450-6005/01 – EMC in Electronic Measurement and Equipment (EMC)

Gurantor departmentDepartment of Cybernetics and Biomedical EngineeringCredits10
Subject guarantorprof. Ing. Petr Bilík, Ph.D.Subject version guarantorprof. Ing. Petr Bilík, Ph.D.
Study levelpostgraduateRequirementChoice-compulsory
YearSemesterwinter + summer
Study languageCzech
Year of introduction2010/2011Year of cancellation
Intended for the facultiesFEI, HGFIntended for study typesDoctoral
Instruction secured by
LoginNameTuitorTeacher giving lectures
BIL45 prof. Ing. Petr Bilík, Ph.D.
Extent of instruction for forms of study
Form of studyWay of compl.Extent
Full-time Examination 28+0
Part-time Examination 28+0

Subject aims expressed by acquired skills and competences

The aim of the course electromagnetic compatibility of electronic measurement instruments and is: -To acquaint students with problems related to compliance with the principles, standards and regulations to ensure the electromagnetic compatibility -To obtain basic information about methods to achieve electromagnetic compatibility and how to measure it.

Teaching methods

Lectures
Individual consultations
Project work

Summary

An increasing number of electronic devices, along with the expansion of all types of radiocommunication services, result in the occurrence and undesirable effects of various types of interfering electromagnetic signals. These signals make it difficult or sometimes impossible not only to operate the ambient sensitive receivers, but they can substantially affect any electronic device. Mutual functional coexistence of various types of electrical equipment is therefore the basic reason for increasing interest in the EMC. With a massive increase in wireless technology in connection with Industry 4.0 (Cyber-Physical Systems) and IoT trends, it is absolutely essential to maintain the functionality and security of data transmission so that all components meet EMC requirements. Failure to comply with these parameters may result in communication mallfunction between components, loss of data etc.

Compulsory literature:

Clayton R. Paul, Robert C. Scully, Mark A. Steffka. Introduction to electromagnetic compatibility, 3rd edition. Willey, 2022. ISBN 978-1-119-40434-7. Adamczyk B., Principles of Electromagnetic Compatibility: Laboratory Exercises and Lectures, Willey, 2023. ISBN: 978-1-119-71873-4 ARMSTRONG, Keith. EMC design techniques for electronic engineers. Bodmin: Armstrong/Nutwood, 2010. ISBN: 978-0-9555118-4-4. SCHMITT, Ron. Electromagnetics explained: a handbook for wireless/RF, EMC, and high-speed electronics. EDN series for design engineers. Amsterdam: Newnes, 2002. ISBN 9780750674034.

Recommended literature:

DUFF, William G. Designing electronic systems for EMC. Raleigh, NC: SciTech Pub., c2011. ISBN 1891121421. WILLIAMS, Tim. EMC for product designers. 4th ed. Amsterdam: Newnes, 2007. ISBN 0750681705. KODALI, P. W. Engineering Electromagnetic Compatibility: Principles, Measurements, Technologies, and Computer Models, 2nd Edition, Wiley-IEEE Press 2001. ISBN: 978-0-780-34743-4 OTT, Henry W. Electromagnetic compatibility engineering. Hoboken: Wiley, c2009. ISBN 978-0-470-18930-6.

Additional study materials

Way of continuous check of knowledge in the course of semester

Based on the schedule prepared by the study, with continuous production of each task.

E-learning

Other requirements

There are not defined other requirements for the student

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

Students in this course introduces the prospective field, electromagnetic compatibility which in recent years is beginning to be, with many practical application, particularly with regard to the global trend to non operation of the equipment, inadequate to the relevant standards. The course is devoted to particular areas: 1. EMCsharing issues 2. Source interference 3. Testing methodology for EMC 4. Measuring equipment for EMC, methodology, measurement protocols 5. Add-on devices for measurement and control 6. Selected applications in electronic devices, 7. Standardization of EMC.

Conditions for subject completion

Part-time form (validity from: 2013/2014 Winter semester)
Task nameType of taskMax. number of points
(act. for subtasks)
Min. number of pointsMax. počet pokusů
Examination Examination   3
Mandatory attendence participation:

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Conditions for subject completion and attendance at the exercises within ISP:

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2022/2023 (P0714D150001) Cybernetics P Czech Ostrava Choice-compulsory type B study plan
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2021/2022 (P0714D150001) Cybernetics K Czech Ostrava Choice-compulsory type B study plan
2021/2022 (P0714D150001) Cybernetics P Czech Ostrava Choice-compulsory type B study plan
2021/2022 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2021/2022 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2020/2021 (P0714D150001) Cybernetics P Czech Ostrava Choice-compulsory type B study plan
2020/2021 (P0714D150001) Cybernetics K Czech Ostrava Choice-compulsory type B study plan
2020/2021 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2020/2021 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2019/2020 (P0714D150001) Cybernetics P Czech Ostrava Choice-compulsory type B study plan
2019/2020 (P0714D150001) Cybernetics K Czech Ostrava Choice-compulsory type B study plan
2019/2020 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2019/2020 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2018/2019 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2018/2019 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2017/2018 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2017/2018 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2016/2017 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2016/2017 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2015/2016 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2015/2016 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2014/2015 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2014/2015 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2013/2014 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2013/2014 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2012/2013 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
2012/2013 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan
2011/2012 (P2649) Electrical Engineering (2612V045) Technical Cybernetics P Czech Ostrava Choice-compulsory study plan
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2010/2011 (P2649) Electrical Engineering (2612V045) Technical Cybernetics K Czech Ostrava Choice-compulsory study plan

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