B.E.

II Year (Electronics & Computer Engineering), 2016-17

SEMESTER III EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
MA 201 A Advanced Engineering 2 - - 2 2 3 100 - 100
Mathematics (EC/ECC/EEE) - I
EC 202 A Network Theory (EC/ECC/EEE) 2 1 - 3 3 3 100 - 100
ECC 203 A Solid State Electronic Devices 2 1 - 3 3 3 100 - 100
(ECC)
ECC 204 A Data Structures (ECC) 3 1 - 4 4 3 100 - 100
EC 205 A Digital Electronics 3 1 - 4 4 3 100 - 100
(EC/ECC/EEE) – I
ECC 206 A Object Oriented Programming 3 1 - 4 4 3 100 - 100
(ECC)
Total (A) 15 5 - 20 20 - 600 - 600
B: Practicals and Sessionals
ECC 211 B Network Laboratory (ECC) - - 2 2 1 - - 100 100

ECC 212 B Electronic Devices Lab (ECC) - - 2 2 1 - - 100 100

ECC 213 B Data Structures Lab (ECC) - - 2 2 1 - - 100 100

ECC 214 B Digital Electronics Lab (EC) - I - - 2 2 1 - - 100 100

ECC 216 B Object Oriented Programming - - 2 2 1 - - 100 100

Lab (ECC)
Total (B) - - 10 10 5 - - 500 500
Grand Total (A+B) 15 5 10 30 25 - 600 500 1100
 B.E. II Year (Electronics & Computer Engineering), 2016-17

SEMESTER IV EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
MA 251 A Advanced Engineering 2 - - 2 2 3 100 - 100
Mathematics (EC/ECC/EEE) - II
ECC 252 A Electronics Circuits (ECC) 3 1 - 4 4 3 100 - 100
ECC 253 A Discrete Structures (ECC) 3 1 - 4 4 3 100 - 100
Digital Electronics
EC 255 A 2 1 - 3 3 3 100 - 100
(EC/ECC/EEE) – II
Principles of Programming
ECC 256 A 3 1 - 4 4 3 100 - 100
Languages (ECC)
OPEN ELECTIVE – I* 3 - - 3 3 3 100 - 100
Total (A) 16 4 20 20 - 600 - 600
B: Practicals and Sessionals
ECC 261 B Electronics Circuits Lab (ECC) - - 2 2 1 - - 100 100
ECC 262 B Logic Design Simulation & - - 2 2 1 - - 100 100
Testing Lab (ECC)
ECC 263 B Digital Electronics Lab (ECC) – - - 2 2 1 - - 100 100
II
ECC 264 B Programming Languages Lab - - 2 2 1 - - 100 100
(ECC)
ECC 265 B Electronics Workshop (ECC) - - 2 2 1 - - 100 100
Total (B) 10 10 5 - - 500 500
Grand Total (A+B) 16 4 10 30 25 - 600 500 1100
EC 200 E Co-curricular Activities - - - - 0 - - - 100

*Select Choice based electives offered by other than Electronics & Communication Engineering Department in IVth semester:
 B.E. III Year (Electronics & Computer Engineering), 2017-18

SEMESTER V EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
Theory & Applications of
ECC 301 A 3 1 - 4 4 3 100 - 100
Integrated Circuits (ECC)
ECC 303 A Design of Databases (ECC) 3 1 - 4 4 3 100 - 100
Analog Communication
EC 304 A 2 1 - 3 3 3 100 - 100
Engineering (ECC)
Computer Graphics & Devices
ECC 307 A 3 1 - 4 4 3 100 - 100
(ECC)
Computer Organisation
EC 309 A 2 1 - 3 3 3 100 - 100
(EC/ECC/EEE)
Open Elective – II* 3 - - 3 3 3 100 - 100
Total (A) 16 5 21 21 - 600 - 600
B: Practicals and Sessionals
ECC 312 B Integrated Circuits Lab (ECC) - - 2 2 1 - - 100 100
ECC 316 B Computer Graphics Lab (ECC) - - 2 2 1 - - 100 100
ECC 313 B Databases Lab (ECC) - - 2 2 1 - - 100 100
ECC 314 B Analog Communication Lab 2 1 - - 100 100
- - 2
(ECC)
Total (B) - - 8 8 4 - - 400 400
Grand Total (A+B) 16 5 8 29 25 - 600 400 1000

*Select Choice based electives offered by other than Electronics & Communication Engineering Department in Vth semester:
 B.E. III Year (Electronics & Computer Engineering), 2017-18

SEMESTER VI EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
Business Information Systems
ECC 351 A 2 1 - 3 3 3 100 - 100
(ECC)
Power & Industrial Electronics
ECC 357 A 2 1 - 3 3 3 100 - 100
(ECC)
Digital Communication Systems
EC 353 A 3 1 - 4 4 3 100 - 100
(EC/ECC)
Microprocessor &
EC 358 A 3 1 - 4 4 3 100 - 100
Microcomputers (EC/ECC/EEE)
Radiation & Wave Propagation
EC 371 A 2 1 - 3 3 3 100 - 100
(ECC/EEE)
OPEN ELECTIVE – III* 3 - - 3 3 3 100 - 100
Total (A) 15 5 20 20 - 600 - 600
B: Practicals and Sessionals
ECC 362 B Power & Industrial Electronics - - 2 2 1 - - 100 100
Lab (ECC)
ECC 363 B Digital Communication Lab - - 2 2 1 - - 100 100
(EC)
ECC 364 B Microprocessor Lab (EC) - - 2 2 1 - - 100 100
ECC 365 B Business Automation Lab (ECC) - - 2 2 1 100 100
ECC 366 B Radiation & Wave Propagation - - 2 2 1 - - 100 100
Lab (ECC)
Total (B) - - 10 10 5 - - 500 500
Grand Total (A+B) 15 5 10 30 25 - 600 500 1100
EC 300 E Co-curricular Activities - - - - 0 - - - 100

*Select Choice based electives offered by other than Electronics & Communication Engineering Department in VIth semester:
 B.E. IV Year (Electronics & Computer Engineering), 2018-19

SEMESTER VII EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
ECC 401 A VLSI Design Techniquies (ECC) 3 1 - 4 4 3 100 - 100
ECC 402 A Design of Operating Systems 3 1 - 4 4 3 100 - 100
(ECC)
EC 403 A Advance Communication 3 1 - 4 4 3 100 - 100
Systems (EC/ECC/EEE)
ECC 404 A Parallel Processing Technology 3 1 - 4 4 3 100 - 100
(ECC)
EC 408 A Engineering Management & 2 - - 2 2 3 100 - 100
Economics (EC/ECC/EEE)
ECC Core Elective – I 3 1 - 4 4 3 100 100
Total (A) 17 5 - 22 22 - 600 - 600
B: Practicals and Sessionals
ECC 421 B VLSI Simulation Lab (ECC) - - 2 2 1 - - 100 100
ECC 422 B Operating Systems Lab (ECC) - - 2 2 1 - - 100 100
ECC 423 B Advance Communication - - 2 2 1 - - 100 100
Systems Lab (ECC)
ECC 425 B Project (EC) (Phase – I)* - - 2 2 - - - - -
Total (B) - - 8 8 3 - - 300 300
Grand Total (A+B) 17 5 8 30 25 - 600 300 900

* ECC 425 B: A combined exam of Phase I & II shall be conducted at the end of VIII Semester.
 B.E. IV Year (Electronics & Computer Engineering), 2018-19

SEMESTER VIII EXAMINATION SCHEME

Marks
Branch Subject Contact Exam
Subject Lectures Tutorials Practicals Credits Pract &
Code Code Hours Hours Theory Total
Sess
A: Written Papers
ECC 451 A Real Time & Embedded System 3 1 - 4 4 3 100 - 100
(ECC)
ECC 453 A Multimedia Systems (ECC) 3 1 - 4 4 3 100 - 100
ECC 454 A Mobile Communication & 3 1 - 4 4 3 100 - 100
Computing (ECC)
EC 458 A Computer Communication & 3 1 - 4 4 3 100 - 100
Data Networks (EC/ECC/EEE)
ECC Core Elective – II 3 1 - 4 4 3 100 - 100
Total (A) 15 5 20 20 - 500 - 500
B: Practicals and Sessionals
ECC 471 B Embedded Systems Lab (ECC) - - 2 2 1 - - 100 100
ECC 472 B Computer Networking Lab - - 2 2 1 - - 100 100
(ECC)
ECC 473 B Multimedia Lab (ECC) - - 2 2 1 - - 100 100
ECC 474 B Wireless & Mobile Lab (ECC) - - 2 2 1 - - 100 100
ECC 425 B Project (EC) (Phase –II)* - - 2 2 1 - - 200 200
Total (B) - - 10 10 5 - - 600 600
Total (A+B) 15 5 10 30 25 - 500 600 1100
C: Others
ECC 476 C Practical Training II (EC) - - - - 13 - - 100 100
Total (C) - - - - 13 - - 100 100
Grand Total (A+B+C) 15 5 10 30 38 - 500 700 1200
EC 400 E Co-curricular Activities - - - - 0 - - - 100

*Project (Phase II) is continuation of Project (Phase I) & combined examination shall be conducted.
 List of Core Electives
ECC 421 A Robotic & Computer Vision (ECC)
ECC 422 A Digital Signal Processing (ECC)
ECC 423 A Microwave Engineering (ECC)
ECC 424 A Telematics (ECC)
ECC 425 A Medical Electronics (ECC)
ECC 426 A Software Engineering (ECC)
ECC 427 A Client Server Technology (ECC)
ECC 428 A Object Oriented Software Engineering (ECC)
ECC 429 A Information Theory and Coding (ECC)
ECC 430 A System Software (ECC)

List of Open Electives

Name of subject Semester
BCT 291 A Open Elective-I: Sustainable Architecture
CE 291A Open Elective-I :Energy Efficient Building Design Fourth
ChE 291 A Open Elective-I : Renewable Energy Sources Semester
CSE 292A Open Elective-I :Object Oriented Programming Through JAVA
EE 291 A Open Elective-I : Industrial Applications of Electrical Drives
Ma 291 A Open Elective-I :Mathematical Statistics For Engineers
ME 291 A Open Elective-I:Renewable Energy Sources
ME 292A Open Elective-I: Automobile Engineering
MI 291A Open Elective-I: Tunneling For Engineering Projects
PI 291A Open Elective-I: Manufacturing Science
SE 291A Open Elective-I: Computer Oriented Numerical Analysis
BCT 341 A Open Elective-II: Traditional Indian Architecture
CE 341A Open Elective-II: Non Urban Public Hygiene & Drinking Water Fifth
ChE 341 A Open Elective-II : Petroleum Refining Technology Semester
EE 341 A Open Elective-II : Optimization Techniques
EE 342 A Open Elective-II : Artificial Intelligence
Ma 341 A Open Elective-II :Mathematical Theory of Operations Research
ME 342A Open Elective-II: Finite Elements Method
MI 341A Open Elective-II: Application of GIS & Remote Sensing in Engineering
SE 341A Open Elective-II :Structural Dynamics
BCT 391 A Open Elective-III: Climate Responsive Architecture
CE 391A Open Elective-III: Ecosystem & Biodiversity
ChE 391 A Open Elective-III : Nanotechnology
CSE 391A Open Elective-III : WEB TECHNOLOGIES (Open) Sixth
EC 391 A Open Elective-III: Electronic Instrumentation Semester
EE 391 A Open Elective-III: Soft Computing Techniques
EE 392 A Open Elective-III: Energy Conservation
Ma 391 A Open Elective-III: Advanced Numerical Analysis
ME 391A Open Elective-III: Design Planning And Control Of Production System
ME 392A Open Elective-III: Systems Design And Analysis
MI 391A Open Elective-III: Project Environment Clearance
PI 391A Open Elective-III: Quality Management
SE 391A Open Elective-III :Finite Element Method
BCT: Building Construction Technology, CE: Civil Engineering, ChE: Chemical Engineering, CSE: Computer
Science and Engineering, EC: Electronics & Communication, EE: Electrical Engineering, ME: Mechanical
Engineering, MI: Mining Engineering, PI: Production & Industrial Engineering, SE: Structural Engineering,
Ma: Mathematics
 B. E. II YEAR (ELECTRONICS & COMPUTER ENGINEERING)
III SEMESTER EXAMINATION
Ma 201 A (EC/ECC/EEE) - Advanced Engineering Mathematics I

2L 3 Hours, 100 Marks

Section A

Differential equations : Simultaneous differential equations, Total differential equations, Partial differential equations of
first order, Charpit’s method, Linear homogeneous partial differential equations with constant coefficients, Second order
partial differential equations : Monge’s method for the equation of type

Rr + Ss + Tt = V

Solution of Wave, Heat and Laplace equations using separation of variables method.

Section B

Complex Analysis : Analytic function, Harmonic function, Construction of an Analytic function, Complex integration:
Cauchy’s integral theorem, Cauchy’s integral formula, Derivative of Cauchy’s integral formula.

Taylor’s and Laurent’s series expansion of complex functions.

2
Cauchy’s residue theorem and its application to evaluate the contour integrals of type  f ( x)dx and
0

 f ( x)dx

Transformations: conformal and bilinear transformations.

Section C

Probability and Statistics: Theorems of probability and their application, Binomial, Poisson and Normal probability
distribution. Correlation and Regression analysis of two parameters.

Note: Candidates are required to attempt FIVE questions in all, selecting at least one from each Section.

EC 202 A – Network Theory (EC/ECC/EEE)

2L, 1T 3 Hours, 100 Marks

Network Equations: Topology incidence, cut-set end tie-set matrices. Mesh and nodal analysis of networks with
independent and dependent sources. Duality, Transient and steady state solutions of D.C. and A.C. networks.

Network Theorems: Superposition, Thevenin, Norton, Reciprocity. Maximum power transfer. Millman and Tellegen's
Theorems and their applications to D.C. and A.C. circuits

Resonance: Resonance in series and parallel- circuits. Q-Factor, bandwidth and selectivity.

Non-sinusoidal Periodic Waveforms: Fourier series- trigonometric and exponential forms. Response of network to non-
sinusoidal periodic waveforms.
Two Port Networks: Different two port parameters and their inter-relations and characteristic functions, interconnection
of two port networks, Brune's test. Network configurations. Symmetrical and asymmetrical two port communication
networks. Iterative, Image and characteristic impedances, Propagation, attenuation, phase and Image transfer constants.
Balanced, unbalanced and reciprocal networks; T.L. lattice and bridged T network

Network Functions: Generalized concept of complex frequency, Impedance and admittance functions. Exponential
excitation and system functions. Driving point and transfer functions. Pole zero configuration of system functions.

ECC 203 A – Solid state Electronics Devices (ECC)

2L, 1T 3 Hours, 100 Marks

Introduction to Solid State Devices: Space charge region and junction capacitance. Minority carrier injection, carrier
storage and transient response. Impact ionization and avalanche break-down.

Analytical theory of junction diodes, BJT, JFET, MOSFET, UJT, diffused transistors, avalanche transistors. Degenerated
semi-conductors and theory of tunneling. Theory of tunnel diodes, Zener diodes, Varactor diodes, photo diodes, LEDs,
photo-transistors, photo FETs and LASER. Elementary theory of composite junction. Ohmic junctions and hetro
junctions.

Characteristics and small signal models of MOSFET, MISFET and MESFET; Characteristics of CMOS and BiCMOS;
design of CMOS inverter: Power dissipation characterization, timing issues and noise margins; CMOS based NAND and
NOR gates.
Single crystal growth, wafer preparation epitaxial growth deposition and characterization of oxide layers, masking
Lnography, dopant diffusion, and ion- implantation.
Process integration, MOS based silicon microcircuits, BJT based silicon microcircuits, BiCMOS process flow.

ECC 204 A - Data Structure (ECC)

3L, 1T 3 Hours, 100 Marks

Complexity Analysis : Time and Space complexity of algorithms, asymptotic analysis, big O and other notations,
importance of efficient algorithms, program performance measurement, data structure and algorithms.

Linear Lists : Abstract data type, sequential and linked representations, comparison of insertion, deletion and search
operations for sequential and linked lists, list and chain classes, doubly linked lists, circular lists, linked lists through
simulated pointers, skip lists, applications of lists in bin sort, radix sort, sparse tables.

Stacks and Queues : Abstract data types, sequential and linked implementation, exception handling in classes,
representative applications such as parenthesis matching, towers of Hanoi.

Hashing : Search efficiency in lists and skip lists, hashing as a search structure, hash table.

Trees : Binary trees and their properties, terminology, sequential and linked implementations, tree traversal methods and
algorithms, heaps as priority queues, heap implementation, insertion and deletion operations.

Search Trees : Binary search trees, search efficiency, insertion and deletion operations, importance of balancing, AVL
Trees, searching insertion and deletions in AVL trees, red- black trees, comparison with AVL trees, search insert and
delete operations.
Sorting : Selection sort, heap sort, bubble sort, quick sort, merge sort and radix sort, their operations.
 EC 205A – Digital Electronics - I (EC/EEE/ECC)
3L, 1T 3 Hours, 100 Marks

Device Characteristics: Steady state and transient switching characteristics of diodes, BJTs, FETs, UJTs. Wave shaping
circuits. Integrating and differentiating circuits, effects of time constant, relation of tilt time to time constants. Clipper
and clamper circuits using diodes and transistors. Saturated and unsaturated transistor switches. Speed-up capacitors.
Inverter circuits. Performance of pulse transformer and lumped distributed parameter electromagnetic delay lines.
Relaxation Oscillators: Theory, operation and performance of astable, monostable and bistable multivibrators. Different
triggering circuits. Theory of Schmitt trigger. Comparison of performance of various circuits configurations of
multivibrators and their fields of applications. Tunnel diode. UJT relaxation oscillator. Theory of astable and monostable
blocking oscillators and their triggering methods.
Sweep Circuits: Free running and triggered modes. Theory and common circuits of voltage and current time base
generators.
Sampling Gates: Theory, operation and applications of unidirectional and bi-directional sampling gates using diodes and
transistors.

ECC 206 A - Object Oriented Programming (ECC)

3L, 1T 3 Hours, 100 Marks
A review of C. Concepts of object oriented programming using C++. Data Types: elementary and derived data types,
literals.
Operators and expressions: Operators, association and precedence rules of operators, expressions using unary, binary and
ternary operators.
Statements: declarations as statements, selection statements, iteration statements, goto statement, break statement return
statement, try –catch block.
Functions: void functions, functions with return value, call by value and call by reference parameter passing, default
parameters, recursive functions, inline functions.
Classes: classes, object friend functions, classes within a class, local classes, global classes constructors, destructors.
Derived classes: single and multiple derivation of classes, multilevel and hybrid derivation of classes, constructors,
destructors.
Polymorphism: Function and operator overloading, virtual functions.
Streams: input and output of built –in data types, manipulators.
File streams : opening a file, accessing a file, closing a file.
Exceptions: catching exceptions, rethrowing the exception, standard exceptions.
Templates: defining a template, template instantiation, function templates, class templates.
Elementary case study of a object oriented database in C++.
 B. E. II YEAR (ELECTRONICS & COMPUTER ENGINEERING)
IV SEMESTER EXAMINATION

Ma 251 A - ADVANCED ENGINEERING MATHEMATICS (EC/ECC/EEE) - II

2L 3 Hours, 100 Marks
Section A

Transforms: Laplace Transform, Inverse Laplace Transform, Properties of Laplace Transforms, Application of Laplace
Transform to solve differential equation with constant coefficients. Z- Transforms. Infinite Fourier Transforms.

Section B

Numerical Analysis : Interpolation with equal intervals: Newton-Gregory interpolation formulae, Lagrange’s interpolation
formula for unequal intervals. Central difference interpolation formulae: Gauss’ forward and backward formulae, Stirling’ s
and Bessel’s interpolation formulae. Numerical integration : Trapezoidal rule, Simpson’ s 1/3 and 3/8 rule. Numerical
solution of algebraic and transcendental equations : Bisection, regula falsi and Newton-Raphson methods. Numerical
solution of linear simultaneous equations : Gauss’ elimination, Gauss-Jordon, Jacobi and Gauss-Siedal methods. Numerical
solution of ordinary differential equations : Euler’s, Runge-Kutta Fourth order and Milne’s methods.

Section C

Special function : Series solution of Bessel and Legendre’s differential equations. Generating function of Bessel and
Legendre’s Polynomials. Orthogonal Property of

Bessel and Legendre’s function. Rodrigue’s formula.

Note: Candidates are required to attempt FIVE questions in all, selecting at least one from each Section.

ECC 252 A – Electronic Circuits (ECC)

3L, IT 3 Hours, 100 Marks

Biasing: Biasing and stabilization techniques of BJT, JFET, MOSFET for use as amplifiers in various configurations.
Small signal models for BJT, JFET and MOSFET in discrete and integrated form. Frequency dependence characterization
and equivalent circuits. Miller effect.

Untuned small signal BJT amplifiers: Study of Single stage and multistage. RC coupled and transformer coupled
amplifiers. Frequency response, bandwidth, gain and factors affecting them. Various two transistor integrated circuit
amplifier stages. Introduction of d.c. amplifiers, differential amplifiers, Cascode and Darlington circuits. Follower
circuits and boot-strapping.

Untuned large signal amplifiers: Classification of power amplifiers. Study of single ended,parallel and push-pull Class
A, AB and B power amplifiers. Complementary, symmetry and quasi-complementary circuits, Driver and out-put stages,
with and without out-put transformers for power amplifiers. Output circuit efficiency calculations for various classes and
configuration of amplifiers. Thermal considerations. Derating curves.

Power Supply Circuit: Design factors and applications of various power supply filters and voltage multiplying rectifier
circuits.

Regulated Power Supplies: Regulator circuits using solid state devices and monolithic ICS. Adjustable constant voltage
power supplies. Adjustable constant current power supplies. Higher output power supplies with solid state pre-
regulations. Protection circuits for power supplies. Rating and specifications.
 ECC 253 A – Discrete Structures (ECC)
3L, 1T 3 Hours, 100 Marks

Introduction to Discrete Mathematical Structures, Formal Methods: Induction and Analogy, Abstraction.
Sets, sequences, empty set, power set, operations on sets, Venn diagram, ordered pair, principle of inclusion and
exclusion.
Introduction to mathematical logic, statements and notations, well-formed formulas, tautologies, tautological
implications, normal forms, the theory of Inference for statement calculus, predicate logic.
Graph Terminology, Degrees of Nodes, Isomorphic Graphs, Dijkstra’s Shortest Path Algorithm, Planar Graphs, Eulerian
Graphs, Hamiltonian Graphs, Traveling Salesman Problem.
Trees Introduction Rooted and other Trees, Representation of Prefix Codes, Representation of Arithmetic Expression,
Representation of Prefix Codes, Spanning Trees, Traversing Binary Trees, Binary Search Trees.
Relations, matrix and graph representation of relation, properties of relations, partitions. Equivalence Relations,
Compatibility Relations, Composition of Binary Relations, Transitive and Symmetric closures partially ordered set
lattices.
Functions, Matrix representation of functions, composition of function, inverse-function.
Algebraic Structures, General properties of algebraic systems, groupoids, semigroup, monoids group rings. Applications
of algebra to control structure of a program. Homomorphism, Congruences, admissible partitions. Group and their
graphs.

EC 255 A – Digital Electronics - II (EC/ECC/EEE)

2L, 1T 3 Hours, 100 Marks

Counters and Registers: Binary and decade ripple counters. One bit counters. Up, down and up-down, synchronous
counters. Programmable counters. Divide-by N counters. Storage registers, shift-right, shift-left and bi-directional shift
registers. Serial input, serial output, parallel input, parallel output, parallel-in-serial out, serial in parallel out and
Universal shift registers and synchronous parallel loading of shift registers. Static and dynamic MOS shift registers. Ring
and Johnson counters
Arithmetic Circuits: Digital Comparators, half, and full adders; parallel and serial binary adders, half and full binary
subtractors. BCD adders and subtracters. Binary multipliers and divider circuits
Miscellaneous Sub-systems: Encoders, decoders and code converters. Parity checking circuits. Multiplexers and
demultiplexers. Digital to analog and analog to digital converters.
Semi-conductor memories: Random and sequential access memories. RAM, ROM, PROM, EPROM.EEPROM,
EAPROM, EPLA, GALs. MOS and CMOS memories.

ECC 256 A – Principles of Programming Languages (ECC)

3L, 1T 3 Hours, 100 Marks

Importance of programming languages, brief history, features of good programming language. Translators, Syntax,
semantics, virtual computers. Binding and binding time.
Elementary and structured data types, their specification and implementation. Type checking and type conversion,
vectors arrays, records, character string, variable size data structures. Sets, input and output files.
Evolution of the concept of data type, abstraction, encapsulation and information hiding, subprograms, type definition
and abstract data types.
Implicit and explicit sequence control, sequence control within expression and between statements. Subprogram
sequence control, Recursive subprograms. Exception and exception handlers, Coroutines and scheduled subprograms.
Task and concurrency, exceptions.
Names and referencing environments, Static, dynamic and block structure, Local data and local referencing
environments.
Dynamic and static scope of shared data, Block structure, parameters and their transmission. Tasks and shared data.
Storage requirement for major run –time elements. Program and system controlled storage management. Static and stack
– based storage management. Fixed size and variable – size heap storage management.
 ECC 262 B - Logic design Simulation and testing (ECC)
2P 100 Marks

Sequential Logic: Storage devices and sequential sub-systems. Introduction to synchronous and asynchronous sequential
systems. Mealey and Moore circuits. Cost vs. speed.

Synchronous Sequential Systems: Introductory examples. The finite state model – basic definition. Memory elements
and their excitation functions. Synthesis of synchronous sequential circuits. Analysis and design of synchronous
sequential circuits. State assignment and reduction technique. Introduction to threshold logic and relay circuits.

Asynchronous Sequential Systems: Fundamental mode circuits, Analysis procedure. Circuits with latches. State
assignment in Asynchronous sequential circuits. Design of pulse mode asynchronous sequential circuits. Problems in
asynchronous circuits – Races and Hazards.

Ma 261 A: Special Mathematics (all branches)

(For Diploma Passed Candidates - common for all branches)

3L, 1T 3 Hrs. MM : 100

Differential Calculus: Asymptotes, curvature, envelops evolutes, and curve tracing

Integral Calculus: Rectification . Volumes and surfaces of solids of revolution, differentiations under sign of integration
Differential Equations: Differential equations with constant coefficients and variable coefficients.
Mechanics: Friction , common catenary, kinematics of uniplanar motion, simple harmonic motion
Vector calculus: Gradient , divergence, curl, green’s theorem , stoke’s theorem, gauss divergence theorem ( Verification
only)
 B. E. III YEAR (ELECTRONICS & COMPUTER ENGINEERING)
V SEMESTER EXAMINATION

ECC 301 A - Theory and applications of Integrated Circuits (ECC)

3L, 1T 3 Hours, 100 Marks

Crystal Growth : Czochralski and Bridgman growth, wafer preparation and specifications.
Epitaxial Growth : Thermodynamics of vapour phase growth, selective growth, MOCVD, Molecular beam epitaxy
technology gas source MBE and chemical beam epitaxy.
Oxidation : Deal – Grave model, linear and parabolic rate coefficients, oxide characterization, types of oxidation and their
kinematics, oxidation induced stacking faults, oxidation systems.
Etching : Wet etching, basic regimes of plasma etching, reactive ion etching and its damages, lift – off, and sputter
etching.
Lithorgraphy : Optical, electron, X-ray and ion-beam, contact/ proximity and projection printers, advanced mask concepts,
alignment.
Metallization : Applications and choices, physical vapor deposition, patterning, problem areas, multilevel metallization.
VLSI Process Integration : NMOS and CMOS IC technology, MOS Memory IC Technology, bipolar IC fabrication.
Assembly Technique and packaging : Package types, packaging design consideration, VLSI assembly technologies.
Yield and Reliability : Yield loss in VLSI, yield loss modeling, reliability requirements, accelerated testing, BIST.
Applications – CMOS inverter, combinational & sequential logic, Arithmetic Building blocks - Adder, multiplier, shifters;
Memory and Array Structure: Core, ROM, RAM, peripheral circuitry, memory reliability and yield, SRAM and DRAM
design, flash memory.

ECC 303 A – Design of Data Bases (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction to database systems. A historical perspective, file systems v/s DBMS, advantages of a DBMS, Data
abstraction, models, instances and schemes. Data independence, Data definition and manipulation languages. Database
manager, administration and users. Overall system structure.
Entities and entity sets. Relationships and relationship sets. Attributes, mapping, keys, E-R diagram and is conversion to
tables. Design of an E-R database scheme.
Structure of relational database. The relational algebra. The tuple and domain relational calculus. Modification of
databases and views.
Query languages, SQL and query by examples. Pitfall in relational database design. Normalization using functional,
multi valued and join dependencies. Domain key normal form.
Data storage: Physical storage media, files organization, organisation of records into blocks, sequential files, mapping
relational data to files data dictionary storage, buffer management.
Basic concept of indexing and hashing, properties of indexes, index specification in SQL, B* – Tree and B - Tree index
files. Hash base indexing, static hash functions, dynamic hash function.
Introduction to object oriented model : object structure, class hierarchy, multiple inheritance, object identity, object
containment, physical organization, object oriented queries, scheme modification. Comparison between RDBMS and
OODBMS, crash recovery, failure classification, storage hierarchy.
Transaction model, log-based recovery, Buffer Management, check points, shadow paging, failure with loss of non-
volatile storage, stable storage implementation, concurrency control schedule. Testing for serializability, lock-based
protocols, Time stamp based protocols, validation techniques.
 EC 304 A - Analog Communication Engineering (ECC)
2L, 1T 3 Hours 100 Marks
Introduction to analog techniques for electrical communication. Concept of baseband and carrier transmission. Elementary
study of AM, DSBSC SSB, FM and PM.

Amplitude Modulation : Analysis of standard AM waves and signal power distribution. Different circuits for amplitude
modulation and their comparison. Methods of generating DSBSC, SSB and VSB – AM and their characteristics. Envelope
and coherent demodulation methods for standard AM. DSBSC, SSB signals. Design considerations of AM modulators
and demodulators. Frequency Division Multiplexing.
Angle modulation : Theory of frequency and phase modulations. Spectrum and BW of FM and PM signals. Direct and
indirect methods of generating narrow – band and wide band FM. Discriminators and PLL demodulators for FM and PM.
Pre-emphasis and de – emphasis. Idea of noise suppression properties of FM and PM systems. Concept of FDM

ECC 307A – Computer Graphics & Devices (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction to computer graphics. Application areas, Display devices, raster scan, random scan, color monitor, display
file, frame buffer.
Points, line, plane and coordinates. Character, vector circle generation algorithms, antialiasing techniques.
Representation of polygons. Interfacing and filling polygon. 2 –D Transformations, translation, rotation, scaling,
shearing, reflection, composite transformations, raster transformations.
Windows, multiple windowing, view-port, viewing transformation. Clipping algorithm for point, line using Sutherland
and Cohen, polygon, text clipping. Segment and segment operation.
Interactive graphics, user dialogue, Input modes, Interactive picture construction technique.
Concept of 3 – D, representation of 3 – D object, 3 – D transformation, translation, rotation, reflection, scaling. Parallel,
perspective, isometric projections.
Basic illumination models, halftone, dithering, color model RGB & CMY.
Design and operation of devices such as mouse, tablet, joystick, touch screen, laser and inkjet printers, plotters, LCD and
CRT monitors, 3-D display techniques.

EC 309 A - Computer Organization (EC/ECC/EEE)

2L, 1T 3 Hours, 100 Marks

Elements of Computer Organization

Evolution of Computers : Generations of Computers, modeling of Computers at Gates, Registers and Processors level.
CPU Architecture : Fixed and floating point arithmetic and ALU organization. Instruction format, types, sequencing and
interpretation. Instruction fetch and execute cycles. Addressing techniques. Hardwired and Micro – programmed control.
Secondary Memories : Magnetic memories core, tape, disk and floppy disc, introduction to magnetic bubble and CCD
memories.
I/O Devices : Principle and construction of Keyboard, Mouse, digitizer, joystick, optical scanner, Resistive membrane
touch screen, Tele-typewriter, CRT Terminals, TFT monitors, Line Dot Matrix, Daisy Wheel, Ink Jet and Laser printers.
Communication of I/O with CPU and memory : Speed mismatch of I/O v/s memory and CPU. Communication methods
for I/O to CPU and Memory : Polling, interrupt, DMA and I/O channel.
 B. E. III YEAR (ELECTRONICS & COMPUTER ENGINEERING)
VI SEMESTER EXAMINATION

ECC 351 A - Business Information Systems (ECC)

2L, 1T 3 Hours, 100 Marks

Introductory concepts : Data and information – creation and qualities; Systems and Business Information Systems –
resources, categories; E-business.
Business Automation Hardware – Input and output techniques for business such as Bar-codes, OMR, Printers and storage
devices.
Characteristics categories and design of Business Automation Software – graphics, spreadsheets, database, multimedia
and web based software.
Networks, telecommunication and internet technologies and devices for business – EDI, RFID, Modems, B2B and B2C.
Information Security – Control over information systems, malware, encryption, decryption, protection of business
information.

ECC 357 A – Power & Industrial Electronics (ECC)

2L, 1T 3 Hours, 100 Marks

Power electronics devices: Characteristics and operation of SCR, PUT, SUS, SBS, SCS, TRIAC, DIAC, IGBT, GTO,
MCA and light activated thyristors. Ratings and rating extension by series/parallel operation.
Electronic Power Control: Electronic methods of power control. SCR firing methods, Phase control techniques. Line
commutation and different types of commutation. One, two and four quadrant converters. Bridge inverters, series and
parallel inverters. Cyclo converters. Introductory study of DC choppers.
Electrical Drives: Performance characteristics of series, shunt and compound d.c. motors. Motor starters. Characteristics
of single and three phase induction motors, Universal motor, Amplidyne and selsyns.
AC and DC Motor Speed Control: Philosophy of speed control, open and closed control and single and three phase AC,
DC and universal motors using thyristors. PWM inverter technique and introduction to variable frequency drive
Misc. Industrial Applications: Photo relays and their applications, X-ray tubes. Particle accelerators. Principle of
Electron Microscope, Uninterruptible supplies. Switched mode power supplies
Programmable Logic Controllers (PLC): Advantages of PLC, CPU configurations, Digital and analog inputs and
outputs, ladder circuits and process flow diagram. Console and operator panel.

EC 353 A - Digital Communication System (EC/ECC)

3L, 1T 3 Hours, 100Marks

Random Signals: Power and energy signals. Introduction to probabilistic and statistical description of discrete and
continuous communication processes. Marginal, conditional and joint probability density and density and distribution
functions. Stationarity and ergodicity. Auto correlation and Cross correlation functions, Energy spectral density and
Power spectral density. Simple linear system analysis under random excitation in time and frequency domains.

Introduction to techniques ASK, FSK, PSK, BPSK, QPSK and simple QAM.
Digital Communication : Sampling theorem and principle of pulse analog modulation. Elements of PCM, Delta and
adaptive delta modulation.
Study of components of digital communication system. Concept TDM, synchronous and asynchronous transmission.
Introduction to bit, word and frame synchronization.

Noise : Various noise sources in amplifier ASK, FSK BPSK, and simple QAM and communication systems, Comparison
of various electronic devices for noise performance, Signal to noise ratio and noise figure. Equivalent noise bandwidth.
Noise temperature, Effect of cascading, statistical properties of noise Representation of white and band pass noise in
communication systems.
Comparison of analog and digital communication systems. System Performance: Noise – performance of analog CW and
pulse modulation systems using coherent and non – coherent. Baseband PCM and delta modulation systems, performance
in terms of probability of error and S/N ratio. Probability of error performance of band pass systems.

EC 358 A - Microprocessor & Microcomputer (EC/ECC/EEE)

3L, 1T 3 Hours, 100 Marks

Microprocessor Architecture: Architecture of 8 – bit 8085, Z80, 6800 microprocessors; their instruction sets and
addressing modes. Assembly language programming of Intel’s 8085 Microprocessor. Introduction to assemblers.
Microprocessor Interfacing : Interfacing of address; data and control buses Memory and I/O devices, Interrupt and DMA
for 8085 microprocessor.
Introduction of Micro controllers : Architecture and instruction set of MCS – 51 series of micro controllers. Application of
Micro controllers.
16 and 32 – bit Microprocessors: CPU architecture addressing modes and feature of 16 and 32 bit microprocessor – 8086.
Salient features of 80286, 80386, 80486 and Pentium series microprocessors.
Bus standards: Introduction to multibus VME, RS – 232-C, IEEE 488, PCI, USB, RS 422 and 485.

EC 371 A - Radiation & Wave Propagation (ECC/EEE)

2L, 1T 3 Hours, 100 Marks

Transmission Lines : Type of transmission lines, General transmission line equations. Line constants and equivalent
circuits. Infinite line, Lines with reflections.
Coaxial cables: Transmission lines at audio and radio frequencies. Losses in transmission lines. Transmission equalizers.
Characteristics of quarter wave, half wave and other lengths. Smith chart and its applications. Transmission line
applications. Stub matching.
Radio Wave Propagation : Mechanism of radio wave propagation. Reflection, refraction interference and diffraction of
radio waves. Theory of ground wave, space wave and sky wave propagation. Effect of conductivity, dielectric constant,
curvature and surface imperfections of earth on wave propagation, Duct propagation and tropospheric scattering.
Radiation : Retarded potentials and concept of electromagnetic radiation. Alternating current element and radiated power,
radiation resistance. Radiation from dipole and monopole antennas.
Antennas: Quarter wave and half wave antennas. C-Impedance, mutual impedance and directional characteristics of
antennas. Antennas patterns. Effective length and effective area of antennas , Antennas gain efficiency, beamwidth and
polarization. Antenna temperature.
 B. E. IV YEAR (ELECTRONICS & COMPUTER ENGINEERING)
VII SEMESTER EXAMINATION

ECC 401 A - VLSI Design Techniques (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction: Layout and design rules, materials for VLSI fabrication basic algorithmic concepts for physical design,
physical design processes and complexities.
Partition: Kernigham – Lin’s algorithm, Fiduccia Mattheyes algorithm, Krishnamurty extension, hMETIS algorithm,
multilevel partition techniques.
Floor- planning: Hierarchical design, wirelength estimation, slicing, and non –slicing floorplan , polar graph
representation, operator concept, Stockmeyer Algorithm for floorplanning, mixed integer linear program.
Placement: Design types: ASICs SoC, microprocessor RLM; Placement techniques: Simulated annealing, partition –
based, analytical, and Hall’s quadratic; Timing and congestion considerations.
Routing: Detailed global and specialized routing channel ordering, channel routing problems ad constraint graphs routing
algorithms, Yoshimura and Kuh’s method, zone scanning and net merging, boundary terminal problem, minimum
density spanning forest problem, topological routing, cluster graph representation.
Sequential Logic Optimization and Cell Binding: State based optimization, state minimization, algorithms; Library
Binding and its algorithms, concurrent binding.

ECC 402 A – Design of Operating System (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction to operating system, operating system functions, batch processing systems, multiprogramming systems, time
sharing systems, real time operating systems.
Process management, process concept, process scheduling, operation on processes, cooperating processes interprocess
communication.
CPU scheduling, scheduling algorithms first come first served, shortest job first, priority based, round robin, multilevel
queue multilevel feedback queue.
Process synchronization, critical section problem, semaphores, monitor. Deadlocks, prevention, deadlock avoidance,
deadlock detection.
Memory management, contiguous allocation, paging, segmentation, virtual memory, demand paging, page replacement,
page replacement algorithms first in first out algorithms, optimal algorithm, least recently used algorithm.
File concepts, directory structure, file protection, allocation of disk space.
I/O systems, I/O hardware polling, interrupts, direct memory access. Disk scheduling, disk scheduling algorithms first
come first served algorithms, shortest seek time first algorithm, SCAN algorithm, C-SCAN algorithm, C-LOOK
algorithm.
Protection and security in an operating system, access matrix capabilities.

EC 403A - Advance Communication systems (EC/ECC/EEE)

3L, 1T 3 Hours, 100 Marks
Line – of Sight and Troposcatter Communication: Principle of working and essential features of microwave LOS and
troposcatter communication Propagation study and performance requirements. Diversity techniques.
Satellite communications: Basic considerations. Up – link and down link parameters. Orbit and frequency selection.
Transmission losses, noise and interference. Elements of multiple access techniques. Frequency reuse techniques.
Functional description of earth stations.
Optical Communications: Ray propagation in optical fibers. Types of fibers. Losses and dispersion in fibers. Transmitter
and receiver subsystem for optical communications. Laser and LED sources. Optical amplifier. Cable joints couplers and
connectors. Splicing techniques. Modulation techniques. PIN and avalanche photo diode detectors. Characteristics of
analog and digital transmission in optical communication systems. Noise considerations.
 ECC 404 A – Parallel Processing Technology (ECC)
3L, 1T 3 Hours, 100 Marks

Introduction to parallel processing and trends: parallelism in uni-processor system, parallel computer structure,
architectural classification schemes for parallel computers, multiplicity of instruction data streams, serial versus parallel
computers, parallelism versus pipelining.
Memory system: hierarchical, associative and cache memory structures, virtual memory system, memory allocation and
management.
Principles of pipelining: pipelining principles and classifications, general pipelines and reservation tables, interleaved
memory organization, instruction pre-fetch and branch handling, data buffering and busing structures, internal
forwarding and register tagging, hazard detection and resolution, job sequencing and collision prevention.
Structure for array processors: SIMD computer organization, masking and data routing mechanism Inter PE
communication, introduction to associative array processing.
Multiprocessor architecture : Loosely and tightly coupled multiprocessors, processor characteristics for multiprocessing,
interconnection networks, cache coherence protocols.
Introduction to advance processors: Data flow computers, the VLIW architecture, fault tolerant architecture and study of
TANDEM HIMALAYAN K2 system architecture.

EC 408 A - ENGINEERING MANAGEMENT AND ECONOMICS (EC/ECC/EEE)

2L 3 Hours, 100 Marks

Principles of Management: Management function. Theories of management and their application Span of control,
Responsibility, authority, leadership, motivation, communication, Management of Change, Importance of organization
structure

Financial Management: Functions and importance of financial management, Book-keeping, Interest and depreciation.
Salvage valueVarious types of costs, profit/volume ratio. Break even analysis and marginal costing

Marketing and Strategic Management: Concept of marketing and its various components Product Life Cycle Strategic
Mission Vision Goals Industry Life Cycle SWOT analysis

Stores and Purchase Management : Function of store and Purchase management.

Inventory Management:. Inventory control and management Economic orderquantity. A-B-C analysis..

Forms of Business Ownership: Proprietorship, partnership, joint stock companies, joint sectors

Production Planning and Control: Job, Batch and mass production, production efficiency, productivity.

Site selection. Production planning. Routing, scheduling and follow up. Elements of time and motion

study. Quality control and quality assurance

Nature and Scope of Economics: Basic concept of managerial economics. Supply and demand, free competition,
monopoly and oligopoly
 B. E. IV YEAR (ELECTRONICS & COMPUTER ENGINEERING)
VIII SEMESTER EXAMINATION
ECC 451 A – Real Time and Embedded systems (ECC)
3L, 1T 3 Hours, 100 Marks

Introduction to embedded systems and their basics, Multitasking. Use of programming languages, Real time kernel, size
of embedded programs.
Data Representation Fixed Precision Binary members, binary representation o Integers and Real numbers, ASCII and
BCD.
Hardware requirements and time constraints, reliability and cost, design decisions.
Selection of microprocessor / Microcontroller for embedded systems, computing the size of memory required RAM and
ROM.
S/W tools for embedded system development : Mixing C and assembly, C – Run time environment, Use of cross
compilers, use of tools sets in Embedded Linux, GNU Tool chain for cross compiling.
Introduction to real – time computing: Characteristics of real – time system & tasks, performance measurement of real –
time systems, estimation of program runtime.
Real – time system design: hardware requirements, systems development cycle, data – transfer techniques, synchronous
and asynchronous data – transfer techniques, standard interfaces.
Real – time communication, fault – tolerance techniques, cause of failure, fault types, fault detection, redundancy,
integrated failure handling.

ECC 453 A – Multimedia Systems (ECC)

3L, 1T 3 Hours, 100 Marks
Introduction to multimedia and its applications, Characteristics of Text, Sound, Image, Animation, Video.
Multimedia Hardware : SCSI,MCI, Memory and storage devices, Output Hardware, Communication devices.

Introduction to Multimedia Systems: Architecture and components, multimedia distributed processing model,
synchronization, orchestration and quality of service architecture.
Audio and Speech: Data acquisition, sampling and quantization, human speech production mechanism, digital model of
speech production, analysis and synthesis psycho- acoustics, low bit rate speech compression, MPEG audio compression.
Images and Video: Image acquisition and representation, composite video signal, NTSC, PAL and SECAM video
standards; Bilevel image compression standards, JPEG and MPEG.
Multimedia communication: Fundamentals of data communication and networking, bandwidth requirements of different
media; real time constraints: Audio latency, video data rate; Multimedia over LAN and Internet, multimedia conferencing.
Multimedia Information Systems: Operating system support for continuous media applications, limitations of OS, new
OS support, Media stream protocol, file system support for continuous media, data models for multimedia and
hypermedia information, content based retrieval of unstructured data.

ECC 454 A - Mobile Communication and computing (ECC)

3L, 1T 3 Hours, 100 Marks

Concept of mobile telecommunications. Mobile radio network issues, cell size coding, modulation and diversity Base
station subsystems. Access methods. Location strategies for personal communications services. Cell design principles.

Elements of Radio Paging and microcellular radio communication: Fixed and dynamic channel assignment, Allocation of
spectrum and channels, Concepts of hexagon cells, mobile identification system and registration of mobile, call procedure.
Concepts of GSM and CDMA radio system architecture, roaming, digital speech and channel coding.

Mobililty computing: Issues, challenges, and benefits;

Network Programming: Process communication techniques, remote login, ftp, socket programming, RPC, RMI, Client –
server programming.
Process Migration : Steps, advantages, application taxonomy, alternatives, case study of DEMOS/MP.

Mobile Computing : Physical mobility, challenges, limits and connectivity, mobile IP and cellular IP in mobile
computing, case study of CODA.
Wireless LANs : Introduction to IEEE 802.11, Bluetooth and IrDA technologies and standards.
Introduction to Mobile Adhoc Networks: Hidden and exposed terminal problems; Routing protocols: DSDV, DSR,
AODV. Elements of Wireless Sensor Networks - Motes, smart dust, TinyOS, routing protocols.
Handheld Devices and OS : Palm, HP; PalmOS, WindowCE, Windows Mobile. Conceptual study Mobile Internet and
WAP, gateways, Mobile agents: Aglets, Tcl, PMADE.

EC 458 A - Computer Communication and Data Networks (EC/ECC/EEE)

3L, 1T 3 Hours, 100 Marks

Computer communication: Layered Architecture of computer communication networks. DNA, SNA and ISO- OSI
models. Properties of LANs, MANs, and WANs. Physical level, data link and transport protocols. Multiple access
protocol organization. Routing techniques flow and congestion control in packet switched networks. Window scheme.
Network interconnection – bridges and routers. Dead Lock avoidance. Elements of queuing analysis. Introduction to
network security.
Data Networks: Structure and functions of network protocols. Data link control procedures. Operation of HDLC, SDLC,
BISY NC, X.25 and x.21 Protocols Elements of Polling ALOHA, Reservation ALOHA, CSMA and token ring.
Characteristic features of LANs.
Basics of Internet: Evolution; dialup, XDSL, ADSL, cable modem and other access methods. IP address and domain name
system, TCP/IP, Internet applications and www.
 LIST OF CORE ELECTIVES

ECC 421 A - Robotic & Computer Vision (ECC)

3L, 1T 3 Hours, 100 Marks

Definition, structure and application areas of Robotics; Introduction to the range of robots currently in use.
Direct kinematics of the robot arm, link description and its connection; Frame assignment; Concept of actuator space,
joint space and Cartesian space; Inverse kinematics, algebraic solution, geometric solution; Solvability considerations
and examples.
Manipulator dynamics, basic equations, Newton- Euler dynamic formulation; Lagrange formulation of the manipulator
dynamics; Simulation.
Controller design, linear and non – linear control approaches, special considerations like coupling, time variation and
model uncertainty; Computed torque, variable structure and adaptive control techniques.
Digital image fundamentals, digitization and 2- D parameters, types of operation; Basic tools: Convolution, Fourier
transforms and statistical approaches.
Image analysis and processing. Basic enhancement and restoration techniques, unsharp masking, noise suppression,
distortion suppression, segmentation, thresholding, edge finding, binary mathematical morphology, grey – value
mathematical morphology.

ECC 422 A - Digital Signal Processing (ECC)

3L, 1T 3 Hours, 100 Marks

Digital Signal Processing : Advantage of digital filters and processing. Fundamentals of discrete time systems. Fourier
transform of sequences. Discrete – time filter structures. Z – Transform system representation solution of linear constant
co- efficient difference equations. Digital filters design by transformation from analog filters. Simple realization of IIR
and FIR filters DFT and FFT.

ECC 423 A - Microwave Engineering (ECC)

3L, 1T 3 Hours, 100 Marks
Wave Guides : Theory of wave propagation in rectangular wave guides, cut off frequency. Dominant and higher modes.
Generation of different modes and suppression of unwanted modes. Field distribution. SWR and impedance relations in
wave guides. Coupling between coaxial lines and wave guides. Wave guide stub-matching.
Resonators: Theory and application of cavity resonators. Coupling to cavity, Q of cavity resonators.
Microwave Components: Attenuators, phase shifters, directional couplers, tees, isolators, circulators, tunings screws,
coupling probe, loops, mixers and detectors. Use of scattering parameters.
Microwave Generators and Amplifiers: Theory of velocity modulation. Theory of operation and characteristics of two
cavity and multicavity klystron, amplifier and oscillators. Reflex klystron O and M type travelling wave tube and
backward wave oscillators – principle of operation . Construction, type and application of Magnetrons.
Microwave Solid State Devices: Special considerations for UHF and microwave transistors and oscillators. Parametric
amplifiers. Manley- Rowe relation linearized equations. Parametric up converters. Negative resistance amplifiers.
Principle of working and application of impact diode, hot carrier diode, PIN diode, Gunn diode and LSA diode Quantum
mechanical explanation, description and application of MASER amplifiers.

ECC 424 A - Telematics (ECC)

3L, 1T 3 Hours, 100Marks
Digital Telephony : Principle of working of SPC digital telephone exchanges. Digital switching, space, time. TS, ST,
STS, TST switch blocks. Termination of subscriber lines Signalling systems with digital exchanges. Principle of common
channel signalling. Synchronization aspect for digital telephony. Store Program Control for call processing.
Integrated Digital Networks: Data Communication terminology. Introduction to Circuits, message and packet switching
concept. Basic aspects of multiplexing, signaling and synchronization in integrated digital networks. Overview of ISDN
and BISDN. Concepts of basic rate and primary rate ISDN. Access and facilities provisions. Elements of fast packet
switching, frame relay, ATM, SONET and SDH. Introduction to photonic switching.
 ECC 425 A - Medical Electronics (ECC)
3L, 1T 3 Hours, 100 Marks

Introduction to Physiology : Physiological system of the human body. Nerve physiology. Function of nerves and
myoneural junction. Cardiac muscle and its contractions. Blood flow system. Arterial pressure Mechanism of respiration,
Function of Spinal cord. Generation, Propagation and distribution of action potentials.
Recording of Bio- Electric Events : Kinds of electrodes, amplifiers and display units for recording bioelectric potentials.
Principles of ECG, EEG, and EMG. Electrophysiological signals from a micro electrode and salt bridge, Use of field
effect – devices as electrometers. Principle of driven shield. Use of photon – coupled amplifiers. Artifacts.
Bio – Medical Measurement : Electronic methods of measuring blood pressure, blood flow, blood pH, skin and systemic
body temperature and pulse rate.
Electronic Medical Instrument : Electronic pace makers. Implantable power sources. Defibrillators. Micro power
transmitter for telemetering bio – signal. Surgical and therapeutic diathermy units. Physiological stimulators Basic
diagnostic X – ray units. Introduction to patient monitoring and intensive care units.

ECC 426 A – Software Engineering (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction, software characteristics and software crisis. The software engineering approach; software process &
process maturity. Various software development models. Software life cycle concept.
The software project management concepts and team organization. Software process and project metrics. Software
measurement. Metrics for software quality and its integration with the software process.
Software scope/ project estimation the COCOMO model and the Function Point approach.
Software quality assurance. Software reviews, cost impact and software defects. Formal Technical Reviews, software
reliability.
Conventional methods for software engineering. Analysis concepts and principles. The software requirements
specifications. Software prototyping.
Software design and software engineering, software architecture. Effective modular design functional independence,
cohesion and coupling concepts. Component level / procedural design.
Software testing techniques and strategies.

. ECC 427 A – Client – Server Technology (ECC)

3L, 1T 3 Hours, 100 Marks
Introduction Client/ Server architecture. Benefits, application, centralize multiuser, Distributed single user
Architecture, distributed computing environment.
Approach to Distribution: Distributed models, multi tiered environment, cooperative processing, application components,
and distribution points. Presentation distribution, distributed processing, distributed function and transaction processing,
data distribution.
Client technologies: Function, Application and tools, operating system, hardware plate forms, database access,
interprocess communication tools.
Server technologies: Function, server operating system, hardware plate forms, data access, distributed data access,
database engines.
System networks architectures: Components, layers, pear – to – pear communication between SNA layers.
Data Management: Distributed data management, method of the distribution, distributed data access. Database
transaction management.
Distributed DBMS: Architecture, storing data in a distributed DBMS, distributed catalog, management, distributed query
processing, Update distributed data. Introduction to distributed transactions, distributed concurrency control, and
distributed recovery.
 ECC 428 A – Object Oriented Software Engineering (ECC)
3L, 1T 3 Hours, 100 Marks

Object – oriented concepts and principles. Identifying the elements of an object model. Object oriented projects metrics
and estimation.
Object – oriented analysis: Domain analysis, the OOA process, the object – relationship model.
Design for object – oriented systems. The system design process.
Object – oriented testing – testing OOA and OOD models. The object – oriented testing strategies. Inter class testing.
Technical metrics for O – O systems. Class – oriented metrics & metrics for O – O projects.
Advanced topics in software engineering. Component – based software engineering and development. Classifying and
retrieving components. Review of CASE tools.

ECC 429 A – Information Theory and Coding (ECC)

3L, 1T 3 Hours, 100 Marks

Uncertainty, information, measure of information, average information entropy, property of entropy, information rate.
Discrete memoryless source. Source coding theorem.
Discrete memoryless channel, self and Mutual information, properties, channel capacity, channel coding theorem
Shannon Hartley theorem, Information capacity theorem.
Data compaction, prefix coding, Huffman coding, Lempal – Ziv coding, Compression of information.
Type of errors, codes error control coding, linear block code, error detection and correction codes, syndrome decoding,
cyclic codes, hamming code, BCH, convolution codes, encoders and decoders performance of codes.

ECC 430 A - Systems Software (ECC)

3L, 1T 3 Hours, 100 Marks

Introduction to system software, machine architecture, machine level representation of programs, assembly language
programming and optimizing program performance.
Assemblers, basic function, machine dependent and independent assembler features, assembler design options.
Two – pass, one – pass and multi- pass assembler design
Macro- processors, basic functions, machine independent features nested definitions and calls, design options.
General purpose macro – processor design, macro – processing within language translators.
Loaders and linkers, basic functions, machine dependent and independent features, linkers, loaders and editors, design
options.
Relocating loaders and dynamic linking loader designs.