Computer Aided Engineering for optimal EMC design of On-Board Battery Chargers

机译：计算机辅助工程设计，用于车载电池充电器的最佳EMC设计

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This work deals with a new approach that can be adopted in the e-mobility industry for the development, design and optimization of On-board battery chargers (OBCs) for Battery Electric Vehicles (BEV) and Plug-In Hybrid Electric Vehicles (PHEV), with a particular focus on the fulfilment of the Electromagnetic Compatibility (EMC) aspects. Car-makers are pushing towards extreme and challenging production lead times, so it is often necessary that early prototypes behave similarly to the final product sold with the car. In order to fulfill EMC requirements, simulations can help the EMC design engineer to speed-up the optimization phase as well as the problem-solving phase by limiting the number of time consuming tests in anechoic chambers. This paper shows how is possible to use electromagnetic computer aided design (CAD) tools for EMC purposes, applied to a three-phase 22kW – 800V battery charger, with a power density of about 2.5kW/l.

机译：这项工作涉及一种可在电动汽车行业中采用的新方法，用于电池电动汽车（BEV）和插电式混合动力电动汽车（PHEV）的车载电池充电器（OBC）的开发，设计和优化。，特别着重于电磁兼容性（EMC）方面的实现。汽车制造商正朝着极端且极富挑战性的生产交货期推进，因此通常有必要使早期的原型与汽车出售的最终产品具有相似的性能。为了满足EMC要求，仿真可以通过限制消声室中耗时的测试次数来帮助EMC设计工程师加快优化阶段以及解决问题的阶段。本文说明了如何将电磁计算机辅助设计（CAD）工具用于EMC目的，并应用于功率密度约为2.5kW / l的三相22kW-800V电池充电器。

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《International Symposium on Electromagnetic Compatibility》|2020年|1-6|共6页
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Antonio Camarda; Flavio Calvano; Asad Mazhar Khan; Mirco Balbarani; Paolo Montanari; Daniel Grossi;
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BEV; Conducted Emissions; EMC; On-board charger; PHEV; PFC; Simulations;

机译：BEV;传导排放; EMC;车载充电器; PHEV; PFC;模拟;

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Computer Aided Engineering for optimal EMC design of On-Board Battery Chargers

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