Surface-Volume-Surface EFIE for Analysis of 3-D Microwave Circuits in Multilayered Substrates With Finite Dielectric Inclusions

Shucheng Zheng, R. Gholami, V. Okhmatovski
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引用次数: 2

Abstract

Novel formulation of the Surface-Volume-Surface Electric Field Integral Equation (SVS-EFIE) for rigorous full-wave electromagnetic analysis of composite metal-dielectric structures embedded in planar multilayered medium is proposed. Handling of multilayered medium dyadic Green's function (DGF) is based on Michalski-Zheng's mixed-potential formulation and does not require introduction of any additional components compared to those featured in the traditional mixed-potential integral equation (MPIE) formulations for the analysis of metal structures in layered medium. Characterization of microwave circuits and interconnect structures embedded in dielectric substrates featuring finite dielectric inclusions are among applications well suited for handling with the new single source integral equation formulation. Proposed methodology is validated through comparison of extracted network parameters of realistic 3D model of LTCC diplexer against those obtained with a commercial electromagnetic analysis tool.
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具有有限介电内含物的多层基底中三维微波电路的表面-体积-表面EFIE分析
提出了适用于平面多层介质中复合金属-介电结构严格全波电磁分析的表面-体积-表面电场积分方程(SVS-EFIE)的新公式。多层介质并矢格林函数(DGF)的处理基于Michalski-Zheng的混合势公式,与用于分析层状介质中金属结构的传统混合势积分方程(MPIE)公式相比,不需要引入任何额外的分量。表征微波电路和嵌入在具有有限介电内含物的介质衬底中的互连结构是非常适合处理新的单源积分方程公式的应用之一。通过将LTCC双工器真实三维模型提取的网络参数与商用电磁分析工具获得的网络参数进行比较,验证了所提方法的有效性。
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