TY - GEN UR - http://lib.ugent.be/catalog/pug01:3175368 ID - pug01:3175368 LA - eng TI - Partial element equivalent circuit models in the solution of the electric field integral equation PY - 2012 SN - 9781467303354 PB - New York AU - Ferranti, Francesco 000070821013 802000326806 AU - Antonini, Giulio AU - Chemmangat Manakkal Cheriya, Krishnan 000091419971 802000795537 AU - Knockaert, Luc AU - Dhaene, Tom AB - 3-D electromagnetic methods are fundamental design tools for complex high-speed systems. Among the integral equation-based techniques, the Partial Element Equivalent Circuit (PEEC) method has received a special attention in interconnect modeling, where mixed electromagnetic/circuit problems need to be solved. Retardation effects and the resulting delays must be taken into account and included in the modeling, when signal waveform rise times decrease and the corresponding frequency content increases or the geometric dimensions become electrically long. In this case, the enforcement of the Kirchhoff laws to PEEC delayed models leads to a set of delayed differential equations in a neutral form. The aim of this contribution is to present an overview of the PEEC method with special focus on the analysis of electrically long structures that require taking delays into account. ER -Download RIS file
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040 | a UGent | ||
245 | a Partial element equivalent circuit models in the solution of the electric field integral equation | ||
260 | a New York, NY, USA b IEEE c 2012 | ||
520 | a 3-D electromagnetic methods are fundamental design tools for complex high-speed systems. Among the integral equation-based techniques, the Partial Element Equivalent Circuit (PEEC) method has received a special attention in interconnect modeling, where mixed electromagnetic/circuit problems need to be solved. Retardation effects and the resulting delays must be taken into account and included in the modeling, when signal waveform rise times decrease and the corresponding frequency content increases or the geometric dimensions become electrically long. In this case, the enforcement of the Kirchhoff laws to PEEC delayed models leads to a set of delayed differential equations in a neutral form. The aim of this contribution is to present an overview of the PEEC method with special focus on the analysis of electrically long structures that require taking delays into account. | ||
598 | a P1 | ||
100 | a Ferranti, Francesco 0 000070821013 0 802000326806 0 979885982443 | ||
700 | a Antonini, Giulio | ||
700 | a Chemmangat Manakkal Cheriya, Krishnan 0 000091419971 0 802000795537 0 975800016279 | ||
700 | a Knockaert, Luc u TW05 0 801000626113 | ||
700 | a Dhaene, Tom u TW05 0 801000729981 | ||
650 | a Technology and Engineering | ||
653 | a INTERCONNECTS | ||
653 | a TIME-DOMAIN | ||
653 | a FORMULATION | ||
653 | a IBCN | ||
773 | t International Conference on Electromagnetics in Advanced Applications (ICEAA - 2012) g International Conference on Electromagnetics in Advanced Applications (ICEAA 2012). 2012. IEEE. p.329-332 q :<329 | ||
856 | 3 Full Text u https://biblio.ugent.be/publication/3175368/file/3175475 z [open] y EM_1002a.pdf | ||
856 | 3 Full Text u https://biblio.ugent.be/publication/3175368/file/3175472 z [ugent] y EM_1002.pdf | ||
920 | a confcontrib | ||
852 | x IB b IBBT | ||
922 | a UGENT-EA | ||
852 | x EA b TW05 | ||
922 | a UGENT-EA |
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