name of faculty:- vijay nandal discipline:- ece …mriem.org/downloads/files/n5b88e5cbb0850.pdf35...

Name of Faculty:- Vijay Nandal

Discipline:- ECE

Semester:- M.Tech 1st

Subject: ADSP

Lesson Plan duration:- 30 July 2018 to 30 Nov 2018

Lecture

Day

Topic

(including assignment/test)

1 Introduction to Signal Processing

2

Discrete Linear Systems,

superposition Principle, Unit-Sample response

3 stability & causality Criterion

4 Fourier transform

5 Properties of FT

6 contd.

7 contd.

8 contd.

9 Inverse FT

10 Numericals

11 Numericals

12 Numericals

13 Discrete Fourier transform

14 properties of DFT

15 contd.

16 Circular Convolution

17 Numericals

18 Numericals

19 Numericals

20 Fast Fourier Transform

21 Numericals

22 Numericals

23 Numericals

24 Numericals

25 Problems

26 Problems

27 Problems

28 Problems

29 Z-transform

30 properties

31 contd.

32 contd.

33 contd.

34 inverse Z- transform

35 Numericals

36 Numericals

8

9

10

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

37 Numericals

38 Linearity, time- invariance & causality

39 the discrete convolution

40

transfer function, stability tests, steady state response, Amplitude

&

Phase characteristics

41 contd.

42 Problems

43 Problems

44 Problems

45 FIR Filters

46 Truncation windowing & Delays

47 Numericals

48 Numericals

49 IIR Filters Design

50 Numericals

51 Numericals

52 Realization block diagrams

53 Numericals

54 Numericals

55

effect of infinite-word length, transfer function of degree 1&2,

Sensitivity comparisons

56 effects of finite precision arithmetic on Digital filters

57 Numericals

58 Numericals

59 Numericals

60 Numericals

13 Sessional Exams

11

12

16

17

18 Sessional Exams

14

15

Name of Faculty:- Guest faculty 1

Discipline:- ECE

Semester:-M. Tech 1st

Subject: Advanced Microprocessor & Microcontrollers


Lecture

Day

Topic

(including assignment/

test

Practical

Day Experiment

1 Microprocessor architecture

2 word Lengths, addressable memory

3

Microprocessor’s speed architectural

characteristics

4

registers, instruction, memory

addressing architecture

5

ALU, GPR’s Control logic & internal

data bus

6 Instruction Set

7 Mnemonics, Basic Instruction Types

8 Addressing modes

9 Contd.

10

Microprocessor I/O connecting I/O put

toMicroprocessor

11 Polling and Interrupts

12 Interrupt and DM. Controllers

13 Problems

14

Introduction 8051 architecture and

programming model

15 Contd.

16 Contd.

17 Internal RAM and registers

18 I/O parts

19 Interrupt system & Instruction sets

20 Problems

21 Problems

22 Problems

23 Problems

24 Problems

25 Problems

26 Problems

27 Problems

28 Problems

2

3

4

5

6

2

3

4

5

6

Practice Work/ File completion

work

8

7

Sessional Exams

Write an ALP to convert a

hexadecimal No. to decimal No. in

single step execution

(DEBUG)

Write an ALP for addition of two one

digit Numbers

Write an ALP to display a string

Write an ALP reverse a string

Write an ALP to check whether the

No. is Palindrome

Theory Practical

Week

1 1 To study the architecture of 8086 Kit

29

Intel X86 family of advanced

Microprocessor

30 Contd.

31 Contd.

32 programming model for 86 family

33 Contd.

34 X85 addressing modes

35 Contd.

36 Contd.

37 instruction set

38 Contd.

39 Contd.

40

hardware. Motorola 68 XXX family of

microprocessor

41 Contd.

42 68 XXX addressing modes

43 instruction set, hardware

44 Contd.

45 Data Communication

46 parallel I/O serial communication

47 Serial interface and UART modems

48 I/O devices

49 D/A,A/D interface

50 special I/O devices

51 Design Process

52 Preparing the specifications

53 Developing a design

54 Implementing and Testing and design

55 Regulatory Compliance Testing

56

design tool for Microprocessor

Development.

57 Problems

58 Problems

59 Problems

60 Problems

File completion work/ Internal viva17

13 Sessional Exams

14 10Write an ALP to interface intelligent

LCD display

15 11Write an ALP to interface intelligent LED

display

16Practice Work/ File completion

work

11


work

Write an ALP to generate 10 KHz &

100KHz frequency using interrupt9

9

10

To study the Microcontroller Kit

Write an ALP to generate 10 KHz

frequency square wave

7

8

18 Sessional Exams

Name of Faculty:- Tajender Malik

Discipline:- ECE

Semester:-M. Tech 1st

Subject: Satellite and Space Communication


Lecture

Day

Topic


test

Practical

Day Experiment

1

Brief History of evolution &

growth of communication

satellite

2 contd.

3 contd.

4

Synchronous

satellite

5

Satellite frequency allocation

& Band spectrum

6 contd.

7

8

9 Active & Passive satellite.

10 contd.

11

Applications of satellite

communication

12 Problems

13 Problems

14 Kepler`s Laws

15

Low, medium and Geo

synchronous main

characteristics

16 contd.

17 Angle period, Returning period

18 Numericals

19 Angle of Evaluation

20 Propagation Delay

21 Orbital Spacing

22 Numericals

23 Numericals

24 Problems

25 Design of down links

26 up link design

27 Numericals

28 Problems

29 Delay transponders

Theory Practical

Week

1 1To Study the process of Transmitting

Signal

To Study the Base band Signal in a

Satellite Link

To estimate C/N Ratio

To estimate S/N Ratio

To setup digital satellite

Communication Link

To Study Black & White and Color T.V


work

8

7

Sessional Exams

Advantages of satellite

communication.

2

3

4

5

6

2

3

4

5

6

30 Earth Stations

31 Antennas and Earth coverage

32 Altitude and eclipses

33 Numericals

34 Problems

35 Free space loss

36 Atmospheric absorption

37

Rainfall

Attenuation

38 Ionospheric scintillation

39 Telemetry

40

Tracking and command of

satellites

41 QPSK offset QPSK

42 MSK.

43 Problems

44 Problems

45

Coherent and non coherent

detection

46

Error rate

performance.

47 Numericals

48 Problems

49 Principle and techniques

50

Multiple Access Techniques,

FDMA, TDMA

51 Problems

52 system timing frames format

53 VSAT

54 Random access

55 space communication

56 TELSAT and INSAT system

57 GPS systems

58 Problems

59 Problems

60 Problems

16 File completion work

18 Sessional Exams

File completion work/ Internal viva

10

To set up a active & passive

satellite communication link &

study their difference


9

10

To Study Satellite Communication

Receiver

To measure the propagation delay of

signal in a Sat.Com.

Link.

11


work

To transmit & receive the function

generator waveform through a

Sat.Com. Link.

7

8

9

17

13 Sessional Exams

14

Name of Faculty:- Manisha

Discipline:- ECE

Semester:- B.Tech 5th

Subject: AWP


Lecture

Day

Topic


1 Prerequisites & introduction to subject

2 Retarded potential, field of short dipole

3 field of short dipole,

4 Numericals

5 Numericals

6 Antenna pattern & antenna parameters

7 antenna parameters Antenna pattern, Gain,Directivity,

8 Numericals

9 Numericals

10 Numericals

11 Reciprocity theorem for antenna.

12 Problems

13 Class Test

14

Wave equation for radiated fields from current and voltage sources

in terms of electric scalar potential and

magnetic vector potential

15 Contd.

16 Fields and pattern of an infinitesimal dipole

17 Definition of various potentials used in antenna theory

18 Contd.

19

Relation between current distribution and field pattern of an

antenna

20 linear antenna, half wave dipole

21 Antenna impedance, Directivity, Radiation resistance

22 Directional properties

23

Effect of ground on antenna

pattern,

24 Numericals

25 Numericals

26 Input impedance Broad band matching

27 Problems

28 Problems

29 Two element array, broad side, End fired pattern,

30 Beam width pattern multiplication

31 Contd.

32 multi element array and their properties

33 Synthesis of an array

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

8

9

34 parabolic feed antena, conical, helix,

35 log periodic, horn, Microwave antenna

36 ground waves propagation, Space waves propagation,

37 Effect of Earth, Duct formation, Ionosphere, and sky wave

38 Problems

39 Problems

40 Problems

41 Problems

42 Problems

43 Problems

44 Problems

45 Picture transmission, sound transmission

46 picture reception, sound reception

47 synchronization, receiver controls

48 color television.

49

Monochrome picture tube, Beam deflection, screen phosphor, face

plate

50 Contd.

51 picture tube characteristics, picture tube, circuit controls

52 Television Camera Tubes: Basic principal,

53 Image orthicon, Vidicon

54 Problems

55 Problems

56 Problems

57 Revision

58 Revision

59 Revision

60 Revision

14

15

13 Sessional Exams

11

12

10

18 Sessional Exams

16

17

Name of Faculty:- SURAJ RANA

Discipline:- ECE

Semester:- Ist

Subject: Basics of Electronics


Lecture

Day

Topic


test

Practical

DayExperiment

1 Introduction to semiconductor Physics2 Intrinsic and extrinsic semiconductors3 Diffusion and drift currents

4P-N junction under open-circuit

5 Numericals

6 Reverse bias and forward-bias conditions

7 P-N junction in the breakdown region

8 Ideal diode

9 Terminal characteristics of junction diode

10

Terminal characteristics of junction

diode(continued)11 Numericals

12 Class Test

13

Introduction of different types of amplifiers

and their characteristics

14 Principle of amplification

15Frequency response of RC coupled amplifiers

16 Amplifier bandwidth

17 Concept of Cascaded Amplifiers18 Feedback amplifiers

19

Effect of positive and negative feedback on

amplifier gain and bandwidth.

20 Class Test

21 Oscillators: Criteria for oscillations

22 Qualitative analysis of LC,RC and crystal 23 Study of wein bridge oscillator

24 Numericals

25 Introduction of Op-amp26 its characteristics and its applications27 Introduction and working of SMPS28 Voltage regulator

29 Introduction to inverters

30 UPS31 Digital Electronics: Binary, Octal number 32 Hexadecimal number systems and conversions

33 Numericals

34 Boolean Algebra

35 Introduction to flip-flops (S-R & J-K)

36

Truth tables of logic gates (AND, OR, NOT)

NAND, NOR

Theory Practical

Week

1 1

To get familiar with the working

knowledge of the following instruments:

• a Cathode ray os illos ope CRO • Multi eter A alog a d Digital • Fu tio ge erator

2

3

4

5

6

2

3

5

4

a) Plot the forward and reverse V-I

characteristics of P-N junction diode

b) Calculation of cut-involtage

c) Study of Zener diode in breakdown

To plot and study the input and output

characteristics of BJT in common-emitter

configuration

Practice Work/ File completion work

Use of op-amp as

a) Integrator

b) Differentiator

To get familiar with pin-configuration of

typical op-amp(741) and its use as:

a) Inverting amplifier

b) Non-inverting amplifiler

c) Summing amplifier

d) Difference amplifier

8

9

10

6

7

Sessional Exams

7

Practice Work/ File completion work

To assemble Wein Bridge oscillator circuit

and calculation of oscillation-frequency

and its verification from the observed

output

To assemble and test 5V/9 V DC regulated

power supply and find its line-regulation

and load-regulation

37 Class Test

38

Difference between combinational circuits

and sequential ckt.

39

Role, importance of general purpose test

instruments40 Applications of general-purpose test 41 Class Test

42 CRO

43 Function / Signal Generator44 Revision

45 Seven segment display

46 Fourteen Display

47 Dot matrix display

48 Introduction of LCD

49Types of LCD display:- Dynamic scattering type

50 field effect type

51 Class Test

52Type of liquid crystal cells :- Transmitting type

53 reflective type

54 Advantage & disadvantage of LCD

55 LCD’s o o appli atio s56 Revision

57 Revision

58 Revision

59 Revision

60 Revision

11

12 Practice Work/ File completion work

To get familiar with the working and use

of seven-segment display.

14

15

13 Sessional Exams

9

10


18 Sessional Exams

17 File completion work/ Internal viva

Verification of truth tables of logic gates

(OR,AND, NOT, NAND, NOR)

Verification of truth tables of flip-flops (S-

R, J-K)

8


Discipline:- ECE


Subject: Analog Electronic Circuits


Lecture

Day

Topic


Practical

DayExperiment

1 Classification of amplifiers

2 Distortion in amplifiers

3 Frequency response of an amplifier.

4 Step response of an amplifier

5 Numericals

6 pass-band of cascaded stages

7 RC-coupled amplifier

8low frequency response of RC coupled

stage.

9

Effect of an emitter bypass capacitor on

low Frequency response

10

Effect of an emitter bypass capacitor on

low Frequency response(continued)

11 Multistage CE amplifier.

12 Class Test

13 Feedback concept

14 transfer gain with feedback

15General characteristics of negative

feedback amplifiers16 Input resistance, Output resistance

17 Numericals

18Voltage series feedback, Current series

feedback

19Current shunt feedback, Voltage shunt

feedback.

20 Class Test

21 Sinusoidal oscillators,

22 Barkhausen criteria

23 R-C phase shift oscillator

24 general form of oscillator circuit.

25 Wien-bridge oscillator

26 crystal oscillator

27 Numericals

28 Revision

29 Class A, B, and C operations.

30 Class A large signal amplifiers.

31 Higher order harmonic distortion,

32 Efficiency

33 Transformer coupled power amplifier.

34 Class B amplifier : efficiency & distortion

35 Class A and class B push-pull amplifiers

36 Class Test

WeekTheory Practical

1 1

Design & measure the frequency response of an

RC coupled amplifier using discrete components.

2 2

Study the effect of voltage series, current series,

voltage shunt, and current shunt feed-back on

amplifier using discrete components.

3 3Design & realize inverting amplifier, non-inverting

and buffer amplifier using 741 Op Amp.


5 4

Verify the operation of a differentiator circuit

using 741 op amp and show that it acts as a high

pass filter.

6 5

Verify the operation of a integrator circuit using

741 op amp and show that it acts as a low pass

filter.


8

9Design and verify the operations of op amp adder

and subtractor circuits.

10Study of IC 555 as astable & monostable

multivibrator.

Sessional Exams

6

7

37 Class C power amplifier.

38 Ideal and practical operational

amplifiers.39 Inverting and non-inverting amplifier.

40 Differential amplifier.

41 Emitter coupled differential amplifier.

42 Transfer characteristics of a differential

amplifier43 Offset error : voltage and current

44 Revision

45Common mode rejection ratio (CMRR),

Scale changer.

46 Phase shifter, adder.

47Voltage to current converter, Current to

voltage converter

48 DC voltage follower, Bridge amplifier

49AC coupled amplifier, AC voltage

follower.

50 Integrator, differentiator.

51 Comparators, sample & hold circuits

52Logarithmic amplifier, Anti-log amplifier

53

Logarithmic multiplier, Waveform

generators

54 Miller & Bootstrap sweep generators

55Regenerative comparator (Schmitt

Trigger)

56 Multivibrators, ADC.

57 Revision

58 Revision

59 Revision

60 Revision

8

13 Sessional Exams

11Design & realize using op amp 741, Wein -bridge

oscillator.


14 9To design & realize using op amp 741, square

wave generator.

15 10To design & realize using op amp 741, logarithmic

amplifier & VCCS.


18 Sessional Exams



Discipline:- ECE


Subject: Wireless Communication


Lecture

Day

Topic

(including assignment/1 Evolution of mobile radio communications

2 Examples of wireless comm. systems

3 Paging systems

4 Cordless telephone systems

5 Examples

6 Comparison of various wireless systems

7 Comparison of various wireless systems (continued)

8 Revision

9 Second generation cellular networks

10 Third generation wireless networks

11 Continued

12 Class Test

13 Wireless in local loop

14 Wireless local area networks

15 Blue tooth

16 Personal Area networks

17 Revision

18 Spectrum Allocation

19 Basic Cellular Systems

20 Performance Criteria

21 Operation of cellular systems

22 Analog Cellular Systems

23 Digital Cellular Systems

24 Frequency Reuse

25 channel assignment strategies

26 Handoff Strategies

27 Interference

28 Revision

29 System capacity

30 Tracking and grade off service

31 Improving coverage and capacity

32 Introduction to Multiple Access

33 FDMA

34 TDMA

35 Spread Spectrum multiple Access

36 Space division multiple access

37 Class Test

38 Packet ratio

39 Capacity of a cellular systems

WeekTheory

1

6

7

4

5

2

3

11

8

9

10

Sessional Exams

40 Diff. b/w wireless & fixed telephone networks

41 Fixed network transmission hierarchy

42 Traffic routing in wireless networks

43 Wireless data services

44 Revision

45 common channel signaling

46 ISDN

47 ISDN(continued)

48 Advanced intelligent networks

49 Intelligent cell concept

50 Intelligent cell concept(continued)

51 Applications of intelligent micro-cell Systems

52 Applications of intelligent micro-cell Systems(continued)

53 In-Building Communication

54 CDMA

55 cellular Radio Networks

56 Revision

57 Revision

58 Revision

59 Revision

60 Revision

17

12

13

16

18 Sessional Exams

Sessional Exams

14

15

Discipline:- ECE

Semester:- B.Tech 1st

Subject: ElectBasic Electrical Engineering


Lecture

Day

Topic


test

Practical

Day Experiment

1 Ohm's Law, Kirchoff's Laws

2 Nodal and Loop methods

3 Numericals

4 Thevenin's theorem

5 Norton's theorem

6 superposition theorem

7 Numericals

8

Time domain analysis of first order RL and RC

circuits

9

Sinusoidal signal, instantaneous and peak

values, RMS and average values

10

.crest and peak factor, Concept of

phase,representation-polar & rectangular,

11

Exponential and trigonometric forms, behaviors

of R,L and C components in A.C. circuits.

12 Series and Parallel A.C. circuits

13

Concept of active and reactive

power, power factor, series and parallel

reasonance

14 Q factor, cut-off frequencies and bandwidth.

15

Phase and line voltage and currents, balanced

star and circuits

16

power equation, measurement of power by

two wattmeter method,

17 introduction to unbalanced circuits

18 Numericals

19 Numericals

20 Numericals

21 Numericals

22 Numericals

23 Numericals

24 Magnetic materials

25 Construction, EMF equation, ideal transformer

26

Phasor diagram on

no load and full load,

27

equivalent circuit, losses, regulation and

efficiency

28 open and short circuit test

4

5

6

7Practice Work/ File

completion work

To verify Thevenin's and

Norton theorem

To verify Maximum power

transfer theorem in A.C. and

D.C.

To verify Superposition

theorem.

To study frequency response

of a series R-L-C circuit and

determine resonant

frequency and Q-factor for

various values

of R.L.C.

Practice Work/ File

completion work

2

3

Name of Faculty:- Jyoti Rathi(Guest Faculty)

2

3

4

5

Theory Practical

Week

1 1 To verify KCL and KVL.

29 Numericals

30 Problems

31 student problems

32 .class test

33

Construction, Principle, working E.M.F.

equation and losses of D.C.

34

comparison of construction and working of D.C.

machine

with induction motor

35 revision

36 revision

37 revision

38 revision

39 revision

40 revision

41 revision

42 revision

43 revision

44 Numericals

45 synchronous machine

46 application of DC machines.

47 Problems

48

.Asynchronous sequential logic: Analysis

procedure

45

Construction, operating and uses of moving

iron type and moving coil type

46 contd.

47 contd.

48 induction type voltmeter, Ammeter

49 watt meter, energy meter.

50 Introduction to SFU,MCB,ELCB,MCCB

51 Types of wires and cables, earthing

52

Batteries, energy consumption, power

factor improvement and battery backup

53 Problems

54 Problems

55 Problems

56 Problems

17File completion work/

Internal viva

18 Sessional Exams

14

Sessional Exams

9

To perform direct load test

of a transformer and plot

efficiency

Vs load characteristic.

16Practice Work/ File

completion work

Measurement of power by 3

voltmeter/3 Ammeter

method

8 Sessional Exams

15 10

12

13

Practice Work/ File

completion work

To perform direct load test

of a D.C. shunt generator

and plot

load voltage Vs load current

curve.

9

10

11

To perform O.C. and S.C.

tests of a transformer.

To study various type of

meters.

6

7

8


Discipline:- ECE

Semester:-B.Tech 5th

Subject: CAO


Lecture

Day

Topic

(including assignment/test

1 Boolean algebra and Logic gates

2

Combinational logic blocks(Adders, Multiplexers,

Encoders, de-coder)

3 Contd.

4 Sequential logic blocks(Latches, Flip-Flops, Registers, Counters)

5 Contd.

6 Contd.

7

Store progra o trol o ept, Fly ‟s lassifi atio of computers (SISD, MISD, MIMD)

8 Contd.

9

Multilevel viewpoint of a machine: digital logic, micro

architecture, ISA, operating systems

10 high level language; structured organization; CPU

11

caches, main memory, secondary memory

units & I/O

12 Performance metrics; MIPS, MFLOPS

13 Problems

14 Problems

15

Instruction set based classification of processors (RISC, CISC, and

their comparison)

16 Contd.

17 addressing modes

18 Contd.

19 Contd.

20 Operations in the instruction set

21 Arithmetic and Logical

22 Data Transfer, Control Flow

23 Instruction set formats (fixed, variable, hybrid)

24 Language of the machine: 8086

25 simulation using MSAM

26 Problems

27 Problems

28 Problems

29

CPU Architecture types (accumulator, register, stack, memory/

register)

30

detailed data path of a typical register based CPU, Fetch-Decode-

Execute cycle (typically 3 to 5 stage)

2

3

4

5

6

7

Sessional Exams

Theory

Week

1

8

9

31 Contd.

32 Contd.

33 microinstruction sequencing, implementation of control unit

34 Contd.

35 Enhancing performance with pipelining

36 The need for a memory hierarchy

37 Cache, main memory and secondary memory

38 Contd.

39 Contd.

40 Memory parameters: access/ cycle time, cost per bit)

41

Main memory (Semiconductor RAM & ROM organization,

memory expansion, Static & dynamic memory types)

42

Cache memory (Associative & direct mapped

cache organizations

43 Problems

44 Problems

45

Goals of parallelism (Exploitation of concurrency, throughput

enhancement)

46 A dahl‟s la

47

I stru tio le el parallelis (pipeli i g, super s ali g – asi features)

48

Processor level

parallelism (Multiprocessor systems overview)

49 Instruction codes

50 computer register, computer instructions, timing and control

51 instruction cycle, type of instructions

52 memory reference, register reference. I/O reference

53 Basics of Logic Design, accumulator logic

54 Control memory, address sequencing

55 micro-instruction formats, micro-program sequencer

56 Stack Organization, Instruction Formats

57 Types of interrupts; Memory Hierarchy

58 Problems

59 Problems

60 Problems

14

13 Sessional Exams

10

11

12

16

18 Sessional Exams

15

17


Discipline:- ECE

Semester:- M.Tech 3rd

Subject: CDMA


Lecture

Day

Topic


1 Direct sequence and frequency hopped spread spectrum

2 Contd.

3 Contd.

4 Contd.

5 Contd.

6 spreading sequence and their correlation functions

7 Contd.

8 Contd.

9 Contd.

10 Contd.

11 Acquisition and tracking of spread spectrum signals

12 Contd.

13 Error probability for DS-CDMA on AWGN channels

14 Contd.

15 DS- CDMA on frequency selective fading

16 Contd.

17 Performance analysis of cellular CDMA

18 Contd.

19 Contd.

20 Contd.

21 Problems

22 Problems

23 Problems

24 Problems

25 Problems

26 Problems

27 Problems

28 Problems

29 Capacity estimation

30 Contd.

31 Power control

32 Contd.

33 effect of imperfect power control on DS CDMA performance

34 Contd.

35 Contd.

36 Soft Handoffs

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

8

9

10

37 Contd.

38 Contd.

39 Problems

40 Problems

41 Problems

42 Problems

43 Problems

44 Problems

45 Spreading /coding tradeoffs

46 Contd.

47 Contd.

48 multi-carrier CDMA

49 Contd.

50 IS-95 CDMA system

51 Contd.

52 third generation CDMA systems

53 Contd.

54 Contd.

55 Problems

56 Problems

53 multi-user detection

54 Contd.

55 Problems

56 Problems

14

15

13 Sessional Exams

11

12

16

17

18 Sessional Exams


Discipline:- ECE


Subject: CE


Lecture

Day

Topic


1 Fourier Series

2 Numericals

3 Numericals

4 Numericals

5 Fourier transforms

6 Numericals

7 Numericals

8 Numericals

9 Convolution Theorem

10 Correlation, Cross-Correlation and autocorrelation

11 Numericals

12 Problems

13 Problems

14 Introduction to information and entropy

15 channel capacity for discrete and continuous channels

16 Sha o ‟s Theore , Sha o -Hartley Theore17 Contd.

18 Noisy channels

19 coding theory : Shannon-Fano coding

20 minimum redundance coding

21

maximization of entropy of a continuous message transmission

rate

22 effect of medium on the information

23 selection of channels ,effect of noise and its minimization

24 Problems

25 Problems

26 Problems

27 Problems

28 Problems

29 Representation of random signals

30 concept of probability

31 probability of joint occurrence

32 conditional probability

33 discrete probability theory

34 continuous random variables

35 probability distribution function

2

3

4

5

6

10

7

Sessional Exams

Theory

Week

1

8

9

36 probability density function

37 Contd.

38 joint probability density functions

39 Contd.

40 Problems

41 Problems

42 Problems

43 Problems

44 Problems

45 Statistical average and moments

46 Ergodic processes

47 correlation Function

48 power spectral density

49 central limit theory

50 response of linear system to random signals

51 Error function

52

Covariance relation among the spectral densities of the two

input-output random processes

53 Cross spectral densities

54 optimum filters

55 Introduction to Linear Block Code abd cyclic Codes

56 Contd.

57 Problems

58 Problems

59 Problems

60 Problems

14

13 Sessional Exams

11

12

16

18 Sessional Exams

15

17

Name of Faculty:- Kirti

Discipline:- ECE


Subject: DC


Lecture

Day

Topic


Practical

Day Experiment


2 Introduction, digital communication

3 Shannon limit for information capacity

4 digital radio,

5 digital amplitude modulation

6

frequency shift keying (FSK), phase shift

keying (PSK)

7 quadrature amplitude modulation (QAM)

8 band width efficiency, carrier recovery

9 differential phase shift keying,(DPSK)

10

clock recovery, probability of error & bit

error rate

11 trellis encoding.

12 contd.

13 Revision

14 Class Test

15 DATA COMMUNICATIONS: Introduction

16 history of data communication

17

standard organization for data

communication

18 data communication circuits

19 data communication codes, error control

20 Problems

21

synchronization, data communications

hardware

22

serial interfaces: RS-232, RS-449 & RS-530,

CCITT X.21,

23

parallel interfaces: centronics parallel

interfaces.

24

the telephone network: DDD network,

private- line service,

25

the telephone circuit, data modems:synchronous

modems, asynchronous modems

26 contd.

27 modem synchronization.

28 Problems

8

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

Practical

1To study different types of

transmission media

2To study Quadrature Phase Shift

Keying Modulation

3To study Quadrature Amplitude

Modulation

4To Study! 6 Quadrature Amplitude

Multiplexing

5To Study Serial Interface RS-232 and

its applications

6To study the Parallel Interface

Centronics and its applications


work

29

DATA COMMUNICATIONS PROTOCOLS AND

NETWORK CONFIGURATIONS : Introduction

30 open system interconnection (OSI)

31 data transmission mode,

32

asynchronous protocols, synchronous

protocols

33 public data network,

34 integrated services digital network (ISDN)

35 local area networks

36 Revision

37 Class Test

38 token pass ring

39 Ethernet

40

RFID Technology & its applications like

Attendance, security ,library management

etc.

41 contd.

42 contd.

43 Problems

44 Problems

45 MULTIPLEXING : Introduction,

46

time division multiplexing, T1 digital carrier

system, CCITT time division

47 multiplexed carrier systems

48 CODECS, COMBO chips

49 line encoding, T-CARRIERS,

50

frame synchronization, bit interleaving VS

word interleaving, frequency division

multiplexing,

51

AT&T’s FDM hierar hy, o posite ase a d signal, formation of a master group.

52 Revision

53

INTERNET AND TCP/IP: Introduction, history,

use of Internet, accessing the Internet

54 Internet addresses, security on the internet

55 authentication, firewalls

56 intranet and extranet

57 TCP/IP reference model,

58 domain name service, world wide web.

59 Revision

60 Revision

Sessional Exams

16

17

9

10

18

14

15

13 Sessional Exams

11

12

7To configure the modem of a

computer

8

To make inter-connections in cables

for data communication

in LAN

9 To install LAN using Tree topology


work

10 To install LAN using STAR topology

11 To install LAN using Bus topology

File completion work

File completion work/ Internal viva


Discipline:- ECE


Subject: DCN


Lecture

Day

Topic


1

Overview of Data Communication and

networking

2 Contd.

3 Analog And Digital Data Transmission

4 Contd.

5 Various Transmission Media

6 Data Encoding

7 Contd.

8 Problems

9 Asynchronous And Synchronous Transmission

10 Contd.

11 Error Detection and correction techniques

12 Contd.

13 Physical interfaces

14 Contd.

15 Problems

16 Problems

17 Link Configurations

18 Bit Oriented and character oriented protocol

19 Contd.

20 Contd.

21 Data link layer services

22 Link Control.

23 F.D.M. Synchronous

24 TDM, Statistical TDM

25 Contd.

26 Problems

27 Problems

28 Problems

29 Communication Networks

30

Circuit

Switching

31 Message Switching

32 Packet Switching

33 Local Networking Technology

34 topology

35 Contd.

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

8

9

10

36 Contd.

37 Medium Access control protocols

38 CSMA/CD

39 Token ring

40 Problems

41 FDDI, DQDB

42 Contd.

43 Problems

44 Problems

45 OSI and TCP/IP Model, Protocol And Architecture

46 contd.

47 Networking Access protocols

48 contd.

49 Inter Networking, Transport layer Protocols

50 contd.

51 Session Service And Protocols

52 contd.

53 Presentation/ Application protocols

54 contd.

55 contd.

56 ISDN Networks: Concepts & Architecture

57 contd.

58 Protocols

59 contd.

60 Problems

14

15

13 Sessional Exams

11

12

18 Sessional Exams

16

17


Discipline:- ECE


Subject: DSP


Lecture

Day

Topic


test

Practical

Day Experiment

1 Signal classifications

2 contd.

3 contd.

4

frequency domain

representation, time domain

representation

5 Fourier transform

6 properties of Fourier transform

7 contd.

8 contd.

9 contd.

10 Numericals

11 Numericals

12 Numericals

13 Numericals

14 Numericals

15

discrete

time random signals

16 energy and power theorems

17 Numericals

18 Numericals

19 time invariant system

20

finite impulse

Response (FIR) system

21

infinite impulse response (IIR)

system

22 Sampling theorem

23 contd.

24 contd.

25 contd.

26 Problems

27 Problems

28 Problems

29 Z-transform

30

properties of the region of

convergence

31 properties of the Z-transform

32 contd.

Theory Practical

Week

1 1

represent basic signals (Unit step, unit

impulse, ramp, exponential, sine and

cosine)

2

3

4

5

6

2

3

4

5

6

To develop program for discrete

convolution

To develop program for discrete

correlation

To design analog filter(low-pass, high

pass, band-pass, band-stop)

To design digital IIR filters(low-pass,

high pass, band-pass, band-stop)

To design FIR filters using windows

technique


work

8

9

7

Sessional Exams

To understand sampling theorem &

generation of waveforms like sine,

square & Triangle

7

33 contd.

34 contd.

35 inversion of the Z-transform

36 Numericals

37 Numericals

38 Numericals

39 Numericals

40

Fundamentals of digital

filtering

41

various types of digital

filters

42 Problems

43 Problems

44 Problems

45 window technique for FIR

46 Numericals

47 Numericals

48

bi-linear transformation and

backward

difference methods for IIR

filter design

49 Numericals

50 Numericals

51 Numericals

52

analysis of finite word

length effects in DSP

53

DSP algorithm

implementation

consideration. Applications

of DSP

54

Introduction to multirate

digital signal processing,

sampling rate conversion

55

filter structures, multistage

decimator and

interpolators, digital filter

banks

56 Problems

57 Problems

58 Problems

59 Problems

60 Problems



14


10

13 Sessional Exams

To study Quantization technique

11

12

10To study Auto correlation & Linear

convolution

To study FIR Filter Implementation

8

9


work

18 Sessional Exams

Name of Faculty:- Sunil Dalal

Discipline:- ECE

Semester:- B.Tech. 3rd

Subject: Electronic Devices & Circuits


Lecture

Day

Topic


test

Practical

Day Experiment

1 Review of energy bands

2 description of materials,

3 contd.

4 drift velocity, collision time

5 Mean free path, mobility,

6 conductivity, relaxation time

7

factors affecting conductivity

of materials

8 types of thermal conductivity

9

Wiedmann-Franz law, super

conductivity,

10 effect of magnetic field

11

conducting materials,

applications.

12 contd.

13 Revision

14 Class Test

15

Review of Si and Ge as

semiconducting materials

16 contd.

17 Continuity Equation

18 contd.

19 P-N junction

20 contd.

21

Drift & Diffusion,

Diffusion

22 contd.

23

Transition capacitances of P-N

junction.

24 Revision

25 Revision

26 Problems

27 Problems

28 Problems

Theory Practical

Week

1 1

Introduction & Hands on experience

to use circuit creation & simulation

software like TINAPRO , PSPICE

or ORCAD etc.

Design a full wave centre tapped

rectifier & study the effect of

capacitive filter & its output on a

virtual

oscilloscope

Design a RLC resonance circuit & verify

the transient & phase response for

different values of R,L &C.

Design a circuit for a fixed power

supply.

Design a half adder using discrete

components & verify the timing

diagrams

PCB printing using screen printing or

any other technique.


work

8

7

Sessional Exams

2

3

4

5

6

2

3

4

5

6

29

Brief introduction to Planar

Technology for device

fabrication

30

metal -semiconductor

junctions (ohmic and

non-ohmic),

31

breakdown mechanisms in p-n

junction

32 zener diode,

33

electrical and optical

excitation in diodes

34 LED

35

solar cells and photo-

detectors. And characteristics.

36 Transistors

37

Metal-semiconductor-field-

effect-transistors (MESFET)

38

Metal-insulator-

semiconductor-fieldeffect-

transistors (MISFET)

39

Metal oxide semiconductor

field effect transistor

(MOSFET):

40

Construction,

Operation and characteristics

of above devices.

41 contd.

42

Bipolar junction transistors:

Fundamentals of BJT operation

43 amplification with BJTs

44 Revision

45

Photodiodes ,bilateral devices

46 photo detectors

47 solar cell

48 light emitting diodes

49

semiconductor lasers, light

emitting materials.

50 Tunnel Diode

51 degenerate semiconductors

52 IMPATT diode

53 Revision

54

The transferred electron

mechanism: The

GUNN diode16 File completion work

Fabrication & placing of components

as per above power supply circuit.

15 11 Testing of above circuit

13 Sessional Exams

14 10

9

10

Etching of the above PCB.

UV exposure & Drilling of PCB

11


work

Coating of etched PCB to protect it

from oxidation

7

8

9

55

P-N-P-N diode, semiconductor

controlled rectifier (SCR)

56 DIAC, TRIAC

57 IGBT

58 Revision

59 Problems

60 Problems


18 Sessional Exams


Name of Faculty:- kirti

Discipline:- ECE

Semester:-B.Tech 3rd

Subject: EMEC


Lecture

Day

Topic


test

Practical

Day Experiment

1

Introduction to subject, Magnetic

Circuits,

2 Magnetic Materials and their properties

3

static and dynamic emfs and force on

current

4

AC operation of Magnetic Circuits,

Hysteresis and Eddy current losses

5 Numericals

6 Numericals

7

Basic theory of DC generator, brief idea of

construction

8 emf equation, load characteristics

9

basic theory of DC motor, concept of back

emf,

10 torque and power equations

11 load characteristics of dc motor

12 solution of network equations

13 Numericals

14 Numericals

15 Numericals

16 Class Test

17

starting and speed control of DC motors,

applications

18

Constructional features, Armature

winding,

19 The transform circuit

20 Numericals

21

EMF Equation, Winding coefficients,

equivalent circuit

22

phasor diagram, Armature reaction, O. C.

& S. C. tests, Voltage Regulation

23 Synchronous Motor: Starting methods

24

Effect of varying field current at different

loads, V- Curves

25

Three phase Transformer & Induction

Machine

26 Numericals

27 Numericals

28 Numericals

To perform direct load test of a DC

motor

8

67

Sessional Exams

To study stair case wiring

To study house wiring i.e., batten,

cleat, casing-caping and conduit

wirings

To study fuses, relays, contactors,

MCBs and circuit breakers, fluorescent

tube light

Study of construction of a DC machine


work

2

3

4

5

2

3

4

5

6

Theory Practical

Week

1 1Introduction of tools, electrical

materials, symbols and abbreviations

29 Revision 7

30 Class Test

31 Three Phase Transformer: Review

32 Review of Single phase transformer.

33

Three Phase transformer: Basics &

operation8

34 Induction Machine

35 Constructional features

36 Rotating magnetic field

37

Principle of operation Phasor diagram,

equivalent circuit

9

38 torque and power equations,

39

Torque- slip characteristics, no load &

blocked rotor tests

40 Induction generator & its applications

41

Introduction of Single phase Induction

Motor, Repulsion motor

42

AC Commutator Motors:Universal motor,

Single phase a.c. series compensated

motor, stepper motors

43 Problems

44 Problems

45 Problems

46 Problems

47 Class Test

48 Synchronous Motor: Starting methods

49

Effect of varying field current at different

loads, V- Curves

50 Numericals

51 Numericals

52 Numericals

53 Problems

54 Problems

55 Problems

56 Problems

57 Revision

58 full syllabus test

59 Problems

60 Problems

13 Sessional Exams

Speed control of a DC motor by

armature control and field control

methods

To perform open circuit and block

rotor tests of an induction motor

11


work

Star-delta starting of a three phase

induction motor

9

10

14

10

Speed control of a DC motor by

armature control and field control

methods


work



18 Sessional Exams

Name of Faculty:- kirti

Discipline:- ECE

Semester:- B.Tech 3rd

Subject: EMI


Lecture

Day

Topic


test

Practical

Day Experiment

1 Introduction to subject

2 OSCILLOSCOPE: Block diagram,

3 study of various stages in brief,

4 high frequency CRO considerations

5 Numericals

6 Numericals

7 measurement of phase &frequency

8 electrostatic deflection

9

dual trace &dual beam

oscilloscope Sampling and storage

oscilloscope

10 Revision

11 Class Test

12 ELECTRONIC INSTRUMENTS introduction

13 Numericals

14 Numericals

15 Numericals

16 Class Test

17

Instruments for measurement of

voltage,

18 current & other circuit parameters


20 Numericals

21 Q-meters, R.F. power measurements,

22

phasor diagram, Armature reaction, O.

C. & S. C. tests, Voltage Regulation

23 introduction to digital meter

24 chopper amplifier type voltmeter

25

true RMS voltmeter,electronic

multimeter

26 Numericals

27 Numericals

28 Numericals

29 Revision

30 Class Test

31 Block diagram of pulse generators

To study differential pressure

transducer & signal conditioning of

output signal.6


work

8

9

7

Sessional Exams

Study blocks wise construction of a

Multimeter & frequency counter.

Study Measurement of different

components & parameters like Q of a

coil etc

using LCRQ meter

Study of distortion factor meter and

determination of the % distortion of

the given

oscillator

Determine output characteristics of a

LVDT and Measure displacement using

LVDT


work

2

3

4

5

2

3

4

5

6

Theory Practical

Week

1 1

Study blocks wise construction of a

analog oscilloscope & Function

generator

32

signal generators, function generators

wave analysers

33 distortion analysers

34 spectrum analyser

35 Harmonic analyser,

36 FFT analyser

37 FREQUENCY & TIME MEASUREMENT

38

Study of decade counting

Assembly(DCA)

39 frequency measurements

40 period measurements, universal counter

41

TRANSDUCERS & SIGNAL

CONDITIONING: Classification

42 Transducers of types: RLC photocell

43 Problems

44 Problems

45 Problems

46 Problems

47 Class Test

48

thermocouples etc. basic schemes of

measurement of displacement,

49

velocity, acceleration, strain, pressure,

liquid level & temperature.

50

DC signal conditioning system, AC signal

conditioning system, data acquisition

and conversion system

51 Numericals

52 Numericals

53 Revision

54 Revision

55 Problems

56 Problems

57 Problems

58 Problems


60 Problems

13 Sessional Exams

output signal.

Measurement of level using capacitive

transducer..

11

12

Study of Distance measurement using

ultrasonic transducer

7

8


work

10

14 9Measurement of Strain using Strain

Guage

15 10

Study characteristics of temperature

transducer like Thermocouple,

Thermistor &

RTD with implementation of a small

project using signal conditioning

circuits

like instrumentation amplifie


work


18 Sessional Exams


Discipline:- ECE


Subject: ICT


Lecture

Day

Topic



2 Concept of Information and Entropy,

3 Numericals

4 Sha o ’s theore s5 Channel Capacity Self information,

6 Numericals

7 Discrete and Continuous entropy,

8 Numericals

9 Mutual and joint information,

10 Numericals

11 Redundancy.

12 Numericals

13 Class Test

14 Source encoding & channel encoding,.

15 Numericals

16 Numericals

17 Error detection & Correction,

18 Numericals

19 Numericals

20 Various codes for channel coding,

21 Numericals

22 Numericals

23 Rate Distortion functions

24 Problems

25 Problems

26 Linear block codes,

27 Numericals

28 Numericals

29

systematic linear codes & optimum coding for Binary symmetric

channel

30 The Generator & parity check matrices,

31 Syndrome decoding & Symmetric channels,

32 Hamming codes,

33 Numericals

34 Weight enumerator,Perfect codes

35

,BCH codes, Idempotent & Mattson Solomon polynomials, Reed

Solomoncodes

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

8

9

10

36 Justeen codes, MDS codes & generalized BCH codes,

37 Convolution codes & Viterbi decoding algorithm.

38 Numericals

39 Numericals

40 Problems

41 Problems

42 Problems

43 Problems

44 Problems

45

Performance of linear block codes

& convolution codes,

46 Contd.

47 Contd.

48 Contd.

49 code incurable error probability Upper & lower bounds

50 Contd.

51 Contd.

52 Numericals

53 Numericals

54 Numericals

55 Problems

56 Problems

57 Revision

58 Problems

59 Problems

60 Problems

14

15

11

12

18 Sessional Exams

13 Sessional Exams

16

17

Name of Faculty:- Guest Faculty 1

Discipline:- ECE

Semester:- B. Tech. 5th

Subject: MPI


Lecture

Day

Topic


test

Practical

Day Experiment

1 Introduction to subject

2

Introduction to

microprocessor

3

8085 microprocessor

Architecture,

4 instruction set

5 interrupt structure

6

Assembly language

programming

7 Practice

8 Practice

9 Practice

10 Revision

11 Class Test

12

Architecture, block diagram of

8086, details of sub-blocks

such as EU, BIU

13 contd.

14

memory segmentation and

physical address computations

15 contd.

16 program relocation

17 addressing modes

18 contd.

19 instruction formats

20 contd.

21

pin diagram and

description of various signals

22 Revision

23 Class Test

24 Instruction execution timing

25 contd.

26 assembler instruction format

27 contd.

28 Problems

8

7

Sessional Exams

Write a program using 8085

Microprocessor for addition and

subtraction of two

BCD numbers

Write a program to perform

multiplication and division of two 8 bit

numbers

using 8085

Write a program using 8086 for

division of a defined double word

(stored in a

data segment) by another double

Word division and verify.

Write a program using 8086 for finding

the square root of a given number and

verify.

Write a program using 8086 to copy

12 bytes of data from source to

destination &

verify.

2

3

4

5

2

3

4

5


work

6

Theory Practical

Week

1 1

Write a program using 8085 for

Hexadecimal addition & subtraction of

two

numbers.

6

29

data transfer instructions,

arithmetic instructions

30 contd.

31

branch instructions, looping

instructions

32 contd.

33 NOP and HLT instructions,

34 flag manipulation instructions

35 contd.

36

logical instructions, shift and

rotate instructions

37 contd.

38 directives and operators

39 contd.

40 programming examples.

41 contd.

42 contd.

43 Problems

44 Problems

45

8255 Programmable

peripheral interface

46

interfacing keyboard and

seven

segment display

47 Revision

48

8254 (8253) programmable

interval timer

49

8259A

programmable interrupt

controller

50 Revision

51 Direct Memory Access

52 8237 DMA controller

53 Revision

54 Class Test

55 Problems

56 Problems

57 Problems

58 Problems


60 Problems

9

10

13 Sessional Exams

Write a program to find maximum and

minimum from series using 8086.

Write a program to initiate 8251 and

to check the transmission and

reception of

character

11

12 10

Write a program to control the

operation of stepper motor using

8085/8086 and

8255 PPI.

Write a program to interface ADC &

DAC with 8085 & demonstrate

generation

of square wave.

9

8

7

14 11

Write a program to interface 8X8 LED

Matrix Display using 8085/8086

microprocessors and 8255 PPI.


work


work


18 Sessional Exams


Discipline:- ECE

Semester:- M.Tech 3rd

Subject: NN


Lecture

Day

Topic



2 Neural networks characteristics,

3 Contd.

4 History of development in neural networks principles

5 Artificial neural net terminology

6 Contd.

7 Model of a neuron

8 Contd.

9 Topology.

10 Contd.

11 Class Test

12 types of learning,

13 Supervised, Unsupervised, Re-inforcement learning.

14 Contd.

15 Contd.

16

Knowledge, representation and acquisition. Basic Hop

field model

17 Contd.

18 Basic learning laws,

19 Contd.

20 Unsupervised learning, Competitive learning,

21 K-means clustering algorithm,.

22 Koho e ‘s feature aps23 Class Test

24 Radial basis function neural networks

25 Contd.

26 Basic learning lawsv in RBF nets,

27 Contd.

28 Problems

29 Recurrent back propagation.

30 Contd.

31 Introduction to counter propagation networks,

32 CMAC network .

33 Contd.

34 ART networks

35 Contd.

36 Contd.

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

8

9

10

37 Problems

38 Class Test

39 Basic concepts of fuzzy logic

40 Fuzzy vs. Crisp set, Linguistic variables, Membership functions,

41 Contd.

42 Contd.

43 Problems

44 Problems

45 Fuzzy sets & Operations of fuzzy sets

46 Contd.

47 Fuzzy IF- THEN rules,

48 Contd.

49 Variable inference techniques,

50 Contd.

51 Contd.

52 De-Fuzzification

53 Problems

54

Basic fuzzy inference algorithm, Fuzzy

system design,

55 Industrial applications.

56 Problems

57 Problems

58 Revision

59 Revision

60 Problems

14

15

13 Sessional Exams

11

12

18 Sessional Exams

16

17


Discipline:- ECE

Semester:- B.Tech 3rd

Subject: Network Theory


Lecture

Day

Topic


test

Practical

Day Experiment

1

Prerequisites and introduction to

subject

2

Signal analysis, complex frequency,

and network analysis

3

General characteristics and

descriptions of signals

4

step function and associated wave

forms

5 Numericals

6 Numericals

7 The unit impulse

8 Introduction to network analysis

9 network elements

10 initial and final conditions

11 step and impulse response

12 solution of network equations

13 Numericals

14 Numericals

15 Numericals

16 Class Test

17

Review of Laplace transforms,

poles and zeroes

18 initial and final value theorems


20 Numericals

21 Theve i ’s a d Norto ’s theore s

22

the system function, step and

impulse responses

23

the convolution integral.

Amplitude and phase responses

24 Network functions

25 relation between port parameters

26

transfer functions using two port

parameters, interconnection of

two ports.

27 Numericals

28 Numericals


work

8

7

Sessional Exams

Transient response of RC, RL circuit on

any of above software

To find the resonance frequency,

Band width of RLC series circuit using

any of above software.

To plot the frequency response of low

pass filter and determine half-power

frequency

To plot the frequency response of

high pass filter and determine the

half-power frequency


work

2

3

4

5

2

3

4

5

6

Theory Practical

Week

1 1

Introduction of circuit creation &

simulation software like TINAPRO, P-

Spice, Dr.-Spice/other

relevant Software

29 Hurwitz polynomials,

30 Numericals

31 positive real functions.

32 Numericals

33

Properties of real immittance

functions, Synthesis of LC driving

point immittances

7

34 Numericals

35 Numericals

36

Synthesis of RC driving point

impedances

37 Numericals

38

Synthesis of RC impedances or RL

admittances

39 Numericals

40 Numericals

41

properties of RL impedances and

RC admittances

42 Numericals

43 Numericals

44 Numericals

45 Properties of transfer functions,

46 zeroes of transmission

47

synthesis of Y21 and Z21 with 1 terminations

48 Numericals

49

Introduction to active network

synthesis

50 Network Tropology

51 Graph Theory

52 Contd.

53 Contd.

54 Contd.

55 Numericals

56 Numericals

57 Revision

58 Revision

59 Problem

60 Problem

13 Sessional Exams

To determine equivalent parameter

of parallel connections of two port

network and study loading

effect.

To calculate and verify "ABCD"

parameters of a two port network

11


work

To synthesize a network of a given

network function and verify its

response

8

9

10

6

14 9

To plot the frequency response of

band-pass filter and determine the

band-width

15 10To calculate a d verify "Z" & Y

parameters of a two port network


work


18 Sessional Exams


Discipline:- ECE


Subject: OC


Lecture

Day

Topic



2 Electromagnetic spectrum used for optical communication

3 block diagram of optical communication system

4 Basics of transmission of light rays

5 contd.

6 contd.

7 Advantages of optical fiber communication

8 Revision

9 Class Test

10 Optical fibers structures and their types,

11 fiber characteristics

12 attenuation, scattering, absorption,

13 fiber bend loss,.

14 Contd.

15 dispersion;

16 Contd.

17 fiber couplers and connectors

18 Contd.

19 Contd.

20 Revision

21 Class Test

22 Light emitting diode

23 Contd.

24 recombination processes,

25 the spectrum of recombination radiation,

26 Contd.

27 Problems

28 Problems

29 LED characteristics.

30 contd.

31 internal quantum efficiency,

32 external quantum efficiency

33 Problems

34 LED structure

35 contd.

36 lens coupling to fiber

8

9

10

Theory

Week

1

7

Sessional Exams

2

3

4

5

6

37 behavior at high frequencies

38 Basic principles of laser action in semi -conductors

39 optical gain,

40 lasing threshold,

41 laser structures and characteristics

42 laser to fiber coupling

43 comparison with LED source.

44 Problems

45 Principles of optical detection,

46 quantum efficiency, responsivity

47 general principles of PIN photodetector

48 intrinsic absorption,

49 Problems

50 materials and designs for PIN photodiodes

51 contd.

52 Problems

53 impulse and frequency response of PIN photodiodes

54 noise in PIN Photodiodes,

55 multiplication process

56 APD Design

57 APD bandwidth, APD noise.

58 Revision

59 Revision

60 Revision

Sessional Exams

16

17

18

14

15

13 Sessional Exams

11

12


Discipline:- ECE


Subject: Radar & Sonar Engg


Lecture

Day

Topic


1 Radar Block Diagram & operation

2 Contd.

3 Contd.

4 Radar Frequencies

5 Contd.

6 Radar development

7 Application of Radar

8 Contd.

9 Simple form of Radar Equation

10 Contd.

11 Prediction of Range performance

12 Minimum detectable signal

13 Receiver noise, Signal to Noise ratio

14 Contd.

15 Contd.

16 Transmitter Power

17 Pulse repetition frequency & range ambiguities

18 Contd.

19 Contd.

20 System losses, Propagation effects

21 Contd.

22 Contd.

23 Problems

24 Problems

25 Problems

26 Problems

27 Problems

28 Problems

29 The Doppler effect

30 Contd.

31 CW Radar

32 Contd.

33 Frequency-modulated CW Radar

34 Multiple Frequency CW Radar

35 Contd.

36 Problems

2

3

4

5

6

10

7

Sessional Exams

Theory

Week

1

8

9

37 MTI & PULSE DOPPLER RADAR

38 Contd.

39 Delay Line Cancellors

40 Multiple or staggered, Pulse repetition frequencies

41 range-Gated Doppler Filters

42 Problems

43 Problems

44 Problems

45 Digital Signal Processing

46 Other MTI delay line, Limitation of MTI performance

47 Limitation of MTI performance

48 Noncoherent MTI

49 Pulse Doppler Radar

50 Tracking with Radar

51 Sequential Lobbing

52 Conical Scan

53 Monopulse Tacking Radar

54 Tracking in range, Acquisition

55 Radar Receivers

56 Noise Figure, Mixer

57 Low-noise Front ends

58 Displays, Duplexer

59 Receiver protectors

60 Problems

14

13 Sessional Exams

11

12

16

18 Sessional Exams

15

17


Discipline:- ECE

Semester:- B.Tech. 7th

Subject: SATELLITE COMMUNICATION ENGINEERING


Lecture

Day

Topic


test

Practical

Day Experiment

1 Evolution & growth of communication

2 Synchronous satellite

3 Satellite frequency allocation & Band

4 Advantages of satellite communication,

5 Active & Passive satellite

6 Modem & Codec

7 Applications of satellite communication.

8 Revision

9 Class Test

10

COMMUNICATION SATELLITE LINK DESIGN:

Introduction, General link design equations

11 System noise temperature, C/N & G/T

12

Atmospheric & Ionospheric effects on link

design, Complete link design

13 Earth station parameters.

14 contd.

15 Problems

16 Problems

17 Analog Communication Satellite

18 Baseband analog(Voice) signal

19 FDM techniques,

20 S/N & C/N ratio in frequency modulation

21

S/N ratio in FM with multiplexed telephone

signal in satellite link,

22

Single channel per carrier(SCPC) systems,

Companded single sideband (CSSB) systems

23 Analog FM/FDM TV satellite link

24

Intermodulation products & their effects in

FM/FDM systems

25 Energy disposal in FM/FDM systems.

26 Problems

27 Problems

28 Problems

29 DIGITAL SATELLITE COMMUNICATION

30 Advantages of digital communication

31 digital satellite communication systems

32 Digital baseband signals

Theory Practical

Week

1 1

To set up a satellite communication

link & study of change in uplink &

downlink frequency.

To Study Transmission of Audio &

Video Signals & Data communication

over satellite link .

To Study Transmission of telemetry

data like temperature & light intensity

over satellite link

To measure the propagation delay of

signal in a Satellite communication

Link.

To study different GPS data like

longitude, latitude & different types of

dilute of precision

using GPS receiver..

To study selection of various PN codes

like Gold, Barker & MLS in CDMA

technology .


work

8

9

7

Sessional Exams

To study generation (spreading) &

demodulation (Despreading) of of

DSSS modulated signal

7

2

3

4

5

6

2

3

4

5

6

33

Digital modulation techniques like

MSK,GMSK/, QAM

34 Satellite digital link design

35 Time Division Multiplexing

36

TDMA, TDMA-Frame structure, TDMA-Burst

structure, TDMA-Frame efficiency

37

TDMA-superframe, TDMAFrame acquisition

& Synchronization, TDMA compared to

FDMA, TDMA Burst Time

38

Multiple Beam (Satellite switched) TDMA

satellite system, Beam Hopping

(Transponder Hopping)

39 TDMA, CDMA & hybrid access tech.

40

SATELLITE ORBITS: Introduction,

Synchronous orbit

41

Orbital parameters, Satellite location with

respect to earth,

42

Look angles, Earth coverage & slant range,

Eclipse effect

43 Satellite placement in geostationary

44 station keeping, Satellite stabilization.

45

SPECIAL PURPOSE COMMUNICATION

SATELLITES : BDS, INMARSAT, INTELSAT

46

VSAT(data broadband satellite), MSAT(

Mobile Satellite Communication)

47

Sarsat (Search & Rescue satellite) & LEOs

(Lower earth orbit satellite)

48

Satellite communication with respect to

Fiber Optic Communication,

49 LANDSAT, Defense satellite.

50 Revision

51 Class Test

52

LASER SATELLITE COMMUNICATION:

Introduction, Link analysis,

53 Optical satellite link transmitter,

54 Optical satellite link receiver,

55

Satellite Beam Acquisition, Tracking &

Positioning,

56 Deep Space Optical Communication Link.

57 Revision

58 Revision

59 Problems

60 Problems


work

18 Sessional Exams


10

To study radiation pattern & calculate

beam width for Yagi uda & Folded

dipole antenna.

15 11

To study radiation pattern & calculate

beam width for Circular & Triangular

Patch Antenna.

14

10To study Voice communication over

DSSS.

11


work

To study Minimum shift keying

modulation & de modulation .

8

9

13 Sessional Exams

name of faculty:- vijay nandal discipline:- ece …mriem.org/downloads/files/n5b88e5cbb0850.pdf35...

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