RF Coupling Revisited
Abstract
The main goal of this work is to develop a joint computational/experimental approach to predict, quantify, and prove the coupling of microwaves to any arbitrary collection/geometry of wires/traces/wire-bonds in different surroundings. The computational approach is based on the Characteristic Mode Analysis (CMA) and the Equivalent Circuit Approach (ECA). The developed computational tools are combined into a single user-friendly package named PECNEC: Predictive-package for Electromagnetic Coupling to Nonlinear-electronics using Equivalent-circuits and Characteristic-modes. The objective of PECNEC is to predict the waveform that will cause electronic upset, by maximizing the coupled voltage and power, to permutations of linear/non-linear loads in any wire topology/geometry. General guidelines obtained from the computational tools are presented, and future directions to advance PECNEC are also outlined.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 27, 2021
- Accession Number
- AD1157955
Entities
People
- Ahmed M Hassan
- Anthony N. Caruso
- Benjamin Bissen
- Caylin Hartshorn
- Clayton Kettlewell
- Daryl G. Beetner
- Deb Chatterjee
- James D. Hunter
- John Lancaster
- Kalyan Durbhakula
- Khulud Alsultan
- Mohamed Z. Hamdalla
- Praveen Rao
- Thomas Ory
- Victor Khilkevich
- Waleed Al-shaikhli
- Yuanzhuo Liu
Organizations
- University of Missouri–Kansas City