Developing a standard measurement and calculation procedure for high brightness LED junction temperature

M. Arik, Kaustubh Kulkarni, C. Royce, S. Weaver
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引用次数: 7

Abstract

White light emitting diodes (LEDs) are appearing in general illumination applications. Clusters of such LEDs can replace an incandescent light bulb of equal luminosity on the merit of considerably low power consumption. However the optical performance and working life of these LED packages are strongly dependent on the temperature of the p-n junction of the LED. Hence it is very critical to determine the temperature of the junction. Three methods - forward voltage change, peak wavelength shift and infrared thermal imaging are employed to determine the junction temperature. Forward voltage change method is found to be the most accurate method (± 3 °C) for an optimized set of parameters. Analytical model is proposed for the thermal transient behavior of the LED junction and the predictions are compared with experimental results. A good agreement is observed between that of two experimental methods. Thermal resistance of the LED package is estimated analytically and experimentally. Experimental values show a larger variation than expected through material property variation.
开发了高亮度LED结温的标准测量和计算程序
白光发光二极管(led)正出现在一般照明应用中。这样的led簇可以取代同等亮度的白炽灯泡,其优点是相当低的功耗。然而,这些LED封装的光学性能和工作寿命强烈依赖于LED的pn结的温度。因此,确定结的温度是非常关键的。采用正向电压变化、峰值波长位移和红外热成像三种方法确定结温。对于一组优化的参数,发现正向电压变化法是最精确的方法(±3°C)。提出了LED结热瞬态行为的解析模型,并与实验结果进行了比较。两种实验方法的结果吻合得很好。对LED封装的热阻进行了分析和实验估计。由于材料性能的变化,实验值的变化比预期的要大。
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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