分形和多波段通信天线

Y. Lee, J. Yeo, R. Mittra, S. Ganguly, J. Tenbarge
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引用次数: 12

摘要

本文提出了两种适用于多频应用的新型多波段天线设计。其中第一种是基于分形概念的Sierpinski垫片类型的分形结构,印刷在由接地面支撑的介电基板上。我们提出了一种新的方法来提高其多频段性能,在阻抗匹配特性和辐射模式方面,在三个工作频率。第二种设计结合了矩形微带贴片和圆柱形介电谐振器,并在多个频率下工作。具体来说,我们描述了在三个频段的微带贴片上的介质谐振器天线的堆叠结构。圆极化是在相位正交中利用四个同轴馈源得到的。发现这种结构表现出良好的交叉极化抑制特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fractal and multiband communication antennas
In this paper we present two novel multiband antenna designs for multiple frequency applications. The first of these, which is based on fractal concepts, is a Sierpinski gasket type of fractal configuration, printed on a dielectric substrate backed by a ground plane. We propose a novel approach to enhancing its multiband performance, in terms of impedance matching characteristics as well as radiation patterns, at three operating frequencies. The second design combines a rectangular microstrip patch with a cylindrical dielectric resonator, and operates at multiple frequencies. Specifically, we describe a stacked configuration of a dielectric resonator antenna on a microstrip patch for three frequency bands. Circular polarization is obtained by utilizing four coaxial feeds in phase quadrature. This configuration is found to exhibit good cross-polarisation rejection characteristics.
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