恶劣环境下使用时域测量进行辐射发射测试的策略

Jordi Solé-Lloveras;Marco A. Azpúrua;Yasutoshi Yoshioka;Ferran Silva
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摘要

由于环境中的电磁噪声水平很高,在不同于标准测试场地的位置进行现场辐射发射测量可能是一项具有挑战性的任务。恶劣的电磁环境是此类场所的特征,在区分被测设备(EUT)的发射和周围设备产生的电磁场时,通常会遇到困难。此外,来自广播服务的通信信号通常明显高于标准排放限值,这使得确定合规性变得更加困难。在本文中,我们提出了利用时域测量系统优势的不同技术,以提供有效而实用的解决方案来减轻环境噪声对辐射电磁干扰测量的影响。首先,描述了所使用的测试方法,并给出了实用的考虑因素,以确保可靠和可重复的测量。引入多通道时域测量系统作为所提出策略的基本工具。随后,通过实际测试实例对不同的研究案例进行评估,强调了旨在减少环境噪声对EUT产生的实际排放测量的影响的几个标准。最后,描述了这些策略在光伏系统测量中的实际应用。总体而言,综述了使用基于全时域FFT的接收机的方法和主要优点。此外,将本文的结果纳入即将出台的关于原位辐射发射测量的电磁标准的可能性也存在争议。
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Strategies Using Time-Domain Measurements for Radiated Emissions Testing in Harsh Environments
Performing in-situ radiated emissions measurements, that is, in locations different from a standard test site, can be a challenging task because of the high electromagnetic noise levels in the ambient. A harsh electromagnetic environment characterizes such sites, and it usually results in difficulties when discerning between emissions from the equipment under test (EUT) and electromagnetic fields generated by surrounding devices. Moreover, communication signals from broadcasting services are generally significantly higher than the standard emission limits, making it even harder to determine compliance. In this article, we present different techniques leveraging the advantages of time-domain measurement systems to provide effective and practical solutions to mitigate ambient noise’s effect on radiated electromagnetic interference measurements. First, the test method used is described, and pragmatic considerations are given to ensure reliable and repeatable measurements. Multichannel time-domain measurement systems are introduced as the fundamental tool for the proposed strategies. Subsequently, different study cases are evaluated with real test examples, highlighting several criteria intended to reduce the impact of ambient noise on the actual emissions measures produced by the EUT. Finally, a real application of those strategies for measuring a photovoltaic system is described. Overall, the methods employed and the main advantages of using full-time-domain FFT-based receivers are reviewed. In addition, the possibility of incorporating this article’s outcomes into forthcoming electromagnetic standards about in-situ radiated emission measurements is also debated.
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