基于LED阵列光源的太阳模拟器

苏拾; 张国玉; 王凌云; 郑茹; 王逸文

doi:10.3788/OPE.20182602.0307

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基于LED阵列光源的太阳模拟器

现代应用光学 | 更新时间：2020-07-05

- 基于LED阵列光源的太阳模拟器
- Solar simulator based on LED array light source
- 光学精密工程 2018年26卷第2期页码：307-315
- 作者机构：
  
  1.长春理工大学光电工程学院, 吉林长春 130022
  2.光电测控与光信息传输技术教育部重点实验室, 吉林长春 130022
- 作者简介：
  
  [ "苏拾(1978-), 男, 吉林长春人, 博士, 副教授, 硕士生导师, 2012年于长春理工大学获得博士学位, 主要从事太阳模拟技术与LED应用技术等方面的研究。E-mail:sushi@cust.edu.cn" ]
  [ "张国玉(1962-)，男，吉林松原人，博士，研究员，博士生导师，2005年于长春理工大学获得博士学位，主要从事空间科学与技术、光电仪器与检测技术等方面的研究。E-mail：zh_guoyu@163.cm" ]
- 基金信息：
  
  吉林省科技发展计划重点项目(20150204048G);吉林省省级产业创新专项资金项目(2016C084);吉林省教育厅"十三五"科学技术研究资助项目(2016370)
- DOI：10.3788/OPE.20182602.0307
  中图分类号： O432.1;TN312.8
- 收稿日期：2017-05-23，
  
  录用日期：2017-6-23，
  
  纸质出版日期：2018-02-25
- 稿件说明：
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苏拾, 张国玉, 王凌云, 等. 基于LED阵列光源的太阳模拟器[J]. 光学精密工程, 2018,26(2):307-315.

Shi SU, Guo-yu ZHANG, Ling-yun WANG, et al. Solar simulator based on LED array light source[J]. Optics and precision engineering, 2018, 26(2): 307-315.
苏拾, 张国玉, 王凌云, 等. 基于LED阵列光源的太阳模拟器[J]. 光学精密工程, 2018,26(2):307-315. DOI： 10.3788/OPE.20182602.0307.

Shi SU, Guo-yu ZHANG, Ling-yun WANG, et al. Solar simulator based on LED array light source[J]. Optics and precision engineering, 2018, 26(2): 307-315. DOI： 10.3788/OPE.20182602.0307.

摘要

针对目前LED太阳模拟器辐照度低、光谱匹配性差等不足，提出一种由LED阵列光源，菲涅尔透镜、光学积分器、准直物镜组成的LED太阳模拟器。首先根据多光谱拟合理论，在400~1 100 nm优选15种不同波段的LED光源，计算出光源所需功率，实现太阳光谱的精确匹配。其次优化设计了菲涅尔透镜、光学积分器以及准直物镜，校正了太阳模拟器的像差，提高了太阳模拟器的能量利用效率以及辐照均匀性，并利用LightTools软件对所设计的光学系统进行仿真分析。最后搭建了光学系统实验装置，测试结果表明：100 mm×100 mm内的辐照度达到1 376.3 W/m

；拟合的太阳光谱匹配度达到AM1.5条件中的A级，辐照不均匀度为±1.73%，辐照不稳定度为±0.82%，综合性能指标达到太阳模拟器中的3A级水平。

Abstract

Addressing the deficiencies of solar simulators

such as low radiation intensity and poor spectral matching

an LED solar simulator consisting of an LED array light source module

Fresnel focusing lens

optical integrator

and collimator lens is proposed. Firstly

according to the principle of multispectral fitting

15 LED light sources with different wavelengths are optimally selected in the spectral range of 400-1 100 nm

and their light source power is calculated to realize an exact match of the solar spectrum. Secondly

the design of the Fresnel lens

optical integrator

and collimator lens is optimized to correct the aberrations of the sun simulator and improve its energy utilization efficiency and irradiation surface nonuniformity. The optical system is simulated using the LightTools software. Finally

an experimental device of the optical system is built

its fitted spectra reaching the A level according to the AM1.5 conditions

a radiation intensity of 1 376.3 W/m

from an area of 100 mm×100 mm

an irradiation nonuniformity of ±1.73%

and an irradiation instability of ±0.82%. The overall performance of the solar simulator satisfied the Triple-A level.

关键词

Keywords

references

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