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    ANNA UNIVERSITY :: CHENNAI 600 025

    DEGREE OF BACHELOR OF ENGINEERING

    (8 SEMESTER PROGRAMME)

    BRANCH: B.E. ELECTRONICS AND INSTRUMENTATION ENGINEERINGCURRICULUM

    SEMESTER I(Applicable to candidates to be admitted in 2003 2004)

    Sl. No. Code No. Course Title L T P M

    THEORY

    1. MA 131 Mathematics I 3 1 0 100

    2. PH 125 Physics I 3 0 0 100

    3. CM 125 Chemistry I 3 0 0 100

    4. GE 131 Engineering Mechanics 3 1 0 100

    5. L I Language Elective I 3 1 0 100

    PRACTICAL

    1. PH 126 Physics Laboratory 0 0 2 100

    2. CM 126 Chemistry Laboratory 0 0 2 100

    3. GE 132 Computer Practice I 1 0 3 100

    4. GE 133 Workshop Practice 0 0 4 100

    SEMESTER II(Applicable to candidates to be admitted in 2003 2004)

    THEORY

    1. MA 132 Mathematics II 3 1 0 100

    2. PH 137 Material Science 3 0 2 100

    3. EI 131 Electric Circuit Analysis 3 1 0 100

    4. EI 132 Electron Devices 3 0 0 100

    5. ME 152 Mechanical Engineering 3 0 0 100

    6. L 2 Language Elective II 3 1 0 100

    7. CM132 Chemistry II 3 0 0 100

    PRACTICAL

    1. GE 135 Computer Practice II 1 0 3 100

    2. GE 134 Engineering Graphics 1 0 3 1003. EI 141 Circuits and Devices Laboratory 0 0 3 100

    The following curriculum is applicable to all candidates studying 2nd year and 3 rd in the

    academic year 2003- 2004

    SEMESTER III

    THEORY

    1. MA 231 Mathematics III 3 1 0 100

    2. ME 255 Thermodynamics and Fluid Mechanics 4 0 0 100

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    3. EI 232 Signals and Networks 3 0 0 100

    4. EI 233 Digital Logic Theory and Design 3 0 0 100

    5. EI 234 Electronic Circuits 3 0 0 100

    6. EE 256 Electrical Machines 3 0 0 100

    PRACTICAL1. EE 257 Electrical Machines Laboratory 0 0 3 100

    2. EI 242 Analog and Digital Laboratory 0 0 3 100

    3. ME 254 Thermodynamics and Fluid Mechanics Lab 0 0 3 100

    SEMESTER IV

    THEORY

    1. CS 252 Algorithms and Data Structures 3 0 0 100

    2. EI 235 Transducer Engineering 3 1 0 100

    3. EE 258 Electromagnetic Theory 3 1 0 100

    4. EI 236 Industrial Chemical Process 3 0 0 1005. EI 237 Electrical Measurements and Instruments 3 0 0 100

    6. EC 256 Communication Engineering 3 0 0 100

    PRACTICAL

    1. CS 253 Data Structure Laboratory 0 0 4 100

    2. EI 243 Transducer Laboratory 0 0 3 100

    SEMESTER I

    MA 131 MATHEMATICS - I 3 1 0 100

    1. MATRICES 9

    Characteristic equation Eigen values and eigenvectors of a real matrix Properties of

    eigen values Cayley-Hamilton theorem Orthogonal reduction of a symmetric matrix to

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    diagonal form Orthogonal matrices - Reduction of quadratic form to canonical form by

    orthogonal transformation.

    2. THREE DIMENSIONAL ANALYTICAL GEOMETRY 9

    Direction cosines and ratios Angle between two lines Equation of a plane Equation of

    a straight line Co-planer lines Shortest distance between skew lines Sphere Tangent

    plane Plane section of a sphere orthogonal spheres.

    3. GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS 9

    Curvature Cartesian and polar coordinates Circle of curvature Involutes and Evolutes

    Envelopes properties of envelopes Evolute as envelope of normal.

    4. FUNCTIONS OF SEVERAL VARIABLES 9

    Functions of two variables Partial derivatives Total differential - Differentiation of

    implicit functions Taylors expansion Maxima and Minima Constrained Maxima and

    Minima by Lagrangean Multiplier method Jacobians differential under integral sign.

    5. ORDINARY DIFFERENTIAL EQUATION 9

    Simultaneous first order linear equations with constant coefficients Linear equations of

    second order with constant and variable coefficients Homogeneous equation of Euler type

    equations reducible to homogeneous form Method of reduction of order - Method of

    variation of parameters.

    L= 45, T = 15, TOTAL = 60

    TEXT BOOKS

    1. Kreyszig, E., Advanced Engineering Mathematics (8th Edition), John Wiley and

    Sons (Asia) Pte Ltd., Singapore, 2001

    2. Veerarajan, T., Engineering Mathematics, Tata McGraw-Hill Publishing Co.,

    NewDelhi, 1999.

    REFERENCES

    1. Grewal, B.S., Higher Engineering Mathematics (35th Edition), Khanna Publishers,

    Delhi, 2000.

    2. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics,

    Volume I (4th Revised Edition), S. Chand & Co., New Delhi, 2000.

    3. Narayanan, S., Manicavachagom Pillay, T.K., Ramanaiah, G., Advanced Mathematics

    for Engineering Students, VolumeI (2ndEdition), S. Viswanathan (Printers &

    Publishers), 1992.

    4. Venkataraman, M.K. Engineering Mathematics - First year National Publishing

    Company, Chennai (2nd Edition), 2000.

    PH 125 PHYSICS I 3 0 0 100

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    1. PROPERTIES OF MATTER 9

    Elasticity stress strain diagram Factors affecting elasticity twisting couple on a wire -

    Shafts - Torsion pendulum - Depression of a cantilever youngs modulus by cantilever -

    Uniform and Non Uniform bending I shape girder - Production and measurement of high

    vacuum Rotary pump Diffusion pump Pirani Gauge - Penning gauge Viscosity -

    Oswald Viscometer - Comparison of viscosities

    2. ACOUSTICS 9

    Acoustics of building Absorption coefficient Intensity - Loudness Reverberation time

    Sacbines formula - Noise pollution - Noise control in a machine Ultrasonic-production

    Magnetostriction and piezoelectric methods Applications of ultrasonic in Engineering and

    Medicine.

    3. HEAT AND THERMODYNAMICS 9

    Thermal conductivity - Forbes and Lees Disc methods-Radial flow of heat Thermalconductivity of rubber and glass Thermal insulation in buildings Laws of

    thermodynamics Carnots cycle as heat engine and refrigerator Carnots theorem Ideal

    Otto and Diesel engines Concept of entropy Entropy Temperature diagram of Carnots

    cycle.

    4. OPTICS 9

    Photometry Lummer Brodhun photometer Flicker Photometer- Antireflection coating

    Air wedge Testing of flat surfaces Michelsons Interferometer and its applications -

    Photoelasticity and its applications Sextant Metallurgical microscope Scanning

    electron microscope.

    5. LASER AND FIBRE OPTICS 9

    Principle of lasers Laser characteristics Ruby NdYAG, He-Ne, C02 and

    Semiconductor lasers propagation of light through optical Fibers types of optical fibers

    Applications of optical fibers as optical wave guides and sensors.

    L = 45, TOTAL = 45

    TEXT BOOK

    1. Arumugam M, Engineering Physics, Anuradha publications, 1998.

    REFERENCES

    1. Resnik.R. and Halliday. D. Physics, Wiley Eastern, 1996.

    2. Nelkon.M. and Parker.P, 'Advanced Level Physics, Arnold Heinemann, 1986

    3. Vasudeva.A.S., Modern Engineering Physics, S.Chand & Co., 1998.

    4. Gaur R.K. & Gupta. S. L., Engineering Physics, Dhanpat Rai and Sons, 1988

    5. Mathur.D.S, Elements of Properties of Matter, S.Chand and Co., 1989.

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    CM 125 CHEMISTRY I 3 0 0 100

    1. CHEMICAL THERMODYNAMICS 9

    Definition of free energy and spontaneity Maxwell relations Gibbs Helmholtz equation

    Vant Hoff equations Stoichiometry and energy balances in chemical reactions.

    2. DYNAMICS OF CHEMICAL PROCESSES 10

    Basic concepts Composite reaction (opposing, parallel and consecutive reactions)

    Collision theory Thermodynamic formulations of reaction rates Unimolecular reactions

    Chain reactions (stationary and non-stationary) Enzyme kinetics Michaelis Menten

    equation.

    3. ELECTRODICS 8

    Types of electrodes and cells Nernst equation Emf measurement and its applications

    Principles of chemical and electrochemical corrosion Corrosion control (sacrificial anodeand impressed current methods)

    4. WATER 8

    Water quality parameters Definition and expression Estimation of hardness (EDTA

    method) and alkalinity (titrimetry) Water softening (zeolite) Demineralisation (ion-

    exchangers) and desalination (RO) Domestic water treatment.

    5. POLYMERS 10

    Monomer Functionality Degree of polymerisation Classification based on source and

    applications Addition, condensation and copolymerisation Mechanism of free-radicalpolymerisation Thermoplastics and thermosetting plastics and processing of plastics

    Injection moulding, blow moulding and extrusion processes.

    L = 45, TOTAL : 45

    TEXT BOOK

    1. Atkins P.W., Physical Chemistry, ELBS, IV Edn., London, 1998.

    REFERENCES

    1. Balasubramanian M.R., Krishnamurthy S and Murugesan V., EngineeringChemistry, Allied Publisher Ltd., Chennai, 1993.

    2. Karunanidhi M., Ayyaswamy N., Ramachandran T and Venkatraman H., Applied

    Chemistry, Anuradha Agencies, Kumbakonam, 1994.

    3. Sadasivam V., Modern Engineering Chemistry A simplified approach, Kamakya

    Publications, Chennai, 1999.

    4. Kuriakose J.C. and Rajaram J., Chemistry in Engineering and Technology, Vol. I

    and II, Tata McGraw-Hill Pub. Co. Ltd., New Delhi, 1996.

    5. Jain PC and Monica Jain, Engineering Chemistry, Dhanpat Rai Publications Co.,

    (Pvt.) Ltd., New Delhi, 1998.

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    GE 131 ENGINEERING MECHANICS 3 1 0 100

    1. BASICS 4+1

    Introduction Units and Dimensions Laws of Mechanics Vectors Vectorial

    representation of forces and moments Vector operations.

    2. STATICS OF PARTICLES 6+2

    Coplanar Forces Resolution and Composition of forces and Equilibrium of a particles

    Forces in space Equilibrium of a particle in space equivalent systems of forces Principle

    of transmissibility single equivalent force.

    3. EQUILIBRIUM OF RIGID BODIES 5+2

    Free body diagram types of supports and their reactions requirements of stable

    equilibrium Equilibrium of Rigid bodies in two dimensions Equilibrium of rigid bodiesin three dimensions.

    4. PROPERTIES OF SURFACES AND SOLIDS 9+3

    Determination of Areas and Volumes First moment of area and the centroid second and

    product moments of plane area Parallel axis theorems and perpendicular axis theorems

    Polar moment of inertia Principal moments of inertia of plane areas Principal axes of

    inertia Mass moment of inertia relation to area moments of inertia.

    5. FRICTION 3+1

    Frictional force Laws of Coloumb friction Simple Contact friction Roll dingResistance Belt Friction.

    6. DYNAMICS OF PARTICLES 12+4

    Displacement, Velocity and acceleration their relationship Relative motion Curvilinear

    motion Newtons Law Work Energy Equation of particles Impulse and momentum

    Impact of elastic bodies.

    7. ELEMENTS OF RIGID BODY DYNAMICS 6+2

    Translation and Rotation of Rigid Bodies Velocity and acceleration General Plane

    motion Moment of Momentum Equations Rotation of rigid Body work energyequation.

    L = 45, T = 15, TOTAL = 60

    TEXT BOOKS

    1. Beer and Johnson, Vector Mechanics for Engineers, Vol.1 Statics and Vol.2 Dynamics

    McGraw-Hill International Edition, 1995.

    2. Meriam, Engineering Mechanics, Vol.1 Statics and Vol.2, Dynamics 2/e, Willey

    International, 1998.

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    3. Engineering Mechanics III Edition, K.L.Kumar, Tata McGraw Hill Publishing Co.,

    Ltd., 1998.

    REFERENCES

    1. Rajasekaran, S and Sankara Subramanian, G, Engineering Mechanics Statics and

    Dynamics.

    2. Irving, H.Shames, Engineering Mechanics Statics and Dynamics, Third Edition,

    Prentice Halls of India, Pvt., Ltd., 1993.

    3. Mokoshi, V.S., Engineering Mechanics Vol.1 Statics and Vol.2 Dynamics, Tata

    McGraw-Hill Books, 1996.

    4. Timoshanko and Young Engineering Mechanics 4/e, McGraw-Hill, 1995.

    5. McLean Engineering Mechanics, 3/e SCHAUM Series 1995.

    PH 126 PHYSICS LABORATORY 0 0 2 100

    1. Youngs modulus by non-uniform bending.2. Rigidity modulus and moment of inertia using Torsion Pendulum.

    3. Viscosity of a liquid by Poiseuilles method.

    4. Wavelength determination using grating by spectrometer.

    5. Particle size determination by Laser.

    6. Thermal conductivity by Lees disc.

    7. Thickness of wire by Air wedge.

    8. Thermo emf measurement by potentiometer.

    P =30, TOTAL = 30

    CM 126 CHEMISTRY LABORATORY 0 0 2 100

    1. Preparation of standard solutions

    2. Estimation of hardness of water by EDTA method

    3. Estimation of different types and amounts of alkalinity in water indicator

    method.

    4. Determination of dissolved oxygen - Winklers method

    5. Estimation of iron in water - Spectrophotometric method

    6. Estimation of sodium in water - Flame Photometric method

    7. Determination of molecular weight of polymers - Viscometric method

    8. Determination of total dissolved solids in water

    9. Corrosion experiments:

    Corrosion rate measurement

    Inhibition efficiency

    10. Electrochemistry experiments:

    Determination of emf

    Single electrode potential

    Potentiometric and conductometric titrations

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    P = 30, TOTAL = 30

    GE 132 COMPUTER PRACTICE - I 1 0 3 100

    1. FUNDAMENTALS OF COMPUTERS AND OPERATING SYSTEMS 4

    Evolution of Computers Organization of Modern Digital Computers Single user

    Operating System Multitasking OS GUI.

    2. OFFICE AUTOMATION

    a) Word Processing 2

    b) Data Base Management System 5

    c) Spread Sheet Package 2

    d) Presentation Software 2

    L= 15, P = 45, TOTAL = 60

    REFERENCES

    1. Computers and Computation A Biginners Guide Ghosh Dastidar, Chattopadhyay

    and Sarkar Prentice Hall of India, 1999.

    2. Microsoft Office 97, Nelson, Tata McGraw-Hill, 1999.

    3. PC Software for Windows Made Simple Taxali, Tata McGraw-Hill, 1999.

    GE 133 WORKSHOP PRACTICE 0 0 4 100

    Tools and equipments used in Smithy, Carpentry, Fitting, Foundry, Welding and Sheet

    Metal.

    1. SHEET METAL 10

    Fabrication of tray, cone etc. with sheet metal.

    2. WELDING 10

    Arc Welding of butt joint, Lap joint, Tee fillet etc. Demonstration of gas welding.

    3. FITTING 10

    Practice in chipping, filing, drilling Making Vee, square and dove tail joints.

    4. CARPENTRY 10

    Planning Practice Making halving joint and dove tail joint models.

    5. FOUNDRY 10

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    Preparation of simple moulds like flange, gear, V-grooved pulley etc.

    6. SMITHY 10

    Demonstration for making simple parts like keys, bolts etc.

    P = 60, TOTAL = 60

    REFERENCES

    1. V.S.Venkatachalapathy, First Year Engineering Workshop Practice, Raamalinga

    Publications, Madurai, 1999.

    2. P.Kannaiah and K.C.Narayana, Manual on Workshop Practice, Scitech Publications,

    Chennai, 1999.

    SEMESTER II

    MA 132 MATHEMATICS II 3 1 0 100

    1. MULTIPLE INTEGRALS 9

    Double integration in Cartesian and polar coordinates Change of order of integration

    Area as a double integral Triple integration in Cartesian coordinates Change of

    variables Gamma and Beta functions.

    2. VECTOR CALCULUS 9

    Curvilinear coordinates - Gradient, Divergence, Curl Line, surface & volume integrals

    Statements of Greens, Gauss divergence and Stokes theorems Verification and

    applications.

    3. ANALYTIC FUNCTIONS 9

    Cauchy Riemann equations Properties of analytic functions Determination of harmonic

    conjugate Milne-Thomsons method Conformal mappings: Mappings

    w = z +a, az, 1/z, z2 and bilinear transformation.

    4. COMPLEX INTEGRATION 9

    Cauchys theorem Statement and application of Cauchys integral formulae Taylors and

    Laurents expansions Singularities Classification Residues Cauchys residuetheorem Contour integration Circular and semi Circular contours (excluding poles on

    real axis).

    5. STATISTICS 9

    Moments - Coefficient of correlation Lines of regression Tests based on Normal and t

    distributions, for means and difference of means 2

    test for goodness of fit.

    L = 45, T = 15, TOTAL = 60

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    TEXT BOOKS

    1. Kreyszig, E., Advanced Engineering Mathematics (8th Edition), John Wiley and Sons,

    (Asia) Pte Ltd., Singapore, 2000.

    2. Grewal, B.S., Higher Engineering Mathematics (36

    th

    Edition), Khanna Publishers,Delhi 2001

    REFERENCES

    1. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics,

    Volumes I & II (4th Revised Edition), S. Chand & Co., New Delhi, 2001.

    2. Narayanan, S., Manicavachagom Pillay, T.K., Ramanaiah, G., Advanced Mathematics

    for Engineering Students, Volumes I & II (2ndEdition), S.Viswanathan (Printers &

    Publishers, Pvt, Ltd.), 1992.

    3. Venkataraman, M.K. Engineering Mathematics III - A, National Publishing Company,

    Chennai, (13th Edition), 1998.

    PH 137 MATERIAL SCIENCE 3 0 2 100

    1. CRYSTAL PHYSICS 9

    Crystalline and non-crystalline materials Bravais lattices crystal systems symmetry

    elements simple crystal structures packing factor for sc, bcc, fcc, hcp structures Miller

    indices imperfections in crystals Braggs law and x-ray diffraction methods to study

    crystal structures.

    2. CONDUCTING MATERIALS 9

    Classical free electron theory of metals electrical conductivity-conductivity of A1

    drawbacks of classical theory quantum free electron theory of metals and its importance

    density of states Fermi - Dirac statistics calculation of Femienergy and its importance

    concept of hole origin of bandgap in solids (qualitative treatment only) -effective mass

    of electron high resistivity alloys superconductors properties and applications.

    3. SEMICONDUCTING MATERIALS 9

    Elemental and compound semiconductors and their properties carrier concentration

    intrinsic semiconductors carrier concentration in n-type and p-type semi conductors

    variation of Fermi level and carrier concentration with temperature Hall effect

    experimental arrangement applications.

    4. MAGNETIC AND DIELECTRIC MATERIALS 9

    Different types of magnetic materials and their properties domain theory of

    ferromagnetism Heisenberg criteria Hysterisis Energy product of a magnetic material

    merrites and their applications magnetic recording materials metallic glasses active

    and passive dielectrics and their applications.

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    Various polarisation mechanics in dielectrics and their frequency and temperature

    dependence internal field and deduction of Clausius Mosotti equation Dielectric loss

    dielectric breakdown.

    5. OPTICAL MATERIALS 9

    Optical properties of metals, insulators and semiconductors phosphorescence and

    fluorescence excitons, traps and colour centres and their importance different phosphors

    used in CRO screens liquid crystal as display material thermography and its

    applications photoconductivity and photo conducting materials.

    L = 45, TOTAL = 45

    1. PRACTICALS

    1. Band gap determination using post office box

    2. Particle size determination using laser diffraction.3. Resistivity measurement using four probe method.

    4. Dielectric constant measurement using LCR bridge.

    5. Ionic conductivity measurement using impedance bridge.

    6. Crystal structure determination using X-ray diffraction.

    7. Specific rotatory power using polarimeter.

    8. Hall coeficient measurement using hall apparatus.

    9. Drawing magnetic hysteresis curve.

    L = 45, P = 30, TOTAL = 75

    REFERENCES

    1. Arumugam, M., Materials Science, Anuradha Technical Book Publishers, 1997.

    2. Pillai S.O., Solid State Physics, New Age Inc. 1998.

    3. Van Vlack, L.H., Material Science for Engineers, Addison Wesley, 1985.

    4. Raghavan, V., Materials Science and Engineering, Prentice Hall of India, New

    Delhi, 1993.

    5. Sze, S.M., Physics of Semiconductor devices, Wiley Eastern, 1986.

    EI 131 ELECTRIC CIRCUIT ANALYSIS 3 1 0 100

    1. BASIC CIRCUIT CONCEPTS 9Lumped circuits Kirchhoffs Laws V-I relationships of R, L and C Independent

    sources dependent sources simple resistive circuits network reduction voltage

    division current division source transformation.

    2. SINUSOIDAL STEADY STATE ANALYSIS 9

    Phasor sinusoidal steady state response concepts of impedance and admittance

    analysis of simple circuits power and power factor series resonance and parallel

    resonance bandwidth and Q factor. Solution of three-phase balanced circuits power

    measurements by two-wattmeter methods solution of three-phase unbalanced circuits.

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    3. MESH CURRENT AND NODAL VOLTAGE METHOD 9

    Formation of matrix equations and analysis of complex circuits using mesh-current and

    nodal-voltage methods- mutual inductance coefficient of coupling- ideal transformer.

    4. NETWORK THEOREMS AND APPLICATIONS 9

    Superposition theorem reciprocity theorem compensation theorem substitution

    theorem maximum power transfer theorems- Thevenins theorem Nortons theorem and

    Millmans theorem with applications.

    5. TRANSIENT ANALYSIS 9

    Forced and free response of RL, RC and RLC circuits with D.C.and sinusoidal excitations.

    L = 45, T = 15, TOTAL = 60

    TEXT BOOK

    1. Paranjothi S.R., Electric Circuit Analysis, New Age International Ltd., Delhi, 2nd

    Edition, 2000.

    REFERENCES

    1. Hyatt, W.H.Jr. and Kemmerly, J.E., Engineering Circuit Analysis, McGraw-Hill

    International Editions, 1993.

    2. Edminister, J.A., Theory and Problems of Electric Circuits, Schaums outline series

    McGraw Hill Book Company, 2nd Edition, 1983.

    3. Sudhakar, A. and Shywam Mohan S.P., Circuits and Network Analysis and Synthesis,Tata McGraw Hill Publishing Co., Ltd., New Delhi, 1994.

    EI 132 ELECTRON DEVICES 3 0 0 100

    1. ELECTRON DYNAMICS 9

    Concepts of electronic current in vacuum, gas, and solid effect of electric and magnetic

    field on electron and other charged particles cathode ray tube Electrostatic and magnetic

    deflection.

    2. SOLID STATE ELECTRONICS 9Review of Energy band structure of Ge, Si, and Ga As-electron, hole generation and

    recombination; drift and diffusion currents continuity equation Hall effect PN junction

    current equation junction capacitance breakdown characteristics Varactor, tunnel,

    fast recovery, Schottky and Zener diodes.

    3. BIPOLAR JUNCTION TRANSISTOR 9

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    Ebers-Moll equation input output characteristics switching characteristics- h

    parameters Low frequency and high frequency equivalent circuits RF transistors

    Power transistors.

    4. FET, UJT AND SCR 9

    Theory and characteristics of JFET and MOSFET low frequency and high frequency

    equivalent circuits Theory and characteristics of UJT, SCR and TRAIC.

    5. CCD AND OPTOELECTRONIC DEVICES 9

    Charge transfers and charge coupled devices theory and applications. Semiconductor

    Opto electronic devices LED, LASER diode, LCD, Photo diode Solar Cell.

    L = 45 TOTAL = 45

    TEXT BOOKS

    1. Millman and Halkias, Electronic Devices and Circuits, Tata McGraw-Hill, 1991.

    2. David A.Bell, Electronic Devices and Circuits 3rd Edition, Prentice Hall of India,

    1999.

    REFERENCES

    1. Sze, S.M.Physics of Semiconductor Devices, Wiley Eastern, 1981

    2. Boylestad and Nashelsky, Electronic Devices and Circuit theory, Prentice Hall of

    India, 6th Edition, 1999.

    3. Mothersheed, Electronic Devices and Circuits, Prentice Hall of India, 1999.

    4. Streetman, B, Solid State Electronic Devices, Prentice Hall of India, 4th Edition, 1995.5. John D.Ryder, Electronic Fundamentals and Applications: Integrated and Discrete

    Systems, 5th Edition, Prentice Hall of India, 1999.

    6. David Neamen, Semiconductor Physics and Devices Basic Principles, Tata

    McGraw-Hill, 1999.

    ME 152 MECHANICAL ENGINEERING 3 0 0 100

    1. INTRODUCTION 9

    Law of perfect gases different types of expansion of gases thermodynamic reversibility

    air cycles Carnot, Otto and diesel cycles engine performance load test and heatbalance test.

    2. BOILERS AND STEAM ENGINE 10

    Introduction to boilers types of boilers boiler mountings and accessories introduction

    to steam engine governing and performance of steam engine.

    3. STEAM TURBINE 8

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    Introduction to steam turbine classification steam nozzle.

    4. CASTING AND WELDING 8

    Introduction to casting - types of casting uses moulding tools introduction to welding

    soldering and bracing.

    5. CONVENTIONAL MACHINERY AND METAL FORMING 10

    Introduction to lathe, shaper, milling machine and drilling machine principles, equipment

    used and application of selected metal forming processes.

    L = 45, TOTAL = 45

    REFERENCES

    1. Raymer Joel, Basic Engineering Thermodynamics, Longman Press, 1986.

    2. Ballaney, P.L., Thermal Engineering, Khanna Publishers New Delhi, 1990.3. Hajra Choudhury, elements of Workshop Technology, Vol.I and II, Khanna

    Publishers, New Delhi, 1988.

    4. Pandey, P.C. and Shan, H.S., Modern Machinery Processes, Tata McGraw-Hill

    Publications, New Delhi, 1980.

    5. Herman W., Pollock., Manufacturing and Machine Tool Operation Prentice Hall of

    India, New Delhi, 1974.

    GE 135 COMPUTER PRACTICE II 1 0 3 100

    1. MULTIUSER OPERATING SYSTEM 4

    Unix: Introduction basic commands vi editor filters input/output redirection

    piping - transfer of data between devices shell scripts.

    2. FUNDAMENTALS OF NETWORKING 3

    Working on a networked environment accessing different machines from one node

    concept of E-mail uses of internet.

    3. HIGH LEVEL LANGUAGE PROGRAMMING 8

    C- language: Introduction operator expressions variables input output statements

    control statements functions arrays pointer structures unions file handling casestudies.

    L = 15, P = 45, TOTAL = 60

    REFERENCES

    1. Stephen J. Kochen and Patrick H.Wood, Exploring the UNIX system., Techmedia,

    1999.

    2. Maurice J.Bach, The Design of UNIX operating system, Prentice Hall of India,

    1999.

    3. Ramos, Computer Networking Concepts, Prentice Hall International, 1999.

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    4. Balaguruswamy, Programaming in ANSI-C., Tata McGraw-Hill, 1999.

    5. Kernighan and Rirchie., The C-Programming Language, Prentice Hall of India,

    1999.

    6. Gottfried, Programming with C Tata McGraw-Hill, 1999.

    7. Kutti, C and UNIX Programming: A Conceptual Perspective, Tata McGraw-Hill,

    1997.

    GE 134 ENGINEERING GRAPHICS 1 0 3 100

    1. PRINCIPLES OF GRAPHICS 16

    Two dimensional geometrical construction conic sections involutes and cycloids

    representation of three dimensional objects principles of projections standard codes of

    principles.

    2. ORTHOGRAPHIC PROJECTIONS 28

    Projections of points straight lines and planes auxillary projections projection and

    sectioning of solids intersection of surfaces development of surfaces.

    3. PICTORIAL PROJECTIONS 8

    Isometric projections perspectives free hand sketching.

    4. COMPUTER GRAPHICS 8

    Hardware display technology software introduction to drafting software.

    L = 15, P = 45, TOTAL = 60

    TEXT BOOK

    1. Narayanan K.L. and Kannaiah, P., Engineering Graphics, 1992.

    REFERENCES

    1. William, M.Neumann and Robert F.Sproul, Principles of computer Graphics M.,

    McGraw-Hill, 1989.

    2. Warren J.Luzadder and John M.Duf, Fundamentals of Engineering Drawing,

    Prentice Hall of India, New Delhi, 1995.

    3. Natarajan, K.V., Text Book of Engineering Drawing, Private Publications, Chennai,1990.

    4. Mathur and Vaishwanar R.S., Engineering Drawing and Graphics, Jain Brothers,

    New Delhi, 1993.

    EI 141 CIRCUITS & DEVICES LABORATORY 0 0 3 100

    1. Verification of Kirchoffs Law.

    2. Verification of Thevenins and Nortons Theorem.

    3. Verification of super position and compensation Theorem.

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    4. Verification of Reciprocity and Maximum Power Transfer Theorem.

    5. Series and Parallel Resonance Circuits.

    6. Transients in RLC Circuits.

    7. Series and Parallel AC Circuits and Phasor Diagram.

    8. Coupled Circuits and Tuned Circuits.

    9. Characteristics of semiconductor Diode and Zener Diode.10. Characteristics of Transistor under common Emitter configuration.

    11. Characteristics of Transistor under Common Base Configuration.

    12. Characteristics of Transistor under Common collector configuration.

    13. Characteristics of UJT and FET.

    14. Characteristics of SCR, DIAC and TRIAC.

    P = 45, TOTAL = 45

    SEMESTER III

    MA 231 MATHEMATICS III 3 1 0 100

    1. PARTIAL DIFFERENTIAL EQUATIONS 9

    Formation Solutions of standard types of first order equations Lagranges equation

    Linear partial differential equations of second and higher order with constant coefficients.

    2. FOURIER SERIES 9

    Dirichlets conditions General Fourier series Half range Sine and Cosine series

    Parsevals identity Harmonic Analysis.

    3. BOUNDARY VALUE PROBLEMS 9

    Classification of second order linear partial differential equations Solutions of one

    dimensional wave equation, one-dimensional heat equation Steady state solution of two-

    dimensional heat equation Fourier series solutions in Cartesian coordinates.

    4. LAPLACE TRANSFORMS 9

    Transforms of simple functions Basic operational properties Transforms of derivatives

    and integrals Initial and final value theorems Inverse transforms Convolution theorem

    Periodic functions Applications of Laplace transforms for solving linear ordinary

    differential equations up to second order with constant coefficients and simultaneous

    equations of first order with constant coefficients.

    5. FOURIER TRANSFORMS 9

    Statement of Fourier integral theorem Fourier transform pairs Fourier Sine and Cosine

    transforms Properties Transforms of simple functions Convolution theorem

    Parsevals identity.

    L = 45, T = 15, TOTAL = 60

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    TEXT BOOKS

    1. Kreyszig, E., Advanced Engineering Mathematics (8th Edition), John Wiley and

    Sons, (Asia) Pte Ltd., Singapore, 2000.

    2. Grewal, B.S., Higher Engineering Mathematics (35 th Edition), Khanna Publishers,

    Delhi 2000.

    REFERENCES

    1. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., Engineering Mathematics,

    Volumes II & III (4th Revised Edition), S. Chand & Co., New Delhi, 2001.

    2. Narayanan, S., Manicavachagom Pillay, T.K., Ramanaiah, G., Advanced

    Mathematics for Engineering Students, Volumes II & III (2ndEdition),

    S.Viswanathan (Printers & Publishers, Pvt., Ltd.) 1992.

    3. Venkataraman, M.K. Engineering Mathematics Volumes III A & B, 13 th Edition

    National Publishing Company, Chennai, 1998.

    4. Shanmugam, T.N. : http://www.annauniv.edu/shan/trans.htm

    ME 255 THERMODYNAMICS AND FLUID MECHANICS 4 0 0 100

    1. LAWS OF THERMODYNAMICS 10

    Systems zeroth law, first law of thermodynamics concept of internal energy and enthalpy

    applications to closed and open systems second law of thermodynamics concept of

    entropy clausius inequality and principles of increase in irreversible processes.

    2. BASIC THERMODYNAMICS APPLIED 7

    Basic IC engine and gas turbine cycles single and multistage reciprocating compressors.

    3. THERMODYNAMICS OF REFRIGERATORS AND PUMPS 9

    Properties of steam Ranking cycle one dimensional flow through nozzles and

    applications to jet and rocket propulsion basic thermodynamics of refrigerators and heat

    pumps.

    4. BASIC CONCEPT OF FLUID MECHANICS 8

    Introduction classification types of fluids properties laws of pressure

    atmospheric, gauge, absolute pressure, pressure measurement manometers mechanical

    guages.

    5. FLOW OF FLUIDS 10

    Introduction types of fluid flow velocity rate equation of continuity energy of a

    liquid in motion head of a liquid Bernoullis theorem orifice and mouth piece.

    6. DIMENSIONAL AND MODEL ANALYSIS 8

    http://www.annauniv.edu/shan/trans.htmhttp://www.annauniv.edu/shan/trans.htm
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    Introduction dimensions dimensional analyses Rayleighs and Buckinghams method

    similitude - dimensionless numbers and their significance similarity laws model

    studies.

    7. PUMPS AND TURBINES 8

    Introduction types of pumps reciprocating pump construction details co-efficient of

    discharge slip power required centrifugal pump classification working principle

    specific speed turbine classification working principle.

    L = 60, TOTAL = 60

    REFERENCES

    1. Shames, I.H., Mechanics of fluids, Kogakusha, Tokyo, 1998.

    2. Kumar, K.L., Fluid Mechanics, Eurasia publishers, 1990

    3. Radhakrishnan, E., Introduction to fluid Mechanics, Prentice Hall, India 1999.

    4. Rajput R.K., Fluid Mechanics and Hydraulic Machines, S.Chand and Co., India1998.

    5. Nag, P.K., Engineering Thermodynamics, Tata McGraw-Hill Co. Ltd., 1993.

    6. Reynolds, Thermodynamics, Int. Student Edition, McGraw-Hill Co. Ltd., 1990.

    EI 232 SIGNALS AND NETWORKS 3 0 0 100

    1. SIGNALS FUNDAMENTALS 9

    Continuous time (CT) and discrete time (DT) signals periodic and pulse signals energy

    and power in signals standard CT and DT signals impulse, step, pulse, ramp, sine and

    exponential signals.

    2. ANALYSIS OF CT SIGNALS 9

    Fourier series analysis, Spectrum of C.T.signals, Fourier Transform and Laplace Transform

    in Signal Analysis.

    3. ANALYSIS OF D.T. SIGNALS 9

    Spectrum of D.T.signals, Discrete Time Fourier Transform (DTFT), Discrete Fourier

    Transform (DFT), Properties of Z-transform in signal analysis.

    4. TIME AND FREQUENCY RESPONSE ANALYSIS OF NETWORKS 9

    Kirchoffs laws mesh and node analysis transient response of RL, RC and RLC circuits

    to DC inputs series and parallel resonance frequency response.

    5. BASIC IDEAS OF NETWORK SYNTHESIS 9

    Network functions terminal and terminal pairs poles and zeros of network functions

    positive real functions synthesis of one port network introduction of two port networks.

    L = 45, TOTAL = 60

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    REFERENCES

    1. Openheim A.V., Willsky A.S., and Young I.T., Signals and Systems, Prentice Hall,

    1994.

    2. Haykin, S., Communication Systems, Wiley Eastern, New Delhi, 1995.

    3. Valkenburg N.E., Network analysis, Prentice hall of India, New Delhi, 1989.

    4. Van Valkenburg, N.E., Introduction of Modern network Synthesis, Wiley Eastern

    Ltd., New Delhi, 1993.

    5. Signals and Systems, Radgen E., Ziemer W., Tranta H., Fannin D.F., Maxwell

    Macmillan, London, 1990.

    EI 233 DIGITAL LOGIC THEORY AND DESIGN 3 0 0 100

    1. NUMBER SYSTEMS & BOOLEAN ALGEBRA 10

    Review of Number systems codes Boolean Algebra, Demorgans theorem canonical

    forms, Representation of combinational circuits by switching functions, graphical

    representation of switching functions K-map ), Simplification using K-maps & QuineMclusky methods separable functions , duality, unatenes, Threshold logic.

    2. IMPLEMENTATION OF COMBINATIONAL SYSTEMS 10

    Gates, Universal set of modules, Standard combinational Modules (Decoders, Encoders,

    Multiplexers, Demultiplexers, ROM, PLA Adders, Comparators, Code Converters,

    Function realisation using gates, multiplexers memories and threshold gates.

    3. SPECIFICATIONS OF SEQUENTIAL CIRCUITS 10

    Specificaion based on State, Finite state model capabilities and limitations of FSM

    memory elements and their excitation functions, Shift registers, Design of Counters

    Synchronous, Aschynchronous, Updown & Johnson counters.

    4. DESIGN OF SYNCHRONOUS SEQUENTIAL CIRCUITS 10

    Synthesis of Synchronous sequential Circuits, state equivalence & Machine Minimization,

    Timing and clocking issues, State assignment, completely and incompletely specified

    sequential machines.

    5. ASYNCHRONOUS SEQUENTIAL CIRCUITS 5

    Synthesis, State assignments in asynchronous sequential circuits.

    L = 45, TOTAL = 45

    REFERENCES

    1. Kohavi, Z., Switching & Finite automata Theory, Tata McGraw-Hill, New Delhi, 1981

    2. Hachtel, G.D. & Somenzi, F., Logic Synthesis and Verification algorithms, Kluwer

    academic press 1996.

    3. Hill. J. Peterson, G.L., Switching Theory and Logical design, John Wiley III Edition,

    1981.

    4. Lee, S., Digital Circuits & Logic Design, Prentice Hall India, 1980.

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    EI 234 ELECTRONIC CIRCUITS 3 0 0 100

    1. AMPLIFIERS 10

    Biasing circuits for transistors FET and their analysis CE, CC and CB amplifiers FET

    amplifiers frequency response- cascade and Darlington connections analysis of class A

    and B power amplifiers complementary symmetry amplifiers class C power amplifier.

    2. DIFFERENTIAL AND TUNED AMPLIFIERS 8

    Differential amplifiers Common mode and difference mode analysis Drift compensation

    FET input stages chopper stabilizer amplifier introduction to tuned amplifiers.

    3. FEEDBACK AMPLIFIERS AND OSCILLATORS 9

    Advantages of negative feedback voltage/current, series/shunt feedback positive

    feedback condition for oscillations; phase shift Wien bridge, Hartley, Colpits and crystaloscillators.

    4. PULSE CIRCUITS 9

    RC wave shapping circuits Diode clampers and clippers Multivibrators Schmitt

    triggers UJT and transistor sawtooth oscillators.

    5. RECTIFIERS AND POWER SUPPLIERS 9

    Single and polyphase rectifiers and analysis of filter circuits Design of Zener and

    Transistor series voltage regulators switched mode power suppliers.

    L = 45, TOTAL = 45

    TEXT BOOK

    1. Albert Paul Malvino, Electronic Principles, Tata McGraw-Hill, 6th Edition, 1995.

    REFERENCES

    1. Millman and Halkias, Integrated Electronics, McGraw-Hill, I SE, 1990.

    2. Millman and Taub, Pulse, Digital and Switching Wave forms, McGraw-Hill, 1991.

    3. David Bell, Electronic Devices & Circuits, 3rd Edition, 1999.

    EE 256 ELECTRICAL MACHINES 3 0 0 100

    1. D.C. MACHINES 10

    Construction of D.C. machines theory of operation of D.C. generator characteristics of

    D.C. generators armature reaction commutation principle of operation of D.C. motor

    voltage equation type of D.C. motor and their characteristics speed control of D.C.

    motors.

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    2. TRANSFORMER 10

    Theory of ideal transformer EMF equation constructional details of shell and core type

    transformer test on transformer equivalent circuit phasor diagram regulation and

    efficiency of a transformer.

    3. SYNCHRONOUS MACHINES 9

    Principle of alternators construction details equation of induced EMF vector diagram

    method of starting of synchronous motor torque developed by the motor V curves

    speed control.

    4. INDUCTION MACHINES 9

    Construction and principle of operation classification of induction motor relation

    between torque and rotor power factor starting and running condition condition for

    maximum torque comparison between synchronous motor and induction motors speed

    control of induction motors.

    5. SPECIAL MACHINES 7

    Types of single phase motor double revolving field theory cross field theory capacitor

    start capacitor run motors shaded pole motor repulsion type motor universal motor

    hysteresis motor.

    L = 45, TOTAL = 45

    REFERENCES

    1. Fitzgerald A.E., Kingsly C., Umans S.D., Electrical Machinery, McGraw-Hill,Singapore, 1990.

    2. Cotton H. Advanced Electrical Techniology, Sir Isaac Pitman and Sons Ltd.,

    London, 1971.

    3. Del Toro V. Electrical Engineering Fundamentals, Prentice Hall of India, New

    Delhi, 1995.

    4. Verinott, C.C., Fractional and sub-fractional horsepower electric motors, McGraw

    Hill, Singapore, 1985.

    5. Theraja, B.L., A Text book of Electrical Technology, Vol.II, S.C.Chand and Co.,

    New Delhi, 1997.

    EE 257 ELECTRICAL MACHINES LABORATORY 0 0 3 1001. Verification of network theorems.

    2. Determination of coupling coefficient.

    3. Series and parallel resonance.

    4. Power measurement in single phase and three phase circuits.

    5. Open circuit characteristics of DC generators.

    6. Load characteristic of DC motors.

    7. Speed control of DC motors

    8. Brake test of DC motors.

    9. Regulation of three phase alternator.

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    10. Open circuit and short circuits of transformer.

    11. Brake test of induction motors.

    12. V-curve of synchronous motor.

    P = 45, TOTAL = 45

    EI 242 ANALOG AND DIGITAL LABORATORY 0 0 3 100

    1. Rectifiers and voltage regulator

    2. CE, CE, CC amplifiers.

    3. Bridge and instrumentation amplifiers.

    4. Phase locked loop.

    5. Bootstrap circuit.

    6. RC and LC Oscillators.

    7. Binary adder/subtractor/comparator.

    8. Shift register and counter.

    9. DAC and ADC.10. Multiplexer and demultiplexer.

    11. Encoder and decoder.

    12. Seven segment display.

    P = 45, TOTAL = 45

    ME 254 THERMODYNAMICS & FLUID MECHANICS LABORATORY 0 0 3

    100

    1. Valve timing diagram of a 4-stroke engine.

    2. Port timing diagram of a 2-stroke engine.3. Load test on a Petrol engine and on a Diesel engine.

    4. Heat balance sheet of an I.C. engine.

    5. Boiler-trial and heat balance sheet.

    6. Performance test on a Refrigerator.

    7. Free and forced convection heat transfer.

    8. Determination of pipe friction.

    9. Losses in pipe flow due to change of section and change of direction.

    10. Measurement of flow using Orifice plate, Venturi meter and Pitot tube.

    11. Performance test on a reciprocating pump and on a centrifugal pump.

    12. Performance test on an Air-compressor, air pressure measurement and regulation,

    13. Characteristics of a Flapper-nozzle system.

    14. Fluid logic devices and circuits.

    P = 45, TOTAL = 45

    SEMESTER IV

    CS 252 ALGORITHMS AND DATA STRUCTURES 3 0 0 100

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    1. PRINCIPLES OF ALGORITHM ANALYSIS 5

    Prosperities of algorithms deterministic & non-deterministic, polynomial & exponential,

    iterative and recursive algorithm, Mathematical proof techniques proof by contradiction,

    proof by mathematical induction, estimating.

    2. ALGORITHM ANALYSIS AND TOOLS 10

    Best, Worst and average case analysis of algorithmic complexity Time Space

    complexities, asymptotic analysis-upper & lower bonds, space bounds, analyzing the

    correctness of an algorithm, Tools-sub-goals, Hill climbing, working backward, heuristic,

    NP-hard and NP-complete problems.

    3. DATA STRUCTURES 12

    Philosophy of data structures, data structures vs control constructs, need for data structures,

    abstract data types and data structures, Lists-array based and linked lists, comparison,

    stacks-array based and linked stacks, implementing recursion using stacks, queues arraybased & linked queues.

    4. TREES AND GRAPHS 12

    Binary trees definition, properties, Binary tree traversals, implementations, heaps and

    priority queues, general trees definition and properties, general trees traversals,

    implementation, K-ary trees, graphs-representation, implementation, graph traversals,

    spanning tree algorithms.

    5. INFORMATION PROCESSING AND RETRIEVAL 6

    Sorting algorithms Binary search tree, Binary tree sorting algorithm, External sorting,Merging, searching hashing.

    L = 45, TOTAL = 45

    REFERENCES

    1. HorowitzE. Sahni.S.Fundamentals of Computer algorithm, Galgotia, 1990.

    2. Goodman.S.E., & Hedetniemi.S.T.Introduction to the design and analysis of algorithms,

    McGraw-Hill , 1995.

    3. Tanenbaum, A.S.Data structures Using C.Prentice Hall of India, 1995.

    4. Trembly & Sorrensn, An Introduction to Data Structures with application, Tata McGrawHill, 1995.

    5. Weiss, M.A. Data Structures and algorithm analysis in C++, Benjamin Publications Inc,

    1994.

    6. Shaffer. C.A. A practical Introduction to Data Structures and algorithm analysis,

    Prentice Hall, NJ, 1998

    EI 235 TRANSDUCER ENGINEERING 3 1 0 100

    1. SCIENCE OF MEASUREMENT 9

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    Units and standards calibration methods static calibration classification of errors

    error analysis statistical methods odds and uncertainty.

    2. CHARACTERISTICS OF TRANSDUCERS 9

    Static characteristics accuracy, precision, sensitivity, linearity etc. mathematical model

    of transducers zero, first-order and second-order transducers response to impulse, step,

    ramp and sinusoidal inputs.

    3. VARIABLE RESISTANCE TRANSDUCERS 9

    Principle of operation, construction details, characteristics and applications of resistance

    potentiometers, strain gauges, resistance thermometers, thermistors, hot-wire anemometer,

    piezoresistive sensors and humidity sensors.

    4. VARIABLE INDUCTANCE AND VARIABLE CAPACITANCE

    TRANSDUCERS 9

    Induction potentiometer variable reluctance transducers EI pick up LVDT capacitive

    transducers variable air gap type variable area type variable permittivity type

    capacitor microphone.

    5. OTHER TRANSDUCERS 9

    Piezoelectric transducer magnetostrictive transducer IC sensor digital transducers

    smart sensor fiber optic transducers.

    L = 45, T = 15, TOTAL = 60

    REFERENCES

    1. Neubert, H.K.P. Instrument Transducers, Clarenden Press, Oxford, 1988.

    2. Doebelin, E.O., Measurement Systems, McGraw-Hill Book Co., 1998.

    3. Patranabis, D, Sensors and Transducers, Wheeler Publishing Co., Ltd. New Delhi,

    1997.

    4. Murthy, D.V.s., Transducers and Instrumentation, Prentice Hall of India Pvt. Ltd.,

    New Delhi, 1995.

    5. Renganathan, S., Transducer Engineering, Allied Publishers, Chennai, 1999.

    EE 258 ELECTROMAGNETIC THEORY 3 1 0 100

    1. GENERAL PRINCIPLES 3

    The field concept sources of electromagnetic fields.

    2. ELECTROSTATICS 8

    Charges Coulombs Law electric field intensity electric flux Gausss Law

    potential boundary value problems Laplace and Poissons equations electrostatic energy

    dielectrics capacitance.

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    3. MAGNETOSTATICS 8

    Current density magnetic field magnetic flux Biot Savart law Amperes law

    torque force vector potential boundary value problem.

    4. ELECTROMAGNETIC FIELDS 8

    Faradays Law Lenzs law Maxwells equations displacement current eddy current

    relation between field theory and circuit theory.

    5. ELECTROMAGNETIC WAVES 9

    Generation propagation of waves in dielectrics conductors and transmission lines

    Pointing vector skin effect.

    6. FIELD MODELLING AND COMPUTATION 9

    Problem formulation boundary conditions solutions analytical methods variables

    separable methods conformal transformation method of images numerical methods finite difference method finite element method charge simulation Method.

    7. TUTORIAL PROBLEMS 15

    Field plotting of electrostatic, magnetostatic and electromagnetic configurations using

    standard software.

    L = 45, T = 15, TOTAL = 60

    TEXT BOOKS

    1. John D Kraus, Electromagnetics, McGraw-Hill Book Co., New York, Third Edition,

    1989.

    2. Joseph A Edminister, Theory and Problems of Electromagnetics, Schaums Outline

    Series, McGraw Hill Book Company, New York, 1986.

    3. William H.Hayt, Jr., Engineering Electromagnetics, Tata McGraw-Hill Edition, New

    Delhi, 1998

    REFERENCES

    1. David J.Griffith, Introduction to Electrodynamics, Prentice Hall of India Pvt Ltd.,

    New Delhi, Second Edition, 1997.2. Richard E.Dubroff, S.V.Marshall, G.G.Skitek, Electromagnetic Concepts and

    Applications, Fourth Edition, Prentice Hall of India Pvt Ltd., New Delhi, 1996.

    3. Kraus and Fleish, Electromagnetics with Applications, McGrawHill International

    Editions, Fifth Edition, 1999.

    EI 236 INDUSTRIAL CHEMICAL PROCESS 3 0 0 100

    1. UNIT OPERATIONS 9

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    Unit operations-transport of liquids, solids and gases adjusting particle size of bulk solids

    mixing processes separation processes.

    2. COMBUSTION PROCESSES 9

    Combustion processes heat exchangers energy balance material balance evaporators

    crystallization.

    3. OTHER OPERATIONS 9

    Drying distillation refrigeration process chemical reactions.

    4. CASE STUDY I 9

    Operations in the manufacture of paper and pulp operations in steel industry.

    5. CASE STUDY II 9

    Operations in thermal power plant operations in pharmaceutical industry and latherindustry.

    L = 45, TOTAL = 45

    REFERENCES

    1. Waddams, A.L., Chemicals from petroleum, Butler and Tanner Ltd., UK, 1968.

    2. Balchen J.G. and Mumme, K.J., Process Control structures and applications, Van

    Nostrand Reinhold Co., New York, 1988.

    3. Austin, G.t. shreves Chemical Process industries, McGraw-Hill International

    student edition, Singapore, 1985.4. Liptak, B.G., Process measurement and analysis, Chilton Book Company, USA,

    1995

    5. Luyben W.C., Process Modelling, Simulation and Control for Chemical Engineers,

    McGraw-Hill International edition, USA, 1989.

    EI 237 ELECTRICAL MEASUREMENTS & INSTRUMENTS 3 0 0 100

    1. DIFFERENT TYPES OF AMMETERS AND VOLTMETERS 9

    Galvanometers principle of operation, construction and sources of errors and

    compensation in PMMC & moving iron instruments dynamometer and rectifier type

    ammeter and voltmeters.

    2. WATTMETERS AND ENERGY METERS 9

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    Electrodynamic type wattmeter theory and its errors methods of correction LPF

    wattmeter phantom loading induction type Kwh meter theory and adjustments

    calibration of wattmeters and energy meters.

    3. POTENTIOMETERS AND INSTRUMENT TRANSFORMERS 9

    Student type potentiometer L and N type potentiometer precision potentiometer polar

    and co-ordinate type A.C. potentiometers their applications construction and theory of

    operation C.T. and V.T. phasor diagrams - characteristics applications.

    4. RESISTANCE MEASUREMENT 9

    Measurement of low, medium and high resistances ammeter voltmeter method

    Wheatstone bridge-precision form of Wheatstone bridge Kelvin double bridge Ductor

    Ohmmeter series and shunt type ohmmeters high resistance measurement Megger

    direct deflection methods Prices Guard wire method Megohm bridges loss of charge

    method earth resistance measurement.

    5. IMPEDANCE MEASUREMENT 9

    A.C.Bridges measurement of inductance, capacitance Q of coil Maxwell bridge

    Maxwell wien bridge Heys bridge Schering bridge Anderson bridge Campbell

    bridge to measure mutual inductance errors in A.C. bridge methods and their

    compensations detectors excited field a.c.alvanometer vibration galvanometer.

    L = 45, TOTAL = 45

    REFERENCES

    1. Stout M.B. Basic Electrical measurements, Prentice Hall of India, New Delhi, 1990.

    2. Golding E.W. and Widdis F.E., Electrical measurements and measuring instruments,

    Sir Issac Pitman and Sons Pvt., Ltd., 1985.

    3. Sawhney A.K., A Course in Electrical and Electronics Measurements and

    Instrumentation, Dhanpat Rai and Sons, New Delhi, 1995.

    4. David A Bell, Electronic Instrumentation and measurements, Prentice Hall of India,

    New Delhi, 1995.

    EC 256 COMMUNICATION ENGINEERING 3 0 0 100

    1. RADIO COMMUNICATION SYSTEMS 15

    Frequency spectrum Principle of AM and FM AM and FM transmitters and receivers

    introduction to microwave communication systems principle of satellite communication.

    2. PULSE COMMUNICATION SYSTEMS 5

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    PAM, PPM, PDM, PCM delta modulation differential PCM merit and demerits

    comparison of pulse modulation schemes.

    3. DATA TRANSMISSION 10

    Base band signal receiver error probability optimum and matched filter techniques

    coherent reception digital modulation systems FS, PSK comparison of data

    transmission systems.

    4. TRANSMISSION MEDIUM 10

    Characteristics of cables optical fibers effects of EM radiation bandwidth and noise

    restrictions statistical measurements of random noise concept of multiplexing FDM

    and TDM.

    5. TELEVISION 5

    Scanning methods B/W and colour systems Camera and picture tubes synchronization transmitters and receivers.

    L = 45, TOTAL = 45

    TEXT BOOKS

    1. Kennedy, G., Electronic Communication Systems, McGraw Hill, 4th Edition, 1987.

    2. Taub and Schilling, Principles of Communication Systems, Second Edition, McGraw-

    Hill, 1987.

    3. Simon Haykins, Communication Systems, 3rd Edition, John Wiley, Inc., 1995.

    4. Bruce Carlson A., Communication Systems, 3rd Edition, Tata McGraw-Hill, 1986.

    5. Roddy and Coolen, Electronic Communication, 4th Edition Prentice Hall of & India,

    1999.

    CS 253 DATA STRUCTURES LABORATORY 0 0 4 100

    1. DEVELOPMENT OF ALGORITHM 12

    Notations analysis, storage structures for arrays sparse matrices structures and arrays of

    structures stacks and queues representation and applications.

    2. LINKED LISTS 12

    Single linked lists linked stacks and queues doubly linked list circularly linked list

    dynamic storage management garbage collection and compaction random number

    generation.

    3. BINARY TREES 12

    Binary search trees general trees tree traversing operations on binary trees

    expression manipulations symbol table construction graphs representation of graphs

    path matrix BFS DFS disconnected graphs.

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    4. SORTING TECHNIQUES 12

    Selection double inversion merge heap quick radix topological sort linear

    searching binary searching.

    5. DESIGN TECHNIQUES 12

    Domain independence techniques divide and conquer method greedy method; dynamic

    programming back tracking brand and bound and bound game trees.

    P = 60, TOTAL = 60

    REFERENCES

    1. D.F.Knuth Fundamental algorithms, Narosa Publishing Company, New Delhi,

    1991.

    2. Thomas H.Cormen Introduction to algorithms, Addison Wesley, USA, 1993.3. Ronald L. Rivest Algorithms, Data structures and Programs, Prentice Hall

    International, New Jersey, 1994.

    4. Tremblay and Sorenson An introduction to Data structures with applications,

    McGraw Hill International edition, USA, 1996.

    EI 243 TRANSDUCER LABORATORY 0 0 3 100

    1. Displacement versus output voltage characteristics of a potentiometric transducer.

    2. Strain gauge characteristics.

    3. Load cell characteristics.

    4. Photoelectric tachometer.5. Hall effect transducer.

    6. Characteristics of LVDT.

    7. Characteristic of LDR, thermistor and thermocouple.

    8. Ramp response characteristic of filled in system thermometer.

    9. Step response characteristic of RTD and thermocouple.

    10. Flapper nozzle system.

    11. P/I and I/P converters.

    12. Study of smart transducers.

    P = 45, TOTAL = 45


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