Design of power receiving side in wireless charging system for UAV application

2017 International Conference on Sustainable Energy Engineering and Application (ICSEEA) Pub Date : 2017-07-02 DOI:10.1109/ICSEEA.2017.8267698

A. Muharam, T. Mostafa, R. Hattori

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引用次数: 21

Abstract

This paper proposes a design of power receiving side on capacitive coupling wireless power transfer for an unmanned aerial vehicle (UAV). In order to minimize a component used in the system and fitted the circuit to the drone, the realized system must be very compact and efficient. The power receiving circuit in CPT system for simple application consists of rectifier and capacitor. In an advanced method, several components added into a circuit that makes the size and weight of the system increased. In this paper, all resonant matching system is placed and controlled in the primary side, thus the secondary side circuit could have a light module with minimum components. This paper focuses on the design a secondary side of CPT consisted of a rectifier, a DC-DC buck converter, and a charging circuit. The system is designed to operate with wide range input voltage. Simulation and experimental results have demonstrated that the proposed system could obtain charging process for Li-Ion cells battery by the output power of 8 W, with the power efficiency exceeding of 77%.

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无人机无线充电系统电源接收端设计

提出了一种用于无人机容性耦合无线输电的功率接收侧设计。为了尽量减少系统中使用的组件并将电路安装到无人机上，所实现的系统必须非常紧凑和高效。简易CPT系统的功率接收电路由整流器和电容组成。在一种先进的方法中，将几个元件添加到电路中，使系统的尺寸和重量增加。在本文中，所有的谐振匹配系统都被放置和控制在一次侧，从而使二次侧电路具有最小元件的光模块。本文重点设计了由整流器、DC-DC降压变换器和充电电路组成的CPT二次侧电路。该系统被设计为在宽范围输入电压下工作。仿真和实验结果表明，该系统可以实现输出功率为8w的锂离子电池充电过程，功率效率超过77%。

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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来源期刊

2017 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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