Mathematical Techniques for Near Field Radiation Pattern Characterization of Digital Arrays

2022 IEEE Aerospace Conference (AERO) Pub Date : 2022-03-05 DOI:10.1109/AERO53065.2022.9843281

Thomas G. Williamson, Paul Simmons, Jacob Houck, D. Leatherwood, Jason Whelan, Walter Disharoon, Drew Kerr

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Abstract

Digital arrays present unique challenges to characterization. This is mainly a result of the output of digital arrays being a digital, rather than analog, signal. Traditional techniques for characterizing analog systems must be modified to allow for the assessment of antenna systems with integrated analog to digital converters, such as the Xilinx RF System on Chip (RFSoC). In particular, it is necessary to format and post process data generated by the RFSoC to determine the far field spectrum, radiation pattern, and near field hologram for the digital array. This paper will show how these formatting and post processing techniques can be applied to characterize a digital array based on RFSoC technology. A test bed digital array was created and characterized using a modified analog near field range measurement system, as has been described in previous work. Additionally, data generated by the RFSoC has been formatted and prepared in such as way as to allow for ease of calibration and post processing. It is shown that this post processing technique produces good results when compared with a representative traditional analog measurement.

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数字阵列近场辐射方向图表征的数学技术

数字阵列对表征提出了独特的挑战。这主要是由于数字阵列的输出是数字信号，而不是模拟信号。模拟系统的传统表征技术必须进行修改，以允许对集成模拟到数字转换器的天线系统进行评估，例如Xilinx射频片上系统(RFSoC)。特别是，有必要对RFSoC生成的数据进行格式化和后处理，以确定数字阵列的远场频谱、辐射方向图和近场全息图。本文将展示如何将这些格式化和后处理技术应用于基于RFSoC技术的数字阵列。正如之前的工作所描述的那样，使用改进的模拟近场距离测量系统创建了一个测试平台数字阵列并对其进行了表征。此外，RFSoC生成的数据已经格式化和准备，以便于校准和后处理。与具有代表性的传统模拟测量相比，该后处理技术取得了良好的效果。

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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2022 IEEE Aerospace Conference (AERO)

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