Development of an Omnidirectional and Low-VSWR Ultra Wideband Antenna

Int. J. Wirel. Opt. Commun. Pub Date : 2006-08-01 DOI:10.1142/S0219799506000442

T. Taniguchi, Akihide Maeda, Takehiko Kobayashi

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引用次数: 30

Abstract

This paper reports an omnidirectional-in-azimuth and low voltage-standing-wave-ratio (VSWR) ultra-wideband (UWB) monopole antenna that we constructed as a prototype for the Federal Communications Commission-approved UWB frequency band (3.1–10.6 GHz). Most wideband antennas (e.g. double-ridged waveguide horn, monocone antenna) do not simultaneously meet omnidirectional and low-VSWR requirements, essential for some UWB measurement applications. The antenna consists of a circular ground plane and a teardrop that is defined as a combination of a finite cone and a sphere inscribed inside the cone at the cone's base. This antenna can be considered either as a rounded finite monocone antenna or as a simplified volcano smoke antenna. Assuming 50-Ω excitation, the optimum half-cone angle was searched to minimize the maximum VSWR between 3.1 and 10.6 GHz and found to be around 48°. A prototype antenna was constructed and its VSWR and radiation characteristics were measured. The prototype antenna demonstrated omnidirectional radiation and low VSWR (< 1.3) between 3 and 20 GHz. Performance comparison was made between this antenna and other representative wideband antennas: double-ridged-waveguide horn antenna, meander line antenna, and log-periodic dipole array antenna. The 3-antenna method was used to achieve high accuracy in the absolute gain measurements.

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全向低驻波比超宽带天线的研制

本文报道了一种全方位低电压驻波比(VSWR)超宽带(UWB)单极天线，作为美国联邦通信委员会批准的UWB频段(3.1-10.6 GHz)的原型。大多数宽带天线(如双脊波导喇叭，单锥天线)不能同时满足全向和低驻波比要求，这对于一些UWB测量应用至关重要。天线由一个圆形的地平面和一个泪滴组成，泪滴被定义为一个有限锥和一个圆球的组合，圆球在锥体的底部。这种天线既可以看作是圆形有限单锥天线，也可以看作是简化的火山烟雾天线。假设50-Ω激励，在3.1 ~ 10.6 GHz之间寻找最大驻波比最小的最佳半锥角，结果为48°左右。搭建了天线样机，测量了天线的驻波比和辐射特性。原型天线在3 ~ 20 GHz之间具有全向辐射和低驻波比(< 1.3)。将该天线与双脊波导喇叭天线、曲线天线、对数周期偶极子阵列天线等代表性宽带天线进行了性能比较。采用三天线法对绝对增益进行了高精度测量。

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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Int. J. Wirel. Opt. Commun.

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