实用射频结构的Haar-MRTD时空自适应网格技术

N. Bushyager, M. Tentzeris
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引用次数: 1

摘要

本文介绍了可与Haar MRTD方法一起用于时空自适应网格的技术。首次使用小波函数的绝对阈值和相对阈值来改变分辨率作为时间和空间的函数。该技术应用于复合电池Haar MRTD方案,该方案能够表示每个电池的多个导体(和其他子电池元件)。使用这种技术,可以比固定网格技术更有效地表示复杂的结构。包括Haar方法与FDTD的比较,以及Haar时空自适应方法与固定网格FDTD和MRTD技术相比的优点(在内存和执行时间上节省10-40%)。提出了一种适用于现代多层基板射频前端的双贴片天线结构,最终版本还将包括适用于超材料应用的LC CPW结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Haar-MRTD time and space adaptive grid techniques for practical RF structures
This paper presents techniques that can be used with the Haar MRTD method for time and space adaptive gridding. For the first time, absolute and relative thresholds for wavelet functions are used to change the resolution as a function of time and space. This technique is applied to the composite cell Haar MRTD scheme, which is capable of representing multiple conductors (and other subcell elements) per cell. Using this technique, complex structures can be represented more efficiently than with fixed grid techniques. Included is a comparison of the Haar method with FDTD, as well as the advantages of the Haar time-space adaptive method (10-40% economy in memory and execution time) with fixed grid FDTD and MRTD techniques. A dual patch antenna structure suitable for RF front ends in modern multilayer substrates is presented, the final version will also include an LC CPW structure suitable for metamaterial applications.
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