Information Package / Course Catalogue - Adnan Menderes University

General Information Unit Staff Academic Information Programme Outcomes Course Structure Diagram Contact Information

Person Responsible for Information Package

Lec. İsmail YARİÇİ

Circuit Theory II

Course Code	: EE202
Course Type	: Required
Couse Group	: First Cycle (Bachelor's Degree)
Education Language	: English
Work Placement	: N/A

Theory	: 3
Prt.	: 0
Credit	: 3
Lab	: 0
ECTS	: 4

Objectives of the Course

This course aims to teach students the basic principles of analysis of electrical circuits in the phasor and complex frequency domains and the basic concepts of alternating current (AC) circuits.

Course Content

Laplace transform, frequency selective circuits, active filter circuits, Diodes and diode circuits, rectifiers, Phasor concept and phasor representation, Sinusoidal steady-state analysis, Power concept, different power definitions and calculations.

Name of Lecturer(s)

Assoc. Prof. Coşkun DENİZ

Learning Outcomes

1.	To learn basic concepts of sinusoidal steady-state analysis
2.	To gain the ability of mathematical modelling
3.	To learn the tools and techniques to analyze the electric circuits in phasor domain and frequency domain
4.	To get familiar with the three-phase electric circuits and power concept
5.	To develop problem solving skills

Recommended or Required Reading

1.	Electric Circuits: James W. Nilsson-Susan Riedel. Publisher: Pearson Education

Weekly Detailed Course Contents

Week 1 - Theoretical

Introduction to Laplace Transform

Week 2 - Theoretical

Laplace Transform in Circuit Analysis

Week 3 - Theoretical

Introduction to Frequency Selective Circuits: Low-Pass, High-Pass, Band-pass and Band-reject Filters,

Week 4 - Theoretical

Active Filter Circuits, Introduction to Fourier Series

Week 5 - Theoretical

Diode as a circuit element, Diode i-v characteristics, and Diode circuits

Week 6 - Theoretical

Rectifiers, Half-wave Rectifier, Full-wave Rectifier

Week 7 - Theoretical

Phasor concepts, phasor operations

Week 8 - Theoretical

Sinusoidal Steady-State Analysis

Week 9 - Theoretical

Passive Circuit Elements and Kirchhoff's Laws in the Frequency Domain

Week 10 - Theoretical

Series, Parallel, and Delta-to-Wye Simplifications

Week 11 - Theoretical

Source Transformations and Thevenin-Norton Eqv. Circuits

Week 12 - Theoretical

Node-Voltage, Mesh-Current methods and Transformers

Week 13 - Theoretical

Sinusoidal steady state power concept: Instantaneous Power, Average and Reactive Power, The RMS Value and Power Calculations

Week 14 - Theoretical

Complex power and Power Calculations, Maximum Power Transfer

Assessment Methods and Criteria

Type of Assessment	Count	Percent
Midterm Examination	1	%30
Final Examination	1	%50
Assignment	5	%20

Workload Calculation

Activities	Count	Preparation	Time	Total Work Load (hours)
Lecture - Theory	14	1	3	56
Assignment	5	3	2	25
Midterm Examination	1	8	2	10
Final Examination	1	10	2	12
TOTAL WORKLOAD (hours)				103

Contribution of Learning Outcomes to Programme Outcomes

	PÇ-1	PÇ-2	PÇ-3	PÇ-4	PÇ-5	PÇ-6	PÇ-7	PÇ-8	PÇ-9	PÇ-10	PÇ-11
OÇ-1	2	2	2	4	2	1	2	2	1	1	1
OÇ-2	4	4	3	4	2	1	2	2	4	1	1
OÇ-3	4	4	2	5	2	1	2	2	2	1	1
OÇ-4	2	2	2	3	2	1	2	2	2	1	1
OÇ-5	4	4	3	4	3	1	2	2	4	1	1

Person Responsible for Information Package

Lec. İsmail YARİÇİ