Basic HTML Version
Course
Pro-forma
Bachelor of Biomedical Engineering
Code
KUEU2141
Title
Electrical Circuit Analysis
Pre-requisite
None
Student Learning Time (SLT)
120 hours
Credit
3
Learning Outcomes
1.
Perform DC analysis using KCL, KVL, Thevenin, Norton and
Superpositions theorems.
2.
Calculate transient response of RC, RL and RLC circuits.
3.
Perform AC analysis using KCL, KVL and Thevenin-Norton
equivalent circuits.
4.
Calculate current, voltage and power in AC circuits using
phasor approach.
5.
Describe the concept of mutual inductance and solve related
problems.
6.
Perform circuit analysis using simple Laplace transform.
Synopsis
This course covers the introduction to the Kirchorffs law, Nodal
analysis and Thevenins law, mesh analysis and superpositions
law. Calculate current, voltage and power in ac circuits using
phasor approach. Study the mutual Inductance and transient
response in RC, RL and RLC circuits.
Assessment
40 % Continuous Assessments
60 % Final Examination
References
1.
Franco, Electric Circuit Fundamentals, Saunders College
Publishing, 1995
2.
Floyd, Electric Circuit Fundamentals, Pearson International
Edition, Seventh Edition, 2007.
3.
Alexander & Saunder, Fundamentals of Electric Circuits,
McGraw-Hill,2003
Soft Skills
Critical Thinking and Problem Solving (CT1,CT2,CT3)