"取扱説明書"
Contents
1. iii iv MX283027A 001 WLAN MS2830A MS2690A MS2691A MS2692A MS2830A MX283027A MX283027A 001 WLAN MX283027A 001 WLAN MX370111A MX269911A WLAN IQproducer MX283027A 001 WLAN WLAN IQproducer e2. MS2830A 020 021 SG 1 2 WLAN 7 2 BAHLMAOK 1 2 Transmit Power Average EVM SEM E
3. e e WLAN e WLAN gt WLAN e MX370111A MX269911A WLAN IlQproducer MX283027A 001 WLAN WLAN IQproducer i WLAN IQproducer II zh Uu WE 1 2 1 3 Native 14 2 SCPI
4. 2 1 1 RF Input
5. amp 1 CALCulate MARKer 1 2 SET CENTer Native O CALCulate MARKer 1 2 SET CENTer l CALCulate MARKer SET CENTer integer lt integer gt i 1 2 Q CALCulate MARKer SET CENTer integer l CALCulate MARKer CENTer lt integer gt Q CALCu1ate MARKer CENTer integer J CALC MARK CENT integer iCALC MARK CENT integer v CALC MARK CENT integer 2 SENSe BPOWer TXPower STATe Native D SENSe BPOWer TXPower STATe l
6. Preamble SENSe CWLan EVM PR mode AUTO LONG SHORt CWL EVM PRE LONG SENSe CWLan EVM PREamble Preamble Query 802 11b 802 11g DSSS SENSe CWLan EVM PREamble mode mode AUTO LONG SHOR CWLan EVM PRE gt LONG 2 24 2 3 5 PPDU Format 29 IUATASUUX MORU SENSe CWLan EVM PFORmat MIXed GREenfield PPDU Format 802 11n PPDU SENSe CWLan EVM PFORmat mode lt mode gt PPDU MTXed HT Mixed
7. 2 6 1 2 6 1 Configure CONFigure CWLan Initiate INITiate CWLan Fetch ETCh CWLan n Read Measure FI READ CWLan n MI EASure CWLan n 2 6 1 n 2 6 2 rg EA A y g SS 2 6 2 Result Mode 1 Transmit Power average dBm 2 Transmit Power max dBm 3 Pass Fail flag of Transmit Power average 4 Pass Fail flag of Transmit Power max 5 Peak PSD average dBm MHz 6 Peak PSD max dBm MHz 7 Pass Fail flag of Peak PSD average 8 Pass Fail flag of Peak PSD max 9 Power on Ramp Time average ps 1 A B 10 Power on Ramp Time max ps 11 Power down Ramp Time average us 12 Power down Ramp Time max us 13 Pass Fail flag of overall Ramp average 14 Pass Fail flag of overall Ramp max 15 Pass Fail flag of Power on Ramp average 16 Pass Fail flag of Power on Ramp max 17 Pass Fail flag of Power down Ramp
8. MX283027A 001 WLAN 2010 22 12 15 2011 23 9 H30H 4 Copyright 2010 2011 ANRITSU CORPORATION Printed in Japan ii 1
9. dH Configuration SYST LANG SCPI SCPI 2 Native SCPI 8 Native SCPI DEY Configuration SYST LANG NAT Native SYST LANG SCPT SCPI p Native VWXYZl n VWXYZ 0 BANANA eS BT a C Ceec
10. SENSe CWLan EVM DRATe mode mode AUTO 6MBP BPSK 6Mbps 9MBP BPSK 9Mbps 12MB QPSK 12Mbps 18MB QPSK 18Mbps 24MB 16QAM 24Mbps 36MB 16QAM 36Mbps 48MB 64QAM 48Mbps 54MB 64QAM 54Mbps Data Rate CWL EVM DRATe AUTO 2 22 Ag 2 3 3 Modulation SENSe CWLan EVM DEMod AUTO DSSS1 DSSS2 CC55 CC11 Modulation lt SENSe CWLan EVM DEMod mode as A mode T AUTO DSSS1 DSSS 1Mbps rs DSSS2 DSSS 2Mbps l cc55 CCK 5 5Mbps
11. CWL EVM EQU TRA SEO 2 75 Q rg EA A y E i 2B SCPIF UU AXyE TXR RH SENSe CWLan EVM TRACk AMP OFFIONIOI1 Amplitude Tracking SENSe CWLan EVM TRACk AMP switch switch OFF 0 ONI1 CWT EVM TRAC AMP ON SENSe CWLan EVM TRACk AMP Amplitude Tracking Query SENSe CWLan EVM TRACk AMP Switch Switch 0 1 CWT EVM TRAC AMP gt 1 2 76 26 WEB SENSe CWLan EVM TRACk PHASe OFF ONIO 1 Phase Tracking
12. 1 2 1 1 2 1 3 E LIE 1 2 1 AF x 3 Batch Sue E I 1 Batch Suet Hx AE E 1 2 3 Batch 3 2 2 E Sut Ax KE Ale BE 1 2 1 Ax AE Batch ARS TUT Yar CRIT T SiH EBA SUA TRI
13. SENSe CWLan TXPower TIME LENGth time time 100 0 7000 0us Burst Interval 0 1us s CWL TXP TIME LENG 0 0010000 2 89 REQ SOPI FA Ry LH SENSe CWLan TXPower TIME PSEarch OFFIONIOI1 Preamble Search Off SENSe CWLan TXPower TIME PSEarch mode mode Preamble Search OFF 0 Off ON 1 Preamble Search Preamble Search On CWL TXP TIME PSE ON SENSe CWLan TXPower TIME PSEarch Preamble Search Query Preamble Search SENSe CWLan TXPower TIME PSEarch mode mode Preamble Search 0 Off 1 Preamble Search On Preamble Search
14. STAT QUES COND gt 0 3E 9CP7 STATus QUEStionable ENABle lt integer gt Questionable Status Register Enable QUEStionable STATus QUEStionable ENABle integer integer 1 fis PR 07 65535 QUEStionable 16 STAT OUES ENAB 16 STATus QUEStionable ENABle Questionable Status Register Enable Query QUEStionable STATus QUEStionable ENABle integer integer 1 07 65535 QUEStionable STAT QUES ENAB gt 16 3 6 STATus QUEStionable STATus QUEStionable NTRansition integer
15. SYST APPL LOAD WD SYS Tem APPLication UNLoad WDEVI Unload Application EVICE CE Application Switch Config SYSTem APPLication UNLoad WDEVICE SYST APPL UNL WD EVICE Z1 2 1 2 INSTrument SELect WDEVICEICONFIG Application Switch INSTrument SELect apl name lt apl name WDEVICE CONFIG Config INST WDEVICE INSTrument SELect Application Switch Query INSTrum
16. CWL EVM FILT REF GAUS Q rg EA A y E p SENSe CWLan EVM FILTer REFerence Filter Type Query EVM SENSe CWLan EVM FILTer REFerence mode mode NONE GAUS RCOS CWL EVM FILT REF gt GAUS 2 79 BQH SOPI FN A Ry bE SENSe CWLan EVM FILTer ALPHa real Alpha BT BT SENSe CWLan EVM FILTer ALPHa real real BT f 0 3 1 0 0 1 0 5 BT 0 5 CWL EVM FILT ALPH 0 5 SENSe CWLan EVM FILTer ALPHa Alpha BT Query BT SENSe CWLan EVM FILTer ALPHa
17. CWT CAPT BURS INT gt 0 0050 SENSe CWLan CAPTure BURSt THReshold integer Burst Threshold SENSe CWLan CAPTure BURSt THReshold integer interger 07 60 dB 1 dB 30 dB 30 dB CWL CAPT BURS THR 30 2 29 A24 SOPI FN 1A Ry bE SENSe CWLan CAPTure BURSt THReshold Burst Threshold Query SENSe CWLan CAPTure BURSt THReshold integer lt integer gt 0 60 dB 1dB I CWL CAPT BURS THR 30 ea uil SENSe CWLan RADio STANdard LOAD function pattern Load Standard Parameter SENSe CWLan RADio STANdard L
18. SENSe CWLan OBWidth BWIDth RESolution freq real RBW 30 30 kHz 100 100 kHz 300 300 kHz CWL OBW BWID gt 30 2 104 26 JH SENSe CWLan OBWidth DETector FUNCtion POSitive RMS Detection OBW SENSe CWLan OBWidth DETector FUNCtion mode Q lt mode gt Z POSitive RMS RMS y t CWL OBW DET POS H SENSe CWLan OBWidth DETectorl FUNCtion Detection Query SENSe CWLan OBWidth DETector FUNCtion mode mode mode P RMS RMS CWL OBW DET gt POS 2 105 A2 SOPI FN 1A Rk LH SENSe CWLan OBWidth PERCent 99 90 Occupied Bandwidth Percent
19. SENSe CWLan TXPower LIMit TPOWer ampl ampl Transmit Power Level t DR 40 0 30 0 0 1 Transmit Power Level CWL TXP LIM TPOW gt 23 0 2 93 A2 SOPI FN A Rk LDH SENSe CWLan TXPower LIMit PSDensity lt ampl gt Peak PSD Limits Peak PSD SENSe CWLan TXPower LIMit PSDensity ampl ampl Peak PSD 56 0 14 0 0 1 11 0 Peak PSD 11dBm MHz CWL TXP LIM PSD 11 SENSe CWLan TXPower LIMit PSDensity Peak PSD Limit Query Peak PSD SENSe CWLan TXPower LIMit PSDensity ampl ampl Peak PSD 56 0 14 0 0 1 Peak PSD CWL TXP LIM PSD gt 11 0 2 94 26 JE SENSe CWLan PVTime LIMit URTime lt time gt Max Ramp Up Time Power on Ramp Time 802 11b 802 11g DSSS
20. 2 1 2 2 2 3 VAT LINJA ARE sensasossciidicbuiieia edel 24 kk 25 eese 2 6 3 SCPI 3 1 kk 3 2 STATus QUEStionable 3 3 STATus OPERation i 1 1 1 2 1 3 1 9 1 12 2 5 2 11 2 19 2 33 2 37 2 47 III 1 1 1 2 1 3 1 4 PIE BIER MX283027A 001 WLAN Do 1 2 1 1 1 Go cs a 1 2 1 1 2 iius 1 2 kk 1 3 1 2 1 kk 1 4 1 2 2 tetanic 1 5 1 2 3 Batch 1s 1 6 1 2 4 Batch kk 1 7 Native i 1 9 1 12 AIDE BE 1 4 MS2830A AER
21. SENSe CWLan EVM LIMit UPPer DATA real SENSe CWLan EVM LIMit UPPer DATA SENSe CWLan EVM LIMit UPPer PEAK real SENSe CWLan EVM LIMit UPPer PEAK SENSe CWLan EVM LIMit FERRor real Limits e SENSe CWLan EVM LIMit FERRor vu SENSe CWLan EVM LIMit CFLeakage real 7 SENSe CWLan EVM LIMit CFLeakage SENSe CWLan EVM LIMit IQOFfset real a SENSe CWLan EVM LIMit IQOFfset T ub g Ie TH 2 59 BQH SOPI FN 1A Ry bE Transmit Power Level 2 6 4 2 6 4 Transmit Power Transmit Power Lan Power STATe OFF ON 0 1 Measurement S CWLan TXPower STATe Lan Power AVERage STATe OFF ON 0 1 Storage Mode Lan TXPower AVERage STATe Lan TXPower AVERage COUNt integer Storage Count Lan Power AVERage COUNt Lan Power TIME LENGth time Analysis Length Lan Power TIME LENGth Lan Power TIME PSEarch OFF ON 0 1 Preamble Search Lan Power TIME PSEarch
22. 1 0 65535 OPERation STAT OPER gt 0 STATus OPERation CONDition Operation Status Register Condition OPERation STATus OPERation CONDition integer integer 1 0 65535 OPERation STAT OPER COND gt 0 3 14 33 STATus OPERation RZ S TATus OPERation ENABle integer Operation Status Register Enable OPERation STATus OPERation ENABle integer gt J T dr Go lt integer gt 1 0 65535 e OPERation 16 STAT OPER ENAB 16 T 2 j STATus OPERation ENABle gt Operation Status Regis
23. CWL TOSP DET gt RMS 2 115 2B SCPITU AXyE TXR RH CALCulate CWLan TOSPectrum LIMit DATA rel ampl S1 rel ampl E1 rel ampl S2 rel ampl E2 rel ampl S 3 rel ampl E3 rel ampl S4 rel ampl E4 Transmit Spectrum Mask Limit Level Transmit Spectrum Mask Offset 1 4 CALCulate CWLan TOSPectrum LIMit DATA rel ampl S1 gt lt re1 ampl El rel ampl S2 rel ampl E2 rel ampl S3 gt lt rel ampl E3 rel ampl S4 rel ampl E4 gt rel ampl Sn Transmit Spectrum Mask Offset n 100 0dB 0 1 dB rel ampl En Transmit Spectrum Mask Offset n 100 0dB 0 1 dB DB dB WLAN Standard 802 11a 802 11g OFDM 0ffset 1 2 3 4 9 11 MHz 11 20 MHz 20 80 MHz 307 40 MHz VBW 30 kHz 802 11b 802 11g DSSS Offset 1 2 3 4
24. I 1 EL i 2 4 Batch 1 6 MS2690A MS2691A MS26
25. PSDU 11b 802 11g DSSS EVM TADJust integer 16 16 1 0 FFT 0 CWL EVM TADJ 0 SENSe CWLan EVM TADJust Symbol Timing Adjustment Query 2 78 EVM FFT SENSe CWLan integer integer AR BE Z su CWL EVM TADJ gt 0 EVM TADJust 16 16 1 EVM FFT 26 WEB SENSe CWLan EVM FILTer REFerence NONE GAUSsian RCOSine Filter Type EVM SENSe CWLan EVM FILTer REFerence mode mode NONE GAUSsian RCOSine
26. SENSe CWLan PVTime LIMit URTime time time Power on Ramp Time 0 1 10 0 us 0 1 us 2 0 ps NS US MS S s Power on Ramp Time 2 0 us CWL PVT LTM URT 2US SENSe CWLan PVTime LIMit URTime Max Ramp Up Time Query Power on Ramp Time SENSe CWLan PVTime LIMit URTime time ampl Power on Ramp Time p 0 1 10 0 ps 0 1 us s Power on Ramp Time CWL PVT LIM URT 0 0000020 2 95 Q rg EA A y E p A24 SOPI FN A Ry bE SENSe CWLan PVTime LIMit DRTime lt time gt Max Ramp Down Time Power down Ramp Time 802 11b 802 11g DSSS SENSe CWLan PVTime LIMit DRTime time time A pH
27. CONFigure CWL CONF CWL INITiate CWL INIT CWL 2 63 Q rg EA A y i A2X SCPIF T AXyE TXRI RH FETCh CWLan n Batch Measurement Query READ CWLan n Modulation Query 2 64 LE C He 2 FETCh CWL n 2 6 2 999 0 Frequency Error EVM dB 999999999999 EVM EVM Unit FETC CWL gt 5 20 1 03 9 53 38 3 2 34 I LET dE HH TR 1s al READ CWL n 2 6 2 Modulation
28. A A SEHK BEINE A
29. STATus OPERation NTRansition integer integer 1 0 65535 OPERation STAT OPER NTR 16 3 16 33 STATus OPERation RZ STATus OPERation PTRansition integer Operation Status Register Positive Transition OPERation STATus OPERation PTRansition integer 3 integer 1 0 65535 OPERation 16 STAT OPER PTR 16 un Q rg A F A E d A A STATus OPERation PTRansition Operation Status Register Positive Transition Query OPERation STATus OPERation PTRansition integer
30. IEEE std 802 11 1999 T WLAN Standard 802 11b 802 11g DSSS EVM CWL EVM CMET PSDU 26 WEB SENSe CWLan EVM EQUalizer TRAining SEQ SDATa Channel Estimation SENSe CWLan EVM EQUalizer TRAining mode mode SEQ SDATa gt CWL EVM EQU TRA SEQ SENSe CWLan EVM EQUalizer TRAining Channel Estimation Query uli a SENSe CWLan EVM EQUalizer TRAining mode mode SEQ SDAT gt gt
31. Result Mode 37 Minimum margin level on the negative offset 3 dBm 38 Minimum margin from limit line on the negative offset 3 dB 39 Minimum margin offset frequency from the center frequency in the negative offset 3 Hz 40 Pass Fail flag on the negative offset 3 1 fail O pass 41 Minimum margin level on the positive offset 3 dBm 42 Minimum margin from limit line on the positive offset 3 dB 43 Minimum margin offset frequency from the center frequency in the positive offset 3 Hz 1 A B 44 Pass Fail flag on the positive offset 3 1 fail 0 pass 45 Minimum margin level on the negative offset 4 dBm 46 Minimum margin from limit line on the negative offset 4 dB FJ EA 23 A A y g 47 Minimum margin offset frequency from the center frequency in the negative offset 4 Hz Ie TH 48 Pass Fail flag on the negative offset 4 1 fail O pass 49 Minimum margin level on the positive offset 4 dBm 2 49 BQH SOPI FN 1A Ry bE Result Mode 2 6 2 1 A B 50 Minimum margin from limit line on the positive offset 4 dB 51 Minimum margin offset frequency from the center frequency in the positive offset 4 Hz 52 Pass Fail flag on the positive offset 4 1 fail 0 pass 5
32. 1 A 10 t 10 CWL OBW AVER COUN 10 SENSe CWLan OBWidth AVERage COUNt Storage Count Query OBW SENSe CWLan OBWidth AVERage COUNt integer integer 2 200 2s Burst Interval 1 CWL OBW AVER COUN 10 2 99 2E SOPI FN A Rk E VREA SENSe CWLan OBWidth TIME PSEarch OFF ON 0 1 OBW Preamble Search OBW Preamble Search 3 H SS mode OFF 0 ON 1 Storage Mode average HL ENSe CWLan OBWidth TIME E On Preamble Off PS Earch mode Preamble Search Off Preamble Search EXIT HX 4E CWL OBW TIME PSE ON SENSe CWLan OBWidth TIME PSEarch Preamble Search Query Preamble Search
33. SENSe CWLan EVM TRACk PHASe switch c lt mode gt T OFF 0 ONI1 v t CWL EVM TRAC PHAS ON oF x SENSe CWLan EVM TRACk PHASe Phase Tracking Query SENSe CWLan EVM TRACk PHASe Switch Switch 0 1 CWL EVM TRAC PHAS gt 1 A2X SCPITU C AXytE TXR RH SENSe CWLan EVM TADJust integer Symbol Timing Adjustment EVM FFT 1KCP 1K99 1000 LET PSDU SENSe CWLan integer t pH ET 802
34. 0 dBm POW RANG TLEV 0 2 15 A24 SOPI FA Ry LTH SENSe POWerl RF RANGe ILEVel Input Level Query RE SENSe POWer RE RANGe ILEVel real real 60 00 Level Offset 30 00 Level Offset dBm 0 01 dB dBm POW RANG ILEV gt 15 00 2 2 3 Level Offset DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power Level Offset Value DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power rel power 99 99 4 99 99 dB 0 01 dB DB dB 0 dB 10 dB DISP WIND TRAC Y RLEV OFFS 10 2 16 22 HA ZX 2FL DEUXE DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet Level Offset Value Query
35. DISP WIND TRAC Y RL gt 1 E EV OFFS STAT 29 IAXTASSUS AOBRDU 23 2 3 1 2 3 1 e FJ EA N Dio STANdard W11A W11B WGOFdm WGDSss W11N F WLAN Standard 23 ENSe RADio STANdard A f A SENSe CWLan EVM DRATe Data Rate AUTO 6MBPs 9MBPs 1 2MBps 1 8MBps 24MBps 36MBps 48MBps 54MBps m SENSe CWLan EVM DRATe SENSe CWLan EVM DEMod AUTO DSSS1 DSSS2 ea n Modulation SESS ert SENSe CWLan EVM DEMod SENSe CWLan EVM PREamble AUTO LONG SHORt Preamble SENSe CWLan EVM PREamble SENSe CWLan EVM PFORmat MIXed GREenfield PPDU Format SENSe CWLan EVM PFORmat Channel SENSe CWLan EVM CBANdwidth 20 40 40UPper 40LOwer Bandwidth SENSe CWLan EVM CBANdwidth SENSe CWLan CAPTure BURSt INTerval time Burst Interval SENSe CWLan
36. DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power rel power 99 99 99 99 dB 0 01 dB t DISP WIND TRAC Y RLEV OFFS 10 00 2 2 4 Level Offset State DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe OFFIONIOI1 Level Offset State DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe switch switch OFF 0 ONI 1 DISP WIND TRAC Y RLEV OFFS STAT ON 2 17 A2 SOPI FN 1A Rk SH DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe Level Offset State Query 2 18 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe lt switch gt lt switch gt 0 1
37. 3 3 1 OPERation e rg EA A a d A A CAL Warm Up Continuous OPERation 3 3 2 3 3 2 OPERation Operation Status Register Event OPERation EVENt Operation Status Register Condition OPERation CONDition Operation Status Register Enable OPERation ENABle lt integer gt tion ENABle Operation Status Register OPERation NTRansition integer Negative Transition NTRansition Operation Status Register OPERation PTRansition integer Positive Transition PTRansition 3 13 3E 9CP7 STATus OPERation EVENt Operation Status Register Event OPERation STATus OPERation EVENt integer integer
38. mode EVM PSDU Preamble PSDU EVM 1KCPreamb1e Preamble 1000 EVM IEEE std 802 11 2007 1K99 Preamble 1000 EVM WLAN Standard 802 11b 802 11g DSSS IEEE std 802 11 1999 ZW EVM PSDU CWL EVM CM ET PSDU 2 73 Q FJ EA A y E i 2 SCPIF UU AXytE XR RW SENSe CWLan EVM CMEThod EVM Calculation Method Query 2 74 EVM SENSe CWLan EVM CMEThod mode lt mode gt PSDU Preamble PSDU EVM 1KCPreamble Preamble 1000 EVM IEEE std 802 11 2007 1K99 Preamble 1000 EVM
39. 1 0 65535 QUEStionable Measure STAT QUES MEAS PTR 16 16 STATus QUEStionable MEASure PTRansition Questionable Measure Register Positive Transition Query QUEStionable Measure LE 214 STATus QUEStionable MEASure PTRansition integer integer 1 0 65535 QUEStionable Measure STAT QUES MEAS PTR gt 16 3 12 33 STATus OPERation 3 3 STATus OPERation OPERation 3 3 1 K 3 3 1 CALibrating DBO SETTling DB1 RANGing NOT USED DB2 SWEeping NOT USED DB3 MEASuring DB4 Wainting for TRIG DB5 Waiting for ARM NOT USED DB6 CORRecting NOT USED DB7 FILE Operating DB8 3 NOT USED DB9 NOT USED DB10 NOT USED DB11 NOT USED DB12 INSTrument NOT USED DB13 PROGram NOT USED DB14 NOT USED DB15 B 3 3 1 OPERation
40. CWL TXP TIME PSE gt 1 2 90 26 JE SENSe CWLan TXPower TIME RDDetection OFF ONJO 1 Ramp Down Detection On Off Off Analysis Length SENSe CWLan TXPower TIME RDDetection mode m A mode Ramp Down Detection 4 OFF 0 Off A ON 1 Ramp Down Detection Pa Ramp Down Detetion On PA CWL TXP TIME RDD 1 8 nt SENSe CWLan TXPower TIME RDDetection Ramp Down Detection Query Ramp Down Detection SENSe CWLan TXPower TIME RDDetection mode lt mode gt Ramp Down Detection 0 Off 1 Ramp Down Detection Ramp Down Detection CWL TXP TIME RDD gt 1 2 91 A24 SOPI FN A Ry SDH SENSe CWLan TXPower TIME DOFFset lt time gt Detection Offset SEN
41. SENSe CWLan OBWidth LIMit UPPer DATA bandwidth lt bandwidth gt OBW 10 0 50 0MHZ 1 Hz OBW CWL OBW LIM DATA gt 19000000 2 107 B2 SOPI FN A Ry bE 2 6 5 Transmit Spectrum Mask Measurement SENSe CWLan TOSPectrum STATe OFFIONIOI1 Transmit Spectrum Mask Measurement Transmit Spectrum Mask On Off SENSe CWLan TOSPectrum STATe switch switch Transmit Spectrum Mask On Off OFF 0 Off ON 1 On Transmit Spectrum Mask On CWL TOSP 1 SENSe CWLan TOSPectrum STATe Transmit Spectrum Mask Measurement Query 2 108 Transmit Spectrum Mask On Off SENSe CWLan TOSPectrum STATe switch switch Transmit Spectrum Mask On Off 0 Off 1 On Transmit Spectrum Mask On Off CWL TOSP gt 1 26 JE SENSe CWLan TOSPectrum STORage MODE OFF AVERage MAXHold Transmit Spectrum Mask Storage Mode Transmit Spectrum Mask Storage Mode
42. GREenfield HT Greenfield PPDU HT Mixed CWL EVM PFOR MIX 2 25 Q rg EA A y p A2 SOPI FN A XAXvE URSZ W SENSe CWLan EVM PFORmat PPDU Format Query 802 11n PPDU SENSe CWLan EVM PFORmat mode mode PPDU MIX HT Mixed GRE HT Greenfield PPDU CWL EVM PFOR gt MIX 2 3 6 Channel Bandwidth SENSe CWLan EVM CBANdwidth 20 40 40UPper 40Lower Channel Bandwidth 802 11n Channel Bandwidth SENSe CWLan EVM CBANdwidth mode mode Channel Bandwidth 20 20MHz 40 40MHz 40UPper 40MHz Upper 40Lower 40MHz Lower Channel Bandwidth 20 MHz CWL EVM CBAN 20 2 26 Ag IATASNZXA ZAMODEDE SENSe CWLan EVM CBANdwidth Channel Bandwidth Query
43. 20 1Q Offset average dB 21 1Q Offset max dB 22 Pass Fail flag of IQ Offset average 23 Pass Fail flag of IQ Offset max 24 Pass Fail flag of Spectrum Flatness 25 IQ Gain Imbalance average dB 26 IQ Gain Imbalance Max dB 27 Quadrature Error average deg 28 Quadrature Error max deg 29 Symbol Clock Error average 30 Symbol Clock Error max 31 Pass Fail flag of Symbol Clock Error average 32 Pass Fail flag of Symbol Clock Error max 33 Chip Clock Error average 34 Chip Clock Error max 35 Pass Fail flag of Chip Clock Error average 36 Pass Fail flag of Chip Clock Error max 37 Count of Modulation Accuracy Measurements 26 ERKE A B 1 Occupied Bandwidth average Hz 2 Occupied Bandwidth max Hz 3 Pass Fail flag of Occupied Bandwidth average 4 Pass Fail flag of Occupied Bandwidth max 5 Count of Occupied Bandwidth Measurements 2 57 FJ EA A y Ie TH A2 SOPI FN A Ry bE 2 6 3 EVM SENSe CWLan EVM STATe OFF ON 0 1 EVM Measurement SENSe CWLan EVM STATe SENSe CWLan EVM AV T iRage STATe OFF ON 0 1 Storage Mode T SENSe CWLan EVM AVERage STATe SENSe CWLan EVM AV T iRage COUNt integer
44. a lt time gt pa 1000 0 1000 0 us 0 1 us A 0 0 us NS US MS S t s l E p OBW 0 ms CWL OBW TIME OFFS O0 SENSe CWLan OBWidth TIME OFFSet Analysis Offset Query OBW SENSe CWLan OBWidth TIME OFFSet time time fis FE 1000 0 1000 0 us 0 1 us s OBW CWL OBW TIME OFFS gt 0 0010000 2 103 A2 SOPI FN 1A Rk LH SENSe CWLan OBWidth BWIDth RESolution 30 100 300 Resolution Bandwidth OBW SENSe CWLan OBWidth BWIDth RESolution freq freq RBW 30 30 kHz 100 100 kHz 300 300 kHz 30 kHz CWL OBW BWID 30 SENSe CWLan OBWidth BWIDth RESolution Resolution Bandwidth Query OBW
45. s B Di EVM 1 ms CWL TOSP TTME LENG 1ms SENSe CWLan TOSPectrum TIME LENGth Analysis Length Query Transmit Spectrum Mask SENSe CWLan TOSPectrum TIME LENGth time time 100 0 7000 0 ps Burst Interval 0 1 us s Transmit Spectrum Mask CWL TOSP TIME LENG gt 0 0010000 2 113 A24 SOPI FN A Rk LDH SENSe CWLan TOSPectrum TIME OF Analysis Offset FSet time Transmit Spectrum Mask SENSe CWLan TOSPectrum TIME OFFSet time time 1000 0 1000 0 us 0 1 us 0 0 us NS US MS S s Transmit Spectrum Mask 0ms CWL TOSP TIME OFFS SENSe CWLan TOSPectrum TIME OF Analysis Offset Q
46. 802 11n Channel Bandwidth SENSe CWLan EVM CBANdwidth mode as 7 lt mode gt Channel Bandwidth 9 20 20 MHz A 40 40 MHz E 40UP 40 MHz Upper t 40L 40 MHz Lower 5 Channel Bandwidth TR CWL EVM CBAN gt 20 SENSe CWLan CAPTure BURSt IN Terval lt time gt Burst Interval SENSe CWLan CAPTure BURSt INTerval time time 1 EVM Storage Count Transmit Power Storage Count Occupied Bandwidth Storage Count Transmit Spectrum Mask Storage Count Swax 2 2000 SMAX 2 3 100 100 ms 100 ms 2 27 B2 SOPI FN 1A Rk bE ME
47. Storage Count Query EVM SENSe CWLan EVM AVERage COUNt integer integer 2 200 2s Burst Interval 1 CWL EVM AVER COUN 10 2 68 26 ERKE SENSe CWLan EVM TIME LENGth STATe AUTO OFF ONIO 1 Analysis Length Setup Analysis Length On Off SENSe CWLan EVM TIME LENGth STATe AUTO switch switch Analysis Length Setup On Off OFF 0 ONI1 Analysis Length On CWL EVM TIME LENG AUTO ON Q FJ EA A y E p 2 69 SENSe CWLan EVM TIME LENGth STATe AUTO Analysis Length Setup Query Analysis Length On Off SENSe CWLan EVM TIME LENGth STATe AUTO switch lt switch gt Analysis
48. 11 22 MHz 22 33 MHz 33 33 MHz 33 33 MHz VBW 100 kHz 802 11n 20MHz Offset 1 2 3 4 9 11 MHz 11 20 MHz 20 30 MHz 30 40 MHz VBW 30 kHz 802 11n 40 MHz Offset 1 2 3 4 19 21 MHz 21 40 MHz 40 60 MHz 60 60 MHz VBW 30 kHz 77 26 ERKE 2 6 5 1 Transmit Spectrum Mask WLAN Standard Offset MHz 1 2 802 11a 802 11g OFDM 802 11b 802 11g DSSS 802 11n 20MHz 802 11n 40MHz Offset CALC CWL TOSP LIM DATA 0 20 20 28 28 40 40 40 CALCulate CWLan TOSPectrum LIMit DATA Traansmit Spectrum Mask Limit Level Query e rg EA 23 A A y E p Transmit Spectrum Mask Offset 1 4 CALCulate CWLan TOSPectrum LIMit DATA rel ampl Sl gt lt rel ampl El1 rel amp1 S2 rel ampl E2 gt rel amp1 S3 gt lt re1 ampl E3 re
49. QUEStionable Measure STATus QUEStionable MEASure EVENt 3 integer integer 1 07 65535 QUEStionable Measure STAT QUES MEAS gt 0 un Q rg F d A E d A A STATus QUEStionable MEASure CONDition Questionable Measure Register Condition QUEStionable Measure STATus QUEStionable MEASure CONDition integer integer 1 0 65535 QUEStionable Measure STAT QUES MEAS COND gt 0 3E 9CP7 STATus QUEStionable MEASure ENABle lt integer gt Questionable Measure Register Enable QUEStionable Measure STATus QUEStionable MEASure ENABle integer
50. NEG TRIG SLOP gt POS 2 43 A2 SOPI FN A Ry bE TRIGger SEQuence WIF RFBurst LEVel ABSolute lt ampl gt Wide IF Trigger Level Wide IF Video TRIGger SEQuence WIF RFBurst LEVel ABSolute ampl lt amp1 gt 60 50 dBm 1 dBm 20 dBm 10 dBm TRIG WIF LEV ABS 10 2 44 TRIGger SEQuence WIF RFBurst LEVel ABSolute Wide IF Trigger Level Query Wide IF Video TRIGger SEQuence WIF RFBurst L Bs level level 25 Jul HE nu i U u EVel ABSolute 60 50 dBm 1dB dBm
51. integer 1 07 65535 OPERation STAT OPER PTR gt 16 3 17 B3 SCPIAXT AALZAE 3 18
52. INSTrument D EFault SYST PRES 2 10 22 BENTK 2ORE 2 2 2 2 1 2 2 1 Carrier SENSe FREQuency CENTer freq Frequency SENSe FREQuency CENTer Channel Number SENSe CWLan CHANnel integer SENSe CWLan CHANnel Input Level SENSe POWer RF RANGe ILEVel real SENSe POWer RF RANGe TLEVe1 rg EA A y 2 Level Offset DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet n D Level Offset DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe n State OFF ONJ0 1 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe 2 11 A2 SOPI FN 1A Ry bE 2 2 1 Carrier Frequency SENSe FREQuency CENTer freq Carrier
53. On Off SENSe CWLan TOSPectrum TIME LENGth STATe AUTO switch switch Analysis Length Setup On Off OFF 0 ON 1 Analysis Length On CWL TOSP TIME LENG AUTO ON SENSe CWLan TOSPectrum TIME LENGth STATe AUTO Analysis Length Setup Query Analysis Length On Off SENSe CWLan TOSPectrum TIME LENGth STATe AUTO switch switch Analysis Length Setup 0 1 Analysis Length Setup CWL TOSP TIME LENG AUTO gt 2 112 26 WEB SENSe CWLan TOSPectrum TIME LENGth time Analysis Length Transmit Spectrum Mask SENSe CWLan TOSPectrum TIME LENGth time lt time gt v 100 0 7000 0 us Burst Interval 0 1 us 1000 ps t NS US MS S
54. INSTrument SYSTem apl name gt status window 21 IZV DRR apl name WDEVICE CONFIG Config lt status gt CURR RUN IDLE 55 UNL Q lt window gt E ACT j INAC MIN gt NON V INST SYST WDEVICE 5 TH CURR ACT A2 SOPI FN 1A Ry bE 2 1 3 INSTrument DEFault Preset Current Application INSTrument D EFault INST DEF SYSTem PRESet Preset Current Application
55. x cc11 CCK 11Mbps 802 11b 802 11g DSSS AUTO CWT EVM DEM AUTO SENSe CWLan EVM DEMod Modulation Query SENSe CWLan EVM DEMod mode mode AUTO DSSS1 DSSS 1Mbps DSSS2 DSSS 2Mbps CC55 CCK 5 5Mbps ceil CCK 11Mbps CWL EVM DEM AUTO 2 28 A2X SCPIF UU AXyE TXR RH 2 3 4 Preamble SENSe CWLan EVM PREamble AUTO LONG SHORt 802 11b 802 11g DSSS Eamble mode
56. 0 2 ms Transmit Power Analysis Length Occupied Bandwidth Analysis Length Transmit Spectrum Mask Analysis Length EVM Analysis Offset Analysis Length EVM Analysis Offset Analysis Length 802 11b 0 196 ms Analysis Offset 802 11g DSSS Analysis Length 11000 802 11a 0 020 ms 0 004 x Analysis 802 11g OFDM Offset Analysis Length 802 11n 0 036 ms 0 004 x Analysis Offset Analysis Length H EN JHE 0 1 ms NS US MS S s 10 ms 5 ms CWL CAPT BURS INT 5MS 2 28 29 IAXTASSUS AOBRDU SENSe CWLan CAPTure BURSt INTerval Burst Interval Query SENSe CWLan CAPTure BURSt INTerval az lt time gt 7 SENSe CWLan CAPTure BURSt INTerval lt time gt J p 0 1 ms t s
57. READ CWL MEASure CWL n 26 NITE MEASure CWLan n Modulation Query MEASure CWL n T 2 6 2 A et Ed MEAS CWL p EM READ CWL n 2 65 A2 SOPI FN A Ry SDH 2 6 2 EVM Measurement SENSe CWLan EVM STATe OFFIONIOI1 EVM Measurement EVM On Off SENSe CWLan EVM STATe switch lt switch gt EVM On Off OFF 0 O ON 1 On EVM On CWL EVM 1 SENSe CWLan EVM STATe EVM Measurement Query EVM On Off SENSe CWLan EVM STATe lt switch gt lt switch gt EVM On Off 0 Off 1 On EVM On Off CWL
58. lt freq gt lt real gt rel power integer time 1 12 BLE SCPIT 7o vt VE RI SCPI IEEE488 2 MS2690A MS2691A MS2692A MS2830A JAB ELTI 2 1 2 5 2 1 1 aR PTO e Sent Aa 2 6 SYSTem APPLication LOAD WDEVICE 1 2 6 SYSTem APPLication UNLoad WDEVICE ssssssssssssseseeenenen eene rennen nennen ere nnne 2 6 2 1 2 2 7 INSTrument SELect WDEVICE CONFIG ui 2 7 SINS Tr ment SELect 2 ier Ga RE RE 2 7 INSTrument SYSTem WDEVICE ACTive INACtive MINimum eeeeeennm 2 8 NS Trument SYSTem WDEVICE vsiakne Iona te hen palude ue eee uade eeu e dne Re eR ERR ER 2 8 2 1 3 SUME Re t e s 2 10 ANS Trumen DEF AU e EE 2 10 soSlemiPRESBLEELKKR2 2 10 2 2 ER 2 11 2 2 1 Carmer Frequelloy i dito edun tdg tee crt edu
59. EVM 10 1 LENG 10 CWL EVM TIME 2 70 26 WEB SENSe CWLan EVM TIME LENGth Analysis Length Query EVM SENSe CWLan EVM TIME LENGth n integer 2 I SENSe CWLan EVM TIME LENGth lt integer gt de EVM a CWL EVM TIME LENG gt 10 SENSe CWLan EVM TIME OFFSet lt integer gt Analysis Offset EVM SENSe CWLan EVM TIME OFFSet integer WLAN Standard 802 11a 802 11g OFDM integer o 249 Burst Interval 0 020 X 250 1 1 0 WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method PSDU integer i FF o 45055 Burst Interval 0 192 X 11000 1 1 20 2 71 2B SCPIF UU
60. SENSe CWLan OBWidth TIME PSEarch mode mode Preamble Search 0 Off 1 On Preamble Search CWL OBW TIME PSE gt 1 7 26 ERKE SENSe CWLan OBWidth TIME LENGth STATe AUTO OFFIONIOI1 Analysis Length Setup Analysis Length On Off SENSe CWLan OBWidth TIME ENGth STATe AUTO switch switch Analysis Length Setup On Off OFF 0 ON 1 Analysis Length On CWL OBW TIME LENG AUTO ON Q FJ EA 23 A A y E p SENSe CWLan OBWidth TIME LENGth STATe AUTO Analysis Length Setup Query Analysis Length On Off SENSe CWLan OBWidth TIME LENGth STATe AUTO switch lt switch gt Analysis Length Setup 0 1 Analysis Length Setup CWL OBW TIME LENG AUTO gt 1 2 101 B26 SOPI FN 1
61. NOT USED NOT USED NOT USED NOT USED NOT USED Level Over NOT USED NOT USED Signal Abnormal NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED DBO DB1 DB2 DB3 DB4 DBS DB6 DB7 DB8 DB9 DB10 DB11 DB12 DB13 DB14 DB15 QUEStionable Status Register DB9 3 2 2 QUEStionable Measure 3 2 2 QUEStionable Measure 3E 9CP7 QUEStionable 3 2 3 yeu 3 2 3 QUEStionable Questionable Status Register Event tionable EVENt Questionable Status Register Condition tionable CONDition Questionable Status Register QUEStionable ENABle integer Enable tionable ENABle Questionable Status Register n tionable NTRansition integer Negative Transition tionable NTRansition Questionable Status Register Positive Transition tionable PTRansition integer tionable PTRansition Questionable Measure Register Event tionable MEASure EVENt Questionable Measure Register Condition tionable ME CONDition Questionable Measure Register QUEStionable ME ENABle lt integer gt En
62. 1000 0 EVM peak 35 CWL EVM LIM PEAK 35 SENSe CWLan EVM LIMit UPPer PEAK EVM peak Limits Query EVM eak SENSe CWLan EVM LIMit UPPer PEAK real real EVM peak 0 1 1000 0 0 1 EVM eak CWL EVM LIM PEAK gt 35 0 2 82 26 ERKE SENSe CWLan EVM LIMit FERRor real Frequency Error Limits Frequency Error SENSe CWLan EVM LIMit FERRor real real Frequency Error 0 1 30 0 Z 0 1 20 0 2 2 Frequency Error 20ppm CWL EVM LIM FERR 20 b x SENSe CWLan EVM LIMitEFERRor Frequency Error Limits Query Frequency Error SENSe CWLan EVM LIMit FERRor real real Frequency Error 0 1 30 0 0 1 Frequency Error CWL
63. Lan TXPower TIME RDDetection OFF ON 0 1 Ramp Down Detection an TXPower TIME RDDetection Lan TXPower TIME DOFFset time Detection Offset Lan TXPower TIME DOFFset Transmit Power Level Lan TXPower LIMit TPOWer ampl Limit isl 2 Lan Power LIMit TPOWer SENSe CWLan TXPower LIMit PSDensity ampl Peak PSD Limits SENSe CWLan TXPower LIMit PSDensity SENSe CWLan PVTime LIMit URTime time Max Ramp Up Time SENSe CWLan PVTime LIMit URTime SENSe CWLan PVTime LIMit DRTime time Max Ramp Down Time SENSe CWLan PVTime LIMit DRTime 2 60 26 WEB Occupied Bandwidth 2 6 5 2 6 5 Occupied Bandwidth Occupied Bandwidth SENSe CWLan OBWidth STATe OFF ON 0 1 Measurement SENSe CWLan OBWidth STATe SENSe CWLan OBW1dth STORage MODE lt Storage Mode OFF AVERage MAXHold vu SENSe CWLan OBWidth STORage MODE T JN SENSe CWLan OBWi
64. string E CHENE 32 DISP ANN TITL DATA TEST 2 35 A2 SOPI FN 1A Ry E RERA DISPlay ANNotation TITLe DATA Title Entry Query 2 36 DTSP ay ANNotation TTTTLe DATA string string 32 DISP ANN TITL DATA gt TEST 25 JB HE 2 2 5 1 2 5 1 CONTinuous OFF ON 0 1 Continuous CONTinuous Measurement MODE CONTinuous Single Measurement j MODE SINGle Initiate 5 j IMMediate Configure Trigger Switch SEQuence STATe ON OFF 1 0 EQuence STATe rg A y L EQuence SOURce Trigger Source EXTernal 1 IMMediate WIF RFBurst SG HS TRIGger SEQuence SO
65. 2 EVM a EVM Measurement b Storage Mode c Storage Count d Analysis Length Setup e EVM Calculation Method f Reference Filter d Analysis Length Setup 1 7 IX BE e EVM Calculation Method f Reference Filter g Alpha BT h EVM Peak Limits 3 CONF CWL ON ER COUN 10 ENG AUTO ON ET 1KCP iT REF iT ALP READ CWL STAT ERR 1 2 4 1 Modulation L3 Native amp FCORAZOWT 1 3 Native SCPI Native 1 SCPI SCPI ver1999 0
66. PC SCPI 3 1 1 1 GPIB Ethernet USB 1 4823 Local PO Remote Remote Remote Local MS2690A MS2691A MS2692A MS2830A 1 1 2
67. TRIG WIF LEV ABS gt 10 TRIGger SEQuence DELay time Trigger Delay TRTGger SEOuence DELay time lt time gt 2 2s 20 nano seconds NS US MS S s 0s 20 ms TRIG DEL 20MS EDH 2 45 Q FJ EA T Z3 A A E Fs i A2 SOPI FN A Ry bE TRIGger SEQuence DELay Trigger Delay Query TRIGger SEQuence DELay time time 2 2 s 20 nanoseconds s TRIG DEL 0 02000000 2 46 26 ERKE 2 6
68. OBW N SENSe CWLan OBWidth PERCent ratio ratio FAR 99 99 90 90 N 90 CWL OBW PERC 90 SENSe CWLan OBWidth PERCent Occupied Bandwidth Percent Query OBW N SENSe CWLan OBWidth PERCent ratio ratio FAR 99 9996 90 9096 Ns CWL OBW PERC gt 99 2 106 26 WEB SENSe CWLan OBWiath LIMit UPPer DATA bandwidth OBW Limits OBW SENSe CWLan OBWidth LIMit UPPer DATA bandwidth bandwidth OBW a 10 0 50 0 MHz 1Hz 19 0 MHz A HZ KHZ KZ MHZ MZ GHZ GZ et Hz t OBW 19 MHz CWL OBW LIM DATA 19MZ SENSe CWLan OBWidth LIMit UPPer DATA OBW Limits Query OBW
69. SENSe BPOWer STATe L3 Native amp FCORMAMZOWT SENSe BPOWer STATe l BPOWer BPOWer BPOW BPOW BPOW 1 11 Ale BPE 1 4 1 DEFault DEFault 2 MINimum MINimum 3 MAXimum MAX1mum DEFault MINimum MAXimum
70. WGOF 802 11g OFDM WGDS 802 11g DSSS W11N 802 11n RAD STAN gt W11A 2 20 Ag IATASNZXA ZADEDGE 2 3 2 Data Rate SENSe CWLan EVM DRATe AUTO 6MBPs 9MBPs 12MBps 18MBps 24MBps 36MBps 48MBps 54MBps Data Rate Q SENSe CWLan EVM DRATe mode 2 _ lt mode gt MORIR EROS f AUTO L 6MBPs BPSK 6Mbps 9MBPs BPSK 9Mbps 12MBps QPSK 12Mbps 18MBps QPSK 18Mbps 24MBps 16QAM 24Mbps 36MBps 16QAM 36Mbps 48MBps 64QAM 48Mbps 54MBps 64QAM 54Mbps 802 11a 802 11g OFDM Data Rate AUTO CWL EVM DRATe AUTO 2 21 A2X SCPIF UU UAXyE TR RH SENSe CWLan EVM DRATe Data Rate Query
71. Continuous Measurement Query INITiate CONTinuous switch switch 0 1 INIT CONT gt 0 2 38 25 Jul HE INITiate MODE CONTinuous Continuous Measurement INITiate MODE CONTinuous TNTT MODE CONT INITiate MODE SINGle Single Measurement Q FJ EA T A Fs i INITiate MODE SINGle INIT MODE SING INITiate IMMediate Initiate INITiate IMMediate INIT 2 39 A2 SOPI FN A Ry bE CONFigure Configure Query CONFigure mode mode CWL CONF gt CWL 2 5 2 Trigger Switch TRIGger SEQuencel STATe OFF ONJ0 1
72. Su Hx KE Off Trigger Switch On TRTGger 8 switch OFF 0 ON 1 TRTG ON EQuence STATe switch On Off Off On 25 Jul HE TRIGger SEQuence STATe Trigger Switch Query On Off TRIGger SEQuence STATe i switch 4 switch On Off et 0 Off t 1 On Fe TRIG gt 0 2 5 3 Trigger Source TRIGger SEQuence SOURce EXTernal 1 IMMediate WIF RFBurst SG Trigger Source TRIGger SEQuence SOURce mode mode EXTernal 1 Rxternal IMMediate WIF RFBurst IF Wide IF Video SG SG SG Marker SG SG TRIG SOUR EXT 2 41 B2 SOPI FN A Ry bE TRIGger SEQuence SOUR
73. Storage Count T SENSe CWLan EVM AVERage COUNt SENSe CWLan EVM TIME LENGth STATe AUTO OFF ON 0 1 Analysis Length Setup SENSe CWLan EVM TIME LENGth STATe AUTO SENSe CWLan EVM TIME LENGth integer Analysis Length SENSe CWLan EVM TIME LENGth SENSe CWLan EVM TIM Lt OFFSet integer Analysis Offset SENSe CWLan EVM TIME OFFSet EVM Caleulation SENSe CWLan EVM CMEThod PSDU 1KCPreamble 1K99 Method SENSe CWLan EVM CMEThod SENSe CWLan EVM EQUalizer TRAining SEQ SDATa Channel Estimation SENSe CWLan EVM EQUalizer TRAining SENSe CWLan EVM TRACk AMP OFF ON 0 1 SENSe CWLan EVM TRACk AMP Tracking SENSe CWLan EVM TRACk PHASe OFF ON 0 1 SENSe CWLan EVM TRACk PHASe SENSe CWLan EVM TADJust integer Symbol Timing Adjust SENSe CWLan EVM TADJust ENSe CWLan EVM FILTer REFerence NONe GAUSsian RCOSine Filter SENSe CWLan EVM FILTer REFerence m IE ENSe CWLan EVM FILTer ALPHa real m Gl ENSe CWLan EVM FILTer ALPHa 2 58 26 NAME 2 6 3 EVM
74. integer 1 i BE 07 65535 QUEStionable Measure 16 STAT QUES MEAS ENAB 16 STATus QUEStionable MEASure ENABle Questionable Measure Register Enable Query QUEStionable Measure STATus QUEStionable MEASure ENABle integer integer 1 0 65535 QUEStionable Measure STAT QUES MEAS ENAB gt 16 3 10 STATus QUEStionable XY STATus QUEStionable MEASure NTRansition integer Questionable Measure Register Negative Transition QUEStionable Measure STATus QU EStionable M integer 1 07 65535 QUEStionable Measure STAT QUES M EAS NTR 16 STATus QUESti
75. real real BT f 0 37 1 0 0 1 CWL EVM FILT ALPH gt 0 5 2 80 26 WEB SENSe CWLan EVM LIMit UPPer DATA real EVM rms Limits EVM ms SENSe CWLan EVM LIMit UPPer DATA real real EVM rms az 0 1 60 0 Z 0 1 5 6 EVM ms 5 t CWL EVM LIM DATA 5 H SENSe CWLan EVM LIMit UPPer DATA EVM rms Limits Query EVM ms SENSe CWLan EVM LIMit UPPer DATA real real EVM rms 0 1 60 0 0 1 EVM rms CWL EVM LIM DATA gt 5 6 2 81 REQ SOPI FN A AXvE URS W SENSe CWLan EVM LIMit UPPer PEAK real EVM peak Limits EVM peak SENSe CWLan EVM LIMit UPPer PEAK real real EVM peak 0 1 1000 0 0 1
76. 86 SENSe CWLan TXPower AVERage STATe OFFION 0 1 m 2 87 SENSe CWLan TXPower AVERage STATe iat 2 87 SENSe CWLan TXPower AVERage COUNT integer uit 2 88 SENSe CWLan TXPower AVERage COUNTE sssssssssssssssseeenenen eene neret nnn n entere nrtr nnne nnne 2 88 SENSe CWLan TXPower TIME LENGth time ite 2 89 SENSe CWLan TXPower TIME LENGUhn iii 2 89 SENSe CWLan TXPower TIME PSEarch OFF ON O ee mem 2 90 SENSe CWLan TXPower TIME PSE arch sss enne nennen nennt n nnns 2 90 SENSe CWLan TXPower TIME RDDetection OFF ON O 1 mm 2 91 SENSe CWLan TXPower TIME RDDetection sssssssssesseseeeeerenenen eene nnne 2 91 SENSe CWLan TXPower TIME DOFFset time rie 2 92 SENSe CWLan TXPower TIME DOFFSet ieee 2 92 SENSe CWLan TXPower LIMit T POWer ample ssssssessseseeeeereene nene 2 93 SENSe CWLan TXPower LIMit TPOWer ei 2 93 SENSe CWLan TXPower LIMit PSDensity ampl ui 2 94 SENSe CWLan TXPower LIMit PSDensity essem 2 94 SENSe CWLan PVTime LIMit URTiMe time eene emere 2 95 SENSe CWLan PVTime LIMit URTime emere ene emen nn nn nennen sinn 2 95 SENSe CWLan PVTime LIMitEDRTime time nnn 2 96 SENSe CWLan PVTime LIMit DRTime nenne enne nennen rn nien 2 96 2 6 4 Occupied Bandwidth Measurement 2 ccececceceeeeeeeeeeeeaeeeeeeeeesecnaeeeeeeeeesecceaeeee
77. CAPTure BURSt INTerval SENSe CWLan CAPTure BURSt THReshold real Burst Threshold SENSe CWLan CAPTure BURSt THReshold Load Standard SENSe CWLan RADio STANdard LOAD function lt pattern gt Parameter SENSe CWLan RADio STANdard LOAD function 2 19 2 SCPIF UU AXyE TXR RH 2 3 1 WLAN Standard SENSe RADio STANdard W11A W11B WGOFdm WGDSss W11N WLAN Standard SENSe RADio STANdard mode lt mode gt W11A 802 11a W11B 802 11b WGOFdm 802 11g OFDM WGDSss 802 11g DSSS W11N 802 11n 802 11a RAD STAN W11A SENSe RADio STANdard WLAN Standard Query SENSe RADio STANdard mode mode W11A 802 11a W11B 802 11b
78. EVM gt 1 2 66 26 WEB SENSe CWLan EVM AVERage STATe OFF ON O 1 EVM Storage Mode EVM Storage Mode SENSe CWLan EVM AVERage STATe OFF ON 0 1 mode lt mode gt Storage Mode OFF 0 Off ON 1 average Storage Mode average CWL EVM AVER ON Q rg EA A y E i SENSe CWLan EVM AVERage STATe Storage Mode Query Storage Mode SENSe CWLan EVM AVERage STATe lt mode gt lt mode gt Storage Mode 0 Off 1 average Storage Mode CWL EVM AVER o 2 67 REQ SOPI FN 1A Ry bE SENSe CWLan EVM AVERage COUNt integer Storage Count EVM SENSe CWLan EVM AVERage COUNt integer integer 2 200 2s Burst Interval 1 2 10 CWL EVM AVER COUN 10 SENSe CWLan EVM AVERage COUNt
79. EVM LIM FERR 20 0 2 83 REQ SOPI FN A Rk bE SENSe CWLan EVM LIMit CFLeakage real Transmitter Center Frequency Leakage Limits Transmitter Center Frequency Leakage SENSe CWLan EVM LIMit CFLeakage real real Transmitter Center Frequency Leakage DH 60 0 0 0 0 1 15 0 DBM dBm Transmitter Center Frequency Leakage 15dB CWL EVM LIM CFL 15 SENSe CWLan EVM LIMit CFLeakage Transmitter Center Frequency Leakage Limits Query Transmitter Center Frequency Leakage SENSe CWLan EVM LIMit CFLeakage real real Transmitter Center Frequency Leakage G pH 60 0 0 0 0 1 Transmitter Center Frequency Leakage CWL EVM LIM CFL gt 15 0 2 84 26 WEB SENSe CWLan EVM LIMit QOFfset real IQ Offset Limits IQ Offset
80. Frequency SENSe FREQuency CENTer freq freq 100 MHz 3 6 GHz MS2830A 040 100 MHz 6 GHz MS2830A 041 100 MHz 13 5 GHz MS2830A 043 1 Hz HZ KHZ KZ MHZ MZ GHZ GZ Hz 2 412 GHZ 1 000 GHz FREO CENT 1 000GHZ 2 12 SENSe FREQuency CENTer Carrier Frequency Query 22 BENTK 2ORE SENSe FREQuency lt freq gt freq FREQ CENT gt 5000000000 SENSe CWLan CHANnel integer Channel Number CENTer 100 MHz 3 6 GHz MS2830A 040 100 MHz 6 GHz MS2830A 041 100 MHz 13 5 GHz MS2830A 043 1Hz Hz ENSe CWLan CHANne
81. LAE Rs 2 12 SENSe FREQuency CENTer freq tate 2 12 SENSe FREQuency CENTer ieee 2 13 SENSe CWLan CHANnel integer aii 2 13 SSENSe CWLan CHAN cccceccsesssssssssssssssssseseseseseseseseseeseeseseeseseseseseseseseseeeeeeeeseseeeeeeereesenens 2 14 2 2 2 Input LOVE p 2 15 SENSe POWer RF RANGe ILEVel Sea 2 15 SENSe POWer RF RANGe ILEVel ia 2 16 2 2 3 EevelOffset Rn m Ei 2 16 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power gt aerate 2 16 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet iii 2 17 2 2 4 Level Offset State Le 2 17 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe OFFIONIOI1 2 17 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet STATe ii 2 18 2 3 SAAT LINJAA ARTE ET 2 19 2 3 1 WLAN Standard A Sinisa daa aa Ri 2 20 SENSe RADio STANdard W11A IW11B WGOFdm WGDSss WAAN i 2 20 SENSe RADIo STANCAard Toisas niaii Gai EE 2 20 2 3 2 Data RA Re CN hee TO O Meee tev aeeeuss AE 2 21 SENSe CWLan EVM DRATe AUTO 6MBPs 9MBPs 12MBps 18MBps 24MBps 36MBps 48MBps 54MBps i 2 21 ESENSe1ICWLamiEVMBRAIS 50 2 22 2 3 3 MOGUIALION p M 2 23 SENSe CWLan EVM DEMod AUTOJ DSSS1 DSS S2 CC55 CC 11 i 2 23 SENSe CWLan EVM DEMod cece eeeeeecacaeceeeeeeeececeaaaeceeeeeeesecacaeeeeeeeseseceicaeeeeeeeeeneees 2 23 2 3 4 mulo me EEP MA 2 24 SENSe CWLan EVM PREamble AU
82. Power down Ramp Time 00 0 1 us 2 0 us NS US MS S s Power down Ramp Time 2 0 us CWL PVT LIM DRT 2US SENSe CWLan PVTime LIMit DRTime Max Ramp DownTime Query 2 96 SENSe CWLan PVTime LIMit DRTime time Power down Ramp Time 0 1 10 0 us 0 1 us s Power down Ramp Time CWL PVT LIM DRT 0 0000020 26 WEB 2 6 4 Occupied Bandwidth Measurement SENSe CWLan OBWidth STATe OFFION 0 1 Occupied Bandwidth Measurement OBW On Off SENSe CWLan OBWidth STATe switch switch OBW On Off OFF 0 Off WHE ON 1 On OBW On CWL OBW 1 SENSe CWLan OBWidth STATe Occupied Bandwidth Measurement Query OBW On Off SENSe CWLan OBWidth STATe switch switch OBW On Off 0 Off 1 On OBW On Off CWL OBW Pau
83. Questionable Status Register Negative Transition QUEStionable STATus QUEStionable NTRansition integer 3 integer 1 0 65535 QUEStionable 16 STAT QUES NTR 16 un Q rg A F A E d A A STATus QUEStionable NTRansition Questionable Status Register Negative Transition Query QUEStionable STATus QUEStionable NTRansition integer integer 1 07 65535 QUEStionable STAT QUES NTR gt 16 3 7 3E SCPI STATus QUEStionable PTRansiti
84. SENSe CWLan EVM LIMit IQOFfset real real IQ Offset a 60 0 0 0 0 1 15 0 A DBM et dBm t IQ Offset 15dB 8 CWL EVM LIM IQOF 15 SENSe CWLan EVM LIMit QOFfset IQ Offset Limits Query 1Q Offset SENSe CWLan EVM LIMit IQOFfset real real IQ Offset 60 0 0 0 0 1 IQ Offset CWL EVM LIM IQOF 15 0 2 85 A24 SOPI FN A Ry DH 2 6 3 Transmit Power Measurement SENSe CWLan TXPower STATe OFFION 0 1 Transmit Power Measurement Transmit Power On Off SENSe CWLan TXPower STATe OFF ON 0 1 switch Transmit Power On Off OFF 0 Off ON 1 On Transmit Power On CWLan TXP 1 SENSe CWLan TXPowerl STATe Transmit Power Measurement Query On Off SEN
85. SENSe CWLan TOSPectrum STORage MODE mode mode Storage Mode m OFF Off COME AVERage average al MAXHold Maxhold 2 Storage Mode average CWL TOSP STOR MODE AVER H SENSe CWLan TOSPectrum S TORage MODE Storage Mode Query Storage Mode SENSe CWLan TOSPectrum STORage MODE mode mode Storage Mode OFF Off AVERage average MAXHold Maxhold Storage Mode CWL TOSP STOR MODE gt OFF 2 109 A24 SOPI FN A Rk LDH SENSe CWLan TOSPectrum AVERage COUNt integer Storage Count Transmit Spectrum Mask SENSe CWLan TOSPectrum AVERage COUNt integer integer 2 200 2s Burst Interval 1 2 10 CWL TOSP AV ER COUN 10 SENSe CWLan TOSPectrum AVERage COUNt Transmit Spectrum Mask SENSe CWLan TOSPectrum AVERage COUNt Storage Count Query i
86. average 18 Pass Fail flag of Power down Ramp max 19 Count of Transmit Power Measurements 2 47 A2 SOPI FA Rk bE Result Mode 2 6 2 1 A B 20 Peak PSD RBW of the reference channel dBm 21 Minimum margin level on the negative offset 1 dBm 22 Minimum margin from limit line on the negative offset 1 dB 23 Minimum margin offset frequency from the center frequency in the negative offset 1 Hz 24 Pass Fail flag on the negative offset 1 1 fail O pass 25 Minimum margin level on the positive offset 1 dBm 26 Minimum margin from limit line on the positive offset 1 dB 27 Minimum margin offset frequency from the center frequency in the positive offset 1 Hz 28 Pass Fail flag on the positive offset 1 1 fail 0 pass 29 Minimum margin level on the negative offset 2 dBm 30 Minimum margin from limit line on the negative offset 2 dB 31 Minimum margin offset frequency from the center frequency in the negative offset 2 Hz 32 Pass Fail flag on the negative offset 2 1 fail O pass 33 Minimum margin level on the positive offset 2 dBm 34 Minimum margin from limit line on the positive offset 2 dB 35 Minimum margin offset frequency from the center frequency in the positive offset 2 Hz 36 Pass Fail flag on the positive offset 2 1 fail 0 pass 2 48 26 ERKE 2 6 2
87. hy ig nE AAAAaa BBBBbb CCCCcc D 0 AAAA BBBB CCCC D 0 SCPI AAAA BBBB CCCC D n AAAA BBBB D 0 AAAA BBBB CCCC E n AAAA BBBB CCCC D 0 AAAA BBBB E 0 SYST LANG NAT XAAAA BBBB D 0 1 3 1 SCPI Native SCPI ATTY Native S Native 1 9 AIDE BPE 1 10 D SCPI 1 1
88. integer s 1 14 36 40 44 48 52 56 60 64 100 104 108 112 116 120 124 128 132 136 140 149 153 157 161 165 3s integer i BE 1 1 CWL CHAN 1 2 18 a rg EA A E p REQ SOPI FN A Ry tS SENSe CWLan CHANnel Channel Number Query SENSe CWLan CHANnel integer integer 1 14 36 40 44 48 52 56 60 64 100 104 108 112 116 120 124 128 132 136 140 149 153 157 161 165 CWL CHAN gt 1 2 14 22 BENTK 2ORE 2 2 2 Input Level SENSe POWer RF RANGe ILEVel real Input Level RF c SENSe POWer RF RANGe ILEVel real a A lt real gt 60 00 Level Offset 30 00 Level Offset dBm 0 01 dB 1 dBm Es DBM Am dBm 10 00 dBm
89. 107 SENSe CWLan OBWidth LIMit UPPer DATA nennen 2 107 2 6 5 Transmit Spectrum Mask Measurement eene 2 108 SENSe CWLan TOSPectrum STATe OFF ON O J1 sese 2 108 SENSe CWLan TOSPectrumESTATe17 enne nnne en nene nnn nnn 2 108 SENSe CWLan TOSPectrum STORage MODE OFF AVERage MAXHold 2 109 SENSe CWLan TOSPectrum STORage MODE i 2 109 SENSe CWLan TOSPectrum AVERage COUNt integer etait 2 110 SENSe CWLan TOSPectrum AVERage COUN2 eene nenne 2 110 SENSe CWLan TOSPectrum TIME PSEarch OFF ONJIO 1 ei 2 111 SENSe CWLan TOSPectrum TIME PSEarch sss 2 111 SENSe CWLan TOSPectrum TIME LENGth STATe AUTO OFF ONJO 1 2 112 SENSe CWLan TOSPectrum TIME LENGth STATeTAUTO7 iii 2 112 SENSe CWLan TOSPectrum TIME LENGth time i 2 113 SENSe CWLan TOSPectrum TIME LENGth eene 2 113 SENSe CWLan TOSPectrum TIME OFFSet time rie 2 114 SENSe CWLan TOSPectrum TIME OF FSet ceccccccceceeeeeeeeeceeeeeeeeeeeeeececeaeeeeeeeeesecenenieaeeeeeeteees 2 114 SENSe CWLan TOSPectrum DE Tector FUNCtion POSitive RMS i 2 115 SENSe CWLan TOSPectrum DETector FUNCtION sse 2 115 CALCulate CWLan TOSPectrum LIMit DATA rel ampl S1 rel ampl E1 gt lt rel ampl S2 rel ampl E2 rel ampl S3 rel ampl E3 rel am pl S4 gt lt rel ampl Eee 2 116 CALCulate CWLan TOSPectrum LIMEDATA 2 2 1
90. 17 21 IZV DRR o 2 1 2 1 1 2 1 1 Load Application SYSTem APPLication LOAD WDEVICE Unload Application SYSTem APPLication UNLoad WDEVICE Application Switch INSTrument SELect WDEVICE CONFIG INSTrument SELect Application Status INSTrument SYSTem WDEVICE ACTive INACti ve MINimum INSTrument SYSTem WDEVICE Initialization INSTrument DEFault rg EA A SYSTem PRESet g Ie TH 2B SCPIF UU AXyE TXR RH 2 4 1 SYSTem APPLication LOAD WDEVICE Load Application EVICE Application Switch Config SYSTem APPLication LOAD WD
91. 2 97 Q rg EA A y i A24 SOPI FN A Ry LDH SENSe CWLan OBWidth STORage MODE OFF AVERage MAXHold Occupied Bandwidth Storage Mode OBW Storage Mode SENSe CWLan OBWidth STORage MODE mode mode OFF AVERage MAXHold Storage Mode Off Storage Mode average CWL OBW STOR MODE AVER SENSe CWLan OBWidth STORage MODE Storage Mode Query OBW Storage Mode E 67 HU a s SENSe CWLan OBWidth STORage MODE mode mode OFF AVER MAXH Storage Mode Off Storage Mode CWL OBW STOR MOD gt AVER 2 98 E 26 JH SENSe CWLan OBWidth AVERage COUNt integer Storage Count OBW SENSe CWLan OBWidth AVERage COUNt integer e a lt integer gt 2 200 2s Burst Interval
92. 3 Pass Fail flag on overall offset 1 fail O pass 54 Count of Transmit Spectrum Mask Measurements 55 EVM rms average 90 56 EVM rms max 90 57 EVM peak max 58 EVM rms average dB 59 EVM rms max dB 60 EVM peak max dB 61 Pass Fail flag of EVM rms average 62 Pass Fail flag of EVM rms max 63 Pass Fail flag of EVM peak max 64 Frequency Error average Hz 65 Frequency Error max Hz 66 Frequency Error average ppm 67 Frequency Error max ppm 68 Pass Fail flag of Frequency Error average 69 Pass Fail flag of Frequency Error max 70 Center Frequency Leakage average dB 71 Center Frequency Leakage max dB 72 Pass Fail flag of Center Frequency Leakage average 73 Pass Fail flag of Center Frequency Leakage max 74 IQ Offset average dB 75 IQ Offset max dB 2 50 Result Mode 2 6 2 26 WEB 1 AJB 76 Pass Fail flag of IQ Offset average 77 Pass Fail flag of IQ Offset max 78 Pass Fail flag of Spectrum Flatness 79 IQ Gain Imbalance average dB 80 IQ Gain Imbalance max dB 81 Quadrature Error average deg 82 Quadrature Error max deg 83 Symbol Clock Error average 84 Symbol Clock Error max 85 Pass Fail flag of Symbol Clock Error average 86 Pass Fail flag of Symbol Clock Error max 87 Chip Clock Error average 88 Chip Clock Erro
93. 92A MS2830A Signal Analyzer Spectrum Analyzer L2 WW EL INST CONFIG SYST LANG SCPI SYST RES MODE D SYST APPL LOAD WDEVICE SYST APPL LOAD SIGANA SYST APPL LOAD SPECT INST WDEVICE RST CLS INIT CONT OFF 1 2 1 1 1 2 2 wt 1 C
94. A Ry E RERA SENSe CWLan OBWidth TIME LENGth lt time gt Analysis Length OBW SENSe CWLan OBWidth TIME LENGth time time 100 0 7000 0 us Burst Interval Sv MEL 0 1 us 1000 ps NS US MS S s OBW 1 ms CWL OBW TIME LENG 1MS SENSe CWLan OBWidth TIME LENGth Analysis Length Query OBW SENSe CWLan OBWidth TIME LENGth time time 100 0 7000 0 us Burst Interval 0 1 ns s OBW CWL OBW TIME LENG 0 0010000 2 102 26 WEB SENSe CWLan OBWidth TIME OFFSet time Analysis Offset OBW SENSe CWLan OBWidth TIME OFFSet time
95. AXyE TXR RH WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method 1KCP 1K99 integer 0 1111 Preamble Auto Long 55 Preamble Short 1 20 WLAN Standard 802 11n integer 0 1369 Burst Interval 0 036 X 250 1 EVM 10 CWL EVM TIME OFFS 10 SENSe CWLan EVM TIME OFFSet Analysis Offset Query EVM SENSe CWLan EVM TIME OFFSet integer SENSe CWLan EVM TIME OFFSet lt integer gt EVM CWL EVM TIME OFFS 10 2 72 26 JE SENSe CWLan EVM CMEThod PSDU 1KCPreamble 1K99 EVM Calculation Method EVM SENSe CWLan EVM CMEThod PSDU 1KCPreamb1e mode
96. Burst Interval 1 2 10 CWL TXP AVER COUN 10 SENSe CWLan TXPower AVERage COUNt Storage Count Query SENSe CWLan TXPower AVERage COUNCt lt integer gt lt integer gt 2 200 2s Burst Interval 1 CWL TXP AVER COUN gt 10 2 88 26 WEB SENSe CWLan T XPower TIME LENGth time Analysis Length SENSe CWLan TXPower TIME LENGth time Q time 7 100 0 9 7000 0 us Burst Interval A 0 1 us gt NS US MS S t s gt E 1 ms JH 1 ms CWL TXP TIME LENG 1MS SENSe CWLan TXPower TIME LENGth Analysis Length Query
97. DH 2 4 1 Erase Warm Up Message DISPlay ANNotation WUP ERASe Erase Warm Up Message DISPlay ANNotation WUP ERASe DISP ANN WUP ERAS 2 4 2 Display Title DISPlay ANNotation TITLe STATe OFF ON 0 1 Display Title On Off DISPlay ANNotation TITLe STATe switch switch On Off OFF 0 Off ON 1 On DISP ANN TITL ON 2 34 A F PIF PE DISPlay ANNotation TITLe STATe Display Title Query On Off DISPlay ANNotation TITLe STATe switch rA 1 lt switch gt On Off et 0 Off t 1 On DISP ANN TITL gt 1 2 4 3 Title Entry DISPlay ANNotation TITLe DATA lt string gt Title Entry DISPlay ANNotation TITLe DATA string
98. Length Setup 0 1 Analysis Length Setup CWL EVM TIME LENG AUTO gt 1 2B SCPITU T AXytE TXR RH SENSe CWLan EVM TIME LENGth integer Analysis Length EVM SENSe CWLan EVM TIME LENGth integer WLAN Standard 802 11a 802 11g OFDM 802 11n integer 1 250 Analysis Offset Burst Interval 0 020 x 250 Analysis Offset 1 10 WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method PSDU integer 1 45056 Analysis Offset Burst Interval 0 192 X 11000 Analysis Offset 1 1000 WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method 1KCP 1K99 integer WLAN Standard 802 11n integer 1 1370 Analysis Offset Burst Interval 0 036 X250 Analysis Offset 1 10
99. MX283027A 001 WLAN 4 MS2830A MX283027A 001 WLAN M W3474AW 4 0
100. Minimum margin level on the negative offset 1 dBm 3 Minimum margin from limit line on the negative offset 1 dB 4 Minimum margin offset frequency from the center frequency in the negative offset 1 Hz 5 Pass Fail flag on the negative offset 1 1 fail 0 pass 6 Minimum margin level on the positive offset 1 dBm 7 Minimum margin from limit line on the positive offset 1 dB 8 Minimum margin offset frequency from the center frequency in the positive offset 1 Hz 9 Pass Fail flag on the positive offset 1 1 fail O pass 3 A B 10 Minimum margin level on the negative offset 2 dBm FJ EA A y E g 11 Minimum margin from limit line on the negative offset 2 dB Ie TH 12 Minimum margin offset frequency from the center frequency in the negative offset 2 Hz 13 Pass Fail flag on the negative offset 2 1 fail O pass 14 Minimum margin level on the positive offset 2 dBm 15 Minimum margin from limit line on the positive offset 2 dB 16 Minimum margin offset frequency from the center frequency in the positive offset 2 Hz 17 Pass Fail flag on the positive offset 2 1 fail O pass 18 Minimum margin level on the negative offset 3 dBm 19 Minimum margin from limit line on the negative offset 3 dB 2 53 REQ SOPI FN 1A Rk SH 2 54 Result Mode 2 6 2 20 Minimum margin offset frequency from th
101. OAD function lt pattern gt function EVM EVM OBW OBW SEM Transmit Spectrum Mask 2 30 Ag IATASNZA ZAODEME EVM pattern 6MBPS IEEE802 11a IEEE802 1 1g OFDM 6Mbps 9MBPS IEEE802 11a IEEE802 11g OFDM 9Mbps 12MBPS IEEE802 11a IEEE802 11g OFDM 12Mbps 18MBPS IEEE802 11a IEEE802 11g OFDM 18Mbps 24MBPS IEEE802 11a IEEE802 11g OFDM 24Mbps 36MBPS IEEE802 11a IEEE802 11g OFDM 36Mbps lt 48MBPS IEEE802 11a IEEE802 11g OFDM 48Mbps a 54MBPS IEEE802 11a IEEE802 11g OFDM 54Mbps DSSS IEEE802 11b IEEE802 11g DSSS 9 BP12 IEEE802 11n BPSK Coding Rate 1 2 X QP12 IEEES802 11n QPSK Coding Rate 1 2 2t QP34 IEEE802 11n QPSK Coding Rate 3 4 E 1012 IEEES802 11n 16QAM Coding Rate 1 2 b 1934 IEEE802 11n 16QAM Coding Rate 3 4 RE 6023 IEEE802 11n 64QAM Coding Rate 2 3 6034 IEEES802 11n 64QAM Coding Rate 3 4 6056 IEEE802 11n 64QAM Coding Rate 5 6 IEEE802 11a IEEE802 11g OFDM 6Mbps OBW pattern T521NDOOR TELEC 5 2GHz Indoor 20MHz T56INDOOR TELEC 5 6GHz Indoor 20MHz T560UTDOOR TELEC 5 6GHz Outdoor 20MHz T24DSSS TELEC 2 4GHz DSSS T240FDM TELEC 2 4GHz OFDM 20MHz TIA40MHZ TELEC Indoor OFDM 40MHz TO40MHZ TELEC Outdoor OFDM 40MHz TELEC 5 2GHz Indoor 20MHz
102. P aiai 2 76 SENSe CWLan EVM TRACk PHASe OFFIONIOI1 2 77 SENSe CWLan EVM TRACK PHAS 2 77 SENSe CWLan EVM TADJust sintedere 2 78 SENSe CWLan EVM TAD Just arti 2 78 SENSe CWLan EVM FILTer REFerence NONE GAUSsian RCOSine esses 2 79 SENSe CWLan EVM FILTer REFerence7 2 79 SENSe CWLan EVM FILTer ALPHa real esses eene eene nennen 2 80 SENSe CWLan EVM FILTer ALPHA ieee 2 80 SENSe CWLan EVM LIMit UPPer DATA real emere 2 81 FG SENSe CWLan EVM LIMit UPPer DATA ui 2 81 SENSe CWLan EVM LIMit UPPer PEAK real ssssssssseeseeneeen ener 2 82 7 SENSe CWLan EVM LIMit UPPer PEAK eesssssssssssssesenee eene emen nnnm n enne 2 82 a SENSe CWLan EVM LIMiFERRor real esses nennen mener rne nnne 2 B3 SENSe CWLan EVM LIMiEFERROT2 nennen nemrnr enne nen nnne nnne nnn 2 83 x SENSe CWLan EVM LIMit CFLeakage real tete 2 04 SENSe CWLan EVM LIMit CFLeakage aii 2 84 ux SENSe CWLan EVM LIMit IQOFfset Ye 2 85 J SENSe CWLan EVM LIMit IQOFfSet eee cece RR 2 85 cA 2 6 3 Transmit Power Measuremett cccccececeseeccececeeeeeeeeeeceaeaeeeceeesgceaaaeeeeeeeessedeeesenaeeeeeeeseeeeaees 2 86 SENSe CWLan TXPower STATe OF FION O 1 esses 2 86 SENSe CWLan TXPower STAT cei 2
103. Se CWLan TXPower STATe lt switch gt lt switch gt On Off 0 Off ii On On Off CWL TXP Dub 2 86 26 ERKE SENSe CWLan TXPower AVERage STATe OFF ONJ0 1 Tx Power Storage Mode Storage Mode SENSe CWLan TXPower AVERage STATe OFF ON 0 1 mode mode Storage Mode OFF 0 Off ON 1 average Storage Mode average CWL TXP AVER ON Q FJ EA A y E i SENSe CWLan TXPower AVERage STATe Storage Mode Query Storage Mode SENSe CWLan TXPower AVERage STATe mode mode Storage Mode 0 Off 1 average Storage Mode CWL TXP AVER oe ok 2 87 A2 SOPI FN A Rk LDH SENSe CWLan TXPower AVERage COUNt integer Storage Count SENSe CWLan TXPower AVERage COUNt integer integer 0 pr 2 200 2s
104. Se CWLan TXPower TIME DOFFset time time 2 0 2 0 us 0 1 us 0 0 s Detection Offset 0 1 us CWLan TXP TIME DOFF 0 000001 SENSe CWLan TXPower TIME DOFFset Detection Offset Query Detection Offset SENSe CWLan TXPower TIME DOFFset time time Detection Offset 2 0 2 0 us 0 1 us s Detection Offset CWL TXP TIME DOFF 0 0000010 2 92 26 WEB SENSe CWLan TXPower LIMit TPOWer lt ampl gt Transmit Power Level Limit Transmit Power Level SENSe CWLan TXPower LIMit TPOWer ampl lt amp1 gt Transmit Power Level ae 40 0 30 0 A 0 1 23 0 Transmit Power Level 23 dBm CWL TXP LIM TPOW 23 b x SENSe CWLan TXPower LIMit TPOWer Transmit Power Level Limit Query Transmit Power Level
105. TO LONG SHORI sse nnns 2 24 ESENSelCWLan EVM PREambl67422 1 2 24 2 3 5 uud PISCIS 2 25 SENSe CWLan EVM PFORmat MIXed GREenfield sse 2 25 ESENSe F CWLan EVM PFORat icn tet tate tee tede deu Ree dy n eu dae ete e RE a VERA ANNE 2 26 2 3 6 Channel Bandwidth esses nennen ennemi enne en nennen nennen nnns 2 26 SENSe CWLan EVM CBANdwidth 20 40 40UPper A40Lower ee Hm 2 26 SENSe CWLan EVM CBANdNWidth eae 2 27 SENSe CWLan CAPTure BURStINTerval time ssssssssssssssseeneeenenne emere nnne 2 27 rg EA 23 A A y i B2 SOPI FA Ry bE SENSe CWLan CAPTure BURStINTerval sss ener 2 29 SENSe CWLan CAPTure BURSt THReshold lt integer gt eat 2 29 SENSe CWLan CAPTure BURSt THRESNOI sss ennemis 2 30 SENSe CWLan RADio STANdard LOAD function pattern sse 2 30 SENSe CWLan RADio STANdard LOAD 2 32 MERI oi e Ut m TT 2 33 2 4 1 Erase Warm Up MessadBL OO 2 34 DISPlay ANNotation WUP ERASe 0 cee ner irr ne ieee ee nennen ennemi nnnm enne nennen 2 34 2 4 2 BIZOIVANI crore er 2 34 DISPlay ANNotation TITLe STATe OFF ON O 1 uae 2 34 DISPlay ANNotation TITLe S TATe oerein a ii ead ta 2 35 2 4 3 Te Ea 2 35 DISPlay ANNotation TITLe DATA string ee
106. Transmit Spectrum Mask pattern O20MHZ TEEE802 11 OFDM 20MHz O40MHZ IEEES802 11 OFDM 40MHz DSSS IEEES802 11 DSSS IEEE802 11 OFDM 20MHz EVM IEEE802 11a IEEE802 11g OFDM 6Mbps CWL RAD STAN LOAD EVM 6MBPS 2 31 A2 SOPI FN A Rk bE SENSe CWLan RADio STANdard LOAD Load Standard Parameter Query Standard Parameter SENSe CWLan RADio STANdard LOAD function pattern pattern SENSe CWLan RADio STANdard LOAD lt function gt lt pattern gt Standard Parameter CWL RAD STAN LOAD EVM gt 6MBP 2 32 2 747 PE 2 24 2 4 1 LM 2 4 1 Erase Warm Up Message ERASe Le STATe ON OFF 1 0 Display Title Le STATe Le DATA string Title Entry Le DATA 2 33 rg EA A y z B26 SOPI FN A Ry
107. URce Trigger Slope TRIGger SEQuence SLOPe POSitive NEGative TRIGger SEQuence SLOPe Wide IF Trigger TRIGger SEQuence WIF RFBurst LEVel ABSolute ampl Level TRIGger SEQuence WIF RFBurst LEVel ABSolute Trigger Delay TRIGger SEQuence DELay time RIGger SEQuence DELay ZH 2 37 A2 SOPI FN 1A Ry SDH 2 5 1 INITiate CONTinuous OFF ONJO 1 Continuous Measurement INITiate CONTinuous switch switch 0 OFF 11ON On Off INIT CONT ON INITiate CONTinuous
108. able tionable MEASu ENABle Questionable Measure Register Negative Transition tionable MEASure NTRansition lt integer gt tionable MEASu NTRansition Questionable Measure Register Positive Transition tionable MEASure PTRansition integer tionable ME PTRansition STATus QUEStionable XY STATus QUEStionable EVENt Questionable Status Register Event QUEStionable STATus QUEStionable EVENt 3 integer integer 1 0 65535 QUEStionable STAT QUES gt 0 un Q rg F d A E d A A STATus QUEStionable CONDition Questionable Status Register Condition QUEStionable STATus QUEStionable CONDition integer integer 1 07 65535 QUEStionable
109. arrier Frequency 2 Input Level Reference Level Attenuator 3 Level Offset AIDE BPE Carrier Frequency FREO CENT 5 18GHZ Input Level POW RANG ILEV 10 00DBM Level Offset DISP WIND TRAC Y RLEV OFFS STAT ON DISP WIND TRAC Y RLEV OFFS 0 25DB 1 2 2 1 1 2 3 Batch Batch 1 Trigger a Trigger Switch b Trigger Source c Trigger Slope d Trigger Delay 27 WLAN Standard 3 Modulation 4 Preamble 5 Burst Interval 1 6 L2 BAHLMAOKH Trigger TRTG ON TRIG SOUR WIF TRIG SLOP POS TRIG DEL O0 WLAN Standard RAD STAN W11B Modulation CWL EVM DEM AUTO Preamble CWL EVM PRE LONG Burst Interval CWL CAPT BURS INT 2MS 1 2 3 1 Batch 1 2 4 Batch Batch 1
110. bit bit8 bit9 bit10 bit11 bit12 bit13 bit14 bit15 bit0 20 1 AE bit1 21 2 bit2 22 4 hit 23 8 REH bit4 24 16 REH bit5 25 32 REH bit6 26 64 REH bit 27 128 bit8 28 256 bit9 29 512 bit10 210 1024 REH bit11 21 2048 REH bit12 212 4096 REH bit13 213 8192 REH bit14 214 16384 bit15 215 32768 07 255 0 STAT ERR mg STATus QUEStionable ZZ 3 2 STATus QUEStionable QUEStionable Bd 3 2 1 3 2 1 Ed 3 2 2 K 3 2 2 VOLTage NOT USED CURRent NOT USED TIME NOT USED POWer NOT USED TEMPerature NOT USED FREQuency PHASe NOT USED MODulation NOT USED CALibration NOT USED MEASure NOT USED NOT USED NOT USED INSTrument NOT USED Command Warning NOT USED NOT USED 3 2 1 3 2 1 QUEStionable QUEStionable DBO DB1 DB2 DB3 DB4 DB5 DB6 DB7 DB8 DB9 DB10 DB11 DB12 DB13 DB14 DB15 3 dN CTNS NIN IdOS Reference Clock 0 Unlock QUEStionable Measure
111. ce Trigger Source Query TRIGger SEQuence SOURce mode mode EXT External TMM WTF IF Wide IF Video SG SG SG Marker SG SG TRIG SOUR gt EXT 2 42 25 Jul HE 2 5 4 Trigger Slope TRIGger SEQuence SLOPe POSitive NEGative Trigger Slope lt TRIGger SEQuence SLOPe mode a F Z3 mode POSitive a NEGative p L P4 TRIG SLOP POS Am TRIGger SEQuence SLOPe Trigger Slope Query TRIGger SEQuence SLOPe mode lt mode gt POS
112. dg ae eB 2 64 READ OW Lanin eeii nE E e ete dt A vu dae etd asa a Rd a 2 64 MEASure CWLan n sse enne n en nnn ente EEEE enirn sn nennt nnne n nnne nnne 2 65 2 6 2 EVM Measurement uate 2 66 SENSe CWLan EVM STATe OF FION O 1 ccecceeeeeeeeeeeeeeeeeeseeeeeeeeeceaeeeseaeeseaeeeseaeeeseaeeeseeeeeeneess 2 66 SENSe CWLan EVMESTATe17 eee 2 66 SENSe CWLan EVM AVERage STATe OFFION O 1 senem 2 67 SENSe CWLan EVM AVERage STATe eet 2 67 SENSe CWLan EVM AVERage COUNT integer ett 2 68 SENSe CWLan EVM AVERage COUNC eessssssse eene eene ener nere nennen nnns 2 68 SENSe CWLan EVM TIME LENGth STATe AUTO OFF ONJO0J1 iain 2 69 SENSe CWLan EVM TIME LENGth STATe AUTO7 nennen 2 69 SENSe CWLan EVM TIME LENGth integer teeta 2 70 SENSe CWLan EVM TIME LENGHh Soest si 2 71 SENSe CWLan EVM TIME OFFSet integer erate 2 71 SENSe CWLan EVM TIME OFFS el recercar REEE AEAEE ENEE EENEN AEA 2 72 SENSe CWLan EVM CMEThod PSDU 1KCPreamble 1K99 seem 2 73 SENSeJ CWLan EVM CMETh0OQ seesssssssssssesese eene nennen nennen nnn nennen nennen enters enne sienne 2 74 2 2 2B SCPIT AeE VER SENSe CWLan EVM EQUalizer TRAining SEQ SDATea eee eene 2 75 SENSe CWLan EVM EQUalizer TRAINING sss nnne 2 75 SENSe CWLan EVM TRACk AMP OFFIONIOI1 mI 2 76 SENSe CWLan EVM TRACK AM
113. dth AVERage COUNt integer Storage Count A SENSe CWLan OBW1dth AVERage COUNt SENSe CWLan OBWidth TIME PSEarch OFF ON 0 1 Z Preamble Search SENSe CWLan OBWidth TIME PSEarch SENSe CWLan OBWidth TIME LENGth STATe AUTO A Analysis Length Setup BEETONTUES SENSe CWLan OBWidth TIME LENGth STATe AUTO SENSe CWLan OBWidth TIME LENGth time Analysis Length SENSe CWLan OBWidth TIME LENGth SENSe CWLan OBWidth TIME OFFSet time Analysis Offset SENSe CWLan OBWidth IIME OFFSet SENSe CWLan OBWidth BWIDth RESolution 30 100 300 Resolution Bandwidth SENSe CWLan OBWidth BWIDth RESolution SENSe CWLan OBWidth DETector FUNCtion POSitive Detection RMS SENSe CWLan OBWidth DETector FUNCtion Occupied Bandwidth SENSe CWLan OBWidth PERCent 99 90 Percent SENSe CWLan OBWidth PERCent SENSe CWLan OBWidth LIMit UPPer DATA bandwidth Limits SENSe CWLan OBWidth LIMit UPPer DATA 2 61 B26 SOPI FN 1A Ry bE Transmit Spectrum Mask 2 6 6 2 6 6 Transmit Spectrum Mask Transmit Spectrum SENSe CWLan TOSPectrum STATe OFF ON 0 1 Mask Measurement SENSe CWLa
114. e EVENItJ 3 9 P STATus QUEStionable MEASure CONDition 3 9 A STATus QUEStionable MEASure ENABle 5 integer eerie 3 10 A STATus QUEStionable MEASure ENABle 3 10 d STATus QUEStionable MEASure NTRansition xen 3 11 STATus QUEStionable MEASure NTRansition 3 11 STATus QUEStionable MEASure PTRansition IDtegel o uteri eo c is 3 12 STATus QUEStionable MEASure PTRansition 3 12 3 8 STATus OPERation i 3 13 STATus OPERation EVENItJ ite 3 14 STATus OPERation CONDition usss 3 14 STATus OPERation ENABle integer 3 15 STATus OPERation ENABle sss 3 15 STATus OPERation NTRansition integer 3 16 STATus OPERation NTRansition 3 16 STATus OPERation PTRansition integer 3 17 STATus OPERation PTRansition 3 17 3 1 3E 9CP7 3 1 STATus ERRor Measurement Status Query STATus ERRor status status bitO bit1 bit2 bit3 bit4 bit5 bit6
115. e center frequency in the negative offset 3 Hz 21 Pass Fail flag on the negative offset 3 1 fail O pass 22 Minimum margin level on the positive offset 3 dBm 23 Minimum margin from limit line on the positive offset 3 dB 24 Minimum margin offset frequency from the center frequency in the positive offset 3 Hz 25 Pass Fail flag on the positive offset 3 1 fail 0 pass 26 Minimum margin level on the negative offset 4 dBm 27 Minimum margin from limit line on the negative offset 4 dB 28 Minimum margin offset frequency from the center frequency in the negative offset 4 Hz 29 Pass Fail flag on the negative offset 4 1 fail O pass 30 Minimum margin level on the positive offset 4 dBm 31 Minimum margin from limit line on the positive offset 4 dB 32 Minimum margin offset frequency from the center frequency in the positive offset 4 Hz 33 Pass Fail flag on the positive offset 4 1 fail 0 pass 34 Pass Fail flag on overall offset 1 fail O pass 35 Count of Transmit Spectrum Mask Measurements Result Mode AJB 26 WEB 2 6 2 36 Absolute power spectral density for negative offset 1 start frequency dBm 37 Absolute power spectral density for positive offset 1 start frequency dBm 38 Absolute power spectral density for negative offset 2 start frequency dBm 39 Absolute power spectral density for positive offset 2 start fr
116. eeeeeseeeeaeees 2 97 SENSe CWLan OBWidth STATe OFF ONIO0 1 ui 2 97 SENSe CWLan OBWidth STATe sssssssssesssessesseeeneeee enne enemrnn ntes nnne nnns nnne 2 97 SENSe CWLan OBWidth STORage MODE OFF AVERage MAXWHold sess 2 98 SENSe CWLan OBWidtn STORage MODE2 eene emere en en nennen nennen 2 98 SENSe CWLan OBWidth AVERage COUNt integer essem en 2 99 SENSe CWLan OBWidth AVERage COUN ii 2 99 SENSe CWLan OBWidth TIME PSEarch OFF ON O aassnnnnsnnnnnennnnnennnnnennnnssennnnnennnnsennnnneennnsennnne 2 100 SENSe CWLan OBWidth TIME PSEarch ete 2 100 SENSe CWLan OBWidth TIME LENGth STATe AUTO OFFIONIO1 2 101 SENSe CWLan OBWidth TIME LENGth S TATe AUTO ui 2 101 SENSe CWLan OBWidth TIME LENGth Sm 2 102 SENSe CWLan OBWidth TIME LENGth eene enne nnne 2 102 SENSe CWLan OBWidth TIME OFFSet time aii 2 103 SENSe CWLan OBWidth TIME OF FSet ui 2 103 2 3 B2 SOPI FN A Ry RERA SENSe CWLan OBWidth BWIDth RESolution 30 1001300 2 104 SENSe CWLan OBWidth BWIDth RESolution cece eeeeeeceeaecaeeeeeeeseseenasaeeeeeeneees 2 104 SENSe CWLan OBWidth DETector FUNCtion POSitive RMS etre 2 105 SENSe CWLan OBWidth DETector FUNCTION 2 105 SENSe CWLan OBWidth PERCent 99 90 ui 2 106 SENSe CWLan OBWidth PERCent Leite 2 106 SENSe CWLan OBWidth LIMit UPPer DATA bandwidth esse 2
117. ent SELect lt apl name gt apl name WDEVICE STGANA SPECT CONFIG Config IIVI DR WD INST WDEVICE EV 2 7 Q rg EA A y E l i A2 SOPI FN 1A Ry E RERA INSTrumentSYSTem WDEVICE ACTive INACtive MINimum Application Switch And Window Status INSTrument SYSTem apl name gt lt window gt apl name WDEVICE CONFIG Config window ACTive INACtive MTN1mum TNST SYST WDEVICE ACT INSTrument SYSTem WDEVICE Application Switch And Window Status Query
118. equency dBm 40 Absolute power spectral density for negative offset 3 start frequency dBm 41 Absolute power spectral density for positive offset 3 start frequency dBm 42 Absolute power spectral density for negative offset 4 start frequency dBm 43 Absolute power spectral density for positive offset 4 start frequency dBm 44 Absolute power spectral density for negative offset 4 end frequency dBm 45 Absolute power spectral density for positive offset 4 end frequency dBm 2 55 FJ EA A y l g Ie TH BQH SOPI FN 1A Ry bE 2 6 2 Result Mode 1 EVM rms average 2 EVM rms max 3 EVM peak max 4 EVM rms average dB 5 EVM rms max dB 6 EVM peak max dB 7 Pass Fail flag of EVM rms average 8 Pass Fail flag of EVM rms max 9 Pass Fail flag of EVM peak max 4 A B 10 Frequency Error average Hz 11 Frequency Error max Hz 12 Frequency Error average ppm 13 Frequency Error max ppm 14 Pass Fail flag of Frequency Error average 15 Pass Fail flag of Frequency Error max 16 Center Frequency Leakage average dB 17 Center Frequency Leakage max dB 18 Pass Fail flag of Center Frequency Leakage average 19 Pass Fail flag of Center Frequency Leakage max 2 56 Result Mode A B 2 6 2
119. l amp1 S4 gt re1 ampl E4 gt rel ampl Sn Transmit Spectrum Mask Offset n 100 0dB 0 1 dB rel amp1 En Transmit Spectrum Mask Offset n 100 0dB 0 1 dB ft Offset CALC CWL TOSP LIM DATA 0 0 20 0 20 0 28 0 28 0 40 0 40 0 40 0 2 117 BLE SCPIT 7UWUTo6eE ILR RI 2 118 3Zt SCP7 SCPI 3 1 kk 3 2 STATUS ERRO oraino sd eee dis 3 2 3 2 STATus QUEStionable i 3 3 STATus QUEStionable EVENTt 3 5 STATus QUEStionable CONDition 3 5 3 STATus QUEStionable ENABle integer 3 6 STATus QUEStionable ENABle 3 6 STATus QUEStionable NTRansition integer 3 7 STATus QUEStionable NTRansition 3 7 z STATus QUEStionable PTRansition integer 3 8 m STATus QUEStionable PTRansition 3 8 T STATus QUEStionable MEASur
120. n TOSPectrum STATe Gl SENSe CWLan TOSPectrum STORage MOD ERage MAXHold Storage Mode SENSe CWLan TOSPectrum STORage MODE SENSe CWLan TOSPectrum AVERage COUNt integer LH Storage Count SENSe CWLan TOSPectrum AV Lt Rage COUNt SENSe CWLan TOSPectrum IIME PSEarch OFF ON 0 1 Preamble Search SENSe CWLan TOSPectrum TIME PSEarch SENSe CWLan TOSPectrum TIME LENGth STATe AUTO Analysis Length Setup ON TEI SENSe CWLan TOSPectrum TIME LENGth STATe AUTO SENSe CWLan TOSPectrum TIME LENGth time Analysis Length SENSe CWLan TOSPectrum TIME LENGth SENSe CWLan TOSPectrum TIME OFFSet time LE Analysis Offset SENSe CWLan TOSPectrum TIME OFFSet Gl SENSe CWLan TOSPectrum DETector FUNCtion POSitive RMS Detection SENSe CWLan TOSPectrum DETector FUNCtion CALCulate CWLan TOSPectrum LIMit DATA EE rel ampl rel ampl rel ampl rel ampl Limit Level rel ampl rel ampl rel ampl rel amp1 gt CALCulate CWLan TOSPectrum LIMit DATA 2 62 2 6 1 Measure CONFigure CWLan Batch Measurement INITiate CWLan Batch Measurement 26 NE
121. ne enne 2 35 iDISPlay ANNotationTlITLeIDAIALTOK 2 36 5 2 37 2 5 1 2 38 INI Tiate CON Tinuous OFF ON O 1 4 RR aa a a hia 2 38 FINI Tate CONTINUOUS MEE 2 38 FINI Tate MODE CONTINUOUS EL 2 39 INIateiMODSINGIBOS ee 2 39 NiTiateEIMMediate e 2 39 GCONPIQUIC aces e X 2 40 2 5 2 TIGGER SWIC PM 2 40 TRIGger SEQuence STATe OFF ON O 1 ieee 2 40 TRIGger SEQuencelSTATe17 ee 2 4 1 2 5 3 TIGER rc 2 41 TRIGger SEQuence SOURce EXTernal 1 IMMediate WIF RFBurst SG 2 41 TRIGger SEQuence SOURCe uec nere tede enne rue ennt di 2 42 2 5 4 Tigger SlOP Cais IT RE 2 43 TRIGger SEQuence SLOPe POSitive NEGative sssessssessseeenenenneenene nennen 2 43 TRIGger SEQuence SLOPe sssssssssssssssseseeeeeen eene neneeren eren nn nenenrnr enn nnne nennen 2 43 TRIGger SEQuence WIF RFBurstLEVel ABSolute lt ampl gt ieee 2 44 TRIGger SEQuence WIF RFBurst LEVel ABSolute eene 2 45 TRIGger SEQuence DELay time ei 2 45 TRIGger SEQuence DELay ca aa cert tr ie eee eee ieee nennen nenne nnn nennen nennen nnne nnn 2 46 COME 5 000 Nee nec 2 47 2 6 1 Measure si ERAI etie UE 2 63 CONFigure CWLAM ident edet RR redet e bac d ec e alee dee e a 2 63 SINI Tate C WLANs P aa a a aeaa a a a E 2 63
122. nteger integer H CWL TOSP AVI gt 10 2 110 ER COUN 2 200 2s Burst Interval 1 H3 26 WEB SENSe CWLan TOSPectrum TIME PSEarch OFF ONJ0 1 Preamble Search Preamble Search On Off SENSe CWLan TOSPectrum TIME PSEarch mode mode Preamble Search On Off OFF 0 ON 1 Preamble Search Preamble Search On CWL TOSP TIME PSE ON Q rg EA A y E i 2 111 SENSe CWLan TOSPectrum TIME PSEarch Preamble Search Query Preamble Search On Off SENSe CWLan TOSPectrum TIME PSEarch switch switch Preamble Search 0 1 Preamble Search ull Preamble Search CWL TOSP TIME PSE gt 1 A24 SOPI FN A Ry bE SENSe CWLan TOSPectrum TIME LENGth STATe AUTO OFFIONIOI1 Analysis Length Setup Analysis Length
123. on integer Questionable Status Register Positive Transition QUEStionable STATus QU integer fis PR EStionable PTRansition integer 1 0 65535 QUEStionable 16 STAT OUES PTR 16 STATus QUEStionable PTRansition Questionable Status Register Positive Transition Query QUEStionable STATus QU integer integer EStionable PTRansition 1 0 65535 QUEStionable STAT OUES gt 16 PTR STATus QUEStionable XY STATus QUEStionable MEASure EVENt Questionable Measure Register Event
124. onable MEASure NTRansition Questionable Measure Register Negative Transition Query QUEStionable Measure V EStionable MEASure NTRansition STATus QU integer integer QUEStionable Measure d EASure NTRansition integer 1 0 65535 STAT QUES M EAS NTR gt 16 16 3 NXSCNONINE MIX IdOS H HJ H Hy 3 11 3E 9CP7 STATus QUEStionable MEASure PTRansition integer Questionable Measure Register Positive Transition QUEStionable Measure Ed STATus QUEStionable MEASure PTRansition integer integer
125. r max 89 Pass Fail flag of Chip Clock Error average 90 Pass Fail flag of Chip Clock Error max 91 Count of Modulation Accuracy Measurements 92 Occupied Bandwidth average Hz 93 Occupied Bandwidth max Hz 94 Pass Fail flag of Occupied Bandwidth average 95 Pass Fail flag of Occupied Bandwidth max 96 Count of Occupied Bandwidth Measurements 2 51 FJ EA A y l g z REQ SOPI FN 1A Rk SH 2 6 2 Result Mode 1 Transmit Power average dBm 2 Transmit Power max dBm 3 Pass Fail flag of Transmit Power average 4 Pass Fail flag of Transmit Power max 5 Peak PSD average dBm MHz 6 Peak PSD max dBm MHz 7 Pass Fail flag of Peak PSD average 8 Pass Fail flag of Peak PSD max 9 Power on Ramp Time average ps 10 Power on Ramp Time max ps 11 Power down Ramp Time average us 12 Power down Ramp Time max us 13 Pass Fail flag of overall Ramp average 14 Pass Fail flag of overall Ramp max 15 Pass Fail flag of Power on Ramp average 16 Pass Fail flag of Power on Ramp max 17 Pass Fail flag of Power down Ramp average 18 Pass Fail flag of Power down Ramp max 19 Count of Transmit Power Measurements 2 52 26 WEB 2 6 2 Result Mode 1 Peak PSD RBW of the reference channel dBm 2
126. ter Enable Query OPERation STATus OPERation ENABle integer integer 1 s DE 07 65535 OPERation STAT OPER ENAB gt 16 3 15 3E 9CP7 STATus OPERation NTRansition lt integer gt Operation Status Register Negative Transition OPERation STATus OPERation NTRansition integer integer 1 0 65535 OPERation 16 STAT OPER NTR 16 STATus OPERation NTRansition Operation Status Register Negative Transition Query OPERation
127. uery 0 FSet Transmit Spectrum Mask SENSe CWLan TOSPectrum TIME OFFSet time time 1000 0 1000 0 us 0 1 us s Transmit Spectrum Mask CWL TOSP TIME OFFS 0 0001000 2 114 26 JE SENSe CWLan TOSPectrum DE Tector FUNCtion POSitive RMS Detection Transmit Spectrum Mask SENSe CWLan TOSPectrum DETector FUNCtion mode e lt mode gt Z POSitive 9i RMS RMS gt REDRE RMS t CWL TOSP DET RMS P H SENSe CWLan TOSPectrum DE Tector FUNCtion Detection Query SENSe CWLan TOSPectrum DETector FUNCtion mode mode mode MN RMS RMS
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