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Global Institute of Technology
Department of Electronics and Communication Engineering
Vision and Mission Of College
Vision
We would contribute to human development through academic pursuits and be a trendsetter in the field
of Technical and Management education.
Mission
To establish world-class high quality learning environment by way of developing value-based
education system, powered by brilliant professionals and leaders in the field of Engineering &
Management.
Vision and Mission Of Department of Electronics & Communication Engineering
Vision
The vision of the department of Electronics & Communication Engineering is to be recognized as a
trendsetter of its undergraduate programme through focus on core competencies, multi-disciplinary
collaborations, and quality in education.
Mission
To produce higher qualified, well- formed and motivated graduates possessing fundamental knowledge
of engineering practice and research of Electronics and Communication Engineering who can provide
leadership and service to our nation and world.
Program Educational Objectives (PEOs):
The department to fulfil its Mission has following specific educational objectives:
PEO ≠ 1: Core competence & Successful Career
The Graduates of the programme will have successful technical and professional carrier as design
engineers, telecom-engineers, scientists, entrepreneur or work as team leaders or manager in private
sector/PSUs or pursue post graduate and doctorate degree.
PEO ≠ 2: Lifelong Learning
The Graduates of Electronics & Communication Engineering will continue to learn and adapt in a
world of constantly evolving technology.
PEO ≠ 3: Professionalism:
The Graduates of the program shall have professional and ethical attitude, communication skills,
multidisciplinary approach and competence to relate engineering issues to broader social perspective.
Program Outcomes (PO)
The program outcomes are those skills and knowledge which students possess at the time of
graduation. Society expects following capabilities from engineering graduate:
(a) Graduate engineer must have knowledge of mathematics, science, and engineering.
(b) Graduate engineer must be able to conduct experiments, as well as to analyze and interpret data
(c ) Graduate engineer must be able to design a system, component, or process to meet desired needs
within realistic constraints such as economic, environmental, social, political, ethical, health and
safety, manufacturability, and sustainability
(d) Graduate engineer must be able to function in multi-disciplinary teams
(e) Graduate engineer must be able to identify, formulate, and solve engineering problems.
(f) Graduate engineer must have an understanding of professional and ethical responsibility
(g) Graduate engineer must be able to communicate effectively.
(h) Graduate engineer must have the education necessary to understand the impact of engineering
solutions in a global, economic, environmental, and societal context.
(i) Graduate engineer should recognize the need, and should possess ability to engage in life-long
learning.
(j) Graduate engineer must have knowledge of contemporary issues.
Program Specific Outcomes (PSO)
(k) An ability to use the technique, skills and modern engineering tools.
(l) An ability to pinpoint and define engineering problems in the fields of electronics & communication
engineering and able to resolve them through analytical thinking in their own or related fields.
(m) Graduates will exhibit research and problem-solving skills to support lifelong personal and
professional development and able to face competitive exams like GATE, IES, ISRO, BSNL
(JTO), DRDO, DMRC etc.
Mapping Of Cos with POS
S.
No
.
Subject Semeste
r/Code
Course Outcomes BEYOND
SYLLABUS
Progra
mme
OutCom
es
1 Advance
d
Enginee
ring
Mathem
atics-I
3EC2-01 At the end of the course a student will be
able to :
Have a basic understanding of Laplace
Transform.
1. Have basic understanding of Fourier
Transform and Z Transform .
Contour
Integration
Residue
a,b,c,e,h,
i,k,l,m
2 Technic
al
Commu
nication
3EC1-02 The students will be more confident in
verbal & non verbal communication.
The students will be able to develop
analytical frame of mind through
practical exposure of life.
The students will be able to develop
communication process, understanding
the intricacies of communication to be
used in corporate world.
Picture or
situation
description
Root words
d, f,
g i,
j,
l
3 Digital
System
Design
3EC4-04 1. It is useful for understanding the
behaviour of different digital logic.
2. Studentsare able to understand,
identify, formulate and solve
engineering problems.
3. Knowledge ofdigital logic.
4. Students are able to understand
process &working of digital
electronicsand their logics along with
applications.
5. Student are able purse his study in
advanced digital electronics.
DTL/RTL
Advance study of
Digital IC’s.
a,c,e,h,i,
k,l,m
4 Signals
&
Systems
3EC4-05 At the end of the course the students will be
able
To understand the random signals and
stochastic processes for analyzing
communications systems.
To demonstrate an ability to identify,
formulate and solve signal processing
problems.
To demonstrate the knowledge of
digital signal processing.
To demonstrate the ability to visualize and
work on MATLAB
Direct Fourier
transform
Fast Fourier
transform
Circular
convolution
a,b,c,e,h,
k,l,m
5 Network
Theory
3EC4-06 The students will be able to :
have the capability to apply the various
methodology to solve electrical circuit.
have the ability to synthesis electrical
circuit.
understand the basic concept of network
synthesis.
1. to gain the various method to solve &
simplify the complex network
Parallel
Resonance
Miller Theorem
Generation of
three phase
Complex power
Inverse Laplace
transformation
a,b,c,e,h,
k,l,m
6 Electron
ic
Devices
3EC4-07 The students will be able to :
Identify the various devices, working
Principle, Characteristics and their
applications.
have an ability to design various Projects
and working of daily Use Equipment
Knowledge of EDC subject will help the
student to perform various Experiments in
Laboratories which will help in
understanding theory more clearly.
Knowledge of EDC subject will help in
getting Success in various Competitive
Examinations
Introduction of
Oscillators.
Different Types of
Diodes
a,
b,
c,
e,
h,
k,
l,
m
7
EDC
LAB
3EC4-21 At the end of the course a student will be
able to
Identify the various devices, working
Principle, Characteristics and their
applications.
Have an ability to design various
Projects, PCB design and working of
daily Use Equipment.
To understand the frequency response
of different amplifiers
Basic projects
in embedded
system,
a,b,
c,e,
h,i,
k,l
8 DSD
LAB
3EC4-22 At the end of the course a student will be
able:
Students have the basic knowledge of
logic gates, Universal logic gate and
Karnaugh Map.
The knowledge of digital electronics
subject helps the students to perform
various experiments in laboratories,
which will help in understanding theory
more clearly.
Students have the knowledge and use of
modern upcoming technologies like digital
logic families and Flip-flops & register.
TTL/RTL
Advance
study of
Digital IC’s.
a,
b,
e,
h,
i,
k,
l
9 DSP LAB 3EC4-23 At the end of the course the students will be
To simulate the
transmitter and
a, b, c,e,
j, k, l, m
able
To perform the programs like addition,
subtraction of two signals
1. plot the probability density functions.
Find mean and variance for the above
distributions.behaviour of different
digital logic.
2. Students are able to understand,
identify, formulate and solve
engineering problems
3. Students are able to understand process
&working of digital electronics and
their logics along with applications.
4. Students are able to purse his study in
advanced digital electronics.
receiver for BPSK
2. To design and
simulate FIR
digital filter
(LP/HP).
3 To design and
simulate IIR
digital
11 CP LAB-1 3EC3-24 At the end of the course the students will be
able to
Learn how to translate algorithmic
ideas into programming code.
analyze the computational power of
program using complexity
demonstrate the basics of heuristic and
heuristic techniques
Implementation
of B-Tree
Implementation of
adjacency list of
graphs
a, b,
e,
i,
j,k,l,m
12 INDUSTR
IAL
TRAININ
G
3EC7-30 At the end of the course a student will be
able to:
demonstrate the use, interpretation and
application of an appropriate international
engineering standard in a specific
situation.
analyse a given engineering problem,
identify an appropriate problem solving
methodology, implement the methodology
and propose a meaningful solution.
apply prior acquired knowledge in
problem solving
1. identify sources of hazards, and
assess/identify appropriate health &
safety measures.survive within it.
Latest trends in
the field of
electronics.
a,b,c,d,e,
f,g,h,i,j,
k,l,m
13 Advance
d
Enginee
4EC2-01 At the end of the course a student will
have:
the basic knowledge to solve differential
Basic concepts
of Maxima and
Minima
a,
b,
c,
ring
Mathem
atics-II
and partial equation with numerical
methods
ability to find maximum or minimum
value of a definite integral involving a
certain function i.e. functional..
1. ability to get solution of higher
transcendental function with their
properties.It is useful for
understanding the behaviour of
different electronics devices like
oscillators, feedback amplifiers and
power amplifiers and their
classification.
2. Students are able to understand the
knowledge and concept of different
types of Amplifiers which are
necessary in each and every subject.
Basic theory
related to
probability
Knowledge of
Higher
transcendental
functions
e,
h,
i,
k,
l,
m
15 MEFA 4EC1-03 At the end of the course the students will
able to
describe and explain literary cultural
theories of English literature.
choose and describe the most enduring
problems in philosophy
gather and explain the history of
philosophy,
discuss the value of open, free inquiry
and religious diversity.
Display a general ability to understand
and evaluate information.
1. Demonstrate an awareness of diverse
cultures.
Personal
development skills
c,
d,
e,
f,
g
16 ANALO
G
CIRCUI
TS
4EC4-04 At the end of the course the students will
able to analyze the principles of
feedback and evaluate feedback in
analog system with desired
performance.
to understand oscillators, tuned
amplifiers and power amplifiers.
1. to identify the various electronic
components as BJT, FET, working
Principle, Characteristics and their
applications..
Voltage
Controlled
Crystal
Oscillators
Regulated power
supply 78xx Series
IC
a,
b,
c,
e,
h,
i,
k,
l,
m
17 MICRO
CONTR
OLLER
S
4EC4-05 At the end of the course a student will be
able to
understand the evolution of MP
technology
programming, debug and test a small
scale circuits.
identify, formulate, and solve engineering
Students will study
8-bit programming
in 8085
microprocessors.
Knowledge and
concept of 8-bit
programming will
a,b,c,e,h,
l,m
problems in MP based and to analyze
their outcomes.
An ability to design circuits for various
application using microcontroller.
1. Learn the depth knowledge of applying
the concepts of real time
applications.demand of energy in India in
various sectors.
help to understand
the operation of
any higher bit data
processor like 16-
bit, 32-bit etc,
which is useful in
real time
applications of
microprocessor &
microcontroller
based embedded
systems
19 Electron
ic
Measure
ment &
Instrum
entation
4EC3-06 At the end of the course the students will be
able to
Understand the fundamentals of theory
of errors - Accuracy & precision,
Repeatability, Systematic & random
errors.
analyzethe basic concepts related to the
operation of Electrical and Electronic
Measuring Instruments.
basic working of instruments used for
the measurements as well as
understand the errors in measurements
and their rectification.
1. .
Electronics
circuits for
measurements
Signal Analysis
Technique
Multi input and
storage
oscilloscope
a,
b,
c,
h,
l
20 ANALO
G AND
DIGITA
L
COMM
UNICA
TION
4EC4-07 At the end of the course a student will be
able to:
Understand the basic knowledge of
AM,FM and PM.
Understand the knowledge of Analog
Communication subject helps the students
to perform various experiments in
laboratories which will help in
understanding theory more clearly.
Understand the knowledge ofsuperhero
dyne receiver,AM receiver
the basic knowledge of analog and digital
communication and their concepts.
the knowledge of Digital communication
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
the knowledge and use of modern
upcoming technologies for satellite
Communications and wireless
communication
sampling of
analog signal.
Identify &
solve the
aliasing
problem.
The
Transmission
of two signals
over a single
channel using
sampling
methods.
TDM-
PAM:
Modulation &
demodulation.
Application and
Advantages of
digital
communication
and uses of
satellite
communication
a,b,c,e,h,
l,m
21 ANALOG
&
DIGITAL
COMMU
NICATIO
N LAB
4EC4-21 At the end of the course the student will be
able to understand:
the basic knowledge of communication
system & transmission line mechanism.
The knowledge of communication Lab
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
1. Students have the knowledge and use
of modern upcoming technologies in
Communication.
1. Review of
advanced
communicat
ion systems
Review of
advanced
modulation
schemes,Performa
nce Analysis of
different
communication
systems
a,b,g,i,k,
l,m
22 ANALOG
CIRCUIT
LAB
4EC4-22 At the end of the course the students will
be able to design oscillators, tuned
amplifiers and power amplifiers and
can calculate the gain.
have an ability to identify the various
electronic components as BJT FET, and
will be able to draw Characteristics.
Be able to design of feedback amplifier,
and calculate the gain and bandwidth.
Be able to perform various
experiments in laboratories which
will help in understanding theory more
clearly.
Voltage
Controlled
Crystal
Oscillators
Regulated power
supply 78xx Series
IC
a, b,
e,
i,
j, k, l, m
23 Microcon
trollers
Lab
4EC4-23 At the end of the course the students will
be able
To perform the micrroprogrames like
addition, subtraction etc.
To perform the Transfer a block of data
from memory location XX00 to Another
memory location XX00 in forward &
reverse order.
1. To perform the traffic light control
operationtheory more clearly.
8051microcontroll
er hardware.
2. Application of
Microcontrollers
in interfacing.
3. Robotics.
4. Architecture of
8086 µp and
timing diagram
a, b,
e,
i,
j, k, l, m
25
Electroni
cs
Measure
ment &
Instrume
ntation
Lab
4EC4-24
At the end of the course the students will be
able to
Work various devices such as
voltmeters, ammeters, Display devices,
CRO, etc.
Understand the various measurement
techniques available.
1. Understand the errors in measurements
and their rectification. In industries the
practical application uses the basic
Electronics
circuits for
measurements
Signal Analysis
Techquine
Multi input and
storage
oscilloscope
a, b,
e,
i, j, k, l,
m
Knowledge of measurement and
instrumentation to operate the various
process systems..
26 Signals
&
Systems
5EC1A
At the end of the course the students will be
able
To understand the random signals and
stochastic processes for analyzing
communications systems.
To demonstrate an ability to identify,
formulate and solve signal processing
problems.
To demonstrate the knowledge of
digital signal processing.
To demonstrate the ability to visualize and
work on MATLAB
Direct Fourier
transform
Fast Fourier
transform
Circular
convolution
a,b,c,e,h,
k,l,m
27 Linear
Integrat
ed
Circuits
5EC2A At the end of the course a student will:
Students will able to understand
operational amplifiers with linear
integrated circuits. Also students will be
able to design circuits using operational
amplifiers for various applications.
Able to analyze and design op amp
oscillators, single chip oscillators and
frequency generators.
Able to design and analysis of various
applications (linear & nonlinear) using op-
amps and IC 555.
Test simulation
models
&equation. Pulse
width
modulation using
555 timer
Study of
differential
amplifier using
CMOS,
P Spice software
used for designing
of circuits and
easy way to study
abt oscillators,
General
information about
microwave filters
a,b,c,e,k,
l,m
28 Telecom
municati
on Engg.
5EC3A At the end of the course a student will be
able to:
have the basic knowledge of Transmission
line principle & telephone set mechanism.
to perform various experiments in
laboratories which will help in
understanding theory more clearly.
have the knowledge and use of modern
upcoming technologies in
Communication.
use design tools for Telecommunication
system design, test and evaluation
computational skills relevant to analyse
and solve control system problems.
Students are able to understand use the
techniques, skills, and modern engineering
.Fundamentals of
advanced networks,
architecture and
protocols
2.Telecommunicati
on management
and security in
telecommunication
networks
3.Performance
Analysis of
SVD‐assisted
a,b,c,e,h,
k,l,m
tools necessary for engineering practice.
Broadband
MIMO
Transmission
Schemes
30 Analog
Commu
nication
.
5EC4A At the end of the course a student will be
able to:
Understand the basic knowledge of
AM,FM and PM.
Understand the knowledge of Analog
Communication subject helps the students
to perform various experiments in
laboratories which will help in
understanding theory more clearly.
Understand the knowledge of superhero dyne receiver,AM receiver.
ASK, FSK, PSK,
receiver.
Superhetrodyne
New Practical
application of
Analog
Communication
a,b,c,e,h,
l,m
31 Microw
ave
Engg. -I
5EC5A At the end of the course student will be
able to :
understand the basic knowledge of the
transmission of Microwaves.
understand the basics of various
Microwave guiding component such as
Tees, Coupler, Circulators etc.
understand the low and high power
Microwave generators and their practical
consideration
Microwave filters
2. Microwave
transmission
through satellite
link.
a,b,c,e,h,
l,m
32 Biomedi
cal
Instrum
entation
5EC6A At the end of the course student will be
able to understand:
Students learn various technologies relating
to the biological analysis in the electronic
domain.
Students will be able to communicate and
develop efficiently in the two
multidimensional areas of biology and
instrumentation.
Students will be able to understand the
position of biomedical instrumentation in
modern hospital care.
X ray machine a,b,c,e,h,
i,l
33
Electron
ic
Enginee
ring
Design
Lab
5EC7A
At the end of the course student will be
able:
Analyze and design various applications
using Op-amp.
in laboratories which help in understanding
the theory clearly. Design multivibrators
using timer 555, and analog and digital
circuits using op amps.
Design combinational logic circuits using
digital ICs.
Zero crossing
Detector
2. Schmitt
Trigger
3. Full wave
precision rectifier
4. Voltage
regulation
a,b,e,i,j
34
Microw
ave
Engg.
Lab
5EC8A
At the end of the course student will be
able to:
understand the basic knowledge of the
transmission of Microwaves.
. Microwave
filters
2. Microwave b,e,k,l
understand the basics of various
Microwave guiding component such as
Tees, Coupler, Circulators etc.
understand the low and high power
Microwave generators and their practical
consideration
transmission
through satellite
link.
35
Commu
nication
Lab-I
5EC9A
At the end of the course the student will be
able to understand:
the basic knowledge of communication
system & transmission line mechanism.
The knowledge of communication Lab
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
Students have the knowledge and use of
modern upcoming technologies in
Communication
1. Review of
advanced
communicat
ion systems
Review of
advanced
modulation
schemes,Performa
nce Analysis of
different
communication
systems
a,b,g,i,k,
l,m
36
Signal
Processi
ng Lab
5EC10A
At the end of the course the students will be
able
To perform the programs like addition,
subtraction of two signals
1. plot the probability density functions. Find
mean and variance for the above
distributions.
To simulate the
transmitter and
receiver for BPSK
2. To design and
simulate FIR
digital filter
(LP/HP).
3 To design and
simulate IIR
digital filter
(LP/HP).
a, b, c,e,
j, k, l, m
37
Microw
ave
Engg.-II
6EC1A
At the end of the course student will be
able:
To understand the basic knowledge of the
parameters related to the Microwave and
RF.
To understand the basics of Microwave
semiconductor devices and their working.
To understand the MW devices and its
application, and transmission of
microwave over the satellite channel.
1. To understand the working various
microwave devices and practical use
of the devices.
demonstrate the important properties
of these devices and the fabrication
and designing of various Microwave
integrated circuitsStudents are able to
appreciate their role in national
reconstruction by responding to the
Microwave
Communicatio
n system
Microwave
transistor.
Scattering
parameters
Microwave
computer-
aided design
(CAD)
methods
electromagneti
c and plane
waves in
uniform space
Transient
transmission line
analysis and
applications
a,b,c,e,h,
l,m
challenges of the time.
2. Students are able to understand the cut
throat competition and learn how to
survive within it.
39 Micropr
ocessors
6EC2A At the end of the course a student will be
able to
understand the evolution of MP
technology
programming, debug and test a small
scale circuits.
identify, formulate, and solve engineering
problems in MP based and to analyze
their outcomes.
An ability to design circuits for various
application using microcontroller.
1. Learn the depth knowledge of applying
the concepts of real time applications.
Students will study
8-bit programming
in 8085
microprocessors.
Knowledge and
concept of 8-bit
programming will
help to understand
the operation of
any higher bit data
processor like 16-
bit, 32-bit etc,
which is useful in
real time
applications of
microprocessor &
microcontroller
based embedded
systems.
a,b,c,e,h,
l,m
40 Industri
al
Electron
ics
6EC3A 1. At the end of the course a student will be
able t:
have the basic knowledge of power
electronic component.
Have knowledge of rectifier and inverter
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
have the knowledge and use of
modern upcoming technologies
Modern power
components
h,i,j,k,l,
m
41 Digital
Commu
nication
.
6EC4A At the end of the course the students will be
able to understand
the basic knowledge of analog and digital
communication and their concepts.
the knowledge of Digital communication
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
1. the knowledge and use of modern
upcoming technologies for satellite
Communications and wireless
communication . protection.
2. Students are able to gain the knowledge
about the switchgear devices in power
system.
3. Students are able to gain the knowledge
about the voltage protection.
sampling of
analog signal.
Identify &
solve the
aliasing
problem.
The
Transmission
of two signals
over a single
channel using
sampling
methods.
TDM-
PAM:
Modulation &
a,b,c,e,h,
l,m
demodulation.
Application and
Advantages of
digital
communication
and uses of
satellite
communication
43 Control
Systems
6EC5A At the end of the course the students will be
Able
To identify the various machines, working
Principle, Characteristics and their
applications.
To analyze the principles of system
modeling, feedback control and evaluate
feedback control systems with desired
performance.
To understand system stability, sensitivity,
transient and tracking performance.
To control system design such as design of
feedback controllers, such as PID, lead
and lag compensators, pole placement
designs, to meet desired system
performance specifications
Laplace
Transformation
Nonlinearity and
Uncertainty of
Control Systems,
Digital Control
Systems
Modeling
OfMechanical
System In To
Electrical System
a,b,c,e,h,
k,l,m
44 Optical
Fiber
Commu
nication
6EC6A At the end of the course a student will be
able to have
the basic knowledge of Ray theory
principle & optical fiber working
concepts.
the knowledge of optical communication
subject helps the students to perform
various experiments in laboratories which
will help in understanding theory more
clearly.
the knowledge and use of modern
upcoming technologies in optical
communication.
to use design tools for optical system
design, test and evaluation.
to use optical technology in Consumer
Electronics, ,communication Systems
Handheld computers, Communication
devices.
Optical
amplification
EDFA and
SOA
Tunable laser
diode
Optical
switching
A,c,e
45 Commu
nication
Lab-II .
6EC7A
At the end of the course the students will be
able to
have the basic knowledge of analog and
digital communication and their concepts.
Have the knowledge of Digital
communication helps the students to
perform various experiments in
laboratories which will help in
.Sampling of
analog signal.
Identify & solve
the aliasing
problem.
2.The
Transmission of
two signals over a
single channel
a,b,g,i,k,
l,m
understanding theory more clearly.
have the knowledge and use of modern
upcoming technologies for satellite
Communications
using sampling
methods.
3.TDM-PAM:
Modulation &
demodulation.
4.Application and
Advantages of
digital
communication
and uses of
satellite
communication
46
Micropr
ocessor
Lab
6EC8A
At the end of the course the students will
be able
To perform the micrroprogrames like
addition, subtraction etc.
To perform the Transfer a block of data
from memory location XX00 to Another
memory location XX00 in forward &
reverse order.
To perform the traffic light control
operation
8051microcontroll
er hardware.
2. Application of
Microcontrollers
in interfacing.
3. Robotics.
4. Architecture of
8086 µp and
timing diagram.
a,e,l
47
RF
Simulati
on Lab
6EC9A
At the end of the course the student will
able to
Understands the fundamentals of RF
system design.
Gain knowledge about RF Filter
designing.
Knowledge in RF Active components.
1. Learns the various techniques for RF
transistor amplifier design, Oscillators
and mixer design used in RF design.
2. Students are able to design features of
distribution system and PCD.
Sampling theorem
verification.
2.Students can
understand
Autocorrelation
and cross
correlation
between signals
and sequences.
3.Computation of
unit step, unit
sample and
sinusoidal
responses of given
L
a,b,c,e,h,l
48
Industri
al
Electron
ics Lab
6EC10A
At the end of the course a student will
be able to
Understand the basic knowledge of power
electronic component.
Have the knowledge of rectifier and
inverter helps the students to perform
various experiments in laboratories which
will help in understanding theory more
clearly.
have the knowledge and use of modern
upcoming technologies
HVDV transmission
a,b,c,e,k,l
49 Antenna
& Wave
Propaga
7EC1A
At the end of course a student will be able
to have
The basic knowledge of antenna
GPS Technology
Smart Antennas a,e,l,m
tion working principle & antenna arrays
working concepts.
The knowledge of antenna subject helps
the students to perform various
experiments in laboratories which will
help in understanding theory more
clearly.
The knowledge and use of modern
upcoming technologies like GPS,Smart
antenna, wave propagation through free
space
Micro strip
antenna in
different shapes
50
Digital
Signal
Processi
ng
7EC2A
At the end of course a student will be able
to have the knowledge of
Sampling - discrete time processing of
continuous-time signals,
Introduction, the frequency response of
LTI systems,
Structures for discrete-time systems
Basic structures for IIR and fir systems,
transposed forms.
Introduction, analog filter design:
Butterworth & chebyshev.iir filter
design by impulse invariance & bilinear
transformation.
Design kaiser.window.
discrete fourier transform (DFT),
FFT algorithms
Quantizatio
n noise –
derivation for
quantization
noise power –
Fixed point and
binary floating
point
number
representation –
comparison –
over flow error
– truncation
error – co-
efficient
quantization error
- limit cycle
oscillation
g,f,i
51 Digital
Image
Processi
ng
7EC3A At the end of the course the students will be
able to understand followings
The basic concepts of two-dimensional
signal acquisition, sampling, and
quantization.
Spatial filtering techniques, including
linear and nonlinear methods.
The Human Visual System (HVS) and its
affect on image perception and
understanding.
1. The fundamental image enhancement
algorithms such as histogram
modification, contrast manipulation, and
edge detection.
Discrete
cosine
Transform
Properties
of Walsh
transform
a,b,c,e,h,
k,l,m
52 Wireless
Commu
nication
7EC4A At the end of the course a student will be
able to
understand the basic knowledge of antenna
working principle & antenna arrays
working concepts.
understand the knowledge of antenna lab
helps the students to perform various
experiments in laboratories which will help
in understanding theory more clearly.
1. have the knowledge and use of modern upcoming technologies like GPS,Smart antenna, wave propagation through free
4th generation,
Wireless sensor
network,
Wireless
communication in
Industries
a,b,c,e,h,
l
space
53
VLSI
Design
7EC5A At the end of the course a student will be:
Able to understand the evolution of VLSI
technology
Able to design logic circuit layouts for
both static CMOS and dynamic clocked
CMOS circuits.
Able to learn Layout, Stick diagrams,
Fabrication steps, Static and Switching
characteristics of inverters.
To be aware about the trends in
semiconductor technology, and how it
impacts scaling and performance.
1. Able to the design of digital systems using
VHDL hardware description language..
Introductio
n to
Verilog,
Program to
design
Logic
gates,
Program to
design
digital
circuits,
Introductio
n to FPGA
Architectu
re,
VLSI in
Industries
a,b,c,e,h,
i,
54
VHDL 7EC6A
At the end of the course a student will be
able to :
Learn to use VHDL for simulation and
synthesis.
Understanding of advanced VHDL
features.
Learn design and analysis of clocked
sequential circuits.
Understanding of modern CAD tools
like FPGA.
Verilog
Programming
Language
a,f,h,m
55 Signal &
Image
Processi
ng Lab
7EC7A At the end of the course a student will be
able to understand
Signal and system and its application,
elementary signals and their properties.
The concept of signal processing, various
types of signals used in Communication
and image processing.
1. To develop the skills for analyzing the
system by using MATLAB.
Program to
perform half
adder, Full adder
in Verilog Using
Xilinx Software.
2. Program to
perform Mux,
DeMux in Verilog
Using Xilinx
Software
3. Image
Processing Basics
4. Animations in
MATLAB etc.
a,b,c
56 Wireless
Commu
nication
Lab
7EC8A At the end of the course a student will be
able to:
Understand the basic knowledge of
antenna working principle & antenna
arrays working concepts.
To make micro
strip patch antenna
using software such
a,b,c,l
Understand the knowledge of antenna lab
helps the students to perform various
experiments in laboratories which will
help in understanding theory more clearly.
1. have the knowledge and use of modern
upcoming technologies like GPS,Smart
antenna, wave propagation through free
space.
as HFSS
2.To draw the
radiation pattern
of antenna using
MATLAB
57
Practica
l
Training
&
Industri
al Visit
7EC8A
At the end of the course a student will be
able to:
demonstrate the use, interpretation and
application of an appropriate international
engineering standard in a specific
situation.
analyse a given engineering problem,
identify an appropriate problem solving
methodology, implement the methodology
and propose a meaningful solution.
apply prior acquired knowledge in
problem solving
identify sources of hazards, and
assess/identify appropriate health & safety
measures.
Latest trends in
the field of
electronics
a,b,c,d,e,
f,g,h,i,j,
k,l,m
58
Project-
I
7EC9A
At the end of the course a student will be
able to:
1. apply the relevant knowledge and
skills, which are acquired within the
technical area, to a given problem within
given constraints, even with limited
information, independently analyze and
discuss complex inquiries/problems.
2. behandle larger problems on the
advanced level within the technical area -
Reflect on, evaluate, and critically assess
one’s own and others’ scientific results.
3. document and present one’s own
work, for a given target group, with strict
requirements on structure, format, and
language usage.
identify one’s need for further knowledge
and continuously develop one’s own
competencies
Different
Programming
Languages. E.g.
C++, Java.
a,b,e,l
59
IC
Technol
ogy
8EC1A
At the end of the course the students will be
able to:
have the basic knowledge of IC processing
& identify, formulate and solve IC
processing problems.
1 have the knowledge and use of
modern upcoming technologies in I.C.
fabrication..
X-RAY
LITHOGRAPHY
Plasma
enhanced CVD
a,b,e,i
60
Radar &
TV
Enginee
ring
8EC2A
At the end of the course the students will be
able to understand
the basic knowledge of radar working
principle & television working concepts.
the knowledge and use of modern
upcoming technologies like HDTV, DBS-
TV, 3D-TV.
Ground moving
indicator radar
Digital
television
a,b,c,d,e,f,
k,l
61
MEMS
and
Nanotec
hnology
8EC3A
t the end of the course a student will be
able to
Learn to use MEMS for simulation and
synthesis.
Understanding of advanced Nano-Particle
features.
Learn design and Fabrication Technique.
Understanding of modern Electro -
Mechanical Micro System.
Learn their Electrical, Magnetic,
Mechanical and Optical Properties
andApplications
. Micro-Sensor
working and
demonstration.
2. Micro-
Actuator’s
working and
demonstration
a,b,c,d,e,j,
k,l
62 MEMS
and
Nanotec
hnology
8EC3A 1. Students are able to understand the
generation of electrical energy through
various methods.
2. Students are able to understand the
theoretical and practical knowledge base
in extra high voltage field and how to use
electric power with efficient manner.
3. Students are able to purse his study in
advanced techniques of transmission of
the electricity.
Fact Devices-
UPFC
A,e,h,l
63 Operati
ng
System
8EC4A At the end of the course a student will be
able to understand about:
History, Operating system services, types,
responsibilities, generations, LINUX,
WINDOWS.
Operations on process, Process state,
Scheduling, Criteria, responsibilities,
generations, LINUX, WINDOWS.
Introduction to
Robotics
Program to design
Logic gates,
Program to design
digital circuits,
Introduction to
FPGA
Architecture,
VLSI in
Industries
a,b,l
64 RF
Fabricat
ion Lab
8EC5A At the end of the course the students will be
able to
Understand and implement the
Maxwell’s Equations in Electromagnetic
field theory
Understand and analyze the Boundary
conditions for different mediums i.e.
Dielectric to Dielectric, Dielectric to
Acquire
knowledge about
the Transmission
lines for various
frequencies.
Analyze basic
transmission line
b,c,e,j
conductor interfaces.
1. Understand and analyze the various
parameters and characteristics of the EM
Waves
parameters in
phasor domain.
Understand the
smith chart
65 Industri
al
Economi
cs &
Manage
ment
8EC6A At the end of the course a student will be
able to understand followings:
Students have the basic knowledge of
Organizational forms.
1. Students have the knowledge of
Principles of management and Labour
Legislations
Review of quality
and environment
standards
d,f,g,I,j
66
VLSI &
Optical
Fiber
Lab
8EC7A
At the end of the course a student will be
able to understand followings:
Students have the basic knowledge of
optical communication system & VLSI
Design.
The knowledge of VLSI & ofc Lab helps
the students to perform various experiments
in laboratories which will help in
understanding theory more clearly.
Students have the knowledge and use of
modern upcoming technologies in optical
Communication and VLSI
Review of
advanced optical
communication
systems.
2. Review of
advanced light
source and
detectors.
3. Technical
specific Design of
digital Circuits
a,b,e
67
Project -
II
8EC8A
The student should –
1.be able to apply the relevant knowledge and
skills, which are acquired within the
technical area, to a given problem within
given constraints, even with limited
information, independently analyze and
discuss complex inquiries/problems.
2.be able to handle larger problems on the
advanced level within the technical area -
Reflect on, evaluate, and critically assess
one’s own and others’ scientific results.
3.be able to document and present one’s own
work, for a given target group, with strict
requirements on structure, format, and
language usage.
4.be able to identify one’s need for further
knowledge and continuously develop one’s
own competencies.
Different
Programming
Languages. E.g.
C++, Java.
a,b,c,d,e,
f,g,h,i,j,
k,l,m
68
Seminar 8EC9A
Ability to demonstrate the use,
interpretation and application of an
appropriate international engineering
standard in a specific situation.
Ability to analyse a given engineering
problem, identify an appropriate problem
solving methodology, implement the
methodology and propose a meaningful
Latest trends in
the field of
electronics
a,b,c,e,l
solution.
Ability to apply prior acquired knowledge in
problem solving.
Ability to identify sources of hazards, and
assess/identify appropriate health & safety
measures