SylabUZ
| Course name | Electromagnetic compatibility |
| Course ID | 06.2-WE-AutP-ElecComp-Er |
| Faculty | Faculty of Computer Science, Electrical Engineering and Automatics |
| Field of study | WIEiA - oferta ERASMUS / Automatic Control and Robotics |
| Education profile | - |
| Level of studies | First-cycle Erasmus programme |
| Beginning semester | winter term 2018/2019 |
| Semester | 6 |
| ECTS credits to win | 4 |
| Course type | obligatory |
| Teaching language | english |
| Author of syllabus |
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| The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
| Lecture | 30 | 2 | - | - | Exam |
| Laboratory | 30 | 2 | - | - | Credit with grade |
- to acquaint students with issues of electromagnetic compatibility (EMC) of electrical systems, electronic and automation
- to familiarize students with the rules of operation of EMC technical law and procedures for obtaining the CE mark
- to make up basic skills in EMC measurement
Disturbances in electrical power systems, Selected issues of power electronics
Introduction to electromagnetic compatibility (EMC). Basic terms. EMC terminology. Immunity and emissions of electric equipment. Interference sources – intentional and non-intentional.
Electromagnetic fields and coupling mechanisms. Near and far field terms. Conducted and radiated interferences. Basic mechanisms of electromagnetic interferences couplings and propagations: galvanic, by means of near and far fields. Propagation of EMI in transmission lines. Basics of EMI signal analysis.
EMC measurement and investigations. Methods of electromagnetic emission measurement. Immunity measurements. Measurements at the development stage.
Electromagnetic compatibility in the electronic equipment. Characteristics of real elements in the interference frequency range. Electromagnetic compatibility of PCB. Signal integrity. EMC of control and transmission systems. EMC of telecommunication systems. EMC and functional safety of electronic equipment.
EMC strategy. EMC analyses and simulations. Techniques of EMI effects reduction – earthing and bonding, shielding, topology and structure of circuits, EMI filters. development of devices according to EMC requirements. Internal and external EMC. EMC for systems and installations.
EMC standardization. International Standardization Organization. Directives of New Approach and Global Approach. EMC Directive. EMC standards. EMC standards classification – generic, basic and product standards. Standards for electromagnetic environments. Safety related EMC standards. Present stage of EMC standardization. Routes to declaring compliance and CE marking and legal responsibility of manufacturer.
Electric power quality. Definitions of power quality. Voltage characteristics of electricity supplied by public distribution systems. Voltage sags or dips, short interruptions, asymmetry and distortions. Methods of improvement of electric power quality. Influence of loads on electric power quality. Measurements of characteristics of electric power quality.
Lecture: conventional lecture
Laboratory: laboratory exercises, group work
| Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture – obtaining a positive grade in written or oral exam.
Laboratory – the main condition to get a pass are sufficient marks for all exercises and tests conducted during the semester.
Calculation of the final grade: lecture 50% + laboratory 50%
1. Weston D.A.: Electromagnetic Compatibility. Principles and Applications. Marcel Dekker Inc., 1991.
2. Williams T., Armstrong K.: EMC for systems and Installations, Newnes, 2000.
3. Tichanyi L.: Electromagnetic Compatibility in Power Electronic. J.K.Eckert & Company, 1995.
4. Magnusson P.C. et al.: Transmission lines and wave propagation, CRC Press, 2001.
1. Charoy A.: Zakłócenia w urządzeniach elektronicznych, WNT W-wa, 1999 (in Polish).
2. Więckowski T.W.: Badania kompatybilności elektromagnetycznej urządzeń elektrycznych i elektronicznych, Wydawnictwa Politechniki Wrocławskiej, Wrocław, 2001.(in Polish)
3. Machczyński W.: Wprowadzenie do kompatybilności elektromagnetycznej, Wydawnictwo Politechniki Poznańskiej, Poznań, 2004.(in Polish)
4. Kempski A. Elektromagnetyczne zaburzenia przewodzone w układach napędów przekształtnikowych, Oficyna Wydawnicza Uniwersytetu Zielonogórskiego, Zielona Góra, 2005 (in Polish).
Modified by dr hab. inż. Wojciech Paszke, prof. UZ (last modification: 01-05-2020 16:56)
