background image

Summary of Contents for 454A

Page 1: ...yxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA œ UAL Ser i al Nu m ber 454 R454A O SCI LL O SCOPE Te k t r oni x I nc 0 Ÿ Box 500 zyxwv Beaver t on O r egon 97005 Ph one 644 0161 Cabl es Te k t r oni x 070 1074 00 171 ...

Page 2: ...esent at i ve i n r ar ea Th i s pr ocedur e É ass r e YO U t he f ast est possi bl e ser vi ce Pl ease i ncl ude t he i nst r um ent Type or Par t ber a nd Ser i al or M o d el m ber wi t h al l r eq uest s f or par t s or ser vi ce Speci f i cat i ons and pr i ce c hange pr i vi l eges r eser ve d Copyr i ght 1971 by Te k t r oni x I nc Beaver t on O r egon Pr i nt e d i n t he Uni t ed St at es...

Page 3: ...2 29 O per at i ng Posi t i o n 2 2 App l i cat i on s Rack m oun t i ng 2 2 G ener al 2 29 Cont r ol s and Co nn ect or s Peak To Peak Vol t age G ener al 2 2 M eas u r em ent s AC 2 29 F i r st Ti m e O per at i o n I n s t a n t aneou s Vol t age G e n er al 2 8 M eas ur em ent s DC 2 30 G e ner al O per at i ng I nf or m at i on C o m par i son M eas u r e m ent s 2 31 Si m pl i f i ed Oper at...

Page 4: ...but i on 3 3 4 Hor i zont al Syst em Chec k 5 2 0 Axi s Am pl i f i er 3 34 O ut put Si gnal s Chec k 5 2 7 CRT Ci r c ui t 3 36 P ar t 11 Adj u st m ent I nt r oduct i o n 5 2 9 SECTI ON4 M AI NTENANCE I ndex of P ar t Adj ust m ent 5 29 P r el i m i nar y Pr ocedur e f or I nt r oduct i on 4 1 Adj u st m e nt 5 30 Cover Rem oval 4 1 P ower Su pp l y and Cal i br at or P r event i ve M ai nt enan...

Page 5: ...ar t s Li st M ec hani cal P ar t s Li st SEC TI O N 8 DI AGRAM SANDCI RCUI T BO ARD CHANGE I NFO R M ATI ON LLU ST RATI ONS 454 R454A Abbr evi at i ons an d sym bol s u se d i n t hi s m anu al ar e b ased on or Sym bol s and Ref er ence Desi gnat or s 8 1 t a k en di r ect l y f r om I EEE St and ar d 260 St a ndar d Sym bol s f or Vol t age and W avef or mTest Co ndi t i ons 8 2 Un i t s M I L ...

Page 6: ...454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A Fi g 1 1 Top t h e 454 O sci l l oscope Bot t o m t h e R454A O sci l l osco p e ...

Page 7: ...s i nst r uct i on m anual a pp l i es t o vi ewe d wi t h r ed uced i nt er f e r ence f r om si gnal s above about t he R454A al so unl ess ot h er wi se i nd i cat ed The R454A i s 20 m ega her t z el ect r i cal l y i d ent i cal t o t h e 454 but i t i s ad a p t ed f or m ount i ng i n st andar d 19 i nc h r ac k Rack m ount i ng The t r i gger ci r cui t s pr ovi de st abl e t r i gger i ng...

Page 8: ...ng M o d es Com m on M ode Rej ect i on Rat i o AC and D C Cou pl ed Pr ovi d es co nt i nuousl y var i abl e d ef l ec At l east 2 5 1 t i on f act or s bet ween t he cal i br at ed st e p s Ext end s m axi m um uncal i br at ed d e f l ect i on f act or t o at l east 12 5 vol t s di vi si on See Tabl e 1 1 TABLE 1 1 cont 10 Hz or l ess at al l d ef l ect i on f act or s 1 Hz or l ess at al l d e...

Page 9: ...ni m umBandwi d t h and M axi m um Ri set i m e 0 C t o 40 C Def l ect i on Fact o r W i t h 3 5 f t o r 6 f t W i t h 9 f t 6054 W i t h 6045 6054 or 25 oh m sour ce 50 M Hz 48 M Hz 45 M Hz 7 0 nanoseconds 7 3 na nosecon d s 7 8 na nosecon ds 100 M H z 87 M Hz 95 M Hz 3 5 nanoseconds 4 0 na nosecon ds 3 7 nanoseco nd s 150 M Hz 116 M Hz 130 M Hz 2 4 nanoseco nd s 3 0 nanoseco nd s 2 7 nanoseco nd...

Page 10: ...PU T co nn ect o r at t enuat ed 10 t i m es AC AC l ow f r equency r e j ect AC h i g h f r eq uency r ej ect DC See F i g 1 2 St abl e d i s p l ay pr esent ed wi t h si gnal amp l i t udes gi ven i n F i g 1 2 above about 20 h er t z Pr esent s f r ee r un ni ng di spl ay f or l ower f r eq uenci es or absence of an adeq uat e t r i gger si gnal Sweep G e ner at or pr od uces onl y one sweep wh...

Page 11: ...00 vol t s pea k t o pea k AC 1 m ego hm 10 par al l el e d by a ppr ox i m at el y 15 p i cof ar ads except when t he C OUPL I NG swi t c hes ar e i n t he LF REJ posi t i ons See F i g 1 3 an d 2 vol t s or gr eat er and 20 vol t s or gr eat e r To I npu t St age Fi g 1 3 Eq u i val ent TRI G I NPU T ci r c ui t i n AC LF REJ p osi t i on of COUPLI NG swi t c hes HORI ZONTAL DEFLE CTI ONSYST EM ...

Page 12: ... si on f or sweep or 1 25 secon d s di vi si on f or swee p TABLE 1 1 Swee p Accur acy 0 0 C t o 40 0 C 15 0 C t o 55 0 C Unm agni f i e d M agni f i e d 2 Unm agni f i ed I M agni f i ed 2 W i t h i n 3 W i t h i n 4 W i t h i n 4 W i t h i n 5 W i t h i n 5 W i t h i n 5 2 Excl u d e t h e f ol l owi ng por t i ons of t h e m agni f i ed swee p f r om 2 ns d i v t o 20 ns d i v e qu i val ent m ...

Page 13: ... V set t i ng W i t hi n 1 5 and 4 m i nor d i al d i vi si ons f or d el ay t i m es 0 1 s t o 50 m s W i t hi n 2 5 an d 4 m i nor d i al d i vi si ons f or del ay t i m es 0 1 second t o 5 sec on ds W i t hi n 2 pl us t he m eas ur ed swee p er r or when vi ewi ng Swee p p o rt i on onl y Swee p po rt i on r et ai ns sam e ac cur acy as st at ed f or Del ayed Sweep See Ver t i cal Def l ect i o...

Page 14: ...C t o 40 C 150Ct o 550 C Vol t age W i t hi n 1 W i t h i n 1 5 Cur r ent W i t hi n 1 W i t hi n 1 5 Repet i t i o n Rat e W i t h i n 0 5 W i t hi n 1 Dut y Cycl e 49 t o 51 O ut p ut R esi st ance 250 wi t hi n 1 Sweep W aveshape Am p l i t ud e Pol ar i t y Du r at i on O ut put Resi st ance Ch a r act er i st i c Per f or m ance Su ppl em ent al AXI S I NPUT cont 200 vol t s DC pl us peak AC ...

Page 15: ...nom i nal Vol t age Range AC RM S 115 Vol t s Nom i nal Low 90 t o 110 vol t s M ed i um 104 t o 126 vol t s Hi g h 1 112 t o 136 vol t s 230 Vol t s Nom i nal Low 1 180 t o 220 vol t s TABLE 1 1 cont O UTPUT SI GNALS cont Sam e du r at i on as r es pect i ve swee p 10 mi l l i vol t s or gr eat e r per di vi si on of CRT d i s p l ay i nt o one m ego hml oad PO W ERSUPPLY M edi um 208 t o 252 vol...

Page 16: ... d i vi si o n s hor i zont al Eac h di vi si on eq ual s 0 8 cent i m et er 15 l i nes or gr eat er i n one di vi si on 15 l i nes or gr eat er i n one di vi si on Li m i t s di s pl ay wi t hi n gr at i cul e ar ea w hen pr essed At l east 1600 di vi si ons s 1280 cm s wi t h Pol ar oi d Type 410 f i l m 10 000 ASA and Ty p e 31 CRT phos p hor At l east 3200 di vi si ons s 2560 cm s wi t h Pol a...

Page 17: ...onmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA wi t h 30 i nc h d r o p To 15 000 f eet M axi m um al l owabl e amb i ent t emp er at ur e d ecr eased by 1 C 1000 f eet f r om 5 000 f eet t o 15 000 f eet To 50 000 f eet 5 cycl es 120 hour s t o 95 r el at i ve hum i di t y r ef er enced t o M I L E 16400 F F i f t een m i nut es al ong eac h of t he t hr ee m aj or axes at t ot al d i s p l ace m ent ...

Page 18: ... on Char act er i st i c 20 7 i nc h es i ncl ud es f r ont cover 22 4 i nc h es wi t h ha nd l e posi t i oned f or car r yi ng Connect or s AXI S I NPUT PROBE PO W ER Al l O t her Co n nect or s Net W ei g h t 454 R454A Bi n d i ng Post Speci al t hr ee pi n connect or com p at i bl e wi t h power connect or of t he Te kt r oni x 6045 Pr obe BNC I nf or m at i on A pp r oxi m at el y 30 poun d s...

Page 19: ... t Th e 454 can be o p er at e d f r om ei t her 115 vol t or back i nt o t h e r e m ai n i n g hol es C h a nge t h e l i ne cor d power 230 vol t no m i nal l i n e vol t age so u r ce The Li ne Vol t age pl ug t o m at c h t h e power sour ce r ecept acl e o r u se 115 t o Sel ect or assem bl y on t h e r ea r panel conve r t s t h e i n st r u m ent 230 vol t ada p t er f r o m one o per at i...

Page 20: ...n o u t t h r o u g h hol es i n t h e t o p an d bot t om cover s Ade q uat e cl ear ance on t h e t op b ot t om an d r ea r m u st be pr ovi d e d t o al l ow heat t o be d i ssi pat e d away f r om t h e i nst r um e n t Th e cl ear a n ce pr ovi d e d by t h e f eet at t h e bot t o m an d r ear s h oul d be m ai nt ai ne d I f possi bl e al l ow a b o u t o n e i nc h cl ear ance on t h e t ...

Page 21: ... i s not i n t he C AL Á 5 œ STEP BA L Scr ewd r i ver ad j ust m e nt t o bal ance I nput Am p l i f i er i n t he 2 5 an d 10 m V posi t i ons of t he V OLTS DI V swi t ch PO SI TI O N Co nt r ol s ver t i cal posi t i on of t r ace m o d e of oper at i o n CH 1 co nt r ol p osi t i o n s i n t he X axi s hor i zont al l y and C H 2 co n t r o l p osi t i o n s i n t h e Y axi s ve r t i ca l l ...

Page 22: ...O per at i ng I nst r uct i ons 454AI R454A 2 4 F i g 2 4 F r o nt si de and r ear p anel cont r ol s and connect or s zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA ...

Page 23: ...gger ci r cui t AD D Si gnal s a pp l i e d t o t he I NPUT AC Rej ect s DC an d a t t e n u a t e s CH 1 an d I NPUT CH 2 connec si gnal s bel ow a bout 30 her t z t or s ar e al gebr ai cal l y added and Acce p t s si gnal s bet ween about t he al gebr ai c sum i s d i s p l aye d on 30 her t z and 150 m ega her t z t he CRT The I NVERT swi t c h i n Chan nel 2 al l ows t he d i s p l ay t o LF ...

Page 24: ...sp l ay d ur i ng t he sweep t i m e Thi s swi t c h posi t i on p r ovi d es chec k of t he dur at i o n an d posi t i on of swee p d el ayed sweep wi t h r e s pect t o t he d el ayi ng swee p UNC AL OR L i g ht i ndi cat es t hat ei t h er t he or V ARI ABLE cont r ol i s not i n t he C A L posi t i on DELAYE D SW EEP Swee p r at e d et er m i ned b y œ DI V swi t c h wi t h t he del ay t i m e...

Page 25: ... t r i gger i ng Af t er t he sweep i s comp l et ed t he RES ET but t on m ust be pr essed agai n b ef or e anot her swee p can be di spl ayed SW EEP LENG TH Ad j ust l engt h of swee p I n t he FULL posi t i on cl oc kwi se det ent t he swee p i s about 11 di vi si ons l ong As t h i s cont r ol i s r ot at ed count er cl ockwi se t he l engt h of swee p i s r educed unt i l i t i s l ess t h an...

Page 26: ... I NG AC di sp l ay Does not r e q ui r e r ead j ust SOU RCE m ent i n nor m al use Rear P anel DELAY TI M E 0 10 f ul l y count er AXI S I N PU T I n p ut connect or f or i nt ensi t y m o d MU L TI PL I ER cl oc k wi se and œ DI V 5 m s ul at i on of t he CRT d i s p l ay VARI A BLE C A L f ul l y cl ock wi se SW EEP M O DE A UTO TRI G SW EEP M O DE STA RTS AFTER DEL AY Li ne Vol t age Swi t c ...

Page 27: ...y t hat t h e basel i ne of t he wavef or m r em ai ns at t he cent er cannot b e obt ai ned see Ast i gm at i sm Ad j ust m ent i n t h i s hor i zont al l i ne gr ound r ef er e n ce sect i on 17 Set t he CH 1 I n p ut Cou p l i ng swi t c h t o AC N ot e 8 Di sconnect t he i n p ut si gnal and m ove t he t r ace wi t h t hat t he wavef or m i s cent er ed about t he cent er hor i zont al t he C...

Page 28: ... i bed i n st eps 27 t hr o ug h 30 gai n i s set cor r ect l y i ndi cat i ng t hat t he al ge br ai c sum of t he t wo si gnal s i s zer o Set ei t her VOLTS DI V swi t c h t o 2 T he sq uar e wave d i s p l ay i ndi cat es t hat t he al gebr ai c sum of t he t wo si gnal s i s no l onger zer o Ret ur n t he M O DE swi t c h t o 34 Set t he SOURCE swi t c h t o 10 O per at i on CH 1 a nd bot h V...

Page 29: ...g t he di s p l ay 46 Set t he HORI Z DI SPL AY swi t c h t o M I XED t he œ DI V t o 1 m s t he œ DI V t o 1 m s and t he DELAY TI M E M U LTI PL I ER t o 5 00 Set t he SW EEP M O DE swi t ch t o STARTS A FT ER DEL AY TI M E Ap p r oxi m at el y t he f i r st hal f of t he CRT d i spl ay wi l l be at t he sweep r at e set by t he œ DI V swi t c h an d t he l ast hal f wi l l be at t he r at e set...

Page 30: ...W I D TH BEAM FI NDER swi t c h Axi s I n p ut d own a nd ad j ust VOLTS DI V swi t c h unt i l di s p l ay i s r ed u ced i n si ze ver t i cal l y t he n cent er compr essed di sp l ay 55 I f an ext er nal si gnal i s avai l abl e f i ve vol t s wi t h ver t i cal an d hor i zont al P O SI TI ON cont r ol s r el ease peak t o pea k m i ni m um t he f unct i o n of t he AXI S BANDW 1D œ F I NDER ...

Page 31: ...t t he I NTENSI TY cont r ol i s not set t oo h i g h when c hangi ng t he œ DI V swi t c h f r om f ast t o sl ow swee p r at e or when swi t c h i ng 6 For del ayed swee p d i spl ay wi t h l e s s j i t t er set t o t he ext er nal hor i zont al m o d e of o per at i on SW EEP M O DE swi t c h t o TRI G GERA BLE AFTER DEL AY TI M E al l Tr i gger i ng swi t c hes up an d ad j ust LEVEL co nt r ...

Page 32: ... r Beam Fi n der sq uar e I n ad di t i on eac h m aj or di vi si on i s di vi ded i nt o f i ve Th e BANDW I DTH œ F I NDE R swi t ch pr ovi d es m i nor di vi si ons at t he cent e r ve r t i cal and hor i zont al l i nes m eans of l ocat i ng d i spl ay whi c h over sca ns t he vi ewi ng The ver t i cal gai n a nd ho r i zo nt al t i m i ng ar e cal i br at ed t o t he a r ea ei t her v e r t i...

Page 33: ...2 d i s p l ayed wavef o r m F i g 2 7 i l l u st r at es t h e u se of t h i s M Hz posi t i on f eat u r e Th e wavef or m i n F i g 2 7 i s t h e di spl ay pr oduced w h e n l ow l evel l ow f r equency si gnal i s vi ewed i n t h e pr esence of st r o n g 50 m egaher t z r a d i at i on BANDW I DTH BEAM F I NDER swi t c h i n FULL p osi t i on F i g 2 7 sh ows t he r esu l t a n t CRT di sp l ...

Page 34: ...t si gnal 10 t i m es The Te k t r oni x 6045 F i el d Ef f ect Tr ansi st or pr o be of f er s t h e sam e h i g h i n p ut i mp edance as t he 10 pr obes However i t i s par t i cul ar l y u sef ul si nce i t pr ovi d es wi d e ban d op er at i on wh i l e pr esent i ng no at t enuat i on 1 gai n and l ow i np ut ca paci t ance To obt ai n m axi m um ban d wi d t h when usi ng t he pr o bes obse...

Page 35: ... ___7gCC F00 ÁW š Ì 0 7 à 0m ÃÃÃ_ 3m _m É œ I BI f W _ 10f 0 À m o _ m an W 1 8 Bonn M EN O N E Ä Ë _r Â Â Ê µ m am M ason U PO N m om m M EN I NN Ë 11 1 11 11 11 1 1 Ë 1 Ë 11 1 0 1 11 1 111 Ÿ Ÿœ Ë Bi l l ow s 11 11111 m om i i aes i m om 0 L m _À À _ E m m um m M M M E an m om on 0 E m IIIIIIPIIIIII M œ Ë Á H I M 111 Ë s Ë Í 11111 Å 11 Ë Ÿ à À m m m À N o À À À Á À Àm om Á r Á r gym m m m 0 m om ...

Page 36: ...c har ge t he cou p l i ng ca p aci t or t o t he aver age vol t age l evel of t he si gnal W h en t he si gnal i s cou p l e d di r ect l y t o t he i n p ut of t he a p pl i ed t o t he I NPUT connect or Th i s al l ows m easur em ent 454 t he i np ut i mpeda nce i s about one m ego hmpar al l el ed o f onl y t he AC comp onent of si gnal s havi ng bot h AC an d by a bout 15 p F W h en t he si g...

Page 37: ... ce p t i bl e connect t he Cal i br at or si gnal t o t he I N PU T CH 1 connect or Set t he CH 1 VOLTS DI V swi t c h t o 1 an d t he Pr o p er i nt er nal t r i gger i ng i n t he A LT m o d e can b e CH 2 V OLTS DI V swi t c h t o 2 m V Adj ust t he CH 2 obt ai ne d i n ei t her t h e NOR M or CH 1 ON L Y posi t i ons of VARI ABLE co nt r ol t o p r od uce di s p l ay exact l y f i ve t he T R...

Page 38: ... i np ut vol t age r at i ng of t he 454 t ur ned on W h en Channel 2 i s t ur ned on t he am pl i f i er si gnal i s di s p l ayed Thus t he i n p ut si gnal can be m oni t or ed by Cha nnel 1 w hi l e t he amp l i f i er si g nal i s di s pl ayed b y 2 Do not appl y si gnal s t hat exceed an eq ui val ent of Channel 2 about ei g ht t i m es t he VOLTS DI V swi t c h set t i ng F or examp l e wi ...

Page 39: ... al com ponent s on wh i c h i t i s not desi r ed t o t r i gge r I t i s al so usef ul wh en si g n al t r aci n g i n am pl i f i er s ph ase sh i f t AC The AC posi t i on bl oc k s t h e DC com pone n t of t h e net wor k s wave shapi ng ci r c u i t s et c Th e si gnal f r om t r i gge r si gnal Si gnal s wi t h l ow f r equency co m ponent s si ng l e poi nt i n t h e ci r c u i t un d er t...

Page 40: ...st sel ect t he Tr i gger i ng SOURCE C OUPL I NG and S LOPE a nd M O DE Then set t he LEVEL cont r ol f ul l y cl oc kwi se a nd r ot at e i t cl ockwi se unt i l t he d i sp l ay st ar t s at t he d esi r ed p oi nt Hi g h Fr e q uency St abi l i t y T he HF STA B co nt r ol on l y i s m ost usef ul at f r eq uenci es above about 40 m ega her t z or wi t h si gnal s whi c h cont ai n h i g h f r...

Page 41: ...t he Tr i gge r i ng LEVEL co nt r ol set i n t he r egi on W avef or m s obt ai ned wi t h t he Tr i gger i ng LEVEL co nt r ol set i n t he r egi on SLO PE Negat i ve Sl ope Fi g 2 77 Ef f ect s of LEVEL cont r ol an d t he an d 9 SLO PE swi t c h on d i spl ayed wavef or m O per at i ng I nst r uct i ons 454 R454A ...

Page 42: ...sengage d an d on l y t he Swee p G ener at or p ul se i ni t i at es t h e sweep an d si ngl e t r ace wi l l b e p r ese nt ed s w e e p r at e i s cha nged Th i s al l ows c hangi ng t he del ayed on t h e scr ee n Af t er t h i s swee p i s com pl et e t he Sweep sweep r at e wi t hout c hangi ng t he d el ay t i m e d et er m i ned by G ener at or i s l oc k e d out u nt i l r eset T he RESET...

Page 43: ... s t he m agni f i ed swee p r at e i s 0 05 m i cr oseco nd di vi si on The m agni f i ed swee p r at e m ust be used f or al l t i m e m easur em ent s when t he M AG swi t c h i s set t o X10 The m agni f i ed swee p r at e i s cal i br at e d w hen t he U NC A L OR l i g ht i s of f Del aye d Swee p The swee p d el ayed swee p i s o p er abl e i n t he DU RI NG D EL AYED SW EEP a nd M I XED p ...

Page 44: ... es of del ayed sweep Fi g 2 1 i l l u st r at es t h e d i f f e r ence bet ween t hese t wo m odes I n t he STA RTS AFT ER DEL AY TI M E p osi t i on t he sweep i s pr ese nt e d i m m edi at el y af t er t h e d el ay t i m e see Fi g 2 18A The B swee p i s t r i gger ed at sel ect ed l evel on sweep t o pr ovi d e del ay f or swee p Si nce t hi s d el ay t i m e i s t h e sam e f or eac h swee...

Page 45: ...LI ERI I 4Bsweept i m e 1 1 1 tr i gger t r i gger pul se pul se 1 1 Š y sweep di spl ay A sweep di spl ay I nt ensi f i ed por t i on j I nt ensi f i ed por t i on of wavef or m of wavef or m O per at i ng I nst r uct i ons 454 R454A Ÿ rr PR r r r r r r r _ A Sweep o B Sweep A Sweep 8 Sweep o E M E M E M E M E E N R O N M E M E N O M E N S M E M E N Á r à W à 3 STARTS fAFTER DELAY TI M E Å1 W TRI...

Page 46: ... DEL AYED SW EEP T hi s m et hod pr ovi d es t h e m axi m um r e pet i t i on r at e f or gi ven del aye d swee p d i s p l ay I n t he ENDS posi t i on t he m axi m um r epet i t i on r at e i s m ai nt ai ned aut om at i cal l y Ji t t er can be i nt r oduced i n t o t he di spl ay and g Chec k t hat t he dot s ar e exact l y f i ve d i vi si ons a par t I f i ncor r ect di spl ays pr oduced t ...

Page 47: ... or The one ki l o her t z sq uar e wave Cal i br at or of t he 454 pr ovi d es conveni ent si gnal sour ce f or chec ki ng b asi c ver t i cal gai n and swee p t i m i ng However t o pr ovi de m axi m um m easur em ent accur acy t he ad j ust m ent p r oce d ur e gi ven i n t he Cal i br at i on sect i on of t hi s m anual s houl d be used wh en r ecal br at i ng t he uni t The Cal i br at or out...

Page 48: ... near t he cent er ver t i cal li ne see F i g 2 19 To m easur e t h e DC l evel at gi ven poi nt on wavef or m use t h e f ol l owi ng pr ocedu r e 7 M easur e t he d i vi si ons of ver t i cal def l ect i on f r om pea k 1 Connect t he si g nal t o ei t her I N PU T connect or t o pea k M ak e sur e t he VA RI ABLE VOLTS DI V cont r ol i s i n t he C A L posi t i on Ÿ Thi s t echni que m ay al s...

Page 49: ...swi t c h set t i ng I ncl ude t he at t enuat i on f act or t i on of e qui pm e nt e g on an assem bl y l i ne t est wher e t he of t he pr obe i f any d esi r e d ampl i t u de or r e pet i t i on r at e does not pr o d uce an exact num ber of di vi si ons of def l ect i on The ad j ust m e nt wi l l be easi er an d m or e accur at e i f ar bi t r ar y uni t s of m easur em ent ar e est a bl i ...

Page 50: ...of 30 vol t s VOLTS DI V swi t ch set t i ng of 5 and t he VARI ABLE VOLTS DI V cont r ol i s ad j ust ed t o pr ovi d e ver t i cal def l ect i on of f our d i vi si ons Su bst i t ut i ng t hese val ues i n t he ver t i cal conver si on f act or f or m ul a st e p 4 Ver t i cal Conver si on Fact or 2 3 2 VOLTS DI V ver t i cal ver t i cal swi t c h conver si on d ef l ect i o n set t i ng f act ...

Page 51: ...ay t he c hannel used F i g 2 21 M easur i ng t he t i m e dur at i on bet ween poi nt s on wavef or m E xam pl e Assum e t hat t he di st ance b et ween t he t i m e m easur em e nt poi nt s i s f i ve d i vi si ons see F i g 2 21 an d t he œ DI V swi t ch i s set t o 1 m s wi t h t he m agni f i er of f Usi ng t he f or m ul a Fr e q uency M easur em ent Oper at i ng I nst r uct i ons 454 R454A ...

Page 52: ...t r ol t o m ove t he 10 poi nt of t he wavef or m t o t he f i r st gr at i cul e l i ne For examp l e wi t h f i ve d i vi si on di s p l ay as s hown i n F i g 2 22 t he 10 poi nt i s 0 5 di vi si on up f r om t he st ar t of t he r i si ng p or t i on 8 M easur e t he hor i zont al d i st ance bet ween t he 10 a nd 90 poi nt s Be sur e t he VA RI A BLE cont r ol i s set t o C A L 9 M ul t i pl...

Page 53: ... d t he compar i son si gnal t o I NPUT CH 2 The r ef er ence si g nal F i g 2 23 M easur i ng t i m e di f f er e nce bet ween t wo pul ses s houl d pr eced e t h e compar i son si gnal i n t i m e Use coaxi al cabl es or pr obes whi c h have equal t i m e d el ay t o connect t he si gnal s t o t he I NPUT co n nect or s 12 M ul t i p l y t he m easur e d d i f f er ence by t he set t i ng of t h...

Page 54: ...g 11 Subt r act t he f i r st d i al set t i ng f r om t he secon d an d m ul t i p l y by t he del ay t i m e s hown by t he œ DI V swi t ch Thi s i s t he t i m e i nt er val bet ween t he p ul ses 2 3 6 DELAY TI M E DELAY TI M E M U LTI PL I ER di al M U LTI PL I ER di al 1 31 8 81 Di spl ay D EL AYED SW EEP d i sp l ay Usi ng t he f or m ul a Ti m e Di f f er ence _ d el ayed swee p F i g 2 24...

Page 55: ...uct i ons 454A R454A 12 The a p par ent swee p m ag ni f i cat i o n can be cal cul at ed by d i vi d i ng t he œ DI V swi t c h set t i ng by t he œ DI V swi t c h set t i ng Examp l e Th e a pp ar ent m ag ni f i cat i o n of t he d i s pl ay s hown i n F i g 2 25 wi t h an œ DI V swi t c h set t i ng of 1 m s an d œ DI V swi t c h set t i ng of 1 s i s Ap p ar ent M agni f i cat i on œ DI V set...

Page 56: ...e SW EEP M O DE swi t c h t o STA RTS AFTER DELAY TI M E 6 Posi t i on t he st ar t of t he i nt ensi f i e d por t i o n wi t h t he DELAY TI M E M U LTI PL I ER di al so t he pul se t o be m easur e d i s i nt e nsi f i e d 7 Set t he œ DI V swi t c h t o set t i ng t hat i nt e nsi f i es t he f ul l por t i o n of t he pul se wh i c h s hows j i t t er 8 Set t he SW EEP M O DE swi t c h t o T ...

Page 57: ...ve t he osci l l osco p e t r i gger t he si gnal sour ce Thi s can be done by Pul se J i t t er 0 5 0 5 s co nnect i ng t he G ATE si g nal t o t he i nput of t he si gnal sour ce Set t he LEVEL cont r ol f ul l y cl oc kwi se The pul se j i t t er i s 0 25 m i cr osecon d SW EEP M O DE swi t c h t o AUTO T RI G and ad j ust t he œ DI V swi t ch f or t he desi r e d d i s p l ay Si nce t he si gn...

Page 58: ...i t h t he CH 1 an d CH 2 PO SI TI ON cont r ol s 10 Tur n t h e VA RI ABLE cont r ol unt i l one cycl e of t he r ef er ence si gnal C hannel 1 occu p i es exact l y ei g ht di vi si ons bet ween t he f i r st and n i nt h gr at i cul e l i nes see F i g 2 27 Each di vi si on of t he gr at i cul e r ep r esent s 45 of t he cycl e 360 8 di vi si ons 45 d i vi si on The swee p r at e ca n be st at ...

Page 59: ...o l ower r i g ht Fi g 2 28 Hi g h r es ol ut i o n ph ase d i f f er ence m easur em ent wi t h I f t he d i s p l ay i s ci r cl e t he si g nal s ar e 90 out of phase Examp l e To m easur e t h e p hase of t he di s p l ay s hown i n F i g 2 29 wher e i s 5 d i vi si ons a nd i s 10 d i vi si o ns use t he f or mu l a Th e ph ase di f f er ence i s 27 Si ne 4 1 Œ 0 5 F r omt h e t r i gonom et ...

Page 60: ... d esi r ed po r t i on of t he Channel 1 si gnal The un desi r e d si gnal i s cancel l e d out Exampl e An exampl e of t hi s m o d e of o per at i o n i s 3 Set b ot h I nput Co up li ng swi t c hes t o D C AC i f D C s hown i n F i g 2 30 The si gnal a pp l i ed t o Chan nel 1 component of i n put si gnal i s t oo l ar ge co nt ai ns unwant ed l i ne f r eque ncy com ponent s see F i g 2 30 co...

Page 61: ...ng st an d i ng t he over al l conce p t of t he 454 b ef or e t he i n d i vi ci r c ui t O ut p ut f r om t hi s ci r c u i t i s connect e d t o t he d ual ci r c ui t s ar e d i scusse d i n det ai l basi c b l oc k d i agr am Tr i gger G ener at or ci r c u i t Tr i gger G ener at or ci r cui t and of t he 454 i s s hown i n F i g 3 1 O nl y t he basi c i nt er con t he Hor i zont al Am pl i ...

Page 62: ... 454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A 3 2 y É µ Ÿ µ Ã Î Ì Î C 0 s Å F Ç V Ÿ F Å Ÿ ÇZ Ÿ F 9L ɵ Ì Í 3 m µ m Å _ É F µ Ÿ 4 t J m Â9 4 W S Q S m 4 U Ÿ 4 m m Ä or n Y Y 4 Å _ É É Ç 63 Ç 3 Å Ÿ ŸŸ Ÿ 2 Ì Å m à œ ...

Page 63: ...t or ci r cu i t does not p r od uce swee p unt i l i t m ent i s descr i bed i n det ai l i n t h i s d i scussi on Ci r c ui t s whi c h r ecei ves t r i gger pu l se f r om t he Tr i gger G ener at or ci r c u i t ar e com m onl y u sed i n t h e el ect r oni cs i n d ust r y ar e not des r e e i t he sel ect ed del ay t i m e cr i bed i n det ai l I f m or e i nf or m at i on i s d esi r e d o...

Page 64: ...onl y F i g 3 2 s hows det ai l ed bl oc k d i agr am of t he Chan nel 1 Ver t i cal Pr eamp ci r cui t Q 13 B pr ovi d es const ant cur r ent sou r ce f or Q 13A The sc hem at i c of t h i s ci r cui t i s shown on d i agr am 1 at t he bac k S T EP BAL adj ust m ent R21 var i es t he gat e l evel of t hi s m anual of Q 13 B t o pr ovi de zer o vol t l evel at t he em i t t er of Q 34 wi t h no si...

Page 65: ... zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPO 1 2 Ÿ 1 6 m d µ µ 2 Å œ 1 W œ C Ÿ S Å Ci r cui t Descr i pt i on 454A R454A Q ...

Page 66: ...Tr i gger Pi c kof f st age i s an em i t t er cou p l ed amp l i f i er st age wi t h t he m ai n si gnal dr i ve ap p l i ed t o t he base of Q 56 and t he out pu t si gnal t a ken f r om t h e col l ect or of Q 54 Thi s ci r cu i t conf i g u r at i on of f er s good f r eq uency r es p onse and DC st abi l i t y an d r e d uces unwant ed com m on m od e si gnal s The CH 1 O ut p ut DC Level ad...

Page 67: ... ca n not pass t h r oug h t h e Del ay L i ne Dr i ver and Del ay Li ne st ages I n t o t h e Del ay L i ne Dr i ver st age At t h e sam e t i m e i n t h e t h e AL T an d CHOP posi t i ons of t h e M O DE swi t c h bot h C h a n n e l 1 Di o d e Gat e CR 202 CR203 ar e connect ed t o c h annel s ar e al t er nat el y di s p l aye d on s h ar e d t i m e basi s gr ound t h r oug h R 210 CR202 CR...

Page 68: ...pl i ed t o Q 234 at t he t o pass t o t he Del ay Li ne Dr i ver st age The set t i ng of t he en d of each swee p Thi s negat i ve goi ng sync pul se m om en M O DE swi t ch has no ef f ect on ci r cui t op er at i on i n t he t ar i l y i nt er r u p t s t he cur r ent t hr ough Q 234 and bot h Q 215 m o d e al so see Hor i zont al Am p l i f i er di scussi on an d Q 225 ar e t ur ned of f W he...

Page 69: ... of t he Swi t c h i ng M ul t i vi br at or of t he t r ansi st or s begi ns t o con d uct f or examp l e Q 225 col l ect or r esi st or s R210 R213 an d R220 R223 t h r o ug h Q 2 2 5 con duct s t he Channel 2 c ur r ent an d p r event s t he CR212 or CR222 Th e col l ect or l evel of t he on Swi t c h Channel 2 si gnal f r om r ead i ng t he Del ay Li ne Dr i ver st age i ng M ul t i vi br at o...

Page 70: ... t he Del ay L i ne Dr i ver st age t h e ou t p ut si gnal i s t he al ge br ai c sumof t he si gnal s on bot h Channel s 1 and 2 Del ay Li ne Dr i ver Out p ut of t he Di ode G at e st age i s a pp l i ed t o t he Del ay Am p l i t u d e C om pensat i on N et wor k L i ne Dr i ver st age Q 274 and Q 284 Q 274 an d Q 284 ar e connect e d as f ee d bac k amp l i f i er s wi t h R276 an d R286 The ...

Page 71: ...er m al com pensat i on t o p r ovi d e b andwi dt h st a bi l i zat i on The di od es ar e hel d r ever se b i ased an d t hey a ppear i n t he ci r cui t as posi t i ve t emper at ur e coef f i ci ent capaci t ance Ther m i st or R424 has negat i ve t emper at ur e coef f i ci ent R424 an d t he di od es have p ea k i ng ef f ect whi c h i ncr eases wi t h t emper at ur e t o co u nt er act t he...

Page 72: ...p ut Amp l i f i er by R509 The t r i gger p l at es Th i s synchr o n i sm of t he def l ect i on si gnal an d t he si gnal f r om t he CH 1 Ver t i cal Pr eamp ci r cui t i s t er m i nat ed el ect r on beam r ed uces t he l oss i n h i g h f r equency sensi t i vi t y at t he Ver t i cal M O DE TRI G GER swi t ch by R501 and d ue t o el ect r on t r ansi t t i m e t hr o ugh t he def l ect i on...

Page 73: ...h i c h al ong wi t h t he q ui escent c ur r ent a bout 11 t he I n pu t Am p l i f i er st age has gai n of a bout 3 9 of 0544 est a bl i sh es qui esce nt l evel of about zer o vol t s at an d t he Out p ut Am p l i f i er st age has gai n of a bout 2 9 t he en d of t he t r ansm i ssi on l i ne W i t h l i t t l e vol t age dr o p t hr oug h t he si mul at ed t r ansm i ssi on l i ne syst em t...

Page 74: ... t he Sweep G ener at or ci r cui t These t r i gger p ul ses L I NG swi t c h t he D C comp onent of t he t r i gger si g nal i s CO UP ar e der i ved ei t her f r om t he i nt er nal t r i gger si gnal f r om t he bl oc ked by cou p l i ng ca p aci t or C606 or C607 Fr equ ency ver t i cal def l ect i on syst em an ext er nal si gnal connect ed t o com ponent s bel ow about 60 her t z ar e at t ...

Page 75: ...IHGFEDCBA 6 Ÿ Ÿ Ÿ Ÿ Ÿ Ÿ Ÿ C Å Î Ì 1 Q d Ÿ f µ m 0 Âœ 00 CL LL LL Ÿzyxwvutsrqponmlkjihg É Ÿ Î š J 10 ŸŸ Ÿ Ÿ 0 10 Ÿ Å Ÿ Ÿ Ÿ Ci r cui t Descr i pt i on 454 R454A Ÿ _ _ Ÿ C Ÿ à I L 6 1 Ÿ Ÿ Ÿ Ÿ Ÿ G 01 F F _ à 4 2 W C F º W µ r n Ÿ 0 Ÿ µ Ÿ t l Ÿ1 F Q Œ 1 ...

Page 76: ...s base i s hel d at t h e vol t age set by t he LEVEL Tr i gger TD cont r ol and i t s col l ect or cur r ent decr eases At t he sam e The Tr i gger TD st age sha p es t he o ut p ut of t he Sl o pe t i m e Q 636 i s f or war d bi ased and i t s col l ect or cur r ent i n Âom par at or t o pr ovi de t r i gger p ul se wi t h f ast l ead i ng cr eases N ot e Ther e i s nar r ow r egi on at t he swi...

Page 77: ... nvol vi ng R666 L664 t he c ur r ent of Q 664 t r ansf or m er 669 The o ut p ut si gnal f r om t h e secon d ar y of qu i c k l y r et u r ns t o t he l evel det er m i ne d by R664 an d t he t r ansf or m er 669 i s negat i ve goi ng si gnal t hat i s a pp l i ed col l ect or l oad The r esu l t ant si gnal at t he col l ect or of 0664 t h r o ug h C R671 an d C671 t o t he swee p gat i ng t u ...

Page 78: ...or of Q 685 goes negat i ve an d C689 d i sch ar ges U n d er q ui escent condi t i ons no t r i gger si gnal t he b ase of r ap i dl y t hr oug h Q 685 R699 R696 and LR695 As C689 Q 695 i s hel d at about 0 3 vol t by vol t age d i vi d er di sc har ges t he cur r ent f l ow t h r oug h R696 and LR695 R696 R697 LR695 The base of 0685 i s hel d at about hol ds Q 695 of f W h en C689 i s f ul l y d...

Page 79: ... h i s ci r c u i t i s s h own on R718 Th i s hol d s CR717 r ever se bi ased t o bl oc k t h e d i agr am 7 at t he bac k of t h i s m anual un bl an k i ng gat e The i nt ensi t y l evel i s est a bl i s he d by t he cur r ent t hr o ugh R718 t he I NT ENSI TY cont r ol set t i ng The SW EEP M O DE al l ows t hr ee m odes of o p er at i on and t he l evel est abl i s hed by t h e HOR I Z DI SPL...

Page 80: ...mlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Ä 3 2 É W 2 _ F 0 i Î Ã W C t É É 3 g g 09 œ È 00 É c É 0 0 C Ÿ  Ÿ C a _ C F Ž m à d 0 Æ c  y Q Ì Œ c É _ 0 zyxwvutsrqponmlkjihgfedcbaZYXW Ì Ã º µ QN Ut S U Î E L r Î œ 7 7 C n0m 0a à à F à Ÿ Ÿ Ä Ÿ Ä d Ì Ä Ì C 3 ...

Page 81: ...he negat i ve goi ng saw p r o d uce l i near sawt oot h out pu t si gnal The o ut p ut vol t age t oot h si gnal at t h e em i t t er of Q 753 B i s connect ed t o t he cont i n ues t o go negat i ve unt i l t he ci r cu i t i s r eset t h r oug h b a s e of Q 754 t hr oug h R755 Q 754 amp l i f i es an d i nver t s t h e Swee p Reset M ul t i vi br at or The out p ut si g nal f r om t he t h i s...

Page 82: ... e d The posi t i ve goi ng vol t age acr oss t he Hol d of f Ca p aci t or as i t The posi t i ve goi ng aut o gat e l evel at t he base of 0794 dr i ves c har ges i s connect e d t o t h e base of Q 775 t hr o u g h C R763 Q 794 i nt o sat ur at i on The col l ect or of Q 794 goes negat i ve an d VR766 W h en t he b ase of Q 775 r i ses p osi t i ve enoug h t o abo ut zer o vol t s and t he SW E...

Page 83: ...t he p osi t i ve goi ng l evel at t he em i t t er of Q 785 r eac hes a bout 3 vol t s base l evel of 0785 set by d i vi d er R771 R772 R773 i t t ur ns on an d i t s col l ect or r i ses p osi t i ve t o f or war d bi as 0786 The col l ect or of Q 786 r a p id l y goes negat i ve whi c h f or ces Q 785 t o cond u ct even har d er C787 R787 di f f er en t i at e t h i s negat i ve goi ng c hange ...

Page 84: ...Ci r cui t Descr i p t i on 454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A Î m dR 0 F m 0 CL t Í µ U 0 0 Ì Ÿ 0000 m oo _ É É _ _ É Q 6 È µ Á Ÿ Î Ÿ Ç 3 µ Ÿ Å Ÿ Ÿ È 00 J È J ...

Page 85: ...o t he anod es of negat i ve W h en i t goes m or e negat i ve t han t he l evel at t he CR907 an d CR908 t h r oug h R949 or R950 W h en t he base of Q 996 B est abl i s hed by t he DELAY TI M E Swee p G at e st age i s i n i t s l ow vol t age st at e t h i s c ur r ent M U LTI PL I ER cont r ol Q 996 B t a k es over con d uct i on of f l ows t h r o u g h CR908 t o t he Axi s Am pl i f i er ci ...

Page 86: ...Ci r cui t Descr i pt i on 454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A Á y 3 œ 3 g 0 ÉÌ U E É Œ Æ Æ Q W F É r n Æ m J d Ì Ÿ Ì Ì F Ì i G m2 Æ Ç 3 Æ 00 É F ˆ Ã Ì Ÿ Ä Ÿ Ì Ä Ì m Ÿ 3 Ÿ W ...

Page 87: ...c Sweep Reset M u l t i vi br at or conf i gur at i on Tr ansi st or s Q 974 an d Q 978 comp r i se bi st abl e m ul t i vi an d op er at i on i s t h e sam e as f or swee p However sever al br at or ver y si m i l ar i n conf i g ur at i on t o t he Sweep Reset di f f er ences do exi st swee p d oes not have swee p l engt h M u l t i vi br at or The pur pose of t he M i xed Swee p Bl an k i ng ne...

Page 88: ... l ow i n put i mpedance I t conver t s si ngl e en d ed i n p u t si gnal t o push pul l out p ut si gnal wh i c h i s necessar y t o dr i ve t he hor i zont al def l ect i on p l at es of t h e CRT I n t he and DU RI NG posi t i ons of t he HORI Z DI S PL AY swi t ch t he sawt oot h f r om t he Swee p G ener at or ci r c u i t i s connect e d t o t he base of Q 1012 t hr o u g h R1005 The sawt o...

Page 89: ...Ci r c ui t Descr i pt i on 454zyxwvutsrqponmlk R454A à m Ÿ Ÿ Í Ä µ Ì Ÿ Ì Ç œ Ì ...

Page 90: ...esi st or s 81044 81046 an d 12 vol t s Th i s l i m i t s r at es W h en t h e M AG swi t c h i s set t o 10 t he M AG O N t he out p ut swi ng of t he Hor i zont al Amp l i f i er t o l i m i t t he l i g h t DS1029 i s connect ed t o t h e 150 vol t su pp l y t r ace wi t h i n t he gr at i cu l e ar ea t h r oug h 81029 DS1029 i s i gni t ed t o i n d i cat e t hat t he swee p i s m agni f i e...

Page 91: ...t pr o t her e by i ncr easi ng t he o ut p ut vol t age of t h e su pp l y Thi s t ect i on f or 230 V oper at i on F 1102 c ur r ent r at i ng i s one p l aces m or e vol t age acr oss di vi der R1123 R11124 131125 hal f of F 1101 a nd the d i vi d er act i on r et ur ns t he base of 01124 t o about 9 vol t s si m i l ar b ut o pp osi t e act i on t a kes pl ace w hen R1124 i s t u r ned count e...

Page 92: ...r _ Q 1194 t 12 V ol t 12 Vol t Rect i f i er Ser i es 12 1142 Reg ul at o r CR __ 01167 Power J Short I nput Pr ot ect i on Am p l i f i er 01149 Er r or R1149 Ampl i f i er 01163 12 Vol t 12 V ol t Se ri es Rect i f i er Reg ul at o r CR 1112 01137 Shor t Pr ot ect i on 12 V ol t Am p l i f i er Er r or R ef er ence 01119 Am p l i f i er VR 1116 01116 01124 01133 _ R1119 AAA 12 V R1107 111108 SC...

Page 93: ...ed W h en Q 1194 vol t age di vi d er R1157 R1158 R1159 bet ween t he r eg ul at ed c o m e s on i t s col l ect or goes negat i ve an d i t t ur ns Q 1193 of f 12 vol t s and t he o u t put of t hi s sup p l y The 12 vol t s i s t o r educe t he cur r ent f l ow t hr oug h t he Ser i es Regu l at or hel d st a bl e by t he 12 Vol t Su p pl y as d i scussed p r evi o usl y st age Q 1 197 an d t he...

Page 94: ...q u ar e wave out p ut t h e out p ut si gnal dr o p s negat i ve t o gr oun d W h en t he base wi t h acc u r at e amp l i t ude an d f r e quency Thi s o ut p ut i s goes negat i ve Q 1294 i s d r i ven i nt o sat ur at i on and t he out avai l a bl e as s qu ar e wave vol t age at t he 1 V C AL 1 kHz put si gnal r i ses posi t i ve t o a bout 12 vol t s The col l ect or connect or an d as squar...

Page 95: ... ect i on at m i ni m um i nt ensi t y W h en t h e I NT ENSI TY con i nt ensi t y posi t i ve goi ng si gnal connect e d t o t h e AXI S t r ol i s set f ul l y count er cl oc kwi se m i n i m um t h e col l ect or I N PUT connect or d ecr eases t r ace i nt ensi t y an d negat i ve c u r r ent of Q 1314 i s r ed uced and i t s col l ect or r i ses p osi t i ve goi ng si gnal i ncr eases t r ace ...

Page 96: ...nt phos ph or bur ni ng W h en t he HORI Z Q 1430 begi ns t o decr ease Thi s pr od uces cur r ent i n t he DI S PL AY swi t c h i s set t o D EL AYED SW EEP or f ee d bac k wi n d i ng of 1430 an d cor r es p on d i ng negat i ve 150 vol t s i s connect ed t o t he em i t t er of Q 1324 t hr oug h v o l t a g e l ess posi t i ve at t h e base of Q 1430 wh i c h begi ns t o CR 1326 R 1326 R 1327 C...

Page 97: ...r w hi ch i s connect ed t o t he base t ai n const ant out put vol t age of Q 1430 t h r oug h t he f ee d bac k wi n di ng of 1430 m or e posi t i ve l evel at t he base of Q 1430 i ncr eases i t s col l ect or c ur r ent t o p r o d u ce l ar ger i n du ce d vol t age i n t h e secon Posi t i ve accel er at i ng pot ent i al f or t he CRT anode i s dar y of 1430 Thi s i ncr eased vol t age a p ...

Page 98: ... gnal a pp l i ed t o t he AXI S I N PUT connect or i s cat h o d e The ASTI G ad j u st m ent R 1489 wh i c h i s use d i n a pp l i ed t o t he CRT cat ho d e t hr o ug h C1479 R 1477 C1477 con j u nct i on wi t h t he FO CUS cont r ol t o pr ovi d e wel l an d t o t he Axi s Am p l i f i er ci r cui t Low f r e q uency Z axi s def i ned d i sp l ay var i es t h e p osi t i ve l evel on t he ast...

Page 99: ...at i ng con di t i ons r e q ui r e Acc um ul at i on of d i r t i n t he i nst r um ent can cause over h eat i ng and com ponent br ea kd own Di r t on com p onent s act s as an i nsul at i ng bl an ket an d p r event s ef f i ci ent heat d i ssi p at i on I t al so p r ovi des an el ect r i cal con d uct i on p at h C A UTI ON SECTI ON 4 M AI N TEN AN C E Ai r F i l t er Th e ai r f i l t er s h...

Page 100: ...l l y i ndi cat es ot her t r o ubl e i n t he i nst r um e nt t her ef or e i t i s i mpor t ant t hat t h e cau se of over heat i ng be cor r ect e d t o p r event r ecur r ence of t he d am age Tr ansi st or Chec k s Per i o d i c c h ec k s of t he t r ansi st or s i n t he 454 ar e not r ecom m en d e d The b est chec k of t r ansi st or per f or m ance i s i t s act ual oper at i on i n t he...

Page 101: ...f wi r e woun d r esi st or s ar e p r i nt ed t he t he comp l et e swi t c h assem bl y The n um ber e d por t i on of bod y of t he comp onent The r esi st ance val ues of comp o t he co d e r ef er s t o t he waf er num ber co u nt i ng f r om t he si t i on r esi st or s and m et al f i l m r esi st or s ar e col or cod ed f r ont or m o unt i ng end of t he swi t c h t owar d t he r ear The ...

Page 102: ...t al encase d d i od es can b e i d ent i f i e d by t h e d i od e symb ol m ar k ed on t h e bod y Sem i con d uct or Lead Conf i gu r at i on Fi g 4 2 sh ows t h e l ea d conf i gur at i ons of t h e sem i con d uct or s use d i n t h i s i nst r um ent Th i s vi ew i s as seen f r om t h e bot t om of t h e d evi ce Fi g 4 1 Col or co de f or r esi st or s a nd cer a m i c ca paci t or s 20 00...

Page 103: ... on of t he f ol l owi ng t he r e p l acem ent p r oce d ur e gi ven und er Cor r ect i ve i nst r um ent i n whi c h t h e t r ou bl e i s l ocat ed M any t r oubl es M ai nt enance ca n be l ocat e d by vi sual i n d i cat i ons s uc h as unsol der ed con nect i ons b r o k en wi r es dam aged ci r cui t boar d s d am age d 1 Chec k Cont r ol Set t i ngs I ncor r ect cont r ol set t i ngs can c...

Page 104: ...d er e d i n pl ace ar e best chec k ed by d i sconnect i ng one end Th i s i sol at es t he TABLE 4 3 m easu r em ent f r om t he ef f ect s of s ur r oun d i ng ci r cui t r y Power Sup p l y Tol er ance TRANSI STORS The best c hec k of t r ansi st or o p er Typi cal Ri pp l e at i on i s act ual per f or m ance u n der o p er at i ng con d i t i ons I f P ower Su ppl y Tol er ance m axi m um t ...

Page 105: ...ent par t s f r om a pp l i e d 3 I f bot h t he r esi st ance an d vol t age ar e cor r ect Te kt r oni x I nc i ncl u d e t he f ol l owi ng i nf or m at i on t he coi l can be assu m ed t o be cor r ect c hec k the r eed r el ay posi t i on an d cont i n u i t y 4 I f t he r esi st ance i s i ncor r ect 1 I nst r um ent Ty p e t a ke i nt o account su r r oun d i ng ci r c ui t r y d i sconnect...

Page 106: ...M ai nt enance 454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A F Ä Å i Ÿ Ÿ Ä W Æ Ÿ F Ÿ OE V Í Ì Ì Î 3 3 i Ž 2 0S µ I t y 6 ...

Page 107: ...M ai nt enance 454zyxwvutsrqponml R454A ...

Page 108: ...m a k e t h e sol der f l ow f r eel y 4 Touc h t he i r on t o t he connect i on an d appl y sm al l am ount of sol der t o m a k e f i r m sol d er j oi nt To pr ot ect heat sensi t i ve comp onent s hol d t he l ead bet ween t he comp onent bo d y an d t he sol d er j oi nt wi t h pai r of l ong nose p l i er s or ot her heat si n k 5 Cl i p t he excess l ea d t hat pr ot r u d es t hr oug h t ...

Page 109: ... cer am i c st r i ps an d sp acer s used i n t hi s i nst r um ent ar e gi ven i n t he M ec hani cal Par t s L i st 1 Rem ove al l scr ews h ol d i ng t he boar d t o t he c hassi s To r e pl ace cer am i c t er m i nal st r i p use t h e f ol l owi ng pr ocedur e 2 The boar d m ay now b e l i f t ed f or m ai nt enance or access t o ar eas beneat h t h e boar d R EM OVA L 3 To compl et el y r e...

Page 110: ...1 Rem ove t he t o p and bot t omcover s an d r ear panel or r ear cast i ng as d escr i bed p r evi ousl y 2 Rem ove t he l i gh t f i l t er f r om t he f r ont of t he CRT 3 Di sconnect t h e CRT ano d e connect or G r oun d t h i s l ea d an d t he ano de connect i on t o d i schar ge any st or ed c har ge 4 Di sco nn ect t he t wo gr ou nd b r ai ds f r om bet ween t he CRT s hi el d an d t h...

Page 111: ...Assembl y c hec k e d f or cor r ect cal i br at i on al so Ref er t o t h e P er f or F 1102 1 F ast Vol t age Sel ect or 230 vol t l i ne m ance Chec k Cal i br at i on sect i on f or t he cor r ect pr oce Assem bl y dur es F 1204 0 25 Fast By p ower 150 vol t s t r ansf or m er F 1437 2 Fast By power H i g h vol t age Tr ansi st or Re p l acem ent Tr ansi st or s s houl d not b e r e t r a nsf ...

Page 112: ...f r em oval ar e di sconnect ed Then use t he ol d swi t ch as gui d e f or i nst al l i ng t he new one An al t er nat e m et hod i s t o dr aw sket ch of t he swi t ch l ayout an d r ecor d t he wi r e col or at NOTE each t er m i nal W hen sol der i ng t o t he newswi t ch be car ef ul t hat t he sol d er does not f l ow beyond t he r i vet s of t he sol der j oi nt s i n t h e hi gh vol t age ...

Page 113: ... r cui t Boar d 1 Axi s Am pl i f i er 2 H i gh Vol t age Regul at or Cal i br at or Ci r cui t Boar d be h i nd sw i ng out si de panel Sw eep Ci rcui t Boar d 1 Tr i gger Gener at or 2 Sweep Gener at or 3 Hor i zont al Am pl i f i er Sweep Ci r cui t Boar d 1 Tr i gger Pr eam p 2 Tr i gger Gener at or 3 Sweep G ener at or Fi g 4 4 Locat i on of ci r cui t boa r ds i n t he 454A M ai nt ena ce 45...

Page 114: ...NO TES ...

Page 115: ... k The p er f or m ance of t hi s i nst r u m ent can b e c hec ke d wi t hout r em ovi ng t he cover s or wavef or m s sh own i n t h i s sect i on wer e t aken wi t h m a k i ng i nt er nal a d j u st m ent s b y per f or m i ng Par t Tek tr oni x Osci l l oscope Cam er a Syst em Å l ess Per f or m ance Chec k Thi s pr oced ur e c hec ks t he i nst r um ent not e d ot h er wi se agai nst t ol er...

Page 116: ... p abi l i t i es of t h i s i nst r um ent can be ver i f i e d by chec k i ng ver t i cal d ef l ect i o n accur acy usi ng St an d ar d Am p l i t ud e Cal i br at or ver t i cal st e p r es p onse usi ng Ty p e 109 Ty pe 113 combi nat i on and hor i zont al t i m i ng accur acy usi ng Ti m e M ar k G ener at or 1 Var i a bl e a ut ot r ansf or m er 2 M ust be ca p abl e of s upp l yi ng 200 vo...

Page 117: ...examp l e Gener al Radi o 1310 Osci l l at or use Gener al Rad i o Ty p e 27 Ad ap t er Connect or s BNC f em al e an d t wo al l i gat or 274Q BJ Ad apt or t o pr ovi d e BNC out p ut cl i p s Tekt r oni x Par t No 013 0076 00 16 Cu r r ent m easur i ng pr obe wi t h passi ve t er m i nat i on Sensi t i vi t y t wo m i l l i amp er es m i l l i vol t accur acy wi t h i n 3 Te kt r oni x 6021 Cu r...

Page 118: ...ee p Cont r ol s I NTENSI TY M i dr ange DELAY TI M E FO CUS M i d r ange M U LTI PL I ER 0 10 SCALE I LLU M As desi r ed œ DI V 1 m s BANDW I DTH œ DI V 1 m s BEAM F I NDER FU LL V AR C A L Ver t i cal Cont r ol s bot h c hannel s i f ap p l i ca bl e œ DI V VAR CA L SW EEP M O DE AU TO TRI G VOLTS DI V 1 0 m V SW EEP M O DE T R I G GERABLE A FTER VAR Cal i br at ed d et ent DEL AY TI M E PO SI T...

Page 119: ...age 5 20 6 Chec k Channel 1 and 2 G ai n Page 5 9 Accur acy 7 Chec k Ad de d M od e Oper at i on P age 5 10 27 Chec k an d M agni f i ed Swee p Page 5 21 Acc ur acy 8 Ch ec k Channel 1 an d 2 Def l ect i on Page 5 10 Accu r acy 28 Chec k Del ay Ti m e Accu r acy Page 5 22 9 Chec k Channel 1 an d 2 Var i a b l e V ol t s Page 5 10 29 Ch ec k D e l a y Ti m e M u l t i p l i er Page 5 23 Di vi si on...

Page 120: ...per f or m ance of thi s i nst r um ent can be check ed at any t em per at ur e wi t hi n t he 0 C t o 40 C t em per at ur e r ange unl ess st at ed ot her wi se 1 Connect t he 454 t o power sour ce w h i c h m eet s t he vol t age an d f r eq uency r e qu i r em ent s of t hi s i nst r um e nt 42 Ch ec k and G at e O ut p u t Si gnal s Page 5 28 2 Set t h e cont r ol s as gi ven u nd er Pr el i m...

Page 121: ...or m ance Ch ec k 454 R454A Cont r ol Set t i ngs d Set t he LEVEL cont r ol f or st a bl e d i sp l ay e CHECK M ar ker s s ho ul d b e wel l d ef i ned wi t h op t i m umset t i ng of t he F O CUS cont r ol Ad vance t he I NT ENSI TY cont r ol unt i l t he t r ace i s f I f necessar y ad j ust t he F O CUS cont r ol and ASTI G vi si bl e ad j u st m ent on si d e panel f or best def i ni t i on ...

Page 122: ...cy gener at or f or f i ve vol t out p ut at 50 k i l oher t z use cal i br at ed posi t i on of gener at or j Di sconnect al l t est equi p m e nt an d r e p l ace gr ound amp l i t u d e cont r ol st r a p b Set t he I NTENSI TY cont r ol t o nor m al set t i ng f CHECK CRT di sp l ay f or not i ceabl e i nt ensi t y m o d ul a t i on The I NTENSI TY cont r ol set t i ng m ay need t o be r ed uc...

Page 123: ... Cou pl i ng swi t c hes t o GND N O U se t he BAN D W I D TH BEAM FI N D ER swi t ch t o l ocat e the t r ace i f i t i s def l ect ed of f scr een w hen swi t chi ng t o 5 m V or 2 m V e Set t he M O DE swi t c h t o CH 2 VERTI C A L SYST EMCHECK 7 Du al I n p ut Coupl er 8 18 I nc h 50 BNC Cabl e 9 42 I nc h 50 BNC Ca bl e h I f t her e i s t r ace sh i f t ad j u st t he CH 2 STEP BA L ad j u ...

Page 124: ... swi t ch t o CH 2 of t he CH 1 VO LTS DI V swi t ch f Di sconnect t he cabl e f r om t he I NPUT CH 2 con VO LTS St an dar d Ver t i cal Maxi m um nect or DI V Am pl i t ude Def l ect i on E r r or F or Swi t ch Cal i br at or i n t 3 Set t i ng O ut put Di vi si ons Accur acy 10 Check Channel 1 an d 2 Cascaded Def l ect i on d i vi si ons Fact or Connect t he CH 1 O U T connect or t o t he I NPU...

Page 125: ... m i t of Channel s 1 an d 2 Set t he Ver t i cal M O DE swi t c h t o CH 1 t he i n p ut co up l i ng swi t ches t o DC t he VOLTS DI V swi t ches t o 10 m V t he HORI Z DI S PLAY swi t c h t o t he œ DI V swi t c h t o 5 m s an d t he T R I G GER I N G LEVEL cont r ol f ul l y cl oc k wi se b Connect t he o ut pu t of t he hi g h f r equency co nst ant amp l i t u d e si gnal ge ner at or 067 05...

Page 126: ... ug h 5 na nosecond ca bl e and G R 50 i n l i ne t er m i nat i on Ad j ust t he m e d ium f r equency si gnal gener at or f or 4 d i vi si ons of d ef l ect i on at 50 kHz r ef er ence É W i t hout c hangi ng t he si gnal gener at or out pu t am pl i t ud e ch ange t he o ut p ut f r e q uency unt i l t he ver t i cal def l ect i on i s r educed t o 2 8 di vi si ons Ç C H ECK Ou t p ut f r eq ue...

Page 127: ...2 m V c M ak e s ur e t he TRI G swi t c h i s set t o NO R M d Connect t he out put of t he m e d i um f r equency const ant am pl i t ud e si gnal gener at or t o t he CH 1 i nput connect or t h r ough 5 nanosecond cabl e GR 10 at t en uat or and G R 50 i n l i ne t er m i nat i on e Ad j ust t he m ed i u m f r eq uency gener at or f or 4 d i vi si ons of d ef l ect i on at 50 kHz r ef er ence ...

Page 128: ...f r equency si gnal gener at or t o 100 m egaher t z b Ad j ust t he m e d i um f r equency si gnal gener at or f or 6 d i vi si ons of def l ect i on at 50 kHz r ef er ence f CHECK CRT di spl ay f or 0 2 di vi si on or l ess def l ec t i on at t enuat i on r at i o of 30 1 or bet t er of 100 m egaher t z si gnal c W i t hout changi ng t he si gnal gener at or out p ut am pl i t ude change t he ou...

Page 129: ...A g CHE CK Rep eat chec k st ep e M ust be abl e t o t r i gger bot h and i n al l posi t i ons of t he TRI G GERI NG COU PL I NG swi t c h h Set t he HORI Z DI SPL AY swi t c h t o DELAYED SW EEP i CHE CK That st abl e di s p l ay can be obt ai ned by adj ust i ng t he TRI G GERI NG LEVEL cont r ol i n bot h t he an d posi t i ons of t he TRI G GER I NG SLOPE swi t ch Rep eat chec k f or eac h po...

Page 130: ... GER I N GCOU PL I NG swi t ch Å Set t he TRI G GERI NG SOU RCE swi t c h t o I NT CH ECK Repeat chec k st ep t Tr i gger i ng bot h an d m ust be possi bl e i n al l posi t i ons of t he T RI G GER I NG COU PL I NG swi t ch excep t t he H F R EJ posi t i on É Di sconnect al l t est equ i p m ent 20 Chec k an d 150 M egaher t z Tr i gger i ng f Set t he HORI Z DI SPLAY swi t c h t o DEL AYED SW EE...

Page 131: ... NG swi t c h st abl e di s p l ay m ust not be obt ai nabl e i n t he H F R EJ posi t i on of t h e TRI G GERI NGC OU PLI NG swi t c h É CH ECK CRT d i s p l ay f or 0 2 di vi si on or l ess of j i t t er Ç Di sconnect al t est eq ui p m ent 21 C hec k an d 60 Hz Tr i gger i ng O per at i on h CH E CK That st abl e di sp l ay can be obt ai ned by ad j ust i ng t he T RI G G ERI NG LEVEL cont r ol...

Page 132: ...r ot at i on f Set t he TRI G GERI NG S LOPE swi t c h t o Set t he HORI Z DI SPL AY swi t c h t o an d t he g CH ECK Rot at e t he TRI G GERI NG LEVEL cont r ol TRI G GERI NG S LOPE swi t c h t o t hr o ugh out i t s r ange an d c hec k t hat d i sp l ay can be t r i gger ed at any p oi nt al ong t he negat i ve sl o p e of t he wavef or m i n d i cat es T RI G GERI NG LEVEL cont r ol r ange of a...

Page 133: ...y i s not t r i gger e d at ei t her ext r em e of r ot at i on s Set t he CH 1 VOLTS DI V swi t c h t o 1 an d t he TRI G GERI NG SOU RCE swi t c h t o EXT Ç Di sconnect al t est eq u i pm ent P er f or m ance Chec k 454 R454A 25 Chec k Aut o Recover y Ti m e an d Oper at i on Set t he œ DI V swi t c h t o 50 m s an d t he SW EEP M O DE swi t c h t o AUTO T RI G b Connect t h e out p ut of t he 2...

Page 134: ... s m ar ker s 1 m s 2 m s c Set t he œ DI V swi t c h t o 1 m s 5 m s 10 m s 20 m s d Posi t i on t he second m a r ker t o t he f i r st di vi si on 50 m s ver t i cal l i ne 1 s 2 s 5 s e CHECK Four t h m ar ker wi t hi n 0 1 di vi si on wi t h i n 5 of t he t hi r d d i vi si on ver t i cal l i ne f Posi t i on t he t h i r d m ar ker t o t he second d i vi si on ver t i cal l i ne 5 20 3 St an...

Page 135: ... on ver t i cal l i ne 05 s 1 5 nanosecond 1 1 1 s 1 10 nanosecond 1 1 2 s 1 10 nanosecond 1 2 5 s 50 nanosecond 1 Á CHECK Fi f t h m ar ker wi t hi n 0 1 di vi si on wi t hi n 5 1 s 0 1 m i cr osecon d 1 of t he f o u r t h d i vi si on ver t i cal l i ne s 0 1 m i cr osecond 2 5 s 0 5 m i cr osecond 1 l ops 1 m i cr osecond 1 q Cont i nue t h i s chec k f or eac h t wo di vi si on por t i on of ...

Page 136: ... wo di vi si on por t i on of b CHECK Usi ng t he œ DI V swi t c h œ DI V t he di s p l aye d sweep wi t hi n t he cent er ei ght di vi si ons of t he swi t c h and t i m e m ar k gener at or set t i ngs gi ven i n Tabl e 5 4 gr at i cul e ch ec k del ayed sweep accur acy wi t h i n t h e gi ven t ol er ance F i r st set t he DELAY TI M E M U LTI PL I ER di al t o 1 00 and r ot at e t he di al unt...

Page 137: ... vi si ons 1 5 g Set t he DELAY TI M E M UL TI PL I ER di al t o 1 00 and r ot at e sl i g h t l y unt i l m ar k er i s di sp l aye d at t he st ar t of t he swee p Not e t he di al r ead i ng h Set t he DELAY TI M E M UL TI PL I ER d i al exact l y 8 00 d i al di vi si ons h i g her t han t he r ead i ng i n par t g i Tur n t h e VARI A BLE cont r ol sl i g ht l y so m ar ker i s di s p l aye d ...

Page 138: ...ont r ol t o e CHECK Ji t t er on l ead i ng edge of t he pul se sh oul d ENDS not exceed 0 5 di vi si on Di sr egar d sl ow dr i f t b Rot at e t he DELAY TI M E M U LTI PL I ER di al t h r ough 31 C hec k M i xed Swee p Op er at i on out i t s r ange Set t he œ DI V swi t c h t o 1 m s an d t he TI M E DI V swi t c h t o 5 m s µ C HECK CRT d i spl ay en d s af t er t he i nt ensi f i ed por t i ...

Page 139: ... an d ar d am pl i t u d e cal i br at or f or 0 1 vol t sq uar e wave out put d I ncr ease t he I NT ENSI TY cont r ol set t i ng unt i l t he di s pl ay t wo d ot s abo ut f i ve d i vi si ons a par t i s vi si bl e e M ove t he di s p l ay t o t he cent er of t he gr at i c ul e wi t h t he CH 1 PO SI TI ON cont r ol f CH ECK CRT d i s p l ay f or f i ve d i vi si ons hor i zont al d ef l ect i...

Page 140: ...ph ase sh i f t CALI BRATI ON See st ep 35 of Ad j ust m ent pr o ced ur e d W i t hou t changi ng t he out p ut am pl i t ud e i ncr ease t he out p ut f r eq uency of t he gener at or unt i l t he hor i zont al de f l ect i on i s r e d uced t o 4 2 di vi si ons 3 dB poi nt 37 Chec k Bandwi dt h i n M od e c Set t h e gener at or t o i t s var i abl e f r equency posi t i on Di sconnect t he du ...

Page 141: ...he t i m e m ar ker l ea d i ng edge s h oul d not exceed 0 5 d i vi si on 0 5 accu r acy h C ALI BRATI ON See st e p 6 of Ad j u st m ent p r o cedur e 39 Chec k Cal i br at or W avef or m Ri set i m e OUTPUT SI GN ALS CH ECK 5 42 I nch 50 BNC Ca b l e c P osi t i on t he 10 poi nt of t he l ead i ng e dge t o ver t i cal gr at i cul e l i ne d CHECK CRT d i s p l ay f or f i ve di vi si ons or l...

Page 142: ... at l east 0 25 f Di sconnect al l t est eq ui pm ent 42 Chec k an d G at e O ut p ut Si gnal s c Set t he t est osci l l oscope f or ver t i cal def l ect i on f act or of 2 vol t s d i vi si on at swee p r at e of t wo m i l l i seconds di vi si on d CHECK Test osci l l osco p e d i s p l ay f or about si x di vi si ons of ver t i cal def l ect i on wi t h t he bot t om of t he wave f or m near ...

Page 143: ...C109 1 Ad j ust 12 Vol t Power Su p pl y R 1124 Page 5 31 20 Ad j ust Ver t i cal O ut pu t Am p l i f i er Page 5 40 2 Adj ust 12 Vol t Power Supp l y Ad j u st Page 5 31 Hi g h F r e q u ency C omp ensat i on C353 Cal i br at or O ut p ut Vol t age R 1158 C426 L394 L494 R353 R394 R417 R419 R426 R494 3 Ad j u st 75 Vol t Power Su pp l y Page 5 32 131188 21 Ad j ust Channel 1 Hi gh Fr e q uency P ...

Page 144: ... ot r ansf or m er out p u t vol t age t o t h e cent er of t h e vol t age r a n ge sel ect ed by t h e L i ne Vol t age Sel ect or Assem bl y 5 Set t h e cont r ol s as gi ven un d er Pr el i m i nar y Cont r ol Set t i ngs gi ven pr i or t o Par t Per f or m ance Ch ec k Al l ow at l east 20 m i nu t es w ar m u p bef or e p r oceed i ng N O Thi s i nst r um ent shoul d be adj ust ed at an am b...

Page 145: ... j ust 12 Vol t Power Su pp l y Rem ove Q 1275 l ocat ed be hi nd swi ng out si de p anel see F i g 5 4 f r om i t s soc ket on t h e Cal i br at or ci r cui t b oar d b Connect t h e pr eci si o n D C vol t m et er bet ween t he cent er cont act of t he 1 V C A L 1 kHz connect or and c hassi s gr o un d b Connect t he p r eci si on D C vol t m et er bet ween t he 12 vol t t est poi nt on t he Low...

Page 146: ... t he hi g h vol t age o ut p ut b CHE CK M et er r eadi ng of 75 vol t s 0 75 vol t l evel Al so var y t he I NTENSI TY cont r ol t hr o ug hout i t s r ange at t h e m axi m um and m i ni mum l i ne vol t age c hec k t h at r egul at i on r em ai ns wi t h i n gi ven l i m i t s c ADJUST 75 Vol t s a d j ust m ent R1188 see Fi g 5 3 f or m et er r ea d i ng of 75 vol t s 0 278 vol t I f t he hi ...

Page 147: ...ut vol t age t h r oug h out t he r eg u l at i ng r ange sel ect e d by t he L i ne Vol t age Sel ect or assembl y on t he r ear panel Power su pp l y t est poi nt s ar e s h own i n F i g 5 3 g Set T R I G swi t c h t o CH 1 ON L Y O R and t he œ DI V swi t c h t o 2 m s d Ret ur n aut ot r ansf or m er o u t p ut vol t age t o t h e cent er h CH ECK CRT d i s pl ay f or sl ow or no d r i f t of...

Page 148: ...EEP M O DE swi t c h t o A UTOTRI G b Ad vance t he I N TENSI TY cont r ol unt i l t he t r ace i s vi si bl e DI SPL AY AND Z AXI S ADJUSTM EN T f ADJUST T RACE RO TATI ON ad j u st m ent R1480 on i nst r u m ent si d e p anel so t he t r ace i s p ar al l el t o t h e h or i zont al gr at i c u l e l i nes g I NTERACTI ON Chec k st e p 10 9 Ad j ust Asi gm at i sm Connect t he t i m e m ar k gen...

Page 149: ... al l t est e qu i p m ent N O TES Adj ust m ent 454A R454 f P osi t i on t he t r ace t o t he t o p of t h e gr at i c u l e ar ea g CH ECK Devi at i on f r om st r ai g ht l i ne sho u l d not exceed 0 1 d i vi si on h Posi t i on t h e t r ace t o t he bot t om of t he gr at i cul e ar ea i C H ECK Devi at i on f r om st r ai g ht l i ne shoul d not exceed 0 1 d i vi si on j Di sconnect al l t...

Page 150: ...l d not m ove m or e t han 0 1 Bal ance d i vi si on ver t i cal l y Set t he I n pu t Coupl i ng swi t c hes t o GND b Posi t i on t he t r ace t o t h e cent er h or i zont al l i ne wi t h t he CH 1 PO SI TI ON cont r ol µ C H ECK Change t he CH 1 VOLTS DI V swi t c h f r om 10 mV t o 2 mV Tr ace s ho u l d not m ove m or e t han 0 1 d i vi si on ver t i cal l y d ADJU ST CH 1 STEP BAL ad j u s...

Page 151: ...y f r om t he cent er hor i zont al l i ne Re peat par t s t hr oug h m f or o pt i mumst ep at t e nu a t or b al ance 14 Adj ust Ver t i cal Cent er i ng Set t he M O DE swi t ch t o CHOP b M ove t he t r aces t o t he cent er hor i zont al l i ne wi t h t he CH 1 and C H 2 P O SI TI ONcont r ol s µ Set t he M O DE swi t ch t o AD D g I NTERACTI ON Chec k St ep 15 Ad j ust m ent 454 R454 e ADJUS...

Page 152: ...vol t m et er bet ween pi n 1 of Pl ug 35 on t he Ver t i cal Pr eam p ci r c ui t b oar d see Fi g 5 7 an d gr o un d e ADJU ST 11382 see F i g 5 8 f or best f l at ness of b ot h t r aces Th i s i s pr el i m i nar y ad j ust m ent an d m ay have t o be r e adj ust ed d ur i ng Hi g h F r eq u ency C om p ensat i on 17 Adj ust Channel 1 an d 2 Ver t i cal Pr eamp an d Ver t i cal O ut p ut Amp G...

Page 153: ...V Swi t c h C om pensat i on Co nnect t h e sq uar e wave gener at or Ty p e 106 h i g h amp l i t u d e out put connect or t o t he CH 1 i n put connect or t hr oug h t h e f i ve nanosecon d GR cabl e GR 50 o hm i n l i ne t er m i nat i on an d t he 15 p F i n p ut RC nor m al i zer i n gi ven or d er b Set t h e Ver t i cal M O DE swi t c h t o CH 1 an d t he CH 1 VOLTS DI V swi t c h t o 10 m...

Page 154: ...t or cl i p f r om t he si gnal t o p i nser t i on uni t t o 12 vol t s at Pi n 1 of 1225 on t he Ver t i cal Pr eamÁ ci r cu i t boar d see Fi g 5 1 OA i ADJUST I f gr eat er t han 4 aber r at i ons ar e obser ved di sr egar d th e f i r st si x nanoseconds af t er l ead i ng edge use µ Not e t he exact posi t i on of t he t r ace so R334 can be t he f ol l owi ng ad j u st m ent pr oced ur e se...

Page 155: ......

Page 156: ...dwi dt h The nar r ow pul se ampl i t u d e s hou l d be 52 or m or e of t he l onger pul se ampl i t u d e 27 Re peat st e ps 14 t h r ough 2 6 unt i l p r oper compensat i o n i s obt ai ned i n al l posi t i o n s of t he VOLTS 8 I f t he CRT di spl ay exceeds t he l i m i t s of t h e c hec k D I V swi t c h st e p ad j ust C78 R75 C90 an d R90 as necessar y t o o bt ai n t he best r i set i m...

Page 157: ... e 10 Rei nst al l Q 144 i n i t s soc k et Ad j u st m ent 454A R454A 11 Rem ove t he s peci al BNC ca bl e f r om t he si gnal sour ce an d r epl ace i t wi t h GR 50 i n l i ne t er m i na t i on 12 Rea dj ust Ver t i cal Cent er i ng ad j ust m e nt R334 as gi ven i n Adj ust m ent Pr ocedur e St ep 14 13 Appl y t he si gnal f r om t he f ast r i se pul se gener a t or t o t he CH2 i np ut con...

Page 158: ...TI ON cont r ol e Set t h e CH 2 I n p ut Co u p l i ng swi t c h t o DC f CHECK CRT d i s p l ay f or t r ace wi t hi n 1 5 d i vi si o ns of t he cent er hor i zont al gr at i c ul e l i ne g ADJUST CH 1 O ut p ut DC Level ad j ust m ent R52 see Fi g 5 13 t o p osi t i on t he t r ace t o t he cent er hor i zont al gr at i c u l e l i ne h Di sconnect t h e 18 i nc h BNC cabl e f r om b et ween ...

Page 159: ... C OU PL I NG swi t c h t o DC b M ove t he t r ace t o t he cent er h or i zont al l i ne wi t h t he CH 1 PO SI TI ON cont r ol Tr i gger DC Level a d j u st m ent s h Be sur e t he LEVEL cont r ol i s set t o 0 i CH ECK St a bl e CRT d i s p l ay Ad j ust m ent 454 R454 c CH ECK St a bl e CRT d i sp l ay CH 1 l i g ht i n b ot h an d Tr i gger i ng m ust b e on d ADJUST Tr i gger Pr eamp DC Lev...

Page 160: ...AY TI M E and t h e DELAY TI M E M U LTI PL I ER d i al t o 1 00 b Appl y 1 m i l l i secon d t i m e m ar k er s t o t he CH 1 I n p ut connect or f r om t he 2901 Ti m e M ar k G ener at or t h r o ugh 42 i nc h 50 BNC ca bl e c Ad j u st t he TRI G GERI NG LEVEL cont r ol f or st a b l e di s pl ay d CH ECK I nt ensi f i ed p or t i on of d i sp l ay st ar t s at secon d m ar k er e ADJUST Swee...

Page 161: ... ust m ent 454 R454 F i g 5 17 L ocat i o n of Nor m al Gai n M agni f i ed Gai n and M ag ni f i er Regi st er a dj u st m e nt s Sweep ci r c ui t boar d h Cont i n ue t h i s c hec k f or eac h t wo d i vi si on p or t i on of t he swee p wi t h i n t he cent er ei g ht d i vi si ons of t he gr at i cul e 28 Ad j ust M agni f i ed G ai n Set t he t i m e m ar k gener at or f or 0 1 m i l l i se...

Page 162: ...I PL I ER di al t o 0 10 t h e œ DI V swi t c h t o 1 m s t he SW EEP M O DE swi t c h t o T R I G GERABLE AF TER DEL AY TI M E t he H O R I Z DI SPL AY swi t c h t o D EL AY ED SW EEP an d t h e M AG swi t c h t o OFF b Set t he t i m e m ar k gener at or f or one m i l l i secon d m ar ker s c Set t he TRI G GERI NG LEVEL cont r ol f or st a b l e di s p l ay d CHECK CRT d i s p l ay f or one m ...

Page 163: ...f or one m ar k er eac h d i vi si on bet wee n t he f i r st and ni nt h d i vi si on ver t i cal l i nes d ADJUST C930A see f i g 5 18 f or one m ar ker eac h CH E CK CRT d i s p l ay f or 1 cycl e i n 2 d i vi si ons over di vi si on t he cent er 8 d i vi si ons Set t he an d œ DI V swi t c hes t o 1 s Adj ust m ent 454A R454 e Set t he H OR DI SPL AY swi t c h t o f CH ECK CRT d i s p l ay f o...

Page 164: ...ugh the f i ve nanosecon d GR cabl e GR 50 ohmi n l i ne t er m i nat i on and dual i np ut cou p l er Á Appl y 50 nanosecond si ne wave f r om t he t i m e m ar k gener at or b Set t he CH 2 VOLTS DI V swi t c h t o 20 m V DI V t he SW EEP M O DE swi t ch t o NORM TRI G and the TRI G GERI NGLEVEL cont r ol f ul l y cl oc kwi se q A d j u st t he TRI G GERI NG LEVEL cont r ol f or st abl e di s p ...

Page 165: ...um f r e q uency gener at or f or 10 di vi si on h or i zont al di sp l ay at about 0 5 m ega her t z m I f necessar y r ecent er t he d i s p l ay wi t h t he CH 1 an d C H 2 P O SI TI ON cont r ol s C H ECK CRT d i s p l ay f or an o p eni ng at t he cent er hor i zont al l i ne of 0 52 d i vi si on or l ess 3 or l ess p hase sh i f t see F i g 5 20 ADJUST C om p r om i se t he a d j ust m ent o...

Page 166: ...NO TES ...

Page 167: ... e m ount ed out si d e of t he r ai l s I f t h e f r ont r ai l s of t h e f ul l y ext en d e d p osi t i on t h e R454A can be t i l t ed up so t he r ac k ar e not t a pp e d f or 10 32 scr ews t h e f r ont f l anges t he bot t om of t he i nst r um ent can be r eac hed f or m ai n ar e m ount ed i nsi de t he f r ont r ai l and bar nut i s used F i g t enance or cal i br at i on To o p er a...

Page 168: ... or i nst al l t he secur i ng st r um ent i s s hown i n F i g 6 11 The r ear su p por t br ac ket s scr ews u nt i l al l a dj ust m ent s have been m a de su pp l i ed wi t h t he i nst r um ent al l ow i t t o b e m ou nt e d i n r ac k wh i c h has spaci ng bet ween t he f r o nt an d r ear r ai l s of 11 t o 24 i nc hes F i g 6 11 i l l ust r at es t h e m ount i ng 7 W i t h t he i nst r um...

Page 169: ...ar y l oca t i on Sl i d e O ut Tr ack Lubr i cat i on T he sl i d e out t r ac k s nor m al l y r e qui r e no l ubr i cat i o n T he Rem ovi n g or I nst al l i ng t he I nst r um ent sp eci al f i ni sh on t he sl i di ng sur f aces p r ovi d es per m anent l ubr i cat i o n H owever i f t he t r ac k s do not sl i de sm oot h l y Af t er i ni t i al i nst al l at i on an d ad j ust m ent of t ...

Page 170: ... F i g 6 1 T he R454A i nst al l ed i n ca bi net r ack si des r e m oved h el d i nt o r ack wi t h secur i ng scr ews ext ende d on sl i deout t r ack s Æ St at i o na ry sect i on ASSEM BLY FOR LEFT SI DE Fi g 6 2 Sl i deo ut t r ac k assem bl i es ASSEM BLY FOR RI G H T SI DE V41 ...

Page 171: ...t t he i nst r um ent i n t he ca bi net r ac k 10 Fi n i s hi ng Pl ast i c w as hers washer szyxwvutsrqponmlkjihgf 4 eÁ 4 e Rac k m ount i ng 454 R454A 10 32 10 32 PHS FHS Ät r ew scr ew 4 ea Bar t 4 ea Tapp ed 10 32 Fi g 6 4 Suppor t i ng t he r ear of t he st at i onar y sect i ons di m ensi ons necessar y com p l et ed i nst al l at i on 6 5 ...

Page 172: ...HS sc rews i f f r ont r ai l hol es Fr ont r ai l t app ed f o r 10 32 sc r ews I I B Unt ap ped f r ont r ai l are count er sunk F i g 6 5 M et hods of m o un t i ng t he st at i o nar y sect i o n t o t he f r ont r ai l s W HAf t Un t a pped hol es 1 Ä i nc h f or cor r ect p osi t i on of secur i ng hol es Fi g 6 6 Locat i ng t he m oun t i ng h ol es f or t he st at i onar y sect i ons Sa m ...

Page 173: ...e r 10 32 X 1 1 4 i nch HHS scr ew zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Á N 4 ea S u p p or t bl oc k Fi g 6 7 Rear suppo r t k i t F i g 6 8 I nst al l i ng t he s uppor t bl oc k on t he i nst r ument Rea r of st at i o nar y sect i on Rac k m ount i ng 454 R454 8 32 t 2 i nch PHS scr ew 4 e 6 7 ...

Page 174: ...ower cor d t o t h e pow er so ur ce 5 A gai n pr ess t he st o p l at c h es and push t he i nst r u m e n t al l t h e way i n t o t h e r ac k 6 To secur e t h e R454A t o t h e r ack i nser t t he 4 sec u r i n g scr ews w i t h f i ni s h i n g wash er s and t ef l on washer s t h r o ug h t he sl ot s i n t he i nst r ument f r ont panel a nd scr ew t h i nt o t h e f r 1 R em ove t he secur...

Page 175: ...n as necessar y Lef t r ear r ai l of cabi net r ac kzyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Rai l t a pp ed f o r 10 32 scr ews 8 32 Keps nut 12 ea Rai l t a pp ed f o r 10 32 scr ews Fi g 6 10 Al i g n m ent ad j ust m en t s f or cor r ect oper at i o n DEEP RACK CON FI G U R ATI ON DEEP RACK CONF I GURATI ON 8 32 F 5 scr ew 2 ea St at i o n ar y sect i o n of sl i d eo u t t r ac ...

Page 176: ...WVUTSRQPONMLKJIHGFEDCBA R454A RAI L Æ W i l l s REAR VI EW FI XED PO W ER C O R D 9 310 F 11 380 TI LT POSI TI ON 105 ABO VE THE O RI ZO NTAL NO TES ALL DI M ENSI ONS ARE REFERENC E DI M ENSI O NS EXCEPT AS NO TED Fi g 6 12 Di m ensi onal dr awi ng 3 207 ...

Page 177: ...Ä É zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 9 U 0 C al Å 3 Ì Å O cr L Œ _ r M M _ œ F i g 6 12 Di m en si o n al dr awi n g Rac k m ount i ng 454 R454A Q 6 1 1 ...

Page 178: ......

Page 179: ... ass HHS h ex h ead st eel HSB h ex soc k et br ass HSS h ex soc k et st eel I D i nsi de di am et er i nc i n can d escent PARTS LI ST ABBREVI ATI ONS i nt i nt er nal I g l e n gt h or l ong m et m et al m t g h d w m ount i ng h ar d war e O D o u t si de di am et er Ÿ oval h ead b r ass OHS oval h ead st eel Ÿ pa r t of pan h ea d br ass PHS pan h ea d st eel pl st c pl ast i c PMC pa p er m e...

Page 180: ...er i n st r u m ent t y p e or n u m ber ser i al or m o d el n u m ber an d m o d i f i cat i on n u m ber i f a pp l i cabl e I f zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA par t you h ave or d er e d h as been r e p l ace d wi t h new or i mp r ove d p ar t your l ocal Te k t r oni x I n c Fi el d Of f i ce or r e p r esent at i ve wi l l co n t act you concer ni ng any ch ange i n pa...

Page 181: ... UTPUT Ci r c u i t Boar d Assem bl y 7 2 Á 3 TH I C K FI LM HY BRI D Ci r c u i t Boar d Assem bl y 7 23 4 SW EEP Ci r c u i t Boar d Assem bl y 7 24 5 SW EEP Ci r c u i t Boar d Assemb l y 7 32 6 C AL I BRATOR Ci r c u i t Boar d Assem bl y 7 41 7 L O WVOL TAGE REGUL ATOR Ci r c u i t Boar d Assemb l y 7 42 8 AXI S Ci r c u i t Boar d Assem bl y 7 44 454 R 454A ...

Page 182: ......

Page 183: ...D C5C 281 0529 00 1 5 pF Cer 500 V 7t 0 25 pF C5 E 281 0618 00 4 7 pF Cer 200 V r 0 5 p F C5G 281 0626 00 3 3 pF Cer 500 V 5 C6A 281 0174 00 0 8 10 pF Va r Tu b 500 V C6 13 281 0172 00 100 pF 0 25 1 5 pF M i ca 250 V 5 C6D C6G 281 0612 00 5 6 pF Cer 200 V 0 5 pF C7 283 0649 00 105 pF M i ca 300 V 1 C25A 281 0616 00 6 8 pF Ce r 200 V C25C 283 0185 00 2 5 p F Cer 50 V 5 C64 1 388 0839 00 coi l C101 ...

Page 184: ...ar Ce r C740D 283 0097 00 84 pF Ce r 1000 V 2 C740 E 0 001 F C740 F 295 0089 00 0 01 t F Ch ec k e d assem bl y C740G 0 1 F C740 H 281 0523 00 100 pF Ce r 3 5 0 V C740 J 295 0089 00 1 F Ch ec k e d assem bl y C740 K 283 0032 00 470 pF Cer 500 V 5 C740 L 281 0523 00 100 pF Ce r 350 V C740 M 5 295 0089 00 10 F Ch ec k e d assem bl y C740 N 283 0144 00 33 pF Ce r 500 V 1 C740 P 281 0094 00 5 5 18 pF ...

Page 185: ... y C930 N 283 0144 00 33 p F Ce r 500 V 1 C930 P 281 0094 00 5 5 18 pF Va r Ce r Cl 105 283 0080 00 0 022 F C e r 25 V 80 20 Cl 111 7 119 0221 00 0 02 F C1112 290 0313 00 2800 F El ect 25 V 75 10 C1128 290 0162 00 22 F El ect 35 V C1141 119 0221 00 0 02 F C1142 290 0313 00 2800 1 El ect 25 V 75 10 C1167 290 0162 00 22 1 F El ect 35 V Cl 171 119 0221 00 0 02 F C1172 290 0280 00 200 F El ect 150 V C...

Page 186: ...ct or Devi ce Di odes CR760 152 0185 00 Si l i con Re p l aceabl e by 1 4152 CR761 152 0185 00 Si l i con Re p l aceabl e by 4152 CR763 152 0185 00 Si l i con Repl aceabl e by 1N4152 CR1112A B C D 152 0198 00 Si l i con Rect i f i er M R 1032 200V PI V CR1142A B C D 152 0198 00 Si l i co n Rect i f i e r M R 1032 200V PI V CR1172A B C D 152 0066 00 Si l i con 1 3194 CR1202 152 0066 00 Si l i co n ...

Page 187: ...l ect r i cal f em al e BNC J 501 131 0955 00 Rece p t acl e el ect r i cal f em al e BNC J 601 131 0955 00 Rece pt acl e el ect r i cal f em al e BNC J729 131 0955 00 Rece pt acl e el ect r i cal f em al e BNC J 750 131 0955 00 Rece p t acl e el ect r i cal f em al e BNC J801 131 0955 00 Rece p t acl e el ect r i cal f em al e BNC J 916 131 0955 00 Recept acl e el ect r i cal f em al e BNC J123 1...

Page 188: ... l e by 2 3053 Q l 137 151 0140 00 Si l i co n TO 3 Sel ect e d f r om 2 3055 01163 151 0136 00 Si l i co n TO 5 Re p l aceabl e by 2 3053 Q l 167 151 0140 00 Si l i con TO 3 Sel ect ed f r om 2 3055 Q l 197 151 0209 00 Si l i con TO 3 Sel ect ed f r om 2 3442 Q l 430 151 0140 00 Si l i co n TO 3 Sel ect ed f r om 2 3055 Resi st o r s a r e f i xed com posi t i o n 10 un l ess ot h er wi se i n d ...

Page 189: ... 0621 21 900 k 4 W Pr ec 2 R105D 321 1389 01 I l l k W Pr ec Ä R105 E 315 0680 00 68 4 W 5 R105G 315 0910 00 91 _2 1 4 W 5 R106A 315 0301 00 300 1 4 W 5 R106 B 322 0624 01 990 k 4 W Pr ec Ä RI 06D 321 1289 01 10 1 k 8 W Pr ec 1 2 R 106 315 0750 00 75 _i 4 W 5 R 106G 315 0221 00 220 1 4 W 5 RI 07 321 0756 03 50 k 8 W Pr ec 4 RI 12 316 0103 00 10 ki 2 1 4 W Pr ec 2 R l 21 311 1105 00 500 Var R125A 3...

Page 190: ... 0100 00 10 1 4 W 5 R649 311 0553 00 2 Ç 10 k Var R740A 323 0739 02 157 4 k 1 2 W Pr ec 1 2 R740 B 323 0362 02 57 6 k 1 2 W Pr ec 2 R740C 323 0739 02 157 4 k 1 2 W Pr ec 1 2 R740 E 323 0345 02 38 3 k 1 2 W Pr ec 1 2 R740G 325 0078 00 11 8 œ 1 W Pr ec 1 R740 H 325 0078 00 11 8 œ 1 W Pr ec 1 R740 J 325 0076 00 7 87 œ 1 W Pr ec 1 R740 K 325 0074 00 3 935 œ 1 W Pr ec 1 R740 M 325 0070 00 2 361 œ 1 W P...

Page 191: ...471 01 787 k 1 2 W Pr ec 1 2 R930 R 323 0471 07 787 k 1 2 W Pr ec 1 10 R930S1 311 0554 00 20 k Var R930T 315 0272 00 2 7 k 1 4 W 5 R930 U 315 0332 00 3 3 k 1 4 W 5 R997 311 0386 00 2 k Va r R 1000A B 311 0542 01 10 k Ç 50 k Va r Rl 029 316 0154 00 150 k 1 4 W RI 104 316 0153 00 15 k 1 4 W R1105 316 0472 00 4 7 k 1 4 W R l 106 315 0102 00 1 k 1 4 W 5 R l 107 316 0330 00 33 1 4 W Rl 108 311 0548 00 ...

Page 192: ...0 10 M 12 1 W 5 R1446 301 0106 00 10 œ W 5 Rl 447 311 0657 00 2 œ Var R1 448 301 0206 00 20 œ 2 1 W 5 R 1449 316 0105 00 1 œ 2 1 4 W R 1450 308 0588 00 12 _ 1 É ÉÉ _ 1 R 1458 301 0103 00 10 k 2 1 W 5 R1460 316 0105 00 1 œ 2 1 4 W R1461 316 0105 00 1 œ 1 4 W R1463 301 0205 00 2 œ 1 W 5 R1464 301 0335 00 3 3 œ _ 1 W 5 R1465 301 0335 00 3 3 œ 1 W 5 R1466 301 0335 00 3 3 œ 1 W 5 R1467 311 0254 00 5 œ ...

Page 193: ...5802 260 1148 00 Lever SOURCE S808 260 1150 00 Lever C OUPL I N G 5835 260 0587 00 Leve r SW EEP M O DE 5850 260 0472 00 Leve r SLOPE S930S CA L S1001 A 260 1153 00 HO R I Z DI SPL AY 51001 Rot ar y MAG si l o 260 0834 00 Toggl e PO W ER S1102 7 51103 2 7 š 1100 260 0879 00 Th er m ost at i c O p en 191 F Cl ose 161 F Fur ni sh ed as un i t wi t h R60A B Fur ni s h ed as uni t wi t h RI 60A B Fur ...

Page 194: ...13010469 6 8 p F Cer 200 V C50 281 0618 00 13010470 4 7 pF Cer 200 V 1 0 5 p F C56 281 0709 00 7 pF Cer 500 V V0 1 pF Â78 281 0122 00 2 5 9 pF Var Ce r 100 V C80 281 0638 00 240 pF Ce r 500 V 5 C81 283 0003 00 0 01 F C e r 150 V C82 281 0599 00 1 pF Ce r 200 V 0 25 pF C86 283 0080 00 0 022 F C e r 25 V 80 20 C90 281 0123 00 5 25 pF Va r Cer 100 V C91 283 0003 00 Cl 09 281 0064 00 C110 281 0614 00 ...

Page 195: ...294 281 0602 00 68 pF Ce r 500 V 5 Cl 221 283 0092 00 0 03 F Ce r 200 V 80 20 C1222 290 0135 00 15 F El ect 20 V C1223 290 0267 00 1 u F El ect 35 V C1224 283 0059 00 1 F C e r 25 V 80 20 C1225 290 0267 00 1 Á F El ect 35 V C1226 290 0135 00 15 Á F El ect 20 V C1227 283 0080 00 0 022 Á F C e r 25 V 80 20 C1228 283 0081 00 0 1 p F Cer 25 V 80 20 C1229 283 0080 00 0 022 1 F Cer 25 V 80 20 C1230 283 ...

Page 196: ... r am i c s u pp r essor L38 276 0507 00 Cor e f e r r am i c s u pp r essor L44 108 0373 00 56 L 54 276 0528 00 Cor e f er r am i c s u pp r essor L 78 108 0367 00 13 010100 13 010469 1 11 L78 108 0215 00 13010470 1 1 1 81 276 0528 00 Cor e f er r am i c s u pp r essor L90 108 0655 00 75 1 91 276 0528 00 Cor e f er r am i c s upp r essor L113 108 0440 00 8 L122 108 0182 00 0 3 1 123 276 0507 00 C...

Page 197: ...271 00 Si l i con TO 8 Te k Sp ec 094 151 0271 00 Si l i con TO 18 Te k Sp ec Q 1 13A 13 151 1032 00 Si l i co n FET TO 5 Dual Q l 16 153 0590 00 Si l i con M at c h e d set Q 134 Q 138 151 0190 01 Si l i con TO 106 Te k S pec Q 144 151 0271 00 Si l i co n TO 18 Te k Sp ec Q 145 151 0219 00 Si l i con TO 18 Re p l aceabl e by 2 4250 U 64 151 0212 00 Si l i co n TO 18 Te k Sp ec Q 174 151 0212 00 S...

Page 198: ...15 0273 00 27 k 4 W 5 R22 321 0915 07 1 219 k W Pr ec 1 10 R24 325 0041 00 19 75 1 20 W Pr ec 1 R26 315 0222 00 2 2 k 4 W 5 R27 321 0267 00 5 9 k 8 W Pr ec 1 R28 311 0978 00 250 Va r R29 317 0431 00 430 nom i nal val ue Sel ect ed R30 321 0125 00 196 W Pr ec 1 R31 321 0125 00 196 W Pr ec 1 R32 321 0267 00 5 9 k 8 W Pr ec 1 R33 311 0634 00 500 Va r R 34 321 0222 00 2 k W Pr ec 1 R 36 321 0222 00 2 ...

Page 199: ...1 0605 00 200 Va r R91 317 0151 00 150 8 W 5 R92 317 0560 00 56 É 5 R93 322 0156 00 412 4 W Pr ec 1 R96 321 0154 00 392 É Pr ec 1 R108 315 0821 00 820 4 W 5 R109 323 0512 03 950 k 2 W r ec 4 R 110 315 0125 00 1 2 œ 1 4 W 5 Rl 13 315 0151 00 150 4 W R1 15 315 0151 00 150 4 W 5 R 116 311 0634 00 500 9 Va r R l 17 315 0152 00 1 5 k 4 W 5 R118 325 0041 00 19 75 1 20 W Pr ec 1 Rl 19 315 0152 00 1 5 k 4...

Page 200: ...5 R162 321 0083 00 71 5 8 W Pr ec 1 R169 321 0066 00 47 5 2 É Pr ec 1 R177 323 0167 00 536 2 W Pr ec 1 R175 311 0643 00 50 Q V r R179 321 0066 00 47 5 2 8 W Pr ec 1 R180 315 0121 00 120 2 4 W 5 R1 81 317 0151 00 150 8 W 5 R182 317 0560 00 56 Q 8 W 5 R183 322 0156 00 412 4 W Pr ec 1 R185 307 0106 00 4 7 4 W 5 R186 321 0186 00 845 Q É Pr ec 1 R190 311 0605 00 200 Var R191 317 0151 00 150 8 W 5 R192 ...

Page 201: ...1 R272 311 0978 00 250 Var R274 321 0150 00 357 1 8 W Pr ec 1 R276 321 0118 00 165Q 1 R278 321 0065 00 46 4 1 8 W Pr ec R279 323 0148 00 340 2 W Pr ec 1 R280 321 0199 00 1 15 k S2 1 R284 321 0230 00 2 43 k 8 É Pr ec R286 321 0118 00 165 1 6 W Pr ec 1 R288 321 0065 00 46 4 8 W Pr ec 1 R289 323 0148 00 340 W Pr ec 1 R290 316 0100 00 10 2 1 W R292 315 0820 00 13010100 039999 82 i 2 7 W 5 R293 315 012...

Page 202: ...0122 00 2 5 9 pF V a r Ce r 100V C430 283 0156 00 1000 pF Ce r 200 V 100o o 0 C435 281 0621 00 12 pF Ce r 500 V 1 C43729 388 0867 00 010100 010779 coi l 4 C437 29 388 0867 01 010780 029999 coi l 4 C437 281 0609 00 030000 1 pF Adde d i f necessa r y C442 283 0204 00 0 01 F Ce r 50 V C455 283 0156 00 1000 pF Ce r 200 V 100 0 C1232 283 0204 00 0 01 F Ce r 50 V C1234 283 0204 00 0 01 1 Ce r 50 V CR323...

Page 203: ... 151 0222 00 Si l i con TO 46 Sel ect e d f r om 2 4251 Q 324 151 0271 00 Si l i con TO 1 8 Te k Sp ec Q 334 151 0221 00 Si l i con TO 18 2 4258 Q 354 151 0222 00 Si l i co n TO 46 Sel ect ed f r om 2 4251 Q 364 151 0193 00 Si l i con TO 18 Te k Sp ec Q 388 151 0220 00 Si l i con TO 1 8 2 4122 Q 414 151 0222 00 Si l i con TO 46 Sel ect ed f rom 2 4251 Q 424 151 0271 00 Si l i con TO 1 8 Te k Sp ec...

Page 204: ... W Pr ec 1 R324 321 0075 00 59 1 W Pr ec 1 R325 315 0123 00 12 k 1 4 W 5 R326 315 0123 00 030000 12 k 1 4 W 5 R330 317 0330 00 33 1 W 5 1 R331 317 0431 00 430 1 W 5 R332 317 0242 00 2 4 k 1 W 5 R333 317 0151 00 150 1 W 5 R334 311 0644 00 20 k S2 Var R338 321 0094 00 93 1 1 W Pr ec 1 R339 301 0221 00 220 1 2 W 5 R340 315 0751 00 750 1 4 W 5 R341 322 0114 00 150 1 4 W Pr ec 1 346 321 0055 00 36 5 1 ...

Page 205: ...YBRI D Ci r c u i t Boar d Assem bl y 155 0040 00 Com pl et e Boar d Tol e rance _L 20 unl ess ot h e r wi se i n d i cat ed C368 C369 C37533 C468 C475 2 VER TI C AL O UTPUT Ci r c u i t Boa r d Assem bl y cont Resi st or s co n t Tr ansf o r m er Ca paci t o r s Sem i cond u ct o r Devi ce Di o d es E l ect r i cal Par t s Li st 454A R454A VR363 152 0195 00 Zene r 1 751 400 mV 5 1 V 5 VR463 152 0...

Page 206: ... e f i xed comp osi t i o n 10 u nl ess ot h e r wi se i n d i cat ed R364 3 R365 311 0633 00 5 k V a r R368 3 R 371 31 R 375 3 R391 307 0107 00 5 6 1 W 5 R 464 34 R468 R471 3 R472 R475 3 R491 307 0107 00 5 6 1 W 5 4 SW EEP Ci r cu i t Boar d Assem bl y 670 0941 00 010100 010489 C omp l et e Boar d 670 0941 01 010500 010599 Com pl et e Boar d 670 0941 02 010600 039999 C omp l et e Boar d 670 0941 ...

Page 207: ... Cer 200 V C689 290 0246 00 3 3 F El ect 15 V 10 C692 290 0267 00 1 F El ect 35 V C702 281 0525 00 470 pF Cer 500 V C713 283 0080 00 0 022 I t F Ce r 25 V 80 20 C714 290 0267 00 1 pF El ect 35 V C721 283 0111 00 0 1 j F C e r 50 V C725 283 0177 00 1 F C e r 25 V 80 20 C728 281 0513 00 27 pF Ce r 500 V C731 283 0080 00 0 022 1 Cer 25 V 80 20 C735 281 0558 00 18 pF Ce r 500 V C739 283 0000 00 0 001 ...

Page 208: ... k Sp ec C R717 152 0153 00 Si l i con Te k S p ec CR721 152 0185 00 Si l i co n Re p l aceabl e by I N4152 CR726 152 0185 00 Si l i con Re p l aceabl e by 1 4152 CR728 152 0185 00 Si l i con Re p l aceabl e by I N4152 CR 732 152 0185 00 Si l i con Re p l aceabl e by 1 4152 CR735 152 0185 00 Si l i co n Re pl aceabl e by I N4152 CR739 152 0185 00 Ÿ10600 Si l i co n Re p l aceabl e by I N4152 CR 74...

Page 209: ...n TO 18 Te k S pec Q 544 151 0222 00 Si l i co n TO 46 Sel ect e d f r om 2 4251 0623 151 1025 00 Si l i con FET c h a nn el j un ct i o n t y pe TO 18 55 Q 624 151 0259 00 Si l i con TO 106 Sel ect ed f r om 2 3563 Q 636 151 0259 00 Si l i con TO 106 Sel ect e d f r om 2 3563 Q 646 151 0259 00 Si l i con TO 106 Sel ect ed f r om 2 3563 Q 664 151 0271 00 Si l i con TO 18 Te k Spec Q 669 151 0221 0...

Page 210: ...composi t i on 10 u nl ess ot he rwi se i ndi cat e d R 508 315 0101 00 100 4 W 5 R509 321 0094 00 93 1 W Pr ec 1 R510 321 0179 00 715 2 8 W Pr ec 1 R511 311 0634 00 500 Va r R512 317 0220 00 22 8 W 5 R513 315 0470 00 47 4 W 5 R 514 321 0213 00 1 62 k 8 W Pr ec 1 R515 321 0114 00 150 3 W Pr ec 1 R516 321 0180 00 732 8 W Pr ec 1 R517 315 0470 00 47 4 W 5 R518 321 0154 00 392 8 W Pr ec 1 R519 315 01...

Page 211: ...315 0472 00 4 7 k 1 W 5 R658 315 0431 00 430 1 W 5 R659 315 0100 00 10 1 W 5 R664 301 0153 00 15 k 9 Ä É 5 R666 317 0560 00 56 2 É 5 R667 315 0821 00 820 1 W 5 R668 315 0391 00 390 1 W 5 R669 315 0391 00 390 1 W 5 R670 315 0201 00 200 1 W 5 R671 315 0103 00 10 k 1 W 5 R673 315 0220 00 22 1 W 5 R674 315 0152 00 1 5 k 1 W 5 R676 315 0510 00 51 À 1 W 5 R680 315 0101 00 100 1 W 5 R681 315 0273 00 27 k...

Page 212: ...724 301 0681 00 680 1 2 W 5 R725 315 0100 00 l op 1 W 5 R726 315 0122 00 1 2 k 1 W 5 R727 315 0331 00 330 1 W 5 R728 315 0332 00 3 3 k 1 W 5 R729 315 0331 00 330 1 W 5 R730 315 0101 00 10012 1 W 5 R731 315 0470 00 47 1 W 5 R732 315 0470 00 47 1 W 5 R733 321 0271 00 6 49 k 1 8 W P r ec 1 R735 315 0101 00 100 1 W 5 R736 315 0101 00 100 2 1 W 5 R737 323 0271 00 6 49 k 1 2 W Pr ec 1 R738 321 0221 00 1...

Page 213: ... 321 0182 00 768 8 W Pr ec 1 R778 315 0470 00 47 4 W 5 R779 321 0241 00 3 16 k 8 W Pr ec 1 R780 315 0682 00 6 8 k 4 W 5 R781 315 0114 00 110 k 4 W 5 R782 315 0392 00 3 9 k 4 W 5 R784 315 0222 00 2 2 k 4 W 5 R785 315 0102 00 1 k 4 W 5 R786 315 0223 00 22 k 4 W 5 R787 315 0473 00 47 k 4 W 5 R790 321 0268 00 6 04 k 8 W Pr ec 1 R791 321 0266 00 5 76 k 8 W Pr ec 1 R793 301 0820 00 82 2 W 5 R794 315 047...

Page 214: ...22 1 F C e r 25 V 80 20 C859 283 0080 00 0 022 1 Ce r 25 V 80 20 C862 283 0111 00 C864 283 0067 00 C866 281 0617 00 C871 281 0549 00 C902 281 0525 00 C904 281 0518 00 010100 019999 C909 290 0267 00 C911 290 0267 00 C918 283 0080 00 C921 283 0080 00 C925 281 0558 00 C929 283 0080 00 C934 283 0178 00 C937 281 0518 00 C938 281 0523 00 C943 283 0080 00 C946 290 0248 01 C958 283 0080 00 C959 281 0523 0...

Page 215: ... pF C1099 281 0511 00 22 pF Ce r 100 V 10 C1256 283 0178 00 0 1 I F C e r 25 V 80 20 C1257 283 0080 00 0 022 F Ce r 25 V 80 20 C1258 283 0059 00 1 1 F C e r 25 V 80 20 C1259 283 0059 00 1 F Ce r 25 V 80 20 C1262 290 0267 00 1 F El ect 35 V C1264 290 0267 00 1 F El ect 35 V C1265 283 0189 00 0 1 1 Cer 400 V C1266 283 0178 00 0 1 F Ce r 100V 80 20 C1267 283 0111 00 0 1 F C e r 50 V C1268 283 0080 00...

Page 216: ...l i con Re p l aceabl e by I N4152 CR 952 152 0185 00 Si l i con Re p l aceabl e by 1N4152 CR955 152 0075 00 G er m ani um Te k Sp ec CR967 152 0185 00 Si l i con Re p l aceabl e by 1 4152 CR981 152 0185 00 Si l i con Re p l aceabl e by 1N4152 CR982 152 0185 00 Si l i co n Re p l aceabl e by I N4152 CR991 152 0185 00 Si l i con Re p l aceabl e by 11 14152 CR992 152 0185 00 Si l i con Repl aceabl e...

Page 217: ...025 00 Si l i con FET c h a nn el j u nct i o n t ype TO 18 55 Q 826 151 0259 00 Si l i co n TO 106 Sel ect e d f r om 2 3563 Q 836 151 0259 00 Si l i con TO 106 Sel ect ed f r om 2 3563 Q 846 151 0259 00 Si l i co n TO 106 Sel ect e d f r om 2 3563 Q 864 151 0271 00 Si l i co n TO 18 Te k Sp ec Q 904 151 0131 00 G e r m ani u m TO 18 2 1 1 964 Q 910 151 0223 00 Si l i con TO 18 2 1 1 4275 Q 912 1...

Page 218: ...O 18 2 4258 Q 1060 151 0127 00 Si l i co n TO 18 Sel ect ed f rom 2 2369 Q 1064 151 0274 00 Si l i con TO 5 Sel ect e d f r om 2 3501 Q 1066 151 0270 00 Si l i con TO 5 Te k Sp ec Q 1078 151 0127 00 Si l i con TO 18 Sel ect ed f rom 2 2369 Q 1080 151 0221 00 Si l i con TO 1 8 2 1 1 4258 01084 151 0274 00 Si l i con TO 5 Sel ect e d f r om 2 3501 Q 1086 151 0270 00 Si l i con TO 5 Te k Sp ec Q 1098...

Page 219: ... 4 7 k 4 W 5 R858 315 0431 00 430 4 W 5 R859 315 0100 00 10 1 4 W 5 R864 301 0273 00 27 k 2 W 5 R866 317 0560 00 569 É 5 R871 315 0103 00 10 k 4 W 5 R901 315 0101 00 100 4 W 5 R902 315 0330 00 33 4 W 5 R903 315 0472 00 4 7 k 4 W 5 R904 321 0176 00 665 8 É Pr ec 1 R905 315 0752 00 7 5 k 4 W 5 R907 315 0680 00 68 4 W 5 R909 315 0220 00 229 4 W 5 K9 1 0 3230152 00 374 2 W Pr ec 1 R91 1 315 0100 00 10...

Page 220: ... W Pr ec 1 R943 311 0658 00 500 Va r R944 321 0296 00 11 8 k 1 8 W Pr ec 1 R945 321 0080 00 66 5 1 8 W Pr ec 1 R946 321 0126 00 200 1 8 W Pr ec 1 R948 315 0302 00 3 k 9 1 4 W 5 R949 321 0261 00 5 11 k 1 8 W Pr ec 1 R950 315 0333 00 33 k 1 4 W 5 R951 315 0362 00 3 6 k 1 4 W 5 R954 315 0103 00 10 9 1 4 W 5 R956 315 0103 00 10 k 1 4 W 5 R957 315 0303 00 30 k 1 4 W 5 R958 315 0224 00 220 k 1 4 W R959 ...

Page 221: ...09 1 4 W 5 R996 315 0101 00 100 1 4 W 5 R998 321 0177 00 681 1 8 W Pr ec 1 R999 321 0245 00 3 48 k W Pr ec 1 R1001 315 0124 00 120 k 1 W 5 R 1003 315 0152 00 1 5 k 1 4 W 5 R1004 315 0332 00 3 3 k 1 4 W 5 R1005 321 0034 00 22 1 É Pr ec 1 R1007 321 0001 00 10 W Pr ec 1 R 1008 321 0216 00 1 74 k É Pr ec 1 RI 009 315 0470 00 47 1 4 W 5 R 1010 321 0239 00 3 01 k W Pr ec 1 R1012 303 0752 00 7 5 k 1 É 5 ...

Page 222: ... W 5 R1049 322 0133 00 237 W Pr ec 1 R1055 323 0117 00 162 1 2 W Pr ec 1 R1056 321 0154 00 392 2 8 W Pr ec 1 R1058 322 0084 00 73 2 W Pr ec 1 R1059 321 0183 00 787 8 W Pr ec 1 R 1060 323 0169 00 562 1 2 W Pr ec 1 R 1065 303 0273 00 27 k 1 É 5 R 1066 323 0227 00 2 26 k 2 W Pr ec 1 R 1067 315 0470 00 47 4 W 5 R1068 323 0349 00 42 2 k 1 2 W Pr ec 1 R 1069 323 0349 00 42 2 k 1 2 W Pr ec 1 R 1070 323 0...

Page 223: ...9 315 0220 00 22 4 W 5 R1262 307 0106 00 4 7 4 W 5 R1264 307 0106 00 4 7 4 W 5 R1265 315 0101 00 100 4 W 5 R1268 315 0220 00 22 4 W 5 Transf or m e r 870 120 0468 00 To r oi d 6 t ur ns bi f i l a r 6 C ALI BRATO R Ci r c ui t Boar d Assem bl y 670 0937 00 Com pl et e Boar d Tol e r a nce 20 un l ess ot he rwi se i ndi cat e d Ca p aci t o rs C1271 290 0267 00 1 F El ect 35 V C1275 285 0595 00 0 1...

Page 224: ...se i ndi cat ed C1116 290 0267 00 1 F El ect 35 V C1127 283 0078 00 0 001 F Ce r 500 V C1153 283 0078 00 0 001 F Cer 500 V C1155 290 0286 00 50 F El ect 25 V 75 10 C1184 283 0092 00 0 03 F Cer 200 V 80 20 C1192 283 0083 00 0 0047 F Cer 500 V 5 C1195 290 0305 00 3 1 F El ect 150 V C1196 290 0198 00 17 1 El ect 150 V 30 15 CR1120 152 0185 00 Si l i con R e p l aceabl e by 1 4152 CR1125 152 0066 00 S...

Page 225: ...i l i con TO 18 2 3692 01154 151 0224 00 Si l i con TO 1 8 2 3692 Q l 184 151 0224 00 Si l i con TO 18 2 3692 Q l 193 151 0223 00 Si l i con TO 18 2 4275 01194 151 0224 00 Si l i co n TO 18 2 3692 Resi st or s Resi st or s a r e f i xed comp osi t i on 10 u nl ess ot h er wi se i ndi cat e d El ect r i cal Pa r t s Li st 454 R454A R 1116 316 0101 00 100Q 1 4 W R 1117 323 0154 00 392 k 1 2 W Pr ec ...

Page 226: ...33 283 0080 00 0 022 1 F Cer 25 V 80 20 C1346 283 0080 00 0 022 F Cer 25 V 80 20 C1351 281 0547 00 2 7 pF Cer 500 V 10 C1352 281 0064 00 0 25 1 5 pF V ar Pl ast i c C1353 283 0092 00 0 03 Ce r 200 V 80 1 20 C1356 283 0092 00 0 03 a l Ce r 200 V 80 20 C1358 283 0092 00 0 031 Cer 200 V 80 20 C1402 285 0919 00 0 22 F Pl ast i c 100 V 10 C1419 285 0622 00 0 1 F œ 100 V C1482 283 0003 00 0 01 F Cer 150...

Page 227: ...l i co n TO 18 Re p l aceabl e by 2 2484 01423 151 0136 00 Si l i con TO 5 Re p l aceabl e by 2 3053 Resi st or s R esi st o r s ar e f i xed comp osi t i on 10 u nl ess ot he r wi se i n d i cat e d El ect r i cal Par t s Li st 454A R454A R1303 315 0123 00 12 k 4 W 5 R1304 315 0123 00 12 k 4 W 5 R1305 321 0241 00 3 16 k W Pr ec 1 RI 307 316 0470 00 47 4 W RI 308 301 0473 00 47 k 2 W 5 R1309 316 0...

Page 228: ...i on 8 AXI S Ci r c ui t Boar d Assem bl y cont Resi st or s cont R1358 308 0348 00 3 32 k 3 W ÉÉ 1 R 1401 311 0465 00 100 k Va r R1402 301 0435 00 4 3 œ 72 W 5 R 1414 316 0103 00 10 k 1 4 W R1415 316 0102 00 1 k 1 4 W R1416 315 0474 00 470 k 7 4 W 5 R1 417 316 0101 00 100 1 4 W R1418 316 0104 00 100 k 1 4 W R1425 301 0303 00 30 k 1 2 W 5 R1482 311 0465 00 100 k Var ...

Page 229: ...t e d on ci r cui t boar d ŠŸ ci r cui t boar d The f ol l owi ng p r ef i x l et t er s ar e used as r ef er ence d esi gnat or s t o i d ent i f y component s or assem bl i es on t he d i agr am s Assembl y se par a bl e or r e p ai r abl e ci r cui t boar d et c LR I nd uct or r esi st or com bi n at i o n AT At t enuat or f i xed or var i abl e œ M et er M ot or Q Tr ansi st or or si l i con c...

Page 230: ... AY MAG O FF SW EEP LENG TH FULL PO SI TI ON M id r ange 115 vol t s F I NE M idr a nge Cal i br at or out p ut si gnal con PO W ER O N nect ed t o I NPUT CH 1 and I NPUT CH 2 co nnect or s f or wavef or m s onl y Si de Panel Cont r ol s No connect i ons Cent er ed œ DI V As f ol l ows except as not ed VARI ABLE CAL ot her wi se on i n d i vi d ual di a gr am s Li ne vol t age Si gnal appl i e d C...

Page 231: ...ŸVER TI CAL O U TPUT A M PLI FI ER ŸTRI G G ER PREAM P Ÿ TRI G C R G ENERATO R Ÿ SW EEP GENERATOR TRI G GER G ENERATOR SW EEP G ENERATOR HO RI ZON TAL AM PLI FI ER 6 5 AM PLI FI ER 0 CR T CI R CUI T 454 O SC I LL O S C OPE Å Ÿ M ULTI VI SRATOR I Q 74 01 94 Ql 05 Q Q 195 D EL AY LI NE D RI VER Q 274 Q 2B4 VERTI CAL C HO PPED BL ANKI NG AM PLI FI ER QZ44 DI 5 œ G I At DR 479 ...

Page 232: ...S4 Q 834 Q 414 Q 4Co4 Q 354 Q 424 Q 4 74 Q 4 0494 S o f I NPUT O LO O FF DRI VER Q 714 J q1414 Q 1430 R ESET EF SW EEP STAR T AM PLI FI R 0763 Q 7 B38 SW EEP O UTPUT BU FFER Á 737 Q 744 HO RI ZO NTAL œ L 1F 1F R Ÿ1Ÿ 2 Ÿ1Ÿ 5 Q I O I b Q 1060 Q 1018 010 64 01020 Q I O b b Á Ÿ3 Q 1079 Q 1048 Ÿ Ÿ Ÿ Q 1051 01084 01053 0108 Q I O SS Q 1098 7 BL O CK DI AGRAM ...

Page 233: ...Ä2s 3 2f 1f i S Å 2C R 29 ÄL2 3 t 202 PZ02 204 CRZf 4 t c µÄ f µ œ 179 31169 Å 7 š W 41 µ 8 Ž 1 1 0 4j C1227 I L 231 _ R_49 C 49N 0134 Ç C 23 É Ë 113 F r C R 1 4 5 33 9f VR13 w e R49G C49G R13 8 _ R 15 G R22 13 R24 Í C22 R9 R 8 F i g 8 1 Part i al Ver t i cal Pr eam p ci r c u i t boar d P 0 1 Chann el 1 Ver t i cal Pr ea m p ci r c ui t shown Ç ...

Page 234: ...500 r zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 200 S r 0 50 mV 50 r nV AC COUPLED 10 200 S 200 S 2 25 0 ...

Page 235: ...25 5 RSD š m RbD Ÿ š I 2 V VP 13 DCPLXzyxwvutsrqponmlkjihgfedcbaZYXWVUTSR 3 CR13 c pl 3 ŸŸ68 5 Ÿ Z 75 I 2V DCPL 0 I 2 V R30 196 C13 Ÿ R25J Š o C I 2V R19 3 Ÿ 1 5K Ÿ 2 1 RI 7 5 š G 22 430 51 L 12V DCPL 2 9 J64 C H Ÿ5 Ÿ 12V CENT ER 4 R 39 27š R40 7 5 š Ÿš R25A 3 Ÿ7 C25 6 Ÿ 5 C R 25C C 25C 0 2 5 t o mV1 C 829 5 R25 C2 5E I C25J 5ŸŸ 2 5 9 6 8 227 5 90 5 1 c R35 š FPŸ5 Ÿ I NTER N AL ATT ENUATOF BALANCE...

Page 236: ...S DECO UPLI N G 2 245 430 R K 9 F1 J 5Ÿ I R15 K 0 R 4B R 47 2š 30 C50 1 6 5 2 c 2 PO W ER DI ST RI BUTI O N 2 V Ÿ 3 ER TI C AL S W I TCHI NG µµ ÇË µ Ç µ º cÇ VALUES AND SERI AL NUMBFx E C RAL Ÿ 5 TR I G G ER R œ RA W I TH SLUE Ÿ Ÿ µœ Ášµ 0 Ci FLCU T I Zb4 5Ÿ U NR EG I SO V _ L64 b4f 0964 G AI N 45 3 47 5 s9 467 C 78 ŸŸ 2 5 9 7S R So R s Ra2 sh R83 4 2 1 R 211 š 2 T 4 5 R 7 536 256 C56 R90 R86 6Ÿ 4...

Page 237: ...C145 R 178 nI AA M AU I 01 2 7 11 11 1 l ow N I m It LA m a t o W W l ym nv N L113 I r I f um X x 3 3 t M R 116 m W O O r i k PC140H 6 4 Ã A I r 013 i r i 4VR113 R 118 0 R149a C 14 j a 9G RI 13 C 115 XW qc N L P21 49 P C125E R1 24 113 11 126 0 W _7r I Â c W D M K 244 Fi g 8 2 Par t i al Ver t i cal Pr eam p ci r cui t boar d P 0 Al Channel 2 Ver t i cal Pr eam p ci r cui t shown PS4 ...

Page 238: ... Ãà õ ÀÀ Ÿ G 5 b Ÿ Ÿ Ÿ Ÿ 454 O SC I LLO SC OP E Ÿ l oo 1 Ÿ 1 25 LS RI ObG 22 Ÿ G I O bD ŸŸ 3 Ÿ 6 3 Ÿ R 1 B 11 1E 99 Ÿº 75 RI O S B 1105E 9ŸŸš _ œ 0 G 105C G O SG LS 3 3 O I O SE _ 4 7 C 0M113 I 25 5 1 Ä11010 5 _ º I NTERNAL ATTENUATOR 8127 Ÿ 5 9 Ÿš 19b R119 R130 5 š T I 9b RI 2B 250r R125J 310 Ÿ R œ 0ARD ...

Page 239: ...à 51 b0 VAR VO LTS D I V G Ÿ y R 17S 1 5 Á 12V R 17 45 3 R F R C DI G R VERTI CAL SW I TCHI NG PO W ER DI STRI B UTI O N D EC O U PLI N G Ÿ 5 RI b3 Ÿš R169 47 5 C 17B 2 5 9 R179 47 5 D SI b3 UNCAL 5 R1 2 t I NVERT 7  PULL 1 77 S36 SEE PA R TS 5 FOR SEM I CO NDUCTOR TYPES RI 01 I SO LI 90 Ì 75 4 R19o 2ŸŸ C190 5 25 L19 C191 GI 2 C OM PO N EN TS R GR L PAR TS 05 7 AN FTC C I R C U I T CÁœ À BET W E...

Page 240: ...O p Cr L a I L W CC LU AN CC A X 1 X71 LO A t 00 r C C N r 4 N CC k A284j j C 0 dLj Ä R 2_ R255 0 CI F3 4 f j X R280 A V R270 a 5 i 7m D 22 AR on A M l ghp N DCO r i gm i S R501 4n W 1 1 4F R502 0 Fi g 8 3 Par t i al Ver t i cal Pr eam p ci r cui t boar d P 0 Al Ver t i cal Swi t chi ng ci r cui t shown ...

Page 241: ...zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA V 500 nS 500 mV Œ S i 2 V Ä 500 Ts r t r f 200 m Š Ÿ 200 m V AC CO UPLED 2 Ê5 50 M V 200 S AC COUPLE D 5 m S r zyxwv 0V 200 5 200 rn V 200 S Š Š Ÿ 2 75 ...

Page 242: ...12 i 2 37š 2 37š DCPQ C 2I 3 R 214 59 Ç 2 0047 2 R 224 187 D C PL i t c c Ä 6 C Z41 234 R 236 t J 24Ã 68 Ÿ 9 5235A CHO P M O DE _ _ AD D 454 O SC I LL O SC OPE R 2 2 R222 205 205 R 220 2SS 2 C R 2 2 CR222 R 213 R 223 R 230C 2 20 3 c 7 R 215 R225 323 2 67š 2 67 š 215 L225 02 5 CÄ 5 C 225 Q 225 5Ã q 150 0 1C CR21 C R 228 RZ 19 R233 R 229 190 É 9É 5š VC R 234 VO LTAG ES and 4AV EF O RM S bi m ed ÅÀÃ ...

Page 243: ...zsa 2 0 C A2T4 12 DCPL Q 274 C278 2 DCPL R274 R271 à 357 l b S 12V Q 293 R293 2 š R279 15 34 Ÿ R290 Ÿ 2 12 V W L G 290 R2oe R28o R289 732 1 1 5 š 34Ÿ C R20 B 0 L209 es Q 284 CR2o9 R28B 1574 V R C D œ P 0 A VER TI CAL CHO PPED BLAN KI NG TO R1307 C294 68 R294 39 R EFER ENC E D I AG R AM S Ÿ CHANNEL 1 VERTI CAL PREAM P Ÿ CH AN N EL 2 VER TI C AL PR EA M P 4 Ÿ VER TI CAL OUTPUT A M PLI FI ER Ÿ TR I G...

Page 244: ...437 1 œ 3 œ G 3 0 0314 0464 n W o L437 œ Á 17 41 d Q 424 Æ _ Á  Q 454 L435 L434 œ Á 3 À 0464 b µ œ 3 1 R 424_ Á CC r Å c Æ Á R353  œœ ÁÁ 426 Å r J Á œ C 424 4 35 F N 6 3 œ cv œJ 0 R334 œ Q 3 œ I Q 364 IV œ c Æ c œ 4 C426 œ j œ œ Æ Lo 1 U U I 036 œ Lo Lo œ cc LO J Æ d _S q 3 3 0324 C 355 34 A L337 L334 L335 0 À k Æ œ C337 C330 R417 Æ 1 R417 V œ œ J F i g 8 4 M ai n Ver t i cal Am pl i f i er ci ...

Page 245: ...qponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 441 0940 00 L 385 L 369 Ä VR463 0494 Q 494 46 i Q 474 L 468 à cc 7 7 R 365 É œ Q L 368 37 0474 Fi g 8 5 Ver t i cal Am p l i f i er Th i ck Fil mHy br i d Ci r cui t A3 ...

Page 246: ... S 1 0 mV i i 1 µ 5 5 5 5 _ _ t 1 1 _ _ AC C OU PLED AC C OU PLED _ 1 Ac c Å µD Ac c Å D z zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Ä s z z s z r z us 5 2 f i _ 9 5 V _ g 5 V Š J _t _ _ _ __ AC C OU PLED AC C OU PLED AC C OU PLED AC C OU PLED z 2 s 1 2 ...

Page 247: ... Y c 7 4 R4C7 45 3 y R 4 s 39 Š R 41b Q 414 W AVEFO R M S Á 2 cxpv µs É ÀÉ GÄÉ µ m rvÀµ Éŵ Á Ç Ÿ 2 T Ÿ Ÿ 454 O SC I LL O S C O P E R42 21 C430 R430 33 Á434 L435 6 Á Ÿ Ÿ š 442 52 N C c437 L9 L437 5 24 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 2 Ÿ Q Æ 2V D W D SEAM FI NDERI 5345 Q 4 ...

Page 248: ... Bo R E F R C Ÿ 6 R A M Ÿ 5 Ÿ 374 0394 R375 L3b zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCB 65 R 368 6 Ÿ 4 R46B 6Ÿ 4 0 471 11 0 c3 s 3 1 š FI LM H Y BRI D CI RCUI T BO A R D Ÿ O V ER 7I CAL 5 œ I TI CHI NG S œ 1 C O ND UCTOR TYPES 2 CO M PO NENTS PART O F CI R C UI T BO AR D EM 010 00 29999 39  6 R 491 S b c459 c46B1 Q 494 454 R47S R45b L L46B 6S 2 Ÿ R 63 S 1 q4 74 m R4S7 UP P E R VER T D...

Page 249: ...Fi g 8 6 Par t i al zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Sweep ci r c ui t boar d P 0 4 Tr i gger Pr eam p ci r c ui t s hown ...

Page 250: ...P567 Fi g zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 7 Par t i al Swee p ci r c u i t boar d P 0 5 Tr i gger Pr eamp ci r c u i t show n ...

Page 251: ... _ ozyxwvutsrqponmlkjihg Šo om zà u z Šu m c oo o _ nv 5 v r I A C C O U P LE D ...

Page 252: ...240 TR I G G ER PR E AM P DC LEV EL R514 1 Ì 2š R 5 Â ÂRSŸ RSI S I SO K 5 š 5 Cs oe Ÿ CR SI R51 50c R521 ŸŸ R SI O S C 52 751 5 1524 i 324 R S17 1 7 R 51 732 R 512 22 2 0 5 SW EEP BO ARD Pt 51 z 47 CS19 F s 3 t R521 I H F b 2V RS25 1 1 š 2 2 Q S 34 R 274 2 7 C5 R530 47 71 8 R53 B RSI B 47 4 µ RSO S LC 539 l oo F a534s _ F 3 9 L 4 7 CH C H 6 05506 NO R M R 519 2 C H O N LY 5 Ÿ O R Ç Á55 Ÿ 5 2 4 SW ...

Page 253: ...R543 Rg3 93 4 T 2 L543 C S40 Ÿ Ÿ 7 412V R EFER ENCE D I AGR AM S C H AN N E L VER TI CAL R œ Ÿ 3 VER TI C AL SW I TCH I NG O b T R C G ER G ENERATO R 8 B T R I VVER G EN ERATO R HO R I ZON TAL AM PLI F I ER 4 PO W ER D I ST RI BU TI O N DE C O U PLI N G N O TES 5 P A R TS LI ST FO R SEMI CON D UC TO R TYPES 2 t COM PO N EN T 5 I N TE G R A L P AR T O F SM A LL CI R C UI T B O ARD LSSI 5 M O UNTED ...

Page 254: ...ŸzyxwvutsrqponmlkjihgfedcbaZYX f 3 r Ä i F t i l l 63G Ä G V F 4 1 CF L 63 Ä Ÿ N7 Rl s C R y6 L638 Fi g 8 8 P ar t i al Swee p ci r c u i t boar d P 0 4 Tr i gger G ener at or ci r cui t shown ...

Page 255: ......

Page 256: ... O SC I LL O S C O P E 5602 b Ÿ2 I S Ÿ zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA à m b É SEE PARTS LI ST FO R wm ĵ Å SE M I CONDUCTOR TYPES 2 DCPL Rb 28 C623 Á7 0 1 0 4 S 0 R Pbso 2 c º 2 5650 5L Ÿ ___ q6 36 Rb37 I bK 12V DC PL 2 CRb3 Rb2B š C4 6 ...

Page 257: ...70 S Rb71 Ÿš µ 3 75V CG B4 0 1 Rbe4 l oo bT7 _ 2ŸŸ L Rb73 22 Cb74 r i 7 ŸŸ c6ba Q 669 ŸŸ y  R b74 È I SK Tb b69T 4 3909 DCPL Gb71 CRb71 TbB t TRI G PULSE 70 C R701 12V 100š ŸŸ CR 6 87 L667 LR69S 1 Ÿ 25 R696 1 s Cb09 9 12V 3 3 F DCP L Ÿ 37 Q 1 46 Rb97 3 3K 6 12V DC PL 1 RbBl 1 Q 685 _1 Ÿ CR692 1 G b92 F 12V 12V Q 6 74 DCP q 2 DC Rb94 89 2 7 š ÅÄ Å 5 TO 690 ŸŸš CR795 ŸŸ 6 27š Rb99 š R F R D 1 11 R ...

Page 258: ...kjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R 26 7 i 13727 µ R729 s C7 R72 3 Š 1 H7 h 0714 1k F 71y CH 17 Ž R 71 Â 14 718 1 7 Á717 17 C 71 1 Fi g 8 9 Par t i al Swee p ci r c u i t boar d P 0 4 Sweep G ener at or ci r cui t s h own ...

Page 259: ......

Page 260: ... 24 š 24 9 š Ÿ µ 5 V R 7bb R 7bS 4 Ÿ R74 š 2V CR7b 1 2 12V R 794 47 š SEE PAR TS LI ST FO R SEM I CO NDUCTORTYPES G AN G ED W I T H R 7G S 57b5 O PEN O N LY W H EN R 7G S I S FU LLY W 12V P7bS CR770 12 9 0 µ R 779 3 I b K 7SV AU TO TR I G N OR MTRI G SI NG LE SW EE P 1 764 R769 2 š Ÿ 702 Sm A C 702 47 CR 701 TRI G PULSE FRO M CRG71 5 11 E0R 116A VALUESR DSERI AI NUM BER RANG ES 0 µ RARTS M ARKED 1...

Page 261: ... J VERTI CAL SW I TCHI NG TRI G G ER G ENERATO R Ÿ SW EEP G EN ER ATOR Ÿ TI M I NG SW I TCH O H O R I Z NTAL AM PLI FI ER l HO RI ZO NTAL DI SPLAY SW I TCHI NG 75 4 PO W ER DI ST RI BUTI O N DECO UPLI NG 112 2 O R717 12V bSv C R F R C D 1 4 GR œ5 C739 ŸŸ G RE 8 SW EEP G EN ER ATO R 729 Q 72 C 0 1R2772 12V 2 330 Å729 G ATE 744 72 ...

Page 262: ...19 É 4 1 cc l 851 Um C851 _ r 852 00 R i 2 Cf _ Í 1zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Î Rf 352 46 R840 VR 42 f VR8 11 R8 3 Ft 828 Fi g 8 10 Par t i al Sweep ci r c u i t boar d P 0 5 Tr i gger G ener at or ci r cu i t shown ...

Page 263: ......

Page 264: ...06 W AVEFO R MS 101R œ SO U R C E V O LTAG ES an d W AVEFO RM S 5808 58 2 C O UPLI NG VO LTAG ES Àd W AVEFO R M S t d c Å dr t À 9 À page 8 2 eº eÁÄ as f ol l ows 454 O SC I LL O SC O PE 51 ŸŸ HO RI Z D I SPLAY y 3F R D U R I N G I ZV D ELAYED SW EEP M I XED 0 5 6 STARTS T RI G A F T ER D EL AY TI M E TI M E ...

Page 265: ...T RBSB 430 4 ŸŸ La 36 Ÿ 5635 SW EEP M O D E SEE P AR TS L I ST FO R SEMI CON D U C TO R TYPES Ä 56 RS41 š 12 J RS40 5 R829 CR 839 L6 38 F1642 š R 35 3š 6 š c 9 22 C R 57 S m 12V DC PL 12V DCPL R 644 27 š RS59 C É2 0 1 2 DCPL TR I G G ER LEVEL y CENTER R1346 330 0 A5 5W BOARD CB64 ŸŸ 12V DCPL C R 33 I C 4 _ j C R528 R B37 j Ÿ22 846 7 5 š R 2 1 ÂÄ j ÄÄ š š VR 842 12V DCPL 3V DCPL R845 75 1 PUBI o4 2...

Page 266: ...569 Fi g 8 11 Par t i al zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Sweep ci r c u i t boar d P 0 5 Sweep G e n er at or ci r cui t sh own 1 9 1 2 µ 21 f _ 4 ...

Page 267: ... zyxwvutsrqponmlkjihgfedcb 1 V 5 m S 2 V 5 _m S V t É F4 Ÿœ 995 741 1 y 5m S Ä ª 5m S 2V 5 À s _ __ 0 ŸCšŸÅ G ATE 993 FR O M ...

Page 268: ...E 943 2 R F R G D 1 G R œ5 Í PARTS LI ST FOR EARLI ER V A L U E S AND SERI AL NUM BER Ÿ 7 SW EEP G EN ER ATO R RANG ES O F PARTS M ARKED W I TH BLUE O UTLI NE Ÿ TR I G G ER G ENE R ATOR Ÿ Ä œ G SW I TC H Ÿ H O R I ZO N TAL A M PLI FI ER H O R I ZO N TAL D I SPLAY 5 17 H N O TE 4 PO W ER D I STR I B U TI ON 9 PA RTS L I ST FO R DECCUPLI NG SEM I CONDUCTO R 5 6 Ç15 œ L Ÿg à 3 c z V R942 R 945 a_ 3 š...

Page 269: ... 64 9 Á9 9 9 C91 i 65 _ 7 Ÿ22 V Š R9 9 CR906 ŸÃ R939 C9 11 F 12V DCPL 5 R911 Ã 2 5S K 75V R934 47 6 4911 19 8 9 Ÿ 7 Ê Q 9 2 R 913 R914 9Ÿ5 R910 1 1 7K 7 5 š 909 374 _ I F R909 22 12V C934 Ÿ 93Ÿ R933 5 š 2 2 0 3 Ž Ÿ R1005 G 920 R 2 R9 6 R94 š 9 0 33 95 Ÿ G R93 B Ÿ22 100 gag 5 š CR948 R920 492 Q 927 G R949 _ ŸŸ C925 1929 Ÿ0 951 R4 22 G R 922 Q 925 R95 CR952 R924 3 6 R923 47 925 R927 9 8711 929 928 Q...

Page 270: ...O FF AP ACI TORS 4S 4 O S C G I LLO S G O PE C 740 M 33 TI M I NG CAPACI TO RS R740c œ R 740 H Á 4 œ R740 J 7 57œ Ÿ Ÿ 1 1 R740C I 1 57 4 š 2 Ÿ c 740A S 5 R 7 4 40A II I 4K TI MI NG R 515 ŸR S 12 R74ŸÄ 2 7 š 25 CA UNC oR Ÿ D574 57 05 M O U N TED O N R EAR O F R 740S S W I TCH I S AS SH O W N O NLY I N C AL FU LLY C W 0 383š C 740 33 1 0 S750A C 74Ÿ R 740 B TI M E DI V 5 5 57 6 š Ÿ2 1 1 0 REFERE 5 Ÿ...

Page 271: ... PL I F I ER 4 PO W ER D I ST RI BU TI O N O EC OUPLI G AXI S A M PLI F I ER M O UNTED O N REA R M O UNTED O N REAR O F R 74C S SW I TCH O F R930S SW I TCH I S AS SHO W N O NLY 5 AS SHO W N O NLY C AL FULLY G W I N C AL FULLY C W R930 U 3 3 š TI MI NG _ R ESI STO RS Ÿ R920 Ÿ 1 C930G Ÿ 1 c93or Ÿ 1 c93o E ŸŸ _ R9 3 O c 157 4š 11 C930A R930A 1 5 5 16 57 4 š R740 E 3930 38 3 š 38 3 š 1 C93O N 33 S750A...

Page 272: ...Fi g 8 12 Par t i al zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Sweep ci r cui t boar d P 0 5 Hor i zont al Am pl i f i er ci r c u i t s h own ...

Page 273: ...6zyxwvutsrqponmlkjihgfedcbaZYXWV Ä 0 2 5 Às 50 AC C Å µ 5 S À 5 s AC COUPLED s À s ...

Page 274: ...G 12V G A I N G AI N R1025 5Ÿš R1010 R1022 R 102b 3 Ÿ š 6 49 š ŸŸ R 1020 26 š O FF Ç1 R1 27 J 2 ĵ R 32 S 6 š SEE P A RTS L 5 FOR SEE PARTS LI ST FOR EARLI ER 1 VALUES AND SERI AL NUM BER G RANG E5 OF ARTS M ARKED 510018 W I TH BLUE O UTLI NE R103S 174 SEMI CONDUCTOR TYPES 2 Ÿ 39 23 7 Ì L 1039 o1 1f N 9 RI 03B L Å 3 t oo 1 001 RI O 34 100 3 2 3 17 C RI 025 3 62 Q Ÿ b Q 1020 1 R10 1 7 49 š r 9 2 Ÿ ...

Page 275: ...9 Q 060 S 1 3 99 R1079 Q 078 I ŸŸ š t 2ŸŸ h R I 076 62 07 Ç 3 32 š _ q ba 2 0 f 3 t 6 Ÿ R1078 470W 10 79 2 1 5 š 12V DC R 1066 2 26š 130 3 Å e 135 5 787 4 Q 098 2 Ì º 0 R 2 9 3 Á J 12V 1 2V R 1O 95 150v SK O CPL R C L O UTPUT œ 1 P TRI G GER PR EAM P VO LTAG ES É µ Fà œ 5 6 d à Àd c à Á À ÃÀ y 2t µ ÃÄ Ã Éµ Ÿ SW EEP GEN ERATO R VOLT Ÿ S À É F ŸRœ S Ÿ S W EEP G ENERATO R M AG Ç7Ÿ W 74 œ U Prà ssedd ...

Page 276: ...Cl b Ÿ Ÿ Ÿ 0 SW EEP RC A R 7 P 0 A 4A11111P BO AR D SW EEP G ENERATO R 4S4 O SCI LL O SC OPE É CR7 S R 715 FRO M 4737 CR 717 SW EEP GENERATO R 1 7 UN BLAN KI NG G ATE Ÿ R1309 Q744 17 744 R 7 1 7 R716 R 7I 9 Á 7 0 908 _ _ I I C R 949 CR94B Q 948 R 94H R951 l CR9S2 VVV CI P951 CR 90 6 B SW EEP G EN ER ATO R 0 5 51 130 RD CR9c Q C ...

Page 277: ...0 5 ŸŸ 6929 929 E T FRO M Q 927 Ÿ R 9 b 2 5W 80 R P 0 A5 D LI 21 943 85 Ÿ SB35 ____ SW EEP M O DE Ÿ 9 Ÿ _____ T RI LE AF T ER D ELAY TI M E B574 R TS AFT ER DELAY œ t Ÿ 12 V 12 V 8 T R I GGER G EN ERATOR P F R C D 1 G R œ5 Ÿ 3 VER TI CAL SW I TCHI N G o7 RI GGER œ Ÿ S W EEP G ENERATOR Ÿ TR I GGER GENERATO R Ÿ8 S W EEP GEN E R ATOR HORI ZON TAL œ F R 6 AXI S AM PL I FI ER R 29 O RD 0171 HORI ZONTAL...

Page 278: ...Fi g 8 13 Low Vol t age Power Suppl y ci r cui t boar d A6 ...

Page 279: ... RI 192 47 29 I S9 b I R 2 RI 19 Ÿ2 1 1 4 Z K SK Ë S 7 LO W VO LTAGE R EG ULATOR BO AR D 93 r R 9 7Sv C R I 193 i 76 0 RI 193 422 75 2 Ÿ_3 s Q 94 R g G 184 Ÿ3 CRI 9 75V 75V It 95 Z Ä š c1 195 3 F C1155 Ÿ 1 _ 1149 Q 49 437 F1437 L 3 J _ E S O SO F 139 š 7 49 Ÿ 3 Ÿ 29 RI I Sf l C GI J ŸŸ 1 Q l l J4 It 2 59 3 3 š GRI 164 CR1 5 79 Ÿ6 š LI NE TR I G G ER Ÿ Å L D 1 Ÿ 9 TR I G G ER 6O U R C E SW I TCHES ...

Page 280: ...1C 124q D 47 59 2 1 75V 2 V 7 r 47 TL I 2V _ D C PL C 2SH Ÿ 7 7 2 V 2 _I 2V L 0f D C PL 2 C 4 D C L LG 01227 DC 1 Ÿ 226 n VERTI CAL SW I TCHI NG NNEL R œ I 2 R œ 6 f DC L Ä 25b i 7SV 2 V CRT O R C U I T VERTI CAL O U TPU T œ PUFI ER 3 1 F LM v6R D U RÂÅ 1 B _ 2 2 246 _ _ H 2V 24 2 2 Í Ì zsz à c à 4Gr _ 1 2 5 2 5 _ R _ 2 79 Ÿ 3 2V y _ C 24 5 1254 DCPL R14 T15 1 7 4 F 114SS 249 75V 75 I 2V 4 249 Å 2...

Page 281: ... zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGF Fi g 8 14 Cal i br at or ci r c ui t boar d A7 ...

Page 282: ... D 1 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA ...

Page 283: ...8 2 454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPON O S C I LL O S C O P E C AL BR A70 R FREQUENC ÄzyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQP sas l Ÿ Q 275 R1274 47 Ÿ 6 C AL I BRATOR BO ARD 0 2 3 2 c 27 F µÄ 27 1 2 c z a l Q 285 2 Ÿ 5 1 SEE PAR TS LI ST f SEM I CONDUC TOR TYF 2 SEE R1285 0 8K FOR POW EF ...

Page 284: ...F R1271 12 2V R 1285 0 5K Ÿ 5 L SEE PAR TS LI ST FOR S EM C ONOUC TO R S 2 SEE R 2 4 Z 2 K FOR POW ER Ÿ 18 Å i 12 0e z Q 294 4 C 275 R 28 R129 ro 29S 0 1 4 7 Ÿ 2 9 š c J 1299 v 1 4 R1298 200 I V G AL š R1 299s b7 3 299 CURRENT PROBE G AL 5 m J L 0171 CALI BRATO R ...

Page 285: ...Fi g 8 15 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Axi s ci r c u i t boar d A8 Axi s Am pl i f i er ci r cui t s h own ...

Page 286: ...100 m v 1 i i i AC C O U PLED 035 V ...

Page 287: ...BO AR D Ct 311 R1312 2 º zyxwvutsrqponmlkjih Í 0 74 314 R1315 3 I b K CI 3I b L R13I b Ÿ22 ŸŸ 12 V C 35 CI 352 2 7 Ã25 5 R 1351 50 I K 2 R 32 Ÿ 75 22 Ÿ Rt 31 R 3 2 ÃCR 1326 4 70 c 32 39 t i C1522 022 º 10 z 2 11 841 R1 3 1 4 71 11306 5 R 3 8 5 U TO C1479 R1 332 b 2 š Ä5 R 353 160 5 R132b 24 š 9 54 11327 G 13 24 Ÿ CRI 31 B I O O V 2 47 Q 323 1 74 R 324 C 324 j Q 32 0047 1017 25 i Ÿ 7 RI 330 170 R 3...

Page 288: ...VR 135b  3S 5 1 5 Ë 25V 3 2 7 R1330 5V R 1332 2 š 22 Ÿ 5 J 2 Ÿ 4 120 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONM 05 Q 1343 2 P 1333  333 47 022 12V L 2s 5 Q 1334 CR I 343 R 1344 1 349 Co 1 7 75 V C I 346 022 1 l oo 12 RI 345 2 š 5 9 RI 64 C 510Ÿ U N LA NK I NG G ATE Ÿ C 1449 7 R EFER ENCE DI AGR AM S 7 CR T C I R C U I T 575 71 œ DI V 1 Ÿ 3 VER TI CAL S W I TCHI N G Ÿ SW EEP G EN ERATOR Ÿ 9 SW EEP ...

Page 289: ...Fi g 8 16 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Axi s ci r c u i t boar d A8 CRT ci r c u i t shown ...

Page 290: ...0zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA ...

Page 291: ...º 3 143Ÿ 0 25 Q 143 Ÿ 14 50 Ÿ 10 C R 1 44 R1450 2 2 PI N 14 C RI 452 CR1 453 L C 1440 5 _ 4 VA Ÿ CR T NEATER 01453 01457 0 Ÿ 500 C S2 C R 14S5 C 1455 C R I 457 500 C 14 0 500 R14G 3 2 m R 1404 m 14 4 C R 14 Ÿ4 R Ì 3 œ R 40 1 5 3m 5 75V 3 3 œ Ÿ SEE PAR TS LI ST FO R FMI CONOUCTO R TY PES T P 14 9 g ßV V R1441 Ÿº R1442 Ÿœ CR T G R I D R1447 BI AS 2œ C R14G 3 1C I 4 b3 2 0 1 R14 5 R140b R14r ob REFE...

Page 292: ...0 D CR1455 R 1444 Ÿœ R1443 Ÿœ R1445 Ÿœ R 44 Ÿœ R1449 C RT GRI D µ œ S RI 447 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 2 œ R 44 2 Ÿ œ 141 0 R 4 à œ œ 12 š t f l C1455 CR1457 500 C14 r 0 500 C 4 9 Ÿ 5 U N BL AN KI NG G AT E FROM Q 134S V 479 1 12V R14 B0 5 š TRADE Ÿ RO TATI ON 017 CRT CI RCUI T 0 ...

Page 293: ...t h er wi se speci f i ed PARTS O RDERI NG I N FO R M ATI ON Re p l acem ent pa rt s ar e avai l abl e f r om o r t h r o u g h yo ur l ocal Te k t r o n i x I nc Fi el d Of f i ce o r r e p r ese n t at i ve Ch anges t o Te k t r o n i x i nst r u m ent s a r e som et i m es m a d e t o accom m od at e i mp r oved com ponent s as t h ey becom e avai l abl e an d t o gi ve you t he be n ef i t of ...

Page 294: ...h Vol t age 9 10 t h r u 9 14 Fi g u r e 3 Ch assi s 9 15 t h r u 9 23 F i g ur e 4 454 F r am e Cabi net 9 24 t hr u 9 26 F i g ur e 5 R454A Cabi net 9 27 t h r u 9 28 Fi g ur e 6 St andar d Accessor i es par t s l i st com bi ned wi t h i l l u st r at i on F i g ur e 7 454 Re p ac k agi ng par t s l i st com bi n e d wi t h i l l u st r at i on F i g ur e 8 R454A Re p ac k agi ng par t s l i st...

Page 295: ...10 0586 00 1 NUT k e p s 4 40x0 25 i n c h 10 210 0202 00 2 LUG sol de r SE 6 m o u nt i ng h ar d war e f o r eac h n ot i ncl ude d É l ug 11 210 0407 00 2 N UT h ex 6 32x0 25 i nc h 12 210 0006 1 W ASHER l oc k i nt er nal 0 146 1D Ç 0 283 i nc h O D 13 211 0589 00 1 SCREW 6 32x 0 312 i nc h 14 1 CO I L m o un t i n g h a r d war e n ot i ncl ud ed É coi l 15 213 0149 00 3 SCREW t h r ea d f or...

Page 296: ...oal FO CUS k nob i ncl u des 213 0153 00 1 SETSCR EW 5 40x0 125 i nc h HSS 36 366 0494 00 1 KNO B c h a r coal SCALE ILLUM k nob i ncl u d es 213 0153 00 1 SETSCR EW 5 40x0 125 i nc h HSS 37 366 1265 00 2 KNO B r e d VA RI ABLE CH 1 2 eac h knob i n cl u d es 213 0153 00 1 SETSCREW 5 40x0 125 i nc h HSS 38 366 1001 00 2 KNO B c h ar coal VOL TS DI V CH 1 2 eac h k nob i ncl u d es 213 0153 00 2 SE...

Page 297: ...oal PO SI TI ON kn ob i n cl u d es 213 015300 2 SETSCREW 5 40x0 125 i n c h HSS 54 366 0215 02 10 KNO B l ever swi t c h 55 366 1024 01 1 KNO B c h ar coal œ DI V k nob i ncl u d es 213 0153 00 2 SETSCREW 5 40x0 125 i nc h HSS 129 0103 Ÿ 1 BI NDI NG PO ST ASSEM BL Y bi ndi ng post assem bl y i ncl u d es 56 200 0103 1 CAP bi n d i ng post 57 1290077 00 1 PO ST bi n d i ng m o u nt i ng h ar d war...

Page 298: ...0 312 1D Ç 0 474 i nc h O D 77 1 RESI STOR var i abl e É h ar d war e m o u nt i ng h ar d war e not i n cl ude d É r esi st or 78 331 0139 00 1 DI A L DELAY TI M E M UL TI PL I ER di al i ncl ud es 213 0048 00 1 SETSCR EW 4 40x0 125 i nc h HSS 79 2 RESI STOR var i abl e m o u nt i ng har d war e n ot i n cl ud e d É r esi st or 80 210 0590 00 1 N UT h ex 0 375 32x0 438 i nc h 210 0978 00 1 W ASHE...

Page 299: ... O D 105 262 0910 00 1 SW I TCH r ot ar y SW EEP LENG TH wi r ed swi t c h i ncl udes 260 0825 00 1 SW I TCH r ot ar y unwi r ed 106 1 RESI STOR va r i abl e m ou nt i ng ha r dwa r e not i ncl uded É r esi st or 107 210 0590 00 2 N UT hex 0 375 32x0 438 i n c h 108 210 0012 00 1 W ASHER l oc k i nt er nal 0 375 1D Ç 0 50 i n c h O D 109 361 0234 00 1 RESTRAI NT s h af t co up li n g 0 32 i nc h O...

Page 300: ... 220 0413 00 2 N UT swi t c h 4 40 Ç 0 188 Ç 0 562 i nc h 122 260 1150 00 1 SW I TCH l ever COUPL I NG TRI G GERI NG m o un t i n g har d wa r e n ot i n cl u ded É swi t c h 220 0413 00 2 N UT swi t c h 4 40 Ç 0 188 Ç 0 562 i n c h 123 260 1148 00 1 SW I TCH l eve r SOURCE TRI G GERI NG m o u nt i n g har dwar e n ot i ncl ud e d É swi t ch 220 0413 00 2 N UT swi t c h 4 40 Ç 0 188 Ç 0 562 i nc h...

Page 301: ...00 1 W ASHER l oc k i n t er nal 0 375 1D Ç 0 50 i nc h O D 145 361 0234 00 1 RESTRAI NT s h af t co u pl i n g 0 32 i nc h O D 146 361 0233 00 1 RESTRAI NT s h af t co u pl i ng 0 188 i n c h O D 147 376 0014 00 1 C OUPL I NG var i abl e r esi st o r 148 210 0802 00 1 W AS HER f l at 0 15 1D Ç 0 312 i nc h O D 149 384 0262 00 1 RO D s h af t ext e n si o n 7 563 i n c h es l o n g 150 407 0290 03...

Page 302: ...i ncl ud ed É co nn ect or 176 210 0590 00 1 N UT hex 0 375 32x0 438 i nc h 177 210 0255 00 1 LUG sol d er 0 375 i nc h SE 178 2 RESI STOR va r i abl e m o u nt i n g h ar d wa r e f o r eac h not i n cl u d ed É r esi st o r 179 358 0075 00 1 BUSHI NG bana n a j ac k 180 210 0046 00 1 W ASHER l oc k i n t er nal 0 25 1D Ç 0 40 i nc h O D 181 220 0510 00 1 N UT hex 0 25 32x0 312 i n c h 182 337 09...

Page 303: ...1574 00 1 W I RI NG HARNESS m ai n wi r i ng ha r ness i ncl udes 199 131 0621 00 10 C ONNECTOR t e r m i nal 131 0622 00 13 C ONNECTOR t er m i nal 131 0792 00 13 C ONNECTOR t e r m i nal 200 352 0197 00 1 HOUSI NG t e r m i nal co nnect or 1 wi re bl ac k 201 352 0198 00 12 HOUSI NG t er m i nal con nect or 2 wi r e bl ac k 202 352 0199 00 3 HOUSI NG t er m i nal co nn ect o r 3 wi re bl ac k 20...

Page 304: ......

Page 305: ... zyxwvutsrqponmlk 9 ...

Page 306: ... zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 51 454 R454A O SC I LL O SC OPE ...

Page 307: ... zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLK LI S Ä A 454 R454A O SCI LLO SC OPE ...

Page 308: ... ...

Page 309: ...P cabl e snap on sm al l m o un t i n g h ar d war e not i n cl u d ed É ci r c u i t boar d assem bl y 12 211 0116 00 6 SCREW sem s 4 40x 0 312 i nc h 210 1001 00 4 W ASHER f l at 0 119 l D Ç 0 375 i n c h O D not sh own 210 0586 00 2 N UT k e p s 4 40x0 25 i nc h n ot s h own 13 337 1357 00 1 S H I EL D el ect r i cal m o u nt i ng h a r d wa r e not i n cl u d ed É s h i el d 14 211 0007 00 7 S...

Page 310: ...ON N ECTOR BNC f em al e É har dwar e m o un t i ng h ar d wa r e f or eac h not i n cl ude d É co nn ect or 36 210 0590 00 1 N UT hex 0 375 32x0 438 i nc h 37 361 0348 00 1 SPACER r i n g BNC 0 50 i n c h I D 38 260 1168 00 2 SW I TCH l eve r AC DC GND CHI CH2 m o un t i ng har dwa r e f or eac h not i ncl uded É swi t c h 39 210 0586 00 2 N UT ke p s 4 40x0 25 i nc h 40 211 0101 00 2 SCREW 4 40x...

Page 311: ... l oc k i n t er n al 0 25 1D Ç 0 40 i n c h O D 59 376 0051 00 2 C OUPL I NG ASSEM BL Y eac h co u pl i n g assem bl y i ncl u des 213 0022 00 4 SETSCREW 4 40x0 188 i nc h HSS 376 0049 00 1 C OUPL I NG pl ast i c 354 0251 00 2 R I NG co u p l i ng 60 384 1034 00 2 SHAFT ext ensi on 3 14 i n c h es l o n g 61 337 1356 00 1 SHI EL D el ect r i cal s h i el d in cl u des 62 342 0062 00 2 I NS ULATOR...

Page 312: ... N UT hex 0 25 32x 0 312 i n c h 82 210 0046 00 1 W ASHER l oc k i nt e r n al 0 25 1D Ç 0 40 i nc h O D 83 1 C APAC I TO R m o un ti n g h ar d wa r e n ot i ncl uded É ca paci t or 84 211 0503 00 2 SCREW 6 32x0 188 i nc h PHS 85 210 0203 00 1 LUG sol d er S E 6 l ong 8 Ì 210 0202 00 1 LUG sol d er SE 6 87 441 0693 00 1 CH ASSI S h i g h vol t age pl ast i c c h assi s i ncl u des 88 124 0163 00 ...

Page 313: ... nal 100 352 0197 00 1 HOLDER t er m i nal connect or 1 wi re bl ac k 101 352 0198 00 2 HOLDER t er m i nal connect o r 2 wi r e bl ack m o unt i ng h a rdwa re not i ncl uded É hi gh vol t age assem bl y 211 0504 00 3 SCREW 6 32x0 25 i nc h PHS not s hown 102 166 0368 00 1 SLEEVE a node 103 381 0243 00 1 BAR heat si n k 104 136 0420 00 1 W I RI NG HARNESS CR T soc ket wi r i ng har ness i ncl ud ...

Page 314: ... i ncl uded É s h i el d 16 211 0007 00 4 SCREW 4 40x0 188 i nc h PHS 17 670 0942 00 1 CI RC U I T BO ARD ASSEM BL Y SW EEP 5 ci r c u i t boar d assem bl y i ncl u d es 388 1634 00 1 CI RC U I T BO ARD 18 131 0589 00 63 TERMI NAL pi n 0 50 i nc h l o n g 19 136 0183 00 4 SO CKET t r ansi st or 3 pi n 20 136 0235 00 2 SO CKET t ransi st or 6 pi n 21 136 0220 00 37 SO CKET t r ansi st or 3 pi n sq ...

Page 315: ... 00 2 C OVER ca p aci t or pl ast i c 1 365 i nc h es d i am et er 45 2 C APACI TOR m o u nt i ng h ar d war e f o r eac h n ot i ncl u d e d É ca p aci t or 46 211 0588 00 2 SCREW 6 32x0 75 i nc h HHS 47 432 0048 00 1 BASE pl ast i c l ar ge 48 386 0254 00 1 PL ATE f i ber l ar ge 49 210 0457 00 2 N UT k e p s 6 32x 0 312 i nc h 50 179 1576 00 1 W I RI NG HARNESS CAPACI TOR b r ac ket wi r i ng h...

Page 316: ... 0510 00 3 SCREW 6 32x 0 375 i nc h PHS 72 407 0773 00 1 BRACKET ci r c u i t boar d br ac k et i n cl u d es 73 252 0571 00 f t EXTRUSI ON p l ast i c 0 208 f oot m o un t i ng h a r d war e n t i ncl uded É br ack et 211 0504 00 2 SCREW 6 32x0 25 i nc h PHS not s hown 74 214 0982 00 2 SPRI NG g r o u n d i ng m o u nt i n g har d wa re f or eac h not i ncl uded É spr i ng 75 211 0007 00 1 SCREW ...

Page 317: ...0 5 LUG sol de r SE 4 m o u nt i n g har dwar e f o r eac h n ot i n cl u ded É l u g 96 210 0406 00 1 N UT hex 4 40x0 188 i nc h 97 210 0202 00 1 LUG sol de r SE 6 m o un t i ng h ar dwar e n ot i n cl u de d É l u g 98 211 0504 00 1 SCREW 6 32x0 25 i n c h PHS 99 210 0407 00 1 N UT h ex 6 32x0 25 i n ch 100 352 0100 00 2 HOL DER var i abl e r esi st or m o u nt i ng har d war e f o r eac h not i...

Page 318: ...h ar d war e n ot i ncl uded É ca p aci t o r 120 210 0457 00 2 N UT k e ps 6 32x 0 312 i nc h 121 210 0202 00 1 LUG sol der SE 6 m o u nt i n g h ar d war e n ot i n cl ude d É l ug 122 210 0407 00 1 N UT h ex 6 32x0 25 i n c h 123 343 0013 00 3 CLAM P cabl e pl ast i c 0 375 i nc h d i am et er m o un t i ng ha r d wa r e f or eac h not i n cl uded É cl amp 124 210 0457 00 1 N UT k e p s 6 32x 0...

Page 319: ... ARD 148 131 0787 00 12 TERMI NAL pi n 0 64 i nc h l ong 149 136 0220 00 8 SO CKET t r ansi st o r 3 pi n sq u ar e 150 214 0579 00 3 PI N t est poi n t m o un t i ng har d war e not i n cl ud e d É ci r c u i t boar d assem bl y 151 211 0116 00 3 SCREW sem s 4 40x 0 312 i nc h 152 441 0691 04 1 C HASSI S l ow vol t age r eg u l at o r m o u nt i n g h ar d wa r e not i ncl ud e d É ch assi s 153 ...

Page 320: ...ER f l at 0 25 1D Ç 0 375 i nc h O D 178 210 0223 00 1 LU G sol d e r 0 25 1D Ç 0 438 i nc h O D SE 179 358 0215 00 2 BUSHI NG pl ast i c 180 348 0064 00 2 GROM M ET p l ast i c 0 625 i n c h d i am et er 181 348 0063 00 4 GROM M ET pl ast i c 0 50 i n c h d i am et e r 182 348 0055 00 2 GROM M ET pl ast i c 0 25 i n c h d i am et er 183 344 0120 00 1 CL I P pl ast i c m o u nt i ng ha r d war e n...

Page 321: ...759 00 1 TERMI NAL l u g m o u nt i ng har dwar e not i n cl uded É f a n m ot or assem bl y 200 211 0012 00 3 SCREW 4 40x 0 375 i n c h PHS 201 210 0851 00 6 W ASHER f l at 0 119 1D Ç 0 375 i nc h O D 202 348 0093 00 3 GROM M ET 0 14 1D Ç 0 375 i nc h O D 203 220 0471 00 3 N UT st e pped r o u n d 4 40x 0 217 i nc h l ong 204 124 0147 00 1 TERMI NAL STRI P cer am i c 0 438 i n c h h É 13 not c h ...

Page 322: ...i r e bl ac k 210 352 0198 00 7 HOL D ER t er m i nal con nect or 2 wi re bl ac k 211 352 0199 00 6 HOLDER t e r m i nal co nnect or 3 wi r e bl ack 212 352 0200 00 4 HOL DER t e rm i nal con nect or 4 wi r e bl ac k 213 352 0201 00 3 HOLDER t e rm i nal co nnect or 5 wi r e bl ac k 214 352 0205 00 1 HOLDER t e rm i nal connect or 9 wi r e bl ac k 179 1578 00 1 W I RI NG HARNESS ve r t i cal o ut ...

Page 323: ... zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA 14 54 r 127 37 6 i 2 1 0 r A Ä 7 f I P IN ...

Page 324: ...m eew ej zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA Á 454 R454A O SCI LLO SCOPE ...

Page 325: ...454zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA R454A O SCI LL O SC OPE C ...

Page 326: ...Æ zyxwvutsrqponm 3 Œ Á É Á _ _ _ y __ _ 0 Á _ e Ë 0 zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA __ __ _ i r r 1 Å1 À ...

Page 327: ...200 0602 00 2 C OVER ha n d l e l at c h 15 367 0072 01 1 HANDLE car r yi ng m o u nt i ng har dwar e n ot i ncl ud e d É ha n dl e 16 211 0512 00 4 SCREW 6 32 Ç 0 50 i n c h 100 cs k FHS 17 214 0516 00 2 SPR I NG handl e i ndex 18 214 0578 00 2 HUB han d l e i n d ex m o u nt i ng har d war e f or eac h n ot i ncl u ded É hu b 19 213 0129 00 1 SCREW hex 0 25 20x0 75 i n c h SHS 20 214 0513 00 2 I...

Page 328: ...PHS 40 210 0006 00 2 W ASHER l oc k i nt er nal 0 146 1D Ç 0 283 i nc h O D 41 210 0407 00 2 N UT hex 6 32x0 25 i n c h 42 348 0258 00 4 FO O T cabi net É cor d wr a p m o u nt i ng har d war e f or eac h not i n cl u de d É f oot 43 212 0022 00 1 SCREW 8 32 Ç 1 50 i nc h es PHS 44 129 0294 00 1 PO ST 0 188 I D Ç 0 26 O D Ç 1 03 i nc h l o n g 45 161 0033 07 1 C ORD power 3 con d u ct or 46 358 03...

Page 329: ...0 1 HOUSI NG f an f i l t er m o u nt i n g h a r d war e not i ncl u d ed É h o u si ng 58 213 0107 00 4 SCREW t h r ea d f or m i n g 4 40x0 25 i n c h 100 cs k FHS 59 378 0036 01 1 FI L TER ai r 60 386 1880 00 1 PANEL r ear 61 426 0317 01 1 SUBPANEL r ear m o u nt i ng har d war e not i n cl u de d É s u bp o n el 62 212 0506 00 4 SCREW 10 32x0 375 i nc h 100 cs k FHS 63 179 1579 00 1 W I RI N ...

Page 330: ... 32x0 25 i nc h PHS 12 211 0502 00 1 SCREW 6 32x0 188 i nc h 100 cs k FHS 13 390 0013 00 1 CABI NET BO TTO M m o u nt i ng h ar d wa r e n ot i ncl ud e d É cabi n et bot t om 14 212 0001 00 2 SCREW 8 32x0 25 i nc h PHS 15 211 0502 00 1 SCREW 6 32 Ç 0 188 i nc h 100 0 cs k FHS 16 386 1261 00 1 PLATE r ea r m o un t i ng h ar d war e not i ncl ud e d É p l at e 17 212 0010 00 4 SCREW 8 32x 0 625 i ...

Page 331: ...f r am e 31 2120040 00 4 SCREW 8 32x 0 375 i nc h 100 cs k FHS 32 213 0129 00 2 SCREW 0 25 20x0 75 i n c h HSS 33 361 0120 00 1 SPACER st e ppe d 34 214 0881 00 1 HI NGE m o u nt i ng h ar dwar e n ot i n cl u ded É h i nge 35 211 0503 00 2 SCREW 6 32x 0 188 i nc h PHS 36 351 0104 00 1 GUI DE pai r É h ar d war e 37 355 0114 00 4 STUD m o u nt i ng h ar dwar e f or eac h not i ncl ud e d É st ud 3...

Page 332: ......

Page 333: ...17z zyxwvutsrqponmlkjihgfedcbaZYXWVU EM U gl hqhM h gl hqhM h e ...

Page 334: ...454zyxwvutsrqponmlkjihgfedcbaZY R454A O SCI LLO SCO PE ...

Page 335: ...i sc 2 s s 6 1 010 6054 01 2 PROBE PACK 2 012 0076 00 1 CABLE BNC 3 012 0092 00 1 J ACK C Ã 4 159 0021 00 2 FUSE f ast bl 159 0022 00 1 FUSE f ast bl 159 0028 00 1 FUSE f ast bl 070 1106 00 1 M ANUAL l 070 1074 00 1 M ANUAL i n O THER PAR TS FURNI SHED W I TH 016 0096 00 1 KI T r ugged i 016 0099 00 1 KI T r ac km o 351 0101 00 1 p r TR ACK sl i d e ...

Page 336: ... 3AG 1 FUS E f ast bl o 1 amp 3AG 1 FUSE f ast bl o 1 4 amp 3 AG 1 M AN UAL o p er at o rs not s h own 1 M AN UAL i nst r u ct i on not s h own FURNI SHED W I TH R454 ONLY Descr i p t i on 1 KI T r u gge d i zi n g har d war e not sh own 1 KI T r ac km o u nt i ng har d war e not s h own 1 pr TRACK sl i d e st at i o n a r y i nt er sect i on n ot s h own ...

Page 337: ...Ef f Di sc zyxwv z s 4 s 7 065 0076 00 1 C AR TO N ASSEM BLY car t on assem bl y i ncl u d es 1 004 0685 00 1 CARTO N accessor y É p a d 2 004 0222 00 2 CASE HALF 3 006 0342 00 1 BAG pl ast i c 4 004 0679 00 1 C AR TO N Ÿ Descr i p t i on 454 R454A O SCI LL O SCOPE ...

Page 338: ...L Y Par t No 065 0101 00 Fi g Q I ndex Te k t r o n i x Se r i al M o d el No t N o Par t No Ef f Di sc 8 065 0101 00 1 CART01 ca rt 1 004 0704 00 1 CART 2 004 0361 00 1 PAD 3 004 0461 00 1 CART 4 004 0566 00 2 PAD 5 004 0359 00 1 PAD 6 004 0360 00 1 PAD 7 004 0357 00 1 PAD 8 004 0460 00 1 CART ...

Page 339: ...dcbaZYXWVUTSRQPONMLKJIHGFEDCBA 2 3 5 1 C ARTON ASSEM BLY car t on assem bl y i ncl udes 1 C ARTON accessor y 1 PAD SE T 6 p i ece 1 C AR TON out er 2 PAD end 1 PAD SE T 2 p i ece 1 PAD S ET si de 2 p i ece 1 PAD bot t om 1 C AR TON i n ner Descr i pt i on ...

Page 340: ...r m an u al m ay cont ai n new c h ange i nf or m at i on on f ol l owi ng pages zyxwvutsrqponmlkjihgfedcbaZYXWVUTSRQPONMLKJIHGFEDCBA si ngl e c h ange m ay af f ect sever al sect i ons Sect i ons of t h e m an u al ar e of t en pr i nt ed at di f f er ent t i m es so som e of t h e i nf or m at i o n on t h e c h ange pages m ay al r ea d y be i n your m an u al Si nce t h e c h a n ge i n f or m...

Page 341: ...ct ed 4 SW EEP Ci r cui t Boar d Assem bl y CHANG E TO 670 0941 03 Com pl et e Boar d Q 786 151 0302 00 Si l i con 2 2222 R EM O VE CHANG E TO ADD C785 281 0523 00 100 pF Cer 350 V 670 0942 03 Com pl et e Boar d 5 SW EEP Ci r cui t Boar d Assem bl y Q 1012 153 0600 00 Tr ansi st or Assem bl y 153 0526 00 pot t ed Q 1016 R1087 315 0151 00 150 0 1 4 W 5 L1024 276 0528 00 Cor e f er r am i c suppr es...

Page 342: ......

Page 343: ... 454 210R CHANGE TO ELECTRI CAL PARTS LI ST CO RRECTI O N 1 VERTI CAL PREAM P C i r c ui t Boar d Assem bl y C33 281 0610 00 2 2 pF nomi na l va l ue Se l ect ed C133 281 0610 00 2 2 pF nomi na l va l ue Se l ect ed C49 H 281 0122 00 2 5 9 pF Var C e r C149H 281 0122 00 2 5 9 pF Var C e r œ 17 769 971 ...

Page 344: ......

Page 345: ... 454zyxwvutsrqponmlkjihgfed R454A 454 163D 454 210R 5 SW EEP Ci r cui t Boar d Assem bl y CHANG E TO 670 0942 06 Com pl et e Boar d R1070 323 0237 00 2 87 k 1 2 W Pr ec 1 R1066 323 0215 00 1 69 k 1 2 W Pr ec 1 R1086 323 0215 00 1 69 k 1 2 W Pr ec 1 œ 18 109 971 Page 7 40 1 ...

Page 346: ......

Page 347: ...DCBA R453 A EFF SN B120000 up 453 1 2 3 EFF SN B060000 up 453 4 SN B070000 up 454 R454A SN B120000 up ADD ELECTRI CAL PARTS LI ST AND SCHEM ATI C CO RRECTI O N CHASSI S C1203 283 0008 00 0 1 0 Cer 5 0 0 V Add i n par a l l e l wi t h C1200 œ 18 263 1071 ...

Page 348: ...FF SN B110000 up ADD ELECTRI CAL PARTS LI ST AND SCHEM ATI C CO RRECTI O N CHASSI S R4 9C 315 0112 00 1 1 k nom i nal Se l ect ed Par t R149C 315 0112 00 1 1 k nom i na l Se l ect ed Par t Added i n par a l l e l wi t h R49B R149 B r espect i v e l y œ 1 7 867 1071 ...

Page 349: ......

Page 350: ... 0739 07 157 4 k 1 2 W Pr ec 1 10 R740C 323 0739 07 157 4 k 1 2 W Pr ec 1 10 R740M 323 0738 07 2 361 œ 1 2 W Pr ec 1 10 R740 P 323 0471 07 787 k 1 2 W Pr ec 1 10 S750A B 262 0909 02 Rot a r y œ DI V SECTI ON 9 Page 9 7 CHANGE TO M ECHANI CAL PARTS LI ST CO RRECT I ON 1 131 262 0909 02 1 SW I TCH r ot ar y A œ D DELAY TI M E wi r ed œ 17 994 1071 ...

Page 351: ......

Page 352: ...PONMLKJIHGFEDCBA Ä 5 ELECTRI CAL PARTS LI ST CO RRECTI O N Al VER TI C AL Ci r cui t Boar d Assent l y C H AN G E TO Q 215 151 0302 00 Si l i con NPN Repl aceabl e by 2N2222A Q 225 151 0302 00 Si l i con NPN Repl aceabl e by 2N222N M I S 101 107 ...

Page 353: ......

Page 354: ...er i al Copyr i ght Å 1971 by Tekt r oni x I nc Beave r t on Or egon Pr i n t ed i n t he Uni t ed St at es of Am er i ca Al l r i ght s r eser ved Cont ent s of t hi s i nse r t m ay not be r epr oduced i n any f o r m wi t hout pe r m i ss i on of t he copyr i ght owne r U S A and f o r e i gn Te kt r oni x pr oduct s cover ed by U S and f or ei gn pat ent s and o r pat ent s pendi ng 454 M O D ...

Page 355: ......

Page 356: ... STANDARD ACCESSORI ES 6 1 Del et e Add 2 010 6054 06 Pr obe Pac kage 6054 6 Each pac kage consi st s of t h e f ol l owi ng 1 010 6054 02 Pr obe 6054 6 1 013 0107 01 Hook t i p r et r act ab l e 1 103 0131 00 Ad apt er 6 32 É gnd l ead 1 166 0404 01 I nsul at i ng t ube 1 175 0848 00 Gr ound l ead 3 1 175 0848 01 Gr ound l ead 5 1 206 0060 00 SMS s pr i ng t i p 1 206 0105 00 Hook t i p 1 206 013...

Page 357: ......

Page 358: ... at e r i a l Copyr i ght Å 1971 by Tekt r oni x I nc eave r t on Or egon Pr i n t ed i n t h e Uni t ed St at es of Am er i ca Al l r i ght s r eser ved C ont e nt s of t h i s i nse r t m ay not be r epr oduced i n any f or m wi t hout pe r m i ss i on of t he copyr i ght owner U S A and f o r ei gn Tekt r oni x pr oduct s cove r ed by U S a nd f or e i gn pat ent s an d o r pat e n t s pendi ng...

Page 359: ......

Page 360: ... f i ed2 Unm agni f i ed M agni f i ed 2 O ver any por t i on of W i t h i n 3 W i t h i n 6 W i t h i n 5 W i t h i n 8 cent er ei g h t di vi si ons 5 s Di v t o 0 1 s Di v 5 s t o 1 s sweep onl y 50 m s Di v t o 1 0 us W i t h i n 2 W i t hi n 3 W i t h i n 4 W i t h i n 5 Di 0 5 s Di v t o 0 1 W i t h i n 3 W i t h i n 4 W i t h i n 4 W i t hi n 6 us Di 0 05 s Di an d W i t h i n 3 0 02 ps Di ...

Page 361: ... t h i n 2 0 W i t h i n 2 0 W i t h i n 2 0 Per f or m ance Suppl em ent al Cont i nuous f r om 50 s t o 0 1 Ps W i t h i n 0 005 l ess t h an one par t i n 20 000 of t he m axi m um avai l a bl e del ay t i m e M axi m um avai l abl e del ay t i m e i s t en t i m es t he set t i ng of t h e œ DI V swi t c h W i t h i n 2 pl us t h e Excl ude f i r st 0 5 m easur ed sweep er r or Di v af t er di...

Page 362: ... Chec k and M agni f i e d Sweep Accur acy REPLACE Th e ent i r e st ep wi t h t h e f ol l owi ng i nf or m at i on 27 Chec k and M agni f i e d Sweep Accur acy Change t he f ol l owi ng cont r ol set t i ngs M AG X10 HORI Z DI SPLAY Hor i zont al PO SI T I ON C e n t e r e d NO TE Change t he CH 1 VOLTS DI V swi t c h t o 50 mV and use t he HF STAB cont r ol t o o b t ai n st a b l e di s p l ay...

Page 363: ... be excl uded f r om t he m easur em ent M agni f i er l i g h t m ust be on The 02 us and 05 us set t i ngs s houl d b e wi t h i n 4 0 32 m aj or di vi si on over t h e cent er ei g h t di vi si ons or 5 0 10 m a j or di vi si on wi t h i n any t wo d i vi si on por t i on of t he cent er ei g h t di vi si ons The 1 us t h r ough 5 us set t i ngs s h oul d be wi t h i n 4 0 32 m aj or di vi si o...

Page 364: ...dj ust t he hor i zont al PO SI TI O N cont r ol so t h e l ea di ng edge of t h e cent er t i m e m ar k i nt er sect s t he cent er ver t i cal and hor i zont al gr at i cul e l i nes i R ot at e t he DELAY TI M E M UL TI PL I ER kno b cl oc kwi se so t h e next adj acent t i m e m ar k l eadi ng edge i nt er sect s t he sam e poi nt on t he cent er ver t i cal and h or i zont al gr at i cul e l...

Page 365: ...m e m ar k s i nt er sect s t he cent er ver t i cal gr at i cul e l i ne Not e t h e DTM di al r eadi ng j R ot at e t he DTM d i al t o exact l y 8 m aj or di vi si ons above t h e r eadi ng not e d i n st ep i k ADJ UST C740A t o al i gn t h e cl osest t i m e m ar k wi t h t h e cent er ver t i cal gr at i cul e l i ne 1 Rot at e t h e DTM d i al bac k t o t he or i gi nal di al r eadi ng not ...

Reviews: