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Lecturer(s)
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Course content
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1. Regulations of the EMC, EMI and EMS, types of the EMC standards 2. Industrial sources of the interference, causes of the origin and consequence of the non-compliance the EMC regulations 3. Types of the system interconnections, capacitive, inductive, Galvanic coupling, interference from the electrical network and suppression 4. Wave propagation over long lines, line adaptation, Smith impedance diagram 5. EMC of power electronic systems and their parts 6. Electromagnetic coupling (Maxwell's equations, their solution in various environments, solutions for harmonic waveforms with the help of phasors, description of the environment in terms of radio wave propagation), radio communication equations 7. Wave propagation in space, multipath propagation, the influence of the atmosphere on attenuation and delay, the elimination of the influence of electromagnetic coupling 8. Frequency planning, standards for radio links, reserved frequencies 9. Laboratory instruments for measuring electromagnetic compatibility (Peak detector, selective voltmeter,) 10. Workplace for measuring electromagnetic compatibility (artificial network, anti-reflection chamber, ...), interference factors 11. Measurement of electromagnetic interference (procedures, conditions for measurement, ...), targeted interference of systems (navigation, communication, ...) and detection of sources of interference, testing of systems on EMS, electromagnetic immunity and EMI protection 12. EMC Ultra Broadband Devices (UWB)
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Learning activities and teaching methods
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Monologic (reading, lecture, briefing), Dialogic (discussion, interview, brainstorming), Laboratory work
- Home preparation for classes
- 28 hours per semester
- Participation in classes
- 52 hours per semester
- Preparation for an exam
- 40 hours per semester
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Learning outcomes
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The course expands the student's knowledge in the areas of EMC standards, industrial sources of interference and the types of couplings through which interference is transferred. In addition, students get acquainted with selected chapters of electromagnetic field theory. Emphasis is also placed on the analysis of galvanic, capacitive, inductive and radiation (electromagnetic field) coupling. Subsequently, students get acquainted with frequency planning and laboratories for electromagnetic compatibility measurement. In the last part of the course, the testing of the electromagnetic susceptibility of systems, improving their resistance to interference and ways to the interference elimination will be introduced to students. The course is extended by the interpretation overvoltage protection, of interference factors and EMC in the case of UWB.
The students will get the skills to define and modify the electro-magnetic susceptibility, and measure the susceptibility and interference.
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Prerequisites
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The prerequisite for the completing of the course is the ability of the analytical thinking and the basic awareness of the electrical circuits.
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Assessment methods and criteria
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Oral examination, Written examination
Credit requirements: Student must attend the exercises and submit the protocols from the practical lessons. Exam requirements: The subject exam is written and oral (2 questions from the question list based on the theoretical lessons).
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Recommended literature
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Kaiser, K. L. Electromagnetic compatibility handbook. Boca Raton: CRC Press, 2005. ISBN 0-8493-2087-9.
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Ott, H. W. Electromagnetic compatibility engineering. Rev. ed. Hoboken: John Wiley, 2009. ISBN 978-0-470-18930-6.
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Paul, C. R. Introduction to electromagnetic compatibility. 2nd ed.. Wiley series in microwave and optical engineering. Hoboken: John Wiley, 2006. ISBN 0-471-75500-1.
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Rejfek, L. Elektronická opora k předmětu: Electromagnetic compatibility and Measurement. 2024.
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