lesson plan etc

31
KIIT UNIVERSITY LESSON PLAN SCHOOL OF ELECTRONICS ENGINEERING(ETC) Academic Session: 2010-2011 3 RD SEMESTER Subject code: (MA301) Subject: Mathematics-III Teacher’s Name: Dr.B.B.Mishra, Dr.S.K.Samal, Dr.T.Paul, Mr.S.K.Mishra, Mr.P.K.Mohaty, Mr.M.Das, Mr.A.K.Paul, Dr.S.Bhattacharjee, Mrs.R.Mishra, Mr.P.C.Routray&Ms.M.Sahoo. Units Topics/ Coverage No. of Lectures Lecture Serial Nos. Unit-1 Partial Differential Equation -Basic Concepts of Partial Differential Equation(11.1) - Variable Separable Method (11.3) - Tutorial - Solution of One-Dimensional Wave Equation (11.3) - Classification of Partial Differential Equation and Transformation into its normal form (Hyperbolic and Parabolic Equation) (11.4) - D’ Alembert Solution of Wave equation(11.4) - Tutorial - Solution of One Dimensional Heat Equation under different conditions of a thin bar of specific length (11.5) - Steady State flow of heat in a rectangular bar (11.5) - Solution of one Dimensional Heat Equation of a thin homogeneous,very long bar by Fourier Integral(11.6) - Tutorial - Solution of two dimensional wave equation (11.8) - Laplacian in polar Co-ordinates (11.9) - Tutorial - Steady State heat problem (Electric potential) (11.9) - Laplace’s equation in Cylindrical and Spherical coordinates(11.11) - Solution of Partial Differential equation by Laplace Transform(11.12) - Tutorial -1 -1 -2 -1 -1 -1 -1 -1 -1 -1 -2 -1 -1 -1 -1 -1 -1 -1 1 2 3-4 5 6 7 8 9 10 11 12-13 14 15 16 17 18 19 20 Unit-II Complex - Complex Numbers,Complex Plane (12.1) - Polar Form of Complex Numbers,Powers and Roots (12.2) - Derivative,Analytic Function (12.3) 1 1 1 21 22 23

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Page 1: Lesson Plan Etc

KIIT UNIVERSITY LESSON PLAN SCHOOL OF ELECTRONICS ENGINEERING(ETC) Academic Session: 2010-2011

3RD SEMESTER

Subject code: (MA301) Subject: Mathematics-III Teacher’s Name: Dr.B.B.Mishra, Dr.S.K.Samal, Dr.T.Paul, Mr.S.K.Mishra, Mr.P.K.Mohaty, Mr.M.Das, Mr.A.K.Paul, Dr.S.Bhattacharjee, Mrs.R.Mishra, Mr.P.C.Routray&Ms.M.Sahoo.

Units Topics/ Coverage No. of Lectures

Lecture Serial Nos.

Unit-1 Partial Differential

Equation

-Basic Concepts of Partial Differential Equation(11.1) - Variable Separable Method (11.3) - Tutorial - Solution of One-Dimensional Wave Equation (11.3) - Classification of Partial Differential Equation and Transformation into its normal form (Hyperbolic and Parabolic Equation) (11.4) - D’ Alembert Solution of Wave equation(11.4) - Tutorial - Solution of One Dimensional Heat Equation under different conditions of a thin bar of specific length (11.5) - Steady State flow of heat in a rectangular bar (11.5) - Solution of one Dimensional Heat Equation of a thin homogeneous,very long bar by Fourier Integral(11.6) - Tutorial - Solution of two dimensional wave equation (11.8) - Laplacian in polar Co-ordinates (11.9) - Tutorial - Steady State heat problem (Electric potential) (11.9) - Laplace’s equation in Cylindrical and Spherical coordinates(11.11) - Solution of Partial Differential equation by Laplace Transform(11.12) - Tutorial

-1 -1 -2 -1 -1 -1 -1 -1 -1 -1 -2 -1 -1 -1 -1 -1 -1 -1

1 2 3-4 5 6 7 8 9 10 11 12-13 14 15 16 17 18 19 20

Unit-II Complex

- Complex Numbers,Complex Plane (12.1) - Polar Form of Complex Numbers,Powers and Roots (12.2) - Derivative,Analytic Function (12.3)

1 1 1

21 22 23

Page 2: Lesson Plan Etc

Analysis - Tutorial - Cauchy Riemann Equations (12.4) - Conjugate Harmonic function,Laplace’s equation (12.4) - Conformal Mapping (12.5) - Tutorial - Exponential Function (12.6) - Trigonometric Functions, Hyperbolic functions (12.7) - Logarithm, General Power (12.8) - Tutorial - Linear Fractional Transformation (12.9) - Line Integral (13.1) - Line Integral, Independence of Path (13.1) - Tutorial - Cauchy’s Integral Theorem (13.2) - Cauchy’s Integral Formula (13.3) - Derivatives of Analytic Functions (13.4) - Tutorial - Taylor’s Series, Maclaurin,s Series (14.1,14.2) - Laurent Series (15.1) - Tutorial - Singularities and Zeros (15.2) - Residue Integration Method (15.3) - Evaluation of Real Integrals (15.4) - Tutorial

1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 1 1

24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40-41 42 43 44 45 46 47 48

48 Lecture Text Book: Advanced Engineering Mathematics, by Erwin Kreyszig, John Wiley & Sons, INC.

Reference Books: Higher Engineering Mathematics by B.V.Ramana,The McGraw-Hill Companies

Subject Name : Analog Electronic Circuits - I Subject Code : EC – 301 Teachers : Mr. N. K. Rout, Mrs. M. Behera, Mrs. S. Mohapatra, Mr. A. Deb,

Ms. T. Majumder, Mr. B. K. Bhoi, Mr. B. Biswal, Mr. D. D. Dwivedi, Mr. V. V. Vardhan G., Mr. Vinod Jha

Sl. No.

Topic Coverage No. of Lect.

Lecture Serial No.

1. Transistor Biasing Circuits

Requirements for biasing, Fixed bias & Self bias for BJT, Stability Factors (S, S’ & S”), Self bias & voltage divider biasing for FET. Bias compensation.

4 1 - 4

2. Small Signal The transistor model-hybrid model, Graphical 9 5 - 13

Page 3: Lesson Plan Etc

Analysis of BJT

determination of h-parameters. Low frequency small signal analysis of CE, CC and CB configurations without feedback, Simplified CE & CC hybrid model, CE amplifier with an emitter Resistance.

3. Small Signal Modeling and Analysis of FETs

Small Signal Model of FET, Analysis of JFET CS & CD configuration. Analysis of Enhancement and Depletion MOSFETs.

3 14 - 16

4. BJT and JFET Frequency Response

Classification of Amplifiers, Distortion in amplifiers, Frequency response of an amplifier, Lower Cut Off frequency and higher Cut Off frequency of an amplifier, Step response of an amplifier, Bandpass of cascade stages, Low frequency response of RC coupled BJT and FET amplifier, High frequency modeling and analysis of BJT and FET amplifiers, Miller effect capacitance.

9 17 -25

5. Compound Configurations

Differential amplifier, Differential amplifier circuit configuration, DC Analysis, AC Analysis, Constant current bias, current mirror, level translator, Cascade, Cascode and Darlington connections.

6 26 - 31

6. Feedback and Oscillator Circuits

Feedback concept, Feedback amplifier topologies, General characteristics of negative feedback amplifier, input and output resistance with negative feedback, Method of analysis of feedback amplifiers with practical examples, Positive feedback, Barkhausen Criterion of Oscillation, Sinusoidal Oscillator, LC Oscillators, RC phase shift oscillator, Crystal Oscillator.

9 32 - 40

7. Power Amplifiers

Definition of class A, B and C types. Distortion analysis, Series fed and transformer coupled power amplifier, Conversion efficiency, Push-pull amplifiers.

4 41 - 44

Text Book : 1. Integrated Electronics – J. Millman & Halkias – TMH Reference Book :

1. Electronics Devices and Circuit Theory – Robert L. Boylestad and Lewis Nashelsky – PHI (9th Edition)

Subject Name : Signals & Networks Subject Code : EC - 302 Teachers : Mr. C. Yarra, Mr. H. Thethi, Mr. T. Choubisa, Mrs. T. Kar

Module No & Topics / Coverage No. of Lect.

Page 4: Lesson Plan Etc

Name lecturers Serial No. 1. Signals Definition, Classification and its examples

Representation of discrete time signals Basic operation on signals Decomposition of signals in terms of the elementary signals in continuous time as well as in discrete time. Analog to Digital conversion Sampling theorem Comparison of Ω & ω Test of periodicity for discrete time signals and for sum of two periodic signals Representation of analog and discrete time signals in terms of impulses.

07 01 - 07

2. Systems Definition, classification and its examples Convolution Theorem Causality and stability of LTI systems Representation of causal LTI systems Order of systems IIR and FIR systems & correlation

06 08- 13

3. Continuous time Fourier Analysis

Significance of Fourier series in LTI systems Continuous time fourier series formula and derivation Dirichlet conditions & properties, Approximation of Fourier series to fourier transform for aperiodic signals. Properties, examples ,amplitude and power spectra Analysis of LTI systems using Fourier Transform

08 14 - 21

4. Laplace Transform

Definition, S-Plane mapping ROC properties and examples Fourier and Laplace relation Pole-Zero plot Analysis of LTI systems Transfer function Transients in AC/DC circuits RL, RC, RLC with constant and sinusoidal excitation with LT. Resonance, Q-Factor, Bandwidth

10 22 - 31

5. Analog filters

Definition, Classification of 1st and 2nd order filters and their electrical circuit equivalent cut-off frequencies.

04 32 - 35

6. Networks Network topology, Tree Nodes Branches Mesh Analysis Loop Analysis Admittance matrix

09 36 – 44

Page 5: Lesson Plan Etc

Maximum power transfer theorem Reciprocity Theorem Star-delta transformation Dot convention for coupled circuits Coefficient of coupling Two port network Z, Y, ABCD and H-Parameters

Text Books :

1. Signals & Systems – P. Ramesh Babu –Scitech 2. Network Analysis – P. Ramesh Babu –Scitech

Reference Book :

1. Signals & Systems – Alan V Oppeinhem, Alan S Willsky – Pearson Subject Name : Semiconductor Devices

Subject Code : EC – 303 Teachers : Dr. Udai P. Singh / Dr. S. K. Mandal / Mr. S. P. Patra

Module No & Name Topics Covered No. of Lectures

Lecture Serial No.

1. Energy bands &Current Carriers in Semiconductors:

Bonding Forces in Solids, Energy Bands theory in crystals (Qualitative Analysis), Metals, Semiconductors, & Insulators, Fermi-Level, Intrinsic, Extrinsic Semiconductors, Concept of Holes, Carrier Conc. and Mobility, diffusion and drift or carriers, continuity equation, Injected minority carrier charge. Recombination & generation of charge carriers

9 1 -9

2. P- N Junction: Physical Description of p-n junction, current flow at a junction, I –V characteristics, Quantitative analysis of p-n diode characteristics, equivalent circuit, temperature dependence, Capacitance of p-n junction diode (transition & storage), junction Breakdown (Avalanche & Zener), Step and linearly graded junction, diode switching characteristics, M – S junction (Schottky barrier, Ohmic contact and rectifying contact), Hetero-junction.

11 10 -20

3. BJT Junction transistor, Charge transport in BJT, base narrowing (Early effect), Avalanche breakdown & Punch Through, transistor switching, Coupled-Diode model, Ebers-Moll equations.

4 21 -24

Page 6: Lesson Plan Etc

4. MOSFET: MOS structure, Basic operation of

Enhancement & Depletion mode MOSFET, MOS capacitance (Operation with band diagram, threshold voltage & Characteristics), CCD and applications.

6 25 -30

5. Opto - Electronics Optical absorption in semiconductors, photovoltaic effects, solar cells (p-n junction), Photoconductors, Photodiode, PIN photodiode, Avalanche photodiode, Phototransistor, LED, Semiconductor Laser (p-n junction)

6 30 - 36

Text Book:

1. Solid State Electronic Devices by Streetman & Banerjee

Reference Books:

1. Semiconductor Devices: Jasprit Singh

2. Integrated Electronics: Millman & Halkis

3. Semiconductor Physics and Devices: Donald Neaman

4. Semiconductor Devices: Kanan Kano

5. Semiconductor Optoelectronic Devices: Pallab Bhattacharaya

6. Semiconductor Physics: Device & Technology: S. M. Sze

7. Physics of Semiconductor Devices: J. P. Colinge & C. A. Colinge

Subject Name : Measurements & Instrumentation Subject No : EC – 304 / 404 Teachers : Mr. S. K. Ravada, Mr. R. Kumar

Module No/ Section No. Name

Topics /Coverage No. of Lectures

Lecture Serial

No. 1.Measurement and error

1. Introduction - Definition - significance of measurement - Measurement characteristics

2. Calibration of instruments 3. Accuracy and precision 4. Types of errors. 5. Statistical analysis 6. Probability of errors 7. Limiting error with examples

5

1 - 5

2. A. C. and D. C. bridges

1. General equation for bridge balance 2. D.C. bridges 3. Wheatstone bridge 4. Kelvin’s double bridge

Page 7: Lesson Plan Etc

5. General form of an A.C. bridge 6. Maxwell’s inductance – capacitance bridge 7. Hay’s bridge 8. Anderson’s bridge 9. Schering bridge 10. Wien’s bridge 11. Sources of errors in bridge measurement 12. Wagner earthing device.

9

6 – 14

3. Electrical Measuring instruments

1. Classification of instruments - Indicating instruments - Recording instruments - Integrating instruments

2. Overview of PMMC, Moving iron, Dynamo Meter type instruments 3. Overview of Ammeter, Voltmeter & Multimeter 4. True rms voltmeter 5. Potentiometer 6. Current transformer, 7. Potential Transformer 8. Strip chart recorders

9 15-23

4. Transducers 1. Introduction - definition - classification 2. Strain gauge - Construction - gauge factor - types of strain gauge - advantages & disadvantages - application 3. L. V. D. T. - Construction - Application - Advantages & disadvantages 4. Thermistor - construction - application - characteristics 5. Thermocouples - construction - characteristics - application 6. Piezoelectric transducers 7. Bourdon tube for pressure measurement

9 24-32

Page 8: Lesson Plan Etc

5.Electronic measuring Instruments & CRO

1. Q – meter for measurement of quality factor 2. Digital voltmeter, Ramp type Integrating type 3. Digital frequency meter 4. CRO - Construction - Time based circuit - Measurement with CRO - CRO probes

8 33 - 40

6. Signal generations and waveform analyzing instruments

1. Function generator - Square, triangular

Sinusoidal waveform generator 2. Spectrum analyzer - Construction & operation

- Applications

3

41 -43

7. Analysis Instruments

Principles of operation of 1. PH meter 2. Liquid chromatography 3. Spectrophotometer

2

44 - 45

Text Books:

1. Electrical and Electronic Measurements & Instrumentation By A.K. Sawhney - Dhanpat Rai 2. Electronic Measurement & Instrumentation By H. Cooper – PHI. Reference Book:

1. Electronics Instruments & Measurement by David A. Bell – PHI.

Subject Name : Object Oriented Programming

Subject Code : IT-301 (3-0-0)

Teachers Name : Jayanti Dansana/Suneeta Mohanty/Arup A. Acharya/Supratik

Banerjee/Tanmaya Swain, Leena Das/Sreekanth Asodi/Srinadh Babu N.

Chapter Name. Topic/Coverage No. Of lectures

Lecture serial no.

1. Object Oriented Paradigm

- Structure Oriented Programming Concept - Object Oriented Programming Paradigm -. Introduction to OOP -Object -Class -Data abstraction and - Encapsulation -Inheritance -Polymorphism

3 1-3

Page 9: Lesson Plan Etc

-Dynamic Binding - Benefit of OOP -Object Oriented Languages -Application of OOP

2.Moving from C to C++

- A simple C++ Program - C++ statement - Comment - Stream based I/O - Structure of a C++ Program - Strict type checking - Parameter passing by reference - Inline function - Default argument - Function overloading

5 4-8

3. Object and Classes

- Introduction - Specifying a Class - Defining data member and member function - A C++ program with class - Nesting of a member functions - Memory allocation for Objects - Static Data members and member functions - Array of Objects - Objects as function argument - Memory management operators - Friend function

4 9-12

4. Constructor and Destructor

- Introduction -Constructors -Parameterized Constructors -Dynamic Initialization of Objects -Copy Constructors -Dynamic Constructors -Destructors

2 13-14

5.Inheritance -Introduction -Defining derived class and base class -Single Inheritance -Making a member inheritable -Multilevel Inheritance -Multiple Inheritance -Hierarchical Inheritance -Hybrid Inheritance -Virtual base class -Function Overriding

4 15-18

Page 10: Lesson Plan Etc

-Base Initialization -Object Slicing -Abstract Class -Constructor in derived Class -Delegation

6. Polymorphism - Introduction - Pointers - Pointers to Objects - this Pointer - Pointer to Derived classes - Virtual Function - Pure Virtual Function - Virtual destructor

3 19-21

7. Operator Overloading and Type Conversion

- Introduction -Definition of Operator Overloading -Overloading Unary Operators -Overloading binary Operators -Overloading binary Operators using Friend Function -Rules for Operator Overloading -Type Conversion

4 22-25

8.Working with Files -Introduction -Classes for file stream Operation -Opening and closing a file -Detecting an end-of-file -File Pointers and Their manipulators -Sequential Input and Output Operations

3 26-28

9.Managing Console I/O Operation

- Introduction -C++ Streams -Streams Classes -Formatted and Unformatted I/O Classes -Managing Output with Manipulators

2 29-30

10.Exception Handling

-Introduction -Basics Of Exception Handling -Exception Handling Mechanism -Throwing Mechanism -Catching Mechanism -Rethrowing an Exception

3 31-33

Page 11: Lesson Plan Etc

11.Templates - Introduction -Class Templates -Class Template with multiple parameters -Function Templates -Function Template with multiple parameters -Overloading Template Function -Member Function Template -Introduction to STL

3

34-36

12. Windows Programming

- Introduction - Programming approach

2

37-38

Text Book : 1. Mastering C++, Venugopal, TMG Hill.

Reference Books : 1. Object Oriented Programming with C++, E.Balagurusamy.TMG Hill.

2. Object Oriented Programming with ANSI & Turbo C++, Ashok N. Kamthane, Pearson

Education.

3. The Complete Reference C++, Herbelt Schildt, TMG Hill. Evaluation Methodology

Mid term:30, End Term:70

Internal Evaluation ( 30 Marks)

Mid Term (15 Marks)

Assignment and Quiz ( 10 Marks)

Attendance ( 5 Marks)

Page 12: Lesson Plan Etc

LESSON PLAN 5th Semester

Subject Name : Microprocessors Subject No. : EC - 502

Teachers : Prof. A. K. Sen / Mrs. Sarita Nanda / Mr. J. K. Panigrahi / Mrs. K. B. Ray / Mrs. S. Swayamsiddha / Mr. Pramod P.

Module No/ Name Coverage No Of Lects

Lect

Serial

1.Introduction • Review Of Digital Electronics • Applications Of Mp And Its

Versatility • Basic Mp And A Basic Mp

Based System • Tristate Concept & Bus Structure • Evolution Of Mps

1

1

2.8085 Architecture & Pins & Signals

• 8085 Mp Architecture • Registers • Flags • Stack & Stack Pointer • Timing & Control Unit • 8085 Pins & Signals

- Different Groups - Data & Address Bus - Other Control Signals

4

2 - 5

3.Addressing Modes, Timing Diagrams, Instruction Set Of 8085

• Sample One Byte, Two Byte And Three Byte Instructions

• Timing Diagram For The Above • I/O Mapped I/ O & Memory

Mapped I/ O • Timing Diagram For In & Out

Instructions • 8085 Addressing Modes • 8085 Instructions – - Data Transfer Group - Arithmetic Group

5

6 - 10

Page 13: Lesson Plan Etc

- Logical Group - Branch, Stack, Io & Machine Control Groups

4.Assembler Format, Assembler Directives, Sample Problems & Software Development Tools

• Assembler Format • Assembler Directives • Sample Problems • Software Development Tools

5 11 - 15

5.8085 Interrupts • Selective Masking • Concept Of Ei, Di, Sim, Rim

Instructions & Examples • Hardware Interrupts Including Intr (Handshake Interrupt) & Ina Cycle • 8085 Interrupt Structure

3 16 - 18

6.Data Transfer Schemes

• Programmed Data Transfer (With Suitable Examples)

• Direct Memory Access

2 19 - 20

7.Semiconduc- Tor Memories. Memory Interfacing & I/O Interfacing

• Memory Classifications (Sram, Dram, Eprom, E2rom)

• Memory Chips (27 Series & Ram Chips)

• Memory Interfacing • I/O Interfacing

3 21 - 23

8.Interfacing Chips • Overview Of Non Programmable I/O Port (8212)

• Programmable Peripheral Interface (8255),

Concept Of Ports & Its Address, Control Word Format, I/O Mode & Bsr Mode, Concept Of Handshaking, Problems • Programmable Interrupt

Controller (8259) - Internal Architecture Sequence Of Operation Control Word, Problems

• Serial Communication, Brief Idea Of Async & Sync Serial Commn, Framing, Rs-232c, Modem, Programmable

4 3

24 - 35

Page 14: Lesson Plan Etc

Communication Interface (8251) Usart, Internal Architecture, Modes & Command Word • Dma Controller (8257)

Architecture & Signals & Operation

3 2

9.16 Bit Processor (8086)

• Introduction • Architecture • Pins • Addressing Modes

6

36 – 41

10.8051 Family Of Microcontrollers

• Introduction, Overview Of 8051 Family

• Architecture, Register Banks & Sfrs

• Pins & Signals • Memory Organization &

External Memory Access – Program Memory, Data Memory, Location Of Sfrs In Ram, Bit Addressable Ram

• Brief Overview Of 8051 Instructions & Sample Programs

• Timers, Counters & Serial Communication

7 42 – 48

Books : Text Books: : 1) Microprocessor architecture, Programming & Applications with the 8085 - Ramesh S. Goankar - Penram 2) Introduction to Microprocessors - A. P. Mathur – TMH Publications Reference Books : 1) Microcontroller Theory & Applications – Desmukh - TMH

2) Microprocessors & Interfacing, Programming & Hardware - Douglas V. Hall - TMH 3) Microprocessors & Microcomputers based System Design - Md. Rafiquzzaman – UBS

Subject Name : D C T Subject No. : EC - 501 Teachers : Mrs. S. Alpna, Mr. A. K. Mandpura

Module No & Name Topics / Coverage No. of Lect.

Lect. Serial

No.

Page 15: Lesson Plan Etc

1. Introduction 1. Block diagram of Digital Communication system 2. Advantages of Digital Communication over Analog Communication 3. Overview of Sampling and quantization

2

1 -2

2. PCM & Delta Modulation

1. Pulse Code modulation system 2. Electrical Representation of binary digit 3. The PCM system 4. Companding 5. Multiplexing of PCM signals 6. Differential PCM 7. Delta modulation 8. Adaptive Delta modulation 9. Vocoder 10.Linear Predictive coder

8

3 - 10

3. Noise in PCM and Delta modulation system

1. Quantization Noise. 2. Output signal power 3. Thermal noise 4. Output SNR in PCM 5. Quantization noise in DM 6. Output SNR for DM 7. Effect of thermal noise in DM 8. Comparison of PCM & DM

7

11 - 17

4. Digital modulation Techniques

1. BPSK 2. DPSK 3. QPSK QPSK Transmitter, QPSK Receiver 4. M-ary PSK 5. Quadrature amplitude shift keying 6. BFSK 7. M-ary FSK 8. Minimum shift keying (MSK)

10

18 - 27

5. Data Transmission

1. A Baseband signal Receiver 2. Concept of Probability of error 3. The optimum filter 4. White noise 5. Matched filter 6. Probability of error of matched filter 7. Coherent Reception, Co-relation

Page 16: Lesson Plan Etc

PSK, FSK 8. Non coherent detection of FSK 9. Differential PSK and QPSK 10.Error probability of BPSK, BFSK & QPSK 11.Bit encoding, symbol by symbol Encoding 12. Relationship between bit error rate and symbol error rate 13.Proability of error in quadrature phase shift key system 14.Comparision of modulation system

10

28 - 37

6. Information theory & coding

1. Discrete message 2. The concept of amount of information 3. Information Entropy 4. Information rate 5. Coding to increase average information per bit 6. Shanon’s theorem 7. Channel capacity of Gaussian channel 8. Bandwidth – S/N tradeoff 9. Coding parity check 10.Coding for error detection & correction 11.Block codes 12.Burst error correction 13.Convolution coding & decoding (ARQ) 14.Performance of ARQ systems 15.Application of information theory 16.An optimum modulation system

10

38 - 47

Text Book : 1) Digital Communication – Simon Haykin – John Willey Reference Books : 1) Principle of Communication System – Taub & Schilling – TMH 2) Modern Analog & Digital Communication System – B. P. Lathi – Oxford Press

Subject Name : Control System – I Subject No : EE – 504

Page 17: Lesson Plan Etc

Teachers : Mr. Shaikshavali C. / Mr. B. S. Mishra / Mr. T. Tripathy Mr. A. Kudeshia

Module No/ Section

No. Name

Topics /Coverage No. of Lectures

Lecture Serial No.

1. Introduction 1. Basic concepts of control system. 2. Classifications. 3. Servomechanism.

3. Regulators.

2

1 - 2

2. Depreciation of

physical system

1. Differential equations of physical system. 1. Transfer function. 2. Block diagram algebra. 3. Signal flow graph. 4. Mason’s loop gain formula 5. Application of signal flow graph to control system.

6

3 - 8

3. Feedback Theory 1. Feedback & non feedback sys. 2. Reduction of parameter variation

by use of feedback. 3. Control of the effects of

disturbance signals by use of feedback.

4. Regenerative feedback.

5

9 - 13

4. Control systems &

components

1. Electrical systems. - DC servometer.

- AC servometer,

- AC tachometer

- Potentiometer

- Synchros

- AC & DC position control

system

2. Hydraulic systems 3. Pneumatic systems

7

14 - 20

5. Time domain

analysis, design specification & performance indices

1. Standard test signal : Step Ramp Parabolic Impulse

2

21-22

6. Time response of 1st order system

1. Response of unit step input.

2. Response of unit Ramp input.

2

23-24

Page 18: Lesson Plan Etc

Mid Semester Examination

7. Time response of 2nd order system

1. Response to the unit step input. 2. Time response specifications. 3. Steady state error and design

specification. 4. Error constant of 2nd order system. 5. Derivative & integral control. 6. PID control. 7. Design consideration for higher order

systems. 8. Performance indices. 9. Optimization using ITAE.

6

25 - 30

8. Concept of stability 1. The concept of stability. 2. Necessary condition for stability. 3. Hurwitz stability criterion. 4. Routh stability criterion. 5. Application of Routh stability

criterion to linear feedback system

5

31 - 35

9. Root of stability 1. Root locus concept. 2. Construction of Root Loci 3. Construction rules 4. Determination of gain from Root

Locus.

5

36 - 40

10. Frequency domain Analysis

1. Introduction 2. Bode diagram 3. Polar polts 4. Log magnitude versus phase plots. 5. Nyquist-stability criterion 6. Stability analysis 7. Relative stability 8. Closed loop frequency response,

Constant M. circles, Nichols chart, use of MATLAB for performance studies.

8

41 - 48

End Semester Examination

Text Book :

1. Control System Engg - I. J. Nagrath & M. Gopal

- New Age International Publishers

Reference Books :

1. Modern Control Engg - K. Ogata - PHI.

2. Control Systems - A. Anand Kumar - PHI

3. System dynamics & Control

Eronin Umez Eronini, 1999 Edition, PWS Publishing,

International Thompson Publishing Company.

Page 19: Lesson Plan Etc

Subject Name : O & SC (Optical & Satellite Communication.) Subject Code : EC – 506 Teachers : Dr. S. S. Singh, Mr. R. Mitra

Module No & Name

Section No & Name

Topics /Coverage No of Lectures

Lecture Serial No

Module – I

1. Introduction

1. Electromagnetic Frequency Spectrum 2. Optical Frequencies 3. principles of optical fibers 4. Advantages of optical fiber

communication 5. Materials used for fabrication of

optical fibers.

4

1 – 4

2. Wave propagation in optical fibers.

1. Ray diagram, mode theory, Concept of modes

2. Maxwell’s Equation for simple harmonic waves, E – M wave propagation in cylindrical wave guides, 2nd order differential equation for waves in optical fibers.

3. Different types of modes in optical fibers, cut off condition for guided modes, Boundary conditions, solution to differential equation, single modes / multimode fibers, concept of ‘V’ numbers its importance

2

2

3

5 – 11

3.Losses in fibers Intrinsic / Extrinsic Losses, Signal degradation, intramodal dispersion and Pulse spread, intramodal dispersion,

Comparison of Losses in signal mode & multimode fibers, minimization of dispersion

2

3

12 – 16

4. Optical Sources Optical source spectral characteristics, spectral width, characteristics of good optical source, PN junction review, Principle of operation of LED, typed of

Page 20: Lesson Plan Etc

LED structure double heterojunction LED, radiation pattern, its spectral characteristics Principle of operation of LASER diode, LASER Structure, derivation of threshold LASER gain, modes in LASER, temperature effects of LASER , comparison of LED/LASER

3

3

17 – 19

20 -22

5.Optical Detectors Principle of operation of PIN diode, structure, current characteristics, principles of operation of APD Structure, current characteristics, comparison of PIN/APD.

3

23 - 25

6. Fiber Link Other Components – Lenses, connectors, splices, optical link budget, power budget, rise time budget, design of components. Miscellaneous advanced topics: Wavelength Division Multiplexing, passive components used in WDM, Scattering matrix analysis of 2 x 2 fiber coupler.

2

2

26 -27

28 -29

Module – 2 1.Introdution

Frequency spectrum for satellite communication types of orbits, Kepler’s 1st Law, 2nd Law, 3rd Law,

Orbital perturbations, geostationary orbit, General Satellite Communication block diagram, uplink, downlink frequencies, type of modulation techniques used

1 2 1

30

31 - 32

33

2. Losses /Attenuation:

Atmospheric Losses, Ionospheric effect & Rain attenuation.

2 34 - 35

3.Antenna Systems: Antennas in Satellite, Earth Station, aperture antenna, parabolic reflector, horn antenna polarization / depolarization.

2

36 - 37

4.Space Station System:

Power Supply, Altitude Control System, Station keeping, Thermal control, Antenna subsystems, Transponder.

2 38 - 39

5.Earth Station System:

Transmit / Receive Earth station, receive only home TV, master antenna TV System.

3

40 - 42

6. Space Link: Transmission Losses, Link power budget, Interference, System noise

3

43 - 45

Page 21: Lesson Plan Etc

Satellite Application in TV internet, mobile telephony in brief.

3

46 - 48

Text Books:

1) Optical Fiber Communication Systems – G. Keiser. – McGH 2) Satellite Communications – Pratt – John Willey & Sons

Reference Books:

1) Fiber Optic Communication – John M. Senior – PHI 2) Electronic Communication Systems – George Kennedy – TMH 3) Satellite Communications by Dennis Roddy

Subject Name : Engineering Economics Code : (Hu –501) Faculty : Swapnamoyee Palit (Etc- 1, 2, 3 ,4)

Module No. & Name / Section No. And Name

Topics / Coverage No. Of Lecture

Lecture Serial No.

1. Introduction What Economics Is About – Definition Of Economics And Engineering Economics Importance Of Economics For Engineers

02 01 - 02

2. Demand Analysis Supply Fundamentals

a. Demand: Concept, Law Of Demand, Derivation Of Demand Curve Numerically, Elasticity Of Demand: Concept And Types

b. Some Examples And Problems c. Demand Forecasting: Methods And

Problems d. Supply Fundamentals

‐ Factors Affecting Supply ‐ Supply Curve ‐ Related Problems ‐ Market Equilibrium

11

03 To 10

3. Production And Cost Analysis

a. Short Run Production Function ‐ Law Of Diminishing Return ‐ Application To Agriculture And

Industry b. Long Run Production Function

‐ Laws Of Return To Scale c. Short Run And Long Run Cost Curve, Cost

Estimation Problems And Cases d. Point Of Optimum Production

10 11 To 18

Page 22: Lesson Plan Etc

Mid Semester Examination

4. Market Concepts And Pricing

a. Perfect Competition b. Monopoly

‐ Equilibrium Conditions ‐ Problems

c. Marginal Cost Pricing d. Full Cost Pricing

08 19 To 28

5. Time Value Of Money, Project Appraisal Techniques And Depreciation

a. Interest Formulae And Their Applications b. Evaluation Of Public Alternatives c. Investment Criteria – Npv, Irr And

Profitability Index Criteria d. Relation Between Npv And Irr e. Depreciation – Methods And Problems

11 29 To 38

6. Money, Banking And Financial Markets

a. Money Market And Capital Market – Characteristics

b. Banking – Role Of Commercial Banks - Credit Creation

c. Inflation – Causes And Control d. Business Cycle – Phases e. National Income – Concepts f. International Trade – Foreign Exchange

Market – Appreciation And Depreciation Of Currencies, Effect On Trade – Free Trade Vs. Protection

06 39-42

Text Books 1. Managerial Economics – H. L. Ahuja

Reference Books

1. Engineering Economics – R. Paneerselvasam 2. Managerial Economics – P. L. Mehta 3. Micro Economics – A. Koutsoyiannis 4. Advanced Micro Economic Theory – H. L. Ahuja 5. Money Banking – S. B. Gupta 6. Economics – Samuelson Nardhaus 7. Engineering Economics – Gerald J. Thuesen, W. S. Fabrucky

Page 23: Lesson Plan Etc

LESSON PLAN 7thSemester

Subject No : EC - 702

Subject No : Advanced Communication Theory

Teachers : Mr. S. Sharma, Mr. G. Sarkar

Module No and Name

Topics / Coverage No of

Lect.

Lect.

Serial

No.

1.Spectral Analysis

1. Sampling Function, Responses of Linear System, PSD. 2. Parsevals Theorem, Power and energy transfer through a Network. Co relation between wave forms, Auto correlation. 3. Autocorrelation of periodic wave form, auto correlation of non periodic wave form, Gram Schmidt procedure

5

6

1-5

6-11

2.Random variables and process

1. Probability, mutually exclusive events, joint probability of related and independent events. 2.Statistical independence, random variables, cumulative distribution Function, probability density function, relation between probability and probability density. 3. Joint cumulative distribution and probability density average value of a random variable , variance of a random variable, the Gaussian probability density, error function. 4. The Rayleigh probability density, mean variance of the sum of the random variables, probability density of z=x+y. correlation of the random variables, central limit theorem, random process.

6

7

12 – 17

18 - 24

Page 24: Lesson Plan Etc

3.Communicati on system and noise calculation

1. Resistor noise, Multiple resistor sources, N/W with reactive elements, available power. 2. Noise temperature, noise B.W. Effective I/P noise temperature, Noise figure, noises figure for cascade N/W. 3. An example of receiving system, equivalent noise temperature of cascade, superposition of noise mixing involving noise.

7

5

25-31

32 - 36

Text Book:

1. Modern Analog & Digital Communication - B. P. Lathi – Oxford Press Reference Book:

1. Principles of Communication System – Taub & Schilling – TMH 2. Introduction to Random Signals & Noise – W.B.Davenport – Willey IEEE Press 3. Communication System – Simon Haykin – John Willey

Subject Name : Microwave Engineering Subject No : EC - 701 Teachers : Dr. J. S. Roy, Mr. S. Sahu, Mr. S. Maiti

Module No. & Name Topics / Coverage No. of Lectures

Lecture Serial No.

1. Wave Guide & Transmission Lines.

1. Rectangular waveguide and solution of wave equations.

2. TE mode, Tm mode, power transmission, power losses.

3. Excitation of modes. 4. Circular waveguides. 5. Striplines, microstriplines.

10 1 – 10

2.Wave Guide Components

1. Rectangular cavity resonator, circular cavity resonator.

2. Q factor or cavity resonator. 3. Directional coupler & S matrix of

directional couplers. 4. Isolators, wave guide Tees, Magic

Tees. 5. Attenuator, Coupling loops &

probes. 6. Movable short & matched load.

10 11 -20

3.Microwave 1. High frequency limitation of conventional vacuum tubes.

10 21-30

Page 25: Lesson Plan Etc

Tubes 2. Klystorn reentrant cavities, Velocity modssulation process, output power & beam loading.

3. Multicavity Klystron amplifiers. 4. Reflex Klystron: Velocity

modulation, power output and efficiency, electronic admittance, electronic tuning

5. TWTs: Slow wave structure, amplification process, wave modes, gain consideration.

6. Magnetrons: Cylindrical magnetron, π-mode operation, pulling & pushing of frequency, BWO (qualitative)

4. Sold State Microwave Devices

1. Gunn effects, RWH Theory. 2. Gunn diode oscillators & modes of oscillations. 3. IMPATT diodes.

1. MASER & LASER. 2. Quiz

8 31 – 38

5. Microwave Measurements

1. Frequency measurements. 2. Impedance & VSWR

measurements. 3. Power measurements. 4. Measurement of Q. 5. Measurement of gain & radiation

pattern. 6. Dielectric constant measurement. 7. Network analyzer. 8. Quiz

5 39 -43

6. Microwave Communication Link

1. Microwave antennas (Horn antenna, Parabolic reflector antenna)

2. Microwave link design (Analog & Digital)

5 44 - 48

Text Books:

1. Microwave devices & Circuits – Samuel Y. Liao, PHI.

2. Microwave devices & antennas – V. L. Gupta & M. L. Sisodia, New Age

Reference Books:

1. Microwave engineering – David M. Pozar, John – Wiley.

2. Electromagnetic Waves & Radiating Systems – E. C. Jordan & K. G. Balmain-Pearson

Education (LPE)

Subject Name : Radar & Television Engg. Subject No : EC – 710

Teachers : Mr. P. K. Patra, Mr. M. Sharma

Page 26: Lesson Plan Etc

Module No & Name Topic Coverage No Of Lecture

Lecture Serial No

1. Basic Television Principle

1. Principle Of Television 2. Aspect Ratio & Flicker 3. Concept Of Scanning & No. Of

Scanning Lines 4. Interlaced Scanning 5. Video Band Width

5

1 – 5

2. Composite Video Signal

1. Video Signal & Dc Component. 2. Blanking Pulse. 3. Horizontal & Vertical Sync. Pulse 4. Equalizing Pulse

5

6 – 10

3. Signal Transmission & Channel Band Width

1. Need Of Vestigial Transmission 2. Channel Band Width For

Monochrome Transmission. 3. Sound Signal Transmission & Fm

Channel Band Width. 4. Colour Transmission & Colour Sub

Carrier.

4

11 – 14

4. Television Camera Tube

1. Requirement Of Camera Tube 2. Electron Multiplier 3. Image Orthicon Tube 4. Image Vidicon Tube

3

15 -17

5. Television Transmitter

1. High Level & Low Level Modulation 2. Television Transmitter Using If Modulation, Diplexer, Tv Transmitting Antenna.

2

18 -19

6. Tv Receiver 1. Concept Of Folded Dipole, Yagi Antenna 2 Feeder Wire & Balun

Transformer 3. Monochrome Tv Receiver

Rf Tunner, Video If Amplifier, Video Detector, Sound System, Sync. Separator & Deflection Circuit, Video Amplifier, Keyed Agc, Television Power Supply.

7

20 – 26

7. Colour Television

1. Principle Of Colour Television & Colour Standard. 2. Luminance & Chrominance

Signals. 3. Channel B-W For Colour Tv & Frequency Inter Leaving, Ctv Cameras. 4. Colour Sub Carrier Modulation

6

27 -32

Page 27: Lesson Plan Etc

Of Colour Difference Signals, Colour Burst Signal, Pal Colour Television System, Principle Of Colour Picture Tube

8. Radar System

1. Radar Block Diagram & Operation 2. Radar Frequency Of Application Of

Radar 3. Radar Range Equation, Minimum

Detectable Signal, Receiver Noise 4. Pdf, Radar Cross Section Of Target,

Pulse Repetition Frequency & Image Ambiguities.

5

33 – 37

9. Cw & Frequency Modulation Radar

1. The Doppler Effect, Cw Radar, Fmcw Radar

2. Fmcw Radar Altimeter

4

38 – 41

10.Mti & Pulse Doppler Radar

1. Description Of Operation, Delay Line Cancellers, Blind Speed. 2 Simple Digital Mti Signal Processor, Example Of Mti Radar Processor 2. Limitation Of Mti Performance.

4

42 – 45

11. Tracking Radar

1. Tracking With Radar, Sequential Lobbing, Canonical Scanning, Monopulse Tracking Radar

3

46 - 48

Text Book: 1) Introduction to Radar system By MI SKOLNIK 2) Monochrome & colour Television by R. R. GULATI Reference. Book: 1) Microwave & radar Engineering by M. KULKARNI 2) T. V & Video Engg. By A. M. Dhake

Subject Name : Data Communication, Networking & Protocols Subject No : EC - 704 Teachers : Dr. H. K. Rath, Mr. D. Seth, Mr. P. Dutta,

Md. M.Hasan

Module Name Coverage No Of Lects Lect Serial

1.Introduction • Circuit Switching And Packet Switching, Statistical Multiplexing, Layered Architecture Overview

3 1 To 3

2.Link Layer 2. Framing, Error Detection And 1 4 To 7

Page 28: Lesson Plan Etc

3.Protocols Correction, 3. Retransmission Mechanisms

(Arq), Go Back N, 4. Selective Repeat, Sliding

Window Protocol, 5. Hdlc

1

1

1

4.Multiple Access Protocols

• Aloha System, Carrier Sensing (Csma, Csma/Cd, Csma/Ca),

• Examples Of Local Area Networks: Ethernet - Ieee 802.3 (Line Coding Schemes, Different Versions Of Ethernet), Token Ring, Fddi, Wi-Fi (Ieee 802.11)

3

5

8 To 15

5.Internetworking • Bridging, Global Internet, • Ip Protocol And Addressing (Ip

V4 And Ip V6), • Subnetting And Supernetting,

Classless Interdomain Routing (Cidr),

• Ip Address Lookup, Domain Name Systems (Dns), Network Address Translator (Nats),

• Unicasting, Broadcasting And Multicasting,

• Routing In Internet: Belman Ford And Djikstra Algorithms

• Examples: Ospf, Bgp

1 1

1

2 1 2 1

16 To 24

6.End-To-End Protocols

• Tcp And Udp, Frame Structure, Congestion Control

• Additive Increase/Multiplicative Decrease, Slow Start, Fast Retransmit/ Fast Recovery,

• Tcp Reno, Newreno, Tcp Vegas Etc, Congestion Avoidance, Red, Tcp, Active Queue Management,

3

2

3

24 To 31

7.Queuing Models Of Networks

2. Traffic Models, Little's Theorem, Markov Chains,

3. M/M/1 And Other Markov Systems

3 2

32 To 36

8.Socket Programming

• Sockets, Type Of Sockets, Tcp And Udp Sockets,

• Sockets Api (Application Programming Interface).

3 2

37 To 41

Page 29: Lesson Plan Etc

9.Quality Of Services In Packet Networks

• Packet Scheduling Algorithms: Fair Queuing, Fifo, Rr, Drr, Wrr, Wfq, W2fq, Scfq Etc,

4

42 To 45

10.Introduction To Cross-Layer Networking

• Layered Vs. Cross-Layer Architecture

• Recent Developments

2

1

46 To 48

Text Book:

1. Data Communication & Net Working - B. Forouzan - TMH

Reference Book:

1. W. Stallings, Data and Computer Communications, Pearson Education, Asia.

2. A. S. Tannenbaum, Computer Networks, PHI

3. D. Bertsekas and R. Gallagar. Data Networks, 2nd Edition, Prentice Hall, 1992. W. R. Stevens. UNIX Network Programming, Prentice Hall, 1990.

Subject Name : TSNP (Telecommunication Switching Networks and Protocols) Subject No : EC – 712

Teachers : Mrs. T. Samant, Ms. S. Kumari

Module No/ Section

No. Name

Topics /Coverage No. of Lectures

Lecture Serial No.

1. Introduction • Evolution of Telecommunication • Early Switching System • Classification of switching system. • Basic elements of

Telecommunication • Telecommunication n/w around the

world. • Standards of Telecommunication.

3

1- 3

2.Telephone system and Transmission system.

• Telephone handset • Central battery system. • Telephone base unit. • Transmission system • Transmission mode • Transmission impairments • Two / four wire transmission • Subscriber loop design

7

4-10

Page 30: Lesson Plan Etc

3. Evolution of switching system

• Introduction • PSTN • Modern Telecommunication

switching system • Message switching • Circuit switching • Functions of a switching system • Electronic switching system • Time division multiplexing • Frequency division multiplexing • Space division multiplexing

8

11 – 18

4.Stored Program Control System

• Stored program controlled exchange

• Block schematic of SPC exchange • Control system architecture

4

19 - 22

5.Time division switching

• Digital switching • Space switching • Time switch • Hybrid switch

6

23 - 28

6. Signaling system • Types of signaling information • Forms of signaling • Decadic Dialing • Dual-tone multi-frequency dialing

(DTMF) • Inter-exchange signaling

- Channel associated signaling

- Common channel signaling.

• CCS network • CCITT No.7 System • SS7 architecture • CCS 7 in C-DOT

architecture

8

29 -36

7.Telecommunication Traffic

• Network Traffic • Unit of Traffic • Congestion • Grade of service • Traffic measurement • Mathematical model

5

37 -41

8.Telephone Network • Telephone n/w Organization. • Types of Telephone network • Numbering plan

3 42 -44

9. Computer & Data

Network and ISDN

• Introduction. • Need for network • Network protocol • Network topology • Evolution towards ISDN.

4

45- 48

Page 31: Lesson Plan Etc

• Brief overview of modem Text Book:

Telecommunication Switching, Traffic and Networks J.E. Flood,

Pearson LPE. Reference Book:

Telecommunication Switching Systems and Networks,

T.Viswanathanam – PHI Publication