Sathyabama University
(Established under section (3) of UGC Act, 1956)
Jeppiaar Nagar, Chennai 600 119.
DEPARTMENT OF ELECTRONICS AND TELECOMMUNICATION ENGINEERING
B.E Curriculum
BATCH (2006-2010)
SEMESTER I
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0001 English 4 1 0 20 80 100 35 50 3
2 6C0002 Engineering Mathematics-I 4 1 0 20 80 100 35 50 3
3 6C0003 Applied Physics-I 4 1 0 20 80 100 35 50 3
4 6C0072 Engineering Chemistry 4 1 0 20 80 100 35 50 3
5 6C0007 Programming in C 4 1 0 20 80 100 35 50 3
6 6C0008 Basic civil and Basic Mechanical Engineering 4 1 0 20 80 100 35 50 3
7 6C0009 Basic Electrical Engineering 4 1 0 20 80 100 35 50 3
PRACTICALS
8 6CL001 Physics Lab-I 3 -- 100 100 50 50 3
9 6CL002 Chemistry Lab-I 3 -- 100 100 50 50 3
10 6CL003 C Programming Lab 3 -- 100 100 50 50 3
SEMESTER II
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0012 Environmental Engineering 4 1 0 20 80 100 35 50 3
2 6C0016 Engineering Mathematics-II 4 1 0 20 80 100 35 50 3
3 6C0017 Physics of Electronics & Materials 4 1 0 20 80 100 35 50 3
4 6C0073 Chemistry of Engineering Materials 4 1 0 20 80 100 35 50 3
5 6C0005 Engineering Graphics 4 1 0 20 80 100 35 50 3
6 6C0022 Electrical Technology 4 1 0 20 80 100 35 50 3
7 6C0023 Electronic Devices 4 1 0 20 80 100 35 50 3
PRACTICALS
8 6CL010 Electrical Engineering Lab 3 -- 100 100 50 50 3
9 6CL011 Electronics devices Lab 3 1. -- 100 100 50 50 3
SEMESTER III
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0032 Engineering Mathematics III 4 1 0 20 80 100 35 50 3
2 6C0026 Circuit Theory 4 1 0 20 80 100 35 50 3
3 6C0035 Electronic Circuits-I 4 1 0 20 80 100 35 50 3
4 6C0036 Engineering Electromagnetics 4 1 0 20 80 100 35 50 3
5 6C0037 Object oriented Programming 4 1 0 20 80 100 35 50 3
6 6C0038 Digital Systems 4 1 0 20 80 100 35 50 3
7 6C0053 Networks analysis and synthesis 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625350 Digital Lab
3 -- 50 50 25 25 2
9 625351 Circuits & Networks Lab -- 50 50 25 25 2
10 625352 Electronic circuits-I Lab 3 -- 50 50 25 25 2
11 625353 Pspice Lab -- 50 50 25 25 2
SEMESTER IV
No Subject Code Subject Name *Periods/
Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0054 Engineering Mathematics IV 4 1 0 20 80 100 35 50 3
2 6C0096 Measurements & Instrumentation 4 1 0 20 80 100 35 50 3
3 625401 Advanced Object oriented Programming 4 1 0 20 80 100 35 50 3
4 6C0056 Electronic Circuits -II 4 1 0 20 80 100 35 50 3
5 625402 Principles of Digital signal processing 4 1 0 20 80 100 35 50 3
6 6C0039 Analog Communication 4 1 0 20 80 100 35 50 3
7 6C0059 Transmission lines and waveguides 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625450 Object oriented Programming Lab 3
-- 100 100 50 50 3
9 625451 Electronics Circuits II Lab 3 -- 50 50 25 25 2
10 625452 Digital signal Processing Lab -- 50 50 25 25 2
L = Lecture, T = Tutorial / Seminar, P = Practical / Project
SEMESTER V
No Subject Code Subject Name *Periods/
Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0079 Applied Numerical Methods 4 1 0 20 80 100 35 50 3
2 6C0080 Analog Integrated Circuits 4 1 0 20 80 100 35 50 3
3 6C0055 Control system 4 1 0 20 80 100 35 50 3
4 6C0086 Microprocessors, Interfacing & Applications 4 1 0 20 80 100 35 50 3
5 625501 Advanced Digital Signal Processing 4 1 0 20 80 100 35 50 3
6 6C0098 Digital Communication 4 1 0 20 80 100 35 50 3
7 6C0097 Antennas & Propagation 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625550 Advanced Digital Signal Processing Lab
3
-- 50 50 25 25 2
9 625551 Linear Integrated Circuits Lab -- 50 50 25 25 2
10 625552 Microprocessors Lab
3 -- 50 50 25 25 2
11 625553 Communication I Lab -- 50 50 25 25 2
SEMESTER VI
No Subject Code Subject Name *Periods/
Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0091 Principles of Management and Professional Ethics 5 0 0 20 80 100 35 50 3
2 625601 Microcontrollers 4 1 0 20 80 100 35 50 3
3 6C0099 Microwave Engineering 4 1 0 20 80 100 35 50 3
4 625602 VLSI Circuits and Systems 4 1 0 20 80 100 35 50 3
5 625603 Data Communication Networks 4 1 0 20 80 100 35 50 3
6 Elective I 4 1 0 20 80 100 35 50 3
7 Elective II 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625652 VLSI Programming Lab 3 -- 100 100 50 50 3
9 625650 Microwave Lab
3 -- 50 50 25 25 2
10 625651 Microcontroller Lab -- 50 50 25 25 2
SEMESTER VII
No Subject Code Subject Name *Periods/
Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 625701 Optical Fiber Communication 4 1 0 20 80 100 35 50 3
2 625702 Spread Spectrum Techniques 4 1 0 20 80 100 35 50 3
3 625703 Cryptography 4 1 0 20 80 100 35 50 3
4 625704 Digital image processing 4 1 0 20 80 100 35 50 3
5 625705 Telecommunication Switching systems 4 1 0 20 80 100 35 50 3
6 Elective III 4 1 0 20 80 100 35 50 3
7 Elective IV 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625750 Optical communication Lab 3 -- 100 100 50 50 3
9 625751 Networking Lab 3 -- 100 100 50 50 3
SEMESTER VIII
No Subject Code Subject Name *Periods/
Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 625801 Project work and Comprehensive Viva
-- -- -- 100 300 400 150 150 -
• L = Lecture, T = Tutorial / Seminar, P = Practical / Project
LIST OF ELECIVE SUBJECTS
6ET E01 Satellite communication
6ET E02 Mobile Communication
6ET E03 Internet & Intranet
6ET E04 Radar & Navigational Aids
6ET E05 High Performance Communication Network
6ET E06 Soft computing
6C0089 Biomedical Instrumentation (Core subject for EIE,EEE,E&C)
(Elective for ETCE & ECE)
6ET E07 Television Engineering
6ET E08 Electromagnetic Interference and compatibility
6ET E09 Low power VLSI
6EC E02 Artificial Intelligence & Expert Systems
6IC E03 Robotics and Automation
6ET E10 VLSI Signal Processing
6ET E11 Embedded Systems
6IC E02 Mechatronics
6EC E03 Programming in Matlab
List of Page Numbers
SEMESTER I
SI. No Subject Code Subject Name Page Number
1 6C0001 English 10
2 6C0002 Engineering Mathematics-I 12
3 6C0003 Applied Physics-I 13
5 6C0072 Engineering Chemistry 14
6 6C0007 Programming in C 16
7 6C0008 Basic civil and Basic Mechanical Engineering 17&18
8 6C0009 Basic Electrical Engineering 19
9 6CL001 Physics Lab-I 20
10 6CL002 Chemistry Lab-I 20
11 6CL003 C Programming Lab 21
SEMESTER II
SI. No Subject Code Subject Name Page Number
1 6C0012 Environmental Engineering 23
2 6C0016 Engineering Mathematics-II 25
3 6C0017 Physics of Electronics & Materials 26
5 6C0073 Chemistry of Engineering Materials 27
6 6C0005 Engineering Graphics 28
7 6C0022 Electrical Technology 29
8 6C0023 Electronic Devices 30
9 6CL010 Electrical Engineering Lab 31
10 6CL011 Electronics devices Lab 32
SEMESTER III
SI. No Subject Code Subject Name Page Number
1 6C0032 Engineering Mathematics III 34
2 6C0026 Circuit Theory 35
3 6C0035 Electronic Circuits-I 36
4 6C0036 Engineering Electromagnetics 37
5 6C0037 Object oriented Programming 38
6 6C0038 Digital Systems 39
7 6C0053 Networks analysis and synthesis 40
8 625350 Digital Lab 41
9 625351 Circuits & Networks Lab 41
10 625352 Electronic circuits-I Lab 42
11 625353 Pspice Lab 42
SEMESTER IV
SI. No Subject Code Subject Name Page Number
1 6C0054 Engineering Mathematics IV 44
2 6C0096 Measurements & Instrumentation 45
3 625401 Advanced Object oriented Programming 46
4 6C0056 Electronic Circuits -II 47
5 625402 Principles of Digital signal processing 48
6 6C0039 Analog Communication 49
7 6C0059 Transmission lines and waveguides 50
8 625451 Electronics Circuits II Lab 51
9 625452 Digital signal Processing Lab 51
10 625450 Object oriented Programming Lab 52
SEMESTER V
SI. No Subject Code Subject Name Page Number
1 6C0079 Applied Numerical Methods 54
2 6C0080 Analog Integrated Circuits 55
3 6C0055 Control system 56
4 6C0086 Microprocessors, Interfacing & Applications 57
5 625501 Advanced Digital Signal Processing Lab 58
6 6C0098 Digital Communication 59
7 6C0097 Antennas & Propagation 60
8 625550 Advanced Digital Signal Processing Lab 61
9 625551 Linear Integrated Circuits Lab 61
10 625552 Microprocessors Lab 62
11 625553 Communication I Lab 62
SEMESTER VI
SI. No Subject Code Subject Name Page Number
1 6C0091 Principles of Management and Professional Ethics 64
2 625601 Microcontrollers 65
3 6C0099 Microwave Engineering 66
4 625602 VLSI Circuits and Systems 67
5 625603 Data Communication Networks 68
6 Elective I -
7 Elective II -
8 625650 Microwave Lab 69
9 625651 Microcontroller Lab 69
10 625652 VLSI Programming Lab 70
SEMESTER VII
SI. No Subject Code Subject Name Page Number
1 625701 Optical Fiber Communication 72
2 625702 Spread Spectrum Techniques 73
3 625703 Cryptography 74
4 625704 Digital image processing 75
5 625705 Telecommunication Switching systems 76
6 Elective III -
7 Elective IV -
8 625750 Optical communication Lab 77
9 625751 Networking Lab 77
List of Electives
SI. No Subject Code Subject Name Page Number
1 6ET E01 Satellite communication 79
2 6ET E02 Mobile Communication 80
3 6ET E03 Internet & Intranet 81
4 6ET E04 Radar & Navigational Aids 82
5 6ET E05 High Performance Communication Network 83
6 6ET E06 Soft computing 84
7 6C0089 Biomedical Instrumentation (Core subject for EIE,EEE,E&C) 85
8 6ET E07 Television Engineering 86
9 6ET E08 Electromagnetic Interference and compatibility 87
10 6ET E09 Low power VLSI 88
11 6EC E02 Artificial Intelligence & Expert Systems 89
12 6IC E03 Robotics and Automation 90
13 6ET E10 VLSI Signal Processing 91
14 6ET E11 Embedded Systems 92
15 6IC E02 Mechatronics 93
16 6EC E03 Programming in Matlab 94
SEMESTER I
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0001 English 4 1 0 20 80 100 35 50 3
2 6C0002 Engineering Mathematics-I 4 1 0 20 80 100 35 50 3
3 6C0003 Applied Physics-I 4 1 0 20 80 100 35 50 3
4 6C0072 Engineering Chemistry 4 1 0 20 80 100 35 50 3
5 6C0007 Programming in C 4 1 0 20 80 100 35 50 3
6 6C0008 Basic civil and Basic Mechanical Engineering 4 1 0 20 80 100 35 50 3
7 6C0009 Basic Electrical Engineering 4 1 0 20 80 100 35 50 3
PRACTICALS
8 6CL001 Physics Lab-I 3 -- 100 100 50 50 3
9 6CL002 Chemistry Lab-I 3 -- 100 100 50 50 3
10 6CL003 C Programming Lab 3 -- 100 100 50 50 3
SEMESTER I
SI. No Subject Code Subject Name Page Number
1 6C0001 English 10
2 6C0002 Engineering Mathematics-I 12
3 6C0003 Applied Physics-I 13
5 6C0072 Engineering Chemistry 14
6 6C0007 Programming in C 16
7 6C0008 Basic civil and Basic Mechanical Engineering 17&18
8 6C0009 Basic Electrical Engineering 19
9 6CL001 Physics Lab-I 20
10 6CL002 Chemistry Lab-I 20
11 6CL003 C Programming Lab 21
6C0001 ENGLISH 4 1 0 100
Common to all branches
AIM
To promote learners to use the target language and sharpen their communicative skills through participated learning.
OBJECTIVES
• To provide practice for learners in organized academic and professional writing.
• To help learners acquire interpretative reference and study skills through different reading strategies.
• To help learners acquire oral fluency.
• To help learners acquire the ability to listen effectively and respond competently in English in real life situations.
READING
1. Comprehension- Inferential interpretative and redictive comprehension.
Tasks: comprehending a passage and answering questions of various kinds relating to information, inference and predictions- Filling gaps with appropriate Words objective type questions.
2. Note making - Skimming, Scanning.
Tasks: identifying main ideas and supporting details- completing notes in the given format.
WRITING
1. Report writing - Types of Reports, Structure of a Report
Tasks: reporting on an industrial visit (purpose of the visit, preparatory measures, industry visited, critical observation) - industrial accident (introduction, detailed description of the accident, investigation conducted, recommendations and remedial measures).
2. Paragraph writing: Process description and Product description.
Tasks: Describing an object, device, instrument or machine - describing a process (text to chart and vice versa).
3. Letter Writing - job application and letter seeking permission for industrial visit or in plant training.
4. Editing - correcting a passage and checking for errors in spelling, punctuation and grammar.
5. Argumentative writing - Stating a choice and justifying it.
SPEAKING
1. Conversation- Framing Questions and responding to queries
2. Role Play - Discussing industrial visits and giving oral instructions for performing tasks.
3. Discussion - Classroom discussion on debatable topics.
4. Oral Presentations - Close and open ended topics related to science and technology.
LISTENING :
1. Connectives and Discourse Markers
2. Indicators of Purpose and functions
3. Expressions relating to instructions and recommendations
4. Infinitives and Gerunds
5. Abbreviations and Acronyms
6. Conditionals
7. Impersonal Passive
8. Tenses and Concord
9. Word Formation using Prefixes and Suffixes
10. Word meaning - Antonyms and Synonyms
REFERENCE BOOK:
1. Lakshmi Naryanan 2007 Edition. Technical English, Scitech Publications
2. RIE(2006) English for Engineers. New Delhi Foundation Books.
3. Geetha Nagaraj(2006). " A Course in Grammar and composition". New delhi Foundations Books.
4. Rizvi.M.A (2006) Effective Technical Communication. New Delhi Tata Mc Graw hill publishing company limited
5. Hewings,.M(1999) 'Advanced English Grammar', Cambridge. Cambridge university
6. Lock, G(1996) 'Functional English Grammar' Cambridge. Cambridge university
7. Nagini P.S & Manivannan.N (2005) "Excellence through communication" Chennai shri jai publications.
8. Murphy R(1992) 'Essential English Grammar'.Cambridge, Cambridge university press.
6C0002 ENGINEERING MATHEMATICS I 4 1 0 100
(Common to all B.E/B.Tech branches)
UNIT I: MATRICES (12)
Eigen value problem- Eigen values and eigen vectors of a real matrix-Characteristic equation-Eigen values and eigen vectors of a real matrix-Characteristic equation-Properties of eigen values and eigenvectors-Cayley-Hamilton theorem(without proof)- Similarity transformation (concept only)-Orthogonal matrices-Orthogonal transformation of a symmetric matrix to diagonal form-Reduction of quadratic form to canonical form by orthogonal transformation.
UNIT II : ALGEBRA (12)
Review of partial fractions. Binomial, exponential and logarithmic series (without proof) Problems on summation, approximations and coefficients.
UNIT III: GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS (12)
Curvature-Cartesian and polar co-ordinates-Centre and radius of curvature-Circle of Curvature-Involutes and evolutes-Envelopes-Properties of envelopes and evolutes-Evolute as envelope of normals.
UNIT IV: INTEGRATION (12)
Functions of two variables-Partial derivatives-Total differential-Taylor's expansion-Maxima and minima-Constrained maxima and minima-Lagrange's Multiplier method-Jacobians-Differentiation under integral sign.
UNIT V: ORDINARY DIFFERENTIAL EQUATIONS (12)
Simultaneous first order linear equations with constant coefficients-Linear equations of Second order with constant and variable coefficients-Homogeneous equations of Euler type-Method of variation of parameters.
Total No of Periods:60
TEXT BOOKS :
1. A Text Book on Engineering Mathematics by T.VEERARAJAN, Tata-McGraw Hill Publications, Chennai.
REFERENCE BOOKS :
1. Engineering Mathematics by Dr.P.KANDASWAMY and Co., S.Chand and Company.
2. Engineering Mathematics by M.K. VENKATRAMAN, National Publications, Chennai.
6C0003 APPLIED PHYSICS-I 4 1 0 100
(Common to all Branches)
UNIT I THERMAL PHYSICS (12) Modes of heat transfer - conduction, convection and radiation - Basic definitions. Conduction - Co-efficient of thermal conductivity - determination of K for good conductors - Forbe's method, determination of K for bad conductors
series and parallel - problems.
UNIT II OPTICS (12) Convex lens - Principal axis, optical centre, principal focus, focal length and power of the lens. Lens Aberrations - Chromatic aberrations - Longitudinal and Lateral chromatic aberration. Achromatism of lenses - condition for achromatism when two lenses are in contact and when they are separated by a distance. Monochromatic aberration - spherical aberration - Coma - Astigmatism - Curvature - Distortion - minimization techniques - problems. Photographic camera, f-ratio and depth of focus.
UNIT III ACOUSTICS (12)
Musical sound and noise, characteristics of musical sound - Weber-Fechner law - characteristics of loudness, pitch, quality - relation between intensity and loudness, decibel scale, relation between pitch and frequency, factors on which intensity and loudness depend, sound intensity level and sound pressure level. Sound absorption, sound absorption co-efficient and its measurement
affecting the acoustics of building and their remedy.
UNIT IV PROPERTIES OF MATTER (12)
Bending of beams - bending moment of a beam - Cantilever - expression for depression - cantilever loaded at free end, cantilever supported at its ends loaded in the middle - determination of Young's modulus of the given cantilever by statical method when the beam is loaded at the center, when the beam is loaded uniformly - problems.
UNIT V MATTER WAVES (12)
Matter waves - Definition, experimental verification of matter waves - G.P. Thomson, Davisson and Germer experiment. De Broglie's equation - Physical significance of the wave function - Schrodinger wave equation - time dependent and time independent equations - application to one dimensional box.
Total No of Periods:60
REFERENCE BOOKS:
1. Heat and Thermodynamics - D.S.Mathur.
2. Heat and Thermodynamics - Brijlal and Subramanyam.
3. Properties of matter- Brijlal and Subramanyam
4. Properties of matter-Murugesan
5. Engineering Physics - Gaur and Gupta.
6. Fundamentals of Acoustics - Kinsler and Frey.
7. Modern Physics - J.B.Rajam.
8. Optics - Brijlal and Subramanyam.
9. Optics & Spectroscopy Khanna & Gulati
10. Optics & Spectroscopy Murugesan
11. Properties of matter - D.S.Mathur.
12. Applied Physics A.Joseph, M.Sundareswari, Helen
6C0072 ENGINEERING CHEMISTRY 4 1 0 100
COMMON TO ALL BRANCHES
(STUDENTS ADMITTED FROM 2007 -2008 BATCH ONWARDS)
Unit - I Technology of water (12)
Introduction - Hardness of water - Types of hardness - Equivalents of hardness in terms of calcium carbonate- Units of hardness-parts per million- milligrams per litre-problems based on calcium carbonate equivalents- water softening- zeolite process- demineralization process- comparison of zeolite process and demineralization process- desalination- reverse osmosis- electro dialysis- treatment of water for domestic supply-requirements of drinking water- sedimentation and coagulation - filteration - slow sand filter - disinfection- cholination - break point chlorination- UV treatment and ozonzation
Unit -II Electrochemistry (12)
Introduction- Representation of electrochemical cell- origin of electrode potential- reference electrodes- standard hydrogen electrode- saturated calomel electrode -determination of single electrode potential- Electrochemical series and its significane- electromotive force(emf) of a cell- determination of emf by potentiometric method- Application of emf series- determination of sparingly soluble salts- potentiometric titrations- Ferrous/ ferric system- Concentration cells- Emf expression for electrolyte concentration cell.
Unit - III Corrosion science and industrial metal finishing (12)
Introduction- mechanism of chemical oxidation corrosion - pilling - bedworth rule- Mechanism of electrochemical corrosion- galvanic corrosion - differential aeration corrosion - difference between chemical and electrochemical corrosion - corrosion control
sacrificial anodic method - impressed current method - inhibitors- cathodic anodic and vapour phase inhibitors- pretreatment of metal surface before coating - electroplating - principle and processs of electroplating of copper - electroless plating - principle and process of electroless plating of nickel.
Unit - IV Explosives and rocket propellants (12)
Introduction - Requirements of explosives - oxygen balance - classification of explosives- low explosives- gun powder - Smokeless powder - primary explosives- lead azide - mercury fulminate- high explosives- ammonium nitrate- trinitro toluene- RDX
propellants consumption - classification of propellants - liquid propellants- liquid oxidizers - LOX - Liquid fluorine - H2O2 - HNO3 -N2O4- Liquid fuels- Hydrocarbon fuels - liquid hydrogen - N2H4-Mono and Di- methyl hydrazine - solid propellants - oxidizers- ammonium perchlorate- inorganic nitrates - RDX - Fuel - Powdered aluminum - Boron - AIH3- Beh2- Polymer binders.
Unit V Chemical toxicology and food additives (12)
Introduction - chronic and acute effects - median lethal dose-50
mercury- the need of food additives- incidental and intentional additives- classification - preservatives- anti-oxidants- sequestrants- acidulants- surface active substances - stablisers and thickeners- natural supplements - colourants- non- nutritive sweeteners - Flavours- risk analysisi of some specifc food additives - diethyl pyrocarbonate - butylated hydroxyanisole (BHA) and butylated hydroxytolune (BHT) - phosphoric acid - saccharin - monosodium glutamate.
REFERENCES
1. Engineering chemistry, jain& jain, 15th Ed,Dhanpat Rai Publ.Co(2006)
2. Chemistry in Engineering and Technology, Vol.1&2,J.C. kuriacose and Rajaram,Tata Mc Graw Hill.
3. A Text Book of Engineering chemistry, S.S. Dara,S.Chand Co.(2006)
4. Rocket propulsion elements,George P.Sutton, John wiley&Sons,(1986)
5. Environmental chemistry,A.K.De,New age International Ltd.(2006)
6. Fundamental concepts of Environmental chemistry, G.S.Sodhi,narosa Publ.Co(2002)
7. Engineering Chemistry M.M.Uppal, 6th edition Khanna Publication(2002)
8. Engineering Chemsitry, O.P Aggrawal, 3rd Edition Khanna Publication (2003)
6C0007 PROGRAMMING IN C' 4 1 0 100
(COMMON TO I SEM ECE, ETCE,CSE, IT,Chem, Mech, Prod, Aero
II Sem: Common to Bio- tech, Bio-info, Bio-Med, E&I, E&C, EEE)
UNIT - I INTRODUCTION (12)
Program development cycle - Structured programming - Top down, Bottom up approach - Flow charts - History of C' - Structure of a C program - Character Set - C' Tokens : KeyWords - Identifiers - Constants -Variables - Data Types - Expressions - Operators.
UNIT II (12)
Data Input and Output: Single character input and output -Scanf ( ) function - printf( ) function - gets( ) and puts( ) function.
Control Structures: Selective Control - Loop Control - Break and continue Statement.
UNIT III (12)
Arrays : Definition - Accessing an array element - Single dimensional arrays - Multi dimensional arrays.
Strings : Handlings of character strings - String Manipulations.
Functions: Definition -Execution of a function -Category of a function - Recursion - Passing arguments to a function -Storage classes.
UNIT IV (12)
Pointers: Definition - pointers and functions - Passing pointers as function arguments - Passing array as arguments to function - Pointers and Arrays - Array of pointers.
Structures & Unions: Definition a structure - Array of structures - Passing Structures to a function Pointers and structures - Union.
UNIT V (12)
Files: File management in C' - Defining and Opening a file - Closing a File - I/O operations on file - Random access to file - Command line arguments.
Total No of Periods:60
REFERENCE BOOKS:
1. B.S.Gottfried, Programming with C' Schaum's Outline Series, Tata McGarw Hill Edition 1997.
2. E.Balagurusamy, Programming in ANSI C' Tata McGraw Hill 2nd Edition 1997.
3. Computer Programming-Mrs.Sabitha and Mrs.Jayanthi-Air Walk Publications, Chennai-
6C0008 BASIC CIVIL AND BASIC MECHANICAL ENGINEERING 4 1 0 100
PART - A: BASIC CIVIL ENGINEERING
( COMMON TO ECE, ETCE, E&I, EEE , E&CII-Sem: Mech, Mech&Prod., Aero and Chem)
UNIT I (10)
Construction materials Physical and mechanical properties Stone, brick, cement, concrete, steel, plywood, plastic and composite material.
Buildings - Various components and their functions.
Foundations - Functions , classification and suitability.
Flooring - functions, types, cement concrete, mosaic, granolithic, marble and granite flooring.
Masonry - stone and brick masonry and their construction details.
Roof -flat R.C.C. roof - steel trusses - roof coverings.
Valuation - Simple valuation methods- Plinth area method- Depreciation rate method.
UNIT II (10)
General properties of materials - stress, strain, modulus of elasticity.
Centre of gravity and Moment of Inertia for rectangle, angle, T section, I section Channel section.
Road -Types -Water Bound Macadam road, Cement Concrete road, Bituminous road.
Railways Ä Permanent way, components and functions.
UNIT III (10)
Water supply - sources - surface and ground water - quality and quantity - water treatment.
Sewage disposal - Collection - Waste water treatment - Septic tank and Oxidation pond.
Surveying - Classification and principles - Surveying techniques and instruments.
Bridges - Types - T beam, steel arc, culvert and causeway.
Dams - Purpose - Selection of site - Gravity and Earthern dams - Geological effects.
REFERENCE BOOKS:
1. Basic Civil Engineering - Natarajan.K.V, M/S Dhanalakshmi, Chennai.
2. Basic Civil Engineering - Shanmugam .G & Palanichamy M.S, Tata Mc Grew Hill Publication Co.
3. Text book on Basic Civil Engg - Ramesh Babu.B, Sundaram Printing Works.
4. Basic Civil Engg - Helen Santhi. M, Air Walk Publications , Chennai.
PART - B : BASIC MECHANICAL ENGINEERING
UNIT I: NEW SOURCES OF ENERGY (10)
Study of different types of alternative sources - solar, wind, wave, tidal and geo-thermal.
BOILERS
Classification - principles of modern high pressure steam generators for power generation.
Layout of steam, gas turbine, diesel, nuclear and hydro power plants.
(10)
UNIT II: INTERNAL COMBUSTION ENGINES:
Working principle of petrol and diesel engines- Two stroke and four stroke cycles - functions of main components - single jet carburetor -ignition, cooling and lubrication systems -fuel pump and injector.
UNIT III: METAL FORMING PROCESS: (10)
Principles of forging, rolling, drawing and extrusion.
METAL JOINING PROCESS:
Principles of welding - fundamentals of arc welding, gas welding and gas cutting - brazing and soldering.
METAL MACHINING:
Types of lathes - Main components and their functions of center lathe - operations performed - drilling machines - operations.
REFERENCE BOOKS:
1.Basic Mechanical engineering - Dr.K.Palani Kumar, AirWalk Publications, Chennai-4.
2. Basic Mechanical engineering K.Venugopal, Anuradha Publications, Kumbakonam.
6C0009 BASIC ELECTRICAL ENGINEERING 4 1 0 100
(Common to ECE EEE/ ETCE/ CSE/IT/ E&CE/EIE / Chem in Sem I )
UNIT I :D.C.CIRCUITS (12) Electrical quantities - Ohm's Law - Resistors - Series and parallel combinations -- Kirchoff's laws - Node and Mesh Analysis - Star delta Transformation - Simple problems
UNIT - II : MAGNETIC CIRCUITS (12)
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
and mutual inductance - Coefficient of coupling- Energy stored and energy density - Analogy of electric and magnetic circuits - Simple problems.
UNIT - III : A.C.CIRCUITS (12)
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 - power and power factor - Simple problems - Three phase circuits - Star / Mesh connections - Simple Problems on 3 phase circuits with balanced 3 phase loads - measurement of power by two wattmeter method.
UNIT - IV: MEASURING INSTRUMENTS (12)
Classification, essentials of indicating instruments, Moving coil and moving iron instruments ,Voltmeter, Ammeter, Galvanometer
Induction type energy meter - Megger.
UNIT - V: ELECTRICAL WIRING (12)
Domestic Wiring - Materials and accessories - Types of wiring - Stair case wiring - Fluorescent tube circuit - Indian Electricity rules for wiring - Simple domestic wiring layout - Insulators - Requirement and types of insulators - Single line diagram of Transmission and Distribution Systems .
Total No of Periods:60
Text Book:
1. Basic Electrical Engineering, B.N.Mittle, Aravind Mittle, "Tata McGraw Hill",2nd Edition
REFERENCE BOOKS:
1. W.H.Hayt &co,'Engineering Circuit Analysis',MGH 6th edition 2006
2. Electrical Technology B.L.Theraja Vol I, Chand and Co Ltd.,
3. Basic Electrical, Electronics and computer engg., Thiyagarajan, Shalivahanan, TMH Ltd.,.
6CL001 PHYSICS LAB-I 0 0 3 100
(COMMON TO E&C, E&I, EEE, CHEMICAL, ETCE, BIO-INFO, BIO-TECH, BIO-MEDI)
1. Compound pendulum -Determination f acceleration due to gravity.
2. Laser grating - Determination of wavelength of laser light.
3. Spectrometer - Determination of refractive index of a prism.
4. Air-wedge - Determination of thickness of a thin wire.
5. Semiconductor diode - Determination of width of the forbidden energy gap.
6. Quincke's method - Determination of magnetic susceptibility of liquid.
7. Semiconductor diode - Characteristic.
6CL002 CHEMISTRY LAB 0 0 3 100
(COMMON TO E&C, E&I, EEE, CHEMICAL, ETCE, BIO-INFO, BIO-TECH,BIO-MEDI)
1. Determination of Total, Permanent and Temporary hardness of water sample by EDTA method.
2. Determination of molecular weight of polymer by viscosity average method.
3. Determination of percentage of Cu in an ore.
4. Determination of percentage of Ni in an alloy.
5. Estimation of HCL by conductometric titration.
6. Determination of cloud point and pour point of a lubricating oil.
7. Determination of flash point and fire point of an oil.
6CL003 C' PROGRAMMING LAB 0 0 3 100
(COMMON TO ECE,ETCE,CSE & IT, Mech, Prod, Aero)
1. To find greatest of 3 numbers.
2. To check whether a prime or not.
3. Finding GCD of two numbers.
4. To check Perfect number.
5. To check Armstrong number.
6. Generating Fibonacci Series.
7. Finding Sum of series.
8. To perform matrix addition.
9. To perform matrix multiplication.
10. String manipulation.
11. Pointer operations.
12. Structures.
13. Files.
SEMESTER II
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0012 Environmental Engineering 4 1 0 20 80 100 35 50 3
2 6C0016 Engineering Mathematics-II 4 1 0 20 80 100 35 50 3
3 6C0017 Physics of Electronics & Materials 4 1 0 20 80 100 35 50 3
4 6C0073 Chemistry of Engineering Materials 4 1 0 20 80 100 35 50 3
5 6C0005 Engineering Graphics 4 1 0 20 80 100 35 50 3
6 6C0022 Electrical Technology 4 1 0 20 80 100 35 50 3
7 6C0023 Electronic Devices 4 1 0 20 80 100 35 50 3
PRACTICALS
8 6CL010 Electrical Engineering Lab 3 -- 100 100 50 50 3
9 6CL011 Electronics devices Lab 3 2. -- 100 100 50 50 3
SEMESTER II
SI. No Subject Code Subject Name Page Number
1 6C0012 Environmental Engineering 23
2 6C0016 Engineering Mathematics-II 25
3 6C0017 Physics of Electronics & Materials 26
5 6C0073 Chemistry of Engineering Materials 27
6 6C0005 Engineering Graphics 28
7 6C0022 Electrical Technology 29
8 6C0023 Electronic Devices 30
9 6CL010 Electrical Engineering Lab 31
10 6CL011 Electronics devices Lab 32
6C0012 ENVIRONMENTAL ENGINEERING 4 1 0 100
(COMMON TO MECH, PROD, AERO, CIVIL, CHEM in sem I)
(COMMON TO CSE, IT, ECE, ETCE, EEE, EIE E&C in sem II)
UNIT-I: NATURAL RESOURCES (12)
The Multidisciplinary nature of environmental studies, definition, scope and importance-Renewable and non-renewable resources- Natural resources and associated problems. Forest resources: Use and over-exploitation, deforestation, case studies. Timber extraction, mining, dams and their effects on forest and tribal people. Water resources: Use and over-utilization of surface and ground water, floods, drought, conflicts over waters, dams-benefits and problems. Mineral resources: Use and exploitation, environmental effects of extracting and using mineral resources, case studies. Food resources : World food problems, changes caused by agriculture and overgrazing, effects of modern agriculture, fertilizer-pesticide problems, water logging, salinity, case studies. Energy resources : Growing energy needs, renewable and non renewable energy sources, used 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-II: ECOSYSTE (12)
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 following ecosystem. Forest ecosystem, Grassland ecosystem, Desert ecosystem, Aquatic ecosystems (ponds, streams, lakes, rivers, oceans, estuaries)
BIODIVERSITY AND ITS CONSERVATION
Introduction-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. Threads to biodiversity: habitat loss, poaching of wildlife, man wild life conflicts. Endangered and endemic species of India-conservation of biodiversity: In-situ and Ex-situ conservation of biodiversity.
UNIT- III: ENVIRONMENTAL POLLUTION (12)
Definition ,causes, effects and control measures of: Air pollution, water pollution, Soil pollution, Marine pollution, Noise pollution, Thermal Pollution, 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-IV: SOCIAL ISSUES AND THE ENVIRONMENTAL LEGISLATION (12)
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 pollution) Act. Water (Prevention and control of pollution ) Act-Wild life protection act-Forest conservation Act-Issues involved in enforcement legislation. Public awareness.
UNIT-V: HUMAN POLLUTION AND THE ENVIRONMENT (12)
Population growth, variation among nations-Population explosion-Family welfare programme. Environment and human health. Human rights-Value education-HIV/AIDS. Women and child welfare-Role of information Technology in environment and human health, Case studies.
Visit to a local area to document environmental assets-river /forest/ grassland /hill/ mountain. Visit to a local polluted site-Urban / Rural/ Industrial/ Agricultural-Study of common plants, insects, birds-Study of simple ecosystems-pond, river, hill slopes, etc.
Total No of Periods:60
Text Book:
1. Enivronmental science and Engineering, Anubha kaushik and C.P. Kaushik, New Age International Publishers.
REFERENCE BOOKS:
1. Environmental Engineering-Dr.Abbas Mohaideen-Air walk Publications- Chennai
2. Environmental Science -working with the earth by G.Tyler Miller, 10th edition Jack carrey Publishers.
3. Introduction to Environmental Engineering- Y.Anajaneyulu- B.S.Publications- Hyderabad
4. Environmental Science- towards a sustainable future by Richard T.Wright % B.J.Nebel, 8th edition prentice hall of India New delhi
5 Text book of Environmental studies, Erach Bharucha, University press, Chennai
6C0016 ENGINEERING MATHEMATICS II 4 1 0 100
(Common to all branches of B.E., B.Tech.,)
UNIT - I : TRIGONOMETRY (12)
Review of Complex numbers and DeMoivre's Theorem. Expansions of Sinn? and Cosn? ; Sin? and cos? in powers of , sinn? and cosn? in terms of multiples of . Hyperbolic functions - Inverse hyperbolic functions. Separation into real and Imaginary parts of comples function.
UNIT - II : THREE DIMENSIONAL ANALYTICAL GEOMETRY (12)
Direction cosines and ratiOS - The equations of a plane - Equation to a straight line - Shortest distance between two skew lines - Coplanar lines - Sphere - Tangent line - Plane section of a sphere - Orthogonal spheres.
UNIT - III : BETA AND GAMMA FUNCTIONS (12)
Definitions of Beta and Gamma integrals - Relation between them
and Gamma function - Simple applications.
UNIT - IV : VECTOR CALCULUS (12)
Differentiation of a vector function - Gradient divergence and curl - directional Derivative - Identities (without proof) - Irrotational and Solenoidal fields, Vector Integration - Line, Surface and Volume Integrals, Integral theorem (without proof), Green's theorem (in the plane), Gauss divergence theorem and Stokes's theorem - Simple applications involving rectangles and cuboids.
UNIT - V : INTEGRAL CALCULUS (12)
Properties of definite integrals - Related definite integrals - Reduction formulaes for eax.xn, xn.sinax, xn.cosax, sinnx, cosnx, sinmx.cosnx. Double integrals - Change of order of integration - Triple integrals.
Total No of Periods:60
TEXT BOOKS :
1. A Text Book on Engineering Mathematics by T.VEERARAJAN, Tata-McGraw Hill Publications,Chennai.
REFERENCE BOOKS :
1. Engineering Mathematics by Dr.P.KANDASWAMY and Co., S.Chand and Company.
2. Engineering Mathematics by M.K. VENKATRAMAN, National Publications, Chennai.
6C0017 PHYSICS OF ELECTRONICS & MATERIALS 4 1 0 100
(COMMON TO CSE, IT, ECE, EEE, E&I, ICE & CHEM BRANCHES)
UNIT - I CONDUCTING AND SUPERCONDUCTING MATERIALS (12)
Conducting materials - Free electron theory - Deduction of Wiedemann Franz law, Problems. Superconducting materials-Transition temperature - Occurrence of superconductivity - BSC Theory, Properties of superconductors - Type I and Type II superconductors, AC and DC Josephson effects. (basic definitions)
UNIT - II MAXWELL'S EQUATIONS AND ELECTROMAGNETIC THEORY (12)
Basic laws of electricity and magnetism - Differential form - Gauss law, Ampere's circuit law, Faraday's law of electromagnetic induction. Types of current, Charge conservation law - continuity equation, Displacement current - Maxwell's equations, electromagnetic waves in free space - Energy density of Electromagnetic waves and Poynting theorem.
UNIT - III DIGITAL ELECTRONIC FUNDAMENTALS (12)
Number systems - Binary, decimal, Hexadecimal and octadecimal. Conversion from one number system to another. BCD - ASCII-Excess 3 code and gray code. Binary addition, Subtraction - Subtraction by 1's and 2's complement.
UNIT - IV FIBER OPTICS (12)
Introduction, Advantages of optical fiber communication, Block diagram for optical fiber communication system, structure of fiber, principle of propagation of light through the fiber, Theory of propagation of light, Types of rays, types of fiber, attenuation and distortion in fiber.
UNIT - V MAGNETIC AND DIELECTRIC MATERIALS (12)
Introduction to magnetism, Basic definitions, Types of Magnetic materials - hard and soft - dia, para and ferro magnetic materials. Magnetic bubbles - formation and propagation of magnetic bubbles - applications of magnetic materials - Floppy disk and CD ROM.
Dielectrics - basic definitions, internal or local electric field -definition and derivation of Lorentz equation. Clausius Mosotti equation - Dielectric Loss and properties.
Total No of Periods:60
TEXT BOOK:
1. Engineering Physics - 8 th Edition - Gour and Gupta
REFERENCE BOOKS:
1.Material science - Raghavan
2. Material and Metallurgical Engineering - O.P.Khanna
3. Electro Magnetic Theory and Electrodynamics - Sathyaprakash
4. Digital Principles and Applications - Malvino leech
5.Electricity and Magnetism with Electronics-K.K. Tewari
6C0073 CHEMISTRY OF ENGINEERING MATERIALS 4 1 0 100
COMMON TO CSE, IT, ECE, EEE, E&I, E&C,ETCE BRANCHES for 2007 batch
UNIT -I POLYMER MATERIALS (12)
Introduction -Functionality of monomer and its significance - Nomenculature of polymers-Introduction constituents of plastics - Moduling methods - Compression modeling - Injection modeling - Extrusion modeling -Conducting polymers-Definition - Examples- Polyacetylene-Polyaniline-Electronic behavior of polymers with structure-Optical fibers -Definition -Principle -Plastic optical fibers -Polymethyal methacrylate -Perfluorinated polymers Bio degradable polymers- Definition -Classification
UNIT - II Batteries and fuel cells (12)
Introduction - Battery terminology - Capacity - Charging and discharging characteristics - Cycle life - Energy density - Internal resistance - Classification of Batteries -Lead - acid accumulator -Nickel -Cadmium batteries - Lithium cells - Types - Cells with solid cathode - eg: Li-MnO2 - Cells with liquid cathode
cells - Hydrogen oxygten fuel cell - Solid oxide fuel cell (SOFC) - Advantages.
UNIT - III Introduction to nonmaterials (12)
Introduction - Nanomaterials -Definition - Properties - Types - Nanostructured materials - Nanoparticles -Nanoporous materials - Nanowires - Nanotubes -Single walled and multi walled nanotubes - Synthesis of Nanomaterials - Sol-gel methode - Plasma arching - Chemical reduction methods - Chemical vapour Deposition(CVD) -Applications of Nanomaterials.
UNIT - IV Insulating materials (12)
Introduction - Classification - Heat insulating materials - Requirements - Types _ Organic and Inorganic insulators - Sound insulating materials - Requirements - Types - Soft, Semi-hard and Hard materials - Electrical insulating materials (Dielectrics) - Requirements - Types - Solid, Liquid and Gaseous materials.
UNIT - V Instrumental analysis (12)
pH - Determination of pH using glass electrode - Conductance - Experimental determination of conductance for an aqueous solution - Condnctometric titrations - Principle - Strong acid vs Strong base
chromatography- classification-Elution analysis-Gas chromatography(GC) Block diagram- Detectors- Thermal conductivity detector(TCD) -flame ionization detector (FID) - Liquid chromatography-Principles- Adsorption and partition chromatography- High pressure liquid chromatography(HPLC)- Block diagram only
Total No of Periods:60
REFERENCES
1. Polymer science, V.R.Gowariker,N.V.Viswanathan and jayadev Sreedhar,New age intercontinental(P)Ltd.(2003)
2. Engineering chemistry, jain&jain, 15th Ed, Dhanapat Rai Publ.Co. (2006)
3. A text book of . Engineering chemistry, S.S. Dara, S.Chand Co.(2006)
4. Introduction to Nanotechnology, Charles P. Poole jr, & Frank j.Owens, john Wiley Sons
5. Text Book of Engineering Chemistry, C. Parameseara murthy, C.V.Agarwal,Andra Naidu,BS Puplications(2007)
6. Engineering materials,R.K.Rajput,S.Chand&Co.(2004)
7. Principles of Instrumental analysis, Skoog,Holler and Nieman,5th Ed, Thomson Inc.,(2003)
8. Engineering chemistry, M.M.Uppal, 6th Ed, Kanna publ.(2002)
6C0005 ENGINEERING GRAPHICS 4 1 0 100
(Common to ECE,ICE,E&I, CSE, IT II SEM: EEE, & ETCE, Bio Medi)
UNIT I (12)
Introduction to Dimensioning, Lettering. Geometrical Construction.
Orthographic projections - Planes of projection -Projection of points.
Projection of straight lines - Parallel to one or both the planes - perpendicular to a plane - Inclined to one plane, parallel to the other - Inclined to both planes - Traces of the lines.
UNIT II (12)
Projection of solids - Axis perpendicular to a plane. Axis parallel to both planes - Axis parallel to one plane and inclined to the other - Axis inclined to both planes.
UNIT III (12)
Sections of Solids-Section planes - True Shape of Section - Sections of Prisms, Pyramids, Cones and Spheres.
Development of lateral surfaces-Development of cubes ,prisms ,pyramids and cones.
UNIT IV (12)
Isometric projection-Isometric axes -isometric scales -isometric projection of planes, prisms, pyramids , cylinders, cones and spheres .
Perspective projections -station point -picture plane - vanishing point method only.
UNIT V (12)
Conversion of orthographic projection from pictorial views.
Conversion of pictorial views from orthographic projection.
Total No of Periods:60
REFERENCE BOOKS :
1. Engineering Drawing - N.D.Bhutt.
2. Engineering Drawing -K.L.Narayana and Kannaiah.
3. Engineering Graphics -S.Ramachandran, K.Pandian & E.V.V.Ramanamurthy, R.Devaraj - AirWalk Publications, Chennai
6C0022 ELECTRICAL TECHNOLOGY 4 1 0 100 (Common TO ECE, ETCE and E&I)
(Common to CSE, E&C, and Biomedical Engg. In the III Semester from 2006 Batch onwards)
UNIT I: DC MACHINES (12)
Construction -principle of operation of DC generator and DC Motor- Types of DC generators and DC Motors -Performance Characteristics of DC generators and DC Motors- Losses in DC machine(problems)- Calculation of Efficiency(problems)- Starters - Necessity and types - Speed control of various types of DC Motors.
UNIT II: TRANSFORMERS (12)
Constructional details and principle of operation of Single and Three Phase transformers - EMF Equation (Problems) - Phasor Diagram on No Load and Load - Equivalent circuit (Problems) - Open Circuit, Short Circuit( Problems) - Regulation(Problems) - Commercial and All day Efficiency - Auto Transformer.
UNIT III: INDUCTION MOTORS (ASYNCHRONOUS MOTORS) (12)
Constructional details of Three Phase Squirrel Cage and Slip Ring Induction Motors - Principle of Operation - Equivalent Circuit
Problems - Starters - Speed control methods - Introduction to Single Phase Induction Motors.
UNIT IV: SYNCHRONOUS MACHINES (12)
Constructional Features of Alternator - Principle of Operation - EMF Equation- Simple Problems - Regulation - Synchronous Impedance
Problems - Synchronous Motor - Starting, Hunting, V Curves and Inverted V Curves - Synchronous Condenser.
UNIT V: SPECIAL MACHINES (QUALITATIVE TREATMENT ONLY) (12)
Tachogenerator - AC and DC Servo motor - Linear Induction Motor
Synchros - Stepper Motor - Variable Reluctance and Permanent Magnet
Total No of Periods:60
Text Books:
1. B L Theraja, 'Electrical Technology', Vol II-S chand &co, 1998
REFERENCE BOOKS:
2. Theodore wildi, 'Electrical Machnies, Drives and Power systems',Pearson education, 5th edition ISBN 81-7808-972-6
3. C.R.Paul, S.A.Nasar & L.E.Unnewehr, 'Introduction to Electrical Engineering', Mc Graw Hill, 1992.
4. J.B.Gupta,'Electrical Machines', Millennium Edition,2000.
5. Smarajit Ghosh,'Electrical Machines', Pearson Education, 2005, ISBN 81-297-0718-7
6C0023 ELECTRONIC DEVICES 4 1 0 100
(COMMON TO EEE, ECE, ETCE, E&C, E&I)
UNIT-1: ELECTRON DYNAMICS (10) Force on charged particle in electric field & magnetic field-Deflection and focusing of electron beam in CRT & TV picture tube-motion of electrons under concurrent field-E and H perpendicular to each other- E and H are parallel to each Other -Applications of CRO
UNIT-II: SEMICONDUCTOR DIODE (14)
Review of intrinsic & extrinsic semiconductor - Charge density in semiconductor-mobility and conductivity - conductivity modulation - Hall effect-expression for drift and diffusion current-continuity equation - Calculation and location of Fermi level and free electron in intrinsic and extrinsic semiconductors - operation and characteristics of PN junction - minority carrier injection and recombination in homogeneous semiconductor - energy band diagram of open circuit PN Junction - current components in PN junction - break down in PN junction - junction capacitance - Charge control description of a diode - Switching characteristics - application of diode - clipper, clamper and Voltage multipliers.
UNIT-III: BIPOLAR JUNCTION TRANSISTOR (12)
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 - small and large signal models - break down ratings - thermal runway problems - use of heat sinks - Switching characteristics.
UNIT IV: FIELD EFFECT TRANSISTOR (12)
JFET-construction , operation and characteristics - expression for pinch off voltage and drain current -small signal model - MOSFET - enhancement and depletion mode operation and characteristics - handling precautions of MOSFET - gate capacitance
and JFET.
UNIT V: SPECIAL SEMICONDUCTOR DEVICES (12) SCR- UJT- Diac-Triac
diode, Principle of photo electronic devices - solar cell, photo diode and photo transistor - LED-LCD - LASER diode - CCD -operation, characteristics and applications.
Total No of Periods: 60
TEXT BOOKS:
1. Electronic devices & circuits -Millmam & Halkias
2. Electronic devices & circuits - G.K.Mithal,Khana Publication,23rd edition
REFERENCE BOOKS:
1. Electronic devices & circuits - David Bell
2. Electronic devices & circuits theory - Boylstead
3. Solid state electronic devices - Street man
4. Fundamental of semiconductor devices - Yang
6CL010 ELECTRICAL ENGINEERING LAB 0 0 3 100 (COMMON TO ECE, ETCE)
1. Brake Load test on DC Shunt Motor. Determination of performance characteristics.
2. Speed control of DC shunt motor
a. Armature control, b. Field control
3. Brake Load test on DC Series Motor.
4. O.C.C & Load test on separately excited dc shunt generator. Determination of critical field resistance.
5. O.C. and S.C. test on single phase Transformer and prediction of
a. Efficiency b. Regulation &
c. Determination of equivalent circuit parameters.
6. Load test on Single phase Transformer. (Determination of regulation and efficiency of given single phase transformer with pure resistive load).
7. Pre-determine of Regulation of Three phase Alternator by synchronous Impedance method.
8. Brake Load Test on Three-phase Induction Motor. (Performance characteristics)
9. a. One lamp controlled from two different places. (Stair case wiring)
b. Calling bell wiring
c. Bright and Dim connections using 2 lamps and 2 Way switches
10. Fluorescent lamp wiring
11. Godown wiring & Mainbox wiring
12. Measurement of Power & Power factor using two watt meter methods
6CL011 ELECTRONIC DEVICES LAB 0 0 3 100
(COMMON TO ECE & ETCE)
1. Study of circuit components & equipment's( Component identification, color coding, checking diode, BJT, FET, study of CRO, Audio Oscillator, 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.
13. Switching Characteristic of BJT.
14. Clippers and Clampers.
15. Voltage multipliers.
SEMESTER III
No Subject Code Subject Name *Periods/Week
Int. Marks Max. Marks in Univ.
Exam Total Marks Min. Marks in Univ.
Exam Min. Pass Marks Exam Duration in hrs.
L T P
THEORY
1 6C0032 Engineering Mathematics III 4 1 0 20 80 100 35 50 3
2 6C0026 Circuit Theory 4 1 0 20 80 100 35 50 3
3 6C0035 Electronic Circuits-I 4 1 0 20 80 100 35 50 3
4 6C0036 Engineering Electromagnetics 4 1 0 20 80 100 35 50 3
5 6C0037 Object oriented Programming 4 1 0 20 80 100 35 50 3
6 6C0038 Digital Systems 4 1 0 20 80 100 35 50 3
7 6C0053 Networks analysis and synthesis 4 1 0 20 80 100 35 50 3
PRACTICALS
8 625350 Digital Lab
3 -- 50 50 25 25 2
9 625351 Circuits & Networks Lab -- 50 50 25 25 2
10 625352 Electronic circuits-I Lab 3 -- 50 50 25 25 2
11 625353 Pspice Lab -- 50 50 25 25 2
SEMESTER III
SI. No Subject Code Subject Name Page Number
1 6C0032 Engineering Mathematics III 34
2 6C0026 Circuit Theory 35
3 6C0035 Electronic Circuits-I 36
4 6C0036 Engineering Electromagnetics 37
5 6C0037 Object oriented Programming 38
6 6C0038 Digital Systems 39
7 6C0053 Networks analysis and synthesis 40
8 625350 Digital Lab 41
9 625351 Circuits & Networks Lab 41
10 625352 Electronic circuits-I Lab 42
11 625353 Pspice Lab 42
6C0032 ENGINEERING MATHEMATICS III 4 1 0 100
(Common to ECE, EEE,E&C,EIE, ETCE from the academic year 2006-2010 )
Unit I LAPLACE TRANSFORM (12)
Transform of simple functions - Properties of transforms - Transform of derivatives and Integrals - Periodic functions - Periodic functions - Inverse transforms - Convolution theorem - Initial and final value theorems.
Unit II APPLICATIONS OF LAPLACE TRANSFORMS (12)
Application of transforms for solving of linear ordinary differential equations - Simultaneous Differential equations - Integral Equations
Unit III COMPLEX VARIABLE (12)
Analytic functions - Cauchy - Riemann equations in Cartesian and polar form - Properties of analytic functions - Construction of analytic functions - conformal mapping - standard types - bilinear
Unit IV COMPLEX INTEGRATION (12)
Cauchy's integral theorem, integral formula - Taylor's and Laurent's series (with out proof) - residues- Cauchy's residue theorem - contour integration around the circle and semicircular contour
Unit V THEORY OF SAMPLING & TEST OF HYPOTHESIS (12)
Test of Hypothesis-large sample-test of significance-proportion-difference of proportions-single mean-difference of means and variances, small sample-students 't' test - single mean -difference of means -Fisher's test -difference of variances, exact sample -Chi square test -goodness of fit -independence of attributes.
Total No of Periods:60
TEXT BOOK:
1. Engineering Mathematics by Dr.P.Kandasamy and other S.Chand&co
Reference books:
1. Engineering Mathematics by M.K. VENKATRAMAN, National Publications, Chennai
2. A Text Book on Engineering Mathematics by T.VEERARAJAN, Tata-McGraw Hill Publications,Chennai.
6C0026 CIRCUIT THEORY 4 1 0 100
(Common to EEE, E&C, CSE and IT in the II Semester)
(Common to ECE, EIE, ETCE in III Semester)
(For the Students admitted from the academic year 2006-2007)
UNIT I: NETWORK THEOREMS (12)
Superposition Theorem - Reciprocity Theorem - Mill man's Theorem
-Maximum Power Transfer Therem-Tellegen's Theorem (All theorems based on both AC and DC circuits)
UNIT II: TRANSIENTS (12)
Time Domain Analysis - Step, Impulse and Ramp function - Transient response of RLC network with step input as forcing function - concept of complex frequency - Pole and Zeros plots - Driving point impedance and Transfer impedance.
UNIT III: RESONANCE AND COUPLED CIRCUITS (12)
Coupled circuits - coefficient of coupling - Analysis of coupled circuits - Single and double tuned circuits - critical coupling - frequency response of tuned circuits- Resonance in series and parallel circuits - Q factor, Band width of resonant circuit
UNIT IV: NETWORK TOPOLOGY (12)
Network Topology - Network Graph, Tree, and Cut sets - Tie sets -Cut set schedule - Tie set schedule- primitive impedance and admittance matrices - Application of network solutions - Duality and Dual Networks
UNIT V: PSPICE CONCEPTS (12)
Pspice- Introduction - DC Analysis and unit identification - AC and DC network Analysis - Circuit with variable resistor - Transient analysis- Frequency response - Resonant Circuit Analysis
Total No of periods: 60
TEXT BOOK:
1. Network Analysis and Synthesis: Sudhakar shyam Mohan, Tata MCGraw Hill,2000
2. Electrical Circuit Analysis: Soni Gupta, Dhanpatrai publications.
REFERENCES
1. David.A.Bell,'Electric Cricuits', PHI, 6th Edition, 2004.
2. Circuit Theory: Joseph Edminister, Tata MCGraw Hill publications,2000
3. Electric Circuit theory: Arumugam, Khanna publications
4. Pspice for Electrical Engineering: M.H.Rashid, PHI Ltd,2004
6C0035 ELECTRONIC CIRCUITS - I 4 1 0 100
(Common with E&C, ECE, ETCE, EIE Branches from the Batch 2006 - 10 onwards)
UNIT- I RECTIFIERS AND POWER SUPPLIES (12)
Half Wave Rectifier - Full Wave Rectifier - Bridge Rectifier - Performance of Rectifiers - Filters - Types of Filters - L, C, LC, ? Filters - Ripple Factor Calculation for C, L, LC and ? Filter - Regulators - Shunt and Series Voltage Regulator - IC Regulator - SMPS - Power Control using SCR
UNIT- II BIASING CIRCUITS AND ANALYSIS OF SMALL SIGNAL BJT AMPLIFIERS (12)
Biasing Circuit of BJT, DC Equivalent Circuit of BJT, DC and AC Load Lines, Stability Factor Analysis, Types of Amplifiers - Equivalent Circuits - Input-Output Characteristics - Small Signal Equivalent Circuit of Amplifier - Calculation of Gain, Input and Output Impedance of Various Amplifiers using h-Parameter
UNIT -III ANALYSIS OF FET AMPLIFIERS (12)
Small Signal Model of JFET and MOSFET - Source Bias Circuit for FET Voltage Divider Bias - Conversion of Biasing Circuits into CS, CG and CD Amplifiers - Analysis of the Different Biasing using Small Signal Model - MOSFET Biasing
UNIT- IV LARGE SIGNAL AMPLIFIERS (12)
Class A, B, C, AB and D Type of Operation - Efficiency of Class A Amplifier with Resistive and Transformer Coupled Load, Efficiency Class B, Complementary Symmetry Amplifiers - Distortion in Power Amplifiers - Thermal Stability of Power Amplifier.
UNIT -V FREQUENCY RESPONSE AND MULTISTAGE AMPLIFIERS (12)
Low Frequency Equivalent Circuit and Miller Effect Response of BJT and JFET Amplifiers - HF Response of BJT and JFET Amplifier Multi Stage Amplifier and Direct Coupled Amplifier - RC Coupled Amplifier - Transformer Coupled Amplifier - Cascode Amplifier - Cascade Amplifier - Darlington Emitter Follower - Bootstrap Amplifier
TOTAL NUMBER OF PERIODS: 60
TEXT BOOK:
1. Jacob Millman and C. Halkias, "Electronic devices and circuits", McGraw Hill,1996
2. G.K.Mithal "Electronic devices and circuits" Khanna Publi
Copyright © 2026 eLLeNow.com All Rights Reserved.
