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19ELC101 Electrical & Electronic Circuits
Introduction to the Course
2nd Semester B.Tech. ELC
What Computer engineers do?
Source: https://www.semanticscholar.org/paper/A-cyber-physical-system-approach-to-smart-city-Ghaemi/758bec4725322d905e772cec39a1652063368514
Course Objective
To introduce fundamentals and analysis of DC and AC circuits used in
electrical and electronic applications
▪ Fundamental concepts of basic electrical engineering
▪ Single Phase and Three Phase Circuits
▪ Operation and characteristics of electronic devices
▪ Design and analysis of Electronic circuits
What you will learn?
SyllabusUnit 1
Review of circuit elements, fundamental laws, AC representations.
Steady state analysis of DC and AC circuits: Practice of Mesh Current and Node Voltage analysis of
circuits with independent and dependent sources. Network Reduction, Source transformation.
Network Theorems : Thevenin and Norton’s theorems; Superposition theorem, Maximum Power
transfer Theorem.
Three phase systems – Three phase 3-wire and 4-wire circuits, balanced and unbalanced, Phasor
Diagrams.
Unit 2
Transient Analysis: Time domain analysis of first and second order circuits, Frequency Domain
analysis: solutions using Laplace transforms, RLC Resonance, Q-factor and Bandwidth.
Coupled circuits – Dot convention analysis.
Graph theory, Two-Port Networks
Unit 3
Electronic Elements: Diodes, Applications, BJT - characteristics, Biasing, Applications, small signal
operation and models, Frequency response - CE amplifier, Emitter follower, Darlington-pair, Power
amplifiers, classification and comparison.
3-0-3-4
Textbook:
1. Alexander C K and Sadiku M N O, Fundamentals of electric circuits, 5th ed. New York,
McGraw-Hill, 2013.
2. Adel.S.Sedra, Kenneth.C. Smith, Microelectronic Circuits, Oxford University Press, Fifth
Edition, 2005.
References
1. Nahvi M and Edminister J, Schaum’s Outline of Electric Circuits, 5th ed. New York,
McGraw-Hill, 2011.
2. Donald.E.Neaman, “Electronic Circuit, Analysis and Design”, Tata McGraw Hill
Publishing Company Limited, Second Edition, 2006.
3. Hayt W, Kemmerly J, and Durbin S, Engineering circuit analysis, 7th ed. Boston,
McGrawHill Higher Education, 2007
4. Van Valkenburg M E, Network Analysis, 3rd ed. New Delhi, Prentice Hall-India, 2011.
Textbook:
1. Alexander C K and Sadiku M N O, Fundamentals of electric circuits, 5th ed. New York,
McGraw-Hill, 2013.
2. Adel.S.Sedra, Kenneth.C. Smith, Microelectronic Circuits, Oxford University Press, Fifth
Edition, 2005.
References
1. Nahvi M and Edminister J, Schaum’s Outline of Electric Circuits, 5th ed. New York,
McGraw-Hill, 2011.
2. Donald.E.Neaman, “Electronic Circuit, Analysis and Design”, Tata McGraw Hill
Publishing Company Limited, Second Edition, 2006.
3. Hayt W, Kemmerly J, and Durbin S, Engineering circuit analysis, 7th ed. Boston,
McGrawHill Higher Education, 2007
4. Van Valkenburg M E, Network Analysis, 3rd ed. New Delhi, Prentice Hall-India, 2011.
Course Objective
To analyze basic dc and ac circuits of electrical and electronic circuits
Course Outcome
Course Outcome
CO1: Ability to interpret network theorems in electrical circuits (BTL–2)
CO2: Ability to formulate circuit equations and compute circuit parameters in
AC and DC systems (BTL – 3)
CO3: Ability to analyze the behavior of electric circuits under steady state and
transient conditions (BTL – 4)
CO4: Understanding of characteristics of fundamental electronic devices (BTL – 2)
CO5: Ability to analyze frequency response of transistor amplifiers using small
signal models (BTL – 4)
CO6: Ability to interpret electrical and electronic circuit behavior through hardware
and simulation. (BTL – 4)
Evaluation Pattern
Component Assessment % Weightage
Internal
Periodical 1 & 2 20%
Assignment 7%
Quiz 8%
Laboratory 30%
External
End Semester
35%Viva-Voce
Total marks 100
Course homepage
http://eeeforum.weebly.com/
Thank you