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7/25/2019 EC-II LAB MANUAL(2013-2014)-1
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
EC 2257- ELECTRONIC CIRCUITS II AND SIMULATION LAB
LABORATORY MANUAL
FOR FOURTH SEMESTER B.E (ECE)
(PRIVATE CIRCULATION ONLY)
ACADEMIC YEAR 2013-2014
ANNA UNIVERSITYCHENNAI-!00025
DEPARTMENT OF ELECTRONICS AND COMMUNICATION EN"INEERIN"DR.NAVALAR NEDUNCHE#HIYAN COLLE"E OF EN"INEERIN"
THOLUDUR !0! 303 CUDDALORE DIST.
1
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UNIVERSITY PRACTICAL E$AMINATION
A%%&'*' &+ M,/
Internal assessment = 20marks
Practcal e!amnat"n =
#0
marks
-------------------
---
$"tal =
100
marks
-------------------
---
INTERNAL ASSESSMENT (20 MARS)
S',++ /&% ,*',* ' ,////*' /' ,* ' H, &+ ' D6,'*' /&%&*'& '.
S6%' 6 &+ *'*,% ,/
%ec"r =10marks
M"el e!am = ' marks
Attenance = ' marks
-------------------
---
$"tal =
20
marks-------------------
---
UNIVERSITY E$AMINATION
T , 8%% 9 :&*:' +& 100 ,/. T* ' ,/ 8%% 9 :,%:%,' '& ;0,/
S6%' 6 &+ 6,:':,% ,*,'&* ,/
Am an Pr"ce(re =
2'
marks
Pr")ram =
*0
marks
E!ec(t"n =
*0
marks
%es(lt =
0'
marks
V+a +"ce =
10
marks
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-------------------
---
$"tal =
100
marks
-------------------
--
2
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
"ENERAL INSTRUCTIONS FOR LABORATORY CLASSES
& E*' ' L,9 8' CLOSED FOOTTUC IN? ' /'/.& S'*'/ /&% 8, *+& &*%=.
& LON" HAIR /&% 9 6&':' %' ' *&' 9 %&&/ /6:,%%= *, ROTATIN"MACHINERY.
& A*= &' ,:*/ @ 6*'/ /&% *&' 9 &6,' &' ',* '6/:9 &* +& ',' ,=.
& PO
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
LIST OF E$PERIMENTS
DESI"N OF THE FOLLO
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CONTENTS
S.NO LIST OF E$PERIMENTS
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01
RC PHASE SHIFT OSCILLATOR
!
02
CURRENT SERIES FEEDBAC AMPLIFIER
30
10
VOLTA"E SERIES FEEDBAC AMPLIFIER
33
11SECOND ORDER LO< PASSBUTTER
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1#
CMOS INVERTER
57
1>
CMOS NOR
!0
20 CMOS NAND !3
21
DI"ITAL TO ANALO" CONVERTER
!!
BEYOND THE SYLLABUS
22 I*'* N&*-I*'* D++*',% A6%+/
!7
2* D++*',% A6%+ U/* BGT
2; C%,// B C&6%*',= S='= P&8
A6%+
2'C,/:, A6%+
'
Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 1
T'% &+ ' E:/ RC PHASE SHIFT OSCILLATOR
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" es)n a %C ,ase s,t "scllat"r an t" "ser+e ts "(t(t 7a+e"rm.
FACILITIES REUIRED AND PROCEDURE1) FACILITIES REUIRED TO DO THE E$PERIMENT
S.N: APPA%A$?S SPECIICA$I:N @?AN$I$
1. :PAMP IC; 1
2. %esst"rs 1.24 *4Eac,1
1*4*412.'
*. Caact"rs 0.1 *
;. %PS 12V 1
' C%: 1M6F 1
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9) DESI"N PROCEDURE
re(enc3 " "scllat"r =1//2G%C. Ass(me C an n % t" re+ent l"an) " t,e amler 3 %C net7"rk%1H10%.
:) THEORY
$,e amler sta)e s sel ase 7t, a caact"r 3 asse s"(rce resst"r 8%s9
an ran as resst"r 8%9. t,e e!ress"n "r +"lta)e )an " t,e amler s )+en 3 A+=)m. rl. $,e eeack net7"rk c"nssts " t,ree entcal %C sect"ns. Eac, sect"n
r"(ces a ,ase s,t "
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
5) CIRCUIT DIA"RAM
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6) MODEL "RAPH
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7) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
RESULT
$,(s t,e %C ,ase s,t "scllat"r 7as es)ne an ts "(t(t 7a+e"rm 7as +ere.
VIVA UESTIONS
1. 5,at s amlerJ
Amler s a e+ce 7,c, s (se t" amlcat"n (r"se.
2. 5,at s amlcat"nJ
A l"7 stren)t, s)nal s c"n+erte nt" stren)t,en s)nal e9 ""st ( r"cess
3. Lst t,e sa+anta)es " %c ,ase s,t :scllat"r. 8"r95,at are t,e merts " %c ,ase s,t :scllat"r.1. It s eal "r re(enc3 aK(stment "+er a 7e ran)e.
2. It re(res a ,), transst"r t" "+erc"me l"sses n t,e net7"rk.
4. 5,at s t,e erence et7een amler an "scllat"r/
Amler s 7"rkn) n t,e ne)at+e eeack 7,le "scllat"r 7"rkn) n t,e "st+eeeack.
#
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E:/ N9 2
T'% &+ ' E:/
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5) CIRCUIT DIA"RAM
6) MODEL "RAPH
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10
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7) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
8) RESULT
$,(s t,e 5en r)e "scllat"r 7as es)ne an ts "(t(t 7a+e"rm 7as +ere.
VIVA UESTIONS
1.
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E:/ N9 3
T'% &+ 'E:/ COLPITTS OSCILLATOR
D,' &+ '
E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" es)n a C"ltts "scllat"r an t" "ser+e ts "(t(t 7a+e"rm.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S.N: APPA%A$?S SPECIICA$I:N @?AN$I$
1. $ransst"r BC 10 12. %esst"rs 11.
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12
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3) CIRCUIT DIA"RAM COLPITTS OSCILLATOR
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4) MODEL "RAPH
1*
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5) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
6) RESULT
$,(s t,e C"ltts "scllat"r 7as es)ne an ts "(t(t 7a+e"rm 7as +ere.
VIVA UESTIONS
1.
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E:/ N9 4
T'% &+ ' E:/ HARTLEY OSCILLATOR
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" es)n a 6artle3 "scllat"r an t" "ser+e ts "(t(t 7a+e"rm.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S.N: APPA%A$?S SPECIICA$I:N @?AN$I$
1. $ransst"r BC 10 12. %esst"rs 2.; 4 14241
1.
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4) CIRCUIT DIA"RAM HARTLEY OSCILLATOR
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5) MODEL "RAPH
1
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6) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
7) RESULT
$,(s t,e 6artle3 "scllat"r 7as es)ne an ts "(t(t 7a+e"rm 7as +ere.
VIVA UESTIONS
1.
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E:/ N9 5
T'% &+ ' E:/ ASTABLE MULTIVIBRATOR
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" test astale m(lt+rat"r an t" "ser+e t,e t7" (as-stale states.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S. NO. COMPONENTS RAN"E UANTITY
1 Brea"ar - 1
2 %esst"rs 100k4 2k 2eac,
* Caact"rs 0.01T 2
; $ransst"r BC10 1
' C%: 0-*0M6F 1
< %PS 0-*0V 1
2) THEORY
Astale m(lt+rat"r c"nssts " t7" c"mm"n emtter aml3n) sta)es.5,en t,e .
c. "7er s(l3 s s7tc,e :N 8t=09 "ne " t,e transst"r 7ll start c"n(ctn) m"re t,an t,e"t,er (e t" s"me malance n crc(t. $,en eca(se " t,e "t,er (e t" s"me "st+e
eeack4 t,e transst"r @1 7ll e r+en nt" sat(rat"n an @2 t" c(t ". $,(s at t0 @1 s:N an @2 s :. D(rn) t04 caact"r C1 s c,ar)n) an VB2 ncreases. As t ncreasesa"+e c(t-n-+"lta)e4 @2 starts c"n(ctn) at tt1. As t,e transst"r @2 )"es nt" sat(rat"n4VC alls t" VCE8sat9. $,(s at tt14 @1 s : an @2 s :N. D(rn) tt14 VB1 rsese!"nentall3 7t, tme c"nstant. At $=t24 VB1 reac,es c(tn le+el an a re+erse transt"ntake lace. It s (se t" )enerate s(are 7a+e"rm.
3) PROCEDURE1. $,e c"m"nents are c"nnecte as er t,e crc(t a)ram.2. $,e DC s(l3 s s7tc,e :N.
3. $,e "(t(t +"lta)e an t,e tme er" s meas(re acr"ss transst"rs $1 an $2 at
"t, t,e ase an t,e c"llect"r.4. $,e "(t(t 7a+e s l"tte n t,e )ra,.
1#
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
4) CIRCUIT DIA"RAM ASTABLE MULTIVIBRATOR
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5) MODEL "RAPH
1
>
Dr.NNCE ECE / IV SEM EC II & S LAB - LM
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6) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
7) RESULT
$,(s t,e Astale m(lt+rat"r 7as es)ne an ts "(t(t 7a+e"rm 7as
+ere.
VIVA UESTIONS
1.
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E:/ N9 !
T'% &+ ' E:/ MONOSTABLE MULTIVIBRATORD,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" test a m"n"stale m(lt+rat"r an t" "ser+e t,e t7" (as-stale states.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S. NO. COMPONENTS RAN"E UANTITY
1 Brea"ar - 1
2 %esst"rs *k4 1k4 2#0k4 22k4 1 eac,
1.'k
* Caact"rs 1n 2
; $ransst"r BC10 1
' D"e 1N;00 1
< C%: 0-*0M6F 1
%PS 0-*0V 1
2) THEORY
M"n"stle m(lt+rat"r s als" calle as "ne s,"t "r (n+rat"r an can e (se t"
)enerate a )atn) (lse4 7,"se 7t, can e c"ntr"lle. $,e m"n"stale m(lt+rat"r
r"+es a sn)le (lse " esre (rat"n n res"nse t" an e!ternal tr))er. $,e e!ternaltr))er ca(ses t,e crc(t t" )" t" t,e (as stale state. Ater a certan nter+al " tme4 t,ecrc(t ret(rns t" ts "r)nal state. It c"nssts " t7" NPN transst"rs. In t,s case4 7,en a
(lse s ale t" t,e n(t crc(t4 t,e crc(t state s c,an)e ar(tl3 t" (nstale state "r aetermne tme ater 7,c, t,e crc(t ret(rne t" ts "r)nal state a(t"matcall3. $,e t7""(t(ts are t,e c"mlement " eac, "t,er .e 7,en "ne " t,e "(t(t s at VCC le+el4 t,e "t,ers at VCE8sat9 le+el. $,e m"n"stale m(lt+rat"rs are (se "r t,e )enerat"n " 7ellene (lses4 t,e l")c es)n " (lse ela34 +arale (lse 7t,4 etc. $,e 7t, "r(rat"n " t,e (lse "tane at t,e c"llect"r "r "(t(t " et,er transst"r " t,e m"n"stalem(lt+rat"r s )+en 3 t,e e!ress"n t=0. %C.
3) PROCEDURE
1. $,e c"m"nents are c"nnecte as er t,e crc(t a)ram.
2. $,e "(t(t s meas(re at t,e c"llect"r termnals " t,e t7" transst"rs.
3. $,e re(re "(t(t +"lta)es an t,e t"tal tme er" s n"te.
4. $,e "(t(t 7a+e s l"tte n t,e )ra,.
21
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
4) CIRCUIT DIA"RAM MONOSTABLE MULTIVIBRATOR
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5) TRI""ER "ENERATION
22
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6) TABULATION
Amlt(e8V"lts9 $me8ms9 re(enc3 86F9
7) RESULT
$,(s t,e M"n"stale m(lt+rat"r 7as es)ne an ts "(t(t 7a+e"rm 7as+ere.
VIVA UESTIONS
1. D+* &*&/',9% %'9,'&.
5,en a tr))er (lse s ale t" t,e n(t crc(t4 t,e crc(t state s c,an)ear(tl3 t" (nstale state "r a reetermne tme ater 7,c, t,e crc(t ret(rne t" ts"r)nal stale state a(t"matcall3.
2. D+* *','&.
Inte)rat"r s a crc(t t,at asses l"7 re(ences " t,e n(t an atten(ates ,),re(ences. Inte)rat"r mles t,at t,e "(t(t +"lta)e s an nte)ral " t,e n(t +"lta)e.
3.
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E:/ N9 7
T'% &+ ' E:/ BISTABLE MULTIVIBRATORD,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" test a Bstale m(lt+rat"r an t" "ser+e t,e t7" (as-stale states.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S. NO. COMPONENTS RAN"E UANTITY
1 Brea"ar - 1
2 %esst"rs *k4 1k4 2#0k4 22k4 1 eac,
1.'k* Caact"rs 1n 2
; $ransst"r BC10 1
' D"e 1N;00 1
< C%: 0-*0M6F 1
%PS 0-*0V 1
2) THEORY
Bstle m(lt+rat"r s als" calle as "ne s,"t "r (n+rat"r an can e (se t"
)enerate a )atn) (lse4 7,"se 7t, can e c"ntr"lle. $,e stale m(lt+rat"r r"+es a
sn)le (lse " esre (rat"n n res"nse t" an e!ternal tr))er. $,e e!ternal tr))er ca(sest,e crc(t t" )" t" t,e (as stale state. Ater a certan nter+al " tme4 t,e crc(t ret(rns t"ts "r)nal state. It c"nssts " t7" NPN transst"rs. In t,s case4 7,en a (lse s ale t"t,e n(t crc(t4 t,e crc(t state s c,an)e ar(tl3 t" (nstale state "r a etermne tmeater 7,c, t,e crc(t ret(rne t" ts "r)nal state a(t"matcall3. $,e t7" "(t(ts are t,ec"mlement " eac, "t,er .e 7,en "ne " t,e "(t(t s at VCC le+el4 t,e "t,er s at VCE8sat9le+el. $,e stale m(lt+rat"rs are (se "r t,e )enerat"n " 7ell ene (lses4 t,e l")ces)n " (lse ela34 +arale (lse 7t,4 etc. $,e 7t, "r (rat"n " t,e (lse "tane att,e c"llect"r "r "(t(t " et,er transst"r " t,e stale m(lt+rat"r s )+en 3 t,ee!ress"n t=0. %C.
3) PROCEDURE1. $,e c"m"nents are c"nnecte as er t,e crc(t a)ram.2. $,e "(t(t s meas(re at t,e c"llect"r termnals " t,e t7" transst"rs.
3. $,e re(re "(t(t +"lta)es an t,e t"tal tme er" s n"te.
4. $,e "(t(t 7a+e s l"tte n t,e )ra,.
2;
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4) CIRCUIT DIA"RAM BISTABLEMULTIVIBRATOR
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5) MODEL "RAPHV
Vce(sat) Output Vc2
Vce(sat) Output Vc1
Vbe(sat)
Output Vb2
Vbe(sat)
Output Vb1
Time (s)
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2'
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6) RESULT
$,(s t,e Bstale m(lt+rat"r 7as es)ne an ts "(t(t 7a+e"rm 7as +ere.
VIVA UESTIONS
1. D+* ' B/',9% %'9,'&.
Bstale m(lt+rat"r s)nes a crc(t 7,c, can e!st nentel3 n et,er " t7"stale states an 7,c, can e n(ce t" make an ar(t transt"n r"m "ne state t" "t,er 3al3n) an e!ternal tr))ern) s)nal.
2. D+* /&%* '.
It s t,e mnm(m tme nter+al et7een t7" c"nsec(t+e tr))er (lses an e(als t"transt"n tme l(s t,e settln) tme.
3.
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E:/ N9 ;
T'% &+ ' E:/ CLASS C SIN"LE TUNED AMPLIFIER
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT$" es)n an n t,e re(enc3 res"nse " class c sn)le t(ne amler.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
S. NO. COMPONENTS RAN"E UANTITY
1 Brea"ar - 1
2 %esst"rs 1k4;.k410k 1 eac,
* Caact"rs 1n40.01m40.1 m 2
; $ransst"r BC10 1
' C%: 0-*0M6F 1< %PS 0-*0V 1
2) THEORY
In class C amler4 t,e "(t(t c(rrent l"7s "nl3 "r "ne ,al " t,e c3cle " t,e
n(t s)nal. $,e transst"r ssates n" "7er 7t, Fer" n(t s)nal. $,e a+era)e c(rrentra7n 3 t,e crc(t n class C s smaller t,an t,at n class A. C"mlementar3 s3mmetr3amler re(res net,er an n(t n"r an "(t(t trans"rmer. $,s arran)ement (sestransst"rs ,a+n) c"mlementar3 s3mmetr3 n t,e emtter "ll"7er c"n)(rat"n. $,e term
Uc"mlementar3 means t,at t (ses t7" entcal transst"rs "ne NPN an t,e "t,er PNP. $,eterm Us3mmetr3 means t,at asn) resst"rs are e(al. $,s amler crc(t ,as a (nt3 )an
eca(se " t,e emtter "ll"7er c"n)(rat"n. M"re"+er t,ere s n" ,ase n+ers"n " t,e"(t(t s)nal. $,e slt s(l3 (se n t,e crc(t )+es (s an a+anta)e t,at t,e c c"m"nent" t,e "(t(t +"lta)e can e mae Fer". $,(s t,e "nl3 ac c"m"nent " t,e "7er s a+alaleacr"ss t,e l"a resst"r.
3) PROCEDURE
1. $,e c"m"nents are c"nnecte as s,"7n n t,e crc(t a)ram.
2. $,e n(t +"lta)e s )+en (sn) (nct"n )enerat"r.
3. $,e l"a resstance s +are (sn) t,e ecae resstance "! an "(t(t +"lta)e smeas(re an rean)s are ta(late
2
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4) CIRCUIT DIA"RAM CLASS C SIN"LE TUNED AMPLIFIER
5) MODEL "RAPH
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2#
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Dr.NNCE ECE / IV SEM
6) TABULATION
S%. I*6' I*6'O'6
'
N&. +*:= V&%',
V&%',
(H) (V) (V)
EC II & S LAB - LM
V&%', ,*V
V =20l") o
gain
V
i
7) RESU
LT
$,(st,e Class Csn)le t(neamler7ases)ne ants re(enc3res"nse 7as"ser+e
VIVA
UESTIONS
1. cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
;'
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3) CIRCUIT DIA"RAM ASTABLE MULTIVIBRATOR SYMMETRICAL
V1
8V
0
Rc1
1k
R
2 R1
R
c
2
36
K 36K
1
k
C1 C2
Vc1
Vc
2
0.01U 0.01U
.2
.
2
2
Vb1 Vb2
SMBT2222A/SIE
SMBT2222A/
SIE
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0 0
Analysis type: Time domain transient
Run to time: 5ms
Maximum step size: 0.2us
4) MODEL "RAPH
V
Vce(sat)
Output Vc2
Vce(sat)
Output Vc1
Vbe(sat)
Output Vb2
Vbe(sat) Output Vb1
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Time(s)
;
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5) RESULT
$,(s t,e astale m(lt+rat"r8s3mmetrcal9 crc(t 7as sm(late (sn) :%CADcat(re an ts "(t(t 7a+e"rm 7as "tane.
VIVA UESTIONS
1.
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E:/ N9 15
T'% &+ ' E:/ ASTABLE MULTIVIBRATOR ASYMMETRICAL
D,' &+ ' E:/ OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " astale m(lt+rat"r8As3mmetrcal9 3 (sn):%CAD cat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram
2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
;#
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3) CIRCUIT DIA"RAM ASTABLE MULTIVIBRATOR- ASYMMETRICAL
V1
8V
0
Rc1
1k
R
2 R1
R
c
2
4
3
K 28K
1
k
C1 C2
Vc1
V
c
2
0.01U 0.01U
.2
.
2
2
Vb1 Vb2
SMBT2222A/SIE
SMBT2222A/
SIE
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0 0
Analysis type: Time domain transient
Run to time: 5ms
Maximum step size: 0.2us
4) MODEL "RAPH
V
Vce(sat)
Vce(sat)
Output Vc2
Output Vc1
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Vbe(sat)
V
b
e
(
s
a
t
)
O u
t
Dr.NNCE ECE / IV SEM EC II & S LAB - LM
5) RESULT
$,(s t,e astale m(lt+rat"r8as3mmetrcal9 crc(t 7as sm(late (sn) :%CADcat(re an ts "(t(t 7a+e"rm 7as "tane.
VIVA UESTIONS
1.
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'0
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 1!
T'% &+ ' E:/ MONOSTABLE MULTIVIBRATOR
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " M"n"stale m(lt+rat"r 3 (sn) :%CADcat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram
2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
'1
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
3) CIRCUIT DIA"RAM MONOSTABLE MULTIVIBRATOR
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4) MODEL "RAPH
V
Vce(sat) Output Vc2
Vce(sat) Output Vc1
Vbe(sat)
Output Vb1
Vbe(sat)
Output Vb2
Time (s)
'2
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
5) RESULT
$,(s t,e m"n"stale m(lt+rat"r crc(t 7as sm(late (sn) :%CAD cat(re ants "(t(t 7a+e"rm 7as "tane.
VIVA UESTIONS
1. D+* /&*,*:.
$,e reactance " t,e caact"r e(als t,at " t,e n(ct"r reactance..e C. = 1 / L.
2.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 17
T'% &+ ' E:/ BISTABLE MULTIVIBRATOR
D,' &+ ' E:/
OBGECTIVE (AIM) OF THE E$PERIMENT$" sm(late an "tan t,e "(t(t 7a+e"rm " stale m(lt+rat"r 3 (sn) :%CADcat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
';
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3) CIRCUIT DIA"RAM BISTABLE MULTIVIBRATOR
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4) MODEL "RAPH
V
Vce(sat) Output Vc2
Vce(sat) Output Vc1
Vbe(sat)
Output Vb2
Vbe(sat)
Output Vb1
Time (s)
''
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
5) RESULT
$,(s t,e Bstale m(lt+rat"r crc(t 7as sm(late (sn) :%CAD cat(re an ts
"(t(t 7a+e"rm 7as "tane.
VIVA UESTIONS
1.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 1;
T'% &+ '
E:/ CMOS INVERTERD,' &+ '
E:/
OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " cm"s n+erter 3 (sn) :%CAD cat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram
2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
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'
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
3) CIRCUIT DIA"RAM CMOS INVERTER
DSTM1
Offtime=0,us
CLK
On time=0,usIN
PU
T
5v
V1
0
M1
M!"#k$
OUTPU
T
M2
M!"#k% Ana!ysistype"Time
/omain
(transien
t) Run to
time=001
ms
0$a%imumstepsi'e=02ms
) MODEL
V
1 0
0 1
nput
0
1
1
Output
Time(s)
) RESULT
$,(s t,e CM:SIn+erter crc(t 7as sm(late(sn) :%CAD cat(re an ts"(t(t 7a+e"rm 7as"tane.
'#
Dr.NNCE ECE / IV SEM EC II & S LAB - LM
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VIVA UESTIONS
1. M*'&* ' ,66%:,'&*/ &+ :%,// J:K '* ,6%+.
:ne " t,e m"st c"mm"n alcat"ns "r m!er s n ra" rece+ers. $,e m!er s
(se t" c"n+ert nc"mn) s)nal t" a l"7er re(enc3 7,ere t s easer t" "tan t,e ,),)an an select+t3 re(re.
M!er crc(ts are (se t" translate s)nal re(enc3 t" s"me l"7er re(enc3 "r t"s"me ,),er re(enc3. 5,en t s (se t" translate s)nal t" l"7er re(enc3 t s calle"7n c"n+erter. 5,en t s (se t" translate s)nal t" ,),er re(enc34 t s calle (c"n+erter.
2. M*'&* ' * +& /',-'* ,6%+.
$,e "(le t(ne amler )+es )reater * an7t, ,a+n) steeer ses anlat
t". B(t al)nment " "(le t(ne amler s c(lt. $" "+erc"me t,s r"lem t7"sn)le t(ne amlers are cascae.
3.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 1
T'% &+ ' E:/ CMOS NOR
D,' &+ ' E:/ OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " CM:S N:% 3 (sn) :%CAD cat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
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3) CIRCUIT DIA"RAM CMOS NOR
V1
M1 5V
M!"#k$
O time!"us
DSTM1
On time!"us CLK
0
Input A
M2
M!"#k$
O time!0.5us DSTM2CLK
On time!0.5us
Input #M
4 Output
M3
M!"
#k%
M!"#k%
0
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Analysis type:Time domain
$transient%
0 Run to time!0.0"ms
Maximum step size!0.2us
4) MODEL "RAPH
V
Input A
0 0 " " 0 0 " " 0 0
Input # 0 " 0 " 0 " 0 " 0 "
Output
" 0 0 0 " 0 0 0 " 0
Time(s)
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
5) RESULT
$,(s t,e CM:S N:% crc(t 7as sm(late (sn) :%CAD cat(re an ts "(t(t
7a+e"rm 7as "tane.
VIVA UESTIONS
1.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 20
T'% &+ ' E:/ CMOS NAND
D,' &+ ' E:/ OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " CM:S NAND 3 (sn) :%CAD cat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
3) CIRCUIT DIA"RAM CMOS NAND
M4 M5
V2
5V
DSTM3CLK
M!"#k$
M!"#k
$
O time!"us
0
On time!"us
Input A
Output
M6
M!"#k%
M7
O time!0.5usDSTM4
On time!0.5us CLK
Input # M!"#k%
0
Analysis type:Time domain
$transient%
Run to time!0.0"ms
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Maximum step size!0.2us
4) MODEL "RAPH
V
Input A
Input #
Output
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0 0 " " 0 0 " " 0 0
0 " 0 " 0 " 0 " 0 "
0 0 0 " 0 0 0 " 0 0
Time(s)
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
E:/ N9 21
T'% &+ ' E:/ DI"ITAL TO ANALO" CONVERTER
D,' &+ ' E:/ OBGECTIVE (AIM) OF THE E$PERIMENT
$" sm(late an "tan t,e "(t(t 7a+e"rm " )tal t" anal") c"n+erter 3 (sn) :%CADcat(re.
FACILITIES REUIRED AND PROCEDURE
1) FACILITIES REUIRED TO DO THE E$PERIMENT
:%CAD cat(re
2) PROCEDURE
1. Start t,e r")ram
2. Select t,e :%CAD release > cat(re CIS
3. X" t" ne7 an select r"Kect
4. Create t,e ttle " t,e r"Kect
5. Dra) t,e elements as er t,e crc(t a)ram re(rement.
6. Make c"nnect"ns as er t,e crc(t a)ram (sn) 7re c"n.
7. Create t,e ne7 sm(lat"n
8. Set t,e "(t(t le+el settn).
9. Place t,e +"lta)e markers n n(t an "(t(t m"e.
10. %(n t,e crc(t a)ram an rnt t,e "(t(t.
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Dr.NNCE ECE / IV SEM EC II & S LAB - LM
3) CIRCUIT DIA"RAM
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4) MODEL "RAPH
&
Input 0 0 0 0 0 0 0 0
1 1 1 1 1 1 1 1
0 0
#0
Input 0 0 0 0
1 1 1 1
0 0 0 0
1 1 1 1
0 0
#"
Input 0 0
1 1
0 0
1 1
0 0
1 1
0 0
1 1
0 0
#2
Input 0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1#'
Output
Time(s)
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2.