Measurement of RF Absorber at Large Angles of Incidence using Spectral Domain Transformations

2019 Antenna Measurement Techniques Association Symposium (AMTA) Pub Date : 2019-10-01 DOI:10.23919/AMTAP.2019.8906360

V. Rodriguez, B. Walkenhorst, Jorgen Bruun

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引用次数: 5

Abstract

Pyramidal RF absorber, widely used in indoor antenna ranges, is designed to minimize reflectivity by creating an impedance transform from free space to the impedance of the absorber material. The pyramidal shape provides this transition quite well at normal incidence. It has been shown in [1] that pyramidal RF absorber performs very well up to angles of incidence of about 45 degrees off-normal, but at wider angles of incidence, the performance degrades significantly. Unfortunately, it is very difficult to perform RF absorber measurements at large oblique incidence angles. In such measurements, the reflected path and the direct path between the antennas are very close in length, making it difficult to use time-domain gating techniques to eliminate the direct coupling.In this paper, a novel approach for performing oblique RF absorber measurements is introduced based on spectral domain transformations. Preliminary measurements using this technique have been compared to RF simulations. Results appear to indicate that this approach is a valid way to perform RF absorber reflectivity measurements at highly oblique incidence angles.

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用谱域变换测量大入射角射频吸收器

金字塔形射频吸收器广泛应用于室内天线范围，其设计通过产生从自由空间到吸收材料阻抗的阻抗变换来最小化反射率。锥体的形状在正入射下很好地提供了这种转变。在[1]中已经表明，锥体射频吸收器在约45度的入射角下表现良好，但在较宽的入射角下，性能明显下降。不幸的是，在大斜入射角下进行射频吸收器测量非常困难。在这种测量中，天线之间的反射路径和直接路径的长度非常接近，使得很难使用时域门控技术来消除直接耦合。本文介绍了一种基于谱域变换的斜向射频吸收器测量方法。使用该技术的初步测量结果已与射频模拟进行了比较。结果似乎表明，这种方法是一种有效的方法来执行射频吸收器反射率测量在高斜入射角。

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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