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Highly Efficient EV Battery Charger Using Fractional Charging Concept with SiC Devices

机译:采用SiC器件的分数充电概念的高效电动汽车电池充电器

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This paper describes the implementation of the fractional power conversion concept for use in an on-board charger for Electric Vehicles (EV). High gain step up topologies are required and an efficiency analysis of the full bridge boost converter is made. A comparison of many power devices including Si, GAN and SiC devices concludes that SiC devices are well suited for this application. Using loss equations and battery charging characteristics the converter is optimized for low loss in a full battery charge cycle. Switching-average methods model the small signal characteristics and a PI controller is implemented. The fractional charging configuration results in a very high current gain. A 100 kHz prototype was tested on a 300 V EV battery, achieving a converter efficiency of 97.6%. For a 400 V battery the charger can charge 4 kW at more than 98% efficiency. The power density of the charger is 3.6 kW/L.
机译:本文介绍了用于电动汽车(EV)车载充电器的分数功率转换概念的实现。需要高增益升压拓扑,并对全桥升压转换器进行效率分析。对包括Si,GAN和SiC器件在内的许多功率器件的比较得出的结论是,SiC器件非常适合此应用。利用损耗方程式和电池充电特性,可以对转换器进行优化,以在整个电池充电周期内实现低损耗。开关平均方法对小信号特征进行建模,并实现了PI控制器。分数充电配置会导致非常高的电流增益。在300 V EV电池上测试了100 kHz原型,实现了97.6%的转换器效率。对于400 V电池,充电器可以以超过98%的效率充电4 kW。充电器的功率密度为3.6 kW / L。

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