r2007 tirunelveli eee 3 -8

8/10/2019 R2007 Tirunelveli EEE 3 -8

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ANNA UNIVERSITY TIRUNELVELI

TIRUNELVELI 627 007

B.E DEGREE PROGRAMME

ELECTRICAL AND ELECTRONICS ENGINEERING

SEMESTER III

THEORY L T P M

1. MA 1201 Mathematics III 3 1 0 1002. EE1151 Electric Circuit analysis 3 1 0 1003. EE 1201 Electromagnetic Theory 3 1 0 1004. EE 1202 Electrical Machines I 3 0 0 1005. EC 1211 Electronic Deices 3 0 0 100

!. C" 1211 Data "tructures an# Algorithms 2 0 2 100$. CE1211 "oli# an# %lui# Mechanics 3 1 0 100PRACTICAL

1. EE 1203 Electrical Machines &a'oratory I 0 0 3 1002. EE 1152 Electric Circuits la' 0 0 3 1003 (E1202 Communication ")ills an# Technical

"eminar * I0 0 3 100

SEMESTER IV

THEORY L T P M

1. MA 1251 +umerical Metho#s 3 1 0 1002. EE 1251 Electrical Machines II 3 1 0 1003. EE 1252 Transmission , Distri'ution 3 1 0 1004. IC 1251 Control "ystems 3 1 0 1005. EC 12!1 Electronic Circuits 3 0 0 100!. ME 1211 A--lie# Thermo#ynamics 3 1 0 100

PRACTICAL

1. IC 1252 Control "ystems &a'oratory 0 0 3 1002. EC 12!2 Electronic Deices an# Circuits &a'oratory 0 0 3 1003. EE 1304 Electrical Machines &a'oratory II 0 0 3 1004. (E1251 Communication s)ills an# Technical

"eminar * II0 0 3 100

0


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SEMESTER V

THEORY L T P M

1. EE 1301 o/er Electronics 3 0 0 1002. EE 1302 rotection , "/itchgear 3 0 0 1003. EC 1311 Communication Engineering 3 0 0 100

4. EC 1312 Digital &ogic Circuits 3 1 0 1005. EC 1313 &inear Integrate# Circuits 3 0 0 100!. C" 12!1 'ect riente# rogramming 3 1 0 100

PRACTICAL

1. EE 1303 o/er Electronics , Dries &a'oratory 0 0 3 1002. C" 12!2 'ect riente# rogramming

&a'oratory eercise on A--lication oC6

0 0 3 100

3. EC 1314 Integrate# Circuits &a'oratory 0 0 3 1004. (E 1303 Communication ")ills an# Technical

"eminar0 0 3 100

SEMESTER VI

THEORY L T P M

1. EE 1351 "oli# "tate Dries 3 1 0 1002. EE 1352 o/er "ystem Analysis 3 1 0 1003. EI 13!1 Measurements , Instrumentation 3 0 0 1004. EC 13!1 Digital "ignal rocessing 3 1 0 1005. EC 13!2 Micro-rocessor , Microcontroller 3 1 0 100

!. M( 1351 rinci-les o Management 3 0 0 100PRACTICAL

1. EI 13!2 Measurements , Instrumentation&a'oratory

0 0 3 100

2. EC 13!3 Micro-rocessor , Micro controller&a'oratory

0 0 3 100

3. EE1353 D" &a' 1 0 3 100(E 1351 resentation ")ills an# Technical "eminar 0 0 3 100

SEMESTER VII

THEORY L T P M

1. EE 1401 o/er "ystem -eration an# Control 3 1 0 1002. EE 1402 7igh 8oltage Engineering 3 0 0 1003. EE 1403 Design o Electrical A--aratus 3 1 0 1004. EC14!1 8&"I Design 3 0 0 1005. C91201 Enironmental "cience an# Engineering 3 0 0 100!. Electie I 3 0 0 100

PRACTICAL

1. EE 1404 o/er "ystem "imulation &a'oratory 0 0 3 100

2. EE 1453 Com-rehension 0 0 3 100

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B.E ELECTRICAL AND ELECTRONICS ENGINEERING

LIST OF ELECTIVES

ELECTIVE I

Sl.No Code No. Co!"e T#$le L T P M

1. EI 1001 %i're -tics an# &aser Instruments 3 0 0 100

2. C" 1031 8isual &anguages an# A--lications 3 1 0 1003. IC 1031 A#ance# Control "ystem 3 0 0 1004. EC 1031 Tele Communication "/itching an#

+et/or)s3 0 0 100

5. (E 1301 roessional Ethics , 7uman 8alues 3 0 0 100ELECTIVE II


!. EI 1351 =io*Me#ical Instrumentation 3 0 0 100$. C" 1032 Artiicial Intelligence an# E-ert "ystems 3 0 0 100>. C" 1033 Data Communication an# +et/or)s 3 0 0 100

?. EE 1002 o/er "ystem Dynamics 3 0 0 10010. C" 1034 Com-uter Architecture 3 1 0 10011. M( 1401 Total @uality Management 3 0 0 100

ELECTIVE III


12. C" 1035 -erating "ystems 3 1 0 10013. EE 1003 o/er "ystem Transients 3 0 0 10014. C" 103! Internet/or)ing Technology 3 0 0 10015. EC 1032 Em'e##e# "ystem Design 3 0 0 1001!. EC 1451 Mo'ile Communication 3 0 0 100

ELECTIVE IV


1$. EE 1004 o/er @uality 3 0 0 1001>. IC 1002 A#a-tie Control 3 0 0 1001?. EE 100! -erations esearch 3 0 0 10020. EE1001 "-ecial Electrical Machines 3 0 0 10021. IC 1403 +eural +et/or) an# %u


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SEMESTER III

MA %20% MATHEMATICS III & % 0

%00

AIM

The course aims to #eelo- the s)ills o the stu#ents in the areas o 'oun#ary alue-ro'lems an# transorm techniBues. This /ill 'e necessary or their eectie stu#iesin a large num'er o engineering su'ects li)e heat con#uction: communicationsystems: electro*o-tics an# electromagnetic theory. The course /ill also sere as a

-rereBuisite or -ost gra#uate an# s-eciali


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&. BOUNDARY VALUE PROBLEMS

)

Classiication o secon# or#er Buasi*linear -artial #ierential eBuations "olutions oone*#imensional /ae eBuation ne #imensional heat eBuation "tea#y statesolution o t/o*#imensional heat eBuation Insulate# e#ges eclu#e#6 %ourier series

solutions in Cartesian coor#inates.*. FOURIER TRANSFORM

)

%ourier integral theorem /ithout -roo6 %ourier transorm -air "ine an#Cosine transorms ro-erties Transorms o sim-le unctions Conolutiontheorem arseals i#entity.

+. , -TRANSFORM AND DIFFERENCE E(UATIONS

)

*transorm * Elementary -ro-erties Inerse transorm Conolution theorem*%ormation o #ierence eBuations "olution o #ierence eBuations using *transorm.

L *+ T %+ To$/l 60

TET BOO1S

1. (re/al: =.".: 7igher Engineering MathematicsF: Thirty "ith E#ition : Ghanna

u'lishers: Delhi: 2005.

2. Gan#asamy: .: Thilagaathy: G.: an# (unaathy: G.: Engineering Mathematics

8olume IIIF: ". Chan# , Com-any lt#.: +e/ Delhi: 2003.

3. T.8eera aan Engineering Mathematics H%or "emester III. Thir# E#ition.Tata

Mc(ra/*7ill u'lishing Com-any. +e/ Delhi:200$

REFERENCES

1. +arayanan: ".: Manicaachagom illay: T.G. an# amaniah: (.: A#ance#

Mathematics or Engineering "tu#entsF: 8olumes II an# III: ". 8is/anathan rinters

an# u'lishers6 t. &t#. Chennai: 2002.

2. amana =.8 7igher Engineering MathematicsF: Tata Mc(ra/ 7ill u'lishingCom-any.+e/ Delhi:200$

3. Churchill: .8. an# =ro/n: J.K.: %ourier "eries an# =oun#ary 8alue ro'lemsF:

%ourth E#ition: Mc(ra/*7ill =oo) Co.: "inga-ore: 1?>$

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EE%%+% ELECTRIC CIRCUIT ANALYSIS & 0 0 %00

AIM

To e-ose 'asic circuit conce-ts: circuit mo#elling an# metho#s o circuit analysis in time#omain an# reBuency #omain or soling sim-le an# multi #imensional circuits inclu#ingcou-le# circuits an# three -hase circuits.

OB'ECTIVE

i. To un#erstan# the conce-t o circuit elements: lum-e# circuits: /aeorms: circuit la/san# net/or) re#uction.

ii. To analyse the transient res-onse o series an# -arallel A.C. circuits an# to sole-ro'lems in time #omain using &a-lace Transorm.

iii. To un#erstan# the conce-t o actie: reactie an# a--arent -o/ers: -o/er actor an#resonance in series an# -arallel circuits.

i. To sole the electrical net/or) using mesh an# no#al analysis 'y a--lying net/or)theorems.

. To )no/ the 'asic conce-ts o cou-le# circuits: three -hase loa#s an# -o/ermeasurement.

%. BASIC CIRCUIT CONCEPTS )

&um-e# circuitsL Circuit elements: i#eal sources in#e-en#ent an# #e-en#ent6: linear-assie -arameters : & an# C 8*I relationshi- o circuit elements sinusoi#al oltagean# current: M" alue: orm actor Girchos &a/s analysis o series an# -arallel

circuitsL +et/or) re#uction oltage an# current #iision: source transormation:starN#elta transormation.

2. TRANSIENT ANALYSIS OF FIRST SECOND ORDER CIRCUITS )

"ource ree res-onse o & an# C circuits orce# ste-6 res-onse o & an# Ccircuits source ree res-onse o &C series circuit orce# ste-6 res-onse o &Cseries circuit orce# res-onse o &: C an# &C series circuit to sinusoi#alecitation time constant an# natural reBuency o oscillation o circuits. &a-laceTransorm a--lication to the solution o &: C , &C circuitsL Initial an# inalalue theorems an# a--lications: conce-t o com-le reBuency: #riing -oint an#

transer im-e#ance: -oles an#


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Conce-t o -hasor an# com-le im-e#ance N a#mittance analysis o sim-le series an#-arallel circuitsL Actie -o/er: reactie -o/er: a--arent -o/er olt am-ere6: -o/eractor an# energy associate# /ith these circuits conce-t o com-le -o/er -hasor#iagram: im-e#ance triangle an# -o/er triangle associate# /ith these 3#!3#$".esonance in series an# -arallel circuitsL @ actor: hal*-o/er reBuencies an#

'an#/i#th o resonant circuits.

*. MULTI DIMENSIONAL CIRCUIT ANALYSIS NET4EOR1 THEOREMS

)

+o#e oltage analysis o multi no#e circuit /ith current sources: rules orconstructing no#al a#mittance matri H9 or soling matri eBuation H9 8OI Mesh*current analysis o multi no#e circuits /ith oltage sources: rules or constructingmesh im-e#ance matriH or soling matri eBuation HIO8. "u-er -ositiontheorem: Theenins theorem: +ortons theorem: eci-rocity theorem: Com-ensationtheorem: Tellegens theorem: Millmans theorem: maimum -o/er transer theorem

or aria'le resistance loa#: aria'le im-e#ance loa# an# aria'le resistance an# ie#reactance loa#.

+. COUPLED CIRCUITS AND THREE PHASE CIRCUITS )

Cou-le# circuitsL mutual in#uctance: coeicient o cou-ling: #ot conention analysiso sim-le cou-le# circuits. Three -hase circuitsL three -hase 'alance# N un'alance#oltage sources: symmetrical com-onents: analysis o three -hase 3*/ire an# 4*/irecircuits /ith star an# #elta connecte# loa#s 'alance# , un'alance#6: -hasor #iagramo oltages , currents: -o/er an# -o/er actor measurements in three -hase circuits.

L *+ To$/l *+

TET BOO1S

1. Killiam 7.7ayt Jr: Jac) E.Gemmerly: an# "teen M.Dur'in: PEngineering CircuitAnalysis: Tata Mc(ra/ 7ill u'lishing Co &t#: +e/ Delhi: 2002.

2. Jose-h A.E#minister: Mahmoo# +ahi: PElectric Circuits: "chaums "eries: TataMc(ra/ 7ill -u'lishing Co. &t#.: +e/ Delhi 2001.

REFERENCE BOO1S

1. .C. Dor: PIntro#uction to Electric Circuits: John Kiley , "ons Inc: +e/ 9or): "econ#E#ition: 2003.

2. Charles G.Alean#er: Mathe/ +.. "a#i)u: P%un#amentals o Electric Circuit:M3G!/5 H#ll N.Y 200&.

$


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EE %20% ELECTROMAGNETIC THEORY & % 0

%00

AIM

To e-ose the stu#ents to the un#amentals o electromagnetic iel#s an# theira--lications in Electrical Engineering .

OB'ECTIVES

To im-art )no/le#ge on

i. Conce-ts o electrostatics: electrical -otential: energy #ensity an# theira--lications.

ii. Conce-ts o magnetostatics: magnetic lu #ensity: scalar an# ector -otentialan# its a--lications.

iii. %ara#ays la/s: in#uce# em an# their a--lications.

i. Conce-ts o electromagnetic /aes an# oynting ector.

. %iel# mo#eling an# com-utation /ith releant sot/are.

%. INTRODUCTION

"ources an# eects o electromagnetic iel#s 8ector iel#s Dierent co*or#inatesystems * Diergence theorem "to)es theorem.

2. ELECTROSTATICS

%0

Coulom's &a/ Electric iel# intensity %iel# #ue to -oint an# continuous charges (ausss la/ an# a--lication Electrical -otential Electric iel# an# eBui-otential-lots Electric iel# in ree s-ace: con#uctors: #ielectric Dielectric -olari


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EE %202 ELECTRICAL MACHINES I & 0 0

%00

AIM

To e-ose the stu#ents to the conce-ts o electromechanical energy conersions inD.C. machines an# energy transer in transormers an# to analyse their -erormance.

OB'ECTIVES

i. To intro#uce the conce-t o rotating machines an# the -rinci-le oelectromechanical energy conersion in single an# multi-le ecite# systems.

ii. To un#erstan# the generation o D.C. oltages 'y using #ierent ty-e ogenerators an# stu#y their -erormance.

iii. To stu#y the /or)ing -rinci-les o D.C. motors an# their loa# characteristics:starting an# metho#s o s-ee# control.

i. To amiliari


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*. TRANSFORMERS

%2

Constructional #etails o core an# shell ty-e transormers Ty-es o /in#ings rinci-le o o-eration em eBuation Transormation ratio Transormer on no*loa# arameters reerre# to 78 N &8 /in#ings EBuialent circuit Transormer on

loa# egulation arallel o-eration o single -hase transormers Auto transormer Three -hase transormers 8ector grou-.

+. TESTING OF DC MACHINES AND TRANSFORMERS

&osses an# eiciency in DC machines an# transormers Con#ition or maimumeiciency Testing o DC machines =ra)e test: "/in'urnes test: etar#ation testan# 7o-)insons test Testing o transormers olarity test: loa# test: o-en circuitan# short circuit tests All #ay eiciency.

No$eL ;nit 5 may 'e coere# along /ith ;nit 2:3:an# 4.L *+ To$/l *+

TET BOO1S

1. D.. Gothari an# I.J. +agrath: PElectric Machines: Tata Mc(ra/ 7ill u'lishingCom-any &t#: 2002.

2. .". =im'hra: PElectrical Machinery: Ghanna u'lishers: 2003.

REFERENCE BOO1S1. A.E. %it


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EC %2%% ELECTRONIC DEVICES & 0 0

%00

AIM

To stu#y the characteristics an# a--lications o electronic #eices.

OB'ECTIVES

To acBuaint the stu#ents /ith construction: theory an# characteristics o the ollo/ingelectronic #eicesL

i6 -*n unction #io#eii6 =i-olar transistoriii6 %iel# Eect transistori6 &ED: &CD an# other -hoto electronic #eices.

6 o/er controlNregulator #eices.%. SEMICONDUCTOR DIODE

)

Theory o -*n unction -*n unction as #io#e -*n #io#e currents 8olt*am-characteristics Dio#e resistance Tem-erature eect o -*n unction Transitionan# #iusion ca-acitance o -*n #io#e Dio#e s/itching times.

2. BI-POLAR TRANSISTOR

)

Junction transistor Transistor construction Detaile# stu#y o currents in transistor In-ut an# out-ut characteristics o CE: C= an# CC conigurations Transistorhy'ri# mo#el or CE coniguration Analytical e-ressions or transistorcharacteristics Transistor s/itching times 8oltage rating o/er transistors.

&. FIELD EFFECT TRANSITORS

)

Junction iel# eect transistor inch o oltage J%ET olt*am-ere characteristics J%ET small signal mo#el M"%ET" an# their characteristics %ET as a aria'le

resistor ;niunction transistor.

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*. OPTO ELECTRONIC DEVICES

)

hoto emissiity an# -hoto electric theory Theory: construction an# characteristicsLlight emitting #io#es: liBui# crystal cell: seen segment #is-lay: -hoto con#uctie cell:

-hoto#io#e: solar cell: -hoto transistor: o-to cou-lers an# laser #io#e.

+. MISCELLANEOUS DEVICES

)

Theory: characteristics an# a--licationL "C: TIAC: ;T: tunnel #io#e: thermistors:-ie


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%. INTRODUCTION TO DATA STRUCTURES )

Data ty-es in C * ointers in C *Data structures an# C * Arrays in C * Array asADT * ne #imensional array *Im-lementing one #imensional array * Array as

-arameters * T/o #imensional array *"tructures in C * Im-lementing structures *;nions in C * Im-lementation o unions *"tructure -arameters

ecursie #einition an# -rocessesL %actorial unction * %i'onacci seBuence

2. STAC1 (UEUE AND LIN1ED LIST

)

"tac) #einition an# eam-les rimitie o-erations Eam-le *e-resenting stac)s in C * ush an# -o- o-eration im-lementation.

C Im-lementation o Bueues -eration on @ueues * riority Bueue * Arrayim-lementation o -riority Bueue.

Inserting an# remoing no#es rom a list*lin)e# im-lementation o stac):Bueue an# -riority Bueue * ther list structures * Circular listsL "tac) an# Bueue ascircular list *rimitie o-erations on circular lists. 7ea#er no#es * Dou'ly lin)e# lists

&. TREES

)

=inary treesL -erations on 'inary trees * A--lications o 'inary trees * =inarytree re-resentation * +o#e re-resentation o 'inary trees * Im-licit array re-resentationo 'inary tree =inary tree traersal in C * Threa#e# 'inary tree * e-resenting list as

'inary tree*. SORTING AND SEARCHING

)

(eneral 'ac)groun# o sortingL Eiciency consi#erations: +otations:Eiciency o sorting. Echange sortsL =u''le sort @uic) sort "election sort =inarytree sort 7ea- sort. 7ea- as a -riority Bueue * "orting using a hea-*hea- sort

-roce#ure * Insertion sortsL "im-le insertion * "hell sort * A##ress calculation sort *Merge sort *a#i sort.

"eBuential searchL In#ee# seBuential search * =inary search * Inter-olation search.

+. GRAPHS

)

A--lication o gra-h * C re-resentation o gra-hs * Karshalls algorithm "hortest-ath algorithm * &in)e# re-resentation o gra-hs * Di)stras algorithm * "-anningorests * ;n#irecte# gra-h an# their traersals * De-th irst traersal * A--lication o#e-th irst traersal * Eiciency o #e-th irst traersal * =rea#th irst traersal *Minimum s-anning tree * Grus)als algorithm * oun# ro'in algorithm.

TET BOO1

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1. Aaron M. Tenen'aum: 9ee#i#yah &angsam: Moshe J. Augenstein: PData structuresusing C:earson E#ucation: 2004 N 7I.

REFERENCE BOO1S

1. E. =alagurusamy: Programming in Ansi C: "econ# E#ition: Tata Mc(ra/ 7illu'lication: 2003.

2. o'ert &. Gruse: =ruce . &eung Clois &.Ton#o: PData "tructures an# rogramDesign in C: earson E#ucation: 2000 N 7I.

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DATA STRUCTURES AND ALGORITHMS LABORATORY

AIM

To im-lement @uene: stac): lin)e# lists an# to im-lement search: sort an# traersal techniBue.

1. @ueue im-lementation using arrays.

2. "tac) im-lementation*using arrays.

3. "ingly: #ou'ly li)e# list im-lementation

4. Circular li)e# list im-lementation an# all -ossi'le o-erations on lists.

5. @ueue im-lementation using lin)e# list

!. "tac) im-lementation using lin)e# list

$. =inary search tree im-lementation using lin)e# list an# -ossi'le o-erations on 'inary "earch trees.

>. In * or#er: -reor#er an# -ost or#er traersals.

?. (ra-h im-lementation using arrays an# list structure.

10. De-th irst an# =rea#th irst traersal in gra-hs.

CE1211 SOLID AND FLUID MECHANICS 3 1 0 100

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1. EQUILIBRIUM, STRESS, STRAIN AND DEFORMATION OF SOLIDS9

Stability and equilibrium of plane frames perfect frames types of trusses analysis of forces in truss members method of joints Rigid bodies and deformablesolids Tension, Compression and sheer stresses Deformation of simple andcompound bars Elastic constants stresses at a point stresses on inclined planes

principal stresses and principal planes.

2. BENDING OF BEAMS AND TORSION 9

eams Types and trans!erse loading on beams sheer force and bendingmoment in beams Cantile!ers Simply supported beams and o!er"hangingbeams. Theory of simple bending #nalysis of stresses load carrying capacity $roportioning sections leaf springs Shear stress distribution. Stresses anddeformation in circular and hollo% shafts stresses in helical springs Deflection ofsprings

3. FLUID CONCEPTS,KINEMATICS AND DYNAMICS 9

&luid definition, distinction bet%een solid and fluid " 'nits and dimensions "$roperties of fluids " density, specific %eight, specific !olume, specific gra!ity,temperature, !iscosity, compressibility, !apour pressure, capillary and surfacetension " &luid statics( concept of fluid static pressure, absolute and gauge pressures" pressure measurements by manometers and pressure gauges. &luid )inematics "&lo% !isuali*ation " lines of flo% " types of flo% " !elocity field and acceleration "continuity equation +one and three dimensional differential forms" Equation ofstreamline " stream function " !elocity potential function " circulation " flo% net fluiddynamics " equations of motion " Euler-s equation along a streamline " ernoulli-sequation applications " enturi meter, /rifice meter, $itot tube " dimensional

analysis " uc0ingham-s theorem" applications " similarity la%s and models.

4. INCOMPRESSIBLE FLUID FLO 9

iscous flo% " 1a!ier"Sto0e-s equation +Statement only " Shear stress, pressuregradient relationship " laminar flo% bet%een parallel plates " 2aminar flo% throughcircular tubes +3agen poiseulle-s " 3ydraulic and energy gradient " flo% through pipes "Darcy "%eisbac0-s equation " pipe roughness "friction factor" 4oody-s diagram"minorlosses " flo% through pipes in series and in parallel " po%er transmission " oundarylayer flo%s, boundary layer thic0ness, boundary layer separation " drag and liftcoefficients.

!. HYDRAULIC TURBINES AND PUMPS 9

&luid machines( definition and classification " e5change of energy " Euler-sequation for turbo machines " Construction of !elocity !ector diagrams " head andspecific %or0 " components of energy transfer " degree of reaction. 3ydro turbines(definition and classifications " $elton turbine " &rancis turbine " propeller turbine ")aplan turbine " %or0ing principles " !elocity triangles " %or0 done " specific speed "efficiencies "performance cur!e for turbines.$umps( definition and classifications "Centrifugal pump( classifications, %or0ing principle, !elocity triangles, specific speed,

efficiency and performance cur!es " Reciprocating pump( classification, %or0ingprinciple, indicator diagram, %or0 sa!ed by air !essels and performance cur!es "ca!itations in pumps " rotary pumps( %or0ing principles of gear and !ane pumps

1$


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TOTAL " 4!

TE#T BOOKS

6. 7unar0ar S., 84echanics of Structures9, ol. 6, :6ST

edition, Charotar$ublishing 3ouse, #nand, ;ndia, 6


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EE %20& ELECTRICAL MACHINES LABORATORY I 0 0 &

%00

AIM

To e-ose the stu#ents to the o-eration o D.C. machines an# transormers an# giethem e-erimental s)ill.

1. -en circuit an# loa# characteristics o D.C se-arately an# sel ecite# shuntgenerator

2. &oa# characteristics o D.C. com-oun# generator /ith #ierential an# cumulatieconnection

3. &oa# characteristics o D.C. shunt an# com-oun# motor

5. &oa# characteristics o D.C series motor

!. "/in'urnes test an# s-ee# control o D.C shunt motor

$. 7o-)insons test on D.C motor generator set

$. &oa# test on single*-hase transormer an# three -hase transormer connections

>. -en circuit an# short circuit tests on single -hase transormer

?. "um-ners test on transormers

10. "e-aration o no*loa# losses in single -hase transormer

P *+ To$/l *+

De$/#led S;ll/9"

%. O DC Se D.C. Co@>e!e=$#/l

/=d 3@l/$#e 3o==e3$#o=

A#@

To con#uct loa# test on DC com-oun# generator an# o'tain the loa#characteristic cures

1?


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E?e!3#"e

1. 'tain the ollo/ing cures or cumulatie: #ierential an# shuntgenerator

a. I&8s 8 or DC cumulatie com-oun# generator

'. I&8s 8 or DC #ierential com-oun# generator

All gra-hs shoul# 'e #ra/n on the same gra-h sheet

&. Lo/d 3:/!/3$e!#"$#3" o> DC S:=$ /=d 3o@


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E?e!3#"e

1. re#etermine eiciency at arious loa# current /hile o-erating as amotor an# generator an# -lot a gra-h out-ut 8s QR

2. Dra/ the ollo/ing cures or

a. I8s + at 8aO 0.> 8aan# 8a

'. 8a8s + at 0.> Ian# I

6. Hoo!@e! /=d $:!ee o!@e!

3o==e3$#o="

A#@

To con#uct loa# test on the gien single -hase transormer an# #etermine itserormance.

E?e!3#"e

1. Dra/ the ollo/ing gra-h or single -hase transormer

a. ut-ut 8s QR

2. To carry out the ollo/ing three -hase transormer connection

9*9 9*S S S S 9

Chec) the in-ut out-ut oltage ratio or arious three -hase connection.

. Oo!@e!

A#@

To con#uct .C an# ".C test on a single -hase transormer an# calculate the-erormances

E?e!3#"e

1. Determine the eBuialent circuit o the transormer.

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2. re#etermine the eiciency at #ierent loa# at ;% an# 0.> o/er actor

lagging.

3. re#etermine the ull loa# regulation at #ierent -o/er actor.

4. Dra/ the ollo/ing cures

a. ut-ut 8s QR'. o/er actor 8s Regulation

). S@o!@e!

A#@

To se-arate the iron losses o a single -hase transormer into its com-onents

a. 7ysterisis losses

'. E##y current lossesE?e!3#"e

1. "e-arate the no loa# losses into hysterisis an# e##y currentcom-onents.

22


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EE %%+2 ELECTRIC CIRCUITS LABORATORY 0 0 & %00

OB'ECTIVE

To im-art han#s on e-erience in eriication o circuit la/s an#theorems: measurement o circuit -arameters: stu#y o circuit characteristics an#simulation o time res-onse.

1. 8eriication o Girchos oltage an# current la/s: Theenins an# +ortons

Theorems.

2. "tu#y o oscillosco-e an# measurement o sinusoi#al oltage: reBuency an# -o/eractor.

3. Measurement o time constant o series *C electric circuits.

4. %reBuency res-onse o C an# & circuits.

5. esonant reBuency an# reBuency res-onse o a series &C circuit.

!. "tu#y o the eect o @ on reBuency res-onse an# 'an#/i#th o series an#

-arallel resonant circuits.

$. "tu#y o lo/ -ass an# high -ass ilters.

>. Measurement o real -o/er: reactie -o/er: -o/er actor an# im-e#ance o C: &an# &C circuits using oltmeters an# ammeters.

?. o/er measurement in a three -hase circuit 'y t/o Kattmeters.

10. "tu#y o irst an# secon# or#er circuit transients 'y #igital simulation.

P *+ To$/l *+

REFERENCE BOO1

1. aul =.'ar: (or#on oc)ma)er an# Dai# J.=ates: P=asic Electricity: A tet &a'Manual: Mc(ra/ 7ill: "eenth E#ition * 2001.

De$/#led S;ll/9"

%. Ve!#>#3/$#o= o> 1#!3:o>>" ol$/e /=d 3!!e=$ l/5"

T:ee=#=" /=d No!$o="

T:eo!e@"

A#@

To eriy Girchchos oltage an# current la/s: Theenins an# +ortons Theorems.

E?e!3#"e"

1. 8eriy the Girchos oltage an# current la/ in a series circuit an# in a circuit/ith series an# -arallel com'ination.

2a6 Determine the Theenin eBuialent oltage 8T7an# resistance T7o aDC circuit /ith a single oltage source.

'6 8eriy e-erimentally the alues o 8T7an# T7in soling a series -arallel circuit.

23


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3. Determine the alues o +ortons constant current source I+ an# +ortonscurrent source resistance +in a DC circuit containing one or t/o oltagesources.

2. S$d; o> O"3#llo"3o $#@e 3o="$/=$ o> "e!#e" R-C ele3$!#3 3#!3#$"

A#@

To #etermine e-erimentally the time ta)en 'y a ca-acitor to charge an# #ischarge through a

resistance.

E?e!3#"e"

a. Determine e-erimentally the time it ta)es a ca-acitor to charge through a resistor an#o'tain a -lot 'et/een oltage across ca-acitor an# time.

'. Determine e-erimentally the time it ta)es a ca-acitor #ischarge through a resistoran# o'tain a -lot 'et/een oltage across ca-acitor an# time.

c. E-erimentally eriy that the current an# oltage in a ca-acitie circuit are out o

-hase using #ual trace oscillosco-e.&. F!ee=3; !e"


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'. Current 8s reBuency

c. &8s

2. Con#uct suita'le e-eriment /ith a C circuit an# #ra/ the ollo/inggra-hs.

i. c 8s ii. 8s

iii. I 8s

*. Re"o=/=$ >!ee=3; /=d >!ee=3; !e"


27/169

2. E-erimentally #etermine the resonant reBuency in a -arallel resonant circuit.Dra/ current ersus reBuency in -arallel resonant circuit.

6. S$d; o> Lo5 P/"" /=d H#: P/"" F#l$e!"

A#@

To #etermine e-erimentally the reBuency res-onse o a lo/ an# high -ass ilters.

E?e!3#"e"

1. Determine the reBuency res-onse o -assie lo/ -ass &6 an# high -ass C6 iltercircuits.

2. Determine the reBuency res-onse o actie lo/ -ass an# high -ass ilter circuits.

7. Me/"!e@e=$ o> !e/l


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A#@

To stu#y the irst an# secon# or#er circuit transients 'y #igital simulation.

E?e!3#"e"

1. 'tain the res-onse or the ollo/ing cases using MAT&A= sot/are or any other

eBuialent.a. "ource ree or


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%. SOLUTION OF E(UATIONS AND EIGENVALUE PROBLEMS

)

&inear inter-olation metho#s metho# o alse -osition6 +e/tons metho# "tatement o ie# -oint theorem %ie# -oint iterationL Og6 metho# "olutiono linear system 'y (aussian elimination an# (auss*Jor#on metho#s * Iteratie

metho#sL (auss Jaco'i an# (auss*"ei#el metho#s * Inerse o a matri 'y (aussJor#on metho# Eigen alue o a matri 'y -o/er metho#.

2. INTERPOLATION AND APPROIMATION

)

&agrangian olynomials Dii#e# #ierences Inter-olating /ith a cu'ic s-line +e/tons or/ar# an# 'ac)/ar# #ierence ormulas.

&. NUMERICAL DIFFERENTIATION AND INTEGRATION

)

Deriaties rom #ierence ta'les Dii#e# #ierences an# inite #ierences +umerical integration 'y tra-e


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REFERENCE BOO1S

1. . Gan#asamy: G. Thilagaathy an# G. (unaathy: P+umerical Metho#s: ".Chan#Co. &t#.: +e/ Delhi: 2003.

2. .&. =ur#en an# T.D. %aires: P+umerical Analysis: "eenth E#ition: Thomson Asiat. &t#.: "inga-ore: 2002.

2?


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32/169

+ee# or starting Ty-es o starters "tator resistance an# reactance: rotor resistance:autotransormer an# star*#elta starters "-ee# control Change o oltage: torBue:num'er o -oles an# sli- Casca#e# connection "li- -o/er recoery scheme.

+. SINGLE PHASE INDUCTION MOTORS AND SPECIAL MACHINES

)

Constructional #etails o single -hase in#uction motor Dou'le reoling iel# theoryan# o-eration EBuialent circuit +o loa# an# 'loc)e# rotor test erormanceanalysis "tarting metho#s o single*-hase in#uction motors * "-ecial machines *"ha#e# -ole in#uction motor: reluctance motor: re-ulsion motor: hysteresis motor:ste--er motor an# AC series motor.

L *+ T %+ To$/l 60

TET BOO1S

1. D.. Gothari an# I.J. +agrath: PElectric Machines: Tata Mc(ra/ 7ill u'lishingCom-any &t#: 2002.

2. .". =him'hra: PElectrical Machinery: Ghanna u'lishers: 2003.

REFERENCE BOO1S

1. A.E. %it


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+. SUBSTATION GROUNDING SYSTEM AND DISTRIBUTION SYSTEM

)

Ty-es o su'stations 'us*'ar arrangements su'station 'us schemesL single 'usscheme: #ou'le 'us /ith #ou'le 'rea)er: #ou'le 'us /ith single 'rea)er: main an#transer 'us: ring 'us: 'rea)er*an#*a*hal /ith t/o main 'uses: #ou'le 'us*'ar /ith

'y-ass isolators.esistance o groun#ing systemsL esistance o #rien ro#s: resistance o groun#ing-oint electro#e: groun#ing gri#s #esign -rinci-les o su'station groun#ing systemneutral groun#ing.

a#ial an# ring*main #istri'utors interconnectors AC #istri'utionL AC #istri'utor/ith concentrate# loa# three*-hase: our*/ire #istri'ution system su'*mains ste--e#an# ta-ere# mains.

L*+ T %+ To$/l

60

TET BOO1S

1. =..(u-ta: Po/er "ystem Analysis an# Design: ".Chan#: +e/ Delhi: 2003.

2. ".+. "ingh: PElectric o/er (eneration: Transmission an# Distri'ution: rentice 7allo In#ia t. &t#: +e/ Delhi: 2002.

REFERENCE BOO1S

1. &uces M.%ual)en'erry :Kalter Coer: PElectrical o/er Distri'ution an#Transmission: earson E#ucation: 1??!.

2. 7a#i "aa#at: Po/er "ystem Analysis: Tata Mc(ra/ 7ill u'lishing Com-any:

2003.

3. Central Electricity Authority CEA6: P(ui#elines or Transmission "ystem lanning:+e/ Delhi.

4. PTamil +a#u Electricity =oar# 7an#'oo): 2003.

33


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IC %2+% CONTROL SYSTEMS & % 0

%00

AIM

To -roi#e soun# )no/le#ge in the 'asic conce-ts o linear control theory an# #esigno control system.

OB'ECTIVES

i. To un#erstan# the metho#s o re-resentation o systems an# getting theirtranser unction mo#els.

ii. To -roi#e a#eBuate )no/le#ge in the time res-onse o systems an# stea#ystate error analysis.

iii. To gie 'asic )no/le#ge is o'taining the o-en loo- an# close#loo-reBuency res-onses o systems.

i. To un#erstan# the conce-t o sta'ility o control system an# metho#s osta'ility analysis.

. To stu#y the three /ays o #esigning com-ensation or a control system.

%. SYSTEMS AND THEIR REPRESENTATION

)

=asic elements in control systems -en an# close# loo- systems Electricalanalogy o mechanical an# thermal systems Transer unction "ynchros AC an#

DC seromotors =loc) #iagram re#uction techniBues "ignal lo/ gra-hs.

2. TIME RESPONSE

)

Time res-onse Time #omain s-eciications Ty-es o test in-ut I an# II or#ersystem res-onse Error coeicients (enerali


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+. COMPENSATOR DESIGN

)

erormance criteria &ag: lea# an# lag*lea# net/or)s Com-ensator #esign using'o#e -lots.

L *+ T %+ To$/l 60

35


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TET BOO1S

1. G. gata: PMo#ern Control Engineering: 4the#ition: earson E#ucation: +e/ Delhi:2003 N 7I.

2. I.J. +agrath , M. (o-al: PControl "ystems Engineering: +e/ Age Internationalu'lishers: 2003.

REFERENCE BOO1S

1. =.C. Guo: PAutomatic Control "ystems: rentice 7all o In#ia &t#.: +e/ Delhi:1??5.

2. M. (o-al: PControl "ystems: rinci-les , Design: Tata Mc(ra/ 7ill: +e/ Delhi:2002.

3. M.+. =an#yo-a#hyay: PControl Engineering Theory an# ractice: rentice 7all oIn#ia: 2003.

3!


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EC %26% ELECTRONIC CIRCUITS & 0 0

%00

AIM

To intro#uce the conce-t o realising circuits using actie an# -assie #eices orsignal generation an# am-liication.

OB'ECTIVES

i. To e-ose the stu#ents to stu#y the #ierent 'iasing an# conigurations o theam-liier circuits.

ii. To stu#y the characteristics o tune# am-liier.

iii. To e-ose the stu#ents to arious am-liiers oscillator circuits /ith ee#'ac)conce-ts.

i. To learn the /ae sha-ing -rocess an# circuits.

. To learn an# analyse the -rocess o AC to DC conersion.

%. SMALL-SIGNAL AND LARGE SIGNAL AMPLIFIERS )

%ie# an# sel 'iasing o =JT , %ET "mall signal analysis o CE: CC , Commonsource am-liiers Casca#e an# Darlington connections: transormer cou-le# class A:= , A= am-liiers ush*-ull am-liiers.

2. DIFFERENTIAL AND TUNED AMPLIFIERS )

Dierential am-liiers Common mo#e an# #ierential mo#e analysis * DC an# ACanalysis * Characteristics o tune# am-liiers "ingle , #ou'le tune# am-liier.

&. FEEDBAC1 AMPLIFIER AND OSCILLATORS )

Characteristics o negatie ee#'ac) am-liiers 8oltage N current: seriesNshuntee#'ac) Theory o sinusoi#al oscillators hase shit an# Kien 'ri#ge oscillators Col-itts: 7artley an# crystal oscillators.

*. PULSE CIRCUITS

)

C /ae sha-ing circuits Dio#e clam-ers an# cli--ers Multii'rators "chmitttriggers ;JT 'ase# sa/ tooth oscillators.

+. RECTIFIERS AND PO4ER SUPPLY CIRCUITS )

7al /ae , ull /ae rectiier analysis * In#uctor ilter Ca-acitor ilter * "eriesoltage regulator "/itche# mo#e -o/er su--ly.

L *+ To$/l *+

TET BOO1S

1. Dai# A. =ell: PElectronic Deices , Circuits: rentice 7all o In#iaNearsonE#ucation:I8 E#ition: Eighth -rinting: 2003.

3$


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2. Jaco' Millman , Christos.C.7al)ias: PIntegrate# ElectronicsL Analog an# DigitalCircuits an# "ystem: Tata Mc(ra/ 7ill: 1??1.

REFERENCE BOO1S

1. o'ert. &. =oylesta# , &o +ashels)y: PElectronic Deices , Circuit Theory: Eighthe#ition: earson E#ucation: Thir# In#ian e-rint: 2002 N 7I.

2. Jaco' Millman , 7er'ert Tau': Pulse: Digital , "/itching Kaeorms: TataMc(ra/ 7ill: E#ition 2000: 24thre-rint: 2003.

3. Donal# &."chilling an# Charles =eloe: PElectronic Circuits: 3r# E#ition: TataMc(ra/ 7ill: 2003.

3>


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ME %2%% APPLIED THERMODYNAMICS & % 0%00

OB'ECTIVES

i. To e-ose the un#amentals o thermo#ynamics an# to 'e a'le to use it inaccounting or the 'ul) 'ehaiour o the sam-le -hysical systems.

ii. To integrate the 'asic conce-ts into arious thermal a--lications li)e ICengines: gas tur'ines: steam 'oiler: steam tur'ine: com-ressors: rerigerationan# air con#itioning.

iii. To enlighten the arious mo#es o heat transer an# their engineeringa--lications.

;se o stan#ar# steam ta'les: rerigeration ta'les an# heat transer #ata 'oo) are-ermitte#6

%. BASIC CONCEPTS AND LA4S OF THERMODYNAMICS

%2

Classical a--roachL Thermo#ynamic systems =oun#ary * Control olume * "ysteman# surroun#ings ;nierse ro-erties * "tate*-rocess Cycle EBuili'rium *Kor) an# heat transer oint an# -ath unctions * %irst la/ o thermo#ynamics oro-en an# close# systems * %irst la/ a--lie# to a control olume * "%EE eBuationsHstea#y lo/ energy eBuation * "econ# la/ o thermo#ynamics * 7eat engines *erigerators an# heat -um-s * Carnot cycle * Carnot theorem * Clausius ineBuality *Conce-t o entro-y * rinci-le o increase o entro-y * =asic thermo#ynamic

relations.2. IC ENGINES AND GAS TURBINES

Air stan#ar# cyclesL tto: #iesel an# #ual cycles an# com-arison o eiciency *Kor)ing rinci-le o our stro)e an# t/o stro)e engines * Kor)ing -rinci-le o s-ar)ignition an# com-ression ignition engines * A--lications o IC engines * +ormal an#a'normal com'ustion * Kor)ing -rinci-le o our stro)e an# t/o stro)e engines *Kor)ing -rinci-le o s-ar) ignition an# com-ression ignition engines * A--licationso IC engines.

-en an# close# cycle gas tur'ines I#eal an# actual cycles * =rayton cycle * Cycle/ith reheat: intercooling an# regeneration A--lications o gas tur'ines or aiationan# -o/er generation.

&. STEAM BOILERS AND TURBINES

%ormation o steam * ro-erties o steam ;se o steam ta'les an# charts "team-o/er cycle an)ine6 * Mo#ern eatures o high*-ressure 'oilers Mountings an#accessories Testing o 'oilers.

"team tur'inesL Im-ulse an# reaction -rinci-le 8elocity #iagrams Com-oun#ingan# goerning metho#s o steam tur'ines Bualitatie treatment only6 * &ayout#iagram an# /or)ing -rinci-le o a steam -o/er -lant.

3?


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*. COMPRESSORS REFRIGERATION AND AIR CONDITIONING

ositie #is-lacement com-ressors eci-rocating com-ressors In#icate# -o/er Clearance olume 8arious eiciencies Clearance ratio * 8olume rate * Con#itions

or -erect an# im-erect intercooling * Multi stage /ith intercooling otary-ositie #is-lacement com-ressors Construction an# /or)ing -rinci-le ocentriugal an# aial lo/ com-ressors.

;nit o rerigeration * =asic unctional #ierence 'et/een rerigeration an# aircon#itioning 8arious metho#s o -ro#ucing rerigerating eects E6 8a-ourcom-ression cycleL *7 an# T*" #iagram * "aturation cycles * Eect o su'coolingan# su-er heating * Bualitatie treatment only6 * Aircon#itioning systems =asic

-sychrometry * "im-le -sychrometric -rocesses * Ty-es o aircon#itioning systems*"election criteria or a -articular a--lication Bualitatie treatment only6.

+. HEAT TRANSFER

)

ne*#imensional 7eat Con#uctionL lane /all Cylin#er "-here * Com-osite /alls Critical thic)ness o insulation 7eat transer through eten#e# suraces sim-leins6.

ConectionL %ree conection an# orce# conection * Internal an# eternal lo/*Em-irical relations * Determination o conection heat transer co*eicient 'y usingDittus=aetter eBuation.

a#iationL =lac)(ray 'o#ies * a#iation "ha-e %actor "%6 * Cooling o electroniccom-onentsL Thermoelectric cooling Chi- cooling.

L *+ T %+ To$/l 60

TET BOO1S

2. .G. +ag: P=asic an# A--lie# Engineering Thermo#ynamics: Tata Mc(ra/ 7ill:+e/ Delhi: 2002.

3. =.G. "ach#ea: P%un#amentals o Engineering 7eat an# Mass Transer "I ;nits6:

+e/ Age International 6 &imite#: Chennai: 2003.

REFERENCE BOO1S

1. ogers an# Mayhe/: PEngineering Thermo#ynamics Kor) an# 7eat Transer:A##ision Kesley: +e/ Delhi: 1???.

2. Easto- an# McCon)ey: PA--lie# Thermo#ynamics: A##ison Kesley: +e/ Delhi.1???.

3. M.&. Mathur an# %.". Metha: PThermal Engineering: Jain =rothers: +e/ Delhi: 1??$.

4 =.G. "an)aar: PThermal Enginerring: Tata Mc(ra/ 7ill: +e/ Delhi: 1??>.

40


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IC %2+2 CONTROL SYSTEMS LABORATORY 0 0 & %00

AIM

To -roi#e a -latorm or un#erstan#ing the 'asic conce-ts o linear control theory an# its

a--lication to -ractical systems.L#"$ o> E?


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44/169

E# No=-L#=e/! S;"$e@"

A#@

To #igitally simulate the time res-onse characteristics o a linear system /ith

sim-le non*linearities li)e saturation an# #ea#


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E#


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2. C an# a sBuare /ae generator 1 +o or6

DC source an# a storage oscillosco-e 1 +o

. S$/9#l#$; A=/l;"#" O> L#=e/! S;"$e@"

A#@

To analyse the sta'ility o linear systems using =o#e N oot locus N +yBuist-lot

E?e!3#"e

1. Krite a -rogram to o'tain the =o#e -lot N oot locus N +yBuist -lot or the

gien system2. Access the sta'ility o the gien system using the -lots o'taine#

3. Com-are the usage o arious -lots in assessing sta'ility

E#


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2. C

%0. S$d; o> S;=3:!o"

A#@

To stu#y the characteristics o synchros as error #etector E?e!3#"e

1. 'tain the in-ut*out-ut characteristics o synchro transmitter 'y giingecitation to the rotor /in#ing an# measuring the out-ut oltages across "1 "2: "2*"3 an# "3*"1 o stator /in#ings or #ierent rotor -ositions

2. 'tain the characteristics o synchro as angular #is-lacement sensor an#

-lot oltage 8s angle characteristics

3. 'tain the characteristic o synchro use# as remote angle #is-lacement oreceier trac)s that o transmitter

E#


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EC %262 ELECTRONIC DEVICES AND CIRCUITS LABORATORY 0 0 & %00

AIM

To stu#y the characteristics an# to #etermine the #eice -arameters o arious soli#*state #eices.

1. "tatic Characteristics o transistor un#er CE: C=: CC an# #etermination o hy'ri#-arameters.

2. "tatic characteristics an# -arameter #etermination o J%ET.

3. "tatic characteristics o semicon#uctor #io#e: $!/="#"$o! =de! CE CB CC /=d de$e!@#=/$#o= o>

:;9!#d


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E?e!3#"e

1. lot the J%ET #rain characteristics rom the results o'taine#

2. lot the J%ET transer characteristics rom the results o'taine#.

3. %rom the #rain characteristics or 8("O 0 #etermine the alue o the rD an#

9"-arameters.

4. %rom the transer characteristic: #etermine the alues o the 9s-arameters at8("O*1 8 an# 8("O * 48.

5. Dra/ hori "e@#3o=d3$o! d#ode e=e! d#ode /=d "$d; o> "#@


50/169

1. Analy T:e!@#"$o!"

A#@

To #etermine the static characteristics o thermistors.

4?


51/169

E?e!3#"e

1. Dra/ the resistance N tem-erature characteristic o a thermistor an##etermine the resistance alue or ariations in tem-erature.

2. Dra/ the static oltage N current characteristics o a thermistor an##etermine /hether #eice resistance remains constant until -o/er #issi-ation

is large enough to -ro#uce sel*heating.

3. ;se the thermistor as a tem-erature*com-ensating #eice 'y increasingthe resistance /ith increasing tem-erature.

7. S#=le $ o"3#ll/$o!" /=d 4#e= 9!#de o"3#ll/$o!"

A#@

To construct the -hase shit oscillator an# Kien 'ri#ge oscillators an# to #ra/

its

out-ut /aeorms.

E?e!3#"e

1. Discuss the -hase shit oscillator an# Kien 'ri#ge oscillator out-ut /aeormso'taine# rom the e-eriment. Analy


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A#@

To #etermine the reBuency res-onse o common emitter am-liiers.E?e!3#"e

1. %or #ierent alues o cut o reBuencies #etermine suita'le alues o

resistors an# ca-acitors or common emitter am-liiers.2. lot the reBuency res-onse an# #etermine 3#= 'an#/i#th.

%0. D#>>e!e=$#/l /@#e!" "#= FET

A#@

To analyse the characteristics o #ierential am-liier circuit using %ET

E?e!3#"e

1. Construct the circuit an#

a. Determine #ierential gain A#

'. Determine common mo#e gain Ac

c. Determine the CM O A#N Ac

2. Construct the circuit using common source coniguration. Measure iN- oN-im-e#ance o the circuit.

3. Try the same as common #rain circuit source ollo/er6 an# chec) or 8DDO 25

8

51


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CS %26% OB'ECT ORIENTED PROGRAMMING & % 0

%00

AIM

To -resent the conce-t o o'ect oriente# -rogramming an# #iscuss 'riely theim-ortant elements o o'ect oriente# analysis an# #esign o systems.

OB'ECTIVES

i. To stu#y the o'ect oriente# -rogramming -rinci-les: to)ens: e-ressions: controlstructures an# unctions.

ii. To intro#uce the classes: o'ects: constructors an# Destructors.

iii. To intro#uce the o-erator oerloa#ing: inheritance an# -olymor-hism conce-ts inC.

i. To intro#uce constants: aria'les: #ata ty-es: o-erators: classes: o'ects: metho#s:arrays an# strings in Jaa.

. To intro#uce the -rogramming a--roach in Jaa: interaces an# -ac)ages:multithrea#ing: managing errors an# ece-tions an# A--let -rogramming.

%. OB'ECT ORIENTED PROGRAMMING AND BASICS OF C

)

"ot/are crisis "ot/are eolution A loo) at -roce#ure oriente# -rogramming 'ect oriente# -rogramming -ara#igm =asic conce-ts o o'ect oriente#

-rogramming =eneits o 'ect*oriente# languages A--lications o *Khat is CW A sim-le C -rogram More C statements "tructure o Crogram.

To)ens Gey/or#s I#entiiers an# constants =asic #ata ty-es ;ser #eine# #ataty-es Derie# #ata ty-es "ym'olic constants Declaration o aria'les Dynamic initiali


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&. OPERATOR OVERLOADING INHERITANCE AND POLYMORPHISM

)

Deining o-erator oerloa#ingL erloa#ing unary: 'inary o-erators. Mani-ulation ostrings using o-erators ules or oerloa#ing o-erators Ty-e Conersions *Deining #erie# classes "ingle inheritance Multileel inheritance Multi-le

inheritance 7ierarchical inheritance 7y'ri# inheritance 8irtual 'ase classes A'stract classes * Intro#uction to -ointers to o'ectsL This -ointer ointers to#erie# classes 8irtual unctions ure irtual unctions.

*. 'AVA EVOLUTION CONSTANTS VARIABLES DATA TYPES

OPERATORS CLASSES OB'ECTS METHODS ARRAYS AND STRINGS

)

Jaa eaturesL 7o/ Jaa #iers rom C an# C * "im-le Jaa -rogram Jaa-rogram structures Jaa to)ens Jaa statements Im-lementing a Jaa -rogram Jaa irtual machine Comman# line arguments * Constants 8aria'les Data ty-es

"co-e o aria'les -erators in Jaa.

Deining a class A##ing aria'les an# metho#s Creating o'ects Accessing classmem'ers Constructors Metho# oerloa#ing "tatic mem'ers InheritanceLEten#ing a class erri#ing metho#s %inal aria'les an# metho#s %inal classes

A'stract metho#s an# classes 8isi'ility control * Arrays ne #imensional array Creating an array T/o*#imensional arrays "trings 8ectors.

+. PROGRAMMING USING INTERFACES PAC1AGES MULTITHREADING

MANAGING ERRORS AND ECEPTIONS AND APPLETS

)

Deining interaces Eten#ing interaces Im-lementing interaces Accessinginterace aria'les Jaa AI -ac)ages ;sing system -ac)ages Creating:accessing an# using a -ac)age A##ing a class to a -ac)age * Creating threa#s Eten#ing the threa# class "to--ing an# 'loc)ing a threa# Threa# ece-tions Threa# -riority "ynchroni


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3. John . .7u''ar#: P"chaums utline rogramming /ith C: Tata Mc(ra/ 7ill:2003.

4. Gris Jasma: PJaa rogramming A Com-lete eerence: (algotia -u'lication: 1??4.

CS %262 OB'ECT ORIENTED PROGRAMMING LABORATORY 0 0 &%00

AIM

To im-lement #ynamic memory allocation: constructors: #estructors: rien# unction:inheritance an# interaces.

1. "tring concatenation using #ynamic memory allocation conce-t.

2. Im-lementation o arithmetic o-erations on com-le num'ers usingconstructor oerloa#ing.

3. To rea# a alue o #istance rom one o'ect an# a## /ith a alue in another o'ect using rien# unction.

4. Im-lementation o an# * o-erator oerloa#ing an# im-lementation o a##itiono-eration o octal o'ect /ith integer using o-erator oerloa#ing.

5. Im-lementation o a##ition an# su'traction o t/o -olynomial o'ects usingo-erator oerloa#ing.

!. Managing 'an) account using inheritance conce-t.

7. To com-ute the area o triangle an# rectangle using inheritance an# irtualunction.

>. Kriting sim-le -rograms in Jaa.

?. ;se o interaces in Jaa.

10. Deelo-ing -ac)ages in Jaa.

P *+ To$/l *+

De$/#led S;ll/9"

%. S$!#= 3o=3/$e=/$#o= "#= d;=/@#3 @e@o!; /llo3/$#o= 3o=3e


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1. Create class "TI+( /ith t/o constructors. The irst is an em-ty constructor:/hich allo/s #eclaring an array o strings. The secon# constructor initiali


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C * 30 nos

2. To !e/d / /le o> d#"$/=3e >!o@ o=e o9e3$ /=d /dd 5#$: / /le #= /=o$:e! o9e3$

"#= >!#e=d >=3$#o=

A#@

To rea# a alue o #istance rom one o'ect an# a## /ith a alue in anothero'ect using rien# unction.

O9e3$#e

To create t/o classes an# store the alues o #istance an# to rea# the aluerom one class an# a## /ith a alue in another o'ect using rien# unction.

E?e!3#"e"

1. Create t/o classes A= an# AC an# store the alue o #istances.

2. Declare rien# unction.

3. ea# the alue rom the classes.

4. erorm a##ition to a## one o'ect o A= /ith another o'ect o AC.

5. Dis-lay the result o a##ition.

So>$5/!e E#


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3. erloa# o-erators an# to #is-lay the num'er o #ays 'et/een t/o ali##ates using #is-lay*result.

4. e-eat ste- 3 to #is-lay the #ate ater a num'er o #ays rom a ali# #ateusing #is-lay*result.

1. Create class CTA& or re-resenting octal num'ers.2. Create a constructor to im-lement CTA& hO /here is an integer.3. erloa# o-erator P to -erorm the integer a##ition /ith an CTA&

o'ect li)e int yO h) /here h is an CTA& o'ect an# ) is aninteger6.

4. Dis-lay the resultant integer alue y.

So>$5/!e E#


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6. M/=/#= 9/= /33o=$ "#= #=:e!#$/=3e 3o=3e


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E?e!3#"e"

1. Create a 'ase class "7AE.

2. Derie t/o su' classes TIA+(&E an# ECTA+(&E rom the 'ase class"7AE.

3. Deine mem'er unctions getZ#ata6 an# #is-layZarea6.

4. %in# out the area o triangle an# rectangle an# #is-lay the result using#is-layZarea6.

5. Ma)e #is-layZarea6 as a irtual unction.

So>$5/!e E#

O9e3$#e

To generate ran#om num'ers using 'uilt in unction ran#om6.

E?e!3#"e"

1. Create a class calle# ran# /ith aria'le #eclaration an# inclu#es hea#er ilemath.

2. (enerate ran#om num'ers using 'uilt in unction ran#om6.

3. Dis-lay the result.

So>$5/!e E#


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O9e3$#e

To create t/o classes an# store the alues o #istance an# to rea# the aluesrom one class an# a## /ith a alue in another o'ect using rien# unction

E?e!3#"e"

1. Create t/o classes A= an# AC an# store the alue o #istances.2. Declare rien# unction.

3. ea# the alue rom the classes.

4. erorm a##ition to one o'ect o A= /ith another o'ect o AC.

5. Dis-lay the result o a##ition.

So>$5/!e E#


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EE %&0% PO4ER ELECTRONICS & 0 0 %00

AIM

To intro#uce the a--lication o electronic #eices or conersion: control an#con#itioning o electric -o/er.

OB'ECTIVESi. To get an oerie/ o #ierent ty-es o -o/er semi*con#uctor #eices an#

their s/itching characteristics.

ii. To un#erstan# the o-eration: characteristics an# -erormance -arameters ocontrolle# rectiiers.

iii. To stu#y the o-eration: s/itching techniBues an# 'asic to-ologics o DC*DCs/itching regulators.

i. To learn the #ierent mo#ulation techniBues o -ulse /i#th mo#ulate#inerters an# to un#erstan# the harmonic re#uction metho#s.

. To )no/ the -ractical a--lication or -o/er electronics conerters incon#itioning the -o/er su--ly.

%. PO4ER SEMI-CONDUCTOR DEVICES

)

"tructure: o-eration an# characteristics o "C: TIAC: -o/er transistor: M"%ETan# I(=T. Drier an# snu''er circuits or M"%ET * Turn*on an# turn*ocharacteristics an# s/itching losses.

2. PHASE-CONTROLLED CONVERTERS

)

2*-ulse: 3*-ulse an# !*-ulse conerters Inerter o-eration o ully controlle#conerter * Eect o source in#uctance * Distortion an# #is-lacement actor i--leactor * "ingle -hase AC oltage controllers.

&. DC TO DC CONVERTERS

)

"te-*#o/n an# ste-*u- cho--ers * Time ratio control an# current limit control *

"/itching mo#e regulatorsL =uc): 'oost: 'uc)*'oost an# cu) conerter * esonants/itching 'ase# "M".

*. INVERTERS

)

"ingle -hase an# three -hase 'oth 1200mo#e an# 1>00mo#e6 inerters * KMtechniBuesL "inusoi#al KM: mo#iie# sinusoi#al KM an# multi-le KM * 8oltagean# harmonic control * "eries resonant inerter * Current source inerters.

+. APPLICATIONS

)

!1


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;ninterru-te# -o/er su--ly to-ologies * %lei'le AC transmission systems * "huntan# series static 8A com-ensator * ;niie# -o/er lo/ controller* 78DCTransmission.

L *+ To$/l *+

TET BOO1S

1. Muhamma# 7. ashi#: Po/er ElectronicsL Circuits: Deices an# A--lications:earson E#ucation: Thir# e#ition: 2004 N 7I.

2. +e# Mohan: Tore.M.;n#elan#: Killiam..o''ins: Po/er ElectronicsL Conerters:A--lications an# Design: John Kiley an# sons: thir# e#ition: 2003.

REFERENCE BOO1S

1. Cyril.K.&an#er: Po/er Electronics: Mc(ra/ 7ill International: Thir# e#ition: 1??3.

2. =imal G. =ose: PMo#ern o/er Electronics an# AC Dries: earson E#ucation:2003.

3. Mr. Jaganathan: PIntro#uction to o/er Electronics: rentice 7all o In#ia: 2004.

!2


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EE %&02 PROTECTION AND S4ITCHGEAR & 0 0%00

AIM

To e-ose the stu#ents to the arious aults in -o/er system an# learn the ariousmetho#s o -rotection scheme

To un#erstan# the current interru-tion in o/er "ystem an# stu#y the ariouss/itchgears.

OB'ECTIVES

i. Discussion on arious earthing -ractices usage o symmetrical com-onents toestimate ault current an# ault M8A.

ii. "tu#y o elays , "tu#y o -rotection scheme: soli# state relays.

iii. To un#erstan# instrument transormer an# accuracy.

i. To un#erstan# the metho# o circuit 'rea)ing arious arc theories Arcing-henomena ca-acitie an# in#uctie 'rea)ing.

. Ty-es o circuit 'rea)ers.

%. INTRODUCTION

)

rinci-les an# nee# or -rotectie schemes nature an# causes o aults ty-es oaults ault current calculation using symmetrical com-onents o/er systemearthing * ones o -rotection an# essential Bualities o -rotection rotectionscheme.

2. OPERATING PRINCIPLES AND RELAY CONSTRUCTIONS

)

Electromagnetic relays er current: #irectional: #istance an# #ierential: un#erreBuency relays static relays.

&. APPARATUS PROTECTION

)

A--aratus -rotection transormer: generator: motor: -rotection o 'us 'ars:transmission lines CTs an# Ts an# their a--lications in -rotection schemes.

*. THEORY OF CIRCUIT INTERRUPTION

)

hysics o arc -henomena an# arc interru-tion. estri)ing oltage , ecoery

oltage: rate o rise o recoery oltage: resistance s/itching: current cho--ing:interru-tion o ca-acitie current DC circuit 'rea)ing.

!3


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+. CIRCUIT BREA1ERS

)

Ty-es o Circuit =rea)ers Air 'last: Air 'rea): oil "% !an# 8acuum circuit 'rea)ers com-aratie merits o #ierent circuit 'rea)ers Testing o circuit 'rea)ers.

L *+ To$/l *+

TET BOO1S

1. =. ain#ranath: an# +. Chan#er: Po/er "ystem rotection , "/itchgear: KileyEastern &t#.: 1?$$.

REFERENCE BOO1S

1. "unil ". ao: P"/itchgear an# rotection: Ghanna -u'lishers: +e/ Delhi: 1?>! .2. C.&. Ka#h/a: PElectrical o/er "ystems: +e/age International 6 &t#.: 2000.

3. M.&. "oni: .8. (u-ta: 8.". =hatnagar: A. Cha)ra'arti: PA Tet =oo) on o/er"ystem Engineering: Dhan-at ai , Co.: 1??>.

4. =a#ri am: 8ish/a)arma: Po/er "ystem rotection an# "/itchgear: Tata Mc(ra/hill: 2001.

5. 9.(. aithan)ar an# ".. =hi#e: P%un#amentals o o/er "ystem rotection:rentice 7all o In#ia t. &t#.: +e/ Delhi 110001: 2003.

!4


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EC %&%% COMMUNICATION ENGINEERING & 0 0

%00

AIM

1. To intro#uce the un#amental techniBues o analog: #igital an# #atacommunication.

2. To e-lain satellite an# i're o-tic communication an# +et/or)ing systems.OB'ECTIVES

i. To un#erstan# 'asic signals: analog mo#ulation: #emo#ulation an# ra#ioreceiers.

ii. To e-lain the characteristics an# mo#el o transmission me#ium.

iii. To un#erstan# source #igiti


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L *+ To$/l *+

TET BOO1S

1. Kayne Tomasi: PElectronic Communication "ystems: earson E#ucation: Thir#E#ition: 2001.

2. oy =la)e: PElectronic Communication "ystems: Thomson Delmar: 2n#

E#ition:2002.

REFERENCE BOO1S

1. Killiam "ch/e'er: PElectronic Communication "ystems: rentice 7all o In#ia:

2002.

2. (. Genne#y: PElectronic Communication "ystems: Mc(ra/ 7ill: 4the#ition: 2002.

3. Miller: PMo#ern Electronic Communication: rentice 7all o In#ia: 2003.

!!


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EC%20& DIGITAL LOGIC CIRCUITS & % 0 %00

AIM

To learn the 'asic metho#s or the #esign o #igital circuits an# -roi#e the

un#amental conce-ts use# in the #esign o #igital systems.

UNIT I DIGITAL INTEGRATED CIRCUITS )

Intro#uction "-ecial Charecteristics =i-olar Transistor Characteristics T& an#

DT& circuits Transistor*Transistor &ogic TT&6 Emitter Cou-le# &ogic EC&6 Metal

i#e "emicon#uctor M"6 Com-lementary M" CM"6 CM" Transmission (ate

circuits

UNIT II COMBINATIONAL CIRCUITS I )

Design -roce#ure A##ers*"u'tractors "erial a##erN "u'tractor * arallel a##erN

"u'tractor* arallel r#erN "u'tractor*Carry loo) ahea# a##er* =CD a##er* Magnitu#e

Com-arator

UNIT III COMBINATIONAL CIRCUITS II )

Multi-leerN Demulti-leer* enco#er N #eco#er -arity chec)er co#e conerters.

Im-lementation o com'inational logic using M;: M: A& an# &A* 7D& or

com'inational Circuits

UNIT IV SE(UENTIAL CIRCUIT )

Classiication o seBuential circuits Moore an# Mealy *Design o "ynchronous

countersL state #iagram* "tate ta'le "tate minimi


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TET BOO1S

1. M. Morris Mano: Digital Design: 3.e#.: rentice 7all o In#ia t. &t#.: +e/ Delhi:

2003Nearson E#ucation "inga-ore6 t. &t#.: +e/ Delhi: 2003 ;nit I: II: 86

2. John .M 9ar'rough: Digital &ogic A--lications an# Design: Thomson* 8i)as -u'lishinghouse: +e/ Delhi: 2002. ;nit III: I86

REFERENCES

1. ". "aliahanan an# ". Aria


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EC %&%& LINEAR INTEGRATED CIRCUITS & 0 0

%00

AIM

To intro#uce the conce-ts or realising unctional 'uil#ing 'loc)s in ICs: a'rications, a--lication o ICs.

OB'ECTIVES

i. To stu#y the IC a'rication -roce#ure.

ii. To stu#y characteristics realise circuits #esign or signal analysis using -*am- ICs.

iii. To stu#y the a--lications o -*am-.

i. To stu#y internal unctional 'loc)s an# the a--lications o s-ecial ICs li)eTimers: && circuits: regulator Circuits: ADCs.

%. IC FABRICATION

)

IC classiication: un#amental o monolithic IC technology: e-itaial gro/th: mas)ingan# etching: #iusion o im-urities. ealisation o monolithic ICs an# -ac)aging.

2. CHARACTERISTICS OF OPAMP

)

I#eal *AM characteristics: DC characteristics: AC characteristics: oset oltage

an# currentL oltage series ee#'ac) an# shunt ee#'ac) am-liiers: #ierentialam-liier reBuency res-onse o *AM =asic a--lications o o-*am- summer:#ierentiator an# integrator.

&. APPLICATIONS OF OPAMP

)

Instrumentation am-liier: irst an# secon# or#er actie ilters: 8NI , IN8 conerters:com-arators: multii'rators: /aeorm generators: cli--ers: clam-ers: -ea) #etector:"N7 circuit: DNA conerter *2 la##er an# /eighte# resistor ty-es6: AND conerter *Dual slo-e: successie a--roimation an# lash ty-es.

*. SPECIAL IC"

)

555 Timer circuit %unctional 'loc): characteristics , a--lications 5!!*oltagecontrolle# oscillator circuit 5!5*-hase loc) loo- circuit unctioning an# a--lications:Analog multi-lier ICs.

+. APPLICATION IC"

)

IC oltage regulators * &M31$: $23 regulators: s/itching regulator: MA $>40: &M3>0 -o/er am-liier: IC& >03> unction generator IC: isolation am-liiers: o-tocou-ler: o-to electronic ICs.

!?


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L *+ To$/l *+

TET BOO1S

1. ama)ant A.(aya)/ar#: P-*am-s an# &inear Integrate# Circuits: I8 e#ition:earson E#ucation: 2003 N 7I.

2. D.oy Chou#hary: "heil =.Jani: P&inear Integrate# Circuits: II e#ition: +e/ Age:2003.

REFERENCE BOO1S

1. Jaco' Millman: Christos C.7al)ias: PIntegrate# Electronics * Analog an# Digitalcircuits system: Tata Mc(ra/ 7ill: 2003.

2. o'ert %.Coughlin: %re#ric) %.Driscoll: P-*am- an# &inear ICs: earson E#ucation:4th e#ition: 2002 N 7I.

3. Dai# A.=ell: P-*am- , &inear ICs: rentice 7all o In#ia: 2n#

e#ition: 1??$.

$0


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GE %&0% PROFESSIONAL ETHICS AND HUMAN VALUES & 0 0

%00

OB'ECTIVE

i. To create an a/areness on Engineering Ethics an# 7uman 8alues. ii. To instill Moral an# "ocial 8alues an# &oyalty

iii. To a--reciate the rights o thers

%. HUMAN VALUES

%0

Morals: 8alues an# Ethics Integrity Kor) Ethic "erice &earning Ciic 8irtue es-ect or thers &iing eaceully caring "haring 7onesty Courage 8aluing Time Co*o-eration Commitment Em-athy "el*Coni#ence

Character "-irituality

2. ENGINEERING ETHICS

)

"enses o [Engineering Ethics[ * ariety o moral issue# * ty-es o inBuiry * moral#ilemmas * moral autonomy * Gohl'erg[s theory * (illigan[s theory * consensus an#controersy Mo#els o roessional oles * theories a'out right action * "el*interest* customs an# religion * uses o ethical theories.

& ENGINEERING AS SOCIAL EPERIMENTATION)

Engineering as e-erimentation * engineers as res-onsi'le e-erimenters * co#es oethics * a 'alance# outloo) on la/ * the challenger case stu#y

* SAFETY RESPONSIBILITIES AND RIGHTS

)

"aety an# ris) * assessment o saety an# ris) * ris) 'eneit analysis an# re#ucing ris)* the three mile islan# an# cherno'yl case stu#ies.

Collegiality an# loyalty * res-ect or authority * collectie 'argaining * coni#entiality* conlicts o interest * occu-ational crime * -roessional rights * em-loyee rights *Intellectual ro-erty ights I6 * #iscrimination.

+ GLOBAL ISSUES

Multinational cor-orations * Enironmental ethics * com-uter ethics * /ea-ons#eelo-ment * engineers as managers*consulting engineers*engineers as e-ert/itnesses an# a#isors *moral lea#ershi-*sam-le co#e o Ethics "-eciic to a

-articular Engineering Disci-line 6.

L *+ To$/l *+

TET BOO1S

$1


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1. Mi)e Martin an# olan# "chin


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EE %&0& PO4ER ELECTRONICS DRIVES LAB 0 0 & %00

AIM

To stu#y the characteristics o s/itching #eices an# its a--lications in rectiierinerter: cho--er an# resonant conerter.

L#"$ o> e?


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2. C:/!/3$e!#"$#3" o> TRIAC

O9e3$#e"

1. 'taining the 8I characteristics: 'oth or/ar# an# reerse con#uction.

2. A--lication o TIAC along /ith suita'le *C iring circuit 'ase# orother/ise6 iring circuit: as single*-hase A.C -hase controller or illuminationcontrol.

E?e!3#"e

1. 'tain the or/ar# con#uction characteristics o the gien TIAC.

2. 'tain the reerse con#uction characteristics o the gien TIAC.

3. Demostrate ho/ a single* -hase AC -hase controller can 'e im-lemente# orcontrolling the illumination o lam-: using gien TIAC an# C triggeringcircuit.

&. C:/!/3$e!#"$#3" o> MOSFET /=d IGBT

O9e3$#e

'taining stea#y state out-ut characteristics o 'oth M"%ET an# I(=T.

E?e!3#"e1. 'tain the stea#y state out-ut si#e characteristics o the gien M"%ET: or a

s-eciie# alue o gate source oltage.

2. 'tain the stea#y state out-ut si#e characteristics o the gien I(=T: or as-eciie# alue o gate emitter oltage.

3. I#entiy /hether gien s/itch is M"%ET or I(=T 'y in#ing the out-ut si#echaracteristics.

*. T!/="#e=$ 3:/!/3$e!#"$#3" o> SCR /=d MOSFET

O9e3$#e

"tu#ying the s/itching characteristics: turn*on an# turn*o o 'oth "C an# M"%ET.

E?e!3#"e

1. Ca-ture an# e-lain the turn*on characteristics o the gien "C.

2. Ca-ture an# e-lain the turn o characteristics o the gien "C.

3. 'tain an# e-lain 'oth turning P+ an# turn P%% characteristics o gienM"%ET.

+. AC $o DC >ll; 3o=$!olled 3o=e!$e!

O9e3$#e

$4


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"tu#ying the o-eration o single*-hase an# three*-hase ully controlle#conerter e# an# *& i.e.: ectiier mo#e only6 an# #etermination oty-ical -erormance actorsL ectiication ratio: orm actor: ri--le actor.

E?e!3#"e

1. (ien the in-ut AC oltage an# reBuire# out-ut DC oltage: theoretically

calculate the iring angle reBuire# an# -ractically eriy the same 'yim-lementing a single -hase ully* controlle# conerter e# *& loa#.

2. Theoretically calculate the oerla- angle o gien single -hase ully controlle#conerter e# *& loa# /ith & ssource in#uctance6 inclu#e# -ractically eriythe same 'y con#ucting an e-eriment.

3. 'tain the ty-ical -erormance actors o the gien single -hase ully controlle#conerter e# an# *& loa#s.

6. AC $o DC :/l>-3o=$!olled 3o=e!$e!

O9e3$#e

1. "tu#ying the o-eration o a single*-hase an# three*-hase hal controlle#conerter e# an# *& loa#s.

1. Determination o ty-ical -erormance -arameters.

2. Com-aratie stu#y /ith ully controlle# conerter. E?e!3#"e

1. (ien the in-ut AC oltage an# reBuire# out-ut DC oltage: theoreticallycalculate the iring angle reBuire# an# -ractically eriy the same 'yim-lementing a single* -hase hal controlle# conerter e# *& loa#.

2. Determine the ty-ical -erormance actors o the gien single -hase hal controlle# conerter e# *& or loa#: 'y con#ucting a suita'le e-eriment.

3. (ien the AC in-ut oltage an# out-ut DC oltage reBuire# assume# -ositieout-ut oltage6: com-are the -erormance actors o

a. ully* controlle# conerter e# *& loa#'. 7al controlle# conerter e# *& loa#

"ho/ the #ierences -ractically 'y con#ucting a suita'le e-eriment.

7. S$e< do5= /=d "$e< < MOSFET 9/"ed 3:o


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E?e!3#"e

1. 'tain the gain characteristics i.e out-ut oltage 8s in-ut oltage6 o gien 'uc)or ste- #o/n ty-e: M"%ET 'ase# cho--er.

2. 'tain the gien characteristics i.e out-ut oltage 8s in-ut oltage6 o gien'oost or ste-*u- ty-e: M"%ET 'ase# cho--er.

. IGBT 9/"ed "#=le-


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"tu#ying the s/itching mo#e -o/er su--ly isolate#6 to-ologies em-loyingresonant s/itching:


79/169

EE %&0* ELECTRICAL MACHINES LABORATORY II 0 0 &

%00

AIM

To e-ose the stu#ents to the o-eration o synchronous machines an# in#uctionmotors

an# gie them e-erimental s)ill.1. egulation o three -hase alternator 'y em an# mm metho#s

2. egulation o three -hase alternator 'y % an# A"A metho#s

3. egulation o three -hase salient -ole alternator 'y sli- test

4. Measurements o negatie seBuence an#


80/169

E?e!3#"e

a. 'tain the o-en circuit: short circuit an#


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E?e!3#"e

1. Con#uct the loa# test on a gien three*-hase in#uction motor an# #ra/ theollo/ing cures.

1. ut-ut 8s R Q

2. ut-ut 8s "-ee#2. ut-ut 8s &ine current

3. ut-ut 8s "li-

4. ut-ut 8s o/er actor

5. T 8s + on se-arate gra-h sheet6

7. No Lo/d A=d Blo3ed Ro$o! Te"$ O= T:!ee-P:/"e I=d3$#o= Mo$o!

A#@

To con#uct no loa# an# 'loc)e# rotor test an# to #ra/ the eBuialent circuitan# -re#etermine the -erormance.

E?e!3#"e

1. Determine the eBuialent circuit -arameters.

2. Dra/ the circle #iagram an# -re#etermine the eiciency: torBue: -o/er actor:

sli- an# line current or three loa# con#ition.3. re#etermine the -erormance characteristics using the eBuialent circuit or

three loa# con#ition.

. Se No-Lo/d Lo""e" O> T:!ee P:/"e I=d3$#o= Mo$o!

A#@

To se-arate the constant loss o a three -hase in#uction motor an# se-arateinto iron loss an# mechanical losses.

E?e!3#"e

1. Dra/ the cure oltage 8s In-ut an# se-arate the constant losses into iron an#mechanical loss.

2. "tu#y the star N #elta an# autotransormer starters internal circuitryarrangements.

). Lo/d Te"$ O= S#=le P:/"e I=d3$#o= Mo$o!

A#@To o'tain the loa# characteristics o single -hase motor 'y loa# test.

>0


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83/169

EC %&%* INTEGRATED CIRCUITS LABORATORY 0 0 & %00

AIM

To stu#y arious #igital , linear integrate# circuits use# in sim-le systemconiguration.

1. "tu#y o =asic Digital ICs. 8eriication o truth ta'le or A+D: : E: +T: +: +A+D: JG %%: " %%:

D %%6

2. Im-lementation o =oolean %unctions: A##erN "u'tractor circuits.

3a6 Co#e conerters: arity generator an# -arity chec)ing: Ecess 3: 2s Com-lement:=inary to grey co#e using suita'le ICs .

3'6 Enco#ers an# Deco#ersL Decimal an# Im-lementation o 4*'it shit registers in"I":"I:I":I mo#es using suita'le ICs.

4. CountersL Design an# im-lementation o 4*'it mo#ulo counters as synchronous an#asynchronous ty-es using %% ICs an# s-eciic counter IC.

5 "hit egistersL Design an# im-lementation o 4*'it shit registers in "I": "I: I": Imo#es using suita'le ICs.

! Multi-leN De*multi-le

"tu#y o 4L1 >L1 multi-leer an# "tu#y o 1L4 1L>#emulti-leer$ Timer IC a--lication.

"tu#y o +EN"E 555 timer in Asta'le: Monosta'le o-eration.

>. A--lication o -*Am-*I "le/ rate eriications: inerting an# non*inerting am-liier: A##er: com-arator: Integrater an# Dierentiator.

? "tu#y o Analog to Digital Conerter an# Digital to Analog ConerterL 8eriication o AND conersion using #e#icate# ICs.

10 "tu#y o 8C an# && ICs i. 8oltage to reBuency characteristics o +EN "E 5!! IC. ii. %reBuency multi-lication using +EN"E 5!5 && IC.

P *+ To$/l *+De$/#led S;ll/9"

1. "tu#y o =asic Digital ICs. 8eriication o truth ta'le or A+D: : E: +T: +: +A+D: JG %%:"

%%: D %%6A#@

To test o ICs 'y using eriication o truth ta'le o 'asic ICs.

>2


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E?e!3#"e

1. =rea#'oar# connection o ICs /ith truth ta'le eriication using &EDs.

2. I@ Boole/= F=3$#o=" Adde!J S9$!/3$o! 3#!3#$".

KM#=#@#"/$#o= "#= 1-@/< /=d #@


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+. S:#>$ Re#"$e!"

Design an# im-lementation o 4*'it shit registers in "I": "I: I": Imo#es using suita'le ICs.

A#@ Design an# im-lementation o shit register.

E?e!3#"e

1. "hit egister unction reali


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GE %&0& COMMUNICATION S1ILLS AND TECHNICAL SEMINAR

OB'ECTIVE

During the seminar session each stu#ent is e-ecte# to -re-are an# -resent a to-ic onengineeringN technology: or a #uration o a'out > to 10 minutes. In a session o three -erio#s

-er /ee): 15 stu#ents are e-ecte# to -resent the seminar. A aculty gui#e is to 'e allotte#an# he N she /ill gui#e an# monitor the -rogress o the stu#ent an# maintain atten#ance also.

"tu#ents are encourage# to use arious teaching ai#s such as oer hea# -roectors: -o/er-oint -resentation an# #emonstratie mo#els. This /ill ena'le them to gain coni#ence inacing the -lacement interie/s.

EE %&+% SOLID STATE DRIVES & % 0

%00

AIM

To stu#y an# un#erstan# the o-eration o electric #ries controlle# rom a -o/erelectronic conerter an# to intro#uce the #esign conce-ts o controllers.

OB'ECTIVES

i. To un#erstan# the sta'le stea#y*state o-eration an# transient #ynamics o amotor*loa# system.

ii. To stu#y an# analy


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Cho--er e# D.C #rieL Time ratio control an# current limit control * -eration oour Bua#rant cho--er.

&. INDUCTION MOTOR DRIVES )

"tator oltage control * "li-*-o/er recoery #ries * A#usta'le reBuency #riesL Ncontrol: constant sli-*s-ee# control an# constant air*ga- lu control =asics o

oltageNcurrent e# inerters * =loc) #iagram o close# loo- #rie.

*. SYNCHRONOUS MOTOR DRIVES

)

-en loo- oltsNhert< control an# sel*control o synchronous motorL Marginal anglecontrol an# -o/er actor control * ermanent magnet synchronous motor.

+. DESIGN OF CONTROLLERS FOR DRIVES

)

Transer unction or #c motor: loa# an# conerter Close# loo- control /ith currentan# s-ee# ee#'ac) * Armature oltage control an# iel# /ea)ening mo#e control *Design o controllersL Current controller an# s-ee# controller * Conerter selectionan# characteristics.

TET BOO1S

1. . Grishnan: PElectric Motor , DriesL Mo#elling: Analysis an# Control: rentice7all o In#ia: 2001.

2. =imal G. =ose. PMo#ern o/er Electronics an# AC Dries: earson E#ucation:

2002.

REFERENCE BOO1S

1. (.G. Du'ey: Po/er "emi*con#uctor Controlle# Dries: rentice 7all o In#ia: 1?>?.

2. ".G. illai: PA %irst Course on Electrical Dries: Kiley Eastern &imite#: 1??3.

>$

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EE %&+2 PO4ER SYSTEM ANALYSIS & % 0 %00

AIM

To 'ecome amiliar /ith #ierent as-ects o mo#eling o com-onents an# system an#

#ierent metho#s o analysis o -o/er system -lanning an# o-eration.OB'ECTIVES

i. To mo#el stea#y*state o-eration o large*scale -o/er systems an# o sole the-o/er lo/ -ro'lems using eicient numerical metho#s suita'le or com-utersimulation.

ii. To mo#el an# analyse -o/er systems un#er a'normal ault6 con#itions.

iii. To mo#el an# analyse the #ynamics o -o/er system or small*signal an# large

signal #istur'ances an# o #esign the systems or enhancing sta'ility.

%. THE PO4ER SYSTEM AN OVERVIE4 AND MODELLING 8)

Mo#ern o/er "ystem * =asic Com-onents o a -o/er system * er hase Analysis(enerator mo#el * Transormer mo#el * line mo#el. The -er unit system *Change o 'ase.

2. PO4ER FLO4 ANALYSIS 8)

Intro#uction * =us Classiication * =us a#mittance matri * "olution o non*linearAlge'raic eBuations * (auss sei#al metho# * +e/on ra-hson metho# * %ast #ecou-le# metho# *

%lo/ charts an# com-arison o the three metho#s.

&. FAULT ANALYSIS-BALANCED FAULT 8)

Intro#uction =alance# three -hase ault short circuit ca-acity systematic aultanalysis using 'us im-e#ance matri algorithm or ormation o he 'us im-e#ance matri.

*. FAULT ANALYSIS SYMMETRICAL COMPONENTS AND UNBALANCED

FAULT 8)

Intro#uction %un#amentals o symmetrical com-onents seBuence im-e#ances seBuence net/or)s single line to groun# ault line ault * Dou'le line to groun# ault ;n'alance# ault analysis using 'us im-e#ance matri.

+. PO4ER SYSTEM STABILITY 8)

=asic conce-ts an# #einitions otor angle sta'ility 8oltage sta'ility Mi# Terman# &ong Term sta'ility Classiication o sta'ility An elementary ie/ o transientsta'ility EBual area criterion e-onses to a short circuit ault* actors inluencingtransient sta'ility +umerical integration metho#s Euler metho# mo#iie# Euler metho#

unge Gutta metho#s.

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60

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TET BOO1S

1. 7a#i "aa#at o/er system analysisF: Tata Mc(ra/ 7ill u'lishing Com-any:+e/ Delhi: 2002 ;nit I: II: III: I86

2. .Gun#ur: o/er "ystem "ta'ility an# ControlF: Tata Mc(ra/ 7ill u'lishingCom-any: +e/ Delhi: 1??4 ;nit 86

REFERENCE BOO1S

1. I.J.+agrath an# D..Gothari: PMo#ern o/er "ystem Analysis: Tata Mc(ra/*7ill-u'lishing com-any: +e/ Delhi: 1??0.

2. M.A. ai: PCom-uter TechniBues in -o/er system Analysis: Tata Mc(ra/ 7ill-u'lishing com-any: +e/ Delhi: 2003.

>?


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EI %&6% MEASUREMENTS AND INSTRUMENTATION & 0 0

%00

AIM

To -roi#e a#eBuate )no/le#ge in electrical instruments an# measurementstechniBues.

OB'ECTIVES

To ma)e the stu#ent hae a clear )no/le#ge o the 'asic la/s goerning the o-erationo the instruments: releant circuits an# their /or)ing.

i. Intro#uction to general instrument system: error: cali'ration etc.

ii. Em-hasis is lai# on analog an# #igital techniBues use# to measure oltage:current: energy an# -o/er etc.

iii. To hae an a#eBuate )no/le#ge o com-arison metho#s o measurement.

i. Ela'orate #iscussion a'out storage , #is-lay #eices.

. E-osure to arious trans#ucers an# #ata acBuisition system.

%. INTRODUCTION

)

%unctional elements o an instrument "tatic an# #ynamic characteristics Errors inmeasurement "tatistical ealuation o measurement #ata "tan#ar#s an#cali'ration.

2. ELECTRICAL AND ELECTRONICS INSTRUMENTS

)

rinci-le an# ty-es o analog an# #igital oltmeters: ammeters: multimeters "inglean# three -hase /attmeters an# energy meters Magnetic measurements Determination o =*7 cure an# measurements o iron loss Instrument transormers

Instruments or measurement o reBuency an# -hase.

&. COMPARISON METHODS OF MEASUREMENTS

)

D.C , A.C -otentiometers: D.C , A.C 'ri#ges: transormer ratio 'ri#ges: sel*'alancing 'ri#ges. Intererence , screening Multi-le earth an# earth loo-s *Electrostatic an# electromagnetic intererence (roun#ing techniBues.

*. STORAGE AND DISPLAY DEVICES

)

Magnetic #is) an# ta-e ecor#ers: #igital -lotters an# -rinters: CT #is-lay: #igitalC: &ED: &CD , #ot matri #is-lay.

?0


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+. TRANSDUCERS AND DATA AC(UISITION SYSTEMS )

Classiication o trans#ucers "election o trans#ucers esistie: ca-acitie ,in#uctie trans#ucers ie


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Architecture an# eatures o TM" 320C54 signal -rocessing chi- @uantisationeects in #esigning #igital ilters.

L *+ T %+ To$/l 60

TET BOO1S

1. J.(. roa)is an# D.(. Manola)is: PDigital "ignal rocessing rinci-les: Algorithms

an# A--lications: earson E#ucation: +e/ Delhi: 2003 N 7I.

2. ".G. Mitra: PDigital "ignal rocessing A Com-uter =ase# A--roach: Tata Mc(ra/7ill: +e/ Delhi: 2001.

REFERENCE BOO1S

1. Alan 8. --enheim: onal# K. "chaer an# John . =uc): PDiscrete Time "ignalrocessing: earson E#ucation: +e/ Delhi: 2003.

2. =. 8en)ataramani: M. =has)ar: PDigital "ignal rocessors: Architecture:

rogramming an# A--lications: Tata Mc(ra/ 7ill: +e/ Delhi: 2003.3. ". "aliahanan: A. 8allaara: C. (nana-riya: PDigital "ignal rocessing: TataMc(ra/ 7ill: +e/ Delhi: 2003.

4. Teas TM" 320C54 user manual /e'site6.

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EC %&62 MICROPROCESSOR AND MICRO CONTROLLER & % 0

%00

AIM

To intro#uce Micro-rocessor Intel >0>5 an# the Micro Controller >051

OB'ECTIVES

i. To stu#y the Architecture o >0>5 , >051.

ii. To stu#y the a##ressing mo#es , instruction set o >0>5 , >051.

iii. To intro#uce the nee# , use o Interru-t structure.

i. To #eelo- s)ill in sim-le -rogram /riting.

. To intro#uce commonly use# -eri-heral N interacing ICs To stu#y sim-lea--lications.

%. 0+ PROCESSOR

)

%unctional 'loc) #iagram * "ignals Memory interacing IN -orts an# #ata transerconce-ts Timing Diagram Interru-t structure.

2. PROGRAMMING OF 0+ PROCESSOR

)

Instruction ormat an# a##ressing mo#es Assem'ly language ormat Data transer:#ata mani-ulation , control instructions rogrammingL &oo- structure /ith

counting , In#eing * &oo) u- ta'le * "u'routine instructions stac).

&. PERIPHERAL INTERFACING

)

"tu#y o Architecture an# -rogramming o ICsL >255 I: >25? IC: >251 ;"AT:>2$? Gey 'oar# #is-lay controller an# >253 TimerN Counter Interacing /ith >0>5 *AND an# DNA conerter interacing.

*. MICRO CONTROLLER 0+%

)

%unctional 'loc) #iagram * Instruction ormat an# a##ressing mo#es Interru-tstructure Timer IN -orts "erial communication.

+. MICRO CONTROLLER PROGRAMMING APPLICATIONS

)

Data Transer: Mani-ulation: Control , IN instructions "im-le -rogrammingeercises )ey 'oar# an# #is-lay interace Close# loo- control o sero motor*ste--er motor control.

L *+ T %+ To$/l 60

?4


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TET BOO1S

1. .". (aon)ar: PMicro-rocessor Architecture rogramming an# A--lication: KileyEastern &t#.: +e/ Delhi: 1??5.

2. Muhamma# Ali Ma


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MG %&+% PRINCIPLES OF MANAGEMENT & 0 0

%00

OB'ECTIVE

Gno/le#ge on the -rinci-les o management is essential or all )in#s o -eo-le in all)in#s o organi


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TET BOO1S

1. 7arol# Goorit< , 7ein< Keihrich Essentials o ManagementF: Tata Mcgra/ 7ill:1??>.

2. Jose-h & Massie Essentials o ManagementF: rentice 7all o In#ia:

earson6 %ourth E#ition: 2003.REFERENCE BOO1S

1 Tri-athy C An# e##y +: rinci-les o ManagementF: Tata Mcgra/ 7ill:1???.

2. Decen


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EI %&62 MEASUREMENTS AND INSTRUMENTATION LABORATORY 0 0 &

%00

AIM

The aim o this la' is to ortiy the stu#ents /ith an a#eBuate /or) e-erience in themeasurement o #ierent Buantities an# also the e-ertise in han#ling the instrumentsinole#.

OB'ECTIVE

To train the stu#ents in the measurement o #is-lacement: resistance: in#uctance:torBue an# angle etc.: an# to gie e-osure to AC: DC 'ri#ges an# transientmeasurement.

1. "tu#y o #is-lacement an# -ressure trans#ucers

2. AC 'ri#ges.3. DC 'ri#ges.

4. Instrumentation am-liiers.

5. AND an# DNA conerters.

!. "tu#y o transients.

$. Cali'ration o single*-hase energy meter.

>. Cali'ration o current transormer.

?. Measurement o three -hase -o/er an# -o/er actor.

10. Measurement o iron loss.

P *+ To$/l *+

De$/#led S;ll/9"

%8/ S$d; o> D#"


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3. %lui# the non*electrical Buantity #is-lacement interms o oltage.

E# P!e""!e T!/="d3e!

A#@

To stu#y the o-eration o 'our#on tu'e

O9e3$#e"

1. To stu#y the 'asic -rinci-le o =our#on tu'e.

2. "tu#y o =our#on tu'e as trans#ucer.

E?e!3#"e

1. Dra/ the characteristic cure or a gien =our#on tu'e i.e. -ressure s. oN- 8 or I6.

2. Measure the non*electrical Buantity -ressure interms o oltage or current.

E#


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3. %lui# un)no/n In#uctance.

E#


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E#


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3. " 1 +o

4. 8oltmeter 1 +o

5. Multimeter 1 +o

+8/ AJD Co=e!$e!

A#@

To #esign an# test a 4 'it AND conerter

1. "uccessie a--roimation ty-e

2. am- ty-e

O9e3$#e

1. To stu#y the conerstion o analog IN oltage to #igital oN- olage.

2. To stu#y the o-eration an# characteristic o o-erational am-liier

E?e!3#"e

1. (ien 4 'it analog in-ut is conerter# to #igital out-ut

2. 8eriy the -ractical out-ut /ith theoretical out-ut

E#


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E?e!3#"e

1. (ie

r2007 tirunelveli eee 3 -8

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