大功率发光二极管照明模块的光退化预测

2010 11th International Thermal, Mechanical & Multi-Physics Simulation, and Experiments in Microelectronics and Microsystems (EuroSimE) Pub Date : 2010-04-26 DOI:10.1109/ESIME.2010.5464613

Yen-Fu Su, Shin-Yueh Yang, W. Chi, K. Chiang

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引用次数: 11

摘要

发光二极管(LED)，一般用于指示灯，已经发展了近50年。最近，LED吸引了许多行业对其产品的研究和设计。然而，它的低电光转换效率导致多余的热量，导致结温升高和LED亮度下降。在本研究中，利用ANSYS®有限元分析软件，在适当的估计热功率和边界条件下，建立了LED模块的详细有限元模型。利用电测试方法(ETM)和热电偶测量来估计结温和散热器温度，并验证仿真结果。仿真结果与实验结果吻合，偏差为5%。在大功率LED模组的寿命测试中，本实验选取了6种结温不同的被测器件。光度变化由积分球测量系统测量。实验结果表明，不同的结温会影响光退化模式。因此，预测和控制结温对提高LED的性能具有重要意义。建立了LED模块的详细有限元模型，对其结温进行了仿真。然后，根据仿真结果预测了该LED模组的光退化模式。该方法可以快速预测大功率LED照明模块的光退化模式。

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Light degradation prediction of high-power light-emitting diode lighting modules

Light-emitting diode (LED), generally used for indicator light, has been developed for the past 50 years. Recently, LED has attracted many industries in the research and design of their products. However, its low electro-optical conversion efficiency causes redundant heat leading to increased junction temperature and decreased LED luminosity. In this research, a detailed finite element method (FEM) model of a LED module with a proper estimated thermal power and boundary conditions is established using an ANSYS® finite element analysis software. Electrical test method (ETM) and thermocouple measurement are utilized to estimate junction temperature and heat sink temperature, as well as to validate the simulation results. Results from simulation agree with experiment results at a 5% deviation. In the life test of high-power LED modules, the six tested devices had different junction temperatures were conducted in this experiment. Luminosity variations are measured by the integral sphere measurement system. Experiment results show different junction temperatures will influence the light degradation mode. Therefore, it is important to predict and control the junction temperature to improve the LED performance. A detailed FEM model of a LED module is established to simulate the junction temperature. Then, the light degradation mode of this LED module is predicted by the simulation result. This method could rapidly predict the light degradation mode of high power LED lighting modules.

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来源期刊

2010 11th International Thermal, Mechanical & Multi-Physics Simulation, and Experiments in Microelectronics and Microsystems (EuroSimE)

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