Study Guide@lith
 

Linköping Institute of Technology

 
 
Valid for year : 2017
 
TNE089 Electromagnetic Compatibility (EMC) and Printed Circuit Board (PCB) Design , 6 ECTS credits.
/Elektromagnetisk kompatibilitet och mönsterkortdesign /

For:   ED   Y  

 

Prel. scheduled hours: 34
Rec. self-study hours: 126

  Area of Education: Technology

Main field of studies: Electrical Engineering

  Advancement level (G1, G2, A): A

Aim:
This course intends to provide the knowledge of printed circuit board processing and design considerations, design rules and EMC. After this course the student should:
  • Understand how and why phenomenon like cross-talk occurs.
  • Learn the principles of the printed circuit board process.
  • Implement design guides, and design rules for printed circuit board production-lines, e.g., practical limitations such as feature sizes etc.
  • Learn the EMC requirements for electronic systems, legal aspects and key arguments for EMC.
  • Design high frequency PCB, using computer aided design (CAD), and simulate electromagnetic (EM) radiation.
  • Evaluate critical disturbers, coupling and susceptibility and EM-compatibility.


Prerequisites: (valid for students admitted to programmes within which the course is offered)
Circuit Theory, Analog Electronics, Analog/digital System Design, RF electronics

Note: Admission requirements for non-programme students usually also include admission requirements for the programme and threshhold requirements for progression within the programme, or corresponding.

Supplementary courses:
Antenna Theory

Organisation:
Lectures, laborations and project

Course contents:
The primary focus of the course is EMC theory and techniques, but it also addresses design and production of printed circuit boards. In printed circuit board design for modern electronics a number of requirements need to be fulfilled; a substrate stack that have the desired electrical and physical parameters must be chosen, which affects design-rules with respect to minimum detail, track spacing, layer connectivity options (VIAs). Moreover, considerations for an environmental friendly production process are taken. EMC theory: Conducted emissions, radiated emissions, and emission susceptibility. Non ideal behaviour of components. Crosstalk and Signal integrity. Regulations and product certifications makes electromagnetic compatibility a modern electronics key issue. Robustness against EM-interferers and emission level control are important properties. In this course the student learn, PCB design rules, substrate stacks, track spacing, track width, production requirements such as panel size, minimum/ maximum feature size, environmental aspects of the production, waste, material selections etc. Regarding EMC, the student learns the cross-talk phenomenon, EM emissions, radiated and conducted conduction-paths. Furthermore, the student will learn how to implement the knowledge from EMC to design a PCB with source, coupling and susceptibility considered.

Course literature:
Paul R. Clayton, �?oIntroduction to Electromagnetic Compatibility - 2nd Edition�?�. The second edition is the preferred version, but the first edition is also ok.

Examination:
Written exam
Laboratory work
Project work and oral examination
2 ECTS
1 ECTS
3 ECTS
 



Course language is English.
Department offering the course: ITN.
Director of Studies: Adriana Serban
Examiner: Magnus Karlsson
Link to the course homepage at the department


Course Syllabus in Swedish

Linköping Institute of Technology

 


Contact: TFK , val@tfk.liu.se
Last updated: 06/01/2016