Field characterization of an air surveillance radar at near-ground locations

2010 14th International Symposium on Antenna Technology and Applied Electromagnetics & the American Electromagnetics Conference Pub Date : 2010-07-05 DOI:10.1109/ANTEM.2010.5552530

K. Y. Sze, M. Keller

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Abstract

When using computational electromagnetics (CEM) for performance analysis of radar and high-gain microwave antennas, the necessary detailed specifications and computer-aided design (CAD) drawings of these systems are seldom readily available from the original equipment manufacturer (OEM). A reasonable estimate of the electromagnetic (EM) field levels radiated by these types of antennas may be computed using a simple 2D aperture model. This technique, known as the Aperture Field Method, assumes that an EM field distribution is produced on an aperture immediately in front of the radiating area of the antenna [1]. Such was the approach employed in this paper to characterize the electric field (E-field) intensity of a deployable air surveillance radar (ASR) at near-ground locations that were directly illuminated by the cosecant-squared fan beam of the radar. Of concern in this study was that the radar might cause EM interference (EMI) issues at near-ground locations within a few kilometer radius from the radar, due to its high radiated power. Hence, this study served as part of a comprehensive Radio Frequency (RF) Safety and EMI assessment of the ASR, based on guidelines for compatibility and safety standards (e.g. MIL-STD, STANAG, AECTP, Health Canada Safety Code 6, and IEC).

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近地位置空中监视雷达的现场特征

当使用计算电磁学(CEM)对雷达和高增益微波天线进行性能分析时，这些系统的必要详细规格和计算机辅助设计(CAD)图纸很少容易从原始设备制造商(OEM)获得。利用简单的二维孔径模型，可以对这类天线辐射的电磁场水平进行合理估计。这种技术被称为孔径场法，它假设在天线辐射区域正前方的一个孔径上产生电磁场分布[1]。这就是本文所采用的方法，用于表征可部署的空中监视雷达(ASR)在近地位置的电场(E-field)强度，该位置直接由雷达的余割平方风扇波束照射。本研究中值得关注的是，由于雷达的高辐射功率，该雷达可能会在距离雷达几公里半径内的近地位置造成电磁干扰(EMI)问题。因此，这项研究是基于兼容性和安全标准指南(例如MIL-STD、STANAG、AECTP、加拿大卫生安全规范6和IEC)对ASR进行全面射频(RF)安全性和EMI评估的一部分。

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

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