Electric Circuits 2 EQUP 2302
Course description:
Topics covered include:
Sinusoidal steady state analysis, power calculations in sinusoidal circuits, complex power, balanced three phase circuits, Laplace transform, circuit analysis using Laplace transform, low pass filters, high pass filters, band pass filters, band rejected filters, bode diagram, two port circuits.
Course Aims:
The basic objective of this course is to introduce students to the fundamental theory and mathematics for the analysis of Alternating Current (AC) electrical circuits, frequency response and transfer function of circuits. Through the material presented in this course, students will learn:
- The fundamental principles in electric circuit theory and to be able to extend these principles into a way of thinking for problem solving in mathematics, science, and engineering
- To analyze analog circuits that include energy storage elements in the time and frequency domains, both theoretically and experimentally
- Ways in which electrical engineering shapes and benefits society
- To improve the oral, graphical, and written communication skills
- how to work effectively both individually and in groups
- To evaluate the personal learning process and understanding of the concepts and skills from class
Course outcomes:
Upon completion of this course, student will be able to:
- To analyze single phase sinusoidal circuits.
- To calculate the average and complex power in single phase sinusoidal circuits.
- To analyze balanced three phase circuits applying single phase equivalent circuits.
- To find the functional and operational Laplace transform of different circuits.