Why the Wire is on Fire – Electromagnetic Field Coupling to Transmission Lines

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Cables and transmission lines attached to devices and complex systems may act as parasitic receiving antennas and can guide unwanted radiated electromagnetic disturbances into connected sensitive electronics like sensors or measurement units. In this talk, the basic field-to-wire coupling phenomena will be described. Analytical and numerical calculations will be explained and compared with experimental results.


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  • Date: 28 Mar 2024
  • Time: 06:00 PM to 07:30 PM
  • All times are (UTC-04:00) Eastern Time (US & Canada)
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  • 3480 University St
  • Montreal, Quebec
  • Canada
  • Building: McConnell Engineering Building
  • Room Number: Room 603
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  • Cables and transmission lines attached to devices and complex systems may act as parasitic receiving antennas and can guide unwanted radiated electromagnetic disturbances into connected sensitive electronics like sensors or measurement units. In this talk, the basic field-to-wire coupling phenomena will be described. Analytical and numerical calculations will be explained and compared with experimental results.

  • Co-sponsored by STARaCom Research Network
  • Starts 19 March 2024 12:00 AM
  • Ends 28 March 2024 07:00 PM
  • All times are (UTC-04:00) Eastern Time (US & Canada)
  • No Admission Charge

  Speakers

Mathias Magdowski

Topic:

Why the Wire is on Fire – Electromagnetic Field Coupling to Transmission Lines

Cables and transmission lines attached to devices and complex systems may act as parasitic receiving antennas and can guide unwanted radiated electromagnetic disturbances into connected sensitive electronics like sensors or measurement units. In this talk, the basic field-to-wire coupling phenomena will be described. Analytical and numerical calculations will be explained and compared with experimental results

Biography:

Mathias Magdowski received his Dipl.-Ing. and Dr.-Ing. Degree in electrical engineering from the Otto-von-Guericke University, Magdeburg, Germany in 2008 and 2012, respectively, where he is currently working as a scientific co-worker at the Institute for Medical Engineering. His current research interests include analytical and statistical methods for modeling EMC problems, especially the field-to-wire coupling of statistic fields in mode-stirred chambers. He is a member of the corporate research group 767.3-767.4 within the German Commission for Electrical, Electronic & Information Technologies and serves as the co-convenor of the Joint Working Group on Reverberation Chambers within the IEC and CISPR. Mathias Magdowski also volunteers as a marketing and member services coordinator within the IEEE German EMC Chapter and in the IEEE Student Branch in Magdeburg.