Detail předmětu

Electrical Engineering 1

FEKT-BPA-EL1Ak. rok: 2025/2026

The course covers the fundamentals of electrical engineering, with a particular focus on electrical circuit theory. The introduction to the course covers universal and special methods of analyzing linear circuits in a steady state. In the next part, students will learn about the description and classification of time-varying quantities. This is followed by an introduction to the theory of nonlinear circuit analysis using graphical and numerical methods. The next part of the course focuses on magnetic circuits, their description, and basic methods of solution, including circuits with permanent magnets. An important part of the course consists of laboratory and computational exercises, in which students practice applying the theoretical knowledge they have acquired.

Jazyk výuky

angličtina

Počet kreditů

Garant předmětu

doc. Ing. Petr Drexler, Ph.D.

Zajišťuje ústav

Ústav teoretické a experimentální elektrotechniky (UTEE)

Nabízen zahraničním studentům

Všech fakult

Vstupní znalosti

High school level knowledge is required. In terms of the mathematical apparatus used, students should be able to:
- modify mathematical expressions at the high school level;
- explain the procedure for examining the course of a function to find extrema;
- calculate the solution to a system of simple linear equations;
- apply basic matrix operations;
- describe the graphs of basic trigonometric functions;
- calculate the derivative, definite and indefinite integrals of simple linear functions of one variable and basic trigonometric functions.
Work in the laboratory is subject to valid "trained person" certification, which students must obtain before the start of classes. Information on this certification is provided in the Dean's Directive on Familiarizing Students with Safety Regulations.

Pravidla hodnocení a ukončení předmětu

The total evaluaion of the course is max. 100 points. Of this, a total of 25 points are for written tests in exercises, 5 points are for a test on laboratory tasks, and 70 points are for the final written exam. The condition for obtaining credit is the measurement and processing of assigned laboratory tasks and obtaining at least 15 points from the tests. The condition for successful completion of the course is obtaining credit and passing the final exam. The total number of points required to pass the course must be at least 50.
Attendance at laboratory classes is mandatory. Properly excused missed classes can be made up after consultation with the instructor, usually during the credit week.

Učební cíle

The aim of the course is to provide basic knowledge of electrical engineering and circuit theory necessary as a broader scientific basis for further study. The course prepares students for study in the following courses of electrical engineering specializations.
After completing the course, students will be able to:
- describe the properties of electrical circuit elements and their models,
- apply basic circuit laws in the analysis of electrical circuits,
- analyze linear and nonlinear non-inertial electrical circuits,
- interpret quantities in electrical circuits,
- calculate characteristic values of time-varying voltage and current waveforms.

Základní literatura

Irwin, J. D., Wu, C. H. (1999). Basic engineering circuit analysis. New York: Wiley. (EN)
Mayergoyz, I. D., Lawson, W. (2012). Basic electric circuit theory. Gulf Professional Publishing. (EN)
Mulukutla S. S. (2001) Introduction to Electrical Engineering.Oxford University Press. (EN)

Doporučená literatura

Jiles, D. (2015). Introduction to magnetism and magnetic materials. CRC press. (EN)
Nagsarkar, T.K., M.S Sukhija (2011) Basic electrical engineering. Oxford University Press. (EN)

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Zařazení předmětu ve studijních plánech

Program BPA-ELE bakalářský
specializace BPA-ECT , 1 ročník, zimní semestr, povinný
specializace BPA-PSA , 1 ročník, zimní semestr, povinný

Typ (způsob) výuky

Přednáška

26 hod., nepovinná

Vyučující / Lektor

doc. Ing. Petr Drexler, Ph.D.

Osnova

1. Introduction to electrical engineering.
2. Maxwell equations, laws of electric circuits.
3. Passive and active circuit elements, models.
4. Special methods of analyze of electric circuits (simplification method, superposition, transfiguration, method of source substitution), work and power of electric energy, power matching.
5. Universal methods of analyze of electric circuits (Kirchhoff’s laws, current loops method).
6. Node voltages method, modified node voltages method.
7. Method of source substitution (Thèvenin and Norton theorems).
8. Time variables (classification, characteristic values: maximal, average, rms).
9. Nonlinear circuits - approximation of characteristics of components.
10. Analysis of nonlinear circuits - analytic, graphical, and numerical solution.
11. Magnetic circuits (basic variables and laws, analogy between magnetic and electric circuit, induction, analysis and synthesis of magnetic circuits with coil).
12. Circuits with permanent magnet, force of electromagnet, transformers.

Laboratorní cvičení

13 hod., povinná

Vyučující / Lektor

Ing. Karel Juřík

Osnova

1. Determination of parameters of real source of the electrical energy 2. Kirchhoff’s laws and method of proportional quantities 3. Substitute source method 4. Node voltages method 5. Superposition principle 6. Electrical power transfer 7. Magnetic field in air gap 8. Properties of linear and nonlinear circuit elements

Cvičení odborného základu

13 hod., povinná

Vyučující / Lektor

Ing. Karel Juřík

Osnova

1. Recapitulation of mathematics for electrical engineering
2. Introduction to safety in electrical engineering
3. Basic circuit laws, simplification method
4. Method of Kirchhoff’s equations, current loops method
5. Node voltages method
6. Introduction into circuit analysis simulation software
7. Stamp method
8. Thévenin's and Norton's theorem
9. Non-stationary electrical quantities
10. Non-linear circuits and their analysis
11. Magnetic circuits

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