解析交叉极化消零技术

2010 14th International Symposium on Antenna Technology and Applied Electromagnetics & the American Electromagnetics Conference Pub Date : 2010-07-05 DOI:10.1109/ANTEM.2010.5552412

A. Daya, G. Hampton

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引用次数: 0

摘要

以前，钻孔石交叉极化零化是通过硬件技术实现的。在该方法中，构造了一个零化网络来发射或接收一定程度的椭圆偏振，以完美地抵消钻孔上的AUT辐射共极化。这是通过在硬件网络中手动调整可变衰减器和移相器来实现的。这种方法的主要缺点是它仅限于单频测量和硬件的稳定性。现代远场测距仪能够在宽频率扫描范围内收集大量的幅度和相位数据。在后处理中，通过合成一个椭圆极化来完成零化网络的任务，从而在钻孔处实现真正的共极化和交叉极化。探针天线的两个正交的线性方向提供了合成理想的零孔体交叉极化所需的元件。然后将此定义应用于扫描的其余部分。

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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Analytical cross-polarization nulling technique

Previously, boresite cross-polarization nulling was achieved by using hardware techniques. In this method, a nulling network was constructed to transmit or receive a degree of elliptical polarization to perfectly offset the AUT radiation co-polarization on boresite. This was achieved by manual adjustment of variable attenuators and phase shifters in a hardware network. The principle drawback to this method is that it is restricted to single frequency measurements and the stability of the hardware. Modern far-field ranges are capable of collecting large amounts of amplitude and phase data over broad frequency sweeps. It is convenient in post-processing to perform the task of the nulling network by synthesizing an elliptical polarization to achieve true co- and cross-polarization at boresite. Two orthogonal linear orientations for a probe antenna provide the required components to synthesize an ideally nulled boresite cross-polarization. This definition is then applied to the rest of the scan.

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2010 14th International Symposium on Antenna Technology and Applied Electromagnetics & the American Electromagnetics Conference

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