Czech

Not applicable.

English language knowledge on pre-intermediate level are required. In the range of the used mathematics student should be able to:
- editing of the mathematical expressions;
- explain the procedure of mathematical function examination in order to find extremes;
- calculate the solution of simple linear equations;
- apply the basics of matrix calculus;
- describe the characteristics of basic trigonometric functions;
- calculate the derivative, definite and indefinite integrals of simple linear functions of one variable and basic trigonometric functions.

Total number of points is 100. During the semester, the student may obtain up to 40 points for 4 written tests, each 10 points. Tests are carried out on seminars and always consist of examples and theoretical questions.
The requirement for examination obtaining is the completed measurement of all laboratory tasks, elaborated computational exercises and to obtain minimally 15 points from written tests. Moreover, subject to the successful completion of the course is to pass the final exam. The total number of points achieved for completion of the course must be at least 50.
The tests and final exam verify students’ orientation in the problems of the foundations of analysis of electric and magnetic circuits, knowledge of technical terminology and the ability to describe in their own words the topics covered in the course. Test assignments, laboratory exercises, final exams are in the English language.
Participation in seminars (laboratory and computational exercises) is required. Properly excused absences can be substituted, usually in the last week of the semester.

The course develops the basic knowledge of electrical engineering principles and basic circuit theory, as well as related English terminology. The course prepares the students for taking part in specialized courses in electrical engineering. The seminars extend and improve theoretical knowledge, laboratory measurements help to verify the theory in a practical way.
After completion of the course (lectures and computer exercises) student will be able to:
- mathematically express relations between circuit quantities for basic passive and active circuit elements and to define their models;
- apply the basic analysis methods of linear circuits in stationary steady;
- calculate the characteristic parameters of time-varying signals and to describe the principle of harmonic analysis of signals;
- define phasor quantities in circuits in harmonic steady state and to define immittance parameters of basic circuit elements;
- apply symbolic method for analysis of linear circuits in harmonic steady state;
- list the fundamental variables and the laws of magnetic circuits and to calculate the parameters of magnetic circuit by their utilization;
- describe the parameters of transmission lines and explain the importance of secondary line parameters.
In terms of language skills, students will be able to describe the above knowledge in English and will be equipped with the appropriate technical terminology.

Not applicable.

Not applicable.

BRANČÍK, L. Elektrotechnika 1. VUT v Brně: VUT v Brně, 2004. s. 1-160. ISBN: TEE102. (CS)
Electronics Fundamentals: Circuit, Devices and Applications. Merril Publishing Company, USA: 1997. ISBN-13 978-0675213103. (EN)
FLOYD, Thomas L. a David M. BUCHLA. Electronics fundamentals: circuits, devices and applications. Eighth edition, Pearson New International edition. Harlow: Pearson, [2014?]. ISBN 9781292025681. (CS)
SEDLÁČEK, J., VALSA, J. ELEKTROTECHNIKA II. Brno: VUT Brno, FEKT, 2004. s. 1-145. ISBN: 80-214-2573-3. (CS)

DĚDKOVÁ, J., STEINBAUER, M., KALÁB, P. Elektrotechnický seminář. Skripta. Brno, 2009. (CS)