Thermal Deformation Measurement for Light Emitting Diode using Digital Image Correlation Method with Spectrograph technique

Journal of the Japanese Society for Experimental Mechanics Pub Date : 2014-12-28 DOI:10.11395/JJSEM.14.238

S. Miyake, H. Taguchi, K. Morino, K. Ikeda

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Abstract

Thermal Deformation Measurement for Light Emitting Diode using Digital Image Correlation Method with Spectrograph technique Shugo MIYAKE, Hideyuki TAGUCHI, Katsuya MORINO and Ken-ichi IKEDA An effective thermal deformation measurement technique for high power light emitting diode (LED) during emitting the light was developed using digital image correlation method (DICM) with spectrograph. Camera image detected by charge coupled device (CCD) during emitting light from LED was affected by two causes, an intensity of emitting light which depends on wavelength and a radiant intensity of exothermic heat which depends on temperature. Optimization of detected wavelength by band-path filter, in consideration of emission wavelength and surface temperature of the LED with the Plank's radiation law, was absolutely improved quality of CCD camera image. The measured thermal deformation of the encapsulation resin molded the LED on epoxy glass substrate was up to 30μm in z-axis displacement over 400K of exothermic heat temperature with 350mA by the developed technique.

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利用数字图像相关法与光谱仪技术测量发光二极管的热变形

基于数字图像相关技术的发光二极管热变形测量技术三宅修(Shugo MIYAKE)、田口秀之(Hideyuki TAGUCHI)、森野克也(Katsuya MORINO)和池田健一(kenichi IKEDA)研究了基于数字图像相关技术的大功率发光二极管(LED)发光过程热变形测量技术。利用电荷耦合器件(CCD)检测LED发光过程中的相机图像受到两个因素的影响，即波长决定的发光强度和温度决定的放热辐射强度。结合普朗克辐射规律，考虑LED的发射波长和表面温度，采用带路滤波器对检测波长进行优化，绝对提高了CCD相机成像质量。采用该技术，在放热温度为400K、放热温度为350mA时，环氧玻璃基板上LED封装树脂模制的z轴热变形可达30μm。

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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Journal of the Japanese Society for Experimental Mechanics

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