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Lecturer(s)
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Schejbal Vladimír, prof. Ing. CSc.
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Course content
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Electromagnetic compatibility is studied from viewpoint of power, communication, signaling and information. Effects of power equipment in the RF areas. Characteristics of power lines and equipment at RF spectra. Laws and standards corresponding to EMC, EMS and EMI problems.
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Learning activities and teaching methods
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Methods of individual activities
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Learning outcomes
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Electromagnetic compatibility is studied from viewpoint of power, communication, signaling and information. Effects of power equipment in the RF areas. Characteristics of power lines and equipment at RF spectra. Laws and standards corresponding to EMC, EMS and EMI problems.
Electromagnetic compatibility is studied from viewpoint of power, communication, signaling and information. Effects of power equipment in the RF areas. Characteristics of power lines and equipment at RF spectra. Laws and standards corresponding to EMC, EMS and EMI problems.
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Prerequisites
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The basic knowledge of electromagnetics.
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Assessment methods and criteria
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Oral examination
Students should demonstrate understating of solved problems.
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Recommended literature
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http://ieeexplore.ieee.org/Xplore/dynhome.jsp.
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http://www.radioeng.cz/search.htm.
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BEZOUŠEK, P., SCHEJBAL, V., ŠEDIVÝ, P. Elektrotechnika.
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Markus Zahn. Electromagnetic Field Theory: A Problem Solving Approach. Massachusetts Institute of Technology: MIT OpenCourseWare.
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PAUL, C. R. Electromagnetics for engineers : with applications to digital systems and electromagnetic interference..
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PAUL, C. R. Introduction to electromagnetic compatibility. 2006.
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POZAR, D.M. Microwave engineering. Hoboken: John Wiley and Sons, 2005.
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Schejbal, Vladimír. Sbírka příkladů z elektrotechniky. 2012.
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Svačina, J. Základy elektromagnetické kompatibility,VUT Brno, 2001.. Brno: Vysoké učení technické, 2001.
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