| Academic Unit: |
Electrical-Electronics Engineering |
| Mode of Delivery: |
Face to face |
| Prerequisites: |
- |
| Language of Instruction: |
English |
| Level of Course Unit: |
Undergraduate |
| Course Coordinator: |
- - |
| Course Objectives: |
To learn the necessary concepts, methods and conversion techniques required for the AC sinusoidal steady state circuit analysis, and to acquire basic skills for using these concepts and methods in simple design projects. |
| Course Contents: |
Sinusoidal steady-state analysis and power calculations; mutual inductance; series and parallel resonance; Laplace transforms in circuit analysis; transfer function; two-port circuits. |
| Learning Outcomes of the Course Unit (LO): |
- 1- Ability to perform sinusoidal steady-state analysis,
- 2- Ability to perform sinusoidal power calculations,
- 3- Ability to analyze circuits containing mutual inductance,
- 4- Ability to analyze series and parallel resonance circuits,
- 5- Ability to perform circuit analysis via Laplace transform,
- 6- Ability to use transfer functions,
- 7- Ability to calculate two-port network parameters.
- 8- Ability to conduct research as part of a team or individually, and to present its results
|
| Planned Learning Activities and Teaching Methods: |
Lectures, Computer Simulations, Experiments and Projects. |
| Week | Subjects | Related Preperation |
| 1 |
AC steady state analysis: Phasor concept. Impedance concept. |
Reading (Ch. 8), Simulation |
| 2 |
AC steady state analysis: Phasor concept. Impedance concept. |
Reading (Ch. 8), Simulation |
| 3 |
AC steady state analysis: Analysis techniques (cont'd) |
Reading (Ch. 8), Simulation, Exp. 1 |
| 4 |
AC Power |
Reading (Ch. 9), Simulation, Exp. 2 |
| 5 |
Magnetically Coupled Circuits |
Reading (Ch. 10), Simulation, Exp. 3 |
| 6 |
Variable frequency Network Performance - resonant circuits |
Reading (Ch. 12), Simulation, Exp. 4 |
| 7 |
Variable frequency Network Performance - filter circuits |
Reading (Ch. 12), Simulation, Exp. 5 |
| 8 |
Laplace transform and its applications |
Reading (Ch. 13), Simulation, Exp. 6 |
| 9 |
Laplace transform and its applications |
Reading (Ch. 14), Simulation, Exp. 7 |
| 10 |
Fourier Analysis |
Reading (Ch. 15), Simulation, Project |
| 11 |
Fourier Analysis Application Examples |
Reading (Ch. 15), Simulation, Project |
| 12 |
Two port networks |
Reading (Ch. 16), Simulation, Project |
| 13 |
Design Examples |
Project |
| 14 |
Design Examples |
Project |
At Kadir Has University, a Semester is 14 weeks; The weeks 15 and 16 are reserved for final exams.
THE RELATIONSHIP BETWEEN COURSE LEARNING OUTCOMES (LO) AND PROGRAM QUALIFICATIONS (PQ)
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PQ1 |
PQ2 |
PQ3 |
PQ4 |
PQ5 |
PQ6 |
PQ7 |
PQ8 |
PQ9 |
PQ10 |
| LO1 |
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| LO8 |
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Contribution: 1 Low, 2 Average, 3 High
