B.Tech.Syl. & sch.-C

8/9/2019 B.Tech.Syl. & sch.-C

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ANNEXURE - SCHEME

1


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SCHEME OF EXAMINATION FOR B.TECH DEGREE

Ist Semester Examination

(Common to a Bran!"es#

Course Subject Teaching Schedule Examination Schedule TotalDuration

No L T P/D Total Theory Sessional Practical/ of Exam

!i"a#$T%1&' EnglishLanguage

(r

)ET%1&' )anufacturing

Process

#$T%1&* Engineering Economics

(r

ECT%1&+ ,asic Electronics Engineering

)-T%1&+ )athematics%.

P#T%1&* Physics%.

C#T%1&* Chemistry%.

ELT%1& ,asic Electrical Engineering ' '/' + 0& *& 1&& +

(

C(T%1&' Com2uter Engineering

CET%1&' Engineering 3ra2hics%.

P#T%1& Physics%. Practical

C#T%1&+ Chemistry%. Practical

ECT%1& ,asic Electronics Engineering%

PracticalELT%1&4 ,asic Electrical Engineering

Practical % % + + 0& *& 1&& +

(

C(T%1& Com2uter Lab5

)ET%1&+ 6or7sho2 Practical%.

5-ll Engineering De2artments 8ill share in teaching 9 Exams

#$T%1&' and #$T%1&* 8ill be offered to first half of the students strength: and

)ET ;1&' and ECT%1&+ 8ill be offered to second half of the students strength

'


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Similar Procedure for


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SCHEME OF EXAMINATION FOR B.TECH DEGREE COURSE

E&ECTRICA& ENGINEERING

THIRD SEMESTER EXAMINATION

('.e.. $))*-$))+#

Course Subject Teaching Schedule Examination Schedule Total CreditNo L T P/D Total External .nternal Points

)T%'&1 )athematics%... + 1 % * 0& *& 1&& +

ET%'&1 Circuit Theory + 1 % * 0& *& 1&& +

ET%'&+ -nalog Electronics * 1 % 0& *& 1&& *ET%'& )easurement 9 + 1 % * 0& *& 1&& +

.nstrumentation%.ET%'&4 Electrical )achines%. * 1 % 0& *& 1&& *

ET%'&> Transmission 9 Distribution + 1 % * 0& *& 1&& +

ET%'11 Electrical )achines Lab%. % % + + *& 0& 1&& 1ET%'1+ )easurements and % % ' ' *& 0& 1&& 1&

.nstrumentation Lab%.

ET%'1 -nalog Electronics Lab % % ' ' *& 0& 1&& 1&ET%'14 Com2uter Techni?ue lab % % ' ' *& 0& 1&& 1&

Total '& 0 > +

*


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FOURTH SEMESTER EXAMINATION

('.e.. $))*-$))+#


#ut%'&1 .ndustrial Socialogy ' 1 % + 0& *& 1&& 'ET%'&' Signals -nd Systems + 1 % * 0& *& 1&& +

ET%'&* Electrical )achines%.. * 1 % 0& *& 1&& *

ET%'&0 Po8er Electronics%. + 1 % * 0& *& 1&& +ET%'&@ Digital Electronics + 1 % * 0& *& 1&& +

ET%'1& Aields and 6a"es + 1 % * 0& *& 1&& +ET%'1' Po8er 3eneration 9 Control + 1 % * 0& *& 1&& +

ET%'1* Electrical )achines Lab%.. % % + + *& 0& 1&& 1

ET%'10 Po8er Electronics Lab%. % % ' ' *& 0& 1&& 1&

ET%'1@ Digital Electronics Lab % % ' ' *& 0& 1&& 1&

Total '1 4 4 +

NoteB Students shall de"ote 0 8ee7s to Practical Training after Aourth Semester Examination


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FIFTH SEMESTER EXAMINATION

('.e.. $))*-$))+#


ET%+&1 Net8or7 -nalysis * 1 % 0& *& 1&& *-nd Synthesis

ET%+&+ Po8er Electronics%.. + 1 % * 0& *& 1&& +

ET%+& Po8er System -nalysis + 1 % * 0& *& 1&& +ET%+&4 )aterials Com2onents ' 1 % + 0& *& 1&& '

-nd ProcessesET%+&> Control System * 1 % 0& *& 1&& *

#uT%+11 ,usiness )anagement + 1 % * 0& *& 1&& +

ET%+11 Po8er Electronics Lab%.. % % + + *& 0& 1&& 1

ET%+1+ Control System Lab % % + + *& 0& 1&& 1ET%+1 Signals 9Systems Lab % % ' ' *& 0& 1&& 1&ET%+14Electrical 6or7sho2 % % ' ' *& 0& 1&& 1&

ET%+1> Practical Training % % % % *& 0& 1&& +&Total 1> 0 1& +

0


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SIXTH SEMESTER EXAMINATION

('.e.. $))*-$))+#


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%ET%+&' Electric Dri"es + 1 % * 0& *& 1&& +

ET%+&* )icro2rocessors and * 1 % 0& *& 1&& *)icrocontrollers

ET%+&0 -nalog and Digital + 1 % * 0& *& 1&& +

CommunicationET%+&@ S8itchgear and Protection + 1 % * 0& *& 1&& +

ET%+1& -d"anced Programming * 1 % 0& *& 1&& *-nd Soft8are Engg

ET%+1' )easurements and + 1 % * 0& *& 1&& +

.nstrumentation%..ET%+1* )icro2rocessors Lab % % ' ' *& 0& 1&& 1&

ET%+10 Po8er System Lab % % ' ' *& 0& 1&& 1&ET%+1@ Electric Dri"es Lab % % + + *& 0& 1&& 1

ET%+'& )easurements and % % ' ' *& 0& 1&& 1&.nstrumentation Lab%..

Total '& 0 > +

4


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NoteB Students shall de"ote 0 8ee7s Practical training after sixth semester examination outside the College Cam2us at a22ro"ed

8or7s



SE,ENTH SEMESTER EXAMINATION

('.e.. $))*-$))+#

Course Subject Teaching Schedule Examination Schedule Total Credit

No L T P/D Total External .nternal 2oints

ET%*&1 Com2uter )ethod in + 1 % * & & 1&& +

Po8er SystemET%*&+ Digital Signal Processing + 1 % * & & 1&& +

ET%*1+:*1:*14:*1> De2tt + 1 % * & & 1&& + Electi"e%.

ET%*'1:*'+:*':*'4 De2ttElecti"e%.+ 1 % * & & 1&& +

(2en Electi"e%. + 1 % * & & 1&& +ET%*& Seminar%. % 1 % 1 % % 1&& 1&

ET%*&4 -d"ance Programming % % ' ' *& 0& 1&& 19 Soft8are EnggLab

ET%*&> Com2uter )ethods in % % ' ' *& 0& 1&& 1

Po8er Systems LabET%*11 )inor Project % % ' ' *& 0& 1&& *

ET%*'>:*+1:*++:*+ % % ' 'Design Project%.

ET%*+0:*+@:**&:**' )ajor Project % % 1 1 *& 0& 1&& *ET%*+4 .n2lant Training e2ort % % % % 1&& +&

Total 1 0 > +&

@


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EIGTH SEMESTER EXAMINATION

('.e.. $))*-$))+#

Course Subject Teaching Schedule Examination Schedule Total Credit 2oints

No L T P/D Total External .nternal

ET%*&' System Engg 9 eliability + 1 % * & & 1&& +ET%*&* #igh !oltage Engg + 1 % * & & 1&& +

ET%*1':*1*:*10:*1@ De2tt Electi"e + 1 % * & & 1&& +%...

ET%*'&:*'':*'*:*'0

De2tt Electi"e%.! + 1 % * & & 1&& +(2en Electi"e%.. + 1 % * & & 1&& +

ET%*&0 Seminar%.. % 1 % 1 % % 1&& 1&ET%*&@ #igh !oltage Engg Lab % % +/' +/' *& 0& 1&& 1&

ET%*1& eliability Engg Lab % % +/' +/' *& 0& 1&& 1&

ET%*'@:*+&:*+':*+* )ajor Project % % * * *& 0& 1&& 1'&ET%*+0:*+@:**&:**' Design Project % % ' ' *& 0& 1&& *

%..ET%*** Com2rehensi"e !i"a%"oce % % % % 1&& +&

ET%**0 3eneral Aitness 9 % % % % 1&& +&Professional -2titude

>


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Deartmenta Ee!ties an% /ro0e!ts or Seen an% Ei1"t Semester B.Te!". Ee!tri!a En1ineerin13rou2 - 3rou2 , 3rou2 C 3rou2 D


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&IST OF O/EN E&ECTI,E-I FOR ,II SEMESTER

Sr Course No Name of Subject emar7s

1 CET%*1> #ydro Electric Po8er De"elo2ment' CET%*'1 Concrete Technology

+ CET%*'+ En"ironmental Engg

* CET%*' )achine Aoundations C(T%*41 Aundamentals of Soft8are Engg

0 C(T%*4+ Aundamentals of Database Systems4 C(T%*4 Aundamentals of Com2uter #ard8are Technologies

@ C(T%*44 -rtificial .ntelligence> ET%*01Non%Con"entional Energy Sources

1& ET%*0+System )odeling and Control (nly for C and )

11 ET%*0Aault Tolerance and eliability Engg

1' ET%*04.llumination Engg1+ ET%*0>)icro2rocessors and -22lications (nly for C and )1* ET%*+1Transducers and -22lications (nly for C and )

1 ECT%*+1 e ; ,usiness

10 ECT%*++ adio and T! Engineering14 ECT%*+ -coustic Engineering

1@ ECT%*+4 )easurement Systems1> ECT%*+> ,asic Communications Engg

'& )ET%*'> .ndustrial obotics'1 )ET%*+1 Cryogenic Engg

11


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'' )ET%*++ .ndustrial Noise and Control

'+ )ET%*+ Com2uter gra2hics and 2roduct Design'* )ET%*+4 Pi2ing Engg

' )ET%*+> Process E?ui2ment Design

'0 )ET%**1 .ndustrial Engg -nd (rganiation Not for )'4 C#T%*0+ )etals and -lloys

'@ #uE%*01 )odern Trends in )anagement

'> #uE%*0+ .ndustrial Social es2onsibility+& #uE%*04 De"elo2ment and Planning in .ndian Economy

+1 #uE%*4 -d"anced Communication Sills in English+' )aE%*04 -d"anced )athematics%.

++ PhE%*0 Lasers+* PhE%*04 $ltrasonics

1'


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&IST OF O/EN E&ECTI,E-I FOR ,III SEMESTER

Sr Course No Name of Subject emar7s

1 CET%*1* i"er )echanics 9 Alood Control

' CET%*10 3eosynthetics Engg+ CET%*1@ .ntroduction to Ainite Element )ethod

* CET%*'& Trans2ort Planning C(T%*4' Aundamentals of (2erating Systems

0 C(T%*4* Aundamentals of Com2uter Net8or7s4 C(T%*40 (bject (riented Soft8are Engg

@ C(T%*4@ Ex2ert Systems> C(T%*@& Security and Cry2togra2hy

1& ET%*0'Energy )anagement and Conser"ation ECT%**& Theory and -22lication of DSP

'& ECT%**' )obile Communication'1 )ET%*'@ Non%Con"entional Energy Systems

'' )ET%*+& !alue Engg

'+ )ET%*+' Pneumatics 9 #ydraulics Control'* )ET%*+* )aterial #andling

' )ET%*+0 Com2uter )odeling 9 Soft8are Engg


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'0 )ET%*+@ -ir Pollution and its Control

'4 ChT%*0* Polymer Technology'@ #uE%*0' Entre2reneurshi2

'> #uE%*0* #uman esource )anagement

+& #uE%*00 .ntellectual Pro2erty ights+1 )aE%*0@ -d"anced )athematics%..

+' PhE%*0@ Non%Destructi"e Testing

++ PhE%*4& Transducers 9 their -22lications

1*


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1


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ANNEXURE - S2&&ABUS

10


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B.TECH E&ECTRICA& ENGINEERING

3st4$n%SEMESTER

E&T-3)* BASIC E&ECTRICA& ENGINEERINGL T P

' '/' '/'

Time + #rs

Electric CircuitsB e"ie8 of CL:!L and DC circuit analysis Signals -nd 8a"e

forms: 2hasor re2resentation of sinusoidal "oltages and currents: 2o8er: 2o8er factor:

analysis of series: and 2arallel circuits: resonance in series and 2arallel circuits,alanced three%2hase systems: star% and delta% connections: relation bet8een line and

2hase ?uantities


18/112


5r%SEMESTER

ET-$)3 CIRCUIT THEOR2

L T

+ 1

Time + #rs

Classification of circuits: sources and signals: standard signals: sourcetransformations

Net8or7 to2ology: gra2h matrices: formulation and solution of circuit e?uations

based on gra2h theory using different analysis techni?ues% circuit: cut set and mixed

Conce2t of dualityNet8or7 theorems and their a22lications% Su2er2osition: reci2rocity: The"enin:

Norton: )aximum 2o8er transfer: )illman: Substitution: Com2ensation and TelleganGstheorem

-nalysis of circuits subject to 2eriodic and non%2eriodic excitations using Aourier

series and La2lace transforms Conce2t of free and forced res2onse of circuits Timeconstants and Transient res2onse under dc and ac excitation -nalysis of magnetically

cou2led circuits

Series and 2arallel resonance circuits: band8idth and H%factor: res2onse 8ith

"ariation in 2arameters and fre?uency.ntroduction to non%linear circuits and their analysis -nalysis of circuits 8ith

de2endent sources

S$33ESTED ,((S%

1 Desoer 9 uh: ,asic Circuit theoryF: )c3ra8 #ill' !an !al7enberg : Net8or7 -nalysisF: P#.

+ !al7enberg 9 inari8ala : Linear CircuitsF: P#.

* Tric7 : .ntroduction to circuit -nalysisF: 6iley

oy Choudhary : Net8or7s 9 systemsF: 6iley0 .yer: Circuit -nalysisF: T)#

4 -atre : Net8or7 Theory 9 Ailter DesignF: Ne8 -ge

1@


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ET-$)5 ANA&OG E&ECTRONICS

L T

* 1

Time + #rs

Transistor biasing circuitsB ,ase bias: Emitter%feedbac7 bias: collector%feedbac7 bias:

!oltage%di"ider bias: emitter biasCE: CC 9 C, am2lifiers: Darlington am2lifier

h%2arameters: CE: CC and C, analysis

Class -: ,: C: D and S 2o8er am2lifiers Push%2ull o2eration

IAETB 3ate bias: Self bias: !oltage%di"ider bias and source bias: current source bias CS:CD and C3 am2lifier

)(SAETB De2letion ty2e: Enhancement ty2e )(SAET and their biasing

(P%-)P: Differential am2lifier and its DC: -C analysis: (P%-)P characteristics: Non%

.n"erting/.n"erting !oltage and Current feedbac7Linear and Non%Linear (P%-)P circuits: egulated 2o8er su22lies

,ar7hausen criteria of oscillations: 6ein%bridge: C oscillator timerB its monostable and astable o2eration

S$33ESTED ,((S%

1 )illman and #al7ias: .ntegrated ElectronicsF: )c 3ra8 #ill

' ,oylested and L Nashels7y: Electronics De"ices and CircuitsF: Prentice

#all .ndia+ )illman and #al7ias: Electronics De"ices and CircuitsF: T)# Edition

* )alcolm 3oodge: -nalog Electronics -nalysis and SynthesisF: T)#

Edition )al"ino: Electronics Princi2lesF: T)# Edition

1>


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ET-$)* Meas6rement an% Instr6mentation-I

L T

+ 1 Time + #rs

S. System of units: dimensional analysisStandards for mass: length: and time Standards and sub%standards for :C:) and

L Standards for tem2erature and luminous intensity Laboratory standards of E)A .EEE

standards

Errors in measurements: "arious ty2es of error: error estimation: significantfigures: uncertainty in results

-nalog measuring instrument: classification: 2rinci2le of o2eration: tor?ue to

8eight ratio: deflecting tor?ue: control tor?ue and dam2ing tor?ue Scales

-mmeters and "oltmetersJ )o"ing iron: mo"ing coil: electrodynamic and rectifierty2e

(hmmeter: multimeter ratio meter and 2o8er factor meterDC 2otentiometer ; !ernier ty2e

-C 2otentiometerJ Polar and Co%ordinate ty2e

6attmeterJ .nduction and electrodynamic ty2eEnergy meterJ .nduction ty2e ; single and three 2hase

)easurement of lo8: medium and high resistances Substitution and null

methods

)easurement of self%inductance and mutual inductance for lo8 H and high Hcoils using )ax8ellGs #ayGs: -ndersonGs: Cam2bellGs: and ca2acitance using DeSautyGs:

and ScheringGs bridges: shielding and grounding of bridges

)agnetic measurementsJ Sam2les for Lloyd%Aisher s?uare: se2aration ofhysteresis loss and eddy current loss

.nstrument transformersJ Current transformer and 2otential transformer: their

2erformance characteristics

S$33ESTED ,((S%

1 - Sa8hney: Electrical and Electronic )easurements 9.nstrumentationF:Dhan2at ai: Delhi

' CT ,ald8in : Aundamentals of Electrical )easurementF: Lyall ,oo7

De2ot+ E6 3olding: Electrical )easurementF

'&


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ET-$)7 Ee!tri!a Ma!"ines-I

L T

* 1 Time + #rs

1 Electromechanical Energy Con"ersion%,asic 2rinci2le Energy: Aorce and Tor?ue in singly and multi2ly excited systems

' Transformers%

a= Princi2le: construction and o2eration of single 2hase transformers: 2hasor

diagram: e?ui"alent circuit: "oltage regulation: losses and efficiencyb= Testing% (2en 9 short circuit tests: Polarity test: Sum2nerGs test:

Se2aration of hysteresis and eddy current losses

c= Three 2hase TransformerB Construction: "arious ty2es of connection and

their com2arati"e featuresd= Parallel o2eration of single 2hase and three 2hase transformers

e= -utotransformers% Construction: Princi2le: -22lications and Com2arison8ith t8o 8inding transformer

f= Excitation 2henomenon in transformers: #armonics in single 2hase and

three 2hase transformers: Su22ression of harmonicsg= Phase con"ersion% Scott connections: Three 2hase to six 2hase con"ersion

h= Ta2 changing Transformers% No load and on load ta2 changing of

transformers

i= Three 8inding Transformersj= Cooling methods of transformers

+ DC )achines%

a= 6or7ing 2rinci2le: construction and methods of excitationb= -rmature 6inding% Detailed study of sim2le la2 and 8a"e 8indings

c= DC 3enerators% emf e?uation Circuit models: -rmature reaction: Effect

of brush shift Com2ensating 8inding: Characteristics of "arious ty2es ofgenerators: a22lications

d= DC )otors% Tor?ue e?uation: Circuit models Characteristics of dc

shunt: series and com2ound motors: a22lications

e= Starting 9 S2eed Control% Starting methods and s2eed control of dcshunt and series motors

f= Commutation% Causes of bad commutation: )ethods of im2ro"ement

g= Testing% Direct and regenerati"e methods to test dc machines

'1


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S$33ESTED ,((S%

1 Clayton -E:FPerformance and Design of Direct Current

)achines

' .r"ing LF oso8: Electric )achinery and Transformers: Prentice%#all of .ndiaF

+ 3eorge )c2hersion :F-n .ntroduction to Electrical )achines and

TransformersF: Iohn 6iley 9 Sons: NK* Nagrath 9 othari: Electric )achinesF: Tata )c3ra8 #ill

PS ,imbhra: Electrical )achineryF: hanna Publishers

0 )3 Say: Theory:F Performance 9 Design of -C )achinesF: C,S

Publisher

''


23/112

ET-$)8 TRANSMISSION AND DISTRIBUTIONL T

+ 1

Time + #rs

3ENE-L% .m2ortance of electric 2o8er: Po8er system com2onents: 3ro8th of 2o8er

systems in .ndia: 2o8er su22ly net8or7: effect of "oltage on conductor sie: com2arisonof conductor "ol in ty2ical su22ly systems elementary high "oltage DC transmission and

its ad"antages 9 disad"antages

L.NE P--)ETES% E"aluation of inductance: ca2acitance: resistance for single

2hase: three% 2hase symmetrical: unsymmetrical: trans2osed: untrans2osed single circuit:double circuit linesJ s7in and 2roximity effect

PEA()-NCE (A L.NES% Classification of lines as short: medium and long:

re2resentation and detailed 2erformance analysis of these lines including - , C D

2arameters Detailed measurements and uni"ersal 2o8er circle diagram)EC#-N.C-L C(NS.DE-T.(NS% !arious ty2es of line conductors: line su22orts:

2oles and to8ers: sag calculations: effect of 8ind: ice and tem2erature: stringing chart:sag tem2late: line "ibrations

.NS$L-T(S% !arious ty2es of insulators: "oltage distribution: string efficiency:

methods of increasing string efficiencyC((N-% Phenomenon of corona: disru2ti"e critical "oltage: "isual critical "oltage:

corona loss: radio interference

$NDE3($ND C-,LES ; Classification and construction: insulation resistance:

ca2acitance: ca2acitance determination: 2o8er factor in cables: ca2acitance grading: useof intersheaths: losses: heat dissi2ation and tem2erature rise in cables: current rating:

com2arison 8ith o"erhead lines

S$33ESTED ,((S%

1 .I Nagrath and DP othari:F Po8er System Engineering:F


24/112


9t"SEMESTER

ET-$)$ SIGNA&S AND S2STEMS

L T+ 1

Time + #rs

S.3N-LS%Ty2es of Signals% Deterministic and stochastic: 2eriodic and a2eriodic: im2ulse

function and se?uences: analog and discrete: singular functions

Signal e2resentation in terms of singular functions: orthogonal functions and their use

in signal re2resentation Aourier series: Aourier and La2lace transforms Con"olutiontheorem: geometrical inter2retation and a22lications

Probability conce2ts: random "ariable: 2df cdf moments: distributions:

correlation functions Characteriation of stochastic signals

Discretiation of analog signals ; Sam2ling: sam2ling theorem and its 2roofEffect of under sam2ling: reco"ery of analog signals from sam2led signal

Characteriation of Discrete Signals ; in terms of im2ulse se?uences: %transformsPro2erties: .n"ersion and a22lications of La2lace: Aourier and %transforms

SKSTE)S%

Classification%linear and Non%linear: Time in"ariant and time "arying: Lum2edand Distributed Deterministic and Stochastic Causal and Non Causal: -nalog and

Discrete/Digital: memory and memory less: 1%2ort and N%2ort: S.S(: S.)(: ).S(:

).)(

System )odeling in terms of differential: e?uations: state "ariables: differencee?uations and transfer functions

Linear time in"ariant system 2ro2erties: elementary idea of res2onse

determination to deterministic and stochastic signals Conce2t of .m2ulse res2onse

S$33ESTED ,((S%

1 Ared I Taylor ; Princi2les of Signals and System:F )3..

' Simon #ay7ins ; Signals and Systems:F 6iley Eastern

+ - Pa2oulis ; Circuits and System:F )odern -22roach #6

* -! (22enheim and -S 6ins7y ; :FSignals and SystemF:P#. P Singh and Sa2re ; Communication Systems T)#

0 Seh8at ; )odulation: noise and s2ectral analysis )3#

4 Iohn Pro7ias ; Digital signal 2rocessing P#@ A iemen: 6# Traiter and D Arannin ; Signals 9 System% Continuous

and Discrete )acmillian

'*


25/112

ET-$)9 Ee!tri!a Ma!"ines - II

L T

* 1 Time + #rs

1 ,asic conce2ts of Electrical )achines%6inding factors: generated emf and mmf of distributed ac 8inding: rotating

magnetic field

' .nduction )achines%

a= Constructional features: 2roduction of tor?ue: 2hasor diagram: e?ui"alentcircuit: 2erformance analysis: tor?ue%sli2 characteristics

b= Testing%unning light and bloc7ed rotor test: load test

c= Effect of rotor resistance: dee2 bar and double cage induction motor

d= 3enerator (2eratione= Starting% Starting methods of s?uirrel cage and 8ound rotor induction motor

f= S2eed Control% !arious methods of s2eed control of s?uirrel cage and 8oundrotor induction motor

g= Effects of s2ace harmonics

+ Single 2hase induction motors%1 Constructional features: double re"ol"ing field theory: e?ui"alent circuit:

determination of 2arameters

' S2lit 2hase starting methods 9 a22lications

* Synchronous )achines%a= Constructional features

b= Cylindrical rotor machine%

.= Synchronous 3enerator% 3enerated emf: circuit modeland 2hasor diagram: armature reaction: synchronous

im2edance: "oltage regulation and different methods for its

estimation..= Synchronous )otor% (2erating 2rinci2le: circuit model:

2hasor diagram: effect of load

...= (2erating characteristics of synchronous machines: !%

cur"es: starting methods of synchronous motorsc= Salient 2ole )achine%

T8o reaction theory: analysis of 2hasor diagram: 2o8er angle

characteristics: determination of x dand x?d= Parallel o2eration of -lternators%

Synchroniation and load di"ision

'


26/112

S$33ESTED ,((S%

1 Aitgerald 9 ingsley: Electric )achineryF )c3ra8 #ill' -lexander S Langsdorf: -C )achinesF: Tata )c3ra8

#ill

+ )3 Say: Theory Performance and Design of -C)achinesF C,S Publisher

* Nagrath 9 othari:F Electric )achinesF T)#

PS ,himbra: Electrical )achineryF: hanna Publishers

'0


27/112

ET-$)+ /o'er Ee!troni!s-I

L T

+ 1

Time + #rs

Characteristics and s8itching beha"ior of different solid%state de"ices namely

Po8er Diode: SC: $IT: T.-C: D.-C: 3T(: )(SAET: .3,T: )CT and 2o8er

transistor

T8o%transistor analogy of SC: Airing circuits of SC and T.-C: SC gatecharacteristics: SC ratings

Protection of SC against o"er current: o"er "oltage: high d!/dt: high d./dt

Thermal 2rotection )ethods of commutation

Series and Parallel o2eration of SCClassification of ectifiers: Phase controlled rectifiersB Single 2hase half 8a"e

controlled Aully controlled and half controlled rectifiers and their 2erformance2arameters

Three 2hase half 8a"e: full 8a"e and half controlled rectifiers and their

2erformance 2arametersEffect of source im2edance on the 2erformance of single 2hase and three 2hase

controlled rectifiers Single%2hase and three 2hase Dual Con"erter

S$33ESTED ,((S%

1 ) amamoorthyThyristor and their a22lications: East 6est Publication

' PS ,himbraPo8er Electronics: hanna Publishers+ )D Singh and , hanchandani: Po8er Electronics :T)# Edition

* - 3u2ta and LP Singh: Po8er Electronics:Dhan2at ai Publishing Co

ama eddy: Aundamental of Po8er Electronics: Narosa Publishing

'4


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ET-$): DIGITA& E&ECTRONICS

L T

+ 1

Time + #rs

1 Number System and Codes

e"ie8 of number systems: different codes and s2ecifications: .nteger andfloating 2oint systems

' ,oolean -lgebraB ,asic theorems: commutati"e: associati"e: distributi"e la8s:

duality conce2t: S(P and P(S form of ,oolean ex2ressions: minimiation techni?ues u2

to six "ariables using ma2s: H) method

+ Logic gates and Logic Aamilies

Logic gates: $ni"ersal gates: transistor as a s8itching element: Tri%state s8itch:

,i2olar logic AamiliesB TL: DTL: TTL: ECL: 1

'

L: )(S Logic familiesB N)(S: C)(Sfamilies and characteristics: TTL to C)(S interface: C)(S to TTL interface: "arious

logic functions and their im2lementation* Combinational Logic gates

.ntroduction to combinational circuits: arithmatic and logical o2eration: design of

#alf adder 9 full adder: subtractor circuits: 2arity generator 9 and chec7er: codecon"erter: decoders: multi2lexers: demulti2lexers: com2arators: (): conce2t of PLD:

P-L: PL- de"ices

Se?uential Circuits

Ali2%flo2s: bistable circuitsB S: I: D: T: )aster/Sla"e Ali2%flo2: race aroundcondition: latches: synchronous and asynchronous counters u2 9 do8n counters: shift

registers: state transition diagram: introduction to finite state machine conce2t

0 Semiconductor )emory,asics of memory: memory addressing: (): P(): EP(): static and

dynamic -)

4 -/D 9 D/- Con"ertersD/- con"erter: accuracy: resolution and 2recision: "ariable resistor net8or7:

binary ladder: -/D con"erter: accuracy and resolution: simultaneous con"ersion: counter

method: continuous -/D con"erter: dual slo2e: successi"e a22roximation method

S$33ESTED ,((S%

1 P Iain: M)odern ElectronicsG' -P )al"ino and DP Leach: M Digital Princi2les and a22licationsG

+ Aloyd: MDigital CircuitsG

* Charles oth: MAundamentals of Logic DesignG # Taub and D Schilling: MDigital .ntegrated ElectronicsG

0 3othman: Digital Electronics

'@


29/112

FIE&DS AND ;A,ES

ET-$3)

L T P

+ 1 % Time B + #rs

1 e"ie8 of !ector -nalysis B

Coordinate Systems: !ectors: gradient: di"ergence: curl: La2lacian:di"ergence theorem: Sto7eGs theorem

' Electric and )agnetic fieldsB

Electric fields due to distributed charges configurations line


30/112

ET-$3$ /O;ER GENERATION AND CONTRO&

L T+ 1

Time + #rsLoads and Load Aorecasting

Load Cur"es: )aximum Demand: Load Aactor: Di"ersity Aactor: Ca2acity Aactor:

$tiliation Aactor: Ty2es of Load: Load Aorecasting

Po8er Plant EconomicsChoice of ty2e of generation: Sie of generator and number of units: Cost of Electrical

Energy: De2reciation of 2lant: effect of load factor on cost of Electrical Energy

Thermal Po8er Plants

Choice of site: )ain and auxiliary e?ui2ment: Alue 3as%flo8 diagram: 6ater%steam%flo8diagram: 6or7ing of 2o8er 2lants and their layout: Characteristics of turbo%generators

#ydro%Electric PlantsChoice of site: Classification of #ydro%Electric 2lants: )ain 2arts and 8or7ing of 2lants

and their Layouts: Characteristics of #ydro%Electric generators

Nuclear Po8er PlantsChoice of site: Classification of 2lants: main 2arts: Layout and their 8or7ing: -ssociated

2roblems

Diesel Po8er Plants

Diesel 2lant E?ui2ment: Diesel 2lant Layout and its 8or7ing: -22lication of diesel2lants

Combined 8or7ing of Plants

-d"antages of combined o2eration: 2lant re?uirements for ,ase load and Pea7 load(2eration Combined 8or7ing of un%off i"er Plant and steam 2lant

Po8er Station E?ui2ment and Control


31/112

S$33ESTED ,((S%

1 PS)urty: MPo8er System (2eration and ControlG: Tata )c 3ra8 #ill:Ne8 Delhi

' )! Desh2ande: MElements of Electrical Po8er System DesignG: 6heeler

Publishing Co: -llahabad+ , 3u2ta: M3eneration of Electrical EnergyG: Eurasia Publishing #ouse


32/112


*t"SEMESTER

ET-5)3 Net'or< Ana=sis an% S=nt"esis

L T* 1

Time + #rs

Conce2t of generalied fre?uency: circuit re2resentation and their res2onse in

terms of generalied fre?uency

Conce2t of one 2ort: t8o%2ort net8or7s: characteristics and 2arameters:

interrelationshi2s of 2arameters: image 9 iterati"e im2edance conce2t of characteristicim2edance: scattering 2arameters: insertion loss: interconnection of '%2ort net8or7s:

analysis of terminated '%2ort net8or7s: extensions to multi2ort net8or7s

3eneralied net8or7 functions


33/112

ET-5)5 /o'er Ee!troni!s-II

L T P

+ 1 %

Time B + #rs

DC to DC Con"erterBClassification of cho22ers Princi2le of o2eration: steady state analysis of class -

cho22er: ste2 u2 cho22er: s8itching mode regulatorsB ,uc7: ,oost: ,uc7%,oost: Cu7

regulators Current commutated and "oltage commutated cho22er

-C to -C Con"erterBClassification: 2rinci2le of o2eration of ste2 u2 and ste2 do8n cyclocon"erter

Single 2hase to single 2hase cyclocon"erter 8ith resisti"e and inducti"e load Three

2hase to single 2hase cyclocon"erterB #alf 8a"e and full 8a"e Cosine 8a"e crossing

techni?ue Three 2hase to three 2hase cyclocon"erter (ut2ut "oltage e?uation ofcyclocon"erter

DC to -C Con"erterBClassification: basic series and im2ro"ed series in"erter: 2arallel in"erter: single

2hase "oltage source in"erter: steady state analysis: #alf bridge and full bridge in"erterB

)odified )c )urray and )odified )c )urray ,edford in"erter: "oltage control insingle 2hase in"erters: P6) in"erter: reduction of harmonics: current source in"erter:

three 2hase bridge in"erter

Po8er Su22liesB

S8itched mode DC and -C 2o8er su22lies esonant DC and -C 2o8ersu22lies

-22licationsB Dielectric and induction heating ,loc7 diagram of DC and -C

motor s2eed control

S$33ESTED ,((SB

1 Iacob: )ichael Po8er ElectronicsB Princi2les 9 -22lication: !i7as

Publishing #ouse P"t Ltd

' )# ashid: Po8er Electronics B Circuits: de"ices and a22lications : P#.+ Ned )ohan: Tore ) $ndeland: 6illiam P obbins: Po8er Electronics B

Con"erters: -22lications and Design : Iohn 6iley 9 Sons

* PS ,imbhra: Po8er Electronics ) amamoorthy -n .ntroduction to Thyristors and their a22lications East%

6est Press

0 )D Singh and , hanchandani: Po8er Electronics: Tata )c3ra8%#ill4 - 3u2ta 9 LP Singh: Po8er Electronics and .ntroduction to Dri"es

Dhan2at ai Publishing Co

++


34/112

ET-5)* /O;ER S2STEM ANA&2SIS

L T P

+ 1 %

Time B + #rs

3eneral -s2ectsB

Per%unit ?uantities: single%line diagrams: im2edance diagram: reactance diagramLine 2erformance im2ro"ement de"ices ; Series and shunt com2ensation of lines:

methods of "oltage control: ta2%changing and regulating transformers: introduction to

"oltage stability: reacti"e 2o8er injection: static "ar com2ensators


35/112

S$33ESTED ,((SB

1 .I Nagrath and DP othari )odern Po8er Systems -nalysis:


36/112

ET-5)7 MATERIA&S> COM/ONENTS AND /ROCESSES

L T

' 1

Time + #rs

)-TE.-LSB Conductors% free electron theory and electron scattering Dielectrics% Polariation: solid: li?uid and gas dielectrics

.nsulators% Classification: -22lication in electric de"ices

)agnetic materials% classification based on orientation of

magnetic di2oles(2toelectronic materials

Semiconductors% sim2le and com2ound

efractory )aterials Solders and contacts

Su2erconducti"ity and su2er conducting materials

C()P(NENTSB esistors and Ca2acitors Dis2lay unitsB% LED: LCD and )onitorsEffect of en"ironment on com2onents

P(CESSESB ,asic 2rocesses used in the manufacture of integrated circuits such as

E2itaxy: mas7ing: 2hotolithogra2hy: diffusion: oxidation:Etching: metalliation: Scribing: 8ire bonding and

Enca2sulation .nduction and Dielectric heating Electron beam 8elding and

cutting

S$33ESTED ,((S%

1 S( asa2: MPrinci2les of Electrical Engineering )aterials:G


37/112

ET-5)8 CONTRO& S2STEM

L T P* 1 %

Time B + #rs.ntroduction to Control SystemsB

Conce2t of control: control system terminology: classification of Control Systems

)athematical )odels of SystemsBDifferential e?uations of 2hysical systems: transfer function of linear systems:

bloc7 diagram models: and signal flo8 gra2h

DC 9 -C Ser"omotors: Synchros

State !ariable )odelsBState "ariables of a dynamic system: state e?uation: transfer function from the state

e?uation and "ice%"ersa

Aeed bac7 Control System CharacteristicsB%

Time domain and fre?uency domain res2onses and characteristics: steady stateerror: 2erformance indices: conce2t of stability

-nalysis of Linear Aeedbac7 SystemsB%%# stability criterion: Ny?uist criterion: ,ode 2lot: oot locus and Lia2uno"Gs

criterion

Design of Aeedbac7 Control SystemB%-22roaches to system design: 2hase lead: 2hase lag design using ,ode%diagram

and root locus techni?ues Design using State "ariable Aeedbac7B%

Controllability: obser"ability: 2ole 2lacement using state feedbac7: -c7ermanGs

formula: limitations of state "ariable feedbac7.ntroduction to P/./D and (N%(AA control actions

S$33ESTED ,((SB

1 Nagrath and 3o2al: Control System Engg: T)#' (gataControl System Engg: P#.

+ ,C uo: -utomatic Control System: Prentice #all

* C Dorf and # ,isho2:)odern Control Systems: -ddison%6esley

Publisher

+4


38/112

BTe!" Ee!tri!a En1ineerin1

+t"Semester

ET-5)$ Ee!tri! Dries

L T P+ 1 %

Time B + #rs.ntroductionB%

Classifications of Electric Dri"es: com2onents of electric dri"es: ad"antages of

electric dri"es: e"ie8 of characteristics and s2eed control of dc and ac motors

Dynamics of Electric Dri"esB%Aundamental tor?ue e?uation: s2eed%tor?ue con"entions and multi?uadrant

o2eration: e?ui"alent "alues of dri"e 2arameters: com2onents of load tor?ues: nature and

classification of load tor?ues: calculation of time and energy%loss in transient o2erations:

criteria for steady state stability: load e?ualiationating and #eating of )otorsB%

Thermal model of motor for heating and cooling: classes of motor duty:determination of motor rating: fre?uency of o2eration of motors subjected to intermittent

loads

ectifier Control of DC Dri"esB%Controlled rectifier circuits: 1%2hase fully controlled rectifier%fed se2arately

excited dc motor: 1%2hase half%controlled rectifier%fed se2arately excited dc motor: +%

2hase fully controlled rectifier%fed se2arately excited dc motor: multi?uadrant o2eration

of fully%controlled rectifier%fed dc motorCho22er Control of DC Dri"esB

Princi2le of o2eration and control techni?ues: motoring o2eration of se2arately

excited and series excited motors: multi?uadrant control of cho22er%fed motors.nduction )otor

!S. dri"e: CS. dri"e: CS. dri"e 8ith load commutation: cyclocon"erter dri"e:,ra7ing methodsB%

!arious methods of bra7ing dc and ac motors: regenerati"e bra7ing of dc

motors during cho22er control: static scherbius dri"e: commutatorless ramerdri"e

)icro2rocessor Control of Electric Dri"esB%

Dedicated hard8are systems "ersus micro2rocessor control: a22lication areasand functions of micro2rocessor in dri"e technology: control of dc dri"es

using micro2rocessors: "ector control of .) dri"e using micro2rocessor: some

as2ects of control system design of micro2rocessor based "ariable s2eed

dri"es

+@


39/112

S$33ESTED ,((SB

1 3 Dubey: Aundamentals of Electrical Dri"esF Narosa Publishing #ouse:1>>

' S Pillai: - Airst course on Electrical Dri"esF 6iley Eastern Ltd

+ ! Subrahmanyam: Electric Dri"esB Conce2ts and -22licationsF: Tata )c3ra8 #ill Publishing Co Ltd: 1>>*

* 3 Dubey: Po8er semiconductor Controlled Dri"es: Prentice #all:

Engle8ood cliffs: Ne8 Iersey: 1>@>

EL% Shar7a8i 9 - )ohamad Aundamental of Electric Dri"eF: !i7asPublishing #ouse

+>


40/112

ET-5)9 Mi!roro!essors an% Mi!ro!ontroers

L T P* 1 %

Time B + #rs)icro2rocessor -rchitectureB

@&@ micro2rocessor architecture: timing and control unit: machine cycles:

interru2t diagramProgrammingB

-ddressing modes: instruction set: assembly language 2rogramming: 2rogram for

multibyte addition/subtraction: multi2lication: di"ision: bloc7 transfer

.nterfacingB,asic 2rinci2les of interfacing memory and . /( de"ices Data transfer techni?ues

; 2rogrammed interru2t and D)- Details of interfacing de"ices @' and @'+

.nterfacing of D/- and -/D con"erter

Semi Conductor )emoryBead only memories: random access memories .nterfacing of memories 8ith

@&@)icrocontrollerB

-rchitecture of @&1 microcontroller .nterru2t: serial and timer control

.nstruction set and 2rogramming .nterfacing 8ith D/- and -/D con"erter-rchitecture of @&@0 micro2rocessor

S$33ESTED ,((SB

1 S 3aon7ar: )icro2rocessor -rchitecture: Programming and -22licationsF:Penram .nternational

' -P )athur: .ntroduction to )icro2rocessorF

+ I -yala: @&1 )icrocontrollerF: Penram .nternational* D! #all: -d"anced )icro2rocessorF

*&


41/112

ET-5)+ Anao1 an% Di1ita Comm6ni!ation

L T P

+ 1 %

Time B + #rs

.ntroduction to Communication SystemsB

,loc7 diagram: modulation and demodulation: need for modulation: transmissionconsiderations and decibel ratios

-m2litutde modulation: generation of -) 8a"es: conce2t of SS, and DS,

modulation: "estigial sideband transmission: 2o8er%relationshi2s: -) recei"ers: S/N

ratioPhase and fre?uency modulation: 2re%and de%em2hasis: generation of A) 8a"es:

C6 modulation systems: narro8band A): A) detectors and su2erheterodyne recei"ers:

S/N ratio

Conce2ts of information: Shannon%#artley theorem: band8idth%S/N ratio tradeoff:coding: codes for error detection and correction: con"olution codes: bloc7 and trellis

codesPulse modulation: P-): PP): P6) systems Conce2t of PC): basic coding and

?uantiation: sam2le and hold: ?uantiation noise: signal to noise ratio: com2anding:

TD): Delta modulation: ada2ti"e delta modulation: S/N ratio: com2arison of PC): deltaand ada2ti"e delta modulation -S: PS: AS: differential PS and ?uadri2hase shift

7eying: synchroniation conce2ts and 2hase loc7ed loo2s

,loc7 diagram of Aibre o2tic communication systems: light 2ro2ogation in o2tical

fibres: numerical a2erature and acce2tance cones of (As: losses in o2tical fibres)ulti2lexing in o2tic fibre lin7s

-n introduction to tele2hone exchange systems Telecommunication traffic:

circuit s8itching: message s8itching and 2ac7et s8itching esource sharing andmulti2le access techni?ues

-n introduction to micro8a"e: radar and satellite communication

S$33ESTED ,((SB

1 3 ennedy: Electronic Communication SystemsF: )c3ra8%#ill: NK ' #Taub and DL Schilling: Princi2les of Communication SystemsF: T)#

+ 6D Stanley: Electronic Communication SystemsF: eston Pub Co P#

!irginia* 6 Tomari 9 !A -lisaus7as: TelecommunicationsF: P# .nc: NI

Dungan: Aran7 Electronic Communication SystemsG !i7as Publishing ,

#ouse P"t Ltd

*1


42/112

ET-5): S'it!"1ear an% /rote!tion

L T P

+ 1 %

Time B + #rs

S8itchgearB

.ntroduction: functions of a circuit brea7er: contacts se2aration and arc

2henomenon: theory of arc formation and its extinction: reco"ery "oltage: restri7ing

"oltage: interru2tion of ca2aciti"e and inducti"e currents: resistance s8itching: doublefre?uency transients: circuit brea7er ratings: clearing time: reclosing time: classification

of circuit brea7ers: oil: air%blast: "acuum and SA0circuit brea7ers

Protection -gainst LightningBLightning mechanism and its characteristics: o"er%"oltages due to lightning:

2rotection of lines and sub%stations against lightning using shield 8ires: to8er footing

resistance: counter2oises: ground 8ires: rod ga2s: lightning arrestors: their construction:8or7ing and ratings: surge absorbers and surge di"ertors

.nsulation Co%ordinationB

.m2ulse "olt%time characteristics of electrical a22aratus: basic im2ulse insulation

le"el: insulation le"els of sub%station e?ui2mentsProtecti"e elaysB

.ntroduction: basic re?uirements: o2erating 2rinci2les and characteristics of

electromagnetic ty2e o"er%current: differential: im2edance and admittance relays Detailof 2rotection against abnormal conditions for alternators: transformers: feeders

transmission lines: and bus%bars Carrier current 2rotection for long lines

Static elaysB

.ntroduction: com2arison 8ith electromagnetic relays: 8or7ing of instantaneous:definite time: in"erse time and directional o"er current relays: introduction to digital

relaysSub%StationsB

Ty2es of sub%stations: sub%station e?ui2ments and outdoor yard layout: ty2es of

bus%bars: 7ey diagrams and bus%bar arrangements

S$33ESTED ,((SB

1 - Cha7rabarti: )L Soni: P! 3u2ta and $S ,hatnagar: Po8er SystemEngineeringF Dhan2at ai 9 Sons' .I Nagrath and DP othari:FPo8er System EngineeringF Tata )c3ra8%#ill

+ CL 6adh8a: Electric Po8er SystemsF: 6iley Eastern Limited

* Sunil S ao: S8itchgear: Protection and Po8er SystemsF: hanna

Publishers ,adriram and DN !ish8a7arma: Po8er System Protection and S8itchgearF:

Tata )c3ra8%#ill

*'


43/112

ET-53) A%an!e% /ro1rammin1 an% Sot'are En1ineerin1

L T P* 1 %

Time B + #rsLoadersB

Loader Schemes%absolute: binder: lin7ing o"erlays and dynamic binder

(2erating SystemsBAunctions of o2erating systems: .n2ut/(ut2ut memory: Processor:De"ice: and file

management: some ty2ical exam2les from $N./L.N$/6.ND(6S/)S%D(S

o2erating systems

Com2ilersBAunctions: Lexical and system analysis: 2arsing techni?ues: storage assignment:

code generation

COO Programming LanguageB

Conce2t of (bject (riented Programming -bstract data ty2es 9 classes: dataenca2sulation: inheritance and 2olymor2hism: run time 2olymor2hism: "irtual functions:

tem2lates: standard tem2late library and container classes .m2lementation using COO

S$33ESTED ,((SB

1 Iohn I Dono"an: System ProgrammingF

' -! -ho and ID $llman: Princi2les of Com2iler DesignF: -ddision 6esleyPubCo

+ D) Dhamdhere: System Soft8areF: T)#

* Peterson: (2erating SystemsF: #erbert Schildt: COO % Com2lete referenceF: T)#

0 Stroustru2 COOF: -ddision 6esley Pub Com2

4 Lit"in: )aria: Programming in COOF: !i7as Publishing #ouse

*+


44/112

ET-53$ Meas6rements an% Instr6mentation-II

L T P+ 1 %

Time B + #rs

Thermocou2le and rectifier ty2e instruments: Electronic analog instruments for

measurement of direct and alternating currents: "oltages and 2o8er

Digital instruments ; ad"antages o"er analog instruments )easurement of"oltage: resistance: time and fre?uency by digital techni?ues Digital 8attmeters and

energy meters

Construction and synchroniation of C( measurement of "oltages: currents:

2hase and fre?uency by C( Distortion meter: harmonic analyer: H metersecorders ; %K recorder: stri2 chart recorder and magnetic recorder Are?uency

modulation and 2ulse duration recording Digital ta2e recording Noise in re2roduction

Digital dis2lay methods Dis2lay systems ; LED: LCD )edical dis2lay de"ices ;

Cardiosco2ePrinci2les of telemetry: 8ire lin7 channels: radio channels: micro8a"e channels:

multi2lexers Digital and -nalog Data -c?uisition Systems)easurements of high direct and alternating "oltages and currents

)easurement of 2hase and fre?uencyB

Single 2hase and three% 2hase electrodynamometer ty2e 2o8er factormeters: electrical resonance fre?uency meter: 6eston fre?uency meter: ratio meter ty2e

fre?uency meter

TransducersB

Classification: transducers for measurement of 2osition: force: 2ressure:tem2erature: tor?ue: flo8: "elocity


45/112

B.Te!". Ee!tri!a En1ineerin1

7t"Semester

ET-9)3Com6ter Met"o%s in /o'er S=stems

L T P+ 1 %

Time B + #rs3eneralB

.m2act of com2uters: orientation of Engineering 2roblems to com2uters: re"ie8

of matrices and matrix o2erations

.ncidence and Net8or7 )atricesBNet8or7 gra2h: "arious incidence matrices: generalied element re2resentation:

2rimiti"e net8or7 and 2rimiti"e net8or7 matrices: formation of "arious net8or7 matrices

by singular transformations: inter%relations bet8een "arious incidence matrices and

net8or7 matrices,us im2edance and admittance matricesB

,uilding algorithm for bus im2edance matrix: modification of bus im2edancematrix for change of reference bus and for net8or7 changes: formation of bus admittance

matrix and modification: calculation of ,us elements from K ,us

Three%2hase ElementsBe2resentation of three%2hase net8or7 elements: treatment under balanced and

unbalanced excitation: transformation matrices: unbalanced elements

Short%Circuit StudiesB

.ntroduction: net8or7 short%circuit studies using bus: short%circuit calculationsusing symmetrical com2onents for "arious ty2es of faults

Load%Alo8 StudiesB

.ntroduction: im2ortance of load%flo8 studies: classification of buses: load%flo8e?uations: iterati"e methods: com2uter algorithm and load flo8 solutions using 3auss%

Seidel and Ne8ton%ra2hson methods: decou2led and fast decou2led load%flo8 solutions:

re2resentation of regulating and off%nominal ratio transformers: com2arison of load%flo8solution methods

S2arsity B

.ntroduction: o2timally ordered triangular factoriation: schemes of o2timal

orderingStability StudiesB

-lgorithmic flo8 chart and transient stability solution using modified euler

methodPo8er System SecurityB

.ntroduction: contingency analysis using ,us and "arious distribution factors

*


46/112

S$33ESTED ,((SB

1 3lenn 6 Stagg and -hmed El%-biad: Com2uter )ethods in Po8er System

-nalysisF: )c3ra8%#ill

' 3eorge L usic: Com2uter%-ided Po8er Systems -nalysisF: P#.+ Iohn I 3rainger and 6illiam D Ste"enson: Po8er System -nalysisF: Ir

)c3ra8%#ill

* .I Nagrath and DP othari : Po8er System EngineeringF: Tata )c3ra8%#ill

*0


47/112

ET-9)5 Di1ita Si1na /ro!essin1

L T P

+ 1 %

Time B + #rs

The %Transform analysis of LT. SystemsB-nalysis of LT. systems in %domain: transient and steady %state res2onse:

causality and stability: Shur%Cohn stability test: Iury test: Shur%Cohn%Aui"era stability

criterion

DAT and AATBDAT and its 2ro2erties: linear filtering using DAT: Direct com2utation of DAT:

circular con"olution: AAT algorithmsJ 3eortel algorithm: adix%' and adix%*

algorithms: Chir2% algorithm

Circular con"olution and fast linear con"olution.m2lementation of Discrete time SystemsB

Direct form: cascade form: fre?uency selecti"e and lattice structure for A. filters:direct form: signal flo8 gra2h and trans2osed structure for .. filters: cascade: 2arallel

and lattice structure for .. filters: state s2ace structure

Design of Digital AiltersBDesign of A. filters: 8indo8 method: fre?uency sam2ling method: design of ..

filters by a22roximation of deri"ati"es: ?uantiation effects in digital filters ,ilinear

transformation: characteristics of some commonly used analog filters for design of ..

filters: least s?uare methodsTime% Are?uency -nalysisB

.ntroduction to 8a"elets and 8a"elet transforms

,rief introduction to DSP architectureBPi2eline: lattice and systolic architecture

S$33ESTED ,((SB

1 S )itra: Digital Signal ProcessingF: T)#

' abinar: 3old: Digital Signal ProcessingF :P#.

+ I3 Proa7is and D3 )anola7is: Digital Signal ProcessingF:P#.* (22enheim and Schafer: Discrete Time Signal ProcessingF :P#.

S Sali"ahanan: Digital Signal ProcessingF: T)#

0 .ngle: !inay : Digital Signal Processing using )atlabF: !i7as Publishing#ouse P"t Ltd

*4


48/112

ET-935 CONTRO& THEOR2

(/o'er Aarat6s an% S=stem#

L T

+ 1

Time + #rs

Non%linear SystemsB

classification and com2arison S2ecial features of non%linear systems: limit cycle:

jum2 resonance: subharmonics: bifurcations: chaos: multi2le e? 2oints

-nalysis of Non%linear systemsB

Describing function and 2hase 2lane techni?uesConce2t of local: global:

asym2totic and total stability of NL system: Lia2uno"Gs direct method: Po2o"Gs methodP.D controllerB

Aunction of P.D: Tunning features: iegler%Nichols Tunning method: ultimatecycle tuning method: Process reaction cur"e: Tunning for )inimum error integrals

(2timal Control SystemB

.ntroduction to (CT: -d"antages: Problem Aormulation


49/112

ET-93* Com6ter Or1anisation an% Ar!"ite!t6re

(Com6ter Ai!ation#

L T P+ 1 %

Time B + #rs

.ntroduction to basic com2uter architecture: register transfer: bus and memory

transfers: arithmetic: logic and shift micro2erations.nstruction codes: com2uter registers: com2uter instructions: timing and control:

instruction cycle: memory reference instructions: ./( interru2t: com2lete com2uter

descri2tion: design of basic com2uter: design of accumulator logic

)icro2rogrammed control: control memory: address se?uencing: micro2rogram

exam2le: design of control unit

Central Processing $nitB

.ntroduction: general register organiation: stac7 organiation: instruction formats:addressing modes: data transfer and mani2ulation: 2rogram control: .SC

Pi2eline and !ector ProcessingBParallel 2rocessing: 2i2elining: arithmetic 2i2eline: instruction 2i2eline: .SC

2i2eline: "ector 2rocessing: array 2rocessors

.n2ut%out2ut (rganisationBPeri2heral de"ices: in2ut%out2ut interface: asynchronous data transfer: modes of

transfer: 2riority interru2t: D)-: .(P serial communication

)emory (rganisationB

)emory hierarchy: main memory: auxillary memory: associati"e memory: cachememory: "irtual memory: memory management: hard8are multi2rocessor architectures

and their characteristics: interconnection structures: inter2rocessor arbitration:

inter2rocessor communication and synchroniation: cache coherence

S$33ESTED ,((SB

1 )orris )ano: Com2uter System -rchitectureF: P#.

' IA #eys: Com2uter (rganiation and -rchitectureF:T)#+ #8ang and A- ,riggs: Com2uter -rchitecture and Parallel ProcessingF:

T)#

*>


50/112

ET-937 Inormation Te!"noo1=

(Inormation an% Contro#

L T P

+ 1 %

Time B + #rs

-n o"er"ie8 of the re"olution in com2uters and communications

-22lications soft8are: common features of soft8are s2eciality soft8are: Ethics 9

intellectual 2ro2erty rights

Systems soft8are: common o2erating systems: soft8are for online com2utingSystem $nitB

System board: micro2rocessor

.n2ut and out2utB

eyboard: 2ointing: scanning: "oice in2ut de"ices: "oice recognition system:monitors: 2rinters: 2lotters: "oice out2ut de"ices

Secondary storageBAlo22y: hard: o2tical dis7s: CD% Dri"es

Communication and Connecti"ityB

E%mail: fax: "oice messaging system: user connection: communication channels:data transmission: net8or7 ty2es

.nternet and 6ebB

-22lications: -ccess: E%mail: discussion grou2s: E%commerce: ser"ices:

bro8sers: 8eb 2ages: multimedia: gra2hics 2rogram: "irtual reality 2ri"acy: security andother such issues

S$33ESTED ,((SB

1 Leon and Leon: Aundamental of .nformation TechnologyF: !i7as Publishing

#ouse' TI (GLeary and L. (GLeary: Com2uting Essentials '&&&%'&&1%.r8inF:

)c3ra8 #ill%'&&&

+ 6illiams: Sa8yer and #utchinson: $sing .nformation TechnologyF:T)#:'&&&

* Curtin: Aoley: Sen and )orin: .nformation TechnologyF:T)#

.nternet for e"ery oneF: !i7as Publishing #ouse

&


51/112

ET-938 Di1ita S=stem Desi1n

(Ee!troni!s an% Instr6mentation#L T P

+ 1 %

Time B + #rs

e"ie8 of combinational logic: minimiation in combinational logic: se?uentialmachine fundamentals

)ulti%in2ut system controller design: timing and fre?uency considerations: system

controller state s2ecification: state assignment: next state and out2ut decoder

- synchronous finite state machines and their design!#DL: basic terminology: configuration: 2ac7age declaration: basic language

elements: beha"ioral modeling Data flo8 and structural modeling

S$33ESTED ,((SB

1 I ,has7ar: - !#DL 2rimerF: Pearson Education -sia

' I ,has7ar: -n Engineering a22roach to Digital Logic DesignF

1


52/112

ET-9$3 Ee!tri!a Ma!"ines Desi1n

(/o'er Aarat6s an% S=stems#

L T P

+ 1 %

Time B + #rs

e"ie8 of )agnetic and insulating materials

Princi2les of design of )achinesB

Aactors and limitations in design: s2ecific magnetic and electric loadings: out2ut:

real and a22arent flux densities: se2aration of main dimensions for DC: induction and

synchronous machines

#eating: Cooling and !entilationB

Tem2erature rise calculation: continuous: short%time and intermittent ratings:

ty2es of "entilation: hydrogen cooling and its ad"antages

Design of TransformersB3eneral considerations: out2ut e?uation: main dimensions: lea7age reactance:

8inding design: tan7 and cooling tubes: calculation of magnetiing current: losses:

efficiency and regulation

Design Three% 2hase induction motorsB

3eneral considerations: out2ut e?uation: choice of s2ecific electric and magnetic

loadings: No of slots in stator and rotor: elimination of harmonic tor?ues: design of statorand rotor 8indings: lea7age reactance: e?ui"alent resistance of s?uirrel cage rotor:

magnetiing current: tem2erature rise and efficiency

Design of -lternatorsB

Classification and their com2arison: s2ecific loadings: out2ut coefficient: main

dimensions: short circuit ratio: elimination of harmonics in generated E)A: stator8inding design

.ntroduction to com2uter aided electrical machine design

S$33ESTED ,((SB

1 Clayton -E: The 2erformance and design of DC )achinesF:

Pitman


53/112

ET-9$5 /ro?em Soin1> Data Str6!t6res an% A1orit"ms

(Com6ter Ai!ation#

L T P+ 1 %

Time B + #rsProblem Sol"ing StrategiesB

Statements: goals and rules: abstraction: 2roblem s2aces: inference: sub2roblems

and subgoals: hill climbing: 8or7ing bac78ards: heuristics: bac7 trac7ing: iteration andrecursion

,asic Data StructuresB

-rrays: strings: stac7s: ?ueues ; linear and circular: single% lin7ed lists: doublelin7ed lists ; linear and circular: trees: binary trees: im2lementation using lin7ed lists

-lgorithmsB

.ntroduction to analysis of algorithms: asym2totic notation: features of astructured 2rogram ecursion: to2 do8n and bottom u2 2rogramming techni?ues Di"ide

and con?uer strategy

Sorting methods ;

internal and external sort: double: exchange: insertion: selection: merge: hea2:radix and ?uic7 sort Com2arison 8ith res2ect to their efficiency

Searching methods: Se?uential: ,inary search: indexed search: hashing techni?ues and

collision handling mechanism

3ra2hs and their a22lications ; com2uter re2resentation of gra2hs tra"ersal techni?ues

li7e de2th ; first/breadth%first3reedy algorithms ; study 8ith res2ect to shortest 2ath:minimum s2anning trees: 7na2sac7 2roblems: tra"eeling salesman 2roblem

)athematical methodsB S2arse matrices their re2resentation mani2ulations: strassenGs matrix

multi2lication: 2ermutations 9 combinations: random number generation techni?ues

+


54/112

S$33ESTED ,((SB

1 Trembley and Sorenson: -n .ntroduction of Data Structures 8ith

-22licationsF: )c3ra8 #ill

' 3oodman: SE: and #etedniemi: ST: .ntroduction to the Design and-nalysis of -lgorithmsF: )c3ra8 #ill

+ Sahni: Data Structures: -lgorithms and -22lications in COOF: T)#

* #oro8it: Ellis and Sahni: Sartaj: Aundamentals of Com2uter -lgorithmsF:3algotia Publications

3orgono: Problem Sol"ing 9 Com2uter ProgrammingF: Narosa Nel8n

0 #oro8it: E and Sahani: S Aundamentals of Data StructuresF: 3algotia

Publications

*


55/112

ET-9$* Di1ita an% Non-inear Contro S=stem

(Inormation an% Contro#

L T P

+ 1 %

Time B + #rs

Pulse transfer function: bloc7 diagrams and signal flo8 gra2hs for sam2led datasystems

State "ariable re2resentation and solution of discrete data systems: stability in

state s2ace re2resentation correlation bet8een S%2lane and %2lane: IuryGs modifiedouths criteria and time res2onse characteristics 9 bode 2lots

Non%linear systems classification and com2arison S2ecial features of non%linear

systemsB Limit cycle: jum2 renonances Subharmonies biferation: chaos: multi2lee?uilibrium 2oints

-nalysis of Non%linear systemsB

Describing function and 2hase 2lane techni?ues

Conce2t of local: global: asym2totic and total stability of non%linear systems

Lia2uno"Gs direct method: Po2o"Gs method

S$33ESTED ,((SB

1 (gatta: )odern Control SystemF: P#.

' Nagrath and 3o2al: Control System EnggF: T)#

+ )3o2al: Digital Control SystemF: T)#* ,C uo: Digital Control SystemF: P#.


56/112


57/112

S$33ESTED ,((SB

1 ,olton 6: )easurement and .nstrumentation SystemsF: Ne8nes$

' Crom8ell L: 6eibell AI: Pfeiffer E-: ,iomedical .nstrumentation

and )easurementsF: Prentice #all of .ndia P"tLtd: Ne8 Delhi+ angan C S: Sarma 3 : )ani !S!: .nstrumentation De"ices and

SystemsF: T)# Ne8 Delhi: .ndia

* ,ec78ith T3 et al: )echanical )easurementsF: -ddison%6esley 3u2ta I,: - Course in Electronic and Electrical )easurements and

.nstrumentationF: S ataria 9 Sons: Delhi: .ndia

0 Na7ra ,C: Chaudhary : .nstrumentation )easurement and

-nalysisF:T)#: Ne8 Delhi:.ndia

4


58/112

ET- 9+3 Non-Conentiona Ener1= So6r!es

L T P

+ 1 %

Time B + #rs

.ntroductionBLimitations of con"entional energy sources: need and gro8th of alternate

energy sources: basic schemes and a22lications of direct energy con"ersion

)#D 3eneratorsB

,asic 2rinci2les and hall effect: generator and motor effect: different ty2esof )#D generators: con"ersion effecti"eness Practical )#D generators:

a22lications and economic as2ects

Solar EnergyB

Photo"oltaic effect: characteristics of 2hoto"oltaic cells: con"ersionefficiency: solar batteries and a22lications Solar energy in .ndia: solar collectors:

solar furnaces 9 a22lications6ind EnergyB

#istory of 8ind 2o8er: 8ind generators: theory of 8ind 2o8er:

characteristics of suitable 8ind 2o8er sites: sco2e in .ndia: ad"antages andlimitations

Thermo%electric 3eneratorsB

Seebac7 effect: 2eltier effect: Thomson effect: thermoelectric con"ertors:

brief descri2tion of the construction of thermoelectric generators: a22lications andeconomic as2ects

Auel CellsB

Princi2le of action: gibbs free energy: general descri2tion of fuel cells:ty2es: construction: o2erational characteristics and a22lications

)iscellaneous SourcesB

3eothermal system: characteristics of geothermal resources: choice ofgenerators: electric e?ui2ment and 2recautions

Lo8 head hydro2lants: definition of lo8head hydro 2o8er: choice of site

and turbines

Tidal energy: idea of tidal energy: tidal electric generator: limitations

S$33ESTED ,((SB

1 - Coormbe: -n introduction to direct energy con"ersionF

' ) ettani: Direct energy con"ersionF

+ obest L Loftness: Energy hand boo7F

* Considine: Energy Technology #and boo7F

@


59/112

ET-9+5 S=stem Mo%ein1 an% Contro

L T P+ 1 %

Time B + #rs

,asic elements for system modelling: modeling of de"ices and systems

)athematical and state "ariable models of the system

)echanical systems: electrical systems: electromechanical: li?uid le"el


60/112

ET-9+* Fa6t Toeran!e an% Reia?iit= En1ineerin1

L T P+ 1 %

Time B + #rs

Aault tolerant conce2ts: fault detection techni?uesB test generation: design of

testable circuits: fault tolerant system modeling: redundancy techni?uesB "oting schemes:

?udded logic: radial logic: use of error%correcting codes: N%"ersion and modularredundancy: S.AT: re2licas: alternati"es: dynamics of re2licas and alternati"es

eliability data analysisB reliability function: mean%time to failure: bathtub cur"e:

haard modelsB Linear: 2olynomical: ex2onential: normal: lognormal: 8eibull: analysisof failure data: Estimation of failure data B Least%s?uare: maximum li7elihood: eliability

Data )anagementB Data collection: storage and reco"ery of data: data ban7s: reliability

data sources: system reliability modeling: reliability e"aluation techni?ues: system

analysis through fault trees: reliability im2ro"ement

Design for Safety and eliabilityB Design and Engineering 2ractices - ty2icalcase study

S$33ESTED ,((SB

1 Ariedman 9 )enon: Aault Detection in Digital Circuits:F Prentice%#all:1>41

' ShemTo"%Le"i: -sho7 -gra8ala: Aault Tolerant System Design:F

)c3ra8%#ill: 1>>*+ !N Karmoli7: Aault Diagnosis of Digital CircuitsF: Iohn 6iley 9 Sons:

1>>&

* Shooman )L: Probabilistic eliabilityJ -n Engineering -22roachF:)c3ra8 #ill

, )isra: eliability -nalysis 9 PredictionF: Else"ier: 1>>'

0 EE Le8is: .ntroduction to eliability EngineeringF: Iohn 6iley 9 Sons

4 La8rence ) Leemis: eliability Probabilistic )odels and Statistical)ethodsF: Prentice #all

0&


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ET-9+7 I6mination En1ineerin1

L T P

+ 1 %

Time B + #rs

.ntroductionB

Terms used in illuminationBLight: luminous flux: luminous intensity: lumen: candle 2o8er: illumination: lux:

candela: mean horiontal candle 2o8er


62/112

ET-9+8 Mi!roro!essor an% its ai!ations

L T P

+ 1 %

Time B + #rs

3ates: fli2 flo2s: counters: tri%state s8itch: bus organied com2uter: @&@ micro2rocessor

architecture: stac7: interru2t and its o2eration Timing and control unit: machine cycles

-ssembly language 2rogramming: mode of addressing: 2rogramming exam2les:interfacing schemes: interfacing 8ith @': @'+: -/D and D/- con"erter

Semiconductor memories

-22lications of @&@ micro2rocessor

S$33ESTED ,((SB

1 S 3aon7ar: )icro2rocessor -rchitecture: Programming and -22lications

8ith @&@F: Penram .nternational' -P )al"ino: Digital Com2uter Electronics: -n .ntroduction to

)icrocom2utersF: T)# Edition

0'


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ET-973 Trans%6!ers an% Ai!ations

L T P

+ 1 %

Time B + #rs

.ntroductionBDefinition of transducer -d"antages of an electrical signal as out%2ut basic

re?uirements of transducers: Primary and Secondary Transducer

-nalog or digital ty2es of transducers

esisti"e: inducti"e: ca2aciti"e: 2ieoelectric: 2hotoelectric and: halleffectTranducersB

)easurement of dis2lacement ; Potentiometric resistance ty2e transducers:

inducti"e ty2e transducers: differential transformer


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B.Te!". Ee!tri!a En1ineerin1

:t"Semester

S=stem En1ineerin1 an% Reia?iit=

ET-9)$

L T P+ 1 %

Time B + #rs

3eneralised 2rinci2les of system modeling: some exam2les

Linear 2rogramming: conce2t of con"exity: sim2lex method: duality in linear

2rogramming: cost flo8 and routing 2roblems: critical 2ath scheduling

Elementary ideas of genetic algorithmseliability and its im2ortance: mortality cur"e: haard rate: courses of failure:

modes of failure: general reliability function and other reliability functions )ean time to

failure


65/112

ET-9)9 HIGH ,O&TAGE ENGINEERING

L T P+ 1 %

Time B + #rs

Conduction 9 ,rea7do8n in 3ases: Li?uid 9 Solid DielectricsB3ases % .oniation 2rocess: to8n sendGs current gro8th e?uation .st 9 'nd

ionisation coefficients To8n sendGs criterion for brea7do8n Streamer theory of

brea7do8n PaschenGs la8 of gases 3ases used in 2racticeLi?uid Dielectrics% Conduction 9 brea7do8n in 2ure 9 commercial li?uids:

sus2ended 2article theory: stressed oil "olume theory: li?uid dielectrics used in 2ractice

Solid Dielectrics% .ntrinsic: electromechanical: 9 thermal brea7do8n: com2osit

dielectric: solid dielectrics used in 2ractice-22lications of .nsulating )aterialsB

-22lication of insulating materials in 2o8er transformers: rotating machines:

circuit brea7ers: cables 9 2o8er ca2acitors

3eneration of #igh !oltages 9 CurrentsB3eneration of high DC: -C: im2ulse "oltage 9 im2ulse currents Tri22ing 9

control of im2ulse generators)easurement of #igh !oltages 9 CurrentsB

)easurement of high DC: -C


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imbar7: #!DC TransmissionF

00


67/112

ET-93$ Utiisation o Ee!tri!a Ener1= @ Ee!tri! Tra!tion

(/o'er Aarat6s @ S=stems#

L T P+ 1 %

Time B + #rs

.lluminationB

Nature of light: im2ortant definitions: la8s of illumination: 2rinci2le of

2roduction of light%discharge through gases under 2ressure ; incandescence/sources oflight%filament lam2:halogen lam2%discharge lam2%sodium discharge lam2:high 2ressure

mercury discharge lam2:dual lam2s:fluorescent lam2s: lam2 efficiency:re?uirements of

good lighting:illumination le"el:absence of contrasts: shado8s: glare: colour rendering%

lam2 fittings Lighting schemes:design of indoor 9 outdoor lighting system%streetlighting:flood lighting:2hotometers

Electric #eatingB

-d"antages of electric heating: classification of heating methods: detailed study

of resistance heating: arc heating: electron bombardment heating: induction heating 9dielectric heating and their control

Electrolytic ProcessesBAundamentals of electro de2osition%la8s of electrolysis a22lications of

electrolysis: electro de2osition: manufacture of chemicals: anodiing: electro2olishing:

electrocleaning: electro2arting: electrometallurgy: electric su22lyTrain )echanicsB

Ty2es of ser"ices: characteristics of each ty2e of ser"ice: s2eed time cur"e:

sim2lified s2eed time cur"e: a"erage s2eed: schedule s2eed: factors affecting schedule

s2eed: tracti"e effort for 2ro2elling a train: 2o8er of the traction motor: s2ecific energyout2ut: s2ecific energy consum2tion: factors affecting s2ecific energy consum2tion:

mechanics of train mo"ement: co%efficient of adhesion: factors affecting sli2

Electric TractionBDC 9 -C traction motors: their characteristics

Traction )otor ControlB

Starting and s2eed control of DC series motors: shunt transition: bridgetransition: drum controller em2loying shunt transition: energy sa"ing 8ith series 2arallel

strarting: metadyne control: multi2le unit control: bra7ing of traction motors

Current Collection SystemsB

Conductor rail e?ui2ment: current collection gear for (#EB Cable collector: 2olecollector: bo8 collector: 2antogra2h collector

04


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S$33ESTED ,((SB

1 E (2enshan Taylor: $tilisation of Electric EnergyF: (rient Longmans

' P! 3u2ta et al: - Course in Electrical Po8erF: Dhan2at ai 9 Sons Delhi%

0+ # Parta2: -rt 9 Science of $tilisation of Elect EnergyF

* N! Suryanarayana:F$tilisation of Elect Po8erF

, Sharma: $tilisation of Elect EnergyF0 -T Do"er: Electric TractionF:Pitman

0@


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ET-939 S=stem Ana=sis @ Data Base Mana1ement

(Com6ter Ai!ations#

L T P

+ 1 %

Time B + #rs.dentification of need for com2uteriationJ Pole: Tas7s: -ttributes and Tools of System

-nalystJ .nformation CollectionB Sources: searching )ethods: .nter"ie8ing Techni?uesJ

Aeasibility: Economic and Technical -nalysis: -llocation and Trade ;off e?uirementsS2ecifications

Need for a D,)S: $ses of a D,)S: -d"antages .ntroduction to Data models: Schemes:

-rchitecture: Languages and En"ironment

Entity%elationshi2 conce2ts: -ttributes: Domains: 7eys: Aoreign eys: E Diagram:Naming Secondary storage de"ices: file o2erations Aile organiation% Se?uential: direct:

indexed: ,trees: .n"erted lists

elational models% (rder: tu2le eys: relational algebraic o2erations% Set o2erations:

select: 2roject: join: di"ision o2eration#ierarchial data models% Parent child relationshi2s: (ccurrence trees: data definition and

mani2ulationNet8or7 )odels

Structures: Sets: Constraints on insertion and retention: s2ecial sets: user 8or7 area:

currency indicators: D)L commands elational languagesB SHL%Data definition: ?ueriesin SHL: u2date statements: "ie8s: indexing

elational Calculus% Tu2le calculus: 8ell formed formula: s2ecifications: ?uantifiers

H,E% data retrie"al: u2date: conditions: aggregate o2erators: directory

elational data base designAunctional de2endencies% -nomalies: rules: axioms: e?ui"alence of sets: minimal

re2resentation: Normal forms% first: second Third and ,oyce CoddJ algorithms for

con"ersion: de2endency 2reser"ation multi"alued de2endencies and fourth normal form-n Elementary .ntroduction to (racle

Conce2t of object oriented database management systems: Distributed Data ,ase

)anagement Systems

S$33ESTED ,((SB

1 Pralf:Conce2t of Data base )anagement SystemF: !i7as Publishing #ouse

' Pressman: Soft8are EnggF )c3ra8 #ill

+ orth 9 Silberschat: Database Conce2tsF: )c3ra8 #ill* ajaraman: -nalysis 9 Design of .nformation SystemsF: P#.

#anryss7ie8yc: .ntroduction to System -nalysis and DesignF: P#.

0>


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ET-93+ Data Comm6ni!ation Net'or


71/112

1 )iller: )ichael -: Data and Net8or7 CommunicationF: !i7as Publishing

#ouse' Shay !illium: $nderstading Data Communication and Net8or7sF: !i7as

Publishing #ouse

+ ,ehrou Aorouan: .ntroduction to data communication and net8or7ingF:T)#

* Ared #alsall: Data Communications: com2uter net8or7s and o2en systemsF:

-ddison 6esley 6illiam Stallings: Data and Com2uter CommunicationsF: P#.

0 -ndre8 S Tannenbaum: Com2uter net8or7sF: P#.

41


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ET-93: A%an!e% Instr6mentation

(Ee!troni!s @ Instr6mentation#L T P

+ 1 %

Time B + #rs

.ntroduction to ad"ances in measurement instruments and com2uters: interface for

instrumentation system)icro2rocessor based data ac?uisition system: micro2rocessor based instruments

and their ad"antages and disad"antages

.ntroduction to SC-D- system and its a22lication: introduction to "irtual

instrumentation Conce2t and some basic a22licationsProgrammable logic controller and 2rogramming introduction to on%line instrumentation:

iteracti"e gra2hics and interacti"e com2uting

S$33ESTED ,((SB

1 Li2ta7: .nstrument Engineers hand boo7 in Process Control:F Chilton boo7

com2any' adnai: ingham: IoneGs .nstrument TechnologyF: ,utter 8orth

.nternational Edition

+ Curtis Iohnson: Process ControlF

4'


73/112

ET-9$) Ee!tri!a Ma!"ines III

(/o'er Aarat6s @ S=stems#

L T P+ 1 %

Time B + #rs

.nduction )achinesBb= Performance analysis of three 2hase induction machine using current locus

diagram

c= Three% 2hase induction regulatorsd= Construction: 8or7ing and a22lications of linear induction motor

e= .nduction motor dynamics

Commutator )achinesB

a= Effects of "oltage injection in the rotor circuit of a sli2 ring inductionmotor: action of commutator

b= S2eed and 2f control of induction motor by auxillary commutator

machines

c= Construction: 8or7ing and a22lications of schrage and doubly fedcommutator motor

Single% Phase )otorsBa= Shaded 2ole: hystersis and reluctance motors

b= Single 2hase series and re2ulsion motors

S2ecial )achinesBConstruction: 8or7ing and a22lications of ser"omotors: ste22er motors and

brushless DC )otors


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ET-9$$ A%an!es in Com6ters

(Com6ter Ai!ations#

L T P

+ 1 %

Time B + #rs

Conce2ts of Parallel and distributed 2rocessing Com2uter Net8or7s: L-N/6-N:

Net8or7 com2onents .S(%(S. -rchitecture: .ntroduction to ,roadband%.SDN and -T),asic Aeatures of )ultimedia systems: )ain features of .nternet and .ntranet

ATP: Telnet: #TTP: 3o2her: ,ro8sing of 666: .ntroduction to #T)L and Ia"a Scri2t

Princi2les of -rtificial intelligence: Problem re2resentation: Solution: no8ledge

re2resentation: searching techni?ues: game 2laying: ule based ex2ert systemClassification of ProgrammingB Procedure: object oriented: Aunctional and logic

2rogramming com2arison.ntroduction to logic 2rogramming P(L(3

S$33ESTED ,((SB

1 )iller: Data and Communication Net8or7F: : !i7as Publishing #ouse' ,ehrou 9 Aorouan: Data Communications and Net8or7ingF: T)#

+ Tennenbaum: Com2uter Communication Net8or7sF: P#.

* ich: -rtificial .ntelligenceF: )c3ra8 #ill 6inston: -rtificial .ntelligenceF: -ddison%68esley

0 6aterman: - 3uide to Ex2ert SystemsF: -ddison%6esley

4 Cloc7sin 9 )ellish: Programming in P(L(3F: Narosa

@ ,rat7o: P(L(3 Programming for -rtificial .ntelligenceF:-ddison%6esley> ,rain I Thomas: The .nternet for Scientists 9 EngineersF: SP.E Press

4*


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ET-9$9 Otima an% In%6stria Contro

(Inormation @ Contro#

L T P

+ 1 %

Time B + #rs

(2timal ControlB

.ntroduction: 2roblem formulation: 2erformance indicies: calculus of "ariation

a22roach EulerGs e?uations: hamiltonion system: t8o 2oint boundary "alue 2roblem and

solution introduction to LH

Com2uter Control of Processes ; Digital Control 2rinci2les: o2timal control a22lication

to 2rocess control: o2timum controller settings

.ntroduction to 2rocess control: 2rocess model identifications )athematical modeling of

2rocesses such asB )ixing 2rocess: heat transfer 2rocess

Ty2e of controllers and their characteristicsB 2ro2ortional: integral: deri"ati"e: interaction

bet8een deri"ati"e and integral controls: (N%(AA ratio: feedfor8ard: feedbac7: cascade:controls

S$33ESTED ,((SB

1 D Patianabis: Princi2les of Process ControlF

' ) 3o2al: )odern Control theoryF: T)#

+ ) 3o2al: Control SystemsB Princi2les and DesignF: T)#: 1>>4* AL Le8is: (2timal ControlF: 6iley interscience

4


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ET-9$+ Mi!roro!essor an% Mi!ro!ontroer-II

(Ee!troni!s @ Instr6mentation#

L T P

+ 1 % Time B + #rs

e"ie8 of @&@ and introduction to architecture of @&@0

De"elo2ment of @&x@0 2rocessor: interru2t structure: addressing modes .nstruction set

and a22lication 2rograms


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ET-9+$ Ener1= Mana1ement an% Conseration

L T P+ 1 %

Time B + #rs

Energy sceneraio: 2lanning of generation ex2ansion: demand side characteristics:

su22ly side characteristics: meeting the load: demand side management: DS) 2lanning

and im2lementation: 2ea7 load management techni?ues: energy management in small:medium and large industries

Energy conser"ation: energy conser"ation 2rinci2les: energy conser"ation

2lanning: energy conser"ation in illumination: energy conser"ation in domestic sector:

energy conser"ation in industry: energy conser"ation through reacti"e 2o8ermanagement: energy conser"ation through o2timal design and o2eration of induction

motor

Energy audit: energy flo8 diagram: strategy of energy audit: instruments for

energy audit: energy audit of illumination: generation: distribution and utiliationsystems

Cogeneration: benefits: cogeneration 2otential: cogeneration techni?ues: relatedeconomics

Ca2ti"e 2o8er generation: ad"antages: constraints: ca2ti"e generation o2tions:

financing: energy ban7ing: energy 8heelingEnergy storage: general considerations: model of storage: electrochemical energy

storage: storage batteries: 2o8er extraction system: a ty2ical battery energy storage

system

S$33ESTED ,((SB

1 3eneration of Electrical Energy: , 3u2ta


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ET-9+9 Ro?oti!s D=nami!s an% Contro

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+ 1 %

Time B + #rs

.ntroduction: com2onents and structure of robotics system

inematics of mani2ulators: rotation translation and transformotion: Da"id ; #astemberge2resentation: .n"erse inematics

Dyamics ; modeling using Ne8ton Euler e?uation

Linerariation of obot Dynamics ; State "ariable continuous and diserete modelsobotic )otionB Different ty2es of trajectories and introduction to their generation

Position ControlB .nde2endent joint control

.ntroduction to ad"anced control for robot a22lication

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1 Iohn I Craig: .ntroduction to obotics: )echanics and ControlF: -ddison

6esley 2ublishing com2any

' -I oi"o: Aundamentals for Control of obotic mani2ulatorsF: Iohn 6iley9 Sons: Ne8 Kor7

+ Loreno Scia"iceo: ,rsur8 Siciliar8: )odelling 9 Control of obot

mani2ulationF: )cgra8 #ill .nter national edition

* )6 S2ong and ) !idyasagar: obot Dyamics and Control:F Iohn 6iley9 Sons: Ne8 Kor7

4@


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ET-9++ Reia?iit= Centere% Maintenan!e

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,asic reliability conce2ts: reliability measures: conce2t of failures: failureconse?uences

)aintenanceB

Aactors affecting maintenance: ty2es of maintenance: o2timum maintenance2olicies

)aintainability and -"ailability-nalysisB

)easures of maintainability and a"ailability: maintainability measurement and

2rediction: 2re"enti"e maintenance scheduling: 2rediction of s2are 2arts re?uirementCondition based monitoring and monitoring techni?ues

Design for reliability and maintainability

C) Conce2tsB

C) methodology%system selection and information collection: system boundarydefinition: system descri2tion and functional/logic bloc7 diagram: system functions and

functional failures: failure mode and effects analysis: logic tree analysis: tas7 section:?uantitati"e reliability data: information traceability and coding ,enefits realied from

C) 2rocess

C) ; - case study

S$33ESTED ,((SB

1 -ggar8al : eliability EngineeringF: Dordrecht: lu8er -cademicPublisher

' -nthony ) Smith: eliability Centered )aintenanceF: )c3ra8%#ill: 1>>4

+ 6illiam # !an -l"en: eliability EngineeringF : Prentice #all: 1>0** La8rence ) Leemis: eliability Probabilistic )odels and Statistical

)ethodsF: Prentice #all

)ar"in - )oss: )arcel De77ar: Designing for )inimal )aintenanceEx2enseF

0 EE Le8is: .ntroduction to eliability EngineeringF : Iohn 6iley 9 Sons

4 Doris Llayd 9 3rosh: - Primer of eliability TheorF : Iohn 6iley 9 Sons

4>


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ET-9+: /ro!ess Instr6mentation an% Contro

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.ntroduction to 2rocess control: different ty2es of 2rocess controllers


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ET-97) ANN an% F6= &o1i!

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.ntroduction to fuy sets: fuy mathematics: membershi2 functions: design of a fuy

model 9 its 8or7ing: ste2s of 8or7ing ; fuification: com2osition: im2lication:aggregation: defuification

.ntroduction to -NN: feedfor8ard and feed bac7 net8or7: neural net8or7 learning rules:

2erce2tron classifier: L)S algorithm: multilayer feedfor8ard neural net8or7: bac7

2ro2agation learning algorithm: #o2field neural net8or7: associati"e memories Selforganiing feature ma2

-22lication of -NN 9 Auy System

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1 S #ay7ins: -NN a Com2rehensi"e AoundationF' urada: -NNF

+ TI oss: Auy logicB 8ith -22lication to EngineeringF: )c3ra8 #ill

@1


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ET-97$ CONTRO& AND GUIDANCE

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.ntroduction and brief history of control systems: Transfer functions: )athematical

modeling of Electrical and )echanical


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ET-979 ARTIFICIA& INTE&&IGENCE AND EX/ERT S2STEMS

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.ntroduction to the conce2t of -.Problem Sol"ingB 3eneral 2roblem sol"er: Contributions of 3PS to recursi"e

2rogramming: 2roblem re2resentation and extra2olation: Cybernetics and ada2ti"e

control -ccom2lishments and limitations of 3PS

Production systemsB design: im2lementation and limitations3ame PlayingB #istory of -. in game 2laying: game trees and gra2h theory )ini%max

2rocedure: 2runing the game tree

no8ledge re2resentationB Aeatures of 7no8ledge re2resentation schemes: design

considerations for a 7no8ledge re2resentation system Semantic net8or7s: )ins7y theoryof frames: Scri2t theory of Schan7 and -belson

Searching techni?uesB ,asic search techni?ues: -irline boo7ing 2roblem: To8er of #anoi2roblem: Tra"eling salesman 2roblem: gra2hs and goal trees

De2th%first search: breadth%first search: hill climbing: heuristics: best%first heuristics

L.SP/Prolog 2rogramming languageEx2ert SystemsB Structure of an ex2ert system (rganisation and re2resentation of

7no8ledge in an ex2ert system ,asic acti"ities of an ex2ert system Ex2ert system shells

Ae8 exam2les of ex2ert systems

S$33ESTED ,((S%

1 )orris 6 Airebaugh: -rtificial .ntelligenceB - 7no8ledge based a22roachF:P6S%ent 2ublishing co: ,oston

' ich: -rtificial .ntelligenceF: )c3ra8%#ill

+ Patric7 # 6inston: -rtificial .ntelligenceF: -ddison 6esley* Peter Iac7son: .ntroduction to ex2ert systemsF: -ddison 6esley

D- 6aterman: - guide to ex2ert systemF

0 Cloc7sin 9 )ellish: Programming in P(L(3F : S2ringer Pub

4 Iohn Stobo: Problem sol"ing 8ith P(L(3F: Pitman Publishing

@+


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ANNEXURE - /RACTICA&S

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B.Te!"> 3stSemester an% $n% Semester

(Common to a ?ran!"es#

Basi! Ee!tri!a En1ineerin1 E&T-3)7

/ART- A1

B.Tech.Syl. & sch.-C

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Transcript of B.Tech.Syl. & sch.-C