Lecturer(s)
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Sodomka Ondřej, Ing.
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Pánek David, Doc. Ing. Ph.D.
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Mach František, Doc. Ing. Ph.D.
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Kotlan Václav, Doc. Ing. Ph.D.
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Benešová Zdeňka, Prof. Ing. CSc.
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Ledvinová Marcela, Ing. Ph.D.
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Karban Pavel, Prof. Ing. Ph.D.
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Koudela Lukáš, Ing. Ph.D.
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Hamar Roman, Ing. Ph.D.
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Šroubová Lenka, Ing. Ph.D.
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Polcar Petr, Ing. Ph.D.
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Nazarčík Tomáš, Ing.
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Petrášová Iveta, Ing. Ph.D.
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Pospíšil Karel, Ing.
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Kaska Jan, Ing.
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Course content
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Electrical circuits: Transient phenomena in the second and higher order circuits, formulation of a set of state equations, transient phenomena in circuits induced by time dependetn variables, use of Laplace's transformation to solve transient processes. Introduction to the theory of nonlinear circuits, characteristics of non-linear elements, static and dynamic parameters. Methods for analysis of nonlinear circuits. Phenomena on homogeneous transmission line. Theory of Electromagnetics fields Electrostatic field - calculation of distribution of local variables for simple symmetrical problems, potential, capacity. Current field - Joule's losses, calculation of resistance. Magnetic stationary field - calculation of distribution of local variables for simple symmetrical problems, inductance. Magnetic circuits.
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Learning activities and teaching methods
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Laboratory work, Lecture, Practicum
- Contact hours
- 52 hours per semester
- Preparation for formative assessments (2-20)
- 6 hours per semester
- Preparation for laboratory testing; outcome analysis (1-8)
- 6 hours per semester
- Undergraduate study programme term essay (20-40)
- 14 hours per semester
- Preparation for an examination (30-60)
- 30 hours per semester
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prerequisite |
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Knowledge |
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to explain and know to use the methods of the analysis of circuits with non-harmonic signals |
to explain the physics of the circuit dynamical behaviour |
to know the methods of the transient phenomena analysis |
to explain methods of analysis of steady state circuits |
Skills |
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to solve a system of linear equations |
to solve the systems of differential equations |
to use Laplace's transformation to solve differential equations |
to know the fundamentals of differential and integral calculus |
to solve simple nonlinear algebraic equations |
Competences |
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N/A |
N/A |
N/A |
N/A |
learning outcomes |
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Knowledge |
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to explain methods for dealing with transient phenomena of higher order |
to explain methods for solution of nonlinear circuit analysis |
to describe the basic properties of the stationary electromagnetic field |
to describe the physical nature of electromagnetic phenomena |
to explain the method of direct integration of Maxwell equations |
Skills |
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to perform a computer simulation of solutions of transient phenomena of higher order |
to analyze symmetric fields and magnetic circuits |
to formulate equations for resolving transient phenomena of higher order |
to formulate equations describing nonlinear circuits |
Competences |
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N/A |
N/A |
teaching methods |
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Knowledge |
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Lecture supplemented with a discussion |
Practicum |
Self-study of literature |
Skills |
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Practicum |
Laboratory work |
Competences |
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Lecture supplemented with a discussion |
Practicum |
Laboratory work |
assessment methods |
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Knowledge |
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Combined exam |
Test |
Seminar work |
Individual presentation at a seminar |
Skills |
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Combined exam |
Seminar work |
Individual presentation at a seminar |
Test |
Competences |
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Test |
Combined exam |
Recommended literature
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Přednášky z předmětu.
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Benešová, Zdeňka; Ledvinová, Marcela. Základy elektrických obvodů v příkladech. 1. vyd. V Plzni : Západočeská univerzita, 2008. ISBN 978-80-7043-640-0.
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Benešová, Zdeňka; Mayer, Daniel. Základní příklady z teorie elektromagnetického pole. Plzeň : Západočeská univerzita, 2008. ISBN 978-80-7043-737-7.
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Mayer, Daniel. Teorie elektromagnetického pole. Plzeň : Západočeská univerzita, 2004. ISBN 80-7082-826-9.
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Mayer, Daniel. Úvod do teorie elektrických obvodů. Praha : SNTL, 1981.
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