Application of 3D finite-difference time-domain (FDTD) method to predict radiation from a PCB with high speed pulse propagation

Buchanan, W., Gupta, N.K., Arnold, J.M. (1994). Application of 3D finite-difference time-domain (FDTD) method to predict radiation from a PCB with high speed pulse propagation. In: (Ed.) 9th International IEE Conference on Electromagnetic Compatibility, , () (August ed.). (pp. 287-291). University of Manchester, UK: . IEE.


ISBN: 0-85296-622-9
ISSN: 0537-9989

Abstract

The authors have applied the 3D FDTD technique to simulate the propagation of electrical signals within printed circuit boards (PCBs). This relates to the work currently being carried out into the propagation of very high speed digital pulses in PCBs for high bandwidth systems. Visualisation of an applied gaussian pulse from multiple sources within and outwith a PCB is shown and the techniques used to determine the system characteristics are discussed.
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Authors

William Buchanan
Director of CDCS
w.buchanan@napier.ac.uk
+44 131 455 2759

Areas of Expertise

Cyber-Security
Electronic information now plays a vital role in almost every aspect of our daily lives. So the need for a secure and trustworthy online infrastructure is more important than ever. without it, not only the growth of the internet but our personal interactions and the economy itself could be at risk.

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