurs when attempting responding to control the measurement s hardware 802 Measurement failure Audio analyzer hardware is not Indicates that a problem occurs when attempting responding to control the measurement s hardware 503 S Hp8960 E1962B CDMA 2000V3 1 reference guide XChaptersicdma2000 ts err msg pos800 fm Block Diagram Block Diagram Description AUDIO IN High Audio Sectio RF Source 1 Baseband Generator RF Source 2 Baseband Pone Optional Generator Decade Optional Host r GPIB 1 LAN o Bridge Analog Digital Out Converter Digital Signal VME Power AD Processor Bus Detector
412. ptions on page 503 Description Reading Error Messages Each error message that is generated is recorded in either the error event queue or the message log or both Error messages are shown in a message window at the center of the test set s display When an error message is displayed an audio beep occurs the beeper state of the test set can be set to on or off The error event queue is read remotely using the SYSTem ERRor query The error event queue is able to hold 100 messages To read the entire error event queue use the following program 10 DIM Err msg 255 20 REPEAT 30 OUTPUT 714 SYSTEM ERROR 40 ENTER 714 Err num Err msg 50 PRINT Err num Err msg 60 UNTIL Err num 0 The message log may be viewed on the test set s display by pressing the SYSTEM CONFIG screen s Message Log key The message log can display up to 24 entries over two pages Error messages can be cleared from the test set s display using the DISPlay WINDow ERRor CLEar command Pressing any functional front panel key i e the LOCAL key will clear an error message for the test set s display 474 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 ts err msg fm Error Messages Classes of Errors Error messages are divided into classes each class of error is handled differently by the test set The message log is cleared when the test set is power cycled Measurement Integrity Indicators These messages occur as a result of a meas
413. qualified personnel Contact your customer engineer through your local Agilent Technologies Service Center You can find a list of local service representatives on the Web at http www agilent tech com services English index html If you do not have access to the Internet one of these centers can direct you to your nearest representative United States Test and Measurement Call Center Toll free in US 800 452 4844 Europe 31 20 547 9900 Canada 905 206 4725 Japan Measurement Assistance Center 81 426 56 7832 81 426 56 7840 FAX Latin America 305 267 4288 FAX Australia New Zealand 1 800 629 485 Australia 0800 738 378 New Zealand Asia Pacific 852 2599 7777 852 2506 9285 FAX 8 S Hp8960 E1962B CDMA 2000 3 1_reference_guide E1962 9001 7titlepage fm Regional Sales Offices United States of America Agilent Technologies tel 1 800 452 4844 Test and Measurement Call Center P O Box 4026 Englewood CO 80155 4026 Canada Agilent Technologies Canada Inc tel 1 877 894 4414 2660 Matheson Blvd E Mississauga Ontario L4W 5M2 Europe Agilent Technologies tel 3120 547 9999 European Marketing Organization P O Box 999 1180 AZ Amstelveen The Netherlands Japan Agilent Technologies Japan Ltd tel 81 456 56 7832 Measurement Assistance Center fax 81 426 56 7840 9 1 Takakura Cho Hachioji Shi Tokyo 192 8510 Japan Latin America Agilent Technologies tel 305 2
414. quent i e daily weekly or monthly test set calibration e Channel Power calibration This calibration generates calibration data for channel power measurements access probe power measurements and other test set functions NOTE Channel power calibration data is also used when performing test set functions other than channel power measurements Waveform quality measurements are one such function During calibration the internal temperature of the test set will be measured and calibration data will be generated that covers the measurement amplitude range of the available frequency bands The test set will measure the internal temperature and compare it against the temperature measurement that was made when calibration data was generated Channel Power calibration takes about two minutes During Channel Power calibration no power should be applied to the front panel Digital Average Power calibration Digital average power measurement calibration loops back a CDMA signal from within the test set to the average power meter to generate a table of calibration values Digital Average Power measurement calibration takes about ten minutes During Digital Average Power calibration no power should be applied to the front panel RF IN OUT connector Power must be cycled off then back on after this calibration routine has completed Remotely initiating any of the calibration routines is accomplished through the use of single query only header
415. r register PTRansition sp num value writes to Positive Transition Filter register gt reads Positive Transition Filter register 367 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation STATus OPERation NMRReady STATus OPERation NMRReady AMPS 368 reads event register gt gt EVENt j m gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register reads enable register NTRansition sp num value writes to Negative Transition Filter registerj 3 gt reads Negative Transition Filter register gt PTRansition lt sp gt lt num value writes to Positive Transition Filter register y reads Positive Transition Filter register reads event register L EVENt j m gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register gt reads enable register NTRansition gt lt sp gt lt num value writes to negative transition filter register gt reads negative transition filter register PTRansition sp num value writes to positive transition filter register gt reads positive transition fi
416. r Tupe F Pilot o S F Sunc 16 00 16 00 32 F Paging 12 00 1200 1 Radio contia F 0PGH t ort 90 ud Rus3y F FcH Traffic 15 60 15 50 10 REED F sch off 15 60 3 9 s Return F 0cN6 166 EL sa FOH service d Option Setup y uM Ej Backoround active cell Bus Type 18 2000 Connected n Inter Lore Press the CALL SETUP key Press the More key Press the Generator Info key Press the Code Channel Parameters F2 key oF ON Pe Set the level of the desired channel by using the knob and numeric keys 450 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_code_chan fm How Do Perform a Handoff How Do I Perform a Handoff QU F co N e IHandoff Setup Neasurenent Instrument Screen Waveform Quality Numeric Rho Rho Frequency Error Tine Error us Continuous Cell Band US Cellular Channel E Handoff Setup value lHandoff Cell Band uspes lHandoff Channel 525 tocol Rev 6 5 2000 E Backoround Rctive Cell s Tupe 18 2000 Connected On the Call Setup screen press the Call Handoff Setup F5 key Highlight the Handoff System Type parameter and select the desired system Highlight the Handoff Cell Band parameter and select the desi
417. r module execute a variety of signal processing algorithms to perform measurements on the radio system of the currently loaded TA data received from the power detector ADC the measurement ADC and in some cases data received from the Demodulation Downconverter ADC The DSP processor communicates with the Host Processor and the Protocol Processor as well as controlling the configuration and synchronization of the Analog To Digital Converter module 506 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_block_diagram fm Block Diagram Protocol Processor Module The Protocol Processor module is responsible for maintaining the radio link between the test set and the mobile station under test The primary tasks of the Protocol Processor module are generating the protocol messaging necessary for the forward channel and sending that protocol stream to the test set s RF source for transmission to the mobile station decoding the protocol messaging received from the mobile station under test on the reverse channel computing measurement results which are associated with data bits contained within the mobile stations messaging such as bit error ratio Host Processor Module The Host Processor module is responsible for a variety of tasks within the overall test set architecture These tasks include control of the manual user interface MUI executing commands and processing data received from the LAN interface executing com
418. r must send the INCLude command for that measurement in order to query that measurement with the INITiate DONE query The test set will not reset any excluded measurement with any type of preset Setting Range INCLude EXCLude Programming Example OUTPUT 714 INITIATE DONE FLAG ALL INCLUDE Includes all measurements in the INITIATE DONE query 324 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_initiate fm INITiate INITiate DONE FLAG measurement mnemonic Function Specifies if a measurement done flag is considered using the INCLude or EXCLude settings when the INITitate DONE query is sent If more than one measurement is active and one or more measurement trigger arm states is continuous the INITiate DONE query may not be effective The best solution is to change the arm state of all measurements to single using the SETup ALL CONTinuous command However if a measurement must be continuously triggered you should exclude the measurement using the EXCLude setting provided by this command if you want to use INITiate DONE to query measurement done status The test set will not reset any excluded measurement to included with any type of preset Setting Range INCLude EXCLude Programming Example OUTPUT 714 INITIATE DONE FLAG DAP EXCLUDE Excludes the digital average power measurement from responding to the INITIATE DONE query 325 S Hp8
419. r noise energy measured by the Code Domain Power and Noise measurement Setting Range 100 to 0 dB uery ange o Q R 100 to 0 dB RST Setting 26 dB Programming Example OUTPUT 714 SETUP WQUALITY CDPNOISE IQNOISE LIMIT Queries the code domain power plus noise measurement s pass fail limit SETup WQUality CONTinuous Function Sets queries the trigger arm state for the waveform quality measurement The trigger arm state determines whether the waveform quality measurement will be made once then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP WQUALITY CONTINUOUS OFF Sets measurement to single trigger mode 361 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib setup wquality fm SETup WQUality SETup WQUality COUNt SNUMber Function The setting form of this command performs two functions 1 sets the number of waveform quality measurements to be made in a multi measurement and 2 sets the multi measurement STATe command to 1 on The query form returns the number of waveform quality multi measurements to be made when multi measurement state is ON Setting Range 1 to 999 Query Range 1 to 999 RST Setting Off 10 when STATe On Programming Example
420. r than zero 0 and not provide valid results RF Rise triggering may or may not work depending on the type of signal being measured Expected CW power measurement receiver frequency and uplink receiver frequency are available as manual settings only no automatic control is provided CW Mode Operation The following command examples show you how to control each function for CW operating mode 1 Select CW operating mode OUTPUT 714 CALL OPERating MODE CW Set the cell power output level to be transmitted by the test set OUTPUT 714 CALL POWer 45 DBM Set the RF generator frequency OUTPUT 714 CALL RFGenerator FREQuency 870 MHZ Set the expected CW power level to be received by the test set OUTPUT 714 RFANalyzer CW EXPected POWer 23 DBM Set the measurement receiver frequency OUTPUT 714 RFANalyzer MANual MEASurement 870 080 MHZ Set the uplink demodulation receiver frequency Not typically used in CW operating mode OUTPUT 714 RFANalyzer MANual UPLink 870 080 MHZ 52 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 gen bse cw fm CW Operating Mode Related Topics Active Cell Operating Mode on page 50 Test Operating Mode on page 51 53 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 gen bse cw fm Configuring the F FCH Traffic Channel Forward Fundamental Traffic Channel Configuring the F FCH Traffic Channel Forward F
421. r the license status of the fast switching test application The returned values are e LIC indicates this is a licensed test application e NLIC indicates this is not a licensed test application Query Range LIC NLIC Programming Example OUTPUT 714 SYSTEM APPLICATION FORMAT LICENSE CDMA 2000 416 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_application fm SYSTem APPLication SYSTem APPLication SELect NAME lt test application name gt Function Selects a test application and reboots the test set This will switch the test application to the revision already selected There is no need to re select the revision before switching The reboot process takes about 1 minute Queries the test set for the test application that is selected and will run after the next reboot of the test set This string is not case sensitive The test application name must be entered as it appears in the test application Setup menu with the exception that the string is not case sensitive and can be entered in any combination of upper and lower case letters NOTE Selecting the correct name and the desired revision of a test application is important This information should be reviewed before proceeding The directions for how to determine test application name and revision are found in this document Setting Range AMPS 136 Mobile Test CDMA 2000 Mobile Test GSM Mobile Test GPRS M
422. ramming a Channel Power Measurement Programming a Channel Power Measurement This section provides an example of how to make a channel power measurement via GPIB The following program example assumes that the mobile station s antenna output is connected to the RF IN OUT connector and the mobile station has found service For information on configuring the test set for a call see Step 4 Make a connection on page 76 The basic procedure to measure digital average power is as follows 1 OU co N Make a call Configure the digital average power setup parameters using the SETup CPOWer subsystem Start the digital average power measurement using the INITiate subsystem Use the INITiate DONE command to determine when the FER measurement has finished Use the FETCh CPOWer command to obtain the measurement results Programming Example Not available at the time of this printing Returned Values This query returns an integrity indicator followed by a channel power measurement result if results are available Related Topics Channel Power Measurement Description on page 34 Channel Power Measurement Troubleshooting on page 468 Control Program Example on page 1 CALibration Subsystem on page 180 110 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 prog cpow fm Programming a Digital Average Power Measurement Programming a Digital Average Pow
423. rated values ranging from 292 5 MHz to 2700 MHz Resolution 1 Hz Query Range 1 to 20 comma separated values ranging from 292 5 MHz to 2700 MHz and NAN 9 91E 37 Resolution 1 HZ Factory 800 00 MHz Off Setting 810 00 MHz Off 820 00 MHz Off 830 00 MHz Off 840 00 MHz Off 850 00 MHz Off 860 00 MHz Off 870 00 MHz Off 880 00 MHz Off 10 890 00 MHz Off 11 900 00 MHz Off 12 910 00 MHz Off 13 920 00 MHz Off 14 930 00 MHz Off 15 940 00 MHz Off 16 950 00 MHz Off 17 960 00 MHz Off 18 970 00 MHz Off 19 980 00 MHz Off 20 990 00 MHz Off O oND oe a N bP Programming Example OUTPUT 714 SYSTEM CORRECTION FREQUENCY 1784 8 MHZ 1879 8 MHZ Sets upto 20 comma separated frequencies OUTPUT 714 SYSTEM CORRECTION FREQUENCY Sets the state for all frequencies and offsets to Off 426 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_correction fm SYSTem CORRection SYSTem CORRection FREQuency Function Sets queries the up to 20 comma separated offset values in dB See Measurement Related Configuration on page 45 The units dB are optional If no units are specified units default to dB Sending a null list no values sets the state of all offsets to Off Setting Range 0 to 20 values between 100 to 100 Resolution 0 01 Query Range 1 to 20 values between 100 to 100 and NAN 9 91E 37 Resolution 0 01 Factory Offsets 1 through 20 are set to 0 00 dB sta
424. ration Tupe Poner Up I ederr EGO ves TAT ae Enhanced RO Support des aay EDEA GEID HS Called Partu Humber 120050 ae co ES Background _ Aactive Cell Sus Type 18 2000 Connected IE nar EE 1 Press the CALL SETUP key 2 On the Call Parms menu 1 of 2 press any key 3 Highlight a selection and press the knob Enter a value 4 Press the MORE key for additional call parameters 446 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 gen op overview call parms fm How Do Change Cell Information How Do I Change Cell Information There are three types of cell information cell parameters access parameters and registration parameters A Set cell parameters 1 Select the Cell Parameters menu Call Setup Screen tell Info Cell Information Call Parns las PUES E 1 aS Sustem ID SID it s dBn 1 23 mHz c fa Netuork ID NID i z cell Band 3 H mites J telum prets Pagino Data Rate Max Request Seq re au t Preset Sime um en 4 Gel to Pot T 6 15 2000 Return Registration Period 29 FEN Service J P E Background pee oe 3 pet ye 15 2000 f 2 m intet I rors Ne au 1 Press the C
425. ration in radio configuration class 2 this mobile station reported result will be YES Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED RCON ENH 235 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call ms reported rst fm CALL MS REPorted lt RCON ENH REG SCIN SCL gt CALL MS REPorted REGistration TYPE Function Queries the type of registration that was last received by the test set as reported by the mobile station Query Range ZONE TIMER POWERUP POWERDOWN PARAMETERCHANGE ORDERED DISTANCE USERZONE CLEARED RST Setting CLEARED Programming Example OUTPUT 714 CALL MS REPORTED REGISTRATION CALL MS REPorted SCINdex Function Queries the mobile reported slot cycle index as reported by the mobile station Query Range 0 to 7 9 91 E 37 RST Setting 9 91 E 37 Programming Example OUTPUT 714 CALL MS REPORTED SCINDEX CALL MS REPorted SCLass Function Queries the mobile reported slot cycle index as reported by the mobile station The test set will page the mobile station in slotted mode unless the mobile station has registered as non slotted NSL Query Range SLOT NSL UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED SCLASS 236 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapt
426. ration of Agilent Technologies products will be uninterrupted or error free If Agilent Technologies is unable within a reasonable time to repair or replace any product to a condition as warranted customer will be entitled to a refund of the purchase price upon prompt return of the product Agilent Technologies products may contain remanufactured parts equivalent to new in performance or may have been subject to incidental use The warranty period begins on the date of delivery or on the date of installation if installed by Agilent Technologies If customer schedules or delays Agilent Technologies installation more than 30 days after delivery warranty begins on the 31st day from delivery Warranty does not apply to defects resulting from a improper or inadequate maintenance or calibration b software interfacing parts or supplies not supplied by Agilent Technologies c unauthorized modification or misuse d operation outside of the published environmental specifications for the product or e improper site preparation or maintenance TO THE EXTENT ALLOWED BY LOCAL LAW THE ABOVE WARRANTIES ARE EXCLUSIVE AND NO OTHER WARRANTYOR CONDITION WHETHER WRITTEN OR ORAL IS EXPRESSED OR IMPLIED AND AGILENT TECHNOLOGIES SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OR CONDITIONS OR MERCHANTABILITY SATISFACTORY QUALITY AND FITNESS FOR A PARTICULAR PURPOSE Agilent Technologies will be liable for damage to tangible property
427. rdware input buffer on serial port overflows with data caused by improper or nonexistent pacing 483 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 ts err msg neg300 fm 200 through 299 Error Message Descriptions 200 through 299 Error Message Descriptions Description These errors are generated when something occurs that is incorrect in the current state of the instrument These errors may be generated by a user action from either the remote or the manual user interface Error Message Description 200 Execution error This event bit Bit 4 indicates PROGRAM DATA element following a header was outside the legal input range or otherwise inconsistent with the device s capabilities see IEEE 488 2 11 5 1 1 5 203 Command protected Indicates that a legal password protected program command or query could not be executed because the command was disabled 220 Parameter error Indicates that a program data element related error occurred 221 Setting conflict Indicates that a legal program data element was parsed but could not be executed due to the current device state 222 Data out of range Indicates that a legal program data element was parsed but could not be executed because the interpreted value was outside the legal range defined by the devices 223 Too much data Indicates that a legal program data element of block expression or string typ
428. received Example Responses Returned from the CALL STAT Query Response Meaning IDLE The call is in the Idle state ALER The call is in the Alerting transitory state HAND The call is in the Handoff transitory state PAG The call is in the Paging transitory state CONN The call is in the Connected state After issuing the commands to perform a handoff handover you should send the CALL STAT query to verify that the call is still connected before resuming testing 103 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_generic_step6_ac fm Step 6 Reconfigure Test Set and Mobile Station Connection Parameters Figure 6 Process for Performing a Handoff Handover Y Send commands to change channel Send the CALL STAT query command Enter response from CALL STAT query Call connected Ye Proceed with control program Send CALL END command Invoke error handler Test Mode Considerations In test mode you can either change the test set s frequencies by using the handoff handover commands or directly control the RF generator and RF analyzer In either case you must also send the appropriate test mode commands to the mobile station to move it to the new channel Change Other Connection Parameters You may also choose to change the mobile station transmit power level or cell power or other connection parameters such as timeslot or tim
429. red band Highlight the Handoff Channel parameter and select the desired channel Press the Execute Handoff F5 key to complete the handoff or the Close Menu F6 key to abort the handoff Check for Connected in the Active Cell status field 451 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_op_overview_handoff fm How Do Configure the Test Set for My Test System How Do I Configure the Test Set for My Test System A Configure instrument information and setup Test Application Revision o System Config Screen Siet Control Configuration Summary Utilities I Instrument ni mi dps d n eto q ation 6008 2000 nobile Test oe EBD D cre 18 200 P 255 255 0 0 BS pao 1 Instrument Setup value 130 29 181 54 255 255 0 0 j RF IN OUT E 130 29 176 1 Pi ampi Offset le Track High tose 2 um 4 Tienu laskable llessage Display State on ji E Backoround active cell Bus Tupe 18 2000 NC oL Connected I intrer Loz 1 Press the SYSTEM CONFIG key 2 Press the Instrument Setup F1 key 3 Adjust an instrument setting 4 Press the Close Menu F6 key B Set amplitude offsets
430. result if results are available If the multi measurement state is on the result represents the average of a number of channel power measurements Multi measurement state by default is off To set up multi measurements see SETup CPOWer COUNt SNUMber Query e Range 100 to 100 dBm 9 91 E437 Resolution 0 01 dBm Programming Example OUTPUT 714 FETCH CPOWER ALL Returns integrity channel power measurement FETCh CPOWer ICOunt Function Queries the intermediate count of measurements completed in a multi measurement To set up multi measurements see SETup CPOWer COUNt SNUMber Query Range 0 to 999 Programming Example OUTPUT 714 FETCH CPOWER ICOUNT Returns the intermediate count of channel power multi measurements FETCh CPOWer INTegrity Function Queries the measurement integrity indicator for the last channel power measurement completed Zero indicates a normal measurement See Integrity Indicator on page 144 for information about non zero integrity results Query Range 0 through 23 300 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 hpib fetch cpower fm FETCh CPOWer Programming Example OUTPUT 714 FETCH CPOWER INTegrity IQueries the integrity indicator for the channel channel power results 301 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib fetch cpower fm FETCh DAPower
431. results are available or the measurement fails or times out The exact results returned with a FETCh will depend on the specific measurement measurement may have a number of different results or combination of results for a FETCh The FETCh queries are intended to be used to provide overlapped operation access to measurement results from the test set When used along with SETup and INITiate commands FETCh is the primary way for the user to retrieve measurement results In order to use the test set s concurrent test capabilities the overlapped commands of INITiate and FETCh must be used Overlapped commands allow the user to send commands and not wait for completion Syntax Diagrams and Command Descriptions FETCh CPOWer on page 300 Channel Power measurements FETCh DAPower on page 302 Digital Average Power measurements FETCh WQUality on page 312 Waveform Quality Code Domain power measurements FETCh CFERror on page 304 Frame Error Rate test results FETCh FSTability on page 306 Frequency Stability measurements FETCh CAPPower on page 299 Access Probe Power measurements 298 S Hp8960 E1962B CDMA 2000V3 1 reference guide Chapterscdma2000 hpib fetch description fm FETCh CAPPower FETCh CAPPower FETCh CAPPower gt returns Integrity Indicator then Access E Probe Power measurement result gt INTegrity gt returns Integrity Diagram Conventions on page 171 FETC
432. returns YES NO UNKN SUPPort 1FRAMe lt gt returns 5MS 20Ms i SIZE i NDYN DYN UNKN FORWard RCONfig returns string gt REVerse s RCONfig returns string J Diagram Conventions on page 171 217 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_cch fm CALL MS REPorted CAPability CCHannel DEDicated CALL MS REPorted CAPability CCHannel DEDicated SUPPort Function This query only command returns the mobile station s capability to support a dedicated control channel DCCH as reported by the mobile station uery ange Q R YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY CCHANNEL DEDICATED SUPPPORT CALL MS REPorted CAPability CCHannel DEDicated FRAMe SIZE Function This query only command returns the mobile station s capability to support different frame sizes on the dedicated control channel DCCH as reported by the mobile station Returned values are 5 millisecond only 20 milliseconds only 5 or 20 milliseconds not dynamic 5 or 20 milliseconds dynamic or unknown Query Range 5MS 20MS NDYN DYN UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY CCHANNEL DEDICATED FRAME SIZE CALL MS REPorted CAPability CCHannel DEDicated FORWard RCONfig Function This query only command returns the m
433. rom the Measurement Selection menu but has not been triggered then the measurement state is wait for trigger Example 19 Measuring and Idle States Trigger Arm Single If the trigger arm is set to single the trigger source is available and the trigger qualifier optional is satisfied the measurement state transitions to measuring and measurement results are now available to the user After results are available the state transitions to idle awaiting another INITiate Example 20 Measuring State Trigger Arm Continuous If the trigger arm is set to continuous the trigger source is available and the trigger qualifier optional is satisfied the measurement state transitions to measuring and measurement results are now available to the user The measurement is continually triggered until the measurement is deactivated When the measurement is deactivated INITiate lt MEAS gt OFF or Close Measurement it becomes inactive Trigger Arm Single or Continuous Description Trigger arm determines if a measurement will make one measurement then return to idle single or automatically rearm on completion of a measurement and repeat the process continuous NOTE When operating the test set remotely trigger arm must be set to single this causes the measurement cycle to transition to the idle state but remain active Pressing the Start Single key on the front panel will cause all currently active measurements with trigger arm set to sing
434. ror Message Descriptions Error Message Description 113 Internal error VI NAME gt forced inactive Indicates that a VI is inactivated when not executed VI NAME gt includes IntVmVI GSMFixedVI MiscVI GSMSacchMriVI IQSelfCalVI1 QSelfCalVI2 TA RevisionVI 114 Internal error VI NAME gt not responding Indicates that a VI has not been instantiated or the state is not available VI NAME gt includes IntVmVI GSMFixedVI MiscVI GSMSacchMriVI IQSelfCalVI1 TQSelfCalV12 TA Revision VP RfHwAccessVI 115 Internal error lt VI NAME gt inactive Indicates that a VI has been made inactive VI NAME gt includes IntVmVI GSMFixedVI MiscVI GSMSacchMriVI IQSelfCalVI1 QSelfCalVI2 TA RevisionVI 120 Warning Receiver over range due to requested settings Indicates the total received power a combination of received power and amplitude offset is above the range of the test set 121 Warning Receiver under range due to requested settings Indicates the total received power a combination of received power and amplitude offset is below the range of the test set 122 Warning Reference out of lock Indicates the test set s internal reference is out of lock 123 Warning Duplicate RF IN OUT Amplitude Offset Frequency entry First frequency entry in RF IN OU
435. ror in the 100 to 199 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 0 Extension Bit This bit is always 0 Program Example STATus QUEStionable ERRors TA2000 Condition Register Bit Assignment OUTPUT 714 STATUS QUESTIONABLE ERRORS TA2000 OUTPUT 714 STATUS QUESTIONABLE ERRORS TA2000 OUTPUT 714 STATUS QUESTIONABLE ERRORS TA2000 OUTPUT 714 STATUS QUESTIONABLE ERRORS TA2000 OUTPUT 714 STATUS QUESTIONABLE ERRORS TA2000 EVENT Queries and clears the Questionable Errors ITA2000 Event Register IQueries and clears the Qestionable Errors ITA2000 Condition Register ISets the Questionable IErrors TA2000 Enable IRegister for bit 10 ISets the Questionable Errors TA2000 Negative ITransition Filter IRegister for bit 1 ISets the Questionable IErrors TA2000 Positive ITransition Filter IRegister for bit 1 CONDITION ENABLE 1024 NTRANSITION 2 PTRANSITION 2 STATus QUEStionable HARDware Condition Register Bit Assignment The STATus QUEStionable HARDware register bits give an indication that the data signals currently being acquired or generated are of questionable quality Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI Thi
436. rough 15 starting from the left side of the graph to the right side of the graph This query returns 4 comma separated values Walsh code spread factor noise power and power Query FETCh WQUality CDPNoise ICHannel BIN 0 returns Walsh code spread factor noise power and power for bin 0 Programming Example OUTPUT 714 FETCH WQUALITY CDPNOISE ICHANNEL BIN 13 Queries the I channel code domain power noise measurement results for bin 13 FETCh WQUality CDPNoise ICHannel COUNIt BIN Function This query indicates how many bins contain measurement data For example if 13 is returned bins 0 through 12 contain measurement data and bins 13 through 15 contain 9 91 E 37 results Query Range 0 to 15 Programming Example OUTPUT 714 Fl FETCh WQuali ETCH WQUALITY CDPNOISE ICHANNEL COUNT BIN ty CDPNoise QCHannel ALL Function Queries the code domain noise power in the Q channel This query returns 64 comma separated values These represent 4 values for each of 16 bins maximum Query FETCh WQUality CDPNoise QCHannel ALL returns Walsh code spread factor noise power and power for bin 0 The integer value following power for bin 0 will be the beginning of bin 1 Walsh code spread factor noise power and power for bin 1 This pattern will repeat until the values for the last bin bin 15 have been returned Programming Example OUTPUT 714 FETCH WQUALITY
437. rror e Range 500 to 500 parts per million ppm Resolution 0 01 Average frequency Range 100 E 6 to 3 E 9 Hz Resolution 1 Hz 330 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_read fm READ WQuality ALL READ Function Initiates and fetches the waveform quality measurements as a sequential operation Measurement results are returned in the following order integrity rho frequency error time error carrier feedthrough phase error magnitude error EVM If the multi measurement state is on each result represents the average of a number of waveform quality measurements Multi measurement state by default is off To set up multi measurements see SETup WQUality COUNt SNUMber Query Integrity e Range 0 to 16 Resolution 1 Rho e Range 0 000 to 1 000 9 91 E37 e Resolution 0 001 Frequency Error e Range 9999 0 to 9999 0 Hz 9 91 E437 Resolution 0 1 Hz Time Error e Range 99 99 to 99 99 us 9 91 E 37 e Resolution 0 01 us Carrier Feedthrough e Range 100 to 0 0 dB 9 91 E 37 e Resolution 0 1 Phase Error e Range 180 0 to 180 0 degrees e Resolution 0 1 Magnitude Error e Range 0 to 100 9 91 E 37 Resolution 0 01 Error Vector Magnitude EVM e Range 0 to 100 e Resolution 0 01 331 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_read fm RFANalyzer Subsystem RFANalyzer Subsystem
438. rs cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 9 512 900 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 900 to 999 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 256 800 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 800 to 899 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 128 700 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 700 to 799 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 64 600 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 600 to 699 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors occurred 32 500 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 500 to 599 range occurs After setting the Positive Transition F
439. rview Description Typical test systems include an external controller with a GPIB connection to the test set an RF and possible AF connection between the test set and a mobile station under test and a serial connection between the mobile station and the external controller Synchronizing an external controller with the test set and a mobile station under test ensures that no device does something before it is supposed to which can cause errors or does something well after it could have which wastes time 163 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync gen fm Test System Synchronization Overview Figure 10 Test System GPIB External Controller I O Control Test Set BOD O00 ou 00000 j 00000 00000 Mobile Station RS 232 system_synch tif 164 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_sync_gen fm Test System Synchronization Overview Sequential versus overlapped commands The test set uses both sequential and overlapped commands Sequential commands must finish executing before the next command starts to execute e Overlapped commands do not finish executing before the next command starts to execute Overlapped commands are more difficult to synchronize because an overlapped operation that started several commands earlier may still be executing as subsequent commands are being parsed out from the input buffer
440. s Frame error rate measurements require an accurate Amplitude Offset value because of the low levels transmitted during sensitivity measurements Use the SYSTem CORRection GAIN command to set offset values Interpreting Integrity Indicator values See Integrity Indicator on page 144 Related Topics Frame Error Rate Measurement Description on page 37 472 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_fer fm Waveform Quality Measurement Troubleshooting Waveform Quality Measurement Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm state to single and retry this measurement During remote operation of this measurement you should configure the Trigger Arm to Single See SETup WQUality CONTinuous on page 361 If single triggering is used during manual operation press the START SINGLE key to trigger each measurement If a waveform quality measurement is attempted while in active cell operating mode a call must be connected so that long code information can be obtained from the mobile station and measurement triggers can be synchronized to the CDMA frame clock inside the test set The test set receiver s expected signal amplitude and channel number or frequency must be set up correctly
441. s Example FETCh Result Formats Command Results Returned FETC TXP Measurement integrity and average value FETC TXP POW ALL Minimum maximum average and standard deviation values FETC TXP POW AVER Average value only FETC TXP POW MIN Minimum value only FETC TXP POW MAX Maximum value only FETC TXP POW SDEV Standard deviation value only FETC TXP INT Measurement integrity value only Example 12 Concurrent Measurement Process Programming Example Start a Set of Concurrent Measurements OUTPUT Test set INIT TXP PFER Determine if a Measurement Is Done LOOP OUTPUT Test set INIT DONE ENTER Test set Meas done Obtain a Set of Measurement Results SELECT Meas done CASE TXP OUTPUT Test set FETC TXP POW ENTER Test set Avg tx power CASE PFER OUTPUT Test set FETC PFER RMS ENTER Test set Max rms phas er END SELECT EXIT IF Meas done NONE END LOOP Validate Measurement Results Validating measurement results is extremely important The test set returns a result if it is capable of making a measurement even if this result is obtained under adverse conditions The measurement integrity indicator is a measurement result and therefore is queried using the FETCh subsystem A value of 0 indicates that the measurement is valid A value other than 0 indicates that an error occurred during the measurement process 101 S Hp8960 E1962B CDMA 2
442. s you must specify these units in the suffix Timeout Values All measurements in the CDMA 2000 Mobile Test application default to a timeout value of 10 seconds except FER The FER measurement timeout default is 200 seconds Related Topics Integrity Indicator SETup Subsystem 139 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_gen_timeout fm Triggering of Measurements Triggering of Measurements Trigger Source Choices For CDMA 2000 the trigger source choices are limited to e RF Rise Trigger Source e Immediate Trigger Source The RF Rise trigger source is used only for access probe measurements and the Immediate trigger source is used for all other measurements No user control is provided for trigger sources Description Trigger Source Description A measurement trigger causes hardware for example a sampler to capture data which is used by a measurement algorithm to produce a measurement result Not all of the trigger source choices are available in every measurement or every test application RF Rise Trigger Source When RF rise triggering is selected a measurement dependent threshold is used to define the trigger point on the envelope of the signal being measured The envelope amplitude must fall below this threshold and remain there for a measurement dependent period of time before the trigger is armed After the trigger is armed a trigger will occur as the envel
443. s with the frequency command results in setting the state for Frequency 1 20 to Off There are two different commands that can be used to set the RF offset frequency Frequency is set and the frequency state is set to On with this complex command OUTPUT 714 SYSTEM CORRECTION SFREQUENCY 1710 2 MHZ2 1805 2 MHZ 1784 8 MHZ 1879 8 MHZ A complex command that sets the up to 20 comma separated frequencies and sets the state to On for the frequencies offsets and RF IN OUT Amplitude Offset State Frequencies are set with this command OUTPUT 714 SYSTEM CORRECTION FREQUENCY 1784 8 MHZ 1879 8 MHZ Sets up to 20 comma separated frequencies Manual User Manual users may set the state or the value for any of the 20 frequencies from the RF IN OUT Amplitude Offset Setup menu Frequency values may be set in any order i e set Frequency 1 and then skip to Frequency 20 The frequency state and value is individually controlled for manual users In order to manually set the RF offset frequencies go to the SYSTEM CONFIG screen and press the RF IN OUT Amptd Offset key F5 Amplitude offset loss gain and state settings are found by pressing the RF IN OUT Amptd Offset Setup key F2 RF offset frequencies 1 through 20 are listed in the RF IN OUT Amplitude Offset Setup menu When any of the 20 frequencies are manually set to On the RF IN OUT Amplitude Offset State and the associated offset state are also set to On 46 S Hp8960 E1962B CDMA 200
444. s bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 406 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Binary Condition Description Number Weighting 12 4096 Reserved for future use This bit will always be 0 11 2048 Reserved for future use This bit will always be 0 10 1024 Reserved for future use This bit will always be 0 9 512 Reserved for future use This bit will always be 0 8 256 Reserved for future use This bit will always be 0 7 128 Reserved for future use This bit will always be 0 6 64 Reserved for future use This bit will always be 0 5 32 Reserved for future use This bit will always be 0 4 16 Power up Self Test s Failed This bit will be a 1 if the power up self tests failed 3 8 Reserved for future use This bit will always be 0 2 4 Reserved for future use This bit will always be 0 1 2 Reserved for future use This bit will always be 0 0 1 Extension Bit This bit will always be 0 Program Example STATus QUEStionable HARDware Condition Register Bit Assignment OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 OUTPUT 714 STATUS STATUS STATUS STATUS STATUS QUESTIONABLE HARDWARE QUESTIONABLE HARDWARE QUESTIONABLE
445. s registering state 3 8 Call Control Status is Alerting This bit is a 1 when the test set is in the call alerting state ringing 2 4 Call Control Status is Connected This bit is a 1 when the test set is in the call connected state 1 2 Call Control Status is Idle This bit is a 1 when the test set is in the call idle state 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation CALL COMMon OUTPUT 714 STATUS OPERATION CALL COMMON EVENT Queries the Operation Call Common Event IRegister OUTPUT 714 STATUS OPERATION CALL COMMON CONDITION Queries the Operation Call Common Condition Register OUTPUT 714 STATUS OPERATION CALL COMMON ENABLE 8 Sets the Operation Call Common Enable IRegister for bit 3 374 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm OUTPUT 714 OUTPUT 714 STATUS OPERATION CALL COMMON NTR 8 STATUS OPERATION CALL COMMON PTR 256 IRegister for bit 8 STATus OPERation Sets the Negative Transition IRegister for bit 3 Sets the Positive Transition STATus OPERation KEYPressed Register Bit Assignments The STATus OPERation KEYPressed register bits indicate when a softkey on the test set s front panel has been pressed while the test set is in remote operating mode Bit Binary Condition Description Number Weighting 1
446. sage Correct the program so that the GET does not occur within the program code 108 Parameter not allowed Indicates that more parameters were received than expected for the header For example ESE common command only accepts one parameter so ESE 0 1 is not allowed 109 Missing parameter Indicates that less parameters were received than required for the header For example ESE requires one parameter ESE is not allowed 110 Command header error Indicates an error was detected in the header This error is used when the device cannot detect the more specific errors 111 through 119 111 Header separator error Indicates that a character that is not a legal header separator was encountered while parsing the header 112 Program mnemonic too long Indicates that the header contains more that twelve characters see IEEE 488 2 7 6 1 4 1 487 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_ts_err_msg_neg100 fm 100 through 199 Error Message Descriptions Error Message Description 113 Undefined header Indicates the header is syntactically correct but it is undefined for this specific device For example XYZ is not defined for any device 114 Header suffix out of range Indicates the value of a header suffix attached to a program mnemonic makes the header invalid 120 Numeric data error This error as well as errors 121 through 129
447. sary The commands below configure many of the available settable parameters 230 240 250 260 270 280 290 300 310 320 OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT A CAL A CAL A CAL A CAL A CAL A CAL A CAL A CAL A CAL A CAL a Le Ca ea Deg Sy ae lan ORL FCH 10 F FCH on and set to 10 dB FCH WALS CODE14 F FCH assigned to Walsh code 14 OCNS WALS CODE5 OCNS assigned to Walsh code 5 PAG 12 F Paging on and set to 12 dB PAG DRAT HALF F Paging data rate set to half rate PIL 8 F Pilot set to 8 dB QPCH RTP 3 F QPCH on and set to 3 dB SCH 15 6 F SCH on and set to 15 6 dB SCH DRAT RCON1 BPS38400 F SCH data rate set to 38 4k for RC3 SYNC 16 F Sync on and set to 16 dB Configure the Mobile Station Parameters There are no mobile station parameters configured in this program example 74 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog getting started step2 ac fm Step 3 Set Measurement Parameters Step 3 Set Measurement Parameters This step gives an example of how you can configure measurement parameters For more information about measurement parameters refer to the additional details about this step available on the Internet 330 Setup E1962B digital average power 340 OUTPUT A SET DAP CONT OFF Single measurement 350 OUTPUT A SET DAP TIM 3 Timeout set to 3 secs 360 OU
448. sp gt lt num value writes to enable register 5 reads enable register gt NTRansition lt sp gt lt num value writes to nega tive transition register gt reads Negative Transition Filter register gt PTRansition sp num value writes to Positive Transition Filter register reads Positive Transition Filter register 366 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation STATus OPERation CALL COMMon reads event register gt EVENt m gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register 4 reads enable register NTRansition sp num value writes to Negative Transition Filter register gt reads negative Transition Filter register st PTRansition sp num value writes to Positive Transition Filter register reads positive Transition Filter register STATus s OPERation KEYPressed gt reads event register EVENt 4S gt CONDition reads condition register gt ENABle gt lt sp gt lt num value writes to enable register gt reads enable register NTRansition gt lt sp gt lt num value writes to Negative Transition Filter register gt reads Negative Transition Filte
449. stem overlapped command synchronization commands check the conditions that set the operation s pending operation flag POF false to avoid unexpected results Call Processing Subsystem Overlapped Commands Table 8 Overlapped Commands Call Processing Command Purpose Of Command Pending Operation Flag POF is false when CALL ORIGinate See CALL ORIGinate Performs a base station call The call processing state leaves the Idle state when the origination operating mode is active cell or The test set has noted this parameter change when the operating mode is test mode CALL REGister Performs a The mobile station has See CALL REGister zone based forced responded to the registration registration CALL CONNected ARM IMMediate See CALL CONNected STATe Arms the call control status change detector The call control status change detector has been disarmed See Connected Idle Query 161 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_sync_callpro fm Call Processing Event Synchronization Related Topics Call Processing State Synchronization on page 155 Test System Synchronization Overview on page 163 Measurement Event Synchronization on page 153 162 S Hp8960 E1962B CDMA 2000V3 1 reference guideYXChaptersicdma2000 prog sync callpro fm Test System Synchronization Overview Test System Synchronization Ove
450. surement results are affected by the Amplitude Offset value Use the SYSTem CORRection GAIN command to determine offset values Access probe power measurements are triggered by a rise in RF power that crosses approximately 55 dBm See Access Probe Power Measurement Description on page 32 for details Interpreting Integrity Indicator values See Integrity Indicator on page 144 If over range 5 is returned the input power has exceeded the test set s internal sampler maximum value during some part of the sampling or the input power has exceeded the calibrated range of the test set s power detector If under range 6 is returned the measurement result is below the expected input power level Under range is also indicated if the input power is below the calibrated range of the test set s power detector If the signal has both over range and under range conditions only the over range 5 will be indicated Related Topics Integrity Indicator on page 144 Access Probe Power Measurement Description on page 32 467 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 ts accprobe fm Channel Power Measurement Troubleshooting Channel Power Measurement Troubleshooting Possible Setup Issues IMPORTANT Ifthe Access Probe Power measurement is currently selected and the Trigger Arm setting is Continuous all other measurements are disabled Use the SETup CAPPower CONTinuous command to set the trigger arm
451. t on page 116 for details about the RST full preset Programming Example OUTPUT 714 SYSTEM PRESET2 Full preset trigger arm set to continuous 433 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib system preset fm SYSTem PRESet SYSTem PRESet3 Function Performs a partial preset This is the recommended command for users when a partial preset is needed during remote operation of the test set Any call in process is disconnected and all measurements are aborted and inactivated Measurement parameters are not changed A partial preset will not modify any measurement settings including trigger arm Related Topics See Partial Preset for more details Programming Example OUTPUT 714 SYSTEM PRESET3 Partial preset when in remote operation 434 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib system preset fm SYSTem ROSCillator SYSTem ROSCillator SYSTem gt ROSCillator gt returns EXT INT TIMebase LOCKed returns 1 0 Diagram Conventions on page 171 SYSTem ROSCillator TIMebase Function Queries the timebase source If an external timebase is used it must have these characteristics e an output level of 0 to 13 dBm e frequency of 10 MHz Query Range INT internal source EXT external source SYSTem ROSCillator LOCKed Function Queries the timebase to find out
452. t Assignments The STATus QUEStionable ERRors CDMA register bits will be used to indicate information about CDMA related test set device specific errors positive error numbers IQueries and clears the Questionable Errors AMPS Event Register IQueries and clears the Questionable Errors AMPS Condition Register Sets Errors AMPS Enable Regis the Questionable ter for bit 10 ISets the Questionable Errors AMPS Negative Transition Filter Register for bit 1 ISets the Questionable Errors AMPS Positive Tranasition IFilter Register for bit 1 Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Reserved for future use This bit is always 0 11 2048 Reserved for future use This bit is always 0 10 1024 Reserved for future use This bit is always 0 398 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable Bit Number Binary Weighting Condition Description 9 512 900 Errors The condition bit is pulsed to a 1 and immediately back to 0 if an error in the 900 to 999 range occurs After setting the Positive Transition Filter and the Negative Transition Filter you can query the Event Register to find out which of these errors oc
453. t are part of the test set s normal operation Bit Binary Condition Description Number Weighting 15 32768 Not Used Defined by SCPI This bit is always 0 14 16384 Reserved for future use This bit is always 0 13 8192 Reserved for future use This bit is always 0 12 4096 Processing This condition bit is pulsed by the SYSTem SYNChronized SYSTem SYNChronized command This will allow Command the status system to indicate that the input buffer is synchronized to the point where this command is parsed and that all prior sequential commands are completed and all prior overlapped commands have started 11 2048 Reserved for future use This bit is always 0 10 1024 CALL Summary This bit is the summary message bit for the STATus OPERation CALL register 9 512 NMRReady New Measurement This bit is the summary message bit for the Result Ready Summary STATus OPERation NMRReady register 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bit is always 0 3 8 Reserved for future use This bit is always 0 2 4 Reserved for future use This bit is always 0 1 2 Reserved for future use This bit is always 0 0 1 Extension Bit This bit is always 0 371 S Hp8960 E1962B CDMA 2000 3 1_reference_
454. t can only accept a 10 MHz timebase signal 10 MHZ REF OUT This BNC connector provides a 10 MHz timebase signal to external test equipment The accuracy of this signal is determined by the timebase used The nominal output impedance is 50 ohm with a typical level of 0 5 V rms 460 S Hp8960 E1962B CDMA 2000 3 1 reference guideYXChaptersicdma2000 gen rearpanel con fm Remote Local Mode Remote Local Mode Description Remote Mode When the test set is operated remotely all of the keys on the front panel of the test set are disabled except the LOCAL key and the power switch During remote operation the test set is controlled by the Remote User Interface RUI Any open menus are be closed and any manual entries are be aborted when the test set transitions from local mode to remote mode The remote annunciator R will appear in the Instrument Status Area of the test set s display indicating that the test set is in remote mode When the test set is in remote mode press the LOCAL key on the front panel in order to gain manual control Local Mode During local mode all front panel keys and the knob are enabled During local operation the test set is controlled by the Manual User Interface MUI The remote annunciator R is turned off when the test set is operated in local mode 461 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 gen remote local fm Instrument Status Area Instrument Sta
455. t for the STATus QUEStionable ERRors TA136 register 395 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable Bit Binary Condition Description Number Weighting 4 16 DIGital136 Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors DIGital136 register 3 8 AMPS Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors AMPS register 2 4 GSM Summary bit This bit is the summary message bit for the STATus QUEStionable ERRors GSM register 1 2 COMMon Summary bit This bit is the summary message bit for the STATus QUEStionable CALL ERRors register 0 1 Extension Bit This bit is always 0 Program Example STATus QUEStionable ERRors Register Bit Assignments OUTPUT 714 STATUS QUESTIONABLE ERRORS EVENT OUTPUT 714 STATUS OUTPUT 714 STATUS OUTPUT 714 STATUS OUTPUT 714 STATUS IQueries and clears the Questionable Errors Event Register QUESTIONABLE ERRORS CONDITION Queries and clears the Questionable Errors Condition Register QUESTIONABLE ERRORS ENABLE 1024 Sets the Questionable Errors Enable IRegister for bit 10 QUESTIONABLE ERRORS NTRANSITION 2 Sets the Questionable Errors Negative Transition Filter Register for bit 1 QUESTIONABLE ERRORS PTRANSITION 2 Sets the Questionable Errors
456. t is always 0 3 8 Reserved for future use This bit is always 0 2 4 Reserved for future use This bit is always 0 1 2 Reserved for future use This bit is always 0 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation NMRReady DlGital2000 OUTPUT 714 STATUS OPERATION NMRREADY DIGITAL2000 EVENT Queries the New Measurement IResults Ready DIG2000 Event Register OPERATION NMRREADY DIGITAL2000 CONDITION Queries the New Measurement Results Ready DIG2000 Condition Register OPERATION NMRREADY DIGITAL2000 ENABLE 8 Sets New Measurement Results IReady DIG2000 Enable Register for bit 3 OPERATION NMRREADY DIGITAL2000 NTR 2 Sets the New Measurement Results IReady DIG2000 Negative Transition IRegister for bit 1 OPERATION NMRREADY DIGITAL2000 PTR 4 Sets the New Measurement IResults Ready DIG2000 Positive ITransition Register for bit 2 OUTPUT 714 STATUS OUTPUT 714 STATUS OUTPUT 714 STATUS OUTPUT 714 STATUS 382 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation NMRReady TA2000 Register Bit Assignments STATus OPERation The STATus OPERation N MRReady TA2000 register bits indicate when a measurement has been completed and new measurement results are available These registers are not available at this time Bit Binary Condition
457. t mask is 222 255 0 0 If A is grater than 191 the subnet mask is 255 255 255 0 If the LAN address is changed the subnet mask should be checked to insure that it is set to the proper class for that LAN address Setting Range 15 characters formatted as follows A B C D where A B C D are between 0 to 255 no embedded spaces Query Range 15 characters formatted as follows A B C D where A B C D are between 0 to 255 no embedded spaces Factory 0 0 0 0 this parameter is not affected by any reset operation and can only be changed by direct setting user access Programming Example OUTPUT 714 SYSTEM COMMUNICATE LAN SELF SMASK 255 2 6 200 423 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_communicate fm SYSTem CORRection SYSTem CORRection SYSTem CORRection lt sp gt lt offsets gt DB gt L gt SGAin 7 returns offsets htm Command gt GAIN lt sp gt lt offsets gt DB returns offsets gt gt POINts returns num value gt STATe lt sp gt 1 ON 0 OFF Diagram Conventions on page 171 FREQuency Sp offsets GHZ MHZ KHZ H2 SFRequency i nM 35 returns1 0 returns num value i returns num value y omplex Command 424 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_correction fm SY
458. t mode you command the mobile station to synchronize to the test set s signal and begin transmitting back an appropriate signal Contents e Establish a Call in Active Cell Mode e Make a Test Mode Connection Establish a Call in Active Cell Mode To test a mobile station in active cell mode you must first establish a call between the test set and mobile station Your control program must issue the commands necessary to initiate the call connection process either to the test set for a base station originated call or to the mobile station for a mobile station originated call Your control program must then determine when the call has successfully connected so that it can proceed to testing The control program must also determine if the call has not been successfully connected so that it can take appropriate action Call States At any instant in time a call can be in a stable state such as the idle or the connected state or in one of many transitory states such as alerting handoff registering releasing or paging These are referred to as transitory states because the amount of time which the call can spend in any of these states is limited by the mobile station s protocol The call is not allowed to stay in a transitory state indefinitely NOTE If repeat paging or repeat registration are on it is possible for the call process to stay in one of the transitory states beyond the time specified by the mobile station s protocol timers
459. t present the types of problem associated with semicolon separated response data lists containing mixed data types The number building routines in most languages will use any non numeric character that is anything other than 0123456789 E as the data item terminator Consequently when the number building routines encounter the semicolon the data item is terminated The following example illustrates this OUTPUT 714 FETCH TXP INT POW MIN MAX ENTER 714 Integrity Min power Max power 152 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog gen compound fm Measurement Event Synchronization Measurement Event Synchronization Description Measurement event synchronization saves time by controlling the communication between the controller the test set and the mobile station so that no device does something before it is supposed to which can cause errors or do something well after it could have Because some measurements can run concurrently it is necessary that the control program know when individual measurement results are available Measurement event synchronization is accomplished using the INITiate subsystem s command INITiate DONE or the STATus OPERation NMRReady status registers INITiate DONE The INITiate DONE query returns a string that indicates what if any measurements are ready to be fetched This query should be used inside a loop checking each measurement that was initiated See INI
460. t processor generated the assert P Host T task ID L line number F lt file name 102 Exception Cycle power Exception message lt message2 gt lt message2 gt will appear as T lt task ID gt or V lt vector number gt or PC lt program counter gt or DA lt data adrs reg value gt Vector number program counter and data address register values are hexadecimal format 103 Failure No measurements or settings can be made Indicates none of the VI s are operational because a serious problem exists 104 Failure No settling operations will take place Indicates none of the VI s are operational because a serious problem exists 105 Failure No measurements or setting can be made for the function selected Indicates none of the VI s are operational because a serious problem exists 110 Input pacing Internal communication queue overflow likely Indicates that GPIB commands are too fast for the device input queue and should be slowed 111 Input pacing Internal communication queue overflow imminent Pacing increased Indicates that GPIB commands were too fast and the device input queue has not kept pace 112 Internal error Protocol error lt message3 gt message3 is an eight digit hexadecimal number that is the error code reported by protocol 491 S Hp8960 E1962B CDMA 2000V3 1 reference guide Chaptersicdma2000 ts err msg pos100 fm 100 through 199 Er
461. t via GPIB The following program example assumes that the mobile station s antenna output is connected to the RF IN OUT connector and the mobile station has found service For information on configuring the test set for a call see Step 4 Make a connection on page 76 The basic procedure to test Loopback BER is as follows 1 Make a SO service option 2 9 or 55 call see CALL CELL SOPTION on page 275 Configure the Loopback FER Setup parameters using the SETup CFERror subsystem Start the FER measurement using the INITiate subsystem Use the INITiate DONE command to determine when the FER measurement has finished Use the FETCh CFERror command to obtain the measurement results OU co N Programming Example Not available at the time of this printing Returned Values This program returns up to 5 results in the following order integrity confidence limit pass fail result frame error ratio frame error count frames tested Related Topics Frame Error Rate Measurement Description on page 37 Frame Error Rate Measurement Troubleshooting on page 472 Control Program Example on page 1 112 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_fer fm Programming a Frequency Stability Measurement Programming a Frequency Stability Measurement This section provides an example of how to make analog frequency stability measurements via GPIB The f
462. tate change to Idle or Connected from one of the transitory states nor is it disarmed by any transitions from Idle to Idle or Connected to Connected When used in conjunction with the CALL CONNected STATe and the CALL CONNected TIMeout commands the CALL CONNected ARM command allows the control program to synchronize with call processing state changes See Call State Change Detector Programming Example OUTPUT 714 CALL CONNECTED ARM IMMEDIATE Arms the call state change detector CALL CONNected ARM STATe Function Queries the arm state of the call state change detector This command never hangs and immediately returns a one if the detector is armed or a zero if the detector is not armed See Call State Change Detector Query Range 1 0 RST Setting 0 Programming Example OUTPUT 714 CALL CONN ARM STATE Returns arm state of the call state change detector 200 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call connected fm CALL CONNected STATe CALL CONNected TIMeout Function Sets queries the maximum time the test set will wait for a hanging CALL CONNected STATe query to complete Default setting units are seconds To set timeout time in units other than seconds include an optional unit specifier in the command string A timeout timer is started whenever the call state change detector becomes armed or gets rearmed when already armed The durati
463. te is set to off Setting Programming Example OUTPUT 714 SYSTEM CORRECTION GAIN 3 12 3 68 4 23 Sets up to 20 comma separated offset values OUTPUT 714 SYSTEM ORRECTION GAIN Sets the state for all frequencies and offsets to Off SYSTem CORRection POINts Function Query returns the number of offsets that are in their On state when the RF IN OUT Amplitude Offset State is also set to On See Measurement Related Configuration on page 45 Query Range 1 to 20 and NAN 9 91E 37 Resolution 1 Programming Example OUTPUT 714 SYSTEM CORRECTION POINTS Returns the number of frequencies and offsets with their state set to On 427 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib system correction fm SYSTem CORRection SYSTem CORRection SFRequency Function a up to 20 comma separated frequency values in MHz This command sets the state to n The units GHz MHz kHz Hz are optional If no units are specified units default to MHz See Measurement Related Configuration on page 45 Sending a null list no values sets the state of all frequencies to Off Setting Range 0 to 20 comma separated values from 292 5 MHz to 2700 MHz Resolution 1 Hz Query Range 1 to 20 comma separated values from 292 5 MHz to 2700 MHz and NAN 9 91E 37 Resolution 1 HZ Factory 800 00 MHz Off Setting 810 00 MHz Off 820 00 MHz Off 830 00 MHz Off 840 00 MHz Of
464. te the F Paging mobile station phone number whenever a new MIN1 and MIN2 or MSIN are received from the mobile station 55 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 gen bse pch fm Configuring the F Paging Channel F PCH Related Topics CALL PAGing Configuring the F QPCH Forward Quick Paging Channel 56 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_gen_bse_pch fm Configuring the F SCH Forward Supplemental Channel Configuring the F SCH Forward Supplemental Channel The F SCH channel parameters are configured using the following call processing subsystem functions and commands Settable F SCH Parameters e F SCH level e F SCH state e F SCH data rate e F SCH encoder type convolutional or turbo Fixed F SCH Parameters The F SCH Walsh code is fixed at code channel number 3 When the F SCH data rate is below 19 2 kbps the forward channel convolutional encoder will be selected regardless of the encoder setting GPIB Examples Setting the F SCH level and state complex command OUTPUT 714 CALL SCH 15 6 DB would set the F SCH state on and set the level to 15 6 dB See CALL SCHannel SLEVel SELected Setting the F SCH data rate OUTPUT 714 CALL SCH DRATE RCONFIG3 BPS38400 would set the F SCH data rate for forward channel radio configuration 3 to 38400 See CALL SCHannel DRATe RCONfig3 Operating Considerations The F SCH is availab
465. tersicdma2000 hpib setup dapower fm SETup CFERror SETup CFERror SETup gt CFERror gt CONTinuous lt sp gt 1 ON 0 OFF L gt returns 1 0 L COUNt 7 Sp num value l MAXimum 7 returns num value SETup gt CFERror gt TIMeout sp num value S MS US NS STIMel returns num value bovem Command 8TATe gt lt sp gt 1 ON 0 OFF 5 returns 1 0 TIME lt sp gt lt num value S MS US NS gt L gt returns num value SETup CFERror CONFidence lt sp gt lt num value gt PCT L gt returns num value Bv Command STATe s lt sp gt 1 ON 0 OFF L gt returns 1 0 L s LEVel Sp num value gt PCT gt L returns num value REQuirement lt sp gt lt num value j RATio amp returns num value gt Complex Command 351 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_cfer fm SETup CFERror SETup CFERror CONTinuous Function Sets queries the trigger arm state for the FER frame error rate measurement The trigger arm state determines whether the waveform quality measurement will be made once then stop 0 OFF single or automa
466. test set is in a certain state 165 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 prog sync gen fm Test System Synchronization Overview Commands used for synchronization CALL STATus STATe on page 279 This command queries the test set s current call processing state This command supports synchronization method five See Call Processing State Query on page 155 CALL STATus STATe on page 279 This command determines the connected idle state of a call A feature called the change detector provides the user with a way to hold off the response to this query until a call processing state transition has taken place See Connected Idle Query on page 156 This command supports synchronization method five DONE and OPC These specialized commands can be appended to call processing overlapped commands to support synchronization method three See Call Processing Subsystem Overlapped Command Synchronization Commands on page 160 WAIT This specialized command can be appended to call processing overlapped commands to support synchronization method two See Call Processing Subsystem Overlapped Command Synchronization Commands on page 160 SSEQ This specialized command can be appended to call processing overlapped commands to support synchronization method one See Call Processing Subsystem Overlapped Command Synchronization Commands on page 160 INITiate DONE on page 324 This speci
467. the STATus QUEStionable CALL DIGital136 register 3 8 AMPS Summary bit This bit is the summary message bit for the STATus QUEStionable CALL AMPS register 2 4 GSM Summary bit This bit is the summary message bit for the STATus QUEStionable CALL GSM register 1 2 COMMon Summary bit This bit is the summary message bit for the STATus QUEStionable CALL COMMon register 0 1 Extension Bit This bit is always 0 Program Example STATus QUEStionable CALL Condition Register Bit Assignment OUTPUT 714 STATUS QUESTIONABLE CALL EVENT Queries and clears the Questionable ICall Event Register OUTPUT 714 STATUS QUESTIONABLE CALL CONDITION Queries and clears the Questionable Call Condition Register OUTPUT 714 STATUS QUESTIONABLE CALL ENABLE 1024 Sets the Questionable 392 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status questionable fm OUTPUT 714 OUTPUT 714 t STATUS QUESTIONABLE CALL PTRANSITION 2 STATUS QUESTIONABLE CALL NTRANSITION 2 STATus QUEStionable Call Enable Register for bit 10 ISets the Questionable Call Negative Transition Filter Register for bit 1 ISets the Questionable Call Positive Transition Filter Register Ifor bit 1 STATus QUEStionable CALL CDMA Condition Register Bit Assignment The STATus QUEStionable CALL CDMA registers will contain information about which event s occurred during call processing that indicat
468. the F Sync Channel Forward SYNC 0 0 0 eens 62 Settable F Sync Parameters ais eee dS OR eerren hoe Ee 62 Fixed Funes Parameters 6nd cbc gk ede ee ee chee dance E Ed RETRO ARR dC dace 62 OIDE E 9 6 a he ee ee ee 62 Related OG ok sa yard d Ea ve AN ee RU ROC ANC N CH dr d ap app qae ded qd 62 Programming Getting Started Guide for cdma2000 Mobile Test 63 Introd ton sre srens aos ae a eee enn ECT RTL QD eee Re eee ei eee es 64 Conventions used in this Getting Started Guide 00 cee cee eee 64 How to use this Getting Started Guide eee ees 64 TEIL OG D SB soa acude ee KEE ERE ones qe dE EE e ad ea Ded OE Ro E 65 About the Programming Examples Presented in this Guide 65 P M PENIS 66 Establishing an Active Link with the Mobile Station llli ee eee 67 Making a Mobile Station Originated Call lleeeeeeeeen 67 Making a Base Station Originated Call eee eens 67 BEIGE ee ee eee ee eee ee re ee Eel eee ee ee ee ee 67 Performing a Handoff 6 siya uc a a OCA tat Sane Cane wre hee d A d Oud ce ee 68 Makmg a Handolf 12293 434 ped ic bed qd dq ed d d dE dod Udo o dd d ded 68 Related IO 4 4 d a dk dodici ae dace do pere do ee Cao SCR o d bd S RR dE did o acd 68 Performing a Registration isse eese dE G EX RERO ORA NE Red 69 Registering a Mobile Station oink dk ondes OA ER ACRORCRC REE eee Ee On 6
469. the mobile station This query returns a comma separated string of any combination of 1 2 3 4 5 or null Query Range 1 2 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY FCHANNEL REVERSE RCONFIG 220 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib call ms reported cap fch fm CALL MS REPorted QUERy CALL MS REPorted QUERy CALL MS REPorted CAPability s QUERy Diagram Conventions on page 171 CALL MS REPorted CAPability QUERy Function This command causes the test set to obtain the queriable mobile station capability results This command is only applicable to active cell mode in the IS 2000 system Query N A RST Setting N A Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY QUERY obtains queriable mobile station capability results from the mobile station 221 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib call ms reported cap query fm CALL MS REPorted SCHannel FORWard CALL MS REPorted SCHannel FORWard gt CALL MS REPorted CAPability SCHannel FORWard a gt returns YES NO UNKN L SUPPort 1 CONVolution gt YES NO gt IS SUPPort UNKN gt DRATel returns gt MAXimum string gt DRATe2 gt returns s MAXimum string _ L gt COUNt
470. the mobile station s capability to support forward supplemental channel radio configurations as reported by the mobile station This query returns a comma separated string of any combination of 3 4 5 or null Query Range 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD RCONFIG CALL MS REPorted CAPability SCHannel FORWard TURBo SUPPort Function This query only command returns the mobile station s capability to support the forward supplemental channel turbo coder as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD TURBO SUPPORT CALL MS REPorted CAPability SCHannel FORWard TURBo DRATe1 MAXimum Function This query only command returns the mobile station s maximum turbo coder data rate on the forward supplemental channel for rate set 1 as reported by the mobile station Query Range BPS9600 BPS19200 BPS76800 BPS153600 BPS307200 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL FORWARD TURBO DRATE1 MAXIMUM 224 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_sch_forw fm CALL MS REPorted SCHannel FORWard CALL MS REPorted CAPability SCHannel FORWard TURBo DRATe2 MAX
471. the summary message bit for the STATus OPERation NMRReady DIGital2000 register 6 64 DIGital95 Summary bit This bit is the summary message bit for the STATus OPERation NMRReady DIGital95 register 5 32 TA136 Summary bit This bit is the summary message bit for the STATus OPERation NMRReady TA136 register 4 16 DIGITAL136 Summary bit This bit is the summary message bit for the STATus OPERation NMRReady DIGITAL136 register 376 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_operation fm STATus OPERation Bit Binary Condition Description Number Weighting 3 8 AMPS Summary bit This bit is the summary message bit for the STATus OPERation NMRReady AMPS register 2 4 GSM Summary bit STATus This bit is the summary message bit for the OPERation NMRReady GSM register 1 2 COMMON Summary bit This bit is the summary message bit for the STATus OPERation NMRReady COMMon register 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation NMRReady OUTPUT 71 OUTPUT 71 OUTPUT OUTPUT OUTPUT STATUS OPERATION NMRREADY EVENT STATUS STATUS STATUS STATUS OPERATION NMRREADY OPERATION NMRREADY CONDITION OPERATION NMRREADY ENABLE 16 OPERATION NMRREADY NTR 2 PTR Queries the New Measurement IResults Ready Event Register Queries Results the New Measurement
472. the summary message bit for the summary STATus QUEStionable HARDware register 10 1024 QUEStionable CALL summary This bit is the summary message bit for the STATus QUEStionable CALL register 9 512 Reserved for future use This bit is always 0 8 256 Reserved for future use This bit is always 0 7 128 Reserved for future use This bit is always 0 6 64 Reserved for future use This bit is always 0 5 32 Reserved for future use This bit is always 0 4 16 Reserved for future use This bit is always 0 3 8 Reserved for future use This bit is always 0 2 4 Reserved for future use This bit is always 0 1 2 QUEStionable ERRors summary This bit is the summary message bit for the STATus QUEStionable ERRors register 0 1 Reserved for future use This bit is always 0 Program Example STATus QUEStionable Register Bit Assignments OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT STATUS QUEST STATUS QUEST STATUS QUEST STATUS QUEST STATUS QUEST IONABLE EVENT IONABLE ENABLE IONABLE CONDITION IONABLE NTRANSITION 2 IONABLE PTRANSITION 2 Queries and clears the Questionable Event IRegister IQueries and clears the Questionable Condition IRegister Sets the Questionable Enable Register for bit 10 ISets the Questionable Negative ITransition Filter Register for Sets the Questionable Positive ITransition Filter Register
473. tically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP CFERROR CONTINUOUS OFF Sets the FER measurement to single trigger mode SETup CFERror COUNt MAXimum Function The setting form of this command sets the maximum frame count parameter for frame error rate measurements If the confidence level parameter is off the FER frame error rate measurement will continue until the maximum frame count is reached If the confidence level parameter is on and the FER measurement reaches max frames the FER measurement will return the string value Max Frames see FETCh CFER ALL The query form returns the maximum frame count parameter Setting Range 25 to 10 000 000 Query Range 25 to 10 000 000 RST Setting 10 000 Programming Example OUTPUT 714 SETUP CFERror COUNT 10000 Isets the maximum frames value to 10 000 Diagram Conventions on page 171 352 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib setup cfer fm SETup CFERror TIMeout STIMe SETup CFERror Function The setting form of this command performs two functions 1 sets the FER frame error rate measurement s timeout value and 2 sets the FER measurement s timeout STATe to 1 on The query form returns the FER measurement s t
474. tion reads condition register gt ENABle Sp num value writes to enable register gt reads enable register NTRansition sp num value writes to Negative Transition Filter registerj 3 reads Negative Transition Filter register PTRansition sp num value writes to Positive Transition Filter register reads Positive Transition Filter register S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status questionable fm STATus QUEStionable e STATus QUEStionable ERRors a gt reads event register L gt EVENt 1 CONDition reads condition register 5 ENABle sp num value writes to enable register 2 reads enable register gt NTRansition lt sp gt lt num value writes to Negative Transition Filter regis ter L gt reads Negative Transition Filter register gt PTRansition sp num value writes to Positive Transition Filter register z reads Positive Transition Filter register rs STATus sQUEStionable ERRors AMPS reads event register ls EVENt gt CONDition reads condition register gt ENABle sp num value writes to enable register reads enable register NTRansition sp num value writes to Negative Transition Fi
475. tion Filter register reads Positive Transition Filter register gt STATus QUEStionable CALL reads event register L gt EVENt gt CONDition reads condition register gt ENABle sp num value writes to enable register 7 reads enable register gt NTRansition lt sp gt lt num value writes to Nega tive Transition Filter register gt reads Negative Transition Filter register PTRansition Sp num value writes to Positive Transition Filter register gt reads Positive Transition Filter register 385 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_status_questionable fm STATus QUEStionable STATus QUEStionable CALL CDMA STATus sQUEStionable CALL TA2000 386 gt reads event register a EVENt ij m gt CONDition reads condition register gt ENABle sp num value writes to enable register gt reads enable register NTRansition sp num value writes to Negative Transition Filter register reads Negative Transition Filter register gt PTRansition sp num value writes to Positive Transition Filter register reads Positive Transition Filter register NP reads event register n EVENt i gt CONDi
476. tion Number is reported by the mobile station If paging MNC is reported by the mobile station and there are fewer digits than expected the test set will assume leading zeroes Setting Range 2 digit string Query Range 2 digit string RST Setting 00 OUTPUT 714 CALL PAGING IMSI MNC Programming Example ttm CALL PAGing IMSI MSIN Function Sets queries the mobile country code This parameter will be overwritten when a new MSIN Mobile Station Identification Number is reported by the mobile station If paging MSIN is reported by the mobile station and there are fewer digits than expected the test set will assume leading zeroes Setting Range 10 digit string Query Range 10 digit string RST Setting 5099214001 OUTPUT 714 CALL PAGING IMSI MSIN sets the paging IMSI MSIN to 5099213572 Programming Example 5099213572 245 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_paging fm CALL PAGing CALL PAGing LEVel SELected Function Sets queries the paging level The optional SELected keyword in this command specifies that the frequency band being set queried applies to the current system type Setting Range 0 to 20 dB Query Range 0 to 20 dB NAN RST Setting 12 dB Programming Example OUTPUT 714 CALL PAGING LEVEL SELECTED 10 CALL PAGing SCINdex MAXimum Function Sets queries the
477. tions IQ first modulator calibration X IQ modulator calibration in progress X represents the percent complete IQ second modulator calibration X IQ modulator calibration in progress X represents the percent complete 480 S Hp8960 E1962B CDMA 20003 1 reference guideXChaptersicdma2000 ts err msg mui fm 400 through 499 Error Message Descriptions 400 through 499 Error Message Descriptions Description A Query error is generated either when data in the instrument s GPIB output queue has been lost or when an attempt is being made to read data from the output queue when no output is present or pending Error Message Description 400 Query error This event bit Bit 2 indicates that an attempt to read data from the Output Queues when no output is present or pending to data in the Output Queue has been lost see IEEEA488 2 11 5 1 1 7 410 Query INTERRUPTED Indicates the test set has been interrupted by a new program message before it finishes sending a RESPONSE MESSAGE see IEEE 488 2 6 3 2 3 420 Query UNTERMINATED Indicates an incomplete Query in the program see TEEE 488 2 6 3 2 2 430 Query DEADLOCKED Indicates that the Input Buffer and Output Queue are full see IEEE 488 2 6 3 1 7 440 Query UNTERMINATED after indefinite response Indicates that a query was received in the same program message after a query requesting an indefinite respo
478. tring Programming Example OUTPUT 714 SYSTEM APPLICATION SELECT REVISION CDMA 2000 MOBILE TEST 01011210 OUTPUT 714 SYSTEM APPLICATION SELECT REVISION CDMA 2000 MOBILE TEST Related Topics Test Application Switching on page 528 Test Application Revisions and Licenses on page 530 Test Application Name on page 532 SYSTem CURRent TA on page 430 418 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib system application fm SYSTem BEEPer SYSTem BEEPer SYSTem i BEEPer STATe gt lt sp gt 1 ON 0 OFF returns 1 0 Diagram Conventions on page 171 SYSTem BEEPer STATe Function Sets queries the beeper state of the test set Setting 0 OFF 1 ON Query 0 1 RST Setting 1 on Related Topics Test Set Beeper Programming Example OUTPUT 714 SYSTEM BEEPER STATE OFF Sets beeper state to off 419 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_system_beeper fm SYSTem CONFigure INFormation HARDware VERBose SYSTem CONFigure INFormation HARDware VERBose SYSTem CONFigure gt INFormation gt HARDware VERBose Diagram Conventions SYSTem CONFigure INFormation HARDware VERBose Function Query the manufacturer model number model number of the test application running serial number revision board ID and cal file information The information provided by the quer
479. ture to stabilize 2 Channel power calibration failed due to oven temperature out of range e 3 Channel power calibration failed due to loopback switch problem e 340 Calibration failed Programming Example OUTPUT 714 CALIBRATION CPOWer Initiates the IF level calibration process and queries the pass fail result CALibration DAPower Function Initiates digital average power measurement calibration RF power must not be applied to the test set s front panel RF IN OUT connector during calibration Digital average power measurement calibration will take about 10 minutes Power must be cycled when digital average power measurement calibration has completed No other GP IB commands are processed until this calibration has completed Query Range e 0 Calibration passed 1 Digital average power calibration failed due to temperature drift Wait for temperature to stabilize 2 Digital average power calibration failed due to oven temperature out of range 3 Digital average power calibration failed due to loopback switch problem e 340 Calibration failed Programming Example OUTPUT 714 CALIBRATION DAPower Initiates the digital average power measurement calibration process and queries the pass fail result 182 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_calibration fm CALibration IQ 1 CALibration Function Sets queri
480. turns TERROE 5 returns returns Integrity Rho a Time Error Carrier Feedthrough Phase Error num value num value num value num value num value num value num value num value num value L ICHannel 5 p FAIL gt ALL j Ls COUNt returns 64 comma separated values Is BIN lt sp gt lt bin num returns 4 comma returns 0 1 gt QCHannel gt ALL i COUNt Y BIN returns 64 comma separated values c BIN sSp bin num returns 4 comma SE BIN _ FETCh WQuality Frequency Error separated values returns num value Separated values gt returns num values 312 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_fetch_wdquality fm FETCh WQUality FETCh WQUality CDPNoise IQNoise returns 0 1 5 FAIL T L gt ICHannel returns 64 comma separated gt ALL values I gt BIN lt sp gt lt bin num returns 4 comma separated values ls a ES T returns num value gt ler BIN Ls QCHannel returns 64 comma separated gt ALL j values BIN sSp bin num s returns 4 comma separated values gt COUNt returns num value p BIN FP Diagram Conventions on page 171 31
481. tus Area Description The Instrument status area is found on the bottom center of the test set s display Figure 11 Status Area of the Test Set Display LOO Wo T 1 smit ExtRef Of amp et RETS jJ Background Users are able to initiate more than one measurement at a time with the test set The test set s display will show a maximum of 2 measurements When 3 or more measurements are initiated or the MEASUREMENT screen is not displayed the Background annunciator reminds you that measurements are active but not displayed Operating Mode Status The call processing status and the operating modes are displayed in this area This area may change depending on the TA that is active in order to provide TA specific information Shift This annunciator indicates that the blue SHIFT key has been pressed and that the next key you press will perform the shifted function indicated also in blue Ext Ref When a suitable external time base is connected to the rear panel 10M Hz REF IN connector this annunciator will turn on Int Ref When a suitable external time base is not connected to the rear panel 10MHz REF IN connector this annunciator will turn on Offset Indicates that the Amplitude Offset state is set to On 462 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 gen inst status fm Instrument Status Area RLTS This annunciator indicates the state of four different conditions
482. ty to support the reverse supplemental channel turbo coder as reported by the mobile station uery ange Q R YES NOJUNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE TURBO SUPPORT CALL MS REPorted CAPability SCHannel REVerse TURBo DRATe1 MAXimum Function This query only command returns the mobile station s maximum turbo coder data rate on the reverse supplemental channel for rate set 1 as reported by the mobile station Query Range BPS9600 BPS19200 BPS76800 BPS153600 BPS307200 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE TURBO DRATE1 MAXIMUM 228 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_cap_sch_rev fm CALL MS REPorted CAPability SCHannel REVerse CALL MS REPorted CAPability SCHannel REVerse TURBo DRATe2 MAXimum Function This query only command returns the mobile station s maximum turbo coder data rate on the reverse supplemental channel for rate set 2 as reported by the mobile station Query Range BPS14400 BPS28800 BPS57600 BPS230400 UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY SCHANNEL REVERSE TURBO DRATE2 MAXIMUM 229 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_ms_reported_
483. uency state 1 20 Frequency 1 20 e Offset state 1 20 Offset 1 20 NOTE Frequency and offset values must be set independently It is not necessary to use all 20 offsets or frequencies RF IN OUT Amplitude Offset State The RF IN OUT Amplitude Offset State can be changed to On by setting any of the 20 offsets or frequencies to the On state The RF IN OUT Amplitude Offset State can also be turned On or Off independently of the frequency or offset state When the RF IN OUT Amplitude Offset State is On the Offset indicator will appear in the Instrument Status Area of the test set display If the RF IN OUT Amplitude Offset State is Off none of the amplitude offsets are active even if the states of the individual offsets are set to On Remote User To set the RF IN OUT Amplitude Offset State to On OUTPUT 714 SYSTEM CORRECTION STATE ON Sets the RF IN OUT lAmplitude Offset State to On Manual User In order to manually set the RF IN OUT Amplitude Offset State go to the SYSTEM CONFIG screen and press the RF IN OUT Amptd Offset key F5 Amplitude offset loss gain and state settings are found by pressing the RF IN OUT Amptd Offset Setup key F2 RF IN OUT Amplitude Offset State is the first parameter in the RF IN OUT Amplitude Offset Setup menu When any of the 20 frequencies or offsets are manually set to On the RF IN OUT Amplitude Offset State is also set to On 45 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicd
484. ultaneously Complex commands can be used to save programming steps and minimize GPIB bus transactions The syntax below turns the state of the parameter on OUTPUT Test_set SET CPOW TIM STAT ON The syntax below is used to assign a value to the parameter OUTPUT Test_set SET CPOW TIM TIME 10 S Both of the above actions can be accomplished with one syntax command OUTPUT Test_set SET CPOW TIM STIM 10 S The command above sets the parameter state to ON and the value of the parameter to 10 seconds Note that in this example the optional command mnemonic STIMe has been included to clarify that this complex command was used to set both the state and the value This command can be shortened further by removing the optional command mnemonic STIMe as shown below OUTPUT Test_set SET CPOW TIM 10 S This is the format that will be used throughout this guide 66 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_getting_started_flowchart_ac fm Establishing an Active Link with the Mobile Station Establishing an Active Link with the Mobile Station Making a Mobile Station Originated Call See MS initiated connection on page 76 Making a Base Station Originated Call See Test Set initiated connection on page 76 Related Topics How Do I Set Up a Call on page 445 67 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog call setup fm Performing a Handoff Performi
485. ults This bit is a zero at power on after a preset and while a measurement is in Measuring States See Triggering of Measurements on page 140 0 1 Extension Bit This bit is always 0 Program Examples STATus OPERation NMRReady CDMA OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT 714 STATUS 714 STATUS 714 STATUS 714 STATUS 714 STATUS OPERATION NMRREADY OPERATION NMRREADY OPERATION NMRREADY OPERATION NMRREADY OPERATION NMRREADY CDMA EVENT CDMA ENABLE 8 Queries the New Measurement IResults Ready CDMA Event Register CDMA CONDITION Queries the New Measurement Results Ready CDMA Condition Register Sets New Measurement Results Ready CDMA Enable Regigter Ifor bit 3 CDMA NTR 2 Sets the New Measurement Results IReady CDMA Negative Transition CDMA PTR 4 IRegister for bit 1 Sets the New Measurement IResults Ready CDMA Positive ITransition Register for bit 2 379 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChaptersicdma2000 hpib status operation fm STATus OPERation STATus OPERation NMRReady COMMon Register Bit Assignments The STATus OPERation N MRReady COMMon register bits indicate when a measurement has been completed and new measurement results are available Bit Binary Condition Description Number Weighting 15
486. ummary 5 STATUS DiGital 95 Summary 6 QUESTIONABLE DIGital 95 Summary 6 QUESTIONABLE DIGital 2000 Summary 7 DIGital 2000 Summary 7 CDMA Summary 8 CDMA Summary 8 TA 2000 Summary 9 TA 2000 Summary 9 STATUS OPERATION CALL STATUS OPERATION NMRREADY Extension Bit 0 Extension Bit 0 COMMon Summary 1 COMMon Summary 1 GSM Summary 2 GSM Summary 2 AMPS Summary 3 AMPS Summary 3 DiGital 136 Summary 4 Bit 10 DIGital 136 Summary 4 Bit 9 TA136 Summary 5 STATUS TA136 Summary 5 STATUS DiGital 95 Summary 6 OPERATION DIGital 95 Summary 6 OPERATION DIGital 2000 Summary 7 DIGital 2000 Summary 7 CDMA Summary 8 CDMA Summary 8 TA 2000 Summary 9 TA 2000 Summary 9 122 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview Status Reporting Structure For STATus OPERation KEYPressed Register STATUS OPERATION KEYPRESSED F1 softkey F2 softkey F3 softkey F4 softkey F5 softkey F6 softkey F7 sofkey F8 softkey F9 softkey F10 softkey F11 softkey F12 softkey OPERATION 0 1 2 3 4 5 6 7 8 9 h lt C5 123 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview Status Reporting Structures For The COMMon Registers STATUS QUESTIONABLE ERRORS COMMON STATUS OPERATION CALL COMMON Extension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 60
487. undamental Traffic Channel June 15 2001 The F FCH traffic channel parameters are configured using the following call processing subsystem functions and commands Settable F FCH Parameters e F FCH level e F FCH state e F FCH Walsh code call status state must be idle e F FCH data rate see CALL TRAFfic DRATe GPIB Examples Setting the F FCH level and state complex command OUTPUT 714 CALL FCH 10 DB would set the F FCH state to on and set the F FCH power level to 10 dBm See CALL FCHannel SLEVel SELected Setting the F FCH Walsh code OUTPUT 714 CALL FCH WALSH CODE14 would set the F FCH Walsh code to 14 See CALL FCHannel WALSh Operating Considerations The terms traffic and fundamental channels are used interchangeably within IS 2000 Commands that control parameters for either code channel control both For instance setting the data rate using the CALL TRAFfic commands set the data rate for the fundamental channel When changing F FCH Walsh codes the call processing state must be idle If the data rate is changed while an echo service option is selected the data rate value will be stored for use when a loopback service option is selected Parameters can be queried from the test set regardless of the state of the test set Related Topics CALL FCHannel CALL TRAFfic How Do I Change Call Parameters 54 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters
488. up FSTability SETup gt FSTability 5 CONTinuous lt Sp gt 1 ON 0 OFF Ls returns 1 0 3 L gt COUNt lt sp gt lt num value L SNUMber 3 returns num value BR Command L NUMBer Sp num value gt L gt returns num value gt L STATe lt sp gt 1 ON 0 OFF 5 L gt returns1 0 SETup FSTability gt TIMeout 7 lt sp gt lt num value gt s MS US NS gt STIMel _ 9 returns num value W e Command 18TATe sp 1 ON 0 oFF L gt returns1 0 TIME Sp num value S MS US NS gt 3 returns num value Diagram Conventions on page 171 356 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_setup_fstability fm SETup FSTability CONTinuous SETup FSTability Function Sets queries the trigger arm state for the frequency stability measurement Determines whether measurement will make one measurement then stop 0 OFF single or automatically rearm upon completion of one measurement and repeat the process 1 ON continuous Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 SETUP FSTABILITY CONTINUOUS ON Sets measurement to continuous trigger mode SETup FSTability COUNt SN
489. up WQUality subsystem Start the digital average power measurement using the INITiate subsystem Use the INITiate DONE command to determine when the FER measurement has finished Use the FETCh WQUality command to obtain waveform quality measurement results a CU A C Use the FETCh WQUality command to obtain code domain power measurement results Programming Example Not available at the time of this printing Returned Values This program returns e Waveform quality measurement results in the following order integrity rho frequency error time error carrier feedthrough phase error magnitude error and error vector magnitude EVM Code domain power measurement pass fail results measurement results in the following order integrity rho frequency error time error carrier feedthrough phase error magnitude error and error vector magnitude EVM Related Topics Waveform Quality Code Domain Measurement Description on page 40 Waveform Quality Measurement Troubleshooting on page 473 Control Program Example on page 1 115 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog wquality fm Preset Descriptions Preset Descriptions Description The test set is capable of accepting several different preset commands At no time during a preset operation does transmit power exceed the last user setting of the transmit power The input power is not s
490. urement they indicate the validity of the measurement Measurement integrity indicators are read with the FETCh command Non Persistent Errors These messages are generated when a condition occurs that is incorrect but has no serious or long lasting effect on the test set s operation Examples could include an out of range value to a parameter or an invalid GPIB mnemonic The message window is cleared when any front panel key is pressed Persistent Errors These errors are generated when a non transitory error condition exists Persistent errors occur when a hardware failure is found or when damage or injury to a person or the test set may occur The test set displays these errors in the error message window and as a prompt at the bottom of the display screen where it remains until the error condition no longer exists Fatal Errors When these errors occur no further operation of the test set is possible without cycling the power switch Fatal errors are not saved in the error message log The test set display will provide the user with information about what to do next and some details about what the test set was doing when the fatal error occurred Maskable Messages These messages are intended to inform the user of a condition within the test set They are generally meant to provide information to the user The user will need to decide if this condition is undesirable and if they want the message to appear Maskable Message Display State The Mas
491. urn to the idle call processing state Programming Example OUTPUT 714 CALL ORIGINATE pages the mobile station CALL ORIGinate DONE Function See Call Processing Event Synchronization Query Range 1 0 Programming Example OUTPUT 714 CALL ORIGINATE DONE CALL ORIGinate OPComplete Function See Call Processing Event Synchronization Query Range 1 Programming Example OUTPUT 714 CALL ORIGINATE OPCOMPLETE CALL ORIGinate SEQuential Function See Call Processing Event Synchronization Programming Example OUTPUT 714 CALL ORIGINATE SEQUENTIAL CALL ORIGinate WAIT Function See Call Processing Event Synchronization Setting Range Programming Example OUTPUT 714 CALL ORIGINATE WAIT 242 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_originate fm CALL PAGing CALL PAGing gt CALL gt PAGing 7 lt sp gt lt num value gt DB L gt SLEVel1 SELected s gt returns num value Complex Command DIGital2000 gt DRATe lt Sp gt HALF FULL returns HALF FULL LS IMSI _s Typ E ________s lt sp gt ALL MCMS MNMS MSIN Be returns ALL MCMS MNMS MSIN Ls MCCode gt lt sp gt lt string gt
492. usts OCNS orthogonal channel noise simulator to an appropriate level for the periods of time when the slotted QPCH signal is pulsed on When QPCH is pulsed off the output level will not be fully calibrated Setting Range 1 ON 0 OFF Query Range 1 0 RST Setting 0 off Programming Example OUTPUT 714 CALL QPCHANNEL STATE ON Turns on the quick paging channel 257 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_call_qpchannel fm CALL CELL RCONfig CALLI CELL RCONfig CALL 4X 5 RCONf ig gt lt Sp gt F1R1 F2R2 F3R3 F4R3 F5R4 L gt CELL gt returns F1R1 F2R2 F3R3 F4R3 F5R4 Diagram Conventions on page 171 CALL CELL RCONfig Function Sets queries the current radio configuration The radio configuration specifies the base data rate and service options supported Data rates for the F FCH can be set using the CALL TRAFfic commands Data rates for the F SCH can be set using the CALL SCHannel commands Radio configurations are often referred to in a shorthand terms These terms are e RC1 for F1R1 RC2 for F2R2 RC3 for F3R3 RCA for FAR3 RC5 for F5R4 Setting Range F1R1 F2R2 F3R3 F4R3 F5R4 Query Range F1R1 F2R2 F3R3 F4R3 F5R4 RST Setting F38R3 Programming Example OUTPUT 714 CALL CELL RCONFIG F1R1 Sets the radio configuration to RC1 258 S Hp8960
493. ut the test set in ASCII format IDN returns ASCII codes 32 through 126 excluding comma and semicolon in four comma separated fields Field 1 returns the manufacturer field 2 returns the instrument model number field 3 returns the serial number field 4 returns 0 OPC The OPC operation complete command is defined in IEEE 488 2 1992 10 18 OPC causes the test set to continuously sense the No Operation Pending flag When the No Operation Pending flag becomes TRUE the OPC event bit in the standard event status register ESR is set to indicate that the state of all pending operations is completed The OPC common command is not recommended for use as an overlapped command OPC The OPC operation complete query is defined in IEEE Std 488 2 1992 10 19 The OPC query allows synchronization between the controller and the test set using either the message available MAV bit in the status byte or a read of the output OPC The OPC query does not effect the OPC event bit in the Standard Event Status Register ESR The OPC common command is not recommended for use as an overlapped command OPT The OPT option identification query is defined in IEEE Std 488 2 1992 10 20 Each option will have a unique name that name will be retuned with the query 437 S Hp8960 E1962B CDMA 20003 1 reference guide XChapterscdma2000 hpib common fm IEEE 488 2 Common Commands RST The RST full preset command
494. vironment the above ENTER statement will fail with an Insufficient data for ENTER error Some programming languages Basic for example cannot use the semicolon character as a data item terminator for string variables In this example Basic will attempt to enter data into Imsi until it sees a LF line feed data item terminator The test set does not send the LF until all the data has been sent Consequently when Basic sees the LF it terminates entry of data into Imsi and starts to look for data to enter into Pcl Since the test set is no longer sending any data the error message Insufficient data for ENTER is generated 151 S Hp8960 E1962B CDMA 20003 1 reference guideXChapterscdma2000 prog gen compound fm Dealing With Semicolon Separated Response Data Lists One possible workaround is to enter all the data into a single string variable replace all semicolons with line feeds and then enter the data from the string into the individual data items For example DIM Response 500 OUTPUT 714 CALL MS REP IMSI PCL REV SBAN ONUM MCC MNC LAC ENTER 714 Responses Semicolon POS ResponseS WHILE Semicolon Response Semicolon Semicolon CHR 10 Semicolon POS ResponseS END WHILE ENTER Response Imsi Pcl Rev Sban Onum Mcc Mnc La Semicolon Separated Response Data Lists Containing Only Numeric Data Types Semicolon separated response data lists containing only numeric data types do no
495. voltage to 2 1 volts 178 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_afgenerator fm AFGenerator AFGenerator VOLTage AMPlitude Function Sets queries the amplitude for the audio generator when the audio generator state is on The units V mV are optional If no units are specified then units default to V Setting Range 0 to 9 V pk Resolution e 0 5 mV pk lt 1 V pk output 5 mV pk 1 V pk output Query Range 0 to 9 V pk Resolution e 0 5 mV pk lt 1 V pk output 5 mV pk 1 V pk output RST setting 0V Programming Example OUTPUT 714 AFGENERATOR VOLTAGE AMPLITUDE 1 414 Sets the audio generator output voltage to 1 414 volts peak AFGenerator VOLTage STATe Function Sets queries the audio generator state Setting 0 OFF 1 ON Query 0 1 RST setting 0 off Programming Example OUTPUT 714 AFGENERATOR VOLTAGE STATE ON Set the audio generator state to ON 179 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_afgenerator fm CALibration Subsystem CALibration Subsystem Description There are three calibrations that must be performed periodically on the test set Q calibration This calibration is required if the Baseband Generator or the Vector Output modules are serviced or swapped The CALibration IQ subsystem should not be used as part of fre
496. x Diagram and Command Descriptions ABORt 173 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib abort description fm ABORt ABORt ABORt S ALL o CAPPower N CEEREFOI CPOWer FSTability EN Ls ee DAPower J Lx Ls WQUal ity z Diagram Conventions on page 171 174 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_hpib_abort fm ABORt ABORI ALL Function Stops all measurements that are active If the trigger arm is set to single the measurements will go to the idle state If the trigger arm is set to continuous the measurements will re arm and initiate again Setting Range e CAPPower Access Probe Power measurement e CPOWer Channel Power measurement e CFERror Frame Error Rate measurement DAPower Digital Average Power measurement FSTability Frequency Stability measurement e WQUality Waveform Quality measurement Programming Example OUTPUT 714 ABORT ALL Aborts all active measurements in progress ABORt lt meas mnemonic gt Function Stops the selected measurement if it is active If the trigger arm is set to single the measurements will go to the idle state If the trigger arm is set to continuous the measurements will re arm and initiate again Setting Range e CAPPower Access Probe Power measurement e CFERror Frame Error Rate measurement e CPOW
497. xtension Bit 100 Messages 200 Messages 300 Messages 400 Messages 500 Messages 600 Messages 700 Messages 800 Messages 900 Messages Bit 9 STATUS QUESTIONABLE ERRORS OONOUR WD O amp O STATUS QUESTIONABLE CALL TA 2000 Extension Bit Release order not received Bit 9 Handoff completion not received STATUS Carrier not detected on new channel QUESTIONABLE MS reject order received CALL STATUS OPERATION NMRREADY TA 2000 Reserved for future use Reserved for future use Bit 9 Reserved for future use STATUS Reserved for future use OPERATION NMRREADY 132 S Hp8960 E1962B CDMA 2000 3 1_reference_guide Chapters cdma2000_prog_status_reg fm Status Subsystem Overview Status Data Structure Register Model The generalized status register model consists of a Condition Register Transition Filters an Event Register an Enable Register and a Summary Message Bit Event Register Negative Transition Filter E Latched Conditions Positive Transition Filter Event Enable Redist Condition Reaist vent Enable Register es al I Selects which Events can set the Summary Message Bit gt Test Set States Continuously Monitored Positive and Negative Transition Filters select Logical OR Summary Message Bit which transitions of Condition Bits will set corresponding Event Bits 133 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 prog status reg fm Status Subsystem Overview Con
498. y represents the configuration that existed when the test set was powered up RST Setting Resets have no effect on this information The information is gathered during the power up cycle Related topics Hardware Configuration Report Programming Example OUTPUT 714 SYSTEM CONFIGURE INFORMATION HARDWARE VERBOSE Queries system hardware 420 S Hp8960 E1962B CDMA 2000V3 1 reference guideXChapterscdma2000 hpib system conf fm SYSTem COMMunicate SYSTem COMMunicate SYSTem COMMunicate gt GPIB x gt ADDRess gt lt sp gt lt num value SELF gt returns num value gt DEBug 4 nT gt lt sp gt 1 ON 0 OFF b STATe returns 1 0 gt LAN _ AT gt ADDRess gt lt sp gt lt string gt gt gt SELF ME returns string 34 gt DGATeway gt gt lt sp gt lt string gt gt returns string gt SMASk gt lt sp gt lt string gt L gt returns string Diagram Conventions on page 171 SYSTem COMMunicate GPIB SELF ADDRess Function Sets queries the test set s GPIB address Setting Range 0 to 30 Resolution 1 Query Range 0 to 30 Resolution 1 Factory 14 this parameter is not affected by any reset operation and can only be changed by direct user setting access Related Topics Configuring the Test Set s GPIB on page 527 Programming Example OUTPUT 714 SYSTEM CO
499. y FCHannel CALL MS REPorted CAPability FCHannel SUPPort Function This query only command returns the mobile station s capability to support a fundamental channel as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY FCHANNEL CALL MS REPorted CAPability FCHannel FRAMe MS5 SUPPort Function This query only command returns the mobile station s capability to support a fundamental channel with 5 ms frames as reported by the mobile station Query Range YES NO UNKN RST Setting UNKN Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY FCHANNEL FRAME MS5 SUPPORT CALL MS REPorted CAPability FCHannel FORWard RCONfig Function This query only command returns the mobile station s capability to support radio configurations on the forward fundamental radio channel as reported by the mobile station This query returns a comma separated string of any combination of 1 2 3 4 5 or null Query Range 1 2 3 4 5 null RST Setting null Programming Example OUTPUT 714 CALL MS REPORTED CAPABILITY FCHANNEL FORWARD RCONFIG CALL MS REPorted CAPability FCHannel REVerse RCONfig Function This query only command returns the mobile station s capability to support radio configurations on the reverse fundamental radio channel as reported by
500. zation INIT DONE 153 measurement event 153 system handoffs 272 System ID SID 274 System ID manually setting 445 System Type 289 system type Index Index active cell 289 T Test Application Setup 413 Test Application Revision License 413 Test Application instrument information 430 test application hardware error 500 Test mode operating mode 51 test set configuration 452 time error FETCh command 312 timeouts 139 timer based registration 260 timer based registration state 259 Total RF Power dBm 1 23 MHz 290 Current Level 277 Traffic Data Rate 292 transmitter power 54 57 Trigger Arm 340 waveform quality 360 trigger arm digital average power 347 frequency stabiltiy 356 trigger arm 140 trigger delay 140 trigger source 140 trigger sources 140 triggering arming 142 continuous 142 delay 143 RF rise trigger source 140 SETup command 141 single 142 triggering measurements 140 turn off measurements 444 Ww waiting for trigger measurement state 142 waveform quality initiate command 322 read command 328 waveform quality code domain FETCh commands 312 waveform quality code domain measurements 40 waveform quality code domain power read command 328 SETup commands 361 waveform quality code domain power measurement ABORt command 175 waveform quality code domain power measurement programming 115 worst frequency error 306 Z zone based registrat
501. ze a controlling application with a call processing state change during a mobile station originated call When the CALL CONNECTED ARM command is received by the test set the detector becomes armed and configures the test set to hold off on returning a result for the CALL CONNECTED STATE query until the detector is disarmed by one of the three events described above 10 OUTPUT 714 CALL CONNECTED TIMEOUT 10S Sets the time out 20 time to 10 seconds 30 OUTPUT 714 CALL CONNECTED ARM Arm the change detector 40 DISP Make a mobile station orginated call Continue when done 50 PAUSE 60 OUTPUT 714 CALL CONNECTED STATE The connected idle query 70 ENTER 714 Call connected 80 IF Call connected 1 THEN 90 DISP Call is connected 100 WAIT 2 110 ELSE 120 DISP Call is not connected 130 WAIT 2 140 END IF 150 END Call State Change Detector Timeout If a state change does not occur the user needs a way to control how long to wait for the change detector The change detector is disarmed by the timeout timer After a timeout the connected idle query will return a 1 for connected or a 0 for idle The timeout timer is user settable but the user setting is only applied during mobile station originated call processing operations For base station originated call processing operations the timeout timer is automatically set to 60 seconds by the test set 157 S Hp8960 E1962B CDMA 2000V3 1 reference guideChaptersicdma20
Download Pdf Manuals
Related Search