Electric Circuit Theory
Electronics and Communications Engineering
Faculty of Engineering
First Cycle (Bachelor's Degree)
| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Electric Circuit Theory | MUH203 | Compulsory | Bachelor's degree | 1 | Spring | 5 |
Name of Lecturer(s)
Prof. Dr. Metin AYDIN
Associate Prof. Dr. Anıl ÇELEBİ
Associate Prof. Dr. Mehmet DAL
Assistant Prof. Dr. Aybike KOCAKAYA
Learning Outcomes of the Course Unit
1) Describe the relation between charge, current, voltage, power and energy.
2) Apply basic laws to electrical circuits.
3) Solve electrical circuits using analysis methods and circuit theorems.
4) Analyse basic operational amplifier circuits.
5) Perform transient and steady state analyses of first order RL and RC circuits.
6) Interpret transient and steady state of basic operational amplifier circuits.
Program Competencies-Learning Outcomes Relation
| Program Competencies | |||||||||||||
| 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | ||
| Learning Outcomes | |||||||||||||
| 1 | Low | Low | Middle | No relation | Low | No relation | No relation | No relation | No relation | Middle | Low | Low | |
| 2 | Low | Low | Middle | No relation | Low | No relation | No relation | No relation | No relation | Middle | Low | Low | |
| 3 | Middle | Middle | Middle | No relation | Low | No relation | No relation | No relation | Low | Low | Low | Low | |
| 4 | Middle | Middle | High | No relation | Low | No relation | No relation | Low | Low | Low | Low | Middle | |
| 5 | Middle | Middle | High | No relation | Low | No relation | No relation | No relation | Low | Low | Low | Middle | |
| 6 | Middle | Middle | High | No relation | Low | No relation | No relation | No relation | Low | Low | Low | Middle | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
Not Required
Course Contents
This course covers; basic concepts (Charge and current, Voltage, power and energy, circuit elements), basic laws (Ohm’s Law, Nodes, branches and loops, Kirchhoff’s Law, series resistors and voltage division, paralel resistors and current division, Wye-delta transformations), analysis methods (nodal analysis, nodal analysis with voltege sources, Mesh analysis, Mesh analysis with current sources, Modal versus mesh analysis), Circuit theorems (Linearity property, Superposition, Source transformation, Thevenin’s theorem, Norton’s theorem, Maximum power transfer), Operational amplifiers (Operational amplifiers, Ideal Op Amp, inverting Amplifier, Noninverting amplifier,summing amplifier, difference amplifier, Cascade Op amp circuits, Op amp circuit analysis), capacitor and inductor (capacitors, series and parallel capacitors, inductors, series and parallel inductors), first order circuits (the source-free RC circuit, the source-free RL circuit, singularity functions, step response of an RC circuit, step response of an RL circuit, first order Op amp circuits).
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Contribution of Semester Studies to Course Grade |
60% |
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Contribution of Final Examination to Course Grade |
40% |
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Total | 100% | |||||||||||
Language of Instruction
Turkish
Work Placement(s)
Not Required