5th Sem Electrical & Electronics Engineering Syllabus RGPV | RGPV CBGS 5th Sem EX Syllabus
Now RGPV introduced new schemes for those students who are studying in the 3rd year 5th sem of RGPV and their affiliated institutes. In this post we are going to share RGPV CBGS 5th sem syllabus for Electrical & Electronics Engineering branch students. Please read it very carefully and also share RGPV CBGS 5th sem EX subject list . It contain 7-8 subjects with 1 elective subjects in Ex branch i.e. Electro Magnetic Field Theory; Electrical Machine-II; Switchgear and Protection; Power Electronic Devices and Circuits; Elective-I (Energy Conservation and Management ; Electrical and Electronic Materials; Entrepreneurship); Software / Simulation Lab-I; Management Skill Development **(Internal Assessment); Innovative Thinking*(Internal Assessment)* .If you want to download 5th sem Ex syllabus please go below the post.
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RGPV CBGS 5th Sem Ex Subjects
List of Subjects RGPV CBGS 5th Sem Electrical &
Electronics Engineering
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S. No.
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Subject Code
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Subject Name
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1
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EX-5001
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Electro Magnetic Field Theory
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2
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EX-5002
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Electrical Machine-II
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3
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EX-5003
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Switchgear and Protection
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4
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EX-5004
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Power Electronic Devices and Circuits
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5
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EX-5005
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Elective-I (Energy Conservation and Management ; Electrical and
Electronic Materials; Entrepreneurship)
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6
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EX-5006
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Software / Simulation Lab-I
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7
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EX-5007
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Management Skill Development **(Internal Assessment)
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8
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EX-5008
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Innovative Thinking*(Internal Assessment)*
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Download RGPV CBGS 5th Sem Electrical & Electronics Engineering Syllabus
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
EX-5001
Electromagnetic Field Theory
Unit
I
Cartesian,
cylindrical & spherical co-ordinate systems, scalar & vector fields, gradient,
divergence & curl of a vector field, Divergence theorem & Stokes’s
theorem, concept of vectors. Electrostatic Fields – Coulomb’s law, electric
field intensity due to different charge distribution viz. line charge, sheet
charge, Field due to continuous volume – electric potential, properties of
potential function, potential gradient equipotential surfaces, line of force,
Gauss law, applications of Gauss law, Gauss law in point form, method of
images.
Unit
II
Laplace’s
& Poisson’s equations, solution of Laplace’s equation, Electric dipole,
dipole moment, potential & electric field intensity due to dipole, Behavior
of conductors in an electric field. Conductor & insulator, electric field
inside a dielectric, polarization, Boundary value conditions for electric
Field, Capacitance & Capacitances of various types of capacitors, Energy
stored and energy density in static electric field, Current density, conduction
& convection current density ohms law in point form, equation of
continuity.
Unit
III
Static
Magnetic Field, Biot-Savart’s law, Magnetic Field intensity due to straight
current carrying filament, circular, square and solenoidal current carrying
wire, Relationship between magnetic flux, flux density & magnetic Field
intensity; Ampere’s circuital law and its applications, magnetic Field
intensity due to infinite sheet and various other configurations, Ampere’s
circuital law in point form, Magnetic force, moving charge in a magnetic field,
Lorentz Force on straight and long current carrying conductors in magnetic
field, force between two long & parallel current carrying conductors.
Magnetic dipole & dipole moment, a differential current loop as dipole,
torque on a current carrying loop in magnetic field, Magnetic Boundary
conditions.
Unit
IV
Scalar
magnetic potential and its limitations, Vector magnetic potential and its
properties, vector magnetic potential due to different simple configurations;
Self and Mutual inductances, determination of self & mutual inductances,
self inductance of solenoid, toroid coils, mutual inductance between a straight
long wire & a square loop. Energy stored in magnetic Field & energy
density, Faraday’s Law, transformer & motional EMFs, Displacement current,
Maxwell’s equations as Generalization of circuit equations, Maxwell’s equation
in free space, Maxwell’s equation for harmonically varying Field, static and
steady fields, Maxwell’s equations in differential & integral form.
Unit
V
Electro
Magnetic Waves : Uniform plane wave in time domain in free space, Sinusoidally
time varying uniform plane wave in free space, Wave equation and solution for
material medium, Uniform
plane
wave in dielectrics and conductors, Pointing Vector theorem, instantaneous,
average and complex poynting vector, power loss in a plane conductor, energy
storage, Polarization of waves, Reflection by conductors and dielectric –
Normal & Oblique incidence, Reflection at surface of a conducting medium,
surface impedance, transmission line analogy.
References:
1. Mathew N.O Sadiku; Elements of
Electromagnetic; Oxford.
2. P.V. Gupta; Electromagnetic Fields;
Dhanpat Rai.
3. N.N. Rao; Element of Engineering
Electromagnetic; PHI.
4. William H. Hayt; Engineering
Electromagnetic; TMH.
5. John D. Kraus; Electromagnetic; TMH.
6. Jordan Balmian; Electromagnetic wave
& Radiating System; PHI.
7. David K. Cheng; Fields and Wave
Electromagnetic; Addison Wesley.
8. S.P. Seth; Electromagnetic Field
;Dhanpat Rai & Sons
Note:
Field plotting of electromagnetic systems on a PC using standard softwares.
Application for low and high frequency devices. Suggested softwares,
GEMINI(Infolytica), ANSYS, ANSOFT, NISA.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
EX-5002
Electrical Machine –II
Unit
I
Polyphase
Synchronous Machines : Constructional features. Polyphase Distributed AC
Windings: Types, Distribution, coil span and winding factors. Excitation
systems, emf equation and harmonic elimination. Generator Mode, Interaction
between excitation flux and armature mmf, equivalent circuit model and phasor
diagram for cylindrical rotor machine. Salient pole machines: two reaction
theory, equivalent circuit model and phasor diagram. Power angle equations and
characteristics. Voltage regulation and affect of AVR. Synchronising methods,
Parallel operation and load sharing, operation on infinite busbar.
Unit
II
Motoring
mode, Transition from motoring to generating mode, Phasor diagram, steady state
operating characteristic, V-curves, starting, synchronous condenser, hunting
-damper winding effects, speed control including solid state control.
Unit
III
Analysis
under sudden short circuit. Transient parameters of synchronous machines,
various transient and sub-transient reactance, time constant. Expression of
transient and sub transient reactance in terms of self and mutual inductances
of various windings, Analysis of 3-ph short circuit oscillogram and
determination of transient parameters from oscillogram.
Testing
of Synchronous Machines - Stability considerations. Brush less generators,
Single phase generators.
Unit
IV
Generalized
theory of Electrical Machines: Basics for development of generalized approach
for analysis of electrical machines, Kron’s Primitive machine, Concept of
rotational transformer, voltage and pseudo stationary coil, Expression for self
and mutual inductances of various windings w.r.t. rotor position, Park’s and
Inverse Parks transformation.
Unit
V
Special
Electric motors: Switched reluctance motor, linear machines- power energy and levitation
types, PM brushless DC motors.
Reference
Books:
1. Fitzgerald, C.Kingslay, S.D. Umans,
Electric machinery ,5th Ed., McGraw Hills, 1992
2. GMC pherson and R.D. Laramorl, An
Introduction to Electric Machine & Transformer,2nd Ed.,John Wiley & Sons,
1990
Text
Books:
1. P.S. Bimbhra, Generalised Theory of
Electrical Machines.
2. E. Open claw Tayler, The performance
& Design of AC Computer Meters, A.H.Wheeler & Co. (P) Ltd. Alalhabad,
1971
3. I.J, Nagrath & D.P. Kothari,
Electrical Machines, TMH
Electrical Machine-II
EXPERIMENTS
1. Determination of complete torque speed characteristics of a
three phase induction machine in braking, motoring and generating regions and
it’s calibration
2. Study of effect of rotor resistance on the load
characteristics of a wound - rotor induction motor.
3. (a) Determination of equivalent circuit parameters,
prediction of performance. Verification from
actual load test. (b)
Separation of losses of Induction motors and estimation of efficiency.
4. Speed control of Induction motor - Conventional, electronic.
Solid state speed control using (i) V constant, (ii) V/f constant, (iii) slip -
energy injection
5. Determination of equivalent circuit parameters of a single
phase Induction motor. Prediction torque -speed characteristics. Verification
from load test
6 Study of torque step rate characteristic of a stepper
motor. Determination of operating range.
7. Load characteristic of universal motor, operating on dc and
ac supply. Comparison of performance.
8. Load characteristic of shaded pole-motor.
9. Characteristic of switched reluctance motor.
10. Circle diagram of 3 phase Induction Motor.
11. Performance of 3 Ph. Induction Motor with single phasing and
comparison.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
EX-5003
Switchgear and Protection
Unit-I
Fault
Analysis
Fault
Analysis per unit, representation and its advantages, faults in power systems
(Symmetrical & Unsymmetrical), Single line and equivalent impendence
diagram representation of power system components. Symmetrical components and its
application to power systems, fault analysis, Sequence networks and their
interconnection for different types of faults, Effect of fault impedance,
Current limiting reactors, its location and application, Short circuit
calculation.
Unit-II
Protective Relays
Requirement
of relays, Primary & backup protection, Desirable qualities of relays,
Concept of Pickup, reset & drop-off, Drop off/ Pickup ratio, inverse time
& definite time charters tics, Attracted armature, Balanced Beam, Induction
disc, Induction cup, Moving coil & moving Iron, Rectifier , Thermal,
Bimetal directional relay, Frequency, DC, all or nothing relays. Pilot &
negative sequence, Over current, Over Voltage, Directional, Differential and
Distance relays, R-X diagram, Impedance mho & reactance relay.Introduction
of static analog & digital relays, Classification of static relays.
Unit-III
Circuit
Breakers
Elementary
principle of arc quenching, recovery & re-striking voltage, arc quenching
devices, description and operation of Bulk oil, Minimum oil, Air break, Air
blast, SF6, Vacuum circuit breakers and DC circuit breakers, their comparative
merits, LT Switch gear, HRC fuses, current limiting reactor.& their design
features, influence of reactors in CB ratings Testing of circuit breaker, Description
of a simple testing station, direct & indirect testing.
Unit-IV
System
Protection
Protection
of Generators - Earth Fault, percentage, differential, Loss of excitation,
Prime mover failure, Over current, Turn to turn fault, Negative phase sequence,
heating, Reverse power protection schemes
Protection
of Transformers
Internal
& external fault protection, Differential, Earth fault, Over Current, Over
heating, Protection schemes, Protection of transmission lines, Over current,
Distance and carrier current protection schemes.
Unit-V
Surge
Protection & insulation co-ordination
Switching
surges, Phenomena of Lightning, over voltage due to lightning, Protection
against lightning, Lightning arrestors, selection of lightning arrestors, Surge
absorbers and diverters, Rod gap, Horn gap expulsion type & valve type
lightning arrestors, solid resistance and reactance earthing, Arc suppression
coil, Earthing transformers, Earthwires, Earthing of appliances, insulation
co-ordination, Definitions determination of line insulation, insulation level
of substation equipment, co-ordination amongst items of substation equipment.
List of Experiments:
1. Determination of drop out factor of an instantaneous over
current relay.
2. Determination of operating characteristic of IDMT relay.
3. Determination of operating characteristic of differential
relay.
4. Study and operation of gas actuated protective relay.
5. Study and operation of static over current relay.
6. Determination of transmission line parameters using MATLAB.
7. Analysis of power system faults (Symmetrical &
Asymmetrical) using MATLAB.
8. Study of SF6 circuit breaker
9. Protectional simulation study of generator, Transformer,
Feeder & Motor protection.
References:
B.
Ravindran and M Chander, "Power System protection and Switchgear",
New Age International.
Fundamentals
of Power System protection Y.G.Paithankar & S.R. Bhide; E.E.E. CL Wadhwa,
Electrical Power systems, New age International.
Haddi
Saadet, "Power System Analysis, TMH
A.R.
Bergen, Vijay Vittal, "Power System Analysis, Pearson Education, Asia.
Switchgear & protection Sunil S. Rao. Khanna Publication.
Ravindra
P. Singh, Switchgear & Power System Protection, PHI Learning. Badrirka,
Power System protection and switchgear, TMH.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
EX-5004
Power Electronic Devices and Circuits
Unit-I
Advantages
and application of power electronic devices characteristics, Symbol &
application of power diodes, power transistors, GTO, Triac, Diac, Power MOSFET,
IGBT, LASCR, Fast recovery diode, schottey diode MCTs. Principle of operation
of SCR, Two transistor analogy, brief idea of construction of SCR, Static
characteristics of SCR, Condition of turn on & off of SCR Gate
characteristics, Method for turning on of SCR, Turnoff methods, different
commutation echniques (Class A,B,C,D,E, & F Commutation) firing of SCR, Use
of pubic transformer and opto isolator in firing, Resistance firing Ckt,
Resistance capacitance firing circuit, UJT firing cut, and ramp triggering,
firing for 3-Φ circuit. SCR rating & protection of SCR over voltage, Over
current, Suprior firing, Design of snubber circuit and protection of gate of
SCR, heating, cooling & mounting of SCR series and parallel operation of
SCR, String efficiency & problem associated
with
series and parallel operation of SCR
Unit-II
Operation
and analysis of single phase (Half wave & Full Wave) and multiphase (Three
Phase) uncontrolled and controlled rectifier circuit with resistive, resistive
& inductive load (continuous & non continuous conduction, Fw small
& very large inductive loads) and RLE loads. Estimation of average load
voltage and load current for above rectifier cirucits active and reactive power
input. Effect of free wheeling diode and source inductance on performance of
these rectifier circuits .
Comparison
of mid point & Bridge rectifier circuits.
Unit-III
Series
and parallel inverter, Voltage source & current source inverter, Single
phase and three phase bridge inverter, Self cumulated inverters,, Mc- murray
& MC murray bed ford inverters, Voltage control of single phase and three
phase bridge inverter, Harmonics & their reduction techniques.
Unit-IV
Principle
of chopper operation, Various control strategies in chopper, Step up &
step-up/step down choppers, chopper configuration (Type A,B, C,D, & E),
Steady state analysis of chopper circuits, Current & voltage commutation of
chopper circuits Jones & Morgens chopper
Unit-V
Single
phase (mid point & bridge configuration) and three phase cyclo convertor
configuration
and operating principles. AC voltage controllers (using SCRs & Traics)
single phase full wave controller with R and RL load, Estimation of RMS load
voltage, RMS load current and input power factor, three phase AC voltage
controller (Without analysis) Dual converter Switched mode voltage regulator
buck, Boost, Buch & Boost, Ck regulators.
References:
1
M.H. Rashid, Power Electronics Circuits, Devices and Applications, Pearson 2
Education, Singapore, 1993.
3
M Ramsmoorthy, An Introduction to transistor and their application, Affiliated
East-West Press. 4 P.C. Sen, Power Electonics, TMH.
5
M.D. Singh, K.B. Khanchandani, Power Electronics, TMH, Delhi, 2001.
6
Chakravarti A., Fundamental of Power Electronics and Drives, Dhanpat Ray &
Co., 7 Dr. P.S. Bhimbhra, Power Electonics, Khanna Pub.
8
Vedam Subramanyam, Power Electronics New Age International Revised II ed. 2006.
9
Randall Shaffer, Fundaments of Power Electronics With MATLAB Cengage Leaening
2008.
List Of Experiments
1 Vi Characteristics Of Scr
2- Vi Characteristics Of Diac
3- Vi Characteristics Of Bjt
4- Characteristics Of Triac
5- Vi Characteristics Of Mosfet
6- Transfer Characteristics Of
Mosfet
7- Output Characteristics Of Igbt
8- Transfer Characteristics Of Igbt
9
- Single Phase Scr Half Controlled Converter With R Load
10- 1φ Scr Fully Controlled Converter With R-Load
11 - Study Of 3φ Scr Half
Controlled Converter
12- Study Of 3φ Scr Fully
Controlled Converter
13- Study Of Classes Of Commutation A,B,C,D,E,F.
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
Elective
–I EX-5005 (1) Energy Conservation and Management
Unit-I
General
energy problem: Energy use patterns and scope for conservation.
Energy
audit: Energy monitoring, Energy accounting and analysis, Auditing and
targeting. Energy conservation policy, Energy management & audit, Energy
audit, Types of energy audit, energy management (audit), qualities and function
of energy managers, language of an energy manager, Questionnaire, Check list
for top management, Loss of energy in material flow, energy performance,
Maximizing system efficiency, Optimizing, input energy requirements, Energy
auditing instruments, Material load energy balance diagram.
Unit-II
Thermodynamics
of Energy Conservation. Basic principle. Irreversibility and second law
efficiency analysis of systems. Primary energy sources, optimum use of prime-movers,
energy efficient house keeping, energy recovery in thermal systems, waste heat
recovery techniques, thermal insulation. Thermal energy audit in heating,
ventilation and air conditioning. Maintenance and Energy audit – friction,
lubrication and tribo-logical innovations. Predictive and preventive
maintenance.
Unit-III
Load
curve analysis & load management DSM, Energy storage for power systems
(Mechanical, Thermal, Electrical & Magnetic) Restructuring of electric
tariff from energy conservation consideration, Economic analysis depreciation
method, time value of money, Evaluation method of projects, replacement
analysis, special problems inflation risk analysis. Pay back period, Energy
economics, Cost Benefit Risk analysis, Pay back period.
Unit-IV
Energy
efficient electric drives, Energy efficient motors V.S.D. power factor
improvement in power system. Energy Conservation in transportation system
especially in electric vehicle. Energy flow networks, Simulation &
modeling, formulation & Objective & constraints, alternative option,
Matrix chart.
Unit-V
Energy
conservation task before industry, Energy conservation equipments,
Co-Generation, Energy conservation process, Industry Sugar, Textiles, Cement
Industry etc Electrical Energy Conservation in building, heating and lighting.
domestic gadgets
References:
Energy
Management – W.R. Murphy & G. Mckey Butler worths. Energy Management Head
Book- W.C. Turner, John Wiley
Energy
Management Principles- Craig B. Smith, Pergamon Press Energy Conservation- Paul
O Callagan- Pergamon Press
Design
& Management of energy conservation. Callaghan, Elect, Energy Utilization
& Conservation. Dr. Tripathi S.C.,
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Electrical
& Electronics Engineering, V-Semester
Elective
–I EX-5005 (2) Electrical and Electronic Materials
COURSE
OBJECTIVE
The
primary objective of the course is to introduce concepts about the properties,
characteristics, applications and limitations of Electrical & Electronics
engineering materials.
Course
contents :
Unit
I : Crystal structure of materials, crystal systems, unit cells and space
lattices and defects, Classes of Engineering Materials – Metals & alloys,
ferrous and non-ferrous alloys, low alloy steels, aluminium alloys, copper
alloys, stainless steels, cast iron, ceramics, organic polymers and composite
material. Classification of solids from electrical engineering point of view.
Conducting material – properties of conductors, characteristics of good
conductor material, commonly used conducting materials, conductor materials for
overhead lines, types of conductors, conductor for underground cables,
conductor materials used in electrical machines, resistor materials, types of
resistors, materials for bus bar.
Unit
II : Dielectric Materials: Dielectric strength, factors affecting dielectric
strength, dielectric loss, dissipation factor, factors affecting dielectric
loss, permittivity & polarization, charging and discharging of dielectric,
conduction through dielectric. Application of dielectric, different types of
capacitors and materials used for them. Insulating materials, their– thermal
and chemical, mechanical & electrical property. Insulating materials like
ceramic, mica, glass, rubber, resins, wax varnishes, Class of insulator.
Transformer oils & their testing. Piezoelectricity & Ferro electricity.
Unit
III : Concept of energy band diagram for materials - conductors, semiconductors
and insulators Applications of semi conductor materials: type of semi
conductors, working and applications of semiconductors, Temperature sensitive
elements, photoconductive cells, photo voltaic cells; Varistor, Hall effect
generator, LCD, Light dependent resistors, LEDs, piezo – electric materials,
semiconductor laser and its characteristics, photo conductors – photo diodes, avalanche
photo diode, photo transistors.
Unit
IV : Classification of magnetic materials: Dia-magnetism, Para magnetism,
Ferro-magnetism, magnetization curve, hysteresis loop, Magnetostriction,
Factors affecting permeability and hysteresis, Anti – ferromagnetism,
Ferromagnetism, Magnetic resonance, B-H curve for different magnetic materials,
loss of magnetism, impurities in ferromagnetic materials, soft and hard
magnetic materials, ferrites
Unit
V: Superconductivity & it’s application. Materials of MHD generator,
Thermoelectric generators, Thermionic conductors, Physical properties
&Electrical properties of SF6, Specification of SF6 gas for GIS
application, Advantages and Applications of SF6, Nanomaterials, Ultra Light
materials and metallic foams.
Course
outcome :
Student
after successful completion of course is expected to possess an understanding
of basic of Electrical & Electronics engineering materials.
References:
1. A.J. Dekker; Electrical Engineering Materials;
PHI.
2. William F Smith, JavadHashemi, Ravi
Prakash ‘Material science and engineering’, McGraw Hill.
3. James F. Shackelford, Madanapalli K.
Muralidhara ‘Introduction to Materials Science for Engineers’, Pearson
4. Ian P. Jones ‘ Materials Science for
Electrical and Electronics Engineers’ Oxford university press
5. C. S. Indulkar and S. Thruvengadem;
Electrical Engineering Materials; S. Chand.
6. TTTI Madras; Electrical Engineering
Materials; TMH.
7. John Allison; Electrical Engineering
Material s & Devices; TMH.
8. Kasap; Electronic Materials and
devices; TMH
9. V. Raghvan; Material Science &
Engineering; PHI.
10. S.P. Seth & P.V. Gupta; Electrical
Engineering Materials; Dhanpat Rai.
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