Course Code : EEE 202
Level : Undergraduate
Status : Compulsory
Instructor :
COURSE DESCRIPTION
COURSE OBJECTIVES
COURSE CONTENTS
Course Title : CIRCUIT THEORY II
Year : II
Semester : III
Hours/Week : 4
Sinosoidal steady-state analysis. Three-phase circuits. Laplace
analysis. Transfer function; gain and phase characteristics,
applications to circuit analysis.
Sinosoidal steady-state analysis. Three-phase circuits. Laplace
analysis. Transfer function; gain and phase characteristics,
applications to circuit analysis
 Sinodoidal steady-state analysis
 Sinodoidal steady-state power calculations
 Three Phase Circuits
 Laplace Transform
 Frequency Selective Circuits
 Active Filters
 Fourier Series
 Two-port Circuits
ECTS Credits : 4
Total Hours : 60
transform and its use in circuit
filters. Fourier series and its
transform and its use in circuit
filters. Fourier series and its
TEACHING/ASSESSMENT
Description
1. Interactive lectures and communications with
Teaching Methods
students
2. Tutorials
Description(%)
Student Assessment Methods Homework
15%
Quizes
15%
Midterm Examination
30%
Final Examination
40%
Learning Outcomes
 Evaluate basic theories, processes and outcomes of computing;
 Apply theory, techniques and relevant tools to the specification, analysis, design,
implementation and testing of a simple computing product;
 Knowledge and critical understanding of the well-established principles of computing,
and of the way in which those principles have developed as technology has
progressed
 Knowledge of all of the main development methods relevant to the field of computing,
and ability to evaluate critically the appropriateness of different approaches to solving
problems in the field of study
Language of Instruction
English
Textbook(s)
1) Electric Circuits, 7-th Edition, by J. W. Nilsson, S. A. Riedel, Prentice-Hall, 2001.
2) M. Kušljugić, M. Hajro: Analiza električnih kola u vremenskom domenu, Univerzitet u
Tuzli, 2005.
3) S. Milojković: Teorija električnih kola, Svjetlost Sarajevo, 1989.