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Solapur University, SolapurStructure of S.E.(Electronics & Telecommunication Engg.) Part I & II w.e.f.

Academic Year 2008-09.

S.E.(Electronics & Telecommunication Engg.) Part -I

Sr.No. Subject Teaching Scheme Examination SchemeL T P Total Th. TW POE OE Total01 Engineering Mathematics-III 3 1 4 100 25 ---- -- 12502 Circuits and Network 4 - 2 6 100 -- -- --- 10003 Electronics Circuit Analysis

and Design-I4 - 2 6 100 *25 *50 -- 175

04 Digital Techniques 4 -- 2 6 100 25 25 --- 15005 Data Structures 3 ---- 2 5 100 25 50 --- 17506 Electronic Workshop Lab --- 1 2 3 --- 25 --- -- 25

Total 18 2 10 30 500 125 125 --- 750

07 Environmental Science 2 -- -- 2 -- -- -- -- --

*Note: Circuits and Network TW as well as POE combined in Electronics Circuit Analysisand Design-I

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

S.E.(Electronics & Telecommunication Engg.) Part -IISr.No.

Subject Teaching Scheme Examination SchemeL T P Total Th. TW POE OE Total

01 Electronics Circuit Analysis

and Design-II

4 - 2 6 100 25 *50 --- 175

02 Analog Communication 4 - 2 6 100 25 50 --- 17503 Control Systems 3 2 5 100 25 ---- --- 12504 Linear Integrated Circuits 4 ---- 2 6 100 25 25 --- 15005 Signals and Systems 3 1 -- 4 100 --- --- --- 10006 Electronic Software Lab 1 2 3 --- 25 --- --- 25

Total 18 2 10 30 500 125 125 --- 750


* Note: POE of Electronics Circuit Analysis and Design-II includes some simulationpractical from Electronic Software Lab.

Vacational Training (be evaluated at B.E. Part-I) of minimum 15 days should becompleted in any vacation after S.E. Part-II but before B.E. Part-I & the report shouldbe submitted in B.E. Part-I

The batch size for the practicals/tutorials be of 20 students. On forming the batches, if the strength of remaining students exceeds 9 students, then a new batch be formed.


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Solapur University, SolapurStructure of T.E.(Electronics & Telecommunication Engg.) Part I & II w.e.f.


T.E.(Electronics & Telecommunication Engg.) Part -ISr.No.


01 Electro Magnetic Engg. &Radiating System

3 1 2 6 100 25 ---- -- 125

02 Digital Communication 3 1 2 6 100 25 50 --- 17503 Software Engineering &

Project Management System3 -- -- 3 100 -- -- -- 100

04 Digital Signal Processing 4 -- 2 6 100 25 25 --- 15005 Microprocessor &

Peripherals4 ---- 2 6 100 25 50 --- 175

06 Visual Basic 1 --- 2 3 --- 25 -- -- 25Total 18 2 10 30 500 125 125 --- 750

Vacational Training (be evaluated at B.E. Part-I) of minimum 15 days should becompleted in any vacation after S.E. Part-II but before B.E. Part-I & the report shouldbe submitted in B.E. Part-I.

-------------------------------------------------------------------------------------------------T.E.(Electronics & Telecommunication Engg.) Part -II

Sr.No.


01 Radar & MicrowaveEngineering

3 --- 2 5 100 25 -- --- 125

02 Microcontrollers &Application

4 -- 2 6 100 25 50 --- 175

03 Industrial Electronics 4 -- 2 6 100 25 --- --- 12504 Optical Communication 3 ---- 2 5 100 25 -- --- 12505 Electronics System Design 4 -- 2 6 100 25 --- 25 15006 Hardware Mini Project -- -- 2 2 --- 25 --- 25 50

Total 18 -- 12 30 500 150 50 50 750

Vacational Training (be evaluated at B.E. Part-I) of minimum 15 days should becompleted in any vacation after S.E. Part-II but before B.E. Part-I & the report should

be submitted in B.E. Part-I. The batch size for the practicals/tutorials be of 15 students. On forming the batches, if

the strength of remaining students exceeds 7 students, then a new batch be formed.


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Solapur University, SolapurStructure of B.E.(Electronics & Telecommunication Engg.) Part I & II w.e.f.


B.E.(Electronics & Telecommunication)Part -I

Elective I 1. Advance DSP.2. Image Processing.3. Artificial Neural Network.

Note: Minimum strength of the Students for Electives be 15.--------------------------------------------------------------------------------------------------------------

B.E.(Electronics & Telecommunication Engg.) Part -IISr.No.


01 Broad BandCommunication

3 1 --- 4 100 25 ---- 25 150

02 Audio Video Engineering 4 --- 2 6 100 25 --- 25 15003 Embedded Systems 4 --- 2 6 100 25 ---- 25 15004 Elective II 4 --- 2 6 100 25 ---- --- 12505 Project --- --- 8 8 --- 75 100 --- 175

Total 15 01 14 30 400 175 100 75 750

Elective II 1. DSP Processors & Application

2. Pattern Recognition3. Fuzzy Logic

Note: Minimum strength of the Students for Electives be 15. The batch size for the practicals/tutorials be of 15 students. On forming the batches, if

the strength of remaining students exceeds 7 students, then a new batch be formed. ForProject the group shall be about 4 students.

Sr.No.


01 Computer CommunicationNetwork

4 - 2 6 100 25 ---- 25 150

02 VLSI Design 4 - 2 6 100 25 25 --- 15003 Mobile & Satellite Communication 4 - -- 4 100 -- ---- -- 10004 Information Theory & Coding 3 1 -- 4 100 25 ---- 25 15005 Elective I 3 1 2 6 100 25 ---- --- 12506 Seminar & Project --- --- 4 4 --- 50 --- -- 5007 Vacational Training --- --- --- --- --- 25 --- --- 25

Total 18 02 10 30 500 175 25 50 750


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S.E.(Electronics & Telecommunication)

Solapur University, Solapur-w.e.f Academic Year 2008-09 1

Solapur University, SolapurStructure & Syllabi w.e.f. Academic Year 2008-09.

S E. (Electronics & Telecommunication Engineering) ISr.No.


01 Engineering Mathematics-III 3 1 4 100 25 ---- -- 12502 Circuits and Networks 4 - 2 6 100 -- -- --- 10003 Electronics Circuit Analysis

and Design-I4 - 2 6 100 *25 *50 -- 175

04 Digital Techniques 4 -- 2 6 100 25 25 --- 15005 Data Structures 3 ---- 2 5 100 25 50 --- 17506 Electronic Workshop Lab --- 1 2 3 --- 25 --- -- 25

Total 18 2 10 30 500 125 125 --- 750


*Note: Circuits and Network TW as well as POE combined in Electronics Circuit Analysisand Design-I

S. E. (Electronics & Telecommunication Engineering) IISr.No.


01 Electronics Circuit Analysisand Design-II

4 - 2 6 100 25 *50 --- 175

02 Analog Communication 4 - 2 6 100 25 50 --- 17503 Control Systems 3 2 5 100 25 ---- --- 12504 Linear Integrated Circuits 4 ---- 2 6 100 25 25 --- 15005 Signals and System 3 `1 -- 4 100 --- --- --- 10006 Electronic Software Lab 1 2 3 --- 25 --- --- 25

Total 18 2 10 30 500 125 125 --- 750


* Note : POE of Electronics Circuit Analysis and Design-II includes some simulation

practical from Electronic Software Lab.

Vacational Training to (be evaluated at B.E. Part-I) of minimum 15 days should be completedin any vacation after S.E. Part-II but before B.E. Part-I & the report should be submitted inB.E. Part-I.

The batch size for the practicals/tutorials be of 20 students. On forming the batches, if thestrength of remaining students exceeds 9 students, then a new batch be formed.


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S.E.(Electronics & Telecommunication Engineering) Part-I1.Engineering Mathematics- III

Lectures : 3 Hrs/week Theory : 100 Marks.Tutorial : 1Hrs/week TW: 25 Marks

SECTION-I

1. Linear Differential equations (6)Linear Differential equations with constant coefficients (without method of variation of

parameters)

2. Homogeneous Linear Differential equations (5)Legendres Linear equations, Electrical Engg. Applications.

3. Partial Differential equations (5)

Four standard forms of Partial Differential equations of first order. Solution of partialdifferential equations by method of separation of variables.

4. Laplace Transform: (6)Definition, Transform of standard function, Properties, Transform of derivative and integral.Inverse Laplace Transform, Convolution Theorem. Applications to solve linear DifferentialEquations with constant Coefficients.

SECTION-II

5. Fourier series: (6)Definition, Eulers formula, Expansions of function, Change of interval, even and oddfunctions, half range Fourier series.

6. Fourier Transform: (6)Fourier integral, Fourier sine and cosine integral, Cmplex form of Fourier integral. Fourier Transform, Fourier sine and cosine transform and Inverse transform.

7. Z-Transform: (5)Z-Transform of elementary Functions, Properties of Z-Transform and Inverse Z-Transform.

8. Vector Calculus: (5)Differentiation of vectors, tangent line to the curve, velocity and acceleration, Gradient,Divergence and Curl of vector field, Solenoid, irrotational and conservative vector field.


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List of recommended books :

1. A textbook of Applied Mathematics Vol. I and Vol. II

by J.N. and P.N., Wartikar Vidyarthi Grah Prakashan, Pune.

2. Higher Engineering Mathematics by B.S.Grewal Khanna Publications, Delhi.

3. Advanced Engineering Mathematics

by Jaggi and Mathur-Dhapatrai and Sons, Bhopal.

4. A textbook of Applied Mathematics

by N.P. Bali, Ashok Saxena and N.Ch., S.N. Iyengar Laxmi Publications, Delhi.

5. Advanced Engineering Mathematics

by Kreyzig-John Wiley & SMS,Newyork.


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S.E.(Electronics & Telecommunication Engineering) Part-I2.Circuits and Networks

Lectures : 4Hrs/week Theory : 100 Marks.Practical : 2Hrs/week

Section -I1. Network Analysis :- (10hrs)

Network Graphs : Fundamental definitions, Incidence matrix, Fundamental cut set and Tiesetmatrix.

Network Theorems: Review of basics, mesh and Nodal analysis, Superposition theorem,Thevenins theorem ,Nortons theorem, Maximum power transfer theorem , Millmans theorem,Reciprocity theorem, Tellegens theorem. Numerical problems on DC and AC circuits basedon above using dependent & independent Sources.

2. Resonance (6hrs)

Series resonance, impedance and phase angle of series resonant circuit, voltage and current inseries resonant circuit. Effect of resistance on frequency response curve, bandwidth,selectivity and quality factor.

Parallel resonant circuit(Tank circuit), resonant frequency, variation of impedance withfrequency, reactance curves, numerical problems based on above.

3. Transient Response (8hrs)Review of Laplace Transform,Initial conditions, evaluation and analysis of transient and steady state response of following :RL circuit step voltage response.RL circuit step current response.RC circuit step current response.RC circuit step voltage response.RLC circuit step voltage response.RLC step current response.RLC circuit sinusoidal response.

Section -II

4. Two Port Networks (9hrs)

Relation between two port variables, open circuit impedance parameters(Z), short circuitadmittance parameters(Y), Transmission parameters(ABCD), Hybrid parameters(h),reciprocity and symmetry conditions. Relationship between parameter sets. Parallel and seriesconnections, Cascading of two-port networks, T and representation, terminated 2 portnetwork.


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5. Filters and attenuators (9hrs)Characteristic of high pass, low pass and band pass and band stop filter. Constant K type filters, m-derived filter, section m derived LPF,HPF, BPF and BSF. Attenuators : Neper & Decibels, L , Tand type, Lattice attenuators.

6. Network Function (6hrs)Concept of complex frequency, network function for one port and two port network. Poles andzeros of network function. Restriction on poles and zero location of driving point function andtransfer function. Time domain behavior from poles and zero plot. Stability of active network &Routh Criterian.

TEXT BOOKS1. Circuit & network analysis A Sudhakar and TMH publication.

and synthesis Shaymmohan S Palli. 3 rd Edition

2. Network Analysis M.E. Van Valkenburg. PHI publication.3rd Edition

3. A Course in Electrical Sony Gupta Dhanpatroy & CircuitAnalysis. Sons publication.

REFERENCE BOOKS :

1. Theory and problems Joseph A Edminster. Shaum Seriesof Electric Circuits

2. Network & System - D. Roy Choudhary, Wiley Eastern(2nd Edition).

3. Network Analysis F.F.Kuo - John Wiley & Sons & Synthesis-(2nd Edition).

4. Electric Circuits Suresh Pearson Education & Networks(1 st Edition).


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TERM WORK ( Minimum 8 experiments)

List of practicals

1. Verification of superposition theorem.

2. Verification of Tellegens theorem.

3. Frequency response of series resonance circuit.

4. Step response of RC circuit.

5. Z and Y parameters.

6. H-parameters.

7.

Design LPF, plot frequency response & find cut off frequency.

8. Design constant (HPF) high pass filter ,plot frequency response & find cut off frequency .

9. Design of attenuators L-type and T-type.

10. Design of atteunator -type.

Any more possible experiments based on syllabus.


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S.E. (Electronics & Telecommunication Engineering )-I

3.ELECTRONIC CIRCUIT ANALYSIS & DESIGN I

Lectures: 4hrs / week Theory: 100 MarksPractical: 2hrs / week Term Work: 25 Marks

POE: 50 MarksSECTION I

1. PN Junction Diode : Diode characteristics (using Diode Equation), Effect of Temperature, AC& DC Load Line, Junction Capacitance, Ratings of Diode.

PN Junction as Rectifier : HWR, FWR, Bridge Rectifier (detailed analysisincludes various parameters- I o (rms) , V o (rms) , I o (avg) , V o (avg) , Ripple Factor, Efficiency, TUF, PIV]

(8 Hours)

2. Diode Applications : Clipping Circuits (Shunt Clippers +ve, -ve & Combination), Clamper Circuits (+ve, - ve & Combination), Voltage Multipliers (Voltage Doublers & Tripler)

(Analysis of all) (3 Hours)3. Zener Diode : Characteristics, Working, Application as Voltage Regulator, Rating of Zener

Diode, Design of zener voltage regulator. (4 Hours)

4. Filter : Capacitance, Inductance, LC & Filter (Analysis includes derivation for Ripple Factor & their comparison) (3 Hours)

5. Design of Unregulated Power Supply using Rectifier & Filter(design includes selection of Transformer, Diode & Respected Filter Component) (6 Hours)

SECTION II

6. Bipolar Junction Transistor : I/O Characteristics, Current Components, Early Effect, Ac &

Dc Load Line, and Ratings of Transistors.Biasing of Transistors : Thermal Runaway, Biasing Fixed, Collector To Base & Self Biasing, Compensation Techniques.

Hybrid Model of BJT : AC equivalent Circuit of BJT using h parameter, Determination of Amplifier Parameters (A v, A i, R i, R o)Application of BJT Switch & Amplifier. (8 Hours)

7. Transistor Amplifier Frequency Response : Effect of C c & C e on Low frequency Response,Effect of Junction Capacitance at High Frequency. (2 Hours)

8. Design of Driver Circuit using Transistors:Design of Single Stage Amplifier using BJT (CE, CE with R e & C e ) (4 Hours)

9. Multivibrators Using Transistors :Monostable, Bistable, Astable, Schmitt Trigger (analysis of all), Design of Triggering Circuits

(6 Hours)10. Transistorized Voltage Regulator: Design of - Series Pass, Series Pass with Pre Regulator

(4 Hours)


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Note: - For selection of components in design Data Sheet should be referred.

PRACTICALS: -

1. FWR analysis.

2. Performance, parameters of filter.

3. Clipper, clamper,

4. Voltage multiplier.

5. V-I Characteristics of zener diode & its application as regulator.

6. Design & implementation of Un-regulated power supply using FWR & Capacitor filter.

7. I/O Characteristics of CB configuration.

8. I/O Characteristics of CE configuration.

9. Frequency response of single stage CE amplifier.

10. Design and implementation of relay driver circuit.

11. Performance of Astable Multivibrator.

12. Performance of Monostable Multivibrator.

Note: - Minimum 8 experiments from given list is expected. Theory paper composition - Theory 60% & Numerical 40%.

References: -

1. Electronic Devices and Circuits Allen Mottershed PHI Publication

2. Electronic Devices Floyd Pearson Education

3. Electronic Devices & Circuit Theory Boylestad Pearson Education

4. Electronic Design Martin Roden Shroff Publicationfrom Concept to Reality

5. Pulse, Digital & Switching Circuits Millman Taub Tata McGraw Hill

Publication

6. Electronic Devices & Integrated B. P. Singh Pearson Education

Circuits Rekha Singh


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S.E.(Electronics & Telecommunication Engineering) Part-I4.DIGITAL TECHNIQUES

Lectures : 4Hrs/week Theory : 100 Marks.Practical : 2Hrs/week TW : 25 Marks.

POE : 25 Marks.

SECTION-I

1. Combinational Logic Circuits (10)Codes- BCD, Gray, Seven segment. Principles of combinational logic: Standardrepresentation for Logical Function, canonical forms, dont care conditions, minimizationtechniques( K-map upto 4 variables only),static and dynamic Hazards. design examples,Adder substractors, code converters(binary to gray & gray to binary, BCD to 7 segment, IC7447, 7448). MUX, DEMUX(Tree), encoder, decoder.

2. Combinational Design using MSI Circuits (4)

Design procedure of Multiplexer and Demultiplexer( Tree), comparator, adder look aheadcarry generator, ALU(74181), Parallel adder(7483).

3. Logic Families (4)Parameter definitions -noise margin, power dissipation, voltage and current parameters,

propagation delay. Typical values for TTL, CMOS & ECL. Input/output profile for TTL &CMOS. TTL logic families-standard TTL, Totem-pole, open collector, tri-state (concept &application). Significance of TTL sub families (L, H, LS, S) & MOS family-importance of (C,HC), PMOS, NMOS(inverter only), CMOS (inverter, AND & NOR).CMOS-TTL interfacing, comparison of TTL & CMOS.TTL compatible high speed CMOSseries.

4. Flip-Flops (6)Study of flip-flop, 1 bit latch, clocked S-R, J-K, M/S J-K, T and D F/F, racearound condition, flip-flop truth table, excitation table, flip-flop conversion,flip-flop characteristics.

Section II

5. Sequential Logic Design (10) Design of ripple counter using flip-flop (IC 7490,7493) 4 bit up/down counter (positive /negative edge triggered). Shift register (modes of operation), 4 bit

bi-directional shift register using D/ J-K, universal shift registers, application of shiftregisters ( Ring counter, Sequence generator, Johnson's counter) IC 7495/74195. Design of Synchronous counter using Flip-Flop & IC 74191, 4 bit up/down mod-n counters.


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6. Synchronous Sequence Machines (10) Moore/Mealy machines, representation techniques, state diagram, state reduction,state assignment, implementation using flip flop. Application like sequencegenerator & detection.

7. PLDs (4)Programmable Logic Devices : Detail architecture, study of PROM, PAL,PLA ,designing combinational circuits using PLDs.

Text Books :1. Digital Design - M. Morris Mano - Pearson Education (3rd Edition)2 Modern Digital Electronics R.P. Jain - TMH (3 rd Edition)3. Digital Principles Leach, Malvino, TMH (6 th Edition).

Reference Books :1. Digital Design Principles - Wakerly Pearson Education

and Application2. Digital Electronics - Gothman - (PHI)3. Digital logic and - Morris Mano - Pearson Education

computer design4. The Principles of Computer hardware- Alan Clements (Low Price 2000)

(Third Edition), Oxford Press.

List of Practicals:1. Verification of truth table of Basic and Universal Gates2. Implementation of Universal Gates using Basic Gates3. Code conversion using logic ICs : BCD to Binary BCD to Gray Gray to BCD4. Design and implementation of 2 bit digital comparator using logic gates and

functional verification of 4 bit digital comparator 1C 7485.5. Design & implementation of 1 digit BCD adder using 1C 7483.6. A) Verification of functionality of multiplexer and demultiplexer Ics

B) Design and implement combinational function using multiplexer anddemultiplexer.

7. A) Design & implementation of 3 bit bi directional shift register using D flip flop.B) Design and implementation of Johnson counter using above shift register

8. A) Functional verification of universal shift registers 1C 7495/194.B) Design and implementation of pulse train generator using above 1C

8. Design and implementation of 3 bit up down ripple counter using flip-flop

9. Functional verification of ripple counter IC 7490 & synchronous counter IC 749110. Design of 3 bit counter using Flip Flop11. Design of synchronous sequence generator using MS JK flip-flop

Minimum 10 experiments must be conducted from above list.


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S. E. (Electronics & Telecommunication Engineering) Part I

5.Data Structures

Lectures : 3 hrs/week Theory :100 MarksPractical : 2 hr/week Term Work :25 Marks

POE : 50 Marks________________________________________________________________________

Section - I

1. . Stacks, Queues, Circular queues : (6)Definition, representation, priority queues, operations and their applications.

2. Lists : (6)Definition, Representation, operations & applications of Singly linked list,Doubly linked list, Circular linked list.

3.Trees : (8)Basic Terminology, Binary tree, Traversal methods, Binary Search Tree, B Tree,B+ Tree, Heaps - Operations & their applications.

Section II4. Recursion : (5)

Definition and Process, recursion in C

5. Searching and Sorting Techniques : (6)

Linear Search, Binary Search, Bubble Sort, Insertion Sort, Merge Sort, Quick Sort, Selection Sort, Radix sort, Heap sort .

6.Hashing : (5)Definition, Hash Functions, Overflow, Collision, Open Hashing, Close Hashing,Rehashing Techniques.

7. Graphs : (4)

Basic concepts of graph theory, storage representation and manipulation of graphs.


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Text Books:

1. Data Structure Y.Langsam, M.J. Augenstein (Pearson Education Second Edition)Using C & C++ A.M Tanenbaum

References :

1. Fundamentals of Ellis Horowitz ,Sartaj Sahani (Galgotic Book Source)Data Structures

2. Data Structures and Robert L. Kruse (PHI). program design

3. C and Datastructures Ashok N. Kamthane Pearson Education1st Edition

Note : Minimum ten programs in C based on above topics.


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S.E.(Electronics & Telecommunication Engineering) Part-I

6. ELECTRONIC WORKSHOP LAB

Tutorial : 1hrs / week Term Work: 25 MarksPractical: 2hrs / week

____________________________________________________________________________

1) Study of Audio System -

Microphone, Loudspeaker, Public Address System.

2) Electronic Measuring Instruments -

CRO,Signal Generator,Multimeter Spectrum Analyzer, Digital Storage oscilloscope.

3) Electronic Component Testing

Active and Passive components.

4) Printed Circuit Boards (PCB)-

Types, Layout procedure ,artwork ,Fabrication (In this, fabrications of small circuit using

discrete component on single side PCB is expected ).

5) Measurement of parameters-

distance, weight, speed, temperature using various transducers.

BOOKS:

1. Audio Video Systems R.G.Gupta- TMH

2. Electronic Components Dr.Madhuri A .Joshi Shroff Publications

and Materials Third Edition

3. A course in Electrical and A.K. Sawhney Dhanpat Rai & Co.

Electronics Measurements and Instrumentation


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S.E. (Electronics & Telecommunication Engineering )-II1. ELECTRONIC CIRCUIT ANALYSIS & DESIGN II

Lectures: 4hrs / week Theory: 100 MarksPractical: 2hrs / week Term Work: 25 Marks

POE: 50 Marks

SECTION I

1. Multistage Transistor Amplifier RC Coupled & Direct Coupled amplifier, Frequencyresponse, Analysis using h parameters. (Av, Ai, Ri, Ro, Avs, Ais) (4)

2. Feed Back Amplifier - Theory of ve feed back, types of ve feed back, its effect on stability,BW, noise, distortion, i/p resistance & o/p resistance. Design of R-C coupled amplifier involving voltage series & current series feedback. (6)

3. Sinusoidal Oscillators - Barkhausen criteria.Types of oscillators - RC oscillators - phase shift, Wein bridge oscillator.

LC oscillators Hartley Colppits & Crystal oscillator (analysis of all),Design of RC oscillator. (8)

4. Power amplifiers - Classification, class A, B, C & AB (Analysis of A, B, & AB), cross over distortion, Harmonic distortion, Complementary symmetry power amplifier, Design of complementary system Power Amplifier. (6)

SECTION II5. IC Regulator - Fixed volt regulator using IC 78XX & 79XX series, variable volt regulator

using IC LM 317 & LM 337. Dual regulated power supply, features of IC voltage regulator (Short circuit protection, thermal shut down, line regulation, load regulation & ripple rejectionratio), Current boosting in voltage regulator.Design of voltage regulators using above IC. (8)

6. Waveform generator using IC 555 - Monostable, Astable & Bistable Multivibrators, Schmitttrigger, V/F converter (study includes circuit diagram. & Analysis).Power ON delay circuit using IC 555, pulse generator using IC 74121 & 74123.Design of Astable & Monostable Multivibrator. (8)

7. Field Effect Transistor JFET, V I Characteristics, different configurations of JFET, parameters of JFET, and application as an amplifier. JFET as VVR, application of VVR.MOSFET - Types, V-I Characteristics, application as a switch. (8)


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Note: - For selection of components in design Data Sheet should be referred.

PRACTICALS :-

1. Frequency response of two stage RC coupled amplifier.

2. Voltage series feedback amplifier.

3. RC Phase shift oscillator.

4. Wein-Bridge oscillator.

5. Complimentary-Symmetry amplifier.

6. Fixed Voltage Regulator Using 78xx & 79xx.

7. Variable voltage regulator using LM317 & LM 337.

8. Astable Multivibrator using IC 555.

9. Monostable Multivibrator using IC 555.

10.

V-I characteristics of JFET.11. Application of MOSFET as a switch.

Note: Minimum eight experiments from above list.

Theory paper composition: - theory 60 % and numerical 40%.

References: -

1. Electronic Devices and Circuits Allen Mottershed PHI Publication

2. Electronic Devices Floyd Pearson Education

3. Electronic Devices & Circuit Theory Boylestad Pearson Education

4. Electronic Design Martin Roden Shroff Publicationfrom Concept to Reality

5. Op Amp and Linear Circuits Ramakant Gaikwad PHI Publication


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S.E.(Electronics and Telecommunication Engineering) Part - II

2.ANALOG COMMUNICATION

Lecture - 4 Hrs / week Paper - 100 marksPractical - 2 Hrs / week Term work - 25 marks

POE - 50 marks

Section I

1. INTRODUCTION (8)Importance of Communication, Element of a communication system, Modulation andDemodulation, Need of Modulation, Type of modulation, Type of communication Channels( Transmission line, Parallel wires, Coaxial cables, waveguides and optical fibers ),

Electromagnetic spectrum, Bandwidth, Application of communication.

2. NOISE (6)Sources of Noise, Types of Noise, White Noise, Noise calculations, Noise figure, NoiseTemperature, Signal to noise ratio.

3. AMPLITUDE MODULATION & DEMODULATION (10) Mathematical treatment and expression for AM, Frequency spectrum , Modulation Index,Representation of AM wave Power relation as applied to Sinusoidal Signals, Grid modulator,Class C amplifier, SSB, DSB, ISB AND VSB, Comparison in terms of bandwidth andtransmission power requirements and complicity.AM demodulation, AM radio receiver types TFR, Superheterodyne, AM receiver Characteristics, Intermediate frequencies and its choice, AGC, Communication receiver

Section II

4. FREQUENCY MODULATION & DEMODULATION (10) Mathematical analysis of FM and PM, Frequency spectrum analysis of FM, Modulation Index,Bandwidth requirements, Narrow Band and wide band FM, Comparison of AM,FM and PM,Direct and indirect methods of FM generation, Need for Pre-emphasis, De-emphasis.FM detection Techniques - Slope Detector, Dual Slope Detector, Foster Seeley Discriminator,Ratio Detector, Comparison between AM & FM.

5. TELEPHONY - (8)Simple Telephone communication, Basics of switching system, manual switching, Strowger and crossbar switching, space division switching and time division switching , traffictruncking, availability, Average traffic. Grade of Service.


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6. ANTENNA AND RADIO WAVE PROPAGATION (6)

Introduction - Characteristics of antennas, Halfwave dipole antenna, folded antenna, conicalantenna.Wave propagation Introduction, Ground wave, Sky waves, Space waves.

Text Book :

1. Electronic Communication Kennedy , Davis TATA McGraw Hill.4th Edition.

2. Electronic Communication Dennis Roddy, Pearson EducationSystem John Coolen 4 th Edition

Reference Book:-

1. Principles of Taub Schilling TMHcommunication System 2 nd Edition.

2. Electronic Communications R. J. Schoenbak Eastern Economy Modulation andTransmission Edition.- 2 nd Edition

3. Communication Electronics Frenzel

List of Practical :

1. AM Generation Technique.

a) Product Modulator

b) Class C Amplifier ( Collector Modulator)

2. AM Detection Technique.

a) Envelope Detector (Diode Detector)

b) Product Detector

3. FM Generation Technique.

a) Armstrong

b)

Reactance Modulator


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4. FM Detection Technique.

a) Slope Detector

b) Ratio Detector

c) Foster Seeley Discriminator d) Dual Slope Detector

5. DSB/ SSB Transmission

6. DSB/ SSB Reception (Super heterodyne Receiver).

7. Antenna Characteristics.

a) Radiation Pattern

b) Beam Width

8. DTMF Encoder Decoder.

9. Spectrum Analysis of AM & FM.10. Measurement of Noise Figure.

11. AM using MATLAB (By using Simulink).

12. FM using MATLAB (By using Simulink).

13. Performance of AM in presence of Noise using MATLAB (By using Simulink).

Note: At least ten experiments should be performed from above list of

experiments


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SE(Electronics and Telecommunication Engineering) Part - II

3.Control Systems

Lectures: 3 Hrs/ Week Theory: 100 marksPractical: 2Hrs/ Week TW: 25 marks

______________________________________________________________________________

Section I1) Introduction: Types of control systems, examples of control systems: Liquid level

control system, position control system, missile launching and guidance system andautomatic aircraft landing system. Transfer function of closed loop system. (3)

2) Mathematical modeling and system representation:

Mathematical modeling of mechanical systems using mass, spring and damper.Mathematical modeling of Electrical systems using R, L and C. Transfer function of RLC circuits. Block diagram representation and reduction techniques,Signal Flow Graph- Construction, Masons Gain formula (8)

3) Control system components: Working principle, construction, types and applicationsof following control system componentsStepper motor, AC and DC servomotor, Synchro, Potentiometer and Tacho-generator (6)

4) Stability analysis: concept of stability, absolute and conditional stability, relativestability, Routh Hurwitz criterion for stability. (3)

Section II5) Time response of systems: Standard test signals, time response of first order systems to

step, ramp and impulse input. Step response of second order system, time domain specifications,steady state errors and error constants of type0, type1 and type2 systems. (6)

6) Root locus: concept of root locus, construction of root locus and stability analysisusing root locus. (5)

7) Frequency domain analysis: frequency response specifications, co-relation betweentime domain and frequency domain response, Bode plot: asymptotic bode plot, stabilityanalysis using bode plot. (6)

8) Compensators: Need of compensator, types & their selection (3)


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Text Books:

1. Control Systems Engineering I. J. Nagrath & M Gopal New Age InternationalPublication(5 th Edition)

2. Feedback & Control Systems Schaums Outline Series McGraw Hill

3. Automatic Control Systems B. C. Kuo PHI Publication

Reference Books:

1. Modern Control Engineering K.Ogata Pearson Education

2. Principles of Control Systems S.C. Goyal & U. A. Bakshi Technical Publication, Pune

Term work consists of minimum 8 experiments of following

1)

To verify potentiometer as transducer and error detector.2) To verify Synchro as transducer.

3) To verify Synchro as error detector.

4) AC position control system

5) DC position control system

6) Effect of type of feedback on control system

7) Time response of first order system

8) Step response of second order system using R, L and C

9) Frequency response of second order system using R, L and C10) Root locus using MATLAB

11) Bode plot using MATLAB


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S.E.(Electronics & Telecommunication Engineering) Part-II

4.Linear Integrated CircuitsLectures : 4 hrs/week Theory : 100 MarksPracticals: 2hrs/week TW : 25 Marks

POE : 25 Marks

SECTION I1. Operational amplifier Fundamentals : ( 8 hrs)

Differential amplifiers, AC & DC analysis of Dual Input Balanced Output configuration,Comparative study of other configurations, CMRR, current mirror.OPAMP Fundamentals -block diagram, Electrical parameters & their measurement, Equivalentcircuit & analysis, study of IC741 etc.Offset variation w.r.t time , thermal drifts, power supply and universal balancing techniques.

2. Frequency Response of OPAMP : (4 hrs)Frequency Response of OPAMP, high frequency equivalent circuit, compensation

techniques, Slew rate consideration & its importance.

3. General linear applications of OPAMP : ( 8 hrs )Inverting and Non Inverting amplifiers in Closed loop, Virtual ground cocept,AC amplifiersSumming, scaling and averaging amplifier ( in both mode ), InstrumentationAmplifier.V to I and I to V convertors ( 4 to 20 mA interfacing)Opamp as differentiator and Integrator including study of frequency response

4. OPAMP as Comparators ( 4 hrs )Basic comparator, Zero Crossing Detector , Schmitt Trigger, window detector, clipper ,clampers, peak detectors, Sample and Hold circuit.

SECTION II5. Waveform Generators : ( 10 hrs )

Oscillators- principles etc, Phase shift Oscillators., Wein Bridge, Quadrature oscillator Square, Triangular, sawtooth wave generators using opamp.Function generator IC 8038.

6. Non Linear and special Applications (8 hrs )Log antilog amplifiers, Precision rectifiers, Multipliers and dividers..

VCO, PLL IC 565-and its aplications. etc.

7. Process Controllers using OPAMP : (6 hrs)ON-OFF controller, Proportional controllers- Temperature controllers usingThermistors.


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References :

1. Opamps & linear Ramakant Gayakwad- Pearson EducationIntegrated circuits 4

thEdition

2. Operational amplifiers Clayton Pearson Education.4th edition

3. Design of opamp and Franco TMHlinear circuits 3rd edition

4. Opamps & linear Driscoll PHIIntegrated circuits 6 th edition,

Experiments : (Minimum 12 Experiments )

1. Study of IC741

2. Measurement of parameters Vio, Ib etc

3. Study of opamp as Inverting and NI amplifier, Voltage follower

4. Implementation of opamp as adder, subtractors

5. Frequency response of Inverting and NI amplifiers

6. study of opamp as Integrator and Differentiator

7. Opamp as comparator- ZCD8. Opamp as Schmitt trigger

9. Opamp as window detector

10. Opamp as peak detector

11. Opamp as waveform generators ( Square, triangular, Saw tooth)

12. Study of RC oscillator

13. Study of precision rectifier.

14. Study of PLL 565.

15. Study of clipper , Clamper.Simulate results using simulation softwares.


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S.E.(Electronics & Telecommunication Engineering) Part -II5.SIGNALS AND SYSTEMS

Lectures : 3hrs/week Theory 100 MarksTutorial :1hrs/week

________________________________________________________________________

SECTION -IChapter 1. Signals and SystemsIntroduction, Signals, Transformations of the Independent Variable, Basic Continuous-Time Signals,Basic Discrete-Time Signals, Systems, Properties of Systems (10)

Chapter 2. Linear Time-Invariant SystemsIntroduction, The Representation of Signals in Terms of Impulses, Discrete-Time LTI Systems , TheConvolution Integral, Properties of Linear Time-Invariant Systems, LTI System realization,Block-Diagram Representations of LTI Systems Described by Differential Equations, SingularityFunctions. (10)

SECTION -II

Chapter 3.SamplingIntroduction, Representation of a Continuous- Time Signal by Its Samples , The Sampling Theorem,Reconstruction of a signal from its Samples Using Interpolation, The Effect of Undersampling ,Aliasing, Discrete-Time Processing of Continuous-Time Signals, Sampling in the Frequency Domain,Sampling of Discrete-Time Signals (6)

Chapter 4. Fourier Analysis for Continuous-Time Signals and SystemsIntroduction, The Response of Continuous-Time LTI Systems to Complex Exponentials,

Representation of Periodic Signals: The Continuous-Time Fourier Series, Approximation of PeriodicSignals Using Fourier Series and the Convergence of Fourier Series,Representation of Aperiodic Signals : The Continuous -Time FourierTransform, The ConvolutionProperty, The Modulation Property (10)

Chapter 5. The Z-TrasformIntroduction, The Z-Transform, The Region of Convergence for the Z-Transform, The Inversez-Transform, Application & Characteristics of LTI System Using Z Transform. (4)

Text book :1. Signals and Systems A.V. Oppenheim and A. S. Wilsky Pearson Education

Reference book :1. Signals and Systems Simon Haykin & Barry Van Veen John Wiley & Sons2. Signals and Systems M. J. Roberts TMH3. Signals and Systems Ghosh Pearson Education


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S.E.(Electronics & Telecommunication Engineering) Part-II6.ELECTRONIC SOFTWARE LAB

Tutorial : 1hrs / week Term Work: 25 MarksPractical: 2hrs / week

____________________________________________________________________________

1) Simulation of Electronic circuits studied in Electronics circuit Analyses and Design II by

using any Simulation software.

2) Introduction to MATLAB

Signal processing Toolbox.

3) CAD tool for PCB design.

BOOKS:

1. Getting starting with Matlab Rudra Pratap.

2. Mastering Matlab -7 Hanselman- Pearson Education

Documents

seE&TC syll