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Course
Pro-forma
Bachelor of Engineering (Electrical)
Code
KEEE1124
Title
Electronic Physics
Pre-requisite
None
Student Learning Time (SLT)
80 hours
Credit
2
Learning Outcomes
1.
Differentiate between materials based on their ability to
conduct current and calculate the probability of electron
existence in an energy band.
2.
Calculate the number of electron/holes and voltage barrier
in semiconductors
3.
Apply Plancks Theorem, Einsteins Theorem and
Schrödingers equations to solve and explain the electron
flow phenomenon
4.
Describe the theory of uniformly doped pn-junction
Synopsis
Physics of semiconductor material, fundamental semiconductor
equations at equilibrium and non-equilibrium, Application of
these fundamental concepts to basic semiconductor devices
Assessment
40 % Continuous Assessments
60 % Final Examination
References
1.
Donald Neamen,Semiconductor Physics and Devices,
McGraw Hill, 2008
2.
B. G. Streetman, “ Solid State Electronic Devices”, Prentice
Hall, 2008
3.
Kenneth Krane,Modern Physics, John Wiley, 2008
Soft Skills
Communication Skills (CS1)
Critical Thinking & Problem Solving (CT1, CT2, CT3)
Long-life Learning & information management (LL1)