Course Information

Course Title	Code	Semester	L+U Hour	Credits	ECTS
ALTERNATING CURRENT CIRCUIT ANALYSIS	EOB138	2. Semester	4 + 0	4.0	5.0

Prerequisites

None

Language of Instruction	Turkish
Course Level	Associate's Degree
Course Type	Compulsory
Mode of delivery
Course Coordinator
Instructors
Assistants
Goals	Knowledge and skills about the circuit drawings and calculations is to ensure that when the alternating current.
Course Content	Alternating current RL, RC, RLC analysis, power calculation, Thevenin equivalent, superposition theorem, Environmental Flows, node voltage, Thevenin and Norton Theorems , Three Phase Circuits
Learning Outcomes	1) Understand the general description of the alternating current. 2) Understanding complex numbers. 3) Phase of the display vector, R, L and C to understand the response of sinusoidal source. 4) Understanding the complex plane shown in the sinusoidal magnitude. 5) Understanding resonance. 6) Understanding three-phase circuits.

Weekly Topics (Content)

Week	Topics	Teaching and Learning Methods and Techniques	Study Materials
1. Week	The quantities used in AC circuits, Equations and Signal Analysis, forward phase and reverse phase	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
2. Week	Resistance, coil, capacitor, impedance, reactance, admittance, power and power coefficient in AC circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
3. Week	Series AC circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
4. Week	Parallel AC circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
5. Week	Series and Parallel Resonance Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
6. Week	Operations with Complex Numbers, Application of Complex Numbers to AC Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
7. Week	Perimeter Currents Method and Node Voltages Method in AC Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
8. Week	Thevenin's Theorem and Norton's Theorem in AC circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
9. Week	Superposition Theorem and Maximum Power Theorem in AC Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
10. Week	Circuit Solution with Star-Delta Theorem in AC Circuits and Complex Analysis of Power in AC Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
11. Week	Power Coefficient and Correction, Compensation Calculation	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
12. Week	Magnetically Coupled Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
13. Week	Three Phase Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)
14. Week	Three Phase Circuits	Lecture; Question Answer; Problem Solving Brainstorming Problem Based Learning	Presentation (Including Preparation Time)

Sources Used in This Course

Recommended Sources

Alternatif Akım Devreleri ve Devre Çözümleri, Mustafa YAĞIMLI, Feyzi AKAR, Beta Yayınları

Elektrik Devre Analizi 2, Prof.Dr.Şerafettin ÖZBEY, Seçkin Yayınları

Fundamentals Of Electric Circuits Matthew N.O. SADIKU

Relations with Education Attainment Program Course Competencies

Program Requirements	Contribution Level	DK1	DK2	DK3	DK4	DK5	DK6
PY1	5	0	0	0	0	0	0
PY2	5	0	0	0	0	0	0
PY3	5	0	0	0	0	0	0
PY4	5	0	0	0	0	0	0

*DK = Course's Contrubution.

	0	1	2	3	4	5
Level of contribution	None	Very Low	Low	Fair	High	Very High

ECTS credits and course workload

Event	Quantity	Duration (Hour)	Total Workload (Hour)
Course Duration (Total weeks*Hours per week)	14	4	56
Work Hour outside Classroom (Preparation, strengthening)	14	2	28
Homework	12	2	24
Midterm Exam	1	1	1
Time to prepare for Midterm Exam	1	12	12
Final Exam	1	1	1
Time to prepare for Final Exam	1	14	14
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course			30

Quick Access

Electronic Communication Technology
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Course Information

Course Information
Weekly Topics (Content)
Sources Used in This Course
Relations with Education Attainment Program Course Competencies
ECTS credits and course workload

Course Information

Course Information

Weekly Topics (Content)

Sources Used in This Course

Relations with Education Attainment Program Course Competencies

ECTS credits and course workload

Quick Access

Electronic Communication Technology Normal Education

Course Information

Electronic Communication Technology
Normal Education