Electric Circuits
Course Code
EL2001
Number of Credits
4
Semester
Course Type
Related Courses
| No | Code | Course | Relation |
|---|---|---|---|
| 1 | EL2101 | Electric Circuits Laboratory | Corequisite |
| 2 | EL2001 | Electric Circuits | Equivalent |
| 3 | EL1200 | Introduction to Circuit Analysis | Prerequisite |
| 4 | EL2001 | Electric Circuits | Equivalent |
Study Material
| Study Material | Depth |
|---|---|
| Introduction to Circuit Analysis | Express |
| Sinusoidal Steady State Response Analysis | Expert |
| Alternating Current Power Analysis | Expert |
| Three-phase network | Expert |
| Magnetically coupled circuit | Expert |
| Frequency Response | Expert |
| Introduction to Laplace Transformation | Express |
| Applications of Laplace Transformation | Expert |
| Fourier Series | Express |
| Fourier Transformation | Express |
| Two-port networks | Expert |
Graduate Learning Outcomes (GLO) carried by the course
| CPMK Code | Course Learning Outcomes Elements (CLO) |
|---|---|
| CPMK 1 | Able to analyze circuits with frequency domain phasor using a variety of techniques |
| CPMK 2 | Apply the phasor concept to the analysis of alternating current power and three-phase circuits |
| CPMK 3 | Analyzing circuits with a magnetic coupling |
| CPMK 4 | Draw a Bode plot of the transfer function and use the frequency domain response to analyze the resonance and filter circuit |
| CPMK 5 | Applying Laplace transforms for the analysis of the steady time of direct and alternating current circuits |
| CPMK 6 | Applying Fourier series and Fourier transform for circuit analysis with non-sinusoidal excitation |
| CPMK 7 | 2-port circuit analysis with various parameters |
| CPMK 8 | Modeling a system in the form of a state space representation |
Learning Method
- Lectures, Discussions, Case Studies, Independent Learning
Learning Modality
- Offline, Online, Hybrid
Assessment Methods
- Homework, Quiz, Exam