Implementation of Burp Pulse Charging in Inductive Power Transfer Systems with LCC-Series Compensating Topology for Electric Vehicle Charger Application

2021 12th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC) Pub Date : 2021-02-02 DOI:10.1109/PEDSTC52094.2021.9405885

M. Gholipour, S. Farhangi, M. Saradarzadeh, E. Asadi

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引用次数: 3

Abstract

In recent years, inductive Wireless Power Transfer (WPT) chargers have become popular because of their advantages such as high safety, user convenience and easier access to onboard vehicle charger. However, in the conventional wireless chargers there are still contained problems such as long charging time and reduced lithium-ion battery life cycle. In this paper with implementation of Burp Pulse Charging method in the wireless power transfer system, improvement in battery charging efficiency, charging time and battery state of health are achieved. These benefits are due to the presence of rest periods in the Burp charge profile in comparison to traditional Constant Current (CC) and Constant Voltage (CV) methods. Also with the proposed soft start and stop algorithms, transient response of resonant converter in Burp pulse charging improves. The simulation results confirm the possibility of implementing Burp pulse charging in WPT system in the absence of a wireless communication link.

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lcc串联补偿拓扑在感应功率传输系统中实现脉冲充电在电动汽车充电器中的应用

近年来，感应式无线电力传输(WPT)充电器因其安全性高、使用方便、易于车载充电器接入等优点而受到广泛欢迎。然而，传统的无线充电器仍然存在充电时间长、锂离子电池寿命周期短等问题。本文通过在无线电力传输系统中实现打嗝脉冲充电方法，提高了电池的充电效率、充电时间和电池的健康状态。这些好处是由于与传统的恒流(CC)和恒压(CV)方法相比，打嗝电荷剖面中存在休息时间。提出的软启动和软停止算法也改善了谐振变换器在脉冲充电时的瞬态响应。仿真结果证实了在没有无线通信链路的情况下，在WPT系统中实现打嗝脉冲充电的可能性。

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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2021 12th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC)

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