Method of measuring antenna axis ratio close to unit

Achievements of Modern Radioelectronics Pub Date : 1900-01-01 DOI:10.18127/j20700784-202104-11

S.D. Kirilyuk

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Abstract

On purpose to increase efficiency of an orbital-frequency resource the usage of polarization-division multiplexing (PDM) is extended in satellite communication systems. For this aim the axis ratio (AR) of polarization ellipses on satellite radio lines with circular (rotating) polarization must be not less 0,94. Nowadays widespread techniques of experimental defining AR, are based on measurements of orthogonal components intensity of electromagnetic fields created by aerials. But, at high, more than 0,85 axis ratios, the information about a difference in components intensity loses on errors of the measurements realizing these techniques. The method of defining AR, close to extremely achievable value (nearly equal to unit) is presented in the article. The basic idea of this method consists in inclusion to the measurement scheme of two identical devices (DUT), working one towards to another. Also the scheme of counter inclusion of two identical DUT, similar used for measurements, may be applied for designing antenna elements with high AR. Good coincidence of results of modeling, laboratory measurements and field tests have confirmed suitability of the offered method for the designing and testing of aerials with high axis ratio.

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近单位天线轴比的测量方法

为了提高轨道频率资源的利用效率，在卫星通信系统中推广了偏振分复用技术。为此，具有圆(旋转)偏振的卫星无线电线路上偏振椭圆的轴比(AR)必须不小于0,94。目前广泛的实验定义AR技术，是基于测量由天线产生的电磁场的正交分量强度。但是，在高于0.85轴比的情况下，有关组件强度差异的信息会因实现这些技术的测量误差而丢失。本文提出了一种定义AR的方法，即接近可达到的极限值(接近等于单位)。该方法的基本思想包括将两个相同的设备(DUT)包含在测量方案中，一个朝向另一个工作。另外，采用测量方法相似的两个相同DUT的反包含方案，也可用于高吸收比天线单元的设计。建模、实验室测量和现场试验结果吻合良好，证实了所提方法对高轴比天线设计和测试的适用性。

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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Achievements of Modern Radioelectronics

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