13E072GTEK - Electric Circuit Theory

Course specification
Course title		Electric Circuit Theory
Acronym		13E072GTEK
Study programme		Electrical Engineering and Computing
Module		Power Engineering
Type of study		bachelor academic studies
Lecturer (for classes)		PhD Dejan Tošić asst. professor PhD Nikola Basta
Lecturer/Associate (for practice)		asst. Anja Kovačević, electrical and computer engineer asst. professor PhD Nikola Basta
Lecturer/Associate (for OTC)
ESPB		5.0	Status	mandatory
Condition		None.
The goal		Cover the fundamentals of electric circuit theory from the viewpoint of electrical power engineers and scientists. Provide the basis for analysis of models of electric power systems, converters, and drives, which are based on electric circuits. Introduce analog signal processing with electric circuits.
The outcome		Understand basic concepts and gain insight into physical processes described by electric circuits and the corresponding mathematical models. Solve linear circuits in the time and frequency domain. Identify, formulate and model problems, and find engineering solutions based on a circuit approach, in the fields of electric power systems, power converters, and electrical drives.
Contents
URL to the subject page		http://tek.etf.rs/
Contents of lectures		Electric element, circuit, and network. Circuit graph. Basic circuit elements. Differential-algebraic circuit equations and state-space equations. Convolution integral. DC (constant) and AC (sinusoidal) steady state. Phasor transform. Solving circuits in non-sinusoidal steady state by Fourier series. Resonance. Laplace transform. Three-phase circuits. Symmetrical components. Transmission lines.
Contents of exercises		Solving practical electric circuit problems by hand or software tools.
Literature
B. Reljin, Electric Circuit Theory I, Academic Mind, 2003. B. Reljin, Electric Circuit Theory II, Academic Mind, 2002. B. Reljin, Analysis of Three-Phase Electric Circuits, Academic Mind, 2004. M. Potrebić, D. Tošić, Collection of Exam Problems in Electric Circuit Theory, Academic Mind, 2012.
Number of hours per week during the semester/trimester/year
Lectures	Exercises	OTC	Study and Research	Other classes
3	2
Methods of teaching		Lectures, problem-solving classes.
Knowledge score (maximum points 100)
Pre obligations		Points	Final exam	Points
Activites during lectures		0	Test paper	50
Practical lessons		0	Oral examination	0
Projects
Colloquia		50
Seminars		0