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ボケデジアナ36 UDA-1G36S 取扱説明書

1. Di NS PC USB DC 5V Vs cue c As MTFIPF 36 PC A a IN USB e a RIVE DUM Rh
2. 13 14 15 50 C ONES AC
3. LA Viewer 7 4 av OL ey Trone HLA Viewer LA Viewer 23 PC Based psol7 4 v EBB HIPC Based DSO DSO 3 135 UDA 1G36S 6 1 l D C2 La Viewer 2 LA Viewer N
4. UDA 1G36S Pass Count Pass Count N 3 LA Viewer 4 EE CRM Gn RENE ris Tigh Check trig ok camel HI2C Trigger Setting 12C LA Viewer 5 4Ch 3Ah 30h 6 J a 4Ch an Fe liz hen lig hen
5. Pass Count Pass Count NN 3 LA Viewer 4 Clear all setting 2 2 6 5 Pulse Width Trigger or Pattern Width Trigger LA Viewer Trigger Trigger Setting Trigger Settmg 3 Width rie i NONIS TEUER Simple Trigger If Then If Then Width Edge Pattern or Combin
6. Customize Toolbar 7 Channel Item Frequency CHG CH Up Counter hd CHS CHIS Random data d E r4 CH16 CH23 Down Counter CH24 CH31 Random data CHS2 CH39 Random data r4 CH46 CHA Down Counter CH48 GHS5 Random data H r4 SU 22111 EH5 CHO Up Counter Cancel Default i i i UDA 1G36S 26 2 6 1 Standard Setting Dialog LA Viewer Trigger Trigger Setting Standard Setting Dialog Trigger Settmg TEM Edge Are saaaanaca Then Trigger Width Simple Trigger If Then If Then Width i Edge Pattern or Combine Trigger Sequence Trigger Pulse Width or Pattern Width Trigger THR nen m Then Trigger 4 Glitch soono oor Toole hen Fy CT
7. UDA 1G36S File Label Waveform View Device Tools Help L SES p POl oO aw R Nm Nu 8 sn 100 me CH DU Label FT Th ions M 1nnrs E 90 ns 9 1Bl xj 5 aes CH DU Label 1 100 MHz 10 MHz t 11 111 MHz C9 JL 2 Lr LA Viewer CN lock law File Label Waveform View Device Tools Help S S Em pb Poles of Ew wR RS HM Bsr 100 Mz 2 4 15 Label Field Auxiliary 2 Label Field Unda Add d Add Al Delete Unused Delete Selected Delete All Modify Name Configure Combine Arrange Decompose ent Undo Combine Labels Add Labels
8. 2 8 ns 50s runt Runt Runt Lo E fewA d amp O ooa WC LRP RO A Pattern 2 AND OR NAND NOR B Slope AH 7 C Source 7 X D Mode CE F LAuto Normal Single Shot 3 Single Shot ee UDS 1G02S 10k UDS 1G025 64M 10K 64M 107 UDA 1G36S E Delay Trigger DSO
9. Repetitive Capture Stop Capture Stop Capture Hardware F 2 x 7 4 Ge SE Trigger 4 Threshold A 4 DSO stack DSO 4 36 Virtual Waveform Generator 4
10. Pass Count Pass Count N 3 LA Viewer 4 Clear all setting UDA 1G36S 2 6 14 Disable All Triggers Disable All Triggers 3 3 1 DSO
11. USB USB COE 9 IRR CHD USB Sn TRIS 2325 SC ADN S Esa co Rill FeMZBWO TK RSW UDA 1G36S Ti AZS A USB CH1 CH2
12. Clear all setting 2 2 6 6 UART Trigger UART LA Viewer Configure Hardware FU 27 ORE 717 IY Be7 Configure Hardware 72M UART Trigger 36 UART 361 36 36 2M Configure Hardware Hardware Model Sample Rate Ext Glock Ghennel lmzzs 000 Red is active H W You may observe inactive HW Baud x 16 a nt amp 300M S00MHz S00MHz 9 256 8M Edge amp Pattern 1 Clock Bl 400M 400MHz 400MHz 18 256 4M 1 Edge amp Pattern 1 Clock 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock T UART Trigger Baud Rate x16 Baud Rate x16 Adjustable 256 Adjustable 41f Then Clauses UART Pattern 1 Clock EAIUART Trigger 36 Baud Rate x16 BaudRate
13. Beep when trigger occuring Show timing in waveform L HH Beep when buffer full 2 Shading alternate rows 1 Flick effect Wee Ask before close LA Viewer LA Viewer LA Viewer j Okto Exit from LA Viewer Cancel Always check software updates at startup http wwwr acute com tw
14. E Pico u 4G Glitch Picovu 46 Timestamp S Picnwu 2G 2 1 66 s 800M 400m 200M 9 UART Trigger J IEC Trigger 9 125 Trigger SPT Trigger External Custom Memory Depths Custom Memory Depths 2 2 PT Ae we Stee EV IGT TTA Ci aye 1 UART 72M 1 2 2 5 14 Trigger Setting Der 1 lh Simple Trigger If Then If Then Width Edge Pattern or Combine Trigger Sequence Trigger Pulse Width or Pattern Width Trigger HR hen NUN Then Trigger 4 Glitch soono OTOL Toole hen If Then Trigger oe If String Then If String Then Trigg iE pas Extra glitch detect Resolution is 5C LIART RSZ32 Custom Pattern Trig Alternative Sequence Trigger x cs SCK SHY Et
15. Every Sampling Roll Every Sampling Roll Time Div gt 200 ms Quick Log when press Ctrl L Ctrl L Quick Log Logger 2 Logger dsow log dsow QuickSave Interval Every Trigger Save Recall 113 UDA 1G36S dsow Waveform Viewer Waveform Album dsow Jog Every Sampling Import data E Export Data Export data
16. 3 Windows USB DEDE 0 CD Windows Update D Web C 0 PC ao VIbOTPRRDE Windows Update Ott il E LRA 4 PO Based USB 2 0 Interface
17. 1 Range From To Channel 2 5 4 Add Signals Signal Group Bus Interpreter 3 Tronpi Bust Interpreter Signal Signal Add a signal Add a signal Label Name Input label name and mot more than 31 characters clock Set the channel number color and type PA nr Number Color cH D white Invert Cancel 2 Label Name 31 Channel Number
18. ru EN e BIO MN OO 2 2 5 2 5 1 Save Waveform nave Waveforn N Choice a Format For the File File Mame Input a File name or press browse button Range Select a range For the File JI NII Sine Cursor Trigger End Selected Cursor E LA Viewer LA Viewer law PG Editor pgw txt 3 jaw LAW 1 0 LAW 20 LAW 201 Zip 3 ING NNW WeRO TT 9 2 ed 2 UDA 1G36S 2 5 2 Manage Project
19. e n PETE ET Ty INT TIP S36 JOBS Pe lt T 658 0032 6 9 TEL 078 843 5981 FAX 078 843 5982 http www jds co jp
20. 2 3 ZUM NEN 800MHz 400MHz 200MHz ame cho Be allie USB 5V 075W 25W USB2 0 USB1 1 4GHz 200MHz 36 72M bits 1 bits 2 5K 36 5K 36 5K 36 16M 4 5K 36 8M 9 5K 36 4M 18 2M 36 2o0ps 36 4 16 Word Channel Transition Glitch Width UART Gx rS oPl TTL 3 29 TTL 33V 6V 6V 50m V 100mV 5 Vth 40V DC 15Vpp AC 0 25Vpp 50MHz 0 5Vpp 150MHz 0 8Vpp 250MHz 200K Q 5C 45C 10C 65C lt Ins 1 2048 32 BOBS
21. L Add R Delete FY 7 eA L Add Tag R Del Tag L Add Tag R Del Tag MEASURE Item Select i Vmax L Add Vhigh R Delete L Add Tag R Del Tag Vpp Vmean Vlow Vmin Vmax Vlow Vmin Vpp x 10 vpp Vmax Vmin 112 3 5 Utility Factory netting Calibration logger Export Data TGP IP Launch A Language DSOIiX mBlsiliuxih wvoco6godzcit4 B Factory Settings 1G C Calibration 1G Calibration
22. PALA Viewer CASearch Plugin law File Label Waveform View Device Tools Help amp Qwiz2HMe Pola S or Nan R ROm im O a S R 10 MHz 92 78 saxo UU mL TL Label Chani Value Activity Trigger T gt 17 occurrence s in settting interval E 80 6 us E 2 264 ms 2 184 ms UDA 1G36S 2 5 10 Search Next Search Next B Pass Count Search Next 2 5 11 Quick search in the Report window ENCNORERE Customize Toolbar
23. 0 5ns 0 5ns 500ps PALA Viewer CAGlitch law File Label Waveform View Device Tools Help QW Ew bPq9o o NmaRRGOmumjm TAR tu 4 GHZ f g Glitch 0 C t il z gt 500 ps E 11ns 10 5ns 9 Label Chani Value Activity Trigger 4 UDA 1G36S 2 6 11 Time Stamp Time Stamp 080 0 LA Viewer Configure Hardware 1 Configure Hardware 40LZ 2 6o Vu 4G Time Stamp Pico Vu 4G Configure Hardware Hardware Model Sample Rate Ext Glock Ghennel mz 0 Red is active H W You may observe inactive H W 4 GHz lt C Mode Min SR Max SJR Available ch Min Mem
24. 1 MHz 128k 131072 1 MI 2 10MUMZ 0 129k 2 XluslUMHz 128 x 1024 x lus 131ms 512k x100ns 10MHz 128 x 1024 x 100ns 524ms 131ms 524ms LA Viewer 132 4 36 ER fE WA 1 MHz int Clk LA Viewer Untitled 3 A Re f Tu SESS le es CH 00 0 1 32 902m 32 452m 32 868m 32 4 CH 01 1 o CH 02 2 o CH 03 3 o CH 04 A o CH 05 5 o CH 06 6 o CH 07 7 o id CH 08 8 o CH 09 9 o CH 10 10 o CH 11 11 o CH 12 12 o CH 13 13 o CH 14 14 o CH 15 15 o DSO CH1 a4 DSO CH2 NEBcBI 50 us M 190 us amp 4 vs KOT 3 LA DSO Same Sample Rate LA DSO
25. IVOLIS DIV 2 2 1 102 3 3 TIME DIV 2 4 SEC DIV M 50us v 2 X 2 7 IDIV 50us SEC DIV SEC DIV 2 Eh 2 1
26. 2 2 INote UDA 1G36S 2 4 21 Z NOD BIS cue Ted Page Up Page Down eee Ctrl Page Up Ctrl Page Down Ee BIG Dy ea Bb Esc SNA o
27. 4 1 1 7 Trig oull Trig in a os 2 DSO exe Ext Single lt SerieS VOLTSIDIV 3 LA Viewer Device gt DSO Stack Settings DSO Select the DSO brand DSO UDS 52XX Test Connection l Connection UDS 1G02S 64M 4 LA Viewer File Label Waveform View Device Tools Help S FHS eel OG Run DSO Stack Settings Repetitive Run q ET CH 00 M Stop Run s Select the DSO brand CH 01 Wa mu Q9 Hardware Settings ee UDS 52xx CH 03 JU Trigger Settings CH 04 iv Threshold Settings CH 05 Glitch Filter Settings Connect P 192 168 1 CH 06 Qualified Storage Settings HIED Storage SCTUNGS1 System Horizontal Parameters CH 0
28. 2 2 4 5 View Tiew wv Toolbar wv Channel wv Value w Actwiby wv Sample Trigger Zoon k Report k Toolbar Qm Hed PSY sof wen R Rm O zs S R 20MHz Channel Label Channel Value Label Value Activity Y 77 4 EF 1 Label Activity UDA 1G36S One Level Trigger 1 Label Trigger Zoom X A 1 Label 1 2 3 4 2 3 4 Labels 2 3 4 1 Custom Label 1 Disable
29. 100MHz Configure Environment 1 1 100MHz DSO 100MHz ILA DSO Same Sample Rate 08m 10MHz 10MHz 100MHz 200MHz LA LA DSO Configure Environment LA DSO DSO 10 1 LA 10 512k 1 1 LA DSO 64k UAH
30. 8 1 2 Ne we EA ERES ae wa oe Sere ee ee Se ee ee 9 1 3 10 ee i ee ee ee ee ee 13 21 LA Viewer 13 22 15 23 LA Viewer e nn 16 24 BMEJ eee Il hehehe hehehe hehehe 17 IRE NR OR de 41 26 KRY PRE cc HIR n nn nn 62 8 W 7 O7 3 1 777 DSO VA ee O7 32 99 33 DSO ee ee ee ee LUCUS 100 34 ee a ey ke G AA IIIS I 101 3 5 BENDAR e n 102 3 6 DSO s n f n M M M RR 106 4 36 GG 121 AA ww 122 5 core e 135 6 CLEC ERS ERE EES PEERS CERES HES et WWNN WM WW ww ws 136 6 1 LA Viewer Se RA Re We WE ee es EACUS E Be ee ee eS areas Bue BS Be 136 6 2
31. Cie 4 FUT Pins Fo Volts Div 150V 2 5 10V div 02 05 1V div 1 5V 2 0 10 20 50 LOOmV div CH Probe DSO x2000 x1000 200 x100 x10 xl CH Bandwidth 20 MHz 100 MHz 109 UDA 1G36S DISPLAY Display lath Draw Type Interpolaton P ers iste nt JT D DISPLEY 5 p y m 3 m Wain FFT FFT Scale FFT Window Display 2 3 Draw Type Interpolation Sinc Persistent Math 3 3 Math A B AB B A AxB A B CH1 CH2 X Y Lissajous ds FFT
32. 10 M 50us 50uns SEC DIV 0 2 2 2 1 SEC DIV 4 RUN STOP Trigger DISPLAY CURSOR 7 7 v MEASURE ila UTILITY 42 7 4 U 7 4 SAVE RECALL ACQUIRE 7 PC DSO Acqu
33. 4 Save Recall 4 Setup hot keys Time Div Volt Div Ground Offset threshold Focus Channel Cant XJ pv 4 Setup Hot Key Setting Export data Import data 35 Press 1 9 or A F7 Hot Key Setting Save Setup Extension ATE F8 Load Setup Extension F9 Clear Setup Extension ae F7 35 1 2 9 A B Z F8 F9 117 UDA 1G36S 7 Acquire AON IR at T L km A Acquire Sample Average
34. 139 UDA 1G36S Interpreter UART RS232 Interpreter The Universal Asynchronous Receiver Transmitter UART or RS232 protocol has two message types Transmitter TX and Receiver RX you can measure the UART protocol with one signal or with two signals Add an UART signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and mot more than 31 characters Set the channel number color and type PRA mr Number Color cH D white Invert Cancel Set parameters like Label Name TX channel Number CH 0 and Color White for the TX signals and click OK Double click the mouse s left button on the UART label name TX or click the mouse s right button to select Configure the Label Setting dialog will show as below 140 A Interpreter Label sethmg Set more parameters like Protocol UART RS232 and Value Type ASC etc and click Advance then a Configure UART Interpreter dialog will show as below aa sj Cursor TriggertT cursor _Defaut_ LOK _ canc Channel Show the selected channel CHO Auto Detect Check the UART protocol of the system under test
35. 50MHz 128k131072 50MHz 100MHz 128k x20ns 50MHz 128 x 1024 x 20ns 262ms 512k x10ns 100MHz 128 x 1024 x 100ns 5 24ms 262ms 262ms LA Viewer XVAN ele a SG rm nk 5 efor ck g CH 00 0 1 611 52u 689 62u CH 01 1 0 CH 02 2 0 CH 03 3 0 CH 04 4 0 CH 05 5 0 CH 06 6 0 CH 07 7 0 ay CH 08 8 0 CH 09 9 0 CH 10 10 0 CH 11 11 0 CH 12 12 0 CH 13 13 0 CH 14 14 0 CH 15 15 0 DSO CH1 1 DSO CH2 TERTEM Tig J 1 us m 3 8 us M 800 ns 133 UDA 1G36S 4 LA DSO Same Sample Rate LA DSO
36. N 10 RUN STOP UDA 1G36S 11 UDA 1G36S HTFIPT36 UDA 1G36S 2 PC LA Viewer DSO 1 3 PC
37. 2 31 A a LS eo assis 68 Configure 4 Combine CAN 4 Arrange 4 Decompose Decompose Labels XA 2 XA 1 XA 0 2
38. Video Type MTSC PAL or SECAM 3 4 LIdentify E ER OD XE T 5 Cursor l IRE 106 3 Width Bole VD Cae AT eI Te lt lt 8 ns 50 s 5 100 ms 95105 ms Runt 2
39. 10 1 10kHz 128k 13 1 2 1 1 2 136 6 1 LA LA 2 A B L LB 137 UDA 1G36S 6 2 LA
40. D Logger Logger Logger 3 Data Logger Selection Interual ms 5000 Excluding Time out Every Trigger for Auto Normal Single Mode r Quick Log when press Ctrl L start Cancel Apply Interval Interval 10 Interval excluding time out Every Trigger Every Trigger
41. v gt Default Record OK Cancel 115 UDA 1G36S L Online Update DSO M Customize Configration DSO Channel Color Grid Mode FG setting Customize Configuration X w Export Word File mm Channel Color amp Hard Copy Setting Auto adjust printing color amp H Gird Mode Sound Effect b Measurement Method D Label Name Always check software updates at startup FG Setting mE HEIDE EH Default Expand Cance1 Apply Export Word File Channel Color Hard Copy Setting Auto adjust printing color Grid Mode 3
42. Color Invert Group Bus Group Bus Add a signal bus Add a signal bus Label Name Input label name and nat more than 31 ff m characters SPI Set the amount of channels First then set JU each channel number che MLT of Channels Group Channel List 3 pit MSE CHE jH Farameter onn Change the waveform value type and calor ca Gre Color Value Type white nex Invert Gray Code Cancel Label Name 31 of Channels F SPI 3 3 Channel Number Bitz MSE CHD aie Group Channel List Add a signal
43. 10 T T Waveform field 11 Acquire Data 2 2 4 19 Move Cursor T A A E E 6 3 1 2 3 Teel tie 2 4 20 Field Adjustment 7 4
44. 130 4 36 N 128k 16 LA Ces 512 k 2 DSO 2 LA DSO 10 1 9 100MHz 10MHz
45. 3 2 Shiftl 2 UDA 1G36S ro ita Was 3 5 PALA Viewer C Waveform Comparison law Jof xi File Label Waveform View Device Tools Help SFRBISHA edi Dola or RwWAR KS a G a S R 5MHz Channel Value 46 605 ms 57 152 ms 10 547 ms 9 FF9 M R 2 2 Testl law Test2law LA Viewer Testl1 law E E PALA Viewer CATestl law 10 547 ms U File Label Waveform View Device Tools Help lt 9 PISAS PY 2 w me amp amp ORomu s SSS R 5MHz Test1 Label Channel Value T T FT 46 641 ms BI 57 188 ms BI 2 IF8 Waveform Comparison TestlD Main Screen M Wavefoon Comparison m
46. Quick Func Sync 2 Genl Gen2 120 4 36 36 6 TRIG OUT TRIG IN Fo TRIG OUT TRIG IN MCX c P 121 UDA 1G36S 41
47. 2 2 6 4 Alternative Sequence Trigger LA Viewer Trigger Trigger Setting Trigger Setting bE EEE EE SU EE NS EEE EE pus 4 Edge Pattern Are Then If ean Then Trigger Width Simple Trigger If Then If Then Edge Pattern or Cambine Trigger Sequence Trigger Pulse Width or Pattern Width Trigger TERA IITE TON Then Trigger Nm Glitch sro orte ortibfEL To off XP Then If Then Trigger If String 1 Then If String Then Trigg Ran lt Then If Then Trigger Extra glitch detect Resolution is done GENIUS YS nm Alternative Sequence Trigger SDA iis na A Em d 1 ACK cf SICK MR C5 Ms Tim 1 Y FA nu rA WS rz m Pe pe e em e mtm E em mt 5 d ons lt M HH _ NEN MM y SDA EM mnt MM NA NEN UN UN A LC Custom Pattern Trigg I 5 Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigg Delay ENERUS xi i Standard Setting Dialog For d Trigger Disable all Triggers Edge Pattern ar Combin Trigger ge Delay Trigger Free Ru
48. Label Menu Add Signal 2 31 5 Configure Hardware 4 6 6 Trigger Setting 8 9 Configure Hardware External Timing State Switch
49. Modify 4 2 4 4 Waveform Waveforn Zoom ALL Zoom 1 1 Zoom In Zoom Ont Find Trigger Find Cursor Find Cursor B Find Cursor C Find Cursor D Find Cursor E Mom oe dn Waveform Invert search Pattern search Plugm Interpretrer search Next n To Report Comparison setting F8 start Comparison FQ Zoom ALL LA Viewer Zoom 1 1 1 1 LA Viewer 1 1 UDA 1G36S Zoom In A Y 7 Zoom Out Find Trigger T Find Trigger Find Cursor A A A Find Cursor AA AA A A Find Cursor B B B
50. 50 UI DE F Hold Off Time 8 ns 50 s mae HHHA G Reject HF Rej L F Rej Noise Rej H Launch Setting Trigger Launch Setting Select a execution file C Program Files Acute LA LA exe Enable One Time Always Browse o Cancel Launch Setting Trigger
51. bmp PGV L 123mm x W 76mm x H i21mm 1 1 3 2 1G 1ch 500M 2ch ui eom yy i 200MHz C3dB 20MHz 100MHz SB A BEBE 2 ale 20mV 100V div X10 Probe 2mV 10V div X1 Probe DC 150V 2 5 20 B T V div 15V zZ 5 DC 7n 7 amp 420Vpk X10 42Vpk X1 ADEA WEHLLU SE ATRL a eee ee ABR IR Auto Normal Single baal 2 DC LF 50kHz HF 50kHz ZU sU 0 100 64M Frequency Period Vpp Vmax Vmin Vamp Vhigh Vlow Vmean Vrms Positive overshoot Negative overshoot Pulse Width X Y A B A B B A AXxB A B FFT
52. DSO 131 UDA 1G36S 1 LA DSO Same Sample Rate LA DSO 1 MHz 128k 131072 1 MHz 1MHZ 128k xlus 1MHz F 128 x 1024 x lus 131ms 512k xlus 1MHz 128 x 1024 x lus 524ms DOS 131ms 131ms LA Viewer DSO CH1 DSO CH2 FOIE v Capture Ok 190 us 5 40 us KIT 2 LA DSO Same Sample Rate LA DSO
53. UDA 1G36S 2 4 7 Tools 7 Set Font Font Setting Font settme E Label Name UDA 5216S 2 Customize Environment Setting Environment settme HEE Language a Work Directory C Documents and Settings MinglMy Docu pm Z Background color of waveform Field p A 1 8 rid line color B Grid line shape pe EEH Grid size is 50 pixels be EB Waveforms height is 32 pixels B Unit in the Report window e bf Round tn 3 decimal places O 200 ms refresh rate Far Activity z M Enable warning message i Ira Cursor snap ka transition ue D Beep when trigger occuring ben Shaw PRA in Hau b mau Reset to default Language LA Viewer OS i ad k i Cancel Work Direc
54. I FRO PEEL AL a Jie USB DC 5V PC USB PC Zi rz 97 36 USB2 0 A E USB
55. 250 Add 4 UDA 1G36S Add All Delete the existing labels Yes No Delete Unused Delete Selected Delete Label 7 Delete Delete All Modify Name
56. LA Viewer UDA 1G36S Customize Toolbar Add gt lt Remove Available toolbar buttons Current toolbar buttons Move Up Move Down F Current toolbar buttons Customize Toolbar Available toolbar buttons only EA About LA Viewer Acquire Data go Repetitive Acquisition e Stop Acquisition Zoom In e Zoom Out 2 4 8 Help Help Contents Fl em Update Ay Web site FAQ Za About LA Viewer Contents Add gt z Remove Update Current toolbar buttons Close Reset T Add Label wizard a Virtual Target System Select Command Set Separator
57. 2 Genl Gen2 Eq FG Setting Dual Channel Single Channel ma Gent ma Gen2 CW Modu Sup Brt CW Modu Sup Brt Function JLJL Pulse Function Y Sine a DC Frequency 5000 00 Hz Frequency A Sine Phase 0 000000 Phase JUL Square Triangle Duty gt 20 000000 AA Ramp LIL Pulse Volt Setting Trig Setting QuickFunq More 118 3 Dual Channel 4 7 Single Channel Dual Channel Genl Gen2 0 2 5 V Single Channel Genl Gen2 2 5 25 V Gen1 Gen2 Function IL x Bine ExpUp ExpDown sinc AY LAT es Lorentz Gaussian White Noise i Pattern Select x Cancel CW Modu Swp
58. Pass Count Pass Count N 3 LA Viewer 4 h en hen 2 SPI Trigger Setting SP LA Viewer 5 DDh A2h 98h 6 SPI Interpreter SPI SPI Interpreter SPI 2 Label ethins Configure SPT Interpreter Channel amp Parameter Channel EN Enter a label name Mo more than 31 E x charactoer x Clock channel
59. FFT FFT Scale FFT Scale 3 Linear RMS dbV RMS dBm Rms FFT Window FFT window iX Triangular Cosine Lanczos Gaussian Rectangular Blackman Hann Hamming PLO Hari 5350 CST 110 3 3 Cursor FR5 hinode Functor Wert Unit Bring All ON ecreen MES hd Pos iB at iade Function Wert Unit Bring All On Screen Time Volt 2 A aoe Mode
60. Borys Y9 COM LPT 4 h 3 3 DSO 7 PC 2 PC Based DSO PC Based Digital Storage Oscilloscope PC Based DSO 46 36 OF ei e 100 3 3 4 7 USB PC PC USB 2 2 2 Windows PC Based DSO
61. OK Enter a label name with 31 characters or less pso cni Set the channel number color and type Number Color se zb Ew Invert es ene 3 UT Configure 129 UDA 1G36S 4 Label Setting Waveform DSO Advanced Enter a label name with 31 characters or less DSO_CH1 Set the channel number value type and color Channel Number Value Type Waveform parameter settings Invert Gray Code Display the waveforms with decode 5 DSO Stack Settings DSO Volt Div Gx1 x10 AC Coupling AC 20MHz Banfwidth Limit 20MHz Rl Channel Number Select the number of D50 channels the number is subject to the DSO model CH1 Channel parameter The x1 x10 probe setting is only available for the Acute DSO and must be consistent with the probe switch Volt Div 1v Div Y C x1 Probe 10 Probe AC Coupling 20MHz Bandwidth limit E Cancel E 2
62. T IMIDA SET X NAIOP MIZ 10MMZ Ik x1s 1MH bk 1x 10241 us 1 024ms 10k x01 s 10MH k 10 x 1024 x 0 1 us 1 024ms 1024ms 1024ms LA Viewer SI Tuc E 1 MHz Int Clk Y 9 99095 1 216u 285u 217u 0 1 2 3 4 5 6 7 8 DSO CH1 DSO CH2 al TARER T A 84 us M 224 us M 40 us CIT LA 134 5
63. LA Viewer oe 2 2 12 01 69 208 dicii Acqure Data LA1xxx is busy LAlxxx Acquire Data 1 nimi 1
64. Select Command Set LA Viewer Select Command Set J Select Command Set IVY F ty F Add Cmd Se Del Cmd Set 2 Add Cmd Del Cmd 4 PAIERA CT eda hes ae oO dggmuwoups Pi CMG eo Excel CSV Excel LA Viewer select Command set Command Set TEST Command List Up Down Name Condition Description tt uh OUT DAA TGI A Dh HOU AXP SSH Tae CPUDATA 16 3 1h HOU DATA 9S 1651 3 AN fPI Write Bus 35h amp Addr 1 HOU AX fAddr Add Cmd set Del Cmd set Add Cmd Del Cmd OK Cancel Command List
65. cD OU GEEOQ DRA EISA LTES o UDA 1G36S 9 A PG_Based USB 20 Interface MEAT SMA YA ILEJE LTOS HIP Windows XP Windows OF Windows Microsoft 6 PC Based USB 2
66. 16 Pre Trigger ZU FU Zi Pre Trigger Pass Count Pass Count N 3 LA Viewer 4 DAET Trigger Setting Trigger Channel hp rj Baud Rate 9600 C 00 07 Party E Data Bits fs c E ea pre Parity hone rigger ven Erran Stop Bits hh M IF Acute Then mm M IF Inc Then po E po Then po IF po Phen po Iv Pre Trigger Pass Count Check Trigger Sett
67. 5 6 114 UTILITY Product Information Pass Fail Hot Key ceding Online Update Customize Configurator Page select 3 MI MENT A IP 192 168 1 68 IP 192 168 1 68 xx Product Information DSO J Pass Fail amp 3 Pass File Go No Go tunnel tunnel Pass Faill
68. 5 6 7 8 Parity EVEN ODD NONE Stop Bits 125132 Auto Detect SEIRE Falling Edge Rising Edee UART Trigger UART 4 IEF Then 2 IF Then 16 10 16 Trigger Type 1 A Acute 2 10 16 3 16 A_ cute A_63h u_t 65h Check Trigger Setting
69. CH1 CH2 CH3 CH4 e O CH2 e CH1 2 VOLTS DIV VOLTS DIV 1DIV CH1 200V 1DIV 2V 16V VOLT DIV
70. Customize Threshold Settmg The threshold means when input signal over Ehe threshold is high and under the threshold is low Threshold Fi 1 Channel 0 17 user Define 0 510 V k Channel 18 35 Im lt 1 600 V oe 26 53 TTL hannel Sav TTL Customize Cancel 2 Customize Custom threshold define Add Modify Delete 1 User Define Custom threshold define Selet one you wank to modify or input a new name and set the threshold Far a new threshold item Mame Threshold ddi Modify Delete 2 5 16 Virtual Target System Virtual Target System
71. SFI Trigger Settmg Chip Select Low active High active Chip Select 1 Clack Latch Data Data Rising Edge Falling Edge Data Bits Setup Data Bits e H MSB LSB M IF DDh Then DIN BS po nen o IF a Then po BS po nen po Iv Pre Trigger Pass Count o0 Check Trigger Setting Cancel wr Jue BU IL supe Channel Setup CHI 2 9 Chip Select gp Clock Latch Daln WM 0 Pay VC Data Bits Setup 8 1 160 MSB MSB gt LSB LSB MSB LSB LSB gt MSB Ne um SPI Trigger SPL 4 IF Then 2 IF Then 16
72. Windows 7 OS 7 DSO DSO 2 CD ROM CD ROM 3 T E CD ROM UDS 1G36S X Setup exe OK D m a O E UDA 1G36S Setup exe x 8 4 Digital Storage Oscilloscope CD me U
73. IF Then Clauses Trigger E Pf xj fer jie hs x ile ri LPs nex Pe henr a ner a 98 thenat PS Thenitf Pio next Pu next Piz Then Trigger Reference Pre Trigger Pass Count om Clear All Cancel Pattern p Pi A XP i i hP 10 Pit F 125 Sample Clac CTI TELA hu ial Ld LL Trigger f Pre Trigger Pre Trigger Pass Count Pass Count Z3 A ibd N 3 LA Viewer 4 Clear all setting
74. 10 16 1 A Acute 2 10 16 3 16 A_ cute A_63h_u t 65h 2 Check Trigger Setting 16 Pre Trigger Pre Trigger
75. Trigger sethmg E 9 iet s Simple Trigger If Then If Then Width Edge Pattern or Combine Trig Sequence Trigger Pulse Width or Pattern Width Trig 1 E HillilE Zee Then If Then Trigger Then If If String Then If String Then Trigg UARTIAS232 Custom Pattern oA AF then Then aay Alternative Sequence Trigger Ee ee EEE y mm mem toc n E SCK ZW in pum m m 3 Wire SPI Custom Pattern Trigg Sou ioi ace REIN NIU E mq um ww m I C Custom Pattern Trigge Delay ENSEM Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern or Combin Trigger ge Delay Trigger Free Run Mode Cancel Don t show this dialog when just only one selection in this mode 2 Detail Setting Glitch Trigger Setting Note 0 0 Ghich Trigger setting Connect to Channel O lt 0 5 C ns Cancel 0 5 8 25 ns 0 25ns OKI
76. 2 2 2 7 PC Windows 2 USB PC Windows 7 QU Ue SV e Windows XP 3 Windows USB 1 0 CD Windows Update D Web C 0 I TH a Windows Update Ott ADRES E AT
77. Configure Hardware Hardware Model Sample Rate Ext Glock Ghennel mz 00 Red is active H W You may observe inactive H W 200 MHz ez Picovu 2G 2GHz 2GHz 36 256 5K Edge amp Pattern 1 Clock s 1 6G 1 6GHz 1 6GHz 4 256 16M 1 Edge amp Pattern 1 Clock s 300M S00MHz S00MHz 9 256 8M 1 Edge amp Pattern 1 Clock s 400M 4 00MHz 400MHz2 18 256 4M 1 Edge amp Pattern 1 Clock 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock J UART Trigger Baud Rate x16 BaudRatex16 Adjustable 256 Adjustable 41f Then Clauses UART Pattern 1 Clock I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock 9 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock X SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses SPI Pattern 1 Clock BJ SPI Trigger 36 1Hz 200MHz Adjustable 256 4 If Then Clauses SPI Pattern 1 Clock SPI Trigger 18 1Hz 200MHz Adjustable 256 4M 4If Then Clauses SPI Pattern 1 Clock SPI Trigger 12 1Hz 200MHz Adjustable 256 6M 4If Then Clauses SPI Pattern 1 Clock SPI Trigger 9 1Hz 200MHz Adjustable 256 8M 4If Then Clauses SPI Pattern 1 Clock SPI Trigger 6 1Hz 200MHz Adjustable 256 12M 4If Then Clauses SPI Pattern 1 Clock SPI Trigger 4 1Hz 200MHz Adjustable 256 18M 4If Then Clauses SPI Pattern 1 Clock External External External Adjustable 256
78. PC 8 1 1 2 UDA 1G36S s 4 MMMMMMMMMMeM eeSe s 40 x 36 x 4 x AO 250MHz 12m 1x 10x 2 o 2 f et gt 1 LDP 51 50MHz 700V ADAPTER03 x 2 03mm x 2 254mm GND x 2 0 3mm 8 CLIP 0 3 8BK CLIP 0 3 8RD SDK SDK 1100 UDA 1G36S 1 3 1 3 1 PC
79. 2 5 7 Arrange Labels Arrange Labels Group Label Mame PI Source Destination LSB i gt 2 z MSB Cancel Source fE Source Destination Destination Source 2 Destination LSB MSB 2 5 8 Search Pattern Search Pattern 2Y search Patter Select a label and value then press Add but
80. 3 Utility INote HE REF SLY 4 Calibration 5 101 UDA 1G36S 3 5 CH1 CH2 r oi e uo m O a N m z o 000000 FORCE TRIGGER L SET LEVEL TO 50 e ae kn NIC f HARDCOPY Bring Al On Screen Ld TRIGGER Ld DISPLAY LJ CURSOR L i MEASURE Ld gt o m e 5 c m x O m E 1 CHL CH2 CH6 6
81. II2C Trigger 12C ana Trigger Settmg we G0 Git va Simple Trigger If Then If Then Width Edge Pattern or Combine Trig Sequence Trigger Pulse Width or Pattern Width Trig hen T Chen Triggr TFA hen if Chen Trigger OF Then I Then Trigger Alternative Sequence Trigger lsrijoaftleo tla e illilE If 5frinn1 Then If Stringa Then Trigg UARTIAS232 Custom Pattern ah Ua E Pau TAS E SCK AM wm c cus SDA QC OC OCOCO Pe Custom Pattern Trigger 3 Wire SPI Custom Pattern Trigg Delay ees Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern or Combin Trigger d pe Delay Trigger Free Run Mode Cancel Don t show this dialog when just only one selection in this mode 2 Detail Setting I2C Trigger Setting 12C I2C Trigger setting Channel Setup v Pre Trigger SCK fo SDA 1 Pass Count L MIF 4ch FTen N Ss IF tern fo IF o tern Check Trig ox Cancel 6 KN SDA 2
82. d Sort 2 2 4 16 Activity Auxiliary Instant status Instant freq i CHO Instant status Instant freq in CH X F 1 2 4 17 Simple Trigger Auxiliary Simple Trigger 2 m ajo 1 ee 2 Trigger a 1 1 1 Oe NA CN 00 ee gt C
83. Fit each channel F DSO Trigger Position Acute DSO Stack Delay DSO DSO 128 4 36 LA Viewer DSO 2 DCreate Bus signal Wizard L Create Bus signal Wizard sl 2 SAm bP Pols 2 or Een R KR Sw w a G S R 20 2 8 LA Channels and 2 DSO Channels OK 2 l Label Add Signal 2 Add A Signal DSO_CH1
84. Time Div Volt Div Word Rxeek F Import Data Import data Word Excel MO NO Oe G TCP IP DSO TCP IP DSO TCP x IP P gl EE 0 0 0 Pel E A U
85. Trigger Sethmg Width d mar ne 7 Simple Trigger If Then If Then Width Edge Pattern or Cambine Trigger Sequence Trigger Pulse Width or Patkern Width Trigger Tf 4Then If Roof ofr ilo otlo El Tf 4Then If f Then If Alternative Sequence Trigger If String 1 Then If String Then Trigg UARTIASS32 Custom Pattern ah mV LL LA LL MU ET N ES i 0 Scie ao eae LJ 1 AIT sa XO OOO IE Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigge Delay ar Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern ar Combin Trigger ge Teg Eee Free Run Mode Don t show this dialog when just only one selection in this made Cancel Simple Trigger Detail Setting Trigger Setting Label Mode B Triseer Setting Label Mode On listview control right click or double click item tn modify the value Label Name channel value 8 Bits Bus OF JH 1 Bit Bus 8 T CH 09 q x CH 10 10 X CH 11 11 x CH 12 12 X CH 13 13 X CH 14 14 X CH 15 15 X CH 16 16 X CH 17 17 X CH 18 18 X CH 19 19 x CH 20 20 X CH 21 1 x CH 22 22 X CH 23 23 X CH 24 24 y CH
86. Single capture lt series LANDS x o Y SOuUrce Mode m 4 m t n 4 o HARDCOPY TRIGGER T DISPLAY CURSOR i MEASURE 1 UTILITY 1 SAVE RECALL D o o z m w 3 LA Viewer Device gt DSO Stack Settings DSO Select the DSO brand DSO UDS 52XX Test Connection Connection UDS 1G02S 64M ES LA Viewer el File Label Waveform View Device Tools Help 13 di HITS r G PHS AR OG Run DSO Stack Settings bg Repetitive Run q aan uch CH 00 v il 3 Stop Run E Select the DSO brand CH 01 Ga ane Hardware Settings Me UDS 52xx CH 03 JU Trigger Settings CH 04 flv Threshold Settings CH 05 Glitch Filter Settings Connect 192 168 CH 06 Pn Tae err e Qualified Storage Settings System Horizontal Parameters CH 07 DSO Stack Settings Vertical parameter settings for each DSO s channel is in the signal settings dialog box a Virtual Waveform Generato DSO_CH1 Connection UDS 1G02S 64M
87. UDA 1G36S Color Value Type HEX 16 DEC10 3 OCT 8 BIN 2 ASC ASCII 2s comp 2 Invert Gray Code Interpreter Interpreter Add a plugin signal 77 A d d arn luem signal Label Mame m Input label name and not more than 31 ff m characters SPI F Set the waveform color ces IU mr E white Parameter Select an existing plugin interpreter and press the advance button to set more parameters ser Advance Display plugin with waveform DK Cancel JU Laer a ens Label Name 31 Color Displ
88. 7 SET LEVEL TO 50 50 Set level to 50 DSO Vpp HARDCOPY Hard Copy Uulity Export Preview 9 Autoset Vtde qutd igiene edidi AUTOSET DSO a VOLTS DIV SEC DIV TRIGGER 1 omo AUTOSET Mn CH1 AU
89. DSO Stack Settings 9 eee Select the DSO Select the DSO brand nnection T USB TCP IP C Auto Connect IP 192 ass 1 53 System Horizontal Parameters i Settings by DSO ls Connection Emulation 100000000 Hz Default DSO Brand Name DSO Connect Fo DSO Stack Settings 9 jets 100000000 Hz Sampling Type Maximum DSO 127 UDA 1G36S Manual DSO LA x 1 DOER Oost 0 2 Ss LA x 10 650 7 10M Edit DSO Waveform Height Fit all channel DSO DSO_CH1 50V DSO_CH2 25V DSO_CH1 DSO_CH2 2
90. Main Screen Temp 1 Temp 3 Temp 5 Reference Temp 2 Temp 4 Temp amp sage tips 1 The M waveform is Ehe waveform currently on Ehe main screen by default 2 The R Reference waveform is used For comparison by Ehe M waveform 3 Any waveform includinn M or Ri can be moved by dragging it 4 Hold down the Shift key to drag Ehe M and R waveforms together under comparison 5 Hold down the Ctrl Kev bo drag the R waveform only under comparison 6 Fa is the hotkey to skart Ehe waveform comparison Cancel Dep D pug SS X9 Wavefoon Comparison ie Screen Temp 1 Temp 3 Temp 5 Reference Temp 2 Temp 4 Temp amp sage tips 1 The M waveform is Ehe waveform currently nn Ehe main screen by default 2 The R Reference waveform is used For comparison by Ehe M waveform 3 Any waveform including M or Ri can be moved by dragging it 4 Hold down the Shift key to drag Ehe M and R waveforms together under comparison 5 Hold down the Ctrl Kev bo drag the R waveform only under comparison 6 Fa is the hotkey to skart Ehe waveform comparison Cancel Start LA Viewer 2 Test2law LA Viewer Test1 Test2
91. Normal Transmit Normal Receive Network Transmit E E E Ving Vigne E m idle C9 H idle po eae ee Network Receive po unknown isso BI Be D9 unknown 9B unknown unknown unknown d i t i i i Network Receive Merge Continuous Unknown unknown unknown 175 UDA 1G36S Microwire Interpreter The Microwire protocol has four kinds of signals Chip Select CS Serial Clock SK Data Input DI and Data Output DO Add a Microwire signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and not more than 31 characters Set the channel number color and type canr Mumber Color cH D white Invert Cancel Set parameters like Label Name CS channel Number CH 0 and Color White for the serial clock and click OK Set SK and DI DO in the same way Combine the three labels CS SK and DI DO to form a Microwire bus and input a new label name Microwire Then double click the mouse s left button on the label name Microwire or click the mouse s right button to select Configure the Label Setting dialog will show as below Label Sethmg Enter a label name No more than 31 charactoer Microwire
92. 2 Manchester IEEE802 3 A 1 is expressed by a low to high transition a 0 by high to low transition 3 Differential Manchester A 1 bit is indicated by making the first half of the signal equal to the last half of the previous bit s signal i e no transition at the start of the bit time A 0 bit is indicated by making the first half of the signal opposite to the last half of the previous bit s signal i e a zero bit is indicated by a transition at the beginning of the bit time In the middle of the bit time there is always a transition whether from high to low or low to high A reversed scheme is possible and no advantage is given by using either scheme Add a Decode signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 characters pecode Set the channel number color and type ces FL Number Color cH D white Invert Cancel Set parameters like Label Name Decode channel Number CH 0 and Color White for the Decode signals and click OK Then double click the mouse s left button on the label name Decode or click the mouse s right button to select Configure the Label Setting dialog will show as below cU A Interpreter vn EM J E Invert
93. Dot Line Solid Line Hide Grid Sound Effect Measuerment Method 3 smart method mean voltage threshold voltage Label Name Always check software updates at startup FG Setting FG FG RUE 116 3 6 Save Recall Save Recall Setup Hi_2010 12 15_16 21 35 dsow H2_2010 12 23_10 09 14 dsow Hi_2010 12 23_11 52 08 dsow Hi 2010 12 23 11 52 08 dsow
94. CH 00 0 CH 01 CH 02 CH 03 CH 04 CH 05 CH 06 CH 07 DSO_CH1 DSO_CH2 Label Chz Value Trigger e Capturing 51 8 5 304 ms 5 304 ms 100 ns L 125 UDA 1G36S 5 DSO Run Stop DSO LA DSO DSO MAB ES UDS series il Q9 c G FORCE TRIGGER wv wv SE 8 e TRIGGER DISPLAY VOLTSIDIV CURSOR fag Ld M SV mv MEASURE ye SEC DIV UTILITY f gt La SAVE RECALL 58 5n5 1 ACQUIRE EN 4 r x 4 LA Viewer Untitled c5 el File Label Waveform View Device Tools Help S FHS ee 660 DJ lUv1 dp 4 5 22 9 ORB Y amp s R 200 MHz g CH 00 0 CH 01 CH 02 CH 03 CH 04 CH 05 CH 06 CH 07 DSO_CH1 DSO_CH2 Che Value Activity Trigger Capture Ok 5 304 ms 5 304 ms 100 ns 126 4 36 4 1 3 DSO Stack Setting DSO DSO
95. Manage Project Project Lit Project may save some of current setting KA Please use mouse right Button to load rename delete Add Project Save current setting to a new project 3 Project Add Exit Project List BIA KF AVY a Preece Site Fe Project List 2 Load Delete Rename Properties Load Project List Delete Project List Rename U Project List Properties Add Project Exit Manage Project
96. Auto Detect Data Rate Check the protocol of the system under test automatically or set the Baud Rand and Protocol manually if the Auto Detect is not selected Channel Show the labels selected channel CH 0 Select Range for Interpreter Choose the range From To within the waveform you want to interpret the Encode signals 200 A Interpreter Decode Interpreter NRZI Non return to zero inverted Non return to zero inverted NRZI is a method of mapping a binary signal to a physical signal for transmission over some transmission media The two level NRZI signal has a transition at a clock boundary if the bit being transmitted is a logical one and does not have a transition if the bit being transmitted is a logical zero There are two mode 1 NRZI Transition occurs for a one A is represented by a transition of the physical level a 0 has no transition 2 NRZI Transition occurs for a zero A 0 is represented by a transition of the physical level a 1 has no transition Manchester In telecommunication Manchester code is a line code in which the encoding of each data bit has at least one transition and occupies the same time It is therefore self clocking which means that a clock signal can be recovered from the encoded data There are three mode 1 Manchester Thomas A 0 is expressed by a low to high transition a 1 by high to low transition 201 UDA 1G36S
97. Trigger sethmg Dt Simple Trigger If Then If Then Width Edge Pattern or Combine Trig Sequence Trigger Pulse Width or Pattern Width Trig GF Genf Then Tigger Uf trhen I Chen Trigger OF Then I Then Trigger Alternative Sequence Trigger e pul Lo p I E Mk ipo S A RA ap I C Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigg Delay ESENER i Standard Setting Dialog For Y Trigger Disable all Triggers Edge Pattern or Combin Trigger d cas Delay Trigger Free Run Mode Cancel Don t show this dialog when just only one selection in this mode UDA 1G36S Detail Setting UART Trigger Setting UART UART Trigger tetting Trigger Channel b rj Auto Detect Baud Rate 9600 cC or Parin E Data Bits fe m C ro Party SP Parity None Rigger When Ema Stop Bits ENS Iv IF Acute Then nn po Then po IF Then po IF po nen Iv Pre Trigger Pass Count na Check Trigger Setting Cancel Trigger Channel 1 Baud Rate 110 921600 bps Data Bits
98. Device im Range Le Select Range For Interpreter i i From Buffer Head To Cursor Trigger T Cancel Channel Show the label s selected channels Clock CHO and Data CH1 Transform Key Code Transform data into keyboard characters Color Set the colors for the transmitters Host Blue and Device Lime Range Choose the range From To within the waveform you want to interpret the PS 2 signals Result Click OK to run the LA Viewer and you will see the key code a in the first row the Clock waveform in the second row and the Data waveform in the third row as the result diagram below 163 UDA 1G36S Lissajous Interpreter You can generate sine wave s by the LA Viewer Demo software as the dialog below to form a Lissajous graph in two ways click the Virtual Waveform Generator in the Device window or click Virtual Target System that MUST be added from Customize Toolbar The logic analyzer is NOT connected to any PC Demo mode Demo Channel Item Frequency CHA CH7 Sine n2 CHS CHIS ISine E r4 CH16 CH 3 Down Counter m r4 CH24 CH31 Random data CHS2 CH39 Random data r4 CH46 CHA Down Counter CH48 GCHS5 Random data il ddd HS CH 3 Up Counter r4 Cancel Default i Set parameters like Item Sine Up Counter and Frequenc
99. Sample Peak Detect 2 2 Envelope Peak Detect d 9 Hi Res 1 B Roll Mode 5 KS s ihi CF o C FG Setting FG TravelScope
100. 2 5 3 Print Waveform Print waveform Cursor Trigger oe crsrE Printer Device Option Fit one paper Range Horizontal Range 1 Vertical Range Custom Size Range MAREA CER DIRE LSS E ECE S n E To UDA 1G36S Grid Size Color Gray scale Omit Ch width setting
101. Pre Trigger Pre Trigger Pass Count Pass Count N 3 LA Viewerli 4l HO FU 3 4 A 2336 Clear all setting BSCORY Ameer 7 UDA 1G36S 2 6 2 Simple Trigger LA Viewer Trigger Trigger Setting
102. Gray Code PROLIL EZ pA I FCRRLET UDA 1G36S Display plugin with waveform Advance 2 5 6 Combine Labels Combine Labels Group Label Name PI Source Destination MSB Cancel Destination Source Destmnation Destmation Source Destination LSB d MSB
103. I2C Trigger 12C 4 IF Then 2 IF Then 16 10 16 Channel Setup 1 A Acute 2 10 16 3 16 AA cule A 68h wu t 65h Check Trig 16 Pre Trigger Pre Trigger
104. Label Setting Label Name Enter a label name No more than 31 charactoer ED Command Set the channel number data type and color Channel Number Value Type D ha B or Wavefrom parameter setting Waveform Invert Gray Code Display plugin with waveform lpro Advance Cancel Set more parameters like Protocol SDIO Value Type HEX and Color White and click Advance the Configure SDIO Interpreter dialog will show as below Choose CMD radio button in Analysis and add a new bus is DAT 187 UDA 1G36S configure SDHC interpreter Channel Parameter Channel data length f 512 Bytes Setting transmitter s color Start bit i sue MS 72 Card Purple CmdiResp iS ine Content MEE 5c CRC check 7 ned Endbt TT Magenta Range oun Select range For interpreter H hH Form To Buffer Head Buffer Tail x 188 A Interpreter configure SDHC interpreter Channel Parameter Channel Analysis CLE 0 DATI E cm CMD 1 DAT2 4 2 DATS 5 DATO Mode 4 hit SD DAT 1 bit SD DAT data length 512 Bytes 1K Bytes 2K Bytes Setting transmitter s color Start bit Eiu E Fo Ls ke CUE CRC check EBBEEEEEEEEEEESU ped End bt PE nacen ee LT Fellow id CRC status D Olive Busy Tc d Select range For interpreter Form To Buffer Head Buffer Tail
105. To Match whole word only bzgl Match case A gw Pass Count Pass Count 3 LA Viewer 4 Start Search Plugin Pattern B Can not find the specified waveforml
106. D 4 LOA FIIPOREJ F PG Based Advance USB 2 0 Interface cD E cub Oust eS DRA bus DUCES UDA 1G36S 5 6 PC_Based Advance USB 2 0 Interface PC_Based Instrument C PC_Based Advance USB 2 0 Interface PG Based Advance US
107. Mode Repeat Mode gt Trig Mode Type meat 7 fea eu SAR CAA 7 LSS Log Start Freq Stop Freq Trig Info INT Interval 1000 us Mode Repeat Trig Type Linear Log stop Fred 00000 Hz Sweep 200 us Hold oo us Return 500 us 119 UDA 1G36S Brt IAA Volt Setting Voltage Setting E Voltage Setting Dock With Main Wnd Dock With Main Wnd Voltage Setting Voltage Setting Vamp Vpp 250 v Vamp Vpp 250 v Vamp Vpp 250 v Vamp Vpp 250 v Vost 1250 v Vost 1250 v Vost 1250 v Vofset oo0d v Vmax 2500 1 V Vmax 2 500 V Vmax 250 V Vmax M250 V Vmin oo V Vmin ooo V Vmin ooo V Vmin 1 250 V Trig Setting Trig Source Swp and Brt
108. T E CD ROM UDA 1G36S X Setup exe OK D m a O E UDA 1G36S Setup exe ok re ese 4 Logic Analyzerl CD 9 2 Logic Analyzer EJ Digital Storage Oscilloscope r e Programmable Data Generator E UDA 1G36S 5 Next r 39 JDS Logic Analyzer Logic Analyzer The installer will guide you through the steps required to install JDS Logic Analyzer on your computer WARNING This computer program is protected by copyright law and international treaties Unauthorized duplication or distribution of this program or any portion of it may result in severe civil or criminal penalties and will be prosecuted to the maximum extent possible under the l
109. 72M External 36 361 36 36 2M Configure Hard ware Hardware Model Sample Rate Ext Clock Channel lmzzs Red is active H W You may observe inactive HW cess I Mode Cid Minn SR Max SJR Available ch Min Mem Max Mem Trig Leves Trig Function Trig Res 300M S00MHz S00MHz 9 256 8M 1 Edge amp Pattern 1 Clock 400M 400MHz 400MHz 16 256 4M 1 Edge amp Pattern 1 Clock 9 200M 1Hz 2 MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock 1 UART Trigger Baud Rate x16 BaudRatex16 Adjustable 256 Adjustable 4 If Then Clauses UART Pattern 1 Clock J I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock J 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock L3 SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses SPI Pattern 1 Clock X3 External External External Adjustable 256 Adjustable Edge amp Pattern 2 eel ests External 256 6 Edge amp Pattern External 18 External External Adjustable 256 4M Edge amp Pattern External 12 External External Adjustable 256 6M 16 Edge amp Pattern
110. Hardware Installation http www acutecomtw c LA Viewer A B C D E Acquire Data j 138 6 6 4 pso
111. Save Recall Save Recall e Pass File Pass Fail Fail Average 20 MHz K Hot Key Setting Pass Fail detect x Source CH1 Target REF 1 Time tolerance js ns Volt tolerance w mU Pass action No action Fail action just Stop x i Cancel Hot Key Setting Morkey semne x es mo DS0 x see eee Load Setup 4 F5 Load Setup Extension Save Setup 1 Save Setup 2 Save Setup 3 Save Setup 4 Save Setup Extension Hot Key Setting C define save setup Ex Hot Key uem sew 2 Escape W T Hot Key Hot Key
112. LA Viewer Configure Hardware 7 FUL 7 ORE 713 Be7 Configure Hardware 38 2M IS Tungvser90 I2C U 361 36 36 2M Configure Hardware Hardware Model Sample Rate Ext Glock hannel lmzzs 00 Red is active H W You may observe inactive HW 200 MHz a ot Picovu 2G 2GHz 2GHz 36 256 5K Edge amp Pattern 1 Clock s 1 6G 1 6GHz 1 6GHz 4 256 16M 1 Edge amp Pattern 1 Clock s 300M S00MHz S00MHz 9 256 8M 1 Edge amp Pattern 1 Clock 400M 4 00MHz 400MHz2 18 256 4M 1 Edge amp Pattern 1 Clock 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock J UART Trigger Baud Rate x16 BaudRatex16 Adjustable 256 Adjustable 41f Then Clauses UART Pattern 1 Clock 9 I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock 9 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock 2 MIS eis 1Hz 200MHz Adjustable 256 4 If Then Clauses 125 Pattern 1 Clock 125 Trigger 18 1Hz 200MHz Adjusta
113. Trigger Trigger Launch Settng Enable One Time Always 2 One Time Cla 1 Always Always any 108 3 2 Display 7n Display hath Display 1 3 CH Display CH Coupling AC DC GND CH Invert CH Offset
114. 1 SEC DIV 23200ms Vpp Vrms TV1 ATA TV 4 TV TV 65 pso Position X 10 DC 6 MHz DC to 250MHz i5 ESUR 1 MQ 1 MQ 10 MQ 47 pF plus 17 pF oe lee 66 htto www jds co jpo OFPRA a a DIE es ey Roe ve RI 23960
115. Independent Oy Tracking Independent 2 Tracking izes Bring All On Screen Bring All On Screen giae e feo Cas Jo 3411 UDA 1G36S 4 MEASURE Frequency period Max Min High Low Vpp Vrms Mean Item Select L Add R Delete
116. Range I Fram Ta Buffer Head Buffer Tail Channel Show the selected channels D CHO and D CH1 180 A Interpreter Color Set the colors for the following packet Sync Magenta Packet ID Red Frame Number Lime CRCS CRC16 Yellow EOP Aqua Range Choose the range From To within the waveform you want to interpret the USB1 1 signals Result Click OK to run the LA Viewer and you will see the result diagram below the data in the first row the D waveform in the second row the D waveform in the third row Bee eee 181 UDA 1G36S USB2 0 Interpreter USB2 0 The USB 1 0 specification was introduced in 1994 USB was created by the core group of com panies that consisted of Intel Compaq Microsoft NS IBM NEC AT amp T and Northern Telecom The USB 2 0 specification was released in April 2000 and was standardized by the USB IF at the end of 2001 Hewlett Packard Intel Lucent now LSI Corporation since its merger with Lucent spinoff Agere Systems Microsoft NEC and Philips jointly led the initiative to develop a higher data transfer rate 480 M bps than the 1 0 specification of 12 M bps USB signals are transmitted on a twisted pair data cable with 90Q 15 impedance labeled D and D These collectively use half duplex differential signaling to combat the effects of electromagnetic noise on longer lines Add a USB2 0 signal Click Ad
117. 4 Clear all setting 2 2 6 3 Sequence Trigger LA Viewer Trigger Trigger Setting Trigger Sethmg ee eX GG zs a fom EE Sequence Trigger Pulse Width or Pattern Width Trigger Simple Trigger Edge Pattern or Combine Trigger HR ner WW Glitch Iso ore oor Toole IE If String Then If String2 Then Trigg xxi Extra glitch detect Resolution is 5C LIART RSZ32 Custom Pattern Trig Alternative Sequence Trigger SUTSR TERT x m an an Em em Ta ETA mm c 5 1 J 1 b 5 b l m lai i 1 Lic 5 F 5 CK MMC PE cee MR ac Boom am n em em iun amt sl E 1 5 Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigg f Delay cd T Standard Setting Dialog For 4 Trigger Disable all Triggers Edge Pattern ar Combin Trigger ge Delay Trigger Free Run Mode Do
118. HCD d Bins Size USB Mixed Signal bonas UNIVERSAL SERIAL BUS kt 1 p d Ll j eooMHz ch 4GHz 36ch dl JBS OL gl ge UDA 1G36S e Microsoft MS DOS Windows Windows Vista d Microsoft Corporation e IBM PC AT International Business Machines Corporation e Intel Pentium X Intel Corporation Copyright 2013 1 UDA 1G36S 4 EOSDEM 4 1i UBI rA RA H III I tn 8 1 4 UDA 1G36S
119. xxxb 2 4 12 Timing amp State Analysis Switch Timing amp State Analysis Switch 2 4 13 Thumb Track Scroll Thumb Track Scroll 2 4 14 Measure Frequency Timing or Sample Clocks 3 2 T A 3
120. 2 3 UDA 1G36S 1 Mam 2 Reference Ctrl 3 2 Shifttl 2 File Label Waveform View Device Tools Help so RISA PY gt or N wan R RS Mi S R 5MHz 3 zl gt Label Channel Value 11 46 695 ms 57 242 ms 10 547 ms 9 ill 2 2 5 13 Configure Hardware Configure Hardware Fa Hardware Model Sample Rate Ext Glock Ghannel mz 000 Red is active HIM You may observe inactive Hw E E a n Available ch a JE Picou 4G Adjus stable e 1 Clock Picovu 4G Glitch 4GHz 4GHz 36 256 2 5k 1 Glitch 1 Clock Picovu 4G Time Stamp 4GHz 4GHz 36 256 2 5K 1 Edge amp Pattern 1 Clock Picovu 2G 2GHz 2GHz 36 256 SK 1 Edge amp Pattern 1 Clock 1 66 1 6GHz 1 6GHz 4 256 16M 1 Edge amp Pattern 1 Clock s 300M 8S00MHz IMHz 9 256 8M 1 Edge amp Pattern 1 Clock s 400M 40
121. 4 Add Cmd 7 Name Fo 2 Condition 3 1 1 1 3 Description 1 videte 11277190 2 S JD T EAF du d 2 1 3 4 Sub 32 2 2 4 11 Add Command Add Command Mame mike Label 1 Bus vaule 1 35h Label 2 kd 0 value 2 liiinmmmmpm O Label 3 PO value 3 o Description owaxEaddrd Bas sub command Cancel Value 1 Value 2 Value 3 10 xxx 16 xxxh 8 xxxo 2
122. A Load Waveform Wase fr Move Down IE Save Waveform dh Print LA Viewer http www acute com twy Web Site HEAL OY m TH 4 b http wwwr acute com tw FAQ http www acute com tw About LA Viewer LA Viewer 2 2 4 9 Add Label Signal Wizard LA Viewer Add Label Signal Wizard 7 Add Label si1gnal Wizard Seleck a wizard 18 L Channels 32 L Channels 36 L Channels 64 L Channels All Channels LA Channels and 2 050 Channels CAN Bus LIN Bus UART T2t_ M E 1 ee ametime this wizard will create less channels han how many vau want because hardware imitation ar mode selection Cancel UDA 1G36S 2 4 10 Select Command Set Customize Toolbar 7
123. Invert cares Set parameters like Label Name SCK channel Number CH 0 and Color Magenta for the serial clock and click OK set both WS and SD in the same way Combine the three labels SCK WS and SD to form an I2S bus in the Label Name field and input a new name I2S Then double click the mouse s left button on the label name 12S or click the mouse s right button and select Configure the Label Setting dialog will show as below Label Sethmg Enter a label name No more than 31 j m charactoer 1 Set the channel number data type and color cri JL cos JL HIU Channel Number value Type o 4 ex Color E Magenta WaveForm Wavefrom parameter setting Or HC Gon Invert Gray Code Display plugin with waveform NE Advance Cancel 146 A Interpreter Set more parameters like Protocol 12S Value Type HEX and Color Magenta and click Advance the Configure I2S Interpreter dialog will show as below Configure 25 Interpreter Channel 5 Clock Channel Scki CHn z word Select Channel w5 CH 1 Data Channel SD Hs Data bits 16 Bits I E Color User can assign color For specific pattern ip First Pattern amp Color boss Second Pattern amp Color 755 Lz ume F TL Select Range For Interpreter a Range Fram Ta Cursor Trigger T Cursor B cance Channel Show the
124. Belay iigger Pulse width Trigger Pelay tine ts DIET Width is 100 ns os v OK Cancel Pulse Width Trigger gt lt N ns 8 Bits Bus 8 gt 100 ns LA Viewer 35h 100ns Pre Trigger PreTrigger Pass Count Pass Count N 3 LA Viewer 4
125. SEL Set the channel number color and type a nr Number Color cH 0 Yellow E Invert Cancel Set parameters like Label Name SCL channel Number CH 0 and Color Yellow for the serial clock and click OK set the SDA in the same way Combine the two labels SCL and SDA in the Label Name field to form a I2C bus and input a new name I2C Then double click the mouse s left button on the label name I2C or click the mouse s right button and select Configure the Label Setting dialog will show as below Label setting Enter a label name No more than 31 ff m charactoer IT Set the channel number data type and color si cos JU a Channel Number Value Type o J he ce I Yellow m waveform Wavefrom parameter setting DIU Eia a Invert Gray Code Display plugin with waveform NE Advance Cancel 143 UDA 1G36S Set more parameters like Protocol I2C Value Type HEX and Color Yellow and click Advance the Configure I2C Interpreter dialog will show as below Configure 20 Interpreter Channel Sf Clock Channel SCK cH Data Channel 50A cH 1 E p Assign color for specific data Address S Lime Data Write E amas x Data Read G Magenta Unknown L CHE Start a Re Start J x nm c NACK c 8Bits Address Include RW bit Color Range amp Misc TLTL Select Range For Interpreter H hH From Cu
126. Set more parameters like Protocol Decode Value Type HEX and Color White and click Advance the Configure Decode Interpreter dialog will show as below nmfigmre i Eigen E Lin NRzI Transition occurs For a onel WT HHHrHFH mi Cursor Trigger T EusorB 1 T Select Encoding NRZI Transition occurs for a one NRZI Transition occurs for a zero Manchester Thomas Manchester IEEE802 3 Differential Manchester Show Unknown Display unknown data Show Bus Display Bus data 203 UDA 1G36S Auto Detect Data Rate Check the protocol of the system under test automatically or set the Baud Rand and Protocol manually if the Auto Detect is not selected Channel Show the labels selected channel CH 0 Select Range for Interpreter Choose the range From To within the waveform you want to interpret the Decode signals 204 UDA 1G36S fT 2013 2 1 ffl Printed in Japan e e e
127. Set the channel number data type and color cri lr cos JL i MN Channel Number value Type o zb nes Color i white waveform Wavefrom parameter setting UU Eia ias Invert Gray Code Display plugin with waveform Advance Cancel 176 A Interpreter Set more parameters like Protocol Microwire Value Type HEX and Color White and click Advance the Configure MICROWIRE Interpreter dialog will show as below Configure MICRO WIRE Interpreter Channel Channel E Chip SelecE Channel C5 cH D Clock Channel SK cH 1 a Data In Channel DT cr g Data Qut Channel Do cH 3 Parameter Data Bits 8 Bits C 16 Bits Chip Select High C Low Clack Edge Rising Falling Color User can assign color For specific command Ib WRITE ENABLE WRITE READ WRITE DISABLE DE blue Range TUL Select Range For Interpreter E From Ta Buffer Head Buffer Tail Channel Show the selected channels CS CHO SK CH1 and DI DO CH2 CH3 Parameter Data Bits Choose Data Bits 8 or 16 Chip Select Choose Chip Select Low or High Clock Edge Choose Clock Edge Rising or Falling Color Set the colors for the following data bits WRITE ENABLE Red WRITE Lime READ Aqua WRITE DISABLE Blue Range Choose the range From To within the waveform you want to interpret the Microwire signals 177 UDA 1G36S Result
128. 2 M Reference Waveform Comparison EE Main Screen Temp 1 Temp 3 Temp 5 Reference Temp 2 Temp 4 Temp amp sage tips 1 The M waveform is Ehe waveform currently on Ehe main screen by default 2 The R Reference waveform is used For comparison by Ehe M waveform 3 Any waveform including M or Ri can be moved by dragging it 4 Hold down the Shift key to drag Ehe M and R waveforms together under comparison 5 Hold down the Ctrl Kev bo drag the R waveform only under comparison 6 FQ is the hotkey to skart Ehe waveform comparison Cancel Start 1 LA Viewer Main Reference 2 3 1 Main 2 Reference Ctrl
129. External 9 External External Adjustable 256 8M 16 Edge amp Pattern External 6 External External Adjustable 256 12M 16 Edge amp Pattern External 4 External External Adjustable 256 18M 16 Edge amp Pattern External 2 External External Adjustable 256 36M 16 Edge amp Pattern External 1 External External Adjustable 256 72M 16 Edge amp Pattern 1 Clock Ext Clock Hz Custom Memory Depths 1000000 2500 a OK Cancel Ext Clock Channel Configure Hardware 1 F CH35 Ext Clock Channel Ext Clock Channel cHa5 m CH35 External 36 36 CH35 ICH35 CH35 CH34 amp CH35 CH34 CH35 CH34 CH35 CH34 C
130. LAViewer 138 63 LA Viewer ti 138 6 4 DSO Ps dea eee aM SAME SS Ewe OM ose CHESS i es 139 65 DSO e e MIR 139 66 139 A Interpreter ee AG se alae AGS bales o aes Fate eS oes bales awe a oe 140 UDA 1G36S
131. Pind Cursor 2 as Cae VV B Find Cursor C CO C Find Cursor C C C C Find Cursor D D D Find Cursor D D D D Find Cursor E E E Find Cursor E BE E Waveform Invert Search Pattern 12Y Search Plugin Interpreter Search Next Go To Report
132. Rectangular Blackman Hann Hamming Harris Triangula FFT Window Cosine Lanczos Gaussian Vertical Scale dBm RMS dbV RMS Linear RMS UDA 1G36S USB 2 L 136mm x W 79mm x H 26mm 200g _ Windows 7 Windows Vista WindowsXP Windows2000 SP3 PC USB 20 2 2 2 1 LA Viewer Windows 7 OS 1 LA Viewer LA Viewer 2 CD ROM CD ROM 3
133. 0 0 1 0 6314 1 0 1 0 7914 80844 88758 iim Selected Labels CH 02 UDA 1G36S FALA Viewer C Repaort all law File Label Waveform View Device Toole Help amp SE am pole a Or A aw mR S R 20MHz UUUUUU CH 02 EE DL ee ene Label Channel Value p E 7314 81444 88758 iim Special Protocol CAN CAN LIN PS 2 LCD1602 DELA Viewer CACAN law File Label Waveform View Device Toole Help S SA b oto NAR S R 100 MHz Label Channel 2 PELI CAN 20 352 IDLE 298109 SSL GN 5m hee hse he he he Whee ibn Bx 314847 IDLE 315857 BASIC CAN Q Oa O O Ow DET 298109 z 257717 40392 9 tt 2 2 4 6 Device Device lp Capture Enter 2 Repetitive Capture Ctl Enter X atop Capture Esc EN Hardware Chl H E Trigger Chl T FEY Threshold CHY DSO stack Virtual Waveform Generator Capture
134. 0 Interface Ha PC Based USB 2 0 Interface DET PC_Based Instrument 2 PC Based USB 2 0 Interface USB OK di mI FE A V B eg EH male RE 4 4j UserName PC Q Bluetooth e DVD CD ROM a IDE ATA ATAPI 4 amp PC Based Instrument PC Based Advance USB 2 0 Interface PC Based USB 2 0 Interface 1E d IN e E P g
135. 1 Label 2 Labels 3 Labels 4 Labels Custom Label Custom Label View Zoom Custom Label FALA Viewer CZoom law File Label Waveform View Device Tools Help SA pole o Or A we 6 RK BSR 100MHz ovo juni co NM oo MANN CH 03 x PT LP LP Lay J La Label Trigger gt MM IM HUUUUUUUULUUUUUU 934 65 us H 1 462 ms 527 36 us JT 2 Report View 2 Report Disable All Labels selected Labels special Protocol All Labels Special Protocol PALA Viewer C Repart all law File Label Waveform View Device Toole Help x SA bp BPS es or e mA R S R 20MHz _ amp Label Channel value eH 7114 1 1 1 1 7314 0 514 1 0 0 0 ld4 0 1 0 0 7914 1 1 0 0 8114
136. Check Trig ok cme p sl L m 2 I2C I2C Interpreter I2C Label setting Mame Channel Ac Enter a label name Ma more khan 31 Clock Channel SCK CHO m charactoer E ms a Channel 3 FU Set the channel number data type and color Assign color For specific data crsTT i _ a Channel Mumber value Tvpe Address TT sive ed c Hb Her v Write r F Color White gt Es Unknown Waveform Wavefrom parameter setting Range amp Misc Suu TIL hee iun Select Range for Interpreter WI m m Unven Gray Code M Display plugin with waveform _ Advance Cancel ZM PS wa lA Viewer CA2C law File Label Waveform View Device Tools Help I2C Label Chani Value Activity Trigger gt Done 9 566 56us 9 1 118ms 708 76 us 9 4 Peod gt P Olt Configure 20 Interpreter Data Channel SDA CH 1 Ez From Buffer Head Tn Buffer Tail Cancel vw amp RRS MN E iB S R 200MHz W 12 SS rs NM UDA 1G36S 2 6 8 I2S Trigger I2S
137. Click OK to run the LA Viewer and you will see the result diagram below the data R read data and W write data in the first row the chip select waveform in the second row the clock waveform in the third row the data in waveform in the forth row and the data out waveform in the fifth row 1 Chip Select Low Clock Edge Falling en es EE 2 Chip Select Low Clock Edge Rising W A 10 D 5A R A 10 D 5A ite Disable fy 178 A Interpreter EJUSB1 1 Interpreter The USB 1 0 specification was introduced in 1994 USB was created by the core group of com panies that consisted of Intel Compaq Microsoft NS IBM NEC AT amp T and Northern Telecom The USB 2 0 specification was released in April 2000 and was standardized by the USB IF at the end of 2001 Hewlett Packard Intel Lucent now LSI Corporation since its merger with Lucent spinoff Agere Systems Microsoft NEC and Philips jointly led the initiative to develop a higher data transfer rate 480 M bps than the 1 0 specification of 12 M bps USB signals are transmitted on a twisted pair data cable with 90Q 15 impedance labeled D and D These collectively use half duplex differential signaling to combat the effects of electromagnetic noise on longer lines Add a USB1 1 signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show
138. SCK CHO jx Es SPI Chip Select Channel ZH 1 E Channel Data Channel 50A CH E T Set the channel number data type and color cs TU os SL Parameter cs LT Channel Number value Type Data Bits BBis C 16Bits n IHEx sj Chip Select Low C High Color ET Clock Edge Rising Falling waveform Wawvefrom parameter setting Color i User can assign color For specific pattern Gay ip First Pattern amp Color Invert Gray Code I Display plugin with waveform srt Advance Cancel Second Pattern amp Color iru Select Range For Interpreter LL M hk Start End Buffer Head Buffer Tail Pass A LT EALA Viewer CASPI law File Label Waveform View Device Tools Help QW SCH P gt or wa R R Dwm 4 S R 10MHz 2 ml eile ER SPI Label Chan Value Activity Trigger J Done 21 853 ms 22 366 ms 15 793 ms TT UDA 1G36S 2 6 10 Glitch Trigger LA Viewer Configure Hardware 7 FUL 7 ORE 717 IY Be7 Configure Hardware a9 66 CY ST Yt VS PMG 25K 0 Vu 4G Gltich Pico Vu 4G Configure Hardware Hardware Model Sample Rate Ext Glock Ghenne
139. SPI Custom Pattern Trigg Delay cd 3 j Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern or Combin Trigger se ig Delay Trigger Free Run Mode Don t show this dialog when just only one selection in this mode Cancel Detail Setting I2S Trigger Setting 12S h Y JIE I25 Trigger petting Channel Setup SCK fo WS SDA 2 Data Bits 16 Bits Iv Pre Trigger Trigger Parameter Click to get help IRSC75h Check Trig Cancel 7 Channel Setup WS SDA 9 Data Bits 1 24 Trigger Parameter L R 16 10 16 R5C75h R4453h_L513
140. Sample Rate Label Field A IL Val Field Tag r I alue Field E Wavefbrm Activity Function Button EAA Acquire Status One Level Trigger Field 1 FALA Viewer C TUI 2 B X E QUIET ee VerticalScroll bar SPI cm Chip Select fi ow 8 Label Channel value Instant Trigger 4 Gl 0 Cursor 0 0 Frequency 3 4 1 o Timing 13 1 0 Q 23 o 1 0 hd 9 5 us 3 028ms 3 9019 ms LU Field Splitter Frequency Timing Display Field Report Field Horizontal Scroll bar Status Field Zoom Field da Base Button UDA 1G36S 2 4 1 2 TELAI Fiewer L i Wie Wa law Fils Lable View Device So B C 2 4 2 File File 00007h 00007h 00002h 00007h 00002h 00002h 00007h 00002h 000027h TOU 00000h 00000h 0000
141. Select Low or High Clock Edge Choose Clock Edge for 3Wire SPI Rising or Falling Color Set the colors for the two at most certain data you named 00E2 and 0081 as the result diagram below Range Choose the range From To within the waveform you want to interpret the SPI signals Result Click OK to run the LA Viewer and you will see the data in the first row the Clock waveform in the second row the Chip Select waveform in the third row and the data waveform in the forth row as the result diagram below 3 Wire SPI 2Wire SPI 150 A Interpreter mCAN Interpreter The Controller Area Network CAN protocol has version 2 0A Basic CAN 11 bits and version 2 0B Extended CAN or Peli CAN 29 bits both versions have four message types Data Frame Remote Frame Error Frame and Overload Frame as the diagrams below The CAN Bus has two kinds of data output CAN High CAN H and CAN Low CAN L 9 Pin D CAN Bus Pin Out P5 Fo Fd XCO 2 3 4 TO x 5 J 7 O 9 7 F Pin 1 Reserved Upgrade Path Pin 2 CAN_L Dominant Low Pin 3 CAN GND Ground Pin 4 Reserved Upgrade Path Pin 5 CAN SHLD Shield Optional Pin 6 GND Ground Optional Pin 7 CAN_H Dominant High Pin 8 Reserved Upgrade Path Pin 9 CAN V Power Optional Data Frame Transmit data from a transmitting node to any or all other nodes 1 Basic CAN Standard Data Frame Arbitration Fiel
142. Viewer l Search Next Search Specified Pattern Default OK B Search Next 2 Add Label Signal Wizard se 3 A E ENT LA Viewer LA Viewer 6 3 LA Viewer LA Viewer Enter DEMO Mode a USB b Device Manager USB
143. as below Label Name Input label name and nat more than 31 f characters p Set Ehe channel number color and type ces TU Number Color cH D white X Invert Cancel Set parameters like Label Name D channel Number CH 0 and Color White for the serial clock and click OK Set Label Name D in the same way Combine the two labels D and D to form a USB1 1 bus and input a new label name USB1 1 Then double click the mouse s left button on the label name USB1 1 or click the mouse s right button to select Configure the Label Setting dialog will show as below 179 UDA 1G36S Label Name Enter a label name No more than 31 charactoer Hran Set the channel number data type and color ces mm ces IU che 1 Channel Number Value Type o aJa Hex Color white WaveForm Wavefram parameter setting UU Epa Qe Invert Gray Code ly Display plugin with waveform Advance Cancel Set more parameters like Protocol USB1 1 Value Type HEX and Color White and click Advance the Configure USB1 1 Interpreter dialog will show as below Configure USB1 1 Interpreter i I X Parameber Set the field s color in package CD syne ort Packet ID Frame Number CRCSICRC16 Ld Yellow EOP GG ta vj Select Range For Interpreter
144. automatically or set the Baud Rand and Protocol manually if the Auto Detect is not selected 141 UDA 1G36S Baud Rate The speed of data transfer bits per second Protocol Parity Data Bits Stop Bits Parity Parity can be N None O Odd or E Even Data Bits Data Bits must be 5 to 8 bits Stop Bits Stop Bits must be to 2 bits MSB first The default is LSB when you select it after the Start Bit is MSB Color Set the color for two at most certain data as the result diagram shows below Range Choose the range From To within the waveform you want to interpret the UART signals Result Click OK to run the LA Viewer and you will see the data in the first row as below If you select Display plugin with waveform in the Label Setting window it will also show the UART RS232 waveform in the second row I I I T E m 1 aye i E E LI 1 C u n o T io g y MM oa It ee ll 142 A Interpreter ml2C Interpreter The Inter Integrated Circuit I2C protocol has two kinds of signals Serial Data SDA and Serial Clock SCL Add an I2C signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 Pi characters
145. dialog when just only one selection in this made 2 Detail Setting Trigger Setting Label Mode B Triseer Setting Label Mode On listview control right click or double click item tn modify the value LabelName chama vss CH 00 X CH D1 1 X CH D2 2 X CH D3 3 X CH 04 4 X CH D5 5 X CH D6 6 X CH 07 7 X CH 08 8 X CH D9 q X CH 10 id X CH 11 11 x CH 12 12 X CH 13 13 x CH 14 i4 X CH 15 15 X CH 16 16 X CH 17 17 x CH 18 18 x More settings v Pre Trigger Pass Count Clear all setting Delay Trigger Pulse width iriagger Delay timeis 10 ns videnie EIS es ice E OK Cancel Delay Trigger N ns Pre Trigger PreTrigger
146. lugin sional Label Name Input label name and nat more than 31 characters Lissajous PETT Set the waveform color Fs nr ETT white Set Ehe pulgin method and press the advance OSU button tn set more parameters Display plugin with waveform Advance DK Cancel Mode ay 7 Number of Bits Alpha value 100 ad Color m Red Cancel X CH7 CHOELSB Y CH15 CHB LSB XY Setting Mode Set the mode for the axis XY or IQ Number of Bits Set the number of data bits 8 Alpha Value Set the Alpha Value 100 the higher the less transparent for the background of the Lissajous graph in the LA Viewer window Color Set the color for the Lissajous graph Red Click OK the Lissajous graph will show in the lower right coroner in the LA Viewer window the graph shape is like ellipse because frequencies of X and Y sine waves were set the same in this example 166 A Interpreter Lr LA Viewer C Lissajons law File Label Waveform View Device Tools Help S SE bP Ole oor F me R RXmowm w Ss R 100MHz Label Channel value af 201 9 us P 3 02 ms bm gi Move the mouse to the red ellipse and click the mouse s right button you will see the dialog below Close Properties Close Close the Lissajous graph window Properties Return to the XY Setting 167 UDA 1G36S EJHDQ In
147. second row the Test Mode Select waveform in the third row the Test Data Input waveform in the forth row the Test Data Output waveform in the fifth row and the Test Reset waveform in the sixth row as the result diagrams below 194 A Interpreter Encode Interpreter NRZI Non return to zero inverted Non return to zero inverted NRZI is a method of mapping a binary signal to a physical signal for transmission over some transmission media The two level NRZI signal has a transition at a clock boundary if the bit being transmitted is a logical one and does not have a transition if the bit being transmitted is a logical zero There are two mode 1 NRZI Transition occurs for a one A is represented by a transition of the physical level a 0 has no transition 2 NRZI Transition occurs for a zero A 0 is represented by a transition of the physical level a 1 has no transition Manchester In telecommunication Manchester code is a line code in which the encoding of each data bit has at least one transition and occupies the same time It is therefore self clocking which means that a clock signal can be recovered from the encoded data There are three mode 1 Manchester Thomas A 0 is expressed by a low to high transition a 1 by high to low transition 195 UDA 1G36S 2 Manchester IEEE802 3 A 1 is expressed by a low to high transition a 0 by high to low tr
148. x Channel Show the selected channels CLK CHO CMD CHI DATO CH2 DATI CH3 DAT2 CH4 DAT3 CHS Analysis Analysis the CMD or DAT Mode Have 1 bit or 4 bit analysis Data length Select length of data 1690 UDA 1G36S Color Setting the colors for the following packet Start bit Blue Host Maroon Card Purple Cmd Resp Lime Content Aqua CRC check Red End bit Magenta Data Yellow CRC status Olive Busy Teal Range Choose the range From To within the waveform you want to interpret the SDIO signals Result Click OK to run the LA Viewer and you will see the result diagram below a SD Command Ms XLXX idle Lj BEL OC uie 5 E SD data SD Command ES SD data D 5 SXXX ide E EN 080 010311 0 108 ILI E EE 190 A Interpreter EJ JTAG Interpreter Joint Test Action Group JTAG is the common name used for the IEEE 1149 1 standard entitled Standard Test Access Port and Boundary Scan Architecture for test access ports used for testing printed circuit boards using boundary scan A JTAG interface is a special four five pin interface added to a chip designed so that multiple chips on a board can have their JTAG lines daisy chained together if specific conditions are met and a test probe need only connect to a single JTAG port to have access to al
149. x16 Adjustable 256 4 IF Then Clauses UART Pattern 1 Clock UART Trigger 18 Baud Rate x16 BaudRatex16 Adjustable 256 4M 4 If Then Clauses UART Pattern 1 Clock UART Trigger 12 Baud Rate x16 BaudRatex16 Adjustable 256 6M 4 If Then Clauses UART Pattern 1 Clock UART Trigger 9 Baud Rate x16 Baud Rate x 16 Adjustable 256 8M 4 If Then Clauses UART Pattern 1 Clock UART Trigger 6 Baud Rate x16 Baud Rate x16 Adjustable 256 12M 4 If Then Clauses UART Pattern 1 Clock UART Trigger 4 Baud Rate x16 Baud Rate x16 Adjustable 256 18M 4 If Then Clauses UART Pattern 1 Clock UART Trigger 2 Baud Rate x16 Baud Rate x16 Adjustable 256 36M 4If Then Clauses UART Pattern 1 Clock UART Trigger 1 Baud Rate x16 Baud Rate x16 Adjustable 256 72M 4 If Then Clauses UART Pattern 1 Clock I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock LJ 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock J SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses SPI Pattern 1 Clock External External External Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock Ext NH Custom Memory Depths po Fs ok cms xp LA Viewer Trigger Trigger Setting IUART Trigger UART RY J hr
150. 0MHz 400MHz 16 256 4M 1 Edge amp Pattern 1 Clock gt 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock J UART Trigger Baud Rate x 16 BaudRatex16 Adjustable 256 Adjustable 41f Then Clauses UART Pattern 1 Clock 1 I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock LJ 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock J SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 41f Then Clauses SPI Pattern 1 Clock 1 External External External Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock Ext Na Custom Memory Depths 1000000 2048000 5 Cancel Hardware Model Hardware Model Hardware Model LA1164 LA1032 LA1132 LA1164 L41032P LA1132P LA1164P LAz132P LAz164P LAz132P 512K LAz164P 512K LAz132P 2M LAz164P 2M PEL41116 PEL41216 PEL41616 PEL411164 PEL412164 PEL416164 PEL411166 PEL412166 57 UDA 1G36S Mode Mode
151. 0h d 00000h 00000h 00000h 00000h o0000h ec cS E E E emm 2 coc oc m m Open Waveform File save Waveform File EJ Manage Project m Print Exit Open Waveform File Jaw Save Waveform File 4 Manage Project amp Tools Help gt Pele moo c ome EF EE eH eH oc cd amp Toc oc So ete cceceoceces ee State Field 4 8 R 20MHz E md Comment E Ini 250 ns B JI Comment Field 4 HALT lt 2 Print 4 Exit LA Viewer 2 4 3 Label Label Add d Modify TOTIS Add 4
152. 25 25 X More settings v Pre Trigger Pass Count m Clear all setting belay iigger Pulse width inigger videh is PES 9e 52 OE Pelay tine ts DIT d 2 9p 1 0 Low 1 High X 1 Low High High Low 1 8 Bits Bus 8 0 7 l nnh 16 3Ah 2 nno oO 8 570 3 nnb b 2 110010b A nn 10 35 5 ASCII A B Troc
153. 2h_R4562h J PI R4453h L3562h Check Trig 16 Pre Trigger Pre Trigger UDA 1G36S I2S Interpreter I2S 2S Interpreter 12S Label setting Mame fi Channel I TU 5 rir fifi fa Waveform einig Eia um DM ES Enter a label name No more than 31 charactoer 1 Set the channel number data type and color Channel Number Value Type n IHEx white Color Wavefrom parameter setting Inv
154. 6GHz 4 256 16M 1 Edge amp Pattern 1 Clock s 300M S00MHz S00MHz 9 256 8M 1 Edge amp Pattern 1 Clock 400M 4 00MHz 400MHz2 18 256 4M 1 Edge amp Pattern 1 Clock 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock 5 UART Trigger Baud Rate x16 BaudRatex16 Adjustable 256 Adjustable 4 If Then Clauses UART Pattern 1 Clock CX3I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses I2C Pattern 1 Clock EM 12C Trigger 36 1Hz 200MHz Adjustable 256 2M 4 If Then Clauses I2C Pattern I2C Trigger 18 1Hz 200MHz Adjustable 256 4M 4If Then Clauses I2C Pattern 1 Clock I2C Trigger 12 1Hz 200MHz Adjustable 256 6M 4If Then Clauses I2C Pattern 1 Clock I2C Trigger 9 1Hz 200MHz Adjustable 256 8M 4If Then Clauses I2C Pattern 1 Clock I2C Triager 6 1Hz 200MHz Adjustable 256 12M 4If Then Clauses I2C Pattern 1 Clock I2C Triager 4 1Hz 200MHz Adjustable 256 18M 4If Then Clauses I2C Pattern 1 Clock I25 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses 125 Pattern 1 Clock J SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 41f Then Clauses SPI Pattern 1 Clock 1 External External External Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock Ext NH Custom Memory Depths po Fs ok cm LA Viewer Trigger Trigger Setting
155. 7 DSO Stack Settings Vertical parameter settings for each DSO s channel is in the signal settings dialog box y Virtual Waveform Generato DSO_CH1 Connection UDS 1G02S 64M Sampling Type Edit v Sampling Rate 1000000 Hz DSO_CH2 Trigger Pos Type Manual Trigger Position Stack Delay Label Che Value Activity Trigger 4 36 4 Capture 4 LA Viewer Untitled Le S mS Eile Label Waveform View Device Tools Help S FHS me lop 6 LPPr Uviivep 4p 522 OTE Z d S R 200 MHz g CH 00 0 li t 499 9u 500 1fu 500 11u 499 905u 500 105u CH 01 0 X CH 02 1 x i CH 03 CH 04 CH 05 CH 06 CH 07 DSO CH1 DSO_CH2 Label Che Value Activity Trigger _ Capture Ok 5 304 ms 5 304 ms 100 ns Ny 123 UDA 1G36S 4 1 2 7 Trig oull Trig in Ja 2 DSO exe Ch1 Ch2
156. A eL ves pue mue COE AE TE ob PLA T Y JUS t Logic Analyzer Digital Storage Oscilloscope 2 Programmable Data Generator UDA 1G36S 9 INext n 39 JDS Digital Storage Oscilloscope The installer will guide you through the steps required to install JDS Digital Storage Oscilloscope on your computer WARNING This computer program is protected by copyright law and international treaties Unauthorized duplication or distribution of this program or any portion of it may result in severe civil or criminal penalties and will be prosecuted to the maximum extent possible under the law 6 Nextl n 39 JDS Digital Storage Oscilloscope The installer will install JDS Digital Storage Oscilloscope to the following folder To install in this folder click Next To install to a different folder enter it below or click Browse Eolder WProgram Files x86 JDS Cancel INext DSO r 39 JDS Digital Storage Oscilloscope V Desktop Strat Menu Cancel lt Back Not
157. ALES NE 5 1 16 nnh 3Ah 2 8 nno 57o 3 2 nnb 110010b UDA 1G36S 4 ASCITI XX A 5 10 nn 35 INote Simple Trigger Clear Trigger setting Close Clear Trigger Setting Close Simple Trigger 2 4 18 1 LA Viewer amp 2 Threshold Setting 3
158. Adjustable 16 Edge amp Pattern 1 Clock Ext NH Custom Memory Depths po Fs ok cm OK LA Viewer Trigger Trigger Setting 3 Wire SPI Trigger 3 SPI Trigger Settmg Edge Are DOC Then Trigger Width Simple Trigger If Then If Then RM Edge Pattern or Combine Trig Sequence Trigger Pulse Width or Pattern Width Trig If Then If Then Trigger Glitch lsrroo ie oft Moone f Then IB Then Trigger EET is Ee If String1 Then If Stringa Then Trigaer zx IE menses Nd s Then Trigger e Extra glitch detect Resolution is 5E UART R5232 Custom Pattern Trig Alternative Sequence Trigger cs zs Mm um m m m 3 Wwire SPI Custom Pattern Trigger CC ACK OU 1 C Custom Pattern Trigge Delay Standard Setting Dialag For iil L Trigger Disable all Triggers Edge Pattern or Combin Trigger ge gg E Free Run Mode Don t show this dialog when just only one selection in this mode Cancel UDA 1G36S Detail Setting SPI Trigger Setting SPI kU Wx
159. B Can not find the specified waveforml File Label Waveform View Device Tools Help QW SH ald Polso o Nen R KR Sm GO i S R 10MH Clock Chip Select fl Data Label Chani Value Activity Trigger 33560 occurrence s in settting interval 42 9 us 156 8 us 113 9 us iil 2 5 9 Search Plugin Pattern Search Plugin Pattern mel CHOY 472974 22x KH Foy Hs ee search Plugm Pattern Seleck Label rr Pattern cz Range From Buffer Head To Buffer Tail Match whole word only Pass Count Match case 0 E Cancel Select Label 5O Pattern ASCII Range From
160. B 20 Interface MEAS SEM YVA ILEJE LTOS HIP Windows XP Windows OF E PNA Windows DI Microsoft mf _ T Eg FC Based Advance USB 2 0 Interface BET USB OK r d E A V H eg JI B cn i PRs 4 4j UserName PC Q Bluetoo
161. CE Ca XY 2 5 12 Compare Waveforms Waveform gt Comparison Setting gt F8 Waveform Comparison 2 Waveform Comparison Main Screen Temp 1 Temp 3 Temp 5 EN ERN NI Reference Temp 2 Temp 4 Temp amp sage tips 1 The M waveform is Ehe waveform currently nn Ehe main screen by default 2 The R Reference waveform is used For comparison by Ehe M waveform 3 Any waveform including M or Ri can be moved by dragging it 4 Hold down the Shift key to drag Ehe M and R waveforms together under comparison 5 Hold down the Ctrl Kev bo drag the R waveform only under comparison 6 FQ is the hotkey to skart Ehe waveform comparison Cancel Waveform Comparison Main Screen M M Reference R Temp 1 Temp 6 8 M R
162. F Range Select Range For Interpreter I Fram To Buffer Head Buffer Tail 183 UDA 1G36S Channel Show the selected channels D CHO and D CH1 Color Set the colors for the following packet Sync Magenta Packet ID Red Frame Number Lime CRC5 CRC16 Yellow SC Start Complete SPLIT field Port Port Number S amp E Start End field ET Endpoint Type EOP Aqua Range Choose the range From To within the waveform you want to interpret the USB2 0 signals Result Click OK to run the LA Viewer and you will see the result diagram below the data in the first row the D waveform in the second row the D waveform in the third row PU UU ULL 184 Note A Interpreter USB2 0 interpreter is for ULA 4G36 series only and select 4GHz sampling rate to sampling recommended USB2 0 interpreter must cooperate with USB2 0 kit and select voltage threshold to 1 730V USB2 0 kit of graphical representation is as follows Host edge Ground pinl and pinsi D pin D pin Device edge 185 UDA 1G36S EJSDIO Interpreter SDIO The SD SDIO Protocol current spec 2 0 is a high speed serial protocol used primarily for interfacing with SD SecureDigital Flash memory cards SDIO a specification based on SD can be used to interface with devices such as Wireless ICs This paper will main
163. H35 UDA 1G36S Ext Clock Hz Hz Configure Hardware 1000000 Hz 2 6 13 Delay Trigger LA Viewer Trigger Trigger Setting Delay Trigger cue ORTDA x Simple Trigger If Then If Then Width Edge Pattern or Cambine Trigger Sequence Trigger Pulse Width or Pattern Width Trigger HE nnn SESS Then Trigger 4 Glitch lsreorme orf Tooley hen Than Trigger If String Then If String2 Then Trigg AE ME Extra glitch detect Resolution is 50 LIART RSZ32 Custom Pattern Trig Alternative Sequence Trigger soak XA ok a Bs EEE E a orem eee ESTE W ll sa UTU 2 8 KA SA COO IE Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigg Delay Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern or Combin Trigger Delay Trigger Free Run Mode Cancel Don t show this
164. I 10 Standard Setting Dialog for Edge Pattern or Combine Trigger 11 Delay Trigger 12 Disable All Triggers UDA 1G36S 2 5 15 Threshold Setting Threshold Setting Threshold ethmg The threshold means when input signal over Ehe threshold is high and under the threshold is low pU Threshold 4 Fd Channel 0 17 fm H 1 600 Channel 18 35 rn Leov gt channels d oes e emeen Ime oes e OK Cancel Threshold Setting User Define
165. Interpreter Overload Frame Occurs when a node needs more time to process the current data it has Tells other nodes that more time is required to process data Add a CAN signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 ff characters mue CAN H Parameter cnr Set the channel number color and type Siriy Mumber Color cH D E Lime Invert Cancel Set parameters like Label Name CAN H channel Number CH 0 and Color Lime for the CAN signals and click OK Double click the mouse s left button on the label name CAN Hv or click the mouse s right button to select Configure the Label Setting dialog will show as below Label Sethmg Enter a label name No more than 31 charactoer EAH Channel iU Set the channel number data type and color oS nm CRE Channel Number Value Type lo HEX T Color E Lime M waveform Wavefrom parameter setting nr cus Goes Invert Gray Code Display plugin with waveform NE Advance Cancel Set parameters like Protocol CAN Value Type HEX and Color Lime and click Advance the Configure CAN Interpreter dialog will show as below zd UDA 1G36S Configure CAN Interpreter Channel Select the target
166. Max Mem Trig Levels Trig Function Trig Res 1 Picovu 4G 4GHz 4GHz Adjustable 256 Adjustable 1 Edge amp Pattern 1 Clock s Picovu 4G Glitch 4GHz 4GHz 36 256 2 5K 1 Glitch 1 Clock Picovu 4G Time Stamp 256 zik 1 Edge amp Pattern 1 Clock E Picovu 2G 2GHz 2GHz 36 256 SK 1 Edge amp Pattern 1 Clock s 1 6G 1 6GHz 1 6GHz 4 256 16M 1 Edge amp Pattern 1 Clock s 300M S00MHz HIMHz 9 256 8M 1 Edge amp Pattern 1 Clock s 400M 400MHz 400MHz 18 256 4M 1 Edge amp Pattern 1 Clock 9 200M 1Hz 200MHz Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock J UART Trigger Baud Rate x16 BaudRatex16 Adjustable 256 Adjustable 4 If Then Clauses UART Pattern 1 Clock 9 I2C Trigger 1Hz 200MHz Adjustable 256 Adjustable 4If Then Clauses 12C Pattern 1 Clock 125 Trigger 1Hz 200MHz Adjustable 256 Adjustable 4If Then Clauses 125 Pattern 1 Clock 1 SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses SPI Pattern 1 Clock External External External Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock Ext TN Custom Memory Depths fi 000000 Esao 2 2 6 12 External Clock LA Viewer Configure Hardware 7 FU 27 ORE 71 IY gt y Configure Hardware
167. OALLHP A t aec IS LJ ii 1 WU el 172 A Interpreter SSI Interpreter The Synchronous Serial Interface SSI protocol has four kinds of signals Serial Clock SCK Transmit Data Receive Data and Transmit Receive Frame Synchronous FS The SSI protocol supports either the Normal or Network mode that is independent of whether the transmitter and the receiver are synchronous or asynchronous Add a SSI signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal 7 x Label Mame Input label name and nat more than 31 ff characters SEK Set the channel number color and type ze pr d Number Color cH D white Z Invert Cancel Set parameters like Label Name SCK channel Number CH 0 and Color White for the serial clock and click OK Set FS and Transmit Data Receive Data in the same way Combine the three labels SCK FS and Transmit Data Receive Data to form a SSI bus and input a new label name SSI Then double click the mouse s left button on the label name SSI or click the mouse s right button to select Configure the Label Setting dialog will show as below Label Sethmg Label Name Enter a label name Ma mare than 31 charactoer Tu cc Channel sU Set the channel number data type and color a Eri MER Chann
168. QUIRE AUTOSET po ii 7 F 16 105 UDA 1G36S 3 6 DSO 1 Trigger TRIGGER Type Mode la pe Hold Off Coupling A Type Edge WHEY WEP EF RBU TIVE ASL Sh Y Video Video trigger NTSC PAL SECAM Line Fideo Scan Line Setting Video Type NTSC 525 Horizontal Freg 15734 26 Hz Custom Freg Scan Line Indentify 1 2
169. Setting Label Mode On listview control right click or double click item to modify the value LabelNam chames vae l 8 Bits Bus Brom 3sAh 1 Bit Bus 8 T CH 09 X CH 10 id X CH 11 il X CH 12 12 X CH 13 13 X CH 14 14 N CH 15 15 X CH 16 16 X CH 17 17 X CH 18 18 X CH 19 ig X CH 20 20 X CH 21 21 X CH 22 22 X CH 23 23 X CH 24 24 y CH 25 25 X More settings v Pre Trigger Pass Count m Clear all setting Belay ila Pulse width hoger Pelay tine ts DIT widen ie IE so E OK Cancel UDA 1G36S Pre Trigger Pre Trigger Pass Count Pass Count NN 3 LA Viewer
170. TOSET CHI1 10 a 2 1 1 2 o amp M 200nz M Pos 10nz UTILITY mE DISPLAY d UTILITY ACQUIRE TCP IP 3 12 OS 32 30 8100 MHz UTILITY Languages
171. UDA 1G36S LIN Interpreter The Local Interconnect Network LIN protocol version 2 1 has two message types Header and Response as the diagram below Header contains three data frames Synchronization Break Break Synchronization Field Sync and Identifier Field Identifier Response contains two data frames Data Field Data and Checksum Field Checksum Checksum contains data and identifier Enhanced mode but version 1 3 or below Classic mode contains data only LIN bus has two states Sleep mode and Active mode While data is on the bus all LIN nodes are in active state but after a specified timeout the nodes enter Sleep mode and will be released back to active state by a WAKEUP frame Header sent by master Response sent by master or slave _ LL x Synchronization Synch Identifier Data Data Data Data Checksum Break Field Field Field Field Field Field Field Message frame Add a LIN signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Mame Input label name and nat more than 31 LJ characters LIN Set the channel number color and type RR nr Number Color cH D white Invert Cancel Set parameters like Label Name LIN channel Number CH 0 and Color White for the LIN signals a
172. ansition 3 Differential Manchester A 1 bit is indicated by making the first half of the signal equal to the last half of the previous bit s signal i e no transition at the start of the bit time A 0 bit is indicated by making the first half of the signal opposite to the last half of the previous bit s signal i e a zero bit is indicated by a transition at the beginning of the bit time In the middle of the bit time there is always a transition whether from high to low or low to high A reversed scheme is possible and no advantage is given by using either scheme AMI Alternate Mark Inversion There are four mode 1 AMI Standard AMI Alternate Mark Inversion is a synchronous clock encoding technique which uses bipolar pulses to represent logical 1 values It is therefore a three level system A logical 0 is represented by no symbol and a logical by pulses of alternating polarity 196 A Interpreter 2 AMI B8ZS Bipolar 8 Zero Substitution If 1 is 00000000 is represented to 000 0 1 is 00000000 is represented to 000 0 3 AMI HDB3 High Density Bipolar 3 The HDB3 code is a bipolar signaling technique i e relies on the transmission of both positive and negative pulses It is based on Alternate Mark Inversion AMI but extends this by inserting violation codes whenever there is a run of 4 or more 0 s This and similar more complex codes have replaced AMI in modern distribution ne
173. aw 6 INextl a 44 JDS Logic Analyzer The installer will install JDS Logic Analyzer to the following folder To install in this folder click Next To install to a different folder enter it below or click Browse Eolder WProgram Files x86 JDS Nextl LA Viewer r 39 JDS Logic Analyzer Create Shortcut at V Desktop V Start Menu Cancel lt Back Note WPdows 7 8 LA Viewerl LA Viewer
174. ay plugin with waveform SPI 2 Advance 2 5 5 Label Setting Label setting Label Name Enter a label name No more than 31 ff m charactoer SPI Set the channel number data type and color cri lr cos JL iid Channel Number Value Type o 4 rex Color White waveform Wavefrom parameter setting UU HC Gers Invert Gray Code Display plugin with waveform ser Advance cae Label Name 31 Channel Number Value Type HEX 16 DEC10 OCT BIN 2 ASC ASCII 7 FU Z 2 s comp 2 Color Invert
175. ble 256 4M 4If Then Clauses 125 Pattern 1 Clock 125 Trigger 12 1Hz 200MHz Adjustable 256 6M 4If Then Clauses 125 Pattern 1 Clock 125 Trigger 9 1Hz 200MHz Adjustable 256 8M 4If Then Clauses 125 Pattern 1 Clock 125 Trigger 6 1Hz 200MHz Adjustable 256 12M 4If Then Clauses 125 Pattern 1 Clock 125 Trigger 4 1Hz 200MHz Adjustable 256 18M 4If Then Clauses 125 Pattern 1 Clock J SPI Trigger 1Hz 200MHz Adjustable 256 Adjustable 4 If Then Clauses SPI Pattern 1 Clock 1 External External External Adjustable 256 Adjustable 16 Edge amp Pattern 1 Clock Ext NH Custom Memory Depths po Fs ok cm a oa LA Viewer Trigger Trigger Setting II2S Trigger 12C ds Trigger sethmg E Ali mm 0 reni zx Simple Trigger If Then If Then Width Edge Pattern or Cambine Trig Sequence Trigger Pulse Width or Pattern Width Trig if Then If 4 Then Trigger 4 Glitch soono orf Toole Cf Then I Then Trigger 5 F Then IE Then Trigger Alternative Sequence Trigger e If String 1 Then If String Then Trigg UARTIAS232 Custom Pattern ah b CS i SCK SDA XD sa 5 f f A Je A NUR LC Custom Pattern Trigge I 5 Custom Pattern Trigger 3 Wire
176. d gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal 2x Label Mame Input label name and nat more than 31 characters hl Set the channel number color and type TU Number Color cH D white Invert Cancel Set parameters like Label Name D channel Number CH 0 and Color White for the serial clock and click OK Set Label Name D in the same way Combine the two labels D and D to form a USB2 0 bus and input a new label name USB2 0 Then double click the mouse s left button on the label name USB2 0 or click the mouse s right button to select Configure the Label Setting dialog will show as below 182 A Interpreter Label Name Enter a label name No more than 31 charactoer 582 0 Set the channel number data type and color ces Ju ces JL che d Channel Number Value Type D m HEX MO Calor C white WaveForm Wavefram parameter setting uir Egay Qe Invert Gray Code ly Display plugin with waveform Advance Set more parameters like Protocol USB2 0 Value Type HEX and Color White and click Advance the Configure USB2 0 Interpreter dialog will show as below Configure USB2 0 Interpreter x Parameter Channel D Sync Packet ID Frame Number CROSICRC16 Ss Fort SAE j EO
177. d contains the 11 bit message Identifier and the Remote Transmission Request RTR bit 12 6 8N N 0 8 16 2 7 Arbitration Control Data CRE ACK End of Field Field Field Field Field Frame aurBrT JO 1TB1G 11 bits Identifier a E wm 3 e g 3 tn 4 bits 15 bits Data CRC Length Code 151 UDA 1G36S 2 Peli Can Extended Data Frame Defines a 29 bit identifier field 32 6 SN N 0 8 16 2 fi Arbitration Control Data CRC ACK End of Field Field Field Field Field Frame aurigjo Peg 11 bits 18 bits 4bits 15 bits Ik gt e gt 18 fe e Identifier A Identifier B E Data CRC Length Code Remote Frame It is very similar in format to a data frame and it 1s a request for data from other node s 1 Standard Remote Frame 12 6 16 2 7 Arbitration Control CRC ACK End of Field Field Field Field Frame No Data aurBrT TO preys 11 tits F 4bits 15 bits 3 1 Je e Identifier E Data CRC Length Code 2 Extended Remote Frame 39 6 16 2 7 Arbitration Control CRE ACK End of Field Field Field Field Frame No Data gurBrT JO 1TB1G 11 bits 18 bits 4 bits 15 bits e gt e Identifier A Identifier B E Data CRC Length Code Error Frame When nodes detect an error an error frame will be generated Signifies bus errors have been detected 152 A
178. e Windows 7 0 6 PC Based DSO FEB PC Based DSO 3 3 2 7 PC Windows 2 USB PC PC USB 2 2 m e Windows 7 Qe T e Windows XP
179. e Field s color in package TEST LOGIC RESET 1 white RUN TESTAIDLE L 31 Yellow SELECT IR E Magent SELECT DR E 3 Red CAPTURE Aqua SHIFT IR Lime SHIFT DR EN phe EXIT1 E Silver E ITZ L 3 Gray Set more parameters like Protocol JTAG Value Type HEX and Color White and click Advance the Configure JTAG Interpreter dialog will show as below 192 Configure JTAG Interpreter Channel Parameter Color Range Channel Channel 4 F Test Clack TCK co H Test Mode Select TMS cue H Test Data Input T0 rns H 1 HE 4 1 Test Data Output Too cai H Test Reset TREST ce 4 1 HE Set the field s color in package TEST LOGIC RESET i White RUN TESTAIDLE Yellow SELECT IR XE Magent SELECT DR I Red CAPTURE a 5HIFT IR O SHIFT DR EN p EXIT1 E Silver EXITZ L 3 Gray PALISE L 3 Olive UPDATE L Purple Select Range For Fram To Cursor Trigger T Cursor E A Interpreter Show the selected channels TCK CHO TMS CH2 TDI CH3 TDO CHI and TREST CH4 Color Set the colors for the following fields Range Choose the range From To within the waveform you want to interpret the JTAG signals 193 UDA 1G36S Result Click OK to run the LA Viewer and you will see the data in the first row the Test Clock waveform in the
180. e Trigger Sequence Trigger Pulse Width or Patkern Width Trigger THe nent TEM Then Trigger 4 Glitch sro of ofzla Fel Took UP hen If Than Trigger 3 If StringiThen If String Then Trigg midi rane Extra glitch detect Resolution is 5C LIART RSZ32 Custom Pattern Trig Alternative Sequence Trigger AKI ADK 5CL 9 MNO 7 p is A ee Tum Temm Ia T woe Tf A I C Custom Pattern Trigge 3 Wire SPI Custom Pattern Trigg Delay Standard Setting Dialog For Trigger Disable all Triggers Edge Pattern or Combin Trigger ge TEEN Tees Free Run Mode Don t show this dialog when just only one selection in this mode Pulse Width Trigger Detail Setting Trigger Setting Label Mode UDA 1G36S B Troc Setting Label Mode On listview control right click or double click item tn modify the value LabelNam Chanel lwamem 8 Bits Bus O 7 ooh 1 Bit Bus 8 A CH na a h CH 1 10 n CH 11 11 it CH 1z 12 ix CH 13 13 hi CH 14 14 n CH 15 15 hi H 15 16 n CH 17 1 hi CH 18 18 hi CH 189 19 n CH z 20 hi CH 21 2l hi CH zz ez A CH z3 25 hi CH 24 24 y CH 25 25 x More settings Pre Trigger Pass Count Clear all setting
181. e click the mouse s left button on the label name LCD1602 or click the mouse s right button to select Configure the Label Setting dialog will show as below Label Sethmg Enter a label name No more than 31 charactoer Lcpienz Set the channel number data type and color cri lr ERI iiid Channel Number Value Type o zb Hex Color White waveform Wavefrom parameter setting Or Invert Gray Code Display plugin with waveform Advance Cancel 1509 UDA 1G36S Set more parameters like Protocol LCD1602 Value Type HEX Color White and click Advance the Configure LCD1602 Interpreter dialog will show as below Configure LCD18602 Interpreter Channel Data Made 5 Lines 4 Lines Iv Transform Command Color o Sitting command s color Cursor Display Shift Write Data TX Aque Read Data Range TL Select Range For Interpreter LL uu From To Buffer Head Buffer Tail Cancel Channel Show the labels selected channels RS CHO RW CHI DBO CH10 Data Mode 8 bits or 4 bits data input output lines 8 lines selected Transform Command Transform data into commands Color Set the colors for the following commands Clear Display Red Write 20H to DDRAM address and set DDRAM address to 00H from address counter Return Home Blue Set DDRAM address to 00H and return the cursor to its origi
182. el Number value Type lo 4 ex Color C 1 white waveform Wavefrom parameter setting nr Scu Ga Invert Gray Code Display plugin with waveform NE Advance Cancel 173 UDA 1G36S Set more parameters like Protocol SSI Value Type HEX and Color White and click Advance the Configure SSI Interpreter dialog will show as below Configure Sol Interpreter Channel Select Channel Mode Normal C Network Line Of Data Transmit Receive Merge continuous Umka Color Set color of data 75 Hex Lime ke Hex Aqua Hex Black Hex a Black Option analysis of range Range I Fram Ta Cursor Trigger T Buffer Tail caesi Channel Show the selected channels SCK CHO FS CH1 and DATA CH2 Mode Select the mode Normal or Network Line Of Data Select the line of data Transmit or Receive Merge continuous unknown Combine the continuous unknown Color Set colors for four at most certain data you defined 75 and b6 as the result diagram shows below Range Choose the range From To within the waveform you want to interpret the SSI signals Result Click OK to run the LA Viewer and you will see the data in the first row the Clock waveform in the second row the FS waveform in the third row and the data waveform in the forth row as the result diagrams below 174 A Interpreter
183. els SCK CS and SDA to form a SPI bus a new label SPI will show in the Label Name field Then double click the mouse s left button on the label name SPI or click the mouse s right button to select Configure the Label Setting dialog will show as below 148 A Interpreter Label Name Enter a label name No more than 31 m charactoer SPI Set the channel number data type and color ces mm ces JL CHE 1 Channel Number Value Type lo m j HE E Color Aqua M WaveForm Wavefram parameter setting rur ecu Qe Invert Gray Code Display plugin with waveform Set parameters like Protocol SPI Value Type HEX and Color Aqua and click Advance the Configure SPI Interpreter dialog will show as below Configure SPI Interpreter Channel amp Parameter Channel Clock Channel SCK CHO Chip Select Channel cH 1 Data Channel 504 CH Ta Parameter Data Bits BBis 15Bits Chip Select Low High Clock Edge Rising Falling Color User can assign color For specific pattern UD First Pattern amp Color Second Pattern amp Color or Ed aqua Range nun Select Range For Interpreter From T Buffer Head Buffer Tail Cancel Channel Show the selected channels SCK CHO for 3 Wire SPI CS CH1 and SDA CH2 149 UDA 1G36S Parameter Data Bits Choose Data Bits 8 or 16 Chip Select Choose Chip
184. ert Gray Code M Display plugin with waveform res Advance Cancel ZM z mire wa lA Viewer CU2S law Configure 25 Interpreter Channel Clock Channel SCk CH0 Ea EJ Word Select Channel WW51 CH 1 Data Channel SD cy 2 Data bits 16 Bits EI Color User can assign color For specific pattern First Pattern amp Color scs ee Second Pattern amp Color Range Select Range For Interpreter From Ta Buffer Head D Buffer Tail m I Cancel File Label Waveform View Device Tools Help Qm CSAs I2S Label Done Oh Chanl Value Activity Trigger l 566 56 us p Pol gt of MG RR Dwmi m Or 89 5 R 200 MHz 3 D A 1 118 ms 789 65 us 2 3 a7 as a fo IPF IVT 2 6 9 SPI Trigger SPI LA Viewer Configure Hardware 7 FU 27 ORE 717 IY gt y Configure Hardware 72M SPI Trigger 36 SPI 361 36 36 2M
185. fier Field Magenta Data Data Field Red Checksum Checksum Field Yellow Range Choose the range From To within the waveform you want to interpret the LIN signals Result Click OK to run the LA Viewer and you will see the result diagrams below the data break synch identifier data checksum in the first row and the data waveform in the second row the data wake up in the first row and the data waveform in the second row T50 A Interpreter EILCD1602 Interpreter The Liquid Crystal Display 1602 LCD1602 protocol has 11 bits signals Instruction Data Register Select RS Read Write Select RW Enable Select E and 8 bits or 4 bits Data Input Output lines DBO DB7 DBO DB3 Add a LCD1602 signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 ff characters ah Rs 0 Parameter crsTT Set the channel number color and type aie Number Color cH D white X E Invert Cancel Set parameters like Label Name RS channel Number CH 0 and Color White for the LCD1602 signals and click OK set RW E and DBO DB7 in the same way Combine the eleven labels RS RW E and DBO DB7 in the Label Name field to form a LCD1602 bus and input a new name LCD1602 Then doubl
186. han 31 characters i wire Set Ehe channel number color and type cea pup Number Color cH D white Invert cares Set parameters like Label Name 1 Wire channel Number CH 0 and Color White for the 1 Wire signals and click OK Then double click the mouse s left button on the label name 1 Wire or click the mouse s right button to select Configure the Label Setting dialog will show as below 170 A Interpreter Label Sathmg Set more parameters like Protocol 1 Wire Value Type HEX and Color White and click Advance the Configure 1 Wire Interpreter dialog will show as below BuferHead m Buffer Tal M Le ce Channel Show the labels selected channel CH 0 Data rates Select a data transmission rate standard or overdrive 171 UDA 1G36S Sampling point Set the sampling point N microsecond after the beginning of each data bit N is 30 e g Color Set the colors for the following data bits Reset Pulse Lime Presence Pulse Aqua Data Yellow Range Choose the range From To within the waveform you want to interpret the 1 Wire signals Result Click OK to run the LA Viewer and you will see the data bits reset pulse 10 01 in the first row and the 1 Wire waveform in the second row as the result diagram below ee 0 0 5 1 o ES MEM DENN INE CENE _ U
187. hen Trigger If String Then If String Then Trigg xit Shi Extra glitch detect Resolution is 50 LIART RSZ32 Custom Pattern Trig Alternative Sequence Trigger SDA i ACK w cs f gm sa 5 fia Ap I C Custom Pattern Trigge CK i p ae A A a RR 3 Wire SPI Custom Pattern Trigg Delay lcd i standard Setting Dialog For i Trigger Disable all Triggers d e Pattern or Combin Trigger ge Te TEE Free Run Mode Cancel Detail Setting Trigger Setting Channel Mode Trigger Setting Channel Mode 7 x e x s x 4 x 3 X 2 x on x o x 47 x se x 45 x ss x 43 x aix a x 40 x v Pre Trigger Pass Count mE Clear all setting Cancel x oh Dye else Oat Ys b 1 4X7 1 0 Je Ales CX Dont show this dialog when just only one selection in this mode ee 0 Low 1 High X 1 Low High X EY oY YY High Low 1
188. ing Cancel UDA 1G36S UART Trigger Setting UART LA Viewer 5 Acute Technology Inc 6 DART Trigger Setting Trigger Channel fo Auto Detect Baud Rate lpenn C Data Bits fe C Parity NONE 1 T tigger When Eman Stop Bits fi MIF Acute I Then Technology Ie IF Inc Then DEN N po nen po N po M Then po Iv Pre Trigger Pass Count Check Trigger Setting Cancel UART RS232 UART Interpreter UART Label Sathmg Configure DART Interpreter Channel Enter a label name Ma mare than 31 Bi Channel CHO EI charactoer 2 Rsz2 v Auto Detect e Baud Rate Protocol fone fet on Set the channel number data type and color Mig s IU res TU ee Color Channel Number i User can assign color For specific pattern f F asc al i First Pattern amp Color Color C white hi E Red der Second Pattern amp Color aveForm zo Wawvefrom parameter setting Aqua 2i rn
189. ire Demo Demo Acquire DSO Acquire SET LEVEL TO 50 xr z O 3l gt ist S lo ld o o Oo c o o D gt m o ES a lt a lt c d SAVE RECALL LL ACQUIRE LA 5 RUN STOP RUN STOP DSO RUN STOP 6 FORCE TRIGGER IFORCE TRIGGER RZ y HF DSO 103 UDA 1G36S
190. l Imzzs Red is active H W You may observe inactive HW 4 GHz af mode Min SJR Max SJR Available ch Min Mem Max Mem Trig Levels Trig Function Trig Res 4 Picovu 4G 4GHz 4GHz Adjustable 256 Adjustable 1 Edge amp Pattern 1 Clock EN PicoVu 4G Glitch 256 1 Clock Picovu 4G Time Stamp 4GHz 4GHz 36 2 5K 1 Edge amp Pattern 1 Clock Picovu 2G 2GHz 2GHz 36 SK 1 Edge amp Pattern 1 Clock 8 1 6G 1 6GHz 1 6GHz 4 16M 1 Edge amp Pattern 1 Clock 800m 800MHz 800MHz 9 8M 1 Edge amp Pattern 1 Clock s 400M 400MHz 400MHz 18 4M 1 Edge amp Pattern 1 Clock LJ 200M 1Hz 200MHz Adjustable Adjustable 16 Edge amp Pattern 1 Clock J UART Trigger Baud Rate x 16 BaudRatex16 Adjustable Adjustable 4 If Then Clauses UART Pattern 1 Clock 9 I2C Trigger 1Hz 200MHz Adjustable Adjustable 4If Then Clauses 12C Pattern 1 Clock 125 Trigger 1Hz 200MHz Adjustable Adjustable 4If Then Clauses I25 Pattern 1 Clock J SPI Trigger 1Hz 200MHz Adjustable Adjustable 4 If Then Clauses SPI Pattern 1 Clock 1 External External External Adjustable Adjustable 16 Edge amp Pattern 1 Clock Ext NN Custom Memory Depths 1000000 2500 OK LA Viewer Trigger FUZ ryv AAV Re ZV vy AT Trigger Setting Glitch Trigger
191. l chips on a circuit board The connector pins are TDI Test Data Input TDO Test Data Output TCK Test Clock TMS Test Mode Select TREST Test Reset esi Loglc CT t eset 0 Run T 4 Select 1 lect 1 vt Scar a D i CUAD ies CER itj 1 1 l g Ex1t2 DR Update DR C Fig A 1 TAP controller state diagrm 191 UDA 1G36S Add a JTAG signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Mame Input label name and nat more than 31 i m characters TCK Set Ehe channel number color and type sip Number Color cH D E Lime Invert Cancel Set parameters like Label Name TCK channel Number CH 0 and Color Lime for the serial clock and click OK Set TMS TDI TDO and TREST in the same way Combine the five labels TMS TDI TDO and TREST to form a SSI bus and input a new label name JTAG Then double click the mouse s left button on the label name JTAG or click the mouse s right button to select Configure the Label Setting dialog will show as below Configure JTAG Interpreter Channel Parameter Channel Test Clack TCK pmo H Test Mode Select TMs cHz H Test Data Input TDI rns H Test Data Output T00 CHI Test Reset TRES cH4 H Color Set th
192. ly focus on the SD protocol and interfacing with flash memory It should also be noted that the SD Protocol is largely based on the MultiMediaCard MMC format although some mechanical differences exist For the purpose of this report they can be treated equally The first revision of the SD Protocol supported only up to 4GB of data in a flash memory card With the advent of SDHC 2 0 capacities of up to 32 GB 2TB theoretical can be supported On a physical level SDHC is equivalent to SD 1 0 The changes mostly exist in the block MAC level of the protocol Add a SDIO signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Mame Input label name and nat more than 31 characters ak Set the channel number color and type Number oo a E3 Invert Cancel Set parameters like Label Name CLK channel Number CH 0 and Color White for the serial clock and click OK Set the others label CMD DATO DATI DAT2 and DAT3 in the same way Combine the six labels CLK CMD DATO DATI DAT2 and DAT3 to form a SDIO bus and input a new label name SD Command Then double click the mouse s left button on the label name SD Command or click the mouse s right button to select Configure the Label Setting dialog will show as below 166 A Interpreter
193. m Li Range Ca Yur Select Range For Interpreter Invert Gray Code ERE To M Display plugin with waveform aRTIRS232 v Advance ce Buffer Head Buffer Tail 2 zA L ie Wer C AU AR it Jaw File Label Waveform View Device Tools Help lt 9 BFA Polao oF wAR KS ww e oz S R Baudxl6 m mmm Bm NE ofw n g J Label Chanl Value Activity Trigger a gt A 6 797 ms 5 725 176ms 13 516 ms il UDA 1G36S 2 6 7 IC2 Trigger IC2 LA Viewer Configure Hardware Configure Hardware 72M I2C Trigger 36 I2C F U 77 36 36 36 7 2M 8 Configure Hardware Hardware Model Sample Rate Ext Glock Ghennel lmzzs Red is active HMV You may observe inactive H 200 MHz bd LAS Picovu 2G 2GHz 2GHz 36 256 5K Edge amp Pattern 1 Clock s 1 6G 1 6GHz 1
194. mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 characters clock Set the channel number color and type canr Mumber Color cH D white E Invert Cancel Set parameters like Label Name Clock channel Number CH 0 and Color White for Clock and click OK set Data in the same way Combine the two labels Clock and Data in the Label Name field to form a PS 2 bus and input a new name PS2 Then double click the mouse s left button on the label name PS2 or click the mouse s right button to select Configure the Label Setting dialog will show as below Label setting Enter a label name No more than 31 ff charactoer Poe Set the channel number data type and color cri lr cos JL a Channel Number value Type o 4 fe Color C white waveform Wavefrom parameter setting UU Eia e eert Gray Code Display plugin with waveform NE Advance Cancel 162 A Interpreter Set more parameters like Protocol PS2 Value Type HEX Color White for the PS 2 label and click Advance the Configure PS2 Interpreter dialog will show as below Configure PS Interpreter Channel Select Channel A Clock lo Data 1 v Transform Key Code Color Setting transrnittEr s color UO
195. n Mode i Cancel Don t show this dialog when just only one selection in this mode Alternative Sequence Trigger Detail Setting Alternative Sequence Trigger Alternative IE Then Clauses Trigger next Az next A3 next Then Trigger ORIF Bl next Bz next B3 next B4 Then Trigger ORIF Cl next Cz next C3 next Then Trigger ORIF Di next Dz next D3 next id Then Trigger Reference Pre Trigger Pass Count 02 Clear All OK Cancel Pattern i 4 m X A2 X Sample Clack TU T ric ger Alternative Sequence Trigger 4 4 UDA 1G36S Pre Trigger Pre Trigger
196. n t show this dialog when just only one selection in this mode Sequence Trigger Detail Setting Sequence Trigger TF Then Clauses Trigger ip Pt Next hd _Pz next m P3 next _P4 next Ea Next sve re next hz P next _P next E Next ES Pio next T Pit next m Piz next P13 next P14 next P15 next P16 Then Trigger Reference Pre Trigger Pass Count 04 Clear All 1 Cancel Pattern pif sample Cock FLTLTLTLTLTLTLTLTLTLTLUTLTLTLT LT UDA 1G36S Sequence Trigger 16 Pre Trigger Pass Count TEIG 12 bvSJb OX eso TAA e NextI P1 P3 P5 P10 P1D ThenIf P2 P6 P9 Then Trigger Then 1 P12
197. nal position if shifted Entry Mode Lime Set cursor moving direction and specify display shift Display on off Green Set display on off cursor on off blink on off Cursor Display Shift Teal Set cursor moving display shift control bit direction with Display Data RAM data unchanged Function Set Magenta Set data length 8 4 bits display lines 2 1 and font type 5 10 dots 5 7 dots CGRAM Addr Olive Set Character Generator RAM address in address counter 160 A Interpreter DDRAM Addr Purple Set Display Data RAM address in address counter Read BF and Addr Maroon Check if the internal function is busy and the contents of the address counter Write Data Aqua Write data into CGRAM DDRAM Read Data Yellow Read data from CGRAM DDRAM Range Choose the range From To within the waveform you want to interpret the LCD1602 signals Result Click OK to run the LA Viewer and you will see the result diagram below FALA Viewer CALCD1602 law File Label Waveform View Device Tools Help senale P or Rew a R KS tem O zi S R 10MHz Charac in M 4077us 6 913ms 6 505ms Qi 161 UDA 1G36S EIPS 2 Interpreter The Personal System 2 PS 2 protocol has 6 bits signals but only the first bit Data and the fifth bit Clock need to be analyzed Add a PS 2 signal Click Add gt Signal in the Label window or click the
198. nd click OK Double click the mouse s left button on the label name LIN or click the mouse s right button to select Configure the Label Setting dialog shows as below pog A Interpreter Label Sathmg wm Enter a label name No more than 31 m charactoer LIN Set the channel number data type and color oH TLF ia SL AE Channel Number Value Type o HEX M Color C white waveform Wavefrom parameter setting UU cus Ga Invert Gray Code Display plugin with waveform NE Advance Cancel Set parameters like Protocol LIN Value Type HEX and Color White and click Advance the Configure LIN Interpreter dialog will show as below Configure LIN Interpreter Channel m version E LIN 2 1 C LIM 2 0 C LIN 1 2 Checksum made Classic C Enhanced L Channel h Set the field s color in package UD our 9 Break D Lime T Smh O a F ente E e ee o checksum 7 vew F Color Range mm Select Range For Interpret iti Frnm Cursor Trigger T Tn Cursor B Cancel Version Select LIN version 157 UDA 1G36S Checksum Mode Select Checksum mode Classic data only Enhanced data and identifier LA Channel Show the selected channel CHO for LIN Color Set the colors for the following fields Wake Up Wake up Frame Blue Break Break Field Lime Synch Synch Field Aqua Identifier Identi
199. o Color Set color of data cb Break Break Recovery white Response DENN silver v Address Lime Data Tn Aqua TUL Select Range For Interpreter JUL From Buffer Head To Buffer Tail Cancel Range Channel Show the labels selected channel CH 0 Color Set the colors for the following data bits Break Yellow Break Recovery White Response Silver Address Lime Data Aqua Range Choose the range From To within the waveform you want to interpret the HDQ signals Result Click OK to run the LA Viewer and you will see the result diagrams Zoom In Zoom Out below the data bits break break recovery write data in the first row the HDQ waveform in the second row Zoom In Fn ST E 1 a B Hd ia the data bits W write data R read data in the first row the HDQ waveform in the second row Zoom Out 169 UDA 1G36S E41 Wire Interpreter The 1 Wire protocol transmits signals with data bits Reset Pulse Presence Pulse Write 1 Write 0 Read 1 Read 0 in standard or overdrive speed as the figure below Waveform Legend Resistor pull up slave Add a 1 Wire signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal 7 x Label Mame Input label name and not more t
200. pdate Time 1900 his Default Cancel E 192168166 DSO Microsoft Internet Explorer http 19216816681 JE A 7 um c e CS 35 Ju VO T Server Pl o TCP IP 1 Client IP Address U 1 Port 8 fT cmd exe k ipconfigexe all amp A i IP 192 168 1 68 idc d Default Cancel 2 PC Based DSO Utility TCPIP ON 3 Internet Explorer 4 http 19216816881 TCP IP 2 1 PC DSO 2 TCP IP 21COE IR 4 1IP 1 1
201. previous state was high the one is sent as a zero 0 if it was low the one is sent as a one 1 Add a Encode signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and mot more than 31 characters Encode Farameter ir Set the channel number color and type eds ee Number Color cH D white Invert Cancel Set parameters like Label Name Encode channel Number CH 0 and Color White for the Encode signals and click OK Then double click the mouse s left button on the label name Encode or click the mouse s right button to select Configure the Label Setting dialog will show as below 198 A Interpreter PF EH J P iveri cray Gode mi __ Advance Set more parameters like Protocol Encode Value Type HEX and Color White and click Advance the Configure Encode Interpreter dialog will show as below Configure Encoding Interpreter NAZI Transition occurs For a ane v Ar THEE cursor ager LL CHEN Cr Select Encoding NRZI Transition occurs for a one NRZI Transition occurs for a zero Manchester Thomas Manchester IEEE802 3 Differential Manchester AMI Standard AMI B8ZS AMI HDB3 Pseudoternary MLT 3 CMI 199 UDA 1G36S
202. rsor Trigger T To Cursor B 1 i Cancel Channel Show the selected channels CHO and CH1 Color Set the colors for the four kinds of data Address Write Read and Unknown as the result diagram below Address Read or Write address Write Write data W Read Read data R Unknown Unknown data Start Start data 144 A Interpreter Re Start Re Start data Stop Stop data ACK Acknowledge data NACK Non Acknowledge data 8Bits Address Include R W bit Combine Read Write bit with data bits before 7 bits Range Choose the range From To within the waveform you want to interpret the I2C signals Result Click OK to run the LA Viewer and you will see all data W R in the first row the Clock waveform in the second row and the Data waveform in the third row as the result diagram below 145 UDA 1G36S 212S Interpreter The Inter Integrated Circuit Sound I2S protocol has three kinds of signals Serial Clock SCK Word Select Line WS and Multiplex Data Line SD Add an 12S signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Mame Input label name and not more than 31 j characters SCK Set the channel number color and type Lis Number Color cuo mo Magenta
203. selected channels CH0 CH1 and CH2 and set Data bits 16 Bits Color Set the colors for two at most certain data you named DD35 and 75F5 as the result diagram shows below Range Choose the range From To within the waveform you want to interpret the I2S signals Result Click OK to run the LA Viewer and you will see the data in the first row the Clock waveform in the second row the Word Select waveform in the third row and the data waveform in the forth row as the result diagram below 147 UDA 1G36S EJSPI Interpreter The Synchronous Peripheral Interface SPI protocol has four kinds of signals Serial Clock SCLK Master In Slave Out data MISO Master Out Slave In data MOSI and Chip Select CS as the diagram below The LA Viewer measures three signals SCLK serial data SDA and CS where SDA can be MISO or MOSI Add a SPI signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Label Mame Input label name and not more than 31 characters SEK Set the channel number color and type ces JL cS ete Number Color cH D 7 Aqua Invert 4 Cancel Set parameters like Label Name SCK channel Number CH 0 and Color Aqua for the serial clock and click OK Set CS and SDA in the same way Combine the three lab
204. signal is CAM L or CAM H and E whether the waveform has stuff bits nr nat Setting the LA s channel Recognize Signal Channel cav H lo Iv stuff Bit waveform Filter Color Set the field s color in package L ID 7 White Data E vew F EE So 7 Error Overload ERI ned Range Tu Select Range For Interpreter LL 3 From Ta Cursor Trigger T Cursor B Cancel Trigger Setting Show the label name CAN H and selected channel CHO Stuff Bit Select the Stuff Bit if the waveform has the stuff bit Do NOT select if the waveform has no stuff bit Waveform Filter Delete the filter from waveform Color Set the colors for the following fields ID Identifier Field White DLC Data Length Code Aqua Data Data Field Yellow CRC Cycle Redundancy Check Field Magenta ACK Acknowledge Field Silver Error Overload Error Frame Overload Frame Red Range Choose the range From To within the waveform you want to interpret the CAN signals Result Click OK to run the LA Viewer and you will see the result diagrams below 154 A Interpreter 1 Basic Can Standard Data Frame 2 Standard Remote Frame No Data Field 3 Peli Can Extended Data Frame ID 1F10182 A Extended Remote Frame No Data Field ID 1F10188 5 Error Set the sampling rate that is ideally 4 10 times of the CAN signal s frequency T99 es
205. so Sampling Type Edit S Sampling Rate 1000000 Hz DSO_CH2 Trigger Pos Type Manual v Trigger Position 10 000 Stack Delay 65000 ps Label Cha Value Activity Trigger 124 4 36 External 4 LA Viewer Untitled ca File Label Waveform View Device Tools Help PHS eA GOO fLhppr uw m oN S CS ES amp g S R 200 MHz Single Level Sequence CH 01 0 Alternative Sequence CH 02 0 Comparison he Width CH 04 litet CH 05 CH 06 uid External Trigger Settings Trigger by DSO CHi Rising Edge Falling Edge Iv Pre Trigger Pass Count oi DSO CH2 Load Save Clear ok Cancel Se Clear Trigger Settings Label Cha Value Activity Trigger E E A 5 304 ms B 5 304 ms B 100 ns 9 5 Capture gs LA Viewer Untitled m E File Label Waveform View Device Tools Help FMS AROPO gt UW HAgEl2 PEE ZH se 200m F b
206. t ren en en En en e ten em S m SDA LAN UIS ON Re RR 3 Wire SPI Custom Pattern Trigg gap ee ee UAE EE ATENTO I js ge I C Custom Pattern Trigge dge Pattern or Combin Trigger Free Run Mode Delay Id i standard Setting Dialog Far gt Trigger Disable all Triggers Delay Trigger Cancel Trigger Setting Configure Hardware Don t show this dialog when just only one selection in this mode 1 Simple Trigger 2 Sequence IF Then Clauses Trigger IF Then 3 Pulse Width Trigger and Pattern Width Trigger 4 Alternative Sequence IF Then Clauses Trigger IF Then 5 Glitch Trigger 6 UART RS232 Hardware Trigger UART RS232 7 I2C Hardware Trigger IP6C 8 I2S Hardware Trigger I6S 9 SPI Hardware Trigger SP
207. terpreter The HDQ protocol has two kinds of formats 8 bits or 16 bits signals as the figure below 7 Bit Address 8 B Data Add a HDQ signal Click Add gt Signal in the Label window or click the mouse s right button on the Label Field and select Add gt Signal then the Add a signal dialog will show as below Add a signal Label Name Input label name and nat more than 31 ff m characters HDG Parameter csTT Set Ehe channel number color and type oe aur Number Color cH D white X Invert Cancel Set parameters like Label Name HDQ channel Number CH 0 and Color White for the HDQ signals and click OK Then double click the mouse s left button on the label name HDQ or click the mouse s right button to select Configure the Label Setting dialog will show as below Label settoug Enter a label name No more than 31 ff charactoer HDG Channel ERT Set the channel number data type and color ors JU od Channel Number Value Type lo nex Color C white waveform Wavefrom parameter setting nr cus Ga Invert Gray Code Display plugin with waveform Advance carcs 168 A Interpreter Set more parameters like Protocol HDQ Value Type HEX and Color White and click Advance the Configure HDQ Interpreter dialog will show as below Configure HOQ Interpreter X Channel A Setting the channel of HDG in L l
208. th lt DVD CD ROM IDE ATA ATAPI 4 amp PC Based Instrument g PC Based Advance USB 2 0 Interface XA gU 4 E ca 74A7 E P OB I amp 3 2 3 LA Viewer 7 PC 2 LA Viewer OY a hay F7 4 aL RR PC Based Logic Analyzer LA Viewer INote 4 36 pied 7 a 2 2 4 2 4 1 2 4 1 1 Channel Field
209. ton Clock fa Add Pattern Label Name Clock 4 Form Buffer Head Pass Count o To Buffer Tail r Copy From trigger condition Clear all setting Start Cancel Pattern 0 1 1 16 Range From To Pass Count Pass Count 3 LA Viewer 4 Copy from trigger condition Clear all setting UDA 1G36S Start Search Pattern
210. tory Background color of the waveform field Grid line color Grid line shape Grid size Waveforms height 16 100 UDA 1G36S Unit in the Report window ko 0 0 0 0 0 0 2088 0 1 208800 ns 1 2089 0 o 208900 ns 0 2090 0 o 29000 ns 0 2637 1 o 263700 ns 1 0 0 1 2 3 00ns 1 Round to X decimal places X XX 0 9 Xms refresh rate for Activity TIFAEFA AF bEARBOU by va V F 100 1000 AE Lom ds Cursor snap to transition
211. tworks The encoding rules follow those for AMI except that a sequence of four consecutive 0 s are encoding using a special violation bit This bit has the same polarity as the last 1 bit which was sent using the AMI encoding rule The purpose of this is to prevent long runs of 0 s in the data stream which may otherwise prevent a DPLL from tracking the center of each bit Such a code is sometimes called a run length limited code since it limits the runs of 0 s which would otherwise be produced by AMI One refinement is necessary to prevent a dc voltage being introduced by excessive runs of zeros This refinement is to encode any pattern of more than four bits as BOOV where B is a balancing pulse The value of B is assigned as or so as to make alternate V s of opposite polarity The receiver removes all Violation pulses but in addition a violation preceded by two zeros and a pulse is treated as the BOOV pattern and both the viloation and balancing pulse are removed from the received bit stream This restores the original bit stream 4 MLT 3 Multilevel Transmission 3 A 0 has no transition a 1 is represented by a transition 0 0 197 UDA 1G36S Pseudoternary A 1 is always zero a 0 is represented by a transition CMI Coded Mark Inversion A zero is sent a low to high 01 transition while a one is sent as either a one 1 or zero 0 depending on the previous state If the
212. y 20MHz 13 MHz both CHO and CH8 MUST be the least significant bit LSB and both CH7 and CH15 MUST be the most significant bit MSB Combine the eight labels CHO CH7 CH8 CH17 in the Label Name field to form a Sine wave bus and input a new name X Y Then double click the mouse s left button on the label name X Y or click the mouse s right button to select Configure the Label Setting dialog will show as below 164 A Interpreter Label Sathmg Mame 1 Enter a label name Mo more than 31 faz charactoer Ro Channel 3 JUF Set the channel number data type and color ss iiis Channel Number Value Type 7 2 Comp I F7 color E a m waveform Wawvefrom parameter setting nr cus INL Invert Gray Code T Errem erp Or HT with UE EE RITTTT La Advance Cancel Set more parameters for Sine waves X Y like Value Type 2 Comp Color Aqua and click OK the LA Viewer window will show as below FA L Viewer CALissajous law File Label Waveform View Device Tools Help SIENA Poles or NwaR R E Label Channel value a 201 9 us 3 02 ms 2 819 ms U 165 UDA 1G36S Select Add gt Interpreter in the Label window the Add a plugin signal dialog will show as below A d d arn

ボケデジアナ36 UDA-1G36S 取扱説明書

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