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Course Information
Semester Course Code Course Title T+P+L Credit ECTS
3 05130303 Circuit Theory II 4+0+2 5 5
Course Details
Language : Turkish
Level : Bachelor's Degree
Department / Program : Electrical-Electronics Engineering
Mode of Delivery : Face to Face
Type : Compulsory
Objectives : The course aims to teach the elements and analysis of AC and DC circuits.
Content : Circuit variables. Circuit elements and mathematical models. Simple resistive circuits. Multi-terminal and multi-port algebraic components. Circuit analysis techniques. Reactive components. First and second order RLC circuits. Sinusoidal steady state analysis. Three-phase circuits. Laplace transform and its use in circuit analysis. Transfer function; gain and phase characteristics, filters. Fourier series and applications in circuit analysis.
Methods & Techniques : Lecture, Question and Answer, Laboratory Applications, Homework
Prerequisites and co-requisities : None
Course Coordinator : Associate Prof.Dr. Hulusi AÇIKGÖZ
Name of Lecturers : Asist Prof.Dr. Saim ERVURAL
Assistants : None
Work Placement(s) : No
Recommended or Required Reading
Resources : Elektrik Devrelerinin Temelleri Yazar: Charles K. Alexander ve Matthew N. O. Sadiku
Electric Circuits, Nilsson, J.W., Riedel, A., Prentice-Hall, (2000)
Semester : Three-phase circuits, Laplace transform and circuit analysis.
Fourier series and circuit analysis.
Phasor, Sinusoidal analysis.
Semester : Electric Circuits, Nilsson, J.W., Riedel, A., Prentice-Hall, (2000)
Course Category
Mathematics and Basic Sciences 10%
Engineering 50%
Engineering Design 40%
In-Term Study Informations
In-Term Studies Quantity Percentage
Mid-terms 1 30%
Practice 1 20%
Final examination 1 50%
Total 3 100%
Activity Informations
Activities Quantity Duration Total Work Load
Course Duration 14 3 42
Hours for off-the-c.r.stud 14 3 42
Mid-terms 1 15 15
Practice 2 8 16
Laboratory 2 10 20
Final examination 1 15 15
Total Work Load ECTS: 5 150
Course Learning Outcomes
Upon the successful completion of this course, students will be able to:
No Learning Outcomes
1 Know the basic measurement methods, sensors, amplifiers, transducers and other measurement components
2 Analyze the electrical circuits
3 Know the concept of Fourier Transform
4 Know the basic electrical knowledge
5 Know the Kirchoff and ohm laws
6 Know the Norton-Thevenin circuit analysis
7 Know the manufacturing process of basic electrical-electronics (computer simulation, bread-board design, choosing circuit component, soldering, etc…) and gain the experience in applications.
Weekly Detailed Course Contents
Week Topics
1 Circuit Variables
2 Circuit elements
3 Mathematical models of circuit elements
4 Simple resistance circuit
5 Multi-terminal and multi-port algebraic components
6 Circuit analysis techniques.
7 Reactive components
8 First order RLC circuits, Second order RLC circuits
9 Sinosoidal steady state analysis
10 Three-phase circuits
11 Laplace transform and its use in circuit analysis
12 Transfer function Gain and phase characteristics
13 Filters
14 Fourier series and applications in circuit analysis
Contribution of Learning Outcomes to Programme Outcomes
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