| Course Title | Code | Semester | L+U Hour | Credits | ECTS |
|---|---|---|---|---|---|
| Electrical Circuit Fundamentals | CE107 | 1. Semester | 3 + 0 | 3.0 | 4.0 |
| Prerequisites | None |
| Language of Instruction | Turkish |
| Course Level | Undergraduate |
| Course Type | |
| Mode of delivery | Face to Face Lectures |
| Course Coordinator |
Assist. Prof. Dr. Pınar Deniz TOSUN Assist. Prof. Dr. Ekrem BAŞER |
| Instructors |
Ekrem BAŞER |
| Assistants | |
| Goals | Generating ideas and developing solutions for the electrical problems that may arise in computers and peripherals at various stages of the student's education and business life, creating a theoretical infrastructure for courses and scientific studies in the field of computer hardware such as electronics and digital electronics. |
| Course Content | Electrical concepts, resistance, current, voltage, power, energy. Electrical circuit and its components, definitions, source transformation. Series, Parallel Resistor Circuits and Kirchhoff's Laws. Series-parallel (mixed) circuits. Matrix and Determinant. Mesh Analysis Method, Node Analysis Method, Wheatstone Bridge Circuit, Star-Triangle (Y-Δ ) and Triangle-Star( Δ-Y) Transformation. Superposition principle. Thevenin, Norton's Theorem. Maximum Power Transfer, Millman, Reciprocity and Linearity Theorem. Capacitor (Capacitor) and Inductor. DC Circuits with Inductor and Capacitor. Operational Amplifiers (OPAMPs) in Direct Current Circuits. |
| Learning Outcomes |
| Week | Topics | Learning Methods |
|---|---|---|
| 1. Week | Electrical concepts, current, voltage, power, energy | |
| 2. Week | Electric circuit, elements, definitions, soruce conversion | |
| 3. Week | Series, Parallel Resistor Circuits and Kirchhoff Laws | |
| 4. Week | Series-parallel (mixed) circuits | |
| 5. Week | Matrix and Determinant Mesh Analysis Method | |
| 6. Week | Node Analysis Method, Wheatstone Bridge Circuit, Star-Delta (Y-Δ ), Delta-Star ( Δ Y) Conversion | |
| 7. Week | Superposition principle | |
| 8. Week | Thevenin, Norton Theorem | |
| 9. Week | Norton Theorem, Maximum Power Transformation | |
| 10. Week | Millman, Contrast and Linearity | |
| 11. Week | Capacitor | |
| 12. Week | Inductor | |
| 13. Week | Direct Current Circuits with Inductors and Capacitors | |
| 14. Week | Operational Amplifiers (OPAMP) in Direct Current Circuits |
| Fundamentals of electric circuits. McGraw-Hill Higher Education, Charles K. Alexander ve Matthew N. O. Sadiku, 2017 |
| Basic Engineering Circuit Analysis, Wiley Publishing, Irwin, J. David, and R. Mark Nelms, 2008 |
| Circuit analysis: Theory and practice. Cengage Learning, Robbins, Allan H., and Wilhelm Miller, 2012. |
| Doğru Akım Devreleri & Problem Çözümleri,2. Baskı, Beta Yayınevi, Mustafa Yağımlı, Feyzi Akar, 2010. |
| Introductory circuit analysis, Boylestad, Robert L. Pearson Education, 2013. |
