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8/6/2019 III Semester Ug - Admission on 2007
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Academic year 2011-2012
1
Sri Ramajayam
SASTRA UNIVERSITYSHANMUGHA ARTS, SCIENCE, TECHNOLOGY & RESEARCH ACADEMY
(A University established under Section 3 of the UGC Act, 1956)THANJAVUR – 613 401, Tamil Nadu, India
SUBJECTS OF STUDY AND SYLLABI FOR
III - SEMESTER
B.TECH (EEE) PROGRAMMEAdmitted in the year 2007
Department of Electrical & Electronics Engineering
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Academic year 2011-2012
2
LIST OF COURSES AND THEIR CREDITS FOR 3RD
SEMESTER EEE
PROGRAMME
Course Code Name of Course Periods/Week Credits
L T P
BEECMA 301 Mathematics III 3 1 - 4
BEECEE 302 Electromagnetic Field
Theory
3 1 - 4
BEECEE 303 Electric Circuit Theory 3 1 - 4
BEECEI 304 Electronic Circuits 3 1 - 4
BEECEE 305 Electrical Measurements &
Measuring Instruments
4 1 - 5
Elective ( One out of Two)
BEEDEC 301 Material Science 4 - - 4
BEEDME302 Thermal Engg & FluidMachinery 4 - - 4
Laboratory
BEECEE 307 Elecrtrical and Electronics
Engg. Lab
- - 3 2
BEECEE 308 Electrical Workshop - - 3 2
BEECTP 309
R02
HR Skills – I 1 - - 1
21 5 6 30
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Academic year 2011-2012
3
BEECMA 301 MATHEMATICS – III
Credits : 4
Lecture periods/week : 3
Tutorial : 1
Unit – 1 (15 Periods)
Laplace Transform: Definition – Transform of standard functions – properties –
Transform of derivatives and integrals – Transform of the type tn
f(t) , f(t)/tn
- inverse
Laplace Transform – Convolution theorem – Transforms of periodic function , unitstep function and unit impulse function – Application to ordinary differential
equations with constant coefficients and integral equations – simultaneous linear
differential equations with constant coefficients.
Unit – 2 (17 Periods)
Complex variable: Analytic functions – Necessary and sufficient conditions for
analyticity – Cauchy-Riemann equations in polar coordinates – Harmonic functions – Orthogonal system – Construction of an analytic function given real or imaginaryparts – Conformal transformation – definition – e
z and Bilinear transformation only.
Unit – 3 (15 Periods)
Complex integration: Cauchy’s integral theorem, Integral formula – Taylor’s and
Laurent’s series (without proof) – Singularities – zeros – poles and residues –
Cauchy’s residue theorem – evaluation of the definite integral of type I only.
Unit – 4 (13 Periods)
Statistics and Approximations: Linear correlation – rank correlation and regressionlines – Theoretical distributions – Binomial – Poisson – Normal – properties and
simple examples – fitting distribution of a given data .
Text Book:
1. Engineering Mathematics by Dr.M.K.Venkataraman , National publishing Co.,1995.
2. Engineering Mathematics by Dr.P.Kandasamy et . al , S.Chand & Co.,,New Delhi
1997.
References:
1. Advanced Engineering Mathematics by Erwin Kreyszig ,Wiley EasternLtd.,2003,8th edition .
2. Higher Engineering Mathematics by B.S.Grewal , Khanna publishers ,2003.
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Academic year 2011-2012
4
BEECEE 302 ELECTRO MAGNETIC FIELD THEORY
Credits : 4
Lecture periods/week : 3
Tutorial periods/week : 1
[Cartesian Co-ordinate system to be adopted]
Unit-1 (14 Periods)
Electric Fields: Concepts – Coulomb’s law – electric field intensity – electric fields due
to point charge, line charge, surface charge and volume charge, Electric flux and electric
flux density – Gauss law and its application – electric potential, potential due to pointcharge, line charge, surface charge, spherical charge and cylindrical charge – potential
gradient, equipotential surface, Concept of divergence, divergence theorem, Poisson’s
and Laplace equations - Problems.
Unit-2 (14 Periods)
Conductors and Dielectrics: Field due to dipoles – dipole moment-torque experienced
by an electric dipole kept in electric field –– force between charges – charges in motion-electrostatic potential energy associated with different charge distributions – conductioncurrent – displacement current – equation of continuity-Boundary conditions at dielectric
and conductor surfaces – capacitor – capacitance of system of conductors - single and
multi dielectric (parallel plate, coaxial cylinders, concentric cylinders, concentricspherical capacitor) -calculation of capacitance using the method of images – energy
density and energy stored in electric fields Problems.
Unit-3 (18 Periods)
Magnetic Fields: Concepts – force on a current element – Biot Savart’s law – calculationof H for various configurations, force between current carrying conductors – Ampere’slaw – boundary conditions at the magnetic surfaces – examples and problems.
Faraday’s law of electromagnetic induction – inductance of solenoids, toroids,transmission lines and cables. Energy stored in magnetic fields – electromagnets ––
forces and torques on closed circuits – magnetic circuits – examples
Unit-4 (14 Periods)
Maxwell’s Equations and Electomagnetic waves: Modified Ampere circuital law –
Maxwell’s equations in point differential and integral forms – wave equation – planewaves in free space - Poynting’s vector and theorem.
Text Book:
1. K.A.Gangadhar, ‘Field Theory’,Khanna Publishers, New Delhi , 1982
2. William Hayt, ‘Engineering Electromagnetics’ McGraw Hill , New York 1997
References:
1. John D.Kraus, ‘Electromagnetics’ McGraw Hill, 1976
2. S.Seely ‘Introduction to Electromagnetic Fields’, McGraw Hill, 1978
3. David K.Cheng `Field and Wave Electromagnetics’ Pearson Education Asia., 1995
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5
BEECEE 303 ELECTRIC CIRCUIT THEORY
Credits : 4
Lecture periods/week : 3
Tutorial period/week : 1
Unit-1 (15 Periods)
Network Equations: Review of Mesh and Nodal Analysis with DC sources - Mesh
Analysis considering sinusoidal excitation, controlled sources and concept of super
meshes – Nodal analysis considering sinusoidal excitation , controlled sources andconcept of super nodes – Source transformation technique - Mesh and Nodal equations
by inspection – problems.
Unit- 2 (15 Periods)
Theorems in Circuit Analysis: Star-Delta transformation – Superposition theorem –
Thevenin’s Theorem - Norton’s Theorem – Compensation Theorem- Maximum Power
Transfer Theorem – Tellegen’s Theorem – - problems with dc and ac sources.
Unit-3 (15 Periods)
Coupled Circuits: Self inductance - Mutual inductance – Coefficient of coupling – Ideal
Transformer -Dot convention for coupled coils - Series and parallel connection of
coupled inductors – Single tuned and double tuned coupled circuits - problems.
3 phase unbalanced system – unbalanced loads – Star connected unbalanced 3-wire and
4-wire systems – Delta connected unbalanced loads - simple problems.
Unit-4 (15 Periods)
Network Topology: Introduction - Graph of a network – oriented graph, sub graph,
planar graph, tree and chords – Incidence matrix - Fundamental loops of a graph – Cutset and Tie set matrices – Fundamental cut sets - Formulation of network equations –
solution of network problem using tie-set and cut-set matrices.
Text Book:
1. Joseph, A.Edminister, ` Theory and Problems of Electric Circuits’ Tata McGraw Hill,
2000.
2. A. Sudhakar, S.P. Shyammohan , ‘ Circuits and Networks – Analysis and
Syntheses, Tata McGraw Hill, 2001 References:
1 S,R.Paranjothi. Electric Circuit Analysis, New Age International, Publishers, 1996
2 Schaum’s Outline Series, `Electric Circuits’, McGraw Hill, 2000
3. Gopal G.Bhise, Prem R.Chadha , Durgesh C. Kulshreshtha , ‘ Engineering Network
Analysis and Filter Design’, Umesh Publications 2000.
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Academic year 2011-2012
6
BEECEI 304 ELECTRONIC CIRCUITS
Credits : 4
Lecture periods/week : 3
Tutorial period/week : 1
Unit-1 (13 Periods)
Regulated Power Supplies: Diode as a circuit element – Load line concept – Single
phase half wave, full wave, mid point transformer and bridge rectifiers – ripple factor –
rectification efficiency, transformer utilization factor and regulation – performancecharacteristics of rectifiers with filters – regulated power supply – transistor series and
shunt type voltage regulators – overload and short circuit protection.
Unit-2 (17 Periods)
Amplifiers (BJT & FET all configurations): BJT and FET Circuit Configurations.
Load line concept – DC load line – AC load line – classification of amplifiers based on Q
point – Small signal low frequency model – high frequency model – input impedance,output impedance, voltage, current and power gain – effect of bypass capacitors, couplingcapacitors and stray capacitance on frequency response – alpha and beta cutoff
frequencies
Unit-3 (18 Periods)
Power Amplifiers: Class A & B harmonic distortion, power output and conversion
efficiency – non-linear, crossover and intermodulation distortion – Class B push pull
amplifiers – Complementary symmetry amplifiers – Darlington amplifiers.
Multistage Amplifiers: Direct, transformer coupled and capacitor coupled – Gain
bandwidth product.
Unit-4 (12 Periods)
Oscillators: Effect of positive feedback requirement for oscillators – phase shift
oscillators – Colpitts oscillators – Hartley oscillator – Crystal oscillator – frequency
stability – negative resistance in UJT oscillator.
Text Book:
1. Millman Halkias - Electronic Devices and Circuits, TMH, 1992
2. Boylestad - Electronics Devices & Circuit theory (Prentice Hall India) 1994
References:
1. Mittal G.K., Electronic Devices and Circuits, Chand & Co 1986
2. Allen Mottershead - Electronic Devices and Circuits, Prentice Hall India, ‘91
3. S. Salivahanan, N. Suresh Kumar & A. Valluvaraj - Electronic Devices andCircuits TMH 2001
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Academic year 2011-2012
7
BEECEE 305 ELECTRICAL MEASUREMENTS & MEASURING
INSTRUMENTS
Credits : 5
Lecture Periods/week: 4
Tutorial Period/week: 1
Unit-1 (20 Periods)
Measurement of Electrical Variables: Principles of operation and construction of
PMMC, MI, Dynamometer, Induction, Thermal and Rectifier type instruments – Measurement of voltage and current – Measurement of R, L & C – Wheatstone, Kelvin,
Maxwell, Anderson and Schering Bridges.
Unit-2 (20 Periods)
Measurement of Power & Energy: Power measurement by three voltmeter and three
ammeter methods – dynamometer and induction type watt meters. Construction and
principle of operation of induction type Energy meters – Errors and compensation – Calibration. Current and Potential transformers – phasor diagram – errors – clip onammeters.
Galvanometers: Ballistic galvanometers and vibration galvanometers.
Unit-3 (20 Periods)
Magnetic Measurements: B-H curve and permeability of ring specimen – Iron loss
measurement by Lloyd Fischer square.
Special Instruments: Maximum demand indicator, Trivector meter, Power factor meter,Frequency meters (mechanical resonance and electrical resonance type only),
Synchroscope - Phase sequence indicator - Megger.
Unit-4 (15 Periods)
Electronic Measuring Instruments: Electronic voltmeter – Electronic Multimeter –
Electronic Ohm meter. Cathode Ray Oscilloscope – Cathode ray tube – Electron gun –
Electrostatic focusing – Deflection – Acceleration of electron beam – Time base
generators – Dual trace oscilloscope. Applications – Measurement of voltage, current,frequency and phase angle.
Text Book:
1. A.K.Sawhney ‘A Course in Electrical & Electronics Measurements and
Instrumentation’ – Dhanpat Rai and Sons.References:
1. E.W.Golding & F.G.Widdis ‘Electrical Measurements and Measuring Instruments’Wheeler and Co., 5
thedition.
2. Ernst Frank ‘Electrical Measurement Analysis’ Mc Graw Hill.
3. Helfrick & Cooper ‘Modern Electronic Instrumentation and Measurement Techniques’Prentice Hall India.
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Academic year 2011-2012
8
BEEDEC 301 MATERIAL SCIENCECredits : 4
Lecture Periods/week : 4
Unit -1 (14 periods)
Conducting Materials : Free electron theory of metals – Drude - Lorentz theory –
electrical conductivity – thermal conductivity – Wiedemann - Franz relation – Sommerfield theory – Fermi Dirac distribution – variation of conductivity with
temperature – contact potential – thermoelectric materials – materials used for electric
resistances, brushes of electric machines, lamp filaments, fuses and soldering.
Unit – 2 (16 periods)
Dielectric materials : Requirements for insulating materials – classification based ontemperature – electrical properties – molecular properties – polarization of dielectrics –
Lorentz field- Claussius - Mossotti equation – electronic, ionic and orientational
polarizabilities – dependence of permittivity on frequency and temperature – behaviour
of dielectrics under static and alternating fields – complex dielectric constants – dipolar
relaxation and dielectric loss – dielectric strength, loss tangent.
Unit – 3 (14 periods)
Insulating materials : Natural and synthetic inorganic insulating materials – naturaland synthetic organic insulating materials – ferroelectricity – ferroelectric materials –
piezoelectricity – piezoelectric materials – applications of materials for electrical
apparatus such as mica, glass, porcelain, asbestos, paper, rubber, cotton, silk fiber,plastics, bakelite and resins- transformer oil – introduction to FRLS cable and XLPE
materials.
Unit – 4 (16 periods) Magnetic materials : Origin of permanent magnetic dipoles- dia, para and
ferromagnetism – Curie- Weiss law – Langevin’s theory for dia and paramagnetic
materials – BH curve and hysteresis loop – ferromagnetic domains – ferrimagnetism-ferrites – hard and soft magnetic materials and their applications – magnetic materials
used in electrical machines.
Text Book:
1. C.S.Indulkar, S. Thiruvengadam ‘Electrical Engineering Materials’ S. Chand &
Company Ltd. 1990.
2. M. Arumugam ‘Materials Science’, Anuradha Agencies.2002.
References:
1. A.J. Dekkar ‘Electrical Engineering Materials’ Prentice Hall, New Delhi 1988.
2. A.K. Sawhney, Electrical Machine Design’, Dhanpatrai 5th Edition 1994.
3. R.S. Sedha, ‘ A Text book of Applied Electronics, S. Chand & Co., 1998
4. B.S. Saxena, R.C. Gupta, P.N. Saxena, Fundamentals of solid state physics,Pragai Prakashan, Meerut, 2003.
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Academic year 2011-2012
9
BEEDME 302 THERMAL ENGINEERING & FLUID MACHINERY
Credits : 4
Lecture periods/week : 3
Tutorial periods/week : 1
Unit-1 (15 Periods)
Thermodynamics: Basic concepts – definitions - first law of thermodynamics –
application of first law to closed and open systems – Steady flow energy equation –
second law - Carnot heat engine – reversed Carnot engine - heat pump andrefrigerator – Entropy – definition – entropy chart.
Unit-2 (15 Periods)
Steam: Formation of steam – property calculations - uses of steam tables and mollier
chart – Rankine cycle – super heating – Steam Turbines (Qualitative treatment only).
Compressor: Reciprocating air compressors – classification – single stage - work done – with and without clearance – multistage.
Unit-3 (15 Periods)
Refrigeration & Airconditioning: Vapour compression cycle – Simple COP
calculations – Psychrometry – Property calculations using psychrometry chart - workingof air conditioning systems – Gas Turbines (Qualitative treatment only).
Fluid Mechanics: Properties of fluids – manometers – types of manometers – types of
fluid flow - Euler’s & Bernouli’s equations
Unit-4 (15 Periods)
Turbines: Hydraulic turbines – Pelton Wheel - Francis Turbine - Kaplan Turbines –
work done – efficiencies.
Pump: Centrifugal pumps – single stage – work done and efficiencies.
Text Book:1. P.K. NAG - Engineering Thermodynamics, Tata Mc Graw Hill Ltd... 2005.
2. R. K.BANSAL- Fluid Mechanics and Hydraulic Machines, Lakshmi Publications
2005
References:
1. R. K. RAJPUT - Thermal Engineering ‘Lakshmi Publications 2005 2. R. K. RAJPUT- Fluid Mechanics and Hydraulic Machines, S.Chand & Co 2005
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Academic year 2011-2012
10
BEECEE 307 ELECTRICAL & ELECTRONICS ENGINEERING LAB
Credits : 2
Period/ week : 3
1. Measurement of low resistance and high resistance Using Voltmeter andAmmeter.
2. Verification of Kirchhoff’s Laws.
3. Verification of Thevenin’s and Norton’s Theorem.
4. Measurement of low resistance using Kelvin’s double bridge..
5 Single Phase Power and p.f. Measurement Using 3 voltmeters.
6 Single Phase Power and p.f Measurement Using 3 ammeters.
7 Measurement of Power and Power Factor in 1 Phase AC circuit UsingWattmeter.
8 Improvement of Power Factor using Capacitor
9 Determination of Efficiency of the Kettle Using Wattmeter.
10 Verification of Superposition Theorem.
11 Measurement of active and reactive power by 2 wattmeter method
12 Measurement of energy using single phase energy meter
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Academic year 2011-2012
11
BEECEE 308 ELECTRICAL WORKSHOP
Credits : 2
Periods/week : 3
1. Study of Wiring Materials, Power and Control Cables And Accessories
2. Study, Dismantling and Assembling of DC Machine
3. A) Control of One Lamp By Flush Type Switch Combined 3 Pin Plug with SwitchPVC (Conduit) System of Wiring.
B) Control of One Lamp from Two Places. (Staircase Wiring) – PVC (Conduit
System of Wiring.
C) Wiring of Fluorescent Lamp Circuit.
4. A) Wiring of a Domestic Service Connection.B) Wiring of Ceiling Fan Circuit with Regulator.
5 Study of Multimeters
6 A) Measurement of Earth Resistance Using Earth Megger.B) Measurement of Insulation Resistance Using Insulation Megger.
7 A) Fabrication of PCB and Soldering and De-Soldering Practice.
B) Soldering a Simple Circuit in a General Purpose PCB
8 Murray Loop Test for Locating Cable Fault
9 Three Phase Motor Wiring – Power Connection.
10 Dismantling and Assembling of Ceiling Fan
11. Wiring of DB and 3 pole, 2 pole and single pole MCBs
12 Lead acid Battery testing – charging & discharging
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Academic year 2011-2012
12
BEECTP 309 R02 HR- SKILLS -1
Credit : 1
Period/week : 1
Sl.No Details No. of
Classes
1 SWOT Analysis and Presentation (Individual exercise) 2
2 Listening Skill Exercise (Audio - visual presentation) 1
3 Body Language (From Infosys Campus Connect) 1
4 Team Skills - Product Launching 2
5
Aptitude Test I (APM - Advanced Progressive
Matrices) 2
6 Assertiveness (From Infosys Campus Connect) 1
7 Leadership Exercise (Problem solving exercise) 2
8 Etiquettes - Discussion & Reporting 1
9 Person I admire - Oral presentation 2
10 Emotional intelligence - Written Exercise 1
11 End Semester Examinations 2
Total 17