Efficient Modeling of Microwave Integrated-Circuit Geometries via a Dynamically Adaptive Mesh Refinement--FDTD Technique

Yaxun Liu; Costas D. Sarris

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Efficient Modeling of Microwave Integrated-Circuit Geometries via a Dynamically Adaptive Mesh Refinement--FDTD Technique

机译：动态自适应网格细化-FDTD技术对微波集成电路的几何结构进行高效建模

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The finite-difference time-domain (FDTD) method is combined with an adaptive mesh refinement (AMR) technique, to achieve a fast, time-domain solver for Maxwell's equations (AMR-FDTD), based on a three-dimensional moving/rotating Cartesian mesh. This combination allows the proposed solver to adapt to the problem at hand, optimally distributing computational resources in a given domain as needed, by recursively refining a coarse grid in regions of large over time gradient of electromagnetic field energy. Several applications of the method to the analysis of microwave circuit geometries demonstrate its salient features and its outstanding efficiency as a microwave computer-aided design tool.

机译：有限差分时域（FDTD）方法与自适应网格细化（AMR）技术相结合，基于三维移动/旋转实现了麦克斯韦方程组（AMR-FDTD）的快速时域求解器笛卡尔网格。这种组合使拟议的求解器可以适应当前的问题，通过在电磁场能量随时间梯度逐渐变大的区域中递归地细化粗网格，从而根据需要在给定域中最佳地分配计算资源。该方法在微波电路几何形状分析中的一些应用证明了它的显着特征和作为微波计算机辅助设计工具的出色效率。

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来源
《IEEE Transactions on Microwave Theory and Techniques 》 |2006年第2期| p.689-703| 共15页
作者
Yaxun Liu; Costas D. Sarris;
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作者单位

Edward S. Rogers Sr. Department of Electrical, University of Toronto, Toronto, ON, Canada M5S 3G4;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类计量学 ;
关键词
Adaptive mesh refinement (AMR); finite difference time domain (FDTD); microwave integrated circuits;

机译：自适应网格细化（AMR）;时域有限差分（FDTD）;微波集成电路;

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2. Use of dynamically adaptive grid techniques for the solutionof electrochemical kinetic equations Part 7. Testing of the finite-difference patch-adaptive strategy on example kinetic models with moving reaction fronts, in one-dimensional space geometry [J] . L.K. Bieniasz, C. Bureau Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry . 2000 ,第2期

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Efficient Modeling of Microwave Integrated-Circuit Geometries via a Dynamically Adaptive Mesh Refinement--FDTD Technique

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