SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
PROGRAMME : B.E.
ELECTRONICS AND TELECOMMUNICATION ENGINEERING
CURRICULUM
SEMESTER 1
Sl. No.
COURSE TITLE
L
T
P
C
PAGE No.
SHS1101 /
SCH1101
English for Science and Technology /
Environmental Science and Engineering
3
3
0
0
0
0
3
3
1
20
2.
SMT1101
Engineering Mathematics - I
3
1
0
4
2
3.
SPH1101
Physics of Engineering Materials
3
0
0
3
10
4.
SCY1101
Engineering Chemistry
3
0
0
3
15
5.
SCS1102
Fundamentals of Programming
3
0
0
3
22
6.
SEC1101
Electronic Devices
3
0
0
3
30
7.
SPH4051
Engineering Physics Lab
0
0
2
1
105
8.
SCY4051
Engineering Chemistry Lab
0
0
2
1
105
9.
SEC4053
Electronic Devices Lab
0
0
4
2
110
THEORY
1.
COURSE CODE
PRACTICAL
TOTAL CREDITS
23
SEMESTER 2
Sl.No.
COURSE TITLE
L
T
P
C
PAGE No.
SHS1101 /
SCH1101
English for Science and Technology /
Environmental Science and Engineering
3
3
0
0
0
0
3
3
1
20
2.
SMT1105
Engineering Mathematics - II
3
1
0
4
3
3.
SPH1102 /
SPH 1103 /
SPH 1104
Physics of Electronic Devices /
Engineering Physics /
Applied Biophysics
3
3
3
0
0
0
0
0
0
3
3
3
12
13
14
4.
SCS1202
Object Oriented Programming
3
0
0
3
23
5.
SEE1105
Electrical Technology
3
0
0
3
65
6.
SCY1102 /
SCY1103 /
SCY1104 /
SCY1105
Chemistry of Electronic Materials /
Chemistry of Industrial Materials /
Bio Organic Chemistry /
Physical Chemistry
3
3
3
3
0
0
0
0
0
0
0
0
3
3
3
3
16
17
18
19
7.
SCS4103
Programming in C & C++ Lab
0
0
4
2
107
8.
SEE4051
Electrical Engineering Lab
0
0
4
2
127
THEORY
1.
COURSE CODE
PRACTICAL
TOTAL CREDITS
23
L - LECTURE HOURS, T – TUTORIAL HOURS, P – PRACTICAL HOURS, C – CREDITS
B.E. / B. Tech REGULAR
xxxi
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
SEMESTER 3
Sl. No.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
THEORY
1.
SMT1201
Engineering Mathematics - III
3
1
0
4
4
2.
SEC1205
Electronic Circuits – I
3
0
0
3
35
3.
SEC1207
Digital Logic Circuits
3
0
0
3
37
4.
SEC1208
Signals and Systems
3
0
0
3
38
5.
SEE1107
Electrical Circuits and Network Analysis
3
1
0
4
67
6.
SIC1203
Measurements and Instrumentation
3
0
0
3
88
7.
SEC4060
Electronic Circuits – I Lab
0
0
4
2
114
8.
SEC4057
Networks and Instrumentation Lab
0
0
4
2
112
PRACTICAL
TOTAL CREDITS
24
SEMESTER 4
Sl. No.
THEORY
1.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
SMT1204 /
SMT1206 /
SMT1207 /
SMT1208 /
SMT1209
Engineering Mathematics – IV /
Number Theory and Linear Algebra /
Graph Theory /
Applied Statistics /
Foundations of Mathematics
3
3
3
3
3
1
1
1
1
1
0
0
0
0
0
4
4
4
4
4
5
6
7
8
9
2.
SEC1201
Microprocessors and Microcontrollers
3
0
0
3
31
3.
SEC1206
Electronic Circuits – II
3
0
0
3
36
4.
SEC1209
Analog Communications
3
0
0
3
39
5.
SEC1302
Analog Integrated Circuits
3
0
0
3
43
6.
SEE1202
Electromagnetic Theory
3
0
0
3
70
7.
SEC4061
Electronic Circuits – II Lab
0
0
4
2
114
8.
SEC4056
Communication Lab
0
0
4
2
112
9.
S25PT1
Professional Training – 1
0
0
0
5
PRACTICAL
TOTAL CREDITS
B.E. / B. Tech REGULAR
xxxii
28
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
SEMESTER 5
Sl. No.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
THEORY
1.
SEC1307
Embedded Processors
3
0
0
3
47
2.
SEC1313
Digital Communications
3
0
0
3
51
3.
SEC1314
Digital Signal Processing
3
1
0
4
52
4.
SEE1203
Control Systems
3
1
0
4
71
5.
SEC1210
Transmission Lines and Waveguides
3
0
0
3
40
6.
SEC1322
Cryptography and Network Security
3
0
0
3
59
7.
SEC4066
Microcontrollers Lab
0
0
4
2
117
8.
SEC4069
Signal Processing Lab
0
0
4
2
118
PRACTICAL
TOTAL CREDITS
24
SEMESTER 6
Sl. No.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
THEORY
1.
SEC1301
Antennas and Wave Propagation
3
0
0
3
42
2.
SEC1316
CMOS VLSI Design
3
0
0
3
54
3.
SEC1306
Data Communication and Networking
3
0
0
3
46
4.
SEC1318
Information Theory and Coding
3
1
0
4
56
5.
SEC1311
Satellite Communications
3
0
0
3
50
Elective – 1
3
0
0
3
6.
PRACTICAL
7.
SEC4070
VLSI Programming Lab
0
0
4
2
119
8.
SEC4064
Communication Networking Lab
0
0
4
2
116
9.
S25PT2
Professional Training – 2
0
0
0
5
TOTAL CREDITS
B.E. / B. Tech REGULAR
xxxiii
28
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
SEMESTER 7
Sl. No.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
THEORY
1.
SEC1403
Optical Communications
3
0
0
3
61
2.
SEC1405
RF and Microwave Engineering
3
0
0
3
63
3.
Elective – 2
3
0
0
3
4.
Elective – 3
3
0
0
3
PRACTICAL
5.
SEC4075
Microwave Engineering and Optical Communication Lab
0
0
4
2
121
6.
SEC4073
Matlab Programming Lab
0
0
4
2
120
7.
Project Work (Phase 1)
TOTAL CREDITS
16
SEMESTER 8
Sl. No.
COURSE CODE
COURSE TITLE
L
T
P
C
PAGE No.
THEORY
1.
SEC1404
Wireless Communications
3
0
0
3
62
2.
SBA1101
Principle of Management and Professional Ethics
3
0
0
3
28
Elective – 4
3
0
0
3
Project Work (Phase 1 & 2)
0
0
30
15
3.
PRACTICAL
4.
S25PROJ
TOTAL CREDITS : 24
TOTAL CREDITS FOR THE PROGRAM : 190
B.E. / B. Tech REGULAR
xxxiv
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTIVE COURSES (GROUP A)
Sl. No.
COURSE CODE
1.
SEC1320
2.
COURSE TITLE
L
T
P
C
PAGE No.
Embedded Systems
3
0
0
3
57
SEC1321
Telecommunication Systems and Services
3
0
0
3
58
3.
SEC1606
Digital Image Processing
3
0
0
3
141
4.
SEC1614
Mobile Communications
3
0
0
3
148
5.
SEC1618
Programming in Matlab
3
0
0
3
152
6.
SEC1619
Radar and Navigational Aids
3
0
0
3
153
7.
SEC1620
Speech Processing
3
0
0
3
154
8.
SEC1621
Spread Spectrum Communications
3
0
0
3
155
9.
SIC1310
Theory of Robotics
3
0
0
3
97
10.
SIC1311
Biomedical Instrumentation
3
0
0
3
98
L
T
P
C
PAGE No.
ELECTIVE COURSES (GROUP B)
Sl. No.
COURSE CODE
1.
SEC1603
Automatic Speech Recognition
3
0
0
3
138
2.
SEC1604
Biomedical Signal and Image Processing
3
0
0
3
139
3.
SEC1608
VLSI Broadband Communication Circuits
3
0
0
3
142
4.
SEC1609
Fundamentals of Fuzzy Logic and Artificial Neural Networks 3
0
0
3
143
5.
SEC1610
High Speed Communication Circuits
3
0
0
3
144
6.
SEC1613
Mobile Adhoc Networks
3
0
0
3
147
7.
SEC1615
Nanoelectronics
3
0
0
3
149
8.
SEC1616
Pattern Recognition and Image Vision
3
0
0
3
150
9.
SEC1617
Advanced Electronic Test Engineering
3
0
0
3
151
10.
SIC1605
Fiber Optics and Laser Instrumentation
3
0
0
3
169
B.E. / B. Tech REGULAR
COURSE TITLE
xxxv
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SHS1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGLISH FOR SCIENCE AND TECHNOLOGY
(Common to ALL Branches of B.E/B.Tech)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To equip the learners with English communicative skills to handle the present and future needs by exposing
them to situations and tasks in the areas of LSRW, genre and register related to EST by following content based
teaching.
UNIT 1
BASIC COMMUNICATION
9 Hrs.
Listening for specific information, Self Introduction, Reading Comprehension, Kinds of Sentences, Parts of Speech,
Tenses & its Types, Impersonal Passive, Elements of Effective Writing, Letter Writing, Concord, Prefixes & Suffixes
UNIT 2
NUANCES OF EST
9 Hrs.
Listening for inference, Describing a process, Cloze Reading and its types, Transcoding - Encoding &
Decoding, Flow Chart, Bar chart, Pie Chart, Tabular Column, Tree Diagram, Technical Definitions, Connectives &
Discourse Markers, Word Association- connotations
UNIT 3
EST NOW AND THEN
9 Hrs.
Listening and Note taking, Role-play, Reading and interpreting visual material (pictures/newspapers) Essay Writing
- Note Making - WH questions - Question Tags - Types of sentences - Compound Nouns, Technical Definitions.
UNIT 4
APPLICATIONS OF EST
9 Hrs.
Listening and Classifying information, Group discussion, Reading and identifying the topic sentence, - Writing
a Project Proposal, Recommendations and Instructions - Manual Writing, Use of abbreviations and acronyms, Editing
(Spelling, Grammar, Punctuation) Idioms & Phrases.
UNIT 5
PREPARING FOR FUTURE
9 Hrs.
Listening and summarizing, Making presentations on given topics - Giving impromptu talks Reading and
Summarizing, E-mail writing, Rearranging the Jumbled sentences Reported Speech, Homophones/Homonyms,
Creative Writing & Poster making using similes/metaphors.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Sangeetha Sharma & Meenakshi Raman, Technical Communication: Principles and Practice. Oxford University Press, New
Delhi, 2011.
2. Sanjay Kumar & Pushp Lata, Communication Skills, 2nd Edition, Oxford University Press, New Delhi, 2011.
3. Nira Konar, Communication Skills for Professionals, PHI Publishers, Eastern Economy Edition, New Delhi, 2011.
4. Sharon J Gerson & Steven M Gerson, Technical Communication: Process and Product, 8th Edition, Orient Longman, 2013.
5. Tyagi Kavita and Misra Padma, Basic Technical Communication PHI Publishers, Eastern Economy Edition, New Delhi, 2011.
6. Nagini,P S et al. Excellence Through communication, Shri Jai Publications, Chennai, 2005.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
Exam Duration : 3 Hrs.
PART A :
10 questions of 2 marks each - No choice; with equal distribution to each unit -(10 x 2)
20 Marks
(Task types can include Multiple choice, open ended, gap filling, completion and
rewriting the sentences, matching type etc.)
PART B :
2 questions from each unit with internal choice; each carrying 12 marks (5 X 10)
60 Marks
(Questions types should testing vocabulary, grammar, reading and writing with equal
distribution to all. For example Reading Comprehension type can include skimming,
scanning, comprehensive with evaluative, inferential and hypothetical question/ fixed type
questions or cloze exercise , Academic paragraph writing based on Flow chart, Tree
diagram, Bar diagram, Table and Pie chart to describe process, comparative and contrast,
differentiate , Formal letter writing - Application for a Job & Resume Preparation/ EmailLetter inviting a dignitary-Accepting/Declining (or) Rearranging the jumbled sentences in
the right order, (or) Requesting for Practical Training/ Letter to the Editor. Writing a Project
Proposal / Project Report (or) Essay Writing- Writing an Essay on a given topic, Summary
writing or Making notes in the standard format with title. Grammar Rearranging the
jumbled sentences in the right order or editing the paragraph for errors based on syllabus)
B. E. / B. Tech REGULAR
BACK TO1TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCH1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENVIRONMENTAL SCIENCE AND ENGINEERING
L
T
P
(Common to ALL Branches of B.E/ B. Tech.)
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To impart knowledge on the issues related to environment and to emphasize the importance of a clean
environment
UNIT 1
INTRODUCTION TO ENVIRONMENTAL STUDIES AND NATURAL RESOURCES
10 Hrs.
Definition, scope and importance, need for public awareness, forest resources: use and over-exploitation,
deforestation, case studies. Timber extraction, mining, dams, 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 ground water, 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.
UNIT 2
ECOSYSTEMS AND BIODIVERSITY
10 Hrs.
Concept 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 exsitu conservation of biodiversity.
UNIT 3
ENVIRONMENTAL POLLUTION
9 Hrs.
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. Solid 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.
UNIT 4
SOCIAL ISSUES AND THE ENVIRONMENT
8 Hrs.
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 protection 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, Key initiatives of Rio declaration, Vienna convention, Kyoto protocol, Johannesburg summit and public
awareness.
UNIT 5
HUMAN POPULATION AND THE ENVIRONMENT
8 Hrs.
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
B. E. / B. Tech REGULAR
BACK TO20
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING MATHEMATICS - I
(Common to ALL branches except BIO Groups)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
The ability to identify, reflect upon, evaluate and apply different types of information and knowledge to form
independent judgments. Analytical, logical thinking and conclusions based on quantitative information will be the
main objective of learning this subject.
UNIT 1
MATRICES
12 Hrs.
Characteristic equation of a square matrix - Eigen values and Eigen vectors of a real matrix- properties of
Eigen values- Cayley-Hamilton theorem (without proof) - verification , finding inverse and power of a matrix Diagonalisation of a matrix using orthogonal transformation - Reduction of quadratic form to canonical form by
orthogonal transformation.
UNIT 2
GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS
13 Hrs.
Curvature -centre, radius and circle of curvature in Cartesian co- ordinates - Evolutes - Envelope of family of
curves with one and two parameters. - Evolute as envelope of normals.
UNIT 3
FUNCTIONS OF SEVERAL VARIABLES
11 Hrs.
Introduction to partial derivatives - Jacobians - Taylor’s expansion - Maxima and minima of functions of two
variables - Constrained maxima and minima using Lagrange’s multiplier method.
UNIT 4
ORDINARY DIFFERENTIAL EQUATIONS
11 Hrs.
First order exact differential equations - Second order linear differential equations with constant coefficients Particular Integral for eax, sinax or cosax, xn, xneax, eaxsinbx or eaxcosbx - Equations reducible to linear equations with
constant co-efficients using x = et - Simultaneous first order linear equations with constant coefficients - Method of
Variation of Parameters
UNIT 5
THREE DIMENSIONAL ANALYTICAL GEOMETRY
13 Hrs.
Direction cosines and ratios - Plane - Plane through intersection of two planes - Straight Line - Coplanar lines
- Planes and Straight lines - Shortest distance between two Skew lines - Sphere -Plane section of a sphere - Great
Circle.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Veerarajan T, Engineering Mathematics for First Year, II Edition, Tata McGraw Hill Publishers, 2008.
Kandaswamy P & co., Engineering Mathematics for First Year, IX revised edition, S.Chand & Co Pub., 2010.
Moorthy M.B.K, Senthilvadivu K ,Engineering mathematics-I, Revised Edition, VRB Pub., 2010,
Arumugam S & co. Engineering Mathematics Vol-I , Revised Edition, SciTech Pub., 2010
Venkataraman M.K., Engineering Mathematics - First Year (2nd edition), National Publishing Co., 2000.
Kreyszig. E, Advanced Engineering Mathematics, 10th edition, John Wiley & Sons, Singapore, 2012.
Grewal B. S, Higher Engineering Mathematics, 41th Edition, Khanna Publications, Delhi,2011.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO2TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SPH1101
FACULTY OF ELECTRICAL AND ELECTRONICS
PHYSICS OF ENGINEERING MATERIALS
(Common to ALL Branches of B.E/ B. Tech.)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To expose the students to different classes of materials and present the fundamentals of materials science; to
develop the understanding of the behaviour of materials, their properties and structures; to facilitate selection of
suitable material for particular engineering application.
UNIT 1
CHARACTERIZATION OF MATERIALS
9 Hrs.
Introduction, Structural characterization - X-ray diffraction, Bragg’s law, Determination of crystal structure powder X-ray diffractometer (Debye Scherrer camera) and Single crystal XRD with principle, construction and
working, Microstructural characterization - Introduction, electromagnetic lens system, Determination of surface
morphology by Scanning Electron Microscope (SEM), Transmission Electron Microscope (TEM) and Atomic Force
Microscope (AFM) with principle, construction and working. Microhardness testing -Determination of microhardness
by Vickers hardness test, Knoop hardness test and Nanohardness test with principle, construction, and working.
UNIT 2
MAGNETIC MATERIALS
9 Hrs.
Introduction, Origin of magnetic moment - orbital, spin and nuclear magnetic moments; Bohr magneton;
Classification of magnetic materials based on spin- dia, para, ferro, antiferro and ferri- Curie temperature, Neel
temperature.; Magnetic domains- Domain theory of Ferro magnetism (Weiss theory) - Observation of domain (bitter
powder pattern), Energies involved in domain formation - magnetostatic energy, anisotropic energy, magnetostrictive
energy and domain wall energy; Hysteresis Curve -based on domain theory; Types of magnetic materials - soft and
hard magnetic materials; Magnetic bubbles - formation and propagation of magnetic bubbles-T-bar, read/write
operation.
UNIT 3
SUPERCONDUCTING MATERIALS
9 Hrs.
Introduction to superconductivity- Properties of superconductor - electrical resistance, Meissner Effect, effect
of heavy magnetic field, effect of heavy current (Silsbee’s rule), effect of high pressure , isotope effect, entropy,
specific heat capacity, energy gap, London Penetration depth, Coherence Length, Ginzburg Landau Parameter, Flux
Quantization and thermal conductivity. Theory of superconductivity - London Theory (Macroscopic), Bardeen, Cooper
and Schrieffer Theory (Microscopic) - explanation based on formation of Cooper pairs and existence of energy gap.
Types of superconductors - Type I and Type II superconductors, D.C. and A.C Josephson Effect, I-V Characteristics
and applications of Josephson junction. Applications - cryotron, magnetic levitation train and SQUIDS.
UNIT 4
OPTICAL MATERIALS
9 Hrs.
Introduction, refractive index, absorption and dispersion, reflections. Classification of optical materials,
absorption in metals, semiconductors and insulators (dielectrics), Excitons- Frenkel and Mott-Wannier excitons, Point
detects -Frankel and Schottky defects, Traps - trapping and recombination centres - Colour Centres - types - FCentre, R-Centre, V-Centre (V1 and V2), M -Centre. Luminescence - Principle and classification - Mechanism and
working of Photo luminescence (Fluorescence and Phosphorescence).
UNIT 5
SEMICONDUCTING MATERIALS
9 Hrs.
Introduction - Band theory (qualitative), types of semiconductors- intrinsic semiconductor - carrier
concentration and Fermi level in intrinsic semiconductor - extrinsic semiconductor - carrier concentration and Fermi
level in extrinsic semiconductor (p type and n type) - Experimental determination Band gap of semiconductor -Hall
Effect - experimental determination of Hall Voltage, Applications of Hall effect.
Max. 45 Hours
B. E. / B. Tech REGULAR
BACK TO10
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCY1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING CHEMISTRY
(Common to ALL Branches of B.E/ B. Tech.)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the properties and various synthetic methods for the preparation of nanomaterials and their
applications.
To know about the quality parameters of water and methods to estimate the toxic elements and softening methods.
To give an overview about types of batteries and fuel cells, corrosion mechanisms and preventive methods.
To have a basic idea about polymers and various moulding techniques.
UNIT 1
SYNTHESIS OF NANOMATERIALS
9 Hrs.
Introduction: Nanomaterials: Definition - Classification based on dimensions - Size dependent properties.
Types of nanomaterials: Nanoparticles: Synthesis by chemical reduction method. Nanoporous materials: Synthesis
by sol-gel method. Nanowires: Synthesis by VLS mechanism. Carbon Nanotubes (CNTs): Single walled and multi
walled nanotubes - Mechanical and electrical properties of CNTs - Applications of CNTs - Synthesis of CNTs by
electric arc discharge method and laser ablation method.
UNIT 2
WATER TECHNOLOGY
9 Hrs.
Introduction: Water quality parameters - Contamination of water by arsenic, lead, fluoride, mercury and their
removal. Hardness: Types - Expression - Units. Estimation of hardness of water by EDTA method - Problems.
Estimation of iron, calcium and magnesium: AAS method. Water softening: Zeolite process - Demineralization
process. Desalination: Reverse osmosis - Electrodialysis.
UNIT 3
ELECTROCHEMICAL POWER SOURCES
9 Hrs.
Electrochemistry: Galvanic cell - Electrochemical cell representation - EMF series and its significance.
Batteries: Terminology - Lead-acid accumulator - Nickel-cadmium batteries. Lithium batteries: Li/SOCl2 cell - Li/I2 cell
- Lithium ion batteries. Fuel Cells: Hydrogen-oxygen fuel cells - Solid oxide fuel cell (SOFC).
UNIT 4
CORROSION SCIENCE
9 Hrs.
Introduction: Definition. Types: Dry corrosion: Mechanism - Pilling-Bedworth rule - Wet Corrosion:
Mechanism. Types: Galvanic corrosion and differential aeration cell corrosion. Galvanic series and its significance.
Factors influencing corrosion. Corrosion prevention: Material selection and design - Cathodic protection. Protective
coatings: Paints - Constituents. Mechanism of drying of drying oils.
UNIT 5
POLYMER CHEMISTRY
9 Hrs.
Introduction to polymers: Nomenclature - Functionality. Types of polymerization. Mechanism of
polymerization: Free radical mechanism - Cationic mechanism - Anionic mechanism. Plastics: Types Thermoplastics and thermosetting plastics. Properties: Strength - Crystalline and amorphous state - Average
molecular weight - Polydispersity. Compounding of plastics. Moulding of plastics: Compression moulding - Injection
moulding - Extrusion moulding- Introduction to conducting polymers.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Jain P.C. and Monica Jain, Engineering Chemistry, 15th Edition Dhanpat Rai Publishing Co., 2009.
Dara S.S., Text Book of Engineering Chemistry, S. Chand & Co, 2008.
Sheik Mideen A., Engineering Chemistry (I & II),13th Edition, Shruthi Publishers, 2010.
Kuriakose J.C. and Rajaram J., Chemistry in Engineering and Technology". Vol.1 & 2, 5th reprint, Tata McGraw Hill
Publishing Company (P) Ltd., 2010.
5. Sharma B.K., Engineering Chemistry, 2nd Edition, Krishna Prakasam Media (P) Ltd., 2001.
6. Mars G Fontana, Corrosion Engineering, 3rd Edition, Tata McGraw Hill, 2008.
7. David Linden andThomas B Reddy, Handbook of Batteries, 4th Edition, McGraw-Hill, 2010.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks.
(Out of 80 marks, maximum of 10% problems may be asked)
B. E. / B. Tech REGULAR
BACK TO15
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCS1102
FACULTY OF ELECTRICAL AND ELECTRONICS
FUNDAMENTALS OF PROGRAMMING
(Common to ALL Branches of B.E/ B. Tech.)
L
T
P
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the basic programming concepts.
To understand the concept of arrays, functions and pointers.
To gain knowledge about memory management.
UNIT 1
INTRODUCTION
9 Hrs.
Introduction: Algorithms, Pseudocodes & flowcharts, Overview of C, features of C, Structure of C program,
Compilation & execution of C program. Identifiers, variables, expression, keywords, data types, constants, scope and
life of variables, and local and global variables. Operators: arithmetic, logical, relational, conditional and bitwise
operators. Special operators: sizeof () & comma (,) operator. Precedence and associativity of operators & Type
conversion in expressions.
Basic input/output and library functions: Single character input/output i.e. getch(), getchar(), getche() &
putchar(). Formatted input/output: printf() and scanf().
UNIT 2
CONTROL STRUCTURES AND FUNCTIONS
9 Hrs.
Control structures: Conditional control (if, nested if, switch case), Loop control (for, while, do while) and
Unconditional control structures (goto)
Functions: The Need of a function, user defined and library function, prototype of a function, calling of a
function, function argument, passing arguments to function, return values, nesting of function, recursion.
Library Functions: Concepts, mathematical and string functions.
UNIT 3
ARRAYS AND STRINGS
9 Hrs.
Arrays: Single and multidimensional arrays, array declaration and initialization of arrays, array as function
arguments.
Strings: Declaration, initialization and string handling functions.
Structure and Union: Defining structure, declaration of structure variable, accessing structure members,
nested structures, array of structures, structure assignment, structure as function argument, function that returns
structure, union.
UNIT 4
STORAGE CLASSES AND POINTERS
9 Hrs.
Storage class specifier - auto, extern, static & register, Pointers: The ‘&’ and ’*’ operators, pointers
expressions, pointers vs arrays
UNIT 5
MEMORY MANAGEMENT
9 Hrs.
Pointer to functions, Function returning pointers
Direct Memory Access functions: malloc(), calloc(), sizeof(), free() and realloc(). Preprocessor directives.
Command line arguments
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Balaguruswami. E., “Programming in C”, TMH Publications,1997
Yashavant P. Kanetkar., “Let us C”, Fifth Edition
Gottfried , “Programming with C”, Schaums Outline Series, TMH publications,1997
Mahapatra , “Thinking in C”, PHI publications,2nd Edition.
Subburaj . R , “Programming in C” , Vikas Publishing, First Edition, 2000
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO22
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC DEVICES
(For ECE, EIE, E&C, EEE, ETCE, CSE and IT)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the students with the construction, theory and operation of the basic electronic devices such as
PN junction diode, Bipolar and Field effect Transistors, special semiconductor devices and oscilloscopes.
On completion of this course the student will recognize
Acquire knowledge about the semiconductor diodes
Acquire knowledge about Transistors
Acquire knowledge about Oscilloscopes
UNIT 1
SEMICONDUCTOR DIODES
9 Hrs.
Intrinsic and Extrinsic semiconductor - Charge density, Mobility and Conductivity in Semiconductor, Drift and
diffusion current, Continuity equation, PN junction - Energy band diagram of PN junction, Current components in PN
junction, Junction capacitance - Application of diode - Diode switch, Clipper, Clamper and Voltage multipliers - Zener
diode - Zener voltage regulators.
UNIT 2
BIPOLAR JUNCTION TRANSISTOR
9 Hrs.
Construction and Operation of NPN and PNP transistor - Current components in a transistor, Eber moll’s
Equation-Characteristics of CE,CB,CC configuration - Base width modulation, Transistor breakdown, Transistor
biasing - Bias Stabilization and Compensation, Thermal runaway problems, Heat sinks, Switching characteristics.
UNIT 3
FIELD EFFECT TRANSISTOR
9 Hrs.
JFET- Construction, Operation and Characteristics, Expression for pinch off voltage and drain current MOSFET- Enhancement and Depletion mode operation and characteristics, Handling precautions of MOSFET, Gate
capacitance- FET as VVR - Comparison of MOSFET and JFET - Comparison of BJT and JFET.
UNIT 4
SPECIAL SEMICONDUCTOR DEVICES
9 Hrs.
SCR- UJT- Diac- Triac - Schotty barrier diode-Varactor diode - PIN diode - Tunnel diode - Gunn diode - Laser
diode-Operation, Characteristics and Applications.
UNIT 5
PRINCIPLES OF CRT
9 Hrs.
Force on charged particle in electric field and magnetic field - Motion of charged particle in electric and
magnetic field -Oscilloscopes-Features and uses, Types and models-CRO,Dual beam oscilloscope, Analog
Oscilloscope, Digital oscilloscope Principles of CRT - Deflection and focusing of electron beam in CRT -Orientation of
electric and magnetic field in CRT - Applications of CRO.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
8.
9.
Millman and Halkias, “Electronic devices and circuits”, 2nd Edition, McGraw Hill Publication, 2007.
G.K.Mithal, “Basic Electronic Devices and circuits”, 2nd Edition, G.K.Publishers Pvt. Ltd., 1998.__
David Bell, “Fundamentals of Electronic Devices and Circuits”, 5th Edition, Oxford University Press 2008.
Yang, “Fundamentals of Semiconductor devices”, McGraw Hill International Edition, 1978.
Theodre. F. Boghert, ‘Electronic Devices & Circuits’, Pearson Education, VI Edition, 2003.
Allen Mottershead, ‘Electronic Devices and Circuits - An Introduction’, Prentice Hall of India Private Limited, New Delhi, 2003.
Ben G Streetman and Sanjay Banerjee, “Solid State Electronic Devices”, 6th Edition, Pearson Education, 2005.
Roody and Coolen, “Electronic Communications”, 4th Edition, Pearson Education, Reprint 2007.
A.S. Sedra and K.C. Smith, “Microelectronic Circuits”, Saunder's College Publishing
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO30
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SPH4051
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING PHYSICS LAB
L
T
P
Credit
Total Marks
(Common for ALL branches of B.E / B.Tech)
(First Semester or Second Semester)
0
0
2
1
50
SUGGESTED LIST OF EXPERIMENTS (ANY SIX)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Quincke’s method – Determination of magnetic susceptibility of a liquid.
Semiconductor diode - Determination of the forbidden energy gap.
Optical Fibre – Determination of Numerical aperture and attenuation loss.
Torsional pendulum – Determination of Moment of inertia and Rigidity modulus of the wire.
Young’s modulus – non-uniform bending- Determination of Young’s modulus of the material of beam.
Spectrometer – Hallow prism – Determination of Refractive index of a liquid.
Copper Voltameter – determination of electrochemical equivalent of copper.
Lees Disc – Determination of thermal conductivity of bad conductor.
LASER grating – Determination of wavelength of laser light.
Newton’s Rings – Determination of Radius of Curvature of convex lens.
SCY4051
ENGINEERING CHEMISTRY LAB
L
T
P
Credit
Total Marks
(Common to ALL Branches of First or
Second Semester B.E / B.Tech.)
0
0
2
1
50
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
Estimation of ferrous ion by potentiometric method.
Determination of pKa value of glycine using pH meter.
Estimation of mixture of acids by conductometric method,
Estimation of Nickel by using photocolorimeter.
Determination of viscosity of polymers by using Ostwald’s viscometer.
Estimation of total hardness of water sample by EDTA / AAS method.
SCS4101
PROGRAMMING IN C LAB
(For ALL BE/ B.Tech)
L
0
T
0
P
4
Credits Total Marks
2
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
Program to understand the basic data types and input/output functions.
Program for Looping and decision statements.
Program on Functions.
Program on Arrays.
Program on String Manipulations
Program on Structures and Union.
Program on Pointers.
Program to demonstrate the Command Line Arguments.
Program using Dynamic memory allocation.
Program to implement the Random Access in Files.
Program to implement math function.
Program to Implement sorting algorithms
Program to Implement searching algorithms
Programs to solve some of the Engineering applications.
B.E. / B. Tech REGULAR
BACK TO105
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SPH4051
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING PHYSICS LAB
L
T
P
Credit
Total Marks
(Common for ALL branches of B.E / B.Tech)
(First Semester or Second Semester)
0
0
2
1
50
SUGGESTED LIST OF EXPERIMENTS (ANY SIX)
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Quincke’s method – Determination of magnetic susceptibility of a liquid.
Semiconductor diode - Determination of the forbidden energy gap.
Optical Fibre – Determination of Numerical aperture and attenuation loss.
Torsional pendulum – Determination of Moment of inertia and Rigidity modulus of the wire.
Young’s modulus – non-uniform bending- Determination of Young’s modulus of the material of beam.
Spectrometer – Hallow prism – Determination of Refractive index of a liquid.
Copper Voltameter – determination of electrochemical equivalent of copper.
Lees Disc – Determination of thermal conductivity of bad conductor.
LASER grating – Determination of wavelength of laser light.
Newton’s Rings – Determination of Radius of Curvature of convex lens.
SCY4051
ENGINEERING CHEMISTRY LAB
L
T
P
Credit
Total Marks
(Common to ALL Branches of First or
Second Semester B.E / B.Tech.)
0
0
2
1
50
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
Estimation of ferrous ion by potentiometric method.
Determination of pKa value of glycine using pH meter.
Estimation of mixture of acids by conductometric method,
Estimation of Nickel by using photocolorimeter.
Determination of viscosity of polymers by using Ostwald’s viscometer.
Estimation of total hardness of water sample by EDTA / AAS method.
SCS4101
PROGRAMMING IN C LAB
(For ALL BE/ B.Tech)
L
0
T
0
P
4
Credits Total Marks
2
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
Program to understand the basic data types and input/output functions.
Program for Looping and decision statements.
Program on Functions.
Program on Arrays.
Program on String Manipulations
Program on Structures and Union.
Program on Pointers.
Program to demonstrate the Command Line Arguments.
Program using Dynamic memory allocation.
Program to implement the Random Access in Files.
Program to implement math function.
Program to Implement sorting algorithms
Program to Implement searching algorithms
Programs to solve some of the Engineering applications.
B.E. / B. Tech REGULAR
BACK TO105
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4053
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC DEVICES LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1. Study of circuit components and equipments (Component identification, Characteristics of Passive
Circuit elements, Color coding, checking diode, BJT, FET, study of CRO, Function Generator,
Multimeter, LCR meter).
2. Characteristics of Semiconductor diode and Zener diode
3. Characteristics of CE configuration (H-parameter determination)
4. Characteristics of CB configuration
5. Characteristics of JFET
6. Characteristics of CC configuration
7. Characteristics of SCR & UJT
8. Characteristics of DIAC & TRIAC
9. Characteristics of MOSFET
10. Characteristics of Tunnel diode
11. Characteristics of Photo transistor
12. Characteristics of LDR or LED/Photo detector-Optocoupling
13. Switching Characteristic of BJT
14. Clippers and Clampers
15. Voltage Multipliers
SEC4054
INTEGRATED CIRCUITS LAB
(For EEE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
ANALOG INTEGRATED CIRCUITS
1. Design and construct using IC741
a). Inverting
b). Non-inverting
c). Adder
d). Schmitt Trigger
e). Differentiator
2. Waveform Generators using IC741
a). Triangular wave generator
b). Square wave generator
c). Sine Wave generator
3. Design and construct PWM using IC 555 timer
4. Design a 3 bit DAC in R-2R ladder Configuration
5. Design, construct the filters using PSPICE
(a) Low pass filter
(b) High pass filter
(c) Band pass filter
(d) Band reject filter
B.E. / B. Tech REGULAR
BACK TO110
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SHS1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGLISH FOR SCIENCE AND TECHNOLOGY
(Common to ALL Branches of B.E/B.Tech)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To equip the learners with English communicative skills to handle the present and future needs by exposing
them to situations and tasks in the areas of LSRW, genre and register related to EST by following content based
teaching.
UNIT 1
BASIC COMMUNICATION
9 Hrs.
Listening for specific information, Self Introduction, Reading Comprehension, Kinds of Sentences, Parts of Speech,
Tenses & its Types, Impersonal Passive, Elements of Effective Writing, Letter Writing, Concord, Prefixes & Suffixes
UNIT 2
NUANCES OF EST
9 Hrs.
Listening for inference, Describing a process, Cloze Reading and its types, Transcoding - Encoding &
Decoding, Flow Chart, Bar chart, Pie Chart, Tabular Column, Tree Diagram, Technical Definitions, Connectives &
Discourse Markers, Word Association- connotations
UNIT 3
EST NOW AND THEN
9 Hrs.
Listening and Note taking, Role-play, Reading and interpreting visual material (pictures/newspapers) Essay Writing
- Note Making - WH questions - Question Tags - Types of sentences - Compound Nouns, Technical Definitions.
UNIT 4
APPLICATIONS OF EST
9 Hrs.
Listening and Classifying information, Group discussion, Reading and identifying the topic sentence, - Writing
a Project Proposal, Recommendations and Instructions - Manual Writing, Use of abbreviations and acronyms, Editing
(Spelling, Grammar, Punctuation) Idioms & Phrases.
UNIT 5
PREPARING FOR FUTURE
9 Hrs.
Listening and summarizing, Making presentations on given topics - Giving impromptu talks Reading and
Summarizing, E-mail writing, Rearranging the Jumbled sentences Reported Speech, Homophones/Homonyms,
Creative Writing & Poster making using similes/metaphors.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Sangeetha Sharma & Meenakshi Raman, Technical Communication: Principles and Practice. Oxford University Press, New
Delhi, 2011.
2. Sanjay Kumar & Pushp Lata, Communication Skills, 2nd Edition, Oxford University Press, New Delhi, 2011.
3. Nira Konar, Communication Skills for Professionals, PHI Publishers, Eastern Economy Edition, New Delhi, 2011.
4. Sharon J Gerson & Steven M Gerson, Technical Communication: Process and Product, 8th Edition, Orient Longman, 2013.
5. Tyagi Kavita and Misra Padma, Basic Technical Communication PHI Publishers, Eastern Economy Edition, New Delhi, 2011.
6. Nagini,P S et al. Excellence Through communication, Shri Jai Publications, Chennai, 2005.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
Exam Duration : 3 Hrs.
PART A :
10 questions of 2 marks each - No choice; with equal distribution to each unit -(10 x 2)
20 Marks
(Task types can include Multiple choice, open ended, gap filling, completion and
rewriting the sentences, matching type etc.)
PART B :
2 questions from each unit with internal choice; each carrying 12 marks (5 X 10)
60 Marks
(Questions types should testing vocabulary, grammar, reading and writing with equal
distribution to all. For example Reading Comprehension type can include skimming,
scanning, comprehensive with evaluative, inferential and hypothetical question/ fixed type
questions or cloze exercise , Academic paragraph writing based on Flow chart, Tree
diagram, Bar diagram, Table and Pie chart to describe process, comparative and contrast,
differentiate , Formal letter writing - Application for a Job & Resume Preparation/ EmailLetter inviting a dignitary-Accepting/Declining (or) Rearranging the jumbled sentences in
the right order, (or) Requesting for Practical Training/ Letter to the Editor. Writing a Project
Proposal / Project Report (or) Essay Writing- Writing an Essay on a given topic, Summary
writing or Making notes in the standard format with title. Grammar Rearranging the
jumbled sentences in the right order or editing the paragraph for errors based on syllabus)
B. E. / B. Tech REGULAR
BACK TO1TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCH1101
FACULTY OF ELECTRICAL AND ELECTRONICS
ENVIRONMENTAL SCIENCE AND ENGINEERING
L
T
P
(Common to ALL Branches of B.E/ B. Tech.)
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To impart knowledge on the issues related to environment and to emphasize the importance of a clean
environment
UNIT 1
INTRODUCTION TO ENVIRONMENTAL STUDIES AND NATURAL RESOURCES
10 Hrs.
Definition, scope and importance, need for public awareness, forest resources: use and over-exploitation,
deforestation, case studies. Timber extraction, mining, dams, 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 ground water, 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.
UNIT 2
ECOSYSTEMS AND BIODIVERSITY
10 Hrs.
Concept 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 exsitu conservation of biodiversity.
UNIT 3
ENVIRONMENTAL POLLUTION
9 Hrs.
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. Solid 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.
UNIT 4
SOCIAL ISSUES AND THE ENVIRONMENT
8 Hrs.
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 protection 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, Key initiatives of Rio declaration, Vienna convention, Kyoto protocol, Johannesburg summit and public
awareness.
UNIT 5
HUMAN POPULATION AND THE ENVIRONMENT
8 Hrs.
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
B. E. / B. Tech REGULAR
BACK TO20
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1105
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING MATHEMATICS - II
(Common to ALL branches except BIO Groups)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
Analytical, logical thinking and conclusions based on quantitative information will be the main objective of
learning this subject.
UNIT 1
MULTIPLE INTEGRALS
13 Hrs.
Double integrals in Cartesian and polar co-ordinates - Change the order of integration - Change of variables
from Cartesian to polar coordinates- Area of plane curves using double integrals- Triple integrals - Volume using
triple integrals in Cartesian co-ordinates (simple applications).
UNIT 2
BETA AND GAMMA INTEGRALS
11 Hrs.
Properties of definite Integrals and problems - Beta and Gamma integrals - Relation between them Properties of Beta and Gamma integrals with proofs - Evaluation of definite integrals in terms of Beta and Gamma
function - Simple applications (evaluation of double integrals).
UNIT 3
VECTOR CALCULUS
12 Hrs.
Gradient, divergence and curl - Directional derivative - Irrotational and Solenoidal vector fields - Vector
Integration - Simple problems on line, surface and volume Integrals, Green’s theorem in a plane, Gauss divergence
theorem and Stoke’s theorem (without proofs)- Simple applications involving cubes and rectangular parallelopipeds.
UNIT 4
LAPLACE TRANSFORMS
14 Hrs.
Laplace transform - Transforms of standard functions - properties- Transforms of derivatives and integrals Transforms of the type eatf(t), tf(t), f(t)/t - Transform of periodic functions - Transform of unit step function and impulse
function - Inverse Laplace transforms - Convolution theorem - Initial and final value theorems
UNIT 5
APPLICATIONS OF LAPLACE TRANSFORM
10 Hrs.
Llinear ordinary differential equation with constant co-efficients - Integral equations - Integral equations of
convolution type -simultaneous linear differential equations with constant co-efficients.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Kreyszig. E, Advanced Engineering Mathematics, 10th edition, John Wiley & Sons, Singapore, 2012.
Grewal B. S, Higher Engineering Mathematics, 41th Edition, Khanna Publications, Delhi,2011.
Bali N.P and Manish Goyal, A Text book of Engineering Mathematics, Eigth Edition, Laxmi Publications Pvt Ltd., 2011.
Venkatraman M.K, Engineering Mathematics, National Publishing Company, 2000.
NarayananS., Manicavachagom Pillay T.K., and Ramanaiah G., Advanced Mathematics for Engineering students, Volume I,
2nd Edition, S. Viswanathan Printers and Publishers, 1992.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO3TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SPH1102
FACULTY OF ELECTRICAL AND ELECTRONICS
PHYSICS OF ELECTRONIC DEVICES
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To provide the students the fundamental knowledge in fibre optics, digital electronics and devices such as
sensors devices, display devices and nano-devices to enable understanding of its applications.
UNIT 1
FIBRE OPTICS
9 Hrs.
Introduction - principle of optical fibre transmission- fibre geometry - acceptance angle and numerical aperture
- derivation, types of rays - Types of optical fibres -.Optical fibre materials - plastic and glass fibres- Manufacturing
processes - Double crucible technique and vapour phase deposition technique. Transmission characteristics of
optical fibres - attenuation and distortion. Fibre splicing - fusion and mechanical splicing. Fibre connectors - butt joint
and expanded beam connectors. Optical fibre communication system (block diagram) - advantages and its general
applications.
UNIT 2
DIGITAL ELECTRONICS
9 Hrs.
Number systems - Binary, decimal, Hexadecimal and Octadecimal - Conversion from one number system to
another. Binary addition, Subtraction - Subtraction by 1’s & 2’s complement, BCD addition, Excess 3 code and gray
code, ASCII code.
UNIT 3
SENSOR DEVICES
9 Hrs.
Introduction - voltage and current sensors, Light Dependent Resistor (LDR), photodiode, strain gauges,
thermistor, pressure sensor - Bourdon tube, temperature sensor - thermocouple, magnetic sensor - Hall effect
sensor, nanosensors and their applications.
UNIT 4
DISPLAY DEVICES
9 Hrs.
Introduction, luminescence, electroluminescence, active display devices, cathode ray tube, light emitting
diode, LED materials, passive display devices, liquid crystal displays-working, comparison LED and LCD, plasma
display, dynamic scattering display, Touch screen.
UNIT 5
NANO DEVICES
9 Hrs.
Definition, Fabrication-Top down approach and bottom up approach. Nanomagnets - Particulate
Nanomagnets, Geometrical Nanomagnets, Magneto Resistance - Ordinary Magneto Resistance, Giant Magneto
Resistance, Tunneling Magneto Resistance, Injection Laser - Quantum Cascade Laser - Optical Memories and
Coulomb Blockade Devices.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Gerd Keiser, Optical fibre communication, 4th Edition, Tata Mc Graw Hill, 2011.
2. John M. Senior, Optical fibre communications - Principle and Practice, 2nd Edition, Pearson Education, 2006.
3. Franz J.H, Jain V.K, Optical communication - Components and Systems, 1st Edition, Narosa Publications, 2001.
4. Rajagopal.K, Text book of Engineering Physics, Part-I, 1st Edition, Prentice Hall of India, 2008
5. Leach, Malvino and Goutam Saha, Digital Principles and applications, 7th Edition, McGraw Hill, 2011.
6. William H. Gothman, Digital electronics - An introduction to theory and practice, 2nd Edition, PHL of India, 2007.
7. Rajendran.V,.Marikani.A, Materials Science, 8th Reprint, Tata McGraw-Hill, 2008.
8. Avadhanulu. M.N. and. Kshirsagar. P.G, Engineering Physics, 2nd Edition, S. Chand & Company, 2007.
9. Neubert H.K.P, On Teaching Sensor Technology, Royal Aircraft Establishment, Great Britain, 1971.
10. Cooper W.D. and Helfrick A.P, Electronic measurement and Techniques, Prentice hall, 3rd Revised Edition, 1985.
11. Wilson J and Hawkers J F B, Optoelectronics - An introduction, 2nd Edition, Prentice-Hall of India, 2001.
12. Bhattacharya. P, Semiconductor optoelectronic devices, 2nd Edition, Prentice Hall of India, 1996.
13. Pole. Jr. C.P and Owens, F.J., Introduction to Nanotechnology, Wiley, 1st Edition, New York, 2003
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
Exam Duration : 3 Hrs.
PART A :
10 questions of 2 marks each - No choice; 2 questions from each of the five units.
20 Marks
PART B :
2 questions from each unit of internal choice; each carrying 12 marks.
60 Marks
(Applications mentioned in the syllabus refer to the basic applications and not to any specific case.)
(Maximum of 20 % problems may be asked.)
B. E. / B. Tech REGULAR
BACK TO12
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING PHYSICS
SPH1103
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To provide the students with fundamental knowledge in Cryogenics and Acoustics, Properties of Matter such
as Elasticity and Viscosity, and enable them to apply relevant principles to solve real world engineering problems.
UNIT 1
LOW TEMPERATURE PHYSICS
9 Hrs.
Properties of cryogenic fluids- oxygen, nitrogen, helium and hydrogen - Joule Thomson effect - Porous plug
experiment -Production of low temperatures- adiabatic demagnetisation of a paramagnetic salt - Cascade process Practical applications of low temperatures -Refrigeration and Air conditioning machines - Super fluidity and its
applications ( elementary ideas only)
UNIT 2
ELASTICITY
9 Hrs.
Introduction-stress and strain diagram -Hooke’s law- types of elasticity- Young’s modulus, Bulk modulus,
Rigidity modulus. Poisson ratio - Twisting couple on a cylinder (wire) - torsional pendulum - determination of rigidity
modulus. Bending of beams - expression for bending moment of a beam - expression for the depression of the
cantilever loaded at the free end - uniform and non-uniform bending-theory and experiment- I form of girders.
UNIT 3
VISCOSITY
9 Hrs.
Streamline and turbulent motion, coefficient of viscosity - equation of continuity, Euler’s equation, critical
velocity, Reynolds’s number, Poiseuille’s equation for flow of a liquid through a capillary tube - Stoke’s law (statement
only)- terminal velocity, Bernoulli’s theorem and applications, Lift of an Aeroplane, Atomizer, Venturi meter, filter
pump and Pitot’s tube.
UNIT 4
METAL ALLOYS
9 Hrs.
Introduction, classification of metal alloys-Ferrous and Non Ferrous Alloys, Ferrous Alloys- classification,
composition, properties and applications; Synthesization of alloy steels-Electric Arc Furnace process (Heroult
furnace), Non-Ferrous Alloys - Aluminium, Copper, Titanium, Magnesium alloys - composition, properties and
applications, Shape Memory Alloys - Shape memory effect, mechanism, transformation temperature, types of SMA one way and two way shape memory effect, General applications of SMA.
UNIT 5
ACOUSTICS OF BUILDINGS
9 Hrs.
Introduction - musical sound and noise, characteristics of musical sound - pitch, loudness, quality - WeberFechner law, decibel scale, sound intensity level and sound pressure level. Sound absorption-OWU, sound
absorption coefficient and its measurements - Reverberation - Reverberation time - Standard Reverberation time Sabine’s formula to determine the Reverberation time (Jaegar method), Factors affecting the acoustics of a building
and the remedies, Principles to be followed in the acoustical design of a good auditorium.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Mathur D.S, Heat and Thermodynamics, Reprint, S. Chand and Co. 2004.
2. Christian Enss and Siegfried Hunklinger, Low temperature Physics, 1st Edition, Springer, 2005.
3. Mathur D.S, Elements of Properties of Matter, Reprint, S.Chand and Co. 2005.
4. Srinivasan M.R, Physics for Engineers, 2nd Edition, New Age international Publishers, 2005.
5. Gaur. R.K. and Gupta. S.L., Engineering Physics, 8th Edition, Dhanbat Rai Publications, 2007.
6. Avadhanulu. M.N. and. Kshirsagar. P.G, Engineering Physics, 2nd Edition, S. Chand and Company, 2007.
7. Willam D Callister, Materials Science and Engineering an introduction, 6th Edition, john-Wiley and Sons, 2004.
8. Rajendran.V, Marikani A., Materials Science, 8th Reprint, Tata McGraw-Hill, 2008.
9. Rajagopal.K, Text book of Engineering Physics, Part-I, 1st Edition, Prentice Hall of India, 2008
10. Kinsler L.E, Frey A.R., Coppens A.B. and Sanders J.V., Fundamentals of Acoustics, 4th Edition, John-Wiley and sons, 2005.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
Exam Duration : 3 Hrs.
PART A : 10 questions of 2 marks each - No choice; 2 questions from each of the five units.
20 Marks
PART B : 2 questions from each unit of internal choice; each carrying 12 marks.
60 Marks
(Applications mentioned in the syllabus refer to the basic applications and not to any specific case.)
(Maximum of 20 % problems may be asked.)
B. E. / B. Tech REGULAR
BACK TO13
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
APPLIED BIOPHYSICS
SPH1104
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To expose the students of biology to some fundamental physics required for study of the measurements of
physical properties related to biological systems.
UNIT 1
PROPERTIES OF MATTER
9 Hrs.
Viscosity-Newton’s formula-coefficient of viscosity-Factors affecting viscosity-capillary flow method-Stokes
method-Biological significance of viscosity-Surface tension-Kinetic theory of surface tension-Factors affecting surface
tension-Capillary rise method-Drop weight method-Interfacial surface tension-Biological significance of surface
tension.
UNIT 2
LASER PHYSICS
9 Hrs.
Absorption, spontaneous emission and stimulated emission-characteristics of laser light-Einstein’s A and B
coefficients-principle of laser action-He-Ne laser-CO2 laser-Ruby laser-Nd-YAG Laser-semiconductor laserapplications of laser.
UNIT 3
MICROSCOPES
9 Hrs.
Characteristics of light-magnification-Compound microscope-Phase contrast microscope-interference
microscope-ultraviolet microscope-Fluorescent microscope-electron microscope-Transmission Electron microscopeScanning electron microscope-Uses.
UNIT 4
RADIATION BIOLOGY
9 Hrs.
Radioactivity-Natural radioactivity-induced radioactivity-Half life-mean life-Radioactive disintegration-units of
radioactivity-GM counter-Proportional counter-Scintillation counter-uses of radio isotopes: diagnostic and therapeuticarcheological dating by C14 method-Biological effects of radiation.
UNIT 5
BIOLOGICAL TRANSDUCERS
9 Hrs.
Bio-medical instrumentation-transducers-electrodes and bio amplifiers-physiological transducer-pressure
transducer-temperature transducer-pulse sensors-respiration sensors-bio-chemical transducers.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
M. A. Subramaniam, Biophysics-principles and techniques, MJP publishers, 2005
S. Armugam, Biomedical instrumentation, Anuratha Agencies, 2ndEd., 2006
J. Kumar, S. Moorthy Babu, S. Vasudevan, Engineering Physics, Vijay Nicole Imprints Pvt. Ltd, 2006
Vasantha Pattabhi, N. Gautham, Biophysics, Narosa Publishing House, 2002
Vatsala Piramal, Biophysics, Dominant Publishers and Distributors, 2006
D.S.Mathur, Properties of matter, S.Chand Publishing, 11thEd.2005
P. Narayanan, Essentials of Biophysics, New Age International, 2ndEd. 2007
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
Exam Duration : 3 Hrs.
PART A : 10 questions of 2 marks each - No choice; 2 questions from each of the five units.
20 Marks
PART B : 2 questions from each unit of internal choice; each carrying 12 marks.
60 Marks
(Applications mentioned in the syllabus refer to the basic applications and not to any specific case.)
(Maximum of 20 % problems may be asked)
B. E. / B. Tech REGULAR
BACK TO14
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCS1202
FACULTY OF ELECTRICAL AND ELECTRONICS
OBJECT ORIENTED PROGRAMMING
L
T
P
(Common to ALL Branches of B.E/ B. Tech.)
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the fundamental concepts of object oriented programming.
Be familiar with concepts like abstraction, inheritance, polymorphism.
To understand the concept of Classes.
UNIT 1
INTRODUCTION TO OBJECT ORIENTED PROGRAMMING
9 Hrs.
Object Oriented Programming Paradigms - Comparison of Programming Paradigms - Object Oriented
Languages - Benefits of Object Oriented Programming - Comparison with C - Overview of C++ -Pointers- Functions Scope and Namespaces - Source Files and Programs.
UNIT 2
CLASSES AND OBJECTS
9 Hrs.
Working with classes - Classes and objects - Class specification-Class objects-Accessing class membersDefining class members-Inline functions-Accessing member functions within class-Data hiding-Class member
accessibility-Empty classes,
UNIT 3
CONSTRUCTORS AND OVERLOADING
9 Hrs.
Default constructors-Parameterized constructors-Constructor overloading-Copy constructors-new, delete
operators-”this” pointer-friend classes and friend functions-Function overloading- Unary Operator overloading -Binary
Operator overloading.
UNIT 4
INHERITANCE
9 Hrs.
Base class and derived class relationship-Derived class declaration-Forms of inheritance-Inheritance and
member accessibility- Constructors in derived class-Destructors in derived class-Multiple inheritance-Multi level
inheritance-Hybrid inheritance-Virtual base classes-Member function overriding-Virtual functions-Abstract classesPure Virtual functions.
UNIT 5
I/O AND LIBRARY ORGANIZATION
9 Hrs.
I/O Stream - File I/O - Exception Handling - Templates - STL - Library Organization and Containers - Standard
Containers - Overview of Standard Algorithms-Iterators and Allocators.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Balagurusamy, ”Object Oriented Programming with C++”, Tata McGraw Hill,4th Edition,2010
Venu Gopal.K.R, Ravishankar.T, and Raj kumar, ”Mastering C++”, Tata McGraw Hill,1999.
Bjarne Stroustrup, ”The C++ programming language”, Addision Wesley, 3rd Edition,1998.
John R Hubbard, “Programming with C++”, Schaums Outline Series, McGraw Hill, 2nd edition, 2009.
James Martin & James J.Odell,”Object Oriented methods-A foundation”,Prentice Hall,1997.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO23
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEE1105
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRICAL TECHNOLOGY
(For ECE, E&C, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand and analyze the magnetic circuit.
To study the fundamental principle of electrical machines using the concepts of electro-mechanical energy
conversion.
To learn the principle of operation and performance characteristics of D.C/A.C. Machines and Transformers.
UNIT 1
MAGNETIC CIRCUITS
8 Hrs.
Definition of MMF, Flux and Reluctance - Leakage Factor - Reluctances in Series and Parallel (Series and
Parallel Magnetic Circuits) - Electromagnetic Induction - Fleming’s Rule - Lenz’s Law - Faraday’s laws - statically and
dynamically induced EMF - Self and mutual inductance - Analogy of Electric and Magnetic Circuits.
UNIT 2
DC MACHINES
10 Hrs.
Construction, Principles of operation of DC Machines - Types - EMF Equation - Performance Characteristics,
of Series and Shunt Generators - DC Motor - Torque - Speed - Torque Characteristics of Series and Shunt Motors Speed Control and Applications -Auto Transformer.
UNIT 3
TRANSFORMERS
10 Hrs.
Constructional Details and Principle of operation of Single Phase Transformer - EMF Equation - Phasor
Diagram on No Load and Loaded Transformer - Equivalent Circuit - Open Circuit and Short Circuit Test on
Transformer - Regulation and Efficiency.
UNIT 4
INDUCTION MOTORS (QUALITATIVE TREATMENT ONLY)
8 Hrs.
Constructional Details of Three Phase Induction Motor - Slip Ring and Squirrel Cage Rotor- Principle of
operation- Torque Equation - Torque / Slip Characteristics - Starters - Applications Introduction to Single Phase
Induction Motors - Capacitor Start Capacitor Run Motor -Shaded Pole Motor.
UNIT 5
SYNCHRONOUS MACHINES AND SPECIAL MACHINES (QUALITATIVE TREATMENT ONLY) 9 Hrs.
Principles of Alternator - Construction Details - Types Special Machines: Stepper motor- AC and DC
Servomotor -Universal Motor - Hysteresis Motor -Permanent Magnet Synchronous Motor - Switched Reluctance
Motor - Brushless D.C Motor - Construction, Working And Applications.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
B.L.Theraja & A.K.Theraja, “A Text Book of Electrical Technology, VOl II”, S.Chand & Company Ltd., 2009.
J.B. Gupta, “ Theory and Performance of Electrical Machines”, S.K.Kataria & Sons, 4th Edition, 2006.
R.K. Rajput, “Electrical Engineering” Lakshmi Publications Pvt Limited, 4th Edition, 2008.
S.K.Bhattacharya, “Electrical Machines” Tata Mc Graw Hill Company Ltd, 3rd Edition,2008.
D.P.Kothari & I.J.Nagrath, “Electrical Machines”, Tata Mc Graw Hill Company Ltd, 3rd Edition,2004, Twelfth Reprint.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of Internal choice, each carrying 12 marks
(Distribution may be 80% Theory & 70 % Numerical)
B. E. / B. Tech REGULAR
BACK TO65
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCY1102
FACULTY OF ELECTRICAL AND ELECTRONICS
CHEMISTRY OF ELECTRONIC MATERIALS
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To know the nature of conducting polymer materials used in electronic industry and to understand the recent
analytical techniques for their characterization.
To give an idea on the application of computer science in chemistry and the importance of insulating materials
in electrical and electronic industries.
UNIT 1
INTRODUCTION TO MOLECULAR ELECTRONICS
9 Hrs.
Introduction: Charge transport carriers: Soliton - Polaron and bipolaron. Conducting polymers: Polyacetylene Polyaniline. Applications of conducting polymers. Polymer Structures for LEDs: Polyphenylenes - Polythiophene.
Photoresists for electronics. Molecular devices based on conducting polymers.
UNIT 2
INSTRUMENTAL METHODS OF ANALYSIS
9 Hrs.
Introduction - Absorption of radiation. UV-Visible spectrophotometer: Instrumentation - Applications. IR
spectrophotometer - Instrumentation - Applications. Thermal methods of analysis: Thermogravimetry (TGA) Differential Thermal Analysis (DTA) - Differential Scanning Calorimetry (DSC). Sensors: Oxygen sensors - Glucose
sensor. Cyclic Voltammetry for Redox systems.
UNIT 3
THIN FILM TECHNIQUES
9 Hrs.
Introduction: Lithography. Thin-film deposition: Chemical vapour deposition - Physical vapour deposition:
Pulsed laser and atomic layer deposition. Epitaxy: Vapour phase epitaxy - Liquid phase epitaxy - Molecular beam
epitaxy. Evaporation: Thermal vaporation and e-beam evaporation. Sputtering techniques: Direct current (DC)
sputtering and radio frequency (RF) sputtering. Preparation of Si/Ge semiconductors - Czochralski crystal growth
technique: Doping of semiconductors by Ion implantation.
UNIT 4
INSULATING MATERIALS
9 Hrs.
Electrical Insulating Materials: Introduction - Requirements. Classification based on substances: Gaseous,
liquid and solid insulating materials. Preparation, properties and applications of SF6, Epoxy resin, ceramic products:
white wares and glass - Transformer oil. Electrical resistivity: Factors influencing electrical resistivity of materials Composition, properties and applications of high resistivity materials: Manganin - Constantan - Molybdenum disilcide
- Nichrome.
UNIT 5
CHEMIN FORMATICS
9 Hrs.
Introduction: Computer representation of chemical compounds: Line notations - Wiswesser line notation - ROSDAL
notation - SMILES coding - Advantages and disadvantages of different types of notations. Standard structure exchange
formats: Structure of Mol files and SD files. Chemical structure drawing softwares. Molecule editors: CACTVS molecule
editor - Chemdraw - ChemSketch - Chemwindow. Searching chemical structure: Similarity search.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Ziaie B., Introduction to Micro/Nanofabrication, Springer, 2010.
Andrew Leach, An Introduction to Cheminformatics, Springer, 2009.
Johann Gasteiger and Thomas Engel (Ed.), Cheminformatics: A Textbook. Wiley-VCH, 2003.
Hagen Klauk, Organic Electronics: Materials, Manufacturing and Applications, Wiley, 2006.
Dara S.S., Text Book of Engineering Chemistry, S. Chand & Co, 2008.
Sheik Mideen A., Engineering Chemistry (I & II),13th Edition, Shruthi Publishers, 2010.
Douglas A. Skoog and Donald M. West, Principles of Instrumental Analysis, 6th Edition, Cengage Learning, 2006.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
(Out of 80 marks, maximum of 10% problems may be asked)
B. E. / B. Tech REGULAR
BACK TO16
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCY1103
FACULTY OF ELECTRICAL AND ELECTRONICS
CHEMISTRY OF INDUSTRIAL MATERIALS
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To know the different types of coal, their analysis and gaseous fuels.
To have a basic understanding about terms related to phase rule and its applications to various systems.
To understand the requirements, classification of explosives and propellants used in aerospace industries.
To provide an idea about lubrication mechanisms, properties and to learn the science of composites and abrasives.
UNIT 1
FUELS
9 Hrs.
Fuels: Introduction - Classification of fuels - Characteristics of a fuel - Determination of calorific value of a fuel
by Bomb calorimeter. Coal: Classification of coals based on energy content. Chemistry and analysis of coal:
Proximate analysis and ultimate analysis. Manufacture of metallurgical coke: Otto-Hoffmann’s method. Cracking:
Fluidized bed catalytic cracking. Knocking in compression ignition and spark ignition engines. Gaseous fuels: CNG LPG - Producer gas. Ethanol as a fuel.
UNIT 2
PHASE EQUILIBRIA
9 Hrs.
Introduction: Definition of phase rule - Terms involved in phase rule with examples. One component system:
Water system. Two component alloy systems: Classification - Reduced phase rule - Thermal analysis. Simple
eutectic system: Lead-silver system. Congruent system: Zinc-magnesium system. Incongruent system: Sodiumpotassium system.
UNIT 3
EXPLOSIVES AND ROCKET PROPELLANTS
9 Hrs.
Explosives: Requirements - Classification of explosives: Low explosives - Primary explosives - High
explosives. Assessment of explosives: Sand bomb test - Drop height - Velocity of detonation. Rocket propellants:
Types of rocket engines - Basic principle of rocket propulsion system - Specific impulse (ISP) - Thrust: Momentum
thrust and pressure thrust. Requirements of a good propellant. Classification of chemical propellants - Liquid fuels Liquid oxidizers - Solid fuels - Solid oxidizers.
UNIT 4
LUBRICANTS
9 Hrs.
Introduction: Requirements and functions of lubricants. Mechanism of lubrication: Hydrodynamic lubrication Boundary lubrication - Extreme pressure lubrication. Properties of lubricants: Viscosity index - Cloud point - Pour
point - Flash point - Fire point - Oiliness - Sligh oxidation test - Aniline point. Classification of lubricants: Liquid
lubricants - Semisolid lubricants - Solid lubricants.
UNIT 5
COMPOSITES AND ABRASIVES
9 Hrs.
Introduction: Definition. Constituents of composites: Matrix phase and dispersed phase - Examples. Metal matrix
composites: Al matrix; Mg matrix and Ti matrix composites. Ceramic matrix composites: SiC marix and Alumina
matrix composites. Polymer matrix composites: Fiber reinforced plastics (FRP) and its types. Application of
composites. Cermets: Oxide base cermets - Carbide base cermets - Properties and applications. Abrasives:
Definition - Properties: Moh’s scale of Hardness. Classification: Natural and synthetic abrasives. Manufacture of
abrasive paper and abrasive cloth.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Jain P. C., and Monica Jain, Engineering Chemistry, 15th Edition, Dhanpat Rai Publishing Co., 2009.
Sheik Mideen A., Engineering Chemistry (I & II), 13th Edition, Shruthi Publishers, 2010.
Dara.S.S., Text Book of Engineering Chemistry, S.Chand & Co, 2009.
Kuriakose J. C., and Rajaram. J, Chemistry in Engineering and Technology, Vol.1 & 2, Tata McGraw Hill Publishing
Company (P) Ltd., 2009.
5. Puri Br., Sharma Lr., Madhan S Pathania, Principles of Physical Chemistry, 41st Edition, Vishal Publishing Co., 2004.
6. Uppal M.M., Engineering Chemistry, 6th Edition, Khanna Publishers, 2006.
7. Agarwal O.P., Engineering Chemistry, 3rd Edition, Khanna Pubishers., 2003.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks.
(Out of 80 marks, maximum of 10% problems may be asked)
B. E. / B. Tech REGULAR
BACK TO17
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCY1104
FACULTY OF ELECTRICAL AND ELECTRONICS
BIO ORGANIC CHEMISTRY
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the fundamentals of classification, synthesis, properties and structural elucidation of
carbohydrates, amino acids and proteins.
To know the classification and properties of lipids and enzymes.
To have overall idea about the structure and biological aspects of steroids, hormones, vitamins and nucleic
acids.
UNIT 1
CARBOHYDRATES
9 Hrs.
Introduction: Classification: Sugars and Non-sugars. Building up of the sugar series: Aldoses. Conversion of higher
to lower homologue and vice versa: Ascending and descending series - Kiliani Fischer synthesis - Ruff degradation.
Glucose: Physical properties - Chemical properties: Epimerization - Mutarotation. Structural elucidation of glucose: Open
chain and closed chain structure. Structure and biological importance of disaccharides: Sucrose - Maltose - Lactose.
Structure and biological importance of polysaccharides: Starch - Cellulose - Chitin - Heparin - Peptidoglycan.
UNIT 2
AMINOACIDS AND PROTEINS
9 Hrs.
Aminoacids: Classification - α, β, and γ aminoacid - acidic, basic and neutral amino acids - Essential and non
essential amino acids. Preparation: HVZ reaction - Strecker synthesis - Gabriel Phthalimide synthesis. Physical
properties: Isoelectric point. Chemical properties: Reaction of amino group - Carboxyl group and both. Proteins:
Classification based on shape and solubility - Classification based on increasing complexity of structure. Structure of
proteins: Primary - Secondary - Tertiary - Quaternary.
UNIT 3
LIPIDS AND ENZYMES
9 Hrs.
Lipids: Occurrence and classification of lipids - Simple lipids: Fats - Distinction between fats and oils Occurrence - Properties: Hydrolysis - Auto oxidation - Addition reactions. Analysis of fats and oils: Saponification
value and Iodine number. Compound Lipids and Derived lipids.
Enzymes: Classification and nomenclature - Enzyme Kinetics: Michaelis-Menton equation. Enzyme activity Mechanism of enzyme action.
UNIT 4
STEROIDS, HORMONES AND VITAMINS
9 Hrs.
Steroids: Introduction - Nomenclature. Cholesterol: Constitution (excluding synthesis) and biological
importance.
Hormones: Introduction - Difference between hormones and vitamins. Classification - Structure and functions
of steroid hormones: Androsterone - Progesterone - Testosterone - Estrone. Adrenocortical hormones: Cortisone.
Vitamins: Structure and importance of Vitamin D - Folic acid - Nicotinamide.
UNIT 5
NUCLEIC ACIDS
9 Hrs.
Introduction: Purines and Pyrimidines - Nucleosides and Nucleotides - Nitrogeneous bases - Structure of
nucleic acids - DNA, RNA, m-RNA, t-RNA, r-RNA - 70s and 80s - Biological importance of nucleic acids Sequencing of nucleic acids - Maxam-Gilbert’s method and Sanger’s method.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Jain J. l., Nitin Jain, Sunjay Jain, Fundamentals of Biochemistry, 6th Edition, S. Chand and Sons, 2013.
David L. Nelson, Michael M. Cox, Lehninger Principles of Biochemistry, 6th Edition, W. H. Freeman, 2013.
Gurdeep R Chatwal, Organic Chemistry of Natural Products Vol II , 2nd Revised Edition, Himalaya Publishing House, 1986.
Tewari K.S., Vishnoi N.K. and Mehrotra S.N., A Text Book of Organic Chemistry, 2nd Revised Edition, Vikas Publications, 2004.
Rastogi S.C., Biochemistry, 6th Reprint, Tata McGraw Hill Publishing Limited, 2007.
Styer L., Biochemistry, . 4th Edition, W.H. Freeman & Co, 1995.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks.
(Out of 80 marks, maximum of 10% problems may be asked)
B. E. / B. Tech REGULAR
BACK TO18
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCY1105
FACULTY OF ELECTRICAL AND ELECTRONICS
PHYSICAL CHEMISTRY
L
T
P
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the fundamentals related to the phase diagrams and their applications.
To know about the types and properties of solutions.
To expose the students for various separation techniques for the purification of compounds.
To provide an idea about the chemical kinetics in terms of order, molecularity and their derivations involved.
To give an overview about the advanced electrochemical applications.
UNIT 1
PHASE RULE
9 Hrs.
Phase diagram - Information from phase diagram - Terminology used in phase diagram. Gibb’s phase rule Derivation. One component system: Water system. Two component alloy systems: Classification - Reduced phase
rule - Thermal analysis. Simple eutectic system: Lead-silver system. Congruent System: Zinc-magnesium system.
Incongruent system: Sodium-potassium system. Phase diagram of simple three component system.
UNIT 2
SOLUTIONS
9 Hrs.
Introduction: Solid solution - Hume Rothery’s rule. Types of solid solutions: Liquid solutions: Solubility of
partially miscible liquids - Phenol-water system. Colligative properties: Lowering of vapour pressure. Raoult’s law:
Derivation - Osmotic pressure - Isotonic solution - Relationship between osmotic pressure and vapour pressure.
Depression in freezing point - Derivation. Elevation in boiling point - Derivation - Problems.
UNIT 3
SEPARATION TECHNIQUES
9 Hrs.
Distillation techniques: Fractional distillation - Steam distillation - Vacuum distillation. Chromatography: Elution
analysis - Paper chromatography - Thin layer chromatography - Liquid chromatography - High performance liquid
chromatography (HPLC) - Gas chromatography (GC).
UNIT 4
CHEMICAL KINETICS
9 Hrs.
th
Introduction: First and second order reactions: Integration - Integration of n order reaction. Methods of
determining order and molecularity. Collision theory of bimolecular gaseous reactions - Activated complex of
bimolecular reactions - Lindemann theory of unimolecular equation - Kinetics of complex reactions: Reversible
reaction - Consecutive reaction - Chain reactions - Autocatalysis - Problems.
UNIT 5
ADVANCED ELECTROCHEMISTRY
9 Hrs.
Introduction: Cell constant - Equivalent conductance - Molar conductance. Ionic mobility: Transport number Moving boundary method - Hittorff’s method. Debye Huckel theory of strong electrolytes. Concentration cells: Types Concentration cells without transference and with transference. Potentiometric tritrations: Redox titration.
Polarography - Applications of polarography.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Puri B.R., Sharma L. R., Madan. S.Pathania, Principles of Physical Chemistry, 41st Edition , Vishal Publishing co., 2004.
Keith J. Laidler, Chemical Kinetics, Third Edition, Pearson education limited, 2004.
Atkins P. W., Physical Chemistry, 6th edition, Oxford University press, 1998.
Barrow G. M., Physical Chemistry, 5th edition, McGraw-Hill, 1988.
Glasstone S., A Text book of Physical Chemistry, Macmillan Ltd, 1976.
Jayakumar V., Engineering Metallurgy, ARS publications, 2012.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks.
(Out of 80 marks, maximum of 10% problems may be asked)
B. E. / B. Tech REGULAR
BACK TO19
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SCS4103
FACULTY OF ELECTRICAL AND ELECTRONICS
PROGRAMMING IN C & C++ LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
Develop a C program to implement Looping and decision statements.
Develop a C program to implement Functions.
Develop a C program to implement Arrays.
Develop a C program to perform various String Manipulations
Develop a C program to implement Structures and Union.
Develop a C program to implement Pointers.
Develop a C program to implement Dynamic memory allocation.
Develop a C program to implement to implement math functions
Develop a C++ program to implement a class, object creation, member function invocation concepts.
Develop a C++ program to implement the various constructors and destructor concepts.
Develop a C++ program to implement friend function and inline function.
Develop a C++ program to implement operator (Unary & Binary) overloading concept.
Develop a C++ program to implement function overloading concept.
Develop a C++ program to implement run time polymorphism.
Develop a C++ program to implement the following inheritance types.
a). Single
b). Multiple
c). Multilevel
d). Hierarchical
e). Hybrid
16. Develop a C++ program to find the number of characters in a file.
B.E. / B. Tech REGULAR
BACK TO107
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REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEE4051
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRICAL ENGINEERING LAB
(For ECE, ETCE, EIE and E&C)
L
0
T
0
P
4
Credits Total Marks
2
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Open circuit characteristics of separately excited dc shunt generator.
Load characteristics of self excited dc shunt generator
Load characteristics of dc Compound generator
Load characteristics of dc shunt motor
Speed control of dc shunt motor.
Load characteristics of dc series motor
Open circuit and short circuit test on single phase transformer.
Load test on single phase transformer
Brake load test on three phase squirrel cage induction motor
Load test on single phase Induction motor
Wiring circuits for
a) Calling Bell
b) Stair Case
c) Fluorescent Lamp
d) Basic household wiring using switches, fuses, Indicator – lamps etc.,
SEE4052
ELECTRICAL CIRCUITS &
ELECTRONIC DEVICES LAB
(For EEE)
L
T
P
0
0
4
Credits Total Marks
2
100
SUGGESTED LIST OF EXPERIMENTS
ELECTRICAL CIRCUITS LAB
1. Verification of Kirchhoff’s laws
2. Verification of Theorems
3. Series and Parallel AC circuits
4. R-L and R-C Transients with DC Excitation
5. Series and Parallel Resonance
6. Clippers and Clampers
ELETRONIC DEVICES LAB
1. Characteristics of Semiconductor diode and Zener diodeto find static and dynamic resistance from the
characteristics
2. Characteristics of CB configuration
3. Characteristics of CE configuration
4. Drain and transfer characteristics of JFET. To obtain gain , transconductance and amplification factor
5. Characteristics of SCR find holding current ,break over voltage and holding voltage
6. Characteristics of UJT find intrinsic standoff ratio, Peak voltage and valley voltage
7. Characteristics of LDR with illumination and without illumination
8. Voltage multiplier
B.E. / B. Tech REGULAR
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REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1201
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING MATHEMATICS - III
(Common to ALL Branches except BIO Groups, CSE and IT)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
The ability to identify, reflect upon, evaluate and apply different types of information and knowledge to form
independent judgments. Analytical, logical thinking and conclusions based on quantitative information will be the
main objective of learning this subject.
UNIT 1
COMPLEX VARIABLES
11 Hrs.
Analytic functions - Cauchy- Riemann equations in cartesian and polar form - Harmonic functions - properties of
analytic functions - Construction of analytic functions using Milne - Thompson method - Bilinear transformation.
UNIT 2
COMPLEX INTEGRATION
12 Hrs.
Cauchy’s integral theorem - Cauchy’s integral formula - problems - Taylor’s and Laurent’s series - Singularities Poles and Residues - Cauchy’s residue theorem and problems.
UNIT 3
FOURIER TRANSFORMS
12 Hrs.
The infinite Fourier transform - Sine and Cosine transform - Properties - Inversion theorem - Convolution theorem Parseval’s identity - Finite Fourier sine and cosine transform.
UNIT 4
PARTIAL DIFFERENTIAL EQUATIONS
13 Hrs.
Formation of equations by elimination of arbitrary constants and arbitrary functions - Solutions of PDE - general,
particular and complete integrals - Solutions of First order Linear PDE ( Lagrange’s linear equation ) - Solution of
Linear Homogeneous PDE of higher order with constant coefficients.
UNIT 5
THEORY OF SAMPLING AND TESTING OF HYPOTHESIS
12 Hrs.
Test of Hypothesis - test of significance - Large samples - Z test - single proportion - difference of proportions Single mean - difference of means - Small samples - Student‘s t test - single mean - difference of means -Test of
variance - Fisher’s test - Chi square test - goodness of fit - independence of attributes.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1. Kreyszig, E., Advanced Engineering Mathematics (8th Edition), John Wiley and Sons (Asia)Pvt. Ltd., Singapore, 2001.
2. Grewal,B.S., Higher Engineering Mathematics, Tata Mcgraw Hill Publishing Co., New Delhi, 1999.
3. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics, (4th Revised Edition), S.Chand&Co., New
Delhi, 2001.
4. Veerarajan,T., Engineering Mathematics Tata Mcgraw Hill Publishing Co., NewDelhi, 1999.
5. S.C. Gupta, V.K. Kapoor, Fundamentals of Mathematical Statistics, S.Chand & Company, 2012.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO4TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1205
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC CIRCUITS - I
(For ETCE and ECE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
The objective of this course is to publicize the student with the design and analysis of Rectifiers and power
supplies, Transistor biasing circuits, Small signal analysis of FET and MOSFET amplifiers, Frequency Response and
Multistage amplifiers and Large Signal Amplifiers. On completion of this course, the student will recognize
Analysis of different types of Rectifiers and Power Supplies.
Hybrid Model of BJT Amplifiers and Small Signal Models of FET and MOSFET Amplifiers.
Frequency response and Multistage Amplifiers and also Large Signal Amplifiers
UNIT 1
RECTIFIERS AND POWER SUPPLIES
9 Hrs.
Half Wave Rectifier - Full Wave Rectifier - Bridge Rectifier - Performance of Rectifiers - Filters - Types of
Filters - L, C, LC, π Filters - Ripple Factor Calculation for C, L, LC and π Filter - Regulators - Shunt and Series
Voltage Regulator - IC Regulator - SMPS.
UNIT 2
TRANSISTOR BIASING CIRCUITS ANS SMALL SIGNAL ANALYSIS OF BJT AMPLIFIERS 9 Hrs.
Biasing- Types of biasing- DC equivalent circuit of BJT- Load Line-DC and AC Load Line Analysis - Hybrid
Model of BJT- Hybrid Model Analysis of CE, CB, CC - Calculation of Input Impedance, Output Impedance, Voltage
Gain, Current Gain using hybrid model- Approximate Model of BJT- CE, CB and CC Analysis- Small signal
equivalent circuit of BJT- Small Signal Analysis of CE, CB and CC.
UNIT 3
SMALL SIGNAL ANALYSIS OF FET AND MOSFET AMPLIFIERS
9 Hrs.
Biasing of FET Amplifiers- Types- Small Signal Model of FET- Small Signal Analysis of CS-CD-CG FETCalculation of Input Impedance-output impedance-voltage gain using small signal model- MOSFET Biasing-TypesSmall Signal Model of MOSFET-Small Signal Analysis of CS-CD-CG MOSFET- Calculation Input Impedance-output
impedance-voltage gain using small signal model
UNIT 4
FREQUENCY RESPONSE AND MULTISTAGE AMPLIFIERS
9 Hrs.
Frequency Resonance- Low Frequency response and High Frequency Response equivalent circuit analysis
of BJT- Low Frequency response and High Frequency Response equivalent circuit analysis of FET- Miller’s Effect Multistage amplifiers-need for multistage amplifiers- methods of interconnecting multistage amplifiers - Types of
Multistage amplifiers - Analysis of RC coupled Amplifiers -Analysis of Direct Coupled Amplifiers-Analysis of
Transformer Coupled Amplifiers-cascade amplifier- Cascode amplifier- Darlington Emitter Follower Amplifier.
UNIT 5
LARGE SIGNAL AMPLIFIERS
9 Hrs.
Class A power amplifier with resistive and transformer coupled load- calculation of efficiency- Class B-Push
pull-complementary symmetry - efficiency calculation- Class C Power Amplifier- Class AB operation and Class D
type of operation- distortion in power amplifiers - Thermal stability of power amplifier..
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
Donald. L, Schilling and C.Belove, “Electronic Circuits - Discrete and Integrated”, 3rd Edition, McGraw Hill, 1989.
David A. Bell, “Electronic Devices and Circuits”, PHI, 1998.
Gupta. J.B, “Electronic Devices and Circuits”, Katson Publishers, 2009.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO35
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1207
FACULTY OF ELECTRICAL AND ELECTRONICS
DIGITAL LOGIC CIRCUITS
(For ECE, EEE, EIE, ETCE and E&C)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To publicize the student with the design and analysis of Boolean algebra, logic gates, combinational circuits,
sequential circuits, digital logic families and programmable logic devices.On completion of this course the student will
recognize
Various number systems and to simplify the mathematical expressions using Boolean functions- simple problems.
Implementation of combinational circuits and Design of various synchronous and asynchronous circuits.
Expose to various digital logic families and the students to various memory devices and programmable logic
devices
UNIT 1
BOOLEAN ALGEBRA AND LOGIC GATES
9 Hrs.
Review of number systems - Binary arithmetic - Binary codes - Boolean algebra and theorems - Boolean
functions -Minimization of Boolean functions-Sum of Products(SOP)-Product of Sums(POS)-Simplifications of
Boolean functions using Karnaugh map and tabulation methods - Logic gates- NAND and NOR implementation.
UNIT 2
DESIGN OF COMBINATIONAL CIRCUITS
9 Hrs.
Introduction to Combinational circuits - Analysis and design procedures - Half Adder, Full Adder-Half
Subtractor, Full Subtractor- Parallel binary Adder, Parallel binary Subtractor- Carry look ahead Adder- BCD AdderDecoders- Encoders-Priority Encoder- Multiplexers- MUX as universal combinational modules- Demultiplexers- Code
convertors- Magnitude Comparator.
UNIT 3
DESIGN OF SEQUENTIAL CIRCUITS
9 Hrs.
Introduction to Sequential circuits - Flip flops - SR, JK, D and T flip flops, Master Slave flip flops,
Characteristic and excitation table - Realization of one flip flop with other flip flops - Registers - Shift registers Counters - Synchronous and Asynchronous counters - Modulus counters, Up/Down counters - Ring Counter Johnson Counter - State diagram, State table, State minimization - Hazards.
UNIT 4
DIGITAL LOGIC FAMILIES
9 Hrs.
Classification and characteristics of logic family - Bipolar logic family - Saturated logic family - RTL,
DTL,DCTL, I2L,TTL, HTL - Non saturated family - Schottky TTL, ECL - Unipolar family - MOS, CMOS logic families.
Tristate logic. Interfacing of CMOS and TTL families. Comparison of logic families.
UNIT 5
MEMORIES AND PROGRAMMABLE LOGIC DEVICES
9 Hrs.
Classification of memories - ROM - ROM organization - PROM - EPROM - EEPROM - RAM - RAM
organization - Write operation - Read operation - Memory decoding - Memory expansion - Static RAM - Dynamic
RAM - Programmable Logic Devices - Programmable Logic Array (PLA) - Programmable Array Logic (PAL) - Field
Programmable Gate Arrays (FPGA) - Implementation of combinational logic circuits using ROM, PLA, PAL.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Milos Ercegovac, Jomas Lang, “Introduction to Digital Systems”, Wiley publications, 1998.
John M. Yarbrough, “Digital logic: Applications and Design”, Thomas - Vikas Publishing House, 2002.
R.P.Jain, “Modern digital Electronics”,3rd Edition, TMH, 2003.
William H. Gothmann, “Digital Electronics”, Prentice Hall, 2001.
Morris Mano, “Digital design”, 3rd Edition, Prentice Hall of India, 2008.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO37
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1208
FACULTY OF ELECTRICAL AND ELECTRONICS
SIGNALS AND SYSTEMS
(For ECE, EIE, ETCE and E&C)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To introduce the concepts and techniques associated with the understanding of signals and systems.
To impart Knowledge of time domain representation and analysis concepts as they relate to difference
equations, impulse response and convolution, frequency domain representation and analysis concepts using
Fourier analysis tools, Z-transform.etc.
To Characterize and analyze the properties of CT and DT systems
UNIT 1
CLASSIFICATION OF SIGNALS
9 Hrs.
Continuous time signals (CT signals) and Discrete time signals (DT signals) - Basic operations on signalselementary signals- Step, Ramp, Pulse, Impulse, Exponential - Classification of CT and DT signals - Periodic, aperiodic
signals-Deterministic and Random signals-even and odd signals - Real and Complex signals - Energy and power signals.
UNIT 2
ANALYSIS OF CONTINUOUS TIME SIGNALS
9 Hrs.
Continuous time Fourier Transform -Properties of CTFT-Inverse Fourier transform- unilateral and bilateral
Laplace Transform analysis with examples - Basic properties - Parseval’s relation - Convolution in time and
frequency domain-Inverse Laplace transform using partial fraction expansion method - Relation between Fourier
transform and Laplace transform-Fourier series analysis.
UNIT 3
LINEAR TIME INVARIANT CONTINUOUS TIME SYSTEMS
9 Hrs.
Concept of CT systems - Linear Time invariant Systems - Basic properties of continuous time systems Linearity, Invertilibity, Causality, Time invariance, Stability - Frequency response of LTI systems - Analysis and
characterization of LTI systems using Laplace transform - Differential equation- Computation of impulse response,
step response, natural response ,forced response and transfer function using Laplace transform --Convolution
integral -Properties of convolution integral.
UNIT 4
ANALYSIS OF DISCRETE TIME SIGNALS
9 Hrs.
Spectrum of DT signals, Discrete Time Fourier Transform (DTFT)- Properties of DTFT - z-transform -Basic
properties of Z transform - Region of convergence - Properties of ROC - Poles and Zeros - Inverse z-transform using
Contour integration - Residue Theorem, Power Series expansion and Partial fraction expansion-Relation between
DTFT and Z transform.
UNIT 5
LINEAR TIME INVARIANT DISCRETE TIME SYSTEMS
9 Hrs.
Concept of LTI-DT systems - Properties and types of LTIDT systems- causality, stability, invertibility, time
invariant, linearity -interconnection of LTI Systems -Difference equation - Computation of Impulse response,
Frequency response, step response, natural response, forced response and Transfer function using Z Transform,
Convolution Sum using matrix, graphical and tabulation method-Properties of convolution sum.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
8.
9.
Allan V. Oppenheim et al, ‘Signals and Systems, 2nd Edition., Prentice Hall of India Pvt. Ltd., 1997.
P.Ramesh Babu et al, ‘Signals and Systems’, 4th Edition, Scitech publishers, 2010.
Haykin. S and Van Been. B., ‘Signals and Systems’, 2nd Edition, John Wiley & Sons, 2003.
Rao.P, "Signals and Systems", 1st Edition, Tata McGraw Hill, 2008.
Lathi, B. P., "Linear Systems and Signals", 2nd Edition, Oxford University Press 2006.
Mrinal Mandal, Amir Asif, "Continuous and Discrete Time Signals and Systems", 1st Edition, Cambridge University Press, 2007.
Roberts, M.J., "Fundamentals of Signals and Systems", 1st Edition, Tata McGraw Hill, 2007.
S. Salivahanan et al., "Digital Signal Processing", 2nd Edition, Tata McGraw Hill, 2009.
H P Hsu, "Signals and Systems", 2nd Edition, Tata McGraw Hill, 2008.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO38
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEE1107
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRICAL CIRCUITS AND NETWORKS
(For ECE, ETCE and EIE)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVES
To impart knowledge on the fundamental principles on analysis of Electrical circuits and two port networks.
UNIT 1
D.C. AND AC CIRCUITS
12 Hrs.
Electrical Quantities, Ohm’s Law, Resistors - Series and parallel Combinations, Kirchhoff’s Laws, Node and
Mesh Analysis - Sinusoidal Functions - RMS(effective) and Average Values - Phasor Representation - J operator Sinusoidal Excitation Applied to Purely Resistive - Inductive and Capacitive Circuits - RL - RC and RLC Series and
Parallel Circuits.
UNIT 2
NETWORK THEOREMS (BOTH DC & AC)
12 Hrs.
Superposition Theorem - Reciprocity Theorem - Thevenin’s Theorem - Norton’s Theorem - Maximum power
transfer Theorem.
UNIT 3
NETWORK TOPOLOGY
12 Hrs.
Network Topology - Basic concepts of Graph theory, Network Graph, Tree, Incidence & Reduced Incidence
Matrices, Cut sets, Tie sets, Cut set schedule, Tie set schedule - Application to network solutions - Duality and Dual
Networks.
UNIT 4
NETWORK FUNCTION AND ITS PARAMETERS
12 Hrs.
Network Functions - Driving point Impedance - Transfer Functions- Network Parameters - Z,Y, h and ABCDParameter Conversion Parameters of Important Networks - Lattice Network - T Network and π Network - Twin
Network -Network Conversions - Bartlett’s Bisection Theorem and its Application - Interconnection of Two Port
Networks.
UNIT 5
TRANSIENTS AND RESONANCE CIRCUITS
12 Hrs.
Time Domain Analysis - Transient Response of RL, RC & RLC networks with DC Input and Sinusoidal AC
Input- Series and Parallel Resonance - Frequency Response - Quality Factor and Bandwidth.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Sudhakar and Shyam Mohan Palli, Circuits and Networks; Analysis and Synthesis, 3rd Edition, Tata McGraw Hill, 2008.
John.D.Ryder, Networks Lines and Fields, 2nd Edition, PHI Publications, 2003.
Hayt W. H, Jack Kemmerly, Steven Durbin‘”Engineering Circuit Analysis”, Tata McGraw Hill, 8th illustrated edition, 2011.
Kuo, ’Network Analysis and Synthesis’, 2nd Edition, PHI, 1995.
Soni and Gupta,’Electric Circuits and Analysis’, 5th Edition, Dhanpatrai and Sons, 1995.
Umesh Sinha, ‘Network Analysis and Synthesis’, 5th Edition, Sathya Prakashan Publishers, 1985.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of Internal choice, each carrying 12 marks
(Distribution may be 20% Theory & 80 % Numerical)
B. E. / B. Tech REGULAR
BACK TO67
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SIC1203
FACULTY OF ELECTRICAL AND ELECTRONICS
MEASUREMENTS AND INSTRUMENTATION
(For ECE, ETCE and EEE)
L
3
T
0
P
0
Credits
3
Total Marks
100
COURSE OBJECTIVES
To impart knowledge in the area of electrical and electronic instruments with the in-depth knowledge about the
construction and the working of the instruments.
To expose the student about measurement of voltage, current, resistance, inductance, capacitance, power,
energy and data acquisition concepts
UNIT 1
BASIC MEASUREMENTS
9 Hrs.
Methods of Measurement, Measurement System, Classification of instrument system, Functional Elements of
measurement system - Examples - Characteristics of instruments: Static characteristics - Dynamic characteristic
Types of errors - sources of errors - methods of elimination - Analysis of data - Limiting errors - Relative limiting error
- Combination of Quantities with limiting errors - Statistical treatment of data: Histogram, Mean, Measure of
dispersion from the mean, Range, Deviation, Average deviation, Standard Deviation, Variance - Calibration and
Standards - Process of Calibration.
UNIT 2
ELECTRICAL MEASUREMENTS
10 Hrs.
Units of voltage and current - principle of operation of D’Arsonval Galvanometer - principle, operation,
constructional details and comparison of the following: permanent magnet moving coil, permanent magnet moving
iron, Dynamometer, Induction, thermal and rectifier type instruments, Power measurement - Voltmeter ammeter
method, Ammeter voltmeter method, Electro-dynamic wattmeter - Low power factor wattmeter
UNIT 3
MEASUREMENT OF RESISTANCE, INDUCTANCE AND CAPACITANCE
11 Hrs.
Low Resistance: Kelvin's double bridge - Medium Resistance: Voltmeter Ammeter method - Substitution
method - Wheatstone bridge method. High Resistance: Megger - Direct deflection method - Megohm bridge method,
Loss of Charge method - Earth resistance measurement. Introduction to A.C bridges Sources and Detectors in A.C.
bridges. Measurement of Self Inductance: Maxwell's bridge - Hay's bridge, and Anderson's bridge. Measurement of
Mutual Inductance: Heavy side M.I bridge - Measurement of Capacitance: Schering's bridge - Sauty's bridge,
Measurement of frequency using Wien's bridge.
UNIT 4
ELECTRONIC MEASUREMENTS
9 Hrs.
Fundamentals of Cathode Ray Oscilloscope: Block diagram, CRO probes, Delay line, types of Oscilloscopes.
Measurement of: Signal voltage, Current, Phase & Frequency using Lissajous patterns, Industrial applications of
CRO. DC and AC voltmeter and Ammeter, Ohmmeter, Range Extension, Electronic Multimeters, Types of Voltmeters
- Differential type, true RMS type, Vector voltmeter - Wave Analyzer, Spectrum Analyzer and Distortion Analyzer
UNIT 5
DATA ACQUISITION
8 Hrs.
Introduction to ADC / DAC - Specifications, ADC Quantization Error, Types of ADC - Flash, Counter,
Successive Approximation, Dual-Slope types and Introduction to Delta-Sigma, Types of DAC - Weighted-Resistor,
2R ladder and PWM type, ADC and DAC Problems - Smart sensors.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Sawhney A.K., “A Course in Electrical, Electronic measurement & Instrumentation”, Dhanpat Rai & sons,18th Edition, Reprint 2010
Doeblin E.O. “Measurement System Applications and Design”, McGraw Hill, 5th Edition, 2004.
Albert D. Helfrick & William. D. Cooper, “Modern Electronic Instrumentation & Measurement Techniques”, PHI, 2003.
Chris Nadovich, ‘Synthetic Instruments Concepts and Applications’, Elsevier, 2005.
Rick Bitter, Taqi Mohiuddin and Matt Nawrocki, ‘Labview Advanced Programming Techniques’, CRC Press, Second Edition, 2007.
Rahman Jamal and Herbert Picklik, “LabVIEW - Applications and Solutions”, National Instruments Release ISBN 0130964239.
Gupta J.B., “A course in Electrical and Electronic Measurement and Instrumentation”, 12th Edition, Katson Publishing House, 2003.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO88
TOP
Exam Duration: 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4060
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC CIRCUITS-I LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Transistor biasing and stabilization
Regulation characteristics of Half Wave Rectifier (HWR) with and without filters
Regulation characteristics of FWR with or without filters
Zener Voltage Regulators
78xx and 79xx IC Voltage Regulators
DC Power Supply
Class B push pull / Class C tuned amplifier using transistor
Frequency response characteristics of RC coupled amplifier (two or more stages)
Darlington / Complementary symmetry pair amplifier
Common source FET amplifier / DC Chopper amplifier using FET
Power control circuit using SCR (Example Fan regulator)
Basic Combinatorial Circuits – Gate Verification, Adder and Subtractor using gates / 4 bit Adder and
Subtractor using IC
Code Converter
Parity Generator and Checker
Encoder and Decoder / Multiplexer and Demultiplexer
Counter Design using Flip-Flops
Shift-Register Design using Flip-Flops
SEC4061
ELECTRONIC CIRCUITS - II LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
Effect of Negative Feedback over Amplifier
Hartley Oscillator / Colpitts Oscillator
RC Phase Shift Oscillator
Mono Stable Multivibrator using Transistors
Astable Multivibrator using Transistors
Blocking Oscillator / Saw Tooth Generator
Study of IC 741 ( Comparison of Ideal and Practical Characteristics of Op-Amp )
Application of Op-Amp (Adder, Sign Changer, Multiplier and Divider)
RC Oscillator / Wien bridge Oscillator using Op-Amp 741
Astable Multi Vibrator / Monostable Multi Vibrator using op-amp 741
Precision Rectifier using Op-Amp 741/ Voltage Amplifier using OP AMP
Schmitt trigger using IC 741
PLL as Frequency Multiplier
Active filters/ Wave shaping Circuits
Timer circuit using NE555
Op-amp as a Comparator
B.E. / B. Tech REGULAR
BACK TO114
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4056
FACULTY OF ELECTRICAL AND ELECTRONICS
COMMUNICATION LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
AM Modulator
AM Demodulator with different RC time constants
FM Modulator
Ratio detector as FM Demodulator
Pre-emphasis & De-emphasis
PLL as a demodulator
Effects of simple AGC over audio amplifier
Frequency response characteristics of IF amplifier
Construction and testing of a mixer stage
Verification of Sampling theorem
Pulse amplitude modulator using IC 555
Pulse Duration Modulation using IC 555
Balanced modulator circuit using MC1496
Synchronous Detector
Frequency Division Multiplexing
Squench circuit
SEC4057
NETWORKS AND INSTRUMENTATION LAB
(For ETCE)
L
0
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
Verification of KCL & KVL
Verification of Network theorems - Thevenin’s and Norton’s theorems, Superposition Theorem
Time and Frequency Response of RLC Circuits -Series and parallel resonance
Constant K-filters (LPF, HPF)
M derived filters (LPF, HPF)
Attenuators
Equalizers
Matching network
Twin-T network as notch filter
Calibrate the given ammeter and voltmeter
Extend the range of given voltmeter and ammeter
Construct and test the performance of Wheatstone bridge
Measure the amplitude and frequency of signals using dual trace CRO (Study of CRO and Function
Generator)
Measure the frequency and phase angle using CRO by Lissajous figure / Measure voltage and current
using CRO
Measurement of capacitance and inductance using bridge circuits.
Test the performance of LVDT
Measure of strain using strain gauge.
Determine the characteristics of a Thermistor
Test the performance of a load cell
Construct and test the performance of a Photo Electric Transducer
B.E. / B. Tech REGULAR
BACK TO112
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1204
FACULTY OF ELECTRICAL AND ELECTRONICS
ENGINEERING MATHEMATICS - IV
(Common to ALL branches except BIO Groups, CSE & IT)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
The ability to identify, reflect upon, evaluate and apply different types of information and knowledge to form
independent judgments. Analytical, logical thinking and conclusions based on quantitative information will be the
main objective of learning this subject.
UNIT 1
FOURIER SERIES
13 Hrs.
Definition- Dirichlets conditions- coefficients- Fourier series for the function defined in [c, c+2π],[c, c+2l] Parseval’s identity ( without proof) - Half range cosine series and sine series of f(x) defined in [0,π],[0,l] - simple
problems - Harmonic Analysis.
UNIT 2
APPLICATIONS OF PARTIAL DIFFERENTIAL EQUATIONS
13 Hrs.
One dimensional wave equation - Transverse vibrating of finite elastic string with fixed ends- Boundary and
initial value problems - Fourier solution - one dimensional heat equation - steady state problems with zero boundary
conditions- Two dimensional heat equation - steady state heat flow in two dimensions- Laplace equation in Cartesian
form( No derivations required).
UNIT 3
ALGEBRAIC AND TRANSCENDENTAL EQUATIONS
11 Hrs.
Solution of Algebraic equation by Regula Falsi Method , Newton Raphson Method - Solution of simultaneous
linear algebraic equations - Gauss Elimination Method , Gauss Jacobi & Gauss Seidel Method.
UNIT 4
INTERPOLATION , NUMERICAL DIFFERENTATION & INTEGRATION
11 Hrs.
Interpolation- Newton forward and backward interpolation formula- Lagranges formula for unequal intervalsNumerical differentiation- Newton’s forward and backward differences to compute first and second derivativesNumerical integration - Trapezoidal rule - Simpson’s one third rule and three eighth rule.
UNIT 5
NUMERICAL SOLUTIONS OF ORDINARY DIFFERENTIAL
EQUATIONS AND PARTIAL DIFFERENTIAL EQUATIONS
12 Hrs.
Ordinary differential equations - Taylor series method - Runge Kutta method for fourth order- Partial
differential equations - Finite differences - Laplace equation and its solutions by Liebmann’s process- Solution of
Poisson equation - Solutions of parabolic equations by Bender Schmidt Method - Solution of hyperbolic equations.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1. Kreyszig, E., Advanced Engineering Mathematics, (8th Edition), John Wiley and Sons (Asia)Pte Ltd., Singapore, 2001.
2. Grewal,B.S., Higher Engineering Mathematics, Tata Mcgraw Hill Publishing Co., New Delhi, 1999.
3. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics, (4th Revised Edition), S.Chand&Co., New
Delhi, 2001.
4. Veerarajan,T., Engineering Mathematics, Tata Mcgraw Hill Publishing Co., NewDelhi, 1999
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO5TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1206
FACULTY OF ELECTRICAL AND ELECTRONICS
NUMBER THEORY AND LINEAR ALGEBRA
(Common to ALL branches)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
The ability to identify, reflect upon, evaluate and apply different types of information and knowledge to form
independent judgments. Analytical, logical thinking and conclusions based on quantitative information will be the
main objective of learning this subject.
UNIT 1
NUMBER THEORY - I
12 Hrs.
Divisibility theory in the integers - the division algorithm, the greatest common divisor, the Euclidean
algorithm, the Diophantine equation ax + by = c. Primes and their distribution. The fundamental theorem of
arithmetic. The sieve of Eratosthenes. The theory of congruences. Basic properties of congruence. Binary and
decimal representation of integers. Linear congruences and Chinese remainder theorem.
(Sections 2.2, 2.3, 2.4, 2.5, 3.1, 3.2, 4.2, 4.3 & 4.4 of Text 1).
UNIT 2
NUMBER THEORY - II
12 Hrs.
Fermat's little theorem and pseudoprimes Wilson's theorem. The sum and number of divisors. The greatest
integer function. Euler's phi-function. Euler's generalization of Fermat's theorem. Properties of the phi-function.
(Sections 5.2, 5.3, 6.1, 6.3, 7.2, 7.3 and 7.4 of Text 1) (Theorems 7.6 and 7.7 only).
UNIT 3
MATRIX THEORY - I
12 Hrs.
Rank of a matrix - Elementary transformation, reduction to normal form, row reduced echelon form.
Computing the inverse of a non singular matrix using elementary row transformation. (Section 4.1 to 4.13 of Text 2)
UNIT 4
MATRIX THEORY - II
12 Hrs.
System of linear homogeneous equations. Null space and nullity of matrix. Sylvester's law of nullity. Range of
a matrix. Systems of linear non homogeneous equations. Characteristic roots and characteristic vectors of a square
matrix.
UNIT 5
FUNDAMENTAL THEOREMS ON MATRIX THEORY
12 Hrs.
Some fundamental theorem. Characteristic roots of Hermitian, Skew Hermitian and Unitary matrices.
Characteristic equation of a matrix Cayley-Hamilton theorem.(Sections 6.1 to 6.6 and 11.1 to 11.3 and 11.11).
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
David M. Burton : Elementary Number Theory, Sixth Edn., TMH.
Shanti Narayanan & Mittal : A Text Book of Matrices, Revised edn., S. Chand.
C.Y. Hsiung : Elementary Theory of Numbers. Allied Publishers.
Neville Robbins : Beginning Number Theory, Second Ed. Narosa.
George E. Andrews : Number Theory, HPC.
Kenneth Hoffman & Ray Kunze : Linear Algebra, Pearson Education.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO6TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
GRAPH THEORY
SMT1207
(Common to ALL branches)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
The ability to assess and interpret complex situations in mathematical methods of solution is the main
objective of this subject.
UNIT 1
GRAPHS AND CONNECTIVITY
12 Hrs.
Isomorphic graphs, Ramsey numbers, Independent sets and Coverings, Intersection graphs and line graphs,
Operation on graphs, Walks, Trials and Paths, Connected components, Blocks, Connectivity sections 2.4, 2.5, 2.6,
2.7, 2.9, 4.0, 4.1, 4.2, 4.3, 4.4.
UNIT 2
EULER TOURS AND HAMILTON CYCLES
Eulerian and Hamiltanian graphs (omit Fleury's Algorithm) Trees
Sections : 5.0, 5.1, 5.2 (only upto and not including Theorem 5.5), 6.0, 6.1, 6.2.
12 Hrs.
UNIT 3
MATCHING AND PLANAR GRAPHS
Matchings and Planarity Sections 7.0, 7.1, 7.2, 8.0, 8.1, 8.2
12 Hrs.
UNIT 4
GRAPH COLOURING
Colourability, Chromatic numbers, Five colour theorem.
12 Hrs.
UNIT 5
DIRECTED GRAPHS
12 Hrs.
Chromatic polynomials,Directed graphs, Paths and Connectedness. Sections: 9.0, 9.1, 9.2, 9.4, 10.0, 10.1,
10.2.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
S. Arumugam & S. Ramachandran, “ Invitation to Graph Theory”, Scitech Publications, Chennai-17.
R.J. Wilson, “Introduction to Graph Theory”, 4th ed., LPE, Pearson Education.
J.A. Bondy & U.S.R. Murty, “Graph Theory with Applications”.
J. Clark & D.A. Holton, “A First Look at Graph Theory”, Allied Publishers.
N. Deo, “Graph Theory with Application to Engineering and Computer Science”, PHI.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO7TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
APPLIED STATISTICS
SMT1208
(Common to ALL branches)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
Analytical, logical thinking and conclusions based on quantitative information will be the main objective of
learning this subject.
UNIT 1
DESCRIPTIVE STATISTICS
12 Hrs.
Univariate data : Skewness and kurtosis- Pearson's and Bowley's coefficient of skewness- moment measures
of skewness and kurtosis.
UNIT 2
CORRELATION AND REGRESSION ANALYSIS
14 Hrs.
Analysis bi-variate data: Curve fitting-fitting of straight lines,parabola,power curve and exponential curve.
Correlation- Pearson's correlation coefficient and rank correlation coefficient - partial and multiple correlation-formula
for calculation in 3 variable cases-Testing the significance of observed simple correlation coefficient. Regressionsimple linear regression,the two regression lines, regression coefficients and their properties.
UNIT 3
TIME SERIES ANALYSIS
10 Hrs.
Time series:Components of time series-measurement of trend by fitting polynomials-computing moving
averages-seasonal indices-simple average-ratio to moving average.
UNIT 4
STATISTICAL QUALITY CONTROL
12 Hrs.
Statistical Quality control: Concept of statistical quality control,assignable and chance causes,process control.
Construction of control charts,3 sigma limits. Control chart for variables-X-bar chart and R chart. Control chart for
attributes -p chart, d chart and c chart.
UNIT 5
DESIGN OF EXPERIMENTS
12 Hrs.
Analysis of variance : One way and two wayclassifications. Null hypotheses , total, between and within sum of
squares. Assumptions-ANNOVATable.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Veerarajan. T., “Probability, Statistics and Random Processes”, Tata McGraw-Hill, New Delhi.
Goon A.M ,Gupta M.K.& Das Gupta:Fundementals of Statistics .Vol.I The World Press,Calcutta
S.C.Gupta & V.K.Kapoor:Fundementals of Applied Statistics Sultan Chand & Sons
S.P.Gupta:Statistical Methods, Sultan Chand, New Delhi.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO8TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SMT1209
FACULTY OF ELECTRICAL AND ELECTRONICS
FOUNDATIONS OF MATHEMATICS
(Common to ALL branches)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
Understand the basic rules of logic, including the role of axioms or assumptions and appreciate the role of
mathematical proof in formal deductive reasoning and able to distinguish a coherent argument from a fallacious one,
both in mathematical reasoning and in everyday life.
UNIT 1
SET THEORY - I
13 Hrs.
Pre-requisites: Sets, subsets, Set operations and the laws of set theory and Venn diagrams. Examples of finite and
infinite sets. Finite sets and the counting principle. Empty set, properties of empty set. Standard set operations. Classes of
sets. Power set of a set (Quick review). Cartesian product of two and more sets, relations. Difference and Symmetric
difference of two sets. Set identities, Generalized union and intersections (As in section 1.7 of Text book 1).
UNIT 2
SET THEORY - II
12 Hrs.
Relations: Product set, Relations (Directed graph of relations on set is omitted). Composition of relations,
Types of relations, Partitions, Equivalence relations with example of congruence modulo relation, Partial ordering
relations, n-ary relations. (As in Chapter 3 of text book 2 excluding 3.7).
UNIT 3
TYPES OF FUNCTION
13 Hrs.
Functions Pre-requisites: Basic ideas such as domain, co-domain and range of functions. Equality of
functions, Injection, Surjection and Bijection (Quick review). Syllabus: Identity function, constant functions, product
(composition) of functions, theorems on one-one and onto functions, Mathematical functions, Recursively defined
functions (As in Chapter 4 of text book 2). Indexed collection of sets, Operations on indexed collection of sets (As in
5.1, 5.2 and 5.3 of text book 2). Special kinds of functions, Associated functions, Algorithms and functions,
Complexity of Algorithms (As in Chapter 5.7 of text book 2). Equipotent sets, Denumerable and countable sets,
Cardinal numbers (Definitions and examples only as in 6.1, 6.2, 6.3 and 6.5 of text book 2).
UNIT 4
BASIC LOGIC - I
11 Hrs.
Basic Logic-1 Introduction, propositions, truth table, negation, conjunction and disjunction. Implications,
biconditional propositions, converse, contra positive and inverse propositions and precedence of logical operators.
Propositional equivalence: Logical equivalences. Predicates and quantifiers: Introduction, Quantifiers, Binding
variables and Negations. (As in Chapter 1 of Text book 1).
UNIT 5
BASIC LOGIC - II
11 Hrs.
Basic Logic-2 Methods of proof: Rules of inference, valid arguments, methods of proving theorems; direct
proof, proof by contradiction, proof by cases, proofs by equivalence, existence proofs, uniqueness proofs and
counter examples. (As in Chapter 1 of Text book 1).
Max. 60 Hours
TEXT / REFERENCE BOOKS
1. K.H. Rosen, “Discrete Mathematics and its Applications” (fifth edition), Tata McGraw Hill Publishing Company, New Delhi.
2. S. Lipschutz, “Set Theory and related topics” (Second Edition), Schaum Outline Series, Tata McGraw-Hill Publishing
Company, New Delhi.
3. P.R. Halmos, “Naive Set Theory”, Springer.
4. E. Kamke, “Theory of Sets”, Dover Publishers.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 questions of 2 marks each - No choice
PART B : 2 questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO9TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1201
FACULTY OF ELECTRICAL AND ELECTRONICS
MICROPROCESSORS AND MICROCONTROLLERS
(For ECE, ETCE, E&C, CSE and IT)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To understand the operation of microprocessors and microcontrollers, machine language programming,
interfacing techniques and their applications.
UNIT 1
INTRODUCTION TO MICROPROCESSORS
9 Hrs.
Introduction, 8085 Architecture, Pin Diagram and signals, Addressing Modes, Timing Diagram- Memory read,
Memory write, I/O cycle, Interrupts and its types, Introduction to 8086 microprocessors and its operation.
UNIT 2
PROGRAMMING 8085 MICROPROCESSOR
9 Hrs.
8085 assembly language programming, addressing modes, 8085 instruction set, Instruction formats,
Instruction Classification: data transfer, arithmetic operations, logical operations, branching operations, machine
control —Stack and subroutines, Example Programs
UNIT 3
PERIPHERALS AND INTERFACING
9 Hrs.
Introduction, memory and I/O interfacing, data transfer schemes, Interface ICs’- USART (8251),
programmable peripheral interface (8255), programmable interrupt controller (8259), programmable counter/interval
timer (8254), Analog to Digital Converter (ADC), and Digital to Analog Converter (DAC).
UNIT 4
INTRODUCTION TO MICROCONTROLLER
9 Hrs.
Introduction to microcontrollers, Difference between microprocessors and microcontrollers, Architectural
features of 8051, I/O Ports, Interrupts, Addressing Modes and Instruction set of 8051, Programming examples.
UNIT 5
APPLICATIONS BASED ON 8085 AND 8051
9 Hrs.
Interfacing Basic concepts, interfacing LED, 7 segment LED, Stepper motor control system, Temperature
control system, Traffic light control system, Motor speed control system, Waveform generation, Interfacing LCD.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Ramesh Gaonkar, “Microprocessor Architecture, Programming and applications with 8085”, 5th Edition, Penram
International Publishing Pvt Ltd, 2010.
Kenneth J Ayala, “The 8051 Microcontroller”, 2nd Edition, Thomson, 2005.
Nagoor Kani A, “Microprocessor and Microcontroller”, 2nd Edition, Tata McGraw Hill, 2012.
Mathur A.P. ” Introduction to microprocessor .“
Muhammad Ali Mazidi.”The 8051 Microcontroller and Embedded Systems.”
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO31
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1206
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC CIRCUITS - II
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
The objective of this course is to publicize the student with the design and analysis of feedback amplifiers,
oscillators, tuned amplifiers, wave shaping circuits, multivibrators and blocking oscillators.
On completion of this course the student will recognize
Analysis of different types of feedback amplifiers and oscillators.
Frequency response and design of tuned amplifiers.
Basic operation and design of wave shaping circuits and multivibrators.
Analysis of time base generators and blocking oscillators.
UNIT 1
FEEDBACK AMPLIFIERS
9 Hrs.
Basic concept of feedback-Types of Feedback - Properties of negative feedback - Basic Feedback Topologies
- Types of negative feedback connection - effect of negative feedback on stability, noise, distortion, gain, input and
output impedance, bandwidth- analysis of voltage and current feedback amplifier.
UNIT 2
OSCILLATORS
9 Hrs.
Condition for Oscillation (Barkhausen Criterion) -Classification of Oscillators -General form of LC Oscillator Analysis of LC Oscillator, Colpitts, Hartley, Clapp , Armstrong, Crystal Oscillator - Analysis of RC Oscillator, RC
Phase Shift Oscillator - Wein Bridge Oscillator.
UNIT 3
TUNED AMPLIFIERS
9 Hrs.
Resonance Circuits, Unloaded and Loaded Q of Tank Circuit - Bandwidth - Types of Tuned Amplifiers Analysis of Capacitive coupled and inductive coupled Single Tuned Amplifier - Double Tuned Amplifier-Stagger
Tuned Amplifier - Instability of Tuned Amplifier -Stabilization Techniques, Neutralization and Unilaterlization - Class C
Tuned Amplifiers.
UNIT 4
WAVE SHAPING AND MULTIVIBRATOR CIRCUITS
9 Hrs.
High Pass RC, RL Circuits and their Response for Step, Ramp and Exponential signal -Low Pass RC, RL
Circuits and their Response for Step, Ramp and Exponential signal -Multivibrators- Collector Coupled Astable,
Monostable, Bistable Multivibrators and Schmitt Trigger Circuits.
UNIT 5
TIME BASE GENERATORS AND BLOCKING OSCILLATORS
9 Hrs.
Principle of Time Based Generator - Voltage Time Based Generator -Current time Based Generator- Astable
Blocking Oscillator using Emitter Timing -Astable Blocking Oscillator using Base Timing-Monostable Blocking
Oscillator using Emitter Timing- Monostable Blocking Oscillator using base Timing.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Millman. J And Taub.H, “Pulse, Digital and Switching Waveforms”, TMH, 2000.
Mithal G.K, “Electronic Devices and Circuits”, Khanna Publishers, 23rd Edition, 2004.
David A. Bell, “Solid State Pulse Circuits”, PHI, 2002.
Venkatraman. R, “Pulse, Digital Circuits and Computer Fundamentals”, DhanpatRai Publications (P) Ltd., 1986
Jacob Millman and C. Halkias, “Integrated Electronics, Analog and Digital Circuits and Systems”, McGraw Hill, 1997.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO36
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1209
FACULTY OF ELECTRICAL AND ELECTRONICS
ANALOG COMMUNICATIONS
(For ETCE and ECE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
On completion of this course the student can understand the basics of various analog modulation techniques,
transmitters, receivers and the concepts of analog communication systems
UNIT 1
BASICS OF ELECTRONIC COMMUNICATION AND NOISE THEORY
9 Hrs.
Review of time and frequency domain description of signals - Communication system: point to point and
broad cast - Basic model of a communication system: transmitter, receiver and channel - Fundamental limitations:
Technological, Physical; Noise, bandwidth (signal and channel) and information capacity - Need for modulation and
types - classification of communication based on modulation and channel - Base band and Pass band transmission Electromagnetic spectrum allocation for various communication systems. Noise in Communication systems: Types
and sources of noise; Atmospheric Noise, Thermal Noise, Shot noise, Partition noise, Flicker noise, Transit time
noise - noise factor, noise factor for cascaded amplifier (Friss formula) -Noise figure - Equivalent noise temperature
and bandwidth - Signal to Noise Ratio.
UNIT 2
AMPLITUDE MODULATION AND DEMODULATION
9 Hrs.
STD-AM (DSB-FC) Mathematical representation - waveform, frequency spectrum, bandwidth, power relations
and Modulation index - Multi tone modulation - Limitations and Modifications in STD-AM: DSB-SC, SSB-SC and VSB
AM Generation (Modulators): DSB-FC; square law modulator, Collector and base modulator circuits - DSBSC; Balanced modulator circuit using BJT/FET - SSB: Phase shift method and Filter method - VSB; Filter methodApplication and Comparison of various AM schemes - AM transmitter: Low and high level Modulation. AM Detection
(Demodulators) - Envelope detector, Significance of RC time constant - Square law detector - Costa’s PLL detector
UNIT 3
ANGLE (FM & PM) MODULATION AND DEMODULATION
9 Hrs.
Single tone FM: Mathematical representation, waveform, frequency spectrum, modulation index, bandwidth
and power - Multi-tone FM - Types and comparison of FM: Narrowband and Wideband - Compare FM and AM Phase
modulation (PM): Mathematical representation and waveform - Relation between FM and PM - Conversion: FM to
PM and PM to FM - Application of FM and PM. FM Generation: Direct method using Varactor diode and indirect
method (Armstrong modulator) - Pre-emphasis - FM stereo broadcast transmitter. FM Detector: Balanced slope
detector, Foster seelay frequency discriminator and Ratio detector - De- emphasis
UNIT 4
ANALOG PULSE MODULATION, DEMODULATION AND MULTIPLEXING
9 Hrs.
Analog pulse modulation - Sampling theorem - Nyquist rate - Concepts of PAM, PWM (PDM) and PPM Modulators and demodulators. Multiplexing- classifications: Frequency Division Multiplexing, Time Division
Multiplexing and Quadrature Multiplexing - Comparison of multiplexing.
UNIT 5
RECEIVERS AND SYSTEMS
9 Hrs.
AM Receivers: TRF receivers -Super heterodyne receivers: choice of IF, double conversion technique, tracking,
AGC- characteristics of receiver - noise in AM receiver. FM Receivers: FM stereo broadcast receivers - AFC - Noise in FM
- Capture effect, FM threshold effect. Communication Receivers: Sensitivity, fidelity and selectivity - Squelch circuit - Beat
frequency Oscillator. Overview of Telephony, Telegraphy, Television, CCTV and Cable television.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
R.P and Sapre, "Communication Systems: Analog and Digital", 2nd Edition 1995 / 5th Edition Reprint 2000, McGraw Hill Publishers.
Deshpande, N.D, Communication Electronics, Tata McGraw Hill Publishers,1989.
Wayne Thomasi, "Advanced Electronic Communication Systems", 6th Edition, PHI Publishers, 2003.
Sanjay Sharma, “Analog Communication Systems”, 2009.
Dennis Reddy and John Coolen, "Electronic Communications", 4th Edition, Prentice Hall Publishers, 1995.
Kennedy, "Electronic Communications Systems", 4th Edition, McGraw-Hill Publishers, 1992.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO39
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Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1302
FACULTY OF ELECTRICAL AND ELECTRONICS
ANALOG INTEGRATED CIRCUITS
(For ECE, EEE, EIE, ETCE and E&C)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To comprehend the concepts of Op-Amp and its application
To study the various Filters and signal generators
To acquire knowledge about ADC and DAC
To study the basic principles of PLL and Timer Circuit
To understand the concept of Special function ICs
UNIT 1
INTRODUCTION TO OP- AMP AND ITS APPLICATIONS
9 Hrs.
OP-AMP- DC and AC Characteristics- Input offset voltage- Input bias current-Input offset current- Total output
offset voltage- Thermal drift- Slew rate- CMRR -Inverting amplifier- Non-inverting amplifier- Voltage followerSumming and differential amplifier- Integrator- Differentiator- Logarithmic and Anti logarithmic amplifiers-Comparator
and Schmitt trigger.
UNIT 2
FILTERS AND SIGNAL GENERATORS
9 Hrs.
First order and Second order Butterworth filters- low pass, high pass, band pass and band reject filters -RC
phase shift, Wein’s bridge oscillator- Astable and Monostable multivibrator-Precision half wave and full wave
rectifiers.
UNIT 3
A/D AND D/A CONVERTERS
9 Hrs.
Sample and Hold circuit - Digital to analog converters: R-2R ladder network and Binary weighted Characteristics of D/A converters - Analog to digital converters: Flash converter - Successive approximation
converter - Dual slope ADC.
UNIT 4
PLL AND TIMER CIRCUITS
9 Hrs.
Phase Locked Loop IC 565- Block schematic - Applications of PLL: FM demodulator and Frequency synthesizerFSK Demodulator- VCO IC LM 566 - Timer IC LM 555 and its applications: Astable and Monostable multivibrator.
UNIT 5
SPECIAL FUNCTION ICS
9 Hrs.
Integrated circuit Tuned amplifier, Instrumentation Amplifier, Series and shunt voltage regulator, Opto coupler,
CMOS Operational Amplifier- Dc analysis- small signal analysis- specifications of IC MC 14573.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Ramakant A.Gayakwad, “OP-AMP and Linear ICs”, 4th Edition, Prentice Hall / Pearson Education, 1994.
D.Roy Choudary, Shail Jain, “Linear Integrated Circuits”, New Age International Pvt. Ltd., 2000.
Grey and Meyer, “Analysis and Design of Analog Integrated Circuits, 4th Edition, Wiley International, 2001.
Michael Jacob, “Applications and Design with Analog Integrated Circuits, 2nd Edition, Prentice Hall of India, 1993.
S. Salivahanan, V.S. Kanchana Bhaaskaran, “Linear integrated circuits”, 3rd Edition, McGraw-Hill, 2011.
William D.Stanely, “Operational Amplifiers with Linear Integrated Circuits”, 4th Edition, Pearson Education, 2004.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO43
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEE1202
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTROMAGNETIC THEORY
(For ECE,EEE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To impart knowledge on the concepts of Electro-magnetic field which is essential for understanding the
working principle, design and analysis of Electrical machines and Systems.
UNIT 1
ELECTRIC FIELDS
9 Hrs.
Introduction - Concepts of Different Co-Ordinate Systems - Coulomb’s Law, Electric Field Intensity, Electric
Field due to Point Charge, Line Charge, Surface Charge and Volume Charge Distributions - Electric Flux Density Gauss Law - Application of Gauss Law - Electric Potential - Potential Gradient - Divergence and Divergence
Theorem - Poisson’s and Laplace equation.
UNIT 2
CONDUCTORS AND DIELECTRICS
9 Hrs.
Field due to Dipoles - Dipole Moment - Boundary Conditions at Dielectric and Conductor Surfaces - Capacitor
and Capacitance of a System of Conductors - Energy Stored and Energy Density - Capacitance due to Spherical
Shell, Coaxial cable and Two Wire Transmission Line - Electrostatic Potential Energy Associated with Different
Charges.
UNIT 3
MAGNETIC FIELDS
9 Hrs.
Current and Current Density - Conduction and Convection Current - Force on a Current Element - BiotSavart’s law - Force between Current Carrying Conductors - Torque on Closed Conductors - Ampere’s LawMagnetic Flux Density - Curl and Stokes Theorem - Magnetic Vector Potential - Boundary Condition at the Magnetic
surfaces.
UNIT 4
FARADAY’S LAWS OF ELECTROMAGNETIC INDUCTION
9 Hrs.
Faradays’ Laws - Self and Mutual Inductance - Inductance of Solenoids, Toroids, Transmission Lines and
Cables - Energy Stored and Density in Magnetic Circuits.
UNIT 5
MAXWELL’S EQUATION AND ELECTROMAGNETIC WAVES
9 Hrs.
Concept of Displacement and Conduction Current - Modified Ampere’s Circuital Law - Maxwell’s Equations in
point and Integral Forms - Wave Equations - Plane Waves in Free Space - Polarization - Poynting’s Theorem and
Poynting Vector and its Significance - Energy in Electromagnetic Field.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
K.A. Gangadhar, “Electromagnetic Field Theory (Including Antenna Wave Propagation”, Khanna Publisher New Delhi, 2009.
Karl.E.Lonngren, Sava.V.Savov, “Fundamentals of Electromagnetics with MATLAB”, PHI, 2005.
William Hayt, “Engineering Electromagnetics”, Tata McGraw - Hill, New York, 7th Edition, 2006,
R.Meenakumari & R.Subasri, “Electromagnetic Felds”, New Age International Publishers, 2nd Edition, 2007.
E.C.Jordan & K.G.Balmain, “Electromagnetic Waves & Radiating Systems”, Prentice- Hall, 2006.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of Internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO70
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4060
FACULTY OF ELECTRICAL AND ELECTRONICS
ELECTRONIC CIRCUITS-I LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Transistor biasing and stabilization
Regulation characteristics of Half Wave Rectifier (HWR) with and without filters
Regulation characteristics of FWR with or without filters
Zener Voltage Regulators
78xx and 79xx IC Voltage Regulators
DC Power Supply
Class B push pull / Class C tuned amplifier using transistor
Frequency response characteristics of RC coupled amplifier (two or more stages)
Darlington / Complementary symmetry pair amplifier
Common source FET amplifier / DC Chopper amplifier using FET
Power control circuit using SCR (Example Fan regulator)
Basic Combinatorial Circuits – Gate Verification, Adder and Subtractor using gates / 4 bit Adder and
Subtractor using IC
Code Converter
Parity Generator and Checker
Encoder and Decoder / Multiplexer and Demultiplexer
Counter Design using Flip-Flops
Shift-Register Design using Flip-Flops
SEC4061
ELECTRONIC CIRCUITS - II LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
Effect of Negative Feedback over Amplifier
Hartley Oscillator / Colpitts Oscillator
RC Phase Shift Oscillator
Mono Stable Multivibrator using Transistors
Astable Multivibrator using Transistors
Blocking Oscillator / Saw Tooth Generator
Study of IC 741 ( Comparison of Ideal and Practical Characteristics of Op-Amp )
Application of Op-Amp (Adder, Sign Changer, Multiplier and Divider)
RC Oscillator / Wien bridge Oscillator using Op-Amp 741
Astable Multi Vibrator / Monostable Multi Vibrator using op-amp 741
Precision Rectifier using Op-Amp 741/ Voltage Amplifier using OP AMP
Schmitt trigger using IC 741
PLL as Frequency Multiplier
Active filters/ Wave shaping Circuits
Timer circuit using NE555
Op-amp as a Comparator
B.E. / B. Tech REGULAR
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REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4056
FACULTY OF ELECTRICAL AND ELECTRONICS
COMMUNICATION LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
AM Modulator
AM Demodulator with different RC time constants
FM Modulator
Ratio detector as FM Demodulator
Pre-emphasis & De-emphasis
PLL as a demodulator
Effects of simple AGC over audio amplifier
Frequency response characteristics of IF amplifier
Construction and testing of a mixer stage
Verification of Sampling theorem
Pulse amplitude modulator using IC 555
Pulse Duration Modulation using IC 555
Balanced modulator circuit using MC1496
Synchronous Detector
Frequency Division Multiplexing
Squench circuit
SEC4057
NETWORKS AND INSTRUMENTATION LAB
(For ETCE)
L
0
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
Verification of KCL & KVL
Verification of Network theorems - Thevenin’s and Norton’s theorems, Superposition Theorem
Time and Frequency Response of RLC Circuits -Series and parallel resonance
Constant K-filters (LPF, HPF)
M derived filters (LPF, HPF)
Attenuators
Equalizers
Matching network
Twin-T network as notch filter
Calibrate the given ammeter and voltmeter
Extend the range of given voltmeter and ammeter
Construct and test the performance of Wheatstone bridge
Measure the amplitude and frequency of signals using dual trace CRO (Study of CRO and Function
Generator)
Measure the frequency and phase angle using CRO by Lissajous figure / Measure voltage and current
using CRO
Measurement of capacitance and inductance using bridge circuits.
Test the performance of LVDT
Measure of strain using strain gauge.
Determine the characteristics of a Thermistor
Test the performance of a load cell
Construct and test the performance of a Photo Electric Transducer
B.E. / B. Tech REGULAR
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REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1307
FACULTY OF ELECTRICAL AND ELECTRONICS
EMBEDDED PROCESSORS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
This course shall impart
All aspects of the design and architectural development of embedded processors for real time applications.
The design, instruction set and applications of PIC microcontroller.
The basics of ARM processor and DSP processors
UNIT 1
INTRODUCTION TO PIC MICROCONTROLLERS
9 Hrs.
Introduction to PIC - Evaluation of hardware architectures - Princeton architecture - Von Neumann
architecture- Harvard architecture - SHARC - RISC Vs CISC - Features of PIC - instruction parallelism- Architecture
of PIC 16F887- Pin Configuration - Addressing modes - Instruction set - Simple arithmetic and logical Programs.
UNIT 2
PIC ONCHIP PERIPHERALS
9 Hrs.
Memory - Core SFR - Interrupts - I/O Ports-Timers - CCP modules - Capture Mode - Compare Mode-PWM
Mode - Serial communication module - USART - SPI interface - I2C interface Analog Comparator, ADC.
UNIT 3
APPLICATIONS USING PIC
9 Hrs.
Assembly & C programming - Compilers - Assemblers - Directives - Switches & Push buttons - Relay- LEDs Interfacing seven segment displays - LCD interfacing - Keypad Interfacing, Timer Applications- Case study
Temperature monitoring System - Case study Digital Clock.
UNIT 4
ARM PROCESSOR
9 Hrs.
ARM family design - Registers - Pipeline organization 3 stage & 5 stage - Exceptions - Interrupts - Core
extensions - ARM processor families - ARM7 TDMI architecture - Memory hierarchy - Advantages of Thump
instructions.
UNIT 5
DSP PROCESSORS
9 Hrs.
Introduction - Applications Overview -fixed and floating point - Functional Diagram of TMS320C54XX- Bus
structure - Barrel Shifter - MAC unit - Memory - On-chip peripherals - Functional diagram of ADSP 218X - DAG UnitMemory architecture.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Danny Causey, Rolin McKinlay, Muhammad Ali Mazidi , “PIC Microcontroller and Embedded Systems : Using assembly and
C for PIC 18 1st Edition “- Pearson Education.
2. Andrew Sloss, Dominic Symes, Chris Wright, “ARM System Developer's Guide: Designing and Optimizing System Software”
- Elsevier.
3. B Venkataramani M Bhaskar, “Digital Signal processors Architecture, Programming and Applications” - Tata McGrawHill
Second Edition.
4. John Peatman, “Design with PIC microcontrollers” - Pearson Education.
5. www.microe.com.
6. www.analog.com.
7. www.ti.com.
8. www.dspguide.com.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO47
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1313
FACULTY OF ELECTRICAL AND ELECTRONICS
DIGITAL COMMUNICATIONS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To know the principles of sampling & quantization.
To understand the various Base Band signaling schemes.
To introduce the basic concepts of digital modulation of baseband signals.
To learn the various synchronization schemes.
To discuss about the spread spectrum modulation schemes.
UNIT 1
SAMPLING AND QUANTIZATION
9 Hrs.
Review of Sampling process -Natural Sampling-Flat Sampling - Aliasing - Signal Reconstruction-Quantization
- Uniform & non-uniform quantization - quantization noise Bandwidth -Noise trade off-PCM- Noise considerations in
PCM- differential pulse code modulation - Delta modulation -Linear prediction - Adaptive Delta Modulation.
UNIT 2
BASEBAND PULSE TRANSMISSION
9 Hrs.
Base band transmission - Wave form representation of binary digits -Matched Filter- Error Rate due to noise - Nyquist’s criterion for Distortionless Base band Binary Transmission- Inter symbol Interference - Ideal Nyquist
channel - Raised cosine channels- Correlative level coding - Baseband M-ary PAM transmission- Equalization - Eye
patterns- Companding - A law and µ law- correlation receiver.
UNIT 3
DIGITAL MODULATION TECHNIQUES
9 Hrs.
Introduction - ASK- FSK - PSK- coherent modulation techniques-BFSK-BPSK-signal space diagram-robability
of error-Coherent Quadrature modulation techniques- QPSK-signal space diagram-probability of error- Non coherent
modulation techniques-M-ary modulation techniques - Vectorial view of MPSK and MFSK - error performance.
UNIT 4
SYNCHRONIZATION
9 Hrs.
Synchronization: Receiver synchronization - Coherent systems - Symbol and frame synchronization - Network
synchronization - Open and closed loop transmitter synchronization - Tracking and acquisition in spread spectrum
system.
UNIT 5
SPREAD SPECTRUM MODULATION
9 Hrs.
Pseudo- noise sequences - a notion of spread spectrum - Direct sequence spread spectrum with coherent
binary phase shift keying - Signal space Dimensionality and processing gain -Probability of error - Frequency -hop
spread spectrum- Use of spread spectrum with code division multiple access.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Simon Haykins, “Communication Systems” John Wiley, 5th Edition, March 2009.
Taub. HDL Schilling, G Saha, ”Principles of Communication”3rd edition,2007.
John G. Proakis, Masoud Salehi, “Digital Communication”, McGraw Hill 5th edition November 6, 2007.
Bernard Sklar, “Digital Communication, Fundamentals and Application”, Pearson Education Asia, 2nd Edition, Jan. 21, 2001.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO51
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1314
FACULTY OF ELECTRICAL AND ELECTRONICS
DIGITAL SIGNAL PROCESSING
(For ECE, EIE, E&C and ETCE)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVES
To impart knowledge of signal representation in time domain, Fourier transform, sampling theorem, linear
time-invariant system, discrete convolution, z-transform, discrete Fourier transform, discrete filter design, finite
word length effects and multi-rate signal processing
To analyze signal processing and designing a signal processors (digital filters).
UNIT 1
INTRODUCTION TO SIGNALS AND SYSTEMS
12 Hrs.
Representation, Characterization and Classifications of Continuous Time (CT) & Discrete Time (DT) signals,
Sampling theorem - Aliasing effect, Operations on DT signals , Convolution, Advantages of DSP over ASP ,
Classification of CT & DT systems , properties of Discrete time systems-Linearity-Time invariance- causality -stability
-Linear time Invariant systems, Difference equation representation of LTI systems-The Z transform- properties of Z
transform- Inverse Z transform-System transfer Function.
UNIT 2
DISCRETE FOURIER TRANSFORM (DFT) AND FAST FOURIER TRANSFORM (FFT)
12 Hrs.
DFT and its properties, Relation between DTFT and DFT, FFT computations using Decimation in time (DIT)
algorithms and Decimation in frequency (DIF) algorithms, Auto correlation, Cross correlation, and their properties.
Realization of Discrete Time System: introduction, Basic Realization block diagram and the signal flow graph,
Realization of recursive and non recursive systems - Direct Form I and Form II - Cascade and parallel realization.
UNIT 3
DIGITAL FILTER DESIGN
12 Hrs.
Design of Digital Filters: General considerations: causality and its implications, characteristics of practical
frequency selective filter. Design of FIR filter using window method - Rectangular, Hanning and Hamming Windows.
Design of IIR filters using Impulse invariant and Bilinear transformation method. Review of Butterworth and
Chebyshev approximations, Frequency selective filters: Ideal filter characteristics, low pass, high pass and band
pass filters, Properties of IIR and FIR filters
UNIT 4
FINITE WORD LENGTH EFFECTS
12 Hrs.
Fixed point and floating point number representations - Comparison - Truncation and Rounding errors Quantization noise - derivation for quantization noise power -coefficient quantization error - Product quantization
error - Overflow error - Round off noise power - limit cycle oscillations due to product round off and overflow errors signal scaling.
UNIT 5
MULTIRATE SIGNAL PROCESSING
12 Hrs.
Introduction to Multirate signal processing-Decimation-Interpolation- Polyphase implementation of FIR filters
for interpolator and decimator -Multistage implementation of sampling rate conversion- Design of narrow band filters Applications of Multirate signal processing, Speech compression, Adaptive filter, Musical sound processing, Image
enhancement.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
8.
John C. Proakis & Dimities G. Manolakis, “Digital Signal Processing, Algorithm and Applications”, 4th Edition, PHI, 2009.
Sanjit K. Mitra, “Digital Signal Processing”, 2nd Edition, TMH, 1997.
B.P.Lathi, “Signal Processing & Linear systems”, Oxford, 2000.
Lyons, “Understanding Digital Signal Processing”, Addison Wesley, 1999.
Rabiner and Gold, “Theory and Application of Digital Signal Processing”, PHI, 1975.
Johny R. Johnson, “Introduction to Digital Signal Processing”, PHI,
Oppenhein & Schaffer, “Discrete Signal Processing”, PHI, 1975
Salivahanan, “Digital Signal Processing, 2nd Edition, TMH, 2010
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO52
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEE1203
FACULTY OF ELECTRICAL AND ELECTRONICS
CONTROL SYSTEMS
(For EEE, ETCE, ECE, EIE and E&C)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVES
To study and familiarize the basic concepts of system design and analysis of system in different domains
To analyse the time response of system in steady state
To impart knowledge about stability analysis and design of compensators
UNIT 1
SYSTEM CONCEPTS
14 Hrs.
Types of System - Open Loop Systems, Closed Loop Systems, Basic Elements in Control System Mathematical Models of Physical System: Differential Equation- Transfer Functions of Single Input, Single Output
and Multi Variable Systems - Simple Electrical Networks, Electrical Analogous of Mechanical Translational and
Rotational System - D.C and A.C Servomotor - Mechanical System- Translational and Rotational System - Block
Diagram Reduction Techniques - Signal Flow Graphs - Mason’s Gain Formula.
UNIT 2
TIME RESPONSE ANALYSIS OF CONTROL SYSTEMS
10 Hrs.
Standard Test Signals -Time Response of First and Second Order System, Time Domain- Specifications Generalized Error Series - Steady State Error - Static and Dynamic Error Constants.
UNIT 3
STABILITY OF CONTROL SYSTEM
12 Hrs.
Characteristics Equation - Location of Roots in S Plane for Stability - Routh Hurwitz Criterion - Root Locus
Analysis - Effect of Pole Zero Additions on Root Locus - Nyquist Stability Criterion.
UNIT 4
FREQUENCY RESPONSE ANALYSIS
12 Hrs.
Frequency Response of the System - Correlation between Time and Frequency Response - Gain and Phase
Margin - Bode Plot - Nyquist Plot (Polar Plot).
UNIT 5
COMPENSATION AND CONTROLLERS
12 Hrs.
Introduction to compensation networks - Lag, Lead and Lag Lead networks - Effect of providing Lag, Lead
and Lag-Lead compensation on system performance and design using bode plot - P, PI, PID Controllers design.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
I.J.Nagarath and M.Gopal, “Control System Engineering” New Age International (p) Limited Publishers, 2nd edition, 2009.
Kausuhio Ogata, “Modern Control Engineering”, Prentice Hall of India PVT. Ltd, 5th edition.
Richard Dorf, “Modern Control Systems”, Pearson Education Ltd, 11th Edition 2009.
M.N. Bandyo padhyay, “Control Engineering, Theory and Practice” PHI, 4th print, 2006.
N.K.Sinha, “Control Systems”, New Age International Private Limited Publishers, 3rd Edition, 1998, reprint 2004.
A.Nagoorkani, “Control System”, RBA Publications, 2nd edition, repnit 1998.
U.A.Bakshi and S.C.Goyal, “Control System Engineering”, Technical Publication, 2nd Revised reprint 2007.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of Internal choice, each carrying 12 marks
(Distribution may be 30% Theory & 70 % Numerical)
B. E. / B. Tech REGULAR
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Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1210
FACULTY OF ELECTRICAL AND ELECTRONICS
TRANSMISSION LINES AND WAVEGUIDES
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the concept of transmission lines types, various line parameters, waveguide types and
resonators. On completion of this course the student will recognize.
Characterize and analyze the transmission line parameters and Acquire knowledge about the waveguides
and resonators.
Analyze transmission lines for various frequencies and also smith-charts.
UNIT 1
TRANSMISSION LINE THEORY
9 Hrs.
Introduction - Types of transmission lines - General theory of transmission line - Line constants –
Transmission line equation - Physical significance of the equations - The Infinite line - Distortion in a line - Distortionless line -Telephone cables - Loading of lines - Types of loading - Campbell’s formula - General equation for line with
any termination - Input impedance - Open and Short circuited line. Numerical problems.
UNIT 2
RADIO FREQUENCY TRANSMISSION LINES
9 Hrs.
Line approximations - Parameters of open wire line at radio frequency, parameters of coaxial lines at
radiofrequencies, constants for the line of zero dissipation - Voltages and Currents on the dissipation-less lines input impedance of a lossless line - Wavelength and velocity of propagation - Reflection phenomena - Line losses Return loss - reflection loss- insertion loss.- Reflection coefficient, Reflection factor, Standing wave ratio, Input
impedance in terms of reflection coefficient - Practical types - Microwave Transmission line, Super Conducting
transmission line, Characteristics of different printed transmission lines.
UNIT 3
MATCHING, MEASUREMENTS AND INTERFERENCES
9 Hrs.
Types of transmission line sections - Half wave line - One eighth wave line - Quarter wave line - Properties of
quarter wave transformer - Location of Vmax and Vmin - Impedance matching - Single and double stub matching- Smith
chart - Solutions of problems using smith chart - Applications of smith chart - Measurement of line parametersMeasurement of VSWR, Wavelength, Impedance and Power - Phenomenon of corona, Methods of reducing corona
and interference.
UNIT 4
ELECTROMAGNETIC WAVES
9 Hrs.
Waves between parallel planes - Transverse electric waves -Transverse magnetic waves - Characteristics of
TE and TM waves - Transverse electromagnetic waves - Velocities of propagation - Attenuation in parallel plane
waves - Wave impedance.
UNIT 5
GUIDED WAVES AND WAVEGUIDE THEORY (QUALITATIVE TREATMENT ONLY).
9 Hrs.
Rectangular wave guides - TE and TM waves in rectangular wave guides - Dominant mode - Cut off
frequency in wave guides - Impossibility of TEM waves in wave guides - Circular wave guides- TE and TM waves in
circular wave guides - Attenuation factor and Q of wave guides-Microwave resonators introduction - rectangular
cavity resonator - Q-factor of micro wave cavities.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Edward Jordan and K.G.Balmain, “Electromagnetic waves and radiating system”, 2nd Edition, PHI, 2005.
Umeshsinha, “Transmission lines and networks”, 8th Edition, Sathya Prakashan Publishers, 2003.
John D. Ryder, “Network lines and fields”, 2nd Edition, Prentice Hall of India, 2003.
Samuel Y. Liao, “Microwave devices and circuits”, 3rd Edition, Prentice Hall of India, 2003.
David M.Pozar, “Microwave Engineering”, 2nd Edition, John Wiley, 2002.
Seth S.P., “Elements of Electromagnetic Fields”, 2nd Edition, Dhanpat Rai & Sons, 2007.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO40
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1322
FACULTY OF ELECTRICAL AND ELECTRONICS
CRYPTOGRAPHY AND NETWORK SECURITY
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To introduce security concepts
To provide fundamental understanding about cryptography
To comprehend and apply relevant cryptographic techniques for network security
UNIT 1
FUNDAMENTALS
9 Hrs.
Terminologies of Cryptography: Principles of Security - Confidentiality, Authentication, Integrity, Nonrepudiation, Access Control, Availability: Types of Attacks - Active and Passive: Classical Encryption Techniques:
Substitution Cipher - Caesar Cipher, Play Fair Cipher, Hill cipher, One Time Pad: Transposition Cipher - Rail Fence
and Simple Columnar Techniques.
UNIT 2
SYMMETRIC KEY CRYPTOGRAPHY
9 Hrs.
Symmetric Key Cryptosystems: Comparison of Stream Ciphers and Block Ciphers: Feistel Block Cipher: Block
Cipher Modes of Operation: Data Encryption Standard - Details of one round in DES:Advanced Encryption Standard.
UNIT 3
PUBLIC KEY CRYPTOGRAPHY
9 Hrs.
Modular Arithmetic: Euclidean Algorithm: Fermat’s and Euler’s Theorem; Chinese Remainder Theorem: Principles
of Public Key Cryptosystems; Key Management - Distribution of Public Keys, Use of Public Key Encryption to Distribute
Secret Keys: RSA Algorithm: Diffie-Hellman Key Exchange; Concepts of Elliptic Curve Cryptography.
UNIT 4
SECURITY FUNCTIONS & APPLICATIONS
9 Hrs.
Authentication Requirements: Message Authentication Codes - Requirements for MAC, Basic Uses of MAC:
Hash Functions - Requirements for a Hash function, Simple Hash function, Basic Uses of Hash Function, MD-5:
Kerberos: X.509 Authentication Service – Certificate: E-Mail Security - Pretty good Privacy, S/MIME.
UNIT 5
NETWORK & SYSTEM SECURITY
9 Hrs.
IP Security - IP Security Architecture, Authentication Header, Encapsulating Security Payload, Benefits,
Applications; Web Security - Secure Socket Layer, Secure Electronic Transaction - Payment Processing; Firewalls Design Principles, Characteristics, Types of Firewalls: Antivirus approaches.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Atul Kahate, “Cryptography and Network Security”, 2nd Edition, Tata McGraw-Hill Education Pvt. Ltd., New Delhi, 2011.
William Stallings, “Cryptography and Network Security - Principles and Practices”, 4th Edition, Prentice-Hall of India Pvt.
Ltd., New Delhi, 2006.
Behrouz A. Forouzan, “Cryptography & Network Security”, Tata Mc Graw Hill, 2007.
Niels Ferguson and Bruce Schneier, “Practical Cryptography”, John Wiley & Sons, 2003.
Niels Ferguson, Bruce Schneier, Tadayoshi Kohno, “Cryptography Engineering- Design Principles and Practical
Applications”, Wiley Publishing, Inc, Indiana, 2010.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
(60%Theory and 40% Numerical)
B. E. / B. Tech REGULAR
BACK TO59
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
MICROCONTROLLERS LAB
SEC4066
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Study of 8051
8 Bit Addition and subtraction
8 bit multiplication and division
Addition & Subtraction of sixteen bit numbers.
Transferring a Block of data - Internal to External memory, External to External memory and, External to
Internal memory
8-bit Conversion - ASCII to equivalent Hexa decimal and vice versa, Hexa to Decimal and vice-versa
Largest and smallest number from the given array
Arrange the given numbers in ascending and descending order
Find the factorial of a given numbers
Segregation of odd and even numbers
Find the square root of a given numbers
Filling External and Internal Memory
DAC Interfacing
Stepper Interfacing
Servo Interfacing
ADC Interfacing
Elevator Interfacing
SEC4067
MICROPROCESSOR AND MICROCONTROLLER
LAB
(For ECE)
L
T
P
Credits
Total Marks
0
0
4
2
100
SUGGESTED LIST OF EXPERIMENTS
MICROPROCESSOR- 8085
1.
2.
3.
Programs using Arithmetic Operations.
Programs for Code Conversions.
Largest, Smallest and Sorting of an Array (8085).
MICROCONTROLLER- 8051
1.
2.
3.
4.
5.
6.
7.
Data Transfer Programs
Programs using Logical Instructions.
Programs using Boolean Instructions.
Reading and Writing on a Parallel Port.
Stepper Motor Controller.
Timer in Different Modes.
Serial Communication Implementation.
B.E. / B. Tech REGULAR
BACK TO117
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4068
FACULTY OF ELECTRICAL AND ELECTRONICS
MICROPROCESSOR LAB
(For EEE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
I. PROGRAMS USING 8085 PROCESSOR
1. Programs for 8 bit Addition, Subtraction, Multiplication, and Division.
II. PROGRAMS USING 8086 PROCESSOR
1. Perform 32 Addition of two numbers.
2. Counting numbers of 1’s in word.
3. Arithmetic mean of Square of N Numbers.
4. Code Conversion – BCD to ASCII Conversion, ASCII to BCD Conversion.
5. Finding largest & smallest of given 16 bit Numbers.
6. To Sort given set of Numbers in Ascending & Descending Order.
7. Program using look up table Concept.
8. Matrix Manipulation – 16 bit addition
9. Perform LCM of two 16 bit numbers, GCD of four 16 bit numbers.
10. Generate Fibonacci Series, Factorial of given Numbers.
III. INTERFACING WITH 8086
1. Interfacing 8086 with Stepper motor. Use Step angle Calculation & rotate motor to a Specified angle.
2. Interface 8086 with DC motor & Control the Speed of the DC Motor using PWM.
3. Interface 8086 With ADC & display the digital input, Perform the resolution calculation and cross verify
the result.
4. Interface 8086 With DAC & display the following waveform in CRO.
a). Triangular
b). Saw tooth
c). Staircase
5. Interface 8086 with 7 segment display to display numbers as Characters.
6. Interface 8086 with LCD to display the name of the person.
SEC4069
SIGNAL PROCESSING LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Study of DSP Processor (TMS320c5416)
Arithmetic operations
Logical operations
Convolution of two sequence using MACD and MACP
Correlation of two sequence
Shifting and Negation for the given number
Reveal the concept of circular Buffer
Convolution using FIR
Block movement of data transfer
Waveform generation (square wave, sawtooth wave)
B.E. / B. Tech REGULAR
BACK TO118
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1301
FACULTY OF ELECTRICAL AND ELECTRONICS
ANTENNAS AND WAVE PROPAGATION
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the concept of antenna and its elements.
To acquire knowledge about various antennas used for various frequencies.
To acquire knowledge about various antenna parameters measurements.
To understand the concept of RF wave propagation.
UNIT 1
FUNDAMENTALS OF ANTENNA
9 Hrs.
Basic concepts of Retarded Potentials - Antenna Fundamentals and Physics - Radiation from an alternating
current element, Half wave Dipole, quarter wave mono pole - Fields, Power radiated and Radiation Resistance Antenna Parameters(definition only): Field Patterns, Gain and Directivity, Effective Length, Effective Aperture,
Radiation Resistance, Antenna Terminal (self and mutual) Impedance, Polarization, Beam width, Bandwidth.
UNIT 2
ANTENNA ARRAYS
9 Hrs.
Arrays of two point sources. Linear arrays of point sources - Direction of Maxima, Direction of Minima and Beam
Width - Types of arrays - Broad side, End fire, Colinear, Parasitic arrays. Pattern Multiplication - Binomial arrays.
UNIT 3
SPECIAL PURPOSE ANTENNAS (QUALITATIVE TREATMENT ONLY)
9 Hrs.
Antennas for low, medium and high frequencies. Effects of earth on radiation patterns of antennas. Practical
antennas and methods of excitation. Loop antennas, Traveling Wave antennas - V and rhombic antennas, Folded
Dipole, Reflector antennas, Yagi arrays and its applications. Slot radiators, Horn antennas, Parabolic Antenna, Lens
Antenna and Wide band antennas - Log-periodic antennas and its applications. Analysis of rectangular and circular
microstrip antenna. Smart antennas for mobile communications. Antenna for infrared detectors.
UNIT 4
PROPAGATION
9 Hrs.
Factors involved in the propagation of Radio Waves. The ground wave, Ionosphere and its effects on radio
waves. Mechanism of Ionospheric propagation. Refraction and Reflection of sky wave by the ionosphere, Ray paths,
skip distance, Maximum usable frequency, Fading of signals. Selective fading - Diversity reception. Space wave
propagation, Considerations in space wave propagation. Atmospheric effects in space wave propagation. Super
Refraction - Duct Wave Propagation.
UNIT 5
MEASUREMENTS
9 Hrs.
Measurement of Impedance, Field/Radiation Pattern and gain of antennas,Measurement of
Directivity,Measurement of Antenna efficiency-Antenna Radiation Efficiency,Aperture Efficiency Ionospheric
measurements - Vertical incidence measurements of the ionosphere - Relation between oblique and vertical
incidence transmission - System Issues - antenna noise.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
K.D.Prasad, “Antennas and Wave Propagation”, Satya Prakasan, 3rd Edition, New Delhi,2001.
C A Balanis, “Antenna Theory Analysis and Design”, 3rd Edition, John Wiley Publishers, 2005.
J.D.Kraus, “Antennas”, 3rd Edition, Mc-Graw Hill book company, 2002.
F.E.Terman, “Electronic and Radio Engineering”, Mc Graw Hill book company, 2004.
Rajeshwari Chatterjee, “Antenna Theory and Practice”, Wiley Eastern Ltd., 1988
Robert E.Collin, “Antennas and Radio wave propagation”, McGraw Hill, 2002
Edward C.Jordan, “EM Waves and Radiating Systems”, PH1, 2003
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PRT B:
2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO42
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1316
FACULTY OF ELECTRICAL AND ELECTRONICS
CMOS VLSI DESIGN
(For ECE, EEE, E&C, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To focus on
Key elements of semiconductor physics, Predominant CMOS technology and circuit style.
To study challenges of digital VLSI design, Conceptual thinking and design methodology over detailed circuit
analysis techniques.
UNIT 1
MOS TRANSISTOR THEORY
9 Hrs.
The MOS transistor-Current Voltage Relations-Threshold Voltage-Second order effects-Capacitances in
MOSFET - Scaling of MOS circuits -Review of CMOS - DC characteristics - Dynamic behavior- Power consumption .
UNIT 2
COMBINATIONAL LOGIC DESIGN
9 Hrs.
nMOS depletion load and Static CMOS design - Determination of Pull-up and Pull-down ratio-Design of Logic
gates- Sizing of transistors -Stick diagrams-Lay out diagram for static CMOS - Pass transistor logic - Dynamic CMOS
design - Noise considerations - Domino logic, np CMOS logic - Power consumption in CMOS gates - Multiplexers Transmission gates design.
UNIT 3
SEQUENTIAL LOGIC DESIGN
9 Hrs.
Introduction - Static sequential circuits- CMOS static flip-flop - Dynamic sequential circuits -Pseudo static
latch- Dynamic two phase flip-flop - clocked CMOS logic - Pipelining - NORA CMOS logic -True single phase clocked
logic - Realization of D-FF in TSPC logic.
UNIT 4
SUBSYSTEM DESIGN
9 Hrs.
Introduction-Designing Static and Dynamic Adder circuits - The Array Multiplier - Multiplier structures-BaughWooly - Booth Multiplier - Barrel shifter - Memory structures - SRAM and DRAM design - Design approach of
Programmable logic devices - PLA,PAL and FPGA.
UNIT 5
ASIC CONSTRUCTION
9 Hrs.
Physical design - Goals and Objectives - Partitioning methods - Kernighan Lin algorithm - Hierarchical Floor
planning - Floor planning tools -input, output and power planning -Min-cut placement, Force directed placement
algorithm -Placement using simulated annealing - Greedy channel routing.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Jan M.Rabaey ,“Digital Integrated Circuits” , 2nd edition, September,PHl Ltd. 2000
M.J.S.Smith ,“Application Specific Integrated Circuits “, Ist edition,Pearson education. 1997
Douglas A.Pucknell,”Basic VLSI design”, PHI Limited, 1998.
E.Fabricious, “Introduction to VLSI design”, Mc Graw Hill Limited, 1990.
Neil Weste , “Principles of CMOS VLSI design”, Addison Wesley 1998.
Wayne Wolf,”Modern VLSI design ‘2nd Edition, Pearson education. 2003
Sung-Mo Kang & Yusuf,”CMOS Digital Integrated Circuits- Analysis & Design”, 2nd Edition, MGH.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO54
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1306
FACULTY OF ELECTRICAL AND ELECTRONICS
DATA COMMUNICATION AND NETWORKING
(For ECE, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
The aim of the course is to provide
The basic details about the data communication and networking
A clear understanding of various IEEE networking standards
An in depth knowledge about the various layers of ISO model data communication system
UNIT 1
DATA COMMUNICATION- BASICS
9 Hrs.
Digital data - digital signals - Bit rate - Bit length - Data rate limits - noise less channels - Noisy channel Shanon capacity - Performance - Bandwidth - throughput - latency - Bandwidth delay product - jitters.
Circuit switched networks - Datagram networks - virtual circuit networks - connection oriented and connection
less services - Structure of circuit switches and packet switches - OSI reference model - TCP/IP reference model comparison of both models.
UNIT 2
NETWORKING
9 Hrs.
Network Topologies - mesh, star, bus, and ring - hybrid topology - Network Standardization - De facto and De
jure standards of networks - ITU - ISO - IETF - NIST - IEEE - Different IEEE802 working groups - internetArchitecture of the internet - Third generation mobile networks - UMTS Architecture - Wired Ethernet - Wireless LANs
IEEE 802.11 - RFID - Different types - sensor networks - Multi hop topology of sensor networks.
UNIT 3
PHYSICAL LAYER AND DATALINK LAYER
9 Hrs.
The Physical layer - Media - Twisted pair - coaxial cable - microwave - infrared - millimetre wave - PSTN - The
local loop modem - ADSL - Switching - Internet over cable - cable modems
The Data link layer - design issues - Error detection and control - data link protocols - HDLC - PPP - IEEE
standards for data link layer.
UNIT 4
MAC SUB LAYER AND NETWORK LAYER
9 Hrs.
MAC sub layer for Standard Ethernet, Fast Ethernet, Wireless LAN and broadband wireless.Design issues of
network layer - Routing algorithm - shortest path routing - Distance vector routing - Broadcast routing - Congestion
control algorithm - Congestion control in virtual circuit and datagram switches - The network layer in the internet The IP protocol - IP Addresses - Mobile IP - IPv6.
UNIT 5
TRANSPORT LAYER AND APPLICATION LAYER
9 Hrs.
The transport layer - service provided to the upper layer - Elements of transport protocols - Addressing connection establishment - connection release - UDP - TCP
TELNET - E mail - The user agent - Message transfer agent-SMTP - Message access agent: POP and IMAP
- File Transfer Protocol - HTTP - SNMP - VOIP.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Andrew S Tanenbaum “Computer Networks” 5th Edition. Pearson Education/PHI/2011.
Behrouz A. Forouzan, “Data Communications and Networking” Fourth Edition, Mc GrawHill HIGHER Education 2007.
Michael A.Gallo, William Hancock.M, Brooks/Cole Computer Communications and Networking Technologies,2001
Richard Lai and Jirachief pattana, “Communication Protocol Specification and Verification”, Kluwer Publishers, Boston, 1998.
Pallapa Venkataram and Sunilkumar S.Manvi, “Communication protocol Engineering”, PHI Learning, 2008
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO46
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1318
FACULTY OF ELECTRICAL AND ELECTRONICS
INFORMATION THEORY AND CODING
(For ETCE)
L
3
T
1
P
0
Credits Total Marks
4
100
COURSE OBJECTIVE
To make students understand that Information theory is concerned with the fundamental limits of
communication and Coding theory is concerned with practical techniques to realize the limits specified by information
theory.
UNIT 1
INFORMATION THEORY
12 Hrs.
Information - Entropy, Information rate, classification of codes, Kraft McMillan inequality, Source coding
theorem, Code Efficiency and Redundancy. Shannon-Fano coding, Huffman coding, Extended Huffman coding Joint and conditional entropies, Mutual information -Properties of mutual information. Generalization of Shannon’s
first theorem.
UNIT 2
INFORMATION CHANNEL AND INFORMATION CODING
12 Hrs.
Discrete memory less channels - BSC, BEC - Channel capacity, Shannon limit. Information Channels,
Probability relations in a channel, Apriori and Aposteriori Entropies, Mutual Information, Noiseless and Deterministic
channels, Cascaded channels, Channel Capacity, Conditional Mutual Information, Source Coding, Lossless coding
for discrete-valued sources, Discrete memory less source (DMS), Discrete stationary source.
UNIT 3
BLOCK CODES
12 Hrs.
Block Codes: Introduction to block codes, A Galois field primer, Linear block codes, Binary linear block code
decoding & performance analysis -Soft-decision decoding- Hard-decision decoding -Comparison between hard & soft
decision decoding, Nonbinary block codes -Reed-Solomon (RS) codes, Encoding RS codes, Decoding RS codes,
Space-time block codes: multipath fading channels, diversity techniques, spatial/ temporal diversity.
UNIT 4
CONVOLUTIONAL CODES
12 Hrs.
Convolutional Codes: Linear convolutional codes & their descriptions, Transfer function representation &
distance properties, Decoding convolutional codes, Soft-decision MLSE, Hard-decision MLSE, The Viterbi algorithm
for MLSE, Performance of convolutional code decoders -Soft-decision decoding performance - Hard-decision
decoding performance.
UNIT 5
LDPC AND TCM
12 Hrs.
Turbo & Low Density Parity Check (LDPC) Codes: Turbo codes, PCCC with interleaving & iterative decoding,
Low Density Parity Check (LDPC) coding & decoding.Trellis Coded Modulation (TCM): Introduction- Trellis coding
with higher order modulation, Set partitioning, Trellis coded modulation (TCM), TCM decoding and performance.
Max. 60 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
John Proakis & Masoud Salehi, “Digital Communications”, 5th edition, by, McGraw- Hill, 2008.
Abrahamson. N, “Information Theory and coding”, McGraw Hill Book Co., 1963
Gallagar. R.G., “Information theory and reliable communication”, Wiley New York, 1968
Richard.E.Balhut, “Principles of Practices of Information Theory”, Addison Wesley Pub.Co., 1987.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO56
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1311
FACULTY OF ELECTRICAL AND ELECTRONICS
SATELLITE COMMUNICATIONS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
This course is to provide
An in-depth understanding of different concepts used in a satellite communication system.
Detail description about orbital dynamics, Earth segment, space segments and space links
Knowledge about link budget calculation and satellite accessing techniques
An overview of satellite applications and networking of satellites
UNIT 1
INTRODUCTION
9 Hrs.
Introduction, Types -Active and Passive Satellite, Frequency allocation, types of Satellite orbits,
Kepler’s laws, Definitions of terms for earth-orbiting satellites, orbital parameters Two line elements, Apogee
and Perigee heights, Orbit perturbations, Geo stationary orbit, Antenna look angles, Limits of visibility, Sub satellite
point and prediction of satellite position, Earth Eclipse of satellite, Sun transit outage, launching orbits - Launch
vehicle - expendable and reusable types.
UNIT 2
THE SPACE SEGMENT AND ANTENNAS
9 Hrs.
Introduction, The Power supply, Attitude control, Spinning satellite stabilization, Momentum wheel
stabilization, Station Keeping, Thermal control, TT&C subsystem, Transponders, The wide band receiver, The
input demultiplexer, the power amplifier, the antenna subsystem. The isotropic radiator and antenna gain, horn
antenna, parabolic reflector, double reflector- Cassie grain antenna- Gregorian antenna.
UNIT 3
THE EARTH SEGMENT AND THE SPACE LINK
9 Hrs.
Transmit receive earth station subsystems-up converters-High power Amplifier- Receive chain-LNA & LNB.
TVRO Earth station EIRP, Transmission losses, the link budget equation, System noise, Effect of
rain,combined uplink and downlink C/N ratio.
UNIT 4
SATELLITE ACCESS AND SATELLITE APPLICATIONS
9 Hrs.
Multiple access techniques- Concepts and types of TDMA, FDMA and CDMA.DBS, VSAT, Remote
sensing, Satellite Mobile services, GPS, INMARSAT, INSAT, Video tele conferencing.
UNIT 5
SATELLITE IN NETWORKING
9 Hrs.
Satellite digital transmission and on-board switching, PDH & its limitation, SDH: development, standards,
SONET, SDH over satellite, ISDN over satellite. Different viewpoints of satellite networking, IP packet
encapsulation, Satellite IP networking, IP multicast over satellite, IP multicast routing, IP multicast security, DVB
over satellite (DVB-S).
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Dennis Roddy, “Satellite communication”, 4th edition - Tata Mc Graw Hill Co.Special Indian print, 2009.
Zhili Sun-John, “Satellite Networking Principles and Protocol”, W.& Sons 2005.
Timothy pratt & C W. Bostain, “Satellite communication”, Wiley 3rd edition 2006.
K.N.Raja Rao, “Fundamentals of Satellite communication”. PHI 2004.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO50
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4070
FACULTY OF ELECTRICAL AND ELECTRONICS
VLSI PROGRAMMING LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
Logic gates.
Adders and Subtractors
Fast adders
Flip Flops
Comparator
Counters
Encoder and Decoder
Multiplexer and Demultiplexer
Factorial of a number
Fibonacci series
Multipliers
Shift Registers
SEC4071
EMBEDDED SYSTEM DESIGN LAB
(For EEE)
L
0
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
EMBEDDED LAB
Basic illustration programs using arithmetic, Logical and bit oriented instructions for AT89C51
Interfacing light bulb using relay
Interfacing LCD display in static display
Interfacing stepper motor with ULN2003 to rotate in specific angle
Interfacing DC motor with H-bridge to make it rotate in front, back, left, right
Illustration of interrupts using LED on/off using timer delay
Illustration of serial communication to transfer data from one microcontroller to other
DSP LAB
The first subdivision programs had to be conducted using Matlab and validated using manual calculation.
The second subdivision has to be done in ALP programming using emulation.
(I) PROGRAMS USING MATLAB
1. Generation of Standard Signals
2. Design of FIR filters using Windowing technique
3. Design of IIR Filters using Butterworth filters
(ii) USING TMS320CX2407 DSP Processor
1. Single pulse fixed PWM generation using general purpose Timers.
2. Two pulse fixed PWM generation using Timer 1 and Timer 2.
3. Six pulse fixed PWM generation using full compare unit.
4. Six pulse fixed PWM generation with dead band.
B.E. / B. Tech REGULAR
BACK TO119
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4064
FACULTY OF ELECTRICAL AND ELECTRONICS
COMMUNICATION NETWORKING LAB
(For ETCE)
L
0
T
0
P
4
Credits
2
Total Marks
100
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
Experiments based on LAN Trainer
Exposure to NS2
Collision detection
Shortest path
SEC4065
DIGITAL SIGNAL PROCESSING LAB
(For ECE)
L
0
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
Study of ADSP 21XX & TMS 320 C XX processor
Generation of Periodic Signals
Generation of Non Periodic Signals
Sampling
Modulation and Demodulation using Matlab
Computation of Z Transform & Inverse Z transform
Computation of Impulse & System Response
Design of FIR filters using Windowing Techniques
Design of IIR filters using Bilinear Transformation
Spectral Analysis using Matlab
Implementation of FFT using DIT and DIF algorithm
Convolution (Linear and Circular)
Correlation (Auto & Cross)
Frequency response of first and second order systems
Fast Fourier Transform (FFT),Inverse Fast Fourier Transform(IFFT)
B.E. / B. Tech REGULAR
BACK TO116
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1403
FACULTY OF ELECTRICAL AND ELECTRONICS
OPTICAL COMMUNICATIONS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To introduce the principle of light propagation through optical fibers.
To understand signal distortion mechanisms in the fiber.
To introduce optical transmitters and receivers for fiber /free space links and the fiber optic couplers,
connectors involved.
To introduce optical network concepts and components involved and its Applications.
UNIT 1
INTRODUCTION TO OPTICAL FIBERS
9 Hrs.
Basics of optical communication system, light propagation in optical fibers, Optical spectral bands,
Advantages of optical fiber communication over other communication systems, Ray theory and mode theory. Total
internal reflection, Acceptance angle, Numerical aperture, phase and group velocity, cutoff wavelength & group
delay. Different types of optical fibers, refractive index profiles & mode transmission.
UNIT 2
TRANSMISSION CHARACTERISTICS AND OPTICAL AMPLIFIERS
9 Hrs.
Characteristics of optical fibers: Attenuation due to absorption, scattering & bending, core and cladding loses,
Signal Distortion in optical fibers: Intra modal Dispersion: Material & Waveguide dispersion; Intermodal dispersion:
MMSI, MMGI & modal noise.
Optical Amplifiers: Basic concepts, Erbium-Doped Fiber Amplifier, Raman amplifier -principles of operation,
amplifier noise, signal to noise ratio, gain, gain bandwidth, intermodulation effects and wavelength range of operation.
UNIT 3
OPTICAL TRANSMITTERS AND RECEIVERS
9 Hrs.
Fiber optic Transmitter module. Optical sources- LEDs, LASER diodes- Principles of operation: concepts of
line width, phase noise. Optical detectors- PN, P-I-N, Avalanche photodiodes: Principles of operation: concepts of
responsivity, sensitivity and quantum efficiency, noise in detection. Fiber optic Receiver module.
UNIT 4
COUPLERS, CONNECTORS AND OPTICAL LINK
9 Hrs.
Couplers: 2x2 coupler, Tap coupler, star coupler, Connectors: Cylindrical ferrule, Biconical Ferrule, Double
eccentric, Splices: Fusion splices, Mechanical splices, Multiple splices. Design considerations in optical links, Point to
point Links: Link Power budget, Rise Time budget, Analog Links: CNR, Multichannel transmission techniquesMultichannel Frequency Modulation, Subcarrier multiplexing.WDM Concepts and Components.
UNIT 5
OPTICAL NETWORKING PRINCIPLES AND APPLICATIONS.
9 Hrs.
FDDI, WDM, SONET/SDH,ATM,IP over WDM, Optical LAN Standards-IEEE802.3,Broad band and select
WDM networks, Applications- Military.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Gerd Kaiser , “Optical Fiber Communications”, 4 th edition, Sixth reprint, Tata Mc Graw Hill, New Delhi,2009.
John M. Senior,”Optical Fiber Communications- Principles And Practice”, Third Edition, Pearson Education, 2010.
Gerd Keiser, “Optical communications Essentials”, Special Indian Edition, Tata Mc Graw Hill, New Delhi,2008.
Govind P. Agrawal, “ Fiber-Optic Communication Systems”, Third Edition, John Wiley & Sons, 2004.
Rajiv Ramasamy & Kumar N. Sivarajan, “Optical Networks - A Practical Perspective”, 2 Ed, Morgan Kauffman 2002.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO61
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1405
FACULTY OF ELECTRICAL AND ELECTRONICS
RF AND MICROWAVE ENGINEERING
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
Analyze transmission-line circuits at RF and microwave frequencies and Perform Scattering parameter
analysis of RF networks and microwave systems and assess the impact of microwave component
performances on overall system performance
Describe the operation and analyze the performance of basic microwave components and to Design basic
microwave components
Analyze Assess qualitatively and quantitatively the role of microwave components in the application areas of
MIC, MEMS, wireless systems and UWB systems
UNIT 1
MICROWAVE NETWORKS AND COMPONENTS
9 Hrs.
Introduction to microwaves and applications, advantages of microwaves, EM spectrum domain, Review of
Low frequency parameters, salient features of S-matrix, salient features of multiport network, losses in microwave
circuits, Waveguide corners, bends and twists. Isolator, Circulator- S-matrix of series element in the transmission
line, S-matrix for E-plane Tee junction, S-matrix for H-plane Tee junction, S-matrix for magic Tee junction, S-matrix
for directional coupler, Strip lines , Micro strip lines and coplanar waveguides.
UNIT 2
POWER DIVIDERS AND COUPLERS
9 Hrs.
Basic properties of dividers and couplers: three port networks, four port networks, The T junction power
divider: lossless divider, resistive divider, Wilkinson power divider: unequal power division and n- way Wilkinson
power dividers, Quadrature hybrid (90°) coupler, Lange couplers, 180° Hybrid coupler, Even and odd mode analysis
of the Wilkinson power divider, the quadrature hybrid, and ring hybrid, Filters design by image parameter and
insertion loss method.
UNIT 3
MICROWAVE SOURCES
9 Hrs.
MICROWAVE TUBES: Klystron, Reflex Klystron, Magnetron - schematic, Principle of operation, performance,
characteristics and application.
MICROWAVE SOLID STATE DEVICES:PIN, Tunnel, Gunn, IMPATT and TRAPATT diodes, their
construction and Principle of operation.
UNIT 4
MICROWAVE MEASUREMENTS
9 Hrs.
Microwave Bench general measurement set up, Measurement Devices and instrumentation: Slotted line,
VSWR meter, power meter, spectrum analyser, Network analyser, Measurement of frequency, impedance,
Attenuation, power and dielectric constant, measurement of VSWR, insertion loss ,EMI / EMC basics and
measurement methods.
UNIT 5
MICROWAVE AND MILLIMETER WAVE SYSTEMS
9 Hrs.
System aspects of antennas-microwave communication systems-the Friis power transmission formula-Microwave
transmitters and receivers-noise characterization of microwave receiver-Frequency multiplexed systems-Radar systemsMillimetre-Wave Radios in Backhaul Networks-The 60 GHz, 70 GHz,80 GHz,90GHz frequency bands and channel sizes ,
The FCC and NTIA licensing process, Multi GBPS data communication and system requirements.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
David M. Pozar “Microwave Engineering”, John Wiley & Sons - 3rd Edition, 2009.
Samuel Y Liao, “Microwave Devices & Circuits”, Prentice Hall of India, 3rd Edition, 2008.
Kulkarni M, "Microwave and Radar Engineering", Umesh Publication, 4th ed,2010..
Annapurna Das and Sisir K Das, “Microwave Engineering”, Tata Mc Graw Hill Inc., 2004.
M.M.Radmanesh , “RF & Microwave Electronics Illustrated”, Pearson Education, 2007
Robert E.Colin, 2ed “Foundations for Microwave Engineering”, McGraw Hill, 2001
Reinhold.Ludwig and Pavel Bretshko “RF Circuit Design”, Pearson Education, Inc., 2006
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO63
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4074
FACULTY OF ELECTRICAL AND ELECTRONICS
MICROWAVE AND OPTICAL LAB
(For ECE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
OPTICAL FIBER EXPERIMENTS
1. Measurement of DC Characteristics of optical sources (LED and LASER Diode)and optical Detectors
(PIN Photo diode and Avalanche Photo diode)
2. Mode Characteristics of single mode optical Fibers (V number)
3. Measurement of Numerical Aperture, Attenuation, Connector and Bending losses in single mode and
multimode optical fibers
4. Fiber optic Analog and Digital Link- frequency response (analog) and eye diagram (digital)
5. Optical digital filtering, splitting and combining
6. Optical Amplifiers
7. Wavelength division multiplexing (WDM)
MICROWAVE EXPERIMENTS
1. Reflex klystron characteristics
2. Gunn diode characteristics
3. Measurement of VSWR and impedance of unknown load
4. Measurement of dielectric constant
5. Study of power distribution in directional couplers and waveguide tees
6. Radiation pattern measurement of RF and microwave antennas (horn and patch antenna)
7. Characteristics of microstrip filters, couplers and power dividers
8. S parameter measurement of microstrip and waveguide components
SEC4075
MICROWAVE ENGINEERING AND
OPTICAL COMMUNICATION LAB
(For ETCE)
L
T
P
Credits
Total Marks
0
0
4
2
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Reflex Klystron, 2K 25 Mode reflex Characteristics
Reflex Klystron, 2K 25 Frequency, Wavelength Measurements
Gunn Diode VI Characteristics
Gunn Diode Frequency, Wavelength Measurements
Attenuation Measurement of Circulator, Isolator Using Klystron and Gunn diode
Directional Coupler Characteristics using Klystron
Magic Tee, E -Plane Tee, H -Plane Tee Characteristics using Klystron and Gunn diode
Measurement of Radiation Pattern and Gain of Horn Antenna using Klystron
Measurement of numerical aperture of optical fiber
Measurement of propagation loss, bending loss of optical fiber.
Measurement of mechanical misalignment of optical fiber.
VI characteristics of LED and LASER.
PAM, AM using optical fiber.
PPM, PWM using optical fiber.
Manchester coding
VI Characteristic of APD, LD
Mode characteristic of single mode fiber.
B.E. / B. Tech REGULAR
BACK TO121
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC4074
FACULTY OF ELECTRICAL AND ELECTRONICS
MICROWAVE AND OPTICAL LAB
(For ECE)
L
0
T
0
P
4
Credits
2
Total Marks
100
SUGGESTED LIST OF EXPERIMENTS
OPTICAL FIBER EXPERIMENTS
1. Measurement of DC Characteristics of optical sources (LED and LASER Diode)and optical Detectors
(PIN Photo diode and Avalanche Photo diode)
2. Mode Characteristics of single mode optical Fibers (V number)
3. Measurement of Numerical Aperture, Attenuation, Connector and Bending losses in single mode and
multimode optical fibers
4. Fiber optic Analog and Digital Link- frequency response (analog) and eye diagram (digital)
5. Optical digital filtering, splitting and combining
6. Optical Amplifiers
7. Wavelength division multiplexing (WDM)
MICROWAVE EXPERIMENTS
1. Reflex klystron characteristics
2. Gunn diode characteristics
3. Measurement of VSWR and impedance of unknown load
4. Measurement of dielectric constant
5. Study of power distribution in directional couplers and waveguide tees
6. Radiation pattern measurement of RF and microwave antennas (horn and patch antenna)
7. Characteristics of microstrip filters, couplers and power dividers
8. S parameter measurement of microstrip and waveguide components
SEC4075
MICROWAVE ENGINEERING AND
OPTICAL COMMUNICATION LAB
(For ETCE)
L
T
P
Credits
Total Marks
0
0
4
2
100
SUGGESTED LIST OF EXPERIMENTS
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
Reflex Klystron, 2K 25 Mode reflex Characteristics
Reflex Klystron, 2K 25 Frequency, Wavelength Measurements
Gunn Diode VI Characteristics
Gunn Diode Frequency, Wavelength Measurements
Attenuation Measurement of Circulator, Isolator Using Klystron and Gunn diode
Directional Coupler Characteristics using Klystron
Magic Tee, E -Plane Tee, H -Plane Tee Characteristics using Klystron and Gunn diode
Measurement of Radiation Pattern and Gain of Horn Antenna using Klystron
Measurement of numerical aperture of optical fiber
Measurement of propagation loss, bending loss of optical fiber.
Measurement of mechanical misalignment of optical fiber.
VI characteristics of LED and LASER.
PAM, AM using optical fiber.
PPM, PWM using optical fiber.
Manchester coding
VI Characteristic of APD, LD
Mode characteristic of single mode fiber.
B.E. / B. Tech REGULAR
BACK TO121
TOP
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1404
FACULTY OF ELECTRICAL AND ELECTRONICS
WIRELESS COMMUNICATIONS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To study the overview of cellular system concept.
To understand the concept of GSM and GPRS.
To study the various characteristics of WAP and cable replacement devices.
To understand the concept and characteristics of 3G and B3G systems.
UNIT 1
OVERVIEW OF WIRELESS COMMUNICATION
9 Hrs.
History of wireless communication - Spectrum allocation for wireless communication - Standard bodies for
wireless communication - Evolution of wireless communication starting from 1G to 5G - Cellular system concepts Circuit switched and Packet switched cellular systems - architecture and operation of cellular systems - Frequency
reuse - Channel Assignment(Fixed ,Dynamic, Hybrid).Flat fading and frequency selective fading - Diversity
techniques (time, frequency, space) - PCS network architecture - Handoff - inter BS handoff-Inter system handoff Hard handoff and soft handoff.
UNIT 2
2G AND B2G SYSTEMS
9 Hrs.
Global System for Mobile communications (GSM) - Functional architecture of GSM - Common control
channels - Dedicated control channels -Location tracking and call setup - GSM location update - Short Message
Service (SMS) - Network architecture of SMS - Protocol hierarchy of SMS.
Evolving from GSM to General Packet Radio Service (GPRS) - Functional groups of GPRS - Architecture of
GPRS - Interfaces of GPRS.
UNIT 3
WAP AND CABLE REPLACEMENT DEVICES
9 Hrs.
Wireless Application Protocol (WAP) - WAP model - WAP Gateway - WAP Protocols-Wireless Datagram
protocol (WDP) - Wireless Transport layer security (WTLS)-Wireless Transaction protocol (WTP) - Wireless Session
protocol (WSP) - Wireless Application Environment (WAE) - Wireless bearers for WAP.
Functional Architecture, Protocol and technical details of - Bluetooth - Zigbee - Ultra Wide Band (UWB)-IrDA
(Infra red Data Association) - Radio Frequency Identification (RFID).
UNIT 4
3G SYSTEMS
9 Hrs.
3G Networks - Features and Performance of 3G networks -Frequency allocation for IMT (International
Telecommunications Union) 2000 - IMT 2000 family - Architecture of Universal Mobile Telecommunications System
(UMTS) network - MAC layer-RLC layer-RRC layer - 3GPP release 99 network architecture. Network architecture of
Enhanced Data rates for Global Evaluation (EDGE).CDMA 2000 - Physical channels - Radio Interface parameters of
CDMA 2000 FDD- Transmission characteristics of CDMA 2000 TDD.
UNIT 5
B3G SYSTEMS
9 Hrs.
Features, operation and applications of Wi-Fi, WiMax, OFDM, OFDMA, OFDM-IDMA, MIMO, Cognitive Radio, LTE.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Andreas F. Molisch, “Wireless Communications”, 2nd Edition, John Wiley & Sons Ltd, 2011.
William C.Y. Lee., "Wireless & Cellular Telecommunications", 3rd edition, McGraw Hill.2006.
Yibing Lin, "Wireless & mobile Network architecture", Wiley 2002.
Tao Jiang, Lingyang Song and Van Zhang, “Orthogonal Frequency Division Multiple Access Fundamentals and
Applications” Taylor and Francis Group, 2010.
Yong Soo Cho, Jaekwon Kim, Won Young Yang and Chung G. Kang, “MIMO-OFDM Wireless Communications with
MATLAB”, John Wiley & Sons (Asia) Pvt. Ltd, 2010.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO62
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SBA1101
FACULTY OF ELECTRICAL AND ELECTRONICS
PRINCIPLES OF MANAGEMENT AND PROFESSIONAL L
ETHICS
3
T
P
0
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To familiarize engineering students with the concepts of Management useful for Managing their own
enterprise or to work in a professional organization in Managerial capacity and to provide them an ethical outlook.
UNIT 1
MANAGEMENT FUNCTIONS & STRUCTURE
9 Hrs.
Management - Definition -Role of managers- Levels of management-Basic Function - Contribution of Taylor &
Fayol. Types of structures - Line, staff, Functional, Committee and Project & Matrix - Structures. Departmentalization
- Centralization - Decentralization - Span of control. Management by Objectives (MBO)- Management by Exception
(MBE).
UNIT 2
MANAGEMENT OF ORGINASATION
9 Hrs.
Forms of Business / Industrial Ownership - Sole Trader, Partnership, Joint stock Company, Performance
Appraisal - Basic Principles - Pitfalls - Methods to Overcome. Industrial Safety - Causes of Accidents - Cost of
Accidents - Measures to avoid Accidents. Plant Layout & Maintenance - Need, Types & Managerial Aspects.
UNIT 3
ORGANISATIONAL BEHAVIOUR
9 Hrs.
Organisational Behaviour - Definition - Nature & Scope - Contributing Disciplines - Importance of OB to
Managers. Personality - Definition - Theories - Factors Influencing Personality. Motivation - Definition - Theories.
Transactional Analysis. Morale & Job Satisfaction - Factors Influencing Job Satisfaction.
UNIT 4
GROUP DYNAMICS
9 Hrs.
Group - Definition - Types - Determinants of Group Cohesiveness. Communication - Process - Barriers Effective Communication. Leadership-Definition- leadership styles- Theories of leadership - Factors Contributing to
Effective Leadership. Trade Unions- Role of Trade Union in Organizations - Types and Functions of Trade Unions.
UNIT 5
PROFESSIONAL ETHICS
9 Hrs.
Ethics in Workplace - Formulation of Ethics - Managerial Ethics - Managing Ethical Behaviour - Codes of
Ethics - Encouraging Ethical Behaviour - Ethical Leadership - Ethical Decision making. Corporate Social
Responsibility (CSR) - Intellectual Property Rights (IPR)- Meaning- Laws relating to Intellectual Property Rights
(IPRs)
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Gupta C.B., “Management Theory and Practice”, 14th Edition, Sultan Chand & Sons, 2009.
Dr. Prasad L.M., “Principle & Practice of Management”, 7th Edition, Sultan Chand & Sons, 2008.
Aswathappa, “Organisational Behaviour”, 8th Edition, Himalaya Publishing House, 2010.
Dr. Prasad L.M., “Organisational Behaviour”, 4th Edition, Sultan Chand & Sons, 2008.
Harold Koontz, “Principles of Management”, 1st Edition, Tata McGraw Hill, 2004.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each - No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO28
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1320
FACULTY OF ELECTRICAL AND ELECTRONICS
EMBEDDED SYSTEMS
(For ECE, ETCE, , E&C, CSE and IT)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To study the basics of Embedded System.
To explain the various development tools in embedded System.
To get a knowledge in embedded programming and acquire a knowledge in embedded system application
UNIT 1
INTRODUCTION TO EMBEDDED SYSTEM
8 Hrs.
Embedded system- characteristics of embedded system- categories of embedded system- requirements of
embedded systems- challenges and design issues of embedded system- trends in embedded system- system
integration- hardware and software partition- applications of embedded system- control system and industrial
automation-biomedical-data communication system-network information appliances- IVR systems- GPS systems.
UNIT 2
EMBEDDED SOFTWARE DEVELOPMENT AND TOOLS
8 Hrs.
Software architectures, Round - Robin, Round-Robin with Interrupts, Function Queue Scheduling architecture,
Introduction to assembler - Compiler -Cross compilers and Integrated Development Environment IDE, Linker/
Locators, Simulators, Getting Embedded software into target System- Debugging Strategies.
UNIT 3
EMBEDDED NETWORKING
9 Hrs.
Embedded Networking: Introduction, I/O Device Ports - Serial Bus communication protocols- RS232 standard
- RS485 - CAN Bus - RS485 - Serial Peripheral Interface (SPI) - Inter-Integrated Circuits (I2C) - PC Parallel port
communication Protocols -Bluetooth-network using ISA, PCI- Wireless and Mobile System Protocols.
UNIT 4
EMBEDDED PROGRAMMING
10 Hrs.
Programming in assembly language (ALP) vs High Level Language - C Program Elements:- Macros and
functions, Use of Date Types, Structure, Pointers, Function Calls - Concepts of Embedded Programming in C++Objected Oriented Programming, Embedded Programming in C++,‘C’ Program compilers - Cross compiler Optimization of memory needs-Java programming advantages, disadvantages and J2ME concept.
UNIT 5
EMBEDDED SYSTEM TESTING AND APPLICATION
10 Hrs.
Introduction to embedded system testing - Types of testing: Unit testing, Regression testing, Functional
testing, Coverage tests, Gray box test and performance testing - Embedded applications: Case study of Smart card,
Interfacing stepper motor, RFID-system, Application, Tag Reader - Handheld Device - Washing Machine.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
8.
KVKK Prasad, “Embedded / Real Time Systems”, Dreamtech Press, 2005.
David Simon, “An Embedded Software Primer”, Pearson Education Asia, First Indian Reprint 2000.
Raj Kamal, ‘Embedded system-Architecture, Programming, Design’, Tata McGraw Hill, 2011.
Arnold Berger, “Embedded system design”, CMP books, 1st Edition, 2005
Wayne Wolf, “Computers as components”, Morgan Kaufmann publishers, 2nd Edition, 2008.
Tammy Noergaard, “Embedded Systems Architecture”, Elsevier, 2006
Steve Heath, “Embedded Systems Design”, Second Edition, Elsevier India Pvt.Ltd.,2007.
Narayan and Gong, “Specification and design of Embedded System”, Pearson Education, 2nd Edition, 1999.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO57
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1321
FACULTY OF ELECTRICAL AND ELECTRONICS
TELECOMMUNICATION SYSTEMS AND SERVICES
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the students with the architecture, theory and operation of telecommunication systems, issues
related to telecommunication systems and the services rendered by the system to the end users.
On completion of this course, the students will,
Acquire basic knowledge on telecommunication and various signaling related to it
Acquire knowledge on traffic in telecommunication systems
Acquire knowledge about QoS and various impairments
UNIT 1
BASICS OF TELECOMMUNICATION
9 Hrs.
End users, nodes and connectivities, telephone numbering and Routing, use of Tandem switches in Local
area connectivity, Busy Hour and Grade of Service, Simple, Half duplex and full duplex, One-way and two-way
circuits, Network topologies, variations in traffic flow, quality of service, Standardization in telecommunication.
UNIT 2
SIGNALLING IN TELECOMMUNICATION SYSTEMS
9 Hrs.
Introduction, purpose of signaling, Defining the functional areas-supervisory signaling, address signaling and
Call Progress-audio and visual. Signaling techniques - conveying signaling information, evolution of signaling
subscriber call progress tones and push button codes, compelled signaling, concepts of Link-by-link and end-to-end
signaling, effects of numbering on signaling, associated and disassociated channel signaling, signaling in the
subscriber loop-background and purpose, metallic trunk signaling - basic loop signaling, reverse-battery signaling,
stimulus signaling, functional signaling, Object-oriented signaling.
UNIT 3
TELECOMMUNICATION TRAFFIC
9 Hrs.
Unit of Traffic, traffic measurement, a mathematical model, Lost- call systems: Theory, traffic performance,
loss systems in tandem. Queuing systems - Erlang Distribution, probability of delay, Finite queue capacity, systems
with a single server, Queues in tandem, delay tables and application of Delay formulae. Traffic Characteristics arrival distributions, Holding time distribution. Loss Systems - Lost calls cleared, lost calls returning, lost calls Held,
lost calls cleared. Overflow Traffic.
UNIT 4
TELECOMMUNICATION SERVICES ENGINEERING
9 Hrs.
Introduction, definition for service and service engineering. Telecommunication services engineeringTelecommunication services on broad band networks - basics of ATM, connection oriented and connectionless
services.
UNIT 5
QUALITY OF SERVICE AND TELECOMMUNICATION IMPAIRMENTS
9 Hrs.
QoS (voice, data and image) - signal-to-noise ratio, voice transmission, data circuits, video. Basic
impairments - amplitude distortion, phase distortion and noise. Level - typical levels, echo and singing. QoS issues in
video transmission - problems and solutions. Protocols for QoS support for audio and video applications - RSVP
applications, Real-Time Streaming Protocol Applications and Active Streaming Format, Internet stream protocol
(version 2), IP Multicast
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
Roger L. Freeman, “Fundamentals of Telecommunications”, John Wiley & Sons, 1999.
Kornel Terplan, Patricia Morreale Boca Raton, “The Telecommunications Handbook”, CRC Press LLC, 2000.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO58
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1606
FACULTY OF ELECTRICAL AND ELECTRONICS
DIGITAL IMAGE PROCESSING
(For EEE, EIE, E&C, ETCE and CSE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the basic principles and methods of digital image processing
To have a comprehensive background in image filtering
To develop analytic skill to process images
UNIT 1
DIGITAL IMAGE FUNDAMENTALS
9 Hrs.
Elements of Visual Perception; Image Sensing and Acquisition; Image Sampling and Quantization; Basic
Relationships between Pixels; Monochromatic Vision Models; Colour Vision Models; Colour Fundamentals; Colour
Models
UNIT 2
IMAGE ENHANCEMENT
9 Hrs.
Introduction; Point Processing - Image Negatives, Log transformations, Power Law Transformations,
Piecewise-Linear Transformation Functions; Arithmetic/Logic Operations - Image Subtraction, Image Averaging;
Histogram Processing - Histogram Equalization, Histogram Matching; Spatial filtering - Smoothing, Sharpening;
Smoothing Frequency Domain Filters - Ideal Low Pass, Butterworth Low Pass, Gaussian Low Pass; Sharpening
Frequency Domain Filters - Ideal High Pass, Butterworth High Pass, Gaussian High Pass.
UNIT 3
IMAGE RESTORATION
9 Hrs.
A Model of Image Degradation/Restoration Process; Noise Models; Inverse Filtering, Minimum Mean Square
Error Filtering, Constrained Least Square Filtering; Geometric Mean Filter; Geometric Transformations - Spatial
Transformations, Gray-Level Interpolation.
UNIT 4
MORPHOLOGICAL PROCESSING & SEGMENTATION
9 Hrs.
Morphological Image Processing - Logic Operations involving Binary Images; Dilation and Erosion; Opening
and Closing; Basic Morphological Algorithms - Boundary Extraction, Region Filling, Thickening, Thinning; Image
Segmentation - Detection of Discontinuities; Edge Linking; Boundary Detection; Thresholding - Global and Adaptive;
Region based Segmentation.
UNIT 5
COLOUR IMAGE PROCESSING & APPLICATIONS
9 Hrs.
Conversion of Colour Models; Basic of Full-Colour Image Processing; Colour Transformations; Smoothing;
Sharpening; Segmentation; Applications of Image Processing - Motion Analysis, Image Fusion, Image Classification.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Rafael C. Gonzalez, Richard E. Woods, “Digital Image Processing”, 2nd Edition, Pearson Education, Inc., 2004.
Anil K. Jain, “Fundamentals of Digital Image Processing”, PHI Learning Private Limited, New Delhi, 2002.
William K. Pratt, “Digital Image Processing”, 3rd Edition, John Wiley & Sons, Inc., 2001.
Rafeal C.Gonzalez, Richard E.Woods and Steven L. Eddins, “Digital Image Processing using Matlab”, Pearson Education,
Inc., 2004.
5. Bernd Jähne, “Digital Image Processing”, 5th Revised and Extended Edition, Springer, 2002.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO141
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1614
FACULTY OF ELECTRICAL AND ELECTRONICS
MOBILE COMMUNICATIONS
(For ETCE and ECE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To impart the fundamentals concepts of mobile communication systems.
To introduce various technologies and protocols involved in mobile communication.
Examine Theory Research in Mobility
Examine Systems Research in Mobility
UNIT 1
WIRELESS COMMUNICATION
9 Hrs.
Basic cellular systems - Frequency Management and Channel Assignment - Types of handoff and their
characteristics, dropped call rates & their evaluation - MAC - SDMA - FDMA - TDMA - CDMA - Cellular Wireless
Networks.
UNIT 2
WIRELESS NETWORKS
9 Hrs.
Wireless LAN - IEEE 802.11 Standards - Architecture - OFDM Technology - Services - Mobile Ad hoc
Networks- IEEE 802.16 standards, Comparison of 802.11 and 802.16 - Wireless Local Loop - Architecture - WLL
Technologies.
UNIT 3
MOBILE COMMUNICATION SYSTEMS
9 Hrs.
GSM – Architecture - Location tracking and call setup - GSM Mobility management – Handover – Security GSM SMS - International roaming for GSM - Call recording functions - subscriber and service data management Mobile Number portability.
GPRS – Architecture - GPRS procedures - Attach and detach procedures - PDP context procedure Combined RA/LA update procedures - Billing.
UNIT 4
MOBILE NETWORK AND TRANSPORT LAYERS
9 Hrs.
Mobile IP - Dynamic Host Configuration Protocol - Mobile Ad Hoc Routing Protocols - Multicast routing - TCP
over Wireless Networks - Indirect TCP - Snooping TCP - Mobile TCP - Fast Retransmit / Fast Recovery –
Transmission / Timeout Freezing-Selective Retransmission - Transaction Oriented TCP - TCP over 2.5 / 3G wireless
Networks
UNIT 5
APPLICATION LAYER
9 Hrs.
WAP Model - Mobile Location based services - WAP Gateway - WAP protocols - WAP user agent profilecaching model - Wireless bearers for WAP - WML - WMLScripts - WTA – iMode - SyncML.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Jochen Schiller, “Mobile Communications”, Second Edition, Pearson Education, 2003.
2. William Stallings, “Wireless Communications and Networks”, Pearson Education, 2002.
3. Yi-Bing Lin, Imrich Chlamtac, “Wireless and Mobile Network Architectures”, John Wiley and sons, 2001
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO148
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1618
FACULTY OF ELECTRICAL AND ELECTRONICS
PROGRAMMING IN MATLAB
(For ECE, EEE, E&C, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand basic representation of Matrices and vectors in MATLAB
To learn various programming structures in MATLAB
To study built in and user defined functions in MATLAB.
To become conversant with 2D as well as 3D graphics in MATLAB
To make a Graphical User Interface (GUI) in Matlab in order to achieve interactivity
To Design simple Applications with Simulink (mdl files) and (M files) MATLAB.
UNIT 1
INTRODUCTION TO MATLAB
9 Hrs.
Menus & Tool bars, Variables - Matrices and Vectors - initializing vectors - Data types- Functions - User
defined functions - passing arguments - writing data to a file-reading data from a file - using functions with vectors
and matrices- cell arrays & structures - Strings - 2D strings-String comparing - Concatenation - Input and Output
statements - Script files .
UNIT 2
LOOPS & CONTROL STATEMENTS
9 Hrs.
Introduction; Relational & Logical operations - Example programs - Operator precedence - Control & Decision
statements- IF - IF ELSE - NESTED IF ELSE - SWITCH - TRY & CATCH - FOR -WHILE - NESTED FOR - FOR with
IF statements, MATLAB program organization, Debugging methods - Error trapping using eval & lastern commands.
UNIT 3
PLOTS IN MATLAB & GUI
9 Hrs.
Basic 2D plots, Labels, Line style, Markers, plot, subplot, LOG, LOG-LOG, SEMILOG-POLAR-COMET, Grid
axis, labeling, fplot, ezplot, ezpolar, polyval, exporting figures, HOLD, STEM, BAR, HIST, Interactive plotting, Basic
Fitting Interface – Polyfit - 3D plots – Mesh - Contour - Example programs. GUI - Creation Fundamentals - Capturing
mouse actions
UNIT 4
MISCELLANEOUS TOPICS
9 Hrs.
File & Directory management - Native Data Files - Data import & Export - Low Level File I/O - Directory
management - FTP File Operations - Time Computations -Date & Time - Format Conversions - Date & Time
Functions - Plot labels - Optimization - zero Finding - Minimization in one Dimension - Minimization in Higher
Dimensions- Practical Issues. Differentiation & Integration using MATLAB, 1D & 2D Data Interpolation
UNIT 5
SIMULINK & APPLICATIONS
9 Hrs.
How to create & run Simulink, Simulink Designing - Using SIMULINK Generating an AM signal & 2nd order
systems - Designing of FWR & HWR using Simulink - Creating a subsystem in Simulink. Applications Programs Frequency response of FIR & IIR filters. Open Loop gain of OPAMP, I/P characteristics of BJT, Plotting the graph
between Breakdown voltage & Doping Concentration. PCM, DPCM
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Rudra Pratap, “Getting Started with MATLAB 6.0” ,1st Edition, Oxford University Press-2004.
Duane Hanselman ,Bruce LittleField, “Mastering MATLAB 7” , Pearson Education Inc, 2005
William J.Palm, “Introduction to MATLAB 6.0 for Engineers”, Mc Graw Hill & Co, 2001
M.Herniter, “Programming in MATLAB”, Thomson Learning, 2001
John Okyere Altla, “Electronics and circuit analysis using MATLAB” - CRC press, 1999
K.K.Sharma, “MATLAB Demustifyied” -Vikas Publishing House Pvt Ltd.
K.C.Ravindaranath, “Systems Modelling & Simulation”
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO152
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1619
FACULTY OF ELECTRICAL AND ELECTRONICS
RADAR AND NAVIGATIONAL AIDS
(For ECE, ETCE and E&I)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the students with the concept of Radar, its basic principle and operation, its types.
On completion of this course, the students will
Acquire complete knowledge on RADAR and its various types
Acquire knowledge on different transmitters and receivers used in RADAR systems
Acquire knowledge on advanced RADAR concepts
UNIT 1
INTRODUCTION TO RADAR
9 Hrs.
Origin of Radar, Block diagram of Radar, Radar frequencies, simple form of Radar equation and
considerations, applications of Radar. Integration of Radar Pulses-Radar Cross Section of Targets and its
fluctuations, Prediction of Range Performance, Minimum Detectable Signal, Radar Clutter-surface clutter, sea clutter
and Land clutter ,weather clutter. Pulse Repetition Frequency and Range ambiguities.
UNIT 2
BASIC AND MTI RADAR, TRACKING
9 Hrs.
Principle of basic radar, simple block diagram of radar, radar range equations, basic pulsed radar, CW radar,
Doppler Effect, FMCW radar, factors affecting the radar operation. Delay line canceller, blind speed, types of MTI radars,
Digital MTI Processing - Moving Target Detector - Limitations to MTI Performance - MTI from a Moving Platform.
UNIT 3
RADAR TRANSMITTERS AND RECEIVERS
9 Hrs.
Types of Radar transmitters - Radar Modulators, Linear Beam Power Tubes - Solid State RF Power Sources Magnetron - Crossed Field Amplifiers - Other RF Power Sources - Radar transmitter monitoring and testing
Noise Figure of Radar receivers - Super heterodyne Receiver - Duplexers and Receiver Protectors- Radar
Displays.
UNIT 4
DETECTION OF SIGNALS IN NOISE
9 Hrs.
Introduction - Matched Filter Receiver - Detection Criteria - Detectors - Automatic Detector - Integrators Constant-False-Alarm-Rate Receivers - The Radar operator - Signal Management - Propagation of Radar Waves Atmospheric Refraction - Standard propagation - Nonstandard Propagation - The Radar Antenna - Reflector
Antennas - Electronically Steered Phased Array Antennas - Phase Shifters - Frequency-Scan Arrays
UNIT 5
ADVANCED RADARS AND RADAR NAVIGATION
9 Hrs.
Pulse Doppler Radar, mono-pulse radar, sequential lobbing radar, conical scan radars, MST radars, Synthetic
Aperture Radars (SAR) - Principle of operation and characteristic parameters. Phased array radars - salient features,
advantages and limitations of Phased Array Radars.
Elementary ideas of Navigation Aids : VOR, DME, DVOR, TACAN, ILS and MLS, GPS, Automatic Direction
finder, Hyperbolic Navigation (LORAN, DECA, OMEGA).
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Merrill I.Skolnik, “Introduction to Radar Systems”, Tata McGraw-Hill (3rd Edition) 2003.
N.S.Nagaraja, “Elements of Electronic Navigation Systems”, 2nd Edition, TMH, 2000.
Peyton Z. Peebles:, "Radar Principles", John Wiley, 2004
J.C Toomay, " Principles of Radar", 2nd Edition -PHI, 2004
Dr.A K Sen and Dr. AB Bhattacharya, “Radar Systems and Radio Aids to Navigation”, Khanna Publishers, 1988.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO153
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1620
FACULTY OF ELECTRICAL AND ELECTRONICS
SPEECH PROCESSING
(For ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVE
To provide the knowledge of basic characteristics of speech signal in relation to production and hearing of
speech by humans. To develop an understanding of how speech signals are processed in three general areas:
Analysis, Synthesis, and Recognition. Analytical tools are needed for analysis and synthesis, which draw on the
areas of digital signal processing and time-frequency analysis. To give an overview of applications (recognition,
synthesis, coding) and to inform about practical aspects of speech algorithms implementation.
UNIT 1
SOUND, SPEECH, AND HEARING
9 Hrs.
Introduction - Speech Signal, Digital speech processing, Process of speech production-mechanism of speech
production, Acoustic phonetics, Acoustic theory of speech production - Sound propagation, uniform lossless tube,
effect of losses in the vocal tract, effects of radiation at the lips, vocal treat transfer functions for vowels, Excitation of
sound wave in the vocal tract, models based upon the Acoustic theory, Lossless tube models, Digital models for
speech perception of attributes of speech and speech like sounds, and the linguistic units that underlie speech
events. Disorders of human communication
UNIT 2
TIME DOMAIN MODELS FOR SPEECH PROCESSING
9 Hrs.
Time-dependent processing of Speech, Short time Energy and Average Magnitude, Short-time average ZeroCrossing rate, Speech vs. Silence Discrimination using Energy and zero crossings, Pitch period estimation using a
parallel processing approach, Short-Time autocorrelation function, Pitch period Estimation using the autocorrelation
function ,median smoothing and speech processing.
UNIT 3
FREQUENCY DOMAIN MODELS FOR SPEECH PROCESSING
9 Hrs.
Short Time Fourier analysis: Fourier transform and linear filtering interpretations, Sampling rates Spectrographic displays - Pitch and formant extraction - Analysis by Synthesis - Analysis synthesis systems: Phase
vocoder, Channel Vocoder - Homomorphic speech analysis: Cepstral analysis of Speech, Formant and Pitch
Estimation, Homomorphic Vocoders
UNIT 4
LINEAR PREDICTIVE CODING OF SPEECH
9 Hrs.
Basic Principles of linear predictive analysis - Auto correlation method - Covariance method - Solution of LPC
equations - Cholesky method - Durbin‖s Recursive algorithm – Comparison - Application of LPC parameters - Pitch
detection using LPC parameters - Formant analysis - VELP-CELP.
UNIT 5
APPLICATIONS OF SPEECH PROCESSING
9 Hrs.
Voice response system-General Consideration in the design of voice response System, Multiple-Output
Digital voice response system, Speech synthesis by concatenation of Formant-Coded Words, Typical application of
computer voice response system, Speaker recognition system-Speaker verification system, Speaker identification
system ,Speech recognition system-Isolated digital recognition system, Continuous digit recognition system.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
L. R. Rabiner and R. W. Schaffer, “Digital Processing of Speech signals”, Prentice Hall, 1978.
Ben Gold and Nelson Morgan, “Speech and Audio Signal Processing”, John Wiley and Sons Inc., Singapore, 2004.
Lawrence R.Rabiner and Ronald.W.Schafer: “Introduction to Digital speech processing”, Now publishers USA, 2007
T.F.Quatieri, “Discrete-time Speech Signal Processing”, Prentice-Hall, PTR, 2001
Kenneth N.Stevens, “Acoustic Phonetics (Current studies in Linguistics)”, MIT Press, 2000
J.L Flanagan : Speech Analysis Synthesis and Perception - 2nd Edition - Sprenger Vertag, 1972.
I.H.Witten,”Principles of Computer Speech”, Academic press, 1983.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each - No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO154
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1621
FACULTY OF ELECTRICAL AND ELECTRONICS
SPREAD SPECTRUM COMMUNICATIONS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
On completion of this course, the students will,
Understand the basic principles and building blocks of digital communication system, mathematical
background and Sequence generator fundamentals and to analyze error performance of spread spectrum
modulation formats and anti-jamming capability of spread spectrum signals.
UNIT 1
INTRODUCTION
9 Hrs.
Basic digital communication concepts, Impact of wide band, Detection of binary signals in additive white
Gaussian Noise, Differences between standard narrow-band communication systems and spread spectrum systems.
Spread-spectrum waveforms & its characteristics, spread spectrum communication system model, Techniques for
reducing the impact of interference on spread spectrum signals, Jamming considerations
UNIT 2
BINARY SHIFT-REGISTER SEQUENCES AND CODE TRACKING LOOPS
9 Hrs.
Definitions , mathematical Background and Sequence generator fundamentals, Maximal-length Sequences,
Direct Sequence and Spreading Codes Walsh Code, Pseudo Random Code, Mean and Variance of Random Codes
Gold codes, Nonlinear code generators. Optimum tracking of wideband signals, Baseband Delay-lock Tracking Loop,
Non-coherent Delay-lock Tracking loop, Tau-Dither non-coherent tracking loop, Double-Dither Non-coherent
Tracking loop, Non-coherent Delay-Lock Tracking loop with arbitrary data and spreading modulation, Code tracking
loops for Frequency-Hop systems.
UNIT 3
DIRECT -SEQUENCE AND FREQUENCY- HOPPED SPREAD SPECTRUM
9 Hrs.
Types and advantages of spread spectrum modulation formats- BPSK, QPSK, MSK Direct -Sequence spread
spectrum, coherent slow- Frequency hopped spread spectrum, non-coherent slow and fast Frequency hopped
spread spectrum Hybrid Direct-sequence/Frequency-Hop spread spectrum, Complex-Envelop Representation of
spread- spectrum systems
UNIT 4
SYNCHRONIZATION AND PERFORMANCE ANALYSIS
9 Hrs.
Problem definition and the optimum synchronizer, serial search synchronization techniques, general analysis
of average synchronization time, synchronization using a matched filter, synchronization by estimating the received
spreading code, tracking loop pull-in, performance of spread spectrum system without coding, performance of spread
spectrum system with forward error correction
UNIT 5
CODE DIVISION MULTIPLE ACCESS
9 Hrs.
Cellular radio concept, CDMA digital cellular systems, examples of CDMA digital cellular systems, cellular
CDMA applications, Analyze the performance of spread spectrum signals in the presence of multiple access
interference (CDMA context), Calculation of theoretical capacity of a CDMA system, coding and decoding processes
in CDMA, effects of interference in CDMA, and synchronization in CDMA wireless communication systems. 3G
wireless systems using CDMA technologies, Major factors influencing the capacity of CDMA wireless networks,
Multicarrier CDMA, Rake receivers wireless LAN applications, commercial and military applications.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. R. L. Peterson, R. E. Ziemer, and D. E. Borth, “Introduction to Spread Spectrum Communications”, Prentice Hall, 2005
(ISBN 81-297-0973-2)
2. R. C. Dixon, “Spread Spectrum Systems”, John Wiley & Sons, 1994, ISBN: 0471593427
3. D R Kamilo Feher, “Wireless digital communications Modulation & Spread Spectrum Applications”, Prentice Hall of
India,1999, ISBN 81-203-1472-7.
4. Andreas F.Molisch, “Wideband Wireless Digital Communications”, Pearson Education, ISBN 81-7808-301-9,2003.
5. A. J. Viterbi, “CDMA: Principles of Spread Spectrum Communication”, Addison-Wesley,1995, ISBN: 0201633744
6. Bernard Sklar, Pabitra Kumar Ray, “Digital Communications”, Pearson, ISBN 978-81-317-2092-9,2009
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each - No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO155
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SIC1310
FACULTY OF ELECTRICAL AND ELECTRONICS
THEORY OF ROBOTICS
(For ECE, ETCE, EEE, E&C, EIE and BIO-MED)
L
3
T
0
P
0
Credits
3
Total Marks
100
COURSE OBJECTIVES
To introduce basic concepts of various dynamics processes
To educate on the effect of various power sources and sensors.
To impart knowledge on the manipulators , grippers and robot dynamics
To introduce the evaluation criteria and tuning techniques of controllers
To introduce the concept of multi loop control techniques
UNIT 1
BASIC CONCEPTS
9 Hrs.
Origin & various generation of Robots - Robot definition - Robotics system components - Robot classification
Coordinate frames - Asimov’s laws of robotics - degree of freedom - dynamic stabilization of robots.- work volume.
Need for Automation - types of automation - fixed, programmable and flexible automation.
UNIT 2
POWER SOURCES AND SENSORS
9 Hrs.
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 3
MANIPULATORS, ACTUATORS, GRIPPERS and ROBOT DYNAMICS
9 Hrs.
Construction of manipulators - manipulator dynamics and force control - electronic and pneumatic
manipulator control circuits - end effectors - various types of grippers - design considerations. Introduction to Robot
Dynamics - Lagrange formulation - Newton Euler formulation - Properties of robot dynamic equations.
UNIT 4
KINEMATICS AND PATH PLANNING
9 Hrs.
Forward Kinematics - Denavit Hartenberg Representation. multiple solution jacobian work envelop, Inverse
Kinematics - Geometric approach. Hill climbing techniques.
UNIT 5
PROGRAMMING LANGUAGES AND APPLICATIONS
9 Hrs.
Robot programming - Fixed instruction, sequence control, General programming language, Specific
programming languages. Robots for welding, painting and assembly - Remote Controlled robots - robots in
manufacturing and non- manufacturing applications - Robots for nuclear and chemical plants.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Mikell P. Weiss G.M., Nagel R.N., Odraj N.G., “Industrial Robotics”, McGraw-Hill Singapore, 1996.
Ghosh, “Control in Robotics and Automation: Sensor Based Integration”, Allied Publishers, Chennai, 1998.
Deb.S.R., “Robotics technology and flexible Automation”, John Wiley, USA 1992.
Asfahl C.R., “Robots and Manufacturing Automation”, John Wiley, USA 1992.
Klafter R.D., Chimielewski T.A., Negin M., “Robotic Engineering - An integrated approach”, Prentice Hall of India,
New Delhi, 1994.
Mc Kerrow P.J. “Introduction to Robotics”, Addison Wesley, USA, 1991.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO97
TOP
Exam Duration: 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
FACULTY OF ELECTRICAL AND ELECTRONICS
BIOMEDICAL INSTRUMENTATION
SIC1311
(For ECE, ETCE, EEE, E&C and EIE)
L
3
T
0
P
0
Credits
3
Total Marks
100
COURSE OBJECTIVES
To familiarize use and requirements of medical instruments
To give knowledge of the principle of operation and design of biomedical instruments.
An attempt to render a broad and modern account of biomedical instruments.
To give an introductory idea about human physiology system .
UNIT 1
ELECTRO PHYSIOLOGY
8 Hrs.
Cell and Its Structure - Electrical, Mechanical and Chemical Activities - Action and Resting
Potential- Organization of Nervous System - CNS - PNS - Neurons - Axons- Synapse - Propagation of Electrical
Impulses along the Nerve-Sodium Pump - Cardio Pulmonary System- Physiology of Heart, Lung, Kidney.
UNIT 2
BIO POTENTIAL ELECTRODES AND TRANSDUCERS
8 Hrs.
Design of Medical Instruments - Components of Biomedical Instrument System - Electrodes: Micro
Electrodes, Needle Electrodes, Surface Electrodes -Instrumentation amplifier - Biomedical Measurements Like pH,
PCO2, PO2 of Blood, Isolation Amplifier, Preamplifier, Current Amplifier, Chopper Amplifier.
UNIT 3
INSTRUMENTS USED FOR DIAGNOSIS
10 Hrs.
ECG, Einthoven Triangle, Leads, Electrodes, Vector Cardiograph, Measurement of Cardiac Output, EEG, EMG
,Plethysmography, Blood Flow Measurements, Holter Monitor- Respiratory Rate Measurement - Oximeter, Patient Monitoring
System, ICCU.
UNIT 4
MODERN IMAGING SYSTEM
10 Hrs.
Ultrasonic Diagnosis, Ultrasonic Scanning, Isotopes in Medical Diagnosis- Pace Makers, Defibrillators,
Doppler Monitor(colour), Medical imaging-X-ray generation, Radiographic & Fluoroscopic Techniques - Image
Intensifiers-Computer Aided Tomography, PET, SPECT- Laser Applications-Echocardiography-CT Scan-MRI/
NMR-Endoscopy.
UNIT 5
RECENT TRENDS & INSTRUMENTS FOR THERAPY
9 Hrs.
Dialysers - Surgical Diathermy - Electro Anaesthetic and Surgical Techniques. Sources of Electric Hazards
and Safety Techniques. Single Channel Telemetry, Multi channel Telemetry, Implantable Telemetry, Wireless
Telemetry,Telemedicine, Telemedicine Applications.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Khandpur, “Handbook of Biomedical Instrumentation” 2nd Edition, Tata McGraw Hill, 2003.
Arumugam M, “Biomedical Instrumentation”, Anuradha Publications, Reprint 2009.
Tompkins W J and Webster J G, "Design of Microcomputer Based Medical Instrumentation", Prentice Hall, 1991
Geddes L A and Baker L E, "Principle of Applied Biomedical Instrumentation" 3rd Edition, Wiley, 1989
Hill D.W, "Principle of Electronics for Medical Research", 2nd Edition, Butterworths, 1965.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B. E. / B. Tech REGULAR
BACK TO98
TOP
Exam Duration: 3 Hrs.
20 Marks
60 MARKS
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1603
FACULTY OF ELECTRICAL AND ELECTRONICS
AUTOMATIC SPEECH RECOGNITION
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the students with the fundamentals of speech signals, Time domain and Frequency domain
techniques for speech signals and different analysis methods of speech signals and recognition techniques
On completion of this course the student will recognize
Acquire knowledge about the fundamentals and digital processing of speech signals.
Acquire knowledge about the Time domain and Frequency domain techniques for preprocessing of speech
signals.
Acquire knowledge about the different analysis techniques of speech signals
UNIT 1
FUNDAMENTALS OF SPEECH SIGNAL
9 Hrs.
History of speech recognition research, The Speech Signal: Speech production mechanism, Classification of
speech, sounds, nature of speech signal, models of speech production. Speech signal processing: purpose of speech
processing, digital models for speech signal, Digital processing of speech signals, Significance, short time analysis
UNIT 2
TIME DOMAIN METHODS FOR SPEECH PROCESSING
9 Hrs.
Time domain parameters of speech, methods for extracting the parameters, Zero crossings, Auto correlation
function, pitch estimation
UNIT 3
FREQUENCY DOMAIN METHODS FOR SPEECH PROCESSING
9 Hrs.
Short time Fourier analysis, filter bank analysis, spectrographic analysis, Formant extraction, pitch extraction,
Analysis - synthesis systems. Homomorphic Signal Processing
UNIT 4
SPEECH ANALYSIS AND SPEECH RECOGNITION
9 Hrs.
Cepstral analysis of speech, formant and pitch estimation, Mel frequency cepstrum computation, Applications
of speech processing - Speech recognition, Speech synthesis and speaker verification, Basic pattern recognition
approaches, Parametric representation of speech, Evaluating the similarity of speech patterns, Isolated digit
Recognition System, Continuous digit Recognition System. Vector quantization, speech coding
UNIT 5
HIDDEN MARKOV MODEL FOR SPEECH RECOGNITION
9 Hrs.
Introduction to Hidden Markov Model (HMM), Types of HMM, Hidden Markov Model (HMM) for speech
recognition, Viterbi algorithm, Training and testing using HMMs, Adapting to variability in speech (DTW), Language
models. Example of speech recognition project.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
L. Rabiner and B.-H. Juang, “Fundamentals of Speech Recognition”, Prentice Hall, 1995,ISBN 0-13-015157-2
L. R. Rabiner and R. W. Schafer, “Digital Processing of Speech Signals”, Prentice-Hall, 1978, ISBN 0-13-213603-1.
J.L Flanagan, “Speech Analysis Synthesis and Perception” - 2nd Edition - Springer Vertag, 1972.
I.H.Witten, “Principles of Computer Speech” , Academic press, 1983.
Douglas O'Shaughnessy , “Speech Communications: Human & Machine” -, 2nd ed., IEEE Press.
Thomas F. Quateri, “Discrete Time Speech Signal Processing: Principles and Practice” - 1st Ed., PE.
Claudio Becchetti and Lucio Prina Ricotti, “Speech Recognition”, Wiley
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO138
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1604
FACULTY OF ELECTRICAL AND ELECTRONICS
BIOMEDICAL SIGNAL AND IMAGE PROCESSING
(For ETCE and EIE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the students with the basics about Biomedical Signals and Images, Knowledge about ECG,
EEG, XRAY Images, CT Scanners, MRI Images and PET images and applications of same On completion of
this course the student will recognize
Acquire knowledge about the basics of Biomedical signals and Images
Acquire knowledge about the ECG, EEG, X-RAY and CT Scanner
Acquire knowledge about the Applications of biomedical Signals and Images
UNIT 1
INTRODUCTION OF BIOMEDICAL SIGNALS
9 Hrs.
Bio medical Signal, Types of biomedical signals - ECG, ENG, EMG, ERG - Characteristics of some dynamic
biomedical signals - Acquisition of physiological signal, characteristics, frequency domain representation; stationary
and non-stationary bio-signals, Waveform detection and Pattern Recognition, Computation of diagnostic signal
parameters.
UNIT 2
INTRODUCTION OF BIOMEDICAL IMAGES
9 Hrs.
Overview of medical imaging technology, systems, and modalities. characteristics of biomedical Images,
Medical Image Formation Principles, Medical Image Storage, Archiving and Communication Systems and Formats:
PACS, DICOM, TIFF, RIS and HIS.
UNIT 3
PROCESSING OF BIOMEDICAL SIGNALS
9 Hrs.
Electrical Activities of Cell - Ion Transport in Biological Cells - Electrical Characteristics of Cell Membranes
Hodgkin-Huxley Model Electrical Data Acquisition, Electrocardiogram - Function and Structure of the Heart Electrocardiogram: ECG Processing and Feature Extraction of ECGs, Electroencephalogram - Signal of the Brain
Evoked Potentials, EEG Feature Extraction of EEGs
UNIT 4
PROCESSING OF BIOMEDICAL IMAGES
9 Hrs.
X-Ray Imaging and Computed Tomography, Biomedical CT Scanners, Magnetic Resonance Imaging
(MRI),Physical and Physiological Principles of MRI, Ultrasound Imaging Generation and Detection of Ultrasound
Waves, Physical and Physiological Principles of Ultrasound, Positron Emission Tomography - Physical and
Physiological, Principles of PET
UNIT 5
APPLICATIONS OF BIOMEDICAL SIGNALS AND IMAGES
9 Hrs.
Neurological Applications - The electroencephalogram EEG rhythms & waveform categorization of EEG
activity, recording techniques EEG, applications - Epilepsy, sleep disorders, brain computer interface. Modelling
EEG, linear stochastic models, Non linear modelling of EEG, Applications - Applications of Medical Imaging:
Validation, Image Guided Surgery, Image Guided Therapy, Computer Aided Diagnosis/Diagnostic Support Systems
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
Kayvan Najarian and Robert Splinter ,“Biomedical signal and image processing”, Second edition,2012
Atam P.Dhawan, “Medical Image Analysis”, Wiley Interscience Publication, NJ, USA 2003.
D.C.Reddy,”Biomedical Signal Processing Principles and Techniques”, Tata McGraw-Hill, 2005.
L. Yaroslavsky. Lecture notes. http://www.eng.tau.ac.il/~yaro
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO139
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Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1608
FACULTY OF ELECTRICAL AND ELECTRONICS
VLSI BROADBAND COMMUNICATION CIRCUITS
(For ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquaint the knowledge about the components used to construction, theory and operation of the
Broadband communication systems.
On completion of this course the student will recognize
Acquire knowledge about Communication devices
Acquire knowledge about Broadband communication Circuits
Acquire knowledge about VLSI communication systems
UNIT 1
BROADBAND COMMUNICATION SYSTEMS
9 Hrs.
Components of Broadband Communication systems, Communications Network Architecture, Cable
Broadband Data Network Architecture. The Importance of Broadband Network Architectures, the Future of
Broadband Telecommunications.
UNIT 2
INTERNET, INTRANET AND EXTRANET
9 Hrs.
Internet Protocol Suite , IPv6: Next-Generation Internet ,Quality of Service , Applications and Services ,Voice
over IP ,Internet Security ,Intranet Overview , Extranet Overview Intranet Technologies , Extranet Technologies,
The Power-Law Rule for Intranets and Extranets ,The Topology Models, Intranet and Extranet applications, Extranet
and Intranet Design Issues
UNIT 3
VLSI COMMUNICATION DEVICES
9 Hrs.
CMOS logic, single ended data transmission, limitations, Current mode logic-basic circuit design, Current
mode logic-MUX, XOR, latch, Current mode logic-latch design, Current mode logic-latch characteristics, Low pass
transmission channel-Inter-symbol interference, error rate First order channel model.
UNIT 4
VLSI COMMUNICATION CIRCUITS
9 Hrs.
Equalizer design, Equalization-Effect on noise and crosstalk, Design of Transmit equalizers using flip-flops
and transconductors, Replica biasing, optimizing transmitter swing, Equalization at the receiver; Basics of adaptation,
LMS adaptation, Sign-sign LMS adaptation, LMS implementation details, Adaptive equalizer implementation, S/H
based equalizer. Latch vs. amplifier; Zeros for pre- and post- cursor equalization; Echo cancellation
UNIT 5
VLSI COMMUNICATION SYSTEMS
9 Hrs.
Introduction to clock and data recovery-Frequency multiplication using a phase locked loop, Derivation of the
phase model of the PLL, PLLs-charge pump, loop filter, Phase detector for random data, Linear phase detector;
Transfer functions in a PLL, Binary phase detectors; bang bang jitter, Miscellaneous topics-Optimal equalizers;
Linearity assumption of PLL model.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. John G. Proakis, “Digital Communications”, McGraw Hill, 2000
2. Bernard Sklar, “Digital Communications Fundamentals and Applications”, 2ed, Pearson Education
3. Cajetan M. Akujuobi, Matthew N. O. Sadiku, “Introduction to Broadband Communication Systems”, Chapman & Hall/CRC,
2008
4. B. Razavi, “Phase-Locking in High-Performance Systems: From Devices to Architectures”, Wiley-IEEE Press, 2003
5. B. Razavi ,” Monolithic Phase Locked Loops and Clock Recovery Circuits-Theory and Design”, IEEE Press, 1996.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO142
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1609
FACULTY OF ELECTRICAL AND ELECTRONICS
FUNDAMENTALS OF FUZZY LOGIC AND
ARTIFICIAL NEURAL NETWORKS
(For EEE, ECE and ETCE)
L
T
P
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To comprehend the concepts of biological neuron and the learning algorithms
To study the various methodologies to train the multi-hop network
To acquire knowledge about SOM and special networks
To study the basic principles of fuzzy logic and fuzzy operators
To understand the concept of fuzzy logic controller and its applications
UNIT 1
FUNDAMENTALS OF ANN
9 Hrs.
Introduction - Biological Neuron structure, ANN - Definition – Topology - Models - Learning strategies.
Characteristics of ANN - Different Learning Rules - Activation dynamics - Synaptic dynamics - Perceptron Model
(Both Single & Multi Layer) - Training Algorithm - Linear Separability Limitation and Its Over Comings, Problems in
perceptron weight adjustments
UNIT 2
MULTI LAYER NETWORKS
9 Hrs.
BPN - Training - Architecture-Algorithm, Counter Propagation Network - Training - Architecture, BAM Training-stability analysis, Adaptive Resonance Theory - ART1- ART2 – Architecture -Training, Hop Field Network Energy Function - Discrete - Continuous - Algorithm - Application - TSP .
UNIT 3
SOM & SPECIAL NETWORKS
9 Hrs.
SOM-Introduction - Kohonan SOM - Linear vector quantization, Probabilistic neural network ,Cascade
correlation, General Regression neural network, Cognitron - Application of ANN - Texture classification - Character
recognition.
UNIT 4
INTRODUCTION TO FUZZY LOGIC
9 Hrs.
Classical set - Operations and properties - Fuzzy Set - Operations and properties - Problems, Classical
Relations - Operations and Properties, Fuzzy Relations - Operations and Properties - Compositions Membership
function -FLCS - Need for FLC- Fuzzification - Defuzzification.
UNIT 5
FLCS, CLASSIFICATION & APPLICATIONS
9 Hrs.
Fuzzy decision making -Types, Fuzzy Rule Based System, Knowledge Based System, Non linear Fuzzy
Control system - Fuzzy Classification - Hard C Means - Fuzzy C Means. Applications of fuzzy - Water level
controller, Fuzzy image Classification, Speed control of motor.
Max 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
Timothy Ross, “Fuzzy Logic with Engineering Application”, McGraw Hill, Edition 1997
James A. Freeman & Skapura, “Neural Networks”, Pearson Education, 2007.
B.Yegnanarayana, “Artificial Neural Networks” Prentice Hall, September 2007.
Simon Haykin, “Artificial Neural Networks”, Second Edition, Pearson Education.
Drainkov, H.Hallendoor and M.Reinfrank, “An Introduction to Fuzzy Control”, Edition 2001.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO143
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1610
FACULTY OF ELECTRICAL AND ELECTRONICS
HIGH SPEED COMMUNICATION CIRCUITS
(For ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
Introduction about ATM and Frame relay.
Enable the students to know techniques involved to support real-time traffic and congestion control.
Students will be provided with an up-to-date survey of developments in High Speed Networks.
Students will be provided with different levels of quality of service (QoS) to different applications.
Enable the students to know the protocols For QoS support.
UNIT 1
HIGH SPEED NETWORKS
9 Hrs.
Frame Relay Networks - Asynchronous transfer mode - ATM Protocol Architecture, ATM logical Connection,
ATM Cell - ATM Service Categories - AAL. High Speed LANs- Fast Ethernet, Gigabit Ethernet, Fiber Channel Wireless LANs, applications, requirements - Architecture of 802.11
UNIT 2
CONGESTION AND TRAFFIC MANAGEMENT
9 Hrs.
Queuing Analysis- Queuing Models - Single Server Queues -Multi server Queues- Effects of Congestion Congestion Control - Traffic Management - Congestion Control in Packet Switching Networks - Frame Relay
Congestion Control-Need for flow and error control-Link control mechanism.
UNIT 3
TCP AND ATM CONGESTION CONTROL
9 Hrs.
TCP Flow control - TCP Congestion Control - Retransmission - Timer Management -RTT Variance
estimation(Jacobson‖s Algorithm)- Exponential RTO backoff - KARN‖s Algorithm - Window management Performance of TCP over ATM.-Traffic and Congestion control in ATM - Requirements - Attributes - Traffic
Management Frame work, Traffic Control - ABR traffic Management - ABR rate control, RM cell formats, ABR
Capacity allocations - GFR traffic management.
UNIT 4
QUALITY OF SERVICE IN IP NETWORKS
9 Hrs.
Integrated Services Architecture - Approach, Components, Services - Queuing Discipline, FQ, PS, BRFQ,
GPS, WFQ - Random Early Detection, Differentiated Services
UNIT 5
PROTOCOLS FOR QOS SUPPORT
9 Hrs.
RSVP - Goals & Characteristics, Data Flow, RSVP operations, Protocol Mechanisms -Multiprotocol Label
Switching - Operations, Label Stacking, Protocol details - RTP -Protocol Architecture, Data Transfer Protocol, RTCP.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
William Stallings, “High Speed Networks and Internet”, Pearson Education, Second Edition, 2002.
Walrand & Pravin Varaiya, “High Performance Communication Networks”, Jean Harcourt Asia Pvt. Ltd., II Edition, 2001.
Leon Garcia widjaja, “Communication Networks”, TMH, 2000.
Ivan Pepelnjak, Jim Guichard and Jeff Apcar, “MPLS and VPN architecture”, Cisco Press, Volume 1 and 2, 2003.
Larry L. Peterson and Bruce S.Davie, ”Computer Networks”, Third edition, Elsevier Publications, 2003.
“http://williamstalling.com/NSNe2e.html”
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO144
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1613
FACULTY OF ELECTRICAL AND ELECTRONICS
MOBILE ADHOC NETWORKS
(For ECE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To acquire knowledge about Adhoc networks and mobility models.
To understand the design issues and classifications of MAC protocols.
To study about the classifications of routing protocols.
To acquire knowledge about the QOS issues, Energy Management issues and challenges in AdHoc
Networks.
To study about Adhoc networks application and to explore the concepts of wireless mesh and vehicular
networks.
UNIT 1
INTRODUCTION
9 Hrs.
Origin Of Adhoc:Packet Radio Networks - Technical Challenges - Architecture of PRNETs - Components of
Packet Radios - Introduction to Adhoc networks - Definition, characteristics features - Issues in Mobile Ad Hoc
networks- Types of Ad hoc Mobile Communications - Types of Mobile Host Movements - Ad hoc wireless Internet.
Characteristics of Wireless channel Mobility models - Indoor and Outdoor.
UNIT 2
MEDIUM ACCESS PROTOCOLS
9 Hrs.
MAC protocols: design issues, goals and classification. Contention based protocols - With reservation,
scheduling algorithms, protocols using direction antennas - Distributed packet reservation - Multiple access protocol,
collision avoidance time allocation protocol. IEEE standards: 802.11a, 802.11b, 802.11g.
UNIT 3
ROUTING PROTOCOLS AND MULTICAST ROUTING IN ADHOC NETWORKS
9 Hrs.
Introduction - Issues in Designing a Routing Protocol for Ad Hoc Wireless Networks - Classifications of
Routing Protocols Table Driven routing protocols: Destination Sequenced Distance Vector Routing Protocol - Cluster
head Gateway switched routing protocol. On Demand routing protocol: Dynamic source routing protocol, AODV
routing protocol, temporarily ordered routing algorithm. Hybrid routing protocols: Zone routing protocol, Zone based
Hierarchical link state routing protocol.
Architecture Model for Multicast Routing Protocols - Classifications of Multicast Routing Protocols - Tree
Based Multicast Routing Protocols - Mesh-Based Multicast Routing Protocols - Energy-Efficient Multicasting Comparisons of Multicast Routing Protocols
UNIT 4
QOS AND ENERGY MANAGEMENT
9 Hrs.
Issues and Challenges in Providing QoS in Ad Hoc Wireless Networks - Classifications of QoS Solutions MAC Layer Solutions - Network Layer Solutions. Need for Energy Management in Ad Hoc Wireless Networks Classification of Energy Management Schemes - Battery Management Schemes - Transmission Power Management
Schemes - System Power Management Schemes.
UNIT 5
ADHOC NOMADIC MOBILE APPLICATIONS
9 Hrs.
In the Office, While Traveling, Arriving Home, In the Car, Shopping Malls, The Modern battlefield, Car-to-Car
Mobile Communications, Mobile Collaborative Applications - Location/context based mobile services - Introduction to
wireless mesh networks and vehicular adhoc networks.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
C.Sivaram Murthy and B.S Manoj, “Ad Hoc Wireless Networks”, Pearson Education, Second Edition India, 2001.
K Toh, “Adhoc mobile wireless networks, Protocols and Systems”, 2nd Edition, Pearson Education, 2009.
Stefano Basagni, “ Mobile Ad hoc Networking”, Wiley Inter science, IEEE Press, 2004.
George Aggelou “Mobile Ad Hoc Networks”, McGrawHill, 2004.
Thomas Krag and Sebastin Buettrich, “Wireless Mesh Networking”, 2nd Edition, O‖Reilly Publishers, 2007.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A: 10 Questions of 2 Marks each-No choice
PART B: 2 Questions from each unit of internal choice, each carrying 12 marks
(Distribution may be 20% Theory & 80% Numerical)
B.E. / B. Tech REGULAR
BACK TO147
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1615
FACULTY OF ELECTRICAL AND ELECTRONICS
NANOELECTRONICS
(For ECE, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To understand the evolution and basics of Nanoelectronics
To understand the different physical deposition techniques for thin film deposition
To learn the different types of chemical vapour decomposition techniques
To learn about the various characterization techniques
To understand the basics of elementary quantum devices
UNIT 1
FUNDAMENTALS OF NANOELECTRONICS
9 Hrs.
Moore‖s Law, Wave functions, wave packets, Schrodinger‖s wave equation, potential barriers and tunneling,
Fermi-Dirac statistics, Density of states, Limitations of conventional FET in nanoscales, Quantum Well, Quantum
wire, Quantum dot, current flow in two terminal Quantum dots, ballistic transport, Single Electron Transistor
UNIT 2
PHYSICAL DEPOSITION (THIN FILM) TECHNIQUES
9 Hrs.
Basics of physical methods, Glow discharge DC Sputtering, Triode sputtering, Getter sputtering, Radio
frequency sputtering, Magnetron sputtering, Ion beam sputtering, AC sputtering, Vacuum evaporation, Resistive heat
Evaporation, Flash Evaporation, Electron Beam Evaporation, LASER evaporation
UNIT 3
CHEMICAL DEPOSITION (THIN FILM) TECHNIQUES
9 Hrs.
Fundamentals of chemical methods, Chemical Vapour Deposition, LASER chemical Vapour Deposition,
Photo Chemical Vapour Deposition, Plasma enhanced Vapour Deposition, Metal Organo Chemical Vapour
Deposition, Chemical Bath Deposition, Electro less Deposition, Anodisation, Liquid Phase Epitaxy, Sol-Gel method,
Spin Coating, Spray-Pyrolysis Technique, Polymer Assisted Deposition
UNIT 4
THIN FILM CHARACTERIZATION TECHNIQUES
9 Hrs.
Cyclic Voltammetry and Linear Sweep Techniques, Thickness measurement Techniques, X-Ray Diffraction
Technique, Raman Spectral Study, Scanning Electron Microscopy, Energy Dispersive Analysis by X-rays
measurements, Atomic Force Microscopy
UNIT 5
NANOELECTRONIC DEVICES
9 Hrs.
Digital and Switching abstraction, Quantum Cellular Automata (QCA), Realization of logic gates using QCA,
Types and synthesis of molecular bundles, principle and types of spin wave devices, Array minimum/ maximum
computation with spin wave devices
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. George W Hanson, “Fundamentals of Nanoelectronics”, Prentice Hall, 2008.
2. Karl Goser, “Nanoelectronics and Nanosystems: From Transistors to Molecular and Quantum Devices”, Springer, First
edition, 2005.
3. Rainer Waser (Ed), “Nanoelectronics and Information Technology”, Second Edition, Wiley VCH, 2003.
4. Mary Eshaghian-Wilner, “Bio inspired and Nano Scale Integrated Computing”, Wiley, 2009.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO149
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1616
FACULTY OF ELECTRICAL AND ELECTRONICS
PATTERN RECOGNITION AND IMAGE VISION
(For ECE, EIE and ETCE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To comprehend the concepts of pattern recognition
To study the various methodologies of object detection in pattern recognition
To acquire knowledge about pattern classifications
To study the various classifiers like fuzzy and neural classifiers
To understand the concept of image extraction through computer vision and boundary analysis
UNIT 1
PRINCIPLES OF PATTERN RECOGNITION
9 Hrs.
Patterns and features, training and learning in pattern recognition approach, different types of pattern
recognition. Statistical pattern recognition, feature selection, syntactic pattern recognition, clustering and nonsupervised learning methods.
UNIT 2
OBJECT DETECTION METHODOLOGIES
9 Hrs.
Combined detection method, edge detection, edge linking, gradient. Laplacian, line detection, method based,
point detection, snake methods. Boundary description detection, matching, merges segmentation, smoothing,
splitting of boundaries syntactic, analysis of region boundaries, study of shape by region analysis.
UNIT 3
PATTERN CLASSIFICATION
9 Hrs.
Distance Functions - Pattern classification by distance functions - Minimum distance classification - Cluster and
cluster seeking algorithms - Pattern classification by likelihood functions. Statistical Functions - Pattern classification
using Statistical classifiers - Bayes‖ classifier - Classification performance measures - Risk and error probabilities.
UNIT 4
PATTERN RECOGNITION
9 Hrs.
Fuzzy Classifiers- Fuzzy and crisp classification - Fuzzy clustering - Fuzzy pattern recognition - Syntactic
pattern recognition - Selection of primitives - Syntax analysis for pattern recognition.
Neural Classifiers - Introduction - Neural network structures for PR, Neural network based pattern
associators - Feed forward networks trained by back propagation - ART networks.
UNIT 5
IMAGE EXTRACTION CONCEPTS
9 Hrs.
Introduction of Computer Vision, Computer Imaging System, Image Formation and sensing CVIP tools
Software, Image representation. Area Extraction, Concepts, Data-structures, Edge, Line- Linking, Hough transform,
Line fitting, Curve fitting.
Introduction - Boundary Analysis and Matching Region Analysis: Region properties, External points, spatial
moments, mixed spatial gray-level moments, Boundary analysis- Signature properties, Shape numbers. General
Frame Works for Matching, Distance relational approach,
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
7.
Dude, Hart, and Stock, "Pattern Classification", John Wiley and Sons, 2nd Edition, 2001.
Gose, Johnsonbaugh and Jost, "Pattern Recognition and Image Analysis", Prentice Hall; Har/Dsk Edition, 1996.
D. Forsyth and J. Ponce , “Computer Vision - A modern approach”, Pearson, 2012.
B. K. P. Horn , “Robot Vision”, McGraw-Hill, 1986.
Milan Sonka,Vaclav Hlavac, Roger Boyle, "Image Processing, Analysis, and Machine Vision" , 2007.
Robert Haralick and Linda Shapiro, "Computer and Robot Vision", Vol I & II, Addison-Wesley, 1993.
Christoper M Bishop, “Neural Network for pattern recognition”, Oxford university press, 2008.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
(Distribution may be 20% Theory & 80% Numerical)
B.E. / B. Tech REGULAR
BACK TO150
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SEC1617
FACULTY OF ELECTRICAL AND ELECTRONICS
ADVANCED ELECTRONIC TEST ENGINEERING
(For ECE, EIE, ETCE and EEE)
L
3
T
0
P
0
Credits Total Marks
3
100
COURSE OBJECTIVES
The primary goal of the course is to introduce the concepts of automated test engineering techniques applied
for testing complex printed circuit board assemblies. On completion of the course the students will learn
Analog/Digital/Mixed signal devices testing and Functional model development.
PCBA functional testing methods
Testing of BGAs/Boundary Scan components in PCBs
Test pattern generation
UNIT 1
INTRODUCTION TO PCB TECHNOLOGY
9 Hrs.
Printed Circuit Boards(PCB) - Construction - Types of PCB - Multilayer - Surface Mount technology - PCB
Manufacturing process - PCB Inspection methods - Bare Board Testing - Optical and X-Ray Inspection - Electrical tests Text fixtures - Bed of nails fixtures - Cross talk test - Mock up test - In circuit test – Burn-in-test - Fault diagnostic methods.
Electromagnetic compatibility testing of electronic components, subassemblies, Measuring Instruments and systems
UNIT 2
PCB TROUBLE SHOOTING PROCESS
9 Hrs.
Symptom Recognition - Bracketing Technique - Component failure Analysis - Fault types and causes in
circuits - during manufacturing - Manual trouble shooting technique - Tools and Instruments DMM - CRO - PCO Logic probes - Logic pulsar - Logic Analyzer.
UNIT 3
AUTOMATED TROUBLE SHOOTING TECHNIQUES
9 Hrs.
ATE Techniques - CPU Emulator technique - ROM amd ROM Emulators - In circuit Comparator - In Circuit
Functional test - Trouble shooting digital gates - Testing Linear Integrated Circuits - Guarding Technique - VI trace
Technique - Bus Cycle Signature System - Board functional test methods - Boundary scan test basics.
UNIT 4
ATE SYSTEM ARCHITECTURE
9 Hrs.
ATE System Components - Digital Pin Electronics - Drive data formats - Digital High way - Analog Highway Test Vector Generation - Creating test patterns - Fault Simulations.
UNIT 5
DESIGN FOR TESTABILITY (DFT)
9 Hrs.
MDA test systems - Boundary scan test with I/O pin compatibility - Automatic optical inspection systems Combinational ATE Systems - Design for testability - Observability and Controllability - Testing Flow diagram - Stuck
at fault model - Fault simulation - Ad Hoc technique - Scan design technique - Basics of ATPG - BIST-Test pattern
generation for built in self test - Exhaustive pattern generation and deterministic testing - Output response Analysis Transition count syndrome checking - Signature Analysis - Circular BIST.
Max. 45 Hours
TEXT / REFERENCE BOOKS
1. Michael L.Bushnell et al., “Essentials of Electronic testing for digital, memory and mixed signal VLSI circuit”,1st edition,
Academic Press, 2002.
2. Randall L Geiger, Pillip E Allen, “VLSI design techniques for analog and digital circuits”, MGH,1990.
3. Parag.K.lala, “Digital circuit Testing and Testability”, 1st edition, Academic press, 2001.
4. Alfred L.Crouch, “Design for test for Digital ICs and Embedded core systems”, 2nd edition, PHI, 1999
5. Sabapathy S.R., “Test Engineering for electronic hardware”, Qmax publishers, 1st Edition, 2007.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 Marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
(Distribution may be 20% Theory & 80% Numerical)
B.E. / B. Tech REGULAR
BACK TO151
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015
SATHYABAMA UNIVERSITY
SIC1605
FACULTY OF ELECTRICAL AND ELECTRONICS
FIBRE OPTICS AND LASER INSTRUMENTATION
L
T
P
(For ECE, ETCE, EEE, EIE and E&C)
3
0
0
Credits Total Marks
3
100
COURSE OBJECTIVES
To expose the students to the basic concepts of optical fibres and their properties.
To provide adequate knowledge about the Industrial applications of optical fibres.
To expose the students to the Laser fundamentals.
To provide adequate knowledge about Industrial application of lasers.
To provide adequate knowledge about holography and Medical applications of Lasers.
UNIT 1
OPTICAL FIBRES AND THEIR CHARACTERISTICS
9 Hrs.
Quantum nature of light, optical laws and definitions- Principles of light propagation through a fiber -optical
fiber modes, configurations and their properties-fiber materials-fiber fabrication vapor phase oxidization - fiber
characteristics - Absorption losses - Scattering losses - Dispersion - Connectors and splicers -fiber termination .
UNIT 2
OPTICAL SOURCES, DETECTORS AND SENSORS
9 Hrs.
LED characteristics -LED structures: surface LED, edge emitting LED-Double heterojunction LED-Basic
concepts of Laser. Optical Detectors: PN Photo diode , Avalanche photo diode ,PIN diode, Photo transistor ,Photo
thyristors ,Photo thermistor, opto-couplers ,optrodes, modulators.Fibre optic sensors - Fiber optic instrumentation
system - Interferometric method of measurement of length - Moire-fringes - Measurement of pressure and
temperature.
UNIT 3
LASER FUNDAMENTALS
9 Hrs.
Laser Diode Rate Equation - External Quantum Efficiency- Resonant Frequencies - Three level and four level
lasers - Properties of laser -Laser modes - Resonator configuration - Q-switching and mode locking - Cavity damping
- Types of lasers - Gas lasers, Solid lasers, Liquid lasers, Semiconductor lasers, Non-semiconductor lasers- The
Nd:YAG laser and glass fiber lasers.
UNIT 4
LASER APPLICATIONS
9 Hrs.
Optical transmitter and Receiver designs - Laser for measurement of distance, length, velocity, acceleration,
current, voltage and atmospheric effect - material processing - Laser heating, welding, melting and trimming of
materials - Removal and vaporization.
UNIT 5
HOLOGRAM AND MEDICAL APPLICATION
9 Hrs.
Holography- Basic principle - methods - Holographic Interferometer and application - Holography for nondestructive testing - Holographic Components - Medical applications of lasers, laser and tissue interactive - Laser
instruments for surgery, tumor, vocal chords, brain surgery, plastic surgery, gynecology and oncology .
Max. 45 Hours
TEXT / REFERENCE BOOKS
1.
2.
3.
4.
5.
6.
Senior J.M, “Optical Fibre Communication - Principles and Practice”, Prentice Hall of India,1985.
Wilson J and Hawkes J.F.B, “Introduction to Opto Electronics”, Prentice Hall of India, 2001.
Keiser G, “Optical Fibre Communication”, McGraw Hill, 1995.
Arumugam M, “Optical Fibre Communication and Sensors”, Anuradha Agencies, 2002.
John F. Read, “Industrial Applications of Lasers”, Academic Press, 1978.
Monte Ross, “Laser Applications”, McGraw Hill, 1968.
END SEMESTER EXAM QUESTION PAPER PATTERN
Max. Marks : 80
PART A : 10 Questions of 2 marks each-No choice
PART B : 2 Questions from each unit of internal choice, each carrying 12 marks
B.E. / B. Tech REGULAR
BACK TO169
TOP
Exam Duration : 3 Hrs.
20 Marks
60 Marks
REGULATIONS 2015