Electrical Engineering Materials - Amrita Vishwa Vidyapeetham

Course Detail

Course Name	Electrical Engineering Materials
Course Code	23PHY241
Credits	3
Campus	Amritapuri ,Coimbatore,Bengaluru, Amaravati, Chennai

Syllabus

Physics

Unit 1

Conducting materials: The nature of chemical bond, crystal structure Ohm’s law and the relaxation time, collision time, electron scattering and resistivity of metals, heat developed in a current carrying conductor, thermal conductivity of metals, superconductivity.

Semiconducting materials: Classifying materials as semiconductors, chemical bonds in Si and Ge and it’s consequences, density of carriers in intrinsic semiconductors, conductivity of intrinsic semiconductors, carrier densities in n type semiconductors, n type semiconductors, Hall effect and carrier density.

Unit 2

Magnetic materials: Classification of magnetic materials, diamagnetism, origin of permanent, magnetic dipoles in matter, paramagnetic spin systems, spontaneous magnetization and Curie Weiss law, ferromagnetic domains and coercive force, anti ferromagnetic materials, ferrites and it’s applications.

Unit 3

Dielectric materials: Static dielectric constant, polarization and dielectric constant, internal field in solids and liquids, spontaneous polarization, piezoelectricity.

PN junction: Drift currents and diffusion currents, continuity equation for minority carriers, quantitative treatment of the p-n junction rectifier, the n-p-n transistor.

Text Books / References

TEXTBOOK:

A J Decker, “Electrical Engineering materials”, PHI, New Delhi, 1957.

REFERENCES:

A J Decker, “Solid State Physics”, Prentice Hall, Englewood Cliffs, N J
C Kittel, “Introduction to solid state Physics”, Wieley, New York, 1956 (2nd edition).
Allison, Electronic Engineering materials and Devices, Tata Mc Graw Hill
F K Richtmyer E H Kennard, John N Copper, “Modern Physics”, Tata Mc Graw Hill, 1995 (5th edition).

Objectives and Outcomes

Course Outcomes

CO1: To understand the nature of interaction between atoms in crystalline solid materials that determines their dielectric, magnetic and electrical properties.

CO2: Analyze the relation between the macroscopic dielectric constant and the atomic structure of an insulator.

CO3: Fundamental concepts of magnetic fields required to illustrate the magnetic dipoles. This forms the basis to understand the magnetic properties of dia, para, ferro, antiferro and ferri magnetic materials.

CO4: Fundamentals concerned with conduction mechanism in metals and superconductors.

CO5: Understand the basics for classification of materials based on its conductivity, nature of chemical bonds in Si and Ge, carrier density, energy band structure and conduction mechanism in intrinsic and extrinsic semiconductors.

CO-PO Mapping

PO1

PO2

PO3

PO4

PO5

PO6

PO7

PO8

PO9

PO10

PO11

PO12

PSO1

PSO2

CO1

–

CO2

–

CO3

–

CO4

–

CO5

–

Evaluation Pattern

Evaluation Pattern

Assessment	Internal	End Semester
Periodical 1 (P1)	15
Periodical 2 (P2)	15
*Continuous Assessment (CA)	20
End Semester		50

*CA – Can be Quizzes, Assignment, Projects, and Reports.

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Course

Course Detail

Syllabus

Unit 1

Unit 2

Unit 3

Text Books / References

Objectives and Outcomes

Evaluation Pattern

Amritapuri
Campus

Amaravati
Campus

Bengaluru
Campus

Chennai
Campus

Coimbatore
Campus

Faridabad
Campus

Kochi
Campus

Mysuru
Campus

Nagercoil
Campus