R3267 シリーズ OPT62 3GPP 変調解析オプション 取扱説明書
Contents
1. L3 r3 Lc J o 3 L3 5 5 o C rm 5 m rnm 0000000 000000000 000000000000000002. 1000000000000000000000000000000000000 000000000000000000000 oNvorri 000000000000 1000000000000 T Domain D 0 0 0 D Sweep Time Detector D D D HH E HH B B D UE 0 000000000000000000000000000000000000000 Config Set to 00000 3 3 2 1 1100000000000000000000000 100000000000 0000000000000000000000000 200 00000 0 RBW 000000000000000000000 Auto Level Set 00000000000000000000000 00010 0000000000000000000000 0000 Auto Level 0 00 00000000 000000000 Trigger Setup 0 000000000 Trigger Setup Trigger Source FREE RUN vio JENNI E Trigger Level
3. 0 0 632670 000000000 62000000000000000000000000000 6326700000 0 0 000000000000000000000 00000000000000000 10000000000 1 0000 00000000000000000 0000 OONN 100000000000000000 000 O00000 2 000000000000 0000 0 00000 3 000000 e 0000000000 e 4 00000000 100000000000000000 00000000000000000 0000000000 5 0000 0000000000000000 Template Edit 00000 000000 Transient Due to Modulation Inband Spurious 1 0000000000 000 e Error Magnitude Error O Phase Error
4. Root Hyquist Trigger Trigger Slope WEB Trigger Level u Trigger Delay Meas Length 2 Sen Plat Dat Tri Avo Bower 3 37 Parameter Setup 000000000 PRECISE 000 00000000000000 000000 3 84 0 00000 0 220 0000000 00000000000000000 ON 000000000000000 INT 00 000000000000 00 000000000000 0 000000000000 00000000000000
5. 00000000 00000 0000000 00000 10000000 100000 Auto Level Set 0 000000000000000000000 0000 0000000000000000000000 10000 O0 Auto Level 000 0000000000000 000000000 Trigger Setup 000000 IOD Trigger Setup Trigger Source FREE RUN voco Er L C Trigger Level Trigger Position Delay Time 9 000 ns 3 6 Trigger Setup Trigger Source 00000 FREE RUN 0 00000000000000 000 IF 6 20 0000000000 10000 0 000000000000 1000 Slope 00000 00000000000 100 1000000000 100 1000000000 Trigger Level 0 00000000000000 Trigger Position 0 00000000000000000000000 Delay Time 0 000000000000000000000000 0 00000000 3 34 32670000 6 0000000000000
6. 3 3 2 T Domain 0 000000000 Display Unit Judgment o0 Upper Limit 100 00 Average TRAGE 3 5 Parameter Setup 1 000 000 NORMAL POSI NEGA SAMPLE 0000000000 dBm W dBuV 0000000000000 0 0 0 00000000 00000000000000000 00000 000000000000 Average Times ON 000000000000 TRACE AVG 00 00 Legl LU D LI L Legt 000000 HOLD 8 000000 POWER AVG 000001 000000000000 000000000000 000001 000000000000 00000000000 B 00000000 0 0000000 0 000000000000000 1000000000000000000000000 0 0 3 33 R3267 0 0 O0 0 6 0000000000000 3 3 2 T Domain 3 3 2 3 Spurious T Domain
7. IF 0000 6 DU 000000000 000000 0 0000000000000 000 O00000 000000 EXT 00000 Slope 0000000000000000 00000 000000000 000000 000000000 Trigger Level 0 00000000000000 Trigger Position 0 0000000000000000000000 Delay Time 0 000000000000000000000000 0 00000000 0 000000000000000000000000 000000 Window Setup 000000000000000000 Window 0000000000000000000000 0000 Set to STD 0000000000000000000000 Position 0000000000000 Width 0000000000000000 OFF Position 0000000000000 OFF Width 0000000000000000 000000000000000000000000 000000000000000 Y Scale dB div 10 5 2 000000000000000 Average Times 00000000000 00000000000 0 Config Parameter Setup Average Mode 0000 00000 D 3 32 Config Parameter Setup Detector Display Unit Judgment Upper Limit Average Mode Set to STD 32670000 6 0000000000000
8. 3 44 Parameter Setup E E E 000 U Trigger Source 0 000000000000000 FREE RUN 0 0000000000000 00000 IF IF D E D DO U U 7 U 7 7 UE 7I O DIU LI 00000000000 00000 0 000000000000000 EXT TRIGTI 00 00 000 Trigger Slope 0 0000000000000000000 Trigger Level 0 00000000000 Trigger Delay 0000000000000000000000 LH DU D U LU U Average Times ON OFF 3 3 4 5 STD 000000000000000000000000000000000000 DC 0 000000000000000 0 00000000000000000000000 Channel Setting 000000000000000000 Copy STD 0 0000000000000000000000 0 00000 UpLink 0 0 0 00000000000 3 85 832670000 6 000000000000 3 3 4 Modulation STD Setup Type Meas Mode Link Offset Level Frequency Input Input Gain Cal DownLink 100 8190 0
9. 3 3 2 000000000000000000000000 000000 Table No 1 2 3 0000000000000 Load Table 0 000000000000 Table 0 0000000000 Table 1 2 3 000000000000 Load Table 0000000000 Save Table 00000 0000000 Insert Line 0 0000000000000000000000 0000 Delete Line 0 00000 100000 Average Times 000000000 0 Config Parameter Setup Average Mode 0000 00000 Config Parameter Setup 00000000000 ser Z Result Cre Peak Y Delta Multiplier roo Display Unit v Judgnent Preselector H Average Mode sve 3 7 Parameter Setup E D B D D 0 Detector NORMAL POSI NEGA SAMPLE 0 000000000 Result PEAK RMS 0 0000000000000000000000 00000 3 35 R3267 0 0 O0 0 6 0000000000000 3 3 2 T Domain Peak MKR Y Delta
10. R3267 0 00 0 6 21000 9 Meas Mode SLOT 0 00000 000000 0000000000 10 000000 DOWNLINK D 000 0 00000 0 00000000000000000 0 0 0000000000000000000000 Offset Level 0 0dB Frequency Input FREQUENCY Input RF Cont Auto Level Set OFF Average Type PEAK EXT Trigger Source TTL 11 RETURN Modulation 3GPP Parameter Setup 0 Parameter Setup SLOT DOWNLINK 0 O0 0000000000000 00 Parameter Setup SLUT DUWHLIHK Peak CDE 36PP Scrambling Code Define Scrambling Code Trigger EXT Search Mode 5 Primary CPICH SF i 15 ksps Vien Primary CPICH Point Active CH Detection 4 5 Analysis Rate lt Meas Unit Table Meas Start Position Threshold Phase Inverse Setup Frequency Error PRECISE 7 Average Transmit Timing i o0 or 2 4 Parameter Setup SLOT DOWNLINK 1 H D DB DB U U U U 12 Meas
11. 2 25 Parameter Setup L 00000000 0000000 Root ON N D D HXENTRO DD 0000 0 0000000000000000000000 00000 Meas Range Hz ENTR 000000 00000 53220 00 0 0000000 0000000 Trigger Mode EXT N 0000 1000000000000000000000 0000000 EXT Trigger Slope 0 0 0 JHz ENTR 00000 1000000000000000000000 0 000 0 0 EXT Trigger Delay 2 5 6 2 5 HXENTR 0 000000 100000000 256 2500000000000 Parameter Setup 1000 0 0000000000000 Auto Level Set 1100 0000000000000 SINGLE IU U DU 0 000000000000000000000000 2 25 832670000 6 000000000000 2 4 000 2 26 Total Result Results Carrier Frequency Error Phase Error Maveform Qualily Factor 0 99964 Gw Carrier Feedthrough 37 888 Magni tude Error rms deg rms Error Vector Magnitude 5 0 Hz QPSK
12. 000000000000000 000000000 5 Er Er ESERES Er Er ooo Er ES Er Er 1 NE Regiom oo conn ES LJ oo g m i m 2o00 Fd o H oo E 200 m B LEE m o0 m E s LEE o0 m Lic pese LEE m o0 m 2o00 m o0 m E 200 oo o0 m LEE m o0 m LEE o0 m Er E 200 o0 m Er 2o00 EE m
13. 3 3 1 00000000000 0 00000000000000000000000 00 0005 000000 20 1000000000 uu 0000000000000 000000000000 0000000000000 0 0000000000000000000000000000000000 1000000000 0 0 00000000 1 2 3 more 1 2 0 00000000000000000000000000 0000000 Coemm System 4 Comm System 00000000000000000000000000000 8 0 00000000 Communication System 3 1 Communication System H1 D D DE U U 0 5 0000000000 ENTRO 00000 EOADING 0000000 6 I 1 SHIFT 0 O O SAVE FILE 1 D EH U 2 Sav DO D Dn 3 27 R3267 0 0 O0 0 6 0000000000000 3 3 2 T Domain 3 3 2 T Domain
14. Parameter Setup 00000 0000 0 00000 8 Trigger Source IF U 0 000000 0000000000 9 Trigger Level 1 0 0 2 00000 00000000 100 00000000 10 Trigger Delay 0 0 Hz ENTR 00000 0 0000000 chip 0 0000000 11 Auto Level Set L L 0 0000000000000 12 0000000000000000000000000 13 Trigger Level 1 20000000000 00000 Time No Trigger Detected 00000 00000 00 000000000000000000000 00000000 0000 0 0000000000000 2 31 R3267 0 0 0 0 6 000000000000 2 5 Power vs Time 2 32 14 15 16 17 18 19 20 21 Time amp 1 r Auto L Parameter Setup FREE Tine FFT evel Set E Select RETURN Power Power vs Time Parameter Setup Parameter Setup 00 1 2 4
15. 9000002 __ Auto Level Trigger Mode Set EXT bis Es Search Mode Ed Primary CPICH SF 258 15 Vien Primary CPICH 0 Point cerno Meas Channel Ho 1 S satma Threshold 220 48 Parameter Phase Inverse i Setup 3 26 Parameter Setup FRAME DOWNLINK 00 Scrambling Code Define 0 00000000000000000000000 S SCHO0O D 0 0000000000000000000 0000000 DEFINE 0 00000000000000 000000 S SCHII H1 UU U D D DL D UU UU U 00000000 0 0 000000000000 00000 Scrambling Code 00000000000000000000000 00000000010000000000 0000000160000000000000000 SHIFT 0 1 2 3 4 5 Trigger Mode 00000000000000000 INT EXT 00000000 EXT SFN 000000000000000020000 1000000000 832670000 6 000000000000 3 3 4 Modulation EXT Trigger Slope EXT Trigger Delay Search
16. 3 3 3 F Domain Set to STD 000000000000000000 3 3 37 Spurious 1000000000000000000000000 Auto Level Set 0 000000000000000000000 0000 00000000000000000000000 00000 Auto Level 000 0000000000000 100000000 Table 1 2 3 0000000000 Load Table 0000000000 00000000000 Copy from STD 0 0000000000000000000 Table 1 2 3 Load Table 000000000 Save Table 000000000 Insert Line Delete Line 000000 000000 Table Average Times 00000000000 00000000000 Config Parameter Setup 0 0 Average Mode Config Parameter Setup 000000000000 3 55 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain Detector Peak MKR Y Delta Display Unit Judgment Preselector Average Mode Set to Default 3 56 Parameter Setup Judgment Display Unit Preselector Average Mode Peak MKR Y Delta 000 3 18 Paramete
17. 000000000000000 0000000000000000000000 0 0000000000000000000000000000000000000000 1 92670000000000 6440000000000 REF 165 183 23257 70 2 RFOUT 0 006440 5 0 0 00000000000000000 2 O00 3000000 2682 0dBm 11000600000 3 8326700000 CF 2GHz0 RFI 0 09 0000000000000 6 15 00000 DC CALD AVUTO 000000 QPSK Total Result UPLINK Results Maveform Quality Factor 99972 Carrier Frequency Error Hz Carrier Feedthrough 52 3663 Parameter Setup rms Meas Range H Trigger ode EXT Trigger Slope Trigger Level H MN EXT Trigger Delay __________ 0 64500000 4 5 0 00000 1000 5 000000000000 6 10 R3267 OPT
18. 83 670000 62 220 0 0 REF 0 0 dBm 10 dB Write Horm B Blank Horm A Level dBm 2 Linear IE Units S Dffset LUNES 4 24 7 TRANSIENT STD STD Setup 0000 STD Measurement parameter set 000 00000 00 0 00 0 00 8 10000 110000000 9 Meas Mode 0 0 0 O 00 000 10 0000000 UPLINK D D HzENTR C 0000 Offset Level 0 0dB Frequency Input FREQUENCY Input RF Cont Auto Level Set OFF Average Type PEAK EXT Trigger Source TTL 11 RETURN Modulation 3GPP Parameter Setup LJ LU Parameter Setup FRAME UPLINKF 2 15 R3267 0 0 O0 0 6 000000000000 22000 SGPPDDUUU Parameter Setup ng Code _ Trigger Mode Auto Level EXT Trigger
19. R3267 0 00 0 6 221 21 000000 Threshold 5 000000000000000000000000 22 Phase Inverse NORMAL 000 0000000000000 23 0000000 Frequency Error PRECISE 0 1000 1000000000000000000000000 24 Parameter Setup 0000 0 00000000000000 25 Auto Level Set 1100 0000000000000 26 0 000000000000000000000000 Results Waveform Quality Factor 0 99926 z Time Alignment Error 145 Display Carrier Frequency Error PRECISE 0 21 Hz Type 1 6 Offset Magni tude Error Phase Error Error Vector Magni tude z 56 6 J Magnitude Error 3 54 her 2 User N Peak Error Vector Magni tude Table Slat Gw Paraneter Peak Code Domain Error
20. 000000000000000000000000000000 00000000000000000 00000000000000000000 00000000 1 0000000000000000 0000000000000000000000000000000000 0000000000000000000000000000000000000 0 000000000000000000000000000000 00000000000000000000000000000000 10000000000000000000000000000000000000 100000 0 0 0000000000000000000000000 00000000 2 0000000000000000000000000000000000 0000000000000 1000 000000000000000000 d N 000000000000 2 00800000000 000000000000000000000000 000000000000000000000000000000000000 0000000000000000000 0 000000000000000000000000000000000 00 000000000000000000000000000000000000 10000000000 Safety 2 0000000000000000 100000000 100000 1000000 0 00000000000 00000 00000000 0000000000000
21. 7 Parameter Setup 00000 00000000000000000 8 SINGLE J IU DU 0000000000000000000000000000 9 View Point 00000 0 0 00000000000000000000000 10 0000 000 0 000 00000 0 0000000000000000000000000 00000000000000000000000 11 Display Type 1000 Display 000000000000000 D 12 0000000 XSeale 00 00000000000000000000 13 View 1 HzENTR 0000060 0 000 Primary I 0 000 1000000000000 14 View Point L Ll L Display Type 0 0 0000000000000000 0 0000000000000000 uum 024900000000000000000000 R3267 0 0 0 0 6 0000000000000 23 00000000000 15 Graphics Graph 0000 10000 16 Selecttyppel 00000
22. NS ENTER 1 922500 GHz SPAN 8 000 MHz Uorrectiun RBW 30 kHz 300 kHz SWP 20 ms 10 dB Factor 224 QPSK I I U D l 7 TRANSIENT STD STD Setup 0000 STD Measurement parameter set L1 0000 8 Input 0 0 00000000000000000000 Link DOWNLINK Offset Level 0 0dB Frequency Input FREQUENCY Cont Auto Level Set OFF Average Type PEAK EXT Trigger Source TTL Meas Mode 1 L1 L 9 RETURN Modulation QPSK Parameter Setup Parameter 00000 0 000 000 2 24 R3267 0 0 O0 O0 6 0000000000000 2 4 QPSK 0000 SPSK Total Result DOWNLINK Results Waveform Quality Factor Carrier Frequency Error Carrier Feedthrough Parameter TINTE Meas Range 5 EXT Trigger Slope __ Trigger Level EXT Trigger Delay 256 250 chip
23. REF MARKER Marker Edit Ref 0 0 00000000 MODULATION Modulation Tx Power 0000000 0 000000 Display dBm W dBuV 00000000 Result RELATIVE 00000000000 dB 0000 Template Couple Power D UU U D EDI HU Ref Pewer 0 000000000000 0 000000000 Template Limit Template Couple to 0000 00000000000 000000000 00000000 Judgment Marker Edit 1 D U DU L H1 U D D D U D DI DU UD LI UI U 00000000000000 0000000000000000000000 0 0000000 Band Conversion 0000000000000000000 ON 0 000000000000000 010000 0 0000000000000000 uuu Integral Band Start Offset 000000000000000000000 0000000000 Stop Offset 0 0000000000000000000000 00000000 Start Offset Stop 00000 0000 000 00000000000000000000 Average Times POWER AVG IH U D LI LI 0019000000000 0 00000000 3 54 32670000 6 0000000000000
24. TRACE AVG 0000012 8000001 6 800000 000000000 0 0 000000 HOLD 00000000000000000 00000000 000000 POWER 000001 000000000000 0000000 NUMERIC 11000008 0 000000000 0000000000000 0000000000000 Set to STD 0 0000000000000000000000000 3 3 3 3 Due to Transient 100000000000000000000000000000000 Auto Level Set 0000 00000000000000000000000 00000 Auto Level Set 00000000000000000 0000000000 Template 1000 0 5 1 2 F Domain 0000000000000 00000000000 Template ON OFF 000000000 0 0 1 000000 0000000 0000000000000 0 000000000000000 Shift X 0 000000000000000 000000000 Shift 00000000000000000 00000000 000 3 41 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain Margin ON OFF Template Edit Insert Line Delete Line Sort Table Init Marker Edit Copy from STD Insert Line Delete Line Sort Table Init Average Times ON OFF Config Parameter Setup Freq Setting 3 42 00000000 90000 000000 0000000000000 EJ 00000 10000000
25. 1 10000 LU 0000 00000000 0 762 0 1000000 00000000000 832670000 00000 000 0 00000 000 0 60 00 0000 100000000000000000000 e 0600000000000000000000000000000000 06000000000000000000000 0000000 ACP Transient O O 00000000000000 000 ng Du non 000000 00000 60000000000000000000000000000 0000000000000000000000000000000000000000000 000000000000000000000000 00000000 Handshake error occurred to DSP 0000000000000000000 0000 000000000000000000000000000000 100000 10 0000000 00000000 000000000000000000000000 60000 000000000000000 2 10000 1000000 100000000000000 1000000
26. 0000 Template Edit 1 0 00000000000000000000000000 Config 0 0 0 0 O Template Couple to Power 006060 0 000000000000000000000000000000 0000000000000000000000000 ON OFF ON 00000000000000000000000000000000 0 0000000000000000000000000000000 00000000000000000000000 T Domain 000 00000 B 00000 Template Couple to Power OFF Dn Hn Hu ou Hn HH 0 B B B B D B HH UO Y 0000000 0 00000000000000000000000000000000 0 00000000000 5 000000000000000000 Template Couple to 0 0 000000000 0 0 0000000 0000000000000 3 dB 1 5100000000000000 0000000000000000000000000000 403B O 0000 10000000000000000000000 5 20000000000 10000000000000000000000000000 5 1 R3267 O OPT62 SGPP 1 5 1 Template Edit 000 000000 REF n 17 3 dBm 0 dB Write Sm
27. Auto Level Set 0000000000000000 Auto Level 0 00 00000000 000000 Parameter Setup 0000000000000 Root Nyquist C 0 000 chip 3 35 Parameter Setup 00 00000 Root Nyquist ONOFFIJ 0000000 ON Trigger Mode 00000000000 INT 00000000000000000000 EXT 00000 00 000 00 00 00 0 00 0 10000000000 0 Ext Trigger 00000 EXT Trigger Slope 0000000000000000 0 0 000000000000 0000000000000000 EXT Trigger Delay 0000000000000000000000 0 0 000000000000000000000000 0 00000000 3 78 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation Average Times ON OFF 000 100000000000 E Lr 1 00 00000000 Peak Factor 00000 000000000 3 3 4 3 2 Power vs Time 00000000 Auto Level Set 0 0000000000000000 E Peak Factor 100000 666 66us
28. X dB Down X dB Down X dB Down X dB Down Left X dB Down Right 00000 0 4 8 PRESET DD D D D RC REG nn 00 0000 4 2 0 R3267 0 OPT62 410 5 0 00000000 000 000 SV nn 01 10 5 0000 8 DEL 01 10 DEL H1 D D 00000 00 800 4 11 SPA
29. Primary CPICH P CCPCH SCH DPCH 3 1 0 9 0 1 2 2 2 0 000 0000 Hl e 3GPP HI LH D J D l CUP LINK 0000 lt 0 001 Waveform Quality Factor Time Alignment Error Carrier Frequency Error Origin Offset Magnitude Error Phase Error Modulation Accuracy Code Domain Power 000000 Q 00 Line Dot Line amp Chip 000 180 1000000000 000000 gt 90000000 0000 EYE Diagram 45 0 0 0 0 0 slot 1000 ch DPDCH Q ch DPCCH 0 82 0 18 7 2 8324670 0 0 0 62 female 5090 0 25 0 9Vp p 0 47V 00 lt 3 00000000 7 3 32670000 6 0000000000000 1000
30. 2 11 Parameter Setup SLOT UPLINK 1 000000000 12 0000 00 Meas PRECISE 0 0 Hz ENTR 0 00 100000000000000 13 0 0 0 Scrambling Code 1 Hz ENTR 1000000 0000000000 100000000 14 00 0 00 Trigger Mode EXT 0000 Hz ENTR 00000 0000000000000000000 15 0 00000 EXT Trigger 51 000000 0000000000000000000 16 0 00 EXT Trigger Delay 0 0 Hz ENTR 00010 00000000 17 DPCCH SF 256 100000 25600000000 18 900001 000000 900000000 19 0000000 Analysis Rate 60 ksps 0 0 0 D 0 60 20 000000 Meas Unit 0 40 2560 0 0 D 000 00000 4000000 2560000 1 0000000000000 2 12
31. 00 33 44 Tame amp EET REED Ib 3 84 3 85 41 4 1 osse 4 1 4 2 T J J TRE 4 10 descuento l SS ua M DUE 5 1 5 1 Template Edit U E UU lul ate u uu uuu ansa 5 1 5 1 1 T Domain 00000 E E HH 0 0000 0 0 5 1 5 1 2 0 5 3 5 2 Due to Transient Due to Modulation Inband Spurious 5 4 5 2 1 Marker Edit O OUI Gui 5 4 5 2 2 Due to Modulation Due to Transient Inband Spurious 5 6 5 2 3 Inband Spunio s U TITI BERE idt er Re 5 7 5 3 Mag Error Magnitude Error 0 5 8 54 Phase Error b t RR 5 8 5 5 E V M Error Vector Magnitude 5 8 5 6 u u EDEN 5 9 5 7 00000 0 5 9 5 8 QPSK Carrier Frequency Error D O O 5 9 5 9 Em 5 10 6 2 6 1 6 1 e 6 1 TE 6 4 6 2 1 RE DOWN
32. Meas Slots p 3 31 Meas Slots Meas Start Position 0 0 00000000000000000000 0000000000000 2560 5 00 UD 0 0 0 00 000 SO Meas Channel SFO Threshold 0 00000000000000000000000 00900000 0200 0 2 0 HE H 0 000 000 00000000000 000000000001 0000000000000 0 0 0 0 0 CDP threshold 0 000000000000000000000000 0 0000000000000000554 8 40 3 74 8324670000 OPTe2 3GPP 1 1 Bl DEO DE CI CE OI CE UI CEU OI 3 3 4 Modulation 0000000000000000000000000 0000000000000000000000 000000 00000000000000 0000000000000000000000 0 000000000000000000000 000000000002 000000000 0000000000000000000 NORMAL 0000000000 INVERSE 9100000000
33. Soule Seny 000000000000 Scale Setup Y Scale Upper Y Scale Range Pouer 0 3 36 Scale Setup 1 D DL LL UI U Display Type 000000000000000 Meas 0 0 0000000000 10000000000000 0 0000000000000 Scale Upper LL 5 B gt o ag Scale Range 00000000000 d w E w 1 E Power 00000000000 RELATIVE 0000 E E E E E mm ABS POWER 0000 Parameter Setup 0 0 0 0 0000000 3 79 832670000 6 000000000000 3 3 4 Modulation 3 80 Root Nyquist Trigger Mode Trigger Slope Trigger Level Trigger Delay Parameter Setup CUNCISE
34. LE 0 Threshold 1000000 00000 Meas Start Position 0000 D 000000 0 chip 0 100 2 0 GHz dB 1000 0000 1000 204800 J 000 0 100 Phase Inverse NORMAL 100 HXENTROD 00 000000000 0 0 0 0 L3 rr L3 rr 0 00000000 Frequency Error PRECISE Hz ENTR 0000000000000 0 0 0 000000 00000 Transmit Timing ON IHZENTR 000 00000000 Parameter Setup 0000 0 000000000 000000 R3267 0 0 0 OPT62 21000 28 Au
35. 3 13 Trigger Setup 000000000 Trigger Source FREE RUN 000000000000000 D U D VIDEO 0 0000000000000 IF IF 000 0000 uuu 3 44 32670000 6 0000000000000 3 3 3 F Domain 000000000000000 000 00000 000000 EXT TRIG 00 00000 Slope 0 000000000000 0 000000000000 Level El Trigger Position Delay Time 0 00000000000000000000 00000000000 000000000000000000000000 0000000 Gate Source Trigger Trigger Setup Trigger Source Gate 000000 O Trigger Source 00000000000 6 MHz 000000000000000000000 00 0000000 6 20 0000000 l
36. 00000000000 ADVANTEST 0 0 D 0 W 163 0880 0 0 0 0 0 0 2 4 1 000 5000000 0 6069 0 00 213 0011 0000000 35 7 0 03 5322 7270 1 044 811 0501 0 0 N EE gt pem Iz ccc TI 1 anu Ian 213 0011 0000000 35420 213 0011 0000000 35420 213 0011 0000000 35420 213 0011 0000000 3542 0 163 0880 163 0880 163 0880 163 0880 310 0041 989 3124 213 0011 213 0011 179 0071 190 0012 564 0062 564 0062 464 0850 920 0852 700 0904 312 0011 00 000 000 000 2 9 3 r3 T 00 3570 00 3570 0 pH pac Ei 0 0 0 0000 0000 0 D 0 0 0 0 2 0 0 0002 4400 002 4400 002 4400 002 4400 00000 0 0 0 0 0 0 0 0 0 000000 58 000000 58 gt 77 5 044 811 0501 f 044 811 0502 77 f 044 811 0527
37. 3 3 2 T Domain Upper Limit Lower Limit Average Mode Average Times 0000000000 U TRACE AVG 000 00 100 0000 HOLD 0 0 00000000 POWER 000001 2000000000000 0 00000000 NUMERIC 10000 Legt U WU D B D U UL U U U U 0 0 0000000 00000000000 000 00000 00000000000000 Set to STD 000000000000000000000 3 3 2 2 Ratio 1000000000000000000000000000000000 100000000000000000000000000000000000000000 100000 Auto Level Set 0000 0000000000000000000000 Auto Level Set g 0000000000000000 00000000 Trigger Setup Parameter Setul Display Unit o Judgnent rr Upper Limit 100 00 dB Average Mode 0 TRACE Ava 1005 3 4 Trigger Setup 0000000 Trigger Source 0000000000 100000000000000000 0000 3 31 R3267 0 0 0 0 OPT62 S3GPP 1 1 B1 D C CE OI CE CI CE UI C U I 3 3 2 T Domain
38. I EYE Diagram EYE Diagram 3 68 3 73 3 78 3 7 3 87 3 20 3 22 3 68 3 73 3 78 3 7 3 87 3 71 3 TT 3 25 3 21 3 64 3 70 3 77 3 25 3 25 3 14 3 45 3 14 3 38 3 45 3 14 3 45 3 14 3 45 3 39 3 14 3 45 3 81 3 22 3 75 3 22 3 22 32670000 6 0000000000000 00 Ich amp Time 3 24 Marker Edit aaa asia 3 13 3 14 Ich Time amp FFT 3 24 3 16 3 17 0000000 0000 0 0 0 230 3 42 3 46 Inband Spurious 1 3 7 3 16 3 49 3 52 3 49 Marker Edit D D 5 4 Inband Spurious 2 3 7 3 17 Marker Setup aan an 3 23 3 81 3 52 Meas Branch 3 21 3 74 Inband Spurious 00000000 5 7 Meas Channel 3 20 3 21 3 7 3 25 3 68 3 74 3 86 Meas Channel SF 3 20 3 21 Insert Laine si eet 3 8 3 10 3 68 3 73 3 13 3 14 Meas 3 24 3 84 3 16 3 17 Meas Length 3 23 3 81 3 18 3 30 3 83 3 35 3 42 3 7 3 20 3 46 3 49 3 23 3 25 3 52 3 53 3 63 3 70 3 55 3 80 3 86 Integral 3 17 3 54 Meas Range
39. 832670 O OPT62 000000 DUBBI MANUAL NUMBER FOJ 8370668G00 Du H3264 H3267 H3273 R3473 1999 12 20 Printed in Japan 1999 L3 JSF00 1 1000000000000000000000000000 200000000000000000000000000000000 0 00000000000000000000 000000000000000 0 0000000000000000 0 00000000000000 00 000000000000000000000000000000000000000 1000000000000000000
40. DPDCH 64 60 ksps 16 I DPCCH 256 15ksps 0 Q 2 21 Slot 00000 1 0 290000000000000 000000000000 Inn Trigger REF IN 10MHz Reference RF Tx MS Control Terminal O 2 93GPP I 000000 2 10 0000000000000000000000 2 1 9 2 2 5 0000 3 8 2 100 4 COUPLE RBW 3 0 KHz 0000 Lu 5 AUTO MNL MNDL 3 0 0 KHz 000 l 6 LEVEL 0 GHz dBm 00000 83 670000 62 220 0 0 REF 0 0 dBm 10 dB Write Harm B Blank Horm Level Units N Dffset dd LUNES a aT EST 2 10 3GPP 00000 TRANSIENT STD STD Setup 10000 STD Measurement parameter set voogu 00000 Meas Mode D 0000000 Meas Mode SLOT 0 0000 000000 100000 stecp pU D U U U
41. 0 30 MHz M 0 M 0 0 M 0 M LJ Lr Modulation Gain CAL M 320 0 1000 10000 30 MHz Check 30 CAL signal for connection A Cannot execute measurement Meas Unit Because 15 too small 32670000 6 0000000000000 Incorrect channel settings Reset the channel SF and number 10000000 Cannot measure baseband signal This function is available to RF input only This function is available to DOWNLINK only Set Link to DOWNLINK 0 DOWNLINK DOWN LINK Hl D U Cannot allocate sufficient mem Set Power Unit to RELATIVE 00000 1000 1000 Unit RELATIVE Handshake error occurred to DSP Contact qualified engineer Cannot Detect Mod DSP board Contact qualified engineer
42. B 0 10 39 0 17 5 2 3 84Mcps 0 22 0 100 0dB 10000 0000 lt 0 001 Waveform Quality Factor Carrier Frequency Error Carrier Feedthrough Magnitude Error Phase Error Error Vector Magnitude Line Dot Line amp Chip EYE Diagram 1 I amp Q uU alu tl 100000000 000000 7 1 R3267 0 0 0 0 6 000000000000 7 0000 3GPP HI LH D U D O DOWN LINK 1000 lt 0 002 1000 0 1 dB Waveform Quality Factor Time Alignment Error Carrier Frequency Error Origin Offset Magnitude Error Phase Error Modulation Accuracy Code Domain Power 00000000000 Line Dot Line amp Chip Line amp Symbol EYE Diagram l I amp Q SCH Power 000000000000000060 0 00000 000000000 EYE Diagram 45000 5104 Scrambling Code No Scrambling Code Group No SCH Power Power Ratio P SCH S SCH
43. 4 64 OBWAUTOLVL eee 4 26 eiii 4 26 OBWAVGONT 4 26 OBWAVGMD 4 26 OBWAVGMD 4 26 OBWAVGMD POWER 4 26 OBWAVGMD TRACE 4 26 4 26 OBWDET NRM 4 26 OBWDET 4 26 OBWDET SMP 4 26 OBWJDG erret tnn 4 27 OBWJDG 4 27 OBWJDGLOVW a 4 27 4 27 OBWMEAS 2 ci 4 27 ik 4 26 OBWSETSTD eiieeii eei 4 27 4 19 OORA VG 4 20 4 20 4 20 OORAVGMD NUMERIC 4 20 4 6 OORAVGMD POWER OORAVGMD OORDET eee OORDET NRM eee OORDET ua OORDIV PI0DB OORDIV 2 OORDIV 5
44. 00000 l 10dBm 00000 000000 0000000000000 256 15ksps 256 15 256 15 1 128 30ksps 2112 5MHZ 000 BTS BTS Control ITerminal 2 128 30ksps 3 128 30ksps 0000 1 0240000000000000 0 000000000 REFIN 10MHz Reference 2 40 Primary CPICH 1000000 2 2 1 1 2 5 MHz LI 1 U LI U 000000 2125MBz I 00000 3 SPAN 8 MHz 10000 0000 sMEz U H U D LI UD 4 COUPLE RBW AUTO MNL MNL 3 0 KHz RBW 3o0kHz 0000000 2 38 R3267 OPT62 SGPP 1 0 100000 2 7 Primary VBW AUTO MNL MNL 3 0 0 VBW 00000000 LEVEL 0
45. Meas Unit pem Meas Start Position 000 chip SS Threshold Phase Inverse Frequency Error 3 28 Parameter Setup SLOT UPLINK O0 O00000 IODO 0 00000000000000000000000 00000 PRECISE 0 0000000 Error Vector Magnitude Peak Code Dorain Error O O U 00000 uj 0 0 00000000 1000000000000 16100000000 0 FFFFFF U 000000 1600000000000 SHIFT 0 1 SHIFT 2 SHIFT 3 E SHIFT 4 F SHIFT 5 0 000000000000000 INT 00000000000000000 EXT 0 00000000 0 000000000000000000 0 00000000000000 EXT Trigger Delay DPCCH SF DPCCH No Analysis Rate Meas Unit Meas Start Position 32670000 6 0000000000000 3 3 4 Modulation 0000000000000 000000000000000000 5120 0 38400 00 00000000000 000 4 256 00000000 000000000000 0 000000000000000000000 15 ksps 15 ksps 0 000000 30 ksps
46. 00 000000 0000 0000000 Lr L3 000000 0000 000000 1000 lt 1000 IDU E J L1 LL E EO 4 Oo 000000 000000 000 10 0 0 0 Config Parameter Setup 0000000000 100000 Parameter Detector Result Ref Power Display Unit Template Couple to Power Template Limit Judgment Symbol Rate 1 T Ralloff Factor Average Mode B START amp STUP SPAH 200 00 dBm HOLD START amp STO 00000 3 12 Parameter Setup 100000000 P SPAN 0000 32670000 6 0000000000000 3 3 3 F Domain Detector NORMAL POSI NEGA SAMPLE 000000000 0 000000000000 5 2 2 Due to Modulation Due to Transient Inband Sp
47. 4 36 SETPUNC TRAN etr tette tet 4 10 SPR2UNIT 4 36 Slice 4 18 4 20 SPR2UNIT W esee 4 36 4 23 4 26 SPRAUTOLVL eee 4 33 4 27 4 29 SPRAVO enses HERR 4 34 47 R3267 0 0 0 0 6 000000000000 41 GPB00000000000 5 2 2 2 4 34 SPRAVGMD 4 34 SPRAVGMD POWER 4 34 SPRAVGMD 4 34 SPRDET eee 4 34 SPRDET NRM eee 4 34 SPRDET POS 4 34 SPRDET rim 4 34 SPRFRMD CFSP 4 34 SPRFRMD STSP 4 34 SPRIDG OFEF ee 4 34 SPRIDG ON entretient 4 34 SPRMEAS eritis 4 35 SPRMKRCLR eene 4 33 SPRMKRCP 4 33 SPRMRRED 4 33 SPRPKMKY 4 35 SPRREF 222 4 35 SPRREF 4 35 SPRREEPWR 5 eret 4 35 SPRRES ABS 4 34 SPRRES 4 34 SPRRES REL 4 34 SPRSETSTD ectetur 4 35 SPRTMPL OFF 4 33 SPRTMPL 4 33 SPRTMPLBTM 4 34 SPRTMPECDR uu u tentes 4 33 SPRTMPLGCD tiet 4 33 SPRTMPLDXK
48. ON OFF R3267 0 0 0 OPT62 3GPDNPKCDE OFF 4 12 TRANSIENT 0 0 4 2 GPIB 000000000 000 3GPDNPKCDE 00 00 00000000 Scrambling Code DEFINE UNDEFINE 3GPSCDEF DEF 3GPSCDEF UNDEF 3GPSCDEF 0 DEFINE 1 UNDEFINE Scrambling Code No 3GPDNSCNO 3GPDNSCNOHEX 3GPDNSCNO 3GPDNSCNOHEX D D D 0 2621420 160 0 0 0 Trigger Mode INT EXT EXT SEN 3GPDNTRG INT 3GPDNTRG EXT 3GPDNTRG SEN 3GPDNTRG 0 INT 1 EXT 2 EXT SFN EXT Trigger Slope 3GPDNTRGSLP RISE 3GPDNTRGSLP FALL 3GPDNTRGSLP 0 1 EXT Trigger Delay Search Mode SCH Primary CPICH SCH LONG 3GPDNTRGDLY 3GPSRCH SCH 3GPSRCH PCPICH 3GPSRCH SCHLONG 3GPDNTRGDLY 3GPSRCH 5120 00 38400 00 0 SCH 1 2 SCH LONG Primary CPICH SF 3GPCPICHSF 3GPCPICHSF 4 8 16 32 64 128 256 512 Primary CPICH No 3GPCPICHNO 3GPCPICHNO 511 4 41 R3267 0 0 00 6 000000000000 4 2 4 12 TRANSIENT 000000000 000 0 00000 Active CH Detection AUTO 3GPACTCH AUTO 3GPACTCH 0 AUTO USER TABLE 3GPACTCH USER 1 USER TABLE
49. OORJDG OFF 2 222 422 2 OORSBETSTD esee etn OORTRGDT OORTRGSLP FALL OORTRGSLP RISE OORTRGSRC OORTRGSRC OORTRGSRC OORTRGSRC OORUNIT DBM OORUNIT eee OORUNIT 32670000 6 0000000000000 4 000000000 OPFER 4 56 4 32 4 35 QPGTYP CONDOT 4 55 4 37 4 39 4 55 4 49 4 56 4 55 4 59 4 61 EVM ence 4 55 4 62 4 63 4 55 4 13 QPGTYP 4 55 5 2 4 35 QPGTYP 4 55 2 4 36 4 55 SPR2AVGCNT s 4 36 QPG
50. 4 24 4 30 FALL 4 24 4 30 4 9 R3267 0 0 0 0 6 000000000000 4 2 GPIB 42 CW SETFUNC SETFUNC TRAN COMMSYS 3GPP COMMSYS 1 0000000000000 0000000000000000000000000000 0 TRANSIENT 0000000000 4 2 0000008000 0000 00000000 AUTO Min ATMIN Min ATT ON A TMIN ON ATMINON OFF OFF 4 3 COPY 00000 000 00000 83267 0 0 0 6 000000
51. 0000000000000000 17 0000000 Constellation 0 0 00 0 00000000000000000 0220 00000000000 00000000000000 18 Graphics 00000 Graph 000000000 D 19 Select type Q 00000 Graphic Type of Analysis 1 LL B Ll H1 B D D UU D UI HI 000 20 0000 IEYE Diagram 0000 00000 1100000000000000000 1000000 2 21 2 3 3GPP 83267 62 0000 Diagram 1 Graphics 2 21100000000000000000 21 Graphics Grph D DD D B B UU U BI BI 22 Select type Graphic Type of Analysis 23 VQ EYE Diagram 0 0 Hz ENTR 1000 20 04000 030060 1000 00020804 0 00004 002000 10000000000000000 2 22
52. OFF 000000000000 0004 200000000 640 00000 00000000000000000000 INT 0000000000000 EXT 000000000000000 F 0000000000000 000000000000000000 0000000000000000 000000000000000 20000 00000 000 0 000 0000 0 0 000 000000000000000 0 0 0 100 0 0 0 11000000000 00000000000000000000000 000000000000000000000000 0000000000 0000006000000 0000000000000 l 0000000 0000000000000 Limit gram Limit 0 9120 3 34 Limit Setup 000000000 0000000 ON 000000000000 3 77 R3267 0 0 0 0 62 UU 3 3 4 Modulation 3 3 4 3 Power 3 3 4 3 1 00000000000
53. Template 2 3GPPTTMP2 3GPPTTMP2 0000 5 000000000 0000 Power Marker 1 Peak Factor 3GPPTMKIPKF Average Power 07 Power Marker 2 Peak Factor 3GPPTMK2PKF Average Power 3GPPTMK2AVG Power Marker Ratio 3GPPTMKRATIO Tabe Data 00 0 3GPPTTABLEI 1 42 4 Mode CONCISE 000000 00 0 dl dn Power dBm dB 3GPPTTABLE2 n lt CR LF gt d1 lt C R LF gt dn lt C R LF gt 000000 0000 dn Power dBm dB 4 61 R3267 0 0 O0 0 6 000000000000 4 2 GPIB 4 62 0000 Auto Level Set AUTOLVL 4 12 TRANSIENT 0000 00000000 Scale Setup X Scale Max 3GPCCDFXMAX 3GPCCDFXMAX 00 0200 70 dB dBm X Scale Range Power Unit RELATIVE ABS POWER 3GPCCDFXRNG 3GPCCDFUNIT REL 3GPCCDFUNIT ABS 3GPCCDFUNIT 10 50dB dBm 0 ABS POWER I RELATIVE Parameter Setup Root Nyquist ON OFF Trigger Mode INT EXT 3GPCCDFRNYQ ON 3GPCCDFRNYQ OFF 3GPCCDFTRG INT 3GPCCDFTRG EXT 3GPCCDFRNYQ 3GPCCDFTRG Trigger Slope 3GPCCDFTRGSLP RISE 3GPCCDFTRGSLP FALL 3GPCCDFTRGSLP 0 1 Trigger Delay 3GPCCDFTRGDLY 3GP
54. m Ern m oo 0102 20202 0 E E Z ELE Et HG G O ooo mn m m 000 m gm go a00 HHG uw 000 EJ rcr 000 O o o L mn m r3 r3 0 r3 r3 r3 O cg lt 2 pic E qu z 20 oo gt oo C3 2 Z Z ZA og 5 2 gt S gt S S S S 3 5 5 5 5 Primary 0 0000000 OFF Primary 000000000000 0000000000 3 66 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation b Meas Mode FRAME LINK DOWNLINK 0 0 Parameter Setup FRAHE DOWHLTHK TB DEFINE UNDEF INE 36PP
55. Chip Error vs Phase Error vs Chip GPHCHIP GPHX n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 0000000000 9 0000000 4 58 n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 00000000600 0000000 Tx Power Auto Level Set R3267 62 4 12 TRANSIENT 100000 4 2 GPIB AUTOLVL Parameter Setup Root Nyquist ON OFF TXRNYQ ON TXRNYQ OFF TXRNYQ Trigger Mode INT EXT TXTRG INT TXTRG EXT TXTRG EXT Trigger Slope T TXTRGSLP RISE TXTRGSLP FALL TXTRGSLP 0 1 EXT Trigger Delay TXTRGDLY TXTRGDLY 5120 000 120 000 Average Times 1 2 32 0000 Tx Power 10000 0000 TXPWR 41 42 43 41 Power dBm d2 Tx Power W d3 Peak Factor dB 4 59 R3267 0 0 O0 0 6 000000000000 4 2 Power vs Time 4 60 Auto Level Set 4 12 TRANSIENT AUTOLVL 000000000 000 00000000 Scale Setup Display Type GRAPH TABLE 3GPPTDISP GRP 3GPPTDISP TBL 3GPPTDISP
56. ma 5 7 R3267 0 0 0 0 6 0000000000000 5 3 Mag Error Magnitude Error 0 0 5 3 Mag Error Magnitude Error 0 Mag Error 0 0000 00590000000 00000000 Y Vra 2 100 Magnitude Error 3 Ir i 2 5 4 Phase Error Phase Error Im Qm 0 Ir 1 Qr Gi 1 K 0005900000000000000000000 K x4 tan Qm Im i tan QrG Ir 2 Phase Error lt K 5 5 Error Vector Magnitude O J 10059000 100000 10000 1000 Im i Qm G i Qr G 1 K 7 K Y m Qr 2 Magnitude 1 100 K Ir Reference Signal Error Magnitude Error E V M Phase Error 5 9 Mag Error Phase Error 5 8 Im Qm G i Qr i K Error Veetor Magnitude Measurement Signal 000 000 00000 000 000 000 00000 000 000 000 00000 000 32670000 6 0000000000000 5 6 00000000 56 00000000 0000 4 0000000000000000 K ma 0 r6 1 Ini Qm 000
57. L3 00000000000000 1 Meas Length 1 0 kHz ENTR 0000000 1 0 00 000000000 8 2 Power dB CCDF 1 2 T CCDF i 1 Auto Level Set 1e0 Parameter Setup Scale Setup 1e 2 Trigger Mode Parameter Trigger Slope _ Setup Trigger Dela 16 4 E 4 3 Trace Meas Length i 10 Write 1e 6 20 14 4 10 CCDF Power Data Peak Factor Average Power 10x 0 15 1 0 0122 0 0015 2 0 00012 2 37 CCDF Parameter Setup 2 35 R3267 0 0 O0 0 62 2 6 CCDF 0 11 Parameter Setup 0 000 000000000000000000 12 Auto L
58. REF 17 3 dBm MKR 799 800 MHz 10 dB Write Posi 55 64 dBm Tenplate MARGIN DX 1 Template ENTER 800 000 MHz SPAM 2 000 MHz RBW 3 kHz VBW 100 kHz SWP 5 0 ATT 30 d Due to Transient CDMA S00MHz REM Link Carrier Freq 800 000 MHz Ref Power 2 62 dBn Offset Freq Power Judge Power t Judge 1 200 000 kHz 58 26 dBc 53 34 dBc 2 400 000 kHz 68 44 64 76 dBc 5 5 MarginAX Template Couple to Power 1000 100000 Y 1000000000000000000000000000000000 1000000000000000 0000 000 000 0 000 00 00 Template Couple to Power 10000000000000000 000000000 rr 0 Shift X Y 0 100000 0 0 1000 Shift 5 3 832670000 6 000000000000 5 2 Due to Transient Due to Modulation Inband 0 0 000000000600 5 2 Due to Transient Due to Modu
59. 3 24 3 41 3 46 3 7 3 22 3 49 3 52 3 75 reu 3 8 3 13 Ref Power sanu aan 3 13 3 15 3 14 3 16 3 16 3 17 3 17 3 29 3 43 3 47 3 41 3 46 3 50 3 53 3 49 3 52 3 10 3 13 3 8 3 9 3 15 3 16 3 10 3 11 3 17 3 35 3 14 3 29 3 43 3 47 3 32 3 34 3 50 3 53 3 38 3 45 Rolloff Factor 3 13 3 15 m 3 8 3 13 3 43 3 48 3 14 3 16 Root 3 22 3 23 3 17 3 30 3 77 3 78 3 42 3 46 3 80 3 82 3 49 3 50 Save uuu s u eR ue RI 3 10 3 18 3 52 3 53 3 35 3 55 SPUN 3 7 Scale Setup 3 23 3 79 Start au PE 3 17 3 54 3 82 S N D 3 7 3 25 HI eH EUR 3 19 STD Setup 3 7 3 25 Scrambling Code Define 3 20 3 63 3 86 3 67 Stop Offset ee etes 3 17 3 54 Scrambling Code No 3 20 3 21 Symbol Rate I T 3 13 3 15 3 24 3 64 3 43 3 48 3 67 3 70 Table Edit 3 10 3 18 3 73 3 84 3 19 3 35 Search Mode 3 20 3 24 3 55 3 62 3 64 3 68 Init icc 3 8 3 10 3 84 3 13
60. 0 LL 0 Primary seen 0000000 0 3 3 2 T Domain 3 3 2 1 Power T Domain 3 3 2 2 ON OFF Ratio 33 23 5 Nn 3 3 3 F Domain 3 3 3 1 Power F Domain 3 3 3 2 OBW 3 3 3 3 to Transient 3 3 3 4 Due to Modulation 3335 L tre re RR SURE 3 3 5 6 Inband Spurious 2 eet tette eere eran e URL us ne Plena pro EE eee bere e epo 3 3 3 7 Outband Spurious 3 3 4 Modulation 3 3 4 1 3GPP 3 3 4 2 QPSK 3 3 4 3 Power 3 3 4 3 1 Tx Power 3 3 4 3 2 Power vs Time 3 3 4 3 3 CCDF 3 3 4 3 4 P CPICH Power 2 6 2 10 2 10 2 14 2 18 2 23 2 27 2 27 2 30 2 34 2 38 3 1 3 1 3 26 3 27 3 28 3 28 3 31 3 34 3 37 3 37 3 40 3 41 3 44 3 49 3 52 3 55 3 57 3 57 3 75 3 78 3 78 3 79 3 82 3 83 1 R3267 0 0 O0 0 6 000000000000
61. 000 Power 2 1000 Power Marker1 00000000000 00000000000000000 100 0 00000000000000 3 39 Template Setup 00000 L3 L3 000000 00000000 L3 0 3 81 832670000 6 000000000000 3 3 4 Modulation Power Template Marker1 00000 0 0 0 0 0 Power Template Marker 000000000000000000000 3 3 4 3 3 00000 CCDF Complementary Cumulative Distribution Function 0 O O L Peak Factor 10000000 Auto Level Set Scale Setup 0 0 00000000 Scale Setup X Scale Range Power Unit 3 40 Scale Setup E E E E D D LH X Scale Max 0000000000000 20dB m 70dB m 00 1 00 00000 X Scale Range 0000000000000 1480 0504800010480000000000 Power 00000000000 RELATIVE
62. 0000 Template from STD Insert Line 10000000 Delete Line 000000000 000000 Sort 0 0000000000000000 Table 0000000000000 Marker 0 0 0 0 5 2 1 Marker Edit 000 Copy from STD 0 00000000000000000000000 Insert Line 10000000 Delete Line 3 49 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain 3 50 Sort Table Init Average Times ON OFF Config Parameter Setup Freq Setting Detector Peak MKR Y Delta Result Ref Power 1000000000000000 0000006000000 00000000000 0000000000000 Average 00000000 Parameter Peak Y Delta Detector 9s Template Limit 100 0 Judguent Display Unit Template Couple to Mode MARKER RELATIVE ABS 10000 3 16 Parameter Setup START amp STOP SPAN 0 000000000 NORMAL POSI NEGA SAMPLE
63. 4 2 0 0 4 4 COUPLE RBW AUTO VBW VBW AUTO Sweep Time Sweep Time Auto 4 5 FREQ 4 6 LEVEL R3267 0 0 0 0 6 000000000000 4 2 GPIB 4 7 MKR
64. 4 42 4 44 4 53 3GPDNPHASE NORM 4 42 4 44 4 53 3GPDNPKCDE OFF 4 41 4 50 4 51 3GPDNPKCDE ON 4 41 4 52 120K 4 42 4 52 3GPDNRATE 15K 4 42 4 53 3GPDNRATE 240K 4 42 55 tror 4 50 3GPDNRATE 30K 4 42 3GPMKPOW 4 ictor 4 50 4 51 3GPDNRATE 480K 4 42 4 52 3GPDNRATE 60K 4 42 3GPMKPOWABS 4 50 4 51 3GPDNRATE 7 5 4 42 4 52 3GPDNRATE 960K 4 42 4 52 42 32670000 6 0000000000000 4 1 000000000 4 52 4 60 4 53 1 e 4 60 4 50 4 51 3GPPTTRGLVL eene 4 60 4 52 3GPPTTRGSLP FALL 4 60 3GPMKRHOQ
65. L3 L3 rprcdirg amp B 5ouucuri E T o o L1 L3 L3 L1 r3 L3 A o A L3 Lr EE ESL EIE ES EI L3 L3 LL r3
66. Parameter Setup Setup Template Setup Parameter Setup Parameter Setup Select Scale Setup Parameter Setup T T T T STD Measurement parameter 000000000 Shift 00000000 00000000000 00000 3 28 3 30 3 31 3 33 3 34 3 35 3 37 3 38 3 39 3 40 3 42 3 44 3 46 3 47 3 50 3 53 3 56 3 58 3 58 3 59 3 60 3 62 3 63 3 65 3 67 3 69 3 70 3 71 3 73 3 74 3 76 3 76 3 77 3 78 3 79 3 80 3 81 3 81 3 82 3 82 3 83 3 84 3 85 3 86 R3267 0 0 0 O0 6 0000000000000 MarginAX 1 ET EL EI E E t Marker Edit 1 Marker Edit Peak Marker Y Delta Mag Error Phase Error B V M uds ste acentos Um MR iE d M EE N gH Zn Javna d r3 r3 r3 g 2
67. 000 Iri 00000 000 57 0 0000 0000000000000000000000000000 0 aM ob 1 M Y r Y i Qmat M i i k i Im Qm DDD Ir 000 i 00000 000000 0000 100000 000000 0000000 5 8 QPSK Carrier Frequency Error QPSK Carrier Frequency Error 1 D D E D EU UU U STD Setup LINK UPLINK D b H HPSK UB D HL B B D B 170 QD UO D 7I HU UD D 0 0 00000000000000000000000000 00000 000000000 00000 000 0000 0 0 0 0 0 0 0 0 0 2560000 000000000000000000000000 00000 0 00000000000000000 1 0000000000000000000 2 00000000000000000000000000000000000000 OND 10000000000000000000000000000000000000000 1000000 5 9 R3267 0 0 O0 0 6 000000000000 590
68. 10000000 0 0000000000000000000000 0 000000000000 00000000000 O O O 2000 m mill Safety 3 00000000000000000 Safety 4 10000 0000000000000000 0000000000000000000000000000000000 0 00000000000000000000000000000000000 00 10 200 0 0000000000000000000 00000000000000000000000000000000000 0 0000000000000000000000000000000 0 300 1010100000000000 1000000000000 00000 1002 R3267 0 0 D 0 62 00000
69. 3 9 3 32 3 22 3 30 OFF Width 3 9 3 32 3 33 3 36 Offset Level 3 7 3 25 3 39 3 41 3 86 3 43 3 48 Omit Transient Section for AVG Power 3 23 3 81 3 51 3 54 ON 3 9 3 32 3 56 3 77 ON 3 9 3 32 Limit D 3 22 3 77 ON OFF Ratio a 3 7 3 9 Limit 3 22 3 77 Outband Spurious 3 7 bu qe 3 7 3 25 3 19 3 59 3 86 Parameter Setup 3 8 3 9 Load Table 3 10 3 18 3 10 3 11 3 35 3 55 3 12 3 13 Lower Limit 3 8 3 11 3 14 3 16 3 12 3 31 3 17 3 18 3 39 3 41 3 19 3 22 Mag Error vs Chip 3 19 3 22 3 23 3 24 Margin AX ON OFF 3 13 3 14 3 30 3 33 3 16 3 17 3 35 3 39 3 42 3 46 3 40 3 42 3 49 3 52 3 47 3 50 Marker Edit 3 13 3 14 3 53 3 55 3 16 3 17 3 62 3 76 3 42 3 46 3 78 3 79 3 49 3 52 3 82 3 83 Marker 5 3 23 3 81 3 85 Meas Branch nere 3 21 3 74 P CPICH 3 7 3 24 Meas Channel No
70. 00 0000000000000000000000 Auto Level Set 0 000000000000000000 Auto Level 00000000000000000 100000 Display 0000000000000 Format 0000000000 0 0000000000 000000000000000000 0000000000000 0 00000000000000000 00000000000 000 0000 Display 0 0000100020000000000 SINGLE 00000000 DUAL 221 DOWNLNK Scale 000000000000 0 0000000000000000 0000000000 Analysis 0 00000 0000000001000000 POWERIdBB 000000000000000000 0000 0 000000000000001000 1000000000980 00 POWER dBm Q0 0000000000000000 Format TABLE 00000 00 0000 Error Vector Format 3 57 R3267 0 0 0 0 62 UU 3 3 4 Modulation X Scale 00000000000 0 0 000000 600000 00000000002 000000000 000000000000 View 0 0 0000 Code Domain Power el 1 0 T T T 36PP Set 0 8 i Display ug
71. Results Pur uta Level Power MERCE 12 198 Win MENE 12 39 Frequency _ 19 90210 Offset 0 0 dB 2 44 P CPICH Power O P CPICH Power Average P CPICH O O O O dBm W Max P CPICH O O dBm W Min P CPICH O dBm W Frequency Error 100000000 89 100 0 dBm W 2 41 32670000 6 0000000000000 3 0000060 0000000000 6200000000000000 31 00000000000 3 000000 00000000000000000000000000 0000 stc kasa 3 7 3 19 3 57 D rn 3 19 3 61 Active CH Detection 3 20 3 65 3 68 Analysis 3 20 3 21 3 65 3 71 Auto Level 3 8 3 9 3 10 3 11 3 12 3 13 3 14 3 16 3 17 3 18 3 19 3 22 3 23 3 24 3 28 3 31 3 34 3 37 3 40 3 41 3 44 3 49 3 52 3 55 3 57 3 75 3 78 3 79 3 82 3 83 3 84 Average 3 8 3 9 3 10 3 11 3 12 3 13 3 15 3 16 3 17 3 18 3 31 3 33 3 36 3 40 3 41 3 44 3 48 3 51 3 54 3 56 Average Times 3 8 3 9 3 10 3 11 3 12 3 13 3 14 3 16 3 17 3 18 3 19 3 22
72. 0 000000 000000 Meas Channel No 40000 000000 0 0000000000000400000000 Meas Slots 1500000 00000 00000 15000000000000 0 0 000 00 Meas Start Position 000000 510000 05 00000000 Threshold 2 0 0000000 204800 00000 0 0 Phase Inverse NORMAL 0 Hz ENTR 000 Parameter Setup 0 000000000000000 Auto Level Set Ll 0 0000000000000 SINGLE N 0000D 00000000000 0 000000000000000 2 9 R3267 0 0 O0 0 6 000000000000 22000 SGPPDDUUU 22 0000000000000 00000 0000 00000000000000 19225 2 10482000000 000000 0000000000001 0000 100 00000 eQ
73. 0000000 000000 Multiplier 0 00000000000000000000 Display dBm W dBuV 0 000000000 Judgment 0 0000000000000000 0 ON OFF 0000 Preselector 0 00000000000000 0 0000000 832967 000000000 1 60 1 6 22 0 000000000000000 00000 1 66948 0000000 6 2 3 66 Average Mode Average Times TRACE AVG 00000162000001 6 00000 000000 MAX HOLD 000000 POWER JI D DU D 0000000000600 000001000000000000 0 0 0000000 POWER AVG D LI D U D 0 0 00 LI NUMERIC 00000000 Set to Default 3 36 32670000 6 0000000000000
74. 2 28 Power vs Time Parameter Setup 00000 D D sese 2 29 Power vs Db T eie tre 2 29 Power vs Time T 00 2 30 SGPP E Rm 2 31 Time amp FFT Parameter Setup 00 0 0 E 0 0 0 2 32 Power vs Time Parameter Setup 000 000 D 2 33 E S E dnce MER 2 34 2 35 CCDF Parameter Setup 0 0 0 0 0 0 2 35 EMILE DEDE 2 36 CCDF O 0 O Trace Write 2 37 Primary CRICH C T de ttr 2 38 3GPP U EH E ED EL DE DEF uses 2 39 STD Measurement Parameter Set 2 39 Parameter Setup D 0 00 0 0 0 0 sese 2 40 Power PE E E E EE DES 2 41 Communication System D D D D 0 0 00 3 27 F 1 R3267 0 0 O0 0 6 000000000000 000 Trigger Setup Parameter Setup Trigger Setup Parameter Setup Trigger Setup Parameter Setup Trigger Setup L3 L3 E3 EJ L2 L3 L3 L3 pE3 C3 L3 Detector Parameter Setup Parameter Setup Parameter Setup Trigger Setup
75. Parameter Detector Peak MKR Y Delta Result Ref Display Unit Power Template Limit Judgnent Band Conversion 1 Integral Band Start Offset Stop Offset Average Mode E 3 17 Parameter Setup 0 0 0 E 000 Freq Setting START amp STOP SPAN Detector NORMAL POSI NEGA SAMPLE Peak Y Delta Result 0 00000000000 0 0 0 0 I 5 2 3 Inband 0 000000 100000000000000000 LU 0 D 000000 RELATIVE 100000000000000000 ABS POWER 0 0 0 000000000000 0 000000000000000 0000000000 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain
76. o ntoh ma 7 lA Ha aao Ej ES ERES 2858 95651595 E S 2 Hao lt lt q4 4 8 e mnuf amp ruung 2 Nn __ gt Hog s 9555 1 mm Y Dung mmaumuumid Ong GACA O 0008 5 5 Phase Inverse 832670000 6 000000000000 3 3 4 Modulation Meas Mode SLOT JLINK Scrambling Code Trigger Mode EXT Trigger Slope Parameter Setup SLOT UPLINK 1 Trigger Mode Analysis Rate EXT Trigger Slope EXT Trigger Delay DPCCH SF DPCCH 000000 0 0 000 chip 15 ksps 30ksps 120ksps Ka CONCISE Scrambling Code Ho Auto Level WT Display DE 6 Set Type View Point
77. 2 5 Power vs Time 22 Omit Transient Section for AVG Power OFF U U Hz ENTR 000000 666665000000000000000 Power vs Tine 10 PurVsTine Parameter Setup l Auto Level ss Root Nyquist Scale Trigger Mode Setup Trigger Slope EEE 0 7 Trigger Level und d Irisger Delay Marker Meas Length Setup Graph Plot Type 0 y 3 m Template Dat mena AUG Power A 50 0 50 Time us Time us 2 34 Power vs Time Parameter Setup 10000 23 Parameter Setup 0 0000000000000000 E E 1000 2 33 R3267 0 0 O0 0 62 2 6 CCDF 0 26 CCDF Complementary Cumulative Distribution Function 0 0 0 0 0 00000 1 0000000 000000000000000000 2 35 0000 00000 00000000 000 5 E REFIN 10MHz Reference RF Tx MS Control Terminal
78. 3 20 3 21 Peak CDE 3 20 3 63 3 68 3 74 Peak MKR Y 3 10 3 16 Meas Channel SF 3 20 3 21 3 17 3 18 3 68 3 73 3 36 3 50 Meas Frame 3 24 3 84 3 53 3 56 Meas 3 23 3 81 Phase Error vs Chip 3 19 3 22 3 83 Phase Inverse 3 20 3 21 Meas 3 7 3 20 3 66 3 69 3 23 3 25 3 72 3 75 3 63 3 70 s uu u mu 3 7 3 22 R3267 0 0 0 0 62 3100000000000 3 23 3 24 3 13 3 14 Power Marker 1 3 23 3 81 3 16 3 17 Power Marker 2 3 23 3 81 3 29 3 31 Power 3 23 3 79 3 32 3 33 3 82 3 38 3 39 Power vs Time 3 7 3 23 3 40 3 41 a n 3 10 3 18 3 44 3 45 3 36 3 56 3 48 3 51 Primary CPICH 3 20 3 65 3 55 3 68 SF Number Rate 3 19 3 62 Primary SF 3 20 3 64 Shift Cuy a scm e RE E us 3 8 3 13 3 68 3 14 3 16 EYE 3 19 3 22 3 17 3 29 Qch Time amp FFT
79. 4 18 TDPTMPLCLR eene 4 17 TDPTMPLEED 4 17 TDPTMPLPW OFF 4 18 TDPTMPLPW 4 18 TDPTMPLSEL LOW 4 17 TDPTMPLSEL 4 17 TDPTMPLESX 4 17 TDPTMPLSY 4 17 TDPTRGDT nne 4 16 TDPTRGLVL tetto ttti 4 16 TDPTRGPOS ener 4 16 TDPTRGSLP 4 16 TDPTRGSLP RISE 4 16 TDPTRGSRC 2 2 2 2 2 2 4 16 TDPTRGSRC 4 16 TDPTRGSRC 44242222 2 4 16 TDPTRGSRC 4 16 TDPUNIT 2 2 2 2 2 2 4 18 TDPUNIT 4 18 W 4 18 TDPWDO OFF eere 4 16 TDPWBDO ON ceca 4 16 tieni he EO 4 16 TDPWWID sus reticere 4 16 2222 2 4 21 TDSA VO 4 22 4 22 TDSAVGMD 4 22 TDSAVGMD NUMERIC 4 22 TDSAVGMD 4 22 TDSAVGMD 4 22 32670000 6 0000000000000 4 1 000000000 TDSCDLDR as aa 4 22 TGTTRGSLP
80. 4 25 FDPDET SMP sucining 4 25 FDPDIV 4 25 EDPDIV P2DB eR 4 25 FDPDIV 4 25 EDPJDG OFF 4 25 FDPJDG ON a 4 25 4 26 FDPIDGUP renes cette ternis 4 26 zen RIPE 4 26 FDPSE LS TD eitis 4 26 FDPUNIT DBM ee 4 25 FDPUNIT DBUN 4 25 EDP NIT 4 25 FDPWDO OFF 4 25 4 25 4 25 WID 4 25 FDSAUTODL VL nnne 4 38 FDSA VG ci ee 4 38 FDSAVGONT onto ttt 4 38 FDSAVGMD 4 38 FDSAVGMD POWER 4 38 FDSAVGMD 4 38 FDSCER deu 4 38 4 38 FDSDET 4 38 FDSDET NRM eee 4 38 FDSDET POS ertt tenente 4 38 FDSDET SMP eee 4 38 FDSJDG 4 39 FDSJDG ON eee 4 39 FDSDD 4 38 es 4 39 FDSPKMK teniente 4 39 16G unas 4 39 FDSPRE 230G 4 39 EFDSSETSTD ceteris 4 39 PDSS V 4 38 EDSTBL engan AE 4 38 FDSTBLED u
81. eee 4 28 DTSREF 2 222424 2 2 4 29 DTSREF 4 29 DTSREEPWR 4 29 5 4 29 DTSRES 4 29 DTSRES 4 29 tecniche 4 29 DTSSETSTD 4 29 DTSSYMRT 4 29 DTSTMPL 24422222 2 4 27 DTSTMPL ON erret 4 27 DTSTMPLBTM eee 4 29 DTSTMPUCLR retro 4 27 DTSTMPLDX eee 4 27 DTSTMPEBD etereot eite tn 4 27 DTSTMPLPW 4 29 DTSTMPLPW 4 29 DTSTMPLSX 4 27 DTSTMPLSY 4 27 DTSUNIT 22 022222 4 28 DTSUNIT 4 28 DTSUNIT Weinen 4 28 kha 4 64 ERRNO 4 65 4 11 4 11 EDPAUTOLNVL reete nen 4 24 EDPANVGY us 4 25 4 25 FDPAVGMD 4 25 FDPAVGMD NUMERI IC 4 25 FDPAVGMD POWER 4 25 FDPAVGMD TRACE 4 25 EDPDET 4 25 32670000 6 0000000000000 4 000000000 FDPDET eee 4 25 FDPDET
82. eee 4 52 3GPPTTRGSLP 4 60 SGPMNRKSCLL 4 53 SGPPTUNIT ABS ettet 4 60 4 53 3GPPTUNIT 4 60 3GPMKSCHPOWABS 4 53 SGPPTYRNGI tete 4 60 3GPMKTAU eee tentis 4 50 3GPPTYUPR entere nennt 4 60 4 50 4 52 4 49 4 51 3GPMNKTING 4 50 4 52 3GPSCCD suse 4 50 4 51 eee 4 52 3GPSCDEF DEF 4 41 4 43 256 4 50 3GPSCDEF 4 41 4 43 3GPMLTNUM 4 46 3GPSCGRP 4 50 4 51 4 49 4 50 4 50 4 51 4 52 tiit 4 50 4 51 4 49 4 52 4 40 3GPSRCH PCPICH 4 41 4 43 4 49 4 50 3GPSRCH 8 2 2 2 4 41 4 43 4 51 3GPSRCH SCHLONG 4 41 4 43 4 50 4 51 3GPTAU 4 49 4 50 4 49 4 50 4 51 4 52 4
83. 2 26 QPSK p Waveform Quality Factor Carrier Frequency Error Carrier Feedthrough Magnitude Error Phase Error Error Vector Magnitude 00000000 00000000 0000000 Bo 00000 deg 10000 rms 32670000 6 0000000000000 2 5 Power vs Time 2 5 Power vs Time 1922 5MHz 20dBm 1000 DPDCH 64 60 606 66 5 0 00000000000 00000 10000000003 uu 1948 00000000000000000 000000 0000000000001 DPCCH 256 15ksps 251 0 0 0000000 00000 1 022 0000000000000 000 MS 4 REFIN 10 Reference MS Control Terminal 2 27 Power vs Time 0 0 00000000000000000000 2 1 9 2 2 5 000 000000 1922 5 0000 00 U 3 SPAN 8 0000 2 0
84. 2 35 1000 2 2 34 FREQ 1 9 2 2 5 MHz 0 0000 000000 1922 5 00000000 SPAN 8 0000000 8 00000000 COUPLE RBW AUTO MNL MNL 3 0 kHz 0 0 0 RBW 0 0000000 VBW AUTO MNL MNL 3 0 0 VBW 0000000 LEVEL 0 2 9 0 0 00 0 0000000000 99800000000 10 R3267 623 0 0 0000000000 2 6 CCDF J 0 REF 0 0 dBm 10 dB Write Horm B Blank Horm Pouer D l i gt 5 A 24 1 Channel Total Power Average Power ENTER 1 922500 GHz SPAN 8 000 HHz 30 kHz 300 kHz SWP 20 ms 10 dB 2 360 000000 TRANSIENT Modulation Power CCDF Parameter Setup Parameter Setup 0000 000 U 10000 oot Nyquist OFF Hz ENTR R 0 000000000000000 E E 000000000 1000000 Trigger Mode INT
85. 4 45 4 46 4 61 3GPUPPHASE 4 45 4 46 4 60 3GPUPRATE 120 4 45 4 61 4 45 3GPPTOMIT 4 61 3GPUPRATE 240K 4 45 OFF 4 60 3GPUPRATE 30K 4 45 4 60 3GPUPRATE 480K 4 45 SGPPTTABLEL 2 trente 4 61 3GPUPRATE 60K 4 45 2 4 61 3GPUPRATE 960K 4 45 3GPPTTMP1 aaa 4 61 3GPUPSCNOL suu teorie 4 44 4 45 2 ua saus ana e 4 61 3GPUPSCNOHEX 4 44 4 45 2 5020 94 4 60 4 45 4 46 3GPPTTRG 4 60 3GPUPTRG EXT a 4 45 4 46 4 3 R3267 0 0 0 0 6 000000000000 4 00000000 3GPUPTRG INT netten 4 45 4 46 SGPUPTRGDAEY 4 45 4 46 3GPUPTRGSLP FALL 4 45 4 46 3GPUPTRGSLP RISE
86. a 3 21 3 71 I EYE Diagram 3 19 3 22 3 73 EYE Diagram 3 19 3 22 DPCGELSE etico ete aN 3 21 3 71 Ich amp Time 3 24 3 73 Ich Time amp FFT 3 24 Due to Modulation 3 7 Inband Spurious 1 3 7 3 16 Due to Transient 3 7 Inband Spurious 2 3 7 3 17 E V M vs Chip 3 19 3 22 3 7 3 25 E V M vs 3 19 3 86 3 2 32670000 6 000000000000 3100000000000 Insert 3 8 3 10 3 80 3 86 3 13 3 14 Meas Range eene 3 22 3 77 3 16 3 17 Meas 3 20 3 21 3 18 3 30 3 68 3 74 3 35 3 42 Meas Start Position 3 20 3 21 3 46 3 49 3 66 3 69 3 52 3 53 3 71 3 74 3 55 Meas 3 20 3 21 Integral 3 17 3 54 3 65 3 71 IQ Complex 3 24 3 7 Judgment acte in 3 8 3 9 Multi Channel No 3 19 3 62 3 10 3 11 Multiplier sese 3 10 3 36 3 12 3 13 OBW 3 7 3 15 3 16 3 12 3 40 3 17 3 18 OFF Position
87. TRANSIENT STD STD Setup 0000 STD Measurement parameter set IL H B 000 00000 000 Meas 000000000 1000000 Meas Mode FRAME 0 0 00 0 HzENTR 0 0 00 0000000 D DU D UO U U U U 000000 Link DOWNLINK 000 1 00000 Offset Level 0 0dB Frequency Input FREQUENCY Input RF Cont Auto Level Set OFF Average Type PEAK EXT Trigger Source TTL RETURN Modulation 3GPP Parameter Setup Parameter Setup FRAME DOWNLINK O0 O0 000000000000 000 2 7 R3267 0 0 0 0 6 000000000000 21000 Parameter Setup FRAME D MNITHK 36PP Scrambling Code Auto Level Trigger Mode ANN 7 80 5 EXT Trigger Slope MM MM z EXT Trigger Delay _ Search Mode LO Primary CPICH SF 15 View P
88. odg rcm rcm 000 3 32670000 6 0000000000000 000 0 0 000 4 1 4 10 4 2 HIH EE ERN 4 10 4 3 Gaps ERE CHE EP ED ED BL int 4 10 4 4 COUPLE BU PE ERBDR E BI 4 11 4 5 FREQ D J HH eren 4 11 4 6 BEVBL UL TI REG EUEL tec rtr otio ano Em oc 4 11 4 7 an asa 4 12 4 8 4 12 4 9 4 12 4 10 4 13 411 sPAND 4 13 4 12 kapas ana aR E LE E 4 14 4 13 00000000000000000000000000000000 4 64 4 14 MEHR i M 4 65 6 1 6 2 62 DATENT M S 6 3 1 32670000 6 000000000000 1 1 1 2 1 3 1 4 1 5
89. 0000000000000 3 3 4 Modulation IEYE Diagram 00000000000000 vs Symbol Q EYE Diagram 0 000000000000000 000 Diagram 10009000 00000000000000000 DONWLINK Active Detection 1000000 Error vs Symbol 11000000 00000000 Phase Error Symbol 1000000 10000000 0000000 45 000000000000000000000 FRAMET USER TABLE 0 000000000000000000000000 7525 141 3 5 00 0000000 Test Model 1 DPCH 16 0 0 00000
90. Detector NORMAL POSI NEGA SAMPLE 0 000000000 Gated Sweep Display dBm W dBuV 0 00000000 Judgment Upper Limit 000000000000000000 Lower Limit 00 0 00 20 00 00 0 000000000 3 39 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain Average Times ON I 00000000000 TRACE AVG 000001628000001 200000 000000 HOLD 8 000000 POWER AVG 000001 000000000000 00000 1000000000000 0 0000000000 B 00 000000 0 0000000 000000000000000 Set to
91. E CH1 CH2 CH3 I Q EXT TRIG 68100 0 DOWN LINK 2 000 10 10000 CH3 00 L3 100000 1000 D CH1 CH2 0 0 8Vp p 3 832670 6 9000 1Q 0 0 DDOWN LINK 00 1 10000 IDU Parameter Setup SLOT DOWHLINK Peak 6 Scrambling Code Def ine Scrambling Code No 00000 emn Trigger Mode mr EXT EXT Trigger Slope Display EXT Trigger Delay 0 000 chip Search Mode Pr inary SF 256 15 Primary o Point Active CH Detection 1 Y Analysis Rate EIE 17 5 15 Broghies 30ksps amp oksps 120ksps 240ksps lt Meas Unit 540 2560 chip Table Meas Start Position 0 0 chip _ Threshold 5 Parameter Phase Inverse Setup Frequency Error Average it Tini Times Transmit Timing 169000000000 4 5 0 00000 5 00000000000 l
92. Trigger EXT D D HXENTR 000000 000000000000000000 11 0000000 Trigger Slope 0 0 00 0 000000 000000000000000000 12 Trigger Delay 0 0 000000000 04500000000 13 00000 Meas Length 3 0 000000 0 30000000000000 2 28 932670 0 0 O 62 0000000000 14 15 16 0 0 000 0 0 Graph Plot Type 000 1000 7 Transient Section for AVG Power 2 5 Power vs Time L Hz ENTR Hz ENTR 000000 666600000000000000 db Power vs Tine 10 Parameter Setup rcx Root Nyquist Trigger Mode EXT Trigger Slope Trigger Level d Trigger Delay Meas Length Graph Plot Type Dmit Transient Section for AVG Power PurVsTine T Auto Level Set Scale Setup E Paraneter Setup 0 2 29 Power vs Time Parameter Setup Parameter Setup 0000 0 7 50 4 E m Template
93. 2 0000000000 000 20000 3000 1000 3 0000000000000000000000 1 CH2 Go CH 0000000000000 CH3 0000000000000000 000 2000 10000000000000000000000000000000 00 10000 20 100000 2 000000000000000000000 000 3000 Filter 000000000 0000000000000000 0000000000000000 0000000000000 6200000000000 0000000030000 AWG2021 Tektronix 000 CH2 Q CH 1 Li 00000 Frequency Range 30 MHz to 3 GHz SMIQ03 Rohde amp IQ Modulation Bandwidth gt 5 MHz Schwartz p gt 0 999 RF Cable BNC m BNC m 500 MI 09 Advantest Adapter N m BNC f 500 JUG 201 U Advantest 6 3 R3267 0 0 0 0 6 000000000000 6 200 6 2 000000000000000000000 00000000000000000000 IDU 10000 6 2 1 DOWN LINK 0 1 832670 000000000 620000000 10 2 CH3 I Q RFOUT RFIN EXT TRIG
94. Error Vector Magnitude O O O e pl Ult e 000000000000000 QPSK Carrier Frequency Error 00000 e 0000000000 7 000 000000000 Preface 1 R3267 0 0 0 0 62 00000 00 2 0000000 0 L3 0000000000000 TRANSIENT 0000000 T Demain Detector 0000000 0000000000000 00000000000000 N OFF AUTO MNL 0 0000000000000000000000 0 0 0 Window ON OFF OFF 0 O Window ON OFF OFP Ez 0 Preface 2 32670000 6 0000000000000 1 11 1 2 1 3 1 4 1 5 2 2 1 2 1 1 Slot 2 1 2 Frame 2 2 221 510 2 2 2 Frame 2 3 2 4 2 5 2 5 1 00000 252 1 2 6 27 3 3 1 3 2 3 3 3 22 2 Power vs Time
95. Template Couple to Power ON OFF Template Limit Judgment OFF Symbol Rate 1 Rolloff Factor Average Mode HOLD POWER AVG NUMERIC R3267 0 OPT62 3210000000 TRANSIENT F Domain Due to Modulation 000000000000 3 14 Set to STD Auto Level Set Gate Setup gt Trigger Setup gt Trigger Source FREE RUN Template Gate Source Trigger Marker Gate Setup Ext Gate IF Average Times ON OFF Gated Sweep ON OFF Set to STD l EXT Config Det ctor zd Gate Position Slope Gate Width u Trigger Level Template ON OFF Trigger Position Shift X uu NR Shift Y Detector NORMAL Margin AX ON OFF FORI Template Edit Insert Line NEGA Delete Line l REY SAMP LE Sort Table Init Copy from STD Insert Line Delete Line Sort Table Init Parameter Setup M 32670000 6 000000000000 00000000 START amp STOP SPAN Detector NORMAL POSI NEGA Result MARKER RELATIVE ABS POWER Ref Power REFMARKER MODULATION Display Unit dBm w Template Couple to Power ON Template Limit Judgment ON Symbol Rate 1 Rolloff Factor Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC 3 15 R3
96. System Memory test failed 0 System Memory test failed 1 System Memory test failed 2 System Memory test failed 3 A 3 32670000 6 000000000000 00 Average 3 7 3 25 BGPP 3 7 3 19 3 87 3 57 2 18 B 45deg Piti reete 3 19 3 61 Band Conversion 3 17 3 54 Baseband Input 3 7 3 25 A 3 87 Active CH Detection 3 20 3 65 3 68 C Analysis Rate 3 20 3 21 3 7 3 23 3 65 3 71 3 82 Auto Level Set 3 8 3 9 assu 2 34 3 10 3 11 Channel Setting 3 7 3 25 g 2 2 3 12 3 13 3 14 3 16 2 14 3 16 Code 3 19 3 59 3 17 3 18 Config 3 8 3 9 3 19 3 22 3 10 3 11 3 23 3 24 3 12 3 13 3 28 3 31 3 14 3 16 3 34 3 37 3 17 3 18 3 40 3 41 3 30 3 33 3 44 3 49 3 35 3 39 3 52 3 55 3 40 3 42 3 57 3 75 3 47 3 50 3 78 3 79 3 53 3 55 3 82 3 83 Constellation es 3 19 3 22
97. Ext Gate UU U D D U U DE U LI U 0000000000 Gate Setup Gate Source D 0000000000000 0000000000 Set to STD 0000000000000000000000 Gate Position 0 000000000 Gate Width 00000000000 Gated Sweep 0000000000000 3 45 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain 3 46 Detector Template Template ON OFF Shift X Shift Y Margin X ON OFF Template Edit Insert Line Delete Line Sort Table Init Marker Edit Copy from STD Insert Line Delete Line Sort Table Init NORMAL POSI NEGA SAMPLE 000000000 Detector 3 14 Detector 5 1 2 F Domain 0 00000000000 00000000000 00000 0 000000 00000000000000000 0 000000000000000000 0 00000000000000 000000000 0 000000000 0000 0 00000000 000 0 00000000000000000 000000 00000000 0 00000 0 000000000000 0 00000000000
98. L3 0 oHm T P 000 000 Set to STD 0 000000000 3 48 8324670000 62 3 3 3 F Domain 3 3 3 5 Inband Spurious 1 1000000000000000000000 Auto Level Set 0000000000000000000000000 0000 0000000000000000000000 00000 Auto Level 0000000000000000 0000000000 Template 0000135 12 Fpomain 0000000000000 0 00 000 Template 000000000 0000000000000 0 00000000000000000000 Shift X Shift 000 Margin ON OFF
99. 3 0000000 ABS 0000 00000000 INTEGRAL 000 11000000000000000000000 Reference Type 000 000 NORMAL 00 00000000000 Reference Type 000 0000 100000000000000000 NORMAL J J J I 00000000000000 Type 0000000 NORMAL T 090090000000000000000 Reference 000 0 Config Parameter Setup Ref Power REF MARKER MODULATION 0 0 0 0 0 MARKER D 0 0 0 0 Marker Edit Reference MKR Type 00000000 0 000000000 MODULATION DO 0O 0O 0O 0 O Power Modulation Tx 1 ED EB B E E E E E E E D Hl Config Parameter Setup Result ABS POWER 10000 100 Offset MKR Reference 0000000000 Tx Power D 1 B D UU B U D U UU UE DI O Lr 0 0 0 E 0 M 5 6 5 2 3 R3267 OPT62 5 2 Due to Transient
100. 4 45 4 46 4 40 4 40 3GPXSCL TIME 4 40 3GPYSCLEVM 4 39 3GPYSCL POW 4 39 3GPYSCL POWABS 4 39 3GPYSCL 4 39 4 10 4 65 4 15 ALS ON 4 15 M 4 11 nuum 4 10 ATMIN E 4 10 ATMIN 4 10 ATMIN QN tte 4 10 AUTOLVL teneo 4 39 4 55 4 59 4 60 4 62 4 63 AU TOWEL 4 16 AVGTYP NORM e 4 15 PEAK eerie 4 15 BAG HIERHER 4 11 BBINPUT AC ether 4 15 BBINPUT DC teret 4 15 4 11 u s us 4 14 CHEDDNTI qusa 4 14 CHEDDNO a a 4 14 rire 4 14 u ien 4 14 CHEDUP2 4 14 CHEDUP3 2 4 14 CHSETSTUD 4 15 4 15 4 15 CHTBL2 2 2 4 15 2 4 15 3 2 2 4 15
101. Eit E m r3 mmn go0 000 noon g Edu Ey EE EIE E rm 000 r3 r3 12 r3 Dd rx Ed Ee Ei Es gt 5 5 5 5 5 5 gt Q 3 72 32670000 6 0000000000000 d Meas Mode LINK UPLINK Scrambling Code No Trigger Mode EXT Trigger Slope EXT Trigger Delay DPCCH SF DPCCH No Meas Channel SF 3 3 4 Modulation u Parameter Setup FRAHE UPLTIMK zu 6 Trigger Slope 1 ure EXT Trigger Delay 0 000 chip 7 DPCCH SF 286 15 Eid SF x 15 ksps P view Meas Chann
102. dBm I Phase p I Phase E V M rms I Phase Timing 3GPMKTING chip Q Phase Code Power dB 3GPMKPOWQ dB Q Phase Code Power dBm 3GPMKPOWABSQ dBm Q Phase 3GPMKRHOQ rms Q Phase Timing 3GPMKTINGQ chip Uplink Frame 00 0 000 3GPTAU sec T Chip 3GPTAUCHIP chip Carrier Frequency Error Hz Carrier Frequency Error ppm 3GPCFER 3GPCFERPPM Hz pm I Q Origin Offset 3GPIQOFS 000 dBo Error Vector Magnitude 3GPMOD rms Peak Error Vector Magnitude 3GPPKMOD Slot 3GPSLOT Average Ch Power 3GPAVGCHPWR dBm Code Domain Power Marker Marker Position 3GPMK Slot D L Slot No 3GPMKCODE Code Power dB 3GPMKPOW dB Code Power dBm 3GPMKPOWABS dBm p rms R3267 0 0 0 OPT62 L1 00 1 Demod Data 4 12 TRANSIENT 4 2 GPIB 000000000 1 00 3GPDEMOD 000 3GPDEMOD
103. 000000 0 00000000 00000 DTSMKRED d1 f1 f2 11 dl 0 Normal 1 Integral 2 NNyquist 00000 0 2 0000 00000 Init Table DTSMKRCLR JJ C3 E3 C3 C3 C3 C3 L3 L2 L3 L3 E23 L3 LLL sssi asp D P Gs 5 L3 L3 c3 Average Times DTSAVGCNT DTSAVG DTSAVGCNT DTSAVG 1 OFF 2 999 OFF 2 999 Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC DTSAVGMD TRACE DTSAVGMD MAX DTSAVGMD POWER DTSAVGMD NUMERIC DTSAVGMD Trace Avg Max Hold Power Avg Numeric Parameter Setup Detector Normal Posi Nega Sample DTSDET NRM DTSDET POS DTSDET NEG DTSDET SMP DTSDET Display Unit dBm w DTSUNIT DTSUNIT W DTSUNIT DBUV DTSUNIT 00000 10 Transient Template Couple to Power ON OFF 932670 0 0 0 OPTe2 SGPP 1 d Butte bl 4 12 TRANSIENT 0 0 4 2 GPIB 00 0000000 DTSTMPLPW DTSTMPLPW 000 DTSTMPLPW 000 0 OFF 1 Template Limit DTSTMPLBTM DTSTMPLBTM 000 aBm w dBu v Judgment ON OFF DTSJDG ON DTSJDG OFF DTSJDG OFF
104. 000000000 L3 0000 Config Parameter Setup 0 0 000000 5 2 3 Inband Spurious O O 0 L3 L3 L3 MARKER 10 RELATIVE 00 ABS POWER REL 0 oa H LL LL Result RELATIVET 0000006000000 REF MARKER Marker Edit Ref 100 MODULATION Tx 1000 OWer 0000080 32670000 6 0000000000000 3 3 3 F Domain Display dBm W dBuV Result RELATIVE 10000000000 980 00000 Template Couple Power 0000000 000000000000 0 0000000000 Template Limit Template Couple to 0000 000000
105. 4 12 TRANSIENT D 00000000 00000000 0000000000 Constellation Constellation Line Constellation Dot Constellation Line amp Chip Diagram Q EYE Diagram EYE Diagram DispStart 255 1000 QPMKI 000 QPMKQ joo vs Chip Mag Error vs Chip 00000 DispStart 255 000 000 QPMKERR Phase Error vs Chip 0000 QPMKCHIP QPMKCHIP DispStart 4255 LI 000 degree 4 57 R3267 0 0 O0 0 6 000000000000 4 2 Graphics Data 0 0 Constellation I Phase Constellation Line 4 12 TRANSIENT 0 0 000000000 000 00000000 n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 0000000000 dn I Phase 000000 Constellation Dot Q Phase 0 Constellation Line amp Chip I EYE Diagram Q EYE Diagram I Q EYE Diagram n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 000000 00 dn Q Phase I EYE Diagram Chip Q EYE Diagram I Q EYE Diagram GPHCHIP GPHX n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 000000 dn Chip 0 0 00 00 00
106. Slope I Trigger Level Trigger Position IDelay Time Detector NORMAL 1 POSI _ SAMPLE 1 p Detector NORMAL POSI SAMPLE Gated Sweep ON Display Unit dBm w Judgment ON Upper Limit Lower Limit Average Mode TRACEAVG MAX HOLD POWER NUMERIC R3267 0 0 0 0 6 000000000000 00000000 TRANSIENT F Domain OBW Auto Level OBW Average Times ON OFF Config p Parameter Setup to STD 3 12 gt Detector NORMAL SAMPLE Judgment ON OFF Upper Limit Lower Limit Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC TRANSIENT F Domain Due to Transient 32670 0 0 0 6 0000000000000 Parameter Setup Auto Level Set Template Template ON OFF Marker Edit Shift X Average Times ON OFF Shift Y Config Margin AX ON OFF Template Copy from STD Insert Line Delete Line Sort L Table Init gt Insert Line Delete Line Sort Table Init Set to STD 3 200000000 E Freq Setting START amp STOP SPAN Detector Result MARKER RELATIVE ABS POWER Ref Power REF MARKER MODULATION Display dBm w
107. 10000000000 0 0 0 5 1 Template Edit 0 F Domain 000 100 00000 100 000 00000 0000 0000 100 0 0 0 0 0 odg 0 uuu 0 J 1000000 1000 17 3 dBm 10 dB Write Posi MKR 799 116 MHz 66 02 dBm ME Copy from Edit 2 ENTER 800 000 MHz RBW 3 kHz VBW 100 kHz SWP 5 0 s SPAM 2 000 MHz ATT 30 dB Template Edit B Insert 1 Frequency 1 1 10 000000 MHz 400 000 kHz 200 000 kHz 200 000 kHz 200 000 kHz 200 000 kHz 400 000 kHz 400 000 kHz 10 000000 MHz Level 1 30 00 dB 30 00 dB 0 00 4 0 00 dB 30 00 dB 30 00 dB 45 00 4 45 00 dB Line 5 Delete Line Sort Table Init 5 40 000 0000 arginAX I BL HL BOLD U 0 Hz Hi Hi 1000 2 100 EJ L3 Lr lt 100000000
108. 2 999 DTMAVG DTMAVG 1 OFF 2 999 Average Mode TRACE AVG DTMAVGMD TRACE DTMAVGMD 0 Trace Avg MAX HOLD DTMAVGMD MAX 1 Max Hold POWER AVG DTMAVGMD POWER 2 Power Avg NUMERIC DTMAVGMD NUMERIC 3 Numeric 1 Average Mode Detector Posi 0 0 MAX Detector Posi 0 0 O O TRACE AVGT I 00000 00 R3267 0 0 O0 0 6 000000000000 4 2 Due to Modulation 4 32 Parameter Setup Detector Normal Posi Nega Sample Display Unit dBm w DTMDET DTMDET POS DTMDET NEG DTMDET SMP DTMUNIT DBM DTMUNIT W DTMUNIT DBUV 4 12 TRANSIENT 0 0 000000 0 DTMDET DTMUNIT 00000000 Template Couple to ON OFF DTMTMPLPW ON DTMTMPLPW OFF DTMTMPLPW 1 ON Template Limit DTMTMPLBTM DTMTMPLBTM 000 Judgment ON OFF Freq Setting CFSP STSP DTMJDG ON DTMJDG OFF DTMFRMD CFSP DTMFRMD STSP DTMJDG DTMFRMD OFF Center Span Start Stop Result MKR DTMRES ABS DTMRES REL DTMRES DTMRES 0 Absolute Relative 2 Marker Ref Power MKR MOD DTMREF MKR DTMREF MOD DTMREF 0 Reference Marker 1 Modulation Symbol Rate 1 DTMSYMRT DTMSYMRT 000 Rolloff Factor
109. 4 46 3GPDNTHRSH 4 42 4 44 4 49 3GPDNTRG EXT 4 41 4 43 4 49 2 2 22222 22 4 41 4 43 SGPCHS3JINUM 4 49 3GPDNTRQG 4 41 4 43 eene enters 4 49 3GPDNTRQGDDLY 222 2 22 4 41 4 43 2 4 47 3GPDNTRGSLP FALL 4 41 4 43 4 47 3GPDNTRGSLP 4 41 4 43 4 47 SGPDPCCHNO 4 45 4 46 3SGPCHASE eene nter teeth 4 47 4 45 4 46 2 2 4 47 JGPDSPS ertet eigenen 4 40 SGPCHOSE 4 47 3GPEMT GRPD 4 39 SGPCHONUM n tortor 4 47 SGPEMT NUM etnies 4 39 3GPCH6SE ertet oneri 4 47 TBL ete 4 39 eee teneis 4 47 4 40 4 47 CONDOT 4 40 SGPCHSNUM u 4 47 CONLIN 4 40 ei 4 47 3GPGTYP CONLINDOT 4 40 SGPCHONUM
110. 4 51 4 52 4 62 4 63 3GPCCDFMLEN 4 62 3GPCCDFRNYOQ OFF 4 62 3GPCCDFRNYQ ON 4 62 3GPCCDFTRC OFF 4 62 3GPCCDFTRC ON eee 4 62 3GPCCDFTRG EXT 4 62 3GPCCDFTRG IINT 4 62 3GPCCDFTRGDLY 4 62 3GPCCDFTRGSLP FALL 4 62 3GPCCDFTRGSLP RISE 4 62 3GPCCDFUNIT 4 62 3GPCCDFUNIT REL 4 62 4 62 22222 4 62 3GPCEER uuu a sun asnus kau 4 49 4 50 4 51 4 52 4 49 4 50 4 51 4 52 GPIB O O D D SGPCHIONUM ertet 4 47 3GPCHIOSE eeu RII 4 47 SGPCHZIINUM ettet retinens 4 47 3GPCHLISE eiie edere 4 47 SGPCHI2NUM asa ess 4 47 25 een ERE 4 47 4 47 4 47 4 4 47 3GPCHIASE e 4 47 uicti ttt 4 48 3GPCHISSE aysa asnan sagu 4 48 6 4 48 3GPCHZIOGSE 4 48 3G
111. 0 511 00 00 4 47 R3267 0 0 00 6 000000000000 4 2 4 48 15 SF 4 12 TRANSIENT 0000 3GPCHISSF 55 00000000 0 O 4 8 16 32 64 8 256 512 15 Number 5 5 0 0 511 Chl6 SF 3GPCHI6SF 3GPCHI6SF 4 8 16 32 64 8 256 512 Ch16 Number 3GPCHI6NUM 3GPCHI6NUM 0 511 Ch17 SF 75 75 0 0 0 4 8 16 32 64 8 256 512 17 Number 3GPCHI7NUM 3GPCHI7NUM 0 0 511 Ch18 SF 3GPCHISSF 3GPCHI18SF O 4 8 16 32 64 8 256 512 Ch18 Number 3GPCHISNUM 3GPCHISNUM 0 511 Ch19 SF 3GPCHIOSF 3GPCHI9SF 4 8 16 32 64 8 256 512 Ch19 Number 3GPCHI9NUM 3GPCHI9NUM 0 510 Ch20 SF 3GPCH20SF 3GPCH20SF 0 0 0 4 8 16 32 64 8 256 512 Ch20 Number 3GPCH20NUM 3GPCH20NUM 0 0 511 Ch21 SF 215 215 0 4 8 16 32 64 8 256 512 Ch21 Number 3GPCH21NUM 3GPCH21NUM 0 0 511 Ch22 SF 3GPCH22SF 3GPCH22SF 4 8 16 32 64 8 256 512 Ch22 Number 3GPCH22NUM 3GPCH22NUM 0 510 Ch23 SF 3GPCH23SF 3GP
112. Display Start 0000000000000 0000000 243271 0000000000000000 Select 000000000600 O O O O O Meas Model SLOT I 000 eas Mode FRAME LINK UPLINKT D 0 0 XOLI M 00000 Meas Mode SLOT LINK DOWNLINK 0 0 UPLINK 0 3 L3 0000 000000000 eas FRAME LINK 000000 Meas Mode FRAME LINK UPLINK I 0 0 Diagram O Meas EYE Diagram II 0 00000000 Meas Branch 0 0 vs Symbol 0000000 000000 b Meas SLOTU DOWNLINK O UPLINK Graphic of nalysis og Constellation Constellation Line Constellation Dot Constellation Line amp Chip I EYE Diagram 0 EYE Diagram I Q EYE Diagram E V M vs Chip Mag Error vs Chip Phase Error vs Chip SCH Power 3 21 Graph Type of Analysis 0000000 Constellation 3 59 832670000 6 000000000000 3 3 4 Modulation Meas Mode FRAME LINK DOWNLINK Constellation Line 0000 Constellation Dot 0000 Constell
113. 0000000 00000 1 DISABLE 32670000 6 000000000 4 2 GPIB 0 CHTBL1 CHTBLI1 DSBL 4 12 TRANSIENT 00 00000000 0 1 00000000 0 Disable Enable 2 ENABLE DISABLE CHTBL2 ENBL CHTBL2 DSBL CHTBL2 0 Disable Enable 3 ENABLE DISABLE CHTBL3 ENBL CHTBL3 DSBL CHTBL3 0 Disable Enable 00000 Copy STD CHSETSTD Input RF BASEBAND I amp Q INPUT RF INPUT IQ INPUT BaseBand Input AC DC BBINPUT AC BBINPUT DC BBINPUT Auto Level Auto Level OFF Auto Level ON ALS OFF ALS ON Average Type NORMAL PEAK AVGTYP NORM AVGTYP PEAK AVGTYP 0 NORMAL 1 EXT Trigger Source TTL ANALOG STDTRGSRC STDTRGSRC ANLG STDTRGSRC I ANALOG EXT Trigger Level STDTRGLVL STDTRGLVL 000 0 00 5 00V DC CAL CLDC Gain Cal CLMODGAIN 4 15 R3267 0 0 O0 0 6 000000000000 4 2 GPIB T Domain Power 4 16 0000 Auto Level Set 4 12 TRANSIENT AUTOWFL TDPAUTOLVL 000000 0 00000000 Trigger Setup Trigger Source FREERUN TRGSRC FREE TDPTRGSRC FREE TRGSRC VIDEO TDPT
114. 21000 00 7 2 2 SPAN 8 MHz COUPLE RBW AUTO MNL MNL 3 0 VBW 3 0 0 KHz LEVEL 0 GHz dBm 000 REF 0 0 dBm dB Mrite Horm B Blank Norm SPAN 8 000 HHz SWP 20 ms AIT 10 dB ENTER 2 112500 GHz MRBW 30 kHz 300 kHz 2 2 3GPP TRANSIENT STD STD Setup STD Measurement parameter set L3 Lr 1000 SID Measurement Parameter Set Heas Mode Link Offset Level Frequency Input Input D lt Baseband Input Cont uto Level Set lt for Hodulation Parameter gt Average Dpe Trigger Source Trigger Level 3 E Channel Setting E Bl SID Setup 2 3 STD Measurement parameter set 1000 Meas Mode
115. TRSPSLP Trigger Level TDSTRGLVL TDSTRGLVL Trigger Position TDSTRGPOS TDSTRGPOS Delay Time TDSTRGDT TDSTRGDT Table Table No 1 2 3 TDSTBL TDSTBL 0001 30 Table TDSTBLED 000 11 Limit Level Load Table TDSLD Load Table 1 2 3 RCLTBL 0001 30 4 21 R3267 0 0 00 6 000000000000 4 2 1 4 22 Average Mode Detector Posi 0 O MAX Detector Posi 00000 TRACE AVG I 00000 00 Save Table 4 12 TRANSIENT TDSSV 000000000 000 00000000 Save Table 1 2 3 SVSTBL 0001 30 Init Table TDSCLR DELSTBL Table Freq Input ABS REL TDSTBLF ABS TDSTBLF REL TDSTBLF 0 5 1 Average Times TDSAVGCNT TDSAVG TDSAVGCNT TDSAVG 00 1 0FF 2 999 00 1 0FF 2 999 Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC TDSAVGMD TRACE TDSAVGMD MAX TDSAVGMD POWER TDSAVGMD NUMERIC TDSAVGMD 0 Trace Avg 1 Max Hold 2 Power Avg 3 Numeric Parameter Setup Detector Normal Posi Nega Sample TDSDET NRM TDSDET POS TDSDET NEG TDSDET SMP TDSDET 0 Normal 2 3 Sample Display Unit dBm W TDSUNIT DBM TDSUNIT W TDSUNIT DBUV TDSUNIT Judgment ON
116. View Point EEIE 0 5 ee ETE alla lt 0 3 55 Setup 90 32 126 150 192 221 Bos Channelization Code 3490000000000000000000000 000 000 0000000000000 000 View L1 o L3 L3 g L3 10 Parameter Setup Meas Unit O O 1000000000000 2560000 Code Domain Power 1 T 36PP Set 0 8 m Display 0 7 View Point 0 5 Li view Fage Point 5 Ehe lt IM Exe EA S 0 2 Table Setup 0 0 Average 1 3 5 rt 7 9 ro MM 032000 000000000000000 8324670000 OPTe2 3GPP 1 1 Bl DEO DE CI CE OI CE UI CEU OI 3 3 4 Modulation View Point Time Code 0000000 000000 X Scale 000000000 Code XScale 0000000000 Page Display Type TABLET 0000000000000 0 0 000000000000 Graphics
117. 0 000000000000 Parameter Setup Root Nyquist 3 82 ABS POWER 1000000 70dBm 10000000000000 0000006000000 Parameter Setup Root Nyquist Trigger Trigger Slope Trigger Delay Meas Length 10 sample 3 41 Parameter 3 84 0 00000 0 220 0000000 1000000000000000000000 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation ON
118. 3GPCH4NUM 511 Ch5 SF 3GPCHSSF 3GPCHSSF D 0 0 4 8 16 32 64 8 256 512 Ch5 Number 3GPCH5NUM 0 0 511 Ch6 SF 3GPCH6SF 3GPCH6SF O 4 8 16 32 64 8 256 512 Ch6 Number 3GPCH6NUM 3GPCH6NUM 0 511 Ch7 SF 3GPCH7SF 3GPCH7SF 4 8 16 32 64 8 256 512 Ch7 Number 3GPCH7NUM 3GPCH7NUM 511 Ch8 SF 3GPCHSSF 3GPCH8SF D D 0 4 8 16 32 64 8 256 512 Ch8 Number 3GPCH8NUM 3GPCH8NUM 0 0 511 Ch9 SF 3GPCHOSF 3GPCH9SF 4 8 16 32 64 8 256 512 Ch9 Number 3GPCH9NUM 3GPCH9NUM 0 0 511 SF 3GPCHIOSF 3GPCHIOSF 4 8 16 32 64 8 256 512 Ch10 Number 3GPCHIONUM 3GPCHIONUM 511 Ch11 SF 3GPCHIISF 3GPCHIISF D 0 0 4 8 16 32 64 8 256 512 Ch11 Number 3GPCHIINUM 3GPCHIINUM 0 511 Ch12 SF 3GPCHI2SF 3GPCHI2SF 0 4 8 16 32 64 8 256 512 Ch12 Number 3GPCHI2NUM 3GPCHI2NUM 0 0 511 Ch13 SF 3GPCH13SF 3GPCH13SF 4 8 16 32 64 8 256 512 Ch13 Number 3GPCHI3NUM 3GPCHI3NUM 511 14 SF 3GPCHIASF 3GPCHIASF D D 0 4 8 16 32 64 8 256 512 Ch14 Number 1 3GPCHI4NUM
119. 5 4 47 3GPGTYP 4 40 SGPCHOSE 4 47 3GPGTYP 4 40 3GPCPICHNQO 4 41 4 43 3GPGTYP 4 40 SGPCPICBSE eene metes 4 41 4 43 3GPGTYP 4 40 SGPDEMOB ciere eite 4 51 3GPGTYP 4 40 3GPDEMODSYV 4 40 3GPGTYP 4 40 4 39 SCHPWR 4 40 3GPDISP SNGL ee 4 39 3GPIOOES 5 eias inte 4 49 4 50 3GPDNFERR 4 42 4 51 4 52 3GPDNFERR 4 42 SGPMAG esiste s 4 49 4 50 eee 4 44 4 51 3GPDNMCHSF re 4 44 3GPMBRCH I 4 46 3GPDNMEASMD CONC 4 40 3GPMBRCH Q sccis 4 46 3GPDNMEASMD PREC 4 40 S 4 50 4 51 3GPDNMSLOT eee 4 44 4 52 3GPDNMSTPFRM eee 4 44 3GPMKCHID eerte here 4 53 8 8 2222 2224222 4 42 4 50 4 51 3GPDNMUNIT eee 4 42 4 52 INV
120. E E 6 8 32670000 6 0000000000000 6 2 6 1 3 4 5 6 200 R3267 0 000000000 6 20 000000000 R326877 U X I Q 1 0 64121000 QPSKII 0000 000 10 200000000 98 000000000000 2 0 8 00000000000 2 10000 1000 0 000000000000 6 130 QPSK Total Result UPLINK 1 Results p OK Maveform Quality Factor AaMEEHEEEELZ Carrier Frequeney Error gt 4 arrier Feedthrou E c N cM rmn Setup 27 ms Meas Range 4 25 Trigger Mode Trigger Slope Era Trigger Level OTT rigger Delay 5 imi EXT T 0 000 ch 0643000000000 SINGLE N H0 0 D D 000000000000000000 6 9 R3267 0 0 0 0 6 000000000000 6 200 6 2 7 00000000000000000
121. L3 62 DOWN LINK L3 L3 00000000 2 000 10 200 L3 3 000200010000000026 2 04820000 000 CF 2GHz0 RF 0 0 O0 DOWN LINK 000 D 6300000000 DC CALO AUTO LEVEL L3 Lr Parameter Setup SLUT D WHLTHK 1 um Scrambling Code Define kcal Scrambling Code 00000 0 SE Trigger Mode mr EXT EXT Trigger Slope Display EXT Trigger Delay 0 000 chip Search Mode Pr inary SF 256 15 Primary Paint Active CH Detection 1 ES Analysis Rate EIE 7 5 15605 30ksps amp oksps 120ksps 240 5 lt Meas Unit 540 2560 chip Table Meas Start Position 0 0 chip Threshold 5 Parameter Phase Inverse Setup Frequency Error 7 Average it Times Transmit Timing o0 163000000000 6 4 32670000 6 0000000000000 5 6 0000000 0 000000000 6 200
122. 061000000000 Scrambling Code 0 00 0000000000 048000 Channelization No 00000 00000 000 Primary 15 5 0 9 03dB P CCPCH 15 1 9 494 SCH 15ksps 19 03dB DPCH 30ksps 2 6 02dB DPCH 30ksps 3 6 02dB DPCH 30ksps 4 6 02dB RFI D DOWN LINK 000 DOWN LINK 00 Scrambling Code No I 0000000000 098000 Channelization No 00000 00000 000 DPDCH ch 60ksps 16 0 85dB DPCCH Q ch 15ksps 0 7 474 Modulation QPSK Symbol rate 3 84Msymbol sec Filter Type Root Nyquist Roll Off a 20 22 UP LINK 1 D UP RF QPSK 0 QPSK 6 2 Symbol rate 3 84Msymbol sec Filter Type Root Nyquist Roll Off a 20 22 QPSK 3b 24055 98 1 2 Slot 1 Slot 1 2 Slot 2 2 L Eg gt 0 6 10 1 2300000000000000 32670000 6 0000000000000 6 10 000000
123. 100000 6 7 R3267 0 0 0 0 6 000000000000 6 200 62 5 1 UP LINKO 1 8326700000000 10000 83287 7 X I 641000 O 6 10 IQ 0 UP LINK E 2 00010 200000000 8 3000000000000 2 0 8 00000000000 8326700000 1900 09 1 eu Parameter Setup SLDT UPLTHK 6 Scrambling Code 000001 __ Trigger Mode mr Set EXT Trigger Slope 2 Display EXT Trigger Delay 0 000 chip DPCCH SF 256 15 o View Analysis Rate D ines nt 3ksps 5 Meas Unit 2580 chip Srephies Meas Start Position chip B SS Threshold EH Phase Inverse Frequency Error Parameter Setup 7 Average Times eir n p d a mp D D D 4 0 00000000 5 100000
124. 4 24 4 30 TDSDET nti tentes 4 22 4 24 4 30 TDSDET eee 4 22 TRGDT P GREEN 4 16 TDSDET POS u utri 4 22 TRGLVI M 4 16 TDSDET SMP eee 4 22 4 16 TIDSJDG ceci 4 22 TRGSLP 4 16 TDSJDG 4 22 5 2 2 2 2 4 2 2 4 16 4 21 TRGSRGC EXT 4 16 TDSMEAS iecit Us 4 23 TRGSRC FREE eere 4 16 4 23 4 16 TDSPKMKY eee 4 23 TRGSRC VIDEQO 4 16 TDSPRE 1661 5 tene 4 23 TRSPMD EXT teet tnm 4 21 TDSPRE 4 23 TRSPMD 2 2 2 2 2 4 21 TDSRES PK 4 22 TRSPMD toe cette 4 21 TDSRES 8 224 4 4 222 4 22 TRSPSLP 4 21 em 4 23 TRSPSEP RISE ettet 4 21 TIDSSV Ut 4 22 TXA VG eng ectetuer 4 59 iiti rite toners 4 21 TXPWR 4 59 TDSTBLED 4 21 TXRNYOQ OFF eee 4 59 TDSTBLE ABS erento 4 22 4 59 TDSTBLF REL ene 4 22 TXTRG EXT ong eene det 4 59 TDSTRGDT tnit terit 4 21
125. 4 33 R3267 0 0 00 6 000000000000 4 2 Inband Spurious 1 1 Average Mode Detector Posi D 4 34 Average Times SPRAVGCNT SPRAVG 4 12 TRANSIENT 000000000 SPRAVGCNT SPRAVG 00000000 1 OFF 2 999 0 1 2 999 HOLD POWER AVG SPRAVGMD SPRAVGMD SPRAVGMD POWER SPRAVGMD Trace Avg Max Hold Power Avg Parameter Setup Detector Normal Posi Nega Sample SPRDET NRM SPRDET POS SPRDET NEG SPRDET SMP SPRDET Normal Posi Nega Sample Display Unit dBm w dBuV SPRUNIT DBM SPRUNIT W SPRUNIT DBUV SPRUNIT Template Couple to Power ON OFF SPRTMPLPW ON SPRTMPLPW OFF SPRTMPLPW 0 OFF 1 ON Template Limit SPRTMPLBTM SPRTMPLBTM 000 dBm W dBuV Judgment ON OFF SPRJDG ON SPRJDG OFF SPRJDG Freq Setting CFSP STSP SPRFRMD CFSP SPRFRMD STSP SPRFRMD 0 Center Span 0 0 1 Start Stop Result ABS REL MKR SPRRES ABS SPRRES REL SPRRES MKR SPRRES 0 Absolute 1 Relative 2 Marker MAX Detector Posi O O TRACE AVG LH B D U Spurious 1 Ref Power MKR MOD R3267 62
126. 4 59 8 2 22 2 4 21 TXTRGDLY 3e tms 4 59 TDSTRGPOS 55 titer 4 21 TXTRGSLP 4 59 TDSTRGSLP FALL eee 4 21 TXTRGSLP 4 59 TDSTRGSLP RISE 4 21 4 64 TDSTRGSRC EXT 4 21 M EE RAE u sss 4 11 TDSTRGSRC FREE 4 21 4 11 TDSTRGSRC 2 222222 4 21 WAMBEM eese erit 4 18 TDSUNIT DBM eee 4 22 XDB Ma 4 12 TDSUNIT eee 4 22 uu sss 4 12 4 22 XDR 4 12 TGTDET NEG eee 4 24 4 30 TGTDET rnit cts 4 24 4 30 TGTDET POS eee een 4 24 4 30 TGTDET SMP inns 4 24 4 30 TGTPONS 4 24 4 30 TGTSETUP OFF 4 24 4 30 TGTSETUP 4 24 4 30 TGTISRG EXT 4 24 4 30 TGTSRC 4 24 4 30 TGTSWP 4 24 4 30 TGISWP ON 5er iet 4 24 4 30 TGTIRG EXT tenentes 4 24 4 30 TGTTRG FREE eee 4 24 4 30 TGTIRG JE nets 4 24 4 30 TGTTRG VIDEO eee 4 24 4 30 ertet tirer 4 24 4 30 TGTIRGLVL nir 4 24 4 30
127. 6 0000000000000 00000000 TRANSIEN Modulation STD DC CAL Gain Cal Channel Setting Copy from STD STD Setup SLOT FRAME Link UPLINK DOWNLINK Offset Level Frequency Input FREQUENCY CHANNEL Input RF BASEBAND I amp Q Baseband Input AC DC Cont Auto Level Set ON OFF I Average NORMAL EXT Trigger Source TTL ANALOG EXT Trigger Level gt S A D 3 25 R3267 0 0 0 0 6 000000000000 330000 33 0000 000000000000000000000000000000000000000 TRANSIENT 000000000000000000000000 AUTO MNL ON OFF Config Printer Trace Point 1001 501 File Revision Copy Device COUPLE AUTO MNL VBW AUTO MNL Sweep Time AUTO MNL Center Start Stop Normal Marker Delta Marker X dB Down X dB Down X dB Left X dB Right Peak X dB Down Disp Mode REL ABS L ABS R Reference Marker ON OFF Sweep Time AUTO MNL 32670000 6 0000000000000 3 3100000000000
128. Meas Channel SF 64 0 000000000000 000000 100000 600 L3 r3 19 Meas Channel 160000 0 1000000000000000 1600000000 20 Meas Branch 000000000000 110000 000000 0100000000 2 16 32670000 6 0000000000000 22000 L3 L3 L3 L3 r3 Meas Slots 1500000 000000 15000000000000 Hz ENTR 00000 50000 chip 0000000 Meas Start Position 0 L3 Lr L3 Lr Threshold 5 GHz dB 0 000000000000 T 000000 0000000 54800 000 000 000 L3 rr 0 Phase Inverse NORMAL O O O Hz ENTR O 0 0 10 000000000000 Parameter Setup 00000 Auto Level Set L3 1000 100000 2 17 R
129. ON Freq Setting CFSP STSP DTSFRMD CFSP DTSFRMD STSP DTSFRMD Center Span Start Stop MKR DTSRES ABS DTSRES REL DTSRES DTSRES Absolute Relative Marker Ref Power MKR MOD DTSREF DTSREF MOD DTSREF Reference Marker Modulation Symbol Rate 1 DTSSYMRT DTSSYMRT Rolloff Factor DTSRFACT DTSRFACT Set to STD DTSSETSTD 0000 Due to Transient DTSMEAS 0000000 0000 51 000 Due to Transient DTSMEAS n lt CR LF gt d1 j1 lt CR LF gt dn jn lt CR LF gt 000000 dn Power ja O O 0 FAIL 1 PASS 1 Judgment OFF Ref Power DTSREFPWR 000 4 29 R3267 0 0 00 6 000000000000 4 2 GPIB Due to Modulation 4 30 0000 Auto Level Set 4 12 TRANSIENT 000000000 DTMAUTOLVL 00000000 Gate Setup ON OFF TGTSETUP ON TGTSETUP OFF TGTSETUP Trigger Source FREERUN VIDEO IF EXT TGTTRG FREE TGTTRG VIDEO TGTTRG IF TGTTRG EXT TGTTRG FREERUN VIDEO Trigger Slope TGTTRGSLP FALL TGTTRGSLP RISE TGTTRGSLP Trigger Level TGTTRGLVL TGTTRGLVI 0 1000 Trigger Position Delay Time TGTTRGPOS TGTTRGDT TGTTRGPOS TGTTRGDT 0 100
130. Trigger Position 1 Delay Time 70 000 3 2 Trigger Setup Trigger Source 0 000000000000 00010 VIDEO 000000000000 IF IF 000 6 MBz 0000000000 000000 00000000000 000000 00 00000 3 28 32670000 6 0000000000000 3 3 2 T Domain Slope 0 0 000000000000000 00000000000000 00000000000000 Trigger Level 0000000000000 Trigger Position 0 0000 000000000000000000 Delay Time 0 00000000000000000000000 0000000000 000000000000000000000000 1000000 Window Setup 0 00000000000000000000 Window 0000000000000000000000000 00000 0000000000000000000000000 00000000000 Set to STD 0 0 0 0 0000000 Window Position 0 000000000000 Window Width 000000000000
131. 00000000 Downlink Frame 0 0 O Scrambling Code DEFINE UNDEFINE 3GPSCDEF DEF 3GPSCDEF UNDEF 3GPSCDEF 0 DEFINE 1 UNDEFINE Scrambling Code No 3GPDNSCNO 3GPDNSCNOHEX 3GPDNSCNO 3GPDNSCNOHEX 000 0 262142 160 0 0 0 Trigger Mode INT EXT EXT SFN 3GPDNTRG INT 3GPDNTRG EXT 3GPDNTRG SFN 3GPDNTRG 0 INT 1 EXT 2 EXT SFN EXT Trigger Slope 3GPDNTRGSLP RISE 3GPDNTRGSLP FALL 3GPDNTRGSLP 0 1 EXT Trigger Delay 3GPDNTRGDLY 3GPDNTRGDLY 5120 00 38400 00 SCH Primary CPICH SCH LONG 3GPSRCH SCH 3GPSRCH PCPICH 3GPSRCH SCHLONG 3GPSRCH 0 SCH 1 Primary CPICH 2 SCH LONG Primary CPICH SF 3GPCPICHSF 3GPCPICHSF 000 4 8 16 32 64 128 256 512 Primary 3GPCPICHNO 3GPCPICHNO 00 0 511 4 43 Active CH Detection AUTO USER TABLE Test Model 1 DPCH 16Code Test Model 1 DPCH 32Code Test Model 1 DPCH 64Code Test Model 2 Test Model 3 DPCH 16Code Test Model 3 DPCH 32Code 3GPACTCH AUTO 3GPACTCH USER 3GPACTCH TIDP16 3GPACTCH TIDP32 3GPACTCH TIDP64 3GPACTCH T2 3GPACTCH T3DP16 3GPACTCH T3DP32 R3267 0 0 00 6 000000000000 4 2 4 12 TRANSIENT 0 0 0000 00000000 0 AUTO 1 USER TABL
132. 00000000 1 0 Character Graphics Constellation Constellation Line Constellation Dot Constellation Line amp Chip Line amp Symbol I EYE Diagram Q EYE Diagram I Q EYE Diagram Chip Symbol 3GPMKCHIP ID UU e000 E V M vs Chip Symbol Mag Error vs Chip Symbol Chip Symbol 0 0 3GPMKQ 3GPMKCHIP 000 3GPMKERR Phase Error vs Chip Symbol Chip Symbol 3GPMKCHIP 00 000 degree SCH Power Slot 3GPMKSCH 3GPMKSCH Slot No SCH Power dB 3GPMKSCHPOW dB SCH Power dBm 3GPMKSCHPOWABS Demod 0 00000000 3GPDEMOD 0 dBm 0000000 4 53 R3267 0 0 00 6 000000000000 4 2 4 12 TRANSIENT 0 0 Graphics Data Constellation Constellation Line Constellation Dot Constellation Line amp Chip Line amp Symbol I EYE Diagram Q EYE Diagram I Q EYE Diagram I Phase 00000000 000 00000000 n lt CR LF gt d1 lt CR dn lt CR 000000 00 I Phase 00 Q Phase n CR LF 4d1 CR LF gt dn lt CR LF gt 000000 0000 dn Q Phase 0 0 000
133. 000000000000 10000000 Modulation CAL Modulation 100 0 Check 30 MHz CAL signal connection 0000 1000 30 MHZ Modulation Gain CAL 200 Check 30 MHz CAL signal connection 0000 1000 30 MHZ J 1 l Modulation Gain CAL error 300 Check 30 MHz CAL signal for connection 1000 o00 2000 lt 0O Modulation Gain CAL 110 Check 30 MHz CAL signal connection oann lt Modulation Gain CAL error 120 Check 30 MHz CAL signal for connection Modulation Gain CAL error 210 Check 30 MHz CAL signal for connection Modulation Gain CAL error 220 Check 30 MHz CAL signal for connection r j r jaana aA Modulation Gain CAL error 310 Check 30 MHz CAL signal for connection
134. 3 17 3 29 3 41 3 46 3 80 3 85 Trigger Mode 3 20 3 21 3 49 3 52 3 22 3 23 Template 1 4 aes 3 23 3 81 3 64 3 67 Template 2 ua retos 3 23 3 81 3 70 3 73 Template Couple to Power 3 8 3 13 3 77 3 78 3 15 3 16 3 17 3 30 3 80 3 83 Trigger Position 3 8 3 9 3 43 3 48 3 51 3 54 Template 3 8 3 13 3 10 3 11 3 14 3 29 I 5 R3267 0 0 O0 0 6 000000000000 00 Trigger Setup Trigger Slope Trigger Source Upper u ete tents User Table 02 View Point a alas uyaq Window ON OFF Window Position Window Setup a a Window Width X Scaleusn teer ed X scale Max X Scale Y ete EUR Y Scale dB div 10 5 2 I 6 3 32 3 34 3 38 3 45 3 9 3 10 3 11 3 14 3 28 3 31 3 34 3 37 3 44 3 23 3 24 3 80 3 83 3 9 3 10 3 11 3 14 3 24 3 28 3 31 3 34 3 37 3 44 3 85 3 22 3 25 3 9 3 11 3 12 3 31 3 33 3 41 3 19 3 61 3 19 3 59 3 8 3 9 3 11 3 29 3 32 3 39 3 8 3 11 3 29 3 39 3 8 3 9 3 11 3 29 3 32 3 39 3 8 3 11 3 29 3 39 3 19
135. 32 64 dB Setup Average 2 123GPP UPLINK D DB LH 00 D Waveform Quality Factor 1H B D B HH U IU U LI 25600000 Time Alignment Error 0000 us chip Carrier Frequency Error Hz ppm Origin Offset 0 00 Magnitude Error 0000 96 rms Phase Error 0000 deg rms Error Vector Magnitude 0000 rms Peak Magnitude Error 90 2 13 R3267 0 0 0 0 6 000000000000 22000 SGPPDDUUU Peak Phase Error deg Peak Error Vector Magnitude 96 Slot 00000000 Peak Code Domain Error dB 2 2 2 Frame 00000 1 02 130 000000000000 000000000000 Ing REF IN 10MHz Reference a RF Tx MS Control Terminal 2 13 3GPP 1 LH LU D 000000 00000000000000000000000 2 FREQ 1 9 2 2 5 00000 3 8 MHz I 4 COUPLE AUTO MNL MNL 3 0 KHz 0 0 5 AUTO MNL MNDL 3 0 0 KHz 0000 l 6 LEVEL 0 GHz dBm 1 E Ll l 2 14
136. 4 Marker Setup Setup 000000 00000000 1000 1000 Power vs Factor 3 36 0 00 Auto Level PurVsTime Set Scale Setup E Parameter Setup 10 l Avg Power dB BEER meega Peak Factor t dB 2 vg Power 00 dB Ratio 00 dB k m 5 20 1 30 Slot ate1 db Tenplate2 5 a gi a 2 30 Power vs Time 50 n Marker Setup Template Setup 2 29 R3267 0 0 0 0 6 000000000000 2 5 Power vs Time 2 5 2 2 30 1 Peak Factor Power Markerl UID L E DDD E E E BE EE E E 1 Avg Power Power L1 Ul E E E E ED E E E EF LH 2 Peak Factor Power Marker O L B E DD DDD E E E B EE E E 2 Avg Power Power Marker 1 H E EH HB D D 10 2 Power 1 Avg Power 0000 00000000 0000 Template 0000000000000 650 us D D B D 0000 Template2 6650 us O pp 00000000000000 000
137. Detector Normal FDSDET NRM FDSDET Posi FDSDET POS Nega FDSDET NEG Sample FDSDET SMP Display Unit dBm FDSUNIT DBM FDSUNIT w FDSUNIT W FDSUNIT DBUV 1 Average Mode 0 Detector Posi 0 O Detector Posi 0 0 0 TRACE LH D 00 00 4 38 Judgment ON OFF R3267 0 0 O OPT62 SGPP FDSJDG ON FDSJDG OFF 4 12 TRANSIENT 4 2 GPIB 000000 00000 00 0 FDSJDG 00000000 Peak Y Delta FDSPKMKY FDSPKMKY Preselector 1 66 3 6G FDSPRE 16G FDSPRE 36G FDSPRE Set to Default FDSSETSTD 0000 Outband Spurious FDSMEAS 00 0000 51 0000 Outband Spurious FDSMEAS n lt CR LF gt f1 11 j1 lt CR LF gt fn ln jn lt CR LF gt 000000 fa In D U dBm W dBAV jn 0 FAIL 1 PASS 1 Judgment OFF Auto Level Set AUTOLVL Display Type Format NUMERIC GRAPH TABLE 3GPFMT NUM 3GPFMT GRP 3GPFMT TBL 3GPFMT GRAPH TABLE NUMERIC Display SINGLE DUAL 3GPDISP SNGL 3GPDISP DUAL 3GPDISP SINGLE DUAL Y Scale p POWER dB POWER dBm EVM 3GPYSCL RHO 3GPYSCL POW 3GPYSCL POWABS 3GPYSCL EVM 3GPYSCL POWER dB POWER dBm EV
138. J Detector O 0 Parameter Setup Parameter Setup Parameter Setup Parameter Setup 00000000 T T T T T T T T T T T T T T T 0000000 0 8 aa a a 39 9 3 Graph Type of Analysis Graph Type of Analysis 3GPP User Channel Setting Parameter Setup SLOT DOWNLINK Meas Unit Parameter Setup FRAME DOWNLINK 0 0 0 0 0 0 0 D Meas Slots Meas Slots Graphic Type of Analysis 0000 00000 QPSK Measurement parameter set 00 0 0 D D 0 Limit Setup Meas Unit Parameter Setup FRAME UPLINK O00 0000000 0 3 p3 p3 EJ r3 r3 3 0 Parameter Setup SLOT UPLINK 000 0 0000 HU E 00000 Parameter Setup Scale Setup
139. OFF TDSJDG ON TDSJDG OFF TDSJDG Result Peak RMS TDSRES PK TDSRES RMS TDSRES Multiplier R3267 62 4 12 TRANSIENT 0 0 100000 4 2 GPIB 0 0000 TDSMULTI TDSMULTI 00000000 Peak Y Delta TDSPKMKY TDSPKMKY Preselector 1 66 TDSPRE 16G TDSPRE 3 6G TDSPRE 36G TDSSETSTD Set to Default 0000 Spurious TDSMEAS SPUR 000000 51 0000 0000 Spurious TDSMEAS n lt CR LF gt f1 11 j1 lt CR LF gt fn ln jn lt CR LF gt 000000 fn LH In 00 0 dBm W dBu VO jn 0 0 0 0 1 1 Judement OFF 0 n lt CR LF gt f1 11 lt CR LF gt fn In lt CR LF gt 000000 fn 000 In 00 SPULVL dBm 4 23 R3267 0 0 O0 0 6 000000000000 4 2 GPIB F Domain Power 4 24 0000 4 12 TRANSIENT 0 0 000000000 000 00000000 Auto Level Set FDPAUTOLVL Gate Setup ON TGTSETUP ON TGTSETUP 0 OFF OFF TGTSETUP OFF Trigger Source FREERUN TGTTRG FREE TGTTRG 0 FREERUN VIDEO
140. R3267 0 0 0 0 6 000000000000 21000 00 2 1 2 2 6 0 100 1000 00000000 SCH Power SCH dB Power Ratio P SCH S SCH 5 S SCH O O dB Peak Code Domain Error 000000000000 0260000000000000 kih y gt TF BTS 10MHz Reference lt 2 6 3GPP D 000 Tx BTS Control Terminal 0 00000000000000 2 3 FREQ 2 1 1 2 5 MHz 00000 SPAN 8 MHz 0000 COUPLE RBW AUTO MNL MNL 3 0 kHz 0 0000 VBW AUTO MNL MNL 3 0 0 KHz 00000 LEVEL 0 GHz dBm 00000 10 11 R3267 6 2 1000 00 00 REF 0 0 dBm 10 dB Write Horm _B_Blank Horm Level REF LEVEL T S Units N Dffset au wne 0 2 7
141. REL SPR2RES REL 1 Relative MKR SPR2RES MKR 2 Marker Ref Power MKR SPR2REF MKR SPR2REF 0 Reference Marker MOD SPR2REF MOD 1 Modulation Peak MKR Y Delta SPR2PKMKY SPR2PKMKY 0 0 ON SPR2CONV ON SPR2CONV 0 OFF OFF SPR2CONV OFF 1 ON Integral Band SPR2INTE SPR2INTE Start Offset SPR2OFSST SPR2OFSST 0 00 Stop Offset SPR2OFSSP SPR2OFSSP Set to STD SPR2SETSTD 0000 Inband Spurious SPR2MEAS 0000000 51 0000 0000 Inband Spurious SPR2MEAS n lt CR LF gt f1 11 j1 lt CR LF gt TE fn In jn lt CR LF gt 000000 fn In 00 0 dBm W dBL V 0 FAIL 1 PASS 1 Judgment OFF Ref Power SPR2REFPWR 000 4 37 R3267 0 0 00 6 000000000000 4 2 4 12 TRANSIENT 0 0 Auto Level Set FDSAUTOLVL Table Copy from STD FDSCP Table No 1 2 3 FDSTBL FDSTBL 0001 30 Table FDSTBLED f1 f2 f3 f4 d1 I1 0000000 2 0000000 RBW f4 VBW d 0000 1 00000000 Load Table FDSLD Save Table FDSSV Init Table FDSCLR Average Times FDSAVGCNT FDSAVGCNT 1 OFF 2 999 FDSAVG FDSAVG 0 1 OFF 2 999 Average Mode TRACE AVG FDSAVGMD TRACE FDSAVGMD 0 Trace Avg MAX HOLD FDSAVGMD MAX Max Hold POWER AVG FDSAVGMD POWER Power Avg Parameter Setup
142. Test Model 1 DPCH 3GPACTCH TIDP16 2 Test Model 1 DPCH 16 16 Test Model 1 3GPACTCH TIDP32 3 Test Model 1 DPCH 32Code 32Code Test Model 1 DPCH 3GPACTCH TIDP64 4 Test Model 1 DPCH 64Code 64Code Test Model 2 3GPACTCH T2 5 Test Model 2 Test Model 3 DPCH 3GPACTCH T3DP16 6 Test Model 3 DPCH 16 16 Test Model 3 DPCH 3GPACTCH T3DP32 7 Test Model 3 DPCH 32Code 32Code Analysis Rate ACTIVE 3GPDNRATE ACT 3GPDNRATE 0 ACTIVE 7 5ksps 3GPDNRATE 7K5 1 7 5ksps 15 3GPDNRATE 15K 2 15 5 5 30ksps 3GPDNRATE 30K 3 30ksps 60ksps 3GPDNRATE 60K 4 60ksps 120ksps 3GPDNRATE 120K 5 120 240ksps 3GPDNRATE 240K 6 240ksps 480ksps 3GPDNRATE 480K 7 480ksps 960ksps 3GPDNRATE 960K 8 960ksps 3GPDNRATE ACTN 9 Meas Unit 3GPDNMUNIT 3GPDNMUNIT 640 Meas Start Position 3GPDNMSTSLT 3GPDNMSTSLT 0 140 Threshold 3GPDNTHRSH 3GPDNTHRSH 0 40 5dB Phase Inverse NORMAL 3GPDNPHASE NORM 0 NORMAL INVERSE 3GPDNPHASE INV 1 INVERSE Frequency Error NORMAL 3GPDNFERR NORM 3GPDNFERR 0 NORMAL PRECISE 3GPDNFERR PREC 1 PRECISE 4 42 Transmit Timing ON OFF R3267 0 0 0 OPT62 3GPTRNSTM 3GPTRNSTM OFF 4 12 TRANSIENT 0 0 4 2 GPIB 000000000 000 3GPTRNSTM 00 00
143. 0 0 00000000000000 00000 0 0000000000000000 000000 Trigger Mode 0 00000000000000 INT 0 000000000000000 10000000000000000 Trigger Slope 0 0 0 0 000000000000000 s 0 000000000000000 Trigger Delay 250 50 0 250us 0 O 150 000000000 Meas Length 0 000000000 1 000000190 0000000190 0000000 B uat Trace Write ON OFF 0 0 000000000000000 ON 100000000 0000000000 3 3 4 3 4 0000000000000 0 00000 0 0 0 0 0 000 0 00000 BTSO STD Setup Link 0 000000000 Auto Level Set 0 00000000000000000 Auto Level 00000000000000000 00000 Parameter Setup 00000000000000 Parameter 3 42 Parameter 3 83 R3267 0 0 0 0 62 UU 3 3 4 Modulation Scrambling Code 00000000000 160 0160 o SHIFT 0 1 SHIFT 2 3 SHIFT 4 5 m m gQ gt Search Mode 000000000 SCH LONG y 5 00000
144. 0 0 0 6 000000000000 3 3 3 F Domain Average Times ON I 00000000000 TRACE AVG 000001628000001 200000 000000 MAX HOLD uU POWER AVG 000001 000000000000 0 0 00000000 NUMERIC 00000 1000000000000 0 000000000 0 00000000 00000000 Set to STD 000000000000000000000 3 3 3 4 Due to Modulation 0 0 000000000000000000000000000 Auto Level Set UUDUUDDUUUUUUDUUDUUUUDUUUUDUUUUDUUUUDUuun D U D 00000000000000000000000 0000 O Auto Level Set 1 HL BL LU U U U LU LI D D U 7 U 1800000000 Gate Setup Trigger Setup 0000000000000 lrigger Setup Trigger Source Trigger Level 30 x Trigger Position 1 Delay Time 5
145. 000 4 8 16 32 64 128 256 DPCCH No 3GPDPCCHNO 3GPDPCCHNO 0 255 Meas Channel SF 3GPUPMCHSF 3GPUPMCHSF 0 0 0 4 8 16 32 64 8 256 Channel 3GPUPMCHNO 0 255 Branch 1 Q 3GPMBRCHI 3GPMBRCH Q 3GPMBRCH 0 I 1 Q Meas Slots 3GPUPMSLOT 3GPUPMSLOT 1 30 Start Position 3GPUPMSTFRM 3GPUPMSTFRM 0 639 Threshold 3GPUPTHRSH 3GPUPTHRSH 40 5dB Phase Inverse NORMAL INVERSE 3GPUPPHASE NORM 3GPUPPHASE 3GPUPPHASE 0 NORMAL 1 INVERSE Table Edit Multi Channel No 3GPMLTNUM 3GPMLTNUM 0 32 Chl SF 3GPCHISF 3GPCHISF 0 0 0 4 8 16 32 64 8 256 512 Chl Number 3GPCHINUM 3GPCHINUM 0 0 511 Ch2 SF 2 3GPCH2SF 4 8 16 32 64 8 256 512 Ch2 Number 3GPCH2NUM 3GPCH2NUM 0 0 511 Ch3 SF R3267 0 0 0 OPT62 4 2 GPIB 4 12 TRANSIENT 0000 3GPCH3SF 00000000 4 8 16 32 64 8 256 512 Ch3 Number 3GPCH3NUM 3GPCH3NUM 0 511 Ch4 SF 3GPCH4SF 3GPCH4SF 4 8 16 32 64 8 256 512 Ch4 Number 3GPCH4NUM
146. 00000000000 62 2 UP LINK 1 5 6 R3267 00 6400 100000 10000 165091 10MHz REF R32671 U X RFIN 6 4 RF 000200 2 1000 0000 100 10000 0000 2GHz 0dBm 00000 1000 R3267 CF 2GHz 0 65000 100 ORFO HUP LINK 0 DC CAL AUTO LEVEL Parameter Setup LDT UPLTHK 1 1 515 Rate Heas Unit Heas Start Position Threshold Phase Inverse Frequency Error Scrambling Code 00000141 __ Trigger Mode o amr EXT Trigger Slope EXT Trigger Delay 0 000 chip DPCCH SF 256 15 DPCCH De o r3 1000 6 T Auto Level Set 2 Display Type View Point Graphics 2 User Table Parameter Setup 6 5 1000 SINGLE 0000000 000000 00000000000 6 5 R3267 0 0 0 0 6 000000000000 6
147. 2 33 Time amp FFT Parameter Setup 1000 L3 10000000000 1000 0000000 PRECISE 10000 Root Nyquist 0000 100000 1000 000 10000 100000 10000 10000 0 Trigger Mode 1000 0 Hz ENTR 0000 5 Trigger Level Time amp FFT 1000000 100000 1000 1000 10 Hz ENTR 0 1000 Ous O Trigger Delay 0 0 00000 Length 3 300 IODD 0 Hz ENTR 10000 0000 1000 10000000000 Graph Plot 10000 0 Hz ENTR 0 0000 0000 0 0 8324670000 62
148. 200 6 2 3 1 832670 000000000 660000000 CH3 6 6 000 2 000 10 200000000 88000000000000 3 000 2000 100000000 26 2 09 0 000000000 4 R3267 26 20 RFO 0 9 0000000000000 6 7 110 0000 Total Result UPLINK 1 Results EK Waveforn Quality Factor Carrier Frequency Error 2 Feedthrough 51 5755 S Parameter Setup Meas Range Trigzer L EXT Trigger Slope Trigger Level H Trigger Delay Limit Setup 067000000000 5 000000 6 00000000000000000000 6 6 32670000 6 00000000000 6 200 624 1 DOWN 1 832670 000000000 680000000 R3262 U 2
149. 3 14 Select teer 3 19 3 22 3 16 3 17 3 24 3 59 3 18 3 30 3 75 3 84 3 35 3 42 Set to Default 3 10 3 18 3 46 3 49 3 36 3 56 3 50 3 52 Set to S 3 8 3 9 3 53 3 55 3 11 3 12 Table No 1273 3 10 3 18 34 32670000 6 0000000000000 3100000000000 3 35 3 55 3 10 3 11 T Domalin 3 7 3 14 3 22 Templ te oie tenerent Ue 3 8 3 13 3 23 3 24 3 14 3 16 3 29 3 32 3 17 3 29 3 34 3 38 3 41 3 46 3 45 3 77 3 49 3 52 3 80 3 85 Template T rrt triente 3 23 3 81 Tngper Mode mem eee 3 20 3 21 Template 2 3 23 3 81 3 22 3 23 Template Couple to Power 3 8 3 13 3 64 3 67 3 15 3 16 3 70 3 73 3 17 3 30 3 77 3 78 3 43 3 48 3 80 3 83 3 51 3 54 Trigger Position 3 8 3 9 Template 3 8 3 13 3 10 3 11 3 14 3 16 3 14 3 29 3 17 3 29 3 32 3 34 3 42 3 46 3 38 3 45 3 49 3 52 Trigger Setup u 3 8 3 9 Template 3 8 3 13 3 10 3 11 3 15 3 16 3 14 3 28 3 17 3 30 3 31 3 34 3 43 3 48 3 37 3 44 3 51 3 54 Trigger 3 23 3 24 Template ON OFF 3 8 3 14 3 80 3 83 3 16 3 17 3 85 3 29 3 41 Trigger Source see 3 8 3 9 3 46 3 49 3 10 3 11 3
150. 3 33 3 36 3 39 3 43 3 47 3 51 3 54 3 56 3 21 3 71 Displ y iere eee rere en einen Display Start sese Display Type Display Unit eet tient DPCCH nr trt SF nette teet 3 21 3 71 Due to Modulation 3 44 Due to Modulation Due to Transient Inband Spurious 00000000 5 6 Due to Transient 3 7 3 41 Due to Transient Due to Modulation Inband Spurious 000000000 E 5 4 E V M Error Vector Magnitude s 5 8 E V M vs 3 19 3 22 E V M vs 3 19 Ext Gate 3 11 3 14 3 38 3 45 EXT Trigger Delay 3 20 3 21 3 22 3 64 I 2 EXT Trigger Level EXT Trigger EXT Trigger Source F Domain Frame Frequency Frequency Input Gain uu k estie Gate Position n u au Gate Setup Gate SOUIGe Gate Width Gated Sweep Gated Sweep ON OFF GPIB ID DU DU 0 00000000 Graph
151. 3 58 3 23 3 82 3 23 3 82 3 19 3 57 3 9 Y Scale Y Scale Upper 1 000 22222222 1 0 000000000000 at 1 u uu nus s 1 lt lt 1 LEE BEBE U 1 ue 1 EE EEBD ED E SR 2 27 0000000000000000000
152. 30 1 D D E UU U 60 ksps 60 ksps 1 E E E E E DU 120 ksps 120 ksps E E 00000 0 240 ksps 240 ksps E D E E E 00 480 ksps 480 ksps D D EU 000 960 ksps 960 ksps E ED E E E E D 0 000000000000000000000000 0 000000000000 0 00000000000000000000000 000000000000000000000000 00000000001 0560 5000000000 0050 Analysis Rate 0 000000 Meas Unit Unit 3 29 Meas Unit 100 000000000 1400 0 3584008000000 3 71 832670000 6 000000000000 3 3 4 Modulation 000000000000000000000000 0000000000000 00000000 0 000000 00000 CDP threshold 0 000000000000000000 5 dB 40 Threshold gym uuum Ern m gy bim numum rm E 0O ooa o H
153. 4 15 CLDC tede ya 4 15 4 15 COMMSYS 3GPP 4 10 DB 4 64 DC0 acetone mies 4 12 ipo 4 12 4 12 DEL nh DELSTB D DTMTMPLED nea ceto tete nie DTMTMPLPW OFF DTMTMPLPYW 5 2 402 DTMTMPLSY DTMUNIT DBM eene DTMUNIT eee DTMUNIT 2 2 22 0 222 DTSAUTOLJVL DTSAVG nece the ees 4 28 DTSAVGMD 4 28 DTSAVGMD NUMERIC 4 28 DTSAVGMD 4 28 DTSAVGMD 4 28 DTSDET 4 28 DTSDET NRM 4 28 DTSDET POS u 4 28 DTSDET 4 28 DTSFRMD CFSP 4 29 DTSFRMD STSP 4 29 DTSJDG 4 29 4 29 4 29 DTSMKRCLR 4 28 DTSMRKRGCD rne 4 28 DTSMKRED
154. 51 SGPTAUCHID 4 49 4 50 SGPPKMOPBD troie 4 49 4 50 4 51 4 52 4 51 4 52 3GPTRNSTM 4 43 SGPPKPHSE 4 49 4 50 3GPTRNSTMON 4 43 4 51 3GPTURN 4 40 4 50 4 51 SGPTURN QN trier ertet 4 40 3GPPT etd tee 4 61 3GPUPFERR NORM 4 45 4 60 3GPUPFERR 4 45 4 60 3GPUPMCHNO 4 46 3GPPTMEASMD CONC 4 60 3GPUPMCHSE etre rti 4 46 3GPPTMEASMD 4 60 3GPUPMEASMD 4 44 3GPPTMKIAVG eee 4 61 3GPUPMEASMD 4 44 4 61 4 46 3GPPTMK2AVG 4 61 4 46 2 4 61 3GPUPMSTSLT 4 45 4 61 4 45 2 sia a uuu sasa 4 61 INV
155. 900000000000000 1 1 32670000 6 0000000000000 21000 2 0 0000000000000000000000000000000 21 000 Primary SCH 10 0 00000000000000000000000000000000000000 00000 10000000003 0 0 2112 5 0 10 dBm 00000 000000 0000000000000 256 15 256 15 ksps 256 15 ksps 1 128 30 ksps 0 2 128 30 ksps 3 128 30 ksps 211 Slot 00000 1 0 210000000000000 4 10MHz Reference lt BT8 Control Terminal 2 13GPP 0 0 0 0000000 10000000000000000000000000 2 FREQ 2 1 1 2 5 MHz 2 1 R3267 O OPT62 SGPP 1 LJ Lj 000000 0
156. D LI D 000000 UPLINK 0000 00000 0 0000000000000 0 00000000000000000000000 Offset Level 0 0dB Frequency Input FREQUENCY Input RF Cont Auto Level Set OFF Average Type PEAK EXT Trigger Source TTL RETURN Modulation 3GPP Parameter Setup 0000 Parameter Setup SLOT UPLINK 0 O00 000000000000000 R3267 0 0 O0 0 6 000000000000 22000 SGPPDDUUU Parameter Setup SLUT UPLTHK Scrambling Code i 00000492 Auto Level Trigger Mode i INT EXT Set EXT Trigger Slope z Display EXT Trigger Delay 0 000 chip SF 256 15 vien 1 Rate Liskses 30kses 1206505 Paint 240 a amp 0ksps 960ksps 4 Y Heas Unit 40 2580 chip Graphi Meas Start Position 0 0 chip S Threshold Phase Inverse i Frequency Error Cro
157. Due to Modulation Inband 0000000000000 Inband Spurious 000000000 0 00000000000000000003000000000 0 0000000000000000000 2 0 0000000000000000000000000 000000000000000000000000000000000000 0000 220000000 3 000000 Marker Edit 0 O 00000000000000000000000 0000 00000 Reference MKR Type 000000 000 l rr zoo 2 gt 000 00000000 7 L3 00000 0 900000000000 0000 Marker Reference Type 0 0000000000000000 Config Parameter Setup Ref Power REF MARKER MODULATION 000 ARKER 1 0 0 0 Marker Edit Reference MKR Type 0 H D 0 00000 00000000 MODULATION I 1 0 0 0 O Power Modulation Tx Power D 1 E E E E H B B 00 0 Config Parameter Setup Result ABS POWER H1 Hl D D HU D H H D Offset MER Reference Tx Power D 00000000000000 L3 pnr 000000 000000 T 9 M
158. GHz dBm 000000 000000000 098 0000000 REF 0 0 dBm 10 dB Write Horm B Blank Horm Pouer Channel L 2 Total I MI E SS H li d EN mmm 7 117508 GHz ET 8 000 MHz RBW 30 kHz _ 300 kHz SWP 20 ms 10 dB 2 41 3GPP 1000 TRANSIENT STD STD Setup STD Measurement Parameter Set l 10000 STD Measurement Parameter Set Heas Hode Link Offset Level Frequency Input Baseband Input Cont Auto Level Set Input lt for Modulation Parameter gt Average EXT Trigger Source Trigger Level l 5 Channel Setting SID Setup E 00000 2 42 STD Measurement Parameter Set 1000000 E Hz ENTR Link DOWNLINK 100000 10000000 0 100000000 Offset Level 2 39 R3267 0 0 0 0 OPT62 2 7 Primary CPICH Frequency Input FREQUENCY Input RF Cont Auto Level Set OFF Average Type PEAK EXT Trigger So
159. LINK E LT a 6 4 6 2 2 OD UPLINKT 6 5 6 2 3 REU H QPSK HT Su a sun 6 6 6 2 4 1000 DOWN LINK 6 7 6 2 5 UP EINAT E nei eti 6 8 6 2 6 6 9 6 27 OPSK EE ET ETE E E ET ET 1000996900 nem 6 10 6 3 0000000000 0 33552 6 11 64 BESTE ET ert me riter retis 6 13 f snn 7 1 1 TEES 1 nuls RERUM r1 32670000 6 0000000000000 u U 000 Soi 2 1 SGPP T P as Ns 2 2 STD Measurement parameter set 1 DL D D D 00 0 2 2 Parameter Setup SSLOT DOWNLINK O0 000
160. Marker Delta 5 7 Marker Edit Config 1000 Peak Marker Delta Peak Y Delta 7 E Hy 5 5 832670000 6 000000000000 5 2 Due to Transient Due to Modulation Inband Spuriousp 0 000000000600 5 2 2 Due to Modulation Due to Transient Inband Spurious 1 UU t1 00 0 000000000000000000000000000000000000000 000000003000000000 a 0 0000 000000000000000000000000000000 2 0 0 0 0000000000000000000000000000000 00000000 3 0 0000000000000000000000000000 00000 00000000 0 0000000000000000 3000000000000 0 000000000000000 100000000000000000000 0 000000000000000000000000000 10000000 000000000000000000000000000000000000 1000000000000 Parameter Setup O Result MARKER RELATIVE ABS POWER 0 MARKER 000000000 20000000
161. Mede PRECISE 0 0 HzZIENTR 0 0 0000000000 13 000 DD Scrambling Code Define DEFINE 000600 000000000000000000 14 00000 Scrambling Code 0 000000000000 000000000 15 0000 00 Trigger Mode INT 0000 0 0 0000000000000000000 2 3 R3267 0 0 0 0 6 000000000000 21000 2 4 20 21 22 23 24 25 26 27 00000 Search Mode SCHO D OD 000000 0000000000000 7 0 000 mE Primary SF 256 Hz ENTR 000 1000000 250 00 0000000 rimary CPICH 00000 Primary CPICH 15 ksps HXENTR 000 Primary 000000 000000000 00000000 1000 Active CH Detection AUTO Hz ENTR 000000 000000 00010 Analysis Rate ACTIVE O 0 0 D 000 EL TH 000 000 6400 2560 Meas Unit 640 2560 chip 0 0 O
162. Power vs Time Tx Power 1000000000 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation RF BASEBAND I amp Q 9101000000000 000000 00000 000 0000 000000 0 15 Hz bc Auto Level Set 0 000000000000000000000 00000 ON 0 0 0 0000000000 OFF Cont Auto Level Set 0000 3GPP QPSK Tx Power Power vs Time CCDF 0 0000000000000000000000 000 Auto Level 00000000 Average Type Tx Power 0 000000000000 NORMAL Average Times ON H 0 000 0 0 0000000000 Average Times O 0 0 0 0 Peak Magnitude Error Peak Phase Peak Error Vector Magnitude Peak Code Domain Error Tx Peak Factor 000 00 Average Times 000000 0 0 00
163. STD 0000000000000000000000000 3 3 3 2 100000000000 Auto Level Set 0 00000000000000000000000 0000 0000000000000000000000 0000 J Auto Level Set 00000000000 0 00000000 OBW 0 000000000000000000000000 000000000000000000 Average Times 00000000000 0 0 Config Parameter Setup Average Mode 0000 00000 Config Parameter Setup 0 00000000000 Judgment Upper Limit 2 50 MHz Lower Limit Average Mode Power ave 3 11 Parameter Setup 00 E 000 U Detector NORMAL POSI NEGA SAMPLE 0 000000000 3 40 32670000 6 0000000000000 3 3 3 F Domain Judgment 0 0 00000000000000 0000 Upper Limit 0 0 000000000000000 Lower Limit 0 0 0 0000000000 Average Mode Average Times 0000000000 U
164. dBuV Template Couple to Powe ON 000000 0 0 L1 EI 0 0000 O U L L3 OFF 100 1000 0 1000 0 0 100 000 1000000000 0000000 LL Template Limit Template Couple to Power ON 0 0000000 Judgment LL LL 000000000000 000 0 3 30 32670000 6 0000000000000
165. eere reete enin 4 33 SPRTMPLED eee 4 33 SPRTMPLPW OFF 4 34 SPRTMPLPW 4 34 SPRTMPESX su cte 4 33 SPRTMPLSY eee entier 4 33 SPRUNIT DBM eene 4 34 SPRUNIT DBUV 4 34 SPRUNIT W eet 4 34 SPUL V ese Reed EE Oe 4 23 SPUR 4 23 SL uere Ene 4 11 STDIRGLVL 4 15 STDTRGSRC 2 4 15 STDTRGSRC 4 15 4 13 SV REG nni utente 4 13 SMVSTBL upon oH dH EUR 4 22 SW 4 11 TDPAUTOLYVL 4 16 TID PAVO 4 17 TDPAVGCNT 4 17 4 8 TDPAVGMD 4 17 TDPAVGMD NUMERIC 4 17 TDPAVGMD 4 17 TDPAVGMD 4 17 TDPDET NEG ee 4 17 TDPDET 4 17 TDPDET POS 4 17 TDPDET SMP etie tete 4 17 TDPDIV 4 16 TIDPDIV 2 nei ceto tete nte 4 16 nue 4 16 4 18 TDPJDG ett 4 18 TDPJDGLONW 4 18 TIDPJDGUP iei ete en 4 18 5 4 18 4 18 TDPTMPL OFF eee 4 17 TDPTMPL 4 17 TDPTMPLBTM
166. 0 Diagram Diagram Diagram 0000 Chip Symbol GPHCHIP GPHX n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 000000 000 dn Chip Symbol 000000 vs Chip Symbol Mag Error vs Chip Symbol Phase Error vs Chip Symbol 4 54 Chip Symbol GPHCHIP GPHX n CR LF 4d1 CR LF gt dn lt CR LF gt 000000 0000 dn Chip Symbol 000000 n lt CR LF gt d1 lt CR LF gt dn lt CR LF gt 000000 0000 0000000 Auto Level Set R3267 0 0 0 OPT62 AUTOLVL 4 12 TRANSIENT 0 0 00000000 4 2 000 00000000 Graphics Display Start QPDSPST QPDSPST UD Select Type Constellation Constellation Line Constellation Dot Constellation Line amp Chip I EYE Diagram Q EYE Diagram I Q EYE Diagram E V M vs Chip Mag Error vs Chip Phase Error vs Chip QPGTYP CON QPGTYP CONLIN QPGTYP CONDOT QPGTYP CONLINCHP QPGTYP ICHEYE QPGTYP QCHEYE QPGTYP IQCHEYE QPGTYP EVM QPGTYP MAGERR QPGTYP PHAERR QPGTYP 0 Constellation 1 Constellation Line 2 Constellation Dot 3 Constellation Line amp Chip 41 EYE Diagram 5 Q EYE Diagram 6 00 EYE Diagram vs Chip 8 Mag Error vs Chip 9 Phase Error vs Chip Parameter Setup Ro
167. 0 Gate Source Trigger Ext Gate TGTSRC TRG TGTSRC EXT TGTSRC Trigger Gate Position TGTPOS TGTPOS Gate Width TGTWID TGTWID n Detector Normal Posi Nega Sample TGTDET NRM TGTDET POS TGTDET NEG TGTDET SMP TGTDET Normal Posi Nega Sample Gated Sweep ON OFF ON OFF TGTSWP ON TGTSWP OFF OFF ON Template Template ON OFF DTMTMPL ON DTMTMPL OFF DTMTMPL 32670000 6 0000000000000 4 2 GPIBO0O0000 4 12 TRANSIENT 0 0 0 000000 00 0000 Due to Template Shift Modulation Shift X DTMTMPLSX DTMTMPLSX Shift Y DTMTMPLSY DTMTMPLSY Margin delta X DTMTMPLDX DTMTMPLDX 0 0 0 00000 DTMTMPLED 000 000 dBm W dBuV Init Table DTMTMPLCLR Marker Edit Copy from STD DTMMKRCP 00000 DTMMKRED dl f1 f2 11 1 O Normal 1 Integral 2 NNyquist 0000000 2 0000 1 0000000 sss N L3 C3 E3 C3 C3 CJ L2 L3 E3 C3 C3 C3 L3 L3 E3 C3 C3 C3 C3 Init Table DTMMKRCLR Average Times DTMAVGCNT DTMAVGCNT 1
168. 0 0 000000000000000000000000 0000000000000000 Template 0000000000000 5 1 1 T Domain 00000 0 000 0 00 0 0 000000000 Template 0 000000000000000000000000 000000 Shift X 0 0000 0000000000000000 Shift 0000000 00000000000000000 Template 0000000000000 Template 0 00000000000000000000 3 29 R3267 0 0 O0 0 6 0000000000000 3 3 2 T Domain Insert Line Delete Line Sort 10000000000000 EJ E Li LJ LE Table Init Y Scale dB div 10 5 2 000000000000 1000 Average Times 000000000 0 0000000 Average Mode Config Parameter Setup 00000 Config Parameter Setup 00000000000000 Parameter Setup Display Unit v Template Couple to Power Template Limit Judgment Upper Limit Lower Limit 200 00 dBm Average Mode TRACE MUHERIC 3 3 Parameter Setup 100000000 ORMAL POSI NEGA SAMPLE 0 000000000 Detector Display dBm W
169. 0 3 23 3 24 3 10 3 13 3 30 3 33 3 15 3 16 3 35 3 39 3 17 3 35 3 40 3 42 3 43 3 47 3 47 3 50 3 50 3 53 3 53 3 55 Rolloff Factor 3 13 3 15 3 62 3 76 3 43 3 48 3 78 3 79 Root Nyquist 3 22 3 23 3 82 3 83 3 77 3 78 3 85 3 80 3 82 P CPICH Power 3 7 3 24 3 83 S ceteris 3 20 3 63 Peak Y 3 10 3 16 Save eicit EE m 3 17 3 18 pu Scale Setup uccidere tete 3 23 3 79 3 36 3 50 3 82 7 7 5 Power 3 19 Phase Error vs Chip 3 19 3 22 Scramblin Code Define WASA 3 20 3 63 Phase Error 5 8 3 67 Phase 3 20 3 21 3 66 3 69 Scrambling Code No 3 20 3 21 3 24 3 64 3 72 3 75 3 67 3 70 s asua M 3 7 3 22 3 73 3 84 3 23 3 24 3 78 Search Mode 3 20 3 24 Power F Domain 3 37 89 3 68 Power Marker 3 23 3 81 Power Marker 2 3 23 3 81 gt T Power 3 23 3 79 3 75 3 84 3 82 Power vs Time 2 21 3 1 2 3 23 3 79 Set to S TD 3 8 3 9 Power T Domain
170. 0 GRAPH I TABLE Y Scale Upper 3GPPTYUPR 3GPPTYUPR C20 70 dB dBm Y Scale Range 3GPPTYRNG 3GPPTYRNG 10 50 dB dBm Power Unit RELATIVE ABS POWER 3GPPTUNIT REL 3GPPTUNIT ABS 3GPPTUNIT 0 ABS POWER I RELATIVE Parameter Setup Meas Mode 3GPPTMEASMD 3GPPTMEASMD 3GPPTMEASMD 0 1 Root Nyquist ON OFF 3GPPTRNYQ ON 3GPPTRNYQ OFF 3GPPTRNYQ Mode INT IF EXT 3GPPTTRG INT 3GPPTTRG IF 3GPPTTRG EXT 3GPPTTRG Trigger Slope 3GPPTTRGSLP RISE 3GPPTTRGSLP FALL 3GPPTTRGSLP 0 1 Trigger Level 3GPPTTRGLVL 3GPPTTRGLVL 100 Trigger Delay 3GPPTTRGDLY 3GPPTTRGDLY D Meas Length 3GPPTMLEN 3GPPTMLEN 00 00 62 Graph Plot Type AVERAGE PEAK PEAK 3GPPTGTYP AVG 3GPPTGTYP PK 3GPPTGTYP 0 AVERAGE 1 32670000 6 0000000000000 4 2 4 12 TRANSIENT Power vs Omit Transient Section Time for AVG Power ON 3GPPTOMIT ON 3GPPTOMIT OFF 3GPPTOMIT OFF Marker Setup Power Marker 1 3GPPTMKRI 3GPPTMKRI Power Marker 2 2 3GPPTMKR2 Template Setup Template 1 3GPPTTMPI
171. 00 10000 1 02310000 0000000 000000000 2 31 Power 00000 000 P REFIN 10MHz Reference 00 0 5 vs Time 000 1000 0000 00000 2 00000 SPAN 8 MHz 0 0000000 COUPLE RBW AUTO MNL MNL 3 0 KHz FREQ 1 9 2 2 5 MHz D 1922 5MHz 0 000 000 D 0000 0000 100 MS Control Terminal RBW 0 0000000 VBW AUTO MNL MNL 3 0 0 kHz 00000 VBW O00 HE BLU U DI 32670000 6 0000000000000 2 5 Power vs Time 6 LEVEL 0 GHz dBm 000000 0000000000 99800000000 REF 0 0 dBm 10 dB Write Horm _B_Blank Horm ENTER 1 922500 GHz SPAM 8 000 MHz 10 dB 30 kHz _ 300 kHz SWP 20 ms 023200000 00 000000 1000 7 TRANSIENT Modulation Time amp FFT Parameter Setup 000
172. 00 Template 00000 5 1 2 F Domain 00000000000 00000000000 Template 000000 0000 0000000000000 0000000000000000000 Shift X 0 0000000000000 000000000 Shift 000000000000000 00000000 000 Margin ON OFF 000000000000000000 000000 LU LU Template Edit from STD Insert Line uumaagagaumaguu 11000000 Delete Line 0 0000000 000000 Sort 000000000000000 Table 0000000000000 Marker 000 5 2 1 1000000000000 000 Copy STD 000000000000000000000 3 52 32670000 6 0000000000000 3 3 3 F Domain Insert Line 10000000000 0000000 Delete Line 0 000000000000 Sort Table 100000000000 Average Times Config Parameter Setup
173. 00 Trigger Mode INT Primary CPICH 1000000000 Trigger 1000 0 O0 O0 0O O Primary 000000000 Primary 0000 0 0 0000 0 00 00 0 00 000004 512000000000 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation Primary CPICH No Primary CPICH I 000 0 0 0 0 0 000 0 Active CH Detection 0 0 0 0 00000 AUTO 0 000000000000 0000000000000 USER TABLE 0000000000000 0000 00000 Analysis Rate 0 0000000000000000000 100000000000000000 0 00 000000 ACT N 0 00 000000 0007
174. 000 0 0 0 0 00990000 000000000000000 0 0 0 100 0 0 01 0 000000000 0 0000000000000000000 20010 40ms 666 66us 0 01us 0 0 0 00000 000000 40ms 0 666 66us0 O 0 0 0150 000 00000 Meas Length Graph Plot 32670000 6 0000000000000 2819 0 62100 000000000000 3 3 4 Modulation Omit Transient Section for AVG Power Marker Setup Power Marker 1 Power Marker 2 Template Setup Template 1 Template 2 AVERAGE 000000000000 PEAK PEAK 000000000000000800 0000000000000000 25 ush D D 000000000 0000000000000 0 000000000000 0000000000000 20000000 100 Meas Length 0 00000000000 Setup Power Marker 1 1 2 2 3 38 Setup 100000 000 000 0 0 0 D D U 000 00 0 000
175. 000 0 000000000 00000 5 2 1 Marker Edit O0 0000000000 000 000000000000000000000 0 0000000010000000 0 0000000000000 0 0000000000000 0000000000000 R3267 0 00 0 62 3 00000000000 3 3 3 F Domain Average Times 0000000000 0000000000 00 0 config Parameter Setup Average Mode 0000000000 Config Parameter Setup 0000000000000 Detector Result Ref Display Unit Templat Couple to Power Template Limit Judgnent Symbol Rate 1 T Rolloff Factor Average 3 15 Parameter Setup 00000 0 Freq Setting START amp STOP SPAN 0000000000000 Detector NORMAL POSI NEGA SAMPLE 0 0000000000 00000000000 O 0 0 D UD 5 2 2 Due to Modulation Due to Transient Inband Spurious 00000000000000000 MARKER 0 000000000000 000 Marker Edit 000
176. 000 Average Times ON 000000 OFF 0000 000000000000000000000000 0 00000000000000000 3 3 4 2 5 10000 3 84 Mops LI 1 00000 D Auto Level Set 0 0000000000000000 O0 Auto Level 00000 Graphics 0 000000000000000000000000 Display Start 0 0000000000 Select 0 000000000 3 75 R3267 0 0 0 0 62 UU 3 3 4 Modulation Graphic Type of nalysis Constellation Line Constellation Dat Constellation Line amp Chip I EYE Diagram Q EYE Diagram EYE Diagram E V M vs Chip Mag Error vs Chip Phase Error vs Chip 3 32 Graphic Type of Analysis Constellation 0 0 00000000000 Constellation Line 0 0000000000000 Con
177. 000 RELATIVE 000000000 000000 ABS POWER 1000000000000000000 Power Result 00 00000000000000 0 0000000000 REF MARKER Marker Edit O O REF 0 0000000000 MODULATION Modulation Tx 0000000 000000000 Display dBm W dBuV 0000000000 3 47 R3267 0 0 0 0 6 0000000000000 3 3 3 F Domain Result RELATIVE 00000 100000000 Template Couple Power 0000 0000 0 n 000000000000 00000 Template Limit Template Couple 00 000000000 000000000 0000 o ELE Judgment arker Edit ET EI EIEICI O G B n 0 000 0 000 0 000 000 0 000 Symbol Rate 1 0000 0000 0000 0000 0000 0000 Rolloff Factor n n 0 0 0 Average Mode Average Times 0000000000 U 10 Log D LU U I ga L1 MAX HOLD 10000000000000 AVG T T T T T
178. 0000 0000000 00000000 100000 6200000 100 1000 System Error Cannot allocate the required memory System Error Clock is not operational Modulation Gain CAL error Check 30 MHz CAL signal for connection Modulation DC CAL error Remove input signals and try again Trigger Detected Input Level is out of Range Check the Ref level No graph data Execute measurement Input level is too low Adjust the Ref level System Error Contact qualified engineer Auto Level completed Auto Level Set can not be succeed Signal level is not stable Cannot execute measurement Because is too low R3267 0 0 O0 0 6
179. 0000 2 3 aute eit E eer rere 2 5 H LE DE s ren tbe E REIS 2 6 I uay t l E u l EFE exten 2 7 Parameter Setup FRAME DOWNLINK E D E 0 0 0 0 0 D 2 8 ltd a u ua L ie er Pr Ete eie ere 2 10 SGPP HPO HPH HOME uec eoe ecce inte neutr REP EE 2 11 Parameter Setup SLOT UPLINK OD 0 2 12 3GPP UPLINK U TT TIT Qu eret e 2 13 SGPE P O A etii tertie EE 2 14 HPE Bab ette k u u u umu 2 15 Parameter Setup FRAME UPLINK D 0 0 0 0 0 0 D 2 16 00000 Meas Mode SLOT Link DOWNLINK 00 2 18 Meas Mode SLOT Link UPLINK 0 2 19 Meas Link DOWNLINK 00 2 19 00 2 20 Bb ke eee i Ee Rees 2 21 Bb EE HERE BED ass eet rer Ee rr err 2 22 LOB I E Bol BESTE ED E E D e es 2 22 QPSK H emt neum u u RARO 2 23 J Dp I EP DEED uay y 2 24 Parameter Setup 0 0 0 00 0 0 2 25 QPSK I H EOE RE t tte E 2 26 Power vs Time 00 2 277
180. 0000 59 00000 000000 0 000000000000 0 0000000000000000000000000000000000000000 00000 0000000000000000000000000000000000 Baseband Input 1 Baseband Input Q Low 4 Pass A D Filter EXT EXT Trigger 51000000 5 10 6 1 32670000 6 0000000000000 6 10 000000 0000000000000000000000000000000000000 00000000000000000000000000000000000000000 000000 up 0000000000000000000000000000000000000000 1000000000000000 0000000 0 0000000000000000000000000000000000000 1 00000000000000000000000000000000000000000 00000000 2 0000000000000000000000000000 6 1 R3267 0 0 0 0 6 000000000000 610000000 00000 3GPP TS 25 211 V3 6 0 TS 25 213 3 5 0 0
181. 00000 IF HD B 6MBz 10000 00000 0 00000000000000 000 EXT TRIG I 00000 3 37 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain Slope 000 000000 0000000000 0 00000000000 000000000000 Trigger Level 0 000000000000 Trigger Position 0 00000000000000 Delay Time 0 000000000000000000000 000000000000000000000000 1000000 Gate Source Trigger Trigger Setup O Trigger Source Gate Source 00000 O Trigger Source 00000000000 6 0000000000000 000000000000000000000 00 0000000 6 20 0000000 EZ Ext Gate 0000 000000000 0 00000000000 Gate Setup Gate Source D 0000000000000 0 0 0000000000 Set to STD
182. 00000 Band Conversion Baseband Input Constellation Constellation Dot Constellation Line amp Chip Constellation Line Cont Auto Level Set Copy from STD 3 24 3 32 3 39 3 42 3 50 3 55 3 77 3 84 3 7 3 87 3 17 3 7 3 87 3 7 3 7 3 85 3 19 3 8 3 10 3 12 3 14 3 17 3 30 3 35 3 40 3 47 3 53 3 19 3 19 3 19 3 19 3 7 3 87 3 7 3 14 3 17 3 25 3 46 3 52 3 30 3 35 3 40 3 47 3 53 3 75 3 79 3 85 3 25 3 54 3 25 3 23 3 25 3 59 3 9 3 11 3 13 3 16 3 18 3 33 3 39 3 42 3 50 3 55 3 22 3 22 3 22 3 22 3 25 3 13 3 16 3 18 3 42 3 49 3 55 3 1 R3267 0 0 0 0 62 3100000000000 3 85 3 11 3 14 DOCAL uu y u 3 7 3 25 3 38 3 45 3 85 EXT Trigger Delay 3 20 3 21 Delay Time 3 8 3 9 3 22 3 64 3 10 3 11 3 68 3 71 3 14 3 29 3 73 3 77 3 32 3 34 3 78 3 38 3 45 EXT Trigger 3 7 3 25 Delete iei tO 3 18 3 87 Delete Line 3 8 3 10 EXT Trigger Slope 3 20 3 21 3 13 3 14 3 22 3 64 3 16 3 17 3 68 3 70 3
183. 00000 000000000 Judgment Marker Edif 0 0 000000000 0 0000000000000000000000000 000000000 Average Mode Average Times ON 00000000000 TRACE AVG 1020 0000 650 0000 000000 HOLD 00000 0000000000000 000000 POWER AVG 000001 000000000000 00000000000 Set to STD 0000000000000000000000 3 51 R3267 0 0 0 0 6 000000000000 3 3 3 F Domain 3 3 3 6 Inband Spurious 2 1000000 0000000000000000000 0000000000000 8 000000000000000000000000000 0 000 00 0 00 0000 0 000 0 00 000 0 0 00 0 00 00000 Auto Level Set 000000000000000000000 uuu 00000000000000000000 0000 Auto Level Set 0000000000000000 0000000
184. 000000 1000 00 7525 141 3 5 00 00000 Test Model 1 32 608 0 08000000 000000000 00000000000000 1000 00 7525 141 3 5 00 00000 Test Model 1 64 codes 0000000000 000000000 00000000000000 1000 TS25 141 3 5 000000 Test Model 20 0 0 00000000000000 100000000 0000000000000 00 7525 141 3 5 00 00000 Test Model 3 16 0 000000000 00000000000000 1000 00 7525 141 3 5 00 00000 Test Model 3 32 codes 000000000 00000000000000 1000 3 61 832670000 6 000000000000 3 3 4 Modulation Table Parameter Setup 3 62 HEB HHE HE Multi Channel 00000000000000000000000 1 32 5 000 SF Number Rate Multi Ch
185. 0000000 USER TABLE 0 000000000 00000 0 0000000000000000000 0 000000000000000000000 0 0000000000 0 001 000000000000000000 0 000000000000000000000000 0 00001 30000000 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation 292 3 69 000000000000 0000000000 0 00000000000000000000000 0 000000000000000000000 0000 00000000000000 00000000000000000000 000000000000000000 0 00000000000000000 19000000000000000 5 dB 40 480 00 NORMAL INVERSE C g e gt o0 E g o 50205610005 r1 r3
186. 0000000 4 COUPLE RBW AUTO MNL MNL 3 0 KHz O00000 RBW 30kHz 000000 5 AUTO MNL MNL 3 0 0 KHz VBW 300kHz 10000 2 27 R3267 0 0 0 0 6 000000000000 2 5 Power vs Time 6 LEVEL 0 000 0 0 0000000 L3 REF 0 0 dBm 10 dB Write B Blank Norm CENTER 1 922500 GHz SPAH B 000 HHz RBW 30 kHz VBW 300 kHz SWP 20 ms ATT 10 dB 0 228000000000 000 100000000000 7 TRANSIENT Modulation Power Power vs Time Parameter Setup 000 Parameter Setup 00000000000 00000 0000000 Meas Mode PRECISE D 0 0 0 0 HXENTR D 000 00000000000 9 10000 00 Root Nyquit 4 000000 0 00000000000000000000000 10
187. 0000000 Primary Primary CPICH 0 0000000000 1000 Frame 00000000000 IDU o Average Times ON OFF T 3 3 4 4 Time 8 000000000 0000000 10000 0 0000000000000000 Auto Level Set 000000 0000 00 5 10000000 Auto Level Set LJ E L3 r3 L3 r3 E Ez rr E EIE E L3 rr L3 rr L3 rr Auto Level 00000000000000000 0 00000 Select 000000 Select Time amp i Uch Time amp FFT Ich amp ch Time 3 43 Select Type 3 84 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation Parameter Setup Parameter Setup Trigger Source Trigger Level Trigger Delay 0 000 chip
188. 0000000 0 4 2 4 12 TRANSIENT dl 42 41 Power dBm d2 P CPICH Power Max W P CPICH Power Min PCPICHPWMIN 41 42 41 dBm d2 P CPICH Power Min W Frequency Error PCPICHFRERR 0 PCPICHTXPWR dl d2 41 Tx Power dBm d2 Tx Power W 10000000000 10000 4 64 83267 OPT62 4 2 0 55 1 2 FAIL Lower 3 FAIL Upper amp Lower 4 Error ERRNO 100000 AD 0 30 U LI LI CR LF LF lt g
189. 000000000 10000000000000 EXT Trigger Source 0 000000000000 QPSK Tx Power Power vs Time CCDF Time amp 00000000000 TTL 0000000 ANALOG 000000000 000000000000 5 EXT Trigger Level EXT Trigger Source ANALOG og ong C3 r3 ogn on 0 00000009 5 000 3 87 32670000 6 0000000000000 4 000000000 4 0000000000000 41 000000000 0 0000000000000000000000 GPIB I O O O 0000 TOES 4 65 RUE 4 65 j 4 65 FIN 4 65 4 65 4 65 4 65 4 64 0 0 4 64 4 42 4 44 3GPACTCH 6 2 22 4 42 4 44 TIDP32 4 42 4 44 3GPACTCH TIDP64 4 42 4 44 3GPACTCH 2 enden gs 4 42 4 44 3GPACTCH T3DP16 4 42 4 44 3GPACTCH T3DP32 4 42 4 44 3GPACTCH 4 42 4 44 VG 4 49 3GPAVGCHPWR
190. 00000000000 100000000000000000 SID Measurement Parameter Set Heas Mode OgEHETUGNNN rna Link m Offset Level t Frequency Input Baseband Input Cont uto Level Set Input 180 K lt for Hodulation Parameter gt Type Trigger Level 5 00 EXT Trigger Source ANALOG 5 Channel Setting SID Setup E 3 45 STD Measurement parameter set 00 00 100000000000000 3GPP 0000 0 0000000000 SLOT 100000000000000000 1000000000 000 0000000000020 100000000000 UPLINK 10000000000000 DOWNLINK 0000000000000 0 000000000000000 1900980000 FREQUENCY CHANNEL BASEBAND
191. 0000000000000000000000 Gate Position 000000000 Gate Width 00000000000 Gated Sweep 00000000000000 Detector NORMAL POSI NEGA SAMPLE Detector 3 9 Detector 10000000 3 38 32670000 6 0000000000000 3 3 3 F Domain Window Setup 00000000000000 Window ON OFF 0000000000 0 Set to STD Window Position Window Width 0 1 Y Scale dB div 10 5 2 0000000000000 Average Times 0000000000 00 Config Parameter Setup Average Mode 0000000000 Config Parameter Setup 0000000000000 s Ds Gated Sweep Display Unit SURB av NENN 7 Upper Limit E Lower Limit Average 3 10 Parameter Setup 000000000
192. 00000000000000000000000000 100000000000000000000000000000 000 0000000000000000000000000000000000000000 100000000000000000000 000000 0 00000000000000000000000000000 0 000 0 0000000000000000 1000000000000000000000000000000000000 0000000 00000000000000000000000000000000000 00000000000 0 00000000000000000000000000000000 0 0000000000 0 00000000000000000000000000000000 00000000000000000000000000000000000000 000000000000000000000000000 92200000000 0 0 00000000000000000000000 orr 00000000 0 0000000000000000000000000000000000 0000000000000000000000000000000000000 00000000000000000000000 esi 0060000 0000000000000000 0 00000000000 0 0000000000 000000000000000000000 0 000000000000 000000000000000000000000
193. 1 Chip 1 Display Graphics Start 2 Select Type E 45deg Turn Eve Diagram 2210 0000 32670000 6 0000000000000 2 4 QPSK 0000 24 QPSK IIIIUU 0000000000000 2562500000022000000000000000000 00000 1 0 2 230000000000000 BTS lt Trigger lt REF IN 10MHz Reference BT8 Control Terminal 2 23 1000000 2 1 9 2 2 5 gt 3 SPAN 8 MHz I LU L LU LI 4 COUPLE RBW AUTO MNL MNL 3 0 KHz O00000 5 VBW AUTO MNL MNL 3 0 0 KHz 100 6 LEVEL 0 GHz dBm 2 23 R3267 0 0 0 0 6 000000000000 2 4 0000 REF 0 0 dBm 10 dB Write Horm _B_Blank Horm REF LEVEL a Level dB div Linear E s Units s Ref Dffset
194. 2 044 811 0549 03 3342 8245 03 3342 8245 2 03 3342 8245 B 03 3342 7513 Z 029 253 5121 2 022 392 3103 2 044 811 0500 Z 044 811 0500 03 3930 4002 Z 042 526 9520 Z 06 6385 6611 06 6385 6611 F 2 052 731 6100 076 262 7545 0000000000 __ TEL 0120 041486 CICD 819 0120 334275 E UD L 000000 000000000 0120 120287 BE 0120 057508 TEL 06 6385 6613 06 6385 7751 00000
195. 267 0 0 0 0 6 000000000000 00000000 TRANSIENT F Domain Inband Spurious 1 Auto Level Set Template Template ON OFF Marker Edit gt Shift X Average Times ON OFF Shift Y gt Copy STD Config Margin AX ON OFF Insert Line Template Edit Delete Line Copy from STD Sort Insert Line Table Init Delete Line 5 Freq Setting Sort START amp STOP Table Init SPAN p Parameter Setup Detector NORMAL Set to STD Peak Y Delta Result MARKER ABS POWER Ref Power REF MARKER MODULATION Display dBm w Template Couple to Power Template Limit Judgment ON Average Mode MAX HOLD POWERAVG L p 4 3 16 TRANSIENT F Domain Inband Spurious 2 Auto Level Set Template Edit Average Times ON OFF Config R3267 00 0 6 000000000000 00000000 Template ON OFF Shift X Shift Y Margin AX ON OFF Template Edit Copy from STD Insert Line Delete Line Sort Table Init Copy from STD Insert Line Delete Line Sort Table Init Freq Setting Detector Parameter Setup LSet to STD Peak Y 1
196. 267 0 0 0 0 6 000000000000 3100000000000 X 3 19 3 58 X Scale 3 23 3 82 X Scale 2 2 2 2 2 2 2 2 3 23 3 82 9 3 19 3 57 Y Scale dB div 10 5 2 3 8 3 9 3 11 3 30 3 32 3 39 Y Scale 3 23 3 79 Y Scale 3 23 3 79 3 6 32670000 6 000000000000 32 00000000 T Domain p F Domain Modulation STD Lp Power gt 3 8 ON OFF Ratio gt P3 9 Spurious gt P3 10 Power 3 11 gt 3 12 Due to Transient gt 13 Due to Modulation gt 3 14 Inband Spurious 1 P3 16 Inband Spurious 2 3 17 Outband Spurious gt P3 18 gt P3 19 QPSK gt 3 22 Power Time amp FFT P3 24 STD gt P3 25 DC CAL Gain Cal gt 3 25 Channel Setting from STD STD Setup 00000000 gt Tx Power 3 22 Power vs Time 3 23 CCDF 23 P CPICH Power p P3 24 gt Type Meas Mode Link Offset Level Frequency Input Input Baseband Input Cont Auto Level Set Average Type EXT Trigger Source EXT Trigger Level 3 7 R3267 0 0 0 0 6 000000000000 00000000 TRANSIENT T Domain Power s Au
197. 3 22 3 77 IQ Complex FFT 3 24 Meas Slots 3 20 3 21 3 68 3 74 Meas Start Position 3 20 3 21 J 3 66 3 69 Judgment uy suu su 3 8 3 9 3 10 3 11 25115227 Meas 3 20 3 21 3 12 3 13 3 15 3 16 3 17 3 18 Modulation I CEU 3 7 3 57 Multi Channel 3 19 3 62 3 22 3 30 Multiplier 3 10 3 36 3 33 3 36 3 39 3 41 3 43 3 48 0 3 51 3 54 OBW AE 3 7 3 40 3 56 3 77 LP 3 12 3 40 OFF Position 3 9 3 32 L OFF Width 3 9 3 32 3 22 3 77 E Sep 3 22 3 77 Omit Transient Section for AVG Power 3 23 3 81 De ce 3 7 3 25 3 86 A 2 sus mas G 9 3 Load Table u ctn tt eee 3 10 3 18 ON OFF 3 7 3 9 3 35 3 55 3 31 dd 5 3 7 3 55 3 39 3 41 D p 3 19 3 59 M Mag Error Magnitude O 000 5 8 arameter Setup E Mag Error vs Chip aaa 3 19 3 22 415 4d Margin AX ON OFF 3 13 3 14 3 14 3 16 3 16 3 17 3 42 3 46 3 49 3 52 3 17 3 18 3 19 3 22 1 3 R3267 0 0 0 0 6 000000000000 0
198. 3 28 3 11 3 12 Pieselectot 3 10 3 18 3 13 3 14 3 36 3 56 3 16 3 17 Primary No 3 20 3 65 3 29 3 31 3 68 Primary CPICH SF 3 20 3 64 3 40 3 41 3 44 3 45 0 3 48 3 51 EYE Diagram 3 19 3 22 3 55 Time amp FFT 3 24 SF Number Rate 3 19 3 62 OPSE TTE 3 7 3 22 dq 3 8 3 13 3 75 3 14 3 16 QPSK O is 2 23 3 17 3 29 3 41 3 46 R 3 49 3 52 Ref Power RR 3 13 3 15 jud 3 8 3 13 3 14 3 16 3 17 3 29 3 41 3 46 3 49 3 52 3 16 3 17 3 43 3 47 3 50 3 53 1 4 32670000 6 0000000000000 00 ukasa 3 8 3 9 3 14 3 16 3 10 3 11 3 17 3 29 3 14 3 29 3 42 3 46 3 32 3 34 3 49 3 52 3 38 3 45 Template Edit Q 00 00 5 1 Slot 2 10 Template 3 8 3 13 M 3 8 3 13 3 15 3 16 3 14 3 16 3 17 3 30 3 17 3 30 3 43 3 48 3 42 3 46 3 51 3 54 3 49 3 50 Template ON OFF 3 8 3 14 3 52 3 53 3 16 3 17 SDUEFIOUS Juan aa 3 7 3 29 3 41 Spurious T Domain 3 34 3 46 3 49 3 17 3 54 3 52 STD dee 3 7 3 25 Templat
199. 3 3 3 F Domain 3 3 3 F Domain 0000000000000000000000000000000000000 0000000 000000000000 000 Due to Due to In Band Spurious Band Spurious 0 0 0 0 F Domain 0000000 0O RBW VBW Sweep Time Detector 00000000000000000000000000000000000000000 Config Set to STD 1100 000 0 3 3 3 1 Power F Domain 100000000000000000000000000000000 Auto Level Set 00000000000000000000000 0000 00000000000000000000000 00000 0 Auto Level Set 0 0 0000000000000 00000000 Gate Setup 00000000000000000 000000000000 Sample Detector 000000 0000600 Trigger Setup Trigger Setup Trigger Source FREE F Delay Time 70 000 3 8 Trigger Setup 00000000 Trigger Source FREE RUN 0000 VIDEO
200. 3 84 Constellation Dot 3 19 3 22 eese lt lt 3 8 3 9 Constellation Line amp Chip M 3 19 3 22 3 10 3 11 1 3 19 3 22 3 12 3 13 Cont Auto Level Set 3 7 3 25 3 15 3 16 3 17 3 1 d 17 3 18 Copy from STD sss 3 7 3 13 3 31 3 33 3 14 3 16 3 36 3 40 3 17 3 18 3 41 3 44 3 25 3 42 3 48 3 51 3 46 3 49 3 54 3 56 3 52 3 55 Average Times ON OFF 3 8 3 9 385 3 10 3 11 3 12 3 13 3 14 3 16 D 3 17 3 18 DOGAL 3 7 3 25 3 19 3 22 3 85 3 24 3 30 Delay Time neret 3 8 3 9 3 32 3 35 3 10 3 11 3 39 3 40 3 14 3 29 3 42 3 47 3 32 3 34 3 50 3 53 3 38 3 45 3 55 3 75 eene Ether eyes 3 18 3 71 3 19 Delete 3 8 3 10 3 84 3 85 3 13 3 14 1 1 R3267 0 0 O0 0 6 000000000000 00 3 16 3 17 3 30 3 35 3 42 3 46 3 49 3 52 3 53 3 55 3 19 3 61 3 9 3 10 3 11 3 12 3 13 3 14 3 15 3 16 3 17 3 18 3 30 3 33 3 35 3 38 3 39 3 40 3 43 3 46 3 47 3 50 3 53 Demod Data Save Ibm 3 19 3 57 3 19 3 22 3 59 3 75 3 19 3 23 3 57 3 79 3 9 3 10 3 11 3 13 3 15 3 16 3 17 3 18 3 30
201. 30 3 35 3 73 3 77 3 42 3 46 3 78 3 49 3 52 EXT Trigger Source 3 7 3 25 3 53 3 55 3 87 Demod Data Save 3 19 3 61 3 7 3 8 3 9 Format 2 3 19 3 57 3 10 3 11 Freg Setting iamen 3 13 3 15 3 12 3 13 3 16 3 17 3 14 3 15 3 42 3 47 3 16 3 17 3 50 3 53 3 18 3 30 Frequency Error 3 20 3 21 3 33 3 35 3 66 3 72 3 38 3 39 Frequency Input 3 7 3 25 3 40 3 43 3 86 3 46 3 47 Gam s u uuu au S s 3 7 3 25 3 50 3 53 3 85 3 56 Gate contecta 3 11 3 14 Display 3 19 3 57 3 38 3 45 Display 3 19 3 22 Gate Sef Du na u 3 11 3 14 3 59 3 75 3 37 3 38 Display 3 19 3 23 3 44 3 45 3 57 3 79 Gate Source 3 11 3 14 Display 3 8 3 9 3 38 3 45 3 10 3 11 Gate Width 3 11 3 14 3 13 3 15 3 38 3 45 3 16 3 17 Gated Sweep 3 11 3 39 3 18 3 30 Gated Sweep ON OFF 3 11 3 14 3 33 3 36 3 38 3 45 3 39 3 43 Graph 3 23 3 81 3 47 3 51 Graphics 3 19 3 22 3 54 3 56 3 59 3 75 DPCCH No
202. 3267 0 0 00 62 0 000000000000 23 23 000000000000000000000000000000000000000 000 00000000000000000000 1 Display 10000 Display 0 0000000000000 2 0000000 Format GRAPH 0000 00 0000 1000000000000000 3 00000 YScale etl U UJ I BHzENTR 00000 0000000000000000000000000 4 Display Display Type 000000000000000000000000 00000000000 Code Domain Power 0 216000 000 Meas Mode 0 SLOT Link DOWNLINK 2 18 R3267 0 0 0 OPT62 Code Domain Power I 00 2 3 3GPP UU D 24 32 40 Channelization Code 1 uta Level Set z Display Type E View Point m Code Domain Power Q 24 32 40 Channelization Code No 4 SS Graphi
203. 37 OPTRG EXT ene nter ya 4 56 SPROREF MKR 4 37 4 56 SPR2REF 4 37 4 56 4 37 OPTRGDLY 4 56 SPR2RES 8 22222 222222 4 37 QPTRGLVL itecto 4 56 SPRORES 4 37 QPTRGSLP FALL 4 56 SPR2RES 4 37 QPTRGSLP RISE 4 56 25 4 37 4 11 SPR2TMPL 22 2 2 2 4 35 4 12 SPR2TMPL 4 35 RC REG B 4 12 SPR2TMPLBTM 4 36 RO TB ERU 4 21 SPR2TMPLCLR eene 4 35 1 4 X X Mn 4 11 SPR2IMDPEGCD 4 35 4 14 5 4 35 ROS 4 65 SPR2TMPLED eerte 4 35 4 65 5 2 2 222222 4 36 S 4 65 SPR2TMPLPW OFF 4 36 4 65 SPR2TMPLSX 4 35 4 64 2 5 2 202 4 35 SETFUNC CW 4 10 SPR2UNIT
204. 4 12 TRANSIENT 0 4 2 GPIB 000000000 00000 00 SPRREF SPRREF 5 00000000 0 Reference 1 Modulation Peak Y Delta SPRPKMKY SPRPKMKY 00 Set to STD SPRSETSTD 0000 Inband Spurious SPRMEAS 0000 0000 51 0000 Inband Spurious 5 5 n lt CR LF gt f1 11 j1 lt CR LF gt fn ln jn lt CR LF gt 000000 fn 000 In dBm W jn 0 FAIL 1 PASS 1 Judgment OFF Ref Power SPRREFPWR 000 Spurious 2 Auto Level Set SPR2AUTOLVL Template Template ON OFF SPR2TMPL ON SPR2TMPL OFF SPR2TMPL Template Shift Shift X Shift Y SPR2TMPLSX SPR2TMPLSY SPR2TMPLSX SPR2TMPLSY 0 0 Margin delta X SPR2TMPLDX SPR2TMPLDX 0 OFF Copy STD SPR2TMPLCP 00000 SPR2TMPLED 1 11 f DD dBm W dBuV Init Table SPR2TMPLCLR 4 35 R3267 0 0 00 6 000000000000 4 2 Inband Spurious 2 4 36 Marker Edit Copy from STD SPR2MKRCP 4 12 TRANSIENT 000000000 0 00000000 00000 SPR2MKRED dl
205. 5 5000000000 7 5 ksps 7 5 ksps 0000000 15 ksps 15 O0 000000 30 ksps 30 ksps O0 000000 60 ksps 60 ksps O0 00000 0 120 ksps 120 00000000 240 ksps 240 ksps 0000000 480 ksps 480 00000000 960 ksps 960 ksps 1 D E H D E D D Meas Unit 0 000000000000000000000000 0000000 0 000000000000000000000000 0 000000000000000000000000 0 00 0 0 Analysis O 1 640 4chip 2560chip 000000 0 1 2560 90 000 10000 0350 Analysis 00000 000 000 U 0000000000 24 D Meas Unit Unit 3 25 Meas Unit 3 65 832670000 6 000000000000 3 3 4 Modulation 00000000000000 0 14010 3540 000000000000000000000000 000000 Primary CPICH 000000 CDP 000000000000000000000 0000000 Primary 00000000000 0 000000000000000000000 5 dB 40 480 0 D Start Position Threshold
206. 52 3 14 3 24 Template Setup 3 23 3 81 3 28 3 31 Template UP LOW 3 8 3 29 3 34 3 37 Test Model 1 DPCH 16 3 19 3 44 3 85 Test Model 1 32 code 3 19 na 3 7 3 22 Test Model 1 DPCH 64 code 3 19 pau c 3 7 3 25 Test Model 2 interrete 3 19 3 86 Test Model 3 DPCH 16 code 3 19 Upper Limit 3 8 3 9 Test Model 3 DPCH 32 code 3 19 3 11 3 12 Threshold 3 20 3 21 3 31 3 33 3 66 3 69 3 39 3 41 3 72 3 74 User 200 3 19 3 61 Tieu sos 3 19 3 59 View 3 19 3 59 amp 3 7 3 24 Window ON OFF 3 8 3 9 3 84 3 11 3 29 Trace Write ON OFF 3 23 3 83 3 32 3 39 Transmit Timing 3 20 3 66 Window Position 3 8 3 11 2 2 3 11 3 14 3 29 3 39 3 38 3 45 Window Setup 3 8 3 9 Trigger Delay 3 23 3 24 3 11 3 29 3 80 3 83 3 32 3 39 3 85 Window Widlih 3 8 3 11 Trigger Level uu 3 8 3 9 3 29 3 39 3 5 R3
207. 6 3GPDPCCHNO 3GPDPCCHNO 0 255 Analysis Rate 15ksps 30ksps 60ksps 120ksps 240ksps 480ksps 960ksps 3GPUPRATE 15 3GPUPRATE 30K 3GPUPRATE 60K 3GPUPRATE 120 3GPUPRATE 240K 480 960K 3GPUPRATE 15ksps 30ksps 60ksps 120ksps 240ksps 480ksps 960ksps Meas Unit 3GPUPMUNIT 1 640 Start Position 3GPUPMSTSLT 3GPUPMSTSLT 0 0 140 Threshold 3GPUPTHRSH 3GPUPTHRSH 40 54 LJ Phase Inverse NORMAL INVERSE 3GPUPPHASE NORM 3GPUPPHASE 3GPUPPHASE NORMAL INVERSE Frequency Error NORMAL PRECISE 3GPUPFERR NORM 3GPUPFERR PREC 3GPUPFERR NORMAL PRECISE Uplink Frame 000 Scrambling Code No 3GPUPSCNO 3GPUPSCNOHEX 3GPUPSCNO 3GPUPSCNOHEX 00009 16777215 160000 4 45 R3267 0 0 00 6 000000000000 4 2 4 46 Trigger Mode INT EXT 4 12 TRANSIENT 0000 0 00000 EXT Trigger Slope T 3GPUPTRGSLP RISE 3GPUPTRGSLP FALL 3GPUPTRGSLP 0 1 EXT Trigger Delay 3GPUPTRGDLY 3GPUPTRGDLY D 0 0 5120 00 38400 000 DPCCH SF 3GPDPCCHSF 3GPDPCCHSF
208. 62 3GPP 0 6 3 es 00000000000 000000 0 3264 67 73 62 0000 1 RF l DOWN LINK Pass Fail 2 RF UPLINK Pass Fail 000000000 10 Hz 10 Hz S rj 0 Pass Fail 83267 0 0 0 6 0 0 6 3 DOWNLINK Pass Fail UP LINK Pa
209. B Code Power dBm 3GPMKPOW 3GPMKPOWABS dBm 0 0 0 96 rms Demod Data Uplink 15100000 3GPDEMOD 3GPDEMOD 1 0 Character 0000 3GPTAU sec Chip 3GPTAUCHIP chip Carrier Frequency Error Hz 3GPCFER Frequency Error 3GPCFERPPM ppm I Q Origin Offset 3GPIQOFS 000 Bo Magnitude Error 3GPMAG rms Phase Error 3GPPHSE deg rms Error Vector Magnitude 3GPMOD rms Peak Magnitude Error 3GPPKPHSE deg Peak Error Vector Magnitude 3GPPKMOD Slot 3GPSLOT 00 Peak Code Domain Error 3GPPKCDE 000000 Demod 0000000000 00000000 4 51 R3267 0 0 O0 0 6 000000000000 4 2 4 52 Code Domain Power Marker Marker Position 4 12 TRANSIENT 0 0 000000000 000 00000000 7 I Phase Code Power dB I Phase Code Power dBm 3GPMKPOW 3GPMKPOWABS dB
210. CCDFTRGDLY D Meas Length 3GPCCDFMLEN 3GPCCDFMLEN 10000 100000000 Trace Write ON OFF 3GPCCDFTRC ON 3GPCCDFTRC OFF 3GPCCDF SI 9326708 0 0 O 62 4 12 TRANSIENT 4 2 GPIB I 00 3GPCCDF 41 42 43 44 45 46 47 48 dl Peak Factor d2 Average Power d3 10 d4 1 d5 0 1 d6 0 01 d7 0 001 d8 0 0001 Marker Position 3GPCCDFMK 000 Destribution Power 3GPCCDFMK dl d2 d1 Destribution d2 Power Auto Level Set AUTOLVL Parameter Setup Scrambling Code No PCPICHSCN PCPICHSCNHEX PCPICHSCN PCPICHSCNHEX 00 2621420 1600 3FFFE Search Mode Primary CPICH SCH LONG PCPICHSRCHMD PCPICH PCPICHSRCHMD SCHLONG PCPICHSRCHMD 1 Primary CPICH 2 SCH LONG Meas Frame PCPICHMSFRM PCPICHMSFRM at 40 Average Times PCPICHAVG PCPICHAVG orm 20 320 0000 Power 00000000000 51 0000 PCPICHPWAVG dl d2 41 P CPICH Power Average dBm d2 P CPICH Power Average W 4 63 R3267 0 OPT62 3GPP 0 0 00
211. CH23SF D D 0 4 8 16 32 64 8 256 512 Ch23 Number 3GPCH23NUM 3GPCH23NUM 0 511 Ch24 SF 3GPCH2ASF 245 4 8 16 32 64 8 256 512 Ch24 Number 3GPCH24NUM 3GPCH24NUM 0 0 511 Ch25 SF 3GPCH25SF 3GPCH25SF 4 8 16 32 64 8 256 512 Ch25 Number 3GPCH25NUM 3GPCH25NUM 511 Ch26 SF 3GPCH26SF 3GPCH26SF 0 0 0 4 8 16 32 64 8 256 512 Ch26 Number 3GPCH26NUM 3GPCH26NUM 0 511 Ch27 SF 267 6 4 12 TRANSIENT 0 4 2 GPIB 00 275 3GPCH27SF 4 8 16 32 64 128 256 512 Ch27 Number 3GPCH27NUM 3GPCH27NUM 0 511 Ch28 SF 285 3GPCH28SF 4 8 16 32 64 8 256 512 Ch28 Number 3GPCH28NUM 3GPCH28NUM 0 0 511 Ch29 SF 3GPCH29SF 3GPCH29SF 4 8 16 32 64 8 256 512 Ch29 Number 3GPCH29NUM 3GPCH29NUM 0 511 Ch30 SF Ch30 Number 3GPCH30SF 3GPCH30NUM 3GPCH30SF 3GPCH30NUM 4 8 16 32 64 8 256 512 0 0 510 Ch31 SF 3GPCH3ISF 3GPCH3ISF 0 0 4 8 16 32 64 8 256 512 Ch31 Number 3GPCH3INUM 3GPCH31N
212. DTMRFACT DTMRFACT 00 Set to STD DTMSETSTD 0000 Due to Modulation DTMMEAS 00000 00 51 R3267 0 0 0 OPT62 1 10 lation 0000 Due to Modulation 4 12 TRANSIENT 4 2 GPIB 000000000 E 1 1 00 0 DTMMEAS 00000000 n lt CR LF gt d1 lt gt dn jn lt CR LF gt 000000 dn Power jn 0 FAIL 1 PASS 1 Judement Ref Power DTMREFPWR 000 Inband Spurious 1 Auto Level Set SPRAUTOLVL Template Template ON OFF SPRTMPL ON SPRTMPL OFF SPRTMPL Template Shift Shift X Shift Y SPRTMPLSX SPRTMPLSY SPRTMPLSX SPRTMPLS Y Margin delta X SPRTMPLDX SPRTMPLDX 0 Copy STD SPRTMPLCP 00000 SPRTMPLED f1 11 f D 1 000 dBm W dBuV Init Table SPRTMPLCLR Marker Edit Copy from STD SPRMKRCP 00000 SPRMKRED dl f1 f2 11 41 0 Peak 1 Integral fl Start f2 Stop 1 00000000 Init Table SPRMKRCLR HC cC cr
213. E 2 Test Model 1 DPCH 16Code 3 Test Model 1 DPCH 32Code 4 Test Model 1 64Code 5 Test Model 2 6 Test Model 3 DPCH 16Code 7 Test Model DPCH 32Code Meas Channel SF 3GPDNMCHSF 3GPDNMCHSF 0 0 0 4 8 16 32 64 128 256 512 Channel 3GPDNMCHNO 3GPDNMCHNO 9 510 Meas Slots 3GPDNMSLOT 3GPDNMSLOT 1 30 Meas Start Position 3GPDNMSTFRM 3GPDNMSTFRM Threshold 3GPDNTHRSH 3GPDNTHRSH 0 639 C40 5dB Phase Inverse NORMAL INVERSE NORM 3GPDNPHASE 0 NORMAL 1 INVERSE Uplink 1Slot 00 0 Meas Mode PRECISE CONCISE Scrambling Code No 3GPUPMEASMD PREC 3GPUPMEASMD CONC 3GPUPSCNO 3GPUPSCNOHEX 3GPUPMEASMD 3GPUPSCNO 3GPUPSCNOHEX 0 PRECISE 1 CONCISE D D 0 16777215 1600005 Trigger Mode INT EXT R3267 0 0 0 OPT62 4 12 TRANSIENT 4 2 GPIB 0000 00 00 00000000 EXT Trigger Slope T 3GPUPTRGSLP RISE 3GPUPTRGSLP FALL 3GPUPTRGSLP 0 1 EXT Trigger Delay 3GPUPTRGDLY 3GPUPTRGDLY C5120 00 38400 00 DPCCH SF 3GPDPCCHSF 3GPDPCCHSF 4 8 16 32 64 128 25
214. H SCH LONG Primary CPICH Primary CPICH SF Primary CPICH No Active CH Detection AUTO USER TABLE Analysis Rate ACTIVE ACT N 7 5ksps l5ksps 30ksps 60ksps 120ksps 240ksps 480ksps 960ksps Meas Unit Meas Start Position Threshold Phase Inverse NORMAL INVERSE Frequency Error NORMAL PRECISE Transmit Timing ON OFF 4 Scrambling Code DEFINE UNDEFINE Scrambling Code Trigger Mode INT EXT EXT SFN EXT Trigger Slope EXT Trigger Delay Search Mode SCH SCH LONG Primary CPICH Primary CPICH SF Primary CPICH Active CH Detection AUTO USER TABLE Meas Channel SF Meas Channel No Meas Slots Meas Start Position Threshold Phase Inverse NORMAL INVERSE 000000 32670000 6 000000000000 00000000 c UPLINK SLOT d UPLINK FRAME r Meas Mode PRECISE CONCISE Scrambling Code No Trigger Mode INT EXT EXT Trigger Slope EXT Trigger Delay DPCCH SF DPCCH Analysis Rate 15ksps 30ksps 60ksps 120ksps 240ksps A80ksps 960ksps Meas Unit Meas Start Position Threshold Phase Inverse NORMAL INVERSE Frequency Error NORMAL PRECISE Scrambling Code No Trigger Mode EXT Trigger Slope EXT Trigger Dela
215. IL 1 PASS 1 Judement 267 OPT62 3SGPP 3 ON OFF Ratio 4 12 TRANSIENT 0 4 2 GPIB D 00000000 L 00000000 Auto Level OORAUTOLVL Trigger Setup Trigger Source FREERUN OORTRGSRC FREE OORTRGSRC 0 FREERUN VIDEO OORTRGSRC VIDEO 1 VIDEO IF OORTRGSRC IF 2 IF EXT OORTRGSRC EXT 3 EXT Trigger Slope OORTRGSLP RISE OORTRGSLP 0 OORTRGSLP FALL 1 Trigger Level OORTRGLVL OORTRGLVL D 0 0 1000 Trigger Position OORTRGPOS OORTRGPOS 1000 Delay Time OORTRGDT OORTRGDT Window Setup Window ON OORWDO ON OORWDO 0 O0FF OFF OORWDO OFF Position OORWONPOS OORWON POS ON Width OORWONWID OORWONWID OFF Position OORWOFPOS OORWOFPOS OFF Width OORWOFWID OORWOFWID Y Scale OORDIV 10 OORDIV 0 10dB div SdB div OORDIV P5DB 1 5dB div 2dB div OORDIV P2DB 2 2dB div 4 19 R3267 0 0 00 6 000000000000 4 2 1 4 20 Average Times OORAVGCNT OORAVG 4 12 TRANSIENT 00000000 0 00000000 1 2 999 Li 1 2 999 Averag
216. M 4 39 R3267 0 0 00 6 000000000000 4 2 4 40 X Scale CODE TIME 4 12 TRANSIENT 0 000000000 3GPXSCL CODE 3GPXSCL TIME 000 3GPXSCL 00000000 View Point Code Time 3GPVWPT 3GPVWPT D Page 3GPPAGE 3GPPAGE 00 Graphics Display Start 3GPDSPST 3GPDSPST 00 Select Constellation Constellation Line Constellation Dot Constellation Line amp Chip Line amp Symbol I EYE Diagram Q EYE Diagram I Q EYE Diagram E V M vs Chip Symbol Mag Error vs Chip Symbol Phase Error vs Chip Symbol SCH Power 3GPGTYP CON 3GPGTYP CONLIN 3GPGTYP CONDOT 3GPGTYP CONLIN DOT 3GPGTYP ICHEYE 3GPGTYP QCHEYE 3GPGTYP 3GPGTYP EVM 3GPGTYP MAGERR 3GPGTYP PHAERR 3GPGTYP SCHPWR 3GPGTYP 0 Constellation 1 Constellation Line 2 Constellation Dot 3 Constellation Line amp Chip Line amp Symbol 4 I EYE Diagram 5 Q EYE Diagram 6 EYE Diagram 7 E V M vs Chip Symbol 8 Mag Error vs Chip Symbol 9 Phase Error vs Chip Symbol 10 SCH Power 45deg Turn ON OFF 3GPTURN ON 3GPTURN OFF 3GPTURN Demod Data Save 3GPDEMODSV Parameter Setup Downlink 1 Slot 0 Meas Mode PRECISE CONCISE 3GPDNMEASMD PREC 3GPDNMEASMD CONC 3GPDNMEASMD 0 PRECISE 1 CONCISE
217. MPLSX TDPTMPLSY 00 000 Template Template UP LOW TDPTMPLSEL UP TDPTMPLSEL LOW TDPTMPLSEL 0 UP Template 00000 t1 H DD 0 dBm W dBu VO Init Table TDPTMPLCLR Parameter Setup Detector Normal Posi Nega Sample TDPDET NRM TDPDET POS TDPDET NEG TDPDET SMP Average Mode POWER 0000000 TDPDET 0 Normal 1 Posi 2 Nega 3 Sample 4 17 R3267 0 0 0 O0 62 4 2 GPIB T Domain Power 4 18 Display Unit dBm w 4 12 TRANSIENT 0 0000000 TDPUNIT DBM TDPUNIT W TDPUNIT DBUV 0 000 0000 TDPUNIT Template Couple to Power ON OFF TDPTMPLPW ON TDPTMPLPW OFF TDPTMPLPW 0 OFF Template Limit TDPTMPLBTM TDPTMPLBTM dBm W dBu VI Judement ON OFF TDPJDG ON TDPJDG OFF TDPJDG 0 OFF Upper Limit TDPJDGUP TDPJDGUP Lower Limit TDPJDGLOW TDPJDGLOW Set toSTD 0000 Power TDPSETSTD WAVEFM TDPMEAS SI JUD T Domain Power TDPMEAS 11 J1 1 000 dBm W dBuV 00 O FA
218. Mode Primary CPICH SF Primary CPICH No Active CH Detection Meas Channel SF Meas Channel No Meas Slots 3 68 0000000000000000000 0 000000000000 0 000000000000 0 000000000000000 5120 0 38400 00 E HH HH 0 0 0 0 000 0 0 00000000 SCH SCHI D D UB BBUUgumuluteul SCH LONG SCHHDDuuuuduuulutelutl Search Mode SCH 0000000000 000000000000000 000 Primary CPICH Primary 0000 Trigger INTO Primary CPICHI 1 0000000060 Trigger LJ 1 B 00000 1000 0 0 0 0 0 Primary 0 000000000 Primary CPICHI 000 0 D D 0000 0 00 000 0 000 000004 42000000000 Primary 00000 00 0 00 0 0 00000000000000 AUTO 0 0000000000000000 000
219. N HH DUO HELD U 4 13 R3267 0 0 O0 0 6 000000000000 4 2 00000 4 I2TRANSIENT 0 000000000 000 MODTYP 00000000 SLOT FRAME MEASMD SLOT MEASMD FRAME MEASMD 0 SLOT 1 FRAME LINK UPLI NK DOWNLINK LINK UP LINK DOWN 0 UPLINK 1 DOWNLINK Offset Level RO 000 00000000 00000000 0000000000 FINPMD FREQ FINPMD CHL FINPMD 000000 1 Channel 0 0000000 CH 00 00000000 00 0000000 10 UPLINK 20 UPLINK 30 UPLINK 10 DOWNLINK DOWNLINK 0 0 0 0 0 0 0 4 14 30 DOWNLINK J CHEDUPI CHEDUP2 CHEDDNI CHEDDN CHEDDNG 2 CHEDDNI CHEDDN2 CHEDDN3 chl ch2 f1 f2 chof chl ch2 f1 f2 chof chl ch2 f1 f2 chof chl ch2 f1 f2 chof chl ch2 f1 f2 chof chl ch2 f1 f2 chof chl Start channel ch2 Stop channel no f1 Base freqency Hz f2 Channel space Hz chof Channel Offset
220. NUMERIC GRAPH TABLE 1 Display SINGLE DUAL YScale p POWER dB POWER dBmy E V M X Scale Lp Time Code Page 000 Page hs usd 3 UPLINK FRAME 0 0 gt Q EYE Diagram 2 E V M vs Symbol Xe e 1 Meas Branch 0 2 Meas Branch 0000 bD DOWNLINK UPLINK SLOT 0 0 Y 000 00 Constellation Constellation Line Constellation Dot Constellation Line amp Chip Diagram Q EYE Diagram Diagram vs Chip Mag Error vs Chip Phase Error vs Chip c DOWNLINK FRAME Constellation Line Constellation Dot Constellation Line amp Symbol Diagram 1 EYE Diagram EYE Diagram vs Symbol 1 Mag Error vs Symbol Phase Error vs Symbol SCH Power imr sz 36 26 ____ gt Multi Channel SF Number Rate 00000 B C wu m um EL esum d 3 19 R3267 0 0 0 0 6 000000000000 00000000 000000 4 F eae bDDOWNLINK FRAME J r 0000 3 20 MeasMode PRECISECONCISE Peak ON OFF Scrambling Code DEFINE UNDEFINE Scrambling Code No Trigger Mode SEN EXT Trigger Slope EXT Trigger Delay Search Mode SC
221. OT DOWNLINK Heas Hode i Pash 36PP Scrambling Code Def ine cu Scrambling Code Ser Trigger Mode z EXT Trigger Slope Display EXT Trigger Delay Search Hode Primary CPICH SF 15 ksps 9 Point Active CH Detection Y finalysis Rate 7 15 Graphics tnr Heas Unit Table Heas Start Position Threshold Parameter Phase Inverse Setup Frequency Error 7 Average Transmit Timing MOM or 3 24 Parameter Setup SLOT DOWNLINK 1 0 0 D LH 0000 0000000000000000000000000 000000 PRECISE 00000000 CONCISE eii gguuuetttutretEtrmgoer Vector Magnitude Peak Code Domain Error O 00000 Meas Mode CONCISET Peak Code Domain Error 000000000000 Peak Code Domain Error 0 0 0 OFF Peak Co
222. P 3 Sample 1 4 26 Average Mode Detector Posi O MAX Detector Posi O TRACE AVG 00 00000 9326708 0 0 O 62 00000 4 12 TRANSIENT 0 0 4 2 GPIB D E 000000000 000 00000000 OBW Judgment ON OBWJDG ON OBWJDG 0 OFF OFF OBWJDG OFF Upper Limit OBWJDGUP OBWJDGUP 100 Lower Limit OBWJDGLOW OBWJDGLOW Set STD OBWSETSTD 0000 5 000000 51 000 000 OBWMEAS 2 1 00 f2 Lower 000 f3 Higher 000 11 0 0 0 FAIL 1 PASS 1 Judgment OFF Due to Auto Level Set DTSAUTOLVL Transient Template Template ON DTSTMPL ON DTSTMPL 0 OFF OFF DTSTMPL OFF 1 ON Template Shift Shift X DTSTMPLSX DTSTMPLSX 000 Shift Y DTSTMPLSY DTSTMPLSY 0800 Margin delta X DTSTMPLDX DTSTMPLDX 0 00000 DTSTMPLED 1 000 dBm W dBuV Init Table DTSTMPLCLR 4 27 R3267 0 0 0 0 000000000000 4 2 Due to Transient 1 Average Mode Detector Posi O0 O MAX Detector Posi O 0 O 0 TRACE AVG 00 4 28 Marker Edit Copy from STD DTSMKRCP 4 12 TRANSIENT 0 0
223. PCHITNUM 4 48 3GPCHITSE 4 48 SGPCHISNUM 4 48 asus Sis 4 48 4 48 3GPCHIOSE icta deren 4 48 3GPCHINUM 4 46 uu sus 4 46 SGPCHO2ONUM 4 48 u sasana aaa aa 4 48 4 48 3GPCBOTSE 4 48 22 4 48 3GPCHD2SF uu sam anan naa 4 48 SGPCHO23NUM 4 48 4 48 2025055 4 48 3GPCBOASE asa 4 48 25 4 48 4 48 4 48 3GPCHO2OSE 4 48 us aaa 4 49 SGPCHO2TSE u Sauna aa aus a 4 49 28 4 49 4 1 R3267 0 0 0 0 6 000000000000 4 4 00000000 4 49 3GPDNRATE 4 42 SGPCHO29NUM 4 49 3GPDNRATE 4 42 3GPCHO29SE 4 49 4 41 4 43 4 46 3GPDNSCNOHEX 4 41 4 43 2
224. RGSRC VIDEO TRGSRC IF TDPTRGSRC IF TRGSRC EXT TDPTRGSRC EXT TRGSRC TDPTRGSRC 0 FREERUN 1 VIDEO 2 IF 3 EXT Trigger Slope TRGSLP RISE RISE TRGSLP FALL TDPTRGSLP FALL TRGSLP TDPTRGSLP Trigger Level TRGLVL TDPTRGLVL TRGLVL TDPTRGLVL D 0 1000 Trigger Position TRGPOS TDPTRGPOS TRGPOS TDPTRGPOS 0 1000 Delay Time TRGDT TDPTRGDT TRGDT TDPTRGDT Window Setup Window ON OFF TDPWDO ON TDPWDO OFF TDPWDO Window Position TDPWPOS TDPWPOS Window Width TDPWWID TDPWWID Y Scale 1OdB div 5dB div 2dB div TDPDIV P10DB TDPDIV P5DB TDPDIV P2DB TDPDIV 0 10dB div 1 5dB div 2 2dB div 1 Average Times 267 OPT62 3SGPP 3 4 2 4 12 TRANSIENT TDPAVGCNT TDPAVG 000000000 1 00 00 000 TDPAVGCNT TDPAVG 00000000 1 OFF 2 999 1 OFF 2 999 Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC TDPAVGMD TRACE TDPAVGMD MAX TDPAVGMD POWER TDPAVGMD NUMERIC TDPAVGMD 0 Trace Avg 1 Max Hold 2 Power Avg 3 Numeric Template Template ON TDPTMPL ON TDPTMPL OFF TDPTMPL Template Shift Shift X Shift Y TDPTMPLSX TDPTMPLSY TDPT
225. Result Ref Power Display Unit Judgment Integral Start Offset Stop Offset START amp STOP SPAN NORMAL POSI NEGA SAMPLE Delta MARKER RELATIVE ABS POWER REF MARKER MODULATION dBm w Template Couple to Power ON OFF Template Limit ON OFF Band Conversion ON OFF Average Mode POWER AVG 3 17 R3267 0 0 0 0 6 000000000000 00000000 TRANSIENT F Domain Outband Spurious Auto Level Set Table No 1 2 3 Load Table Table Edit Average Times ON OFF Config 3 18 Copy from STD Table No 1 2 3 Load Table Save Table Insert Line Delete Line Table Init Parameter Setup Set to Default gt Detector NORMAL POSI NEGA SAMPLE Peak MKR Y Delta Display Unit dBm w dBuV Judgment OFF Preselector 1 6G 3 66 Average Mode TRACE AVG MAX HOLD POWER AVG TRANSIENT Modulation 3GPP Lr Auto Level Set Display Type View Point Graphics User Table Parameter Setup gt Average Times ON OFF R3267 0 00 0 6 000000000000 32 Display Start Select Type 45deg Turn Demod Data Save L Test Model 1 DPCH 16 code Test Model 1 DPCH 32 code Test Model 1 DPCH 64 code Test Model 2 Test Model 3 DPCH 16 code Test Model 3 DPCH 32 code Table Edit Forma
226. Setup Scale Max L 32670000 6 0000000000000 Scale Range iPower Unit RELATIVE ABS POWER L Scale Setup Display GRAPH TABLE Y Scale Upper Root Nyquist ON OFF Trigger Mode INT IF EXT Trigger Slope Trigger Level Trigger Delay Meas Length Graph Plot Type AVERAGE PEAK PEAK Transient Section for AVG Power ON OFF Template 1 Template 2 X Scale Range Trigger Mode Trigger Slope Trigger Delay Meas Length Meas Mode PRECISE CONCISE EE Power Unit RELATIVE ABS 00000000 3 23 R3267 0 0 0 0 6 000000000000 00000000 TRANSIEN Modulation v Power Auto Level Set Parameter Setup Scrambling Code No 7 Average Times Search Mode SCH LONG Primary CPICH Meas Frame TRANSIENT Modulation Time amp FFT Auto Level Set Select Type p Time amp FFT Parameter Setup 10 Time amp Average Times Time amp FFT Ich amp Qch Time Trigger Source FREE Trigger Slope Trigger Level 1 Trigger Delay 3 24 32670000
227. Slope Set EXT Trigger Delay m DPCCH SF 15 ksps A DPCCH Ho 9 Meas Channel SF ksps Vie Meas Channel No Point Meas Branch 4 Y Meas Slots Meas Start Position SR Threshold z Lt Phase Inverse 2 15 Parameter Setup FRAME UPLINK D D D WU U HH UU 12 crambling Code No 1 10000 8 0000000 100000000 13 0000 100 00000 100000000000000 Trigger Mode EXT 000 0 14 00 JO O O EXT Trigger Slope 000 0 00000 000000000000000 0 0 15 EXT Trigger Delay 0 0 Hz ENTR 100000000 90000000 L2 000 IDU 16 000000 DPCCH 256 0 000000000 0 Hz ENTR 256 17 0000000 DPCCH No 0 000000 HzENTR 1 D D 900000000 18
228. TGTTRG VIDEO 1 VIDEO IF TGTTRG IF 2 IF EXT TGTTRG EXT 3 EXT Trigger Slope E TGTTRGSLP FALL 0 t TGTTRGSLP RISE 1 Trigger Level TGTTRGLVL TGTTRGLVL 0 1000 Trigger Position TGTTRGPOS TGTTRGPOS 0 1000 Delay Time TGTTRGDT TGTTRGDT Gate Source Trigger TGTSRC TGTSRC O Trigger Ext Gate TGTSRC EXT Gate Position TGTPOS TGTPOS Gate Width TGTWID TGTWID Detector Normal TGTDET NRM TGTDET 0 Normal Posi TGTDET POS 2 Nega Sample TGTDET SMP 3 Sample Gated Sweep ON OFF ON TGTSWP OFF TGTSWP 0 OFF OFF TGTSWP ON 1 00 Window Setup Window ON OFF 267 OPT62 3SGPP 3 FDPWDO FDPWDO OFF 4 12 TRANSIENT 4 2 GPIB 000000 L1 00 00 FDPWDO 00000000 Window Position FDPWPOS FDPWPOS 000 Window Width FDPWWID FDPWWID 000 Scale 10dB div 5dB div 2dB div FDPDIV P10DB FDPDIV P5DB FDPDIV P2DB FDPDIV 0 10dB div 1 5dB div 2 2dB div Average Times FDPAVGCNT FDPAVG FDPAVGCNT FDPAVG 00 1 OFF 2 999 1 0FF 2 999 Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC FDPAVGMD TRACE FDPAVGMD MAX FDPAVGMD POWER FDPAVGMD NUMERIC FDPAVGMD 0 Trace Av
229. TYP 4 55 SPR2AVGMD POWER 4 36 5 nane E RUE 4 56 SPR2CONNV OFF eee 4 37 4 56 SPR2CONNV 4 37 OFF eee 4 56 SPR2DET NEG 4 36 QPLMJDG 4 56 SPR2DET 2 2 2 2404222 4 36 J l 4 56 SPR2DET POS eee 4 36 4 56 SPR2ZDET SMP 4 36 4 57 SPR2FRMD CFSP 4 36 OPMKDEG 4 57 SPR2FRMD STSP 4 36 2 422 4 57 u u s 4 37 4 57 SPR2JDG 4 36 ten 4 57 SPR2JDG 4 36 4 56 5 4 37 4 55 SPR2MKRCLR 4 36 4 56 2 4 36 NE 4 56 5 4 36 nni coerente nets 4 55 SPRZOESSPD ettet reete 4 37 4 55 SPR2ZOESST ean 4 37 OPS 4 56 4
230. UM 0 0 511 Average Times 3GPAVG 3GPAVG 1 OFF 2 32 00000000000 0000 0 Downlink 15110 000 0000 3GPTAU Chip 3GPTAUCHIP Carrier Frequency Error Hz Carrier Frequency Error ppm 3GPCFER 3GPCFERPPM Origin Offset 3GPIQOFS Magnitude Error 3GPMAG Phase Error 3GPPHSE Error Vector Magnitude 3GPMOD Peak Magnitude Error 3GPPKMAG Peak Phase Error 3GPPKPHSE Peak Error Vector Magnitude 3GPPKMOD 4 49 R3267 0 0 O0 0 6 000000000000 4 2 4 50 Slot 4 12 TRANSIENT 0 0 000000000 000 3GPSLOT 00000000 Scrambling Code 3GPSCCD Scrambling Code Group No 3GPSCGRP SCH Power 3GPSCHPWR dB Power Ratio P SCH S SCH 3GPPRATIO dB Peak Code Domain Error dB Code Domain Power Marker Marker Position 3GPMK Code Time Analysis Rate ACTIVE Code 0 000000 0000 1 2 0 000000 Code Power dB dB Code Po
231. annel 7 0 000000000000000000000 000 Primary CPICH Primary 0 0000000000 Ch 00000000000 000000000000 1 0 Multi Channel 0 0 EL 0 00000040 0 0000000000000000000 0000000000 100000000 Channel Setting 5 28 6 15 Chib ree ma m es gero 111 Ll I i ws T E ceo 10 d 1E DPCH 16 Test Model3 1 ch 1101 ea 5 ch 3 23 3GPP User Channel Meas Mode SLOT FRAME LINK DOWNLINK UPLINK 1 L1 0 0 0 Meas Mode SLOT LINK DOWNLINK 0 0 0 0 UD utut Meas Mode FRAMED LINK DOWNLINK 0000 b 0000000 8324670000 OPTe2 3GPP 1 1 B1 DEO CE CI CE GI CE UI C U I 3 3 4 Modulation Meas SLOTOLINK O 0 000 000 000000 Meas FRAME LINK UPLINK 0000 400 0000000 Meas Mode 5 DOWNLINK 0 0 Parameter Setup SL
232. ation Line amp Chip IEYE Diagram 0000 EYE Diagram 0000 100 Diagram 10000 1000000 E V M vs Chip Error vs Chip 000000 Phase Error vs Chip 00000 Graphic of Analysis Constellation Constellation L ine Constellation Dot Constellation L ine amp Symbol I EYE Diagram Q EYE Diagram EYE Diagram E V H vs Symbol Mag Error vs Symbol Phase Error vs Symbol SCH Power 3 22 Graph Type of Analysis 100000000 Constellation 0100000 0 Constellation Line 000000 Constellation Dot Constellation Line amp S 000 45deg Demod Data Save User Table Test Model 1 DPCH 16 code Test Model 1 DPCH 32 code Test Model 1 DPCH 64 code Test Model 2 Test Model3 DPCH 16 code Test Model 3 DPCH 32 code 32670000 6
233. cs SS 5 SS User Table Meas Mode SLOT Link Code Domain Power T Level Slot Set z Display Type View Point Graphics User Table 5 Parameter 2 pil L3 Meas Mode Link jmi 2 Parameter Setup 0 0 0 Parameter Setup SLOT DOWNLINK Meas Unit UPLINK 0 00 DOWNLINK 10000 64 256 0 O O 0000 256 2 19 R3267 0 0 00 62 0 000000000000 23 2 20
234. de Domain Error EL L L L Scrambling Code Define 1000000000000000000000000 00000000000000000000 100000000 DEFINE 0000000000000000 0000 832670000 6 000000000000 3 3 4 Modulation 3 64 Scrambling Code Trigger Mode EXT Trigger Slope EXT Trigger Delay Search Mode Primary CPICH SF UNDEFINE E L3 rr L3 LJ ES L3 L3 Lr E E pum crm pcm 1 ELE 1 mL m EE SHIFT 1 SHIFT 2 SHIFT 3 SHIFT 4 SHIFT 5 fg LIEN o 2 d m gt T cc 4 000 000 000 00 E Ej Et L3 2 SCH SCH SCH LONG SCH Searc Primary CPICH Primary 00
235. e Mode TRACE AVG MAX HOLD POWER AVG NUMERIC OORAVGMD TRACE OORAVGMD MAX OORAVGMD POWER OORAVGMD NUMERIC OORAVGMD 0 Trace Avg 1 Max Hold 2 Power Avg 3 Numeric Parameter Setup Detector Normal Posi Nega Sample OORDET NRM OORDET POS OORDET NEG OORDET SMP OORDET 0 Normal 1 2 Nega 3 Sample Display Unit dBm w OORUNIT DBM OORUNIT W OORUNIT DBUV OORUNIT Judgment ON OFF OORJDG ON OORJDG OFF OORJDG Upper Limit OORJDGUP OORJDGUP Set to STD OORSETSTD 0000 ON OFF OORMEAS 0000000 0000 51 Average 0000 ON OFF 9326708 0 0 O 62 4 12 TRANSIENT 4 2 GPIB 000000 00000 00 OORMEAS 00000000 11 12 d1 j1 0 12 0FF 1 dBm W dBu VO 1 ON OFF Ratio 0 480 jt D D 0 FAIL 1 PASS 1 Judgment 0 Auto Level Set Trigger Setup Trigger Source FREERUN TDSAUTOLVL TDSTRGSRC FREE TRSPMD FREE TDSTRGSRC IF TRSPMD TDSTRGSRC EXT TRSPMD EXT TDSTRGSRC TRSPMD O FREERUN 2 IF 3 EXT Trigger Slope TDSTRGSLP RISE TRSPSLP RISE TDSTRGSLP FALL TRSPSLP FALL TDSTRGSLP
236. e Setup sess 3 23 3 81 3 85 Template UP LOW 3 8 3 29 STD Setup 3 7 3 25 Test Model 1 DPCH 16 code 3 19 3 86 Test Model 1 DPCH 32 code 3 19 Stop cose eerta 3 17 3 54 Test Model 1 DPCH 64 code 3 19 Symbol Rate 1 3 13 3 15 Test Model 2 3 19 3 43 3 48 Test Model 3 DPCH 16 code 3 19 Test Model 3 DPCH 32 code 3 19 T Threshold esee 3 20 3 21 3 66 3 69 Table Edit npe 3 10 3 18 3 72 3 74 3 19 3 35 5 3 55 3 60 Time aaa 3 19 3 59 Table fille onec Eon t eit 240 3 13 3 14 udi Trace Write ON OFF 3 23 3 83 3 16 3 17 dr Transmit Timing 3 20 3 66 3 18 3 30 3 11 3 14 3 35 3 42 3 38 3 45 3 46 3 49 Trigger Delay 3 23 3 24 3 50 3 52 3 80 3 83 3 53 3 55 3 85 Table 1 2 3 3 10 3 18 s Trigger Level 3 8 3 0 3 35 3 55 3 10 3 11 T Domain 3 7 3 28 3 14 3 22 T Domain 0 000000000 Poem 3 23 3 24 FUR ER Ce re occ 5 1 1 _ 3 29 3 32 Template 3 8 3 13 3 34 3 38 3 14 3 16 3 45 3 77
237. el 1 E Meas Branch 4 ON Meas Slots 5 Graphics Meas Start Posit SS Threshold Phase Inverse o Em 3 30 Parameter Setup FRAME UPLINK I LU U 0 0000 00000000000001000000000 00000001600000000000 00000 SHIFT 0 SHIFT 1 SHIFT 2 SHIFT 3 E SHIFT 4 F SHIFT 5 0000000000000000000 INT 000000000000000 EXT 000000000000000 00000000000000000000 10000000000000000 10000000000000000 110000080 0 000000060 00 5120 0 38400 00 00000000000 DPCCHO 00000000000000000 0004 25000000000 000000000 000000000000000000000 0000 R3267 0 0 0 0 62 UU 3 3 4 Modulation Channel 0 0000000000000000000 0000000000000 0000 00000000 L 00000000 Q 900000000 Slots 0000000000000000000000000 00000000000 00 10000000000000000000 0 00000000000000000000000 00001 30000000 4d 10000 10000
238. evel Set L L L L 0000000000000000 13 SINGLE 1 1 L L 00000000000000000000000000000 20 2d dB 3E i amp 2 5 P pU 0 012 0 0015 0 00012 tick 238 CCDF 0 000 Peak Factor 00000000 Average Power 0000 10 000 10 000000 1 100 1 000000 0 1 000 01 000000 0 01 000 0 01 000000 0 001 0 001 000000 10 000190 0 0000 00000 14 Trace 0000000000 15 SINGLE 1 1 L L LI 00000000000000000000000000000000 100000000 2 36 R3267 0 OPT62 00 000000 2 6 x CCDF 10 k sample 1 2 CCDF futo Level Set 1 0 2 Scale ied Parameter Setup 1e 4 1 6 20 14 8 2 4 10 Power dB CCDF Power Data Peak Factor 3 60 dB Power 0 00 dB 10 18 ix 2 7 dB 0 17 3 2 dB 0 012 0 0017 0 00012 2 39 CCDF Trace Write ON 2 37 R3267 0 0 O0 0 6 000000000000 2 7 Primary CPICH 2 7 Primary 0000000000000 Primary 0000000000 0000
239. f1 f2 11 41 0 Peak 1 Integral fl Start 00 f2 0 0 00000000 Init Table SPR2MKRCLR L3 L3 L3 C3 C3 C3 L3 CJ L3 L3 L3 L3 C3 L3 C3 c C ccc L3 L3 L3 L3 L3 Average Times SPR2AVGCNT SPR2AVG SPR2AVGCNT SPR2AVG 1 0FF 2 999 1 0FF 2 999 Average Mode POWER AVG SPR2AVGMD POWER SPR2AVGMD Power Avg Parameter Setup Detector Normal Posi Nega Sample SPR2DET SPR2DET POS SPR2DET NEG SPR2DET SMP SPR2DET Display Unit dBm w SPR2UNIT SPR2UNIT W SPR2UNIT DBUV SPR2UNIT Template Couple to Power ON OFF SPR2TMPLPW ON SPR2TMPLPW OFF SPR2TMPLPW 1 ON Template Limit SPR2TMPLBTM SPR2TMPLBTM 000 dBm W dBuV Judgment ON OFF SPR2JDG ON SPR2JDG OFF SPR2JDG Freq Setting CFSP STSP SPR2FRMD CFSP SPR2FRMD STSP SPR2FRMD 0 Center Span 0 1 Start Stop 0 9326708 0 0 O 62 00000 4 12 TRANSIENT 0 0 4 2 GPIB D E Inband Spurious 2 00000000 00000000 Result ABS SPR2RES ABS SPR2RES 0 Absolute
240. g 1 Max Hold 2 Power Avg 3 Numeric Parameter Setup Detector Normal Posi Nega Sample FDPDET NRM FDPDET POS FDPDET NEG FDPDET SMP FDPDET 0 Normal 1 2 Nega 3 Sample Display Unit dBm w dBuV FDPUNIT DBM FDPUNITW FDPUNIT DBUV FDPUNIT Judgment ON FDPJDG ON FDPJDG OFF Average Mode POWER AVG 0000000 FDPJDG 4 25 R3267 0 0 O0 0 6 000000000000 4 2 4 12 TRANSIENT 000000000 0 00000000 F Domain Upper Limit FDPJDGUP FDPJDGUP 1000 Power dBm W dBu VO Lower Limit FDPJDGLOW FDPJDGLOW n 00 dBm W dBu VO Set to STD FDPSETSTD 0000 F Domain Power FDPMEAS 0000000 51 0000 0000 F Domain Power FDPMEAS 141 1 000 dBm W dBAV 00 55 1 Judement OBW Auto Level Set OBWAUTOLVL OBWPER 0000 5 99 50 Average Times OBWAVGCNT OBWAVGCNT 1 2 999 OBWAVG OBWAVG 1 2 999 1 Average Mode TRACE AVG OBWAVGMD TRACE OBWAVGMD 0 Trace Avg MAX HOLD OBWAVGMD MAX 1 Max Hold POWER AVG OBWAVGMD POWER 2 Power Avg NUMERIC OBWAVGMD NUMERIC 3 Numeric Parameter Setup Detector Normal OBWDET NRM OBWDET 0 Normal Posi OBWDET POS 1 OBWDET 2 Nega Sample OBWDET SM
241. it Average Mode TRACE AVG MAX HOLD POWER AVG NUMERIC e ee me gu 4 3 9 R3267 0 0 0 0 6 000000000000 3 20000 0000 TRANSIENT T Domain Spurious 3 10 Auto Level Set Trigger Setup Table No 1 2 3 Load Table Table Edit gt Average Times ON OFF Config 5 Table No 1 2 3 Load Table Save Table Insert Line Delete Line Table Init Parameter Setup LSet to Default gt Trigger Source FREE RUN I Trigger Level I Trigger Position IDelay Time gt Detector NORMAL POSI NEGA Result PEAK RMS Peak MKR Y Delta Multiplier Display dBm w Judgment ON Preselector 1 66 3 66 Average MAX HOLD POWER AVG TRANSIENT F Domain Power Auto Level Set Window Setup Y Scale dB div 10 5 2 Average Times ON OFF Config Gate Setup p R3267 0 0 0 0 6 0000000000000 00000000 Trigger Setup Gate Source T Trigger Gate Setup Gated Sweep ON OFF Detector Ext Gate Set to STD Gate Position Gate Width Window ON OFF Set to STD Window Position Window Width Parameter Setup Set to STD p Trigger Source FREE RUN 1 VIDEO
242. lation Inband Spurious 000000000 0000 TRANSIENT 000000000000000000000000000000000000 000000000000000000000020000000000000000 0 00000000000000 5 2 1 Marker Edit 1110 TRANSIENT Due to Transient Due to Modulation Inband Spurious 00000 Marker Edt Marker Edit 000000 0000000000 000 0000000000000000000000 1 Due to Transient Due to Modulation O O Marker 0 000000000000000000000000 00000 0000 0 200 00000 0 0 200 2 0000 0 2 00 0000 2000 00000 0000000000000 0000 Normal 0 Integral 30 0 000000000000 0 000000000000 000 000000000 NvousrT 00000000000000000000000000 00000000000000000000 Config Parameter setup D Integral 00000 EXE E REF 10 0 dBm MKR 2 399800 GHz 10 dB Write Posi 275 69 dBm MKR Edit CENTER 2 400000 GHz SPAH 1 000 MHz RBW 10 kHz VBW 10 kHz SWwP 20 ns ATT 20 dB ACP Due to Modula
243. ot Nyquist ON OFF QPRNYQ ON QPRNYQ OFF QPRNYQ Meas Range QPMRNG QPMRNG 00 00 4 55 R3267 0 0 0 O0 62 4 2 GPIB 4 56 Trigger Mode IF 4 12 TRANSIENT 0 0 00000000 QPTRG INT QPTRG EXT QPTRG IF 0000000 EXT Trigger Slope QPTRGSLP RISE QPTRGSLP FALL QPTRGSLP 0 1 Trigger Level QPTRGLVL QPTRGLVL 0 100 EXT Trigger Delay QPTRGDLY QPTRGDLY 5120 000 5120 000 Average Times QPAVG QPAVG 2 32 Limit Setup Judgment ON OFF QPLMJDG ON QPLMJDG OFF QPLMJDG 0 Limit p QPLMRHO QPLMRHO 00 0 0001 1 0000 0000 QPSK 00000000 0000 Total Result p QPRHO p Carrier Frequency Error QPFER 000 z Carrier Feedthrough QPIQOFS 000 dBo Magnitude Error QPMAG rms Phase Error QPPHSE degree rms Error Vector Magnitude QPMOD rms 0000 QPJDG 0 FAIL 1 55 932670 00 0 6 4 2 GPIB 00 00 1
244. pl Templ Edit B Template z Copy from 50 0 Hz ENTER 800 000000 MHz HHz VBW 10 MHz SWP 700 ATT 30 dB Template Edit uem Ho 1 Level 1 1 40 00 dBm 2 3 000 40 00 dBm P Delete 3 3 000 ns 3 00 4 585 900 us 3 00 5 585 900 40 00 z 1 000000 40 00 Init 520 000000000 Template Couple to Power Shift X Y 0 HH HH E 000000 1000 10000000000000000000000000000000 5 000000 100 FEF 17 3 dBm HO dB 4 Write Snpl Tenplate T E Shift X E Shift Y 4 SS Tenplate Edit ENTER 800 000000 3 MHz VBW 10 HHz SWP 700 SPAM 0 Hz ATT 30 dB Power 0 2 REV Link lt lt Window Conditions gt gt Posi 669 Width 666 Power 1 64 dBm Judge 5 3 Shift Y R3267 0 0 0 6 3 0 5 1 2
245. r Setup 1 EL E BH D E U UI Ul NORMAL POSI NEGA SAMPLE 00000 00000000 100000000000000000 0000000 L1 10000 L3 3 6G Gr La 2 02 Average Times OND 000000000000 1000 000001 00000 000 1000000000 8000000000000 0000000 T T T 8324670000 OPTe2 3GPP 1 1 Bl DEO DE CI CE OI CE UI CEU OI 3 3 4 Modulation 3 3 4 Modulation 0000000000000 3 341 3GPP 00000
246. rimary CPICH Ho Point Active CH Detection E Y Meas Channel SF 30 ksps Meas Channel Meas Slots User Meas Start Position Threshold 3 Parameter Phase Inverse Setup 7 Average 2 8 Parameter Setup FRAME DOWNLINK Hl D 00 U 12 Scrambling Code Define DEFINE 100000 0000000000000 UD 13 0000 Scrambling Code 0 Hz ENTR 1000000000000 900000000 14 0 00 Trigger Mode INT 0000 BzENTRO O 00000 0 0000000000000000000 15 Search 0 0 0 4 000000 5 16 Primary SF 25600000 Hz ENTR J 000 Primary 0 2560000 15 kspsD 17 0000000 Primary CPICH 0 000000 8z NTR 0 000 Primary 0 000000 000000000 18 L3 Active CH Detection Auto 0 Hz ENTR 000 0 0 0000000000000000 2 8 20 21 22 23 24 25 26 27 32670 00 0 6 0000000000000 Meas Channel SF 128 1 0 L LI LI L 21000 0000000 00000000000 12800000
247. ss Fail 6 12 R3267 OPT62 3GPP 000000 6 4 64 0 3264 67 73 62 Pass Fail 6 13 32670000 6 0000000000000 7 0000 DD 100000 7 0000 000 3rd Generation Partnership Project 3GPP Technical Specification TS 25 101 V3 6 0 25 104 V3 6 0 25 211 V3 6 0 25 213 3 5 0 0000 0 0 000000 30 MHz 3 0 GHz 30 dBm 30 dBm AUTO 100 40 dBm 30 dBm MNL 1000 lt H l 000000 30 Hz QPSK 0 0000000 10 20 3GPP 1 gt 0 0 PRECISFRH 0000
248. stellation Dot 0 0000000000000 000 Constellation Line amp Chip 00000 IEYE Diagram 000000000000 EYE Diagram 0000000000000 Diagram E V M vs Chip 00000000000000 0 0000000 Error vs Chip 0 0000000000000 Phase Error vs Chip 0 0000000000000 00000 0 0000000000 Parameter Setup Root Hyquist e 256chip Trigger Level EXT Trigger Delay 0 000 chip 0000 3 33 5 Measurement parameter set IDU Root Nyquist Trigger Mode EXT Trigger Slope Trigger Level EXT Trigger Delay Average Times ON OFF Limit Setup Judgment Limit p R32 670 00 0 62 3 3 4 Modulation 000000 00 000 000 0 0000000
249. t CR LF lt gt 10000 4 65 83267 0 0 0 62 4 2 414000 000000600 00000000000 1000 1000 1000 1000 00000000 1 OPR 1000000 100000000000 100 1000000000000000 4 66 5 1 R3267 62 5 1 Template Edit 00000 0
250. tion Marker Table ence TEE JNYQUIST Band Width 50 000 kHz 051818 Offset MKR Type No Offset Freq 1 Band Width 1 Limit 200 000 kHz 50 000 kHz 45 00 dB v Tabl Init 5 6 Marker Edit 1 E z 5 8 c BON 2 InbandSurious 0 O O Marker Edit 0 0000000000000000000000000000000000003 10 MHz 0000 3 00000 0 0 10 2 0000000000 3 2 10 000000000000 20000000000 0 0 00000000000000 5 4 5 2 Due to Transient Due to Modulation Inband Spurious R32e7 0 0 0 OPT62 SGPP r1 B D D U LU D REF 0 0 dBm HKR 866 03 MHz 10 dB Write Posi 8 06 dBm Edit Copy from STD STDP 898 00 MHz Insert BTART 864 00 gt MRBW 100 kHz 300 kHz 20 ms 10 dB Line Inband nnd Search Table Reference Band Width 1 Start pue ce Stop Freq 1 Delete Line Sort Table Init 1000 5 8 Peak
251. to Level Set 1100 0 00000000000000 29 SINGLE I J JU 0 000000000000000000000000000 36PP Total Result 2 Waveform Quality Factor Am 2 939978 36PP Time Alignment Error B Carrier Frequency Error PRECISE 8 2 2 0002 1 4 Uffset Hagnitude Error 1 21 Phase Error Point Error Vector Magnitude 5 0 SS Peak Magni tude Error 4 48 Graphics Peak Phase Error Peak Error Vector Hagnitude 4 65 SS Slot Code EEEEEECI Scrambling Code Group Ho Parameter SCH Power EEEE Setup Power Ratio P SCH S SCH 2 03 7 Average Peak Code Domain Error 56 28 1 0 25 000000 p Waveform Quality Factor 2500000 Time Alignment Error 0000 us chip Trigger Mode INT LH B HH B E H E HE D E Time Alignment Error 0000000 Carrier Frequency Error 100000000 Hz ppm I Q Origin Offset 90000000 Magnitude Error 0000 rms 1000 deg rms Error Vector Magnitude 1000 96 rms Peak Magnitude Error 90 Peak Phase Error Peak Error Vector Magnitude 96 Slot 0 000000 Scrambling Code 100000000000 Scrambling Code Group No 00000000000000 2 5
252. to Level Set Trigger Setup Window Setup gt Window ON OFF Template Y Scale dB div 10 5 2 Average Times ON OFF 3 8 Config Setto STD Window Position Window Width L y Template ON OFF Shift X Shift Y Template Edit Template UP LOW Insert Line Delete Line Sort Table Parameter Setup Setto STD Trigger Source FREE RUN VIDEO IF Slope I Trigger Level Trigger Position IDelay Time gt Detector NORMAL POSI NEGA SAMPLE Display dBm w Template Couple Power Template Limit Judgment Upper Limit 1 Lower Limit Average Mode TRACE AVG MAX HOLD POWER AVG TRANSIENT ON OFF Ratio Auto Level Set 32670 0 0 0 6 0000000000000 3 200000000 Trigger Setup Y Scale dB div 10 5 2 Average Times ON OFF Config 1 Window Setup p Window ON OFF Setto STD ON Position ON Width OFF Position OFF Width gt Trigger Source FREE RUN VIDEO I Slope I Trigger Level I Trigger Position Delay Time Parameter Setup Setto STD Detector NORMAL POSI NEGA SAMPLE Display Unit dBm w Judgment OFF Upper Lim
253. u ua ceto ttes 4 38 FDSUNIT DBM eee 4 38 FDSUNIT DBUV 4 38 FDSUNIT W eet 4 38 FINPMD entente 4 14 FINPMD FREQ eee 4 14 GPHICHIP 4 54 4 58 gum 4 54 4 58 sapaqa 4 54 4 58 GPHX 4 54 4 58 4 5 R3267 0 0 0 0 6 000000000000 O S 4 54 4 58 4 64 EUR 4 10 M 4 64 INPUT ttn 4 15 INPUT RE usun teo eterne 4 15 P u sus 4 12 4 64 am 4 65 LINK DOWN eer 4 14 UNR UP esent eret 4 14 4 64 MEASMD 4 14 MEASMD 4 14 udi RIDE RIEGO 4 12 4 12 a a anus ws 4 12 qaa dosa saq 4 12 MRD u 4 12 M 4 12 4 12 4 12 su Susu suu una uy su 4 12 4 14 4 64 4 64 MM 4 64
254. urce TTL 9 RETURN Modulation Power P CPICH Power Parameter Setup Parameter Setup 0 0 10000000000000 Parameter Setup Scrambling Code 00000 0 Search Mode SCH LDH6 Primary CPICH Meas Frame 2 43 Parameter Setup L L1 000 0 0 0 LH 10 00 Scrambling Code 0 000000 000000 000000000 um Search Mode 8 Hz ENTR 11 00 SCH 10000000000 Meas Frame 1 Hz ENTR 1 0 00000000000 IDU L3 a 13 Parameter Setup 0 0000000000000 14 Auto Level Set 00000000 00000 0 00000000 2 100000 2 40 R3267 OPT62 SGPP 1 0 100000 2 7 Primary
255. urious 0000000000000000 0000000000000000 0 0 0 Marker 000000 RELATIVE 0 0 000000000000000 ABSPOWER 00000000000 0 00000000000000000 Power Resulf 00000000000 MARKER Marker Edit Ref 0 0 0000000 MODULATION Modulation Tx ED EB EB D DU 0000000000 Display dBm W dBuV 0000000000000 Result RELATIVE 0000000000 00000 Template Couple Power 0000000 0 00000000000 0 00000000 Template Limit Template Couple to 1 B cd B Ul D UD U D 0 0 00000000000 000000000 000000000 Judgment Marker Edi 000000000000000000 000000000000000 2 0000000 08000000 000000000 Symbol Rate 0000 Rolloff Factor 00 3 43 R3267 0
256. wer dBm 3GPMKPOWABS dBm rms Toffset 3GPMKTING chip Toffset x256 chip 3GPMKTX256 x256 chip t 3GPMKTAU sec Phase 3GPMKPHSE deg Transmit Timing 00000 000000 Downlink Frame 0 0 0 0000 3GPTAU sec Chip 3GPTAUCHIP chip Carrier Frequency Error Hz Carrier Frequency Error ppm 3GPCFER 3GPCFERPPM Hz Origin Offset 3GPIQOFS dBo Magnitude Error rms 3GPPHSE deg rms Error Vector Magnitude 3GPMOD rms Peak Magnitude Error 3GPPKMAG 3GPPKPHSE deg Peak Error Vector Magnitude 3GPPKMOD R3267 OPT62 3SGPP 3 L1 L1 Slot 4 12 TRANSIENT 0 0 4 2 GPIB 00 3GPSLOT Scrambling Code No 3GPSCCD Scrambling Code Group No 3GPSCGRP Power Ratio P SCH S SCH 3GPPRATIO dB Average Ch Power 3GPAVGCHPWR dBm Code Domain Power Marker Marker Position 3GPMK Stet Slot No 3GPMKCODE Code Power d
257. y DPCCH SF DPCCH Meas Channel SF Meas Channel No Meas Branch Meas Slots Meas Start Position Threshold Phase Inverse NORMAL INVERSE 3 21 R3267 0 0 0 0 62 00000000 TRANSIEN Modulation QPSK I Auto Level Set Graphics gt Display Start Parameter Setup d Select Type p Constellation Average Times ON OFF Root Nyquist ON OFF Constellation Line Limit Setup Meas Range Trigger Mode INT EXT IF Trigger Slope IConstellation Dot Constellation Line amp Chip I EYE Diagram Q EYE Diagram EYE Diagram Error vs Chip Trigger Level EXT Trigger Delay I HMM 4 Phase Error vs Chip TRANSIEN v Modulation v Power Tx Power Auto Level Set Parameter Setup y Root Nyquist ON OFF Average Times ON OFF Trigger Mode EXT Trigger Slope EXT Trigger Delay 3 22 TRANSIEN v Modulation v Power v Power vs Time Auto Level Set Parameter Setup Marker Setup Template Setup TRANSIEN Y Modulation v Power v CCDF Auto Level Set Parameter Setup Trace Write ON OFF ID L Scale
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