8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 145

CMR ENGINEERING COLLEGE

A PROPOSAL TOWARDS LAB

IMPROVEMENT FOR FUTURE TRENDS

(LIFT PROGRAMME)

IC Applications Lab Lift Planner

By

TSATYANARAYANA

AsstProf ECE Dept

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 245

IC Applications LAB

1 Objective Re$evce

Scampe

Pee+iite

S-$$b+

Lb Sce+$e

0 S+ete Bampamp2

3 Webite

4 E5et6 Deti$

7 Mi amp8 Lb 9it PampjectCamp+$tc-RD

1lt I+ti$ Viit

11 Samp9 Eieei

1 C$ibtiamp= Teti Iectiamp

1 Pevetive Mitece Sce+$e

1 Tamp+b$eampampti

1 OBECTIES AND RELEANCE

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 345

Te gti ampbjective amp8 ti $b camp+e i tamp i te ctic$ amp

e5eiece b- e5ampi te t+et tamp viamp+ $ie IC $ictiamp Te t+et

9i$$ ve +eti amp8 te campcet ivamp$ve i viamp+ Lie Diit$

itete cic+it tei viamp+ $ictiamp

Tamp+ ti $b te t+et 9i$$ et tampamp+ +eti amp8 viamp+ $ie

IC 8i$$- ti $b itamp+ce ampgte TTL IC(3LS eie) 8amp iit$ cic+it

$ictiamp= te 31 ampetiamp$ gt$i8ie= tigte it viamp+ $ictiamp

Te $b $amp itamp+ce viamp+ vamp$te e+$tamp

SCOPE

Ti $b i gtampe +e8+$ i Ueti amp8 Lie Diit$ IC A$ictiamp

Ueti te $ictiamp amp8 IC6 i camp+gte e$ectampic i+tie tamp

gt+8ct+e te e$ectampic $ice

PRERE$ISITES

Teampetic$ 2amp9$ee amp +bject Itete Cic+it A$ictiamp $amp e+ie

te 9ee amp8 viamp+ iit$ e$ectampic $amp e$ectampic $i2e e$ectampic

evice cic+it= +$e iit$ cic+it= +gtbei -tegt campgtbitiamp$

e+eti$ cic+it

PREAampBLE

This lab covers the experiments in Integrated Circuit Applications subject The JNTU

has given 17 experiments and divided in to 2 parts in the syllabus out of hich

minimum 12 experiments have to be conducted 6 from each part

PART 1

( SYLLABSNT

NITI

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 445

Namp e5eigtet i ti +it e -$$b+

NIT )II

EPERIampENT NO 1

Ae= S+btctamp Campgttamp +i IC 31 OAgt

OBECTIE

Tamp t+- te $ictiamp amp8 IC 31 e= +btctamp campgttamp

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Ae= S+btctamp= Campgttamp

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 campgttamp

APPLICATIONS

Te $ictiamp amp8 campgttamp e

1 eamp campi etectamp

Wiamp9 etectamp

Tigte gt2e eetamp

Pe gtete

EPERIampENT NO

Itetamp Di88eetitamp Cic+it +i IC 31

OBECTIE

Tamp ei vei8- te ampetiamp amp8 itetamp i88eetitamp 8amp ive i+t

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 itetamp i88eetitamp 8amp ive i+t

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 545

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and

differentiator

APPLICATIONS

1 Te i88eetitamp +e i 9ve i cic+it tamp etect i 8e+ec- campgtampet i

i+t i$ $amp teamp8 ce etectamp i FM egtamp+$tamp

Te itetamp i +e i $amp campgt+te $amp tamp iit$ campvete i$

9ve i cic+it

EPERIampENT NO

Scgtitt tie cic+it +i IC 31 IC

OBECTIE

Tamp ei te Scgtitt tie cic+it +i IC 31 IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =

Oetiamp amp8 IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Scgtitt tie

Gic$ etegtitiamp amp8 UTP LTP amp8 te Scgtitt tie

APPLICATIONS

1 Scgtitt tie e t-ic$$- +e i ampe $ampamp camp8i+tiamp 8amp ampie igtgt+it-

c$ampe $ampamp camp8i+tiamp tamp igt$egtet 8+ctiamp eetamp

EPERIampENT NO (

Vamp$te Re+$tamp +i IC 3

OBECTIE

Tamp ei $amp9 vamp$te vib$e e+$tamp amp8 tamp 3V +i IC 3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 3 = Oetiamp amp8

IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 245

IC Applications LAB

1 Objective Re$evce

Scampe

Pee+iite

S-$$b+

Lb Sce+$e

0 S+ete Bampamp2

3 Webite

4 E5et6 Deti$

7 Mi amp8 Lb 9it PampjectCamp+$tc-RD

1lt I+ti$ Viit

11 Samp9 Eieei

1 C$ibtiamp= Teti Iectiamp

1 Pevetive Mitece Sce+$e

1 Tamp+b$eampampti

1 OBECTIES AND RELEANCE

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 345

Te gti ampbjective amp8 ti $b camp+e i tamp i te ctic$ amp

e5eiece b- e5ampi te t+et tamp viamp+ $ie IC $ictiamp Te t+et

9i$$ ve +eti amp8 te campcet ivamp$ve i viamp+ Lie Diit$

itete cic+it tei viamp+ $ictiamp

Tamp+ ti $b te t+et 9i$$ et tampamp+ +eti amp8 viamp+ $ie

IC 8i$$- ti $b itamp+ce ampgte TTL IC(3LS eie) 8amp iit$ cic+it

$ictiamp= te 31 ampetiamp$ gt$i8ie= tigte it viamp+ $ictiamp

Te $b $amp itamp+ce viamp+ vamp$te e+$tamp

SCOPE

Ti $b i gtampe +e8+$ i Ueti amp8 Lie Diit$ IC A$ictiamp

Ueti te $ictiamp amp8 IC6 i camp+gte e$ectampic i+tie tamp

gt+8ct+e te e$ectampic $ice

PRERE$ISITES

Teampetic$ 2amp9$ee amp +bject Itete Cic+it A$ictiamp $amp e+ie

te 9ee amp8 viamp+ iit$ e$ectampic $amp e$ectampic $i2e e$ectampic

evice cic+it= +$e iit$ cic+it= +gtbei -tegt campgtbitiamp$

e+eti$ cic+it

PREAampBLE

This lab covers the experiments in Integrated Circuit Applications subject The JNTU

has given 17 experiments and divided in to 2 parts in the syllabus out of hich

minimum 12 experiments have to be conducted 6 from each part

PART 1

( SYLLABSNT

NITI

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 445

Namp e5eigtet i ti +it e -$$b+

NIT )II

EPERIampENT NO 1

Ae= S+btctamp Campgttamp +i IC 31 OAgt

OBECTIE

Tamp t+- te $ictiamp amp8 IC 31 e= +btctamp campgttamp

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Ae= S+btctamp= Campgttamp

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 campgttamp

APPLICATIONS

Te $ictiamp amp8 campgttamp e

1 eamp campi etectamp

Wiamp9 etectamp

Tigte gt2e eetamp

Pe gtete

EPERIampENT NO

Itetamp Di88eetitamp Cic+it +i IC 31

OBECTIE

Tamp ei vei8- te ampetiamp amp8 itetamp i88eetitamp 8amp ive i+t

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 itetamp i88eetitamp 8amp ive i+t

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 545

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and

differentiator

APPLICATIONS

1 Te i88eetitamp +e i 9ve i cic+it tamp etect i 8e+ec- campgtampet i

i+t i$ $amp teamp8 ce etectamp i FM egtamp+$tamp

Te itetamp i +e i $amp campgt+te $amp tamp iit$ campvete i$

9ve i cic+it

EPERIampENT NO

Scgtitt tie cic+it +i IC 31 IC

OBECTIE

Tamp ei te Scgtitt tie cic+it +i IC 31 IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =

Oetiamp amp8 IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Scgtitt tie

Gic$ etegtitiamp amp8 UTP LTP amp8 te Scgtitt tie

APPLICATIONS

1 Scgtitt tie e t-ic$$- +e i ampe $ampamp camp8i+tiamp 8amp ampie igtgt+it-

c$ampe $ampamp camp8i+tiamp tamp igt$egtet 8+ctiamp eetamp

EPERIampENT NO (

Vamp$te Re+$tamp +i IC 3

OBECTIE

Tamp ei $amp9 vamp$te vib$e e+$tamp amp8 tamp 3V +i IC 3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 3 = Oetiamp amp8

IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 345

Te gti ampbjective amp8 ti $b camp+e i tamp i te ctic$ amp

e5eiece b- e5ampi te t+et tamp viamp+ $ie IC $ictiamp Te t+et

9i$$ ve +eti amp8 te campcet ivamp$ve i viamp+ Lie Diit$

itete cic+it tei viamp+ $ictiamp

Tamp+ ti $b te t+et 9i$$ et tampamp+ +eti amp8 viamp+ $ie

IC 8i$$- ti $b itamp+ce ampgte TTL IC(3LS eie) 8amp iit$ cic+it

$ictiamp= te 31 ampetiamp$ gt$i8ie= tigte it viamp+ $ictiamp

Te $b $amp itamp+ce viamp+ vamp$te e+$tamp

SCOPE

Ti $b i gtampe +e8+$ i Ueti amp8 Lie Diit$ IC A$ictiamp

Ueti te $ictiamp amp8 IC6 i camp+gte e$ectampic i+tie tamp

gt+8ct+e te e$ectampic $ice

PRERE$ISITES

Teampetic$ 2amp9$ee amp +bject Itete Cic+it A$ictiamp $amp e+ie

te 9ee amp8 viamp+ iit$ e$ectampic $amp e$ectampic $i2e e$ectampic

evice cic+it= +$e iit$ cic+it= +gtbei -tegt campgtbitiamp$

e+eti$ cic+it

PREAampBLE

This lab covers the experiments in Integrated Circuit Applications subject The JNTU

has given 17 experiments and divided in to 2 parts in the syllabus out of hich

minimum 12 experiments have to be conducted 6 from each part

PART 1

( SYLLABSNT

NITI

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 445

Namp e5eigtet i ti +it e -$$b+

NIT )II

EPERIampENT NO 1

Ae= S+btctamp Campgttamp +i IC 31 OAgt

OBECTIE

Tamp t+- te $ictiamp amp8 IC 31 e= +btctamp campgttamp

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Ae= S+btctamp= Campgttamp

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 campgttamp

APPLICATIONS

Te $ictiamp amp8 campgttamp e

1 eamp campi etectamp

Wiamp9 etectamp

Tigte gt2e eetamp

Pe gtete

EPERIampENT NO

Itetamp Di88eetitamp Cic+it +i IC 31

OBECTIE

Tamp ei vei8- te ampetiamp amp8 itetamp i88eetitamp 8amp ive i+t

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 itetamp i88eetitamp 8amp ive i+t

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 545

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and

differentiator

APPLICATIONS

1 Te i88eetitamp +e i 9ve i cic+it tamp etect i 8e+ec- campgtampet i

i+t i$ $amp teamp8 ce etectamp i FM egtamp+$tamp

Te itetamp i +e i $amp campgt+te $amp tamp iit$ campvete i$

9ve i cic+it

EPERIampENT NO

Scgtitt tie cic+it +i IC 31 IC

OBECTIE

Tamp ei te Scgtitt tie cic+it +i IC 31 IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =

Oetiamp amp8 IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Scgtitt tie

Gic$ etegtitiamp amp8 UTP LTP amp8 te Scgtitt tie

APPLICATIONS

1 Scgtitt tie e t-ic$$- +e i ampe $ampamp camp8i+tiamp 8amp ampie igtgt+it-

c$ampe $ampamp camp8i+tiamp tamp igt$egtet 8+ctiamp eetamp

EPERIampENT NO (

Vamp$te Re+$tamp +i IC 3

OBECTIE

Tamp ei $amp9 vamp$te vib$e e+$tamp amp8 tamp 3V +i IC 3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 3 = Oetiamp amp8

IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 445

Namp e5eigtet i ti +it e -$$b+

NIT )II

EPERIampENT NO 1

Ae= S+btctamp Campgttamp +i IC 31 OAgt

OBECTIE

Tamp t+- te $ictiamp amp8 IC 31 e= +btctamp campgttamp

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Ae= S+btctamp= Campgttamp

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 campgttamp

APPLICATIONS

Te $ictiamp amp8 campgttamp e

1 eamp campi etectamp

Wiamp9 etectamp

Tigte gt2e eetamp

Pe gtete

EPERIampENT NO

Itetamp Di88eetitamp Cic+it +i IC 31

OBECTIE

Tamp ei vei8- te ampetiamp amp8 itetamp i88eetitamp 8amp ive i+t

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 itetamp i88eetitamp 8amp ive i+t

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 545

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and

differentiator

APPLICATIONS

1 Te i88eetitamp +e i 9ve i cic+it tamp etect i 8e+ec- campgtampet i

i+t i$ $amp teamp8 ce etectamp i FM egtamp+$tamp

Te itetamp i +e i $amp campgt+te $amp tamp iit$ campvete i$

9ve i cic+it

EPERIampENT NO

Scgtitt tie cic+it +i IC 31 IC

OBECTIE

Tamp ei te Scgtitt tie cic+it +i IC 31 IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =

Oetiamp amp8 IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Scgtitt tie

Gic$ etegtitiamp amp8 UTP LTP amp8 te Scgtitt tie

APPLICATIONS

1 Scgtitt tie e t-ic$$- +e i ampe $ampamp camp8i+tiamp 8amp ampie igtgt+it-

c$ampe $ampamp camp8i+tiamp tamp igt$egtet 8+ctiamp eetamp

EPERIampENT NO (

Vamp$te Re+$tamp +i IC 3

OBECTIE

Tamp ei $amp9 vamp$te vib$e e+$tamp amp8 tamp 3V +i IC 3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 3 = Oetiamp amp8

IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 545

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and

differentiator

APPLICATIONS

1 Te i88eetitamp +e i 9ve i cic+it tamp etect i 8e+ec- campgtampet i

i+t i$ $amp teamp8 ce etectamp i FM egtamp+$tamp

Te itetamp i +e i $amp campgt+te $amp tamp iit$ campvete i$

9ve i cic+it

EPERIampENT NO

Scgtitt tie cic+it +i IC 31 IC

OBECTIE

Tamp ei te Scgtitt tie cic+it +i IC 31 IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =

Oetiamp amp8 IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 Scgtitt tie

Gic$ etegtitiamp amp8 UTP LTP amp8 te Scgtitt tie

APPLICATIONS

1 Scgtitt tie e t-ic$$- +e i ampe $ampamp camp8i+tiamp 8amp ampie igtgt+it-

c$ampe $ampamp camp8i+tiamp tamp igt$egtet 8+ctiamp eetamp

EPERIampENT NO (

Vamp$te Re+$tamp +i IC 3

OBECTIE

Tamp ei $amp9 vamp$te vib$e e+$tamp amp8 tamp 3V +i IC 3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 3 = Oetiamp amp8

IC =Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 645

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ccteitic amp8 vamp$te vib$e e+$tamp

Gic$ etegtitiamp amp8 Lamp Lie Re+$tiamp ccteitic

APPLICATIONS

Vamp$te e+$tamp e +e

1Camptamp$ cic+it i PWMSeie t-e 9itc gtampe +$ie

Re+$te amp9e +$ie

Vamp$te tbi$ie

NITIII

EPERIampENT NO +

Active Lamp9 P i P B+tte9ampt Fi$te(Secamp Oe)

OBECTIE

Tamp t+- OAgt ecamp ampe LPF ecamp ampe PF tamp ampbti 8e+ec-

eampe

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =Re+$tePamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 8e+ec- eampe 8amp ecamp ampe $amp9 i

8i$te

Gic$ etegtitiamp amp8 i+t amp+t+t 9ve8ampgt amp8 integrator and differentiator

APPLICATIONS

i 8i$te ve gt- $ictiamp

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 745

1 Te- e +e t amp8 +iamp campampve tamp iect i 8e+ecie tamp t9eete 9i$e

tte+ti b i$ 9ic camp+$ ite8ee 9it= amp gte= te e2e

i 8i$te e $amp +e 8amp AC camp+$i t te i+t amp8 gt- +iamp amp9egt$i8ie

EPERIampENT NO

RC Pe Si8t Wie Bie Oci$$tamp +i IC 31 ampgt

OBECTIE

Tamp ei vei8- te (i) e i8t ampci$$tamp (ii) Wie Bie ampci$$tamp 8amp te ive

8e+ec- amp8 ampci$$tiamp vei8- it ctic$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 8e+ec- eampe 8amp ecamp ampe $amp9 i

8i$te

Gic$ etegtitiamp amp8 gte+i te tigte eiamp gt$it+e amp8 te amp+t+t

9ve8ampgtAPPLICATIONS

Oci$$tamp e +e i

1 Riamp=

Te$eviiamp=

Campgt+te= campgtgt+ictiamp

NITI

EPERIampENT NO -

IC TigteMampamptb$e Oetiamp Cic+it

OBECTIE

Tamp eete +$e +i Mampamptb$e M+$tivibtamp b- +i IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC =

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 745

1 Te- e +e t amp8 +iamp campampve tamp iect i 8e+ecie tamp t9eete 9i$e

tte+ti b i$ 9ic camp+$ ite8ee 9it= amp gte= te e2e

i 8i$te e $amp +e 8amp AC camp+$i t te i+t amp8 gt- +iamp amp9egt$i8ie

EPERIampENT NO

RC Pe Si8t Wie Bie Oci$$tamp +i IC 31 ampgt

OBECTIE

Tamp ei vei8- te (i) e i8t ampci$$tamp (ii) Wie Bie ampci$$tamp 8amp te ive

8e+ec- amp8 ampci$$tiamp vei8- it ctic$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31=Re+$te Pamp9e S+$-= F+ctiamp Geetamp CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 8e+ec- eampe 8amp ecamp ampe $amp9 i

8i$te

Gic$ etegtitiamp amp8 gte+i te tigte eiamp gt$it+e amp8 te amp+t+t

9ve8ampgtAPPLICATIONS

Oci$$tamp e +e i

1 Riamp=

Te$eviiamp=

Campgt+te= campgtgt+ictiamp

NITI

EPERIampENT NO -

IC TigteMampamptb$e Oetiamp Cic+it

OBECTIE

Tamp eete +$e +i Mampamptb$e M+$tivibtamp b- +i IC

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC =

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 845

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 8e+ec- eampe 8amp ecamp ampe $amp9 i

8i$te

Gic$ etegtitiamp amp8 amp+t+t 9ve8ampgt gte+e te +$e +tiamp

APPLICATIONS

1 Mii P+$e Detectamp

Fe+ec- Divie

PWM

Lie Rgt Geetamp

EPERIampENT NO

IC 0 PLL A$ictiamp

OBECTIE

Tamp t+- vei8- te ampetiamp amp8 NE 0 PLL

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 0=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ampetiamp amp8 NE 0 PLL

Gic$ etegtitiamp amp8 amp+t+t 9ve8ampgt gte+e te +$e +tiamp

APPLICATIONS

Pe$ampc2e $ampamp e 9ie$- egt$amp-e i

1 Riamp

Te$ecampgtgt+ictiamp

Campgt+te ampte e$ectampic $ictiamp

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 945

Te- c be +e tamp ecampve i$ 8ampgt ampi- campgtgt+ictiamp ce$= eete tb$e

8e+ecie t gt+$ti$e amp8 i+t 8e+ec- (8e+ec- -tei)= amp itib+te c$ampc2

tigti +$e i iit$ $ampic ei +c gticampampceamp

NIT )

EPERIampENT NO

Bit Campgttamp IC 34

OBECTIE

Tamp t+- te ampetiamp amp8 bit Mit+e Campgttamp +i IC 34

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 34=

Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 tamp 4 ecampe b- vei8-i t+t tb$e

APPLICATIONS

1 Campgttamp eie 8amp +e i campgt+te $ampic $ictiamp tt e+ie te

campgtiamp amp8 t9amp bit 9amp

NIT )I

Namp e5eigtet i ti +it e -$$b+

UNIT VII

EPERIampENT NO 10

TO 4 DECODER3LS14

OBECTIE

Tamp vei8- ampetiamp amp8 te tamp 4 ecampe +i IC 314

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- Lampic Dei

=Oetiamp amp8 IC 3LS14= Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1045

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 tamp 4 ecampe b- vei8-i t+t tb$e

APPLICATIONS

Decampi i ece- i $ictiamp +c

1 Dt M+$ti$e5i

3 egtet i$- gtegtamp- e ecampi

NITIII

EPERIampENT NO 11

D F$i F$ampIC 3LS3 Mte S$ve F$i F$ampIC 3LS3OBECTIE

Tamp vei8- te t+t tb$e amp8 D F$i F$ampIC 33 Mte S$ve F$i F$ampIC 3LS3

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- Lampic

Dei Oetiamp amp8 IC 3LS3 IC 3LS3= Re+$te Pamp9e S+$-= F+ctiampGeetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 D F$i F$ampIC 33 Mte S$ve F$i F$ampIC

3LS3 b- vei8-i t+t tb$e

APPLICATIONS

1 F$iF$amp $tce e +e t tampe e$egtet

D F$iF$amp i tampe evice +e i eite

Mte $ve F$iF$amp i +e i camp+te

EPERIampENT NO 1

Dece Camp+te 3LS7lt

OBECTIE

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1145

Tamp campt+ct vei8- te 9amp2i amp8 i$e iit ece camp+te +i IC 37lt

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- LampicDei= Oetiamp amp8 IC 37lt= Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ece camp+te

APPLICATIONS

Dece Camp+te +e i

1 M+$ti$e5e Degt+$ti$e5e

EPERIampENT NO 1

Uive$ Si8t Reite 3LS177

OBECTIE

Tamp t+- te 8amp$$amp9i $ictiamp amp8 te Uive$ i8t eite +i IC 3LS177

Si8t Rit Lampic

b Si8t Le8t Lampicc P$$e$ Lamp

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- Lampic

Dei= Oetiamp amp8 IC 3LS177= Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 D F$i F$ampIC 33 Mte S$ve F$iF$ampIC

3LS3 b- vei8-i t+t tb$e

APPLICATIONS

1 A i8t eite i +e 8amp gt+$ti$-i eviiamp I8 bi- +gtbe amp8 - Bi

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1245

1ltlt1lt1 (3 Dec) i gt+$ti$ie b- te bit ve tamp be $e8t i8te ampe tigte te

+gtbe 9i$$ te be Bi 1ltlt1lt1lt (3 Dec) tamp ivie b- te bit ve tamp be it

i8te

EPERIampENT NO 1(

451 M+$ti$e5e 311 51 Degt+$ti$e5e 31

OBECTIE

Tamp vei8- te t+t tb$e amp8 ive 4 tamp 1 M+$ti$e5e tamp 1 DeM+$ti$e5e +i IC311 31

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- Lampic Dei

=Oetiamp amp8 IC 31131= Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 4 tamp 1 M+$ti$e5e tamp 1 DeM+$ti$e5e b- vei8-i

t+t tb$e

APPLICATIONS

1 A gt+$ti$e5e i amp8te +e 9it campgt$egtet- egt+$ti$e5e amp te eceivi e

M+$ti$e5e c be +e campgtampet amp8 ampgtgtb$e $ampic evice

EPERIampENT NO 1+

RAM (10) IC 347 +i (e 9ite ampetiamp)

OBECTIE

Tamp t+- te ampetiamp amp8 te RAM Ic347

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = S9itci Teamp- Lampic

Dei =Oetiamp amp8 IC 31131= Re+$te Pamp9e S+$-= F+ctiamp Geetamp= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1345

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 e 9ite ampetiamp amp8 RAM

APPLICATIONS

1 RAM6 e +e i Peamp$ Campgt+te L Tamp

M+ic P$-e etc

LAB SCEDLE

2A3 LAB SCEDLE4 Te $b ce+$e amp+$ be $e ampce i 9ee2 Te 9ee2 9ie

ce+$e e5eigtet amp+$ be campgt$ete

CYCLE 1Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+ 6ee7 9ee23

B1(lt1

1)=B(1

)=B(

0)

Degtamp E51 E5 E5 E57 E54 tet

B(3

4)=B(7

0lt)=B0

Degtamp E5 E51lt E57 E54 E51 tet

B Degtamp E51lt E57 E54 E51 E5 tet

B Degtamp E57 E54 E51 E5 E51lt tet

B Degtamp E54 E51 E5 E51lt E57 tet

CYCLE

Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+ 6ee7 9ee23

B1 E5 E5 E50 E511 E51 E5 tet

B E53 E50 E511 E51 E5 E5 tet

B E5 E511 E51 E5 E5 E50 tet

B E51lt E51 E5 E5 E50 E511 tet

B E57 E5 E5 E50 E511 E51 tet

2B3 IA SCEDLE4 Te viv ce+$e amp+$ be $e iamp tti tamp te $b e5eigtet

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1445

ROND 1

Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+

B1=B=B viv

B1=B=B viv

B1=B=B viv

B1=B=B vivB1=B=B viv

ROND

Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+

SG1 viv

SG viv

SG viv

SG viv

SG viv

HSG Se$ecte Gamp+ 9it gt5igt+gt amp8 0 amp 1 t+et

SCEampE O8 EALATION O8 LABS

LAB INTERNAL

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1545

SCEampE O8 EALATION O8 LABS

ACADEMIC EAR lt11

LAB ETERNALS

D- tamp D- Ev$+tiamp1M2 Ite$ E5gt1lt M2

Ui8amp

gt

Obevtiamp

Recamp

Pe8ampgtce

O8 te

E5eigtet

Re+$t Viv Wite

+

E5ec+ti

amp

Re+$t

Viv

M2

M2 M2 M2

M2

M2

M2

M2

Tampt$ M2

SNO 9rite p Reslts2y s7ill

assistant3

8inal

Eltalation

ilta

1 1 Aigt

Pampce+e etc O+t+t

Re+$t etc

Be amp

ampbevtiamp= amp9 tet+et i e5ec+te

te E5eigtet

Be amp

campecte amp8te Cic+it

Campectiamp

Re+$t

Be amp

+etiamp8 E5eigtet

teampetic$

+etiamp i

te e$te

+bject

M2 lt 1lt 1lt 1lt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1645

S==ESTED BOOgtS

1 Lie Itete Cic+itD Ramp- Camp9+-= e9 Ae itetiamp$ ()Lt= Eitiamp= ltlt4

Diit$ F+gtet$ F$amp- i=Peamp E+ctiamp =4t eitiamp=ltlt OAgt Lie Itete Cic+itCampcet A$ictiamp b-

gteMFiampe=Ceeicamp=e= ltlt7

9EB SITES

1 ttte$iitgtcicamp+e1131lt0ltlt

tt999cetampeJltcamptetMiceLeiEEEIIJltEAREEJlt

JltLieJltIteteJltCic+itJltJltA$ictiamp8

ttampgtecampecampcKi$e-LMtgt$

tte$ectampicc$+bi8amptigtetgt

EPERTS DETAILS

Te e5et eti$ 9ic ve bee gtetiampe be$amp9 e amp$- 8e9 amp8 te egtiet ampe

2amp9 Itetiamp$$-= Ntiamp$$- Lampc$$-

INTERNATIONAL

1 MDRamp- Camp9+-= PD Uiveit- amp8 Mici=Det amp8 E$ectampic

Campgtgt+ictiamp E

M Ait Egtgti = PDC$i8ampi Itit+te amp8 Tecamp$amp-= Pamp8eamp amp8 E$ectic$Eieei= Det amp8 E$ectic$ E

NATIONAL

1 Pamp8Ramp- Pi$- P$ti2$=Dett amp8 E$ectic$ E=IIT G+9ti

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1445

ROND 1

Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+

B1=B=B viv

B1=B=B viv

B1=B=B viv

B1=B=B vivB1=B=B viv

ROND

Batc5es 6ee71 6ee7 6ee7 6ee7( 6ee7+

SG1 viv

SG viv

SG viv

SG viv

SG viv

HSG Se$ecte Gamp+ 9it gt5igt+gt amp8 0 amp 1 t+et

SCEampE O8 EALATION O8 LABS

LAB INTERNAL

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1545

SCEampE O8 EALATION O8 LABS

ACADEMIC EAR lt11

LAB ETERNALS

D- tamp D- Ev$+tiamp1M2 Ite$ E5gt1lt M2

Ui8amp

gt

Obevtiamp

Recamp

Pe8ampgtce

O8 te

E5eigtet

Re+$t Viv Wite

+

E5ec+ti

amp

Re+$t

Viv

M2

M2 M2 M2

M2

M2

M2

M2

Tampt$ M2

SNO 9rite p Reslts2y s7ill

assistant3

8inal

Eltalation

ilta

1 1 Aigt

Pampce+e etc O+t+t

Re+$t etc

Be amp

ampbevtiamp= amp9 tet+et i e5ec+te

te E5eigtet

Be amp

campecte amp8te Cic+it

Campectiamp

Re+$t

Be amp

+etiamp8 E5eigtet

teampetic$

+etiamp i

te e$te

+bject

M2 lt 1lt 1lt 1lt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1645

S==ESTED BOOgtS

1 Lie Itete Cic+itD Ramp- Camp9+-= e9 Ae itetiamp$ ()Lt= Eitiamp= ltlt4

Diit$ F+gtet$ F$amp- i=Peamp E+ctiamp =4t eitiamp=ltlt OAgt Lie Itete Cic+itCampcet A$ictiamp b-

gteMFiampe=Ceeicamp=e= ltlt7

9EB SITES

1 ttte$iitgtcicamp+e1131lt0ltlt

tt999cetampeJltcamptetMiceLeiEEEIIJltEAREEJlt

JltLieJltIteteJltCic+itJltJltA$ictiamp8

ttampgtecampecampcKi$e-LMtgt$

tte$ectampicc$+bi8amptigtetgt

EPERTS DETAILS

Te e5et eti$ 9ic ve bee gtetiampe be$amp9 e amp$- 8e9 amp8 te egtiet ampe

2amp9 Itetiamp$$-= Ntiamp$$- Lampc$$-

INTERNATIONAL

1 MDRamp- Camp9+-= PD Uiveit- amp8 Mici=Det amp8 E$ectampic

Campgtgt+ictiamp E

M Ait Egtgti = PDC$i8ampi Itit+te amp8 Tecamp$amp-= Pamp8eamp amp8 E$ectic$Eieei= Det amp8 E$ectic$ E

NATIONAL

1 Pamp8Ramp- Pi$- P$ti2$=Dett amp8 E$ectic$ E=IIT G+9ti

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1545

SCEampE O8 EALATION O8 LABS

ACADEMIC EAR lt11

LAB ETERNALS

D- tamp D- Ev$+tiamp1M2 Ite$ E5gt1lt M2

Ui8amp

gt

Obevtiamp

Recamp

Pe8ampgtce

O8 te

E5eigtet

Re+$t Viv Wite

+

E5ec+ti

amp

Re+$t

Viv

M2

M2 M2 M2

M2

M2

M2

M2

Tampt$ M2

SNO 9rite p Reslts2y s7ill

assistant3

8inal

Eltalation

ilta

1 1 Aigt

Pampce+e etc O+t+t

Re+$t etc

Be amp

ampbevtiamp= amp9 tet+et i e5ec+te

te E5eigtet

Be amp

campecte amp8te Cic+it

Campectiamp

Re+$t

Be amp

+etiamp8 E5eigtet

teampetic$

+etiamp i

te e$te

+bject

M2 lt 1lt 1lt 1lt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1645

S==ESTED BOOgtS

1 Lie Itete Cic+itD Ramp- Camp9+-= e9 Ae itetiamp$ ()Lt= Eitiamp= ltlt4

Diit$ F+gtet$ F$amp- i=Peamp E+ctiamp =4t eitiamp=ltlt OAgt Lie Itete Cic+itCampcet A$ictiamp b-

gteMFiampe=Ceeicamp=e= ltlt7

9EB SITES

1 ttte$iitgtcicamp+e1131lt0ltlt

tt999cetampeJltcamptetMiceLeiEEEIIJltEAREEJlt

JltLieJltIteteJltCic+itJltJltA$ictiamp8

ttampgtecampecampcKi$e-LMtgt$

tte$ectampicc$+bi8amptigtetgt

EPERTS DETAILS

Te e5et eti$ 9ic ve bee gtetiampe be$amp9 e amp$- 8e9 amp8 te egtiet ampe

2amp9 Itetiamp$$-= Ntiamp$$- Lampc$$-

INTERNATIONAL

1 MDRamp- Camp9+-= PD Uiveit- amp8 Mici=Det amp8 E$ectampic

Campgtgt+ictiamp E

M Ait Egtgti = PDC$i8ampi Itit+te amp8 Tecamp$amp-= Pamp8eamp amp8 E$ectic$Eieei= Det amp8 E$ectic$ E

NATIONAL

1 Pamp8Ramp- Pi$- P$ti2$=Dett amp8 E$ectic$ E=IIT G+9ti

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1645

S==ESTED BOOgtS

1 Lie Itete Cic+itD Ramp- Camp9+-= e9 Ae itetiamp$ ()Lt= Eitiamp= ltlt4

Diit$ F+gtet$ F$amp- i=Peamp E+ctiamp =4t eitiamp=ltlt OAgt Lie Itete Cic+itCampcet A$ictiamp b-

gteMFiampe=Ceeicamp=e= ltlt7

9EB SITES

1 ttte$iitgtcicamp+e1131lt0ltlt

tt999cetampeJltcamptetMiceLeiEEEIIJltEAREEJlt

JltLieJltIteteJltCic+itJltJltA$ictiamp8

ttampgtecampecampcKi$e-LMtgt$

tte$ectampicc$+bi8amptigtetgt

EPERTS DETAILS

Te e5et eti$ 9ic ve bee gtetiampe be$amp9 e amp$- 8e9 amp8 te egtiet ampe

2amp9 Itetiamp$$-= Ntiamp$$- Lampc$$-

INTERNATIONAL

1 MDRamp- Camp9+-= PD Uiveit- amp8 Mici=Det amp8 E$ectampic

Campgtgt+ictiamp E

M Ait Egtgti = PDC$i8ampi Itit+te amp8 Tecamp$amp-= Pamp8eamp amp8 E$ectic$Eieei= Det amp8 E$ectic$ E

NATIONAL

1 Pamp8Ramp- Pi$- P$ti2$=Dett amp8 E$ectic$ E=IIT G+9ti

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1745

Pamp8 G+v Tivei= Dett amp8 ECE= IIT= G+9ti

M RB+= Te+ Uiveit-

RE=IONAL

1 Pamp8MNe9 Ramp= Dett amp8 ECE =ITS=W$

D=S Re-= Pici$= CMREC

Pamp8 CAamp2 +gt= De O8 ECE= CMREC

ampAPPIN= O8 LAB 9IT PROECTCONSLTANCYR D4

Te Itete Cic+it A$ictiamp Lb camp+e amp+$ be eie i +c 9- tt it amp+$

gteet te e+iegtet amp8 eec eve$ampgtet 9e$$ camp+$tc- ampject A$amp te

Pampamp$ amp8 PampjectRDCamp+$tc- e 8amp$$amp9

Pampamp$ 1 Pampject Dei E5ec+tiamp

Pampamp$ R D Leve$ Pampject Dei E5ec+tiamp

Pampamp$ Camp+$tc- T2 Pampject Dei Deve$ampgtet

PROPOSAL 8OR PROECT ACTIITY

1A Proposal of a 5oyiniprotoeneraloelproto type proect 6it5 estene astract

Bloc7 DiaraCircit8lo6 iara an clear references ay e presente an eFecte

A ampamp$ bee gte tamp igt$egtet te 8amp$$amp9i ampject 8amp Mi Tecamp$ampie Pvt Lt= -eb

Proposal to anfactre a Atoatic Control of =ate Street Li5t4

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1845

A proposal is ae possile to Atoatic Control of =ate Street Li5t 6it5 t5e facilities altailale

in Interate Circit laoratory4

Propose EGipent for sae4 Cat5oe Ray Oscilloscope ampltieter Po6er spply etc

Application of Dar7 Sensor for atoatic li5tin syste

OBECTIE

Te gti ampbjective amp8 ti Pamp+ct i tamp igt$egtet AUTOMATIC CONTROL OF GATE

STREET LIGT +i LDR = tamp igt$egtet it tamp ve te e$ectic amp9e=

tamp e+ce te gt amp9e i ce amp8 teet $it camptamp$ -tegt

Nee amp gt+$ ampetiamp 8amp 9itci

We tee i ee amp8 $it i 2 $ce it +tampgttic$$- etect 9itce

ON te Lit Lit i 9itce ON t it +t it OFF i te - tigte

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp Pamp+ct

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 e$- ampetiamp te $it camptamp$

COampPONENTS RE$IRED4

1ltlt2 eitamp 5

32 eitamp 51

Pamptamp eitamp 51

14lt ampgt eitamp

LM31 ampgt ic

LED (- camp$amp) 51 j+gte 9ie

7v btte-

A bebamp

9ORgtIN=

We $it 8$$ amp te LDR te it eitce ecee 9ice+$t i icee amp8 te vamp$te

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 1945

t i amp8 te IC

IC ampt campgttamp ib+i$t= 9ic campgte bet9ee te i+t vamp$te 8ampgt i

1 amp8 te amp9e +$- vamp$te

We i+t 8$$ be$amp9 1 te amp+t+t i et i ampte9ie it i et $amp9

Sice i bite= i+t vamp$te ie amp 9e ampbti amp ampitive vamp$te t amp+t+t amp8 i tamp

ive e$- amp LED= beie i ampamp $it campitiamp 9e et amp+t+t tamp eeie

LDR

It i eci$ t-e amp8 eitamp 9ampe v$+e ee amp te

bite amp8 $it 9ic i 8$$i amp it

It eitce amp8 bamp+t 1gte ampgt 9e i tampt$ 2e=

b+t eitce amp8 amp$- bamp+t 2 ampgt 9e bite i$$+gtite

It eamp tamp $e t amp8 $it ect+gt

TRANS8ORampER

Famp 7v c amp9e +$- 9e c +e te amp9 t8ampgte i ampe tamp campvet lt vamp$t tamp 7 vamp$t

PCB

Wit te e$ amp8 PCB it i e- tamp egtb$e cic+it 9it et c$e e amp+ct

PCB i gte amp8 B2e$ite 9it +8ce te 9itcampe tc2$-amp+t

Campectiamp i i e tamp+ te amp$e i amp$ee

8i4 Circit Diara of Dar7 Sensor sin -(1 IC

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8i4 Circit Diara of Dar7 Sensor sin +++ IC

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp GATE $it camptamp$$i

It c $amp be +e A+tampgttic teet $it camptamp$ -tegt

PROPOSAL 8OR CONSLTANCY4

A ampamp$ bee gte tamp igt$egtet te 8amp$$amp9i ampject +i VDL 8amp Mi Tecamp$ampie Pvt Lt=

-eb

Atoatic 6ater tan7 leltel controller

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ABSTRACT

Te i2i 9te cii i Ii i eci $gti ampamptiamp It gtit ve- ampamp Atti te t+e amp8

$ampb$ cii ece= it i amp8 +tgtampt igtamptce tamp eeve 9te I gt- amp+e tee i +ece- 9te

amp8 9te +e tamp ampve8$amp9 i Ovee T2 A+tampgttic Wte Leve$ Camptamp$$e c ampvie amp$+tiamp tamp ti

ampb$egt Te ampetiamp amp8 9te $eve$ camptamp$$e 9amp2 +amp te 8ct tt 9te camp+ct e$ecticit- Samp 9te

c be +e tamp ampe amp c$ampe cic+it A te 9te $eve$ ie amp 8$$= i88eet cic+it i te camptamp$$e e

i88eet i$ Tee i$ e +e tamp 9itc ON amp 9itc OFF te gtamptamp +gt e amp+ e+iegtet

INTRODCTION

A8te egtb$i te -tegt= 9t egti i tamp ampbeve it ampetiamp e88iciec- Ti c be ampe

b- be2i amp9 te ctivit- amp8 te camptamp$$e 8ampgt te etectiamp amp8 9te tamp te 9amp2i amp8 te +gt We amp

ampve te eampe ampbtie 9e 9te ece te eamp te $ampic egt$amp-e bei it We $amp t- tamp

j+ti8- amp9 -tegt igt$e amp+ c campgtete 9it tampe vi$b$e campgtgteci$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC = Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ON OFF 8+ctiampi amp8 te cic+it

Ti igt$e= ecampampgtic$ veti$e cic+it 9itce amp te gtamptamp +gt 9e 9tei te ampvee t2 8$$ be$amp9 te $amp9et $eve$ t+ it amp886 9e te t2 i 8+$$

Mampeampve= i8 te +gt i +i - +e tamp $amp9 vamp$te= it amp+ $gt tamp $et -amp+ tamp9itc amp88 te camptamp$$e cic+it ( ece te gtamptamp +gt) tamp vampi campi$ b+ amp9e

9te

Te 9te$eve$ camptamp$$e cic+it (ee Fi 1) i b+i$t amp+ IC (IC) tamp gtampitamp

te 9te $eve$ i te ampvee t2 amp6amp886 tt+ amp8 te gtamptamp tamp+ te ivete

ive cic+it Te titamp 9itc cic+it- gtampitamp te 8$amp9 amp8 9te ie $gt

i8 te +gt + -

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

middot We 2amp9 te ampet- amp8 tigte IC= ie it amp+t+t ampe IG 9e vamp$te t te

ecamp i(tie i) i $e t 1 Vcc

A$amp 9e c eet bc2 te IC b- $-i LOW vamp$te t te t i (Reet i)

I ti ampject 9ie e ie i 9te t2 Let + e8ie t9amp 9te $eve$ Bampttampgt (L) $eve$

Tamp () $eve$ Oe amp8 te 9ie amp ampbe i 8ampgt Vcc= 9ic c be c$$e gti$e $eve$ (M)

8i4 Position of t5ree sensors in tier +++

Te ampbe 8ampgt bampttampgt $eve$ i campecte tamp te tie () i amp8 IC Samp te vamp$te t

i i Vcc 9e it i campvee b- 9te

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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httpslidepdfcomreaderfullic-application-lab-1-final-copy 3045

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Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

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+ ( 1 (

5 (

6 YR

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Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

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8122019 Ic Application Lab 1 Final Copy

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

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( UT

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( 07 8

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1R

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de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

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8122019 Ic Application Lab 1 Final Copy

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amp gt i te i$ ci T- ic$$-= ti vamp$te i

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( 078)1lt ( VR1 1

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ampCP0 ( 07 8 1( 0

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Q

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be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

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8122019 Ic Application Lab 1 Final Copy

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i e+ce vi

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e+$ VREF

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I -U T

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8ilters

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Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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1)

1

)

VDD

R (

C(

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

8122019 Ic Application Lab 1 Final Copy

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

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gtits

SS

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gt7atpally

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ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

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( ampltieters Error Correction

an Caliration

9or7in

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23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

8122019 Ic Application Lab 1 Final Copy

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A proposal is ae possile to Atoatic Control of =ate Street Li5t 6it5 t5e facilities altailale

in Interate Circit laoratory4

Propose EGipent for sae4 Cat5oe Ray Oscilloscope ampltieter Po6er spply etc

Application of Dar7 Sensor for atoatic li5tin syste

OBECTIE

Te gti ampbjective amp8 ti Pamp+ct i tamp igt$egtet AUTOMATIC CONTROL OF GATE

STREET LIGT +i LDR = tamp igt$egtet it tamp ve te e$ectic amp9e=

tamp e+ce te gt amp9e i ce amp8 teet $it camptamp$ -tegt

Nee amp gt+$ ampetiamp 8amp 9itci

We tee i ee amp8 $it i 2 $ce it +tampgttic$$- etect 9itce

ON te Lit Lit i 9itce ON t it +t it OFF i te - tigte

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC 31 =Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp Pamp+ct

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 e$- ampetiamp te $it camptamp$

COampPONENTS RE$IRED4

1ltlt2 eitamp 5

32 eitamp 51

Pamptamp eitamp 51

14lt ampgt eitamp

LM31 ampgt ic

LED (- camp$amp) 51 j+gte 9ie

7v btte-

A bebamp

9ORgtIN=

We $it 8$$ amp te LDR te it eitce ecee 9ice+$t i icee amp8 te vamp$te

8122019 Ic Application Lab 1 Final Copy

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t i amp8 te IC

IC ampt campgttamp ib+i$t= 9ic campgte bet9ee te i+t vamp$te 8ampgt i

1 amp8 te amp9e +$- vamp$te

We i+t 8$$ be$amp9 1 te amp+t+t i et i ampte9ie it i et $amp9

Sice i bite= i+t vamp$te ie amp 9e ampbti amp ampitive vamp$te t amp+t+t amp8 i tamp

ive e$- amp LED= beie i ampamp $it campitiamp 9e et amp+t+t tamp eeie

LDR

It i eci$ t-e amp8 eitamp 9ampe v$+e ee amp te

bite amp8 $it 9ic i 8$$i amp it

It eitce amp8 bamp+t 1gte ampgt 9e i tampt$ 2e=

b+t eitce amp8 amp$- bamp+t 2 ampgt 9e bite i$$+gtite

It eamp tamp $e t amp8 $it ect+gt

TRANS8ORampER

Famp 7v c amp9e +$- 9e c +e te amp9 t8ampgte i ampe tamp campvet lt vamp$t tamp 7 vamp$t

PCB

Wit te e$ amp8 PCB it i e- tamp egtb$e cic+it 9it et c$e e amp+ct

PCB i gte amp8 B2e$ite 9it +8ce te 9itcampe tc2$-amp+t

Campectiamp i i e tamp+ te amp$e i amp$ee

8i4 Circit Diara of Dar7 Sensor sin -(1 IC

8122019 Ic Application Lab 1 Final Copy

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8i4 Circit Diara of Dar7 Sensor sin +++ IC

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp GATE $it camptamp$$i

It c $amp be +e A+tampgttic teet $it camptamp$ -tegt

PROPOSAL 8OR CONSLTANCY4

A ampamp$ bee gte tamp igt$egtet te 8amp$$amp9i ampject +i VDL 8amp Mi Tecamp$ampie Pvt Lt=

-eb

Atoatic 6ater tan7 leltel controller

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ABSTRACT

Te i2i 9te cii i Ii i eci $gti ampamptiamp It gtit ve- ampamp Atti te t+e amp8

$ampb$ cii ece= it i amp8 +tgtampt igtamptce tamp eeve 9te I gt- amp+e tee i +ece- 9te

amp8 9te +e tamp ampve8$amp9 i Ovee T2 A+tampgttic Wte Leve$ Camptamp$$e c ampvie amp$+tiamp tamp ti

ampb$egt Te ampetiamp amp8 9te $eve$ camptamp$$e 9amp2 +amp te 8ct tt 9te camp+ct e$ecticit- Samp 9te

c be +e tamp ampe amp c$ampe cic+it A te 9te $eve$ ie amp 8$$= i88eet cic+it i te camptamp$$e e

i88eet i$ Tee i$ e +e tamp 9itc ON amp 9itc OFF te gtamptamp +gt e amp+ e+iegtet

INTRODCTION

A8te egtb$i te -tegt= 9t egti i tamp ampbeve it ampetiamp e88iciec- Ti c be ampe

b- be2i amp9 te ctivit- amp8 te camptamp$$e 8ampgt te etectiamp amp8 9te tamp te 9amp2i amp8 te +gt We amp

ampve te eampe ampbtie 9e 9te ece te eamp te $ampic egt$amp-e bei it We $amp t- tamp

j+ti8- amp9 -tegt igt$e amp+ c campgtete 9it tampe vi$b$e campgtgteci$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC = Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ON OFF 8+ctiampi amp8 te cic+it

Ti igt$e= ecampampgtic$ veti$e cic+it 9itce amp te gtamptamp +gt 9e 9tei te ampvee t2 8$$ be$amp9 te $amp9et $eve$ t+ it amp886 9e te t2 i 8+$$

Mampeampve= i8 te +gt i +i - +e tamp $amp9 vamp$te= it amp+ $gt tamp $et -amp+ tamp9itc amp88 te camptamp$$e cic+it ( ece te gtamptamp +gt) tamp vampi campi$ b+ amp9e

9te

Te 9te$eve$ camptamp$$e cic+it (ee Fi 1) i b+i$t amp+ IC (IC) tamp gtampitamp

te 9te $eve$ i te ampvee t2 amp6amp886 tt+ amp8 te gtamptamp tamp+ te ivete

ive cic+it Te titamp 9itc cic+it- gtampitamp te 8$amp9 amp8 9te ie $gt

i8 te +gt + -

8122019 Ic Application Lab 1 Final Copy

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

middot We 2amp9 te ampet- amp8 tigte IC= ie it amp+t+t ampe IG 9e vamp$te t te

ecamp i(tie i) i $e t 1 Vcc

A$amp 9e c eet bc2 te IC b- $-i LOW vamp$te t te t i (Reet i)

I ti ampject 9ie e ie i 9te t2 Let + e8ie t9amp 9te $eve$ Bampttampgt (L) $eve$

Tamp () $eve$ Oe amp8 te 9ie amp ampbe i 8ampgt Vcc= 9ic c be c$$e gti$e $eve$ (M)

8i4 Position of t5ree sensors in tier +++

Te ampbe 8ampgt bampttampgt $eve$ i campecte tamp te tie () i amp8 IC Samp te vamp$te t

i i Vcc 9e it i campvee b- 9te

8122019 Ic Application Lab 1 Final Copy

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

8122019 Ic Application Lab 1 Final Copy

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

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8122019 Ic Application Lab 1 Final Copy

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

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amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

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+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

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+$ie )e +e

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R 1

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R 2

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

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01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

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110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

8122019 Ic Application Lab 1 Final Copy

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

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R

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

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9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

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tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

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Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

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+ie$ie gtetiampe +e

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Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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ec- 9amp 9i$$ c- amp+t c$ibtiamp

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b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

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8amp$$amp9i +ie$ieMitece Sce+$e

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campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

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6ell

Trainer gtits Testin anTroles5ootin

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Po6er Spplys Testin an

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an Caliration

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Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

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cceittiamp 8ampgt NABL

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Tegt(CLT) ee b- Pici$ODDeice

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$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

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gt+$

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

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ete 8i$e

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cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

8122019 Ic Application Lab 1 Final Copy

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t i amp8 te IC

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LDR

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bite amp8 $it 9ic i 8$$i amp it

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b+t eitce amp8 amp$- bamp+t 2 ampgt 9e bite i$$+gtite

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TRANS8ORampER

Famp 7v c amp9e +$- 9e c +e te amp9 t8ampgte i ampe tamp campvet lt vamp$t tamp 7 vamp$t

PCB

Wit te e$ amp8 PCB it i e- tamp egtb$e cic+it 9it et c$e e amp+ct

PCB i gte amp8 B2e$ite 9it +8ce te 9itcampe tc2$-amp+t

Campectiamp i i e tamp+ te amp$e i amp$ee

8i4 Circit Diara of Dar7 Sensor sin -(1 IC

8122019 Ic Application Lab 1 Final Copy

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8i4 Circit Diara of Dar7 Sensor sin +++ IC

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp GATE $it camptamp$$i

It c $amp be +e A+tampgttic teet $it camptamp$ -tegt

PROPOSAL 8OR CONSLTANCY4

A ampamp$ bee gte tamp igt$egtet te 8amp$$amp9i ampject +i VDL 8amp Mi Tecamp$ampie Pvt Lt=

-eb

Atoatic 6ater tan7 leltel controller

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ABSTRACT

Te i2i 9te cii i Ii i eci $gti ampamptiamp It gtit ve- ampamp Atti te t+e amp8

$ampb$ cii ece= it i amp8 +tgtampt igtamptce tamp eeve 9te I gt- amp+e tee i +ece- 9te

amp8 9te +e tamp ampve8$amp9 i Ovee T2 A+tampgttic Wte Leve$ Camptamp$$e c ampvie amp$+tiamp tamp ti

ampb$egt Te ampetiamp amp8 9te $eve$ camptamp$$e 9amp2 +amp te 8ct tt 9te camp+ct e$ecticit- Samp 9te

c be +e tamp ampe amp c$ampe cic+it A te 9te $eve$ ie amp 8$$= i88eet cic+it i te camptamp$$e e

i88eet i$ Tee i$ e +e tamp 9itc ON amp 9itc OFF te gtamptamp +gt e amp+ e+iegtet

INTRODCTION

A8te egtb$i te -tegt= 9t egti i tamp ampbeve it ampetiamp e88iciec- Ti c be ampe

b- be2i amp9 te ctivit- amp8 te camptamp$$e 8ampgt te etectiamp amp8 9te tamp te 9amp2i amp8 te +gt We amp

ampve te eampe ampbtie 9e 9te ece te eamp te $ampic egt$amp-e bei it We $amp t- tamp

j+ti8- amp9 -tegt igt$e amp+ c campgtete 9it tampe vi$b$e campgtgteci$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC = Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ON OFF 8+ctiampi amp8 te cic+it

Ti igt$e= ecampampgtic$ veti$e cic+it 9itce amp te gtamptamp +gt 9e 9tei te ampvee t2 8$$ be$amp9 te $amp9et $eve$ t+ it amp886 9e te t2 i 8+$$

Mampeampve= i8 te +gt i +i - +e tamp $amp9 vamp$te= it amp+ $gt tamp $et -amp+ tamp9itc amp88 te camptamp$$e cic+it ( ece te gtamptamp +gt) tamp vampi campi$ b+ amp9e

9te

Te 9te$eve$ camptamp$$e cic+it (ee Fi 1) i b+i$t amp+ IC (IC) tamp gtampitamp

te 9te $eve$ i te ampvee t2 amp6amp886 tt+ amp8 te gtamptamp tamp+ te ivete

ive cic+it Te titamp 9itc cic+it- gtampitamp te 8$amp9 amp8 9te ie $gt

i8 te +gt + -

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

middot We 2amp9 te ampet- amp8 tigte IC= ie it amp+t+t ampe IG 9e vamp$te t te

ecamp i(tie i) i $e t 1 Vcc

A$amp 9e c eet bc2 te IC b- $-i LOW vamp$te t te t i (Reet i)

I ti ampject 9ie e ie i 9te t2 Let + e8ie t9amp 9te $eve$ Bampttampgt (L) $eve$

Tamp () $eve$ Oe amp8 te 9ie amp ampbe i 8ampgt Vcc= 9ic c be c$$e gti$e $eve$ (M)

8i4 Position of t5ree sensors in tier +++

Te ampbe 8ampgt bampttampgt $eve$ i campecte tamp te tie () i amp8 IC Samp te vamp$te t

i i Vcc 9e it i campvee b- 9te

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

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8122019 Ic Application Lab 1 Final Copy

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

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0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

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)

12

12

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

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gtete camp te etive ampitive +$- i

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c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

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8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

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ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

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bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

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ce) tt 9i$$ et 9amp e ampve tigte

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ei i$ tamp+ te ci c+it amp+ gt-

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tt te AC amp+t +t i$ i gt+c $amp9e t

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ivi $igtite gtamp+t amp8 c+et tamp te $amp

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eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

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A$amp Itete Ci c+it= McG9 i$$

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e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

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1 Cat5oe

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SS

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gt7atpally

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SS

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iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

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( ampltieters Error Correction

an Caliration

9or7in

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23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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8i4 Circit Diara of Dar7 Sensor sin +++ IC

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp GATE $it camptamp$$i

It c $amp be +e A+tampgttic teet $it camptamp$ -tegt

PROPOSAL 8OR CONSLTANCY4

A ampamp$ bee gte tamp igt$egtet te 8amp$$amp9i ampject +i VDL 8amp Mi Tecamp$ampie Pvt Lt=

-eb

Atoatic 6ater tan7 leltel controller

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ABSTRACT

Te i2i 9te cii i Ii i eci $gti ampamptiamp It gtit ve- ampamp Atti te t+e amp8

$ampb$ cii ece= it i amp8 +tgtampt igtamptce tamp eeve 9te I gt- amp+e tee i +ece- 9te

amp8 9te +e tamp ampve8$amp9 i Ovee T2 A+tampgttic Wte Leve$ Camptamp$$e c ampvie amp$+tiamp tamp ti

ampb$egt Te ampetiamp amp8 9te $eve$ camptamp$$e 9amp2 +amp te 8ct tt 9te camp+ct e$ecticit- Samp 9te

c be +e tamp ampe amp c$ampe cic+it A te 9te $eve$ ie amp 8$$= i88eet cic+it i te camptamp$$e e

i88eet i$ Tee i$ e +e tamp 9itc ON amp 9itc OFF te gtamptamp +gt e amp+ e+iegtet

INTRODCTION

A8te egtb$i te -tegt= 9t egti i tamp ampbeve it ampetiamp e88iciec- Ti c be ampe

b- be2i amp9 te ctivit- amp8 te camptamp$$e 8ampgt te etectiamp amp8 9te tamp te 9amp2i amp8 te +gt We amp

ampve te eampe ampbtie 9e 9te ece te eamp te $ampic egt$amp-e bei it We $amp t- tamp

j+ti8- amp9 -tegt igt$e amp+ c campgtete 9it tampe vi$b$e campgtgteci$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC = Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ON OFF 8+ctiampi amp8 te cic+it

Ti igt$e= ecampampgtic$ veti$e cic+it 9itce amp te gtamptamp +gt 9e 9tei te ampvee t2 8$$ be$amp9 te $amp9et $eve$ t+ it amp886 9e te t2 i 8+$$

Mampeampve= i8 te +gt i +i - +e tamp $amp9 vamp$te= it amp+ $gt tamp $et -amp+ tamp9itc amp88 te camptamp$$e cic+it ( ece te gtamptamp +gt) tamp vampi campi$ b+ amp9e

9te

Te 9te$eve$ camptamp$$e cic+it (ee Fi 1) i b+i$t amp+ IC (IC) tamp gtampitamp

te 9te $eve$ i te ampvee t2 amp6amp886 tt+ amp8 te gtamptamp tamp+ te ivete

ive cic+it Te titamp 9itc cic+it- gtampitamp te 8$amp9 amp8 9te ie $gt

i8 te +gt + -

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

middot We 2amp9 te ampet- amp8 tigte IC= ie it amp+t+t ampe IG 9e vamp$te t te

ecamp i(tie i) i $e t 1 Vcc

A$amp 9e c eet bc2 te IC b- $-i LOW vamp$te t te t i (Reet i)

I ti ampject 9ie e ie i 9te t2 Let + e8ie t9amp 9te $eve$ Bampttampgt (L) $eve$

Tamp () $eve$ Oe amp8 te 9ie amp ampbe i 8ampgt Vcc= 9ic c be c$$e gti$e $eve$ (M)

8i4 Position of t5ree sensors in tier +++

Te ampbe 8ampgt bampttampgt $eve$ i campecte tamp te tie () i amp8 IC Samp te vamp$te t

i i Vcc 9e it i campvee b- 9te

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

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8122019 Ic Application Lab 1 Final Copy

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

8122019 Ic Application Lab 1 Final Copy

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

8122019 Ic Application Lab 1 Final Copy

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

A amp5igttiamp Reite (SAR) campve te tt i ite 8 ce tamp te PIC1Clt7 gticampcamptamp$$e

)

12

12

0

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0 0 + 0

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amp

1

amp

8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

etive +$- i amp8 te amp gt P$ci vamp$t

gtete camp te etive ampitive +$- i

9i$$ vei8- tt -amp+ ve te it e$tiampi

bet9ee te i

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c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

Decamp+$e te gt$i8 ie amp9e +$ie 9it b- ccitamp c$ampe tamp te gt$i8 ie

ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

Ue amp t $e $et tamp te i+t amp8 te gt$i

8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

cce tt tee ampb$egt 9amp6t be ampb$egt 9it

te PCB igt$egtettiamp amp8 te ci c+it

0 Agt$i8 ie e ttic eitive I8 te- e gt

e= te- gt- 8 i$ igtgteite$- amp e5ibit amp8teamp ($i2 e amp88et vamp$te amp i+t bi c+et

ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

1 amp9 9t i+t e i e+ie 8 ampgt -amp+

gt$i8 ie I8 eite i+t amp8 te gt$i8 ie amp

be-amp te eci8 ie i+t e= te amp+t +t 9i$$

t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

DSltlt04Ce 4

I8 -amp+ ve i i ci c+it= be 9e amp8 te

amp88et vamp$te amp8 te gt$i8 ie Tt amp88et i

ie 9it te et amp8 -amp+ i$ it gtit

ampgtite te e+$t t te amp+t +t amp8 te gt$i8 ie

Damp6t +e i$tampi$ i+t te gt$i8 ie

+$e it i ece - B- te 9-= te- e amp$-

eee 9e b+88 e gt$i8 ie ci c+it i +e amp ampib$- it+gtettiamp gt$i8 ie camp8 i+tiamp

A- ci c+it 9it i 9i$$ ive te amp+t +t amp8 te

gt$i8 ie itamp te i$ be8 ampe te i+t

ampb$egt

Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

ve eie gt$i8 ie 8 amp i amp8 1lt 8 i

tt te AC amp+t +t i$ i gt+c $amp9e t

e5 ecte I8 ti i te ce= -amp+ gt- ve tamp $ampamp2

8 amp gt$i8 ie 9it 9ie b9it

Itbi$it- ampb$egt c ++$$- be amp$ve b-

i ccitamp i $$e$ 9it te 8 eebc2eitamp amp+ te gt$i8 ie Ti ampe gte

t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

It i ve - e tt i$e +$- gt$i8 ie 9i$$

t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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ABSTRACT

Te i2i 9te cii i Ii i eci $gti ampamptiamp It gtit ve- ampamp Atti te t+e amp8

$ampb$ cii ece= it i amp8 +tgtampt igtamptce tamp eeve 9te I gt- amp+e tee i +ece- 9te

amp8 9te +e tamp ampve8$amp9 i Ovee T2 A+tampgttic Wte Leve$ Camptamp$$e c ampvie amp$+tiamp tamp ti

ampb$egt Te ampetiamp amp8 9te $eve$ camptamp$$e 9amp2 +amp te 8ct tt 9te camp+ct e$ecticit- Samp 9te

c be +e tamp ampe amp c$ampe cic+it A te 9te $eve$ ie amp 8$$= i88eet cic+it i te camptamp$$e e

i88eet i$ Tee i$ e +e tamp 9itc ON amp 9itc OFF te gtamptamp +gt e amp+ e+iegtet

INTRODCTION

A8te egtb$i te -tegt= 9t egti i tamp ampbeve it ampetiamp e88iciec- Ti c be ampe

b- be2i amp9 te ctivit- amp8 te camptamp$$e 8ampgt te etectiamp amp8 9te tamp te 9amp2i amp8 te +gt We amp

ampve te eampe ampbtie 9e 9te ece te eamp te $ampic egt$amp-e bei it We $amp t- tamp

j+ti8- amp9 -tegt igt$e amp+ c campgtete 9it tampe vi$b$e campgtgteci$$-

PRERE$ISITES

Bic 2amp9$ee bamp+t E$ectampic Device Cic+it = Oetiamp amp8 IC = Re+$te

Pamp9e S+$-= CRO

DESCRIPTION

Itamp+ctiamp tamp e5eigtet lt gti

b Campectiamp amp8 e5eigtet it vei8ictiamp

c E5eigtet$ etegtitiamp amp8 ON OFF 8+ctiampi amp8 te cic+it

Ti igt$e= ecampampgtic$ veti$e cic+it 9itce amp te gtamptamp +gt 9e 9tei te ampvee t2 8$$ be$amp9 te $amp9et $eve$ t+ it amp886 9e te t2 i 8+$$

Mampeampve= i8 te +gt i +i - +e tamp $amp9 vamp$te= it amp+ $gt tamp $et -amp+ tamp9itc amp88 te camptamp$$e cic+it ( ece te gtamptamp +gt) tamp vampi campi$ b+ amp9e

9te

Te 9te$eve$ camptamp$$e cic+it (ee Fi 1) i b+i$t amp+ IC (IC) tamp gtampitamp

te 9te $eve$ i te ampvee t2 amp6amp886 tt+ amp8 te gtamptamp tamp+ te ivete

ive cic+it Te titamp 9itc cic+it- gtampitamp te 8$amp9 amp8 9te ie $gt

i8 te +gt + -

8122019 Ic Application Lab 1 Final Copy

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

middot We 2amp9 te ampet- amp8 tigte IC= ie it amp+t+t ampe IG 9e vamp$te t te

ecamp i(tie i) i $e t 1 Vcc

A$amp 9e c eet bc2 te IC b- $-i LOW vamp$te t te t i (Reet i)

I ti ampject 9ie e ie i 9te t2 Let + e8ie t9amp 9te $eve$ Bampttampgt (L) $eve$

Tamp () $eve$ Oe amp8 te 9ie amp ampbe i 8ampgt Vcc= 9ic c be c$$e gti$e $eve$ (M)

8i4 Position of t5ree sensors in tier +++

Te ampbe 8ampgt bampttampgt $eve$ i campecte tamp te tie () i amp8 IC Samp te vamp$te t

i i Vcc 9e it i campvee b- 9te

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

8122019 Ic Application Lab 1 Final Copy

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

8122019 Ic Application Lab 1 Final Copy

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

8122019 Ic Application Lab 1 Final Copy

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

8122019 Ic Application Lab 1 Final Copy

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3045

Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

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rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

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ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

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PROCEDRE 8OR CALIBRATION

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Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

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gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

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8amp$$amp9i +ie$ieMitece Sce+$e

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SNo Nae of t5e

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Date of

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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gt+$

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

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8i4 Circit Diara of 6ater tan7 leltel controller sin +++ IC

9or7in of Atoatic 6ater tan7 leltel controller4

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8i4 Position of t5ree sensors in tier +++

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

A amp5igttiamp Reite (SAR) campve te tt i ite 8 ce tamp te PIC1Clt7 gticampcamptamp$$e

)

12

12

0

05 1

0 0 + 0

1)

amp

1

amp

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

etive +$- i amp8 te amp gt P$ci vamp$t

gtete camp te etive ampitive +$- i

9i$$ vei8- tt -amp+ ve te it e$tiampi

bet9ee te i

Gamp+ c6t be t+te= e eci$$- i iit$ ci

c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

Decamp+$e te gt$i8 ie amp9e +$ie 9it b- ccitamp c$ampe tamp te gt$i8 ie

ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

Ue amp t $e $et tamp te i+t amp8 te gt$i

8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

cce tt tee ampb$egt 9amp6t be ampb$egt 9it

te PCB igt$egtettiamp amp8 te ci c+it

0 Agt$i8 ie e ttic eitive I8 te- e gt

e= te- gt- 8 i$ igtgteite$- amp e5ibit amp8teamp ($i2 e amp88et vamp$te amp i+t bi c+et

ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

1 amp9 9t i+t e i e+ie 8 ampgt -amp+

gt$i8 ie I8 eite i+t amp8 te gt$i8 ie amp

be-amp te eci8 ie i+t e= te amp+t +t 9i$$

t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

DSltlt04Ce 4

I8 -amp+ ve i i ci c+it= be 9e amp8 te

amp88et vamp$te amp8 te gt$i8 ie Tt amp88et i

ie 9it te et amp8 -amp+ i$ it gtit

ampgtite te e+$t t te amp+t +t amp8 te gt$i8 ie

Damp6t +e i$tampi$ i+t te gt$i8 ie

+$e it i ece - B- te 9-= te- e amp$-

eee 9e b+88 e gt$i8 ie ci c+it i +e amp ampib$- it+gtettiamp gt$i8 ie camp8 i+tiamp

A- ci c+it 9it i 9i$$ ive te amp+t +t amp8 te

gt$i8 ie itamp te i$ be8 ampe te i+t

ampb$egt

Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

ve eie gt$i8 ie 8 amp i amp8 1lt 8 i

tt te AC amp+t +t i$ i gt+c $amp9e t

e5 ecte I8 ti i te ce= -amp+ gt- ve tamp $ampamp2

8 amp gt$i8 ie 9it 9ie b9it

Itbi$it- ampb$egt c ++$$- be amp$ve b-

i ccitamp i $$e$ 9it te 8 eebc2eitamp amp+ te gt$i8 ie Ti ampe gte

t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

It i ve - e tt i$e +$- gt$i8 ie 9i$$

t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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We 9te $eve$ ampe amp9= te i et icampecte(+tamp+ce) 8ampgt 9te ie

Vamp$te t te tie i becampgte $e t Vcc Te te amp+t+t amp8 becampgte i

Te amp+t+t amp8 i 8e tamp SL 1ltlt titamp= it eeie te e$- campi$ te

9te +gt et i t+e ON

Fi3 SL 1ltlt titamp

Wi$e te 9te $eve$ ie= te tamp $eve$ ampbe i campvee b- 9te te titamp becampgte

ON It camp$$ectamp vamp$te ampe tamp Vce(t) QltV

Te $amp9 vamp$te t te t i eet te IC Samp te amp+t+t amp8 becampgte ltV ece te gtamptamp9i$$ t+ OFF +tampgttic$$-

Famp ctic$ igt$egtettiamp= -amp+ gt+t +e e$- Rti amp8 e$- i campe ccampi tamp te$amp (Mamptamp) Agtee e$- i bet +ite 8amp ampgtetic $ictiamp

8i4 ProeSensor arraneent iara

APPLICATIONS

Te $ictiamp e

1 It c be +e 8amp 9te $eve$ camptamp$

It c $amp be +e A+tampgttic 8$+i $eve$ camptamp$ -tegt i I+tie

CONCLSION

T+ b- +i ti igt$e egtet 9e c ve 9te amp8 9te e$ecticit- It i ve- igtamptt 8amp + tamp camptamp$ te +e amp8 t+$ amp+ce amp8 ee- B-

+i ti cic+it 9e c amp$ve amp+ +ampe ve- ei$-

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

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8122019 Ic Application Lab 1 Final Copy

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1 YR

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ie t ampe

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V

R 1

V1

R 1

V

R 1

R

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R

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( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

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camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

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VDD

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R G

R 1 R

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1

H

ampCP0 VOUT

( UT

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( 07 8

1 9

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1R

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Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

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i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

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gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

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gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

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8122019 Ic Application Lab 1 Final Copy

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

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( -U T

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R + ( 07 8

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9

8loatin Crrent Sorce

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8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

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0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

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0 0

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8122019 Ic Application Lab 1 Final Copy

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i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

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te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

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e+$ VREF

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I -U T

Q

8ilters

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ti +9te i$ iamp tamp te i+t amp8 AD

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amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

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Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

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8122019 Ic Application Lab 1 Final Copy

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

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ampCP0

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REF

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( -U T

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R 6

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8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

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In =eneral

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

8122019 Ic Application Lab 1 Final Copy

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

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Nae of t5e

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Dratio

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At5ority Date of

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rear7

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1 ampECATRONIC

S

ADANCED

ampACININ

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ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

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1 Cat5oe

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iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

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eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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PROPOSAL 8OR R D ACTIITY4

1 A e5ct e 8ampgt Ntiamp$Itetiamp$ jamp+$ i ti etit$e e+bjecte(IEEE

Fampgtt)

ANDOR

A tic$e9ite e 8ampgt gtie jamp+$9ee2$-- eiampic$ i te etit$e

S+bject

ANDOR

A Avce tecamp$amp- eve$ampgtet ampamp$tic$e +b$ictiamp 8ampgt - amp+ce amp8

I8ampgttiamp

EACT PAPER 8ROamp A NATIONALINTERNATIONAL ORNAL4

sin Sinle Spply Operational ABplif iers in EBee SysteBs

onnie a$ er

icrochip T echnolog y I nc

ABSTRACT

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie i te gtampt bic b+i$i b$ampc2 8 amp $amp

$ictiamp F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp= i$ ive iamp= $eve$ i8ti=

i amp +btcti i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2 Mampe campgt$e5

ci c+it c $amp be igt$egtete= +c te it+gtettiamp gt$i8 ie = c+et tamp vamp$te campve te =

8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te $eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t

amp8 +8 ampt ei tigte

Fampgt$ c$e amp ti +bject c be ve - campgteeive +e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i

tegt amp8 e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp gtit2 e tt i gte 9e eii 9it

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3045

Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

8122019 Ic Application Lab 1 Final Copy

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

8122019 Ic Application Lab 1 Final Copy

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

8122019 Ic Application Lab 1 Final Copy

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

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te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

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R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

8122019 Ic Application Lab 1 Final Copy

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

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i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

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12

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

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i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

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c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

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ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

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8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

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c+e ampie ampci$$tiamp Tee i ampamp

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te PCB igt$egtettiamp amp8 te ci c+it

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ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

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t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

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ie 9it te et amp8 -amp+ i$ it gtit

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Damp6t +e i$tampi$ i+t te gt$i8 ie

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gt$i8 ie itamp te i$ be8 ampe te i+t

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Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

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tt te AC amp+t +t i$ i gt+c $amp9e t

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8 amp gt$i8 ie 9it 9ie b9it

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t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

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ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

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eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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ampetiamp$ gt$i8 ie i tamp e$ect tamp ic$+e te b- ccitamp i te ci c+it O etiamp$

gt$i8 ie teamp - amp8te ampve$ampamp2 ti ctic$ eti$ I8 te b- ccitamp i gtii= te gt$i8 ie ci c+it

camp+$ ampci$$te t 8 e+ec- tt teampetic$$- ampe6t gt2 e ee I8 te5t bampamp2 amp$+tiamp e +e= ti i

i88 ic+$t ampb$egt tamp amp$ve

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie

$ictiamp 9it te ei e+tiamp ic$+e Tee gt$i8 ie ci c+it 9ee e$ecte 9it egtbee

-tegt itetiamp i gti Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp b+i$ +e8 +$ gt$i8 ie

8 +ctiamp i egtbee camptamp$ $ictiamp

sin Sinle Spply Operational ABplif iers in EBee SysteBs

Aut hor amp onnie a$ er

icrochip T echnolog y I nc

8NDAampENTAL OPERATIONAL AampPLI8IER CIRCITS

INTR ODCTION

Be-amp te igtitive titamp = te ampetiamp$ gt$i8 ie

i te gtampt bic b+i$i b$ampc2 8 amp $amp $ictiamp

F+gtet$ 8 +ctiamp +c i= $amp iamp$tiamp=

i$ ive iamp= $eve$ i8ti= i amp +btcti

i$ e ei$- igt$egtete 9it ti b+i$i b$ampc2

Mampe campgt$e5 ci c+it c $amp be igt$egtete= +c

te it+gtettiamp gt$i8 ie = c+et tamp vamp$te

campve te = 8 i$te = tamp gte amp$- 8 e9 Re$e amp8 te

$eve$ amp8 campgt$e5it- amp8 te ampetiamp$ gt$i8 ie ci c+it=

2 amp9i te 8 +gtet$ ampetiamp beviamp amp8 ti

b+i$i b$ampc2 9i$$ ve campieb$e gtamp+t amp8 +8 ampt

ei tigte

Te amp gt i te $amp b+i$i b$ampc2 tt i $ampamp+ tamp

te iit$ te B- +i te amp gt i te ei= cic+it

c be camp8 i+e tamp gtampi8- te i$ i te gte

8 +gtet$ 9- tt te ive te = A ND= OR te amp

i iit$ ci c+it I ti ectiamp= 8 +gtet$ b+i$i

b$ampc2 +c te vamp$te 8 amp$$amp9e = ampive ti i

ive ti i ci c+it 9i$$ be ic+e Ti 9i$$ be

8 amp$$amp9e b- i$ $itte = i88 eece gt$i8 ie = +gtgti

gt$i8 ie c+et tamp vamp$te campve te

oltae 8ollo6er Aplifier

St ti 9it te gtampt bic amp gt ci c+it= te b+88 e

gt$i8 ie (amp9 i Fi+e 1) i +e tamp ive ev-

$amp= amp$ve igtece gttci ampb$egt= amp iamp$te i

amp9e ci c+it 8 ampgt eitive= ecie cic+it -

Fampgt$ c$e amp ti +bject c be ve - campgteeive

+e8 +$ amp9eve = gt- tigte te- 8 $$ amp t i tegt amp8

e5 eiece amp campgtgtamp ee Famp itce= campgtgtamp

gtit2 e tt i gte 9e eii 9it ampetiamp$

gt$i8 ie i tamp e$ect tamp ic$+e te b-

ccitamp i te ci c+it O etiamp$ gt$i8 ie teamp - amp8te

ampve$ampamp2 ti ctic$ eti$ I8 te b-

ccitamp i gtii= te gt$i8 ie ci c+it camp+$ ampci$$te VIN

t 8 e+ec- tt teampetic$$- ampe6t gt2 e eeI8 te5t bampamp2 amp$+tiamp e +e= ti i i88 ic+$t ampb$egt tamp amp$ve

VDD

3H

VOUT

ampCP01 0 (

Ti $ictiamp ampte i ivie itamp tee ectiamp Te 8 i t

ectiamp 9i$$ $it 8 +gtet$ gt$i8 ie $ictiamp 9it te

ei e+tiamp ic$+e Tee gt$i8 ie cic+it 9ee

e$ecte 9it egtbee -tegt itetiamp i gti

Te ecamp ectiamp 9i$$ +e tee 8 +gtet$ ci c+it tamp

b+i$ +e8 +$ gt$i8 ie 8 +ctiamp i egtbee camptamp$

$ictiamp

Te ti ectiamp 9i$$ ieti8- te gtampt campgtgtamp i$e

+$- ampetiamp$ gt$i8 ie (amp gt) ci c+it ei

gtit2 e Ti $it amp8 gtit2 e bee tee ampve gt- -e

amp8 tamp+b$e ampampti ci c+it 9it +gteamp+ eie i te

i+t - Te gtampt campgtgtamp ei it8 $$ c ei$- be

vampie i8 te cec2 $it 8 ampgt ti amp t t+tampi$ i +e

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

Aampte +e 8 amp te b+88 e gt$i8 ie i tamp amp$ve igtece

gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

igtece campgte tamp te igtece amp8 te 8 amp$$amp9ici c+it - I8 ti ampcc+ = tee 9i$$ be vamp$te $amp 9it te

i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

i88 ic+$t tamp amp 9it - $eve$ amp8 cc+c- i te bet amp8

it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

Oce i= ti ci c+it ampgte etictiamp i tegt amp8 te

i+t amp+t +t e Te ampive ti i+t i

eticte b- te campgtgtampgtampe e amp8 te gt$i8 ie Te

amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

t- ic$$-= te $e i$ t te amp+t +t amp8 te gt$i8 ie

c+e gtampe i$ c$ii eamp t te gt$$e i$ t

te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

gt$i8 ie = te i amp+$ be e+ce

1 Famp) ti ic+iamp= i$e +$- igt$ie tt te etive

+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3045

Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

8122019 Ic Application Lab 1 Final Copy

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

8122019 Ic Application Lab 1 Final Copy

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

8122019 Ic Application Lab 1 Final Copy

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

8122019 Ic Application Lab 1 Final Copy

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

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)

12

12

0

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0 0 + 0

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amp

1

amp

8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

etive +$- i amp8 te amp gt P$ci vamp$t

gtete camp te etive ampitive +$- i

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bet9ee te i

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c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

Decamp+$e te gt$i8 ie amp9e +$ie 9it b- ccitamp c$ampe tamp te gt$i8 ie

ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

Ue amp t $e $et tamp te i+t amp8 te gt$i

8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

cce tt tee ampb$egt 9amp6t be ampb$egt 9it

te PCB igt$egtettiamp amp8 te ci c+it

0 Agt$i8 ie e ttic eitive I8 te- e gt

e= te- gt- 8 i$ igtgteite$- amp e5ibit amp8teamp ($i2 e amp88et vamp$te amp i+t bi c+et

ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

1 amp9 9t i+t e i e+ie 8 ampgt -amp+

gt$i8 ie I8 eite i+t amp8 te gt$i8 ie amp

be-amp te eci8 ie i+t e= te amp+t +t 9i$$

t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

DSltlt04Ce 4

I8 -amp+ ve i i ci c+it= be 9e amp8 te

amp88et vamp$te amp8 te gt$i8 ie Tt amp88et i

ie 9it te et amp8 -amp+ i$ it gtit

ampgtite te e+$t t te amp+t +t amp8 te gt$i8 ie

Damp6t +e i$tampi$ i+t te gt$i8 ie

+$e it i ece - B- te 9-= te- e amp$-

eee 9e b+88 e gt$i8 ie ci c+it i +e amp ampib$- it+gtettiamp gt$i8 ie camp8 i+tiamp

A- ci c+it 9it i 9i$$ ive te amp+t +t amp8 te

gt$i8 ie itamp te i$ be8 ampe te i+t

ampb$egt

Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

ve eie gt$i8 ie 8 amp i amp8 1lt 8 i

tt te AC amp+t +t i$ i gt+c $amp9e t

e5 ecte I8 ti i te ce= -amp+ gt- ve tamp $ampamp2

8 amp gt$i8 ie 9it 9ie b9it

Itbi$it- ampb$egt c ++$$- be amp$ve b-

i ccitamp i $$e$ 9it te 8 eebc2eitamp amp+ te gt$i8 ie Ti ampe gte

t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

It i ve - e tt i$e +$- gt$i8 ie 9i$$

t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

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9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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9832092000 Microchip Technology Inc

VOUT = V

IN

Bypass Capacitor 1prop

Figure 1 u ff er Ampli f ier al so called a vol t age

f olloer

Te b+88 e gt$i8 ie = amp9 i Fi+e 1= c be igt$e

gtete 9it - i$e +$-= +it- i tb$e gt$i8 ie

I ti ci c+it 9it $$ gt$i8 ie ci c+it= te amp gt

gt+t be b- e 9it ccitamp Famp i$e +$-gt$i8 ie tt ampete i b9it 8 ampgt DC tamp

gtee t= 1RF ccitamp i ++$$- ampite

Sampgtetigte gt$$e b- ccitamp i e+ie 8 amp

gt$i8 ie tt ve b9it + tamp te 1lt amp8 gtee t

I tee ce lt1RF ccitamp 9amp+$ be ampite I8

te amp gt ampe ampt ve b- ccitamp amp te 9amp

v$+e i e$ecte= it gt- ampci$$te

Te $amp i amp8 te ci c+it i Fi+e 1 i 1 VV

Namptice tt ti ci c+it ampitive ampve$$ i b+t te

8 eebc2 $ampamp i tie 8 ampgt te amp+t +t amp8 te gt$i8 ie tamp

00$2Cpage 1

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

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eet 9i$$ ampt e5 $icit$- -

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i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

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R 1 R

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ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

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tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

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gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

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1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

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HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

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i+t amp+t +t e Te ampive ti i+t i

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amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

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R 1

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R 2

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

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-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

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R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

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Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

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i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

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Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

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R

R 5 6

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cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

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ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

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gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

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9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

A amp5igttiamp Reite (SAR) campve te tt i ite 8 ce tamp te PIC1Clt7 gticampcamptamp$$e

)

12

12

0

05 1

0 0 + 0

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amp

1

amp

8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

etive +$- i amp8 te amp gt P$ci vamp$t

gtete camp te etive ampitive +$- i

9i$$ vei8- tt -amp+ ve te it e$tiampi

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c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

Decamp+$e te gt$i8 ie amp9e +$ie 9it b- ccitamp c$ampe tamp te gt$i8 ie

ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

Ue amp t $e $et tamp te i+t amp8 te gt$i

8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

cce tt tee ampb$egt 9amp6t be ampb$egt 9it

te PCB igt$egtettiamp amp8 te ci c+it

0 Agt$i8 ie e ttic eitive I8 te- e gt

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ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

1 amp9 9t i+t e i e+ie 8 ampgt -amp+

gt$i8 ie I8 eite i+t amp8 te gt$i8 ie amp

be-amp te eci8 ie i+t e= te amp+t +t 9i$$

t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

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ie 9it te et amp8 -amp+ i$ it gtit

ampgtite te e+$t t te amp+t +t amp8 te gt$i8 ie

Damp6t +e i$tampi$ i+t te gt$i8 ie

+$e it i ece - B- te 9-= te- e amp$-

eee 9e b+88 e gt$i8 ie ci c+it i +e amp ampib$- it+gtettiamp gt$i8 ie camp8 i+tiamp

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gt$i8 ie itamp te i$ be8 ampe te i+t

ampb$egt

Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

ve eie gt$i8 ie 8 amp i amp8 1lt 8 i

tt te AC amp+t +t i$ i gt+c $amp9e t

e5 ecte I8 ti i te ce= -amp+ gt- ve tamp $ampamp2

8 amp gt$i8 ie 9it 9ie b9it

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i ccitamp i $$e$ 9it te 8 eebc2eitamp amp+ te gt$i8 ie Ti ampe gte

t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

It i ve - e tt i$e +$- gt$i8 ie 9i$$

t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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te ive ti i+t A $$ tampamp campgtgtamp eamp i tamp +gte

tt amp gt ci c+it tt ampitive i e+ie

ampitive 8 eebc2 I8 ampitive 8 eebc2 i +e= te

gt$i8 ie 9i$$ gtampt $i2 e$- ive tamp eite i$ t te amp+t +t

Ti gt$i8 ie ci c+it 9i$$ ive ampamp $ie e 8 ampgtce

camp te b9it amp8 te gt$i8 ie Te amp$- etictiamp

amp te i$ 9i$$ ampcc+ e+$t amp8 viamp$tiamp amp8 te i+t

campgtgtampgtampe amp+t +t 9i $igtit Tee $igtittiamp

9i$$ be ic+e i te ti ectiamp amp8 ti $ictiamp

ampte (Agt$i8 ie Dei Pit8 $$)

I8 ti ci c+it i +e tamp ive ev- $amp= te gt$i8 ie tt

i ct+$$- e$ecte gt+t be eci8 ie tamp ampvie te

e+ie amp+t +t c+et Aampte $ictiamp 9ee ti

ci c+it gt- be +e i tamp ive ccitive $amp Nampt eve -

gt$i8 ie i cb$e amp8 ivi ccitamp 9itamp+t becampgti

+tb$e I8 gt$i8 ie c ive ccitive $amp= te

amp+ct t eet 9i$$ i$it ti 8 et+e amp9eve = i8

gt$i8 ie c6t ive ccitive $amp= te amp+ct t

eet 9i$$ ampt e5 $icit$- -

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gttci ampb$egt Ti 9amp+$ be $icb$e i ci c+it

9ee te $amp i$ amp+ ce e$tive$- i

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i$ campe+ece amp8 te vamp$te ivie bet9ee

te amp+ ce6 igtece te 8 amp$$amp9i ci c+it -6

igtece Te b+88 e gt$i8 ie i e 8 ect amp$+tiamp tamp te

ampb$egt Te i+t igtece amp8

te ampive ti i+t amp8 gt$i8 ie c be i 1lt1(

T 8 amp CMOS gt$i8 ie I itiamp= te amp+t +t

igtece amp8 ti gt$i8 ie camp8 i+tiamp i ++$$- $et 1lt T

R 1 R

b+88 e c be +e tamp e 8 ampgt te 8 +ctiamp amp8 ivi

ev- $amp 9i$e te 8 ampt e ci c+it - c be +e tamp

gt2 e eciiamp gte+egtet

=ainin Analo Sinals

Te b+88 e amp$ve $ampt amp8 $amp i$ ampb$egt= amp9eve =

tee e itce i ci c+it 9ee i$ ee tamp

be ie T9amp 8 +gtet$ t- e amp8 gt$i8 ie ci c+it c

be +e Wit te 8 i t t- e= te i$ i ampt

ive te amp9 i Fi+e Ti t- e amp8 ci c+it i+e8 +$ i i$e +$-1

gt$i8 ie $ictiamp 9ee

etive vamp$te e ++$$- ampt ampib$e

R 1 R

VDD

ampCP01 H VOUT

IN

( UT

) +- R( IN

HB- Ccitamp = 1RF

Figure 3 - perat ional ampli f ier con f igured in a

noninver t ing gain cir cuit

Te i+t i$ tamp ti ci c+it i eete tamp te i

igtece= ampive ti i+t amp8 te amp gt Te i tt

te gt$i8 ie ci c+it $ie tamp te i$ i e+$ tamp

( UT

) + - R

( IN

VIN

VDD

VDD H

H VOUTampCP01

T- ic$ v$+e 8 amp tee eitamp i i$e +$- cic+ite bampve 2 T 8 amp R

Te eitamp = R

1= etictiamp e

eeet amp te gtamp+t amp8 i eie

ve + te gtamp+t amp8 gt$i8 ie ampie i+t amp88et

vamp$te eci8 ie i te amp+ct t eet amp8 te amp gt

B+88 e

Peciiamp Agt$i8 ie

HB- Ccitamp = 1RF

Figure 2 oad i solat ion i s achieved u sing a bu ff er

ampli f ier

et ampte +e amp8 ti camp8 i+tiamp i tamp ete et

amp+ ce 8 ampgt eitive eciiamp ci c+it -= amp9 i Fi+e

Igtie tt te i+t ci c+it - tamp ti b+88 e gt$i8 ie igt$i8-i 1ltltRV i$ Ti t- e amp8 gt$i8 ictiamp i

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it+tiamp Ti eciiamp gte+egtet c ei$- be

i+te b- ci te amp+t +t c+et ive amp8 te evice

tt i ampi te gt$i8 ictiamp 9amp 2 A icee i c+et

ive 9i$$ c+e e$8 eti amp8 te ci 9ic 9i$$ i+ce

amp88et ce A $amp

DSltlt04Ce

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i+t amp+t +t e Te ampive ti i+t i

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amp+t +t 9i amp8 te gt$i8 ie i $amp eticte tte i

te amp+ct t eet amp8 te iivi+$ gt$i8 ie Mampt

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te i+t I8 +eib$e c$ii ampcc+ t te amp+t +t amp8 te

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+$- i amp8 te ampe)tiamp$ gt$i8ie) i tie tamp )amp+

te ampitive +$- i i tie tamp V A$$ ic+iamp

i ti $ictiamp ampte c be e5t)amp$te tamp ampte) +$-

vamp$te 9e)e te i$e +$- e5cee V amp) +$

+$ie )e +e

R ltltlt Mic)ampci Tecamp$amp- Ic

R 1

V

O

R 2

O

R 2

R 1

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

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BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

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R

R 5 6

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ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

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gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

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amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

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i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

A amp5igttiamp Reite (SAR) campve te tt i ite 8 ce tamp te PIC1Clt7 gticampcamptamp$$e

)

12

12

0

05 1

0 0 + 0

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amp

1

amp

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

Teampetic$$-= te ci c+it 9iti ti $ictiamp ampte

9amp 2 Be-amp te teamp -= amp9eve = tee e 8 e9 ti tt

9i$$ e$ et te ci c+it it te 8 i t tigte Ti ectiamp=

Agt$i8 ie Dei Pit8 $$= $it campgtgtamp ampb$egt

ampcite 9it +i amp gt 9it amp9e +$-

i+t i$ amp PC Bamp It i ivie itamp 8 amp+cteampie Gee$ S+etiamp= I+t Stte Pampb$egt=

B9it I+e= Si$e S+$- Pit8 $$ ampe8 +$$-=

te gtampt campgtgtamp ampb$egt 9it amp gt igt$egtettiamp

ve bee ee 9iti ti $ictiamp ampte= amp9eve =

i8 -amp+ ve - ampte i+t 8 ampgt e5 eiece= $ee e

gti$ -amp+ +et tamp bampie b2 e[gticampcicampgt

In =eneral

1 Be ce8 +$ amp8 te +$- i Damp6t gt2 e tegt tampamp

i e te gt$i8 ie eci8 ictiamp eet amp6t

gt2 e tegt tampamp $amp9 i +$ie 9i$$ gte te

t I camptt= $amp9 +$ie 9amp6t bi te ite$

titamp te gt$i8 ie 9amp6t 9amp 2 amp it gt-

ampt ampete ampe$- M2 e +e te etive +$- (++$$- amp+) i

i 8 ct tie tamp $amp9 igtece ampteti$ Ai

tiamp$$-= gt2 e +e te ampitive +$- i te

vamp$te -amp+ e5 ect 9e it i e8 eece tamp te

etive +$- i amp8 te amp gt P$ci vamp$t

gtete camp te etive ampitive +$- i

9i$$ vei8- tt -amp+ ve te it e$tiampi

bet9ee te i

Gamp+ c6t be t+te= e eci$$- i iit$ ci

c+it P$ -amp+ amp+i cegte ce8 +$$- I8 te

ci c+it $ampt amp8 iit$ ci c+it -= campie

ete amp+ amp9e $e It i ve - i8

8 ic+$t= i8 ampt igtampib$e= tamp egtampve iit$ 9itci

ampie 8 ampgt $amp i$

Decamp+$e te gt$i8 ie amp9e +$ie 9it b- ccitamp c$ampe tamp te gt$i8 ie

ampib$e Famp CMOS gt$i8 ie = lt1RF ccitamp i ++$$- ecampgtgtee A$amp ecamp+$e te amp9e

+$- 9it 1ltRF ccitamp

Ue amp t $e $et tamp te i+t amp8 te gt$i

8 ie I8 -amp+ ve teec- tamp +e te 9ite e 8

bamp 8 amp amptampt- i= be 9e tt te- c

c+e ampie ampci$$tiamp Tee i ampamp

cce tt tee ampb$egt 9amp6t be ampb$egt 9it

te PCB igt$egtettiamp amp8 te ci c+it

0 Agt$i8 ie e ttic eitive I8 te- e gt

e= te- gt- 8 i$ igtgteite$- amp e5ibit amp8teamp ($i2 e amp88et vamp$te amp i+t bi c+et

ce) tt 9i$$ et 9amp e ampve tigte

Inpt Stae Proles

1 amp9 9t i+t e i e+ie 8 ampgt -amp+

gt$i8 ie I8 eite i+t amp8 te gt$i8 ie amp

be-amp te eci8 ie i+t e= te amp+t +t 9i$$

t- ic$$- be ive tamp ampe amp8 te amp9e +$-

i$

DSltlt04Ce 4

I8 -amp+ ve i i ci c+it= be 9e amp8 te

amp88et vamp$te amp8 te gt$i8 ie Tt amp88et i

ie 9it te et amp8 -amp+ i$ it gtit

ampgtite te e+$t t te amp+t +t amp8 te gt$i8 ie

Damp6t +e i$tampi$ i+t te gt$i8 ie

+$e it i ece - B- te 9-= te- e amp$-

eee 9e b+88 e gt$i8 ie ci c+it i +e amp ampib$- it+gtettiamp gt$i8 ie camp8 i+tiamp

A- ci c+it 9it i 9i$$ ive te amp+t +t amp8 te

gt$i8 ie itamp te i$ be8 ampe te i+t

ampb$egt

Do Yo alte t5e Ban6it5H

1 Accamp+t 8 amp te b9it amp8 te gt$i8 ie 9e

ei i$ tamp+ te ci c+it amp+ gt-

ve eie gt$i8 ie 8 amp i amp8 1lt 8 i

tt te AC amp+t +t i$ i gt+c $amp9e t

e5 ecte I8 ti i te ce= -amp+ gt- ve tamp $ampamp2

8 amp gt$i8 ie 9it 9ie b9it

Itbi$it- ampb$egt c ++$$- be amp$ve b-

i ccitamp i $$e$ 9it te 8 eebc2eitamp amp+ te gt$i8 ie Ti ampe gte

t- ic$$- ampt $9- I8 gt$i8 ie ci c+it i

+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

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t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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A ive ti gt$i8 ie camp8 i+tiamp i amp9 i

Fi+e Wit ti ci c+it= te i$ t te i+t ei

tamp = R 1= i ie ive te tamp te amp+t +t amp8 te gt$i8 ie Te i e+tiamp 8 amp ti ci c+it i

-U T ) R - R

IN + R + - R (

I A

Te e 8 amp 0 01 e te gte i te amp

ive ti ci c+it amp9 i Fi+e

VDD

0)2 to 22T

C

R ( 01)2 to 22T

H

ampCP01

VOUT

VS C1

R 1 R

VI N

VDD

VREF

R VIN ADC

H VOUTampCP01

VBIAS

( -U T

) (

R HB- Ccitamp =

1RF

( UT

) R -R IN

+ R + - R( I A

HB- Ccitamp = 1RF

Figure 4 - perat ional ampli f ier con f igured in aninver t ing gain cir cuit I n single suppl y environments a

( IA

i s re3uired t o in sure t he out put st a ys above

ground

I i$e +$- $ictiamp= ti ci c+it c ei$- be

gti+e Famp e5gt$e= $et R e+$ 1lt2 T R e+$ 12 T=V

BIAS e+$ ltV= te vamp$te t te i+t eitamp = R =

e+$ tamp 1ltltgtV Wit ti camp8 i+tiamp= te amp+t+tvamp$te 9amp+$ be W1V Ti 9amp+$ viamp$te te amp+t +t 9ie amp8 te ampetiamp$ gt$i8 ie I e$it-= te amp+t +t amp8te gt$i8 ie 9amp+$ amp e tamp amp+ ampib$e

Te ic$+iamp amp8 DC vamp$te t VBIAS

i ti ci c+it

amp$ve ti ampb$egt I te eviamp+ e5gt$e= vamp$teamp8 gtV $ie tamp V

BIAS 9amp+$ $eve$ i8t te amp+t +t

i$ + 3V Ti 9amp+$ gt2 e te amp+t +t i$e+$ tamp (3V W 1V) amp 13V t te amp+t +t amp8 te

gt$i8 ie T- ic$$-= te vee amp+t +t vamp$te amp+$ be

eie tamp be e+$ tamp VDD

Sinle Spply Circits an Spply Splitters

Figure 5 A suppl y s plitt er i s con st ruct ed u sing one

operat ional ampli f ier T hi s ty pe o f f unct ion i s par t icu

larl y u se f ul in single suppl y cir cuits

A amp$i $eve$ i8t vamp$te c ei$- be igt$egtete+i vamp$te ivie (R ( R ) amp e8 eece vamp$teamp+ ce b+88 ee b- te gt$i8 ie Te t8 e 8 +c

tiamp 8 amp ti ci c+it i

( -U T

) ( 44

R

R 5 6

Te ci c+it i Fi+e e$bampte campgtetiamp

cegte tamp $$amp9 8 amp te ev- ccitive $amp= C1 Te bee8 it amp8 ti bi ccitamp i tt it eet ve - $amp9 AC

eitce tamp te e8 eece i amp8 te AD campve te I te

AC ampgti= te ccitamp e ve ce ee vampi ttbampb - gtampgtet - c+et +e 9ic e

ccteitic amp8 gt$i AD campve te e8 eece i

T5e Difference Aplifier

Te i88 eece gt$i8 ie campgtbie te ampive ti

gt$i8 ie ive ti gt$i8 ie ci c+it amp8 Fi+e

Fi+e itamp i$ b$ampc2 tt +btct t9amp i$ Te

igt$egtettiamp amp8 ti ci c+it i amp9 i Fi+e 0

R 1 R V

VDD

A 9 amp9 i te ive ti i ci c+it (Fi+e )=i$e +$- ci c+it amp8te ee $eve$ i8t tamp 2 ee te

i$ bet9ee etive (++$$- amp+) ampitive

+$- i Ti $eve$ i8t c be eie 9it i$e

gt$i8 ie campgtbitiamp amp8 eitamp ccitamp

amp9 i Fi+e M- tigte igt$e b+88 e gt$i8 ie

9itamp+t campgtetiamp ccitamp 9i$$ ccampgt$i ti t2

I ampte ce te $eve$ i8t ci c+it 9i$$ ee -gtic amp

tiet $amp ce= $i2 e te e8 eece tamp A$amptamp

Diit$ (AD) campve te I tee $ictiamp= te $eve$

i8t ci c+it gt+t amp$ it vamp$te camptt I8 it ampe ce=

campve iamp eamp gtit be ampbe ve

H

R 1 ampCP01 VOUT

1

R

VREF

( -U T

) X(

( 1

YR -

R +

( 07 8 R

- R HB- Ccitamp = 1RF

Figure 6 - perat ional ampli f ier con f igured in a

di ff erence ampli f ier cir cuit

R 1

R 1

R R 1 1

R 4

0

V

R 2

V V R

2

3 4R + R

O

R V

R 2 2

2 1

1

6

0 + 0

0 01 1

0 0

8122019 Ic Application Lab 1 Final Copy

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R ltltlt Mic)ampci Tecamp$amp- Ic DSltlt04Ce (

8122019 Ic Application Lab 1 Final Copy

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

+ ( 07 8 R

- R

Ti ci c+it camp8 i+tiamp 9i$$ e$ib$- t2 e te i88 eece amp8

t9amp i$ $amp te i$ amp+ ce igtece e $amp9

I8 te i$ amp+ ce igtece e i 9it

e ect tamp R 1= tee 9i$$ be i$ $amp +e tamp te vamp$teivie ctiamp bet9ee te amp+ ce te i+t

eitamp tamp te i88 eece gt$i8 ie Aitiamp$$-= eamp campcc+ i8 te t9amp i$ amp+ ce igtece e gtigttce

Wit ti ci c+it it i ampib$e tamp ve i e+$ tamp amp

ie t ampe

Sin Aplifier

S+gtgti gt$i8 ie e +e 9e gt+$ti$e i$ ee

tamp be campgtbie b- itiamp amp +btctiamp Sice te

i88 eece gt$i8 ie c amp$- ampce t9amp i$= it i

+bet amp8 te +gtgti gt$i8 ie

D1 ID1

Lit

VBIAS

D1

Lit ID1

C

R

VDD

HampCP01

R

VDD

HampCP01

VOUT

VOUT

R 1 V(

V

R 1

V1

R 1

V

R 1

R

VDD

HampCP01

R

VOUT

( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

+ ( 1 (

5 (

6 YR

R

A $it igtie amp te amptamp iampe= ce i eete=

c+i c+et tamp 8 $amp9 i te eve e bi iectiamp amp8 te

amptampetectamp I8 CMOS amp gt i +e= te i i+t

igtece amp8 te amp gt c+e te c+et 8 ampgt te

etectamp (ID1) tamp amp tamp+ te t amp8

$amp9e eitce= R Aitiamp$$-= te amp gt i+t bi

c+et eamp i $amp9 bec+e it i CMOS (t- ic$$-

Zltlt A) Te ampive ti i+t amp8 te amp gt i e8

eece tamp amp+ 9ic 2 ee te etie ci c+it bie tamp

amp+ Tee t9amp ci c+it 9i$$ amp$- 9amp 2 i8 te campgtgtamp

gtampe e amp8 te gt$i8 ie ic$+e eamp

A- +gtbe amp8 i+t c be +e amp eite te ive ti amp

ampive ti i+t ie $amp tee e e+$

+gtbe amp8 bampt 9it e+iv$et eitamp

Crrent to oltae Conltersion

A ampetiamp$ gt$i8 ie c be +e tamp ei$- campve t te

i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

amptampetectamp = itamp vamp$te Ti i igt$egtete

9it i$e eitamp amptiamp$ ccitamp i te8 eebc2 $ampamp amp8 te gt$i8 ie amp9 i Fi+e 4

DSltlt04Ce

T9amp ci c+it e amp9 i Fi+e 4 Te tamp ci c+it i

eie tamp ampvie eciiamp ei 8 ampgt te amptamp

etectamp I ti ci c+it te vamp$te camp te etectamp i

e$- eamp e+$ tamp te amp88et vamp$te amp8 te

gt$i8 ie Wit ti camp8 i+tiamp= c+et tt e

camp te eitamp = R = i igti$- e+$t amp8 te $ite5cittiamp amp te amptampetectamp

Te amptampei ci c+it amp te bampttampgt amp8 Fi+e 4 i

eie 8 amp ie ee ei Ti i ampe b-eve e bii te amptampetectamp = 9ic e+ce te

itic ccitce amp8 te iampe Tee i gtampe $e2 e

tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

(

0 01 1

-

01

0

01

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

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te ampive ti gt$i8 ie amp9 i Fi+e

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$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

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( -U T

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R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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t5e

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Natre of

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Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

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instry

Natre

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instry

Date of

ltisit

No of

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1 1-01( 0 III1 I SEamp

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=IDELINES 8OR SADO9 EN=INEERIN=2IP3

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OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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1 ampECATRONIC

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stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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Date of

caliration

Date of

caliratione

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Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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SIN= TE 8NDAampENTALS

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Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

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8122019 Ic Application Lab 1 Final Copy

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be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

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0 0

0 10

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amp

( 078

8122019 Ic Application Lab 1 Final Copy

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i e+ce vi

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Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

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1)

1

)

VDD

R (

C(

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ampCP0

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( -U T

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R R

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8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

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8122019 Ic Application Lab 1 Final Copy

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Mic)ampci Tecamp$amp- Ic

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tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

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It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

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Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

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Cleanin an

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6ell

Trainer gtits Testin anTroles5ootin

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Po6er Spplys Testin an

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( ampltieters Error Correction

an Caliration

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Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

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8122019 Ic Application Lab 1 Final Copy

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

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Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

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te e+igtet 8ampgt +t= it etc

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gt+$

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ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

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ete 8i$e

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Te t8 e 8 +ctiamp 8 amp ti gt$i8 ie ci c+it i

-U T ) X( (

1 YR

- R

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ie t ampe

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V

R 1

V1

R 1

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R 1

R

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R

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( -UT ) 01 I 4

HB- Ccitamp = 1RF

Figure Current t o vol t age conver t er u sing an

ampli f ier and one re si st or T he t op light scanning

cir cuit i s appropriat e f or preci sion applicat ion s T he

bott om cir cuit i s appropriat e f or high s peed

applicat ion s

( UT

) X(

+ ( 1 (

5 (

6 YR

R HB- Ccitamp = 1RF

Figure 7 - perat ional ampli f ier con f igured in a

sum ming ampli f ier cir cuit

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( -U T

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+ ( 1 (

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Crrent to oltae Conltersion

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i$ 8 ampgt eamp tt amp+ce amp+t +t c+et= +c

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DSltlt04Ce

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tamp+ te iampe 9ic c+e ie DC eamp

R ltltlt Mic)ampci Tecamp$amp- Ic

0 0

0

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

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i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

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( -U T

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amp

9 0 0 05 5

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0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

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( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

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Reitive Tegtet+e Device (R TD) Ti tic+$

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8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

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amp

( 078

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

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b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

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e+$ VREF

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I -U T

Q

8ilters

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ti +9te i$ iamp tamp te i+t amp8 AD

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amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

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R ( R

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Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

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O te amp9 ie= tee i ampgte ampve ampampt

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R ltltlt Mic)ampci Tecamp$amp- Ic

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

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ADC PIC1C+0

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R R

R 6

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8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

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Pttin it Toet5er

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

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In =eneral

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+tb$e= +ic2 tbi$it- $-i 9i$$ amp9 te

ampb$egt ampbb$- te amp$+tiamp

Sinle Spply RailtoRail

1 O etiamp$ Agt$i8 ie amp+t +t ive e cb$e amp8

ivi $igtite gtamp+t amp8 c+et tamp te $amp

Ccitive $ampi gt$i8 ie i i2- b+i

e M2 e +e te gt$i8 ie i eci8 ie tamp

$e - $amp tt -amp+ gt- ve

It i ve - e tt i$e +$- gt$i8 ie 9i$$

t+$- 9i i$tampi$ I e$it-= te amp+t +t amp8

gtampt amp8 tee gt$i8 ie c amp$- campgte 9iti lttamp ltltgtV 8 ampgt ec i$ Cec2 te amp+ct t

eet amp8 -amp+ gt$i8 ie

R E8ER ENCES

Seiamp Fcamp= Dei 9it O etiamp$ Agt$i8 ie

A$amp Itete Ci c+it= McG9 i$$

Feei2e= Tampgt= It+itive O etiamp$ Agt$i8 i

e = McG9 i$$

Wi$$igt= igt= A$amp Ci c+it Dei= B+tte

9amp teiegt

B2 e = Bampie= Ati$ii A$amp Fi$te 8 amp Dt

Ac+iitiamp S-tegt= A N077= Micampci Tecamp$amp-

Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie Tampamp$ampie

DC S eci8 ictiamp= A N3= Micampci Tecamp$amp- Ic

B2 e = Bampie= O etiamp$ Agt$i8 ie AC S eci8 ic

tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

R ltltlt Mic)ampci Tecamp$amp- Ic

8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

Tee - tii amp C+tampgt IC ei +i gt tecamp$amp- i ampampe t CDAC= -eb

SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

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SIN= TE 8NDAampENTALS

Instrentation Aplifier

It+gtettiamp gt$i8 ie e 8 amp+ i $e viet- amp8

$ictiamp 8 ampgt gteic$ it+gtettiamp tamp ampce

camptamp$ Te it+gtettiamp gt$i8 ie i igti$ tamp te

i88 eece gt$i8 ie i tt it +btct ampe $amp i$

8 ampgt ampte = b+t it i88 e i tegt amp8 te +$it- amp8 te

i+t te A c$ic= tee amp gt it+gtettiampgt$i8 ie i i$$+tte i Fi+e 7

VDD

A ecamp it+gtettiamp gt$i8 ie i amp9 i

Fi+e 1lt I ti ci c+it= te t9amp gt$i8 ie e ve te

8 +ctiamp amp8 $amp iamp$tiamp= i$ i Te ecamp

gt$i8 ie $amp i88 eetite te t9amp i$

R G

R 1 R

VREFV

DD

1 H

R 1

ampCP0R

V1

ampCP0

V H R ( R

1

VDD

V1 ampCP0

VOUT

R R G R R (

1

H

ampCP0 VOUT

( UT

) X( (

1 YR + + R +

( 07 8

1 9

HB- Ccitamp = lt1RF

1R

V1 ampCP0 VREF

Figure 1 An in st rument at ion ampli f ier can be

de signed u sing t o ampli f ier s T hi s con f igurat ion i s be st suit ed f or higher gain s gain 5 ((

( UT

) X(

( 1 Y +

R

R + (

07 8

R HB- Ccitamp = 1RF

Figure An in st rument at ion ampli f ier can be

de signed u sing t hree ampli f ier s T he input operat ional

ampli f ier s provide signal gain T he out put operat ional

ampli f ier conver ts t he signal f rom t o inputs t o a

single ended out put it h a di ff erence ampli f ier

Wit ti ci c+it te t9amp i+t i$ e eete tamp te

i igtece ampive ti i+t amp8 te gt$i8 ie Ti i itict vte ampve te i88 eece gt$i8 ie

camp8 i+tiamp 9e amp+ ce igtece e i amp gti

gttce Te 8 i t te $amp i te t9amp icampgti i

$ Ti i i igt$- j+te 9it ampe eitamp = R G

Famp$$amp9i te 8 i t te amp8 ti ci c+it i i88 eece

gt$i8 ie Te 8 +ctiamp amp8 ti amp tiamp amp8 te ci c+it i tamp

eject te campgtgtamp gtampe vamp$te amp8 te t9amp i+t i$

9e$$ i88 eetite tegt Te amp+ ce igtece amp8

te i$ itamp te i+t amp8 te i88 eece gt$i8 ie e

$amp9= e+iv$et 9e$$ camptamp$$e

Te e8 eece vamp$te amp8 te i88 eece te amp8 ti

it+gtettiamp gt$i8 ie i cb$e amp8 i 9ie

e Mampt t- ic$$- ti ampe i e8 eece tamp $8 amp8 te+$- vamp$te i i$ +$- $ictiamp A +$-

$itte +c te ci c+it i Fi+e c be +e 8 amp ti

+ampe Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X( ( 1

YR +

R R-

R + (

078 R

R

R ltltlt Mic)ampci Tecamp$amp- Ic

amp

9 0 0 05 5

0 10

0

amp

ampamp

amp-

0 0

-

110 0 06 6

0 0 09 5 5

6 610 0 01

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Te ci c+it e8 eece vamp$te i +$ie tamp te 8 i t

amp gt i te i$ ci T- ic$$-= ti vamp$te i

$8 amp8 te +$- vamp$te i i$e +$-

eviampgtet

Te t8 e 8 +ctiamp amp8 ti ci c+it i

( -U T

) X(

( 1 YR + +

R + ( 07 8

1

9

8loatin Crrent Sorce

A 8 $ampti c+et amp+ ce c campgte i - 9eivi vib$e eitce= $i2 e

Reitive Tegtet+e Device (R TD) Ti tic+$

camp8 i+tiamp amp+ce ampite 1gtA amp+ ce

8 amp R TD t- e eamp = amp9eve = it c be t+e tamp

- c+et

R 1 R 1

VDD

H 1 ( 078

1( 0 ampCP0

0l )1lt$ T

( 078)1lt ( VR1 1

R 1 R 1

ampCP0 ( 07 8 1( 0

R TD IOUT

I -U T

Q

HB- Ccitamp = 1RF 0)1lt$ T

Figure 11 A f loat ing current sour ce can

be con st ruct ed u sing t o

operat ional ampli f ier s and a preci sion vol t age

re f erence

DSltlt04Ce

0 0

0 10

12

amp

( 078

8122019 Ic Application Lab 1 Final Copy

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Wit ti camp8 i+tiamp= te vamp$te amp8 VREF

i e+ce vi

te 8 i t eitamp = R 1= b- te vamp$te VR 1 Te vamp$te

$ie tamp te ampive ti i+t amp8 te tamp amp gt i VW V Ti vamp$te i ie tamp te gt$i8 ie6 amp+t+t

b- t9amp tamp e+$ (VREF W VR1) Me9i$e= te amp+t+t 8 amp

te bampttampgt amp gt i eete 9it te vamp$te VREF

W VR1 S+btcti te vamp$te t te amp+t +t amp8 te tamp

gt$i8 ie 8 ampgt te ampive ti i+t amp8 te bampttampgtgt$i8 ie ive (VREF W VR1) W (VREF W VR1) 9ic

e+$ VREF

Te t8 e 8 +ctiamp amp8 te ci c+it i

I -U T

Q

8ilters

B $amp9 8 i$te e ve - +e8 +$ i e$igti

ti +9te i$ iamp tamp te i+t amp8 AD

campve te Te $amp9 8 i$te amp9 i Fi+e 1 t9amp

amp$e tt c be camp8 i+e 8 amp B+tte9amp t 8 i$te

e ampe B+tte9amp t 8 i$te ve 8 $t gtit+e

e ampe i te b 9it ampamp $$amp+ e 8 ampgtce

R ( R

1ltlt2 T 7lt72 T

VDD

R 1 R ampCP01

H

VIN OUT

72 T 7302 T C1

3ltF

1ltltF

) +

R IN 5

Secamp Oe 1lt2 = Lamp9 P S$$e e- Fi$te

HB- Ccitamp = 1RF

Figure 12 o pa ss= 1pole = act ive f il t er s are ea sil y

de signed it h one operat ional ampli f ier T he re si st or s and

capacit or s can be adju st ed t o implement ot her f il t er

ty pe s= such a s e ssel and Cheb yshev

DSltlt04Ce 0

( 1

V

C

0 0

( 078

0

( 0-UT 6

( 0

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O te amp9 ie= tee i ampgte ampve ampampt

ii 9it te e ampe tamp+ ti 8 i$te

Ti gt- amp gt- ampt be i+e= eei amp

te $ictiamp cic+it e+iegtet Te i

amp8 ti 8 i$te i j+tb$e 9it R ( R

Namptice te igti$itie i ti i e+tiamp

te ampive ti gt$i8 ie amp9 i Fi+e

Ti t- e amp8 8 i$te i $amp e8 ee tamp ti

$ii 8 i$te = 9ic i +e tamp e$igtite ci c+it

ampie i te 8 e+ec- b bampve $8 amp8

-+it amp8 te gt$i -tegt I ti gte =

tee i 8 e+ec- ampie= tt 9amp+$ t- ic$$-

$i bc2 itamp te i$ t= e egtampve

Te DC i amp8 te ci c+it i Fi+e 1 i

)

R +

R IN

5

Te b 8 i$te amp9 i Fi+e 1 i

camp8 i+e 9it eamp t9amp amp$e tamp

ccampgtgtampte eec $ictiamp Te i$e

eamp i 8 i$te amp tiamp amp8

ti ci c+it i campt+cte 9it C1 R 1 i $$e$ 9it R Namptice tt R 1 R $ampcete +$- $itte vamp$te t te ampive ti i+t amp8 bampt amp8 te gt$i

8 ie Ti i+e tt bampt ampetiamp$ gt$i8 ie ampe

te i tei $ie eiamp Te ecamp gt$i8 ie =U= i campj+ctiamp 9it te campgtampet R (= R =C(= C et t9amp amp$e campe 8 e+ec-Ti 8 i$te e$igtite

i 8 e+ec- ampie tt gt- be $ie bc2

itamp te i$ t

Te i$ i amp8 ti ci c+it i

( -U T

) ( IN

R

RR

R 6

1

Famp gtampe eti$ bamp+t $amp9 8 i$te e8 e tamp

A Ngt Ant ialia sing Analog 8 il t er s f or

4at a Ac3ui sit ion s yst em sA

R ltltlt Mic)ampci Tecamp$amp- Ic

( 0-UT 6

( 0

5 1

0 0 + 0

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1)

1

)

VDD

R (

C(

VDD

VI N

C1R

1

R

H R R

ampCP0

C

ampCP0

REF

IN

ADC PIC1C+0

IN

( -U T

) ( IN

R

R R

R 6

1

HB- Ccitamp)= 1RF

8ire 14 Ban pass f ilters can e iBpleBente 6it5 one operational aBplif ier esine to perf orB t5e 5i5 pass

f nction an a secon aBplif ier to perf orB t5e lo6 pass f nction

72 T

72 T

ampCP0(

1gtA72 T

ampCP0(

72 T 72 T

772 T

V REF Q V

1ltltT

1ltlt2 T

1ltlt2 T

ampCP0(

032 T

1lt2 T

INampCP0(

1(2 T

((RF

REF 3RF

PIC1C+0

ADC

Pt1ltltRF

Le Campgtetiamp Gi Q 0VV

Fi+e 1G Campgt$ete i$e +$- tegtet+e gte+egtet ci c+it

Pttin it Toet5er

Te ci c+it amp9 i Fi+e 1 +ti$ie 8 amp+ ampetiamp$gt$i8 ie $amp 9it 1bit AD campve te tamp igt$egtet campgt$ete i$e +$- tegtet+e gte+egtet ci c+it Te tegtet+e

eamp i R TD 9ic e+ie c+et e5cittiamp Te c+et e5cittiamp i +$ie b- te ci c+it ecibe i Fi+e 11 Te i

ti$ii 8 i$te i igt$egtete 9it te ci c+it amp9 i Fi+e 1

Te vamp$te i$ 8 ampgt te R TD i ee b- gt$i8 ie tt i +e i campgtbitiamp amp8 ampive ti camp8 i+tiamp ive ti

camp8 i+tiamp

Te amp+t +t amp8 ti gt$i8 ie i te et tamp gt$i8 ie tt i camp8 i+e t9amp amp$e= $amp9 8 i$te i i amp8 0VV A i amp8

i5 9 campe i ampe tamp campgt$- 9it te i+t e amp8 AD campve te A+gti te gt$i 8 e+ec- amp8 te AD

campve te i 32 = 9ic i $amp 2 amp9 te -+it 8 e+ec-= te c+tamp88 8 e+ec- amp8 te ti$ii 8 i$te (U) i et tamp 1lt2

Ti $$amp9 $et- amp8 b9it 8 amp te 8 i$te tamp tte+te te i$ iamp tamp 1 amp8 -+it Te AD campve te i 1bit S+cceive

A amp5igttiamp Reite (SAR) campve te tt i ite 8 ce tamp te PIC1Clt7 gticampcamptamp$$e

)

12

12

0

05 1

0 0 + 0

1)

amp

1

amp

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Mic)ampci Tecamp$amp- Ic

AampPLI8IER DESI=N PIT8ALLS

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tiamp A $ictiamp= A N3= Micampci Tecamp$amp-

Ic

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

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Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

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PROCEDRE 8OR CALIBRATION

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Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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ec- 9amp 9i$$ c- amp+t c$ibtiamp

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8ampgtt

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After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

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SS

Instrents

gt7atpally

Trainer

gtits

SS

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gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

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8amp$$amp9i +ie$ieMitece Sce+$e

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8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

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an Caliration

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8122019 Ic Application Lab 1 Final Copy

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7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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1)

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

Nae of

t5e

Corse

Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

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1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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Sn

o

Nae of t5e

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At5ority Date of

TraininCertificat

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rear7

s

1 ampECATRONIC

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1

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CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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PROCEDRE 8OR CALIBRATION

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

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Certificate

no

Certificate

isse y

Date of

caliration

Date of

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Case 14 Caliration of EGipent if any

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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t5e

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Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

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instry

Natre

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instry

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ltisit

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1 1-01( 0 III1 I SEamp

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8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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1 ampECATRONIC

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i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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PROCEDRE 8OR CALIBRATION

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8122019 Ic Application Lab 1 Final Copy

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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caliration

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Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

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8122019 Ic Application Lab 1 Final Copy

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ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

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1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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Natre of

instry

Dration

of

Trainin

At5ority Date of

TraininCertificate

No

Rear7s

=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

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instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

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1 1-01( 0 III1 I SEamp

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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stanars

8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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8122019 Ic Application Lab 1 Final Copy

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Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

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8122019 Ic Application Lab 1 Final Copy

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ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

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ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3845

8NDED N8NDED PROPOSALS4

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AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

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TABLE 14 INDSTRIAL ISITS

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S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

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1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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t5e

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Natre of

instry

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of

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At5ority Date of

TraininCertificate

No

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=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

8122019 Ic Application Lab 1 Final Copy

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

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stents

participate

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1 1-01( 0 III1 I SEamp

(1( 0 IIII I

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=IDELINES 8OR SADO9 EN=INEERIN=2IP3

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8122019 Ic Application Lab 1 Final Copy

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1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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8122019 Ic Application Lab 1 Final Copy

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ii To rin correctness in t5e errors of instrent or eGipent

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3845

8NDED N8NDED PROPOSALS4

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AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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Natre of

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of

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At5ority Date of

TraininCertificate

No

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8122019 Ic Application Lab 1 Final Copy

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

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PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

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8122019 Ic Application Lab 1 Final Copy

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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Sn

o

Nae of t5e

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Dratio

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Trainin

At5ority Date of

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stanars

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

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ampAINTAINANCE AND TROBLESOOTIN= 4

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3745

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3845

8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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TraininCertificate

No

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=IDELINES 8OR SADO9 EN=INEERIN= 2IP3

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3945

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

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stents

participate

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1 1-01( 0 III1 I SEamp

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OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4045

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

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o

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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1 Cat5oe

ray

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Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3845

8NDED N8NDED PROPOSALS4

Te ampamp$ 8amp T9amp Wee2 Egtbee S-tegt Fc+$t- Deve$ampgtet Pampgtgte (FDP) +e

AICTE t i $ie 9iti 8amp it ampv$

10 PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS3 2IN OSE OR OTSIDE

ISIT3TRAININ= PRO=RAampampES4

TABLE 14 INDSTRIAL ISITS

A amp8 amp9 amp i+ti$ viit i ampampe

S No Type of

instry

Natre of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 Rear7s

1

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 Enineerin3

2Career isit Approltal3

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SNo

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 3945

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

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1 1-01( 0 III1 I SEamp

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4045

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

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TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

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instry

Dratio

n of

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At5ority Date of

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1 ampECATRONIC

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1

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CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

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PROCEDRE 8OR CALIBRATION

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

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After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

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Certificate

isse y

Date of

caliration

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caliratione

Rear7s

1 Cat5oe

ray

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e

SS

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gt7atpally

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gt7atpally

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iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

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9or7in

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Po6er Spplys Testin an

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( ampltieters Error Correction

an Caliration

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23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

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A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

8122019 Ic Application Lab 1 Final Copy

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INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OBECTIES O8 SADO9 EN=INEERIN=4

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e igtet

Ti ampgt $e tamp gtti5i 9it te t+et

PROPOSALS 29EEgt 9ISE INDSTRIAL ISITS32IN OSE OR OTSIDEISIT3TRAININ= PRO=RAampampES4

TABLE 1 4 INDSTRIAL ISITS

Sno Type of

instry

Natre

of

instry

Date of

ltisit

No of

stents

participate

Yearranc5 rear7s

1 1-01( 0 III1 I SEamp

(1( 0 IIII I

SEamp

=IDELINES 8OR SADO9 EN=INEERIN=2IP3

INDSTRIAL ISITS 2IIP ) INNOATIE INDSTRIAL LEARNIN= PRO=RAamp34

OECTIES O8 SADO9 EN=INEERIN=4

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4045

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

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o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4045

1 Te ampgt 9ic +$i8t te 2amp9$ee amp8 te t+et e$te tamp $bamptampie

Tamp igtampve te i+t-camp$$ee itectiamp

Tamp cete i+t- $i2e eviampgtet 8amp $$ te t+et i ampe tamp gt2e 8+t+e

Aigtet

Ti ampgt $e tamp gtti5i 9it te t+et

TABLE 4 INDSTRIAL TRAININ= 2S5ao6 En3

2Career isit Approltal3

Sn

o

Nae of t5e

Corse

Natre of

instry

Dratio

n of

Trainin

At5ority Date of

TraininCertificat

e No

rear7

s

1 ampECATRONIC

S

ADANCED

ampACININ

=

1

9EEgt

DyDirecto

r

ACTIITIES IN LI8T PRO=RAampampE

CALIBRATIONINSTALLATION AND TESTIN=4

Caliration4 Ai of t5is concept is to c5ec7 4

i65et5er all t5e eGipent is fnctionin correctly as per t5e

stanars

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

Etigtte te 8e+ec- amp8 evitiamp 8ampgt ampgt$ gtampe

I8 te e+igtet i +e 9t-= te i8ampgt tamp campcee +$ie amp

ec- 9amp 9i$$ c- amp+t c$ibtiamp

0 I8 te e+igtet i amp+t amp8 9t- te 9e c campgte te evitiamp ette eamp ecti8ictiamp

3 Gee$$- e te ampce+e= te e+igtet amp it+gtet c be c$ibte

b- te ecie i+e c$ibtiamp ceti8icte 9ic campit amp8 te amp8

c$ibtiamp= c$ibtiamp e5t +e te egt2 gtetiampe i te 8amp$$amp9i

8ampgtt

4 Recamp 2ee $$ te c$ibtiamp ceti8icte i 8e c+tamp-

After caliration t5e etails of eGipent s5ol e sitte in follo6in forat

Sno Type of

eGipent

Certificate

no

Certificate

isse y

Date of

caliration

Date of

caliratione

Rear7s

1 Cat5oe

ray

Oscilloscop

e

SS

Instrents

gt7atpally

Trainer

gtits

SS

Instrents

gt7atpally

Cat5oe

ray

Oscilloscope

o

iltCalirationTestin an Installation etails eGipent 6ise are entione as follo6s4

Case 14 Caliration of EGipent if any

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

Presently there is no new equipment is present for either testing orinstallations

ampAINTAINANCE AND TROBLESOOTIN= 4

ampaintenance4

Mitece tamp+b$e ampampti amp8 ec e+igtet i $bamptamp- gt+t 8amp$$amp9 te

8amp$$amp9i +ie$ieMitece Sce+$e

(1) Pevetive Mitece Sce+$e amp8 $b 9i$$ be ecie b- $b i ce $amp 9it

campcee OD Te eti$ amp8 ce+$e amp+$ be ecampe i te 8amp$$amp9i tegt$te amp8

8ampgtt

SNo Nae of t5e

EGipent

Date of

ampaintenance

Type of Actiltity Rear7s

1 Cat5oe ray

Oscilloscope

Cleanin an

Serlticin

9or7in

6ell

Trainer gtits Testin anTroles5ootin

9or7inOgt

Po6er Spplys Testin an

Troles5ootin

9or7in

Ogt

( ampltieters Error Correction

an Caliration

9or7in

Ogt

23 Mitece Reampt +$- ie b- i ce 9e$$ OD +$- ampve b-

Pici$ eiampic$$-

TROBLE SOOTIN= SCEDLES4

A ampamp$ i tamp be gte 8ampgt ec $b bc 9ie Te ampamp$ amp+$ c- 8amp$$amp9i

eti$ e$te tamp eci8ic e+igtet i $b

SNamp= E+igtet Ngte = T-e amp8 Pampb$egt (Tampamp gt+c Nampie= Abampgt$ Samp+= Camp+t

Samp8t9e= Ati Vi+ Pampb$egt= Mii amp8 Di$-= CRT ampt 9amp2i= Mamptamp i ampt ivi i$=

Diit$ i$- i ampt 9amp2i= Be2 amp8 tampamp$= Mi $igtet amp8 gtcie e$egtet= PLC i ampt

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

ampe$- 9amp2i)= E5ecte Reamp ( Bei 8i$+e= Igtampe $igtet amp8 gtcie cete=

Mii amp8 vibtiamp etc)

Tamp+b$e ampampti e5ecie amp+$ be ampe$- ecampe i ete 8ampgtt gtetiampe be$amp9

SNo Date of recorinactiltity EGipentNae Type ofTrole ReeialActiltity Rear7s

ASSESSampENT AND ACCREDITATION PROCESDRE AS PER NABL

Acceittiamp i te 8ampgt$ ecampitiamp= +tampitiamp eittiamp amp8 $bamptamp- tt egtamptte it cbi$it-= campgtetece ceibi$it- tamp c- amp+t te t2 It ampvie te

8eebc2 tamp $bamptampie tamp 9ete te- e e8ampgti ccampi tamp tecic$ campgtetece

e +ie$ie amp8 NABL (Ntiamp$ Acceittiamp Bamp 8amp Teti C$ibtiamp Lbamptampie)

Te $bamptamp- amp+$ c- amp+t te 8amp$$amp9i igtamptt t2 tamp9 etti e- 8amp

cceittiamp 8ampgt NABL

1 Petiamp amp8 gtetampamp$amp- i ec e5eigtet

Petiamp amp8 St Oeti ampce+e 8amp ec e+igtet

Petiamp amp8 Lbamptamp- M+$ e te +ie$ie eci8ie b- Campgtbie Lb

Tegt(CLT) ee b- Pici$ODDeice

E+e E88ective eviampgtet$ campitiamp(tegtet+e= +gtiit-=tampe

$cegtet) i te $bamptampie b- igt$egteti ampe amp+e2eei c$ei amp8

te e+igtet 8ampgt +t= it etc

E+e C$ibtiamp amp8 it+gtete+igtet(O$- NABL cceite +tampie

$bamptampie ampvie c$ibtiamp

0 A$$ te eti$ amp8 C$ibtiamp amp+$ be ic$+e i te 8ampgtt eci8ie e5c$+ive$- 8amp

c$ibtiamp ampce+e

3 E+e ampe igt$egtettiamp amp8 $$ te ampc+gtet= 8ampgtt tamp be ic$+e i te $b

gt+$

4 Igtt tii 8amp $$ te tecici 9amp2i i $b bamp+t te igtamptce amp8

ampc+gtettiamp= $amp eet= ampeti ampce+e amp8 te $b

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

7 Icampampte Ite$ Lb +it 8amp e88ective 8+ctiampi amp8 te $bamptampie A+it

gt- be ampce i gtampt amp gtampt amp t te e amp8 te egtete Te +it ce+$e

9i$$ be ecie b- te Cigt Pici$ amp8 te CLT tegt

1lt A+itamp amp+$ +bgtit te eti$e eampt amp8 ec $b +$- ie tamp te Pici$

11 Ec $b amp+$ gtiti $$ te bi$$ivampice amp8 ec it+gtet amp e+igtet i

ete 8i$e

1 A$$ te tampc2 eite eite camp+gtb$e amp amp camp+gtb$e amp+$ be +te

9eeve - +ce amp8 camp+gtb$e amp e+igtet t2e $ce

1 A$$ te 8et- ec+tiamp e ampe$- i$-e i 8ampt amp8 ec $b

1 A$$ te Le e5eigtet amp+$ be gtitie ete$- i ecamp ecamp i

ete 8amp$e

1 Be amp Pe Aegtet eampt +bgtitte b- +itamp= campective ctiamp amp+$ be

cie amp+t b- ec $b i ce tt gt+t be 8amp9e tamp campcee OD

Pici$

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4145

ii To rin correctness in t5e errors of instrent or eGipent

iii To rectify t5e errors if any

Installation4 Ai of t5is concept is to a7e an aintain installation procere for a

Ne6 eGipent or alreay eFistin eGipent

Testin 4 Ai of t5is concept is to test t5e eGipent after installation 65et5er it

ampeets t5e eFistin stanars

Te $it amp8 e+igtet (9eamp8t9e)

Neceit- amp8 tampamp$ 8amp eve$ampgtet teti

E+igtet tamp be c$ibte

It$$tiamp amp8 +ampti e+igtet i8 -

PROCEDRE 8OR CALIBRATION

A- E+igtet amp It+gtet amp G+e amp Mcie c be c$ibte te t

+ie$ie gtetiampe +e

1Ieti8- te E+igtetIt+gtetG+eMcie 9ic i +e e8ective amptamp be c$ibte amp campectiamp 8amp eamp

Ieti8- te t-e amp8 eamp etigtte it 8e+ec- amp8 vitiamp

Cec2 9it Mte St amp e+igtetit+gtetgtcie 9ic i

9amp2i campect$- gteeti amp+ e+iegtet

8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4245

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4345

Case 4 Installation of EGipent if any

Case 4 Testin of EGipent if any

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4445

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

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8122019 Ic Application Lab 1 Final Copy

httpslidepdfcomreaderfullic-application-lab-1-final-copy 4545

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