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1. 4 ET B tH 18 M s E X lt 1 X PS SR 4 d 1 A A AAA scams E Eu c Ww hail W Il Ml WITH Wi RPE E pE R d olo s o K 13 ons Operating Basics li E D YX z l The channel BNC inputs CH1 and The EXT TRIG input accepts external ba CH2 accept electrical signals for trigger signals See page 3 12 for i ee display more information about external E triggering Z F S TDS 340 TDS 360 amp TDS 380 User Manual 2 7 h s E Jd I i L I n o T Puts S etes es nts TTI pp RT TEMG Eg PA Et JEN A IN PRIN NN nod TS nn in nd i i Ih 1 E EN T T 15 7 om E S T RE V 1 laca T d tsa ban TI EMEN m sc WP II E I 1 Il Mi Operating Basies II III T REGE i i I bi Wu i j MD H f S a m eme e nem LU il D I i il il U Gil il The power connector accepts line voltage W 0 power the instrument See page C 1 for a Gentronics parallel port an B3 222 interface li and a GPIB interface It also includes a VGA Winning WI video compatible output port and a power TI connector for the optional TDS4FSP printer A Upgrade kit The fuse drawer holds the line fuse See The Option 14 Panel Option 14 instruments only allows access to three communications interfaces You can use the Centronics RS 232 and GPIB interfaces to transmit hardcopy data see page 3 412. S300mv M i ns Chi Tomi TIR i oe Source Coupling Level Mode Holdoff chi UC Tomy Normal 500ng Figure B 7 Measuring trigger sensitivity E N MA 16 Press WAVEFORM OFF 17 Press CH 2 18 Press TRIGGER MENU Source Ch2 19 Disconnect the hookup from CH 1 and connect it to CH 2 E 20 Set the vertical SCALE to 500 mV div m E i Dus 21 Repeat steps 14 and 15 for Channel 2 22 Press TRIGGER MENU gt Source EXT 10 Z i G 23 Press MEASURE Select Measrmnt Amplitude 24 Increase the generator amplitude until the amplitude measurement reads 1 5 V if you are checking a TDS 340 or TDS 360 Increase the generator amplitude until the amplitude measurement reads 4 0 V if you are checking a TDS 380 B 13 TI x MAM Tm MC Cid ema ELO T r TC mno E i JUL Appendix B Performance Verification Trigger Level Accuracy DC Coupled 25 Repeat steps 14 and 15 for the external trigacr 26 Disconnect the test hookup Trigger level accuracy is verified by the successful completion of the Self Tests Uu and the DC voltage measurement accuracy procedure on page B 5 PEL q ND T This completes the performance verification procedure ET s Sine Wave Generator Leveling Procedure B 14 Some procedures in this manual require a sine wave generator to produce the E necessary test signals If you do not have a leveled sine wave generator use the fo
3. R WAN San Will A se O 7 ee OAS a Ps E S C MID mmm RR E SO SUUF WWW artisantg com III I i i a nl Ul L usd T TE MN INN DOC BM iB in iM i Tal Am Getting Started i ee 21 Disconnect the probe from the channel input and the PROBE COMP A I ll 7 D i um terminal LS hc l l fi Le i h bie TDS 340 TDS 360 amp TDS 380 User Manual Tow EO I i li T Dm T mm il T T fir K M ET T KL L A io P i E 5 NIT S T D de i E E in AEEA i n pl Mem aM T aT MA n M THAT RT RL Sebel pl TE admi R A TU l AX wh Ce RAR ne J zii EES RES E E ore 7 FLA EA s REA v pr z A ees S MES T cen S B ren PAIN E m s S E RE DEA 2 A pave nee S na x s oe een prac PACO G S An us ee S an ses TIL 2 ro o mt M Xr X FUE Son L S ne han eal i ARTE E ae VINE pa EE rS ER errr A far E Lus rf mee sate H S ee S m i n m 2 y L ni Ae E ill i l Tu Tm a NM a This chapter begins with cight illustrations that identify and describe each l M control and connector on the TDS 300 Series oscilloscope Next Operating Basics covers thesc additional topics w Using the menu system AE S Using probes m Using autoset il Display and Power Controls I ai TOS iim l i 0 The Side Menu buttons provide access to side menu selections See page 2 9 for more information about the user interface o ooo QN S O
4. 100 mV div 995 mVidiv 0 4 x Net Offset II 3 E NIE U at T 1 Vidiv 10 V div 0 4 x INet Offset i 300 mV 0 1 div x V div setting TNR I j TOS 340 DC 2100 MHz o B TDS 360 DC 2200 MHz DC 2180 MHz for 2 mV div e II TDS 380 DC 2400 MHz DC 2250 MHz for 2 mV div i 2100 1 at 50 MHz with equal Valte Div settings on each channel NIL M TDS 340 1 MO 1 in parallel with 20 pF 2 0 pF 21 Illi TDS 360 1 MQ 1 in parallel with 20 pF 2 0 pF CUL I TDS 380 1 MOQ 1 in parallel with 12 pF 2 0 pF Wi 300 V DC or AC CAT ll derate at 20 dB decade above 100 kHz to 13 V peak AC at n 3 MHz and above II in l Lower Frequency Limit AC Coupled lt 10 Hz li 1 UU T Net Offset Offset Position x Volts Div Net offset is the voltage level at the center of the A D converter dynamic TI Name Accuracy Offset Analog Bandwidth DC Coupled Cross Talk Channel Isolation input Impedance DC Coupled Input Voltage Maxi mum T II The AC Coupled Lower Frequency Limits are reduced by a factor of 10 when 10X passive probes are used n TR IT UR n Table A 2 Warranted characteristics time base system n Name Description m ie Accuracy Long Term Sample Rate and 100 ppm over any gt 1 ms interval Delay Time A e E ps vid shot acquisitions using sample acquisition mode and a bandwidth limit setting D E l li ii 4 wl M z 1 WI 100
5. Dualbananato Jil i mem 1 II ln Figure B 2 Hookup for DC voltage measurement accuracy check W Press SAVE RECA LL SETUP Recall Factory Setup OK Confirm dain laas Press ACQUIRE Mode Average 16 M 2000000 a Qoo ooo 000 e Ml Press MEASURE Select Measurement A UII Press the side menu button more until the menu label Mean appears in the I side menu Press the side menu button Mean III Set the vertical SCALE to one of the settings listed in Table B 2 that you have not yet checked Start with the first setting listed Press VERTICAL MENU Position li la Turn the General Purpose Knob to set the vertical position to the setting listed in Table B 2 The baseline level moves off screen Press the main menu button Offset n Use the General Purpose Knob to set vertical offset to the setting listed in Table B 2 for the present vertical scale setting The baseline level remains III off screen fi E M n jl n amp ln ll i a ill a 1 TDS 340 TDS 360 amp TDS 380 User Manual au ill all B ATTE A IA 400048 ENT 1V 35 40V 498V 497 1 Va 498 9 V 200 mV CHEN ONG lt 8 28 Vto 8 52V 50 mV 5 fav 06V 881 mV to obim 50 mV IA T AE 881 mV to 919 mV Aabs mV o s A T mV do 314 gaat 10 mV er 354 6 mV to465 4mV 5 mV o tM f 990m 982 mV to 998 mV 12 Sct the generator to
6. Uu ELL UI OMIM 1 y vd Titi NUIT etilo ADT d iM y min il U d RON I M u 4 Figure 3 23 Cursor measurement of an FFT waveform E Figure 3 24 FFT time domain record vs FFT frequency alalar icu MP meo m Figure 3 23 How aliased frequencies appear in an FFT 8 Figure 3 26 Windowing the FFT time domain record m N Figure 3 27 The HARDCOPY button x e x eee K H Figure 3 28 The UTILITY button eere nne a Figure 3 29 The system VO menu nennen nn 1 l Figure 3 30 The reference waveform buttons oo ooomooooro Figure 3 31 A reference waveform Men 22 e s KRK Te Figure 3 32 Save Format menu success Figure 3 33 The SAVE RECALL button ecce a if Figure 3 34 The savelrecall menu secesseeseeeseees iN Figure 3 35 File utilities secs s x x e x eaae gt Figure 3 36 File system Labelling menu e ll I Figure 3 37 The UTILITY button eene ll Il Figure 3 39 Date and time display eee MI m m 2 o Uo p B bk m T Po m 72 244 m 7 U Figure 3 38 The utility pop up menu Figure A 1 TDS 340 TDS 360 and TDS 380 dimensions M i Figure Bl Menu locations isses H Figure B 2 Hookup for DC voltage measurement accuracy N tiiv ee B o ox on Qo o om o3 hb wom m 4 y wom m amp ob om P hk b wom 9 9 oh ow I Figure B 3
7. increasing to 500 mV at 400 MHz Extemal 10 TDS 340 500 mV from DC to 20 MHz increasing to 1 5 V at 100 MHz TDS 360 500 mV from DC to 50 MHz increasing to 1 5 V at 200 MHz TDS 380 500 mV from DC to 50 MHz increasing to 5 0 V at 400 MHz Input Impedance External Trigger 1 MQ 2 in parallel with 20 pF 2 pF Maximum Input Voltage 300 V DC or AC CAT Il derate at 20 dB decade above 100 kHz to 13 V peak AC at External Trigger 3 MHz and above 1 Net Offset Offset Position x Volts Div Net Offset is the voltage level at the center of the A D converter dynamic range Offset Accuracy is the accuracy of this voltage level Table A 4 Power Requirements EE Name Description m Source Voltage and Frequency 90 to 132 VACpyg continuous range for 47 Hz through 440 Hz 132 to 250 VACnys continuous range for 47 Hz through 63 Hz Power Consumption 65 Watts 120 VA EN US TDS 340 TDS 360 amp TDS 380 User Manual A 3 e nd lt ho al MAG COR a Coan M sl tt NTU T INIA A Tabs LL ha 7m a LMG en ra een Y A a AN d sal Mul T DE CO A coto qoa a a a Th a K ul Dno 6 o 54 i VAM I i T M a uh A siis ig Peis Vy EE FEL ox NA IMPE TIR U A id alas FU Draf SL IE SR 207 0 IP PME LD j i T 1 mE AU s d Te TE Appendix A Specifications ye O Table A 3 Warranted characteristics triggering system II TOR Saree ai Desctiption Lo iN Trigger source Sensitivity T
8. kl Bed 1 D pt a mimi SISENEN Es nf l iis al H E 3 E S al BENE m Ilii P A WEE REL GL H L TD HC TOC oero oR HE Mal M ik i li Ep T II fiie I QUSE MN LO KR E Ex 0080 RE S rm n i E 2 U al Tu B E ES d s J ma rt ree RUR eran EE sil f 7 a hi s X i p i s SS o COM Fee a i he RENE AI j l bh i l EC l l E m did l erating Basics Ih i AL Y E 7 Ar Ty puki lor an es e mw PM Cian ae The Horizontal POSITION knob controls IER ERR r2 PEE the horizontal position of all waveforms AI rees Tk D HORIZONTAL j i m IH BEES Co qu The HORIZONTAL MENU button cails up va e NER the horizontal operations menu For more l Immo os ee ae Y acne b information about horizontal operations i lar LL see page 3 6 Ot o The SCALE knob controls the horizontal QU A meme e E scale of the active wavelorms cra E EM I I ia O H EAM h ul T E l l d i d do DUDEN 1553 M E di B A ned E S E l u WI LX ae G 2 3 T NS ico i ref 5 E mE Mdisan Tachnalagny f Quali j 22291 99 2 VWw_articanta com mm l l E ea inb cat i T E ep Mp C e Sir en e EA EEUU I Jal BUREN CPS MT B JN Opcrating Basics Wi bi Miscellaneous Controls li IE The MEASURE button calls up the I automated measurements menu See la page 3 17 for more information about j automated measurements A M
9. w 1 k N H initi U U UD 1 AL mo U Pa om n ll EMIT Ce H 1 u e 10 mV 54 6 mV C o3bATN 2032 2 2N8RT 5 mV 982 mV 4998 mV a Analog bandwidth E m ON E ue 42 NNUS N A oo gt Long term sample rate and delay time accuracy giveth m II ODI MM 2 0 Div Ec J e E G Edge trigger sensitivity DC coupled UM S M MTS i nn Main Trigger Falling stable tngger 1 Generator set at 0 6 V C AES E Generator set at 0 9 V U eg Ln Mhai sete ae mts TE R a RLE L y Cc 1 The procedures arc in three groupings Signal Acquistion System Checks Time Base System Checks and Triggering System Checks They check all the characteristics that appear in boldface type under Warranted Characteristics on page A 1 Prerequisites The tests in this subsection comprise an extensive valid confirmation of performance and functionality when the following requirements are met W The cabinet must be installed M You must have performed and passed the procedures under Self Tests on page 1 5 and those under Functional Tests on page 1 7 The digitizing oscilloscope must have been operating for a warm up period of at least 20 minutes and must be operating at an ambient temperature between 10 C and 53 C Signal Acquisition System Checks These procedures check signal acquisition system characteristics that are listed
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11. 2 Table C 2 International power cords Option Power Cord Al Universal European 220 V 50 Hz A2 UK 240 V 50 Hz A3 Australian 240 V 50 Hz TDS 340 TDS 360 amp TDS 380 User Manual C 1 DS OO UR iei a LS UTD Do uet a ATA GERE TT ET TORRE 5 ARENA Ill Appendix C C ym eer Accessories This appendix describes the various options as well as the standard and optional accessories that are available for the TDS 340 TDS 340 and TDS 380 TUR d I l H 4 4 l Hi bi n f l TI n l vi A h l b I I al I T qm Ux QU d 1 1 L 1 MM 1 pl il germen Lt lA o L 5 s W HT L 4 ie z m E i j ps iets LE i y wd e f a E 2 ae l E Appendix C Options and Accessorics Language Options Warranty Plus Service Options TRU ET REI I li eee AA Table C 2 International power cords Cont Option Power Cord Ad AB North American 240 V 60 Hz Switzerland 220 V 50 Hz Language options provide user documentation in following local languages see Table C 3 for options and manual part numbers Table C 3 Language options Language option Language Reference Std English 070 9434 XX Ci French L4 L5 F D m 23 L8 Standard Chinese The following options add to the services available with the standard Watranty The standard warranty appears immediately following the title page
12. Depth 471 mm 18 55 in stand alone instrument 490 mm 19 28 in with front cover installed 564 mm 22 2 in with handie extended Height 178 mm 7 in Width 483 mm 19 in Depth 472 mm 18 6 in without handles 517 mm 20 35 in including handles ye ieri us m ut i 1 dd H N NAIG d I p mmm U f p MA T Hb i UN ni ihi nfi TA m hed Whey J Di yh rr LU yr th H i 1 l l N vet BERN LITT alr hia 1 d E y NY i Be mb t a et de SR 1 1 aisy n 4 AN 1 i TU IWH l 1 d J d n En ilh 1 d DID Till D n g miii stet A g 1 fe UP i LIA HR p DUM wes tali i Vitia di IN kc eal i YA v MT i l 2 i An il T AN hi Jnd aus de MORIS ee v HH U OW t aat k i y Y HTH iM TR T an MET i t nun K H si ep m EDU e DU vali 0 A li f UT 1 i ae 1 ES My K T lm h 1 Halt 4 v l A r h INS P M y A i o gua a v i valla T E y p RIE V eit ne RM TR OR P E Y 1 R 4 LT 1 soe o Ngee ats iy 1 Hon EXPE i al eg 4 Hal l wo M Must rii H ce rn mr Bg n E kc m HE MI s MN ir p aay pe Sov ti tr ER Ua Y HINA My 1 A iN T RR A E ill d il wi TAN i Tuy a TED lle 1 d b I TT bO BAT i c l wey A v if IH Tln TRE OT S R R da d n H j H TE W Un Iy oye me 4 ill U att mel rad A ID fdh U D uat sa pee n 7 yo r MIO Tw bu hr ft NRI LA HA Mw tt N i DGH bpl ili Err TE ry pih
13. MIL WI QR MININ MNN MN NT MINN MAN AN MAN MININ l A II WR WR TIE TT MJ WU I MNN e 1 To properly install and power on the oscilloscope perform this procedure 1 Check that you have the proper electrical connections The rear label lists power requirements for all possible voltage inputs Check the fuse to be sure it is the proper type and rating Figure 1 2 TDS 300 Series oscilloscopes are shipped with a UL approved fuse installed Fuse specifications are as follows 3 mm x 20 mm time lag 3 15 A 250 V or 1 23 in x 0 25 in time lag 3 A 250 V Connect the proper power cord from the rear panel power connector Figure 1 2 to the power system Use the power cord clamp to secure the cord to the rear panel Leave space for cooling Do this by verifying that the air intake and exhaust holes on the sides and bottom of the cabinet where the fan operates are free of any airflow obstructions Leave atleast 5 1 cm 2 in free on cach side 5 Press the ON STBY button to power up the oscilloscope see Figure 1 1 9 HB A A E al MI JI IM a IM IM ra B iW al al a El co WI e MI E A sE il ee III Za B il xs ME E VII l a Eu im HL PU WE Nen er soni Bie riy wll II FUE p r TN LU ROME x v rmm n i nm I ini m H M if Getting Started Tektronix TDS 360 oan nue oscuoscore la 6 Uf ea laua ts mus K MMS IL A
14. a 1 dii at i lill RII d i 1 Um Ek A 0K ve 1 lam qai d o i n 0 84 unm je 1 ih Son uas aay 1 mi 1 S H e TTL A CT ll M d p to Le H n hi oH Pur 1 al ri 1 V lt AH ca ei T H OUT h nn rot yee x p b v UI U m DAD U QN z Ih n K fr nar i Er m DT 1 UR d n il i l ba v hm m 1 k j 1 1 H M mae bH d n hn ve d pr Mn a n dn CRT 1 U oo LA 1 L NIE MINI 4 f L ae Qi lal 1 k 1 j pers E Appendix A Specifications 471 mm 327 2 m 18 55 in 12 88 in 12 13 in e 391 mm 15 in Figure A 1 TDS 340 TDS 360 and TDS 380 dimensions TDS 340 TDS 360 amp TDS 380 User Manual e 7 rms purrur mr Mi OM TT l TTE D rT OAV TCT E i ty il Il Ln U vi y U T Ha he AA ANU ARE t jj L A A AA AAA r dD arra FTN a Bu MI h l ill il ET s opu m d PN CE i ni up yer t TEES Le x CS IR MS CE TE RR epee my ee is Da ae 2 l i N lE Bn au d i am Gindi Mint d f H es DE mee et AUTE dis O Appendix A Specifications a Table A 17 Certifications and compliances T EC Declaration of Conformity V M Ai A Cartifications FCC Compliance CSA Cartified Power Cords Overvoltage Category W MI Pollution Degree 2 7 cis il I UD IE TT Meets intent of Directive 89 336 EEC for Electromagnetic Compatibil
15. 500 Hz 10 minutes each axis operating 246 q ays from 5 to 500 Hz 10 minutes each axis non operating me B 8 ES TDS 340 TDS 360 amp TDS 380 User ery ay i M nu SUA 0 E mil Tarl l l Ii I ill Ii Il il N E i l l 1 B a H I N mu END H 0 ep re 7 ii H b g NER U A E A H Woe T 2o n n 1 E T t T bi Hi l Wi dl rip I NE thon MEETS LS E EN o M Mi Ji J r j ii i PEE pale no I pou nn sa H nea P oe i a ry m hod Il Jj LE Ti XE M a OS en S o T M MM i ii SE al D T ddl w k 2 Il iai i A O as Cala a alain HAE NE TW 8 a lu O mi ce TAa AA AA A ASAE AR Ni ANIANI asin vail ANANE NU NE tien bill Typical Characteristics Typical characteristics are described in terms of typical or average performance Typical characteristics are not warranted 2 Table A Typical characteristics signal acquisition system Name Description Accuracy DC Gain Envelope 13 for sec div settings from 5 Sec Div to 25 usec div Acquisition Mode 2 for sec div settings from 10 Lis div to 5 ns div TDS 340 II 2 for sec div settings from 10 us div to 2 5 ns div TDS 360 2 for sec div settings from 10 us div to 1 ns div TDS 380 Accuracy DC Voltage Measurement Measurement type DC accuracy sample Acquisition Mode Any Sample 2 0 x Ireading Net Offset l Offset Accuracy 0 13 div 0 6
16. B 3 i YS be S E D Conventions l E 7 Throughout these procedures the following conventions apply 2 m Each test procedure uses the following general format Title of Test E Equipment Required S Es Time Required I d Prerequisites Procedure E Refer to Figure B 1 Main menu refers to the menu that labels the seven e menu buttons under the display Side menu refers to the menu that labeis E i TDS 340 TDS 360 amp TDS 380 User Manual Jf e fi jj eene men a ia O E ren oa aaan nnn dopo A Rp I CES IA RTT LEE e 2 HEREDI EE EMI ME ENT Noli ARA AA 3 I L T ind Wh vl des A H WL TTT eiiie u il Appendix B Performance Verification III i IUE n I MU I l ia the five buttons to the right of the display Pop up menu refers to a menu i d that pops up when a main menu button is pre ssed U E a Where instructed to use a ir ont panel button or knob select from a main of II side menu or verify a readout or status message thc name of the button or II knob appears in boldfacc type n x Instruct ons for menu selection follow this format FRONT PANEL n BUTTON Pop Up if necessary Main Menu Button Side Menu III Button For example Push TRIGGER MENU Type Video Trig I ger On Lines Wik aa STOP This symbol denotes information you must read to do the procedure Hh properly wl l III II JI e JI I l MI II
17. MHz TDS 340 200 MHz TDS 360 or IM 400 MHz TDS 380 Hi l T 9 Press MEASURE Hi gh Low Setup Min Max II 10 Press the main menu button Select Measurement WII TII 11 Press the side menu button more until Amplitude appears in the side I menu Press the side menu button Amplitude III WII QI 12 Press SET LEVEL TO 50 M I TW I 13 Set the test si gnal amplitude for about onc division on screen Fine adjust the D ur generator output until the CH 1 Amplitude readout ind cates the amplitude M n is 500 mV Readout may fluctuate around 500 mV li T N l TI il WI un 3 E ARS ene ees ane A 3 MI IA HEN m nm RN SSS eee nd da HUE TUR DAD ELE KT pp LIH EM DA d n Ep iso do qme eb mid a dis d i i iE WWW Em com TIER HU joss 0 0 00 e aQ c 2 O Oo o o C um 000 o 99 aro Y 000500 g alll iui LRL b Appendix B Performance Verification 15 Press SET LEVEL TO 50 Check that a stable trigger is obtained for the test waveform on both the positive and negative slopes see Figure B 7 Use the side menu to switch between trigger slopes use the trigger LEVEL knob to stabilize the trigger 1f required Tek Run SOOMS s Average L Edge Slope T ts Fus set a signal with an a zanipliudoatthetinimumirigger Rem sensitivity m awha too cet ot BS Second check for a stable memre pe at both the positive and negative slope settings y UU ERIT
18. Measuring analog bandwidth 14 When finished checking sct the horizontal SCALE back to the 10 us div setting and set the generator output frequency back to 50 kHz 15 Press WAVEFORM OFF to remove Channel 1 from the display 16 Press CH 2 and move the hookup to the CH 2 input 17 Press TRIGGER MENU Source CH 2 18 Repeat steps 6 through 13 for CH 2 TDS 340 TDS 360 amp TDS 380 User Manual MR TAN TIA IB RR ERLE Do il l LULA qn ly MN Hl il L 1 h 2 P M M XT LR BI pra st O i Ly E T pe H m e O WED UU we 7 mm i e m l i Far VE sm eedem U N D v a j E iu An T i Selec a i pe First increase the reference eE teni frequency to the test frequency dS 52m Ia S 0 then decrease the horizontal e S K T scale Mi PUR CN p NN ou N S H ad us mE tT M emm os ba di A Second read the results E r2 E from the readout of n Lo Tarer E AET a measurement Pk Pk for CH H E Mese mecs moms f S di E 3 l AT A uS s Tul Wes UP Dee TE ate eoo a HHE PP AI ITI m a E d TEAM T pak Fae pipa E E PN AA A LL T DAA ES NU l ij L Y D et MEN niii ie ET a III UUE TII n wl Appendix B Performance Verification HL See I I Ht i 19 Disconnect the test hook up from the CH 2 input connector n n Time Base System Checks N l time base system and are listed as checked under Warranted Char
19. Probes Using Autoset pea Introduction see 244 wom mo m gm 9 9 ee 9 b m mo mp 9 B 9 kh 9 Manipulating Waveforms ee oo eee HH able opo rnm Horizontal Operations Displaying Math Waveforms Y Triggering Edge Triggering Vidco Triggering Taki ng Measurements o P do n o gy yy 7T 9 Pod kh k hu mm uum gag 9 t 9 kk k 5 css Automated Measurements Controlling the Display 00 0 ese eee nee te cee tt hann i Usine he FFT TT l 2 E Deseription Operation 3 Considerations for Using FFTs Making Hard Copies Option 14 Equipped Instruments Only Configuring Hard Copy Output T Saving a Hard Copy to Disk TDS 360 and TDS 380 only i TDS 340 TDS 360 amp TDS 380 User Manual i I lil TIT wl ie il UU ar grae ih A NW A Wi ER i IC Rt E e jen y pu w ed B 88r i IT i jud E MP ilii AA h I Tm M jii il In li RECON SH HE 3 H E RA E aL n o E Table of Contents il Table of Contents _ _ _ __ _ _ _ _ iit A L CR r nnan 9 i Using the Disk TOS 360 and TOS 380 al 3 B8 I Viewing a Waveform on a Spreadsheet z N Saving and Realin Pront Panel T N Using Internal Memory lil Using the Disk TDS 360 and TDS 380 only Using the File System TDS 360 and TDS 380 only d lil Using the Utility Menu lil Setting the Date an
20. Sine wave Digitizing oscilloscope generator Attenuators MT if necessary i ll Wi A WI WM A Power splitter Power sensor Figure B 8 Hookup for sine wave generator leveling U 7 k l 4 N 1 H H y d U NI ta i mr B 15 ll ll Ill i Ji TIT T MI I m i n I i i n li is ii DR G l 4 i i y h j s t D JE DU J LR qu Im Nec ma iind IT RM I Ii I TT Options Options include the following Option 14 1 0 Interfaces This option includes GPIB RS 232 and Centronics interfaces VGA video output and power for the DPU 411 printer It also includes the TDS 340 TDS 360 amp TDS 380 Programmer Manual You can connect a remote display to the VGA 9 pin D connector on the rear panel Table C 6 on page C 4 gives the part number of a properly shielded cable that is commercially available Because display manufacturers use differcnt pin combinations and connectors you may find the information in Table C 1 helpful Table C 1 VGA output connector pins Pin Signal 2 Video monochrome analog 4 Horizontal sync 31 5 kriz VGA rate 5 Vertical sync Ground Options A1 A5 Besides the standard North American 110 V 60 Hz power cord Tektronix ships international Power Cords any of five alternate power cord configurations with the oscilloscope when ordered by the customer see Table C
21. T T Hi ui SUTTON AR P dT E i 7 eM TH T ju A gi B gt N Check that the word Pass appears under Signal Path in the main menu Sce Figure 1 3 If Pass does not appear the oscilloscope has failed the performance verification return it to Tektronix for servicing i n fli Getting Started o Functional Test The purpose of this procedure is to confirm that the oscilloscope functions properly NOTE This procedure verifies functions that is 11 verifies that oscilloscope features operate It does not verify that they operate within limits Therefore when the instructions that follow call for you to verify that a signal appears on screen that is about five divisions in amplitude or has a period of about six horizontal divisions do NOT interpret the quantities given as limitis Operation within limits is checked in the performance tests which begin on page B 5 DO NOT make changes to the front panel settings that are not called out in the procedure If you make changes to these settings other than those called out in the procedure you may obtain invalid results In this case just redo the procedure fram step 1 Equipment Required One P6109B TDS 340 P6111B TDS 360 or P6114B TDS 380 probe Time Required Approximately 5 minutes Prerequisites None Procedure 1 install the probe on CH 1 Connect the probe tip to PROBE COMP on the front panel leave the probe groun
22. and 100 mV div the volts division can be set with 0 5 mV resolution A 7 Dik El I ik A T AS AA MS T iaa GG TT ial ih T I TN UTI l U pe i l Lin L l c 1 i A i A E 1M BIH NL RT i 1 f E UA AU AUS AUTO l t UN E bor TM b l U S BII W S VIII WII AT AS A i I T mm TN LEA e l I lE UU RA TESIS _ E 0 lh l mv Tm NEdE SH fbi mH IRR v H ES FAMAM TUAM M cC BE QI SI 2 n IT judi T Appendix A Specifications I un IS Table A 11 Nominal traits time base system al dt Gill SN EEN HHI a IBN mS a ante 2 II QT e lane Description i Range Sample Rate TDS 340 10 Samples s to 500 MSamples s in a 1 2 5 sequence bi TDS 360 10 Samples s to 1 GSamples s in a 1 2 5 sequence 1 TUS 380 10 Samples s to 2 GSamples s in a 1 2 5 sequence LS Range Seconds Division TDS 340 5 nsidiv to 5 sidiv in a 1 2 5 5 sequence ah TDS 260 25 nadv o 5 sdvin a 1 2 5 5 sequence nn TDS 380 1 ns div to 5 s div in a 1 2 5 5 sequence I Range Time Base Delay Time 16 5 ns to 50 seconds Record Length I UU 1 000 samples The range of real time rates expressed in sam I the samples in memory to produce a record of TM I ples second at which a digitizer samples signals at its inputs and stores I UU time sequential samples AU NU NU The Waveform Rate WR iS the equivalent sample rate of a
23. as checked under Warranted Characteristics in the Specifications section Check DC Voltage Measurement Accuracy WARNING Performance of this procedure requires input voltages up to 98 VDC AN Contact with live circuits could cause injury or death Be sure to set the DC calibration generator to 0 volts before connecting disconnecting and or moving the test hookup during the performance of this procedure Equipment Required One dual banana connector Item 3 one DC calibration generator Item 6 and one precision coaxial cable Item 2 Prerequisites The oscilloscope must meet the prerequisites listed on page B 5 Procedure I Set the output of a DC calibration generator to O volts TDS 340 TDS 360 amp TDS 380 User Manual B 5 TT m A Va A MAA eS io ll Co aa Es ee DERE IN L s lN IE HO b i did i lal linha MM uH s Min E la ll i b T U W Appendix B Performance Verification L Performance Test Overview Time Required Approximately 35 minutes i G s l i f l j T nn E T M 00i i Pi H dan li Hn 1 i Appendix B Performance Verification 000000000000 E Nu I A 2 Connect the output of a DC calibration generator through a dual banana A il connector followed by a 50 2 precision coaxial cable to CH 1 as shown in li Figure B 2 D gaDt 0 0 D 4 DC Calibrator Output Sense CX C7 7 71 T er oH a l WiN
24. d i L E Il j Mi bE vN WW Rye pe Lae EN 7 E el L ll i a hil Her ly M L W m Al H Hae E 1 pora RO SER E pe E i T i I dy m MILL Tu eer hei QE ua TOM C EE a TT BETH ate 1 MS UU NNUS zum RUP ate ee repro um d p RI HU UT m MLA UA A RA ANA 2 S 2 id d 07 2 quor m 12 totes renin a rnd DET p d D me e us du G Z ee VERE CE a pee LO TUE ee gua nnt CER i s pon RUE iis L ka L E EE AAA pirate n H y ui This appendix contains complete specifications for the TDS 340 TDS 360 and TDS 380 The specifications are divided into three subsections one for each of U 2 N Warranted Characteristics p Ww a pr A Pra RUM LEE ds ZE A v GU APR ee pares i three classes of traits Warranted Characteristics Typical Characteristics and Nominal Traits Warranted characteristics are described in terms of quantifiable performance limits that are warranted This subsection lists only watranted characteristics i M NOTE In these tables those warranted characteristics that are checked in the a Performance Tests starting on page B 5 appear in boldface type under the I columna Name I Performance Conditions ed The electrical characteristics found in these tables of warranted characteristics I apply when the oscilloscope has been adjusted at an ambient temperature between 20 C and 30 C has had a warm up per
25. in x 0 25 in 3A T 250 V A 9 it l i IT PE d E IN i H DU j Er a MEI 7 LIU rui tt Bb E ae i W Hil bi li Al Ms 1 IT A Name Appendix A Specifications Description Table A 16 Nominal traits mechanical characteristics ly agil i mi Weight Standard TDS 340 Standard TDS 360 or TDS 380 Rackmount TDS 340 Rackmount TDS 360 or TDS 380 Rackmount conversion kit Overall Dimensions Standard Instrument Figure A 1 Rackmount Instrument hie 6 8 kg 15 lbs stand alone instrument 8 4 kg 18 5 lbs with front cover accessories and accessories pouch installed Pi m 12 7 kg 28 lbs when packaged for domestic shipment 7 0 kg 15 5 lbs stand alone instrument o 8 6 kg 19 lbs with front cover accessories and accessories pouch instale 12 9 kg 28 5 ibs when packaged for domestic shipment 6 4 kg 14 lbs plus weight of rackmount parts for TDS 340 Option 1R a 14 5 kg 32 lbs when the rackmounted TDS 340 is packaged for domestic shipment 6 6 kg 14 5 lbs plus weight of rackmount parts for TDS 360 or TDS 380 Option H 14 7 kg 32 5 lbs when the rackmounted TDS 360 or TDS 380 is packaged for domestic shipment 4 5 kg 10 lbs 7 5 kg 17 5 lbs when kit is packaged for domestic shipment Height 191 mm 7 5 in with feet and accessories pouch installed 165 mm 6 5 in without the accessories pouch installed Width 362 mm 14 25 in with handle
26. l Il I 10 1l volesse E i E EJ an l 1 Press any of the front pane menu buttons 2 Select an iter from the main bottom menu ill A ll ais ER il TESTI e d EI Sj Rug esset al sas rj aa al all I m I mh O 5 amp B 1 A U I T TE Os 08 0 0 Am pol Cia L Il 3 Select an item from the side menu if di isplayed 4 Adjust menu item values with general purpose knob n Il NY Figure 2 1 Using menus E W NN 1 ES I l Push one of the indicated front panel buttons to call up 3 menu of functions E l 1 A This first menu is the main menu Sometimes the main menu will be a side _ Z un menu step 3 but most main menus are bottom menus me a E E TDS 340 TDS 360 amp TDS 380 User Manual A Y M I 3 UN a i 1 RO i Bly petit Pn Uis bI A alihi h Du T i T U Mm i 1 1 l 1 EAST b 4 du ijl Aa Mul ar mid MK i DAD TN 1 HIR ntah lll o Da 1 U 0 U ty MU 1 t M 1 bau uc Operating Basics Ang pu AA A Er m if the function has no subfunctions it becomes active If it is a variable EL SEAT 25 E Push a bottom menu button to select a function One of three things result function you can now use the General Purpose Knob to adjust it step 4 a E i j oe E If the function has subfunctions they appear on the side menu step 3 T i us l The leftmost bottom menu button s
27. specifications Depending on what you E a TEE want to accomplish you may prefer to perform another procedure you can find T elsewhere 1n this manual ee a he PA To rapidly confirm that this oscilloscope functions just do the procedures I provide high confidence that the oscilloscope performs properly You can use T S T it as a quick check before making a senes of important measurements E MES Advantages This procedure is quick to do requires no external equipment mit a or signal sources and performs extensive functional and accuracy testing to y 5 Ir begin on page 1 7 S i Advantages Thesc procedures require minimal additional time to perform Ke To further check functionality do the procedures under Functional Tests that require no additional equipment other than a standard accessory probe and more completely test the internal hardware of this oscilloscope You can use them to quickly determine if the oscilloscope is suitable for putting into m service such as when it is first received T A i oo If you need a more extensive confirmation of performance do the Perfor T ue mance Tests in this appendix beginning on page B 5 after doing the i a Functional and Self Tests just referenced gt Advantages These procedures add direct checking of warranted specifica G tions They require more time and suitable test equipment See Equipment Required on page
28. traits are described using simple statements of fact such as Two Tes QE iss identical for the trait Input Channels Number of rather than in terms of II a EET limits that are performance requirements IR x Tabla A 10 Nominal traits signal acquisition system AE mme os Description ie H 20 MHz and FULL Is Wr Two identical digitized simultaneously e 8 bits Fama os Two identical called CH 1 and CH 2 a S DC AC or GND l Nl eee Volts Div setting Offset range I aa e 2 mVidiv 99 5 mV div V 100 mV div 885 mV div HOV ic o RN 1 V div 10 Vidiv 100 V 2 57 Range Position 5 divisions Range Sensitivity 2 mV div to 10 V div S s R Rise Time TDS 340 3 5 ns i ae TDS 360 1 75 ns TUS 380 875 ps 23 E dnas i TekProbe Interface Level one probe coding NO TERR U od NR Ine Displayed vertically with 25 digitization levels DLs per division and 10 24 divisions dynamic range with zoom off A DL oc the smallest voltage level change that the 8 bit A D Converter can resolve with the input scaled to the volts division sir Setting of the channel used Expressed as a voltage a DL is equal to 1 25 of a division times the volts division setting The sensitivity ranges from 2 mV div to 10 V div in a 1 2 5 sequence of coarse settings Between consecutive coarse E Settings the sensitivity can be finely adjusted with a resolution of 1 of the more sensitive setting For example between 20 mV div
29. waveform record For a waveform record real time sampling of a single acquisition the waveform rate is the same as the real created by interpolation of reai time samples from a sin acquired by l acquisitions the waveform rate is faster than the real ti UU i UU time sample rate for a waveform V Waveform Interval for the waveform record where wavetorm record UU es i II gle acquisition or by equivafent time sampling of multiple T the waveform interval W is the tima between the samples in the I l l Table A 12 Nominal traits triggering system ay Name Description mE TIT S SI Ranges Trigger Level Range MN Any Chantel F2 vison fom cetero sereen LL 215 Vot EM ou s HE E 300 Volts III Triggers from sync negative composite video 525 to 625 lines 50 Hz to 60 Hz interlaced UT me sample rate For all three cases the waveform rate is Formats and Field Rates Video Trigger UU AU i UE or noninferlaced systems with scan rates from 15 kHz to 65 kHz such as NTSC PAL or His SECAM l Level one probe coding T En M TI NM A TM TII l UM TM 4 AAA I 6 A E TII A A TDS 340 TDS 360 amp TDS 380 User Manual k NN TekProbe Interface External Trigger QI II so ri arh II passsat E ARA MINI A RR RAIN eS Us HEEG mea tiura ME vatna nl s un I THAN Al Us Al LEE 1 uL N ee att a Rez L Ses a Ua UC rt A LABS visa O de duc Wa dp dp
30. 1000 DO K U rete tot Mm l S IE mm FEE e sa s dust ois s co citu a tnmen L en ro i de ININ y H S OM II HL ul it Wa V pispe Nop Opcrating Basics The Status Readouts show trigger status and acquisition status mode andsamplingrate or humber of acquisitions uu Indicates position of vertical bar Trigger position T The waveform record icon cursors in the waveform record Shows what part of the waveform record is displayed Channel ground KB hr 4 T The Channel readout shows the vertical acale of all active channels n i I IU ma Ail ll l i Mle M N l The main menu offers a choice of major actions a HIE tie oos LL Sel to TTL T set to ECI The Time base readout shows the time base setting M indicates M ain time base D indicates D elayed time base Wy Hh I g A AU N The valve entered with the general purpose knob When the general purpose knob is first assigned the knob icon appears here Cursor measurement readouts See page 3 21 for more information about cursors The side menu offers a choice of specific actions and whether the oscilloscope Is triggered on the rising or falling edge of the waveform When in video triqger mode the readout displays source and trigger feature Field 1 Field 2 or Lines TDS 340 TDS 360 amp TDS 380 User Manual 8i jd 068 BB 8 Bi fs onm i llaol
31. Accessory Heference U S Power Cord Probes quantity two P6109B 10X Passive TDS 340 I Probes quantity two P6111B 10X Passive TDS 360 I Probes quantity two P6114B 10X Passive TDS 380 You can order the optional accessories listed in Table C 5 Table C 5 Optional accessories Accessory Scope Camera Oscilloscope Cart Rackmount Kit for field conversion Soft Sided Carrying Case Carrying Case Deluxe Transit Case Front Cover Accessones Pouch UO Interface Field Upgrade Kit Docuwave waveform capture utility software tor the PC Printer bubble jet 360 dpi 83 cps plain paper Panter portable thermal 112 mm paper Paper for DPU 411 printer package of five rolls Programmer Manual service Manual oe gnp Wn WM au Mene vb a s eem 1 FAL Part number l l Hood 016 1154 01 K212 016 1166 00 016 1158 01 016 0792 01 016 1157 00 200 3232 02 016 1159 00 TD3F14A S60 DWAV HC 220 DPU 411 006 7580 00 070 9442 XX 070 9435 XX I A il l J ES Ha a i Wi e E am P ERU AA were 1 b M E a 1 S C EEES TA A TE ot n A j i ERU pr BEEN ak ene ql i 5 CH O oo U WAI Appendix C Options and Accessories Accessory Probes These are other types of probes you can use with the TDS 340 TDS 360 and TDS 380 You can order the following probes separately RN P6lOIB 1X Passive Probe m P6129B Switchable 1X 10X Passive Probe not re
32. Acquire Mode Acquire Stop After Display Style Display Intensity Overall Display Format Horizontal Position Horizontal Scale Honzontal Jime Base Trigger Position Trigger type Tngger Source Trigger Level Tngger Slope Trigger Coupling TDS 340 TDS 360 amp TDS 380 User Manual Hi I Las Ji m T4 pi T l EA IW T dee BRE sample RUN STOP button only Vectors If less than 50 set to 75 YT Centered within the araticule window As determined by the signal frequency Main Only Unchanged Edge Numerically lowest of the displayed channels the selected channel Midpoint of data for the trigger source Positive DG 2 15 vi ud id s M Nn i Y Jpn m Tm H I WM ate di E T BERE HE IB TE qn dai if NN i T Wa L wr o TM E S UU HA ete UNE A B mE o TOOK gt lt B i y i e Changed by autoset to 7 ertical ji me As determined by the signal leve III eee DC unless AC was previously set a AC remains unchanged I E Vertical Bandwidth Full Doso ms soe msasouamma l l us T Me 54 E E a p mci p ee AM LZ DILE E Tu II M OE Eas Ih nnn OH VS a A HELL ngos cUeh am YES l Hl H i i SELL be a 8d S NT A rem emm TEES Quality wenaenn Guaranteed 888 88 SOURCE www artisantg com ti RE H Ht a
33. EL TO 50 triggers the signal that you just left untriggcred 13 Press the front panci button ACQUIRE the main menu button Mode and then the side menu button Sample 14 Check that the oscilloscope displays an actively acquiring waveform on screcn Note that there is noisc present on the peaks of the square wave 15 Press the side menu button Peak Detect Check that the oscilloscope displays an actively acquiring waveform on screen with the noise peak detected 16 Press the side menu button Envelope Check that the oscilloscope displays an actively acquiring waveform on screen with the noise displayed 17 Press the side menu button Average Check that the oscilloscope displays an actively acquiring waveform on screen with the noisc reduced I5 Press WAVEFORM OFF to remove Channel 1 from the display 19 Press CH 2 and move the probe to the CH 2 input 20 Repeat steps 3 through 17 for Channel 2 TDS 340 TDS 360 amp TDS 380 User Manual mw A m om F W D E mmu r eten Eea araa natt t tton UB M t ij ME RAT Mibi MNN MIN TI MM WI II TE Ti UI aM T II T i i 7 n n IIT K WI EM I A AN WII T E TE l W qu x NI i uli A n E 7 WU oo TM a TH n wi i NI T dus I Hl ai oo mmm HU B A HHA t UN WM TT ml go i TI E N I TM WM E nm UN UN ece WANN m T HU E MI NE T TT IT cr A UT
34. Hookup for analog bandwidth check s III Figure B 4 Measuring analog bandwidth sees III Figure B 5 Hookup for sample rate check esee esee A Figure B 6 Hookup for trigger sensitivity check 1 i II Figure B 7 Measuring trigger sensitivity esee ii III Figure B 8 Hookup for sine wave penerator leveling Tm fru MI d A d 21 Hl ji il a N TDS 340 TDS 360 amp TDS 380 User Manual f E 11 RT A E E PP ill AIDA ASA M M DNI 1 uocat TN s d cr Up I BRE U d iib H Ia e Pg Gg no ib UE d T VH i LA ad dul DUERAM iE Dio RU P8 P BN T Ru M u S 1 B 1 xL i H d Table of Contents Table 2 1 Autoset defaults l c mmm mmn 215 Table 3 1 Measurement definitions a otro 3 19 Table A 1 Warranted characteristics signal acquisition system A 1 Table A 2 Warranted characteristics time base system A 2 Table A 3 Warranted characteristics triggering system A 3 Table 4 4 Power Requirements essem A 3 Table A 5 Warranted characteristics environmental A 4 Table A 6 Typical characteristics signal acquisition system A 5 Table A 7 Typical characteristics triggering system Table A Typical characteristics probe compensator output Table A 9 Typical characteristics data handling Table A 10
35. I wi i de NES CH1 or CH2 3 of Setting Net Offset 0 2 div x II Bree Eum n volts div setting Offset Accuracy PEER External 6 of Setting 20 mV TDS 360 50 mV from DC to 50 MHz A A T a a seins itll RAA E nih ne n i M Wie MN H I Appendix A Specifications Table A 5 Warranted characteristics environmental Name Atmospherics TDS 340 Atmosphencs TDS 360 or TDS 380 Dynamics A 4 Description Temperature 10 C to 58 C operating 51 C to T1 C non anerating Relative humidity to 95 at or below 40 C or to 75 from 41 C to 455 C Altitude To 15 000 it 4570 m operating to 40 000 ft 12190 m non operating Temperature without diskette in floppy disk drive 4 C ta 50 C operating 22 C to 60 C non operating Temperature with diskette in floppy disk drive 10 C to 50 C operating or non operating Relative humidity without diskette in floppy disk drive to 80 at or below 29 C or ta 20 from 30 C to 50 C operating to 90 at or below 40 C or to 5 from 41 C to 50 C non operating Relative humidity with diskette in floppy disk drive to 80 at or below 29 C or to 20 from 30 C to 50 C operating or nan operating Altitude To 15 000 ft 4570 m operating to 40 000 it 12190 m non operating Random vibration without diskette in floppy disk drive 0 31 g nys from 5 to
36. I WI b B i wl mh E l WE i ll A Mt W E a gt N NIU um ool NE Fit e LL COUTE DEINEN meth a Py VM TEL EGER Tek Run 30Dk s sample signal Path Compensation SPC corrects Inacturacies caused b kH peratury vaa id and or long tertn drift SPC can be run any Uitte after the osciltascape is warmed ub and thould be run whenever the oscilloscope 5 ihan st temperature nas ch y more n 5 C oF otce a week if ver ed an of 5 m div or jess are used 3 SPC wilt be adversely affected by Input signals with AC components Discontect ar atherwire remove these signals prior to rumning SPC SPC will take approximately 4 minule to run a ha MA M AS 8 Pop Up Menu Timing Pass trigge r Figure B 1 Menu locations iM S TDS 340 TDS 360 amp TDS 380 User Manual Test Equipment Table B 1 Test equipment Item number and description 1 Termination 50 two required Cable Precision Coaxial two required Connector Duai Banana Connector BNE T Coupler Dual Input Generator DC Calibration Generator Leveled Sine Wave Medium Frequency Generator Leveled Sine Wave High Frequency Generator Time Mark Probe 10X included with this mstrument NH la T T N Appendix B Performance Verification These procedures use external traceable signal sources to directly check instrument performance If your test
37. IN The UTILITY button calls up the utility The floppy disk drive provides The RUN STOP button starts i menu See page 3 59 for more mass storage for waveforms and stops acquisition I information about utilities selups and hard copies IS The AUTOSET button automatically sets The HARDCOPY button starts print A up the instrument to produce a usable operations See page 3 41 for more j IN display of the input signals See information about making hard copies T Ie page 2 15 for more information about I the autoset function i i The General Purpose Knob controls many l E side menu functions including the cursors A fume The SELECT button switches control from HAN cursor tO Cursor The ACQUIRE button calls up the i I acquisition menu See page 3 25 for lie more information about controlling Ww The SAVE RECALL button calls up the acquisition A ll save recall menu See page 3 45 for more V information about saving and recalling E waveforms See page 3 51 for more IUE information about saving and recalling I Setups T The CURSOR button calls up the cursor III te menu See page 3 21 for information about making measurements with cursors IN The DISPLAY button cails up the display WI Al menu See page 3 27 for information Is about contralling the display TDS 340 TDS 360 amp TDS 380 User Manual 2 5 We IT m PTT m l mi L ui in Ap l w ATO eua i TOL ily O Tie adl dalee 1
38. NTALS ITAR CERTIFIED ee Mus Contact us 888 88 SOURCE sales artisantg com www artisantg com
39. Nominal traits signal acquisition system Table A 11 Nominal traits time base system su Table A 12 Nominal traits triggering system een ne Table A 13 Nominal traits display system Table A 14 Nominal traits UO interface option Table A 15 Nominal traits power distribution system Table A 16 Nominal traits mechanical characteristics Table A 17 Certifications and compliances x x s s s a x x Table B 1 Test equipment s s s s x x x x x ahhh raro Table B 2 DC ACCUrRCY coisas ATAOE XRK N EE ER E OR ACERO E eden Table C 1 VGA output connector pins x s s x x x x a e K aa aaea Table C22 International power cords 0 lt x x x x x K x KaK a N Table C 3 Language options PO Table C 4 Standard accessories sese hA Table C 3 Optional ACCESSOTTES eese tn Table C 6 Accessory Cables ccccccccsacsscsscecesusssszees ie es Nn TT Mau ULL ETE T T B HEN CPU PNE OAN NATALA ay oe Acie porn NE rene WIE MELA RECIEN pee n G S ELM Arale Z ci n M Vie EAE VEA dA E d RA S ae Pear ERE UE BOE PAR Nun i WI RR E ud Tektronix TDS 340 TDS 360 and TDS 380 oscilloscopes arc digital signal processors and are superb tools for displaying and measuring waveforms Their performance addresses the needs of both Seno lab and portable applications with the following features Two input ch
40. Rp t e 7 E i n TRI E IL N TC MU Th me oro epi l za E i laat sA lv I S E x 1 Soa b s E E D r 5 U i U VJ Mi e E pui Yo 0 x T A E h v on DD E Factis L HE md m T an da ES dd i mn dI ANA acl Ld n Kw Ten RHA RES x PRL hete pong pu i Ie TP carmen s Meggy RET sedi e het rib A fe TI S IR NET hae genet STT ens EA ae PNE a T RAL H PAM MA n M g pr DE AT Lal WEL DR Ka oa OMP h 0 T E a L A L ta d Tuc o E RH aem ST b TES EU di CRUS Sr o UB THT t DLE xL eM ei UE U US i w UK TT e OD oa A dn s d Ppr E k wy U N 8 U Dm Lar v i M e DN s ro U U DT 1 at lt er RE N A DN AA e e U n i y DTE i Y A ae da Im LE R Jas 1 at i N m li A ie KMR 4 y i Wu us nar ee Va pm NIE a 1 1 U g ut g A d ae L i CENE BUR Lu in C ACE X C Erro O Y MAAN VH Dr i L U rre A y XE Aa Idee we teres S ERIS PRAE Tr Pr G ie Me d CXV VI Ing OO AA LE NET n m D 24 n ze ius S C dn hz D j LX E ch E ET ie s pee sa en saat te S sis tise Na k yam SE C LE s EUN qe EY Aa E PUITS VEI B AE LA T E E Ur M T T TRA h Uo aaa d Ya er Wilh s i jl r I L TO b i ni ME LM ved on PL dY Pan DAD mrs ii esl EL s l b M Mi i v d PLN A t4 mr 1 rl 4 E us xt i CU be ttes l DL MM under Self Tests which begin on page 1 5 al UN 2 S x The procedure in this appendix verifies that the TDS 340 TDS 360 and a i r E TDS 380 oscilloscopes meet warranted
41. Signal interconnection P61098 TDS 340 P6111B TDS 360 or P6114B TOS 380 The high frequency leveled sine wave generator is only required to verify the TDS 380 not the TDS 340 or TDS 360 If you use the example equipment refer to Sine Wave Generator Leveling Procedure on page B 14 for information on obtaining a leveled output from an unleveled sine wave generator H available you can use a Tektronix SG504 Leveled Sine Wave Generatior in place of the example equipment TDS 340 TDS 360 amp TDS 380 Uscr Manual RG aa ES KE Kare 8 2 L ENE E TH vi ROM MIN A i U H GITR x H ao n m i TT eer OTE shee pot Appendix B Performance Verification Test Record a Photocopy this page and use it to record the performance test results for your i js A instrument EL S M rr ee d ERA TU Instrument Serial Number Certificate Number s dt i Temperature RH EC m Date of Calibration Technician E 0 EN Ss M 2 S DC Voltage Measurement Accuracy 50 mV 881 mV 919 mV CH1 VOLTS DIV 1V 97 1 V 498 9 V 3 cM in 200 mV 8 28 V B52V RM a z 50 mV 581 mV a BI9mW CPC ded CHe VOLTS DIV A at 50 mV 10 mV 5 mV 200 mV 50 mv 50 mV A at50 mV 286 mV 454 6 mV 982 mV 97 1 V 48 28 V 581 mV 881 mV 4286 mV 314 mV 465 4 mV 998 mV 498 9 V 8 52 V 619 mV 919 mV 314 mV HI tro Td h a ries QU atts 1 Wm y pi H i a3 l C
42. T mos d 0 u li H t C l li il Jt 1 i jl T T E Hoo ON STBY button Figure 1 1 The ON STBY button Line Fuse Replacement Ses A WARNING To avoid injury or death unplug the line cord fram the line voltage power source before continuing 1 Have handy a flat bladed screwdriver 2 Sct the oscilloscope so its bottom is down on the work surface and its rear is facing you Find the linc cord on the rear cover See Figure 1 2 Unplug the line cord from its receptacle Find the fuse drawer beneath the line voltage plug on the rear panel Now pry open the drawer with a small flat bladed screwdriver and remove the line fuse See Figure 1 2 Moi E da e TDS 340 TDS 360 amp TDS 380 User Manual 1 3 mo min TT PA gp RET erui DE T iU Manca ERE SIEUT irai rrr m Tm NI S BI UL RARE pe o ES qi jul H TH Iti L J IRI S Ti Sg l ANE Ra A MEE a NO ED AC LI Getting Started Figure 1 2 Line fuse removal 5 Reinstallaty CHOR Do in reye i rse stene then the line cord Steps 4 through 2 to reinstall the line fuse and TDS 340 TDS 360 amp TDS 380 User Manual 3 Artisan Tect O QC TS OUD Q ualit Instrumentation Pers Guarar CC Pr LAA SIR on He a PPP Ie ONO TT va m T ar R O ITR eco JEU NER IN ERA li I EE IH UN t RR MOST ee tio Getting Started This procedure uses internal routines to verify that the oscilloscope functions and passes its inte
43. acteristics in I T the Specifications section n WII WI ITI I TI Check Long Term Sample Equipment Required One time marker generator Item 9 one precision III Rate and Delay Time vanigi MAN coaxial cable Item 2 and one 50 Q termination Item 1 P NIL Accuracy III I Prerequisites See page B 5 Wii ih Procedure I 1 l m A Connect through a 50 Q precision coaxial cable and a 50 Q termination the gt II time mark output of a time marker generator to CH 1 as shown in Figur Mil HAL B 3 Set the output of the generator for 10 ms markers TI S DW MT A wi Time Mark iii Generator a i H I WII hi gt W N u R E 3 MI bi bi D ez olli A Figure B 5 Hookup for sample rate check i Hil WI 3 WII WII II WII III 2 Press SAVE RECALL SETUP Recall Factory Setup OK Confirm ITI o NI I nian H Set the vertical SCALE to 500 mV div h I TW Press SET LEVEL TO 50 use the vertical POSITION knob to center EE Mil li the test signal on screen ill wl e ni ye Set the horizontal SCALE to 1 ms div l l Sl enm III T Hk aa W T a W TDS 340 TDS 260 amp TDS 380 User Manual d I WE ni A ee n nS ERG be uff RR E A obs SL T or n POR ale gru is S ade j FE Wee nU Jo e UCM oss Ms s yds Press HORIZONTAL MENU gt Trigger Position Set to 10 Delayed Only Set the horizontal SCALE of the D delayed time basc to 1 ms div Then use thc General Pur
44. annels each with a record length of 1 000 samples and amp bit vertical resolution Both channels acquire waveforms simultancously 2 Gigasample second maximum sample rate TDS 380 1 Gigasamples second maximum sample rate TDS 360 500 Megasamples second maximum sample rate TDS 340 400 MHz analog bandwidth and fastest time base setting of 2 5 ns div TDS 380 200 MHz analog bandwidth and fastest time base setting of 2 5 ns div TDS 360 100 MHz analog bandwidth and fastest time base setting of 5 ns div TDS 340 A full complement of advanced functions including on screen readout AUTOSET cursors continuously updated automatic measurements and FFT Waveform averaging waveform enveloping and hardware peak detection Floppy disk drive TDS 380 and TDS 360 for mass storage of waveforms setups and hard copies A unique graphical user interface GUI and a logical front panel layout which combine to deliver the standard in usability pioneered by the TDS family of oscilloscopes TDS 340 TDS 360 amp TDS 380 User Manual VA EA i ET ZEIT Cod d bal T Ass sos iua idm Es am A Wi MI AM n ANDER i nh I duni TIAS Ru HI E TEI i B nux i j pee n S RERUM 5 1 Hp Getting Started E he diran vez petra oe U N im rezh lt mt Y J x mme v a ey be Rn uem Yn uu irm uu mime ton ZW UT th bts etm T TITTEN gt FU i aT en II n 1 WR NN IU WNN l MAN WI i
45. be specifications and instructions see the instruction manual packaged with the probe Connecting a Probe To connect a probe to the oscilloscope attach the BNC end of the probe to either 77 the CH 1 or CH 2 input Be sure to twist the probe end clockwise until the BNC iii is fully locked Scc Figure 2 3 i 1 wag J Jap dSn LN U IA QUE Y hN PRI 8 PO eot WN ty pm TEN DEM eT p o 1 Sent n mih ELE Am mn PE sha D t t s i i m nov e ELT 1 ee N 2 9 NE 0 D 1 G 1 ile m 1 s npe 1 j 7 m EL 1 D LE mr A T K l R uu E 3 Compensating a Probe Use the following procedure to compensate the probe every time you set up your oscilloscope heal 1 Attach the probe BNC connector to the CH 1 input and attach the probe tip n e y to the PROBE COMP output signal as shown in Figure 24 Attach the E arn probe ground clip to the outer ring of the CH 2 BNC E 3 D a D Dmm n g v ij s n Ih nata at a be ie wt hall E LEE 106 THE 1 Sra J d ean d A X N J O sn DN R ut teal 1 E tw eu Ai wee AERA i QUU aam He D D Y Y mi TL tis A H oa et gta j A UTE N E m 1 aie a ow Me hi 1 yl 5 U md aw Du EPEE E iba P y 5 re ilk PRAE E t J Miis i ME uy fino 1 T N 1 UO A n x wh i MC v4 m Di v Ld N Vii 4 L nas LONE j f d TP hal Hf oy i a U D BN eg n
46. cal graticulc line 8 Press the main menu button Time Base then press the side menu button Artisan Technalas OQLID Ciel a entation orate a 000 OO CC e a rr MIENNE NEMPE RIN Mr T m sa s doit eea RTT LCD Mp AR T KS ho A p B Jr un u R UO i E oe a a ke tt od Cd cte EM HE HE Wu hostis tiig ori mE NEEDS SPACE RUNI eid Ir W EL ud EN A bi mE l 4 Ii Appendix 8 Performance Verification il Appendix B Performance Verification OOO II III II TH n WIRE II wig Procedure a I hti Pr 1 Press SAVE RECALL SETUP Recall Factory Setup OK Confirm n TIT Factory Init IE mil II II E II M oct the vertical SCALE to 500 mV div Ht l II 3 Set the hor izontal SCA LE to 10 ns div M 4 Press TRIGGER MENU Made Normal gt Press ACQUIRE Mode Average 16 II TA 6 Connect one 50 Q cable to the output of the sine wave generator Attach a III l WII BNC T connector to the other end of the cable Connect a second 50 Q cable II to the other side of the BNC T connector 2 II 7 Connect the BNC T connector to CH 1 connect the cable to the EXT TRIG II input through a 50 2 termination as shown in Fi gure B 6 I MI II Hl Levaled Sine Wave Mi NIN Generator b l W mi II a To Ext Tigger T DET 500 I T Termination I WII II n Figure B 6 Hookup for trigger sensitivity check I 8 Sct the venerator fr equency to 100
47. commended for the TDS 360 or TDS 380 P6408 TTL Logic Probe P3100 High Voltage Probe P5200 High Voltage Differential Probe AM5035 DC AC Current Probe System P6561A5 SMD Small Geometry Probe Accessory Cables Table C6 lists cables you can use with the TDS 340 TDS 360 and TDS 330 You can order them separately Table C 6 Accessory cables Cable type Part number GPIB 1 meter 3 3 feet 012 0991 01 GPIB 2 meter 6 6 feet 012 0991 00 AS 232 9 pin female to 9 pin female connectors null 012 1379 00 modem 76 inch for AT style computers HS 232 9 pin female to 25 pin female connectors null 012 1380 00 modem 76 inch for PC style computers RS 232 9 pin female to 25 pin male connectors null 012 1298 00 modern 9 feet for serial interface printers RS 232 9 pin female to 25 pin male connectors 15 feet 012 1241 00 for moderns Centronics 25 pin male to 36 pin Centronics 012 1214 00 2 4 meter 8 feet for parallel printer interfaces NEC VGA video cable Use an appropriate adapter 73893029 when other than a 9 pin monitor connection is needed CA TDS 340 TDS 360 amp TDS 380 User Manual mmm KL las E E T n p SS Robi 888 18S QUE d EPUM E LEN a li TM An TR WI I l E J LACAN W phar E MEUM a PLE Ci COQUE gar Protect the oscilloscope from adverse weather conditions The oscilloscope is not waterproof CAUTION To avoid damage to the oscilloscope do
48. cx Fani The CLEAR MENU button clears Ht alt menus from the soreen The ON STBY button toggles The Main Menu buttons provide access to instrument power main menu selactions See page 2 9 for more information about the user interface i Ii i Ii f SR VAR i i lh in Wi i liiui ph N T rte N m bn f h p pn metto stmt Y pu yy OA r A IA ATA ree T mmr one a ee M LITER l H I ARI PP l II ill V LAM j J M li n Ji m T v T b 7 V Quality l jw em das LL 38 38 SHL de g ate p i T No I T T i i hi T NI L I apb ie 7 ETT Ir Mi M N U i i ELM B Tien l had n i P I Operating Basics Verical Controis The Waveform Select buttons display andselectwaveforms CH1 CH2 MATH REF1 and REF2 A light next to a button illuminates when that waveform is selected Connector ta chassis ground Probe compensation output See page 2 12 for instructions on how to el i uE IHH et AS POSITION kra The Vertical POSITION knob controls the vertical position of the selacted waveform VERTICAL TEE a MEN O The VERTICAL MENU button calls up the vertical operations menu For more information about vertical operations see page 3 3 D wur The SCALE knob controls the vertical scale of the selected waveform The WAVEFORM OFF button turns off the selected waveform compensate the probes Ka ATA d a l UN 1 dazen I ua E y wat tel da a e
49. d Time uM Appendices H I Appendix Specifications Warranted Characteristics Typical Characteristics I Nominal Traits Appendix B Performance Verification il id s Mi iv Time Base System Chocks Il Tri ager IUD Checks M ih Appendix C Options and Accessories l I C Options Ii S 1 Il Pere meer Il Jl eed a EN il Appendix D General Care and Cleaning al General Care 4 ll g NI Glossary I index j i I i E E Ill MN A II E a Il S BY TDS 340 TDS 360 amp TDS 380 User Manual we JES a TY 1 inn T B ia 1 1 n m nm i j Y pu us a nr 0 ae v m Ni VA A E I mt Li Ki il i ilf ME WE e q aage ETE unt o E 19 M IS i EET L TUE dt a i i DER S EL G E l E l a d un n w iad N ui I m i Table of Contents l E Suis E gt E EO EJ gt Fisure 1 1 The ON STBY button ee Figure 1 2 Line fuse removal s s sc sc ee Ree mmm Figure 1 3 Verifying adjustments and signal path compensation Figure 1 4 Hookup for functional test ss s x s x x s K x s K eens Figure 2 1 Using menus ooocoromorcrrorrraaraaraca RRR KK Figure 2 2 A pop up menu T Figure 2 3 Connecting a probe o coooomomoonnrcrrnranaoran s Figure 2 4 Probe compensation setup sss s seen Figure 2 5 Compensation waveform Figure 2 6 How probe compensation affects signals
50. d unconnected See Figure 14 DMG ao me sa A Figure 1 4 Hookup for functional test TDS 340 TDS 360 amp TDS 380 User Manual 1 7 ME rtisan Technology Group Quality Instrumentation Guaranteed 388 5 SOURCE wy SO COn MM TTT TR i ee T a re T ce TTT WI L i Getting Started METER ET RES p pU n8 n IEEE N WIE TEDL ped DEM e _ r A X X mm lE 4 awa Press the front pancl button SAVE RECALL the main menu button Recall Factory Setup and then the side menu button OK Confirm Factory Init 3 Press AUTOSET 4 Set the VOLTS DIV to 1 V Use the vertical POSITION knob to center the waveform vertically on screen 5 Set the SEC DIV to 250 us 6 Check that a square wave probe compensation signal of about five divisions in amplitude is on screen 7 Check that one period of the square wave probe compensation signal is about four horizontal divisions on scrcen 8 Check that the horizontal POSITION knob positions the signal left and right on scrcen when rotaied 9 Press the front panel button TRIGGER MENU the main menu button Mode and then the side menu button Normal 10 Check that the trigger level readout for the main trigger system changes with the trigger LEVEL knob 1 Check that the trigger level knob can trigger and untrigger the square wave signal as you rotate it Leave the signal untriggcred 12 Check that pressing SET LEV
51. ed on Wik HM the selected slope The trigger paint must not switch between opposite slopes on the waveform and the display must not I T roll across the screen on successive acquisitions The TRIG I D LED stays constantly lighted when the SEC DIV settin is 2 ms or faster but may flash when the SEC DIV setting is 10 ms or slower dii Y see the characteristic Sensitivity Edge Type Trigger DC Coupled in Table A 3 which begins on page A 3 AM Bi WI d Table A 8 Typical characteristics probe compensator output t Du Name Description Output Voltage and Frequency Characteristic Wn Probe Cornpensator IM Vo aren I 5 0 V low high into a 1 MQ load s W i requeney ue NNNM 3 III I i so WI Wi A WI l lu id JU A im NURSE NE NN WM P TDS 340 TDS 360 amp TDS 380 User Manual Mis LER 3 LER uA EI e iil ill See ee maana epte p deeg T ach PT b do AR Euer ARA d a I Me ml iii ETET RMA U n TOURAN iii dii XN m I G a N 500 OO OURCE www artisantg com DLL LR RR ET M TRE Ber mri m dl SDE NO ETERNI aE TT DER DM dO UR CUNT RM RUE SEE O xxm BARS C Description FUE j jer y i glention Nonvolatie 25 Years UI i eds ym a o time that reference waveforms stored setups and calibration constants are retained when there is no power to the RE UU lg Data ls maintained by a lithium poly carbon monofluoride battery I E SU E E Nominal
52. equipment does not mect the minimum requirements listed in Table B 1 your test results will be invalid Minimum requirements Purpose Checking delay between channels Impedance 50 2 connectors female BNC input male BNC output Tektronix part number 011 0049 01 50 Q 91 em 36 in male to Tektronix part number Signal interconnection lon male BNC connectors 012 0482 00 Female BNC to dual banana Tektronix part number Several accuracy tests 103 0090 00 Male BNC to dual female BNC Tektronix part number Checking trigger sensitivity 103 0030 00 Female BNC to dual male BNC Tektronix part number Checking delay between 067 0525 02 channels Variable amplitude to 110 V 1 Wavetek 9100 Calibration Checking DC offset gain and System with Option 250 measurement accuracy accuracy to 0 1 200 kHz to 250 MHz vanable Wavetek 9100 Calibration Checking bandwidth and tigger amplitude from 5 mV to 4 Vs System with Option 250 sensitivity into 50 CQ 200 kHz to 400 MHz variable amplitude from 5 mV to 4 V into 50 Q Variable marker frequency from 10 ms to 10 ns accuracy within ppm A P6109B TDS 340 P6117B TDS 360 or P6114B TDS 380 probe Checking bandwidth and trigger sensitivity Rohde amp Schwarz SMY with URV 35 Power Meter and NRV Z8 Power Sensor Wavetek 9100 Calibration System with Option 250 Checking sample rate and delay time accuracy Tektronix number
53. est Equipment 3 Canadian Standards Association certified to Standard CAN CSA C22 2 No 1010 1 92 3 3 These standards are North American interpretations of IEC 1010 Conditions for certification operating temperature 10 C to 55 C maximum operating altitude 2000 m Safety Class IEC 1010 1 Annex H Overvaltage Catagory II IEC 1010 1 Annex J Pollution Degree 2 IEC 1010 1 Emissions comply with FCC Code of Federal Regulations 47 Part 15 Subpart B Class A Limits CSA Certification includes the products and power cords appropriate for use in the North America power network All other power cords supplied are approved for the country of use Category Examples of Products in this Category CAT III Distribution level mains fixed installation CAT Il Local evel mains appliances portable equipment CAT Signal levels in special equipment or parts of equipment telecommu nications electronics Do not operate in environments where conductive pollutants may be present TDS 340 TDS 360 amp TDS 380 User Ew l 7 n 4 II d n i Ih T ih II IIT il ih n II hi I I i I n II i I I I i hi II Il Il I l I T n T I n W I l s I I AN l I a hi I II A A s A l lS l III I b V fis 1 i l A ti NR nn AT SENT UU IU AMO COM DRE rs fh 1 IP HIRE TTT 7 T T TNT E OA EET MA ill Ep ERN A TT m ml o IO Cave a OI UTE
54. for h rd copy procedures You can use the GPIB and RS 222 interfaces to operate and program the oscilloscope from a GPIB controller see tha TDS 340 TDS 360 amp TDS 380 Programmer Manual for tore infarmatian 2 8 Ee OE ni TT da NU IW FEE H q E O ubi de EEI PERCHE E page 1 3 for fuse replacement procedures A TUI T I y U A n j II WII I T TI i WIN us ll t MINI 3 E a E aa x W TDS 340 TDS 360 amp TDS 380 User Manual duds i Wal EE OE TT 3 Y S K AE p TAA L WWW SEET com TEM Mean 7 M 1 Y M i U U U U aaia cer los oe mp E UNT hs hu PLC BOE n Sana MIRA gy Operaune Basics TDS 300 Series oscilloscopes use an intuitive user interfacc This interface reduces front panel clutter while allowing easy access to specialized functions through the menu structure The procedure on page 2 10 illustrates how to navigate in the menu structure If you are unfamiliar with this menu system you may want to run through the procedure several times to learn how you can access functions and subfunctions Refer to Figure 2 1 as necessary yh i ag U RI j m i L lnn n al IW E i 5 a 2 9 NN m N 9 age ET J Ii AU dH MIL Mr NL T tau I 1 e i J i illl MIN pi MI MI D v Ur aun MI v MM lil RU a ll pa o RR i uM a I iN l 4l 1 lon i a i 1i il Il 9 i il E E A
55. i poi ii ioo e Ei o E elt KL UU ERAY Instrumentation Guaranteed 888 88 SOURCE www artisantg com e i L U Appendix A Specifications Description inch 17 95 cm diagonal magnetic deflection horizontal raster scan F31 green phosphor 640 pixels horizontally by 480 pixels vertically Display area is 5 04 inch 12 92 cm horizontally by 3 78 inch 9 69 cm vertically A single graticule 401 x 501 pixels B x 10 divisions with divisions that are approximately 1 em by 1 cm Dim and Bright with adjustable Overall Intensity and Contrast Description Part of Option 14 1 0 interface or TD3F14A I O interface field upgrade kit complies with IEEE Std 488 1987 Part of Option 14 I O interface or TD3F14A UO interface field upgrade kit a 9 pin male DTE RS 232 interface that complies with EIA TIA 574 90 Part of Option 14 VO interface or TD3F14A 1 0 interface field upgrade kit a 25 pin IBM C ype parallel printer interface that complies electrically with Centronics C332 44 av Video Signal Output DB 9 rear panel Video connector non interlaced with levels that comply with ANSI Coton 14 Only ASS43A VGA compatible at a 30 6 kHz syne rate dui G Supply Printer Power supply connector to supply power to the Option 3P Printer Pack E d Option 14 Only H Table A 15 Nominal traits power distribution system ie px e Name Description EI Fuse Rating 5 mm x 20 mm 3 15 A T 250 V or 1 25
56. igure B3 Hookup for analog bandwidth check y 7 E 1 Press SAVE RECALL SETUP Recall Factory Setup OK Confirm A 1 m d h Set the horizontal SCALE to 10 us div 4 T Press TRIGGER MENU Coupling Noise Rej a Press ACQUIRE Mode Average 16 I Press MEASURE High Low Setup Min Max A Press the main menu button Select Measurement Now press the side menu E button more until the menu label Pk Pk appears in the side menu Press the E i side menu button Pk Pk N O z n c 8 8 TDS 340 TDS 360 amp TDS 380 User Manual cuu ll ee i eed ABR SH E s THe M T Ux Ms il SU E d ii j n T Tie T L i iM NI UT H seeded source p e a e ME ow a i UN i i LRL Appendix B Performance Verification 8 sect the generator output so the CHx Pk Pk readout equals 60 mV 9 Press SET LEVEL TO 50 as necessary to trigger the display 10 Increase the frequency of the generator output to 100 MHz TDS 340 200 MHz TDS 360 or 400 MHz TDS 380 11 Set the horizontal SCALE to 5 ns div TDS 340 2 5 ns div TDS 360 or 2 5 ns div TDS 380 12 Press SET LEVEL TO 50 as necessary to trigger the display 13 Check that the Pk Pk readout on screen as shown in Figure B 4 is 42 5 mV Tek Run mainad Average Positive Overshoot r r Y P SE L zia L in Negative Overshoot ade i Remove l W Reference Measrmnt evelts Figure B 4
57. in this manual R Option M2 Tektronix provides three years of warranty plus two years temedial service m Option M3 Tektronix provides three years of warranty plus two vcars remedial scrvice and four oscilloscope calibrations m Option M8 Tektronix provides four calibrations and four performance verifications one of each in the second through the fifth years of service TDS 340 TDS 360 amp TDS 380 User Manual TER re a U xtr menisnbAE arahteed j SNB KM KA lnn UIE Tate M L I K23 Ltd ak i Ai ATTO CO 1 HE 1 d A NE diese ww oc Ur sues ws le V K L i z TCU zm TUI I d PHA ANN AA I III III bi bi bi bi bi a bi iil WI Hi bi II lii E wh a bi II III WII II III II A II wl A MT Japanese 070 9441 XX III T TT II A n TT lT I I II I T I A s MI l II II I NM II WIM s AN AT ih AM l I A s s I E W A E E A ps aa TAA I H TTE at erp ael c ded LT nd Lt 20 ke E ir BH I I d H va iii FUN Miu I H d 119 III T QU r poe EE mi daria ANTO emer y ta need nas A ES E Vei d M tel MH MA MEX SH DIT ali ail ipis or mt CEA E ae Appendix C Options and Accessones T m DV i A UU The standard accessories listed in Table C 4 come with the TDS 340 TDS 360 l and TDS 380 Refer to Table C 3 for manual part numbers Table C 4 Standard accessories A
58. iod of at least 20 minutes K and js operating at an ambient temperature between 10 C and 55 C unless otherwise noted pu L toe Ok TM Table A 1 Warranted characteristics signal acquisition system DE ne Name Description Accuracy DC Voltage Measurement Measurement type type DC accuracy Average Acquisition Mode Average of 216 waveforms x 2 095 x reading Net Offset Offset Delta volts between any two averages of 2 0 x Ireadingl 0 15 div 0 3 mV 216 wavetors acquired under the same setup and ambient conditions Accuracy DC Gain Sample or 276 Average Acquisition Modes Pulse Response Peak Detect and Sec Div setting Minimum pulse width i Envelope Mode 5 sidiv 25 usidiv 10 ns E TDS 340 10 jus div 5 ns div The greater of 10 ns or TDS 360 10 us div 2 5 ns div 02 x sec div setting I TDS 380 10 us div 1 ns div TDS 340 TDS 360 amp TDS 380 User Manual A 1 HOOK MSIE are a K Tq E Dodson a TT aa ee 0008 a AA AMAN Lund ji aR Ml 9 il Ifi LL Mt i ab SII i i mn NEP E vanin i sail N Wr get og Hil TE V II II n Appendix A Specifications e m RN DU WT MiL i M II i E 11 bl I Table A 1 Warranted characteristics signal acquisition system Cont Hh i Description n Volts Div setting Offset accuracy III ih 2 mV div 99 5 mV div 0 4 x INet Offset MINE II 3 mV 0 1 div x V div setting i II
59. ity CH1 or CH2 0 6 division of video syne signal Extemal Name Error Trigger Position Edge Triggering Nr Sensitivity Video Type Trigger l HW TIT 75 mV of video sync signal I Extemal 10 780 mV of video sync signal Il Lowest Frequency for Successful Operation 50 Hz I AE of Set Level to 50 Function I III a III le Edge Type Trigger Not DC Trigger coupling Typical signal level for stable triggering I Same as DC coupled limits for frequencies above mi a 60 Hz Attenuates signals below 60 Hz MM Noise Reject Three and one half times the DC coupled limits 4 vil We High Frequency Raject One and one half times times the DC coupled limits U irom DC to 30 kHz Attenuates signals above 30 kHz I Low Frequency Reject One and one half times the DC coupled fimits for a i frequencies above 80 kHz Attenuates signals below UE E Jl 80 kHz n T Ha tgger position errors are typically lees than the values iven here These values are for triggering si j bi slew tate at the trigger point of 0 5 division ns tud di aid i i e adla interval Wi is the time between the samples in the waveform record Also sea the footnote for the Hil y characteristics Sample Rate Range and Equivalent Time or Interpolated Waveform Ratas in Table A 11 on page A 8 NW lus The minimum sensitivity for obtaining a stable trig l I ger A stable trigger results in a uniform regular display trigger
60. ity and Low Voltage Directive 73 23 ECC for Product Safety Compliance was demonstrated to the following specifications as listed in the Official Journal of the European Communities EMC Directive 89 336 EEC EN 55011 EN 50081 1 Emissions EN 60555 2 EN 50082 1 Immunity IEC 801 2 IEC 801 3 IEC 801 4 IEC 801 5 Class B Radiated and Conducted Emissions AC Power Line Harmonic Emissions Flectrostatic Discharge immunity RF Electromagnetic Field immunity Electrical Fast Transient Burst Immunity Power Line Surge Immunity Low Voltage Directive 73 23 EEC EN 61010 1 Safety requirernents for electrical equipment for measurement control and laboratory use To maintain emission requirements when connecting to the 1 0 interface of this oscilloscope use only a high quality double shielded braid and foil cable The cable shield must have low impedance connections to both connector housings The VGA cable must also have a ferrite core at both ends Acceptable cables are listed in Table C 6 on page C 4 Performance criteria lt 0 3 division waveform displacement or 0 6 division increase in p p noise trom 27 MHz to 500 MHz Test conditions both channel inputs terminated with grounding caps both channels set to 10 mV div both channels set to DC Counling trigger source set ta CH 1 acquisition mode set to Sample and time base set to 250 us div Underwriters Laboratones listing to Standard UL3111 1 for Electrical Measuring and T
61. l I l NM N he cH Ta a iy ELLA E pl gt har 1 s m Da m N A T R U T prt pta nl l U ur i nul N l 1 N s REESE 1 NANA pus pu LT T B T EH Kad lull 3 Y ul na ai l 1 I ji A TE MW u li III Getting Started Ill ii i II IIl IM m II Tak Run 200k5 5 Sample i IIR III Tonipensiti M i l i Signal Path Compensation SPC corrects far D W II inaccuracies caused by tem erture varlatio m l 1 and or long term drift 5P First display the CAL menu as cues the osa losc pe dr warmad up ane Mh ambient a han ee FEMMES has changed by more I Second verify Pass a a week if vertical settings 1 status for the cia pe adversely alfected by Input signals s i nus Disconnert or otherwise Bora adjustment sections IR Nem em L D Third run a signal path _ a I aoe m MEM i status is Pass E a T a e cca d 1 il i O KALAU C olo i WII Figure 1 3 Verifying adjustments and signal path compensation ih 8 Press Signal Path and then press the side menu button OK Compensate I Signal Paths When compensation completes the status message updates to 9 Pass or Fail in the main menu i AM I ii Ill il mi h T B n E II m II A BN ul JI A il ill me HT at N i n i A A a MER ERR RE ERES REN NEU EI ie ae Te WORK Ia 01 ing hadi iis Hini oes ears L
62. l L rR Sa F TN la gw C MAS a A DEA TT s a Nt onu mn RA rds CP TERRE wy Layzie Crabbe E eaa es E t A v Rar NS a rir tt le e taat to ET v 2 vire rt a zu wa t SPINA M Np St ue ae t Pa dran at iun nm dv TW Pd A T wot Lh hos EM TY ut o Pe TUR T N 7 IAS DP D yt N Ku eae Y d Aa y l 1 e TONDIX i TEM U U U m a T bo gie da A mtr ur t aa t y 1 0 tds c e 5 n ne di N st ne Q4 1 ta KU 1 as 4 n nse eee ee Digital Real Time Oscilloscopes y mesi UI A R E VW H TEK TO FROM L MR Iu OG INTER OFFICE COMMUNICATION _ John Martin 94 540 rare June 25 1991 Frank Gray 50 PAT GIDEP permit request In response to the request to grant permission to the Government Industry Exchange Program GPDEP to reproduce Tektronix operator service and instruction manuals Tektronix Inc hereby grants such permission for distribution of such documents to any GIDEP user that is a full participant in the Metrology Data Interchange Data Base of GIDEP provided that all copies of the original work include the entire copyright notice and ownership statement exactly as it appears in the original together with the Legend Reproduced with permission This permission has been approved by the Intellectual Property Committee of Tektronix and a copy of this memo may be Srcvidad to GIDEP to provide the requested per
63. llowing procedure to Jevel the output amplitude of your sine wave Benerator using power meter Equipment Required Sine wave generator level meter and power sensor power splitter and one precision coaxial cable Time Required About 3 minutes Prerequisites See page B 5 Procedure Connect the equipment as shown in Figure B 8 Set the sine wave generator to a reference frequency of 50 kHz Adjust the sine wave generator amplitude to the required number f divisions as measured by the oscilloscope Notc the reading on the level meter Change the sine wave generator to the desired new frequency Input the correction factor for the new frequency into the level meter Adjust the sine wave gencrator amplitude until the leve meter again reads the value noted in step 4 The signal amplitude is now correctly set for qe i new frequency 1 4 d ela Ple ndo EE wolle ttn oen o UE mde S E el m mom al a ilt Se tw AA i M jij ri jl I u ii HII l i pepe gp pt p O TA EP 1 q REC TM Tnm 1 li hl liie lh t 1 ka l D PP i l TE AE M Er a b n dw O Bp 50 4 E Wa i P d A X AE dk b H FU L Y 7 T amp PIRM ie 7 i l Wi I i SI Ld Her nisi poo 0 SENA Re A l ill M Um Mm M M s tI TAL li md 1 Am yeh n y gud wear E l AA l a l ON PEPEE E E i i ob id vW T m n m d m AA s A PR eas l m e ran m mim kasd Ex Pe EE mc e LLL Agpendix B Performance Verification I
64. mission Group Patent Counsel mp Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com ew me MI TE Tam e g 7 T L IL TE L DURUM i Stu i iol TA dd oat AS on d l ES ZEN rl ao AIBR OS AN ell L NC li d 1 W Es E M EAS 801 54 1 e qa n d i S ha ws UN f LE AE PE REN LE S n l SS riw cr d qt v lI i l I ast d Mr bie E g EO MS oH E I R If D i W P X JI I Me Sk j f Beto E M Miet y m Vus e alle ne Dg gea ir yj ETAT T Mns COM vieii ETT Y Re H EK P ico mult i j TE PNEU Mag D Jl is and a L U de eese d Volt ehe MA Be q Vor a ut 1 0 noi eet P T Stan M H Mti t Eig li uhr LEE HE m UL a i i Bis PH prster Lust htt m Pan DE g ala lt TL I U eal i A m E 873 8471 FAT EA L N SA Sa tt a CE um ns ate SA K 2 IUDICES eena Arx RIT e 7 Nm pe ss ems 7 T VERS DE et x VOL BLUR Xa a ie E L SR xi i t Ta hi 7 N p A ul i a perch ds Va o AAA rear E E ME f 2 weet d TOE fee E uU ETE T e era ne Sates eee S SERES EE C 2272 2 n n General Safety Summary K x a e K K Kae T Preface ee Getting Started 1 2 Line Fuse Replacement l Self Tost 1 5 1 7 Trigger Controls Miscellaneous Controls Display Map M Inputs i II Rear Panel Connectors Using the Menu System E Display and Power Controls Vertical Controls Using the
65. mv j Delta Volts between any two samples 2 0 x Ireadingl 0 26 div 1 2 mV acquired under the same setup and ambient conditions Frequency Limit Upper 20 MHz Band 20 MHz I width Limited setting amplitude 100 ns 2D m o O OOOO II ee 02 n E Step Settling error Common Mode Rejection Ratio CMRR 100 1 at 60 Hz reducing to 20 1 at 50 MHz with equal Volts Div and Coupling settings settings on each channel Net Offset Offset Position x Volts Div Net Offset is the voltage level at the center of the A D converter dynamic range Offset Accuracy is the accuracy of this voltage level The samples must be acquired under the same setup and ambient conditions The values given are the maximum absolute difference between the value at the end of a specified time interval after the mid jevel crossing of the step and the value one second after the mid level crossing of the step expressed as percentage of the step amplitude TDS 340 TDS 360 amp TDS 380 User Manual A 5 WINGMEN EASE MERE E E T R ELS T mig tttm Phe gs ATM EEEOEEB I deont aa TT leui Ube be bh NE E uu oaa o TIR gt Ral MAA AA l H nna TURIS IE H RE EE n M I von I elo UNA a Appendix A Specifications Hi A iM I WI y Table A 7 Typical characteristics triggering system Ht WII ca I Trigger position ertor L ot Wie 2 ns Mi II 2 WI 2 ns Hi Source Typical sensitiv
66. n jf os Li a Y gli L AN KH H vun C v TAS B UE TD EUM M Tig S ae Po dg st att j UO UGS 1 oy dun ER he Re N E VARO g a tra A hile st y Tam s E H e UM E E LH el 4 fall q p qn tilt he o Y PUn pda D JM EE 1 Er 6 RH oe E REES one i 1 s vee JT W kl Lina P d V Pee ee ee Y CERE P V a na d uua 10 uis am EL LP t 1 1 K 4 Nhan c Aen EEE cE TI EP LH D CEP U HH Ma D e so ee TET PLE n UT sak fle 4 A Oy td oem ee C y ne IPs u T 1 P qa i s n Re a 2 1 VH WV Y 3 m ae HT a e meyer i li WWW Al a l H Y D Y RJ 4 7 de Y 4 h N D TIA d x N T E ity 5 iiih lln T loa Vel l Jjjj N N har lpi U y i D tol E S K Por a ur N u bI i HIM H E ni a a T b n 4 i 1 1 DU 1 1 i WII U 1 1 N i w should resemble the waveform shown in Figure 2 3 Tak Run 100k5 5 pata _ _ T nii IRR r g Figure 2 5 Compensation waveform 2 13 TDS 340 TDS 360 amp TDS 380 User Manual LI a ODA nD CALLE bau te toC COGO IPC KE N HT ne e HR ESE P E GRO fee erus rms Eo ey SION TEIL R IS A coi ul m V T N ail prodeat M yaf 0 vB Pap mn WI n ms vad S x ms LETRA Dp e a i is HDD a GONG ZDF ERA Ic C MD a i HMM i x TN Operating Basics AE i gt 2 Figure 2 4 Probe compensation setup 2 Press AUTOSET The oscilloscope displays the compensation wavefo
67. not expose it 10 sprays liquids or solvents Inspect the oscilloscope as often as operating conditions require To clean the oscilloscope exterior perform the following steps 1 Remove loose dust on the outside of the oscilloscope with a lint free cloth Use care to avoid scratching the clear plastic display filter Use a soft cloth or paper towel dampened with water to clean the oscillo scope You can use a 75 isopropyl alcohol solution for more efficient cleaning CAUTION To avoid damage to the surface of the oscilloscope do not use any abrasive or chemical cleaning agents a E qe dl BI DI a eee Lad eee aT ee te A rtisan Artisan Technology Group is your source for quality SL new and certified used pre owned equipment FAST SHIPPING AND SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT DELIVERY Experienced engineers and technicians on staff Sell your excess underutilized and idle used equipment TENS OFTHOUSANDS OF at our full service in house repair center We also offer credit for buy backs and trade ins IN STOCK ITEMS www artisantg com WeBuyEquipment A EQUIPMENT DEMOS HUNDREDS OF Instral e REMOTE INSPECTION LOOKING FOR MORE INFORMATION TO A Remotely inspect equipment before purchasing with Visit us on the web at www artisantg com 7 for more our interactive website at www instraview com 7 information on price quotations drivers technical LEASING MONTHLY specifications manuals and documentation RE
68. o Figure 2 7 Location of probe compensation adjustment Figure 2 8 The AUTOSET button s c e e e Figure 3 1 The VERTICAL MENU button Figure 3 2 The vertical menu se Figure 3 3 Inverting a waveform HP TT Figure 3 4 The HORIZONTAL MENU button sss s s s s s sx gt gt gt x Figure 3 5 The horizontal menu rere rere Figure 36 The MATH button Figure 3 7 A math waveform rere Figure 3 8 The TRIGGER MENU button s s s s K K K e Figure 3 9 The edge trigger menu sse s e s a e e c gt ease K K reese nee Figure 3 10 The video trigger Menu s K K K K K K K KR RKR Figure 3 11 The video scan rate menu Figure 3 12 The MEASURE button nnn Figure 3 13 The measure menu and active measurements Figure 3 14 The CURSOR button s s eee reece K RRR KKR Figure 3 15 The cursor menu s s s x s x c lt K K 6 s K K K enhn Figure 3 16 Paired cursor measurements of a sine wave Figure 3 17 The ACQUIRE button xs s s s x s K s K K K a e eae Figure 3 18 The acquire menu xs e s s c s K K e K K KK KKR eR Figure 3 19 The DISPLAY button lt sss sx x s K s K K K K eee Figure 3 20 The display menu eere nn Figure 3 21 System response to an impulse eese Figure 3 22 Define FFT waveform menu lt s K K R Kee m
69. ometimes activates a pop up menu a O as shown in Figure 2 2 You can cycle through the pop up menu UE oe Options by repeatedly pressing the button Each selection calls up different bottom and side menus Tek Run 200k5 5 Average T EA Centrartics e de e T au 4 aoe m ere Erra P RR K T T r S 1 r N od y L d te ee h T L H 4 Port Hcp Tm Formal Portrait Interleaf Figure 2 2 A pop up menu Push a side menu button to select a subfunction Use the General Purpose Knob to alter variable function or subfunction settings Press the CLEAR MENU button to remove a menu from the screen 2 11 TREE y TT E A z 2H RUMPIT b AL A A r aes i i e Tra PETRI ih nl i i LR ao i to So fle 201 LA Dn TM i ft t at l ph ta La or ped A Ga gy ak ris 60 de E N i l Il A il AL I MIU L e n Pedir H nn BEN wl hor IM E B U TR s U a M nn ba 1 2 T e i Sec LOU DULL D ge i mPhh s g ee v hn vn d T te Tm NAO T w A Nuna RET LHO rth powers dre N an yf ws GA oae V WI ttn ITE espere j a a a E A nu o oo oa m e AO c C gt M_e PTE al A E 0 li i T m RT W a2 TW RH 1 Hy is NU TENE EI TE ET u M T TEN l S ma HH Ki Il The TDS 340 TDS 360 and TDS 380 come with two standard accessory DE S probes Use these probes to conduct signals to the oscilloscope For detailed 7 pro
70. pose knob to set delay time to 10 ms 10 Set the horizontal SCALE of the D delayed time base to 500 ns div NOTE When you change the SEC DIV in step 10 the delay time readout changes to 0 00001 or 9 99999 This is normal and has no effect on the verification 11 Check that the rising edge of the marker crosses the center horizontal eraticule line at a point within 2 0 divisions of the graticule center NOTE One division of displacement from the center graticule corresponds to a 50 ppm time base error 12 Disconnect the test hookup Delta Time Measurement Delta time measurement accuracy is verified by successful completion of the Accuracy previous procedure Trigger System Checks These procedures check those characteristics that relate to the tigger system and are listed as checked under Warranted Characteristics in the Specifications section Check Edge Trigger Equipment Required One leveled sine wave generator Item 7 or 8 two Sensitivity DC Coupled precision 50 Q coaxial cables Item 2 one 50 2 termination Item 1 and onc BNC T connector Item 4 Time Required Approximately 10 minutes Prerequisites See page B 5 TDS 340 TDS 360 amp TDS 380 User Manual B 11 M H MER E ERES uu RT Aa Appendix B Performance Verification TE 7 Adjust the horizontal POSITION to move the trigger T to the right and on e to the screen Continue to position the trigger T to align it to the center E verti
71. ppm x Reading 0 6 ns i For repetitive acquisitions using average acquisition mode with 216 averages and a i wi bandwidth limit setting of FULL II III A E H 1 WI 100 ppm x Reading 0 4 ns T IN For input signals 25 divisions in amplitude and a slew rate of 22 0 divisions ns at the delta time measurement points i liy Signal must be acquired at a volts division setting 25 mV division We 2 E The WI waveform interval is the time between the samples in the waveform record Also see the footnotes for Sample WI V Rate Range and Equivalent Time or Interpolated Waveform Rates in Table A 11 on page A B M b M H EA H illl Nt 1 TDS 340 TDS 360 amp TDS 380 User Mana dN Wii range Offset Accuracy is the accuracy of this voltage level 2 Accuracy Delta Time Measurements 2 dud Hung PT ES 1 dll Peon E eel n aa VERE asi remar Te itt GHR L od EE MN TEM Bun CH1 or CH2 TDS 340 0 35 division from DC to 20 MHz ue REED DU increasing to 1 div at 100 MHz TDS 360 0 35 division from DC to 50 MHz increasing to 1 div at 200 MHz TUS 380 0 35 division from DC to 50 MHz increasing to 1 div at 400 MHz Extemal TDS 340 50 mV from DC to 20 MHz increasing to 150 mV at 100 MHz i D G ka Extemal 10 6 of ISetting 200 mV A715 Sensitivity Edge Type Trigger DC Trigger source Sensitivity increasing to 150 mV at 200 MHz TDS 380 50 mV from DC to 50 MHz
72. rm It m m KU re 7 Can E SE RUANO MEM A RII bug T H n T Operating Basi TL U HHE asics M A TS T ii 3 Check that the waveform indicates correct compensation II sce Figure 2 6 the waveform indicates over or undercompensation usc It TUB Il provided with the probe to adjust the alignment tool l ou the compensation as shown in Figure 2 7 ul II ii T IT I Probe compensated correctly I T Nit n QI II I IA i TT Probe undercompensated TT I II W Figure 2 6 How probe compensation affects signals I hh mi all it m T on ad j WI ill WII JI IIl il MN i ae mi E A A UN a lu 4 QUE F 7 T E EE AN M s W WI 573 UII gt asso A ES e i Bo S N n A TTI n u G TIE HHIHH M jm CODO mmm AMNES HH O C RIS ls sn ENTE E AI A RIE HT Tn b WW ar wc com l K aida Operating Basics Using Autoset The TDS 300 Series autoset feature produces a stable triggered display of almost any input signal To usc autoset connect a signal to either the CH 1 or CH 2 input connector and press the AUTOSET button shown in Figure 2 8 Autoset Figure 2 8 The AUTOSET button Table 2 1 specifics the changes autoset makes in your oscilloscope setup Table 2 1 Autoset defaults Control Selected channel Changed by autoset to If none already displayed numerically lowest of the displayed channels
73. rnal self tests and signal path compensations It also confirms that the oscilloscope was adjusted properly at the time it was last adjusted No tcst equipment or hookups are required Equipment Required None Time Required Approximately 5 minutes Prerequisites Power up the oscilloscope and allow a 20 minute warm up before doing this procedure Procedure I Press the front panel button UTILITY 2 Press the main menu button System to select Diag 3 Press the main menu button Execute and then press the side menu button OK Confirm Run Test The internal diagnostics verify proper oscilloscope function This verification takes about 30 seconds While it progresses a variety of test patterns flash on screen When finished status messages appear on the screen Check that the screen reports no failures If it reports a failure the oscillo scope has failed the self test Contact your Tektronix representative for assistance Press CLEAR MENU Press UTILITY and then press the main menu button System to sclect Cal Check that the word Pass appears in the main menu under the Voltage Reference Timing and Ext Trig menu labels Sec Figure 1 3 If any of the labels read Fail the oscilloscope has failed the self test Contact your Tektronix representative for assistance 1 5 S 5 la ipi SUL p tt 1 re Q MWWL S nanta com 1 e N U L DER N LE Y y L bd sal n LE N it at we MI y H U nt UN Ih UU NNN
74. s 1 I Appendix B Performance Verification a Table B 2 DC accuracy L Vertical scale Position Generator setting divs Offsetsetting setting Accuracy limits A E EN ER 005 000 W i U ij A l T L gE Ho RUTES mS Li 1 i FO A PEAD pul L Jal LI PA lll aii E w WI i li i ul mM D i Appendix B Performance Verification EM IM a 1i nu a lili MCN NE E H WII a n n put Check Analog Bandwidth Equipment Required One leveled sine wave generator Item 7 or 8 one 50 Q II TS precision cable Item 2 and one 50 Q termination Item 1 IM WI Time Required Approximately 20 minutes li Prerequisites Sce page B 5 M b Procedure II 1 Connect through a 50 Q precision cable and a 50 Q termination the sinc I wave output of a leveled sine wave generator to CH 1 see Figure B 3 Set I the output of the generator to a reference frequency of 50 kHz IE M x VOL amp D WO NOTE If you are verifying a TDS 380 you need a leveled sine wave generator II with 400 MHz output frequency Refer to Sine Wave Gencrator Leveling Hi Procedure on page B 14 for information on obtaining a leveled output from an M unleveled s Uie Wave generator A em ep M o IE A Ii T Leveled E Sine Wave E l i E cs seem I c I t iii F
75. the level and polarity indicated in Table B 2 for the vertical scale position and offset settings you have madc The DC test level should appear on screen If it docs not return the DC accuracy check has failed for the present vertical scale setting of the current channel Check that the readout for the measurement Mean readout on screen is within the limits listed for the present vertical scale and position offsct gen erator scttings Repeat steps 7 through 13 until you have checked all the vertical scale settings listed in Table B 2 Record the measurements for each of thc 50 mV settings subtract the second 50 mV measurement from the first and compare the result to the A at 50 mV limits in Table B 2 Press WAVEFORM OFF then press CH 2 set the generator output to O V Move the test hookup to the CH 2 input Repeat steps 5 through 15 for channel 2 Set the generator output to 0 V Disconnect thc cable at the CH 2 input connector DC Gain Accuracy DC gain accuracy is verified by successful completion of the self tests and the DC voltage measurement accuracy in the previous procedure Offset Accuracy Offset accuracy is verified by successful completion of the Self Tests and the DC voltage measurement accuracy in the previous procedure TDS 340 TDS 360 amp TDS 380 User Manual B 7 WWW T mE UT IT E EAE A ues wer lg Vah be ulus T N Fire iy ia aT ott Hkc iio 5 GB SS I Hi ii io a
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