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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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
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
12Practice Work/ File completion
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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
Practice Work/ File completion
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
15 File completion work
9
10
To Study Satellite Communication
Receiver
To measure the propagation delay of
signal in a Sat.Com.
Link.
11
12Practice Work/ File completion
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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
16 File completion work
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
Name of Faculty:- SURAJ RANA
Discipline:- ECE
Semester:- B.Tech 5th
Subject: Analog Electronic Circuits
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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.
4 Practice Work/ File completion work
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.
7 Practice Work/ File completion work
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.
12 Practice Work/ File completion work
14 9To design & realize using op amp 741, square
wave generator.
15 10To design & realize using op amp 741, logarithmic
amplifier & VCCS.
16 File completion work
18 Sessional Exams
17 File completion work/ Internal viva
Name of Faculty:- SURAJ RANA
Discipline:- ECE
Semester:- B.Tech 7th
Subject: Wireless Communication
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
Name of Faculty:- Guest faculty 2
Discipline:- ECE
Semester:-B.Tech 5th
Subject: CAO
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
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
Name of Faculty:- Vijay Nandal
Discipline:- ECE
Semester:- M.Tech 3rd
Subject: CDMA
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
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
Name of Faculty:- Guest faculty 2
Discipline:- ECE
Semester:-B.Tech 5th
Subject: CE
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test
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
Semester:- B.Tech 7th
Subject: DC
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
Practical
Day Experiment
1 Prerequisites & introduction to subject
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
Practice Work/ File completion
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
Practice Work/ File completion
work
10 To install LAN using STAR topology
11 To install LAN using Bus topology
File completion work
File completion work/ Internal viva
Name of Faculty:- Tajender Malik
Discipline:- ECE
Semester:- M.Tech 1st
Subject: DCN
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
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
Name of Faculty:- Vijay Nandal
Discipline:- ECE
Semester:- B.Tech 7th
Subject: DSP
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
Practice Work/ File completion
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
16 File completion work
17 File completion work/ Internal viva
14
15 File completion work
10
13 Sessional Exams
To study Quantization technique
11
12
10To study Auto correlation & Linear
convolution
To study FIR Filter Implementation
8
9
Practice Work/ File completion
work
18 Sessional Exams
Name of Faculty:- Sunil Dalal
Discipline:- ECE
Semester:- B.Tech. 3rd
Subject: Electronic Devices & Circuits
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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.
Practice Work/ File completion
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
12Practice Work/ File completion
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
16 File completion work
18 Sessional Exams
17 File completion work/ Internal viva
Name of Faculty:- kirti
Discipline:- ECE
Semester:-B.Tech 3rd
Subject: EMEC
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
Practice Work/ File completion
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
12Practice Work/ File completion
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
15Practice Work/ File completion
work
16 File completion work
17 File completion work/ Internal viva
18 Sessional Exams
Name of Faculty:- kirti
Discipline:- ECE
Semester:- B.Tech 3rd
Subject: EMI
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
19 The transform circuit
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
Practice Work/ File completion
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
Practice Work/ File completion
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
59 full syllabus test
60 Problems
13 Sessional Exams
output signal.
Measurement of level using capacitive
transducer..
11
12
Study of Distance measurement using
ultrasonic transducer
7
8
Practice Work/ File completion
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
16Practice Work/ File completion
work
17 File completion work/ Internal viva
18 Sessional Exams
Name of Faculty:- Manisha
Discipline:- ECE
Semester:- M.Tech 1st
Subject: ICT
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
1 Prerequisites & introduction to subject
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
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
Practice Work/ File completion
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
59 full syllabus test
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.
15Practice Work/ File completion
work
16Practice Work/ File completion
work
17 File completion work/ Internal viva
18 Sessional Exams
Name of Faculty:- Manisha
Discipline:- ECE
Semester:- M.Tech 3rd
Subject: NN
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
1 Prerequisites & introduction to subject
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
Name of Faculty:- Manisha
Discipline:- ECE
Semester:- B.Tech 3rd
Subject: Network Theory
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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
19 The transform circuit
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
Practice Work/ File completion
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
Practice Work/ File completion
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
12Practice Work/ File completion
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
16Practice Work/ File completion
work
17 File completion work/ Internal viva
18 Sessional Exams
Name of Faculty:- Tajender Malik
Discipline:- ECE
Semester:- B.Tech 7th
Subject: OC
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test)
1 Prerequisites & introduction to subject
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
Name of Faculty:- Guest faculty 2
Discipline:- ECE
Semester:-B.Tech 7th
Subject: Radar & Sonar Engg
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/test
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
Name of Faculty:- Tajender Malik
Discipline:- ECE
Semester:- B.Tech. 7th
Subject: SATELLITE COMMUNICATION ENGINEERING
Lesson Plan duration:- 30 July 2018 to 30 Nov 2018
Lecture
Day
Topic
(including assignment/
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 .
Practice Work/ File completion
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
16Practice Work/ File completion
work
18 Sessional Exams
17 File completion work/ Internal viva
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
12Practice Work/ File completion
work
To study Minimum shift keying
modulation & de modulation .
8
9
13 Sessional Exams