Comparison of Antenna Measurements Obtained Using an Electro-Optical Probe System to Conventional RF Methods

2019 Antenna Measurement Techniques Association Symposium (AMTA) Pub Date : 2019-10-01 DOI:10.23919/AMTAP.2019.8906502

William Dykeman, Benjamin Marshall, Dale Canterbury, Corey Garner, Richard Darragh, A. Sabet

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引用次数: 1

Abstract

There are certain applications where the use of electro-optical (EO) probes to acquire near-field measurements can provide major advantages as compared to conventional RF measurement techniques. One such application is in the area of high power RF measurements that are required for calibration and test of active electronically scanned arrays (AESA). The family of EO probes presented herein utilizes the Pockels effect to measure the time-varying electric fields of the antenna under test (AUT). The use of a non-invasive, broadband EO probe facilitates measurement of the tangential electric field components very close to the AUT aperture in the reactive near-field region. This close proximity between the AUT and the measurement probe is not possible with conventional metallic probes. In this paper, the far field gain patterns acquired using the EO probe will be compared to the corresponding gain patterns obtained from conventional far-field and near-field methods. The measurement results, along with the advantages and disadvantages of the EO system configuration, will be presented.

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电光探头系统与传统射频测量方法的天线测量比较

与传统的射频测量技术相比，在某些应用中，使用电光(EO)探头获得近场测量可以提供主要优势。一个这样的应用是在高功率射频测量领域，需要校准和测试有源电子扫描阵列(AESA)。本文介绍的电磁探头系列利用波克尔斯效应来测量被测天线的时变电场。使用非侵入式宽带EO探头，便于在反应性近场区域测量非常靠近AUT孔的切向电场分量。AUT和测量探头之间的这种近距离是传统金属探头无法实现的。在本文中，使用EO探头获得的远场增益图将与传统的远场和近场方法获得的相应增益图进行比较。测量结果，以及EO系统配置的优点和缺点，将被提出。

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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2019 Antenna Measurement Techniques Association Symposium (AMTA)

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