AIM - M.Kumarasamy College of · PDF fileskill to formulate certain problems in terms of...
Transcript of AIM - M.Kumarasamy College of · PDF fileskill to formulate certain problems in terms of...
SEMESTER-III
UMA11301/UMA12301 TRANSFORMS AND PARTIAL DIFFERENTIAL EQUATIONS 3 1 0 4
(Common to ECE, EEE, EIE, MECH, CIVIL)
AIM
The course aims to develop the skills of the students in the areas of boundary value problems and transform
techniques. This will be necessary for their effective studies in a large number of engineering subjects like heat
conduction, communication systems, electro-optics and electromagnetic theory. The course will also serve as a
prerequisite for post graduate and specialized studies and research.
OBJECTIVES
At the end of the course the students would
i. Be capable of mathematically formulating certain practical problems in terms of partial differential
equations, solve them and physically interpret the results.
ii. Have gained a well founded knowledge of Fourier series, their different possible forms and the
frequently needed practical harmonic analysis that an engineer may have to make from discrete
data.
iii. Have obtained capacity to formulate and identify certain boundary value problems encountered in
engineering practices, decide on applicability of the Fourier series method of solution, solve them
and interpret the results.
iv. Have grasped the concept of expression of a function, under certain conditions, as a double integral
leading to identification of transform pair, and specialization to Fourier transform pair, their
properties, and possible special cases with attention to their applications.
v. Have learnt the basics of Z – transform in its applicability to discretely varying functions, gained the
skill to formulate certain problems in terms of difference equations and solve them using the Z –
transform technique bringing out the elegance of the procedure involved.
UNIT I FOURIER SERIES 9
Dirichlet‟s conditions – General Fourier series – Odd and even functions – Half range sine series –
Half range cosine series – Complex form of Fourier Series – Parseval‟s identity – Harmonic Analysis.
UNIT II FOURIER TRANSFORMS 9
Fourier integral theorem (without proof) – Fourier transform pair – Sine and Cosine transforms –
Properties – Transforms of simple functions – Convolution theorem – Parseval‟s identity.
UNIT III PARTIAL DIFFERENTIAL EQUATIONS 9
Formation of partial differential equations – Lagrange‟s linear equation – Solutions of
standard types of first order partial differential equations - Linear partial differential equations of second
and higher order with constant coefficients
UNIT IV APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS 9
Solutions of one dimensional wave equation – One dimensional equation of heat conduction –
Steady state solution of two-dimensional equation of heat conduction (Insulated edges excluded) – Fourier
series solutions in Cartesian coordinates
UNIT V Z -TRANSFORMS AND DIFFERENCE EQUATIONS 9
Z-transforms - Elementary properties – Inverse Z-transform – Convolution theorem - Formation
of difference equations – Solution of difference equations using Z-transform
L: 45 T: 15 Total: 60Periods
TEXT BOOKS :
1. Grewal, B.S, „Higher Engineering Mathematics‟ 40th Edition, Khanna publishers, Delhi, (2007)
REFERENCE BOOKS :
1. Bali.N.P and Manish Goyal „A Textbook of Engineering Mathematics‟, Seventh Edition, Laxmi
Publications(P) Ltd. (2007)
2. Ramana.B.V. „Higher Engineering Mathematics‟ Tata Mc-GrawHill Publishing Company limited,
New Delhi (2007).
3. Glyn James, „Advanced Modern Engineering Mathematics‟, Third edition-Pearson Education
(2007).
4. Erwin Kreyszig ‟Advanced Engineering Mathematics‟, Eighth edition-Wiley India, 2006.
UEE11301/UEE12301 ELECTROMAGNETIC THEORY 3 1 0 4
AIM
To expose the students to the fundamentals of electromagnetic fields and their applications in Electrical
Engineering .
OBJECTIVES
To impart knowledge on
i. Concepts of electrostatics, electrical potential, energy density and their applications.
ii. Concepts of magneto statics, magnetic flux density, scalar and vector potential and its
applications.
iii. Faraday‟s laws, induced emf and their applications.
iv. Concepts of electromagnetic waves and Poynting vector.
v. Field modeling and computation with relevant software.
UNIT I STATIC ELECTRIC FIELDS 9
Coulomb‟s law – Electric field intensity – Field due to different types of charges – Stream lines
and sketches of fields – Electric flux density – Gauss law and its application to symmetrical charge
distributions – Gauss law applied to differential volume element – Concept of divergence – electric
potential – Potential field due to different types of charges – Potential gradient – the dipole – field due to
dipole – Energy density in electrostatic field.
UNIT II CONDUCTORS, DIELECTRICS AND CAPACITANCE 9
Current and current density – continuity of current – conductor properties and boundary conditions
– the nature of dielectric materials – boundary conditions for perfect dielectric materials – capacitance –
different types of capacitances – capacitance of a two wire line – method of images – Poisson‟s and
Laplace‟s equations – Examples of solution of each one of them.
UNIT III STEADY MAGNETIC FIELDS 9
Biot- Savart Law – applications – Ampere‟s circuital law – applications – curl of magnetic field
intensity - Magnetic flux and magnetic flux density – the scalar and vector magnetic potentials – steady
magnetic field laws.
UNIT IV FORCE, TORQUE AND INDUCTANCE 9
Lorentz force equation – force between differential current elements – force and torque on a closed
circuit – the nature of magnetic materials – magnetization and permeability – magnetism boundary
conditions – inductance and mutual inductance.
UNIT V MAXWELLS EQUATIONS AND TIME VARYING FIELDS 9
Maxwell‟s equations for steady fields in point form and integral form – Faraday‟s law –
displacement current – Maxwell‟s equations in point form and integral form for time-varying fields.
Comparison of field and circuit theory – Poynting theorem – application of Poynting vector.
L: 45 T: 15 Total: 60Periods
TEXT BOOKS
1. William H.Hayt, Jr., Engineering Electromagnetics, Tata McGraw-Hill Publishing Ltd.5th edition
2006.
2. David J. Griffite, Introduction to electrodynamics, Prentice Hall of India Private Limited.2nd
edition,1999.
REFERENCE BOOKS
1. Muthusubramanian R and Senthil kumar N, Electromagnetic field theory, Anuradha publications,2003.
2. Joseph A. Edminister , Theory and Problems of electromagnetics Schaum‟s outline series,1999
3. Gangadhar K.A , Field theory ,Khanna Publications,2000.
UEE11302/UEE12302 ELECTRICAL MACHINES-I 3 1 0 4
AIM
To expose the students to the concepts of electromechanical energy conversions in D.C. machines and energy
transfer in transformers and to analyze their performance.
OBJECTIVES
i. To introduce the concept of rotating machines and the principle of electromechanical energy
conversion in single and multiple excited systems.
ii. To understand the generation of D.C. voltages by using different type of generators and study their
performance.
iii. To study the working principles of D.C. motors and their load characteristics, starting and methods
of speed control.
iv. To familiarize with the constructional details of different type of transformers, working principle
and their performance.
v. To estimate the various losses taking place in D.C. machines and transformers and to study the
different testing method to arrive at their performance.
UNIT I ELECTRO MAGNETIC INDUCTION & BASIC CONCEPTS IN ROTATING
MACHINES 9
Introduction to magnetic circuits – Magnetically induced e.m.f and force – AC operation of
magnetic circuits – Hysteresis and Eddy current losses. Energy in magnetic systems – Field energy &
mechanical force – Single and Multiple excited systems. MMF of distributed windings – Magnetic fields
in rotating machines – Generated voltages – Torque.
UNIT II DC GENERATORS 9
Constructional features of DC machine – Principle of operation of DC generator – EMF equation –
Types of excitation – No load and load characteristics of DC generators – commutation – armature
reaction – Parallel operation of DC generators.
UNIT III DC MOTORS 9
Principle of operation of DC motors-Back emf – Torque equation –Types of DC motors- Speed –
Torque characteristics of DC motors – Starting of DC motors: 2 point starter, 3 point starter, 4 point starter
– Speed control – Losses and efficiency –Applications
UNIT IV TRANSFORMERS 9
Principle of operation – Constructional features of single phase and three phase transformers –
EMF equation – Transformer on No load and Load –Phasor diagram --equivalent circuit – Regulation -
three phase transformer connections-parallel operation of single phase and three phase transformer- Auto
transformers
UNIT V TESTING OF DC MACHINES & TRANSFORMERS 9
Losses and efficiency –Condition for maximum efficiency – Testing of DC machines: Brake test ,
Swinburne‟s test, Retardation test, Hopkinson‟s test- Testing of transformer: polarity test, load test, open
circuit and short circuit test, Sumpner‟s test – All day efficiency.
L: 45 T: 15 Total: 60Periods
TEXT BOOKS
1. Kothari.D.P and Nagrath.I.J. Electrical Machines, Tata McGraw Hill Publishing Co.Ltd, New Delhi,
5th edition 2006
2. Dr. Murugesh Kumar K. DC Machines & Transformers, Vikas Publishing House Pvt Ltd., 2003.
REFERENCE BOOKS
1. Fitgerald, A.E., Charles Kingsely Jr. Stephen D.Umans, Electric Machinery McGraw Hill Books
Company, 2003
2. Hill Stephen, J. Chapman, Electric Machinery Fundamentals, McGraw Hill Book Co., new Delhi,
1985.
3.. P.S.Bimbhra ,Electrical Machinery,Khanna Publishers,2007
4. IL Kosow, Electrical Machines & Transformers, Prentice Hall of India, 1991.
UCE11311/UCE12311 ENVIRONMENTAL SCIENCE AND ENGINEERING 3 0 0 3
AIM The aim of this course is to create awareness in every engineering graduate about the importance of
environment, the effect of technology on the environment and ecological balance and make him/her sensitive to the
environment problems in every professional Endeavour that he/she participates.
OBJECTIVES i) At the end of this course the student is expected to understand what constitutes the environment,
what are precious resources in the environment, how to conserve these resources, what is the role of
a human being in maintaining a clean environment and useful environment for the future
generations and how to maintain ecological balance and preserve bio-diversity.
UNIT I INTRODUCTION TO ENVIRONMENTAL STUDIES AND NATURAL RESOURCES 9
Definition, Scope and Importance – Need For Public Awareness – Forest Resources:- Use and
Over - Exploitation, Deforestation, Case Studies, Timber Extraction, Mining, Dams and their Ground
Water, Floods, Drought, Conflicts Over Water, Dams – Benefits and Problems – Mineral Resources:- Use
Effects on Forests and Tribal People – Water Resources:- Use and Over Utilization of Surface and
Exploitation, Environmental Effects of Extracting and Using Mineral Resources, Case Studies – Food
Resources: World Food Problems, Changes caused by Agriculture and Overgrazing, Effects of Modern
Agriculture, Fertilizer- Pesticide Problems, Water Logging, salinity, Case Studies – Energy Resources:-
Growing Energy Needs, Renewable and Non Renewable Energy Sources, Use of Alternate Energy
Sources, Case Studies – Land Resources:- Land as a Resource, Land Degradation, Man Induced
Landslides, Soil Erosion and Desertification – Role of an Individual in Conservation of Natural Resources
– Equitable use of Resources for Sustainable Lifestyles. Field Study of Local Area to Document
Environmental assets – River/Forest/Grassland/Hill/ Mountain.
UNIT II ECOSYSTEMS AND BIODIVERSITY 9
Concepts of an Ecosystem – Structure and Function of an Ecosystem – Producers, Consumers and
Decomposers – Energy Flow in the Ecosystem – Ecological Succession – Food Chains, Food Webs and
Ecological Pyramids – Introduction, Types, Characteristic Features, Structure and Function of the (A)
Forest Ecosystem (B) Grassland Ecosystem (C) Desert Ecosystem (D) Aquatic Ecosystems (Ponds,
Streams, Lakes, Rivers, Oceans, Estuaries) – Introduction to Biodiversity – Definition: Genetic, Species
and Ecosystem Diversity – Biogeographical Classification of India – Value of Biodiversity: Consumptive
Use, Productive Use, Social, Ethical, Aesthetic and Option Values – Biodiversity at Global, National and
Local Levels – India as a Mega-Diversity Nation – Hot-Spots of Biodiversity – Threats to Biodiversity:
Habitat Loss, Poaching of Wildlife, Man-Wildlife Conflicts – endangered and Endemic Species of India
Conservation of Biodiversity: In-Situ and Ex-Situ conservation of Biodiversity. Field Study of Common
Plants, Insects and Birds - Field Study of Simple Ecosystems – Pond, River, Hill Slopes, etc.
UNIT IIIENVIRONMENTAL POLLUTION 9
Definition – Causes, Effects and Control Measures of:- (A) Air Pollution (B) Water Pollution (C)
Soil Pollution (D) Marine Pollution (E) Noise Pollution (F) Thermal Pollution (G) Nuclear Hazards – Soil
Waste Management:- Causes, Effects and Control Measures of Urban and Industrial Wastes – Role of an
Individual in Prevention of Pollution – Pollution Case Studies – disaster Management:- Floods,
Earthquake, Cyclone and Landslides. Field Study of Local Polluted Site –
Urban/Rural/Industrial/Agricultural.
UNIT IV SOCIAL ISSUES AND THE ENVIRONMENT 9
From Unsustainable To Sustainable Development – Urban Problems Related To energy – Water
conservation, Rain Water Harvesting, Watershed Management – Resettlement and Rehabilitation of
People, Its Problems and Concerns, Case Studies – Environmental Ethics:- Issues and Possible Solutions –
Climate Change, Global Warming, Acid Rain, Ozone Layer Depletion, Nuclear Accidents and Holocaust,
Case Studies – Wasteland Reclamation – Consumerism and Waste Products – Environment Production
Act – Air (Prevention and Control of Pollution) Act – Water (Prevention and Control of Pollution) Act –
Wildlife Protection Act – Forest Conservation Act – Issues Involved in enforcement of Environmental
Legislation – Public Awareness.
UNIT V HUMAN POPULATION AND THE ENVIRONMENT 9
Population Growth, Variation Among Nations – Population Explosion – Family Welfare
Programme – environment and Human Health – Human Rights – Value Education – HIV /AIDS –
Women and Child Welfare – Role of Information Technology in Environment and Human Health – Case
Studies.
Total: 45 periods
TEXT BOOKS
1. Masters, G.M., “Introduction to Environmental Engineering and Science”, Pearson Education Pvt., Ltd.,
2nd Edition, 2004.
2. Miller, T.G. Jr., “Environmental Science”, Wadsworth Pub. Co.
3. Townsend C., Harper, J. and Begon, M., “Essentials of Ecology”, Blackwell Science, 2003.
4. Trivedi, R.K., and Goel, P.K., “Introduction to Air Pollution”, Techno- Science Publications.
REFERENCE BOOKS
1. Erach, B., “The Biodiversity of India”, Mapin Publishing Pvt. Ltd., Ahmedabad, India.
2. Trivedi, R.K., “Handbook of Environmental Law‟s, Rules, Guidelines,Compliances and Standards”,
Vol - I and II, Envio Media.
3. Cunningham., Cooper, W.P. and Gorhani, T.H., “Environmental Encyclopedia”, Jaico Publishing
House, Mumbai, 2001.
5. Wages, K.D., “Environmental Management”, W.B. Saunders Co., Philadelphia, USA, 1998.
UEE11303/UEE12303 ELECTRONIC DEVICES AND CIRCUITS 3 0 0 3
AIM
To study the characteristics and applications of electronic devices and Circuits. Realizing circuits using
active and passive devices for signal generation and amplification.
OBJECTIVES
To acquaint the students with construction, theory and characteristics electronic devices and Circuits
i. To expose the students to study the different biasing and configurations of the amplifier circuits.
ii. To study the characteristics of tuned amplifier.
iii. To expose the students to various amplifiers oscillator circuits with feedback concepts.
iv. To learn the wave shaping process and circuits.
v. To learn and analyse the process of AC to DC conversion.
UNIT I PN DIODE AND ITS APPLICATION 9
Pn junction diode-diode current equation –diode resistance-space charge capacitance-diffusion
capacitance-effect of temperature on pn junction diodes-switching characteristics of a diode –break down
in diodes –pn diode applications- Zener diode: VI characteristics, voltage regulator-DC power supply-
Rectifiers: HWR, FWR, BR, Filters-LED, LCD characteristics and applications.
UNIT II BJT AND ITS APPLICATIONS 9
BJT construction –biasing-operation of npn and pnp transistor- CE ,CB,CC configurations and its
comparisons- input and output characteristics-switching characteristics -Ebers moll model-hybrid model-
frequency response-Opto coupler-power transistor.
UNIT III FET AND ITS APPLICATIONS 9
FET –JFET: construction, operation and characteristics –JFET parameters: small signal model-
expressions for saturation drain current-comparison of BJT and FET- application of JFET-MOSFET:
depletion, enhancement-comparison of MOSFET and JFET-common source, common drain, common
gate amplifier-cascade, cascode and Darlington connection.
UNIT IV AMPLIFERS AND OSCILLATORS 9
Differential amplifier: CM and DM -feedback amplifiers and oscillators-types of feed back-
general characteristics of negative feedback-feedback topologies-practical feed back circuits-oscillators:
RC Phase Shift, Wein Bridge, LC, Hartley, Colpitt‟s and clapp oscillator-frequency stability of an
oscillator.
UNIT V PULSE CIRCUITS 9
Clipper-Clampers-Voltage Multiplier- Multivibrators- Schmitt Trigger-UJT based oscillator.
Total: 45 Periods
TEXT BOOK:
1. David A. Bell , “ Electronic Devices and Circuits”, Prentice Hall of India,2008.
REFERENCES:
1. Millman and Halkias,”Electronic devices and circuits”, Tata McGraw Hill, 2007.
2. Mottershead.A,” Electronic Devices and Circuits an Introduction”, Prentice Hallof India, 2006.
3. P.Ramesh Babu , “Electronic Devices and Circuits”, SciTech Publications Pvt Ltd, 2005
UCS11311/UCS12311 DATA STRUCTURES AND ALGORITHMS 3 0 0 3
(Common to EEE & EIE)
AIM
To present the concept of arrays, recursion, stack, queue, linked list, trees and graph data
structures.
OBJECTIVES
i. To introduce the concept of arrays, structures, pointers and recursion.
ii. To study stack, queue and linked list concepts.
iii. To study trees, representation of trees, tree traversal and basic operations on trees.
iv. To study some of the sorting and searching techniques.
v. To study the concept of graphs, traversal techniques and minimum spanning tree.
UNIT I ANALYSIS OF ALGORITHMS 9
Introduction – Notion of Algorithm – Fundamentals of Algorithmic Solving – Important Problem
types – Fundamentals of the Analysis Framework – Asymptotic Notations and Basic Efficiency Classes-
Empirical Analysis of Algorithms.
UNIT II LINEAR DATA STRUCTURES 9
Definition of Data structure- Stack ADT- Array and linked list implementation of Stack –
Applications of Stack- Queue ADT – Array and Linked list implementation of Queue- Circular Queue-
Double Ended Queue- Applications of Queue- List ADT – Linked List (singly ,Doubly & circularly
Linked list)– Applications of list
UNIT III TREES 9
Tree Terminologies - Representation of Tree- Binary Tree- Binary Search Tree- - Expression Tree
–Threaded binary Tree- AVL Tree -Tree Traversal- Application of Trees.
UNIT IV GRAPH 9
Graph Representation- Graph Traversal(BFS&DFS) –Shortest Path Algorithm- Minimum
Spanning Tree Algorithms(prims & Krushkal‟s algorithm)- Applications of Graph-Biconnectivity –
Introduction to NP-Completeness
UNIT V SORTING AND SEARCHING 9
Sorting: Insertion sort- Selection Sort- Shell sort- Bubble sort- Quick sort- Heap Sort- Merge Sort-
Radix Sort- External Sorting Techniques. Searching: Hashing – Hash Function – Collision Resolution
Techniques- Priority Queue
Total: 45 Periods
Text Book:
1. Mark Allen Weiss – “Data Structures and Analysis in C” – Pearson Education Publication - 1996.
2. Anany Levitin “Introduction to the design and Analysis of Algorithms” Pearson Edition 2003.
Reference Book:
1. Richard F. Gilberg, Behrouz A. Forouzan, “Data Structures – A Pseudocode Approach with C”,
Thomson, 2nd Edition Reprint 2007
2. A.V.Aho, J.E. Hopcroft and J.D.Ullman, “The Design and Analysis Of Computer Algorithms”,
Pearson Education Asia, 2003.
UEE11304P/UEE12304P ELECTRICAL MACHINES – I LABORATORY 0 0 3 2
AIM
To expose the students to the operation of D.C. machines and transformers and give them experimental skill.
List of Experiments
1. Open circuit and load characteristics of D.C. separately and self-excited shunt generator.
2. Load characteristics of D.C. compound generator with differential and cumulative connection.
3. Load test on DC series generator.
4. Load characteristics of D.C. shunt motor.
5. Load characteristics of D.C. series motor.
6. Swinburne's test and speed control of D.C. shunt motor.
7. Hopkinson's test on D.C. motor – generator set.
8. Load test on Transformers.
9. Open circuit and short circuit tests on single phase transformer.
10. Sumpner's test.
12. Separation of no-load losses in single phase transformer.
12. Connection of 3 phase transformers.
13. Study of DC motor starters.
TOTAL: 45 Periods
UEE11305P /UEE12305P ELECTRONIC DEVICES AND CIRCUITS LABORATORY 0 0 3 2
AIM
To study the characteristics and to determine the device parameters of various solid-state devices.
List of Experiments:
1. Characteristics of PN junction diode and Zener diode.
2. Single phase rectifiers with inductive and capacitive filters.
3. Half wave rectifiers with inductive and capacitive filters.
4. Bridge rectifiers with inductive and capacitive filters.
5. Photo diode, phototransistor characteristics and study of light activated relay circuit.
6. Characteristics of Transistor under common emitter, common collector and common base
configurations.
7. Differential amplifiers using BJT.
8. Phase shift and Wein bridge oscillator.
9. Characteristic of FET.
10. Static characteristics of Thermistors.
11. Digital Simulation of semiconductor devices using PSPICE.
12. Study of CRO.
TOTAL: 45 Periods
UCS11312P /UCS12312P DATA STRUCTURES AND ALGORITHMS LABORATORY 0 0 3 2
AIM
To implement Queue, stack, linked lists and to implement search, sort and traversal technique
List of Exercise:
1. Implement singly and doubly linked lists.
2. Represent a polynomial as a linked list and write functions for polynomial addition.
3. Implement stack and use it to convert infix to postfix expression.
4. Implement array-based circular queue and use it to simulate producer- consumer problem.
5. Implement an expression tree. Produce its pre-order, in-order, and post-order traversals.
6. Implement binary search tree.
7. Implement priority queue using heaps.
8. Implement hashing technique.
9. Implement Dijkstra's algorithm using priority queues.
10. Implement a backtracking algorithm for Knapsack problem.
TOTAL: 45 Periods
UTP11301P/UTP12301P - CAREER SKILL DEVELOPMENT – I (CSD – I)
II YEAR /III SEMESTER
Common to all B.E/B.Tech Branches L T P C
Career Skill Development Test I 0 0 1 1
Aptitude: Time & Distance, Problems on Trains
Time, Distance, Speed – Relation; Ratio between speed and time; Average Speed; Trains moving in same
direction; Trains moving in opposite direction; conversion of units
Communication:
JUST A MINUTE (200 mins)
( To identify the students communication level and based on their performance they will be split into
various groups)
HEALTHY GROUPS (100 mins)
(Based on their scores students will be accommodated in their suitable groups)
KYT (Know Your Team)
Students will introduce themselves to their team members
Career Skill Development Test II
Aptitude: Logic Sums, probability+ CSD test- I Syllabus
Check the feasibility of logic; Problems based on Dice, Cards, Coins, Colour Balls,
Communication:
EXTEMPORE (200 mins)
(On the spot topic will be given to each students in a group to stimulate their thinking power).
SKIT- IN ENGLISH (200 mins)
Career Skill Development Test III
Aptitude: Simplification, venn diagrams, Area
Simplification of complex equations using short-cut methods; check the logic using venn diagrams;
Calculation of Area for Rectangle, Square, Triangle,Cirle, Semi – Circle and related problems
Communication:
ROLE PLAY (200 mins)
(Individual performance to each students / group by role playing on their given situations)
STORY BUILDING (200 mins)
(Good moral stories will be circulated to a group of students to narrate suitable conclusion)
Career Skill Development Test IV
Aptitude: Volume, Surface Area, Statement & Arguments + CSD TEST III Syllabus
Calculation of Volume & Surface Area for Cuboid, Cube, Cylinder, Cone, Sphere, Hemi Sphere; Check
the Arguments with statement
Communication:
ESSAY WRITING & LETTER WRITING (200 mins)
Additional Activities
News paper reading
Lateral Thinking quiz
Word games
Grammar Games
Textbook reference for Aptitude:
“Quantitative Aptitude” by R.S. Aggarwal
“Verbal & Non Verbal Reasoning” by R.S. Aggarwal
SEMESTER-IV
UMA11403/UMA12403 NUMERICAL METHODS 3 1 0 4
(Common to Civil, EEE & ECE)
AIM
With the present development of the computer technology, it is necessary to develop efficient
algorithms for solving problems in science, engineering and technology. This course gives a complete
procedure for solving different kinds of problems occur in engineering numerically.
OBJECTIVES
At the end of the course, the students would be acquainted with the basic concepts in numerical
methods and their uses are summarized as follows:
i. The roots of nonlinear (algebraic or transcendental) equations, solutions of large system of linear
equations and eigen value problem of a matrix can be obtained numerically where analytical
methods fail to give solution.
ii. When huge amounts of experimental data are involved, the methods discussed on interpolation will
be useful in constructing approximate polynomial to represent the data and to find the intermediate
values.
iii. The numerical differentiation and integration find application when the function in the analytical
form is too complicated or the huge amounts of data are given such as series of measurements,
observations or some other empirical information.
iv. Since many physical laws are couched in terms of rate of change of one/two or more independent
variables, most of the engineering problems are characterized in the form of either nonlinear
ordinary differential equations or partial differential equations. The methods introduced in the
solution of ordinary differential equations and partial differential equations will be useful in
attempting any engineering problem.
UNIT I SOLUTION OF EQUATIONS AND EIGENVALUE PROBLEMS 9
Solution of equation - Fixed point iteration: x=g(x) method – Newton‟s method –Solution of linear
system by Gaussian elimination and Gauss-Jordon methods – Iterative methods - Gauss-Seidel methods -
Inverse of a matrix by Gauss Jordon method – Eigen value of a matrix by power method and by Jacobi
method for symmetric matrix.
UNIT II – INTERPOLATION AND APPROXIMATION 9
Lagrangian Polynomials – Divided differences – Interpolating with a cubic spline – Newton‟s
forward and backward difference formulas..
UNIT III – NUMERICAL DIFFERENTIATION AND INTEGRATION 9
Differentiation using interpolation formulae –Numerical integration by trapezoidal and Simpson‟s
1/3 and 3/8 rules – Romberg‟s method – Two and Three point Gaussian quadrature formulas – Double
integrals using trapezoidal and Simpsons‟s rules.
UNIT IV – INITIAL VALUE PROBLEMS FOR ORDINARY DIFFERENTIAL EQUATIONS 9
Single step methods: Taylor series method – Euler methods for First order Runge –Kutta method
for solving first and second order equations – Multistep methods: Milne‟s and Adam‟s predictor and
corrector methods.
UNIT V – BOUNDARY VALUE PROBLEMS IN ORDINARY AND PARTIAL
DIFFERENTIAL EQUATIONS 9
Finite difference solution of second order ordinary differential equation – Finite difference solution
of one dimensional heat equation by explicit and implicit methods – One dimensional wave equation and
two dimensional Laplace and Poisson equations.
L=45 T=15 Total=60 Periods
TEXT BOOKS :
1. VEERARAJAN,T and RAMACHANDRAN.T, „NUMERICAL MEHODS with programming in
„C‟ Second Edition Tata McGraw Hill Pub.Co.Ltd, First reprint 2007.
2. SANKAR RAO K‟ NUMERICAL METHODS FOR SCIENTISITS AND ENGINEERS –3rd
Edition Princtice Hall of India Private, New Delhi, 2007.
REFERENCE BOOK :
1. P. Kandasamy, K. Thilagavathy and K. Gunavathy, „Numerical Methods‟, S.Chand Co. Ltd., New
Delhi, 2003.
2. GERALD C.F. and WHEATE, P.O. „APPLIED NUMERICAL ANALYSIS‟Edition, Pearson
Education Asia, New Delhi, 1999.
UEE11411/UEE12411 DIGITAL LOGIC CIRCUITS 3 1 0 4
(Common to EEE & EIE)
AIM
To introduce the fundamentals of Digital Circuits, combinational and sequential circuit.
OBJECTIVES i. To study various number systems and to simplify the mathematical expressions using Boolean
functions – simple problems.
ii. To study implementation of combinational circuits
iii. To study the design of various synchronous and asynchronous circuits.
iv. To expose the students to various memory devices.
UNIT I NUMBER SYSTEM & BOOLEAN ALGEBRA 12
Review of number system, Basic logic gates, codes, Boolean algebra: De-Morgan‟s theorem,
switching functions and simplification using K-maps & Quine McCluskey method.
UNIT II COMBINATIONAL CIRCUITS 12
Logic Families: TTL, ECL, CMOS- Design Using Logic gates. Design of adder[Half Adder,Full
Adder,Parallel Adder, BCD Adder], subtractor[Half Subtractor,Full Subtractor,Parallel Subtractor Adder],
comparators[2 bit & 4 bit], code converters[Binary to BCD, BCD to Excess-3, Binary to Gray, Gray to
Binary], encoders, decoders, multiplexers and demultiplexers - Function realization using multiplexers.
UNIT III SYNCHRONOUS SEQUENTIAL CIRCUITS 12
Flip flops - SR,JK,MS JK,D and T - Analysis of synchronous sequential circuits; design of
synchronous sequential circuits –State Diagram; State Reduction; State Assignment , Counters –
Synchronous, up down & Johnson counter, Shift Registers.
UNIT IV ASYNCHRONOUS SEQUENTIAL CIRCUIT 5
Analysis of asynchronous sequential machines - state assignment - asynchronous design problem.
UNIT V PROGRAMMABLE LOGIC DEVICES 7
Memories and Logic Families Memories : ROM, PROM, EPROM, Study of memory ICs, Control Signals
& their Programmers. Programmable Logic Devies - PLA, PAL, PLD, FPGA..
L = 45 T = 15 Total = 60Periods
TEXT BOOKS
1. M. Morris Mano, „Digital Logic and Computer Design‟, Prentice Hall of India, 4th
Edition 2008.
REFERENCE BOOKS
1. Floyd, „Digital Fundamentals‟, 8th
edition, Pearson Education, 2005.
2.Charles H.Roth, „Fundamentals Logic Design‟, Jaico Publishing, 5th
edition, 2004.
3. John F.Wakerly, „Digital Design Principles and Practice‟, 3rd
edition, Pearson Education, 2002.
4. John M.Yarbrough, „Digital Logic, Application & Design‟, Thomson, 1st edition 1979.
UEE12411(R) DIGITAL LOGIC CIRCUITS 3 1 0 4
(Common to EEE & EIE)
AIM
To introduce the fundamentals of Digital Circuits, combinational and sequential circuit.
OBJECTIVES i. To study various number systems and to simplify the mathematical expressions using Boolean
functions – simple problems.
ii. To study implementation of combinational circuits
iii. To study the design of various synchronous and asynchronous circuits.
UNIT I NUMBER SYSTEM & BOOLEAN ALGEBRA 11
Review of number system, Basic logic gates[AND,OR,NOT,NAND,NOR,EX-OR,EX-NOR],
codes[BCD,Gray,Excess 3 code], Boolean algebra: De-Morgan‟s theorem, switching functions and
simplification using K-maps[2,3,4,5,6 Variable K-Map] & Quine McCluskey method.
UNIT II COMBINATIONAL CIRCUITS 9
Design Using Logic gates. Design of adder[Half,Full adder], subtractor[Half,Full subtractor],
comparators[2Bit], code converters[Binary,Gray,BCD, Excess 3 Code], encoders, decoders, multiplexers
and demultiplexers. Function realization using gates & multiplexers[Problems].
UNIT III SYNCHRONOUS SEQUENTIAL CIRCUITS 11
Flip flops - SR, D, JK and T [Flipflops Conversions]. Analysis of synchronous sequential
circuits[Moore , Mealy Circuits]; design of synchronous sequential circuits[Procedure Moore, Mealy
Circuit Problems] – Counters[3bit,4bit,up down counter,Gray code counter, Mod 5,6,7,8,9,10 counters,
Synchronous decade counters], Shift Registers, state diagram; state reduction.
UNIT IV ASYNCHRONOUS SEQUENTIAL CIRCUIT 7
Analysis of asynchronous sequential machines[Fundamental mode, Pulse mode Problems], state
assignment, asynchronous design problem[Fundamental mode, Pulse mode Problems].
UNIT V PROGRAMMABLE LOGIC DEVICES, MEMORY AND LOGIC FAMILIES 7
Memories: ROM, PROM, EPROM, PLA, PLD, FPGA, digital logic families: TTL, ECL, CMOS.
L = 45 T = 15 Total = 60 Periods
TEXT BOOKS
1.M. Morris Mano, „Digital Logic and Computer Design‟, Prentice Hall of India, 2002.
REFERENCE BOOKS
1. Charles H.Roth, „Fundamentals Logic Design‟, Jaico Publishing, IV edition, 2002.
2. Floyd, „Digital Fundamentals‟, 8th
edition, Pearson Education, 2003.
3. John F.Wakerly, „Digital Design Principles and Practice‟, 3rd
edition, Pearson Education, 2002.
4. John M.Yarbrough, „Digital Logic, Application & Design‟, Thomson, 2002.
UEE11401/UEE12401 ELECTRICAL MACHINES II 3 1 0 4
AIM
To expose the students to the concepts of synchronous and asynchronous machines and analyse their
performance.
OBJECTIVES
To impart knowledge on
i. Construction and performance of salient and non – salient type synchronous generators.
ii. Principle of operation and performance of synchronous motor.
iii. Construction, principle of operation and performance of induction machines.
iv. Starting and speed control of three-phase induction motors.
v. Construction, principle of operation and performance of single phase induction motors and special
machines.
UNIT I SYNCHRONOUS GENERATORS 9
Types and construction features of alternators – e.m.f equation armature reaction – Synchronous
reactance – determination of voltage regulation using EMF, MMF, ZPF and ASA methods –
Synchronizing to infinite bus bars – parallel operation of synchronous generators – Salient pole
synchronous machine – two reaction theory – slip test.
UNIT II SYNCHRONOUS MOTOR 8
Constructional features and principle of operation of synchronous motor – torque and power
relations – V curves and inverted V curves – Hunting and suppression methods – Short circuit transient –
Starting methods – Synchronous condenser.
UNIT III THREE PHASE INDUCTION MACHINES 12
Construction and principle of operation of three phase induction motor – Equivalent circuit –
Torque & Power equations – Slip – Torque characteristics – Maximum Torque Condition – Losses and
Efficiency– Load test– No load & blocked rotor tests – Separation of no load losses – circle diagram.
UNIT IV SINGLE PHASE MOTORS 9
Single phase induction motors – Double revolving field theory – Torque – Speed characteristics –
Equivalent circuit – No load and Blocked rotor test - Performance analysis – Starting methods of Single
phase motors – Special motors: shaded pole motor, reluctance motor, repulsion motor, Linear Induction
motor, Hysterics motor.
UNIT-V STARTING AND SPEED CONTROL OF INDUCTION MACHINES 7
Starting methods of three phase induction motor – Cogging & Crawling – Speed control – Voltage
control – Rotor resistance control – Pole changing – Frequency control – Slip power recovery scheme –
Double cage rotor – Induction generator – Synchronous induction motor.
L=45 T=15 Total=60 Periods
TEXT BOOKS
1. Nagarath.I.J. and Kothari.D.P., “Electric Machines”, T.M.H. Publishing Co Ltd., New Delhi, 5th
edition 2006.
2. K.Murugesh Kumar, “Induction and Synchronous Machines”, Vikas Publication Pvt. Ltd., 2003.
REFERENCE BOOKS
1. A.E. Fitzgerald, Charles Kingsley, Stephen.D.Umans, „Electric Machinery‟, Tata McGraw Hill
publishing Company Ltd, 2003.
2. J.B. Gupta, „Theory and Performance of Electrical Machines‟, S.K.Kataria and Sons, 2002.
UEE11402/UEE12402 GENERATION, TRANSMISSION AND DISTRIBUTION 3 1 0 4
AIM
To become familiar with the function of different components used in Transmission and Distribution levels of
power systems and modeling of these components.
OBJECTIVES
i. To become familiar with operations of various power plants.
ii. To develop expression for computation of fundamental parameters of lines.
iii. To categorize the lines into different classes and develop equivalent circuits for these classes.
iv. To analyze the voltage distribution in insulator strings and cables and methods to improve the same.
UNIT I INTRODUCTION TO ELECTRICAL GENERATION 8
Types, Layout, Components of Thermal, Hydro, Nuclear, Gas & Diesel Power Plant, Introduction
to Non Conventional power generation, Importance of earthling in a substation. An introduction to
EHVAC transmission, HVDC transmission and FACTs.
UNIT II TRANSMISSION LINE PARAMETERS 10
Structure of electrical power system, Sources, Various levels generation, Transmission and
Distribution Design of transmission line – Sag and tension calculation. Parameters of transmission lines
and conductors – Symmetrical and unsymmetrical spacing – Transposition – Application of self and
mutual GMD – Skin and proximity effects – Interference with neighboring communication circuits –
Typical configuration – Conductor types and electrical parameters of 400, 220, 120, 66 and 33 kV lines.
UNIT III ANALYSIS OF TRANSMISSION LINE 10
Transmission line classification – Equivalent circuits – Ferranti effect – Surge impedance,
attenuation constant and phase constant – Regulation and Efficiency – Real and Reactive power flow –
Power circle diagrams – Shunt and Series compensation. An introduction to power angle diagram – Surge-
impedance loading, loadability limits based on thermal loading.
UNIT IV INSULATORS AND CABLES 9
Classification of insulators – Voltage distribution – Improvement of string efficiency.
Underground cables – Constructional features of LT and HT cables – Insulation resistance, capacitance,
dielectric stress and grading – tan δ and power loss.
UNIT V SUBSTATIONS AND DISTRIBUTION SYSTEM 8
SUBSTATION: Types, Bus bar arrangements – Bus schemes of Substation, Double bus with
single and double breaker, Main and transfer bus – Ring bus.
DISTRIBUTION:, AC, DC Distribution, Radial and Ring main distributors, Interconnectors,
Three phase four wire system, Sub mains, Stepped and tapered mains.
L=45 T=15 TOTAL=60 Periods
TEXT BOOKS
1. S.L.Uppal”Electrical Power System”, Khanna Publications, Pvt Ltd, New Delhi, 15th
Edition.
REFERENCES
1. S. N. Singh, „Electric Power Generation, Transmission and Distribution‟, Prentice Hall of India
Pvt.Ltd, New Delhi, 2002.
2. Hadi Saadat, „Power System Analysis‟, Tata McGraw Hill Publishing Company‟, 2003.
3. B. R. Gupta, „Power System Analysis and Design‟, S. Chand, New Delhi, 2003.
4. C. L. Wadhwa, „Electric Power Systems‟, New Age International (P) Ltd., 2000.
UEE11403/UEE12403 MEASUREMENTS AND INSTRUMENTATION 3 0 0 3
AIM To provide adequate knowledge in electrical instruments and measurements techniques.
OBJECTIVES To make the student have a clear knowledge of the basic laws governing the operation of the instruments,
relevant circuits and their working.
i. Introduction to general instrument system, error, calibration etc.
ii. Emphasis is laid on analog and digital techniques used to measure voltage, current, energy and
power etc.
iii. To have an adequate knowledge of comparison methods of measurement.
iv. Elaborate discussion about storage & display devices.
v. Exposure to various transducers and data acquisition system.
UNIT I FUNDAMENTALS AND CHARACTERISTICS 6
Functional elements of an instrument – static and dynamic characteristics – analog indicating
instruments, hall effect instruments – rms, average and peak reading instruments errors – systematic and
random errors, error analysis – errors in measurement – statistical evaluation of measurement data –
standards and calibration
UNIT II MEASURING INSTRUMENTS 12
Permanent Magnet Moving Coil instrument (PMMC) – Moving Iron instruments – electrodynamic
instruments – instrument transformer – current transformer, potential transformer – measurement of power
– electrodynamic, Ferro dynamic – measurement of energy – induction type – watt-hour meters –
maximum demand indicators –polyphase energy meters – power factor meters – frequency meters –
synchroscopes –Electronic voltmeters – differential voltmeters – electronic multimeters.
UNIT III BRIDGES AND SIGNAL CONDITIONING DEVICES 10
Measurement of resistance – Wheatstone bridge, Kelvin‟s bridge, mega ohm bridge –components
of signal conditioning devices – current to voltage and voltage to current converter – buffer amplifier
– differential amplifier – instrumentation amplifier –digital to analog converters – analog to digital
converters – components of data acquisition systems – measurement of self inductance – Hay‟s,
Anderson‟s, Owen‟s bridges – measurement of capacitance – Schering bridge.
UNIT IV STORAGE AND DISPLAY DEVICES 9
Magnetic disk and tape – recorders, digital plotters and printers, digital LED, LCD and dot matrix
display – cathode ray oscilloscopes – block diagram, electrostatic deflection, post deflection acceleration,
screens for CRTs, CRT circuits, oscilloscope techniques, special oscilloscopes, digital oscilloscope –
digital frequency meter –digital voltmeters – magnetic tape recorders – FM recorders.
UNIT V TRANSDUCERS 9
Classification of transducers – selection of transducers – resistive, capacitive and inductive
transducers – piezoelectric, optical and digital transducers – pH electrodes –transducers for measurements
– measurement of displacement, temperature, level flows, pressure, velocity, acceleration, torque, speed,
viscosity and moisture.
Total=45 Periods
TEXT BOOKS
1. Sawhney, A.K., A Course in Electrical & Electronic Measurements & Instrumentation, Dhanpat Rai
and Co, 2004.
2. Albert D.Helfrick., William D.Cooper, Modern Electronic Instrumentation & measurement techniques,
Prentice Hall of India 2003.
REFERENCES
1. Bouwens, J., Digital Instrumentation, Tata McGraw Hill, 2002.
2. Kalsi, H.S., Electronic Instrumentation, Tata McGraw Hill, 2006.
3. Doebelin, E.O., Measurement Systems – Application and Design, Tata McGraw Hill publishing
company, 2005.
4. Golding, E.W., & Widdies, F.W., Measurements & measuring instruments, sir Issar Pitman & sons (p)
Ltd.,1998.
UCS11411/UCS12411 OBJECT ORIENTED PROGRAMMING 3 0 0 3
(Common to EEE & EIE)
AIM
To present the concept of object oriented programming and discuss briefly the important elements
of object oriented analysis and design of systems.
OBJECTIVES i. To study the object oriented programming principles, tokens, expressions, control structures and
functions.
ii. To introduce the classes, objects, constructors and Destructors.
iii. To introduce the operator overloading, inheritance and polymorphism concepts in C++.
iv. To introduce constants, variables, data types, operators, classes, objects, methods, arrays and strings
in Java.
v. To introduce the programming approach in Java, interfaces and packages, multithreading, managing
errors and exceptions and Applet programming.
UNIT I INTRODUCTION TO C++ 9
Introduction-OOP Concepts-Introduction To C++-Overview of C++-Data Types- Operators-
Control Statements-Structure- Union-Classes-Access Specifiers-Static members-Array Of Objects-Nested
Classes-Local Classes-Functions-Inline Function-Default Arguments-Function Overloading-Friend
Function-Friend Class-Pointers.
UNIT II CONSTRUCTORS 9
Constructors-Default Constructor-Constructor with arguments-Parameterized Constructor-Copy
Constructor -Multiple Constructors-Constructors with default argument- Dynamic Initialization of objects
Destructors-Operator Overloading-Overloading Through Friend Function-Overloading Through Member
function-Overloading the assignment(=),Subscript([]),Function Call operator-Type Conversion-Explicit
Operators.
UNIT III INHERITANCE & POLYMORPHISM 9
Inheritance-Different Types of derivation-Access Specifiers-Access Control-Access Declaration-
Different types of Inheritance-Abstract class-Inheritance vs. Composition-Runtime Polymorphism-
Different Types of casting- Class Templates-Function Templates-Exception handling-try,catch,throw
paradigm-Uncaught exception-Streams & Formatted I/O-File Handling.
UNIT IV INTRODUCTION TO JAVA 9
Introduction– java -Simple java program- Java vs. C++-Tokens – Keywords – Identifiers and
constants –Data types – Type Conversions and Casting - Arrays-Operators - Control statements in-java.
Class - constructors – this keyword- garbage Collection – finalize ()-method – overloading methods-
objects as parameters- returning objects- access-control – static- final keyword- Nested classes – Inner
classes- classes with command line arguments.
UNIT-V INHERITANCE & EXCEPTION HANDLING 9
Basics- Super keyword- Multilevel Hierarchy- Invoking Constructors- Method overriding Abstract
Classes – Using Final with Inheritance- Packages- Access Protection – Importing a Packages- Interfaces-
Special String Operations – Character Extraction – String Functions -Exception Handling-Thread Model
–Character Streams- Stream I/O- Files
Total=45 Periods
Text Book:
1. Herbert Schildt, “The Complete reference C++”, TATA Mc GRAWHILL EDITION, Fourth
Edition,2002.
2. D.Norton and H. Schildt, “Java 2 the complete Reference Fifth edition”, TMH, 2002 (Re print 2009)
Reference Books:
1. E.Balagurusamy, “Object Oriented Programming with C++”, TATA Mc GRAWHILL EDITION, Third
Edition(Reprint 2007).
2. Ira Pohl, “Object-Oriented Programming using C++”, 2nd ed., Pearson Education, 1997.
3. Bjarne Stroustrap, “The C++ Programming Language”, Pearson Education, Third Edition 2007.
4. By Kathy Sierra, Bert Bates, “Head First Java”, Second Edition, O'Reilly Media,2005
5. M.Deitel and Deitel, “Java How To Program” 7/e, Prentice Hall Publications,2007.
UEE11404P/UEE12404P ELECTRICAL MACHINES-II LABORATORY 0 0 3 2
AIM
To expose the students to the operation of synchronous machines and induction motors and give them
experimental skill.
List of Experiments
1. Regulation of three phase alternator by E.M.F. and M.M.F. methods.
2. Regulation of three phase alternator by Z.P.F. and A.S.A. methods.
3. Regulation of three phase salient pole alternator by slip test.
4. Measurements of negative sequence and zero sequence impedance of alternators.
5. V and inverted V-curves of three phase synchronous motors.
6. Load test on three-phase induction motor.
7. No load and blocked rotor test on three-phase induction motor.
8. Separation of no-load losses of three-phase induction motor.
9. Load test on single-phase induction motor.
10. No load and blocked rotor test on single-phase induction motor.
12. Speed control on 3 phase Induction Motor.
13. Study of AC Starters.
Total: 45 Periods
UEE11405P/
UEE12405P MEASUREMENTS AND INSTRUMENTATION LABORATORY 0 0 3 2
AIM
The aim of this lab is to fortify the students with an adequate work experience in the measurement
of different quantities and also the expertise in handling the instruments involved.
OBJECTIVE
To train the students in the measurement of displacement, resistance, inductance, torque and angle
etc., and to give exposure to AC, DC bridges and transient measurement.
List of Experiments:
1. Study of displacement and pressure transducers
2. AC bridges.
3. DC bridges.
4. Instrumentation amplifiers.
5. A/D and D/A converters.
6. Study of transients.
7. Calibration of single-phase energy meter.
8. Calibration of current transformer.
9. Measurement of three phase power and power factor.
10. Measurement of iron loss.
Total: 45 Periods
UCS11413P/UCS12413P OBJECT ORIENTED PROGRAMMING LABORATORY 0 0 3 2
AIM
To implement dynamic memory allocation, constructors, destructors, friend function, inheritance and
interfaces.
List of Exercises
1. String concatenation using dynamic memory allocation concept
2. Implementation of arithmetic operations on complex numbers using constructor overloading
3. To read a value of distance from one object and add with a value in another object using friend
function
4. Implementation of + and - operator overloading and implementation of addition operation of octal
object with integer using operator overloading
5. Implementation of addition and subtraction of two polynomial objects using operator overloading
6. Managing bank account using inheritance concept
7. To compute the area of triangle and rectangle using inheritance and virtual function
8. Writing simple programs in Java
9. Use of Interfaces in Java
10. Developing Packages in Java .
Total: 45 Periods
UEE11501/UEE12501 POWER ELECTRONICS 3 1 0 4
AIM
Learning how to apply the electronic devices for conversion, control and conditioning of electronic
power.
OBJECTIVES
To get an overview of different types of power semi-conductor devices and their switching
characteristics.
To understand the operation, characteristics and performance parameters of controlled rectifiers.
To study the operation, switching techniques and basic topologies of DC-DC switching regulators.
To learn the different modulation techniques of pulse width modulated inverters and to understand
the harmonic reduction methods.
To study the operation of AC voltage controller and Matrix converters.
To study simple applications
UNIT I POWER SEMI-CONDUCTOR DEVICES 9
Construction, Principle of operation - Static and dynamic characteristics of Power diodes, SCR, DIAC,
TRIAC, GTO, power BJT, power MOSFET and IGBT – Safe operating Area – protection circuits – series
and parallel connections.
UNIT II PHASE CONTROLLED CONVERTERS 9
AC to DC converters: single phase and three phase controllers with R, RL and RLE load – Estimation of
RMS load voltage, RMS load current and input power factor – effect of source inductance – Dual
Converter.
UNIT III CHOPPER 9
DC to DC converters: DC chopper using devices other than thyristors – Principle of step up and step down
operation – Time ratio control and Current Limit Control – Buck, Boost, Buck-Boost and Cuk Regulators.
UNIT IV INVERTERS 9
DC to AC Inverters– Types – voltage source and current source inverters – single phase bridge inverters –
three phase bridge inverters – PWM inverters – Series inverter control of AC output voltage – Harmonic
reduction
UNIT V AC to AC Converter and APPLICATIONS 9
Single phase AC voltage controllers – single Phase to Single Phase , three phase to Single Phase and
Three phase to Three Phase cycloconverters. Applications: UPS – HVDC systems – FACTS – Tap
changing of transformers
Lecture: 45, Tutorial: 15, TOTAL: 60
TEXT BOOK
1 Rashid, M.H., “Power Electronics - Circuits Devices and Applications”, Prentice Hall of India, 2004.
2 Jaganathan V, “Introduction to Power Electronics”, Prentice Hall of India., Revised Edition, 2004.
REFERENCE BOOKS
1. Singh.M.D and Kanchandani “Power Electronics” -Tata McGraw-Hill & Hill publication Company Ltd
New Delhi-2007.
2. Dubey, G.K., Doradia, S.R., Joshi, A. and Sinha, R.M., “Thyristorised Power Controllers”, Wiley
Eastern Limited, 1986.
3 Lander,W., „Power Electronics‟, McGraw Hill and Company, Third Edition, 1993
UEE11502/
UEE12502 LINEAR INTEGRATED CIRCUITS AND ITS APPLICATIONS 3 0 0 3
AIM
To introduce the concepts for realizing functional building blocks in ICs, fabrications &
application of ICs.
OBJECTIVES
To study the IC fabrication procedure.
To study characteristics; realize circuits; design for signal analysis using Op-amp ICs.
To study the applications of Op-amp.
To study internal functional blocks and the applications of special ICs like Timers, PLL circuits,
regulator Circuits, ADCs.
UNIT I IC FABRICATION 9
IC classification, Fundamentals of Monolithic IC Technology, Epitaxial Growth, Masking and Etching,
Diffusion of Impurities – Realization of Monolithic IC‟s and Packaging – Fabrication of Diodes,
Resistors, Capacitors and FET‟s
UNIT II CHARACTERISTICS OF OP-AMP 9
Functional block diagram – symbol, Characteristics of an Ideal Op-Amp, Circuit Schematic of Op-Amp
741, AC & DC Characteristics, Offset Voltage and Current, Voltage Series Feedback & shunt Feedback
Amplifiers, Frequency Response of Op-Amp. Linear applications: Inverting & Non-Inverting Amplifiers-
Voltage Follower
UNIT III APPLICATIONS OF OP-AMP 9
Differential Amplifier – Instrumentation Amplifier – Summer Differentiator & Integrator – V/I and I/V
Converter, First and Second Order Active Filters, Schmitt Trigger.
Non-linear applications: Comparator, Waveform Generator, Multi vibrators, Clippers, Clampers, Peak
Detectors, S/H Circuits, A/D Converters, D/A Converters And Types.
UNIT IV SPECIAL IC’S 9
555 Timer Circuit – Functional Block, Characteristics & Applications; 566- Voltage Controlled Oscillator
Circuit; 565-PLL Circuit Functioning and Applications, Analog Multiplier IC‟s.
UNIT V APPLICATIONS OF IC’s 9
IC Voltage Regulators – LM317,723 Regulators, Switching Regulator, MA7840, LM380 Power amplifier
– IC L8038 Function Generator IC , Isolation Amplifier, Opto Coupler, Opto Electronic IC‟s
TOTAL: 45 PERIODS
TEXT BOOKS:
1. Ramakant A.Gayakward, „Op-amps and Linear Integrated Circuits‟, IV edition, Pearson Education,
2003 / PHI.
2. D.Roy Choudhary, Sheil B.Jani, „Linear Integrated Circuits‟, II edition, New Age, 2003.
REFERENCE BOOKS:
1. Jacob Millman, Christos C.Halkias, „Integrated Electronics - Analog and Digital circuitssystem‟,
Tata McGraw Hill, 2003.
2. Robert F.Coughlin, Fredrick F.Driscoll, „Op-amp and Linear ICs‟, Pearson Education, 4th
edition,
2002 / PHI. 3. David A Bell, “Operational Amplifiers and Linear ICs”, Prentice Hall of India, Second Edition, 2003..
4. Coughlin F R, and Driscoll F F, “Operational Amplifiers and Linear Integrated Circuits”, Prentice Hall of
India, Fourth edition,New Delhi, 1997.
5. Michael Jacob J, “Applications and Design with Analog Integrated Circuits”, Prentice Hall of India, New Delhi,
Second, Edition, 1996.
UEE11503/UEE12503 ELECTRICAL MACHINE DESIGN 3 1 0 4
AIM
To expose the students to the concept of design of various types of electrical machines.
OBJECTIVES
To provide sound knowledge about constructional details and design of various electrical machines.
To study mmf calculation and thermal rating of various types of electrical machines.
To design armature and field systems for D.C. machines.
To design core, yoke, windings and cooling systems of transformers.
To design stator and rotor of induction machines.
To design stator and rotor of synchronous machines and study their thermal behavior.
UNIT I INTRODUCTION 9 Considerations and limitations in design – Magnetic, conducting and insulting materials – Thermal design
aspects – modes of heat dissipation - hot spot temperature – temperature gradients – two dimensions heat
flow - Fundamentals of magnetic circuits – B-H curves – Magnetic leakage – Calculation of mmf in a
airgap and teeth – Real and apparent flux densities – basics of computer aided design.
.
UNIT II D.C MACHINES 9 Output equation – Main dimensions – Separation of D and L in DC machine – Choice of specific
loadings - Selection of number of poles – armature design – Design of series and shunt field system –
Design of commutator and brushes.
UNIT III TRANSFORMERS 9
Output rating of single phase and three phase transformers – Optimum design of transformers – Design of
core, yoke and windings for core and shell type transformers – Overall dimensions – no load current -
temperature rise in transformer - Design of tanks - cooling methods of transformers.
UNIT IV THREE PHASE INDUCTION MOTORS 9 Output equation – main dimensions – choice of specific loadings – Design of stator – air gap length -
Design of squirrel cage rotor- rotor bars and slots - Design of end rings – Design of wound rotor –
operating characteristics – no load current and short circuit current – dispersion co-efficient.
UNIT V SYNCHRONOUS MACHINES 9
Output equation – Main dimensions – Choice of specific loadings – Short circuit ratio – Armature design
– armature parameters - Estimation of airgap length – Design of rotor– Design of damper winding –
determination of full load field mmf-design of field system.
Lecture: 45 Tutorial: 15 TOTAL: 60
TEXT BOOKS:
1. Sawhney, A.K., “A Course in Electrical Machine Design”, Dhanpat Rai & Sons, New Delhi, 2003.
2. Sen, S.K., “Principles of Electrical Machine Designs with Computer Programmes”, Oxford and
IBH Publishing Co. Pvt. Ltd., New Delhi, 1987.
REFERENCE BOOKS:
1. Shanmugasundaram, A., Gangadharan G. and Palani R., "Electrical Machine Design Data Book",
Wiley Eastern Ltd., New Delhi, 1979.
2. R.K. Agarwal, „Principles of Electrical Machine Design‟, S.K.Kataria and Sons,Delhi, 2002.
UEE11504/UEE12504 POWER SYSTEM ANALYSIS & STABILITY 3 1 0 4
AIM
To understand the necessity and to become familiar with the modeling of power system and components.
And to apply different methods to analyse power system for the purpose of system planning and
operation.
OBJECTIVES
To model the power system under steady state operating condition. To apply efficient numerical
methods to solve the power flow problem.
To model and analyse the power systems under abnormal (or) fault conditions.
To model and analyse the transient behavior of power system when it is subjected to a fault.
UNIT I INTRODUCTION 9
Need for system planning and operational studies - One-line, impedance and reactance diagrams – per
phase and per unit representation – change of base. Primitive network and matrices – Y-bus formulation
by direct inspection and singular transformation methods. Bus building algorithms for the formation of Z-
Bus matrix.
UNIT II POWER FLOW ANALYSIS 10
Importance of power flow analysis in planning and operation of power systems. Bus classification –
Solution technique – Gauss-seidel method – Newton-raphson method – Fast-decoupled method (algorithm
& flow chart only) – Comparison of solution techniques – Computation of slack bus power, transmission
loss and line flow.
UNIT III SYMMETRICAL FAULT ANALYSIS 10
Importance of short circuit analysis – Basic assumptions in fault analysis of power systems. Short circuit
MVA – Symmetrical (or) balanced three phase faults – Problem formulation - Thevenin‟s representation -
Fault analysis using Z-bus matrix with algorithm and flow chart. Computations of short circuit capacity,
post fault voltages and line flows.
UNIT IV UNSYMMETRICAL FAULT ANALYSIS 9
Introduction to symmetrical components – Operator „a‟-symmetrical components in terms of phase
currents – Sequence impedances and networks –Analysis of single line to ground fault, line to line fault
and double line to ground fault – Problem formulation.
UNIT V POWER SYSTEM STABILITY 7
Stability classification-Swing equation- Equal area criterion – Power angle equation-Determination of
critical clearing angle and time -Solution for swing equation using modified Euler method and Runge-
Kutta method - Methods for stability improvement.
L: 45 T: 15 TOTAL: 60 PERIODS
TEXT BOOKS
1. John J. Grainger and Stevenson Jr. W.D., “Power System Analysis”, Tata McGraw Hill, 1st
Edition, 2003.
2. Nagrath. I.J, Kothari. D.P, “Modern Power system Analysis”, Tata McGraw Hill Pub.Co. Ltd., 3rd
Edition, 2003.
REFERENCE BOOKS
1. C.L. Wadhwa, “Electrical Power Systems”, Second edition, Wiley Eastern Limited, 1993.
2. Stagg, G.W. and El-Abaid, A. H. “Computer Methods in Power System Analysis”, McGraw-Hill
International Book Company 1993.
3. P.Kundur, “Power System Stability and Control”, McGraw Hill, 1994.
UEE11505/UEE12505 CONTROL SYSTEMS 3 1 0 4
AIM
To provide sound knowledge in the basic concepts of linear control theory and design of control system.
OBJECTIVES
To understand the methods of representation of systems and to desire their transfer function
models.
To provide adequate knowledge in the time response of systems and steady state error analysis.
To accord basic knowledge in obtaining the open loop and closed–loop frequency responses of
systems.
To understand the concept of stability of control system and methods of stability analysis.
To study the three ways of designing compensation for a control system.
UNIT I INTRODUCTION 9
Classification of control systems – definitions- open loop – closed loop systems - Electrical analogy of
mechanical systems – Mathematical model of Mechanical and Electrical system - Transfer function – AC
and DC servomotors – Mathematical representation - Block diagram reduction techniques – Signal flow
graphs.
UNIT II TIME RESPONSE ANALYSIS 9 Time response – Time domain specifications – Types of test input – I and II order system response – Error
coefficients – Generalized error series – Steady state error - Dynamic error and dynamic error coefficient
– P, PI, PID controllers
UNIT III FREQUENCY RESPONSE ANALYSIS 9
Frequency response – Bode plot – Polar plot – Nichols plot - Determination of closed loop response from
open loop response – Correlation between frequency domain and time domain specifications.
UNIT IV STABILITY ANALYSIS 9
Characteristics equation – Location of roots in S plane for stability – Routh Hurwitz criterion – Root locus
construction – Effect of pole, zero addition – Gain margin and phase margin – Nyquist stability criterion.
UNIT V COMPENSATOR DESIGN 9
Performance- Analysis- Design of lag, lead – lead - lag compensators – design using bode plots.
L:45 T:15 Total=60 PERIODS
TEXT BOOKS
1. I.J. Nagrath and M. Gopal, „Control Systems Engineering‟, New Age International Publishers, 2006.
2. Benjamin C. Kuo, Automatic Control systems, Pearson Education, New Delhi, 2003.
REFERENCE BOOKS
1. K. Ogata, „Modern Control Engineering‟, 4th edition, PHI, New Delhi, 2002.
2. Norman S. Nise, Control Systems Engineering, 4th Edition, John Wiley, New Delhi, 2007.
3. Samarajit Ghosh, Control systems, Pearson Education, New Delhi, 2004
4. M. Gopal, „Control Systems, Principles and Design‟, Tata McGraw Hill, New Delhi, 2002.
UEE11506/UEE12506 MICRO PROCESSORS AND MICRO CONTROLLERS 3 0 0 3
AIM
To introduce Microprocessor Intel 8085 and 8086 and the Micro Controller 8051
OBJECTIVES
To study the Architecture of 8085 & 8086, 8051
To study the addressing modes & instruction set of 8085 & 8051.
To introduce the need & use of Interrupt structure 8085 & 8051.
To develop skill in simple program writing for 8051 & 8085 and applications
To introduce commonly used peripheral / interfacing ICs
UNIT I 8085 PROCESSOR AND PROGRAMMING OF 8085 PROCESSOR 9
Introduction – Architecture of 8085 Microprocessor – Memory Interfacing – I/O Ports and Data Transfer
Concepts – Timing Diagram – Interrupt System – Instruction Format – Addressing Modes – Instruction
set of 8085-Programming : Loop Structure with Counting and Indexing – Look up table – Subroutine-
Stack –Assembly Language Programs.
UNIT II PERIPHERAL INTERFACING 9
Architecture and Programming of IC: 8255 (PPI) – 8259 (PIC) – 8251 (USART) – 8279 (Keyboard and
Display Controller) -8254/8253 (Programmable Interval Timer / Counter) -8237 / 8257 (DMA
Controller)-Microprocessor based Traffic Control, Temperature Control, Phase angle and power factor
measurement.
UNIT III 8086 PROCESSOR AND PROGRAMMING OF 8086 PROCESSOR 9
Intel 8086 Microprocessor Architecture – Memory Organization in 8086 – Assembly Language
Programming –Assembler Directives – 8086 Addressing Modes – Instruction Set of 8086-Asssembly
Language Programs – Procedures – Macros Interrupts and Interrupt Service Routines – 8086 Signals –
Min / Max Mode of Operation – Addressing Memory and I/O devices – System Design using 8086-
Design of a Microprocessor based Pattern Scanner System.
UNIT IV 8051 MICRO CONTROLLER AND ITS PROGRAMMING 9
Introduction-Functional block diagram – Registers-Internal RAM/ROM –Special Function Registers – I/O
Ports Programming – Timer / Counter Programming – Modes of Operation of Timer –Serial
Communication Programming –Interrupt Programming - Addressing Modes of 8051 – Instruction Format-
Instruction Set of 8051-Simple Programs
UNIT V 8051 MICRO CONTROLLER APPLICATIONS 9
8051 interfacing with Matrix Key board, LCD, ADC, DAC, Temperature Sensors, Stepper Motors, Closed
Loop Control of Servo Motor.
TOTAL: 45 PERIODS
TEXT BOOKS
1. Krishna Kant, “Microprocessor and Microcontrollers”, Eastern Company Edition, Prentice – Hall of
India, New Delhi , 2007.
2. Ajoy Kumar Ray & Kishor M Bhurchandi “Advanced Microprocessors and its Peripherals
(Architecture , Programming and Interfacing )" Second edition, Tata Mc Graw Hill Education Private
Limited – 2010 Print.
3. R.S. Gaonkar, „Microprocessor Architecture Programming and Application‟, Wiley Eastern Ltd., New
Delhi.
REFERENCES
1. Muhammad Ali Mazidi & Janice Gilli Mazidi, R.D.Kinely „The 8051 Micro Controller and Embedded
Systems‟, PHI Pearson Education, 5th Indian reprint, 2003.
2. The 8088 & 8086 Microprocessors, Walter A Tribal & Avtar Singh, Pearson, 2007,Fourth Edition.
UEI11413P/UEI11515P
UEI12413P/UEI12515P LINEAR AND DIGITAL INTEGRATED CIRCUITS LABORATORY
(Common to EIE &EEE) 0 0 3 2
AIM
To study various digital & linear integrated circuits used in simple system configuration.
1. Study of Basic digital IC‟s(Verification of truth table for AND,OR,EXOR,NOT,NAND,JK FF, RS
FF)
2. Implementation of Boolean Functions Adder/Subtractor circuits & Construction of Logic Gates
using Universal gate(NAND).
3. Code converters by using suitable IC‟s
a) Gray to Binary b) Binary to Gray
4. To Design and test Encoders and Decoders:
a) BCD to 7 segment Display
b) 2^n : n & n:2^n
5. To Design and test Multiplexer and De multiplexer
a) 2^n:1&1:2^n
b) Implement 4:1 using 2:1 Mux
6. To Design and test Shift registers: Design and implementation of 4-bit shift registers in
SISO, SIPO, PISO, PIPO modes using suitable IC‟s.
7. To Design and test Parity Generator & Parity Checker
8. Counters:
a) Ring counters b) Up and Down Counters
9. To design and test the inverting and non inverting amplifier using IC 741
10. To design and test the integrator and differentiator using IC 741
11. To design and implement the adder circuit using IC 741.
12. To design and implement the subtraction circuit using IC 741.
13. Timer IC application
a) Astable mode b)Mono stable mode
TOTAL=45 PERIODS
UEE11507P/UEE12507P CONTROL SYSTEMS LABORATORY 0 0 3 2
AIM
To study various digital and analog control realize the performance of the system.
List of experiments:
1. Determination of transfer function of DC servo motor.
2. Determination of transfer function of AC servo motor.
3. Analog simulation of Type-0 and Type-1 systems.
4. DC and AC position control systems.
5. Determination of transfer function of DC generator.
6. Determination of transfer function of DC motor.
7. Stepper motor control system.
8. Design and implementation of lag compensator and lead compensator networks.
9. Digital simulation of first order systems.
10. Digital simulation of second order systems.
11. Stability analysis of linear systems.
12. Study of synchros.
UEE11508P/
UEE12508P MICROPROCESSORS AND MICROCONTROLLERS LABORATORY 0 0 3 2
AIM
To understand programming using instruction sets of processors & To study various digital &
linear controllers
LIST OF EXPERIMENTS:
1. 8085 assembly language programming exercises.
2. 8086 assembly language programming exercises.
3. 8051 assembly language programming exercises.
4. Interfacing of USART.
5. Interfacing of D/A and A/D converters.
6. Interface of key board and display using programmable controllers.
7. Interface of programmable timer.
8. Stepper motor control using Microprocessor/Microcontroller.
9. DC motor control using Microprocessor/ Microcontroller.
10. Traffic light controller using 8085.
UEE11601/UEE12601 ELECTRIC DRIVES AND CONTROL 3 1 0 4
AIM
To study and understand the operation of electric drives controlled from a power electronic converter and
to introduce the design concepts of controllers.
OBJECTIVES
To understand the stable steady-state operation and transient dynamics of a motor-load system.
To study and analyze the operation of the converter / chopper fed dc drive and to solve simple
problems.
To study and understand the operation of both classical and modern induction motor drives.
To understand the differences between synchronous motor drive and induction motor drive and
to learn the basics of permanent magnet synchronous motor drives.
To analyze and design the current and speed controllers for a closed loop solid state DC motor
drive and simulation using a software package
UNIT – I CHARACTERISTICS OF ELECTRIC DRIVES 9
Speed - Torque characteristics of various types of loads and drive motors - Joint speed - Torque
characteristics - Selection of power rating for drive motors with regard to thermal overloading and load
variation factors – load equalization – Starting, braking, and reversing operations.
UNIT - II DC DRIVES 9
Speed control of DC motors - Ward - Leonard scheme - drawbacks – Single and Three Phase Thyristor
converter fed dc drives: - Single, Two and Four quadrant operations - Chopper fed DC drives : - Time
ratio control and current limit control - Single, two and four quadrant operations – Closed Loop control of
DC Drives.
UNIT - III THREE PHASE INDUCTION MOTOR DRIVES 10
Speed control of 3 phase Induction Motors - Stator control: Stator voltage and frequency control - AC
chopper, Inverter and cycloconverter fed Induction Motor drives, rotor control - Rotor resistance control
and slip power recovery schemes - Static control of rotor resistance using DC chopper - Static Krammer
and Scherbius drives – Introduction to Vector Controlled Induction Motor Drives- Closed Loop Control of
AC motor Drives.
UNIT - IV THREE PHASE SYNCHRONOUS MOTOR DRIVES 9
Speed control of 3 phase Synchronous Motors - True synchronous and self controlled modes of operations
- Inverter fed Synchronous Motors – Commutator-less DC motors - cycloconverter fed Synchronous
Motor - Effect of harmonics on the performance of AC motors – Closed loop control.
UNIT - V DIGITAL CONTROL AND DRIVE APPLICATIONS 8
Digital techniques in speed control - Advantages and limitations - Microprocessor/Microcontroller and
PLC based control of drives - Selection of drives and control schemes for Steel rolling mills, Paper mills,
Lifts and Cranes.
Lecture: 45, Tutorial: 15, TOTAL: 60
TEXT BOOKS:
1 Dubey G.K., "Fundamentals of Electrical Drives", Narosa Publishing House, New Delhi, 2003.
2 Bose, B.K., “Modern Power Electronics and AC Drives", Pearson Education (Singapore) Pvt.. Ltd, New
Delhi, 2003.
REFERENCE BOOKS:
1 Vedam Subramanyam, “ Electric Drives: Concepts and Applications”, Tata McGraw hill Pvt. Ltd, New
Delhi, 2002
2 Bose, B.K., "Power Electronics and Variable frequency Drives – Technology and Applications", IEEE,
Press, Inc. New York, 1997.
3 Krishnan R, “ Electric Motor Drives: Modeling, Analysis and Control, Prentice Hall of India, Pvt. Ltd,
New Delhi, 2002
UEI11611/UEI11511
UEI12611/UEI12511 DIGITAL SIGNAL PROCESSING 3 1 0 4
AIM
To introduce the concept of analyzing discrete time signals & systems in the time and frequency domain.
OBJECTIVES
To classify signals and systems & their mathematical representation.
To analyse the discrete time systems.
To study various transformation techniques & their computation.
To study about filters and their design for digital implementation.
To study about a programmable digital signal processor & quantization effects.
UNIT I - DISCRETE TIME SIGNALS AND SYSTEMS 9
Sampling of Analog signals – Aliasing - Standard discrete time signals – Classification of discrete time
systems – Linear time invariant systems, Causality, stability – Convolution – Overlap add method-
Overlap save method- Time response and Frequency response of DT systems.
UNIT II - FOURIER TRANSFORM 9
Discrete Fourier Transform- properties – Fast Fourier Transform - Introduction to Radix 2 FFT –
Decimation in time FFT algorithm – Decimation in frequency FFT algorithm – Computing inverse DFT
using FFT.
UNIT III - IIR FILTER DESIGN 9
Review of Design of Analog Butterworth and Chebyshev filters – Design of IIR Digital filters using
Impulse invariant technique and bilinear transformation method - Realization of IIR digital filters.
UNIT IV - FIR FILTER DESIGN 9
Linear phase FIR filters – FIR design – Fourier series method – Window function method – Frequency
sampling method – Realization of FIR digital filters – wavelet transform.
UNIT V - INTRODUCTION TO DIGITAL SIGNAL PROCESSOR 9
Need of digital signal processor – Architecture of TMS 320C54X processor - addressing modes –
instruction and programming – simple programs.
L:45 T:15 TOTAL=60 PERIODS
TEXT BOOKS:
1. John G. Proakis, Dimtris G. Manolakis, Digital Signal Processing Principles, Algorithms and
Application, Prentice Hall of india,New Delhi, 3rd Edition, 2000.
2. Venkataramani, B., and Bhaskar, M., Digital Signal Processor Architecture, Programming and
Application, Tata McGraw-Hill, New Delhi 2002.
REFERENCES BOOKS:
1. Salivahanan, S., Vallavaraj, A. and Gnanapriya, Digital Signal Processing, McGraw-Hill, New Delhi,
3rd Edition, 2006.
2. Johny R., Johnson. Introduction to Digital Signal Processing, Prentice Hall, New Delhi 1984
3. Emmanuel C. Ifeachor, Barrie W. Jervis, “Digital Signal Processing: A practical Approach”, Pearson
Education, NewDelhi, 2004..
4. Lonnie C. Ludeman, “Fundamentals of Digital Signal Processing”, John Wiley, 2002.
5. Antoniou A, “Digital Filters Analysis and Design”, Tata McGraw-Hill Publishing Co., New Delhi,
1993.
UEE11602/UEE12602 COMMUNICATION ENGINEERING 3 0 0 3
AIM
To introduce the concepts of communication systems engineering using wire and wireless
medium.
OBJECTIVES
To introduce different methods of analog communication and their significance
To introduce Digital Communication methods for high bit rate transmission
To introduce the concepts of source and line coding techniques for enhancing rating of
transmission of minimizing the errors in transmission.
To introduce MAC used in communication systems for enhancing the number of users.
To introduce various media for digital communication
UNIT I: INTRODUCTION TO COMMUNICATION SYSTEMS 9
Modulation introduction-Information and Bandwidth – Amplitude modulation fundamentals-Generation
of AM-Theory of Frequency and phase modulation- Generation of Frequency Modulation -FM Analysis-
Noise Suppression-Direct FM: Varactor diode-Indirect FM: PLL FM Transmitter-FM receiver block
diagram-Detector: PLL FM demodulator.
UNIT II : TRANSMISSION MEDIUM 9
Transmission lines – Types, equivalent circuit, losses, standing waves, impedance matching, bandwidth;
radio propagation – Ground wave and space wave propagation, critical frequency, maximum usable
frequency, path loss, white Gaussian noise.
UNIT III : DIGITAL COMMUNICATION 9
Pulse modulations – PAM, PWM, PPM, PTM, quantization and coding : DCM, DM, slope overload error.
ADM, DPCM, OOK systems – ASK, FSK, PSK, BSK, QPSK, QAM, MSK, GMSK, applications of Data
communication
UNIT IV : DATA COMMUNICATION AND NETWORK PROTOCOL 9
Data Communication codes, error control. Serial and parallel interface, telephone network, data modem,
ISDN, LAN, ISO-OSI seven layer architecture for WAN. SS&MA techniques : FDMA, TDMA, CDMA,
SDMA application in wire and wireless communication.
UNIT V : SATELLITE AND OPTICAL FIBER COMMUNICATION 9
Orbits: types of satellites: frequency used link establishment, MA techniques used in satellite
communication, earth station; aperture actuators used in satellite – Intelsat and Insat: fibers – types:
sources, detectors used, digital filters, optical link.
TOTAL : 45 PERIODS
TEXT BOOKS:
1.Taub & Schiling “Principles of communication systems” Tata McGraw hill 2007
2. Anokh Singh, “Principles of Communication Engineering“ S.Chand & Co., 1999.
3. Das J. “Principles of Digital communication” New Age International, 1986.
REFERENCE BOOKS:
1. Wayne Tomasi, „Electronic Communication Systems‟, Pearson Education,3rd
Edition, 2001.
2. Kennedy and Davis “Electronic communication systems” Tata McGraw hill, 4th edition, 1993.
3. Sklar “Digital communication fundamentals and applications“ Pearson Education, 2001
4. Bary le, Memuschmidt, “Digital Communication”, Kluwer Publication, 2004.
5. Simon Haykin, “Communication Systems”, Wiley Publication 2008.
UEE11603/UEE12603 POWER SYSTEM PROTECTION AND SWITCHGEAR 3 0 0 3
AIM:
To introduce the students to the various abnormal operating conditions in power system and
describe the apparatus and system protection schemes. Also to describe the phenomena of current
interruption to study the various switchgears.
OBJECTIVES:
To discuss the causes of abnormal operating conditions (faults, lightning and switching surges)
of the apparatus and system.
To understand the characteristics and functions of relays and protection schemes.
To understand the problems associated with circuit interruption by a circuit breaker.
UNIT – I INTRODUCTION 9
Principles and need for protective schemes – nature and causes of faults – types of faults –Power
system earthing - Zones of protection and essential qualities of protection –Protection scheme-
rotection against over voltages due to lightning and switching – arcing grounds –Peterson Coil – round
wires – surge absorber and diverters Power System earthing – neutral Earthing – basic ideas of
insulation coordination-Blackout case study.
UNT II RELAYS AND FUSES 9
Construction and characteristics of relays – over current relays –directional, distance and differential
relays, under frequency, negative sequence relays -static relays: microprocessor based relays. Fuses:
definitions-types of fuses-High Voltage H.R.C fuses-Application-Advantages and Disadvantages
UNIT - III THEORY OF CIRCUIT INTERRUPTION 9
Physics of arc phenomena and arc interruption. Restriking voltage & Recovery voltage, rate of rise of
recovery voltage, current chopping, interruption of capacitive current,resistance switching – DC circuit
breaking.
UNIT - IV CIRCUIT BREAKERS 9
Switch gear – fault clearing process – interruption of current – Types of Circuit Breakers – Air blast,
oil, SF6 and Vacuum circuit breakers – comparative merits of different circuit breakers – Testing of
circuit breakers – Circuit breaker ratings-Recent Development in Circuit Breaker Design and its
Operation.
UNIT - V PROTECTION OF ELECTRICAL APPARATUS 9
Apparatus protection – generator and transformer protection – protection of bus bars, transmission
lines, CT's & PT's and their application in protective schemes
Lecture : 45, TOTAL : 45
TEXT BOOK:
1.A.Chakrabati,M.L.Soni,P.V.Gupta,U.S.Bhatnagar „A Text Book on Power System
Engineering‟,Dhanpat Rai & Co(P) Ltd, New Delhi, Edition 2003.
2. Sunil S. Rao, „Switchgear and Protection‟, Khanna publishers, New Delhi, 1986.
REFERENCE BOOKS:
1 C.L. Wadhwa, „Electrical Power Systems‟, New Age International (P) Ltd., 2000.
3 Badri Ram, Vishwakarma, „Power System Protection and Switchgear‟, Tata McGraw
Hill, 2001.
UEE11604 ADVANCED CONTROL THEORY 3 1 0 4
AIM
To Gain knowledge in state variable analysis, Non-linear system and optimal control.
Objective
To Study the state variable analysis
To provide adequate knowledge in the phase plane analysis
To give basic knowledge in describing function analysis
To study the design of optimal controller
UNIT I STATE VARIABLE ANALYSIS 9
Concept of state – State Variable and State Model – State models for linear and continuous time systems -
Realization of state models: minimal realization – balanced – Solution of state and output equation –
controllability and observability - stabilisability – detectability. Pole Placement technique.
UNIT II PHASE PLANE ANALYSIS 9
Features of linear and non-linear systems - Common physical non-linearities – Methods
of linearising non-linear systems - Concept of phase portraits – Singular points – Construction of phase
portraits – Phase plane analysis of linear and non-linear systems – Isocline method.
UNIT III NON-LINEAR SYSTEMS 9
Types of non-linearity – Typical examples – Equivalent linearization – Limit cycles – Describing
functions- Analysis using Describing functions- Jump resonance - Conditions for stability – Stability of
oscillations.
UNIT IVSTABILITY ANALYSIS 9
Stability concepts – equilibrium points – BIBO and asymptotic stability – direct method of
liapunov – application to non-linear problems – frequency domain stability criteria – popov‟s
method and its extensions
UNIT V CONTROLLER SYNTHESIS FOR NON-LINEAR SYSTEMS 9
Linear design and non-linear verification – Non-linear internal model control – Parameter
optimization – Model predictive controller – Optimal controller – State feedback and
observer.
Lecture : 45, Tutorial : 15, TOTAL : 60
TEXT BOOK:
1. I.J. Nagrath and M. Gopal, „Control Systems Engineering‟, New Age International Publishers, 2003.
2. Gopal. M., Modern Control Engineering, Wiley, 1996.
REFERENCE BOOK:
1. K. Ogatta, “Modern Control Engineering”, Pearson Education Asia, Low Priced Edition,
1997.
2. Bay.J.S., Linear State Space Systems, McGraw-Hill, 1999.
3. Gene F. Franklin, J. David Powell and Abbasemami-Naeini, “ Feedback Control of
Dynamic Systems”, Fourth edition, Pearson Education, Low price edition.2002.
4. M.Gopal, Modern control system theory, New Age International Publishers, 2002.
UEE12604 ADVANCED CONTROL THEORY L T P C
3 1 0 4
AIM
To Gain knowledge in state variable analysis, Non-linear system and optimal control.
OBJECTIVE
To Study the state variable analysis
To provide adequate knowledge in the phase plane analysis
To give basic knowledge in describing function analysis
UNIT I STATE VARIABLE ANALYSIS 9
Concept of state – State Variable and State Model – State models for linear and continuous time systems: Electrical
and Mechanical Systems - Non uniqueness of state model - State Diagrams - Realization of state models: State
space to transfer function Model and Transfer function to state space model– Pole Placement technique.
UNIT II SOLUTION OF STATE EQUATION 9
Solution of Homogeneous and Non-homogeneous systems–State transition matrix and its properties– Solution of
state and output equation–Role of Eigen values and vectors–Controllability and Observability –Stabilisability–
Detectability–Output Controllability.
UNIT III NON-LINEAR SYSTEMS 9
Features of linear and non-linear systems - Common physical non-linearities– Typical examples– Concept of phase
portraits – Singular points –Isocline method– Describing functions of various non-linearities–Analysis using
Describing functions–Limit cycles–Jump resonance– Asynchronous Quenching - Conditions for stability.
UNIT IV STABILITY ANALySIS 9
Introduction-Equilibrium Points-Stability in the sense of Lyapunov – BIBO and asymptotic stability – Lyapunov
stability analysis for linear and non-linear systems – Krasovskii Method for non-linear systems.
UNIT V CONTROLLER SYNTHESIS FOR NON-LINEAR SYSTEMS 9
Linear design and non-linear verification – Non-linear internal model control – Parameter optimization – Model
predictive controller – Optimal controller – State feedback Controller – Full order and Reduced observer.
Lecture : 45, Tutorial : 15, TOTAL : 60
TEXT BOOKS: 1. I.J. Nagrath ,M.Gopal,„Control Systems Engineering‟,New Age International Publishers,2003
2. Gopal. M., Modern Control Engineering, Wiley, 1996.
REFERENCE BOOKS:
1. K. Ogatta, “Modern Control Engineering”, Pearson Education Asia,1997.
2. Bay.J.S., Linear State Space Systems, McGraw-Hill, 1999.
3.Gene F. Franklin, J. David Powell and Abbasemami-Naeini, “ Feedback Control of
Dynamic Systems”, Fourth edition, Pearson Education, Low price edition.2002.
4. M.Gopal, Modern control system theory, New Age International Publishers, 2002.
UEE11605/UEE12605 EMBEDDED SYSTEMS 3 0 0 3
AIM
To give sufficient background for undertaking embedded systems and introduction to design.
OBJECTIVES
To introduce students to the embedded systems, its hardware and software.
To introduce devices and buses used for embedded networking.
To introduce programming concepts and embedded programming in C and C++.
To explain real time operating systems and inter-task communication.
UNIT I INTRODUCTION TO EMBEDDED ARCHITECTURE 9
Embedded Computers - Characteristics of Embedded Computing Applications - Challenges in
Embedded Computing system design - Embedded system design process – Requirements –
Specification - Architectural Design - Designing Hardware and Software Components - System
Integration - Formalism for System Design - Structural Description - Behavioral Description -
Design Example - Model Train Controller.
UNIT II EMBEDDED PROCESSOR AND COMPUTING PLATFORM 9
ARM processor – processor and memory organization, data operations, flow of control, SHARC processor
– memory organization, data operations, flow of control, parallelism with instructions, CPU bus
configuration, ARM bus, SHARC bus, memory devices, input/output devices, component interfacing,
designing with microprocessor development and debugging, design
example : alarm clock
UNIT III NETWORKS 9
Distributed Embedded Architecture - Hardware and Software Architectures - Networks for
embedded systems - I2C - CAN Bus - SHARC link ports - Ethernet - Myrinet – Internet - Network-Based
design - Communication Analysis - system performance Analysis - Hardware platform design- Allocation
and scheduling - Design Example - Elevator Controller.
UNIT - IV SCHEDULE MECHANISM AND RTOS 12
Context switching, premature & non-prematuremultitasking, semaphores.
Scheduling – Thread states, pending threads, context switching, round robin scheduling,
priority based scheduling, assigning priorities, deadlock, watch dog timers. Introduction to basic concepts
of RTOS, RTOS – Interrupt handling, task scheduling; embedded system design issues in system
development process
UNIT – V APPLICATION OF EMBEDDED SYSTEMS. 9
Required Memory devices for an Automatic Washing machine, Chocolate vending
machine and for a Digital Camera and Voice recorder. Telephone PBX - System Architecture - Ink jet
printer - Hardware Design and Software Design - Personal Digital Assistants - Set-top Boxes.
Lecture : 45, Tutorial : 0, TOTAL : 45
TEXT BOOK
1. P. Rajkamal, „Embedded System – Architecture, Programming, Design‟, Tata
McGraw Hill, 2003.
REFERENCE BOOKS
1. Daniel W. Lewis „Fundamentals of Embedded Software‟, Prentice Hall of India,
2004.
2. Frank Vahid, „Embedded System Design – A Unified Hardware & Software
Introduction‟, John Wiley, 2002.
3. Sriram V. Iyer, Pankaj Gupte, „Embedded Real Time Systems Programming‟, Tata
McGraw Hill, 2004.
4. Steve Heath, „Embedded System Design‟, II edition, Elsevier, 2003
5. Wayne Wolf, “Computers as Components- Principles of Embedded Computing System
UEE11606P/UEE12606P POWER ELECTRONICS LABORATORY 0 0 3 2
AIM
To study the characteristics of switching devices and its applications in rectifier inverter,
Chopper and resonant converter.
List of experiments:
1. Characteristics of SCR & TRIAC
2. Characteristics of MOSFET and IGBT
3. Implementation of 1Ф & 3Ф AC to DC fully controlled converter and simulate using MATLAB
4. Implementation of 1Ф & 3Ф AC to DC half-controlled converter and simulate using MATLAB
5. Step down and step up MOSFET based choppers
6. Voltage and Current commutated chopper
7. Series and Parallel inverter
8. IGBT based single-phase PWM inverter
9. IGBT based three-phase PWM inverter
10. Resonant DC-to-DC converter
11. Implementation of Cycloconverter using SCR
12. Implementation of AC Voltage Controllers using TRIAC
Total : 45 periods
UEI11612P/
UEI12612P DIGITAL SIGNAL PROCESSING LABORATORY 0 0 3 2
AIM
To introduce the student to various digital Signal Processing techniques using TMS 320c5x family
processors and MATLAB.
List of Experiments
Using MATLAB
1. Generation of discrete time sequences.
2. Sampling theorem and aliasing effect.
3. Convolution of two sequence
4. Frequency response of system function
5. DFT computation
6. Computation of circular convolution
7. Design of Chebyshev analog and digital filters.
8. Design of Butterworth analog and digital filters.
9. Design of FIR filters using windows.
10. Design of FIR filters using frequency sampling method.
Using DSP processor – TMS320C54x/xx
11. Arithmetic operations
12. Generation of signals.
13. Circulator convolution.
14. Calculation of FFT.
15. Implementation of IIR filters.
16. Implementation of FIR filters.
Total : 45 periods
UEE11607P/UEE12607P DESIGN PROJECT LABORATORY 0 0 3 2
AIM
To introduce the student to various circuit designing concepts and to familiarize in the area of PCB
designing.
List of Experiments:
1. Design and Fabrication of 5V Constant & Variable DC Supply with inductor and Capacitive filter
2. Design and Fabrication of 12V Constant & Variable DC Supply with inductor and Capacitive
filter
3. Design and Fabrication of Domestics UPS.
4. Design and Fabrication of an isolation circuit using opto coupler which is required for
Microcontroller interfacing
5. Design and Fabrication of Driver Circuit to drive an Electromagnetic relay using Microprocessor
with required Protection.
6. Design and Fabrication of Burglar Alarm.
7. Design and Fabrication of LED 7 Segment Digital clock.
8. Design and Fabrication of Electronic Voltage Regulator.
9. Design and Fabrication of Flashing LED using 555 timer.
Total : 45 periods
.
UEE11701 POWER SYSTEM OPERATION AND CONTROL 3 1 0 4
AIM
To make the students that to have the knowledge in power system operation and its control.
OBJECTIVES
i) To have an overview of power system operation and control. ii) To model power-frequency dynamics and to design power-frequency controller. iii) To model reactive power-voltage interaction and the control actions to be implemented for
maintaining the voltage profile against varying system load. iv) To study the economic operation of power system.
UNIT I INTRODUCTION
9
An overview of power system operation and control - system load variation - load characteristics -load
curves and load-duration curve - load factor - diversity factor - Importance of load forecasting and quadratic and
exponential curve fitting techniques for fore casting – plant level & system level controls.
UNIT II UNIT COMMITMENT AND ECONOMIC DISPATCH
9
Formulation of economic dispatch problem – I/O cost characterization – incremental cost curve –
coordination equations without and with loss (No derivation of loss coefficients) - solution by direct method and λ-
iteration method - statement of unit commitment problem – priority-list method – forward dynamic programming.
UNIT III REAL POWER - FREQUENCY CONTROL
9
Basics of speed governing mechanism and modeling - speed-load characteristics – load sharing between
two synchronous machines in parallel - control area concept - LFC control of a single-area system - static and
dynamic analysis of uncontrolled and controlled cases - two-area system – modeling - static analysis of uncontrolled
case - tie line with frequency bias control - state variable model - integration of economic dispatch control with
LFC.
UNIT IV REACTIVE POWER–VOLTAGE CONTROL
9
Generation and Absorption of reactive power - basics of reactive power control - excitation systems –
modeling - static and dynamic analysis - stability compensation - methods of voltage control: tap changing
transformer, SVC (TCR + TSC) and STATCOM – secondary voltage control.
UNIT V COMPUTER CONTROL OF POWER SYSTEMS
9
Need for computer control of power systems - concept of energy control centre - functions – system
monitoring - data acquisition and control - system hardware configuration – SCADA and EMS functions - network
topology - state estimation – WLSE – Contingency Analysis - state transition diagram showing various state
transitions and control strategies.
L:45 T:15 Total:60 Periods TEXT BOOKS 1. Olle.I.Elgerd, „Electric Energy Systems theory - An introduction‟, Tata McGraw Hill Education Pvt.Ltd., New
Delhi, 34th reprint, 2nd
edition 2010.
2. Allen. J. Wood and Bruce F. Wollenberg, „Power Generation, Operation and Control‟, John Wiley& Sons, Inc.,
2nd
edition 2013.
REFERENCE BOOKS 1. Abhijit Chakrabarti, Sunita Halder, „Power System Analysis Operation and Control‟, PHI learning Pvt.
Ltd., New Delhi, 3rd Edition, 2010.
UEE12701 POWER SYSTEM OPERATION AND CONTROL 3 1 0 4
AIM
To make the students that to have the knowledge in power system operation and its control.
OBJECTIVES
v) To have an overview of power system operation and control. vi) To model power-frequency dynamics and to design power-frequency controller. vii) To model reactive power-voltage interaction and the control actions to be implemented for
maintaining the voltage profile against varying system load. viii) To study the economic operation of power system.
UNIT I LOAD BEHAVIOUR
9
An overview of power system operation and control - system load variation - load characteristics -load
curves and load-duration curve - load factor - diversity factor - Importance of load forecasting – plant level and
system level controls .
UNIT II UNIT COMMITMENT AND ECONOMIC DISPATCH
9
Formulation of economic dispatch problem – I/O cost characterization – incremental cost curve –
coordination equations without and with loss (No derivation of loss coefficients) - solution by direct method and λ-
iteration method - statement of unit commitment problem – priority-list method – forward dynamic programming.
UNIT III REAL POWER - FREQUENCY CONTROL
9
Basics of speed governing mechanism and modeling - speed-load characteristics – load sharing between
two synchronous machines in parallel - control area concept - LFC control of a single-area system - static and
dynamic analysis of uncontrolled and controlled cases - two-area system – modeling - static analysis of uncontrolled
case - tie line with frequency bias control - state variable model - integration of economic dispatch control with
LFC.
UNIT IV REACTIVE POWER–VOLTAGE CONTROL
9
Generation and Absorption of reactive power - basics of reactive power control - excitation systems –
modeling - static and dynamic analysis - stability compensation - methods of voltage control: tap changing
transformer, SVC (TCR + TSC) and STATCOM – secondary voltage control.
UNIT V COMPUTER CONTROL OF POWER SYSTEMS
9
Need for computer control of power systems - concept of energy control centre - functions – system
monitoring - data acquisition and control - system hardware configuration – SCADA and EMS functions - network
topology - state estimation – WLSE (Weighted Least Square Error) - state transition diagram showing various state
transitions and control strategies.
L:45 T:15 Total:60 Periods TEXT BOOKS 1. Olle.I.Elgerd, „Electric Energy Systems theory - An introduction‟, Tata McGraw Hill Education Pvt.Ltd., New
Delhi, 34th reprint, 2nd
edition 2010.
2. Allen. J. Wood and Bruce F. Wollenberg, „Power Generation, Operation and Control‟, John Wiley& Sons, Inc.,
2nd
edition 2013.
REFERENCE BOOKS 2. Abhijit Chakrabarti, Sunita Halder, „Power System Analysis Operation and Control‟, PHI learning Pvt.
Ltd., New Delhi, 3rd Edition, 2010.
UEE11702/UEE12702 SPECIAL ELECTRICAL MACHINES 3 0 0 3
AIM
To make students gain a fair knowledge in different special electrical machines.
OBJECTIVES
i) To understand the working principle and construction of commutator motors, stepper motors and
switched reluctance motors. ii) To gain knowledge in principle of operation and characteristics of permanent magnet brushless
dc motors and synchronous motors.
UNIT I STEPPER MOTORS 9
Constructional features - principle of operation - Types of motors – variable reluctance, permanent magnet,
hybrid type - comparison – Static and Dynamic Characteristics – Drive system and circuit control of Stepper motor
–.microprocessor based stepper motor control – Applications.
UNIT II SWITCHED RELUCTANCE MOTORS (SRMs)
9
Constructional features – Rotary and Linear SRM - Principle of operation – Torque production – Torque-
Speed Characteristics – Power Semi Conductor Switching Circuits- Microprocessor based control of SRM Drive –
computer control – Rotor position sensors: photo transistor, hall sensor – Sensor less control of SRM – Applications
of SRM.
UNIT III PERMANENT MAGNET BRUSHLESS DC MOTORS
9 Commutation in DC Motors-Difference between mechanical and electronic commutators-Magnetic circuit analysis-
Principles of operation-Construction and Drive circuits-Torque and EMF equation-Torque and Speed characteristics
–sensors and sensorless systems-Vector controllers and applications
UNIT IV PERMANENT MAGNET SYNCHRONOUS MOTORS
9 Principle of operation – constructional features-phasor diagram-speed torque characteristics – torque and
emf equations- Vector controllers and applications. Doubly fed Induction Generator – principle-construction ,
characteristics and its applications.
UNIT V LINEAR MOTORS
9
Construction – Principle of operation – Types – expression for linear force – equivalent circuit –– concept
of current sheet – goodness factor – DC Linear Motor (DCLM) types – Circuit equation – DCLM control
applications.
L: 45 T:0 Total: 45 periods TEXT BOOKS 1.T.J.E. Miller, „Brushless Permanent Magnet and Reluctance Motor Drives‟, Clarendon Press, Oxford, 1989.
2.T. Kenjo, „Stepping Motors and Their Microprocessor Controls‟, Clarendon Press London, 2nd
Edition 1994.
REFERENCE BOOKS
1.R.Krishnan, „Switched Reluctance Motor Drives – Modeling, Simulation, Analysis, Design and Application‟,
CRC Press, New York, 2001.
2.G. Janardanan, „Special electrical machines‟, PHI learning Private Limited, Delhi, 2014.
3.Nasar A and Boldea I, “Linear Electric Motors: Theory, Design and Practical Application”, Prentice Hall Inc.,
New Jersey,1st edition1987.
4.I.Boldea , S.A.Nasar “Vector Control of AC drives” , CRC press , Newyork , 1992
5. K.Venkataratnam, „Special Electric Machines‟, Universities Press (India) Private Limited, 1st Edition 2009.
UEE11703 HIGH VOLTAGE ENGINEERING 3 0 0 3
AIM
To expose the students to the fundamentals of High Voltage Engineering and their real time applications
Electrical Engineering.
OBJECTIVES
i) To understand the design principles and critical elements of a high voltage system. ii) To know about Ionization and Decay Process. iii) To learn about the electric breakdown in gases, solids and liquids.
UNIT I OVERVOLTAGES IN ELECTRICAL POWER SYSTEMS
9 Causes of over voltages and its effect on power system – Lightning, switching surges and temporary over
voltages - protection against over voltages-Control of over voltages due to switching-Introduction about Insulation
Co-ordination
UNIT II ELECTRIC BREAKDOWN IN GASES, SOLIDS AND LIQUIDS
9
Properties of insulating gases - Townsend's criterion for break down - Mechanism of spark - Breakdown
voltage characteristics in uniform and non uniform fields - Time lag for breakdown – Streamer Theory of
breakdown in Gases - Corona discharges - Paschen's law – Dielectric Breakdown In Solids: Intrinsic breakdown -
Electromechanical breakdown - Thermal breakdown - Breakdown of composite insulation - Solid dielectrics used in
practice, Electric Breakdown In Liquids: Electronic breakdown - Cavitation breakdown - Conduction and
breakdown in pure and commercial liquids.
UNIT III GENERATION OF HIGH VOLTAGES AND HIGH CURRENTS
9
Generation of high DC voltages - Cockroft - Walton voltage multiplier circuit – Electrostatic generator -
Vande groaf generator - Generation of high AC voltages, Transformers in cascade - Construction of Impulse
generator - Generation of Impulse voltages and currents - Tripping and control of Impulse generators.
UNIT IV MEASUREMENT OF HIGH VOLTAGES AND CURRENTS
9 Measurement of high DC voltages - Measurement of High AC and Impulse voltages -Measurement of High
DC, AC and Impulse currents – Partial discharge Measurements.
UNIT V HIGH VOLTAGE TESTING 9
Testing of Insulators and Bushings- Testing of isolators and circuit breakers - Testing of surge arrestors -
Testing of cables - Testing of power capacitors and transformers - Radio interference measurements
L:45 T:0 TOTAL 45 Periods TEXT BOOKS 1. Naidu M. S., Kamaraju V., “High Voltage Engineering”, Tata McGraw- Hill Publishing Company Ltd., New
Delhi, 5th Edition, 2009.
2. Wadhwa C.L., “High Voltage Engineering”, New Age International Private Ltd., 3rd
Edition, Reprint, New
Delhi, 2010.
REFERENCE BOOKS 1. Ravindra Arora and Wolfgang Mosch, “High Voltage - Insulation Engineering”, New Age International
Publishers Limited, 1st Edition, Reprint, New Delhi, 2008.
2. Kuffel, E., Zaengl W.S., Kuffel J., “High Voltage Engineering: Fundamentals”, Newnes Publishers, New Delhi,
2nd Edition, 2000.
3. Rakosh Das Begamudre, “Extra High Voltage AC Transmission Engineering”, New Age International Private
Ltd., 3rd Edition, New Delhi, 4th Edition 2010.
UEE12703 HIGH VOLTAGE ENGINEERING 3 0 0 3
AIM
To expose the students to the fundamentals of High Voltage Engineering and their real time applications
Electrical Engineering.
OBJECTIVES
i) To understand the design principles and critical elements of a high voltage system. ii) To know about Ionization and Decay Process. iii) To learn about the electric breakdown in gases, solids and liquids.
UNIT I OVERVOLTAGES IN ELECTRICAL POWER SYSTEMS
9 Causes of over voltages and its effect on power system – Lightning, switching surges and temporary over
voltages - protection against over voltages-Control of over voltages due to switching-Introduction about Insulation
Co-ordination
UNIT II ELECTRIC BREAKDOWN IN GASES, SOLIDS AND LIQUIDS
9
Properties of insulating gases - Townsend's criterion for break down - Mechanism of spark - Breakdown
voltage characteristics in uniform and non uniform fields - Time lag for breakdown – Streamer Theory of
breakdown in Gases - Corona discharges - Paschen's law – Dielectric Breakdown In Solids: Intrinsic breakdown -
Electromechanical breakdown - Thermal breakdown - Breakdown of composite insulation - Solid dielectrics used in
practice, Electric Breakdown In Liquids: Electronic breakdown - Cavitation breakdown - Conduction and
breakdown in pure and commercial liquids.
UNIT III GENERATION OF HIGH VOLTAGES AND HIGH CURRENTS
9
Generation of high DC voltages - Cockroft - Walton voltage multiplier circuit – Electrostatic generator -
Vande graff generator - Generation of high AC voltages, Transformers in cascade - Construction of Impulse
generator - Generation of Impulse voltages and currents - Tripping and control of Impulse generators.
UNIT IV MEASUREMENT OF HIGH VOLTAGES AND CURRENTS
9 Measurement of high DC voltages - Measurement of High AC and Impulse voltages -Measurement of High
DC, AC and Impulse currents – Partial discharge Measurements.
UNIT V HIGH VOLTAGE TESTING AND ITS APPLICATION
9
Testing of Insulators and Bushings- Testing of isolators and circuit breakers - Testing of surge arrestors -
Testing of cables - Testing of power capacitors and transformers - Radio interference measurements- Electrostatic
precipitator
L:45 T:0 TOTAL 45 Periods
TEXT BOOKS 1. Naidu M. S., Kamaraju V., “High Voltage Engineering”, Tata McGraw- Hill Publishing Company Ltd., New
Delhi, 5th Edition, 2009.
2. Wadhwa C.L., “High Voltage Engineering”, New Age International Private Ltd., 3rd
Edition, Reprint, New
Delhi, 2010.
REFERENCE BOOKS 1. Ravindra Arora and Wolfgang Mosch, “High Voltage - Insulation Engineering”, New Age International
Publishers Limited, 1st Edition, Reprint, New Delhi, 2008.
2. Kuffel, E., Zaengl W.S., Kuffel J., “High Voltage Engineering: Fundamentals”, Newnes Publishers, New Delhi,
2nd Edition, 2000.
3. Rakosh Das Begamudre, “Extra High Voltage AC Transmission Engineering”, New Age International Private
Ltd., 3rd Edition, New Delhi, 4th Edition 2010.
UBA11701/UBA12701 PROFESSIONAL ETHICS AND HUMAN VALUES 3 0
0 3
AIM
To make the students that to realize about the ethical value and human values in the environment by their professional
skills.
OBJECTIVE
i) To realize the important role of ethical process and human values. ii) To know about Engineering Ethics. iii) To learn about the Bioethics and Bio-safety. iv) To study the safety, Responsibilities and Rights.
UNIT I HUMAN VALUES 9
Morals, Values and Ethics – Integrity – Work Ethic – Service Learning – Civic Virtue – Respect for Others – Living
Peacefully – caring – Sharing – Honesty – Courage – Valuing Time – Co-operation – Commitment – Empathy – Self-
Confidence – Character – Spirituality
UNIT II ENGINEERING ETHICS 9
Senses of 'Engineering Ethics' - variety of moral issued - types of inquiry – moral dilemmas - moral autonomy -
Kohlberg's theory - Gilligan's theory - consensus and controversy – Models of Professional Roles - theories about right action -
Self-interest - customs and religion - uses of ethical theories.
UNIT III ENGINEERING AS SOCIAL EXPERIMENTATION & BIOETHICS AND BIOSAFETY 9
Engineering as experimentation - engineers as responsible experimenters - codes of ethics - a balanced outlook on law
- the challenger case study. Bioethics, Bioterrorism, Biosafety issues. GTOs – Transgenic plants and Animals.
UNIT IV SAFETY, RESPONSIBILITIES AND RIGHTS 9
Safety and risk - assessment of safety and risk - risk benefit analysis and reducing risk - the three mile island and
Chernobyl case studies. Collegiality and loyalty - respect for authority - collective bargaining - confidentiality - conflicts of
interest - occupational crime - professional rights - employee rights - Intellectual Property Rights (IPR) - discrimination.
UNIT V GLOBAL ISSUES 9
Multinational corporations - Environmental ethics - computer ethics – weapons development - engineers as managers-
consulting engineers-engineers as expert witnesses and advisors -moral leadership-sample code of Ethics (Specific to a
particular Engineering Discipline).
L:45 T:0 Total:45 Periods
TEXT BOOKS
1.Mike Martin and Roland Schinzinger, "Ethics in engineering", McGraw Hill, New York 1996.
2.Govindarajan M, Natarajan S, Senthil Kumar V. S, “ Engineering Ethics”, Prentice Hall of India, New Delhi, 2010.
REFERENCE BOOKS
1.Charles D. Fleddermann, "Engineering Ethics", Pearson Education/ Prentice Hall, New Jersey, 2004 (Indian Reprint now
available)
2.Charles E Harris, Michael S. Protchard and Michael J Rabins, “ Engineering Ethics – Concepts and Cases”, Wadsworth
Thompson Leatning, United States, 2000 (Indian Reprint now available)
3.John R Boatright, “ Ethics and the Conduct of Business”, Pearson Education, New Delhi, 2003.
UBA11754 PRINCIPLES OF MANAGEMENT 3
0 0 3
AIM:
To learn the different principles and techniques of management in planning, organizing, directing and controlling.
OBJECTIVE:
To study the evolution of Management
To study the functions and principles of Management
To learn the application of the principles in an organization
UNIT I INTRODUCTION TO MANAGEMENT AND ORGANIZATIONS 9
Definition of Management-Science or Art-Manager Vs Entrepreneur -types of managers-managerial roles and skills-
Evolution of Management-Scientific, human relations , system and contingency approaches-Types of Business organization-
Sole proprietorship, partnership , company- public and private sector enterprises- organization culture and environment-
Current trends and issues in Management.
UNIT II PLANNING 9
Nature and purpose of planning - Planning process - Types of planning – Objectives – setting objectives - Policies –
planning premises-strategic Management- Planning tools and techniques-decision making steps and process
UNIT III ORGANIZING & STAFFING 9
Nature and purpose – formal and informal organization – organization chart-organization structure –types – Line and
staff authority-departmentalization-delegation of authority-centralization and decentralization – job design- Human Resource
Management- HR planning , Recruitment , Selection , Training and development , Performance Management, Career planning
and Management.
UNIT IV DIRECTING 9
Foundations of individual and group behavior-motivation theories-motivational techniques-job satisfaction-job enrichment-
leadership -types and theories of leadership-communication-process of communication-barrier in communication-effective
communication-communication and IT
UNIT V CONTROLLING 9
System and process of controlling - Budgetary and non-budgetary control techniques – use of computers and IT in
management control- Productivity problems and management-control and performance-direct and preventive control-reporting
L: 45 T:0 Total: 45 periods
TEXT BOOKS:
1. Harold Koontz & Heinz Weihrich “ Essentials of management” Tata McGraw Hill , 1998.
REFERENCE BOOKS:
1. Stephen P. Robbins and Mary Coulter, 'Management', Prentice Hall (India) Pvt.Ltd India, 10th edition,2009
2. JAF Stoner, Freeman R.E and Daniel R Gilbert “Management” , Prentice Education, 6th
Edition, 2004.
3. Stephen A.Robbins & David A.Decenzo & Mary Coulter, “ Fundamentals of Management” pearson Education,
7th
Edition 2011.
4.Robert Kreitner & Mamata Mohapatra, “Management”, Biztantra, 2008.
5.Tripathy PC & Reddy PN, “Principles of Management”, Tata McGraw Hill, 1999.
UBA12754 PRINCIPLES OF MANAGEMENT 3 0 0 3
AIM
To make students gain knowledge about management capability.
OBJECTIVES
1. To gain a basic understanding of principles of management including planning, organizing
and controlling.
2. To gain a basic understanding of concepts for managing people including human resources,
motivation, leading, and communications.
3. To improve your ability to examine managerial issues and problems and to develop feasible
alternatives that can result in better decision-making.
4. To develop an awareness of multiple approaches that can be used to resolve managerial issues
and problems.
UNIT I OVERVIEW OF MANAGEMENT 9
Organization - Management - Role of managers - Evolution of Management thought - Organization and the environmental
factors - Managing globally - Strategies for International Business.
UNIT II PLANNING 9
Nature and purpose of planning - Planning process - Types of plans – Objectives - Managing by objective (MBO) Strategies -
Types of strategies - Policies - Decision Making - Types of decision - Decision Making Process - Rational Decision Making
Process - Decision Making under different conditions.
UNIT III ORGANIZING 9
Nature and purpose of organizing - Organization structure - Formal and informal groups I organization - Line and Staff
authority - Departmentation - Span of control - Centralization and Decentralization - Delegation of authority - Staffing -
Selection and Recruitment - Orientation - Career Development - Career stages – Training - Performance Appraisal.
UNIT IV DIRECTING 9
Creativity and Innovation - Motivation and Satisfaction - Motivation Theories Leadership - Leadership theories -
Communication - Hurdles to effective communication - Organization Culture - Elements and types of culture - Managing
cultural diversity.
UNIT V CONTROLLING 9
Process of controlling - Types of control - Budgetary and non-budgetary control techniques -
Managing Productivity - Cost Control - Purchase Control - Maintenance Control - Quality Control - Planning operations.
L: 45 T:0 Total: 45 periods
TEXT BOOKS
1. Stephen P. Robbins and Mary Coulter, 'Management', Prentice Hall of India, 8th edition.
2. Charles W L Hill, Steven L Mc Shane, 'Principles of Management', Mcgraw Hill Education,Special Indian Edition, 2007.
REFERENCES
1. Hellriegel, Slocum & Jackson, ' Management - A Competency Based Approach', Thomson
South Western, 10th edition, 2007.
2. Harold Koontz, Heinz Weihrich and Mark V Cannice, „Management – A global and
Entrepreneurial Perspective‟, Tata Mcgraw Hill, 12th edition, 2007.
3. Andrew J. Dubrin, 'Essentials of Management', Thomson Southwestern, 7th edition, 2007.
UEE11751/UEE12751 APPLICATION OF POWER ELECTRONICS IN POWER SYSTEM 3
0 0 3
AIM
To make students gain knowledge about usage of power electronic devices in Power system
OBJECTIVES i) To impart knowledge on different types of converter configurations. ii) To study the different Applications of converters in HVDC systems iii) To study the different Applications of converters in FACTS iv) To design and analyze the different types of protection schemes for converters.
UNIT I INTRODUCTION
9
Overview of Silicon Power Electronic Devices: Thyristor, GTO, IGCT, MOSFET, IGBT-Applications for Power
Electronics Devices-Power Electronics Benefits to Transmission and Distribution and to Distributed Energy- Technical
Challenges Facing Power Electronics.
UNIT II SINGLE PHASE AND THREE PHASE CONVERTERS
9
Properties – Current and voltage harmonics – Effect of source and load impendence – Choice of best circuit for power
systems- Converter Control - Gate Control – Basic means of Control – Control characteristics – Stability of control – Reactive
power control - Applications of converters in HVDC systems – Static VAR control - Source of reactive power – Harmonics and
filters.
UNIT III HVDC
9
HVDC configurations, components of HVDC system: Converter, transformer, smoothing reactor, harmonic filter.
Reactive power support, operation of 6-pulse controlled rectifier in inverting mode of operation. Operation of 12 - pulse
converter. Control of HVDC system, Rectifier and inverter characteristics, mode stabilization, current control, voltage
dependent current order limit, combined rectifier-inverter characteristics - limitations HVDC system using line commutated
converters, modern HVDC system.
UNIT IV REACTIVE POWER COMPENSATION
9
Introduction, methods of Var generation, analysis of uncompensated AC line, Passive reactive power compensation,
Compensation by a series capacitor connected at the midpoint of the line, Effect on Power Transfer capacity, Compensation by
STATCOM and SSSC, Fixed capacitor-Thyristor controlled reactor (FC-TCR), Thyristor-switched capacitor- Thyristor
controlled reactor (TSC-TCR), static VAr compensators.
UNIT V RENEWABLE ENERGY
9
Stand alone operation of fixed and variable speed wind energy conversion systems and solar system-Grid connection
Issues -Grid integrated PMSG and SCIG Based WECS-Grid Integrated solar system.
L:45 T:0 Total:45 Periods TEXT BOOKS 1.K.R. Padiyar, HVDC Power Transmission System – Technology and System Interaction, New Delhi, New Age
International, 2nd
Edition 2010. [UNIT-III]
2.N.G. Hingorani & L. Gyugyi, Understanding FACTS: Concepts and Technology of Flexible AC Transmission
Systems IEEE Press, 2000.[UNIT-IV]
3.Rashid .M. H “power electronics Hand book”, Academic press, 2001.
4.Rai. G.D, “Non conventional energy sources”, Khanna publishes, 1st edition 2010
REFERENCE BOOKS
1.Erich Uhlmann, Power Transmission by Direct Current, New York, Springer Publications, 1975.
2.E.W. Kimbark, Direct Current Transmission, Vol.1, New York, Wiley Interscience, 1971.
3.Ned Mohan, Power Electronics Converters Applications and Design, John Wiley india, 3rd
edition 2010.
4.T.J.E Miller, Reactive Power Control in Electric Systems, John Wiley & Sons.3. Ned Mohan et.al, Power
Electronics, John Wiley and Sons. 2nd
edition 2013
UEE11752/UEE12752 FACTS AND ITS APPLICATIONS 3
0 0 3
AIM To enhance the transmission capability of transmission system by shunt and series compensation using
static controllers.
OBJECTIVES
i) To understand the concept of flexible AC transmission and the associated problems. ii) To review the static devices for series and shunt control. iii) To study the operation of controllers for enhancing the transmission capability.
UNIT I INTRODUCTION
9
The concept of flexible AC transmission - reactive power control in electrical power transmission
lines -uncompensated transmission line – series and shunt compensation. Overview of FACTS devices -
Static Var Compensator (SVC) – Thyristor Switched Series capacitor (TCSC) – Unified Power Flow
controller (UPFC) - Integrated Power Flow Controller (IPFC).
UNIT II STATIC VAR COMPENSATOR (SVC) AND APPLICATIONS
9
Voltage control by SVC – advantages of slope in dynamic characteristics – influence of SVC on system
voltage. Applications - enhancement of transient stability – steady state power transfer – enhancement of power
system damping – prevention of voltage instability.
UNIT III THYRISTOR CONTROLLED SERIES CAPACITOR (TCSC)AND ITS
APPLICATIONS 9
Operation of the TCSC - different modes of operation – Applications - improvement of the system
stability limit – enhancement of system damping – voltage collapse prevention– SSR mitigation
UNIT IV EMERGING FACTS CONTROLLERS
9
Static Synchronous Compensator (STATCOM) – operating principle – V-I characteristics– Unified Power
Flow Controller (UPFC) – Principle of operation - modes of operation – applications.
UNIT V CO-ORDINATION OF FACTS CONTROLLERS
9
FACTs Controller interactions – SVC–SVC interaction - co-ordination of multiple controllers using
linear control techniques – Quantitative treatment of control coordination.
L:45 T:0 Total:45 Periods TEXTBOOKS 1. Mohan Mathur, R., Rajiv. K. Varma, “Thyristor – Based Facts Controllers for Electrical
Transmission Systems”, IEEE press and John Wiley & Sons, Inc, 1st Edition 2002.
REFERENCE BOOKS
1.A.T.John, “Flexible AC Transmission System”, Institution of Electrical and Electronic Engineers(IET),
1st Edition 1999.
2.Narain G.Hingorani, Laszio. Gyugyl, “Understanding FACTS Concepts and Technology of Flexible AC
Transmission System”, Standard Publishers, 2nd
Edition 2011.
UEE11753/UEE12753 FUZZY LOGIC AND NEURAL NETWORKS 3
0 0 3
AIM
To make the students to realize the knowledge of Artificial Intelligence and its usage.
OBJECTIVE
i) To know about the concept of fuzzy logic and neural logic ii) Exploring the concept of AI modeling iii) Providing the knowledge about optimization in AI models
UNIT I FUZZY LOGIC FUNDAMENTALS
9
Introduction-characteristics of fuzzy logic and fuzzy system- Fuzzy sets-operation on fuzzy sets-
fuzzy relations-operation on fuzzy relations-fuzzy implications-modifiers-translation rules-rational
properties –defuzification.
UNIT II FUZZY LOGIC CONTROLLERS AND ITS APPLICATIONS
9
Fuzzy rule based systems- inference mechanisms-fuzzy logic controller-defuzzification methods-
effectivity of fuzzy logic control systems- fuzzy logic applications- model for prevention of road
accidents, model to control room temperature.
UNIT III NEURAL NETWORK FUNDAMENTALS
9
Introduction- network topologies- training of ANN - notation and terminology – Perceptron –
Adalime- Delta rule- back propagation- Recurrent networks – Jordan, Elman, Hopfield network.
UNIT IV NEURAL NETWORK LEARNING AND APPLICATIONS
9
Competitive learning- Principal component networks – Adaptive resonance theory –
Reinforcement Learning(Barto‟s Approach)- Neural network applications- Robot control.
UNIT V HYBRID FUZZY NEURAL NETWORKS
9
Introductions – fuzzy logic in Learning algorithms – neural networks as tuners of fuzzy logic
systems- ANFIS(structure)- HFNN applications- tool breakage monitoring system for end milling- control
of combustion.
L:45 T:0 Total:45 Periods TEXT BOOKS 1..S.N.Sivanandam and S.N.Deepa, "Principles of Soft Computing", Wiley India Pvt Ltd, 2
nd edition 2011.
2. Timothy J. Ross, “Fuzzy Logic with Engineering Applications”, McGraw Hill 3rd
edition 2010.
REFERENCE BOOKS 1. Jang J.S.R, Sun C.T and Mizutani. E, “Neuro-Fuzzy and Soft Computing”, Prentice hall 1
st edition 1997.
2. Chennakesava R. Alavala, “Fuzzy Logic and Neural Networks- Basic Concepts and applications”, New Age
International Publishers, 1st edition 2008.
3. Nils J. Nilsson, “Artificial Intelligence – A New Synthesis”, Harcourt Asia Ltd., 1998.
4. 1.J.S.R.Jang, C.T. Sun and E.Mizutani, “Neuro-Fuzzy and Soft Computing”, PHI 1st edition 2009.
UEE11754/UEE12754 POWER PLANT INSTRUMENTATION 3
0 0 3
AIM
To make students know about power generation through various methods
OBJECTIVES
i) To educate on the important power plant measurements and devices ii) To educate on basic Boiler control techniques iii) To educate on advanced Boiler control techniques
UNIT I OVERVIEW OF POWER GENERATION
9
Survey of methods of power generation :– hydro, thermal, nuclear, solar and wind power –Importance of
instrumentation in power generation – Thermal power plant – Building blocks – Combined Cycle System –
Combined Heat and Power System – sub critical and supercritical boilers.
UNIT II MEASUREMENTS IN POWER PLANTS
9
Measurement of feed water flow, air flow, steam flow and coal flow – Drum level measurement – Steam
pressure and temperature measurement – Turbine speed and vibration measurement – Flue gas analyzer – Fuel
composition analyzer-Electrostatic precipitator
UNIT III CONTROL OF TURBINE
9
Types of steam turbines – impulse and reaction turbines – compounding – Turbine governing system –
Speed and Load control – Transient speed rise – Free governor mode operation – Automatic Load Frequency
Control – Turbine oil system – Oil pressure drop relay – Oil cooling system – Turbine run up system
UNIT IV BOILER CONTROL – I
9
Combustion of fuel and excess air – Firing rate demand – Steam temperature control – Control of deaerator
– Drum level control – Single, two and three element control – Furnace draft control – implosion – flue gas dew
point control – Trimming of combustion air – Soot blowing.
UNIT V BOILER CONTROL – II
9
Burners for liquid and solid fuels – Burner management – Furnace safety interlocks – Coal pulverizer
control – Combustion control for liquid and solid fuel fired boilers – air/fuel ratio control – fluidized bed boiler –
Cyclone furnace
L:45 T:0 TOTAL: 45 PERIODS
TEXT BOOKS
1.Everett Woodruff , Herbert Lammers, Thomas Lammers, Steam Plant Operation,9th Edition McGraw Hill, 2012.
2.Rajput R.K., A Text book of Power plant Engineering. 5th Edition, Laxmi Publications, 2013.
REFERENCE BOOKS 1.Liptak B.G., Instrumentation in Process Industries, Chilton Book Company,1
st edition 2005.
2.Jain R.K., Mechanical and Industrial Measurements, Khanna Publishers, New Delhi, 2nd
edition 2008.
3.P.K.Nag, Powerplant Engineering, Tata McGraw-Hill Education, 4th edition, 2014.
5.Krishnaswamy.K and Ponnibala.M., Power Plant Instrumentation, PHI Learning Pvt.Ltd., New Delhi, 1st edition
2011.
UEE11755/UEE12755 POWER QUALITY ENGINEERING 3
0 0 3
AIM:
To make students know about various power quality problems and its solutions.
OBJECTIVE:
Gain an understanding of the causes of and solutions to power quality problems
Learn the tools and techniques used to solve power quality problems
Learn the importance of proper wiring and grounding for reliable equipment performance
UNIT I: INTRODUCTION
12
Definition of Power Quality –Power Quality issues: Short/Long duration voltage variations, Transients, Waveform
distortion, Voltage imbalance/fluctuation, Power frequency variations – Sources and Effects of Power Quality
problems –Power Quality and Electro Magnetic Compatibility (EMC) – Harmonics, Harmonics indices, Inter
harmonics, Notching – Voltage Vs Current distortion – Harmonics Vs Transients – Sources and effects of harmonic
distortion – System response characteristics – Principles of controlling harmonics
UNIT II: SHORT & LONG INTERRUPTIONS 9
Introduction – Origin of short interruptions: Voltage magnitude events due to reclosing, Voltage during the
interruption – Monitoring of short interruptions – Single phase tripping – Voltage during fault and post fault period,
Current during fault period – Prediction of short Interruptions-Long Interruptions: Origin of interruptions – Causes
of long interruptions – Voltage regulating devices
UNIT III: VOLTAGE SAG 7
Definition – Characterization – Causes of Voltage Sag – Three Phase Unbalance – Phase angle jumps – Load
influence on voltage sags – Equipment behavior – Stochastic assessment of voltage sags – Overview of mitigation
methods.
UNIT IV: TRANSIENTS 7
Definition – Power system transient model – Principles of over voltage protection – Types, causes of transients and
devices for over voltage protection – Utility capacitor switching transients – Utility lightning protection –
Transients from load switching.
UNIT V: POWER QUALITY MONITORING
10
Introduction – Power quality monitoring: Evolution, Deregulation effect – Brief introduction to power quality
measurement equipment and power conditioning equipments – Planning, Conducting and Analyzing power quality
survey.
L:45 T:0 TOTAL : 45 PERIODS
TEXT BOOKS
1. Roger C. Dugan, Mark F. McGranaghan and H.Wayne Beaty, "Electrical Power Systems Quality", McGraw-
Hill, New York, 2nd Edition, 2002.
2. G.T.Heydt, "Electric Power Quality", Stars in a circle publishers, 1994, 2nd Edition.
REFERENCE BOOKS
1. Barry W.Kennedy, “Power Quality Primer”, McGraw-Hill, New York, 2000.
2. Sankaran.C, "Power Quality", CRC Press, Washington, D.C., 2002
3. Math H.J.Bollen, "Understanding Power Quality Problems: Voltage Sags and Interruptions", IEEE Press, New
York, 2000.
4. Arrillaga.J, Watson.N.R and Chen.S, "Power System Quality Assessment", John Wiley & Sons Ltd., England,
2000.
UEE11756/UEE12756 ROBOTICS AND AUTOMATION 3 0 0 3
AIM
To make students know about various parts of robots and fields of robotics
OBJECTIVES
i) To study the various kinematics and inverse kinematics of robots. ii) To study the Euler, Lagrangian formulation of Robot dynamics. iii) To study the trajectory planning for robot. iv) To study the control of robots for some specific applications.
UNIT I BASIC CONCEPTS
9
Definition and origin of robotics – different types of robotics – various generations of robots – degrees of
freedom – Asimov‟s laws of robotics – dynamic stabilization of robots.
UNIT II POWER SOURCES AND SENSORS
9
Hydraulic, pneumatic and electric drives – determination of HP of motor and gearing ratio – variable speed
arrangements – path determination – micro machines in robotics – machine vision – ranging – laser – acoustic –
magnetic, fiber optic and tactile sensors.
UNIT III MANIPULATORS, ACTUATORS AND GRIPPERS
9
Construction of manipulators – manipulator dynamics and force control – electronic and pneumatic
manipulator control circuits – end effectors – U various types of grippers – design considerations.
UNIT IV KINEMATICS AND PATH PLANNING
9
Solution of inverse kinematics problem – multiple solution Jacobean work envelop – hill climbing
techniques – robot programming languages
UNIT V AUTOMATION AND ROBOTS
9
Case studies - Multiple robots – machine interface – robots in manufacturing and non- manufacturing
applications – robot cell design – selection of robot.
L:45 T:0 TOTAL : 45
PERIODS TEXT BOOKS 1. Mikell P. Weiss G.M., Nagel R.N., Odraj N.G., Industrial Robotics, McGraw-Hill Singapore, 2
nd Edition 2012.
2. Ghosh, Control in Robotics and Automation: Sensor Based Integration, Allied Publishers, Chennai, 1999.
REFERENCE BOOKS 1.Deb.S.R., Robotics technology and flexible Automation, John Wiley, 1
st edition 1992.
2.Spong and Vidyasagar, Robot Dynamics and Control, John Wiley & Sons, 1989
3.Asfahl C.R., Robots and manufacturing Automation, John Wiley, 2nd
edition 2014.
4.Klafter R.D., Chimielewski T.A., Negin M., Robotic Engineering – An integrated approach, Prentice Hall of
India, New
Delhi, 1994.
5.Mc Kerrow P.J. Introduction to Robotics, Addison Wesley, USA, 1991.
6.Issac Asimov I Robot, Ballantine Books, New York, 1986.
UCS11753/UCS12753 COMPUTER ARCHITECTURE 3
0 0 3
AIM
To cultivate an understanding of modern computing technology through an in-depth study of the interface
between hardware and software.
OBJECTIVE
i) To know about the functional modules and related technologies, computer arithmetic hardware blocks
and floating point representation ii) To know the importance of memory hierarchy in computer design.
UNIT I DATA REPRESENTATION AND MICRO-OPERATIONS
9
Data Representation: Data types, Complements, fixed-point representation, floating –point representation,
other binary codes, error detection codes. Register transfer and micro operations: Register transfer language,
register transfer, bus and memory transfers, arithmetic micro-operations, logic micro-operations, shift micro-
operations, arithmetic logic shift unit.
UNIT II CENTRAL PROCESSING UNIT
9
General register organization, stack organization, instruction formats, addressing modes, data transfer and
manipulation, program control, reduced instruction set computer.
UNIT III COMPUTER ARITHMETIC, PIPELINE AND VECTOR PROCESSING
9
Computer arithmetic: Addition and subtraction, multiplication algorithms, division algorithms, floating-
point arithmetic operations, decimal arithmetic unit, decimal arithmetic operations. Pipeline and vector processing:
Parallel processing, pipelining, arithmetic pipeline, instruction pipeline, RISC pipeline, vector processing array
processors.
UNIT IV INPUT-OUTPUT ORGANIZATION
9
Input-output organization: Peripheral devices, input-output interface, asynchronous data transfer, modes of
transfer, priority interrupt, direct memory access, input-output processor, serial communication.
UNIT V MEMORY ORGANIZATION
9
Memory organization: Memory hierarchy, main memory, auxiliary memory, associative memory, cache
memory, virtual memory, memory management hardware.
L: 45,T : 0, TOTAL: 45 PERIODS TEXT BOOKS 1.Morris Mano, „Computer System Architecture‟, 3
rd Edition, Pearson Education, 2008.
2.John P.Hayes,‟ Computer Architecture and Organizations‟, Tata Mcgraw Hill, 3rd
edition 2012.
REFERENCE BOOKS 1.Vincent P.Heuring and Harry F.Jordan,‟ Computer Systems Design and Architecture‟, Pearson Education Asia
Publications, 2nd
edition 2014.
2Andrew S.Tanenbaum,‟Structured Computer Organization‟, 6th Edition, Prentice Hall of India/Pearson Education,
2013.
3.William Stallings, „Computer Organization Architecture‟, 9th Edition, Prentice Hall of India/Pearson Education,
2012.
UEI11756/UEI12756 PLC AND ITS APPLICATION 3
0 0 3
AIM
To make students know about the basics of PLC
OBJECTIVE
i) To study the programming of PLC and HMI systems. ii) To study about the DCS. iii) To understand the concept of Automation.
UNIT I INTRODUCTION TO INDUSTRIAL AUTOMATION
9
Requirements of industrial automation- Typical Industrial electrical equipment–Functions of the central
Relay or PLC based control panels-- conventional Types of relays – Various INPUT/OUTPUT components used -
Advantages of PLC based system-Selection of PLC based on I/O.
UNIT II PLC –AN OVERVIEW
9
Programmable Logic controllers-Parts of PLC-Principles of Operations-Modifying the Operations-PLCs
Versus Computers-PLC size and Applications-Basics of Timers and Counters-Networking standards. - Protocols -
Field bus - Process bus and Ethernet IEEE Standard.
UNIT III PLC HARDWARE COMPONENTS AND BASIC PROGRAMMING
9
I/O Section-Discrete I/O Modules-Analog I/O Modules-Special I/O Modules-I/O Sections-CPU-Memory
Design-Memory Types-Programming Devices-Recording and Retrieving Data-PLC Work stations-Processor
Memory Organization-Program Scan-Plc Programming Language-Relay Type Instruction-Instruction Addressing-
Branch Instruction-Internal Relay Instruction-Entering the Ladder Diagram-Modes of operation.
UNIT IV DEVELOPING FUNDAMENTALS PLC WIRING DIAGRAMS AND LADDER LOGIC
PROGRAMS
9
Electromagnetic control relays-Contactors-Motor Starters-Manually Operated Switches-Mechanically
Operated switches-Transducers and Sensors-Output Control Devices-Seal in Circuits-Latching Relays-Converting
Relay Ladder Diagrams into PLC Ladder Programs-Writing a Ladder Logic Diagram Directly from a Narrative
description.
UNIT V APPLICATIONS OF PLC , DCS & HMI
9
Case studies of Machine automation, Process automation, Introduction to SCADA and DCS.HMI systems:
Necessity and Role in Industrial Automation, Text display - operator panels -Touch panels - Panel PCs - Integrated
displays (PLC & HMI)
L: 45, T : 0, TOTAL : 45 PERIODS TEXT BOOKS 1. Frank D Petruzella, “Programmable Logic Controllers”, McGraw Hill Publishers,3
rd edition 2010.
REFERENCE BOOKS 1. Michael P. Lukas, “Distributed Control systems”, “Van Nostrand Reinfold Company, 1st edition 1986.
2.Mikell P. Groover, “Automation Production systems and Computer Integrated Manufacturing”, Prentice Hall of
India, New Delhi, 3rd
edition 2008
3. Siemens PLC Handbook for total automation – Company Hand book
4.Allen-Bradley handbook for total automation - Company Hand book
UEI11758/UEI12758 VIRTUAL INSTRUMENTATION 3 0 0
3
AIM
Enable students to understand basics, programming techniques, data acquisition and interfacing
techniques of virtual instrumentation and to use VI for different applications.
OBJECTIVES
i) To familiarize the basics and interfacing of VI ii) To write programs for different applications.
UNIT I VIRTUAL INSTRUMENTATION
9
Historical perspective, advantages, block diagram and architecture of a virtual instrument, data-flow
techniques, graphical programming in data flow, comparison with conventional programming. Development of
Virtual Instrument using GUI, Real-time systems, Embedded Controller, OPC, HMI / SCADA software, Active X
programming.
UNIT II PROGRAMMING TECHNIQUES
9
VIS and sub-VIS, loops and charts, arrays, clusters and graphs, case and sequence structures, formula
nodes, local and global variables, string and file I/O, Instrument Drivers, Publishing measurement data in the web.
UNIT III DATA ACQUISITION BASICS
9
Introduction to data acquisition on PC, Sampling fundamentals, Input/Output techniques and buses. ADC,
DAC, Digital I/O, counters and timers, DMA, Software and hardware installation, Calibration, Resolution, Data
acquisition interface requirements.
UNIT IV VIRTUAL INSTRUMENTATION CHASSIS REQUIREMENTS
9
Common Instrument Interfaces: Current loop, RS 232C/RS485, GPIB. Bus Interfaces: USB, PCMCIA,
VXI, SCSI, PCI, PXI, Fire wire. PXI system controllers, Ethernet control of PXI. Networking basics for office &
Industrial applications, VISA and IVI.
UNIT V VIRTUAL INSTRUMENTATION TOOLSETS, DISTRIBUTED I/O MODULES
9
Application of Virtual Instrumentation: Instrument Control, Development of process database management
system, Simulation of systems using VI, Development of Control system, Industrial Communication, Image
acquisition and processing, Motion control.
L:45 , T:0 TOTAL: 45 PERIODS TEXTBOOKS 1. Gary Johnson, LabVIEW Graphical Programming, 2
nd edition, McGraw Hill,Newyork, 1997.
2. Virtual Instrumentation using LabVIEW by Jovitha Jerome ,PHI learning private ltd, New delhi , 2010(1st
edition)
REFERENCE BOOKS 1. Kevin James, PC Interfacing and Data Acquisition: Techniques for Measurement, Instrumentation and Control,
Newnes, 2000. 2. Lisa K. wells & Jeffrey Travis, LabVIEW for everyone, Prentice Hall, New Jersey,1997.
UEE11704P POWER SYSTEM SIMULATION LABORATORY 0 0
3 2
AIM
To provide better understanding of power system analysis through digital simulation.
LIST OF EXPERIMENTS
1. Computation of Parameters and Modeling of Transmission Lines
2. Formation of Bus Admittance and Impedance Matrices and Solution of Networks.
3. Load Flow Analysis - I: Solution of load flow and related problems using Gauss-Seidel Method
4. Load Flow Analysis - II: Solution of load flow and related problems using Newton Raphson.
5. Short circuit Fault Analysis
6. Small Signal Stability Analysis: Single-Machine Infinite Bus System
7. Electromagnetic Transients and power quality issues
8. Load – Frequency Dynamics of Single- Area and Two-Area Power Systems
9. Economic Dispatch without losses
10. Economic Dispatch with losses
Total:45 Periods
UEE12704P POWER SYSTEM SIMULATION LABORATORY 0 0 3 2
AIM
To provide better understanding of power system analysis through digital simulation.
LIST OF EXPERIMENTS
1. Computation of Parameters and Modeling of Transmission Lines
2. Formation of Bus Admittance and Impedance Matrices and Solution of Networks.
3. Load Flow Analysis - I: Solution of load flow and related problems using Gauss-Seidel Method
4. Load Flow Analysis - II: Solution of load flow and related problems using Newton Raphson.
5. Short circuit Fault Analysis
6. Small Signal Stability Analysis: Single-Machine Infinite Bus System
7. Electromagnetic Transients and power quality issues
8. Load – Frequency Dynamics of Single- Area and Two-Area Power Systems
9. Economic Dispatch without losses
10. Economic Dispatch with losses
11. Relay coordination using Mipower
Total:45 Periods
UEE11705P/UEE12705P ELECTRIC DRIVES AND CONTROLS LABORATORY 0 0 3 2
AIM
To expose the students to the operation of electric drives and control and give them experimental skill.
LIST OF EXPERIMENTS
1. Simulation of closed loop control of converter fed DC motor.
2. Simulation of closed loop control of chopper fed DC motor.
3. Simulation of VSI fed 3Φ induction motor-voltage control ,frequency control
4. Simulation of 3 Φ synchronous motor drive.
5. Speed control of DC motor using 3Φ Rectifier.
6. Speed control of 3Φ induction motor using PWM inverter.
7. DSP based closed loop drive for induction motor.
8. Induction motor speed control using FPGA.
9. Speed control of Brush Less DC motor.
10.DSP based chopper fed DC motor drive.
11. Switched Reluctance Motor Drive using DSP.
12. PLC based drive system.
Total: 45 Periods
UEE11801 ELECTRIC POWER UTILIZATION AND ENERGY AUDITING 3
1 0 4
AIM
To make students know about energy saving concept by different ways of illumination.
OBJECTIVES
i) To understand the different methods of electric heating and electric welding. ii) To understand the drives and its application to railway electrification. iii) To understand electrolytic process and basic energy storage elements.
UNIT I ILLUMINATION 9 Production of light -Definition and terms used in illumination engineering- Polar curves -Determination of
MHCP and MSCP - classification of light sources - incandescent lamps, sodium vapor lamps, mercury vapour
lamps, fluorescent lamps - design of illumination systems - indoor lighting schemes - factory lighting halls -
outdoor lighting schemes - flood lighting - street lighting - energy saving lamps, LED.
UNIT II HEATING AND WELDING
9
Introduction - advantages of electric heating - modes of heat transfer - methods of electric heating -
resistance heating - arc furnaces - induction heating - dielectric heating - electric welding - types -resistance welding
- arc welding - power supply for arc welding - radiation welding-power quality issues in welding-power quality
issues in welding
UNIT III ELECTRIC DRIVES AND TRACTION
9
Fundamentals of electric drive - choice of an electric motor - application of motors for particular
services - traction motors - characteristic features of traction motor - systems of railway electrification -electric
braking - train movement and energy consumption - traction motor control - track equipment and collection gear -
A.C traction and recent trends.
UNIT IV ELECTROLYTIC PROCESSES AND STORAGE OF ELECTRICITY
9
Electrolysis - polarization factor - preparation work for Electro plating - Tanks and other
equipments - Calculation of energy requirements - Methods of charging and maintenance -Ni-iron , Ni- cadmium
batteries and Lead acid batteries -Components and materials - Capacity rating of batteries.
UNIT V ENERGY CONSERVATION
9
Economics of generation – definitions – load curves – number and size of units – cost of electrical energy –
tariff – need for electrical energy conservation-methods – energy efficient equipment – energy management –
energy auditing.
Economics of power factor improvement – design for improvement of power factor using power capacitors – power
quality – effect on conservation.
L: 45, T: 15, TOTAL: 60 PERIODS TEXT BOOKS 1. R.K.Rajput, Utilisation of Electric Power, Laxmi publications Private Limited., 2
nd edition 2013.
2. J.B.Gupta, “Utilisation Electric power and Electric Traction”, S.K.Kataria and Sons,10th edition 2013.
REFERENCE BOOKS 1. H.Partab, Art and Science of Utilisation of Electrical Energy”, Dhanpat Rai and Co., New Delhi, 2004.
2. C.L.Wadhwa, “Generation, Distribution and Utilisation of Electrical Energy”, New Age International Pvt.Ltd.,3rd
edition 2010. 3. S. Sivanagaraju, M. Balasubba Reddy, D. Srilatha,‟ Generation and Utilization of Electrical Energy‟, Pearson
Education. 1
st edition 2012.
4. 3. N.V. Suryanarayana, “Utilisation of Electric Power”, Wiley Eastern Limited,New Age International Limited,
2nd
edition 2014
UEE12801 ELECTRIC POWER UTILIZATION AND ENERGY AUDITING 3 1 0 4
AIM
To make students know about energy saving concept by different ways of illumination.
OBJECTIVES
iv) To understand the different methods of electric heating and electric welding. v) To understand the drives and its application to railway electrification. vi) To understand electrolytic process and basic energy storage elements.
UNIT I ILLUMINATION 9 Production of light -Definition and terms used in illumination engineering- Polar curves -Determination of
MHCP and MSCP - classification of light sources - incandescent lamps, sodium vapor lamps, mercury vapour
lamps, fluorescent lamps - design of illumination systems - indoor lighting schemes - factory lighting halls -
outdoor lighting schemes - flood lighting - street lighting - energy saving lamps, LED.
UNIT II HEATING AND WELDING
9
Introduction - advantages of electric heating - modes of heat transfer - methods of electric heating -
resistance heating - arc furnaces - induction heating - dielectric heating - electric welding - types -resistance welding
- arc welding - power supply for arc welding - radiation welding-power quality issues in welding-power quality
issues in welding
UNIT III ELECTRIC DRIVES AND TRACTION
9
Fundamentals of electric drive - choice of an electric motor - application of motors for particular
services - traction motors - characteristic features of traction motor - systems of railway electrification -electric
braking - train movement and energy consumption - traction motor control - track equipment and collection gear -
A.C traction and recent trends.
UNIT IV ELECTROLYTIC PROCESSES AND STORAGE OF ELECTRICITY
9
Electrolysis - polarization factor - preparation work for Electro plating - Tanks and other
equipments - Calculation of energy requirements - Methods of charging and maintenance -Ni-iron , Ni- cadmium
batteries and Lead acid batteries -Components and materials - Capacity rating of batteries.
UNIT V ENERGY AUDITING
9
Economics of generation – definitions – load curves – number and size of units – cost of electrical energy –
tariff – need for electrical energy conservation-methods – energy efficient equipment – energy management –
energy auditing.
Economics of power factor improvement – design for improvement of power factor using power capacitors – power
quality – effect on conservation.
L: 45, T: 15, TOTAL: 60 PERIODS
TEXT BOOKS 1. R.K.Rajput, Utilisation of Electric Power, Laxmi publications Private Limited., 2
nd edition 2013.
2. J.B.Gupta, “Utilisation Electric power and Electric Traction”, S.K.Kataria and Sons,10th edition 2013.
REFERENCE BOOKS 1. H.Partab, Art and Science of Utilisation of Electrical Energy”, Dhanpat Rai and Co., New Delhi, 2004.
2. C.L.Wadhwa, “Generation, Distribution and Utilisation of Electrical Energy”, New Age International Pvt.Ltd.,3rd
edition 2010. 3. S. Sivanagaraju, M. Balasubba Reddy, D. Srilatha,‟ Generation and Utilization of Electrical Energy‟, Pearson
Education. 1
st edition 2012.
4. 3. N.V. Suryanarayana, “Utilisation of Electric Power”, Wiley Eastern Limited,New Age International Limited,
2nd
edition 2014
UBA118510/UBA128510 TOTAL QUALITY MANAGEMENT 3 0 0 3
AIM
To make students understand the Total Quality Management Concept and Principles and the various tools
available to achieve Total Quality Management.
OBJECTIVE
vii) To understand the statistical approach for quality control. viii) To create an awareness about the ISO and QS certification process and its need for the
industries
UNIT I INTRODUCTION TO QUALITY MANAGEMENT
9
Definitions-TQM framework, benefits, awareness and obstacles. Quality -Vision, mission and policy
Statements. Analysis Techniques for Quality Costs, Customer Focus – Customer perception of quality, Translating
needs into requirements, customer retention. Dimensions of product and service quality.
UNIT II TQM PRINCIPLES
9
Juran Trilogy, PDSA Cycles, Japanese 5S Principles, Kaizen, Supplier Partnership – Partnering, Sourcing,
Supplier Selection, Supplier Rating, Relationship Development, Performance Measures – Basic Concepts, Strategy,
Performance Measure.
UNIT III STATISTICAL PROCESS CONTROL AND PROCESS CAPABILITY
9
Statistical Process Control: Measuring and significance of statistical process control (SPC) – Construction
of control charts for variables and attributes. Process capability – meaning, significance and measurement – Six
sigma.
UNIT IV TOOLS AND TECHNIQUES FOR QUALITY MANAGEMENT
9
Quality functions development (QFD) process – Benefits. Building a HOQ, FMEA stages, design, process
and documentation. Seven old (statistical) tools. Seven new management tools. Bench marking.
UNIT V QUALITY SYSTEMS ORGANIZING AND IMPLEMENTAION
9
Need for IS/ISO 9000 and Other Quality Systems, Quality System – Elements, Implementation of Quality
System, Documentation, Quality Auditing. TQM culture, Leadership – quality council, employee involvement,
motivation, empowerment, recognition and reward – Introduction to software quality.
L: 45, T: 0,
TOTAL: 45
TEXT BOOKS 1. Dale H.Besterfiled, et al., Total Quality Management, Pearson Education, Inc. 2003.(Indian reprint 2004).
2. Narayana V. and sreenivasan N.S.”Quality Management – Concepts and Tasks”, New Age International, 1996.
REFERENCE BOOKS 1. Evans, J.R. and Lidsay, W.M., “The Management and Control of Quality”, 5
th Edition, South-western Thomson
Learning, 2002.
2. Feigenbaum, A.V.,”Total Quality Management”, McGraw Hill, 1991.
3. Oakland, J.S., “ Total Quality Management”, Butterworth-Heinemann Ltd., 1989.
UEE11851 ADVANCED POWER SEMICONDUCTOR DEVICES 3 0 0 3
AIM
To make students understand the static and dynamic characteristics of current/ voltage controlled power semi
conductor devices
OBJECTIVES
ix) To improve power semiconductor device structures for adjustable speed motor control applications. x) To enable the students for the selection of devices for different power electronics applications xi) To understand the control and firing circuit for different devices.
UNIT I INTRODUCTION
9
Power switching devices overview, Attributes of an ideal switch, application requirements, circuit symbols;
Power handling capability – (SOA); Device selection strategy – On-state and switching losses, EMI due to
switching, Power diodes, Types, forward and reverse characteristics, switching characteristics-rating.
UNIT II CURRENT CONTROLLED DEVICES
9
BJT‟s - Construction, static characteristics, switching characteristics; Negative temperature co-efficient and
secondary breakdown; Power Darlington Thyristors – Physical and electrical principle underlying operating mode,
Two transistor analogy, concept of latching; Gate and switching characteristics; converter grade and inverter grade
and other types; series and parallel operation; comparison of BJT and Thyristor, steady state and dynamic models of
BJT & Thyristor.
UNIT III VOLTAGE CONTROLLED DEVICES
9
Power MOSFETs and IGBTs – Principle of voltage controlled devices, construction, types, static and
switching characteristics, steady state and dynamic models of MOSFET and IGBTs - Basics of GTO, MCT, FCT,
RCT and GATT.
UNIT IV FIRING AND PROTECTION CIRCUITS
9
Necessity of isolation, pulse transformer, Opto coupler – Gate drives circuit: SCR, MOSFET, IGBTs and
base driving for power BJT, Over voltage, over current and gate protections; Design of snubbers.
UNIT V THERMAL PROTECTION
9
Heat transfer – conduction, convection and radiation; Cooling – liquid cooling, vapour – phase cooling;
Guidance for hear sink selection – Thermal resistance and impedance -Electrical analogy of thermal components,
heat sink types and design – Mounting types.
L:45 , T:0 TOTAL : 45 PERIODS
TEXT BOOKS 1.Rashid, M.H.,"Power Electronic Circuits, Devices and Applications," Second Edition, Prentice Hall of India,
New
Delhi, 4th revised edition 2013.
2.Williams, B.W,"Power Electronic Devices, Applications and Passive Components", ELBS Oxford
University
Press, 2nd revised edition 1992
REFERENCE BOOKS 1. Joseph, Vithayathil, "Power Electronics Principles and Applications," McGraw Hill, 1
st edition 2010.
2.Mohan, N.et.al."Power Electronics converters, Applications and Design", Second edition, John
Wiley and sons, New York, 3rd
edition 2007.
UEE12851 ADVANCED POWER SEMICONDUCTOR DEVICES 3 0 0 3
AIM
To make students understand the static and dynamic characteristics of current/ voltage controlled power semi
conductor devices
OBJECTIVES
xii) To improve power semiconductor device structures for adjustable speed motor control applications. xiii) To enable the students for the selection of devices for different power electronics applications xiv) To understand the control and firing circuit for different devices.
UNIT I DEVICE SPECIFICATIONS
9
Power switching devices overview, Attributes of an ideal switch, application requirements, circuit symbols;
Power handling capability – (SOA); Device selection strategy – On-state and switching losses, EMI due to
switching, Power diodes, Types, forward and reverse characteristics, switching characteristics-rating.
UNIT II CURRENT CONTROLLED DEVICES
9
BJT‟s - Construction, static characteristics, switching characteristics; Negative temperature co-efficient and
secondary breakdown; Power Darlington Thyristors – Physical and electrical principle underlying operating mode,
Two transistor analogy, concept of latching; Gate and switching characteristics; converter grade and inverter grade
and other types; series and parallel operation; comparison of BJT and Thyristor, steady state and dynamic models of
BJT & Thyristor.
UNIT III VOLTAGE CONTROLLED DEVICES
9
Power MOSFETs and IGBTs – Principle of voltage controlled devices, construction, types, static and
switching characteristics, steady state and dynamic models of MOSFET and IGBTs - Basics of GTO, MCT, FCT,
RCT and GATT.
UNIT IV FIRING AND PROTECTION CIRCUITS
9
Necessity of isolation, pulse transformer, Opto coupler – Gate drives circuit: SCR, MOSFET, IGBTs and
base driving for power BJT, Over voltage, over current and gate protections; Design of snubbers.
UNIT V THERMAL DESIGN
9
Heat transfer – conduction, convection and radiation; Cooling – liquid cooling, vapour – phase cooling;
Guidance for hear sink selection – Thermal resistance and impedance -Electrical analogy of thermal components,
heat sink types and design – Mounting types.
L:45 , T:0 TOTAL : 45 PERIODS TEXT BOOKS 1.Rashid, M.H.,"Power Electronic Circuits, Devices and Applications," Second Edition, Prentice Hall of India,
New
Delhi, 4th revised edition 2013.
2.Williams, B.W,"Power Electronic Devices, Applications and Passive Components", ELBS Oxford
University
Press, 2nd revised edition 1992
REFERENCE BOOKS 1. Joseph, Vithayathil, "Power Electronics Principles and Applications," McGraw Hill, 1
st edition 2010.
2.Mohan, N.et.al."Power Electronics converters, Applications and Design", Second edition, John
Wiley and sons, New York, 3rd
edition 2007.
UEE11852/UEE12852 ADVANCED MICROPROCESSORS AND MICROCONTROLLERS
3 0 0 3
AIM
To make students know about the basic architecture and features of different processors.
OBJECTIVE
xv) To understand the basic architecture, memory and the features of Microprocessors and Microcontrollers xvi) To understand the concepts of modular programming. xvii) To understand the detailed architecture and features of Pentium processors, xviii) To understand the detailed architectures and features of popular RISC and ARM processors.
UNIT I MICROPROCESSOR ARCHITECTURE
9
Instruction Set – Data formats –Addressing modes – Memory hierarchy –register file –
Cache – Virtual memory and paging – Segmentation- pipelining –the instruction pipeline
– pipeline hazards – instruction level parallelism – reduced instruction set –Computer
principles – RISC versus CISC.
UNIT II HIGH PERFORMANCE CISC ARCHITECTURE – PENTIUM
9
CPU Architecture- Bus Operations – Pipelining – Brach predication – floating point unit-
Operating Modes –Paging – Multitasking – Exception and Interrupts – Instruction set –
addressing modes – Programming the Pentium processor.
UNIT III HIGH PERFORMANCE RISC ARCHITECTURE – ARM
9
Organization of CPU – Bus architecture –Memory management unit - ARM instruction
set- Thumb Instruction set- addressing modes – Programming the ARM processor.
UNIT IV MOTOROLA 68HC11 MICROCONTROLLERS
9
Instruction set addressing modes – operating modes- Interrupt system- RTC-Serial
Communication Interface – A/D Converter PWM and UART.
UNIT V PIC MICROCONTROLLER
9
CPU Architecture – Instruction set – interrupts- Timers- I2C Interfacing –UART- A/D
Converter –PWM and introduction to C-Compilers.
L:45 , T:0 , TOTAL : 45 PERIODS
TEXT BOOKS 1.Daniel Tabak , „‟ Advanced Microprocessors” McGraw Hill.Inc., 1995
2. James L. Antonakos , “ The Pentium Microprocessor „‟ Pearson Education , 1997.
3. Steve Furber , „‟ ARM System –On –Chip architecture “Addision Wesley , 2000.
REFERENCE BOOKS 1. Gene .H.Miller .” Micro Computer Engineering ,” Pearson Education , 2003.
2. John .B.Peatman , “ Design with PIC Microcontroller , Prentice hall, 1997.
3. James L.Antonakos ,” An Introduction to the Intel family of Microprocessors „‟Pearson Education 1999.
4. Barry.B.Breg,” The Intel Microprocessors Architecture , Programming andInterfacing “ , PHI,2002.
5. Valvano "Embedded Microcomputer Systems" Thomson Asia PVT LTD first reprint 2001.
UEE11853/UEE12853 AUTOMATIC CONTROL SYSTEMS 3 0 0 3
AIM
To make students gain information about the analysis of control system design
OBJECTIVE
xix) To know the technical view of Control system. xx) To elaborate the conceptual skill of analyzing the stability of a control system
UNIT I INTRODUCTION TO LINEAR CONTROL SYSTEM
6
Control Systems, types of control systems, feedback and its effects, mathematical modeling of physical
systems.
UNIT II TIME DOMAIN ANALYSIS OF CONTROL SYSTEMS
10
Transfer functions, signal flow graphs, polar and Bode plot representation of loop gains of control systems.
Typical test signals for time response of control systems, time domain performance of first and second order control
systems (steady state response and transient response), PID Controllers.
UNIT III STABILITY OF CONTROL SYSTEMS
11
Stability characteristic equation, state transition matrix, stability of linear time invariant systems, Rough-
Hurwitz Criterion, Nyquist criterion, Root locus plot, Bode diagrams.
UNIT IV FREQUENCY DOMAIN ANALYSIS OF CONTROL SYSTEMS
9
Introduction to Digital Control System, Sampling, Finite Pulse width Sampler, Sampling Spectra and
Aliasing. Sampling theorem, Choice of sampling rate. Specifications and Design of Discrete data of Control
System. Z-transform, Pulse transfer function. Transfer function from difference equation. Inverse Z- transform.
UNIT V INTRODUCTION TO MODERN CONTROL THEORY
9
State Equations, State Transition Matrix, State transition equations, State Diagrams, concept of
controllability and observability.
L:45 , T:0 , TOTAL PERIODS:45 TEXT BOOKS 1. Katsuhiko Ogata, "Modern Control Engineering", Prentice Hall of India Private Ltd., New Delhi, Third Edition,
1998.
2. Nagrath I.J., and Gopal, M., "Control Systems Engineering", Wiley Eastern Limited, New Delhi, 1982.
REFERENCE BOOKS 1. Benjamin C.Kuo. "Automatic Control Systems", Prentice Hall of India private Limited, New Delhi, Fifth Edition,
1987.
Katsuhiko Ogata, "Modern Control Engineering", Prentice Hall of India Private Ltd.,New Delhi, Third Edition,
1998.
2. Franus Raven, “Automatic Control Engineering”, Mcgraw Hill, 1995.
UEE11854/UEE12854 HVDC TRANSMISSION 3 0 0 3
AIM
To mould students to acquire knowledge about HVDC Transmission systems.
OBJECTIVE
xxi) For idea about modern trends in HVDC Transmission and its application xxii) Complete analysis of harmonics and basis of protection for HVDC Systems
UNIT I DC POWER TRANSMISSION TECHNOLOGY
9
Introduction – comparison of HVAC and HVDC –application of DC transmission – description of DC
transmission system planning for HVDC transmission – modern trends in DC transmission – limitations - Protection
Systems in HVDC Substation
UNIT II HVDC TRANSMISSION
9 HVDC Transmission Principles–Types of HVDC Links - Types of converters – HVDC rules – HVDC
control – Harmonics – filters – Multi terminal DC system.
UNIT III LINE PARAMETER
9 Calculation of line and ground parameters – Resistance, Capacitance and Inductance calculation – Bundle
conductors – Modes of propagation – Effect of earth.
UNIT IV BASIC CONCEPTS OF FACTS
9
Lack of control on active reactive power flow – conventional control mechanisms – Need for FACTS
Devices – Advances in power semiconductor devices – types of FACTS controllers - importance of facts controllers
– operating principles
UNIT V ANALYSIS OF CONVERTERS AND HVDC SYSTEM CONTROL
9
Thyristor converter circuits – choice of converter configurations – control characteristics - simplified
analysis of Graetz circuit – system control hierarchy –firing angle control – current and extinction angle control.
L:45 , T:0 , TOTAL PERIODS:45
TEXT BOOKS
1.Padiyar. K.R “HVDC Power Transmission Systems”, New Age International (P) Limited,
Publishers.,3rd
edition 2014.
2. Rakosh Das Begamudre, “Extra High Voltage AC Transimission Engineering”, Third Edition , New Age
International(P) Limited, Publishers., 4th edition 2011.
REFERENCE BOOKS
1.Kimbark, "Direct Current Transmission - Vol. I", John Wiley and Sons Inc., New York, 1971
2.Arrillaga. J, "High Voltage Direct Current Transmission", Peter Peregrines, London, 2nd
revised edition 1998
UEE11855 RENEWABLE ENERGY SOURCES 3 0 0 3
AIM
To make students know about the basic concepts of Energy resources.
OBJECTIVE
xxiii) Exploring the various renewable energy sources xxiv) To provide the technical view of Energy sources and its usage
UNIT I INTRODUCTION
9
Energy Scenario - world and India. Energy Resources- Availability in India. Energy consumption pattern.
Energy conservation potential - Industries and commercial establishments. Energy intensive industries - overview.
Energy conservation and energy efficiency – needs and advantages-government subsidy.
UNIT II SOLAR ENERGY
9
Solar radiation its measurements and prediction - solar thermal flat plate collectors concentrating collectors
– applications - heating, cooling, desalination, power generation, drying, cooking etc - principle of photovoltaic
conversion of solar energy, types of solar cells and fabrication. Photovoltaic applications: battery charger, domestic
lighting, street lighting, and water pumping, power generation schemes.
UNIT III WIND ENERGY
9
Atmospheric circulations – classification - factors influencing wind - wind shear – turbulence - wind speed
monitoring - Betz limit - Aerodynamics of wind turbine rotor-site selection - wind resource assessment - wind
energy conversion devices - classification, characteristics, and applications. Hybrid systems - safety and
environmental aspects.
UNIT IV HYDROGEN AND FUEL CELLS
9
Thermodynamics and electrochemical principles - basic design, types, and applications - production
methods - Biophotolysis: Hydrogen generation from algae biological pathways - Storage gaseous, cryogenic and
metal hydride and transportation.Fuel cell – principle of working- various types - construction and applications.
UNIT V OTHER TYPES OF ENERGY
9
Ocean energy resources - principles of ocean thermal energy conversion systems - ocean thermal power
plants - principles of ocean wave energy conversion and tidal energy conversion – hydropower – site selection,
construction, environmental issues - geothermal energy - types of geothermal energy sites, site selection, and
geothermal power plants.
L:45 , T: 0 , Total :45 Periods
TEXT BOOKS 1.Bansal, N.K., Kleemann, M. and Meliss M., “Renewable Energy Sources and Conversion Technology”, Tata
McGraw-
Hill Publishing Co. Ltd, 2005.
2. Sukhatme S.P., “Solar Energy”, Tata McGraw Hill, 2008.
3. Mukund R. Patel, “Wind and Solar Power Systems”, CRC Press, 1999.
REFERENCE BOOKS 1.Twidell, J.W. and Weir, A., Renewable Energy Sources, EFN Spon Ltd., 1986.
2.Hart, A.B., and Womack, G. J.,”Fuel Cells: Theory & Applications”, Prentice Hall, 1997.
3.Veziroglu, T.N., “Alternative Energy Sources”, Vol 5 and 6, McGraw-Hill, 1990
4.M. A. Green, Solar Cells, Prentice-Hall, Englewood Cliffs, 1982.
5.Kreith, F and Kreider, J. F.,” Principles of Solar Engineering”, McGraw-Hill, 1978
UEE12855 RENEWABLE ENERGY SOURCES 3 0 0 3
AIM
To make students know about the basic concepts of Energy resources.
OBJECTIVE
xxv) Exploring the various renewable energy sources xxvi) To provide the technical view of Energy sources and its usage
UNIT I INTRODUCTION
9
Indian energy Scenario , Energy Resources- Availability in India. Energy consumption pattern. Energy
conservation potential - Industries and commercial establishments. Energy intensive industries - overview. Energy
conservation and energy efficiency – needs and advantages-renewable energy certificate(REC)-government
subsidy.
UNIT II SOLAR ENERGY
9
Solar radiation its measurements and prediction - solar thermal flat plate collectors concentrating collectors
– applications - heating, cooling, desalination, power generation, drying, cooking etc - principle of photovoltaic
conversion of solar energy, types of solar cells and fabrication. Photovoltaic applications: battery charger, domestic
lighting, street lighting, and water pumping, power generation schemes.
UNIT III WIND ENERGY
9
Atmospheric circulations – classification - factors influencing wind - wind shear – turbulence - wind speed
monitoring - Betz limit - Aerodynamics of wind turbine rotor-site selection - wind resource assessment - wind
energy conversion devices - classification, characteristics, and applications. Hybrid systems - safety and
environmental aspects.
UNIT IV HYDROGEN AND FUEL CELLS
9
Thermodynamics and electrochemical principles - basic design, types, and applications - production
methods - Biophotolysis: Hydrogen generation from algae biological pathways - Storage gaseous, cryogenic and
metal hydride and transportation.Fuel cell – principle of working- various types - construction and applications.
UNIT V OTHER TYPES OF ENERGY
9
Ocean energy resources - principles of ocean thermal energy conversion systems - ocean thermal power
plants - principles of ocean wave energy conversion and tidal energy conversion – hydropower – site selection,
construction, environmental issues - geothermal energy - types of geothermal energy sites, site selection, and
geothermal power plants.
L:45 , T: 0 , Total :45 Periods TEXT BOOKS 1.Bansal, N.K., Kleemann, M. and Meliss M., “Renewable Energy Sources and Conversion Technology”, Tata
McGraw-
Hill Publishing Co. Ltd, 2005.
2. Sukhatme S.P., “Solar Energy”, Tata McGraw Hill, 3rd
edition 2008.
3. Mukund R. Patel, “Wind and Solar Power Systems”, CRC Press, 2nd
edition 2005.
REFERENCE BOOKS 1.Twidell, J.W. and Weir, A., Renewable Energy Sources, EFN Spon Ltd., 3
rd edition 2014.
2.Hart, A.B., and Womack, G. J.,”Fuel Cells: Theory & Applications”, Prentice Hall, 1997.
3.Veziroglu, T.N., “Alternative Energy Sources”, Vol 5 and 6, McGraw-Hill, 1990
4.M. A. Green, Solar Cells, Prentice-Hall, Englewood Cliffs, 1982.
5.Kreith, F and Kreider, J. F.,” Principles of Solar Engineering”, McGraw-Hill, 1978
UEI11851/UEI12851 BIOMEDICAL INSTRUMENTATION
3 0 0 3
AIM
To make the student acquire an adequate knowledge of the physiological systems of the human body and
relate them to the parameters that have clinical importance.
OBJECTIVES
xxvii) To provide an acquaintance of the physiology of the heart, lung, blood circulation and circulation
respiration. Methods of different transducers used. xxviii) To introduce the student to the various sensing and measurement devices of electrical origin. xxix) To provide the latest ideas on devices of non-electrical devices.
- UNIT I PHYSIOLOGY AND TRANSDUCERS
9
Cell and its structure – Resting and Action Potential – Nervous system: Functional organization of the
nervous system – Structure of nervous system, neurons - synapse –transmitters and neural communication –
Cardiovascular system – respiratory system – Basic components of a biomedical system - Transducers – selection
criteria – Piezo electric, ultrasonic transducers – Temperature measurements - Fiber optic temperature sensors.
UNITII BIO- POTENTIAL ELECTRODES, TRANSDUCERS & RECORDERS
9
The electrode – electrolyte interface, Polarization, Ag/AgCl Electrodes, Body surface electrodes, Internal
Electrodes. Transducers in general, Pressure Transducers, Temperature transducers, pulse sensors, Basic recording
system, Direct Writing recorder, UV recorders, Thermal array recorders, Electrostatic recorder, Instrumentation
Tape recorder.
UNIT III MEDICAL IMAGING SYSTEMS
9
Information content of an image, Modulation transfer function, Noise –equivalent bandwidth, generation of
X-rays, X-ray machine, computed Tomography, Magnetic Resonance Imaging – Principle, Image reconstruction
techniques, Basic NMR components, Ultrasonic Imaging systems – Types of ultrasound imaging, Applications of
different scan, Bio Telemetry
UNIT IV MONITORING SYSTEMS
9
Electrocardiogram, Effects of artifacts on ECG recordings, ECG recorder Principles, EEG & EMG
recorders, Phonocardiogram, stethoscope, BP measuring Instrument- Sphygmomanometer and cardiac
catheterization, ultrasonic blood flow meter, Principle of Photoelectric calorimeter, computerized patient monitoring
system.
UNIT V ASSISTING AND THERAPEUTIC EQUIPMENTS
9
Pacemakers – Defibrillators – Ventilators – Nerve and muscle stimulators – Diathermy – Heart –Lung
machine – Audio meters – Dialyzers – Lithotripsy
L: 45, T: 0, TOTAL:
45 TEXT BOOKS
1. Dr.Arumugam , Bio-Medical Instrumentation ,Anuradha Agencies,2003.
2. Cromwell, Bio-Medical Instruments and Measurements, Prentice Hall of India,1990.
REFERENCE BOOKS
1. L.A. Geddes and L.E.Baker, „Principles of Applied Bio-Medical Instrumentation‟, John Wiley & Sons, 1975.
2. Prof.Venkataram.S.K., Bio-Medical Electronics & Instrumentation, Galgotia Publications.2000
3.Khandpur.R.S., Hand book of Bio-Medical Instrumentation Tate McGraw –Hill1987
UEC11851/UEC12851 DIGITAL IMAGE PROCESSING 3 0 0 3
AIM
To make students familiar in Image compression and segmentation
OBJECTIVE
xxx) To know about Digital image Properties xxxi) To make the exploration about Image Processing Techniques
UNIT I DIGITAL IMAGE FUNDAMENTALS
8
Introduction – Origin – Steps in Digital Image Processing – Components – structure of the human eye –
Elements of Visual Perception –– luminance – brightness – contrast – mach band effect – image fidelity criteria –
colour models – RGB, CMY, HIS mathematical preliminaries of 2D systems – convolution – Fourier transform – Z
transform.
UNIT II IMAGE ENHANCEMENT
10
Spatial Domain: Gray level transformations – Histogram processing – Basics of Spatial Filtering–
Smoothing and Sharpening Spatial Filtering – Frequency Domain: Introduction to Fourier Transform – Smoothing
and Sharpening frequency domain filters – Ideal, Butterworth and Gaussian filters.
UNIT III IMAGE RESTORATION
9
Image restoration- image observation models.Inverse and Wiener filtering. Filtering using image
transforms. Constrained least-squares restoration. Generalized inverse, SVD and interactive methods. Recursive
filtering.Maximum entropy restoration. Bayesian methods.
UNIT IV WAVELETS AND IMAGE COMPRESSION
9
Wavelets – Subband coding – Multiresolution expansions – Compression: Fundamentals – Image
Compression models – Error Free Compression – Variable Length Coding – Bit-Plane Coding – Lossless Predictive
Coding – Lossy Compression – Lossy Predictive Coding – Compression Standards.
UNIT V IMAGE REPRESENTATION AND RECOGNITION
9
Boundary representation – Chain Code – Polygonal approximation, signature, boundary segments –
Boundary description – Shape number – Fourier Descriptor, moments- Regional Descriptors –Topological feature,
Texture – Patterns and Pattern classes – Recognition based on matching.
L: 45, T: 0, TOTAL:
45
TEXT BOOKS 1. Gonzalez,R.C and Woods,R.E, Digital image processing Addition – Wesley Publications,1995
2.Anil.K.Jain Fundamentals of digital image processing, PHI, 1997.
REFERENCE BOOKS 1. William K Pratt, “Digital Image Processing”, John Willey, 2002.
2. Malay K. Pakhira, “Digital Image Processing and Pattern Recognition”, First Edition, PHI Learning Pvt. Ltd.,
2011.
3. Chanda, D. Dutta Majumder, Digital Image Processing and Analysis, PHI, 2000.
UEC11854/UEC12854 OPTICAL COMMUNICATION 3 0 0 3
AIM
To make students understand about optical fibre and optical circuitry design principles and its use
OBJECTIVE
xxxii) Physical understanding of the components and systems xxxiii) Designing optical links, including making design trade-offs in the practical implementation of
those systems.
UNIT I INTRODUCTION TO OPTICAL FIBERS
9
Evolution of fiber optic system -definitions- Element of an Optical Fiber Transmission link- Optical
transmission system concepts, optical networking, Optical interconnects, Optical computers, transmitting light on a
fiber, light propagation in multimode fibers single mode fiber properties and characteristics, plastic optical fiber-
Ray Optics-Optical Fiber Modes and Configurations - Basic laws and definitions – ray optics Linearly Polarized
Modes –Single Mode Fibers-Graded Index fiber structure.
UNIT II SIGNAL DEGRADATION OPTICAL FIBERS
9
Attenuation in Optical Fibers: Introduction, Absorption, Scattering, Very Low Loss Materials, All Plastic &
Polymer-Clad-Silica Fiber Signal Distortion in Optical Wave guides-Information Capacity determination – Group
Delay Material Dispersion, Wave guide Dispersion, Signal distortion in SM fibers- Polarization Mode dispersion,
Intermodal dispersion, Pulse Broadening in GI fibers-Mode Coupling –Design Optimization of SM fibers-RI profile
and cut-off wavelength.
UNIT III FIBER OPTICAL SOURCES,DETECTORS AND COUPLING
9
Source & Detectors: Design of LED's for Optical Communication, Semiconductor Lasers for Optical Fiber
Communication System, Semiconductor Photodiode Detectors, Avalanche Photodiode Detectors & Photo multiplier
Tubes.Quantum efficiency and LED power, Laser Diodes, Temperature effects, Introduction to Quantum laser,
Fiber amplifiers- Lencing schemes, Fibre –to- Fibre joints, Fibre splicing.
UNIT IV FIBER OPTICAL RECEIVERS
9
PIN and APD diodes – Detector Response time, Avalanche Multiplication–Comparison of Photo detectors
–Fundamental Receiver Operation – preamplifiers, Error Sources – Receiver Configuration –Quantum Limit.
UNIT V DATA COMMUNICATION NETWORK AND APPLICATIONS
9
Data Communication Networks- Network Topologies, Mac Protocols, Analog System.
Advanced Multiplexing Strategies- Optical TDM, Sub carrier Multiplexing, WDM Network Architecutres;
SONET/SDH, Optical Transport Network, Optical Access Network, Optical Premise Network. Applications-
Military Applications, Civil, Consumer & Industrial Applications.
L : 45, T : 0, TOTAL : 45 PERIODS TEXT BOOKS 1.J.Gower, “Optical Communication System”, Prentice Hall of India, 2001.
2.Keiser, “Optical Fibre Communication” Mc. Graw Hill – 2nd
Edition,2000
REFERENCE BOOKS 1 Gerd Keiser, “Optical Fiber Communication” McGraw –Hill International,Singapore, 3rd ed., 2000
2 J.Senior, “Optical Communication, Principles and Practice”, Prentice Hall of India,1994.
UEC118511/UEC128511 VLSI DESIGN 3 0 0 3
AIM
To make students know about the overview of VLSI design
OBJECTIVE
xxxiv) To establish the Process of VLSI Design xxxv) To give the conceptual skill in VLSI Design
UNIT I MOS TECHNOLOGY
9
Chip Design Hierarchy- IC Layers –Photolithography and Pattern Transfers- Basic MOS Transistors-
CMOS Fabrication – Submicron CMOS Process –Masks and Layout –CMOS Design Rules: Lambda based layout-
Types of rules- SCMOS Design Rule set
UNIT II MOSFET TRANSISTOR
9
MOSFET operation - MOSFET switch model and square law model – MOSFET parasitic-– MOSFET
SPICE Modeling-CMOS Inverter: Voltage Transfer curve- Layout- Body Effect-Latch up problem in CMOS
circuits-Latch up prevention
UNIT III DESIGN OF CMOS LOGIC
10
Designing Combinational Logic Gates in CMOS: Introduction, Static CMOS Design, and Dynamic CMOS
Design. Designing Sequential Logic circuits: Introduction, Static Latches and Registers, Dynamic Latches and
Registers. Transmission Gates logic.
UNIT IV TOOLS FOR DESIGN
8
Scaling of MOS Transistors, Design Rules, Stick diagram and Layout Design and Tools, Wires and Vias.
Subsystem Design: Subsystem Design Principles, Field Programmable Gate Arrays.
UNIT V VHDL
9
VHDL Program Structure- concurrent code – sequential code - Variables- signals and Constants-VHDL
Operators -VHDL Description of Combinational Networks: Adders – Modeling Flip Flop using VHDL Processes –
VHDL Model for Multiplexer –Modeling a sequential Machine.
L: 45, T: 0, TOTAL: 45
TEXT BOOKS 1. Douglas A. Pucknell and Kamran Eshraghian, Basic VLSI Design, 3rd Edition, Prentice Hall of India Pvt. Ltd.,
1994.
2. Neil H.E.Weste and Kamran Eshraghian, Principles of CMOS VLSI Design, 2nd Edition, Addison Wesley
Publishing
company, 2000.
REFERENCE BOOKS 1.Geiger R.L., Allen P.H., & Starder N.R., “VLSI Design Techniques For Analog & Digital Circuits”, McGraw Hill
International Edition, 1990.
2.David A Hodges, Horace G Jackson Resve A Saleg “Analysis and Design of
3.Digital Integrated circuits” The McGraw Hill Companies 3rd edition, 2006.
4.Jan M Rabaey, A Chandrakasan, Borvioje N “Digital Integrated CircuitsDesign Perspective” PHI-2nd edition,
2005.
UEE11701 POWER SYSTEM OPERATION AND CONTROL 3 1 0 4
AIM
To make the students that to have the knowledge in power system operation and its control.
OBJECTIVES
xxxvi) To have an overview of power system operation and control. xxxvii) To model power-frequency dynamics and to design power-frequency controller. xxxviii) To model reactive power-voltage interaction and the control actions to be implemented
for maintaining the voltage profile against varying system load. xxxix) To study the economic operation of power system.
UNIT I INTRODUCTION
9
An overview of power system operation and control - system load variation - load characteristics -load
curves and load-duration curve - load factor - diversity factor - Importance of load forecasting and quadratic and
exponential curve fitting techniques for fore casting – plant level & system level controls.
UNIT II UNIT COMMITMENT AND ECONOMIC DISPATCH
9
Formulation of economic dispatch problem – I/O cost characterization – incremental cost curve –
coordination equations without and with loss (No derivation of loss coefficients) - solution by direct method and λ-
iteration method - statement of unit commitment problem – priority-list method – forward dynamic programming.
UNIT III REAL POWER - FREQUENCY CONTROL
9
Basics of speed governing mechanism and modeling - speed-load characteristics – load sharing between
two synchronous machines in parallel - control area concept - LFC control of a single-area system - static and
dynamic analysis of uncontrolled and controlled cases - two-area system – modeling - static analysis of uncontrolled
case - tie line with frequency bias control - state variable model - integration of economic dispatch control with
LFC.
UNIT IV REACTIVE POWER–VOLTAGE CONTROL
9
Generation and Absorption of reactive power - basics of reactive power control - excitation systems –
modeling - static and dynamic analysis - stability compensation - methods of voltage control: tap changing
transformer, SVC (TCR + TSC) and STATCOM – secondary voltage control.
UNIT V COMPUTER CONTROL OF POWER SYSTEMS
9
Need for computer control of power systems - concept of energy control centre - functions – system
monitoring - data acquisition and control - system hardware configuration – SCADA and EMS functions - network
topology - state estimation – WLSE – Contingency Analysis - state transition diagram showing various state
transitions and control strategies.
L:45 T:15 Total:60 Periods TEXT BOOKS 1. Olle.I.Elgerd, „Electric Energy Systems theory - An introduction‟, Tata McGraw Hill Education Pvt.Ltd., New
Delhi, 34th reprint, 2nd
edition 2010.
2. Allen. J. Wood and Bruce F. Wollenberg, „Power Generation, Operation and Control‟, John Wiley& Sons, Inc.,
2nd
edition 2013.
REFERENCE BOOKS 3. Abhijit Chakrabarti, Sunita Halder, „Power System Analysis Operation and Control‟, PHI learning Pvt.
Ltd., New Delhi, 3rd Edition, 2010.
UEE12701 POWER SYSTEM OPERATION AND CONTROL 3 1 0 4
AIM
To make the students that to have the knowledge in power system operation and its control.
OBJECTIVES
xl) To have an overview of power system operation and control. xli) To model power-frequency dynamics and to design power-frequency controller. xlii) To model reactive power-voltage interaction and the control actions to be implemented for
maintaining the voltage profile against varying system load. xliii) To study the economic operation of power system.
UNIT I LOAD BEHAVIOUR
9
An overview of power system operation and control - system load variation - load characteristics -load
curves and load-duration curve - load factor - diversity factor - Importance of load forecasting – plant level and
system level controls .
UNIT II UNIT COMMITMENT AND ECONOMIC DISPATCH
9
Formulation of economic dispatch problem – I/O cost characterization – incremental cost curve –
coordination equations without and with loss (No derivation of loss coefficients) - solution by direct method and λ-
iteration method - statement of unit commitment problem – priority-list method – forward dynamic programming.
UNIT III REAL POWER - FREQUENCY CONTROL
9
Basics of speed governing mechanism and modeling - speed-load characteristics – load sharing between
two synchronous machines in parallel - control area concept - LFC control of a single-area system - static and
dynamic analysis of uncontrolled and controlled cases - two-area system – modeling - static analysis of uncontrolled
case - tie line with frequency bias control - state variable model - integration of economic dispatch control with
LFC.
UNIT IV REACTIVE POWER–VOLTAGE CONTROL
9
Generation and Absorption of reactive power - basics of reactive power control - excitation systems –
modeling - static and dynamic analysis - stability compensation - methods of voltage control: tap changing
transformer, SVC (TCR + TSC) and STATCOM – secondary voltage control.
UNIT V COMPUTER CONTROL OF POWER SYSTEMS
9
Need for computer control of power systems - concept of energy control centre - functions – system
monitoring - data acquisition and control - system hardware configuration – SCADA and EMS functions - network
topology - state estimation – WLSE (Weighted Least Square Error) - state transition diagram showing various state
transitions and control strategies.
L:45 T:15 Total:60 Periods TEXT BOOKS 1. Olle.I.Elgerd, „Electric Energy Systems theory - An introduction‟, Tata McGraw Hill Education Pvt.Ltd., New
Delhi, 34th reprint, 2nd
edition 2010.
2. Allen. J. Wood and Bruce F. Wollenberg, „Power Generation, Operation and Control‟, John Wiley& Sons, Inc.,
2nd
edition 2013.
REFERENCE BOOKS 4. Abhijit Chakrabarti, Sunita Halder, „Power System Analysis Operation and Control‟, PHI learning Pvt.
Ltd., New Delhi, 3rd Edition, 2010.
UEE11702/UEE12702 SPECIAL ELECTRICAL MACHINES 3 0 0 3
AIM
To make students gain a fair knowledge in different special electrical machines.
OBJECTIVES
xliv) To understand the working principle and construction of commutator motors, stepper motors and
switched reluctance motors. xlv) To gain knowledge in principle of operation and characteristics of permanent magnet
brushless dc motors and synchronous motors.
UNIT I STEPPER MOTORS 9
Constructional features - principle of operation - Types of motors – variable reluctance, permanent magnet,
hybrid type - comparison – Static and Dynamic Characteristics – Drive system and circuit control of Stepper motor
–.microprocessor based stepper motor control – Applications.
UNIT II SWITCHED RELUCTANCE MOTORS (SRMs)
9
Constructional features – Rotary and Linear SRM - Principle of operation – Torque production – Torque-
Speed Characteristics – Power Semi Conductor Switching Circuits- Microprocessor based control of SRM Drive –
computer control – Rotor position sensors: photo transistor, hall sensor – Sensor less control of SRM – Applications
of SRM.
UNIT III PERMANENT MAGNET BRUSHLESS DC MOTORS
9 Commutation in DC Motors-Difference between mechanical and electronic commutators-Magnetic circuit analysis-
Principles of operation-Construction and Drive circuits-Torque and EMF equation-Torque and Speed characteristics
–sensors and sensorless systems-Vector controllers and applications
UNIT IV PERMANENT MAGNET SYNCHRONOUS MOTORS
9 Principle of operation – constructional features-phasor diagram-speed torque characteristics – torque and
emf equations- Vector controllers and applications. Doubly fed Induction Generator – principle-construction ,
characteristics and its applications.
UNIT V LINEAR MOTORS
9
Construction – Principle of operation – Types – expression for linear force – equivalent circuit –– concept
of current sheet – goodness factor – DC Linear Motor (DCLM) types – Circuit equation – DCLM control
applications.
L: 45 T:0 Total: 45 periods TEXT BOOKS 1.T.J.E. Miller, „Brushless Permanent Magnet and Reluctance Motor Drives‟, Clarendon Press, Oxford, 1989.
2.T. Kenjo, „Stepping Motors and Their Microprocessor Controls‟, Clarendon Press London, 2nd
Edition 1994.
REFERENCE BOOKS
1.R.Krishnan, „Switched Reluctance Motor Drives – Modeling, Simulation, Analysis, Design and Application‟,
CRC Press, New York, 2001.
2.G. Janardanan, „Special electrical machines‟, PHI learning Private Limited, Delhi, 2014.
3.Nasar A and Boldea I, “Linear Electric Motors: Theory, Design and Practical Application”, Prentice Hall Inc.,
New Jersey,1st edition1987.
4.I.Boldea , S.A.Nasar “Vector Control of AC drives” , CRC press , Newyork , 1992
5. K.Venkataratnam, „Special Electric Machines‟, Universities Press (India) Private Limited, 1st Edition 2009.
UEE11703 HIGH VOLTAGE ENGINEERING 3 0 0 3
AIM
To expose the students to the fundamentals of High Voltage Engineering and their real time applications
Electrical Engineering.
OBJECTIVES
xlvi) To understand the design principles and critical elements of a high voltage system. xlvii) To know about Ionization and Decay Process. xlviii) To learn about the electric breakdown in gases, solids and liquids.
UNIT I OVERVOLTAGES IN ELECTRICAL POWER SYSTEMS
9 Causes of over voltages and its effect on power system – Lightning, switching surges and temporary over
voltages - protection against over voltages-Control of over voltages due to switching-Introduction about Insulation
Co-ordination
UNIT II ELECTRIC BREAKDOWN IN GASES, SOLIDS AND LIQUIDS
9
Properties of insulating gases - Townsend's criterion for break down - Mechanism of spark - Breakdown
voltage characteristics in uniform and non uniform fields - Time lag for breakdown – Streamer Theory of
breakdown in Gases - Corona discharges - Paschen's law – Dielectric Breakdown In Solids: Intrinsic breakdown -
Electromechanical breakdown - Thermal breakdown - Breakdown of composite insulation - Solid dielectrics used in
practice, Electric Breakdown In Liquids: Electronic breakdown - Cavitation breakdown - Conduction and
breakdown in pure and commercial liquids.
UNIT III GENERATION OF HIGH VOLTAGES AND HIGH CURRENTS
9
Generation of high DC voltages - Cockroft - Walton voltage multiplier circuit – Electrostatic generator -
Vande groaf generator - Generation of high AC voltages, Transformers in cascade - Construction of Impulse
generator - Generation of Impulse voltages and currents - Tripping and control of Impulse generators.
UNIT IV MEASUREMENT OF HIGH VOLTAGES AND CURRENTS
9 Measurement of high DC voltages - Measurement of High AC and Impulse voltages -Measurement of High
DC, AC and Impulse currents – Partial discharge Measurements.
UNIT V HIGH VOLTAGE TESTING 9
Testing of Insulators and Bushings- Testing of isolators and circuit breakers - Testing of surge arrestors -
Testing of cables - Testing of power capacitors and transformers - Radio interference measurements
L:45 T:0 TOTAL 45 Periods TEXT BOOKS 3. Naidu M. S., Kamaraju V., “High Voltage Engineering”, Tata McGraw- Hill Publishing Company Ltd., New
Delhi, 5th Edition, 2009.
4. Wadhwa C.L., “High Voltage Engineering”, New Age International Private Ltd., 3rd
Edition, Reprint, New
Delhi, 2010.
REFERENCE BOOKS 1. Ravindra Arora and Wolfgang Mosch, “High Voltage - Insulation Engineering”, New Age International
Publishers Limited, 1st Edition, Reprint, New Delhi, 2008.
2. Kuffel, E., Zaengl W.S., Kuffel J., “High Voltage Engineering: Fundamentals”, Newnes Publishers, New Delhi,
2nd Edition, 2000.
3. Rakosh Das Begamudre, “Extra High Voltage AC Transmission Engineering”, New Age International Private
Ltd., 3rd Edition, New Delhi, 4th Edition 2010.
UEE12703 HIGH VOLTAGE ENGINEERING 3 0 0 3
AIM
To expose the students to the fundamentals of High Voltage Engineering and their real time applications
Electrical Engineering.
OBJECTIVES
xlix) To understand the design principles and critical elements of a high voltage system. l) To know about Ionization and Decay Process. li) To learn about the electric breakdown in gases, solids and liquids.
UNIT I OVERVOLTAGES IN ELECTRICAL POWER SYSTEMS
9 Causes of over voltages and its effect on power system – Lightning, switching surges and temporary over
voltages - protection against over voltages-Control of over voltages due to switching-Introduction about Insulation
Co-ordination
UNIT II ELECTRIC BREAKDOWN IN GASES, SOLIDS AND LIQUIDS
9
Properties of insulating gases - Townsend's criterion for break down - Mechanism of spark - Breakdown
voltage characteristics in uniform and non uniform fields - Time lag for breakdown – Streamer Theory of
breakdown in Gases - Corona discharges - Paschen's law – Dielectric Breakdown In Solids: Intrinsic breakdown -
Electromechanical breakdown - Thermal breakdown - Breakdown of composite insulation - Solid dielectrics used in
practice, Electric Breakdown In Liquids: Electronic breakdown - Cavitation breakdown - Conduction and
breakdown in pure and commercial liquids.
UNIT III GENERATION OF HIGH VOLTAGES AND HIGH CURRENTS
9
Generation of high DC voltages - Cockroft - Walton voltage multiplier circuit – Electrostatic generator -
Vande graff generator - Generation of high AC voltages, Transformers in cascade - Construction of Impulse
generator - Generation of Impulse voltages and currents - Tripping and control of Impulse generators.
UNIT IV MEASUREMENT OF HIGH VOLTAGES AND CURRENTS
9 Measurement of high DC voltages - Measurement of High AC and Impulse voltages -Measurement of High
DC, AC and Impulse currents – Partial discharge Measurements.
UNIT V HIGH VOLTAGE TESTING AND ITS APPLICATION
9
Testing of Insulators and Bushings- Testing of isolators and circuit breakers - Testing of surge arrestors -
Testing of cables - Testing of power capacitors and transformers - Radio interference measurements- Electrostatic
precipitator
L:45 T:0 TOTAL 45 Periods
TEXT BOOKS 3. Naidu M. S., Kamaraju V., “High Voltage Engineering”, Tata McGraw- Hill Publishing Company Ltd., New
Delhi, 5th Edition, 2009.
4. Wadhwa C.L., “High Voltage Engineering”, New Age International Private Ltd., 3rd
Edition, Reprint, New
Delhi, 2010.
REFERENCE BOOKS 1. Ravindra Arora and Wolfgang Mosch, “High Voltage - Insulation Engineering”, New Age International
Publishers Limited, 1st Edition, Reprint, New Delhi, 2008.
2. Kuffel, E., Zaengl W.S., Kuffel J., “High Voltage Engineering: Fundamentals”, Newnes Publishers, New Delhi,
2nd Edition, 2000.
3. Rakosh Das Begamudre, “Extra High Voltage AC Transmission Engineering”, New Age International Private
Ltd., 3rd Edition, New Delhi, 4th Edition 2010.
UBA11701/UBA12701 PROFESSIONAL ETHICS AND HUMAN VALUES 3 0 0 3
AIM
To make the students that to realize about the ethical value and human values in the environment by their professional
skills.
OBJECTIVE
i) To realize the important role of ethical process and human values. lii) To know about Engineering Ethics. liii) To learn about the Bioethics and Bio-safety. liv) To study the safety, Responsibilities and Rights.
UNIT I HUMAN VALUES 9
Morals, Values and Ethics – Integrity – Work Ethic – Service Learning – Civic Virtue – Respect for Others – Living
Peacefully – caring – Sharing – Honesty – Courage – Valuing Time – Co-operation – Commitment – Empathy – Self-
Confidence – Character – Spirituality
UNIT II ENGINEERING ETHICS 9
Senses of 'Engineering Ethics' - variety of moral issued - types of inquiry – moral dilemmas - moral autonomy -
Kohlberg's theory - Gilligan's theory - consensus and controversy – Models of Professional Roles - theories about right action -
Self-interest - customs and religion - uses of ethical theories.
UNIT III ENGINEERING AS SOCIAL EXPERIMENTATION & BIOETHICS AND BIOSAFETY 9
Engineering as experimentation - engineers as responsible experimenters - codes of ethics - a balanced outlook on law
- the challenger case study. Bioethics, Bioterrorism, Biosafety issues. GTOs – Transgenic plants and Animals.
UNIT IV SAFETY, RESPONSIBILITIES AND RIGHTS 9
Safety and risk - assessment of safety and risk - risk benefit analysis and reducing risk - the three mile island and
Chernobyl case studies. Collegiality and loyalty - respect for authority - collective bargaining - confidentiality - conflicts of
interest - occupational crime - professional rights - employee rights - Intellectual Property Rights (IPR) - discrimination.
UNIT V GLOBAL ISSUES 9
Multinational corporations - Environmental ethics - computer ethics – weapons development - engineers as managers-
consulting engineers-engineers as expert witnesses and advisors -moral leadership-sample code of Ethics (Specific to a
particular Engineering Discipline).
L:45 T:0 Total:45 Periods
TEXT BOOKS
1.Mike Martin and Roland Schinzinger, "Ethics in engineering", McGraw Hill, New York 1996.
2.Govindarajan M, Natarajan S, Senthil Kumar V. S, “ Engineering Ethics”, Prentice Hall of India, New Delhi, 2010.
REFERENCE BOOKS
1.Charles D. Fleddermann, "Engineering Ethics", Pearson Education/ Prentice Hall, New Jersey, 2004 (Indian Reprint now
available)
2.Charles E Harris, Michael S. Protchard and Michael J Rabins, “ Engineering Ethics – Concepts and Cases”, Wadsworth
Thompson Leatning, United States, 2000 (Indian Reprint now available)
3.John R Boatright, “ Ethics and the Conduct of Business”, Pearson Education, New Delhi, 2003.
UBA11754 PRINCIPLES OF MANAGEMENT 3 0 0 3
AIM:
To learn the different principles and techniques of management in planning, organizing, directing and controlling.
OBJECTIVE:
To study the evolution of Management
To study the functions and principles of Management
To learn the application of the principles in an organization
UNIT I INTRODUCTION TO MANAGEMENT AND ORGANIZATIONS 9
Definition of Management-Science or Art-Manager Vs Entrepreneur -types of managers-managerial roles and skills-
Evolution of Management-Scientific, human relations , system and contingency approaches-Types of Business organization-
Sole proprietorship, partnership , company- public and private sector enterprises- organization culture and environment-
Current trends and issues in Management.
UNIT II PLANNING 9
Nature and purpose of planning - Planning process - Types of planning – Objectives – setting objectives - Policies –
planning premises-strategic Management- Planning tools and techniques-decision making steps and process
UNIT III ORGANIZING & STAFFING 9
Nature and purpose – formal and informal organization – organization chart-organization structure –types – Line and
staff authority-departmentalization-delegation of authority-centralization and decentralization – job design- Human Resource
Management- HR planning , Recruitment , Selection , Training and development , Performance Management, Career planning
and Management.
UNIT IV DIRECTING 9
Foundations of individual and group behavior-motivation theories-motivational techniques-job satisfaction-job enrichment-
leadership -types and theories of leadership-communication-process of communication-barrier in communication-effective
communication-communication and IT
UNIT V CONTROLLING 9
System and process of controlling - Budgetary and non-budgetary control techniques – use of computers and IT in
management control- Productivity problems and management-control and performance-direct and preventive control-reporting
L: 45 T:0 Total: 45 periods
TEXT BOOKS:
1. Harold Koontz & Heinz Weihrich “ Essentials of management” Tata McGraw Hill , 1998.
REFERENCE BOOKS:
1. Stephen P. Robbins and Mary Coulter, 'Management', Prentice Hall (India) Pvt.Ltd India, 10th edition,2009
2. JAF Stoner, Freeman R.E and Daniel R Gilbert “Management” , Prentice Education, 6th
Edition, 2004.
3. Stephen A.Robbins & David A.Decenzo & Mary Coulter, “ Fundamentals of Management” pearson Education,
7th
Edition 2011.
4.Robert Kreitner & Mamata Mohapatra, “Management”, Biztantra, 2008.
5.Tripathy PC & Reddy PN, “Principles of Management”, Tata McGraw Hill, 1999.
UBA12754 PRINCIPLES OF MANAGEMENT 3 0 0 3
AIM
To make students gain knowledge about management capability.
OBJECTIVES
1. To gain a basic understanding of principles of management including planning, organizing
and controlling.
2. To gain a basic understanding of concepts for managing people including human resources,
motivation, leading, and communications.
3. To improve your ability to examine managerial issues and problems and to develop feasible
alternatives that can result in better decision-making.
4. To develop an awareness of multiple approaches that can be used to resolve managerial issues
and problems.
UNIT I OVERVIEW OF MANAGEMENT 9
Organization - Management - Role of managers - Evolution of Management thought - Organization and the environmental
factors - Managing globally - Strategies for International Business.
UNIT II PLANNING 9
Nature and purpose of planning - Planning process - Types of plans – Objectives - Managing by objective (MBO) Strategies -
Types of strategies - Policies - Decision Making - Types of decision - Decision Making Process - Rational Decision Making
Process - Decision Making under different conditions.
UNIT III ORGANIZING 9
Nature and purpose of organizing - Organization structure - Formal and informal groups I organization - Line and Staff
authority - Departmentation - Span of control - Centralization and Decentralization - Delegation of authority - Staffing -
Selection and Recruitment - Orientation - Career Development - Career stages – Training - Performance Appraisal.
UNIT IV DIRECTING 9
Creativity and Innovation - Motivation and Satisfaction - Motivation Theories Leadership - Leadership theories -
Communication - Hurdles to effective communication - Organization Culture - Elements and types of culture - Managing
cultural diversity.
UNIT V CONTROLLING 9
Process of controlling - Types of control - Budgetary and non-budgetary control techniques -
Managing Productivity - Cost Control - Purchase Control - Maintenance Control - Quality Control - Planning operations.
L: 45 T:0 Total: 45 periods
TEXT BOOKS
1. Stephen P. Robbins and Mary Coulter, 'Management', Prentice Hall of India, 8th edition.
2. Charles W L Hill, Steven L Mc Shane, 'Principles of Management', Mcgraw Hill Education,Special Indian Edition, 2007.
REFERENCES
1. Hellriegel, Slocum & Jackson, ' Management - A Competency Based Approach', Thomson
South Western, 10th edition, 2007.
2. Harold Koontz, Heinz Weihrich and Mark V Cannice, „Management – A global and
Entrepreneurial Perspective‟, Tata Mcgraw Hill, 12th edition, 2007.
3. Andrew J. Dubrin, 'Essentials of Management', Thomson Southwestern, 7th edition, 2007.
UEE11751/UEE12751 APPLICATION OF POWER ELECTRONICS IN POWER SYSTEM
3 0 0 3
AIM
To make students gain knowledge about usage of power electronic devices in Power system
OBJECTIVES lv) To impart knowledge on different types of converter configurations. lvi) To study the different Applications of converters in HVDC systems lvii) To study the different Applications of converters in FACTS lviii) To design and analyze the different types of protection schemes for converters.
UNIT I INTRODUCTION
9
Overview of Silicon Power Electronic Devices: Thyristor, GTO, IGCT, MOSFET, IGBT-Applications for Power
Electronics Devices-Power Electronics Benefits to Transmission and Distribution and to Distributed Energy- Technical
Challenges Facing Power Electronics.
UNIT II SINGLE PHASE AND THREE PHASE CONVERTERS
9
Properties – Current and voltage harmonics – Effect of source and load impendence – Choice of best circuit for power
systems- Converter Control - Gate Control – Basic means of Control – Control characteristics – Stability of control – Reactive
power control - Applications of converters in HVDC systems – Static VAR control - Source of reactive power – Harmonics and
filters.
UNIT III HVDC
9
HVDC configurations, components of HVDC system: Converter, transformer, smoothing reactor, harmonic filter.
Reactive power support, operation of 6-pulse controlled rectifier in inverting mode of operation. Operation of 12 - pulse
converter. Control of HVDC system, Rectifier and inverter characteristics, mode stabilization, current control, voltage
dependent current order limit, combined rectifier-inverter characteristics - limitations HVDC system using line commutated
converters, modern HVDC system.
UNIT IV REACTIVE POWER COMPENSATION
9
Introduction, methods of Var generation, analysis of uncompensated AC line, Passive reactive power compensation,
Compensation by a series capacitor connected at the midpoint of the line, Effect on Power Transfer capacity, Compensation by
STATCOM and SSSC, Fixed capacitor-Thyristor controlled reactor (FC-TCR), Thyristor-switched capacitor- Thyristor
controlled reactor (TSC-TCR), static VAr compensators.
UNIT V RENEWABLE ENERGY
9
Stand alone operation of fixed and variable speed wind energy conversion systems and solar system-Grid connection
Issues -Grid integrated PMSG and SCIG Based WECS-Grid Integrated solar system.
L:45 T:0 Total:45 Periods
TEXT BOOKS 1.K.R. Padiyar, HVDC Power Transmission System – Technology and System Interaction, New Delhi, New Age
International, 2nd
Edition 2010. [UNIT-III]
2.N.G. Hingorani & L. Gyugyi, Understanding FACTS: Concepts and Technology of Flexible AC Transmission
Systems IEEE Press, 2000.[UNIT-IV]
3.Rashid .M. H “power electronics Hand book”, Academic press, 2001.
4.Rai. G.D, “Non conventional energy sources”, Khanna publishes, 1st edition 2010
REFERENCE BOOKS
1.Erich Uhlmann, Power Transmission by Direct Current, New York, Springer Publications, 1975.
2.E.W. Kimbark, Direct Current Transmission, Vol.1, New York, Wiley Interscience, 1971.
3.Ned Mohan, Power Electronics Converters Applications and Design, John Wiley india, 3rd
edition 2010.
4.T.J.E Miller, Reactive Power Control in Electric Systems, John Wiley & Sons.3. Ned Mohan et.al, Power
Electronics, John Wiley and Sons. 2nd
edition 2013
UEE11752/UEE12752 FACTS AND ITS APPLICATIONS 3 0 0 3
AIM To enhance the transmission capability of transmission system by shunt and series compensation using
static controllers.
OBJECTIVES
lix) To understand the concept of flexible AC transmission and the associated problems. lx) To review the static devices for series and shunt control. lxi) To study the operation of controllers for enhancing the transmission capability.
UNIT I INTRODUCTION
9
The concept of flexible AC transmission - reactive power control in electrical power transmission
lines -uncompensated transmission line – series and shunt compensation. Overview of FACTS devices -
Static Var Compensator (SVC) – Thyristor Switched Series capacitor (TCSC) – Unified Power Flow
controller (UPFC) - Integrated Power Flow Controller (IPFC).
UNIT II STATIC VAR COMPENSATOR (SVC) AND APPLICATIONS
9
Voltage control by SVC – advantages of slope in dynamic characteristics – influence of SVC on system
voltage. Applications - enhancement of transient stability – steady state power transfer – enhancement of power
system damping – prevention of voltage instability.
UNIT III THYRISTOR CONTROLLED SERIES CAPACITOR (TCSC)AND ITS
APPLICATIONS 9
Operation of the TCSC - different modes of operation – Applications - improvement of the system
stability limit – enhancement of system damping – voltage collapse prevention– SSR mitigation
UNIT IV EMERGING FACTS CONTROLLERS
9
Static Synchronous Compensator (STATCOM) – operating principle – V-I characteristics– Unified Power
Flow Controller (UPFC) – Principle of operation - modes of operation – applications.
UNIT V CO-ORDINATION OF FACTS CONTROLLERS
9
FACTs Controller interactions – SVC–SVC interaction - co-ordination of multiple controllers using
linear control techniques – Quantitative treatment of control coordination.
L:45 T:0 Total:45 Periods
TEXTBOOKS 1. Mohan Mathur, R., Rajiv. K. Varma, “Thyristor – Based Facts Controllers for Electrical
Transmission Systems”, IEEE press and John Wiley & Sons, Inc, 1st Edition 2002.
REFERENCE BOOKS
1.A.T.John, “Flexible AC Transmission System”, Institution of Electrical and Electronic Engineers(IET),
1st Edition 1999.
2.Narain G.Hingorani, Laszio. Gyugyl, “Understanding FACTS Concepts and Technology of Flexible AC
Transmission System”, Standard Publishers, 2nd
Edition 2011.
UEE11753/UEE12753 FUZZY LOGIC AND NEURAL NETWORKS 3 0 0 3
AIM
To make the students to realize the knowledge of Artificial Intelligence and its usage.
OBJECTIVE
lxii) To know about the concept of fuzzy logic and neural logic lxiii) Exploring the concept of AI modeling lxiv) Providing the knowledge about optimization in AI models
UNIT I FUZZY LOGIC FUNDAMENTALS
9
Introduction-characteristics of fuzzy logic and fuzzy system- Fuzzy sets-operation on fuzzy sets-
fuzzy relations-operation on fuzzy relations-fuzzy implications-modifiers-translation rules-rational
properties –defuzification.
UNIT II FUZZY LOGIC CONTROLLERS AND ITS APPLICATIONS
9
Fuzzy rule based systems- inference mechanisms-fuzzy logic controller-defuzzification methods-
effectivity of fuzzy logic control systems- fuzzy logic applications- model for prevention of road
accidents, model to control room temperature.
UNIT III NEURAL NETWORK FUNDAMENTALS
9
Introduction- network topologies- training of ANN - notation and terminology – Perceptron –
Adalime- Delta rule- back propagation- Recurrent networks – Jordan, Elman, Hopfield network.
UNIT IV NEURAL NETWORK LEARNING AND APPLICATIONS
9
Competitive learning- Principal component networks – Adaptive resonance theory –
Reinforcement Learning(Barto‟s Approach)- Neural network applications- Robot control.
UNIT V HYBRID FUZZY NEURAL NETWORKS
9
Introductions – fuzzy logic in Learning algorithms – neural networks as tuners of fuzzy logic
systems- ANFIS(structure)- HFNN applications- tool breakage monitoring system for end milling- control
of combustion.
L:45 T:0 Total:45 Periods TEXT BOOKS 1..S.N.Sivanandam and S.N.Deepa, "Principles of Soft Computing", Wiley India Pvt Ltd, 2
nd edition 2011.
2. Timothy J. Ross, “Fuzzy Logic with Engineering Applications”, McGraw Hill 3rd
edition 2010.
REFERENCE BOOKS 1. Jang J.S.R, Sun C.T and Mizutani. E, “Neuro-Fuzzy and Soft Computing”, Prentice hall 1
st edition 1997.
2. Chennakesava R. Alavala, “Fuzzy Logic and Neural Networks- Basic Concepts and applications”, New Age
International Publishers, 1st edition 2008.
3. Nils J. Nilsson, “Artificial Intelligence – A New Synthesis”, Harcourt Asia Ltd., 1998.
4. 1.J.S.R.Jang, C.T. Sun and E.Mizutani, “Neuro-Fuzzy and Soft Computing”, PHI 1st edition 2009.
UEE11754/UEE12754 POWER PLANT INSTRUMENTATION 3 0 0 3
AIM
To make students know about power generation through various methods
OBJECTIVES
lxv) To educate on the important power plant measurements and devices lxvi) To educate on basic Boiler control techniques lxvii) To educate on advanced Boiler control techniques
UNIT I OVERVIEW OF POWER GENERATION
9
Survey of methods of power generation :– hydro, thermal, nuclear, solar and wind power –Importance of
instrumentation in power generation – Thermal power plant – Building blocks – Combined Cycle System –
Combined Heat and Power System – sub critical and supercritical boilers.
UNIT II MEASUREMENTS IN POWER PLANTS
9
Measurement of feed water flow, air flow, steam flow and coal flow – Drum level measurement – Steam
pressure and temperature measurement – Turbine speed and vibration measurement – Flue gas analyzer – Fuel
composition analyzer-Electrostatic precipitator
UNIT III CONTROL OF TURBINE
9
Types of steam turbines – impulse and reaction turbines – compounding – Turbine governing system –
Speed and Load control – Transient speed rise – Free governor mode operation – Automatic Load Frequency
Control – Turbine oil system – Oil pressure drop relay – Oil cooling system – Turbine run up system
UNIT IV BOILER CONTROL – I
9
Combustion of fuel and excess air – Firing rate demand – Steam temperature control – Control of deaerator
– Drum level control – Single, two and three element control – Furnace draft control – implosion – flue gas dew
point control – Trimming of combustion air – Soot blowing.
UNIT V BOILER CONTROL – II
9
Burners for liquid and solid fuels – Burner management – Furnace safety interlocks – Coal pulverizer
control – Combustion control for liquid and solid fuel fired boilers – air/fuel ratio control – fluidized bed boiler –
Cyclone furnace
L:45 T:0 TOTAL: 45 PERIODS
TEXT BOOKS
1.Everett Woodruff , Herbert Lammers, Thomas Lammers, Steam Plant Operation,9th Edition McGraw Hill, 2012.
2.Rajput R.K., A Text book of Power plant Engineering. 5th Edition, Laxmi Publications, 2013.
REFERENCE BOOKS 1.Liptak B.G., Instrumentation in Process Industries, Chilton Book Company,1
st edition 2005.
2.Jain R.K., Mechanical and Industrial Measurements, Khanna Publishers, New Delhi, 2nd
edition 2008.
3.P.K.Nag, Powerplant Engineering, Tata McGraw-Hill Education, 4th edition, 2014.
5.Krishnaswamy.K and Ponnibala.M., Power Plant Instrumentation, PHI Learning Pvt.Ltd., New Delhi, 1st edition
2011.
UEE11755/UEE12755 POWER QUALITY ENGINEERING 3 0 0 3
AIM:
To make students know about various power quality problems and its solutions.
OBJECTIVE:
Gain an understanding of the causes of and solutions to power quality problems
Learn the tools and techniques used to solve power quality problems
Learn the importance of proper wiring and grounding for reliable equipment performance
UNIT I: INTRODUCTION
12
Definition of Power Quality –Power Quality issues: Short/Long duration voltage variations, Transients, Waveform
distortion, Voltage imbalance/fluctuation, Power frequency variations – Sources and Effects of Power Quality
problems –Power Quality and Electro Magnetic Compatibility (EMC) – Harmonics, Harmonics indices, Inter
harmonics, Notching – Voltage Vs Current distortion – Harmonics Vs Transients – Sources and effects of harmonic
distortion – System response characteristics – Principles of controlling harmonics
UNIT II: SHORT & LONG INTERRUPTIONS 9
Introduction – Origin of short interruptions: Voltage magnitude events due to reclosing, Voltage during the
interruption – Monitoring of short interruptions – Single phase tripping – Voltage during fault and post fault period,
Current during fault period – Prediction of short Interruptions-Long Interruptions: Origin of interruptions – Causes
of long interruptions – Voltage regulating devices
UNIT III: VOLTAGE SAG 7
Definition – Characterization – Causes of Voltage Sag – Three Phase Unbalance – Phase angle jumps – Load
influence on voltage sags – Equipment behavior – Stochastic assessment of voltage sags – Overview of mitigation
methods.
UNIT IV: TRANSIENTS 7
Definition – Power system transient model – Principles of over voltage protection – Types, causes of transients and
devices for over voltage protection – Utility capacitor switching transients – Utility lightning protection –
Transients from load switching.
UNIT V: POWER QUALITY MONITORING
10
Introduction – Power quality monitoring: Evolution, Deregulation effect – Brief introduction to power quality
measurement equipment and power conditioning equipments – Planning, Conducting and Analyzing power quality
survey.
L:45 T:0 TOTAL : 45 PERIODS
TEXT BOOKS
1. Roger C. Dugan, Mark F. McGranaghan and H.Wayne Beaty, "Electrical Power Systems Quality", McGraw-
Hill, New York, 2nd Edition, 2002.
2. G.T.Heydt, "Electric Power Quality", Stars in a circle publishers, 1994, 2nd Edition.
REFERENCE BOOKS
1. Barry W.Kennedy, “Power Quality Primer”, McGraw-Hill, New York, 2000.
2. Sankaran.C, "Power Quality", CRC Press, Washington, D.C., 2002
3. Math H.J.Bollen, "Understanding Power Quality Problems: Voltage Sags and Interruptions", IEEE Press, New
York, 2000.
4. Arrillaga.J, Watson.N.R and Chen.S, "Power System Quality Assessment", John Wiley & Sons Ltd., England,
2000.
UEE11756/UEE12756 ROBOTICS AND AUTOMATION 3 0 0 3
AIM
To make students know about various parts of robots and fields of robotics
OBJECTIVES
lxviii) To study the various kinematics and inverse kinematics of robots. lxix) To study the Euler, Lagrangian formulation of Robot dynamics. lxx) To study the trajectory planning for robot. lxxi) To study the control of robots for some specific applications.
UNIT I BASIC CONCEPTS
9
Definition and origin of robotics – different types of robotics – various generations of robots – degrees of
freedom – Asimov‟s laws of robotics – dynamic stabilization of robots.
UNIT II POWER SOURCES AND SENSORS
9
Hydraulic, pneumatic and electric drives – determination of HP of motor and gearing ratio – variable speed
arrangements – path determination – micro machines in robotics – machine vision – ranging – laser – acoustic –
magnetic, fiber optic and tactile sensors.
UNIT III MANIPULATORS, ACTUATORS AND GRIPPERS
9
Construction of manipulators – manipulator dynamics and force control – electronic and pneumatic
manipulator control circuits – end effectors – U various types of grippers – design considerations.
UNIT IV KINEMATICS AND PATH PLANNING
9
Solution of inverse kinematics problem – multiple solution Jacobean work envelop – hill climbing
techniques – robot programming languages
UNIT V AUTOMATION AND ROBOTS
9
Case studies - Multiple robots – machine interface – robots in manufacturing and non- manufacturing
applications – robot cell design – selection of robot.
L:45 T:0 TOTAL : 45
PERIODS
TEXT BOOKS 1. Mikell P. Weiss G.M., Nagel R.N., Odraj N.G., Industrial Robotics, McGraw-Hill Singapore, 2
nd Edition 2012.
2. Ghosh, Control in Robotics and Automation: Sensor Based Integration, Allied Publishers, Chennai, 1999.
REFERENCE BOOKS 1.Deb.S.R., Robotics technology and flexible Automation, John Wiley, 1
st edition 1992.
2.Spong and Vidyasagar, Robot Dynamics and Control, John Wiley & Sons, 1989
3.Asfahl C.R., Robots and manufacturing Automation, John Wiley, 2nd
edition 2014.
4.Klafter R.D., Chimielewski T.A., Negin M., Robotic Engineering – An integrated approach, Prentice Hall of
India, New
Delhi, 1994.
5.Mc Kerrow P.J. Introduction to Robotics, Addison Wesley, USA, 1991.
6.Issac Asimov I Robot, Ballantine Books, New York, 1986.
UCS11753/UCS12753 COMPUTER ARCHITECTURE 3 0 0 3
AIM
To cultivate an understanding of modern computing technology through an in-depth study of the interface
between hardware and software.
OBJECTIVE
lxxii) To know about the functional modules and related technologies, computer arithmetic hardware blocks
and floating point representation lxxiii) To know the importance of memory hierarchy in computer design.
UNIT I DATA REPRESENTATION AND MICRO-OPERATIONS
9
Data Representation: Data types, Complements, fixed-point representation, floating –point representation,
other binary codes, error detection codes. Register transfer and micro operations: Register transfer language,
register transfer, bus and memory transfers, arithmetic micro-operations, logic micro-operations, shift micro-
operations, arithmetic logic shift unit.
UNIT II CENTRAL PROCESSING UNIT
9
General register organization, stack organization, instruction formats, addressing modes, data transfer and
manipulation, program control, reduced instruction set computer.
UNIT III COMPUTER ARITHMETIC, PIPELINE AND VECTOR PROCESSING
9
Computer arithmetic: Addition and subtraction, multiplication algorithms, division algorithms, floating-
point arithmetic operations, decimal arithmetic unit, decimal arithmetic operations. Pipeline and vector processing:
Parallel processing, pipelining, arithmetic pipeline, instruction pipeline, RISC pipeline, vector processing array
processors.
UNIT IV INPUT-OUTPUT ORGANIZATION
9
Input-output organization: Peripheral devices, input-output interface, asynchronous data transfer, modes of
transfer, priority interrupt, direct memory access, input-output processor, serial communication.
UNIT V MEMORY ORGANIZATION
9
Memory organization: Memory hierarchy, main memory, auxiliary memory, associative memory, cache
memory, virtual memory, memory management hardware.
L: 45,T : 0, TOTAL: 45 PERIODS
TEXT BOOKS 1.Morris Mano, „Computer System Architecture‟, 3
rd Edition, Pearson Education, 2008.
2.John P.Hayes,‟ Computer Architecture and Organizations‟, Tata Mcgraw Hill, 3rd
edition 2012.
REFERENCE BOOKS 1.Vincent P.Heuring and Harry F.Jordan,‟ Computer Systems Design and Architecture‟, Pearson Education Asia
Publications, 2nd
edition 2014.
2Andrew S.Tanenbaum,‟Structured Computer Organization‟, 6th Edition, Prentice Hall of India/Pearson Education,
2013.
3.William Stallings, „Computer Organization Architecture‟, 9th Edition, Prentice Hall of India/Pearson Education,
2012.
UEI11756/UEI12756 PLC AND ITS APPLICATION 3 0 0 3
AIM
To make students know about the basics of PLC
OBJECTIVE
lxxiv) To study the programming of PLC and HMI systems. lxxv) To study about the DCS. lxxvi) To understand the concept of Automation.
UNIT I INTRODUCTION TO INDUSTRIAL AUTOMATION
9
Requirements of industrial automation- Typical Industrial electrical equipment–Functions of the central
Relay or PLC based control panels-- conventional Types of relays – Various INPUT/OUTPUT components used -
Advantages of PLC based system-Selection of PLC based on I/O.
UNIT II PLC –AN OVERVIEW
9
Programmable Logic controllers-Parts of PLC-Principles of Operations-Modifying the Operations-PLCs
Versus Computers-PLC size and Applications-Basics of Timers and Counters-Networking standards. - Protocols -
Field bus - Process bus and Ethernet IEEE Standard.
UNIT III PLC HARDWARE COMPONENTS AND BASIC PROGRAMMING
9
I/O Section-Discrete I/O Modules-Analog I/O Modules-Special I/O Modules-I/O Sections-CPU-Memory
Design-Memory Types-Programming Devices-Recording and Retrieving Data-PLC Work stations-Processor
Memory Organization-Program Scan-Plc Programming Language-Relay Type Instruction-Instruction Addressing-
Branch Instruction-Internal Relay Instruction-Entering the Ladder Diagram-Modes of operation.
UNIT IV DEVELOPING FUNDAMENTALS PLC WIRING DIAGRAMS AND LADDER LOGIC
PROGRAMS
9
Electromagnetic control relays-Contactors-Motor Starters-Manually Operated Switches-Mechanically
Operated switches-Transducers and Sensors-Output Control Devices-Seal in Circuits-Latching Relays-Converting
Relay Ladder Diagrams into PLC Ladder Programs-Writing a Ladder Logic Diagram Directly from a Narrative
description.
UNIT V APPLICATIONS OF PLC , DCS & HMI
9
Case studies of Machine automation, Process automation, Introduction to SCADA and DCS.HMI systems:
Necessity and Role in Industrial Automation, Text display - operator panels -Touch panels - Panel PCs - Integrated
displays (PLC & HMI)
L: 45, T : 0, TOTAL : 45 PERIODS TEXT BOOKS 1. Frank D Petruzella, “Programmable Logic Controllers”, McGraw Hill Publishers,3
rd edition 2010.
REFERENCE BOOKS 1. Michael P. Lukas, “Distributed Control systems”, “Van Nostrand Reinfold Company, 1st edition 1986.
2.Mikell P. Groover, “Automation Production systems and Computer Integrated Manufacturing”, Prentice Hall of
India, New Delhi, 3rd
edition 2008
3. Siemens PLC Handbook for total automation – Company Hand book
4.Allen-Bradley handbook for total automation - Company Hand book
UEI11758/UEI12758 VIRTUAL INSTRUMENTATION 3 0 0 3
AIM
Enable students to understand basics, programming techniques, data acquisition and interfacing
techniques of virtual instrumentation and to use VI for different applications.
OBJECTIVES
lxxvii) To familiarize the basics and interfacing of VI lxxviii) To write programs for different applications.
UNIT I VIRTUAL INSTRUMENTATION
9
Historical perspective, advantages, block diagram and architecture of a virtual instrument, data-flow
techniques, graphical programming in data flow, comparison with conventional programming. Development of
Virtual Instrument using GUI, Real-time systems, Embedded Controller, OPC, HMI / SCADA software, Active X
programming.
UNIT II PROGRAMMING TECHNIQUES
9
VIS and sub-VIS, loops and charts, arrays, clusters and graphs, case and sequence structures, formula
nodes, local and global variables, string and file I/O, Instrument Drivers, Publishing measurement data in the web.
UNIT III DATA ACQUISITION BASICS
9
Introduction to data acquisition on PC, Sampling fundamentals, Input/Output techniques and buses. ADC,
DAC, Digital I/O, counters and timers, DMA, Software and hardware installation, Calibration, Resolution, Data
acquisition interface requirements.
UNIT IV VIRTUAL INSTRUMENTATION CHASSIS REQUIREMENTS
9
Common Instrument Interfaces: Current loop, RS 232C/RS485, GPIB. Bus Interfaces: USB, PCMCIA,
VXI, SCSI, PCI, PXI, Fire wire. PXI system controllers, Ethernet control of PXI. Networking basics for office &
Industrial applications, VISA and IVI.
UNIT V VIRTUAL INSTRUMENTATION TOOLSETS, DISTRIBUTED I/O MODULES
9
Application of Virtual Instrumentation: Instrument Control, Development of process database management
system, Simulation of systems using VI, Development of Control system, Industrial Communication, Image
acquisition and processing, Motion control.
L:45 , T:0 TOTAL: 45 PERIODS
TEXTBOOKS 1. Gary Johnson, LabVIEW Graphical Programming, 2
nd edition, McGraw Hill,Newyork, 1997.
2. Virtual Instrumentation using LabVIEW by Jovitha Jerome ,PHI learning private ltd, New delhi , 2010(1st
edition)
REFERENCE BOOKS 1. Kevin James, PC Interfacing and Data Acquisition: Techniques for Measurement, Instrumentation and Control,
Newnes, 2000. 2. Lisa K. wells & Jeffrey Travis, LabVIEW for everyone, Prentice Hall, New Jersey,1997.
UEE11704P POWER SYSTEM SIMULATION LABORATORY 0 0 3 2
AIM
To provide better understanding of power system analysis through digital simulation.
LIST OF EXPERIMENTS
1. Computation of Parameters and Modeling of Transmission Lines
2. Formation of Bus Admittance and Impedance Matrices and Solution of Networks.
3. Load Flow Analysis - I: Solution of load flow and related problems using Gauss-Seidel Method
4. Load Flow Analysis - II: Solution of load flow and related problems using Newton Raphson.
5. Short circuit Fault Analysis
6. Small Signal Stability Analysis: Single-Machine Infinite Bus System
7. Electromagnetic Transients and power quality issues
8. Load – Frequency Dynamics of Single- Area and Two-Area Power Systems
9. Economic Dispatch without losses
10. Economic Dispatch with losses
Total:45 Periods
UEE12704P POWER SYSTEM SIMULATION LABORATORY 0 0 3 2
AIM
To provide better understanding of power system analysis through digital simulation.
LIST OF EXPERIMENTS
1. Computation of Parameters and Modeling of Transmission Lines
2. Formation of Bus Admittance and Impedance Matrices and Solution of Networks.
3. Load Flow Analysis - I: Solution of load flow and related problems using Gauss-Seidel Method
4. Load Flow Analysis - II: Solution of load flow and related problems using Newton Raphson.
5. Short circuit Fault Analysis
6. Small Signal Stability Analysis: Single-Machine Infinite Bus System
7. Electromagnetic Transients and power quality issues
8. Load – Frequency Dynamics of Single- Area and Two-Area Power Systems
9. Economic Dispatch without losses
10. Economic Dispatch with losses
11. Relay coordination using Mipower
Total:45 Periods
UEE11705P/UEE12705P ELECTRIC DRIVES AND CONTROLS LABORATORY 0 0 3 2
AIM
To expose the students to the operation of electric drives and control and give them experimental skill.
LIST OF EXPERIMENTS
1. Simulation of closed loop control of converter fed DC motor.
2. Simulation of closed loop control of chopper fed DC motor.
3. Simulation of VSI fed 3Φ induction motor-voltage control ,frequency control
4. Simulation of 3 Φ synchronous motor drive.
5. Speed control of DC motor using 3Φ Rectifier.
6. Speed control of 3Φ induction motor using PWM inverter.
7. DSP based closed loop drive for induction motor.
8. Induction motor speed control using FPGA.
9. Speed control of Brush Less DC motor.
10.DSP based chopper fed DC motor drive.
11. Switched Reluctance Motor Drive using DSP.
12. PLC based drive system.
Total: 45 Periods
UEE11801 ELECTRIC POWER UTILIZATION AND ENERGY AUDITING 3 1 0 4
AIM
To make students know about energy saving concept by different ways of illumination.
OBJECTIVES
lxxix) To understand the different methods of electric heating and electric welding. lxxx) To understand the drives and its application to railway electrification. lxxxi) To understand electrolytic process and basic energy storage elements.
UNIT I ILLUMINATION 9 Production of light -Definition and terms used in illumination engineering- Polar curves -Determination of
MHCP and MSCP - classification of light sources - incandescent lamps, sodium vapor lamps, mercury vapour
lamps, fluorescent lamps - design of illumination systems - indoor lighting schemes - factory lighting halls -
outdoor lighting schemes - flood lighting - street lighting - energy saving lamps, LED.
UNIT II HEATING AND WELDING
9
Introduction - advantages of electric heating - modes of heat transfer - methods of electric heating -
resistance heating - arc furnaces - induction heating - dielectric heating - electric welding - types -resistance welding
- arc welding - power supply for arc welding - radiation welding-power quality issues in welding-power quality
issues in welding
UNIT III ELECTRIC DRIVES AND TRACTION
9
Fundamentals of electric drive - choice of an electric motor - application of motors for particular
services - traction motors - characteristic features of traction motor - systems of railway electrification -electric
braking - train movement and energy consumption - traction motor control - track equipment and collection gear -
A.C traction and recent trends.
UNIT IV ELECTROLYTIC PROCESSES AND STORAGE OF ELECTRICITY
9
Electrolysis - polarization factor - preparation work for Electro plating - Tanks and other
equipments - Calculation of energy requirements - Methods of charging and maintenance -Ni-iron , Ni- cadmium
batteries and Lead acid batteries -Components and materials - Capacity rating of batteries.
UNIT V ENERGY CONSERVATION
9
Economics of generation – definitions – load curves – number and size of units – cost of electrical energy –
tariff – need for electrical energy conservation-methods – energy efficient equipment – energy management –
energy auditing.
Economics of power factor improvement – design for improvement of power factor using power capacitors – power
quality – effect on conservation.
L: 45, T: 15, TOTAL: 60 PERIODS
TEXT BOOKS 1. R.K.Rajput, Utilisation of Electric Power, Laxmi publications Private Limited., 2
nd edition 2013.
2. J.B.Gupta, “Utilisation Electric power and Electric Traction”, S.K.Kataria and Sons,10th edition 2013.
REFERENCE BOOKS 1. H.Partab, Art and Science of Utilisation of Electrical Energy”, Dhanpat Rai and Co., New Delhi, 2004.
2. C.L.Wadhwa, “Generation, Distribution and Utilisation of Electrical Energy”, New Age International Pvt.Ltd.,3rd
edition 2010. 3. S. Sivanagaraju, M. Balasubba Reddy, D. Srilatha,‟ Generation and Utilization of Electrical Energy‟, Pearson
Education. 1
st edition 2012.
4. 3. N.V. Suryanarayana, “Utilisation of Electric Power”, Wiley Eastern Limited,New Age International Limited,
2nd
edition 2014
UEE12801 ELECTRIC POWER UTILIZATION AND ENERGY AUDITING 3 1 0 4
AIM
To make students know about energy saving concept by different ways of illumination.
OBJECTIVES
lxxxii) To understand the different methods of electric heating and electric welding. lxxxiii) To understand the drives and its application to railway electrification. lxxxiv) To understand electrolytic process and basic energy storage elements.
UNIT I ILLUMINATION 9 Production of light -Definition and terms used in illumination engineering- Polar curves -Determination of
MHCP and MSCP - classification of light sources - incandescent lamps, sodium vapor lamps, mercury vapour
lamps, fluorescent lamps - design of illumination systems - indoor lighting schemes - factory lighting halls -
outdoor lighting schemes - flood lighting - street lighting - energy saving lamps, LED.
UNIT II HEATING AND WELDING
9
Introduction - advantages of electric heating - modes of heat transfer - methods of electric heating -
resistance heating - arc furnaces - induction heating - dielectric heating - electric welding - types -resistance welding
- arc welding - power supply for arc welding - radiation welding-power quality issues in welding-power quality
issues in welding
UNIT III ELECTRIC DRIVES AND TRACTION
9
Fundamentals of electric drive - choice of an electric motor - application of motors for particular
services - traction motors - characteristic features of traction motor - systems of railway electrification -electric
braking - train movement and energy consumption - traction motor control - track equipment and collection gear -
A.C traction and recent trends.
UNIT IV ELECTROLYTIC PROCESSES AND STORAGE OF ELECTRICITY
9
Electrolysis - polarization factor - preparation work for Electro plating - Tanks and other
equipments - Calculation of energy requirements - Methods of charging and maintenance -Ni-iron , Ni- cadmium
batteries and Lead acid batteries -Components and materials - Capacity rating of batteries.
UNIT V ENERGY AUDITING
9
Economics of generation – definitions – load curves – number and size of units – cost of electrical energy –
tariff – need for electrical energy conservation-methods – energy efficient equipment – energy management –
energy auditing.
Economics of power factor improvement – design for improvement of power factor using power capacitors – power
quality – effect on conservation.
L: 45, T: 15, TOTAL: 60 PERIODS TEXT BOOKS 1. R.K.Rajput, Utilisation of Electric Power, Laxmi publications Private Limited., 2
nd edition 2013.
2. J.B.Gupta, “Utilisation Electric power and Electric Traction”, S.K.Kataria and Sons,10th edition 2013.
REFERENCE BOOKS 1. H.Partab, Art and Science of Utilisation of Electrical Energy”, Dhanpat Rai and Co., New Delhi, 2004.
2. C.L.Wadhwa, “Generation, Distribution and Utilisation of Electrical Energy”, New Age International Pvt.Ltd.,3rd
edition 2010. 3. S. Sivanagaraju, M. Balasubba Reddy, D. Srilatha,‟ Generation and Utilization of Electrical Energy‟, Pearson
Education. 1
st edition 2012.
4. 3. N.V. Suryanarayana, “Utilisation of Electric Power”, Wiley Eastern Limited,New Age International Limited,
2nd
edition 2014
UBA118510/UBA128510 TOTAL QUALITY MANAGEMENT 3 0 0 3
AIM
To make students understand the Total Quality Management Concept and Principles and the various tools
available to achieve Total Quality Management.
OBJECTIVE
lxxxv) To understand the statistical approach for quality control. lxxxvi) To create an awareness about the ISO and QS certification process and its need for the
industries
UNIT I INTRODUCTION TO QUALITY MANAGEMENT
9
Definitions-TQM framework, benefits, awareness and obstacles. Quality -Vision, mission and policy
Statements. Analysis Techniques for Quality Costs, Customer Focus – Customer perception of quality, Translating
needs into requirements, customer retention. Dimensions of product and service quality.
UNIT II TQM PRINCIPLES
9
Juran Trilogy, PDSA Cycles, Japanese 5S Principles, Kaizen, Supplier Partnership – Partnering, Sourcing,
Supplier Selection, Supplier Rating, Relationship Development, Performance Measures – Basic Concepts, Strategy,
Performance Measure.
UNIT III STATISTICAL PROCESS CONTROL AND PROCESS CAPABILITY
9
Statistical Process Control: Measuring and significance of statistical process control (SPC) – Construction
of control charts for variables and attributes. Process capability – meaning, significance and measurement – Six
sigma.
UNIT IV TOOLS AND TECHNIQUES FOR QUALITY MANAGEMENT
9
Quality functions development (QFD) process – Benefits. Building a HOQ, FMEA stages, design, process
and documentation. Seven old (statistical) tools. Seven new management tools. Bench marking.
UNIT V QUALITY SYSTEMS ORGANIZING AND IMPLEMENTAION
9
Need for IS/ISO 9000 and Other Quality Systems, Quality System – Elements, Implementation of Quality
System, Documentation, Quality Auditing. TQM culture, Leadership – quality council, employee involvement,
motivation, empowerment, recognition and reward – Introduction to software quality.
L: 45, T: 0,
TOTAL: 45
TEXT BOOKS 1. Dale H.Besterfiled, et al., Total Quality Management, Pearson Education, Inc. 2003.(Indian reprint 2004).
2. Narayana V. and sreenivasan N.S.”Quality Management – Concepts and Tasks”, New Age International, 1996.
REFERENCE BOOKS 1. Evans, J.R. and Lidsay, W.M., “The Management and Control of Quality”, 5
th Edition, South-western Thomson
Learning, 2002.
2. Feigenbaum, A.V.,”Total Quality Management”, McGraw Hill, 1991.
3. Oakland, J.S., “ Total Quality Management”, Butterworth-Heinemann Ltd., 1989.
UEE11851 ADVANCED POWER SEMICONDUCTOR DEVICES 3 0 0 3
AIM
To make students understand the static and dynamic characteristics of current/ voltage controlled power semi
conductor devices
OBJECTIVES
lxxxvii) To improve power semiconductor device structures for adjustable speed motor control applications. lxxxviii) To enable the students for the selection of devices for different power electronics applications lxxxix) To understand the control and firing circuit for different devices.
UNIT I INTRODUCTION
9
Power switching devices overview, Attributes of an ideal switch, application requirements, circuit symbols;
Power handling capability – (SOA); Device selection strategy – On-state and switching losses, EMI due to
switching, Power diodes, Types, forward and reverse characteristics, switching characteristics-rating.
UNIT II CURRENT CONTROLLED DEVICES
9
BJT‟s - Construction, static characteristics, switching characteristics; Negative temperature co-efficient and
secondary breakdown; Power Darlington Thyristors – Physical and electrical principle underlying operating mode,
Two transistor analogy, concept of latching; Gate and switching characteristics; converter grade and inverter grade
and other types; series and parallel operation; comparison of BJT and Thyristor, steady state and dynamic models of
BJT & Thyristor.
UNIT III VOLTAGE CONTROLLED DEVICES
9
Power MOSFETs and IGBTs – Principle of voltage controlled devices, construction, types, static and
switching characteristics, steady state and dynamic models of MOSFET and IGBTs - Basics of GTO, MCT, FCT,
RCT and GATT.
UNIT IV FIRING AND PROTECTION CIRCUITS
9
Necessity of isolation, pulse transformer, Opto coupler – Gate drives circuit: SCR, MOSFET, IGBTs and
base driving for power BJT, Over voltage, over current and gate protections; Design of snubbers.
UNIT V THERMAL PROTECTION
9
Heat transfer – conduction, convection and radiation; Cooling – liquid cooling, vapour – phase cooling;
Guidance for hear sink selection – Thermal resistance and impedance -Electrical analogy of thermal components,
heat sink types and design – Mounting types.
L:45 , T:0 TOTAL : 45 PERIODS
TEXT BOOKS 1.Rashid, M.H.,"Power Electronic Circuits, Devices and Applications," Second Edition, Prentice Hall of India,
New
Delhi, 4th revised edition 2013.
2.Williams, B.W,"Power Electronic Devices, Applications and Passive Components", ELBS Oxford
University
Press, 2nd revised edition 1992
REFERENCE BOOKS 1. Joseph, Vithayathil, "Power Electronics Principles and Applications," McGraw Hill, 1
st edition 2010.
2.Mohan, N.et.al."Power Electronics converters, Applications and Design", Second edition, John
Wiley and sons, New York, 3rd
edition 2007.
UEE12851 ADVANCED POWER SEMICONDUCTOR DEVICES 3 0 0 3
AIM
To make students understand the static and dynamic characteristics of current/ voltage controlled power semi
conductor devices
OBJECTIVES
xc) To improve power semiconductor device structures for adjustable speed motor control applications. xci) To enable the students for the selection of devices for different power electronics applications xcii) To understand the control and firing circuit for different devices.
UNIT I DEVICE SPECIFICATIONS
9
Power switching devices overview, Attributes of an ideal switch, application requirements, circuit symbols;
Power handling capability – (SOA); Device selection strategy – On-state and switching losses, EMI due to
switching, Power diodes, Types, forward and reverse characteristics, switching characteristics-rating.
UNIT II CURRENT CONTROLLED DEVICES
9
BJT‟s - Construction, static characteristics, switching characteristics; Negative temperature co-efficient and
secondary breakdown; Power Darlington Thyristors – Physical and electrical principle underlying operating mode,
Two transistor analogy, concept of latching; Gate and switching characteristics; converter grade and inverter grade
and other types; series and parallel operation; comparison of BJT and Thyristor, steady state and dynamic models of
BJT & Thyristor.
UNIT III VOLTAGE CONTROLLED DEVICES
9
Power MOSFETs and IGBTs – Principle of voltage controlled devices, construction, types, static and
switching characteristics, steady state and dynamic models of MOSFET and IGBTs - Basics of GTO, MCT, FCT,
RCT and GATT.
UNIT IV FIRING AND PROTECTION CIRCUITS
9
Necessity of isolation, pulse transformer, Opto coupler – Gate drives circuit: SCR, MOSFET, IGBTs and
base driving for power BJT, Over voltage, over current and gate protections; Design of snubbers.
UNIT V THERMAL DESIGN
9
Heat transfer – conduction, convection and radiation; Cooling – liquid cooling, vapour – phase cooling;
Guidance for hear sink selection – Thermal resistance and impedance -Electrical analogy of thermal components,
heat sink types and design – Mounting types.
L:45 , T:0 TOTAL : 45 PERIODS TEXT BOOKS 1.Rashid, M.H.,"Power Electronic Circuits, Devices and Applications," Second Edition, Prentice Hall of India,
New
Delhi, 4th revised edition 2013.
2.Williams, B.W,"Power Electronic Devices, Applications and Passive Components", ELBS Oxford
University
Press, 2nd revised edition 1992
REFERENCE BOOKS 1. Joseph, Vithayathil, "Power Electronics Principles and Applications," McGraw Hill, 1
st edition 2010.
2.Mohan, N.et.al."Power Electronics converters, Applications and Design", Second edition, John
Wiley and sons, New York, 3rd
edition 2007.
UEE11852/UEE12852 ADVANCED MICROPROCESSORS AND MICROCONTROLLERS
3 0 0 3
AIM
To make students know about the basic architecture and features of different processors.
OBJECTIVE
xciii) To understand the basic architecture, memory and the features of Microprocessors and Microcontrollers xciv) To understand the concepts of modular programming. xcv) To understand the detailed architecture and features of Pentium processors, xcvi) To understand the detailed architectures and features of popular RISC and ARM processors.
UNIT I MICROPROCESSOR ARCHITECTURE
9
Instruction Set – Data formats –Addressing modes – Memory hierarchy –register file –
Cache – Virtual memory and paging – Segmentation- pipelining –the instruction pipeline
– pipeline hazards – instruction level parallelism – reduced instruction set –Computer
principles – RISC versus CISC.
UNIT II HIGH PERFORMANCE CISC ARCHITECTURE – PENTIUM
9
CPU Architecture- Bus Operations – Pipelining – Brach predication – floating point unit-
Operating Modes –Paging – Multitasking – Exception and Interrupts – Instruction set –
addressing modes – Programming the Pentium processor.
UNIT III HIGH PERFORMANCE RISC ARCHITECTURE – ARM
9
Organization of CPU – Bus architecture –Memory management unit - ARM instruction
set- Thumb Instruction set- addressing modes – Programming the ARM processor.
UNIT IV MOTOROLA 68HC11 MICROCONTROLLERS
9
Instruction set addressing modes – operating modes- Interrupt system- RTC-Serial
Communication Interface – A/D Converter PWM and UART.
UNIT V PIC MICROCONTROLLER
9
CPU Architecture – Instruction set – interrupts- Timers- I2C Interfacing –UART- A/D
Converter –PWM and introduction to C-Compilers.
L:45 , T:0 , TOTAL : 45 PERIODS
TEXT BOOKS 1.Daniel Tabak , „‟ Advanced Microprocessors” McGraw Hill.Inc., 1995
2. James L. Antonakos , “ The Pentium Microprocessor „‟ Pearson Education , 1997.
3. Steve Furber , „‟ ARM System –On –Chip architecture “Addision Wesley , 2000.
REFERENCE BOOKS 1. Gene .H.Miller .” Micro Computer Engineering ,” Pearson Education , 2003.
2. John .B.Peatman , “ Design with PIC Microcontroller , Prentice hall, 1997.
3. James L.Antonakos ,” An Introduction to the Intel family of Microprocessors „‟Pearson Education 1999.
4. Barry.B.Breg,” The Intel Microprocessors Architecture , Programming andInterfacing “ , PHI,2002.
5. Valvano "Embedded Microcomputer Systems" Thomson Asia PVT LTD first reprint 2001.
UEE11853/UEE12853 AUTOMATIC CONTROL SYSTEMS 3 0 0 3
AIM
To make students gain information about the analysis of control system design
OBJECTIVE
xcvii) To know the technical view of Control system. xcviii) To elaborate the conceptual skill of analyzing the stability of a control system
UNIT I INTRODUCTION TO LINEAR CONTROL SYSTEM
6
Control Systems, types of control systems, feedback and its effects, mathematical modeling of physical
systems.
UNIT II TIME DOMAIN ANALYSIS OF CONTROL SYSTEMS
10
Transfer functions, signal flow graphs, polar and Bode plot representation of loop gains of control systems.
Typical test signals for time response of control systems, time domain performance of first and second order control
systems (steady state response and transient response), PID Controllers.
UNIT III STABILITY OF CONTROL SYSTEMS
11
Stability characteristic equation, state transition matrix, stability of linear time invariant systems, Rough-
Hurwitz Criterion, Nyquist criterion, Root locus plot, Bode diagrams.
UNIT IV FREQUENCY DOMAIN ANALYSIS OF CONTROL SYSTEMS
9
Introduction to Digital Control System, Sampling, Finite Pulse width Sampler, Sampling Spectra and
Aliasing. Sampling theorem, Choice of sampling rate. Specifications and Design of Discrete data of Control
System. Z-transform, Pulse transfer function. Transfer function from difference equation. Inverse Z- transform.
UNIT V INTRODUCTION TO MODERN CONTROL THEORY
9
State Equations, State Transition Matrix, State transition equations, State Diagrams, concept of
controllability and observability.
L:45 , T:0 , TOTAL PERIODS:45 TEXT BOOKS 1. Katsuhiko Ogata, "Modern Control Engineering", Prentice Hall of India Private Ltd., New Delhi, Third Edition,
1998.
2. Nagrath I.J., and Gopal, M., "Control Systems Engineering", Wiley Eastern Limited, New Delhi, 1982.
REFERENCE BOOKS 1. Benjamin C.Kuo. "Automatic Control Systems", Prentice Hall of India private Limited, New Delhi, Fifth Edition,
1987.
Katsuhiko Ogata, "Modern Control Engineering", Prentice Hall of India Private Ltd.,New Delhi, Third Edition,
1998.
2. Franus Raven, “Automatic Control Engineering”, Mcgraw Hill, 1995.
UEE11854/UEE12854 HVDC TRANSMISSION 3 0 0 3
AIM
To mould students to acquire knowledge about HVDC Transmission systems.
OBJECTIVE
xcix) For idea about modern trends in HVDC Transmission and its application c) Complete analysis of harmonics and basis of protection for HVDC Systems
UNIT I DC POWER TRANSMISSION TECHNOLOGY
9
Introduction – comparison of HVAC and HVDC –application of DC transmission – description of DC
transmission system planning for HVDC transmission – modern trends in DC transmission – limitations - Protection
Systems in HVDC Substation
UNIT II HVDC TRANSMISSION
9 HVDC Transmission Principles–Types of HVDC Links - Types of converters – HVDC rules – HVDC
control – Harmonics – filters – Multi terminal DC system.
UNIT III LINE PARAMETER
9 Calculation of line and ground parameters – Resistance, Capacitance and Inductance calculation – Bundle
conductors – Modes of propagation – Effect of earth.
UNIT IV BASIC CONCEPTS OF FACTS
9
Lack of control on active reactive power flow – conventional control mechanisms – Need for FACTS
Devices – Advances in power semiconductor devices – types of FACTS controllers - importance of facts controllers
– operating principles
UNIT V ANALYSIS OF CONVERTERS AND HVDC SYSTEM CONTROL
9
Thyristor converter circuits – choice of converter configurations – control characteristics - simplified
analysis of Graetz circuit – system control hierarchy –firing angle control – current and extinction angle control.
L:45 , T:0 , TOTAL PERIODS:45
TEXT BOOKS
1.Padiyar. K.R “HVDC Power Transmission Systems”, New Age International (P) Limited,
Publishers.,3rd
edition 2014.
2. Rakosh Das Begamudre, “Extra High Voltage AC Transimission Engineering”, Third Edition , New Age
International(P) Limited, Publishers., 4th edition 2011.
REFERENCE BOOKS
1.Kimbark, "Direct Current Transmission - Vol. I", John Wiley and Sons Inc., New York, 1971
2.Arrillaga. J, "High Voltage Direct Current Transmission", Peter Peregrines, London, 2nd
revised edition 1998
UEE11855 RENEWABLE ENERGY SOURCES 3 0 0 3
AIM
To make students know about the basic concepts of Energy resources.
OBJECTIVE
ci) Exploring the various renewable energy sources cii) To provide the technical view of Energy sources and its usage
UNIT I INTRODUCTION
9
Energy Scenario - world and India. Energy Resources- Availability in India. Energy consumption pattern.
Energy conservation potential - Industries and commercial establishments. Energy intensive industries - overview.
Energy conservation and energy efficiency – needs and advantages-government subsidy.
UNIT II SOLAR ENERGY
9
Solar radiation its measurements and prediction - solar thermal flat plate collectors concentrating collectors
– applications - heating, cooling, desalination, power generation, drying, cooking etc - principle of photovoltaic
conversion of solar energy, types of solar cells and fabrication. Photovoltaic applications: battery charger, domestic
lighting, street lighting, and water pumping, power generation schemes.
UNIT III WIND ENERGY
9
Atmospheric circulations – classification - factors influencing wind - wind shear – turbulence - wind speed
monitoring - Betz limit - Aerodynamics of wind turbine rotor-site selection - wind resource assessment - wind
energy conversion devices - classification, characteristics, and applications. Hybrid systems - safety and
environmental aspects.
UNIT IV HYDROGEN AND FUEL CELLS
9
Thermodynamics and electrochemical principles - basic design, types, and applications - production
methods - Biophotolysis: Hydrogen generation from algae biological pathways - Storage gaseous, cryogenic and
metal hydride and transportation.Fuel cell – principle of working- various types - construction and applications.
UNIT V OTHER TYPES OF ENERGY
9
Ocean energy resources - principles of ocean thermal energy conversion systems - ocean thermal power
plants - principles of ocean wave energy conversion and tidal energy conversion – hydropower – site selection,
construction, environmental issues - geothermal energy - types of geothermal energy sites, site selection, and
geothermal power plants.
L:45 , T: 0 , Total :45 Periods
TEXT BOOKS 1.Bansal, N.K., Kleemann, M. and Meliss M., “Renewable Energy Sources and Conversion Technology”, Tata
McGraw-
Hill Publishing Co. Ltd, 2005.
2. Sukhatme S.P., “Solar Energy”, Tata McGraw Hill, 2008.
3. Mukund R. Patel, “Wind and Solar Power Systems”, CRC Press, 1999.
REFERENCE BOOKS 1.Twidell, J.W. and Weir, A., Renewable Energy Sources, EFN Spon Ltd., 1986.
2.Hart, A.B., and Womack, G. J.,”Fuel Cells: Theory & Applications”, Prentice Hall, 1997.
3.Veziroglu, T.N., “Alternative Energy Sources”, Vol 5 and 6, McGraw-Hill, 1990
4.M. A. Green, Solar Cells, Prentice-Hall, Englewood Cliffs, 1982.
5.Kreith, F and Kreider, J. F.,” Principles of Solar Engineering”, McGraw-Hill, 1978
UEE12855 RENEWABLE ENERGY SOURCES 3 0 0 3
AIM
To make students know about the basic concepts of Energy resources.
OBJECTIVE
ciii) Exploring the various renewable energy sources civ) To provide the technical view of Energy sources and its usage
UNIT I INTRODUCTION
9
Indian energy Scenario , Energy Resources- Availability in India. Energy consumption pattern. Energy
conservation potential - Industries and commercial establishments. Energy intensive industries - overview. Energy
conservation and energy efficiency – needs and advantages-renewable energy certificate(REC)-government
subsidy.
UNIT II SOLAR ENERGY
9
Solar radiation its measurements and prediction - solar thermal flat plate collectors concentrating collectors
– applications - heating, cooling, desalination, power generation, drying, cooking etc - principle of photovoltaic
conversion of solar energy, types of solar cells and fabrication. Photovoltaic applications: battery charger, domestic
lighting, street lighting, and water pumping, power generation schemes.
UNIT III WIND ENERGY
9
Atmospheric circulations – classification - factors influencing wind - wind shear – turbulence - wind speed
monitoring - Betz limit - Aerodynamics of wind turbine rotor-site selection - wind resource assessment - wind
energy conversion devices - classification, characteristics, and applications. Hybrid systems - safety and
environmental aspects.
UNIT IV HYDROGEN AND FUEL CELLS
9
Thermodynamics and electrochemical principles - basic design, types, and applications - production
methods - Biophotolysis: Hydrogen generation from algae biological pathways - Storage gaseous, cryogenic and
metal hydride and transportation.Fuel cell – principle of working- various types - construction and applications.
UNIT V OTHER TYPES OF ENERGY
9
Ocean energy resources - principles of ocean thermal energy conversion systems - ocean thermal power
plants - principles of ocean wave energy conversion and tidal energy conversion – hydropower – site selection,
construction, environmental issues - geothermal energy - types of geothermal energy sites, site selection, and
geothermal power plants.
L:45 , T: 0 , Total :45 Periods TEXT BOOKS 1.Bansal, N.K., Kleemann, M. and Meliss M., “Renewable Energy Sources and Conversion Technology”, Tata
McGraw-
Hill Publishing Co. Ltd, 2005.
2. Sukhatme S.P., “Solar Energy”, Tata McGraw Hill, 3rd
edition 2008.
3. Mukund R. Patel, “Wind and Solar Power Systems”, CRC Press, 2nd
edition 2005.
REFERENCE BOOKS 1.Twidell, J.W. and Weir, A., Renewable Energy Sources, EFN Spon Ltd., 3
rd edition 2014.
2.Hart, A.B., and Womack, G. J.,”Fuel Cells: Theory & Applications”, Prentice Hall, 1997.
3.Veziroglu, T.N., “Alternative Energy Sources”, Vol 5 and 6, McGraw-Hill, 1990
4.M. A. Green, Solar Cells, Prentice-Hall, Englewood Cliffs, 1982.
5.Kreith, F and Kreider, J. F.,” Principles of Solar Engineering”, McGraw-Hill, 1978
UEI11851/UEI12851 BIOMEDICAL INSTRUMENTATION
3 0 0 3
AIM
To make the student acquire an adequate knowledge of the physiological systems of the human body and
relate them to the parameters that have clinical importance.
OBJECTIVES
cv) To provide an acquaintance of the physiology of the heart, lung, blood circulation and circulation respiration. Methods of different transducers used. cvi) To introduce the student to the various sensing and measurement devices of electrical origin. cvii) To provide the latest ideas on devices of non-electrical devices.
- UNIT I PHYSIOLOGY AND TRANSDUCERS
9
Cell and its structure – Resting and Action Potential – Nervous system: Functional organization of the
nervous system – Structure of nervous system, neurons - synapse –transmitters and neural communication –
Cardiovascular system – respiratory system – Basic components of a biomedical system - Transducers – selection
criteria – Piezo electric, ultrasonic transducers – Temperature measurements - Fiber optic temperature sensors.
UNITII BIO- POTENTIAL ELECTRODES, TRANSDUCERS & RECORDERS
9
The electrode – electrolyte interface, Polarization, Ag/AgCl Electrodes, Body surface electrodes, Internal
Electrodes. Transducers in general, Pressure Transducers, Temperature transducers, pulse sensors, Basic recording
system, Direct Writing recorder, UV recorders, Thermal array recorders, Electrostatic recorder, Instrumentation
Tape recorder.
UNIT III MEDICAL IMAGING SYSTEMS
9
Information content of an image, Modulation transfer function, Noise –equivalent bandwidth, generation of
X-rays, X-ray machine, computed Tomography, Magnetic Resonance Imaging – Principle, Image reconstruction
techniques, Basic NMR components, Ultrasonic Imaging systems – Types of ultrasound imaging, Applications of
different scan, Bio Telemetry
UNIT IV MONITORING SYSTEMS
9
Electrocardiogram, Effects of artifacts on ECG recordings, ECG recorder Principles, EEG & EMG
recorders, Phonocardiogram, stethoscope, BP measuring Instrument- Sphygmomanometer and cardiac
catheterization, ultrasonic blood flow meter, Principle of Photoelectric calorimeter, computerized patient monitoring
system.
UNIT V ASSISTING AND THERAPEUTIC EQUIPMENTS
9
Pacemakers – Defibrillators – Ventilators – Nerve and muscle stimulators – Diathermy – Heart –Lung
machine – Audio meters – Dialyzers – Lithotripsy
L: 45, T: 0, TOTAL:
45 TEXT BOOKS
1. Dr.Arumugam , Bio-Medical Instrumentation ,Anuradha Agencies,2003.
2. Cromwell, Bio-Medical Instruments and Measurements, Prentice Hall of India,1990.
REFERENCE BOOKS
1. L.A. Geddes and L.E.Baker, „Principles of Applied Bio-Medical Instrumentation‟, John Wiley & Sons, 1975.
2. Prof.Venkataram.S.K., Bio-Medical Electronics & Instrumentation, Galgotia Publications.2000
3.Khandpur.R.S., Hand book of Bio-Medical Instrumentation Tate McGraw –Hill1987
UEC11851/UEC12851 DIGITAL IMAGE PROCESSING 3 0 0 3
AIM
To make students familiar in Image compression and segmentation
OBJECTIVE
cviii) To know about Digital image Properties cix) To make the exploration about Image Processing Techniques
UNIT I DIGITAL IMAGE FUNDAMENTALS
8
Introduction – Origin – Steps in Digital Image Processing – Components – structure of the human eye –
Elements of Visual Perception –– luminance – brightness – contrast – mach band effect – image fidelity criteria –
colour models – RGB, CMY, HIS mathematical preliminaries of 2D systems – convolution – Fourier transform – Z
transform.
UNIT II IMAGE ENHANCEMENT
10
Spatial Domain: Gray level transformations – Histogram processing – Basics of Spatial Filtering–
Smoothing and Sharpening Spatial Filtering – Frequency Domain: Introduction to Fourier Transform – Smoothing
and Sharpening frequency domain filters – Ideal, Butterworth and Gaussian filters.
UNIT III IMAGE RESTORATION
9
Image restoration- image observation models.Inverse and Wiener filtering. Filtering using image
transforms. Constrained least-squares restoration. Generalized inverse, SVD and interactive methods. Recursive
filtering.Maximum entropy restoration. Bayesian methods.
UNIT IV WAVELETS AND IMAGE COMPRESSION
9
Wavelets – Subband coding – Multiresolution expansions – Compression: Fundamentals – Image
Compression models – Error Free Compression – Variable Length Coding – Bit-Plane Coding – Lossless Predictive
Coding – Lossy Compression – Lossy Predictive Coding – Compression Standards.
UNIT V IMAGE REPRESENTATION AND RECOGNITION
9
Boundary representation – Chain Code – Polygonal approximation, signature, boundary segments –
Boundary description – Shape number – Fourier Descriptor, moments- Regional Descriptors –Topological feature,
Texture – Patterns and Pattern classes – Recognition based on matching.
L: 45, T: 0, TOTAL:
45
TEXT BOOKS 1. Gonzalez,R.C and Woods,R.E, Digital image processing Addition – Wesley Publications,1995
2.Anil.K.Jain Fundamentals of digital image processing, PHI, 1997.
REFERENCE BOOKS 1. William K Pratt, “Digital Image Processing”, John Willey, 2002.
2. Malay K. Pakhira, “Digital Image Processing and Pattern Recognition”, First Edition, PHI Learning Pvt. Ltd.,
2011.
3. Chanda, D. Dutta Majumder, Digital Image Processing and Analysis, PHI, 2000.
UEC11854/UEC12854 OPTICAL COMMUNICATION 3 0 0 3
AIM
To make students understand about optical fibre and optical circuitry design principles and its use
OBJECTIVE
cx) Physical understanding of the components and systems cxi) Designing optical links, including making design trade-offs in the practical implementation of
those systems.
UNIT I INTRODUCTION TO OPTICAL FIBERS
9
Evolution of fiber optic system -definitions- Element of an Optical Fiber Transmission link- Optical
transmission system concepts, optical networking, Optical interconnects, Optical computers, transmitting light on a
fiber, light propagation in multimode fibers single mode fiber properties and characteristics, plastic optical fiber-
Ray Optics-Optical Fiber Modes and Configurations - Basic laws and definitions – ray optics Linearly Polarized
Modes –Single Mode Fibers-Graded Index fiber structure.
UNIT II SIGNAL DEGRADATION OPTICAL FIBERS
9
Attenuation in Optical Fibers: Introduction, Absorption, Scattering, Very Low Loss Materials, All Plastic &
Polymer-Clad-Silica Fiber Signal Distortion in Optical Wave guides-Information Capacity determination – Group
Delay Material Dispersion, Wave guide Dispersion, Signal distortion in SM fibers- Polarization Mode dispersion,
Intermodal dispersion, Pulse Broadening in GI fibers-Mode Coupling –Design Optimization of SM fibers-RI profile
and cut-off wavelength.
UNIT III FIBER OPTICAL SOURCES,DETECTORS AND COUPLING
9
Source & Detectors: Design of LED's for Optical Communication, Semiconductor Lasers for Optical Fiber
Communication System, Semiconductor Photodiode Detectors, Avalanche Photodiode Detectors & Photo multiplier
Tubes.Quantum efficiency and LED power, Laser Diodes, Temperature effects, Introduction to Quantum laser,
Fiber amplifiers- Lencing schemes, Fibre –to- Fibre joints, Fibre splicing.
UNIT IV FIBER OPTICAL RECEIVERS
9
PIN and APD diodes – Detector Response time, Avalanche Multiplication–Comparison of Photo detectors
–Fundamental Receiver Operation – preamplifiers, Error Sources – Receiver Configuration –Quantum Limit.
UNIT V DATA COMMUNICATION NETWORK AND APPLICATIONS
9
Data Communication Networks- Network Topologies, Mac Protocols, Analog System.
Advanced Multiplexing Strategies- Optical TDM, Sub carrier Multiplexing, WDM Network Architecutres;
SONET/SDH, Optical Transport Network, Optical Access Network, Optical Premise Network. Applications-
Military Applications, Civil, Consumer & Industrial Applications.
L : 45, T : 0, TOTAL : 45 PERIODS TEXT BOOKS 1.J.Gower, “Optical Communication System”, Prentice Hall of India, 2001.
2.Keiser, “Optical Fibre Communication” Mc. Graw Hill – 2nd
Edition,2000
REFERENCE BOOKS 1 Gerd Keiser, “Optical Fiber Communication” McGraw –Hill International,Singapore, 3rd ed., 2000
2 J.Senior, “Optical Communication, Principles and Practice”, Prentice Hall of India,1994.
UEC118511/UEC128511 VLSI DESIGN 3 0 0 3
AIM
To make students know about the overview of VLSI design
OBJECTIVE
cxii) To establish the Process of VLSI Design cxiii) To give the conceptual skill in VLSI Design
UNIT I MOS TECHNOLOGY
9
Chip Design Hierarchy- IC Layers –Photolithography and Pattern Transfers- Basic MOS Transistors-
CMOS Fabrication – Submicron CMOS Process –Masks and Layout –CMOS Design Rules: Lambda based layout-
Types of rules- SCMOS Design Rule set
UNIT II MOSFET TRANSISTOR
9
MOSFET operation - MOSFET switch model and square law model – MOSFET parasitic-– MOSFET
SPICE Modeling-CMOS Inverter: Voltage Transfer curve- Layout- Body Effect-Latch up problem in CMOS
circuits-Latch up prevention
UNIT III DESIGN OF CMOS LOGIC
10
Designing Combinational Logic Gates in CMOS: Introduction, Static CMOS Design, and Dynamic CMOS
Design. Designing Sequential Logic circuits: Introduction, Static Latches and Registers, Dynamic Latches and
Registers. Transmission Gates logic.
UNIT IV TOOLS FOR DESIGN
8
Scaling of MOS Transistors, Design Rules, Stick diagram and Layout Design and Tools, Wires and Vias.
Subsystem Design: Subsystem Design Principles, Field Programmable Gate Arrays.
UNIT V VHDL
9
VHDL Program Structure- concurrent code – sequential code - Variables- signals and Constants-VHDL
Operators -VHDL Description of Combinational Networks: Adders – Modeling Flip Flop using VHDL Processes –
VHDL Model for Multiplexer –Modeling a sequential Machine.
L: 45, T: 0, TOTAL: 45
TEXT BOOKS 1. Douglas A. Pucknell and Kamran Eshraghian, Basic VLSI Design, 3rd Edition, Prentice Hall of India Pvt. Ltd.,
1994.
2. Neil H.E.Weste and Kamran Eshraghian, Principles of CMOS VLSI Design, 2nd Edition, Addison Wesley
Publishing
company, 2000.
REFERENCE BOOKS 1.Geiger R.L., Allen P.H., & Starder N.R., “VLSI Design Techniques For Analog & Digital Circuits”, McGraw Hill
International Edition, 1990.
2.David A Hodges, Horace G Jackson Resve A Saleg “Analysis and Design of
3.Digital Integrated circuits” The McGraw Hill Companies 3rd edition, 2006.
4.Jan M Rabaey, A Chandrakasan, Borvioje N “Digital Integrated CircuitsDesign Perspective” PHI-2nd edition,
2005.