Design method for improving illumination distribution uniformity of LED plant growth light source

Zezhou Zheng, Zhiyu Ma, Rui Li, Hongyu Wei, X. Chu, Hongli Liu
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引用次数: 1

Abstract

Aiming at the problems of poor illumination uniformity and the low effective light energy utilization on the target surface of traditional plant lighting source, it is difficult to meet the requirements of efficient production of high-quality crops in plant factories. In this paper, the layout of LED plant light source was optimized according to the characteristics of RGB LED, and to find a better optimization method of LED light layout. Firstly, we conduct the research based on the characteristics of RGB LED light source. Specifically, the LED array method is simulated and analyzed using an Optical Design Software TracePro (Lambda Research Corporation), and the influence of the LED layout distribution and the distance of the light source on the illuminance was explored. Secondly, the optimal array mode is obtained through Taguchi optimization method and ANOVA theoretical analysis. The results indicate that the optimal layout is that the distance of light source is 85mm, the first term of transverse symmetric arithmetic sequence is 61mm, the first term of longitudinal symmetric arithmetic sequence is 55mm. The illumination uniformity is 83. 987% and the color-mixed uniformity is 84. 54%. This design method provides a new idea for the design of high uniformity area light source.
提高LED植物生长光源照度分布均匀性的设计方法
针对传统植物光源目标表面照明均匀度差、有效光能利用率低的问题,难以满足植物工厂高效生产优质作物的要求。本文针对RGB LED的特点,对LED植物光源的布局进行了优化,找到了一种更好的LED光源布局优化方法。首先,我们根据RGB LED光源的特性进行了研究。具体而言,利用光学设计软件TracePro (Lambda Research Corporation)对LED阵列方法进行了仿真分析,探讨了LED布局分布和光源距离对照度的影响。其次,通过田口优化法和方差分析理论分析得到最优阵列模式。结果表明,最优布局为光源距离85mm,横向对称等差序列第一项为61mm,纵向对称等差序列第一项为55mm。照度均匀度为83。98.7%,混色均匀度84。54%。这种设计方法为高均匀度区域光源的设计提供了一种新的思路。
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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