Wireless Charger Design of Robot Vacuum Cleaners with Power Repeaters for High Compatibility

Anglin Li, D. Kacprzak, A. Hu
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Abstract

Curved coils constructed by flexible printed circuit board (PCB) or hand-wound Litz-wire have been steadily becoming popular due to its applicable potential on devices that have a curved body. Inductive Power Transfer (IPT) systems based on curved coils and flexible ferrite sheets may provide more flexible charging solutions for various electronic devices such as rice cookers and robot vacuum cleaners. Power repeaters are also used in IPT systems to extend wireless charging range by guiding magnetic fields to the receiving coil. The interaction of these three topics could be inspiring. In this paper, two adjustable power repeaters are applied to an IPT charging system with various curved receiving coils designed for vacuum cleaners. Two power repeaters share the identical structure as the Tx coil and could be rotated to mirror symmetrically. The input and output power are calculated by analyzing the equivalent circuit model. The self-inductance, mutual inductance, and coupling coefficient of the proposed system are obtained via finite element method simulation with variable rotating angles. Three typical IPT designs have also been simulated in ANSYS Maxwell and compared with the proposed magnetic design. The comparison indicates the enhancing feature of the passive power repeaters on coupling performance and the ability to guide the magnetic flux for better magnetic field coupling. Furthermore, two types of co-simulations defined by the power source via Simplorer are conducted to explore how much power could be transferred. The tuned system is shown to be able to provide about 32 W under 100 kHz operating frequency for charging the battery of a robot vacuum cleaner. The results from theoretical calculation and simulation align well with each other.
具有高兼容性电源中继器的机器人真空吸尘器无线充电器设计
由柔性印刷电路板(PCB)或手工缠绕的利兹线构成的弯曲线圈由于其在具有弯曲体的设备上的应用潜力而逐渐流行起来。基于弯曲线圈和柔性铁氧体片的感应功率传输(IPT)系统可以为各种电子设备(如电饭煲和机器人真空吸尘器)提供更灵活的充电解决方案。功率中继器也用于IPT系统中,通过将磁场引导到接收线圈来扩展无线充电范围。这三个主题的相互作用可能是鼓舞人心的。本文将两个可调功率中继器应用于真空吸尘器各种弯曲接收线圈的IPT充电系统。两个功率中继器与Tx线圈共享相同的结构,并且可以旋转成对称镜像。通过分析等效电路模型,计算输入输出功率。通过变转角有限元法仿真得到了系统的自感、互感和耦合系数。在ANSYS Maxwell中对三种典型的IPT设计进行了仿真,并与所提出的磁性设计进行了比较。对比结果表明,无源功率中继器在耦合性能和引导磁通量方面具有增强的特点,从而实现更好的磁场耦合。此外,通过simplover进行了电源定义的两种类型的联合仿真,以探索可以传输多少功率。经过调谐的系统能够在100千赫的工作频率下提供约32瓦的功率,为机器人真空吸尘器的电池充电。理论计算和仿真结果吻合较好。
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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