PEEC Formulation Based on Dyadic Green's Functions for Layered Media in the Time and Frequency Domains

  title={PEEC Formulation Based on Dyadic Green's Functions for Layered Media in the Time and Frequency Domains},
  author={S. Kochetov and M. Leone and G. Wollenberg},
  journal={IEEE Transactions on Electromagnetic Compatibility},
This paper presents a novel time- and frequency-domain concept of modeling with the partial element equivalent circuit (PEEC) method, which applies the mixed potential integral equation (MPIE) with dyadic Green's functions for layered media (DGFLM-PEEC). On the one hand, it represents an exact full-wave semianalytical solution for an arbitrary configuration of traces and via holes in multilayered printed circuit boards. On the other hand, the DGFLM-PEEC model is represented in a circuit form… Expand
Generalized PEEC method based on dyadic Green's functions in time and frequency domain
  • S. Kochetov, M. Leone
  • Mathematics
  • 2008 International Symposium on Electromagnetic Compatibility - EMC Europe
  • 2008
This paper presents a novel concept for time- and frequency-domain modeling with the PEEC method (DGFPEEC), which is based on the mixed potential integral equation (MPIE) with dyadic Green'sExpand
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Peec-Models Based on Dyadic Green's Functions for Structures in Layered Media
A novel concept of modeling with the PEEC method based on Dyadic Green's functions of layered media in time and frequency domain is presented, which represents an exact full-wave semi-analytical solution for an arbitrary configuration of traces and via holes in multilayered PCBs. Expand
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  • M. Leone
  • Engineering
  • IEEE Transactions on Electromagnetic Compatibility
  • 2005
The electromagnetic field coupling into the traces on a printed circuit board (PCB) is investigated. Based on a simplified equivalent-wire model, a practical simulation method is presented, whichExpand
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