ST JOSEPH’S COLLEGE OF ENGINEEIRNG, CHENNAI

B.E. ELECTRONICS AND COMMUNICATION ENGINEERING

REGULATIONS – 2017

PROGRAM EDUCATIONAL OBJECTIVES

To enable graduates to pursue research, or have a successful career in academia or industries associated
PEO1 with Electronics and Communication Engineering, or as entrepreneurs.
To provide students with strong foundational concepts and also advanced techniques and tools in order
PEO2
to enable them to build solutions or systems of varying complexity.
To prepare students to critically analyze existing literature in an area of specialization and ethically
PEO3
develop innovative and research oriented methodologies to solve the problems identified..

PROGRAM OUTCOMES
Engineering Knowledge: Apply the knowledge of mathematics, science, engineering fundamentals,
PO1
and an engineering specialization to the solution of complex engineering problems.
Problem analysis: Identify, formulate, review research literature, and analyze complex engineering
PO2 problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and
engineering sciences.
Design/development of solutions: Design solutions for complex engineering problems and design
PO3 system components or processes that meet the specified needs with appropriate consideration for the
public health and safety, and the cultural, societal, and environmental considerations.
Conduct investigations of complex problems: Use research-based knowledge and research methods
PO4 including design of experiments, analysis and interpretation of data, and synthesis of the information to
provide valid conclusions.
Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern
PO5 engineering and IT tools including prediction and modeling to complex engineering activities with an
understanding of the limitations.
The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal,
PO6 health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional
engineering practice.
Environment and sustainability: Understand the impact of the professional engineering solutions in
PO7 societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable
development.
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the
PO8
engineering practice.
Individual and team work: Function effectively as an individual, and as a member or leader in diverse
PO9
teams, and in multidisciplinary settings.
Communication: Communicate effectively on complex engineering activities with the engineering
PO10 community and with society at large, such as, being able to comprehend and write effective reports and
design documentation, make effective presentations, and give and receive clear instructions.
Project management and finance: Demonstrate knowledge and understanding of the engineering and
PO11 management principles and apply these to one’s own work, as a member and leader in a team, to manage
projects and in multidisciplinary environments.
Life-long learning: Recognize the need for, and have the preparation and ability to engage in
PO12
independent and life-long learning in the broadest context of technological change.

PROGRAM SPECIFIC OUTCOMES

To analyse, design and develop solutions by applying foundational concepts of electronics and
PSO1
communication engineering.
To apply design principles and best practices for developing quality products for scientific and business
PSO2
applications.
To adapt to emerging information and communication technologies (ICT) to innovate ideas and
PSO3 solutions to existing/novel problems.
HS8151 – COMMUNICATIVE ENGLISH
Course Outcomes:

COs STATEMENT

Speak clearly, confidently, comprehensibly, and communicate with one or many listeners using
C101.1
appropriate communicative strategies.
Write cohesively and coherently and flawlessly avoiding grammatical errors, using a wide
C101.2
vocabulary range, organizing their ideas logically on a topic.
C101.3 Read different genres of texts adopting various reading strategies.

C101.4 Listen/view and comprehend different spoken discourses/excerpts in different accents

C101.5 Identify topics and formulate questions for productive inquiry

MA 8151 ENGINEERING MATHEMATICS I

Course Outcomes:
Course STATEMENT
Outcomes
C102.1 Students will be able to understand the concept of function and limit of a function and apply the
same to deal with continuity and derivative of a given function. Apply differentiation to solve
maxima and minima problems, which are related to real world problems.
C102.2 Students will have the idea of extension of a function of one variable to several variables.
Multivariable functions of real variables arise inevitable in engineering.
C102.3 Students will be able to understand the concept of integration through Riemann sums and
fundamental theorem of calculus. Also acquire skills to evaluate the integrals using the techniques
of substitution, partial fraction and integration by parts along with the knowledge of improper
integrals.
C102.4 The students will be exposed to double and triple integration so that they can handle integrals of
higher order which are applied in engineering field.
C102.5 The students were imbibed with techniques in solving ordinary differential equations that arises in
most of the engineering problems

PH8151/ENGINEERING PHYSICS
Course Outcomes:
COs STATEMENT
C103.1 Able to understand the concept of stress, strain, factors affecting elasticity, bending of beam, twisting
couple, torsional pendulum, depression of a cantilever, young’s modulus and I-shape girders.
C103.2 Able to understand the different type of oscillations and their equations, plane progressive waves.
Able to understand the concept, properties of lasers, working of different types of semiconductor
lasers. Apply the properties of lasers in industry for welding, heat treatment, for diagnosis and therapy
in medicine. Able to understand the principle and propagation of light (Lasers) in optical fibres, the
various types of optical fibres and the loss mechanisms in optical fibres. Apply the characteristics of
laser and fibre in fibre optic communication system and sensors.
C103.3 To understand the concept of transfer of heat energy, thermal expansion, and thermal conduction.
Able to understand the thermal conductivity, forbe’s and lee’s disc method, heat conduction through
compound media, and thermal insulation. Apply the concept of thermal insulation in heat exchangers,
refrigerators, ovens, and solar waterheaters.
C103.4 Able to understand the concept of wave nature and apply in electron microscope like STEM.
C103.5 Able to understand the different structures of crystalline solids like SC, BCC ,FCC, HCP, Diamond
and the various types of defects in crystalline solids and growth of crystals.
CY8151 - ENGINEERING CHEMISTRY
Course Outcomes:
COs STATEMENT
C104.1 Able to understand impurities in industrial water, boiler troubles, internal and external treatment
methods of purifying water.
C104.2 Able to understand concepts of absorption, adsorption and adsorption isotherms, application of
adsorption for pollution abatement, catalysis and enzyme kinetics.
C104.3 Able to recognize significance of alloying, functions of alloying elements and types of alloys, uses of
alloys. They should be acquainted with phase rule and reduced phase and its applications in alloying
C104.4 Able to identify various types of fuels, properties, uses and analysis of fuels. They should be able to
understand combustion of fuels, method of preparation of bio-diesel, synthetic petrol.
C104.5 Able to understand conventional, non-conventional energy sources. They should be aware of nuclear
fission and fusion, power generation by nuclear reactor, wind, solar energy and preparation, uses of
various batteries.

GE8151- PROBLEM SOLVING AND PYTHON PROGRAMMING

Course Outcomes:

Course
STATEMENT
Outcomes
C105.1 Develop algorithmic solutions to simple computational problems
C105.2 Read, write, execute by simple Python programs.
Structure simple Python programs for solving problems. Decompose a Python program into
C105.3
functions.
C105.4 Represent compound data using Python lists, tuples and dictionaries.
C105.5 Read and write data from/to files in Python Programs.

GE8152- ENGINEERING GRAPHICS

Course Outcomes:
Course
STATEMENT
Outcomes
C106.1 To understand the fundamentals and standards of Engineering graphics

C106.2 To perform freehand sketching of basic geometrical constructions and multiple views of objects
C106.3 To understand the concept of orthographic projections of lines and plane surfaces
C106.4 To draw the projections of section of solids and development of surfaces
C106.5 To visualize and to project isometric and perspective sections of simple solids

GE8161 - PROBLEM SOLVING AND PYTHON PROGRAMMING LABORATORY

COURSE OUTCOMES:
On completion of this lab course, the students will be able to
C107.1 Write, test, and debug simple Python programs.
C107.2 Implement Python programs with conditionals and loops.
C107.3 Develop Python programs step-wise by defining functions and calling them.
C107.4 Use Python lists, tuples, dictionaries for representing compound data.
C107.5 Read and write data from/to files in Python.
BS8161 - PHYSICS CHEMISTRY LABORATORY
Course Outcomes:

COs STATEMENT
C108.1 Able to understand the working principle of laser components and working of different laser
system. Able to understand the phenomenon of light, applications of fibre optics. Able to
understand the amount of dissolved oxygen present in the water .
C108.2 Able to understand the concept about the basic properties of matter like stress, strain and types of
modulii.Able to understand the concept about the amount of chloride present in the given sample
of water.
C108.3 Able to understand the concept of optics like reflection, refraction , diffraction by using
spectrometer grating. Able to understand the concept about the measure the conductance of strong
acid and strong base, mixture of acids by using conductivity meter.
C108.4 Able to understand the thermal properties of solids, specific heat and some models for specific
heat calculation. Able to understand the concept of determining the strength of given substance by
precipitation titration using conductivity meter.
C108.5 Able to understand the concept about the basic properties of matter like stress, strain and types of
moduli Able to understand the thin film interference and diffraction types.Able to understand the
concept of determining the pH, emf values by using pH and potentiometer.

HS8251 TECHNICAL ENGLISH

Course Outcomes:
After the course, students will be able to:
CO Course Outcomes(Cos)
Speak clearly, confidently, comprehensibly, and communicate with one or many listeners
C109.1
using appropriate communicative strategies.
Write cohesively and coherently and flawlessly avoiding grammatical errors, using a wide
C109.2
vocabulary range, organizing their ideas logically on a topic.
C109.3 Read different genres of texts adopting various reading strategies.

C109.4 Listen/view and comprehend different spoken discourses/excerpts in different accents

C109.5 Identify topics and formulate questions for productive inquiry

MA8251 ENGINEERING MATHEMATICS II

Course Outcomes:
COs STATEMENT
C110.1 The students will have a clear idea of matrix algebra pertaining Eigen values and Eigen vectors in addition
dealing with quadratic forms.
C110.2 The student were acquainted with the concepts of vector calculus-like Gradient, Divergence, Curl,
Directional derivative, Irrational vector and Solenoidal vector. The course gives an understanding of
Vector integration, needed for problems in all engineering disciplines.
C110.3 To develop an understanding of the standard techniques of complex variable and mapping so as to enable
the student to apply them with confidence, in application areas such as heat conduction, elasticity, fluid
dynamics and flow of electric current .
C110.4 The student will be exposed to the concept of Cauchy’s integral theorem, Taylor and Laurent expansions,
Singular points, Application of residue theorem to evaluate complex integrals.
C110.5 To make the students to appreciate the purpose of using transforms to create new domain in which it is
easier to handle the problem that is being investigated.
 PH8253 - PHYSICS FOR ELECTRONICS ENGINEERING
Enlistment of Course Outcomes:
COs STATEMENT
C111.1 Gain knowledge on classical and quantum electron theories.
C111.2 Understand the concentration of charge carriers in intrinsic and extrinsic semiconductors and
importance of Hall effect.
C111.3 Acquire knowledge about the types of magnetic materials and its applications. Furthermore types
of polarization, frequency and temperature variation of polarization and dielectric loss are taught
to students.
C111.4 Understand the basics of optoelectronic devices, its properties and applications.
C111.5 Gain knowledge about the fundamentals of nanotechnology and its impact on Nano electronics.

BE8254 BASIC ELECTRICAL AND INSTRUMENTATION

COURSE OUTCOMES:
After the course, the student should be able to:
CO Course Outcomes
C112.1 To Understand the concept of three phase power circuits
C112.2 Able to understand the working of Transformer and analyze the operation of transformer in different
loading condition
C112.3
Able to understand the construction and working of DC Generators and DC motors
C1124 Able to understand the construction and working of induction motors and synchronous motors
C112.5 Able to understand the relevance of digital instruments in measurements and understanding the
working principles of different types of transducers

EC8251- CIRCUIT ANALYSIS

COURSE OUTCOMES
C113.1 Develop the capacity to analyze electrical circuits, apply the circuit theorems in real time
C113.2 To impart knowledge on solving circuits using network theorems
C113.3 To introduce the phenomenon of resonance in coupled circuits
C113.4 To educate on obtaining the transient response of circuits
C113.5 Design and understand and evaluate the AC and DC circuits

EC8252: ELECTRONIC DEVICES

Course Outcomes
On successful completion of this course, the student will be able to

C114.1 Explain the V-I characteristic of diode, UJT and SCR.

C114.2 Describe the equivalence circuits of transistors.
Operate the basic electronic devices such as PN junction diode, Bipolar and Field effect Transistors,
C114.3
Power control devices, LED, LCD and other Opto-electronic devices.
To study and analyse the special semiconductor devices like MESFET,FINFET, PINFET, CNTFET,
C114.4 Zener diode, Schottky barrier diode , Varactor diode, Tunnel Diode, GAas Devices, LASER and LDR
Diode.
 EC8261 CIRCUITS AND DEVICES LABORATORY
COURSE OUTCOMES:
On completion of this lab course, the students will be able to
C115.1 Learn the characteristics of basic electronic devices like BJT, FET and SCR.
C115.2 Verify KVL & KCL
C115.3 Design RL and RC circuits
C115.4 To verify the Performance of clipper, clamper and rectifier circuits
C115.5 Verify basic theorems

GE8261 ENGINEERING PRACTICES LABORATORY

COURSE OUTCOMES:

Course
STATEMENT
Outcomes
fabricate carpentry components and pipe connections including plumbing works, use welding
C116.1
equipments to join the structures and carry out the basic machining operations

C116.2 Make the models using sheet metal works

C116.3 Illustrate on centrifugal pump, Air conditioner, operations of smithy, foundary and fittings

C116.4 Carry out basic home electrical works and appliances and measure the electrical quantities
C116.5 Elaborate on the components, gates, soldering practices

MA8352 LINEAR ALGEBRA & PARTIAL DIFFERENTIAL EQUATIONS

COURSE OUTCOMES:
COs STATEMENT
C201.1 Able to get basic knowledge and idea about any entity involving both magnitude, direction and to
solve linear algebra problems involving subspaces, linear dependence, span, basis or dimension.
C201.2 Able to write proofs of basic linear algebra results and use the variety of methods to solve differential
equations.
C201.3 To describe the linear structure existence and uniqueness of solutions to differential equations and in
modern treatments of geometry an analysis.
C201.4 To understand the procedure to solve partial differential equations.
C201.5 Able to solve boundary value problems using Fourier series.

EC8393- FUNDAMENTALS OF DATA STRUCTURES IN C

Course Outcomes
On successful completion of this course, the student will be able to
C202.1 Understand the fundamentals of C programming which includes data types, expression, I/O operations,
branching, looping, array and string concepts
C202.2 Understand the basic fundamentals of functions, pointer, structures and union in C, storage classes and
preprocessor directives.
C202.3 Obtain the basic Learning of linear data structures, and its applications.

C202.4 Understand the ability of using tree concepts and graphs in various applications.

C202.5 Understand the various types sorting and searching techniques.

EC8351 ELECTRONIC CRIRCUITS I
COURSE OUTCOMES
C203.1 Acquire knowledge of working principles, characteristics, applications of BJT and FET
C203.2 Analyze the performance of small signal BJT and FET amplifiers-Single stage and Multi stage
amplifiers
C203.3 Acquire knowledge of Frequency response characteristics of BJT and FET amplifiers
C203.4 Apply the knowledge gained in the design of electronic circuits

EC8352 SIGNALS AND SYSTEMS

COURSE OUTCOMES
C204.1 To understand the basic properties of signal & systems and the various methods of classification
C204.2 To learn Laplace Transform &Fourier transform and their properties
C204.3 To characterize LTI systems in the Time domain and various Transform domains
C204.4 To know Z transform & DTFT and their properties
C204.5 To characterize LTI systems in the Time domain and various Transform domains

EC8392: DIGITAL ELECTRONICS

COURSE OUTCOMES
At the end of this course, the student will be able to
C205.1 Analyze different methods to simplify Boolean Expressions to minimize the hardware
complexity.
C205.2 Design and implement Combinational circuits using discrete gates and ICs.
C205.3 Design and analyze synchronous sequential circuits
C205.4 Design and analyze asynchronous sequential circuits
C205.5 Design and implement Combinational circuits using PLDs and understand semiconductor
memory classification and operation

EC8391 – CONTROL SYSTEM ENGINEERING

COURSE OUTCOMES
C206.1 Able to identify the various control system components and their representations.
C206.2 Analyze the various time domain parameters
C206.3 Analyze the various frequency response plots and its system.
C206.4 Apply the concepts of various system stability criterions
C206.5 Design various transfer functions of digital control system using state variable models.

EC8381 - FUNDAMENTALS OF DATA STRUCTURES IN C LABORATORY

COURSE OUTCOMES:
On completion of this lab course, the students will be able to
Able to understand and implement basic C programs, functions and recursive functions by
C207.1
means of data structures
C207.2 Able to apply linear and non-linear data structures in problem solving using C language.
C207.3 Able to implement searching, sorting and Hashing Techniques.
EC8361 – ANALOG AND DIGITAL CIRCUITS LABORATORY
COURSE OUTCOMES (COS):
EC8361 Description
C208.1 Design and Test BJT/JFET amplifiers,cascade and cascode amplifiers
C208.2 Measure CMRR in differential Amplifiers
C208.3 Design and Test rectifiers,filters and regulated power supplies
C208.4 Simulate and analyze amplifiers circuits using Pspice
C208.5 Design and Test the digital logic Circuits

HS8381 INTERPERSONAL SKILLS/LISTENING & SPEAKING

COURSE OUTCOMES:
On completion of this lab course, the students will be able to
HS8381 Description
C209.1 Listen and respond appropriately.
C209.2 Participate in group discussions.
C209.3 Make effective presentations.
C209.4 Participate confidently and appropriately in conversations both formal and informal.

MA8451 - PROBABILITY & RANDOM PROCESSES

COURSE OUTCOMES
Course STATEMENT
Outcomes
C210.1 Able to get the exposure to random variable and well founded the knowledge of standard
distributions which can be described real life phenomena.
C210.2 Able to handle situations involving more than one random variable and functions.
C210.3 Able to acquire skills and knowledge of applications of random phenomena with respect to time
in probabilistic manner.
C210.4 Able to find the relation between two or more random variables, the nature of relationship and
degree of relationship.

EC8452 Electronic Circuits II

COURSE OUTCOMES
On completion of this course, the students will be
C211.1 Analyze and understand the design of all types of negative feedback amplifiers and also analyze the
stability of feedback amplifiers
C211.2 Analyze sinusoidal oscillators (positive feedback) and also investigate frequency stability of
different oscillators
C211.3 Understand and know the performance of tuned amplifiers with analysis of coil losses and also study
the stability analysis of tuned amplifiers using different neutralization techniques
C211.4 Understand the design and working of multi - vibrators (Non-sinusoidal oscillators) circuits with
different types of triggering methods
C211.5 Analyze the performance of power amplifiers and also investigate the performance of DC convertors.
EC8491: COMMUNICATION THEORY
COURSE OUTCOMES
At the end of this course, the student will be able to:
C212.1 Analyze methods of generation and detection of AM and design of AM Receiver
C212.2 Analyze methods of generation and detection of FM and design of FM Receiver
C212.3 Apply the concepts of random process in the design of Communication systems
C212.4 Analyze the noise performance of AM and FM systems.
C212.5 Apply information coding techniques in digital communication

EC8451 ELECTROMAGNETIC FIELDS

COURSE OUTCOMES
On completion of this course, the student will be able to
C213.1 Understand the basics of vector algebra and its significance in coordinate systems
C213.2 Analyze electric field, potentials and behaviour of conductors, dielectrics in static electric fields

C213.3 Analyze magnetic field, potentials and effect of magnetic forces on materials due to static magnetic fields
C213.4 Analyze the relation between the electric fields and magnetic fields under time varying situations using
Maxwell’s Equations
C213.5 To understand the wave propagation in conductors and dielectrics

EC8453 LINEAR INTEGRATED CIRCUITS

COURSE OUTCOMES
Upon Completion of the course, the students will be:
C214.1 Able to earn the basic building blocks of linear integrated circuits such as op-amps.
C214.2 Design linear and non linear applications of OP – AMPS
C214.3 Design applications using analog multiplier and PLL
C214.4 Design ADC and DAC using OP – AMPS
C214.5 Generate waveforms using OP – AMP Circuits & Analyze special function ICs

GE8291- ENVIRONMENTAL SCIENCE AND ENGINEERING

COURSE OUTCOMES
Upon Completion of the course, the students will be:
C215.1 Able to know the nature and facts about environment
C215.2 Able to appreciate the importance of environment by assessing its impact on the human world
C215.3 Able to find the interrelationship between living organism and environment
C215.4 Able to analyze the importance of social issues
C215.5 Able to analyze the impact of human population

EC8461 CIRCUITS DESIGN AND SIMULATION LABORATORY

COURSE OUTCOMES
On completion of this lab course, the students will be able to
C216.1 Analyze various types of feedback amplifiers
C216.2 Design oscillators
C216.3 Design tuned amplifier
C216.4 Design wave-shaping circuits and multivibrators
C216.5 Design and simulate feedback amplifiers, oscillators, tuned amplifiers, wave-shaping circuits and
multivibrators using SPICE Tool.
 EC8462 - LINEAR INTEGRATED CIRCUITS LAB
COURSE OUTCOMES:
On completion of this lab course, the students will be able to
C217.1 Design amplifiers, oscillators, D-A converters using operational amplifiers.
C217.2 Design filters using op-amp and performs an experiment on frequency response.
C217.3 Analyze the working of PLL and describe its application as a frequency multiplier.
C217.4 Design DC power supply using ICs.
C217.5 Analyze the performance of filters, multivibrators, A/D converter and analog multiplier using
SPICE.

EC8501 DIGITAL COMMUNICATION

COURSE OUTCOMES:
On successful completion of this course, the student will be able to
C301.1 Design PCM systems
C301.2 Design and implement base band transmission schemes
C301.3 Design and implement band pass signaling schemes
C301.4 Analyze the spectral characteristics of band pass signaling schemes and their noise performance
C301.5 Design error control coding schemes

EC8553 Discrete Time Signal Processing

COURSE OUTCOMES
Upon Completion of the course, the students will be:
C302.1 To learn discrete Fourier transform, properties of DFT and its application to linear filtering
C302.2 To understand the characteristics of digital filters, design digital IIR filters and apply these filters to
filter undesirable signals in various frequency bands
C302.3 To understand the characteristics of digital filters, design digital FIR filters and apply these filters to
filter undesirable signals in various frequency bands
C302.4 To understand the effects of finite precision representation on digital filters
C302.5 To understand the Architecture and programming of DSP

EC8552 - COMPUTER ARCHITECTURE AND ORGANIZATION

COURSE OUTCOMES
C303.1 Analyses the new trends and developments in computer architecture,computer performance measurements and the
fundamentals of different instruction set architectures and their relationship to the CPU design.
C303.2 Design and evaluate the implementation of computer arithmetic.
C303.3 Design and analyses the basic and intermediate MIPS piplelines, data paths and ways of dealing with
pipeline hazards
C303.4 Understand the working principle of ILP techniques & parallelism in terms of a single processor and multiple
processors and multithreading by using ILP.
C303.5 Evaluate the performance of memory hierarchy design, identify the need of cache and virtual memory techniques
and principles of I/O in computer systems.

EC8551 COMMUNICATION NETWORKS

COURSE OUTCOMES

C304.1 Identify the components required to build different types of networks

C304.2 Choose the required functionality at each layer for given application
C304.3 Identify solution for each functionality at each layer
C304.4 Trace the flow of information from one node to another node in the network
CS8392- OBJECT ORIENTED PROGRAMMING
Course Outcomes
On successful completion of this course, the student will be able to
C305.1 To understand Object Oriented Programming concepts and basic characteristics of Java

C305.2 To know the principles of packages, inheritance and interfaces

C305.3 To define exceptions and use I/O streams

C305.4 To develop a java application with threads and generics classes

C305.5 To design and build simple Graphical User Interfaces

OMD 551 BASIC OF BIOMEDICAL INSTRUMENTATION

COURSE OUTCOMES
On completion of this course, the students will be able to
C306.1 To study about the different bio potential and its propagation
C306.2 To understand the different types of electrodes and its placement for various recording
C306.3 To study the design of bio amplifier for various physiological recording.
C306.4 To learn the different measurement techniques for non-physiological parameters.
C306.5 To familiarize the different biochemical measurements.

EC8562 DIGITAL SIGNAL PROCESSING LABORATOR

COURSE OUTCOMES:
On completion of this lab course, the students will be able to
C307.1 To perform basic signal processing operations such as Linear Convolution, Circular Convolution,
Auto Correlation, Cross Correlation and Frequency analysis in MATLAB
C307.2 To implement FIR and IIR filters in MATLAB
C307.3 To study the architecture of DSP processor
C307.4 To generate and analyse various signals and random noise using DSP processor
C307.5 Understand and implement the signal processing concepts like FIR and IIR filter using DSP
processor

EC8561 COMMUNICATION SYSTEMS LABORATORY

COURSE OUT COMES
On completion of this lab course, the students will be able to
C308.1 Simulate & validate the various functional modules of a communication system
C308.2 Demonstrate their knowledge in base band signaling schemes through implementation of digital
modulation schemes
C308.3 Apply various channel coding schemes & demonstrate their capabilities towards the improvement of the
noise performance of communication system
C308.4 Simulate end-to-end communication Link
 EC8563 COMMUNICATION NETWORKS LAB
COURSE OUTCOMES
To communicate between two desktop computers
C309.1
C309.2 To implement the different protocols
C309.3 To program using sockets.
C309.4 To implement and compare the various routing algorithms
C309.5 To use the simulation tool.

EC8691 MICROPROCESSORS AND MICROCONTROLLERS

COURSE OUTCOMES
C310.1 To explain about microprocessor architecture and write 8086 assembly language programs
C310.2 To learn about various configurations of 8086 microprocessor and system Bus structure
C310.3 To Illustrate the design aspects of I/O and memory interfacing circuits
C310.4 To learn microcontroller architecture and write 8051 assembly language programs
C310.5 Develop simple applications using 8051 microcontroller based system

EC8095 - VLSI Design

COURSE OUTCOMES
On completion of this course, the students will be
C311.1 Able to realize the concepts of digital building blocks using MOS transistor.
C311.2 Able to design combinational MOS circuits and power strategies.
C311.3 Able to design and construct Sequential Circuits and Timing systems.
C311.4 Able to design arithmetic building blocks and memory subsystems.
C311.5 Able to apply and implement FPGA design flow and testing.

EC8652: WIRELESS COMMUNICATION

C312.1 Able to characterize wireless channels
C312.2 Able to understand various cellular architectures and design cellular systems
C312.3 Able to design and implement various signalling schemes for fading channels
C312.4 Able to compare multipath mitigation techniques and analyse their performance
C312.5 Able to design and implement systems with transmit/receive diversity and MIMO systems and analyse
their performance

MG8591 – PRINCIPLES OF MANAGEMENT

COURSE OUTCOMES
On completion of this course, the student will be able;
To understand about management , Roles of managers, environmental Factors for an organization ,
C313.1 Strategies for international business
C313.2 To get an idea about the planning, MBO, Decision Making and Policies making.
Gain the knowledge about organization structure, Formal and Informal groups, Line and staff authority,
C313.3 Span of control, Centralization and decentralization, Staffing, Recruitment, Career Development, Training
and personal Appraisal
To understand about the Creativity and Innovation, Motivation and satisfaction, Leadership theories,
C313.4
communication, Elements and types of Culture.

Gain knowledge about the controlling process, types of control (Budgetary and non-budgetary control,
C313.5
Cost control, purchase control, Maintenance control, quality control)
 EC8651: TRANSMISSION LINES AND RF SYSTEMS
Course Outcomes
On successful completion of this course, the student will be able to

C314.1 To understand the characteristics of transmission lines

C314.2 To give thorough understanding about high frequency line, power and impedance measurements
C314.3 To impart technical knowledge in impedance matching using smith chart
C314.4 To introduce the various types of Waveguides and its characteristics
C314.5 To get acquaintance with RF system transceiver design

EC8002: MULTIMEDIA COMPRESSION AND COMMUNICATION

Course Outcomes

C315.1 Design audio compression techniques

C315.2 Configure Text, image and video compression techniques
C315.3 Select suitable service model for specific application
C315.4 Configure multimedia communication network

EC8681 Microprocessors and Microcontrollers Lab

COURSE OUTCOMES
C316.1 To Write ALP for fixed and Floating Point and Arithmetic operations in 8086 microprocessor.
C316.2 To Interface different I/Os with processor
C316.3 To Generate waveforms using Microprocessors
C316.4 To Execute Programs in 8051
C316.5 To Explain the difference between simulator and Emulator

EC8661 VLSI DESIGN LABORATORY

COURSE OUTCOMES:
On completion of this lab course, the students will be able to
C317.1 Able to write HDL code for basic digital integrated circuits.
C317.2 Able to Write HDL code for advanced digital integrated circuits.
C317.3 Able to Import the logic modules into FPGA Boards.
C317.4 Able to Synthesize, Place and Route the digital IPs.
C317.5 Able to Design, Simulate and Extract the layouts of Analog IC Blocks using EDA tools.

EC8611 Technical Seminar

COURSE OUTCOMES
C318.1 Selecting a subject, narrowing the subject into a topic and stating an objective.
C318.2 Collecting the relevant bibliography and preparing a working outline.
C318.3 Studying the papers and understanding the authors contributions and critically analyzing each paper.
C318.4 Linking the papers and preparing a draft of the paper; Preparing conclusions based on the reading of all
the papers.
C318.5 Writing the Final Paper and giving final Presentation.
 HS8581 PROFESSIONAL COMMUNICATION
COURSE OUTCOMES:
On completion of this course, the students will be able to
C319.1 Enhance the Employability and Career Skills of students
C319.2 Orient the students towards grooming as a professional.
C319.3 Attend job interviews and be successful in them and Make them into Employable Graduates.
C319.4 Develop their confidence and help them attend interviews successfully.
C319.5 Develop adequate Soft Skills required for the workplace.

EC8701- ANTENNAS AND MICROWAVE ENGINEERING

COURSE OUTCOMES
Upon Completion of the course, the students will be able to
C401.1 Understand the basic principles in antenna and microwave system design.
C401.2 Acquire the basic knowledge of various antenna designs such as Wire and loop antennas, Aperture
antennas, Reflector antennas, Microstrip antennas and Frequency independent antennas
C401.3 Understand and analyze the radiation characteristics of antenna arrays.
C401.4 Understand and analyze the microwave components such as Power dividers and hybrid junctions
and the operational concepts of microwave vacuum tubes-based oscillators and amplifiers.
C401.5 Design a microwave system comprising of filter, LNA, power amplifier, oscillator and mixer for the
given application specifications.

EC8751- OPTICAL COMMUNICATION

COURSE OUTCOMES
Upon Completion of the course, the students will be able to
C402.1 Realize basic elements in optical fibers, different modes and configurations
C402.2 Analyze the transmission characteristics associated with dispersion and polarization techniques
C402.3 Design optical sources and detectors with their use in optical communication system
C402.4 Construct fiber optic receiver systems, measurements and coupling techniques
C402.5 Design optical communication systems and its networks.

EC8791 EMBEDDED AND REAL TIME SYSTEMS

COURSE OUTCOMES:
On completion of this course, the students will be able to
C403.1 Understand the concepts of embedded system design and analysis
C403.2 Learn the architecture and programming of ARM processor
C403.3 Be exposed to the basic concepts of embedded programming
C403.4 Learn the real time operating systems
C403.5 Differentiate between the general purpose operating system and the real time
Operating system. Model real-time applications using embedded-system concepts.

EC8702 ADHOC AND WIRELESS SENSOR NETWORKS

COURSE OUTCOMES
Upon Completion of the course, the students will be able:
C404.1 Know the basics of Ad hoc networks and Wireless Sensor Networks
C404.2 Apply this knowledge to identify the suitable routing algorithm based on the network and user requirement
C404.3 Apply the knowledge to identify appropriate physical and MAC layer protocols
C404.4 Understand the transport layer and security issues possible in Ad hoc and sensor networks.
C404.5 Be familiar with the OS used in Wireless Sensor Networks and build basic modules
EC8705 COURCOGNIITVE RADIO
COURSE OUTCOMES
C405.1 To understand the evolving software defined radio and cognitive radio techniques and their essential
functionalities
C405.2 To study the basic architecture and standard for cognitive radio
C405.3 To design and implement algorithms for cognitive radio spectrum sensing and dynamic spectrum
access
C405.4 To understand the physical, MAC and Network layer design of cognitive radio
C405.5 To expose the student to evolving applications and advanced features of cognitive radio

OTL751: TELECOMMUNICATION SYSTEM MODELING AND SIMULATION

COURSE OUTCOMES
At the end of this course, the student will be able to:
C406.1 Apply the constituents of a telecommunication systems.
C406.2 Analyze various modeling methodologies and simulation techniques.
C406.3 Estimate the performance measures of telecommunication systems.
C406.4 Apply system modeling in telecommunication.
C406.5 Demonstrate light wave communication and satellite communication systems.

EC8711 EMBEDDED LABORATORY

COURSE OUTCOMES:

On completion of this lab course, the students will be able to

C407.1 Able to write programs in ARM for a specific application
C407.2 Able to interface memory, A/D and D/A convertors with ARM system
C407.3 Able to analyze the performance of interrupt
C407.4 Able to write program for interfacing keyboard, display, motor and sensor.
C407.5 Able to formulate a mini project using embedded system

EC8761 ADVANCED COMMUNICATION LAB

COURSE OUTCOMES
On completion of this lab course, the students will be able to
C408. 1 Understand the working principle of optical sources, detector, fibers and microwave components.
C408.2 Develop understanding of simple optical communication link.
C408.3 Understand the measurement of BER and Pulse broadening in optical fiber.
C408.4 Understand and capture an experimental approach to digital wireless communication.
C408.5 Understand actual communication waveforms that will be sent and received across wireless channel.
EC8072 – ELECTROMAGNETIC INTERFERENCE AND COMPATIBILITY
COURSE OUTCOMES
Upon Completion of the course, the students will be able:
C409.1 To understand the basic concepts of interference and compatibility and its sources.
C409.2 To study the different methods by which interference can occur.
C409.3 To design and study the different methods used to prevent interference.
C409.4 To learn the importance of Electromagnetic Compatible designs
C409.5 To study the different test methods and instruments used to measure electromagnetic interference.

EC8094 SATELLITE COMMUNICATION

COURSE OUTCOMES
At the end of this course, the student will be able to
C410.1 Understand the basics of satellite orbits.
C410.2 Understand the satellite segment and earth segment
C410.3 Analyze the various methods of satellite access.
C410.4 Understand the applications of satellite
C410.5 Under the basics of satellite networks.

EC8811 PROJECT WORK

COURSE OUTCOMES

C411.1 To develop the ability to solve a specific problem right from its identification
C411.2 Review on literatures and learn more about the problem and its solutions.
C411.3 To develop the analytical skills, requirement analysis, design skills.
C411.4 Learn the various system modules for implementing the project useful for the society; and testing
with the experimental data.
C411.5 To train the students in preparing project reports and to face reviews and viva voce examination.