Samuel Connor

TL;DR: This paper addresses two specific issues related to the implementation of the FSV method, namely "how well does it produce results that agree with visual assessment?" and "what benefit can it provide in a practical validation environment?"

TL;DR: In this article, a planar electromagnetic bandgap configuration of a compact common mode filter that is laid out on printed circuit board is studied, which is used to mitigate the common mode noise traveling on high-speed differential signal traces.

TL;DR: This paper demonstrates that a significant amount of common-mode current can be created when the two legs of the differential signal are skewed in time, or if the rise and fall times of the signals differ.

TL;DR: In this paper, the authors describe a systematic study on the near-field behavior of an electromagnetic interference (EMI) noise suppression absorber materials considering two different types of commercial absorbers and different kinds of excitation source: at first, elementary electric dipole and elementary magnetic loop, and then using real dimensions of a coaxial cable for designing a dipole.

TL;DR: In this paper, an embedded electromagnetic bandgap structure is proposed for harmonic filtering of differential signal's undesired common mode components, which enhances the signal integrity and electromagnetic compatibility performance of the system.