Radiated emissions from power feeders for electric propulsion in aircraft

2022 International Symposium on Electromagnetic Compatibility – EMC Europe Pub Date : 2022-09-05 DOI:10.1109/EMCEurope51680.2022.9901297

J. L. Rotgerink

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引用次数: 2

Abstract

Electric propulsion is a major focal point for aviation industry towards achievement of international sustainability goals. These developments will cause an inevitable increase in on-board power levels, implying higher voltages and currents. One of the various corresponding challenges in electromagnetic compatibility concerns the radiated emissions of power feeders. This paper focusses on the modelling of these emissions from three-phase power feeders by a combination of multiconductor transmission line modelling for determination of the currents in power feeders, and the Hertzian Dipole method to determine the radiated electric fields. Simulations and measurements are performed on the case of a single wire above ground, as well as a three-phase power feeder, resulting in a good match between theory and practice. The obtained simulation methods can also be used in combination with actual currents flowing onto the cabling, obtained either from measurements or simulations, to estimate the total in situ radiated emissions from three-phase power feeders.

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飞机电力推进电源馈线的辐射发射

电力推进是航空工业实现国际可持续发展目标的主要焦点。这些发展将不可避免地导致机载功率水平的增加，这意味着更高的电压和电流。在电磁兼容性方面的各种相应挑战之一涉及电源馈线的辐射发射。本文的重点是通过多导体传输线模型来确定电源馈线中的电流，以及赫兹偶极子方法来确定辐射电场的组合，对三相电源馈线的这些发射进行建模。在地面单线和三相馈线的情况下进行了仿真和测量，理论与实际吻合良好。所获得的模拟方法也可以与实际电流结合使用，从测量或模拟中获得，以估计三相馈线的总现场辐射发射。

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 International Symposium on Electromagnetic Compatibility – EMC Europe

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