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Revised Syllabus./

and Scheln:e of Exan1ination

ForTile Second Year

(Sem.III & IV)of the

B.E. Degree Course

in Electronics Engineering

Univcrsity of IVlulnbai

Rcviscd Syllabus of Elcctronics Engineering June 2008

Semester III~_.

I

I -~ P.

fTU-~I'H! TW.

! PI{ lOR i TOTAL I

: I:! I.I

I I ' O ! - T '-'---; ') -4 -- i 10 i 2) I --- ! ---! L) ,

II

!

I I - I Ij. ii, i. ,,' I

I 4 1 2 i --- 100 I 25 ! 50 j 2~! 200 :i

I

I I :: !I I! I I

4 I 100 I ')-\ I _ 0 ' I,\---r-'-=) O'

0I -. !) I -< I -

! ; ! i

I;

i i. i Engineering :\'1athematicsr--- Ii :

i ~. : Basic o(l:::!cctronic Circuits

.-<--

~ ! D.igjtal System Design I-

12~

150

50

iI L P TV TH I TW

PR lORTOTAL'I

j !i [ I

I

!i J. i Advanced Engineering Mathematics 4 --- --- 100 -.- --- --- 100 I

I

i !I I i! i

I 2. I Eletronic Circuit Analysis and4 2 100 'r 50 25 200 '-u -) ,

i

I DestgnI!

I i

I 3. Digital System Design II 4 2 --- 100 ?- 50 ?' 200 I-) ....> II II I

I 4. I Basicsof Analogand Digital4 2 --- 100 25 --- ')- 150-)

Communication SystemsI

I 5. Electronic and Electr:sal Measuring 4 2 -.- 100 ')- --- ')c 150i

-) .<.JInstruments and Machine

6. I ElectronicWorkshop-I-n 4 --- --- 25 25 50

I20 12 I 500 I 125 100 125 850

S.E.ELECTRONI~S - SEMESTER -III

ENGINEERING MATHEMATICS

Period per week Lecture 4

Practical --Tutorial 1

Hours MarksEvaluation System Theorv Examination 3 100

Practical --- n-

Oral Examination --- ---Term Work --- 25TOTAL _n 125

Detailed Syllabus Lectures/Week

I Laplace Transform1.1 Existence of Laplace Transform, Properties of L.T, ISland2nd 06

shifting theorem, Change of scale Properties, Unit stepfunction,Heavi side,Dirac delta and Periodic function and their L.T

1.2 Inverse L. T. with partial fTactionand Convolution theorem1.3 Applications to solve initial and boundary value problems involving 05

O.D.E.02

2 Fourier seriesDirichlet's conditions, Fourier series of periodic function with period 07

2Jr and 21 .F.S for even and odd functions. Half range sine and cosineand Parseval's identity.

3 3.1 Complex form of Fourier series 023.2.Forier int..:graland Fourier Transform with properties in 03

detail

4 Matrices -4.1 Types of matrices, Adjoint, inverse and rank of a matrix. 06

Normal form of a matrix4.2. System of Homogeneous and non homogeneous

-

equations and their consistency.

\ -.. ._-.-.

C"iIlPic:\ \ariabks; S.I.Analytic function-I{ equation in Cartesian ami polar form Analytic

I'unction by i'diInc. Thomrson illethod. Harmon ie funet ion5.2.Confurmalmapring. Bilinear marping and sundar'd transforms.

06

I

I

04

-----6 z- transform 8: \'ector analysis

61 Propellies. change of scale. shifting, inverse of ztransform.

6.2 Initial value and final value.

63 Vector integration, scalar potential work down Greens Iheorcill.Divcrgence theorem, strokes theorem (without prool)

04

03OS

Theon Examination:

I Question paper wi II comprise of IOtal 7 questions, each of 20 marks~. Only 5 questions need to be solved.). Question I will be compulsory and based on entire syllabus.4. Remail1lng questions will be mixed in nature( tar example Q2 a) from 2.1 then b) will be from 4.1

or 5.1 other than 2.1.

5. In question paper weightage of each chapter will be proportional to number of respective lectureh0urs mentioned in the syllabus.

Recommended Books:

I. P.N.Wartikar/J.N Wartikar, Text book Applied Mathematics, Vol.! & II.Prakashan

2. Matrices by Shantinarayan3. Vector Analysis by Murray R. Stiegel, S~,aum series

4. Higher Engg. Mathematics. Dr. B.S. Grewal,Khanna Publication

5. Higher Engg. Mathematics by B.V. RamanaTata Mcgraw-Hill Publishing company Limited.

6. Advanced Engg. Mathematics by C.Ra)' wylie & Louis, C. BarrattTata Mcgraw-Hill Publishing company Limited

7. Advanced Engg. Mathematics 8'h Ed Erwin kreysizg.John Wiley & Sons, Inc.

Pune Vidyarthi Griha

S.E. (ELECTRONICS) SEMESTER III

BASIC OF ELECTRONIC CIRCUITS

Detailed Syllabus

\. Semiconductor Materials and DiodesReview of Semiconductor Materials and Properties, The PN Junction,Introduction to Semiconductor Diode Theory. Diode Circuits: DC Analysisand Models, AC Equivalent Circuits, Other Diode Types - Solar Cell,Photodiode, Light-Emitting Diode, Schottky Barrier Diode, Pin Diode, ZenerDiode, Zener as voltage Regulator, Temperature Effects, UnderstandingManufacturer's Specifications.

2. Diode CircuitsDesign of Rectifier Circuits.:- Full Wave Rectification with'C','L-C' & 'pi'Filter, Ripple-Voltage and Diode Current, Voltage Doubler & MultipliesrCircuit, Zener Diode Circuits, Clipper and Clamper Circuits, Multiple-DiodeCircuits. Photodiode and LED Circuits.

3. The Bipolar Junction TransistorBasic Bipolar Junction Transistor, PNP &.NPN Transistor Structures DeviceSymbols:, Current-Voltage Characteristics, Transistor Biasing - Single BaseResistor Biasing, Voltage Divider Biasing and Bias Stability, DC Analysis ofTransistor Circuits in Common Emitter Common Base and CommonCollector configurations, Forward-active Mode Operation Load Lineconsiderations, Non ideal Transistor Leakage Currents and BreHkdown,Integrated Circuit Biasing, Multistage Circuits. Transistor Applications - Asa Switch,

4. Basic BJT AmplifiersThe BJT Linear Amplifier, Graphical Analysis and AC Equivalent Circuit,Small Signal Hybrid - 7[, (gm m) Equivalent Circuit of the BipolarTransistor, Hybrid - 7[ (gm m) Equivalent Circuit Including the EarlyEffect, Expanded Hybrid - 7[ Equivalent Circuit, Other Small - SignalParameters And Equivalent Circuits, Basic Transistor AmplifierConfigurations i.e. Common Emitter Common Base and Common Collector(Emitter:ollower. AC Load Line Analysis, The Three Basic Amplifierconfigurations: Summary and Comparison, Design of Single Stage BJTAmplifier.Multistage Amplifiers, Band-Width and Power Considerations, Thermal

4

Leet ures/Wee k

06

08

08

-

12

Period per week Lecture 4

Practical 2

Tutorial n

Hours MarksEvaluation System Theor}'Examination 3 100

Practical 3 50Oral Examination --- 25Teml Work _n 25TOTAL n- 200

---------------------------

6.

i,II

i The Field Effect Tra;~~t-Z)-r 1

I

Junction Field--Elrect Transistor , MOS Freld--Flkct Transistor i\IOSFET, i. . I

, Self Biasing iv1id-Point Biasing,E3i<1sing fur lem Dr:\in Current-Drift iIPotential Divider Biasing and DC Circuit :\rlahsis. Basic ;VIOSFETI

i Application: Switch, Digital Logic Cate :\nd Amplrti~r Temperature erfects I

I In MOSFEl s. Input ProtectIon In MOSI.I:: I The !'O\\er FET (V\10S). !! . I

i Basic FET Amplifiers! Gasic JFET Amplifier Configurations- Cummon Suurce Amplitier. TheISource Foliower(Common Drain) Amplitier, The Common Gate! Configurations. Summary or the Three Basic Amplitier Configurations.ACi Circuit analyses of C.:l1mon Source Amplifier, The Source

! Foliower(Common Drain) Amplifier. The Common Gate Amplifier: Configurations. Design of Single Stage JFET Amplifier MOSFET amplifier! Giasing and DC Circuit Analysis.P.c analysis of Single Stage MOSFERi amplifier Single - Stage Integrated Circuit MOSFET Amplifiers, Multistage

I Amplifiers.i

IConsiderations in Transistor .-\mpllticr-s. ,\.1anuf"cturers'Sp'ccrllcatlons---,

12

i

1

I

I

I

--I

iIIi

10

Text Books:

i_Donald A. Neamen, Electronic Circuit Anal:'sis and Design, Second edition, McGrawHill International

2. Robert L Boylestad Louis Nashelsky, Electronic Devices and Circuit theory, sixthedition, Pent ice Lay India.

3. Martin Roden, Gordon Carpenter, William Wieserman, Electronic Design, fourthedition. Shroff Publishers,

4- Microelectronics Circuits (Analysis and Design),By Mohammad Rashid, Cengage Learning

Reference Books:I. Electronics Devices and circuits Theodre F. Bogart, Jr. Jeffrey S.BeasIey, Guillermo Rico.2. Donald Schilling & Charles Belove, Elec:ronic Circuits Discrete and Integrated, Third

edition, McGraw Hill

Termwork:The termworkshall consist of atleast six laboratory experimentscovering the whole of syllabus, dulyrecorded and graded as well as atleast four computer simulations using EDA tools like PSPICE dulyrecorded and graded. This will carry a weightage of fifteen marks. A test shall be conducted and will carrya weightage of ten marks.

SUGGESTED LIST OF EXPERIMENTS

Laboratory / Simulation

I. Application of diodes as a (positive / negative and both), a clam per (positive /negative)

2. FWR with different types of Filters and finding its ripple factor.

~J. Voltage Regulation using Zener diode.

5

,I Design and Analysis of BJT Amplifier' II ith fi\cd bias. Colkctor' bidS. Potential divider' bias.Determinations of its DC opc:rating point

5. input and output chMacteristic of13J1' in C13.CCCE conliguratlon and its pardn1etc:rs.

6. BJT as a Voltage Ampli tier. Determination or its performance parameters (f\ V ...\ i. Ri. Ro)

7. FET as a Voltage Amplifier and determination of its performance parameters.

8. Output characteristics and Transfer Characteristics of JFET, Finding its ParamC(ers, Itlutualconductance and amplification factor.

S.E. (ELECTRONICS) SEiYIESTER HI

DIGITAL SYSTEMSDESIGN I--~--

,1I

IPeriod per week i Lecture

I PClcrical

4

Detailed Syllabus

Introductio'l and Digital Codes:I Analog Vs Digital Systcms Digital Devices, Binary codes.

Character codes. Codes for de:ecting and correcting errors

I

GmY:i}I Logic Circuits:: Boolean Algebra, theorems, combinational circuit analysis, combinationalI circuit synthesis, minimization, Kamaugh Map, Sum of Products, Product

I of Sums form, and their minimization, Programmed minimization-QuineMc-Cluskey minimization algorithm, timing hazards-Static, DynamicHazards

3 I Combinational MSI, LSI Devices:Combinational design using SSI, MSI devices, Decoders (74x 139,74x 138),Encoders (74x 148), Tri state buffers (74x244,74x245), Multiplexers(74x 151), Parity circuits(74 180), Comparators(7485), Adders (7483) ,Subtractors, BCD adders - subtractors , ALU (74181), CombinationalMultipliers, Combinational PLOs

4 Logic families:Basics of TTL, CMOS, ECL Circuits for basic logic operations justCircuits and w0rking of them in all above families. No Characteristics offamilies.

5. Sequential Logic Practices:Basic Elements, Latches and Flip flops, S-R, 0.1', J-K latches and Flipflops, Flip Flop conversions, Applications of Latches and Flip-Flop inswitch debouncing, bus holder circuits, Flip-flop Timing Considerationsand Metastability. .Counters -Asynchronous; Synchronous counters, Up down counters, Modcounters,Ring counters. Shift Registers, Universal Shift register.

6

7

Lectures/\\'eek

06

14

10

10

0&

08

: ! Tutorial --I ---

jv1arksI II,'lIl",

I E\'aillation System Theory Examination i 100,

Practical 50i I ' ;

! Oral Examination I --- , /5

L Term Work I --- I ;-I .)

TOTAL I n- I '00

Term WorkThe term work shall consist of at least eight laboratory experiments covering the whole of syllabus, dulyrecorded and graded. This will carry a weightage of fifteen marks. A test shall be conducted and will carrya weightage often marks.

SUGGESTED LIST OF EXPERIMENTS

The e;,:periments must include:

I.2.

Verification of basic gates (I Experiment)Applications like comparators/ parity generators / adders / Subtractors etc using gates or MSIdevices (2 Experiments)Use of Decoders, Encoders, Multiplexers (2 Experiments)Flip Flop Conversion (I Experiment)Applications using of Synchronous / Asynchronous counters, Shift Registers (2 Experiments)

3.4.5.

Text BooksI. RP Jain: Modem Digital Design, forth edition, Tata McGraw Hill.2. Mon-isMano, Digital Design, Pearson Education ,Asia,2002

Reference BooksI. John F. Wakerley, Digital Design Principles and Practices, third edition updated, Pearse'£!

Education, Singapore, 2002.2. John M. Yarbrough, Digital Logic :Applications and Design, Thomson Brooks/Cole, 2004

S.E.(ELECTRONICS) SEMESTER III

-----

ELECTRICAL NET\VORK ANALYSIS AND SYNTHESIS

I Lecture

1 Practical

ITutorial

___I~~i:IUclper weekTI

r

~0402

I

~1

1 TOTAL 125

Detailed Syllabus Lectures/\\'eek

Circuit analysis (ac and dc):

Kirchoff's law, Loop variable analysis, Node variable analysis, Sourcetransfonnations, Reference directions for current and voltage, Activeelement conventions, dot convention for coupled circuits. Linearity,Superposition, Thevenin's and Norton' s, Maximum powcr for ac sourceand dependent source.

..,Linear graphs:Introductory definitions, The incidence matrix A, the loop matrix B,relationship between sub matrix of A and B. Cut-sets and cut-set matrix,

I Fundamental cut-sets and fundamental tie-sets. Planar graphs, A and Bmatrices, Loop, node, node pair equations, duality.

3 Laplace transforms:Properties of Laplace transforms, basic theorems, Laplace transform ofgate function, impulse function and periodic functions, convolutionintegral, inverse Laplace transform, application of Laplace transforms tosolution of Network problems.

4. Transient and frequency analyriis:Transient response of R-L, R-C, R-L-C circuits (Series combinations only)for d.c. and sinusoidal excitations - Initial conditions - Solution usingdifferential equation approach and Laplace transfonn methods of solutions.Transfer function. Concept of poles and zeros. Concept of frequencyresponse of a systemTwo port networks:

Concept of two port networks, Driving point and Transfer functions., opencircuit and short circuit parameters, transmission and i:werse trans;nissionparameters, hybrid parameters, inter-relationship of different parameters,interconnection of two port networks, T and pi representation, tenninated'two port networks

5.

6. Fundamentals of network synthesis:Realizability concept, Hurwitz property, positive realness, properties ofpositive real functions, testing positive real functions, Synthesis of R-L, R-C and L-C driving point functions - Foster and Cauer fonns.

9

12

08 -I ,!iIii

-JIIi

08

i

I

Iu--l

08

08

I I Hours I MarlEvaluation System ITheon E\amination l 3 100

I Practical -r _u -hi I Oral E\aminatlon i _n _n,I

, Term War\..: 25 Ii _h

II

I"n ibooks:

FranKlin F. KUD."Network analysis and synthesis", PHI.') M. E. VanvalKenberg, "NetworK analysis". PHI. third edition.3. \Viliam Hayt and Jack Kemmerly. ., [~ngineering Circuit analysis", TMH.

Rcfcrcncc Books:

I. Circuits and Networks - Analysis and Synthesis: A. Sudhakar and Sf> ShyamMohan.

2. D. Roy Choudhury: Networks and Systems, Ncw Age InlernationalPubs.

Tcrrnwork:

The Tennwork shall consist of at least four e~:periments and four assignments covering the whole syllabus,duly recorded and graded This will r;arrya weightage of fifteen marks. A test shall be conducted and willcarn it \\cighu!ge oftCl1 .113rks.

SUGGESTED LIST OF EXPERIMENTS

I. Veri flcation of superposition theorem using acldc source.

2. Verification of Thevenin 's theorem using dependent/independent source.

J. Verification of maximum power transfer theorem using ac/dc source.

-I. Vcritlcat ion of source transfom1ation.

5. Charging and discharging of a capacitor.

6. Measurement of h parameters.

S.E. (ELECTRONICS) SEMESTER III

CONTROL SYSTEM ENGINEERING

Detailed Syllabus

Introduction to control system analysisIntroduction, examples of control systems, open loop control systems,closed loop control systems. Transfer function. Types of feed back & feedback control system characteristics - noise rejection, gain, sensitivity,stability.

2 Mathematical modeling of systemsImportance of a mathematical model, Block diagrams, signal flow graphs,Masan's gain formula and its application to block diagram reduction.State space method, solvi.1gtime-invariant system, transfer matrix.Transient & steady state -Response Analysis3.1 Impulse response function, First order system, second

order system, time domain specifications of systems,analysis of transient-response using Second order model.

3

3.2. Classification of control systems according to "Type" ofsystems, Ste_ady- state errors, static error constants,Steady - state analysis of different types of systems usingstep, ramp and parabolic input signals.

4 Stability AnalysisIntroduction to concept of stability, Stability analysis using Routh'sstability criterion, Absolute stability, Relative stability. Root-Locus plots,summary of general rules for constructing Root- L0cus, Root-Locusanalysis of control systems. Compensation techniques-Log, lead, log-lead.

5 Frequency-Response AnalysisIntroduction, Frequency domain specifications, resonance peak and peak

resonating frequency, relationship between time and frequency domainspecification of systems. Bode plots, Polar plots, Log-magnitude Vs phaseplots, Nyquist stability criterion, stability analysis, Relative stability, gainmargin, phase margin, stability analysis of system using Bode plots.(,Iosed-Loop Frequency Response-Constant gain and phase loci,Nichol's chart and their use in stability study of systems.

11

Lectures/Week

06

09

i2

09

09

Period per week Lecture 04Practical 02Tutorial --

HOl'rs Marks

Evaluation System Theory Examination 3 100Practical 2 ---Oral Examination --- 25TermWork --- 25TOTAL --- 150

~ n___~ --- ---"- ,6 ; CO,ntrol componcnts & Contr.oller - . IX . cilid i OC) i

. .\C serTL1mOlOrS, se;\'oJmpldlcr, potrerltlomcter. s: nchro tra/hllll,','rs. I. . .

1 I - I, :;\ IlL'Il;'O receivers. s:'nc 1ro contro transformer, stepper IIh',ms;

- ~'

.

' Discontinuous cOI1t1"[Jiler modes, continuous controller nhHks. C'>llif"h

.

'ill>:.

. .

: cuntrollers.i ' !i~_..~_-- --- ~-----_._-

Tcxtbooks:

I J Nagrath. iv1 Gopal. Control system Engineering. Tata iv1cGra\\ Ilill2. r-:. Ogata. Modcrn Control Engineering, Pearson education. third edition

.3 2. LJcilJilll1in C. Kuo. Automatic Control Systems. Pearson education. :;c\cm!1 edition

I{cruellcc Books:

I. Mad;lI] Gopal. Control Systems Principles and Design. Tata i\1cCJra\\ 11111.se\'enrhedition. 1997.

~. Nisc. contra I system Engineering, John wiley & sons. 3,,1edition

-!. CUI'IiS Johnson. Process Contrallnstrumentation Technology. Pearson educatiun.fourth edition.

Termwork:

The Tem1\vork shall consist of at least ten experiments and three assignments based on the whoie syllabus,duly recorded and graded- This will carry a weightage of fifteen marks. A test shall be conducted and willcarry a weightage of ten marks.

SUGGESTED LIST OF EXPERIMENTS

Laboratory / Simulations

I. Transient response of I" order & 2ndorder system2. Frequency response of I51 order & 2ndorder system3. Steady state error analysis of different types of systems4. D,C. servomotor5. A.C. servomotor

6. Synchro Transmitter anJ Receiver7. PotentiometerSimulation

I. Block diagram reduction2. Time response analysis3. Frequency response analysis4. Stability analysis

S.E. (ELECTRONICS) SEiVIESTER HI

PRESENTATION AND COMMUNICA TION TECHNIQUES

1:'-,~!.ioJ-perweek Lecture '

..

:!

~~-Practical

TutOrial : :?---: Ilours i \1ark~

, , ! I

i Evaluarion S\stem Theory Examination ! i I, Practical I -u : n- I: I I J

Oral Examination ! -_u 1

Term Work I -u I 50 !Tot;d ! -u I 50

Detailed Svllabus

COlTllllunication in a business organization:Intcrnal and external communication, Ty.pes of meetings, strategies forconducting succcssful business mectings, documentarion (notice, agenda,minutes, resolution) of Ir~ctings. IntrodL'ction to modern communicationtechniques(e-mail, internet, video-conferencing, etc.) Legal and ethical issues incomm~!!lication (Intellectual property rights: patents, TRIPS, Geographicalindicatior~s)

I i Advanced technical writing:, :? ! Report writing: Definition and impo:rance of reports, qualities of reports.

i language and style in reports, types of reports, formats (leiter, memo, project-i repots). Methods of compiling data for preparing report.

I A computer-aided presentation of a technical project repon based on survey-I based or reference based topic. The topics are 10be assigned to a group of 8-1a

I students.Thewrittenreponshouldnotexceed20 printedpages.

I

Technical paper-writingWriting business proposals.

I 3 II

Interpersonal skills:Introduction to emotional intelligence, motivation, Negotiation and conflict

resolution, Assertiveness, team-building, decision-making, time-management,persuasIOn

4Presentation skills:

Elements of an effective presentation, Structure of a presentation, Presentationtools, Audience analysis, Language: Articulation, Good pronunciation, Voicequality, Modulation, Accent and Intonation.

Lectures/Week

06

08

03

04

Term work:

Assignments:2 assignments on communication topics3 assignments on report-writing3 assignments on interpersonal skills2 assignments on career skillsAt least one class test (written)

Distribution of term work marks will be as follow~:Assignments: 10 marksWritten test: 10 marksProject report presentation: 20 marksGroup discussion: 10 marks

Books recommended:I. Fred Luthans: Organizational behavior, McGraw Hill2. Lesikarand Petit, Report writing for business, Tata McGraw Hill3. Huckin & Olsen, Technical writing and professional communcation,McGraw Hill

4. Wallace & Masters, Personal development for Life & work, ThomsonLeming.5. Heta Murphy, Effective Business Communication, McGraw Hill6. Ramanand Sharma, Report writing.

Additional ReadingsI. Lewicki, Saunders & Minton: Essentials of negotiation, McGraw Hill2. Hartman Lemay, Presentation Success, Thomson Learning3. Kitty O. Locker, Stephen Kyo Kaczmarek: Business Communication,Building Critical skills, McGraw Hill4. Vikas Gupta: COMPDEX Computer Course kit, lOG Books Pvt. Ltd.5. H~l1er& Handle, The Essential Manager's manual, Dorling Kindersley6. The Sunday times "Creating Success Series" I. Develop yourassertiveness 2. Make eveI)' minute count 3. Successful Presentationskills 4. How to motivate people? 5. Team building7.Daniel Goleman, Emotional Intelligence.

14

Career skills: I

5 Preparing resumes and cover letters. Types of Resumes. Intcrvic\\' tcchniques:04

Preparing for job interviews, facing an intervicw, verbal and non-verbalcommunication during interviews. observation sessions and role-play

techniques to be used to demonstrate interview strategies (mock interviews)

Group discussion:6 group discussions as part of selection process. Structure of a group discussion, 03

Dynamics of group behavior, techniques for effective participation, Team workand use of body language

S.E. (ELECTRONICS) SEIVIESTER IV

ADVANCED ENGINEERING MATHEi\1A TICS

~~ri()d p~r \\eek -I

!Lec[ure -1

~..

i Practical

i Tutorial,ii

iiIl

i EliJluation System

I

!iI

I

III )lIr~ ~brks

I Thcory EXiJll1ll1ill iOI1

Practical

I Oral ExaminationI

I Tern) Work

j Total lOG

i ~ i 1001m

i--=-I -.-r=

, ---

Detailed Syllabus Lecturcsi\\ieek

2

ii,

~

I .J1I

iI

1 RiJndom variables:

I

! 1.1 Discrete and continuous random variableYrobabilitymass and density function for random vari3.bles.

i I.~ Expected value. Variance.:'vloments and moment

I

~eneratif1!." functions1.3 !{clation betwccn Raw and central momcnts.

III

! Probabilitv distributions:

I 2.. i. Bino;lliiJl.Poisson and Normal distributionI

i 2..2.lntroduction to distribution such as 't' and' XC '.ccntralI .I limit theorems and problems based on this theorem.II

II

I

Sampling theory:3.1 Larg~ and small samples. Test of significance for both

, samples

02

03

02

06

04

05

15

,.2 paired 't' test 01

3.3 Application for X2 distribution02

I I

14Discrete Structure

4.1 Relation and function (Equivalence relation, Injective, surjective and 04bijective functions)4.2. Poset, Lattice(Bounded, complementedand distributive lattice) 044.3. Algebraic structure: Group, Ring, Field

04

/5 Matrices5.1. Cayley Hamilton theorem, 04eigen values and eigen vectors (without proof) 045.2. Similar matrices, orthogonally similar matrices, reduction to thediagonal form.

,-~ ~------------

(j ~ CUl11pl':x ..,jf-iabks

: 6.1 Cauchy's theurcm and CHlC!1\"S i~H'.:::r,II rormuL!

I 62 Tavlol~'::: and Llur,'nI's r()fmui,!. Sln~~d'lIitl::S and !'l)!cS.I . -i 6.3 Residuc thcorem

------------------

---' 1r\,

I

t._'

()4

I

0:;

II

.J---------- .- ------

Theor\' E\<!fllination:

I. Qucstion paper will comprise of total 7 questions. each of 20 m;lrKS.2. Onl) '\ quesrions need to be solved.

3, Question I will be compulsory and based on entire syllabus.

4, Remaining questions will be mixed in nature( for example Q2 a) from 2.or 5.1 othcr than 2.1.

I then b) \\ill be: from 4.1

), In question paper weightage of each chapter will be proportional to number of respeclI'.'c \ccrurchours mentioned in the syllabus.

Recommended Books:

LP,N.Wartikar/J.N Wartikar. Text book Applied Mathematics.Pune Vidyarthi GrihaPrakashan

2. Theory of complex vari"bk by Shantinarayan:; . Engineering r.,:lathematics by SSSastri4. Fundan'1entalof Mathennticals Statistics By S.c.Gupta and V,K Kapoor4, Probability and Statistics Schum series5, Discrete Mathematics Gy Kolman.Busby.Sharon R(IS6. Function ot-discrete Mathematics by K.D.Joshi

S.E. (ELECTRONICS) SEMESTER IV

ELECTRONIC CIRCUITS ANALYSIS AND DESIGN

17

Period per week Lecture 14

Practical 2

Tutorial ---

Hours IMarks

Evaluation System Theory Examination 3 100

Practical 3 50

Oral Examination nn 25Term Work --- 25Total --- 200

Detailed Syllabus Lectures/Week

1

I Frequency Response of Amplifiers

09

High frequency parameters of BJT.Amplifier Frequency Response, SystemTransfer Functions, S - Domain Analysis,First - Order Functions, Bode Plots, Short-Circuit and Open-Circuit TimeCon,tants, high Frequency Response of BJT, FET and MOSI.ET amplifieranalysis.

2 OSCILLA TORS- 09

Analysis and Design of phase shift, Quadrature, Wien bridge, Hartley,Colpitt and Crystal Oscillator.

3 Power Amplifiers 09

Power Amplifiers, Power Transistors - Power BJTs, Power MOSFETs, ,Design of Class- A, Class- AB Push Pull Class- B Transformer CoupledPush Pull Amplifier, Complementary Class B Power Amplifier. Heat Sinks,Design of heat sinks, for power Amplifier Devices

4 Differential Amplifiers 09

BJT,fET & MOSFET Differential Amplifier Analysis and Design, Designof CMOS, Differential Amplifier with Active Load (Ref:- Donald Neamen).

5. Multistage Amplifiers 12

Design Two Stage BJT, JFET and MOSFET Amplifiers and Design ofCASCODE Amplifiers. Design of BJT-JFET hybrid amplifier.

6. Feedback and Stability Introduction to Basic 08Feedback Concepts, Ideal Close-Loop Gain, Gain Sensitivity BandwidthExtension, Noise Sensitivity, Reduction of NonlinearDistortion, IdealFeedback Topologies. Analysis of Series -Shunt, Series-Series, Shunt-Shunt Shunt - Series Amplifiers, Loop Gain, Stability of the FeedbackCircuit, The Stability Problem, Bode Plots Of One - Pole, Two - Pole, andThree - Pole Amplifiers,Nyquist Stability Criterion, Phase and GainMargins, Frequency Compensation Basic Theory, Closed Loop FrequeLcyResponse, Miller Compensation.

Tnt Buo!';s:

I. \.1icroelcctronics Circuits (.'\ In h sis ;uld Dc's!~n) !;\ ;\1oh:un:n:!J R:lShid. C:I1~agcLl':!rIling

~. DOIli'IJ A. Neal11l:l1, [1t:~ctrUI1ICCircUli .\n,1I:, ~;[, ,111L!Dcslgl1, :),'(,)nd cdillOll, .\1cljra\\Hi!llnternational cdi!r,)f1 :'UO I

3. j\.1artin Roden. Gordon CaqJcnta. Willial11 \\'lc:,crl11al1, L:Iectrunlc i)"S'~I1, h\lJrthedition, ShrotT Publishers.200:'

Reference 1300ks:

I. Donald Schilling &.Charks Belove, [Iectronlc Circuits Discrete anJ Imcgratcd, Tlmdedition, McGraw Hilllntcrnational edition, 1989

2. Adcl Sedra &. Kenneth Smith, Microelectronic Circuits, Fourth editlun, O:\t'ord

Uni\crsity Press. 1998

Terlllwork:

The term work shall consist of at leas! six laboratory experiments covering the whole of sy Il::bus, du Iyrecorded and graded as well as at-least four computer simulations using EDA tools like PSPICI~ dulyrecorded and graded. This will carTYa weightage offifteenlllarks. A test shall be conducted and will carr)a weightage of ten marks.

SUGGESTED LIST OF EXPERIMENTS

Laborarory ! Simulations

I, To Study frequency Respc)nse of Cascode Amplifier

2. To study RC phase shift Oscillator and Calculate threshold &. rractica!fTequcl1cy.

3, To Study CUrTent Series negative feedback amplifier and plot gain withfeedback &. without feedback.

4, To study Wein Bridge Oscillator

5. To study Class AB and B Pushpull Amplifier.

6. To study Hartley Oscillator. Calculate theoretical & practical fTequency,

7. To study Colpitts Oscillator. Calculate theoretical & practical fTequency.

8. To study fTequencyresponse oft\':o stage RC coupled Amplifier.

\

\S.E. (ELECTRONICS) SEIVIESTERIV

Electronic and ElectricallVIcasurina Instruments and Machineb

!P' d

IJ

!III

I

i

IIr. : Frequency meters, phase meters and signal generators:.

I

Analog-schematic & operational details, limitations. Digital Fre4uency

"

. m.

eters, Phase measur~ment.by voltag~ a.ddition method, balanced n~o~ula.tioni type, phase meters USIng flIp-flops, dIgItal meters, advantages &. limitations

I of each type. Requirement of a good laboratory type signal generator, A.F.

L I signal generators, Beat frequency oscillator & its advantages.. 3. I Oscilloscopes:

Block diagram study of C.R.O., Description of panel layout &implementation of controls. Requirement of time base, triggered time base,delayed time base, external triggering etc. Lissajous patterns, use of these in

i phase & frequency measurements. Frequency time base, WobbleI' ~cope & itsapplications, Dual trace, multi trace, Double beam, Sampling; Storage,Digital read-out oscilloscopes. Use of CRO in square wave testing c,famplifiers, tracing of diode & transistor characteristics.

Detailed Syllabus

I

Electronic and Digital Voltmeters:Principles of operation, advantages over conventional type analog voltmeters,

I basic voltmeter, peak rnding, average reading true RMS reading, s",mp!ingtype, FET voltmeters, sensitivity considerations & calculations.Methods of analog-to-digital and digital-to-analog conversion, principles ofoperation. and typical specifications of a digital voltmeter, description cfvarious types of DVMs with block diagrams, Resolution and Sensitivity of adigital meter, digital di~plays for m-::ters.

Lectu resAVeel-;08

09

09

4 Basic measuring instruments~Essentials of indicating instruments - deflecting, controlling and dampingtorque. Construction and working principles of moving iron and moving coilammeters and voltmeters, electrodynamometer watt-meters, induction typeenergy meters, power factor meters, instrument transformers.

12

.'

5 Measurement of R, Land C:Measurement of low, medium, high resistances: Ohmmeter, Kelvin's doublebridge, Wheatstone's bridge, Megger. Measurement of inductance:Maxwell's, Hay's and Anderson's bridge. Measurement of capacitance:Schering bridge.

,08

19

per week !Lecture !Practical :2

Tutorial /mHours I Marks

I Evaluation System Theory Examination I 3 1100I Practical

1mI ---II, Oral Examination n_- 17-i -)

!

Tenn Work n- 17--)

Total n- T 150

'\

\\

Text books:

I) Cooper W. D. & Helfrick A.D., Electronics Instrumentation & MeasurementTechniques, third edition Prentice Hall of India, 1985

2) Kalsi H.S., Electronic Instrumentation, first edition, Tata McGraw Hill, 1997.3) Electrical and electronic measuring instruments: A.K.Sawhney.

Reference Books;

I) Electrical Measurements and measuring instruments: Golding and Widdis.2) Electric Machines: Nagr3;th and Kothari.

Termwork:

The Termwork shall consist of at least eight experiments and three assignments covering the wholesyllabus, duly recorded and graded. This will carry a weightage of fifteen marks. A test shall be conductedand will carry a weightage often marks.

SUGGESTED LIST OF EXPERIMENTS

I Study of dual integrating DVM.

2 a) Measurement of frequency using intensity modulation.b) Design and implementation of digital phase meter.c) Design and implementation of digital frequency meter.

3 a) Measurement of frequency using Lissajous patterns.b) Measurement of phase difference using X Y mode ofCRO.c) Application ofCRO for component testing.

4 a) Calibration of single phase energy meter.b) Conversion of galvanometer into ammeter/voltmeter.

5 a) Measurement of unknown resistance using Kelvin's double bridge.b) Measurement of unknown capacitance using Schering's bridge.c) Measurement of unknown inductance using Anderson's bridge.

6 a) Speed control of de shunt motor using armature and field control.b) Starting of three phase induction motor using auto transformer

starter.

20

6 6.1 DC Motors: O!

Back e.m.f., voltage equation, characteristics of series, shunt and compoundmotors, torque equations, speed control of dc shunUseries motors, three pointand four point starter and applications of dc motors.

6.2 Three phase induction motors:Construction and principle of operation, slip, rotor frequency, torque 03

equation, torque-speed characteristics, starting methods of induction motors.

6.3 Stepper motors:Construction, working principle and applications of variable reluctznce,permanent magnet and hybrid stepper motors. 03

r"

S.E. (ELECTRONICS) SEl\1ESTE~ IV

BASIC OF ANALOG AND DIGITAL COIYII\1UNICATION SYSTEi\iI

Detailed SyllabusLectures/Week I

06 II

III

1p

I. I Elements of Communication System:Basic block diagram of communication system, Modulation and Demodulationconcept, channels Noise inCommunication System, Signal-to-Noise ratio,noise factor and Noise Figure, equivalent Noise TemperatureElectromagnetic Waves Propagation: Propag2.!ion terms ar,d Definitions.

I

I, )

I1i Amplitude Modulation:

21

--

! Period per week i Lecture4

i Practical 2iI Tutorial n-

I Hours MarksI I I

i Evaluation System I Theorv Examination 3 100

,Practical _n _n

II Oral Examinati0n nn 25

j

I Term WorkI --- 25

I i --- 1150Tot.11

--

Id;- Diffeet-tef-A-!\4-; DSB-SC':SSBSC-:' VSB:!:SB-- --

I,

I I

IJI

I

I

I II

13

Angle modulation 12 II

Principles of Frequency Modulation and Phase Modulation.I

FM Modulators, types of FM: NBFM and WBFM, FM Transmitter, noise /triangle, pre-emphasisand de-emphasis circuits.FM Detection: frequency discriminator and phase discriminator

4 Radio Receivers 07Receiver Characteristics, TRF Receivers, and Super heterodyne Receivers :choice of IF , AGC , AFC In AM and FM receivers.

5. Analog Pulse Modulation 07Sampling Theorem for Low pass signals, Aliasing error, Samplingtechniques, Principles, generation, Demodulation & Spectrum Of PAM,PWM, PPM

6. Digital Pulse ModulationComparison of digital signal transmission over analog signal transmission,

significance of regenerative repeaters.Pulse- coded modulation (PCM) : sampling ,quantiz!ng , encoding technique,PCM bandwidth,Necessity of companding, PCM Waveform formats: Un i-polar and polar NRZ,RZ,AMIDelta modulation ( DM ) , Adaptive Delta Modulation( ADM).Multiplexing: TDM, FDM- Principles & applications.

12

Text Books:

I. Wayne Tomasi "Electronics communication system" Pearson education, Third edition200 J.

2. Kennedy and Davis "Electronics communication system",Tata Mcgraw Hill3. R.P. Sing and S.D. Sapre, "Communication systems Analog and Digilal", Tala

Mcgraw Hill4. 4. Taub and schilling "principles of communication systems", Tata Mcgraw Hill

Reference Books:I. Roy Black, "Electronics communication system", Cengage learning, second edition.2. B.P. Lathi "Modem Digital and analog Communication system" Thired edition,

OXFORD3. Robert J. Schoenbeck "Electronics communications moduhtion :'.1'0transmission".4. Lean W couch "Digital and Analog communication system", Pearson education,

Sixth edition.

Term Work:The term work shall consists of at least eig!.t Laboratory experiments covering the whole of syllabus, dulyrecorded and graded. This will carry a weightage of fifteen marks. A test shall be conducted and will carrya weightage of ten marks.

SUGGESTED LIST OF EXPERIMENTS

I. Amplitude Modulation And Demodulation2. DSB-SC& SSB-SC Modulation ,demodulation3. FrequencyModulation and Demodulation4. Study ofSuperhetrodyne Receiver characteristics5. Sampling and Reconstruction of sampled signals6. Pulse Modulation (PAM, PWM, PPM)7. Delta Modulation8. Time Division Multiplexing of PCM signals9. Line codes ( NRZ , RZ ,AMI-RZ )10.Simulation on AM,FM / Multiplexing

S.E. (ELECTRONICS) SEMESTER IV

Electronics \Vorkshop-I

fII

I1ThiS syllabus is designed to encourage students to .cIesign and imp!~ment innovative ideas. Thesyllabus will give them in depth practical knowledge from design to the final verification stage.Documentation of any project is an important part of the project and studer.ts are expected todocument their work properly in standard IEEE forn1at.

Every group of students should select different projects. Number of students should not beless than TWO and not more than THREE in one group.

Detailed Sylla bus

I. ~turiy of Soldering Techniq:Ies and PCB DesignStudents are expected to select any experiment'" that they have already perfonned in earliersemester. Soldering and testing is to be done for the selecterJ (~xperimel;t. Perfonn simult:ttionof the same experiment by using CAD tools. Schematic as well as PCB design is to be carriedout using CAD tools.

2. Design, Simulation and Implementation of AnalogProjectStudents are expecteu to design any'" analog application of their choice. Perfonn simulationusing software tools. PCB design, fabrication of PCB, testing and implementation should bedone. Documentation of the project is to be done preferably in standard IEEE fonnat usingLatexiWinTex. Project report should include abstract inmaximum 100 words, keywords, introduction, design, simulation, implementation, results,conclusion and references.

3. Digital ProjectStudents are expected to design any'" digital application of their choice. Perfonn simulationusing software tools for hardware de~cription. Design sbuld be synthesized usingFPGAlCPLD. Documentation of the project ISto be done pr~ferably in standard rEEE formatusing LatexiWinTex. Project report should include iJb:;IT3Ctin maximum 100 ;,wol"d$,keywords, introduction, design, simulation, implementation, results, conc1usi9.11andreferences. .-

* To be approved by the subject Teacher

References:-

I. Roberts G. W. and Sedra A.S., "SprCE", 2nded, USA

2. Rashid M.H. "sprCE for circuits and electronics using pSpice", Prentice Hall

23

i Period per week i Lecture!;!

i Practical--- ---,--

ITUlOrial

I

!Hours

I '13rksEvaluation System Theory Examination 1m 1m

Practical ---I .--

Oral Examination ---- I :!5Tern1 Work --- I :!5Total --- I 50

3Tuinenger P. \)./., "SPICe: A Guide [0 circuit simulation and analysis using pSpice", Prentice HallBosshart, "Printed Circuit Boards: Design and Technology", Tata McGraw HillOrcad/PCBII , "User's Guide".\I! \I! \I! . x i I i nx. co m

4.

5.6