Two-dimensional equations for microwave planar circuits

1998 Symposium on Antenna Technology and Applied Electromagnetics Pub Date : 1998-08-01 DOI:10.1109/ANTEM.1998.7861789

A. Ţugulea, I. Ciric

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引用次数: 3

Abstract

A planar circuit [1] is defined as an electric circuit having dimensions comparable to the wavelength in two directions but a much smaller dimension in the third direction. Microwave integrated circuits, which have replaced the conventional microwave circuits [2], are constructed in a planar form. The transmission structures contain striplines, the most used being the microstrips. The two-dimensional equations for the microwave planar circuits, first presented in [3], were derived by considering a quasistationary TEM mode as the fundamental mode of propagation. In this paper we show that these equations can be employed for analyzing not only the fundamental mode but also the higher-order modes of propagation. Indeed, for a rectangular waveguide model with hybrid electric and magnetic walls [4], [5] the higher-order TE modes are identical with those derived from the two-dimensional equations for lossless circuits. This suggests the possibility of applying the two-dimensional equations for lossy planar circuits [3] to analyze the propagation of higher-order TE modes along lossy structures, for which there are only crude models available in the literature.

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微波平面电路的二维方程

平面电路[1]被定义为在两个方向上具有与波长相当的尺寸，但在第三个方向上具有小得多的尺寸的电路。取代传统微波电路[2]的微波集成电路采用平面结构。传输结构包含带状线，最常用的是微带。微波平面电路的二维方程在[3]中首次提出，该方程考虑准平稳TEM模式作为基本传播模式。本文证明了这些方程不仅可以用来分析基本模态，而且可以用来分析传播的高阶模态。事实上，对于具有混合电和磁壁的矩形波导模型[4]，[5]的高阶TE模式与由二维无损电路方程导出的高阶TE模式相同。这表明可以应用有损平面电路的二维方程[3]来分析高阶TE模式沿有损结构的传播，而文献中只有粗糙的模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1998 Symposium on Antenna Technology and Applied Electromagnetics

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