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MX283027A-001 WLAN テストソフトウェア 取扱説明書 操作編 アンリツ
Contents
1. CD VN ill iv 1
2. Analysis Length 3 21 3 22 PIE WWE Ramp Down Detection Biz On Off E Ramp Down Detection 3 5 2 2 ON Ramp Down Detection Ramp Down Detection SENSe CWLan TXPower TIME OFF RDDetection OFF ON 0 1 gt Detection Offset Bu
3. 7 BKEBE 3 1 2 1 Single Continuous Single Burst Interval Storage Count gt INITiate MODE SINGle Continuous Burst Interval M Storage Count gt INITiate CONTinuous OFF ON 0 1 INITiate MODE CONTinuous P
4. 3 5 MS2830A Buffer Out 10 MHz 00006 DDODD 00880 AOON 1 955600 OU QD oo EDS QD 98000000909 JE O00 je Reference Input 10 MHz RF Output RE impul RF Input 4 2 1 1 FAB HEAR 4 a 10 MHz Reference Input b 7 CAL 1 10 MHz Reference Input WLAN b
5. 1 2 CD 42 HRAROAA 4 2 30 AC 4 2 1 1 2
6. o xL Next 0 F5 Back 1 D c Top e F8 9 6 6 8 6 E E J E e BORE Ph 11 1 Time Sweep
7. Bl MX283027A 001 WLAN MS2830A MS2690A MS2691A MS2692A 4 MS2830A MX283027A MX283027A 001 WLAN MX283027A 001 WLAN MX370111A MX269911A WLAN IQproducer MX283027A 001 WLAN WLAN IQproducer e
8. H 6 30 4 FA 5
9. 2 0 2 0 us Pes ENSe CWLan TXPower TIME DOFFset time Transmit Power Level Limit Bum 1 Bx A n Dili Tu E 40 0 30 0 dB SENSe CWLan TXPower LIMit TPOWer ampl Peak PSD Limit Biz HF S B Exe GEH 56 0 14 0 dB SENSe CWLan TXPower LIMit PSDensity ampl 85 WEAHORE Max Ramp Up Time BUE Ramp Up Time 802 11b 802 11g DSSS Be SER 0 1 10 0 us SENSe CWLan PVTime LIMit URTime time 3 Max Ramp Down Time BE Ramp Down Time 802 11b 802 11g DSSS IE SE 0 1 10 0 us SENSe CWLan PVTime LIMit DRTime time 3 28 PIE WWE 3 5 8 Occupied Bandwidth 5
10. BUE AUTO 6MBPs BPSK 6 Mbps 9MBPs BPSK 9 Mbps 12MBps QPSK 12 Mbps 1 8MBps QPSK 18 Mbps 24MBps 16QAM 24 Mbps 36MBps 16QAM 36 Mbps 48MBps 64QAM 48 Mbps 54MBps 64QAM 54 Mbps SENSe CWLan EVM DRATe mode 3 7 PIE WWE Modulation Biz WLAN Standard lt W11B WGDSss BUE AUTO DSSS1 DSSS2 CC55 ger W11B WGDSss RU CARO DSSS 1 Mbps DSSS 2 Mb
11. Ek F 1 1
12. 2 1 OE 2 2 2 1 1 iiic tan aaro rig cauaa 2 2 2 1 2 a 2 7 2 2 i 2 10 2 3 i 2 11 2 3 1 kk 2 11 2 32 2 11 2 4 kk 2 12 PAA PAG PET 2 12 242 e vct RE 2 12 BORE Ph 2 1 2 1 1 HDD Recall 2 2 MS2830A LE T 10414 21 12 Anritsu MS2830A z 2 000808080006 Appi 2 1 1 1 AC Power On
13. N F 6 7 5 1 7
14. 8 Shr H 9 EHL H USB CF
15. 2 1 3 4 1 2 3 1
16. MS2830A L Ss Cal 2 SIGANA All MS2830A MS2830A 2 12 PIE WE MX283027A 001 WLAN FAL TC PERV 3i i IER ERREUR 3 2 3 1 1 i 3 2 3 1 2 ba 2 T e 3 3 3 2 i 3 4 3 3
17. RBW 100 kHz 19 14 dBm L3 BRB 1 3 1 IEEE 802 11g ERP OFDM 2412 2472 MHz 1 139 2484 MHz 14 15 30dBm MS2830A 045 9 30 dBm MS2830A 045 18 28 CAL 3 250 us 13 Hz 18 28C CAL Channel Estimation SEQ Phase Tracking ON Amplitude Tracking OFF lt 1 2 rms 18 28 C CAL ANT 7 R F 2 10 dB Input Level 0 6 dB lt 50 dBc Nominal
18. TRIGger SEQuence SLOPe mode Wide IF Trigger Level Bux Wide IF I iE SE 60 50 dBm TRIGger SEQuence WIF RFBurst LEVel ABSolute ampl Trigger Delay Be 2 42s TRTGger S 3 6 EOuence D ELay time MTORE 3 35 PIE WWE 3 7 EVM 3 36 EVM Off 1 On 3 7 1 FETCh CWLan n READ CWLan n MI EASure CWLan n n 1 4 Nolin 1 3 7 1 EVM EVM rms ave
19. Application Switch 2 XXX XXX 77 BORE Ph 2 4 2 4 1 L Preset 2 Preset 24 2
20. Single 1 H 0 Continuous t 21 BEDE Enter Cancel 14 ia Shift 15 i 1 Gp BATH 163880 A PRA C o en 16 gr input RF RE
21. Ethernet USB A USB USB Monitor Out RGB AC 13 SA Trigger Input TTL 14 SG Trigger Input Opt TTL 15 HDD 16 HDD Opt 17 kon IF Output 21 BEDE SA Trigger Input SPA SA TTL BNC a SG Trigger Input TTD BNC HDD HDD Option 2 1 2 1 AUX Q E 6 auia K 2 1
22. A mx SECCET IEEE SISSON MHS BEMERICOUTESLTUWET A
23. 1K99 Analysis Length Analysis Length Setup 1000 EVM X IEEE std 802 11 1999 PSDU PSDU SENSe CWLan EVM CMEThod PSDU 1KCPreamble 1K99 Channel Estimation Bu BER SEQ SDATa SENSe CWLan EVM EQUalizer TRAining mode Amplitude Tracking Bu On Off BER OFF 0 ON 1 SENSe CWLan EVM TRACk AMP OFF ON 110 385 WeERAOKRE Phase Tracking BRE On Off WWE OFF O0 ON 1 SENSe CWLan EVM TRACk PHASe OFFIONI110 Symbol Timing Adjustment Bu EVM
24. Storage Mode Off Symbol Clock Error average BE Storage Mode Storage Count Symbol Clock Error max Bu Storage Count Storage Mode Off ROET Pass Fail flag of Symbol Clock Error average or max Bd Symbol Clock Error Pass Fail 3 41 PIE WWE 3 42 Chip Clock Error average Bu Storage Mode Storage Count EVM Calculation Method 1KCPreamble 1K99 Chip Clock Error max Bu Storage Count Storage Mode Off EVM Calculation Method 1KCPreamble 1K99
25. Minimum margin offset frequency from the center frequency in the negative offset n BUE Offset n Pass Fail flag on the negative offset n Bux Offset Fail Pass Minimum margin level on the positive offset n dBm Bd Offset Minimum margin from limit line on the positive offset n dB BE Offset 39 Transmit Spectrum Mask ONE f Minimum margin
26. Pass Fail flag of Chip Clock Error average or max Bd Chip Clock Error Limits Pass Fail Count of Modulation Accuracy Measurements Bu EVM 38 Transmit Power DEER 3 8 Transmit Power Transmit Power Off 1 On 3 8 1 FETCh CWLan n READ CWLan n 5 L lt MI EASure CWLan n n 1 2 No n 1 3 8 1 Transmit Power 3 Transmit Power average dBm a Transmit Power max dBm Pass Fail flag of Transmit Power average Pass Fail flag of Transmit Power max Peak PSD
27. 9 dB IQ Offset M IQ Offset Carrier Suppression IQ Offset 9 dB IQ Offset max BE Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset IQ Offset Storage Count Storage Mode Off Pass Fail flag of IQ Offset average or max IQ Offset Limits Pass Fail 3 39 PIE WWE Pass Fail flag of Spectrum Flatness BU Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Spectrum Flatness Pass Fail 802 11b
28. BER OFF AVERage MAXHo1d SENSe CWLan OBWidth STORage MODE OFF AVERage MAXHold ZH Occupied Bandwidth AVER READ MEASure FETCh Average max ax MAXHold max average Storage Count Bd Occupied Bandwidth i 3x E SER 27 200 SENSe CWLan OBWidth AVERage COUNt integer ZH Ti Hn II Occupied Bandwidth 3 25 PIE WWE 3 26 Analysis Length Setup BUE
29. On 100 us BR OFF 0 ON 1 SENSe CWLan OBWidth TIME OFF ON 110 rA ENGth STATe AUTO Analysis Length Bux Occupied Bandwidth 100 0 7000 0 us Burst Interval SENSe CWLan OBWidth TIME kd ENGth time ZG Occupied Bandwidth 3 Analysis Offset Bu Occupied Bandwidth 1000 0 1000 0 us SENSe CWLan OBWidth TIME OFFSet time A Occupied Bandwidth ira 35 WeERAOKRE Preamble Search Preamble Search On Off On Pre
30. Lssan J mica aw Ele RBW VBW meses Time Sweep 2 seen Cong Configuration mee Measure wee 85D PeakSeatch
31. 3 5 4 1 Transmit Spectrum Mask Measurement Transmit Spectrum Mask Transmit Spectrum Mask On Off 3 qr Storage Mode Transmit Spectrum Mask Storage Count Analysis Length Setup Transmit Spectrum Mask On Off Analysis Length Transmit Spectrum Mask 3 EN Analysis Offset Transmit Spectrum Mask Preamble Search Preamble Search On Off Detection Limits Transmit Spectrum Mask des Transmit Spectrum Mask Measurement Bu Transmit Spectrum Mask On Off BER On Transmit Spectrum Mask Off Transmit Spectrum Mask SENSe CWLan TOSPectrum STATe OFF ON 0 1 3 29 PIE WWE 3 30 S
32. 68 dB 11 MHz 68 dB 20 MHz 68 dB 30 MHz RBW 100 kHz 19 14 dBm IE BE 1 3 1 IEEE 802 11g ERP DSSS IEEE 802 11b 2412 2472 MHz 1 139 2484 MHz 14 15 30dBm MS2830A 045 9 30 dBm MS2830A 045 18 28 CAL 3 400 us 21 Hz lt 1 9 rms 18 28C CAL 10 dB
33. Pass Fail Peak PSD average Bu Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Peak PSD RBW 1 MHz Peak PSD max Bu Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Peak PSD Storage Count Storage Mode Off RBW 1 MHz Pass Fail flag of Peak PSD average or max BUE Peak PSD Limit Pass Fail Power on Ramp Time average B Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Power on Ramp Time Power on Ramp Time max Bu Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Power on Ramp Time Storage Count
34. EL Storage Mode Off 38 Transmit Power DEER Pass Fail flag of Power on Ramp average or max Bux Max Ramp Up Time Pass Fail Power down Ramp Time averade Bu Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Power down Ramp Time Power down Ramp Time max BE Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Power down Ramp Time Storage Count Storage Mode Off Pass Fail flag of Power down Ramp Time average or max Bux Max Ramp Down Time Pass Fail Pass Fail flag of overall Ramp average or max Bd Power on Ramp Time Power down Ramp Time
35. SENSe CWLan TOSPectrum TIME LENGth time ZH Transmit Spectrum Mask Analysis Offset Bu Transmit Spectrum Mask Be SER 1000 0 1000 0 us SENSe CWLan TOSPectrum TIME OFFSet time ZH Transmit Spectrum Mask Preamble Search Bux Preamble Search On Off On Preamble BR ON 1 Preamble Search OFF 0 Preamble Search SENSe CWLan TOSPectrum TIME PSEarch OFF ON 0 1 3 31 PIE WWE Detection Bu Transmit Spectrum Mask WERE POSitive RMS RMS SENSe CWLan TOSPectrum DETector FUNCtion POSitive RMS Limit Level BE Trans
36. SENSe CWLan EVM STATe OFF ON 0 1 Storage Mode Bu EVM On Off BERE On Storage Count Off SENSe CWLan EVM AVERage STATe OFF ON 0 1 ZG EVM Storage Count Bu EVM 2 200 SENSe CWLan EVM AVERage COUNt integer nj EVM HH A EVM 3 12 35 WERADOKRE Analysis Length Setup B SIGNAL 802 11b 802 11g DSSS EVM Calculation Method 1K
37. 2 3 1 Z XXX 1 Configuration 2 Configuration Application Switch Settings Application Switch Registration 3 Load Application Select Unloaded Applications XXX Loaded Applications XXX Load Loaded Applications Unloaded Applications XXX 4 Set Load Loaded Applications XXX Load 2 3 2
38. T Elta a b c d e KE gt 2 3 1
39. 1 WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method 1KCPreamble 1K99 0 777 1112 Preamble Auto Long 56 Preamble Short WLAN Standard 802 11n 0 1370 Burst Interval 0 036 X250 1 SENSe CWLan EVM TIME OFFSet integer 3 15 PIE WWE 3 16 EVM Calculation Method Bux EVM 1KCPreamb1e 1K99 1000 PSDU PSDU 802 11b 802 11g DSSS 1KCPreamble Analysis Length Analysis Length Setup 1000 EVM IEEE std 802 11 2007
40. Preamble Preamble Search 3 5 2 2 On 100 us B ON Preamble Search OFF Preamble Search SENSe CWLan TXPower TIME PSEarch OFF ON 0 1 3 5 2 2 Preamble Search Ramp Down Detection Transmit Power Preamble Ramp Down i sub Search Detection SIGNAL 10 us SIGNAL Data Length
41. e WLAN lt gt WLAN T e WLAN WLAN e MX370111A MX269911A WLAN IQproducer MX283027A 001 WLAN WLAN IQproducer WLAN IQproducer MS2830A GED ICOS eee 1 MA 1 1 NE oc EET 1 2 12 10 0 EE 1 3 Ce 1 4 2 2 1 2 1 E S TOE A 2 2 2 2 2 10 2 3 i 2 11 2 4 kk 2 12 E 3 1 3 1 3 2 3 2
42. MX283027A 001 WLAN IEEE 802 11 WLAN RF A e MX283027A e MS2830A 005 105 31 25MHz MS2830A 006 106 10MHz AZ MS2830A 040 3 6 GHz s MS2830A 020 021 WLAN WLAN IQproducer L2 Bite 1 2 1 2 1 1 2 1 1 1 2 1 1 MX283027A 001 WLAN
43. at Pass Fail flag of EVM peak max Bd EVM peak Limits Pass Fail fF 3 37 PIE WWE Frequency Error average Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Hz ppm Frequency Error max Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Storage Count Storage Mode Off Hz ppm Pass Fail flag of Frequency Error average or max Bd Frequency Error Limits Pass Fail Center Frequency Leakage averade ni Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method Carrier Leak
44. 0 1 1000 0 SENSe CWLan EVM LIMit UPPer PEAK real Frequency Error Limits Bux Frequency Error Be SER 0 17 30 0 ppm SENSe CWLan EVM LIMit FERRor real Transmitter Center Frequency Leakage Limits Bd Transmitter Center Frequency Leakage Transmit Center Frequency Leakage 802 11a 802 11g OFDM x 802 11n Be oe 60 0 0 0 dBm SENSe CWLan EVM LIMit CFLeakage real IQ Offset Limits Bu IQ Offset IQ Offset 802 11b 802 11g DSSS 60 0 0 0 dB SENSe CWLan EVM LIMit IQOFfset real 35 WERADOKRE 3 5 2 Transmit Power 3 5 2 1 Transmit Output Power Transmit Power Measurement Transmit Power JI n Storage Mode a Power Transmit Power 3 Storage Count Analysis Lengt
45. O 8 Power On Power 2 Copy Recall 21 BEDE Save Guy Cal Cal Calibration U Local Local GPIB Ethernet USB B Remote Remote Preset Preset Preset U
46. Input Level 0 6 dB 2 RSS lt 50 dBc Nominal 16 68 dB 11 MHz 68 dB 22 MHz 68 dB 33 MHz RBW 100 kHz 2 19 14 dBm L3 BB 1 3 1 IEEE 802 11n HT Mixed HT Greenfield STBC MIMO MCS 0 7 32 2 4 GHz band 2412 2472 MHz 1 13 2484 MHz 14 5 GHz band 5180 5320 MHz 86 64 5550 5700 MHz 100 140 5745 5825 MHz
47. MX283027A 001 WLAN 2011 23 1 11 2011 23 11 7 5 Copyright 2011 ANRITSU CORPORATION Printed in Japan ii m 6 6 ROME 30 T BE
48. 2 11 ol 2 3 M Modulation 2 6 KFI Monitor Out 2 8 N NS D M 2 3 O OBW 1 3 28 Occupied Bandwidth ur aa 3 50 Occupied Bandwidth average Hz avera RC in 3 50 Occupied Bandwidth Measurement 3 25 Occupied Bandwidth Percent 3 27 D EE A 3 6 Offset Value uec 3 6 P Peak PSD Limit 3 22 Phase Tracking 3 17 Power down Ramp Time AV OL ERE 3 45 WK c T 3 45 Power on Ramp Time UVB 3 44 nb de M 3 44 PPDU Format esee 3 8 Preamble i 3 8 Preamble Search 3 21 3 27 3 31 Preset T idata 2 3 Q Quadrature Error AV OV AGC TE 3 41 MAX NR ei 3 41 R Ramp Down Detection 3 22 Recall Lier 2 2 Ref Input 2 7 Ren616 2 3 Resolution Bandwidth 3 27 Result 3 2 RF Output 2 5 REHAR A irent enea iicet e AEE 2 6 REA DARA A ee E AE A ids 2 5 S SA Trigger Input ik 2 9 AZI 2 Dave 2 3 IA ECC Hines A i 2 6 SG Trigger Input
49. Center Frequency Leakage max Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method Carrier Frequency Leakage Storage Count Storage Mode Off Pass Fail flag of Center Frequency Leakage average or max Transmitter Center Frequency Leakage Limits Pass Fail 3 368 3 7 EVM DIERA IQ Offset average Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method IQ Offset ll Carrier Suppression IEEE802 11 2007 Carrier Suppression 01 DQPSK RBW100 kHz sinx x
50. WLAN Standard 802 11n 1 1370 Analysis Offset Burst Interval 0 036 X 250 Analysis Offset SENSe CWLan EVM TIME 4 ENGth integer A EVM 3 14 35 WERADOKRE Analysis Offset BUE 802 11a 802 11g OFDM 802 11n PSDU 802 11b 802 11g DSSS EVM Calculation Method 1KCP 1K99 PLCP EVM Calculation Method PSDU PSDU WLAN Standard 802 11a 802 11g OFDM 0 250 Burst Interval 0 020 X 250 1 T WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method PSDU 0 45056 Burst Interval 0 192 X 11000
51. 40Lower 40 MHz Lower 40 MHz 20 MHz 40 MHz SENSe CWLan EVM CBANdwidth mode PIE WWE Burst Interval at Burst Interval AKIE EVM Storage Count Transmit Power Storage Count Occpied Bandwidth Storage Count Transmit Spectrum Mask Storage Count Storage Count X Burst Interval 2000 ms Burst Interval 100 ms EVM Analysis Length Analysis Offset DARME Transmit Power Analysis Length Occpied Bandwidth
52. 3 10 Occupied Bandwidth Ol Count of Occupied Bandwidth Measurements Occupied Bandwidth 3 01 PIE WWE 3 52 FAR HAR 4 1 4 2 4 1 1 kk 4 2 4 2 kk 4 3 lt 4 3 t ER FAB EAR 4 1 T Head ER ORE 4 1 1 TOME
53. On CU 1 5 1 Beo 90 23 Qv 9 10 11 12 13 14 Wireless Network Device Testl Preset co SIGANA AID Close LET SENSe FREQuency CENTer lt freq gt SENSe POWer RE RANGe TLEVe1 lt rea gt SENSe RADio STANdard WLAN Standard SENSe CWLan EVM STATe ON EVM On SENSe CWLan EVM AVERage STATe ON Average On SENSe CWLan EVM AVERage COUNt
54. 005 105 006 106 Signal Analyzer Signal Generator Application Switch Application Auto Application Manual MS2830A 3 5 4 Vs 22 um 1st Local Output Se AT var 044 045 A Local IF 2 6 2 1 2 1 Ref Input 5 10 13MHz 500 2 Buffer Out 10MHz 0dBm 4 Sweep Status Out TTL 21 NBO4f 2 1 2 1 Ref Input 5 MHz 10 MHz 18 MHz
55. 149 165 2 4 GHz band 15 30 dBm MS2830A 045 9 30 dBm MS2830A 045 5 GHz band 12 30 dBm MS2830A 045 6 30 dBm MS2830A 045 20 MHz channel 18 28 CAL 250 LS 13 Hz 2 4 GHz band 16 Hz 5 GHz band 40 MHz channel 18 28C CAL 250 us 62 Hz 2 4 GHz band 102 Hz 5 GHz band 20 MHz channel 18 28 CAL Channel Estimation SEQ Phase Tracking ON Amplitude Tracking OFF 1 2 rms 2 4 GHz band 1 6 rms 5 GHz band 40 MHz channel 18 28 CAL Channel Estimation SEQ Phase Tracking ON Amplitude Tracking OFF 1 6 rms 2 4 GHz band lt 2 0 rms 5 GHz band
56. 3 32 85 WEAHORE 3 5 4 2 Transmit Spectrum Mask WLAN Standard Offset MHz 2 802 11a 802 11g OFDM 802 11b 802 11g DSSS 802 11n 20MHz 802 11n 40MHz 3 33 PIE WWE 3 6 3 34 ZIJL Ax AE Trigger Switch B On Off ON 1 OFF 0 TRIGger SEQuence STATe OFF ON 110 Trigger Source Bu EXTerna1 IMMediate SG WIF RFBurst IF Wide IF Video TRIGger SEQuence SOURce mode Trigger Slope BER POSitive NEGative
57. 802 11g DSSS G 802 11a 802 11g OFDM 16 1 1 16 A EL 26 17 17 26 B i 802 11n 20 MHz 16 1 1 16 ALL _ 28 17 17 28 B Gi 802 11n 40 MHz MCS 32 42 2 2 42 A 58 43 483 58 BELET iv 802 11n MCS 32 42 33 81 6 6 31 33 42 A EL 58 48 43 58 B BE 1 A Reference Power 2 Reference Power A 2 dB ail
58. Pass Pass Fail Count of Transmit Power Measurements BUE Transmit Power 3 45 PIE WWE 3 9 Transmit Spectrum Mask Transmit Spectrum Mask 3 46 v Off 1 On CHE K 3 9 1 EETCh CWLian n READ CWTLan n MEASure CWLan n n 1 NN i3 KFO No n 1 3 9 1 Transmit Spectrum Mask Peak PSD RBW of the reference channel dBm Minimum margin level on the negative offset 1 dBm Minimum margin from limit line on the negative offset 1 dB Minimum margin offset frequency from the center frequency in the negative offset 1 Hz Pass Fail flag on the negativ
59. REM 3 6 3 4 XoBIBE ORE sees 3 7 3 5 c eeeeerrerrrirsrrrerrrssrrssrrssrrssrresrrs 3 11 3 5 1 ciae e Crate eet 3 11 3 5 2 Transmit Power 3 19 3 5 8 Occupied Bandwidth 3 24 3 5 4 Transmit Spectrum Mask i 3 29 36 FIDO ecrini E E 3 34 3 7 EVM 3 36 3 8 Transmit Power i 3 43 3 9 Transmit Spectrum Mask 3 46 3 10 Occupied Bandwidth 3 50 PIE WWE 3 1 3 1 1 MS2830 Wireless NetworkDeviceTest TERIS BEST less Network D Wireless Network Device Carrier Freq 21412 000 000 Hz Input Level 10 00 dBm Trigger Wide IF Video E ATT 4 dB Delay 0 000 us This software works only with remote commands Ref Int 3 1 1 1 Result
60. 3 Reference Power B 2 dB 4 dB Fail 4 2 3 Fail Pass 3 40 3 7 EVM DIERA IQ Gain Imbalance average B Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method IQ Gain Imbalance IQ Gain Imbalance max Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset 1Q Gain Imbalance Storage Count Storage Mode Off Quadrature Error average B Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method Quadrature Error Quadrature Error max Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Quadrature Error Storage Count
61. 3 38 Channel Bandwidth 3 9 Channel Estimation esee 3 16 Channel Number 9 4 Chip Clock Error AVOVA SC 5 EET 3 42 MA ensi piene EE quisi 3 42 Continuous kk 3 3 CODY P oen eie et nee er EE 2 2 D Data RBS 9 7 Detection 9 27 3 32 Detection Offset 3 22 E lix E 2 5 Ethernet 0 cccccecssccccessececeessneeeesssseceeseseeeessaes 2 3 Ethernet esses 2 8 EVM peak Limits 3 18 EVM rms Li 3 18 EVM Calculation Method 3 16 EVM Measurement c sccccecsssetseteeeeeees 3 12 EVM peak urb AS 3 37 EVM rms AVELA GEC T 3 37 inate b AEE E E beasts E E EAE 3 37 F Filter Type 3 17 Frequency Error average sisi etes isced ede uvae dba edd tuns G GPIB 2 8 HDD EZ aS es 2 9 Option Sei 2 9 I E E a m r E e A 2 9 Input Level 3 6 IQ Gain Imbalance VGP 3 41 D qM 3 41 IQ Offset AV R ES 3 39 Ma PC 3 39 IQ Offset LMt erresires 3 18 L Limit Level eiie soiree enne 3 32 Load Application Select
62. 20 MHz channel 18 28 C CAL 10 dB Input Level 0 6dB 2 4 GHz band 1 9dB 5 GHz band 7 IE BE 1 3 1 18 28C CAL 10 dB Input Level 0 8 dB 2 4 GHz band 2 0dB 5 GHz band 40 MHz channel lt 50 dBc Nominal 2 4 GHz band 68 dB 11 MHz 68 dB 20 MHz 68 dB 30 MHz 5 GHz band 68 dB 11 MHz 68 dB 20 MHz 68 dB 30 MHz RBW 100
63. FFT 1 40 MHz 802 11a 802 11g OFDM 802 11n Bit E 16 16 SENSe CWLan EVM TADJust lt integer gt Filter Type Bd E EVM 802 11b 3 DSSS E 802 11g BUR EX NONE GAUSsian RCOSine SENSe CWLan EVM FILTer R EFerence lt mode gt Alpha BT Biz MM 0 37 1 0 SENSe CWLan E BT EVM FILTer ALPHa real 3 17 PIE WWE 3 18 EVM rms Limits BUE EVM Gms 0 1 60 0 96 SENSe CWLan EVM LIMit UPPer DATA real EVM peak Limits BUE EVM Deak
64. f J Buffer Out H 3 10 MHz XH Sweep Status Out E E 27 Aux GP IB A zum USB Remote C LAN USB I 9 10 11 Monitor Out X i O Line Input 50 60Hz 440VA Max 100 120V 200 240V AUX 2 1 2 1 GPIB GPIB USB B USB
65. 17 ES RF Output O RF 9 On Off On 8 044 045 BORE Ph RF RF 044 045 8 SG Output Opt 19 USB A USB USB 2 20 Modulation ane RF On Off On 9 044 045 21 Application 2 SPA Spectrum Analyzer
66. 3 5 3 1 Occupied Bandwidth Occupied Bandwidth Measurement Occupied Bandwidth On Off Occupied Bandwidth ET Occupied Bandwidth Storage Count ELET Storage Mode Analysis Length Setup On Off Analysis Length Occupied Bandwidth Occupied Bandwidth Preamble Search Preamble Search On Off Analysis Offset Resolution Bandwidth RBW Detection 2 Occupied Bandwidth Percent o Panda H o OBW Limits Occupied Bandwidth 3 24 85 WEAAHORE Occupied Bandwidth Measurement Bux Occupied Bandwidth On Off BUR EX On Occupied Bandwidth Off Occupied Bandwidth SENSe CWLan OBWidth STATe OFF ON 0 1 Storage Mode Bu Occupied Bandwidth
67. OFF ON O1 1 A Transmit Power Storage Count BUE Transmit Power E ES E DER 2 200 SENSe CWLan TXPower AVERage COUNt integer ZG tiy Transmit Power pm Ke 35 WERADOKRE Analysis Length Be Be SER 100 0 7000 0 us Burst Interval SENSe CWLan TXPower TIME A 3 Transmit Power Preamble Search OFF Ramp Down Detection OFF Analysis Length a 3 5 2 2 kd 1 LENGth time Preamble Search Bux Preamble Search On Off On
68. PC WLAN IQproducer i CD ROM CD ROM 1 2 2 1 2 2 1 1 2 2 1 MX283027A 001 WLAN H MX283027A 001 WLAN H W3473AW W3474AW MX370111A MX269911A WLAN IQproducer MX283027A 001 WLAN WLAN IQproducer W3488AW Ble BE 1 3 1 3 1 Nominal MS2830A Attenuator Mode Mechanical Atten Only 1 3 1 IEEE 802 11a 5180 5320 MHz 36 64 555
69. 1 1 IF IF 044 045 BORE Phi 2 2 2 2 1 RF Input RF A it EZ pm mcns MS2830A Anritsu MS2830A 2 2 1 5 MHz 10 MHz13 MHz Ge 3 a 2 Ref ne e Input E JJ 5 10 13MHz 500 d EJ e E un rm ET u e 5 o X 4 2 m 4 ay x ASD e 5 MHz 10 MHz 13MHz 2 2 2 2 10 28 23 Load Switch
70. 2 12 AT A ASIE ee TORIS 3 2 SEV VER CCR EE 4 2 avsvuletvvsvauoepisivdnsvesudeusevsvedeosbnabsonpunnedvedee 1 4 DOE JS MM 1 3 3 2 EIU C NENNT 2 5 RA 2k 2 2 lU grs CEN 2 9 2 2 pu EE 2 7 A Rk 2 3 3 2 AI AI 8 E SEGA
71. Analysis Length Transmit Spectrum Mask Analysis Length 0 2 ms EVM Analysis Length Analysis Length WLAN Standard G 802 11b 802 11g DSSS 0 196 ms Analysis Offset 11000 Analysis Length 11000 i 802 11a 802 11g OFDM 0 020 ms 0 004 x Analysis Offset 0 004 x Analysis Length Gii 802 11n 0 036ms 0 004 x Analysis Offset 0 004 x Analysis Length SENSe CWLan CAPTure BURSt INTerval time Burst Threshold Bux LE api 07 60 dB SENSe CWLan CAPTure BURSt THReshold integer 3 10 35 WEARAOKRE 3 5 1 H 3 5 1 EVM 3 5 1 1 EVM EVM Measurement On Off Storage Mode
72. Lk 2 9 stt m 2 6 Shift Liisi 2 5 Single Tl ME SS 3 3 SPA e 2 6 Storage Count 3 12 3 20 3 25 3 30 Storage Mode 3 12 3 20 3 25 3 30 Sweep Status Out 2 7 Symbol Clock Error CIC TR 9 41 MAM codteuteos iate ite i ede 3 41 Symbol Timing Adjustment 3 17 T TOPE M Ri 2 3 Transmit Power VOLE A E TEE 3 43 ur c 3 44 Transmit Power Level Limit 3 22 Transmit Power Measurement 3 20 Transmit Spectrum Mask Measurement 3 29 Transmitter Center Frequency Leakage Limits E 3 18 Trigger Delay 3 35 Trigger Slope rrr itia nie 3 34 Trigger Source 3 34 Trigger Switch essen 3 34 U USB DU ATE 2 6 2 8 BA Ca 2 8 W Wide IF ME VI 3 34 WLAN Standard 3 7 i50 A ERGO Se NN A 1 Inn c TERREA REN 1 3 2 2 5 2 7 MUERTE 2 71 c Dm 2 12 occ cccecccecccecscececceeseceeesceceseeensceeeseecens 2 2 WN
73. On Off ON 1 OFF 0 DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet ST ATe OFF ON 1 0 Offset Value Bu 99 99 99 99 dB 40 dBm Output Input Level 40dBm Offset Value 30 dB 3 3 1 Input Level Offset Value DISPlay WINDow 1 TRACe Y SCALe RLEVel OFFSet rel power 3 6 34 JEBIHORZE 3 4 E WLAN Standard Bi WR WllA 802 11a W11B 802 11b WGOFdm 802 11g OFDM WGDSss 802 11g DSSS WIEN 802 11n SENSe RADio STANdard mode Data Rate Bu WLAN Standard W11A WGOFdm Data Rate W11A WGOFdm
74. kk 3 4 3 3 3 6 3 4 kk 3 7 35 RUSE TE ED ESE Lise 3 11 46 POES 3 34 3 7 EVM Tm 3 36 3 8 Transmit Power 3 43 3 9 Transmit Spectrum Mask 3 46 3 10 Occupied Bandwidth 3 50 1 A B IEEE 1 uu Fl AE MX283027A 001 WLAN 1 1 1 2 DE ET o 1 3 1 2 1 kk 1 3 1 2 2 s seeded ceno vado dada erdt 1 3 1 3 o oc 1 4 PIE BB 1 1 MS2830A
75. 0 5700 MHz 100 140 5745 5825 MHz 149 165 12 30 dBm MS2830A 045 6 30 dBm MS2830A 045 18 28 CAL 250 us 16 Hz 18 28 CAL Channel Estimation SEQ Phase Tracking ON Amplitude Tracking OFF 1 6 rms 18 28C CAL 10 dB Input Level 1 9 dB 2 RSS 50 dBc Nominal z 68 dB 11 MHz 68 dB 20 MHz 68 dB 30 MHz
76. Analysis Offset 0 Preamble Search On Ramp Down Detection On Detection Offset 0 ms Transmit Power Level Limit 23 dBm Peak PSD Limits 11 dBm Max Ramp Up Time 2 0 us Max Ramp Down Time 2 0 us Occupied Bandwidth Occupied Bandwidth Measurement Off Storage Mode Average Storage Count 10 Analysis Length ms Analysis Offset 0 Preamble Search On Resolution Bandwidth 30 kHz Detection Positive Occupied Bandwidth Percent 9996 OBW Limits 19 MHz Transmit Spectrum Mask Transmit Spectrum Mask Measurement Off Storage Mode Off Storage Count 2 Analysis Length ms Analysis Offset 0 Preamble Search On Analysis Length Setup On Detection rms Transmit Spectrum Mask Limit Level 0 20 20 28 28 40 40 40 Accessory Title On Wireless Network Device B 2 fJ RC AETERS IEEE Std 802 11 2007 IEEE Std 802 11n 2009 X C 1 IEEE 802 11a IEEE 802 11a 1999 17 3 9 6 Transmitter center frequency Modulation Analysis 1 leakage 17 3 9 6 Transmitter spectral flatness Modulation Analysis 2 17 3 9 6 Transmitter constellation error Modulation Analysis Transmit modulation accuracy test 17 3 8 4 Transmit and receive in band and S
77. CPreamble 1K99 Analysis Length Setup B RE ON OFF SENSe CWLan EVM TIME OFF ON 0 1 pj LENGth STATe AUTO E EVM 3 13 PIE WWE Analysis Length BUE EVM Bit Hl WLAN Standard 802 11a 802 11g OFDM 802 11n 1 250 Analysis Offset Burst Interval 0 020 x 250 Analysis Offset WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method PSDU 1 45056 Analysis Offset Burst Interval 0 192 X 11000 Analysis Offset WLAN Standard 802 11b 802 11g DSSS EVM Calculation Method 1KCPreamble 1K99
78. E Absolute power spectral density for negative offset 4 end frequency dBm Bu Offset 4 DTPA PEICKITSANT R7 2485 BE OD HEM Ee Absolute power spectral density for positive offset 4 end frequency dBm Bu Offset 4 LESS 3 49 PIE WWE 3 10 Occupied Bandwidth 3 50 Occupied Bandwidth Off 1 On E 3 10 1 FETCh CWLan n READ CWLan n MEASure CWLan n n 1 5 RHO No n 1 3 10 1 Occupied Bandwidth Occupied Bandwidth average Hz Occupied Bandwidth max Hz Pass Fail flag of Occpied Bandwidth average Pass Fail flag of Occpied Bandwidth max Cou
79. IE WWE 3 2 Carrier Frequency Bd E 100 MHz SENSe FREQuency CENTer freq Channel Number Bu 3 2 1 3 2 2 SENSe CWLan CHANnel integer 3 2 1 2 4 GHz MHz 32 JBEZCOBE MHz 3 2 2 5 GHz MHz MHz PIE WWE 3 3 Input Level BU 60 00 Offset Value 30 00 Offset Value dBm SENSe POWer RF RANGe ILEVel real Offset Bux
80. MEASure CWLan n Frequency Error EVM rms 5180 MHz 5 4 2 1 1 42 HRAROAA WLAN Standard 802 11a ama mea ware oxe rase sm 5825 MHz 2412 MHz 2484 MHz 2412 MHz 2484 MHz 2412 MHz 2484 MHz 5180 MHz 5825 MHz 102 0 Hz 1102 0 Hz FA BR FAB HEAR 4 2 1 5 WLAN Standard 802 11a rms 5180 MHz 1 6 rms 0 1 rms D 5825 MHz 4 2 1 6 WLAN Standard 25 802 11b rms 2412 MHz 1 9 rms 0 2 ms D 2484 MHz 4 2 1 7 WLAN Standard 802 11g9 OFDM 2412 MHz 1 2 rms 0 196 rms 2484 MHz 4 2 1 8 WLAN Standard 802 11n 40 MHz rms 2412 MHz 1 6 r
81. MX283027A 001 WLAN 5 MS2830A M W3473AW 5 0 A
82. On Off Storage Count EVM 2 Analysis Length Setup D Analysis Length EVM Analysis Offset EVM EVM Calculation Method EVM Channel Estimation Tracki On Off FRE acking 4 Symbol Timing Adjust EVM FFT Filter EVM BT Alpha BT Limits EVM 3 11 PIE WWE EVM Measurement Biz EVM On Off WWE On EVM Off EVM
83. PA out of band spurious emissions Occupied Bandwidth C 2 IEEE 802 11b IEEE 802 11b 1999 18 4 7 2 Transmit power level control Transmit Power Level 18 4 7 4 Transmit center frequency tolerance Modulation Analysis 18 4 7 5 Chip clock frequency tolerance Modulation Analysis 18 4 7 6 Transmit power on and power down Transmit Power Level ramp 18 4 6 8 Transmit and receive in band and out of band spurious emissions Occupied Bandwidth CI VIRC DIAET RE H8 X C 3 IEEE 802 11g IEEE 802 11g 2003 IEEE 3 19 4 83 Transmit and receive in band and SPA out of band spurious emissions M 19 4 7 PMD transmit specifications 17 3 9 802 11a Transmit power level 17 3 9 1 Transmit center frequency tolerance 17 3 9 4 Symbol clock frequency tolerance 17 3 9 5 Occupied Bandwidth C 4 IEEE 802 11n IEEE 802 11n 2009 20 3 21 1 Transmit Spectrum Mask Transmit Spectrum Mask 20 3 21 2 Spectral Flatness Modulation Analysis 20 3 21 4 Transmit Center Frequency Modulation Analysis Tolerance 20 3 21 6 Symbol Clock Frequency Tolerance Modulati
84. amble BR ON Preamble Search OFF Preamble Search SENSe CWLan OBWidth TIME PSEarch mode Resolution Bandwidth Bux Occupied Bandwidth BER 30 30 kHz 100 100 kHz 300 300 kHz SENSe CWLan OBWidth BWIDth RESolution freq Detection Occupied Bandwidth B RE POSitive RMS RMS SENSe CWLan OBWidth DETector FUNCtion POSitive RMS Occupied Bandwidth Percent Bux OBW N WERE 99 9996 90 9096 SENSe CWLan OBWidth PERCent ratio 3 27 PIE WWE OBW Limit Bue Occupied Bandwidth 10 0 50 0 MHz S ENSe CWLan OBWidth LIMit UPPer DATA bandwidth 3 28 3 5 4 35 WERAOKRE Transmit Spectrum Mask
85. available when WLAN Standard is set to 802 11b WLAN Standard 802 11b Not available when EVM Calculation Method is set to 1000 chip Preamble EVM EVM Calculation Method 1000 chip Preamble EVM PIRA eB MBE Frequency Carrier Frequency 2 412 GHz Channel Number None Amplitude Input Level 10 00 dBm Offset Off Offset Value 0 00 dB System Setting WLAN Standard 802 11a Data Rate AUTO Preamble AUTO PPDU Format HT Mixed Channel Bandwidth 20MHz Burst Interval 10 ms Burst Threshold 30 dB Common Setting Continuous Measurement Off Trigger Switch Off Trigger Source TF B Trigger Slope Positive Trigger Delay 0s Wide IF Trigger Level 20 dBm Modulation Analysis EVM Measurement Off Storage Mode Off Storage Count 2 Analysis Length Setup On Analysis Length 10 Analysis Offset 0 EVM Calculation Method PSDU Channel Estimation SEQ Amplitude Tracking On Phase Tracking On Symbol Timing Adjustment 0 Filter Type None Alpha BT 0 5 EVM ms Limits 5 6 EVM peak Limits 1000 0 Frequency Error Limits 20 Transmitter Center Frequency Leakage Limits 15 dB IQ Offset Limits 15 dB B 1 VIRB TE Transmit Power Transmit Power Measurement Off Storage Mode Off Storage Count 2 Analysis Length 1 ms
86. average dBm MHz Peak PSD max dBm MHz Pass Fail flag of Peak PSD average Pass Fail flag of Peak PSD max 1 2 3 4 5 6 T 8 9 Power on Ramp Time average us Power on Ramp Time max us Power down Ramp Time average us Power down Ramp Time max us Pass Fail flag of overall Ramp average Pass Fail flag of overall Ramp max Pass Fail flag of Power on Ramp average Pass Fail flag of Power on Ramp max Pass Fail flag of Power down Ramp average Pass Fail flag of Power down Ramp max Count of Transmit Power Measurements Transmit Power average Biz Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset 3 43 PIE WWE 3 44 Transmit Power max Bu Storage Mode Storage Count Analysis Length Preamble Search Ramp Down Detection Detection Offset Storage Count Storage Mode Off Pass Fail flag of Transmit Power average or max Bd Transmit Power Level Limit
87. curacy Measurements Bil EVM rms average BE Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method EVM dB EVM rms max B Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method EVM Storage Count Storage Mode Off dB EVM peak max Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset EVM Calculation Method OFDM EVM dB Pass Fail flag of EVM rms average or max Bd EVM rms Limits Pass Fail
88. e offset 1 1 fail 0 pass Minimum margin level on the positive offset 1 dBm Minimum margin from limit line on the positive offset 1 dB Minimum margin offset frequency from the center frequency in the positive offset 1 Hz Pass Fail flag on the positive offset 1 1 fail O pass Minimum margin level on the negative offset 2 dBm Minimum margin from limit line on the negative offset 2 dB Minimum margin offset frequency from the center frequency in the negative offset 2 Hz Pass Fail flag on the negative offset 2 1 fail 0 pass Minimum margin level on the positive offset 2 dBm Minimum margin from limit line on the positive offset 2 dB Minimum margin offset frequency from the center frequency in the positive offset 2 Hz Pass Fail flag on the positive offset 2 1 fail O pass Minimum margin level on the negative offset 3 dBm Minimum margin from limit line on the negative offset 3 dB Minimum margin offset frequency from the center frequency in the negative offset 3 Hz Pass Fail flag on the negative offset 3 1 fail O pass Minimum margin level on the positive offset 3 dBm Minimum margin from limit line on the positive offset 3 dB 3 9 Transmit Spectrum Mask ONE f 3 9 1 Transmit Spectrum Mask Minimum margin offset frequency from the center freq
89. h Transmit Power Preamble Search Preamble Search On Off Ramp Down Detection P On Off EN Transmit Power Level Limit Peak PSD Limits Peak PSD Max Ramp Up Time Ramp Up Time Detection Offset Max Ramp Down Time Ramp Down Time 3 3 19 PIE WWE 3 20 Transmit Power Measurement BE Transmit Power On Off B ON Transmit Power OFF Transmit Power SENSe CWLan TXPower STATe OFF ON 0 1 Storage Mode BUE Transmit Power BR ON Storage Count OFF SENSe CWLan TXPower AVERage STATe
90. kHz 2 19 14 dBm 1 2 4 GHz band 60 dB 21 MHz 69 dB 40 MHz 69 dB 60 MHz 5 GHz band 60 dB 21 MHz 69 dB 40 MHz 69 dB 60 MHz RBW 100 kHz z 19 14 dBm 1 20 MHz channel 40 MHz channel WLAN IQproducer WLAN IQproducer NOS Hla MS2830A
91. mit Spectrum Mask Offset 1 4 Offset 1 4 WLAN Standard CALCulate CWLan TOSPectrum LIMit DATA rel ampl S1 gt re ampl El rel ampl S2 gt lt rel ampl E2 rel ampl S3 gt re1 ampl E3 rel ampl 54 rel ampl E4 A WLAN Standard 802 11a 802 11g OFDM Offset 1 2 3 4 9 11 MHz 11 20 MHz 20 30 MHz 307 40 MHz VBW 30 kHz 802 11b 802 11g DSSS Offset 1 2 3 4 11 22 MHz 22 33 MHz 33 33 MHz 33 33 MHz VBW 100 kHz 802 11n 20 MHz Offset 1 2 3 4 9 11 MHz 11 20 MHz 20 30 MHz 307 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 K 3 5 4 2 Transmit Spectrum Mask
92. ms 0 1 rms 2484 MHz 5180 MHz 2 0 rms 0 1 rms 5825 MHz 4 6 A 1 Out of range RA Available when WLAN Standard is set to 802 11a 802 11g OFDM or 802 11n WLAN Standard 802 11a 802 11g OFDM 802 11n Available when WLAN Standard is set to 802 11a or 802 11g OFDM WLAN Standard 802 11a 802 11g OFDM Available when WLAN Standard is set to 802 11b or 802 11g DSSS WLAN Standard 802 11b 802 11g DSSS Available when WLAN Standard is set to 802 11a 802 11g OFDM or 802 11n PPDU Format Non HT WLAN Standard 802 11a 802 11g OFDM 802 11n PPDU Format Non HT Available when WLAN Standard is set to 802 11n WLAN Standard 802 11n Available when WLAN Standard is set to 802 11b WLAN Standard 802 11b Not
93. nt of Occupied Bandwidth Measurements Occupied Bandwidth average Hz BE Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Preamble Search Occupied Bandwidth Storage Mode Max Hold Occupied Bandwidth max Hz Bu Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Preamble Search Occupied Bandwidth Storage Count Storage Mode Off average Pass Fail flag of Occpied Bandwidth average B Occupied Bandwidth Limits Occupied Bandwidth average Pass Tail Pass Fail flag of Occpied Bandwidth max Bu Occupied Bandwidth Limits Occupied Bandwidth max Pass Fail
94. offset frequency from the center frequency in the positive offset n Bux Offset GANT Ix xu Pass Fail flag on the positive offset n B Offset Fail Pass Pass Fail flag on overall offset Bu Offset 1 Fail Pass Count of Transmit Spectrum Mask Measurements Bu Transmit Spectrum Mask Absolute power spectral density for negative offset n start frequency dBm Bux Offset n Absolute power spectral density for positive offset n start frequency dBm Bd Offset n 07 IEEE AL A43U A77 R7 2485 EER
95. on Analysis 20 3 21 d 20 3 21 7 Transmit Center Frequency Leakage Modulation Analysis MEE 2 20 3 21 7 Transmit Constellation Error Modulation Analysis EE 3 20 3 21 7 Transmitter Modulation Accuracy Modulation Analysis A EVM Occupied Bandwidth 0 3 21 7 Introduction to modulation accuracy Modulation Analysis tests CZ 1 1st Local Output i 2 6 A A CA ANN A Ns 2 8 Alpha BT iiiae e erret recette ens 3 17 Amplitude Tracking 3 16 Analysis Length 9 14 3 21 3 26 3 31 Analysis Length Setup 3 13 3 26 3 30 Analysis Offset i 3 15 3 26 3 31 Application Switch 2 11 Application 2 6 DD E EREA NER 2 6 AUX ARZA NS 2 8 B Baek gm Mm 2 3 Buffer Out 2 7 Burst Interva 3 10 Burst Threshold eese 3 10 C OAI 2 3 Cancel eU tete 2 5 Carrier Frequency 3 4 Center Frequency Leakage average 9 38 TAK os e
96. ps CCK 5 5 Mbps CCK 11 Mbps SENSe CWLan EVM DEMod mode Preamble Biz 802 11b 802 11g DSSS Preamble Format AUTO LONG SHORt PreambleFormat PreambleFormat Long PreambleFormat Short SENSe CWLan EVM PREamble mode PPDU Format Bx 802 11n PPDU Format MTXed GREenfield HT Mixed HT Greenfield SENSe CWLan EVM PFORmat mode 34 HRA DRE Channel Bandwidth Bux 802 11n Channel Bandwidth 20 20 MHz 40 40 MHz 40UPper 40 MHz Upper 40 MHz 20 MHz 40 MHz
97. rage EVM rms max 96 EVM peak max 96 EVM rms average dB EVM rms max dB EVM peak max dB Pass Fail flag of EVM rms average Pass Fail flag of EVM rms max Pass Fail flag of EVM peak max Frequency Error average Hz Frequency Error max Hz Frequency Error average ppm Frequency Error max ppm Pass Fail flag of Frequency Error average Pass Fail flag of Frequency Error max Center Frequency Leakage average dB Center Frequency Leakage max dB Pass Fail flag of Center Frequency Leakage average Pass Fail flag of Center Frequency Leakage max IQ Offset average dB IQ Offset max dB Pass Fail flag of IQ Offset average Pass Fail flag of IQ Offset max Pass Fail flag of Spectrum Flatness IQ Gain Imbalance average dB IQ Gain Imbalance max dB Quadrature Error average deg Quadrature Error max deg 3 7 EVMOWMERF 3 7 1 EVM Symbol Clock Error average Symbol Clock Error max Pass Fail flag of Symbol Clock Error average Pass Fail flag of Symbol Clock Error max Chip Clock Error average Chip Clock Error max Pass Fail flag of Chip Clock Error average Pass Fail flag of Chip Clock Error max Count of Modulation Ac
98. spectral density for negative offset 3 start frequency dBm Absolute power spectral density for positive offset 3 start frequency dBm Absolute power spectral density for negative offset 4 start frequency dBm Absolute power spectral density for positive offset 4 start frequency dBm Absolute power spectral density for negative offset 4 end frequency dBm Absolute power spectral density for positive offset 4 end frequency dBm 3 47 PIE WWE 3 48 Peak PSD RBW of the reference channel dBm Bd E RBW 100kHz Storage Mode Storage Count Analysis Length Setup Analysis Length Analysis Offset Minimum margin level on the negative offset n dBm BUE Offset n Minimum margin from limit line on the negative offset n dB Bd Offset n
99. torage Mode Bd E Transmit Spectrum Mask WR OFF AVER MAXH SENSe CWLan TOSPectrum STORage MODE OFF AVERage MAXHold Storage Count Bux Transmit Spectrum Mask Bee 2 200 SENSe CWLan TOSPectrum AVERage COUNt integer A Transmit Spectrum Mask Analysis Length Setup BUE On 100 us BE OFF 0 ON 1 SENSe CWLan TOSPectrum TIME LENGth STATe AUTO OFF ON 0 1 35 WERADOKRE Analysis Length Bu Transmit Spectrum Mask Bx eA 100 0 7000 0 us Burst Interval
100. uency in the positive offset 3 Hz Pass Fail flag on the positive offset 3 1 fail O pass Minimum margin level on the negative offset 4 dBm Minimum margin from limit line on the negative offset 4 dB Minimum margin offset frequency from the center frequency in the negative offset 4 Hz Pass Fail flag on the negative offset 4 1 fail 0 pass Minimum margin level on the positive offset 4 dBm Minimum margin from limit line on the positive offset 4 dB Minimum margin offset frequency from the center frequency in the positive offset 4 Hz Pass Fail flag on the positive offset 4 1 fail O pass Pass Fail flag on overall offset 1 fail 0 pass Count of Transmit Spectrum Mask Measurements 3 9 2 EFETCh CWLan n READ CWLan n MEASure CWhan n in 3 3 9 2 Transmit Spectrum Mask n 3 Absolute power spectral density for negative offset 1 start frequency dBm Absolute power spectral density for positive offset 1 start frequency dBm Absolute power spectral density for negative offset 2 start frequency dBm Absolute power spectral density for positive offset 2 start frequency dBm Absolute power
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