doc. Ing. Miloslav Steinbauer, Ph.D.

Department of Theoretical and Experimental Electrical Engineering (UTEE)

After completing the course student will be able to:
- Describe the properties of ideal and real circuit elements
- Involve simple tasks according to the specified schema
- Measure and discuss electric parameters in stationary circuits
- Define terms such as phasor, impedance
- Describe and explain the concepts of active, reactive and apparent power, power factor, efficiency.
- Apply circuit simulator for solving simple circuits,
- Analyze simple stationary circuits,
- Discuss the properties of magnetic materials ,
- Explain the basic principles of digital instruments and identify their parts,
- Calculate the behavior of simple RLC circuits during the transition,
- Calculate simple magnetic circuit.

The subject knowledge on the secondary school level is required. In the range of the used mathematical tools students should be able to: - editing mathematical expressions; - calculate the solution of simple linear equations ; - apply the basics of matrix calculus; - calculate the derivative, definite and indefinite integrals of simple linear functions of one variable and basic trigonometric functions.

Not applicable.

Not applicable.

DĚDKOVÁ, J.; STEINBAUER, M.; KALÁB, P. Elektrotechnický seminář. Brno: CERM Brno, 2009. s. 1-100. ISBN: 978-80-214-3841- 5. (CS)
BRANČÍK, L. Elektrotechnika 1. VUT v Brně: VUT v Brně, 2004. s. 1 ( s.) (CS)
SEDLÁČEK, J., VALSA, J. ELEKTROTECHNIKA II. Brno: VUT Brno , FEKT, 2004. s. 1 ( s.)ISBN: 80-214-2573- 3. (CS)
KALÁB, P.; STEINBAUER, M.; VESELÝ, M. Bezpečnost v elektrotechnice. Brno: Ing. Zdeněk Novotný, CSc, Ondráčkova 105, 628 00 Brno, 2009. s. 1-68. ISBN: 978-80-214-3952- 8. (CS)
BASTIAN, P. a kol. Praktická elektrotechnika. Europa-Sobotáles, Praha 2004 (CS)

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations. Form of teaching is combined - every lesson starts with lecture and is completed by numerical and/or laboratory practice. Course is taking advantage of eLearning (Moodle).

To obtain the examination is necessary to measure and evaluate the required number of labs and develop a specified number of computational examples.

Czech

Not applicable.

1) Administrative. Connecting of measuring devices. Introduction to electrical engineering
2) The generation, transmission and distribution of electrical energy. Three-phase system.
3) Ideal and real RLC circuit elements. Basic circuit laws. Resistance, current, voltage and power measurement.
4) Stationary steady state: a method of progressive simplification, voltage and current dividers, real power source.
5) Time variables: basic characteristics, harmonic analysis, spectrum.
6) Harmonic steady state: a symbolic analysis method for linear circuits, circuit laws in symbolic form, impedance, admittance.
7) Harmonic steady state: a method of progressive simplification, efficiency and power factor, phasor diagrams.
8) Harmonic steady state: laboratory course.
9) Simulation of electrical circuits. MicroCap.
10) Properties of passive linear circuits of order 1. and 2. Frequency filters, resonant circuits.
11) Transients in linear circuits of order 1. and 2. Classic method of solving.
12) Introduction to digital technology: basic concepts, converters A/D and D/A, digital measuring instruments
13) Magnetic circuits: basic parameters, the fundamental laws, magnetic circuits with permanent magnets, transformers, magnetic circuits solution.

The aim of the course is to acquaint students with basis of electrical engineering and to acquire basic principles of practical experimental realizations.

Attendance at laboratory classes is mandatory. Properly excused absences can be substituted, usually in the last week of the semester.

• Programme BTBIO-A Bachelor's

  branch A-BTB , 1. year of study, winter semester, 2 credits, general knowledge
  branch A-BTB , 2. year of study, winter semester, 2 credits, general knowledge
  

• Programme EEKR-CZV lifelong learning

  branch ET-CZV , 1. year of study, winter semester, 2 credits, general knowledge
  

13 hours, compulsory

Ing. Martin Čáp, Ph.D.
doc. Ing. Petr Drexler, Ph.D.
doc. Ing. Miloslav Steinbauer, Ph.D.

eLearning: currently opened course