Design, simulation and characterization of fly-eye lens system for optical wireless power transmission

Katsuta Yuki; Miyamoto Tomoyuki

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Design, simulation and characterization of fly-eye lens system for optical wireless power transmission

机译：光学无线动力传输蝇透镜系统的设计，仿真与鉴定

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Optical wireless power transmission (OWPT) has numerous advantages. To obtain high efficiency of the OWPT, the fly-eye lens system is attractive for improving system efficiency due to the suppression of light leakage and non-uniform light irradiation. Numerical design and analysis were performed to obtain the optimal configuration of the lens system. From the experiment, a rectangular and uniform irradiated pattern was confirmed, and the power transmission characteristics were characterized. Furthermore, we proposed a configuration that can increase the allowable incident angle by attaching a fly-eye lens to the solar cell side. This configuration is effective as a construction method of the OWPT system that can ease the installation and improve the reliability of beam position fluctuation. (C) 2019 The Japan Society of Applied Physics

机译：光学无线电力传输（OWPT）具有许多优点。为了获得高效率的OWPT，由于抑制了漏光和不均匀的光照射，飞眼透镜系统对于提高系统效率具有吸引力。进行数值设计和分析以获得透镜系统的最佳配置。从实验中，确认了矩形和均匀的照射模式，表征了动力传递特性。此外，我们提出了一种可以通过将蝇透镜附接到太阳能电池侧来增加允许入射角的配置。这种配置作为OWPT系统的施工方法是有效的，可以缓解安装和提高光束位置波动的可靠性。（c）2019年日本应用物理学会

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《Japanese journal of applied physics》 |2019年第sj期|SJJE02.1-SJJE02.8|共8页
作者
Katsuta Yuki; Miyamoto Tomoyuki;
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Tokyo Inst Technol FIRST Midori Ku R2-39 4259 Nagatsuta Yokohama Kanagawa 2268503 Japan;

Tokyo Inst Technol FIRST Midori Ku R2-39 4259 Nagatsuta Yokohama Kanagawa 2268503 Japan;

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Design, simulation and characterization of fly-eye lens system for optical wireless power transmission

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