Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits
4	EEM 202	Circuit Theory II	4+0+0	4	5

Course Details

Language of Instruction	Turkish
Level of Course Unit	Bachelor's Degree
Department / Program	Electrical and Electronics Engineering
Mode of Delivery	Face to Face
Type of Course Unit	Elective
Objectives of the Course	With the start of RC and RL circuits analysis in Circuit theory I, teaching of AC sources and their analysis. Introduction to filter analysis and filter design
Course Content	Sinusoidal steady-state analysis, Sinusoidal steady-state power calculations, Mutual inductance, Active filter circuits, Laplace transform in circuit analysis
Course Methods and Techniques
Prerequisites and co-requisities	( EEM 203 or EEM 219 )
Course Coordinator	Associate Prof.Dr. Süleyman Bilgin
Name of Lecturers	Associate Prof.Dr. SÜLEYMAN BİLGİN
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources	1. Nilsson, J.W., Riedel, A.R., "Electric Circuits", Addison-Wesley. 2. Johnson, D., E., Johnson, J. R., Hilburn, J.L., " Electric Circuit Analysis", Prentice-Hall. 3. Hayt, W.H.," Engineering Circuit Analysis", M.C. Graw Hill.
	1. Nilsson, J.W., Riedel, A.R., "Electric Circuits", Addison-Wesley. 2. Johnson, D., E., Johnson, J. R., Hilburn, J.L., " Electric Circuit Analysis", Prentice-Hall. 3. Hayt, W.H.," Engineering Circuit Analysis", M.C. Graw Hill. 4. Alexander, Charles K., and Matthew N. O. Sadiku. Fundamentals of Electric Circuits. Boston: McGraw-Hill Higher Education, 2007.

Course Category

Mathematics and Basic Sciences	%40
Engineering	%40
Engineering Design	%20

Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Course Duration	14	4	56
Hours for off-the-c.r.stud	14	5	70
Final examination	1	10	10
Total Work Load			Number of ECTS Credits 5 136

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Understand time-domain analysis of electrics circuits
2	Learn to model and analyze dynamic circuits containing capacitors and inductors as well as resistors using Laplace transform and complex space.
3	To teach the concept of transfer function and to find the output of electrical circuits by convolutional integral
4	Gains the ability to analyze, solve and design filter circuits and learn to draw Bode diagrams of filter circuits.
5	To teach how to design active filter circuits using operational amplifiers.

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	Sinusoidal steady-state analysis
2	Kirchoff Laws in Sinusoidal steady-state analysis
3	Node Analysis and Mesh Analysis in AC Circuits
4	Circuit Methods in Sinusoidal steady-state.
5	Thevenin ve Norton Theorems in AC Circuits
6	Power Analysis in AC Circuits
7	Maximum Power Transfer
8	Magnetically Coupled Circuits
9	Transformers
10	Midterm Exams
11	Frequency Response in Circuit Analysis
12	Series and Parallel Resonance
13	Passive Filter Circuits
14	Active Filter Circuits
15	Bode Diagrams

Contribution of Learning Outcomes to Programme Outcomes

bbb

https://obs.akdeniz.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=2429228&lang=en