School of Engineering \ Electrical and Electronics Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Mechanical Engineering Bachelor's Degree Program
In this course, fundamental concepts of AC and DC electrical circuits, basic circuit theorems, circuit analysis techniques, first order RL and RC circuits and the subjects reltaed to electrical engineering (semiconductor diodes and transistors, basic logic circuits, operational amplifiers, electrical machines) are treated.
Textbook and / or References
1. Fundamentals of Electric Circuits by C. K. Alexander, M.N.O. Sadiku (Ders Kitabı)
2. The Analysis&Design of Linear Circuits, Roland E. Thomas & Albert J. Rosa, Wiley
3. Microelectronics: Circuit Analysis and Design, D. A. Neamen. (Herhangi bir baskısı)
4. M. M. Mano and M. D. Ciletti, Digital design, Pearson Education
5. Devre Analizi 1, Mehmet Önder Efe, Seçkin Yayıncılık
6. Devre Analizi 2, Mehmet Önder Efe, Seçkin Yayıncılık
7. J.W. Nilsson, Susan A. Riedl, Electric Circuits, Prentice Hall, 2011 ISBN 0-13-705051-8.
8. J.R. Cogdell, Foundations of Electrical Engineering, Prentice Hall, 1999, ISBN 0-13-092701-5
Learning the fundamentals of analogue and digital telecommunication.
1. Teaching basic principles of Electrical and Electronics Engineering.
2. Teaching basic concepts related to the utilization of electrical energy.
3. Teaching basic electrical and electronic circuit components.
4. Teaching a general background of Electrical and Electronics Engineering, which may be beneficial for interdisciplinary studies, projects and systems.
Week 1: Basic Circuit Theory: Electrical definitions and units. Kirchhoff's current and voltage laws. (4 hours)
Week 2: DC Circuit Analysis: Superposition principle. Thevenin and Norton equivalent circuits. Source transformations. Node-voltage analysis. Loop-current analysis. Energy and power concepts
Week 3: Dynamic DC Circuit Analysis: Capacitor, Inductor; 1st Order RL and RC transition circuits
Week 4: AC Circuit Analysis: Introduction to alternating current (AC), Frequency, amplitude, phase concepts. RL, RC and RLC circuits.
Week 5: AC Power and Energy
Week 6: Conductivity, doping in semiconductors. p and n type semiconductors; PN Diode, Zener diode and, Rectifier Circuits
Week 7: Bipolar (BJT) transistors; Basic transistor circuits (BJT), Transistor small signal amplifier, Field effect transistors.
Week 8: Transistor applications, Use of Transistor in Logic circuits
Week 9: Analog Electronics, Operational amplifiers, Operational amplifier applications
Week 10: Introduction to electromechanics and motors, Direct current and alternating current motors
Week 11: -
Week 12: -
Tentative Assesment Methods
• Midterm 35 %
• Quiz 5 %
• Project 15 % (Bonus)
• Homework 15 %
• Participation 5 %
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Program Outcome
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Course Outcome
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B
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B
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B
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| 4 |
B
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