School of Engineering \ Electrical and Electronics Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Electrical and Electronics Engineering
Sinusoidal alternating current and voltage. Phasors. Power and power factor. Bode plots. Non-sinusoidal systems. Mutual inductance and transformers. Laplace Transform and circuit analysis, Concept of transfer function. Passive and Active Filters
Textbook and / or References
Fundamentals of Electrical Circuits, C.K.Alexander, M.N.O Sadiku, 6th Edition
To learn frequency domain analysis methods of electrical circuits and to gain basic circuit design ability with these methods.
1. To be able to analyze the steady state of sine input circuits using phasor transform
2. To be able to analyze ideal and linear transformers
3. To be able to find the average and reactive power consumed and produced in sine input circuits and to make the necessary calculations to transfer the maximum average power to a load
4. To be able to find the s-equivalent of a circuit using the Laplace transform and to be able to analyze the steady and transient state for general inputs
5. To be able to perceive a circuit as a system; to be able to comment on the stability of the circuit (system) by finding the transfer function of the circuit
6. To be able to find the components of signals in a certain frequency range design the necessary circuit to filter
7. Learn the analysis methods with two-port circuits
8. Learn the analysis methods of three-phase circuits
9. Be able to analyze and simulate circuits using the Pspice program
Week 1: ELE 201 Review
Week 2: Sine Waves and Phasors
Week 3: Steady State Analysis with Sine Input
Week 4: Alternating Current Power Analysis, Instantaneous, Average, Active and Reactive Power, Effective Value (rms), Maximum Power Transfer
Week 5: Three-phase circuits
Week 6: Magnetically Coupled Circuits, Co-inductance, linear and ideal transformers.
Week 7: Frequency Response, Transfer Function, Decibel Concept, Bode Plots, Resonance
Week 8: Filters, Passive and Active Filters (Low-Pass, High-Pass, Band-Pass and Band-Stop)
Week 9: Laplace Transform Review, Definition, Step and Impulse Functions, Functional and Operational Transform, Applications,
Week 10: Circuit Analysis with Laplace Transform
Week 11: Circuit Elements and Analysis in s-Domain, Applications. Transfer Function (Partial Fraction Expansion, Calculated Sinusoidal Response)
Week 12: Two-Port Circuits
Tentative Assesment Methods
• Midterm 30 %
• Quiz 10 %
• Project 20 %
• Final 40 %
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