27.4: Design of Double Freeform Lens for Mini‐LED Backlight Modules

Digest of technical papers. SID International Symposium Pub Date : 2022-10-01 DOI:10.1002/sdtp.15929

Ling Yang, Peng Jin, Zi Wang, G. Lv, Q. Feng

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引用次数: 1

Abstract

Mini light‐emitting diodes (Mini‐LEDs) have been considered as promising light sources for direct‐lit backlight modules (BLU). To achieve uniform illumination, double freeform lenses are usually employed to redistribute rays from Mini‐LEDs. The traditional design method of a single lens under the point light source can achieve high uniformity on the observation plane. However, in the array configuration, especially when the horizontal distance between Mini‐LEDs is not equal to the vertical distance, the uniformity decreases when it is applied under the extended light source. To solve this problem, a lens design method is proposed in this paper to satisfy the requirement on uniformity. Firstly, the illuminance value is numerically calculated based on array configuration and illuminance superposition method. Then we optimize the illuminance distribution curve with the feedback method. A double freeform lens is designed based on the optimized illuminance curve. On the target plane, the simulation results show that compared with the traditional method of lens design, the uniformity improves from 77.69% to 88.03%. The design method is simple, effective, and easy to implement.

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27.4:Mini-LED背光模块的双自由曲面透镜设计

迷你发光二极管(Mini - led)被认为是直接照明背光模块(BLU)的有前途的光源。为了达到均匀照明，通常采用双自由曲面透镜来重新分配来自Mini - led的光线。传统的点光源下单透镜的设计方法可以达到较高的观测平面均匀性。然而，在阵列配置中，特别是当Mini‐led之间的水平距离不等于垂直距离时，在扩展光源下施加均匀性会降低。为了解决这一问题，本文提出了一种满足均匀性要求的透镜设计方法。首先，基于阵列配置和照度叠加法对照度值进行数值计算;然后利用反馈法对照度分布曲线进行优化。基于优化后的照度曲线，设计了双自由曲面透镜。在目标平面上，仿真结果表明，与传统的透镜设计方法相比，均匀性从77.69%提高到88.03%。该设计方法简单有效，易于实现。

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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Digest of technical papers. SID International Symposium

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