A highly efficiency flashlight module based on modified fresnel lens

2014 11th China International Forum on Solid State Lighting (SSLCHINA) Pub Date : 2014-11-01 DOI:10.1109/SSLCHINA.2014.7127244

Chi‐Feng Chen, Shin-Hong Kuo

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引用次数: 1

Abstract

This study presents a design method of flashlight module with discontinuous refractive surfaces and total internal reflection (TIR) surfaces to achieve high optical qualities with thin lens. Our design is applied to the lens of 30mm focal length, which is generally the focal length of a mobile device. The flashlight module was constructed by optical simulation tool ASAP. We analyzed interrelation between the TIR surfaces and multiple optical qualities, such as the angle of light emitting and the uniformity of illuminance. The TIR surfaces were designed to maximize the uniformity and optical efficiency in the target viewing angle. After designing corresponding microstructures on the TIR surfaces, we can get a flashlight module of modified Fresnel lens with high optical qualities. Compared with the original LED source, the central illuminance improves to 1.5 times and the uniformity of target area improves to 1.3 times. This flashlight module can be used in products that require high quality photograph, such as cellphone, and tablet computer. The flashlight module of modified Fresnel lens is more energy-saving and carbon reduction due to optical efficiency increasing 1.7 times.

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一种基于改进菲涅耳透镜的高效手电筒模块

本文提出了一种具有不连续折射面和全内反射(TIR)面的手电筒模块的设计方法，以实现薄透镜的高光学质量。我们的设计应用于30mm焦距的镜头，这是一般移动设备的焦距。利用光学仿真工具ASAP构建手电筒模块。分析了红外表面与发光角度、照度均匀性等多种光学特性之间的相互关系。TIR表面的设计是为了最大限度地提高目标视角下的均匀性和光学效率。在红外表面设计相应的微结构，得到具有高光学质量的改进菲涅耳透镜手电筒模块。与原LED光源相比，中心照度提高到1.5倍，目标区域均匀度提高到1.3倍。该手电筒模块适用于手机、平板电脑等对拍照质量要求较高的产品。改进菲涅耳透镜的手电筒模块，光效提高1.7倍，更加节能减碳。

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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2014 11th China International Forum on Solid State Lighting (SSLCHINA)

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