基于交错无桥PFC和移相全桥变换器的车载电池充电器设计

2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS) Pub Date : 2020-02-01 DOI:10.1109/SCEECS48394.2020.65

Mohd Shahnawaz Khan, Shelas Sathyan, Harinaik Sugali, S. S. Chandra Bommagani

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引用次数: 5

摘要

随着直流微电网和电动汽车的发展，电池充电的应用越来越受到重视。这些系统中有许多是由公用事业提供的。AC/DC转换是由经典的二极管桥式整流完成的，这导致输入功率因数低，对公用事业供电产生不利影响。因此输入功率因数校正是主要关注的问题之一。此外，开关模式电源变换器在高工作频率时产生高开关损耗。降低开关频率并不是减少损耗的解决方案，因为更高的频率会带来许多好处，比如减小变换器的尺寸。介绍了1.5 kW高功率因数无桥交错升压变换器供电动汽车车载电池充电器的系统设计。具有高达50%额定负载的零电压开关(ZVS)的移相全桥变换器集成了高功率因数AC/DC级。本文给出了电动汽车用PFC控制器和移相全桥变换器的详细设计方法。为了验证功率级和控制器的设计，进行了PSIM仿真，并给出了仿真结果。结果表明，在全负荷工况下，功率因数大于0.99,THD小于2%，符合IEC标准。

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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Design of On-Board Battery Charger using Interleaved Bridgeless Type PFC and Phase Shifted Full Bridge Converter

With increase of DC micro grids and electrical vehicles (EV), battery charging application has gained a lot of prominence. Many of these systems are fed by utility. The AC/DC conversion is done by classical diode bridge rectification which causes low input power factor and adversely affects the utility supply. Thus input power factor correction is one of the major concerns. Also, switched mode power converter incurs high switching losses at high frequencies of operation. Reduction of switching frequency is not a solution to reduce the losses as higher frequencies yield in many advantages such as reduction in converter size. This paper describes systematic design of 1.5 kW high power factor bridgeless interleaved boost converter fed on-board battery charger for EVs. Phase shifted full bridge converter having zero voltage switching (ZVS) up to 50% of the rated load is integrated with the high power factor AC/DC stage. The detailed design methodology of PFC controller, and phase shifted full bridgeless converter for EV is given in this paper. To validate the design of power stage and controller, PSIM simulation has been carried out and results are provided. Results show that power factor is greater than 0.99 and THD is less than 2 % at full load which is under the IEC standard.

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来源期刊

2020 IEEE International Students' Conference on Electrical,Electronics and Computer Science (SCEECS)

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