Investigation of heat dissipation limits for high power LEDs

2016 8th International Conference on Electronics, Computers and Artificial Intelligence (ECAI) Pub Date : 2016-06-01 DOI:10.1109/ECAI.2016.7861189

Badalan Draghici Niculina, Ropoteanu Constantin, Marghescu Cristina

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Abstract

From the point of view of energy consumption, LED technology is the most efficient lighting method at present. Thermal and electrical aspects as well as mechanical issues should be considered when designing a LED lighting system. Thermal requirements are usually linked with the mechanical design, meaning that the lighting unit heat sink represents the enclosure assembly. In an attempt to obtain the optimal solution, along with the mathematical approach, simulations are needed in order to validate as well as refine the solution. The paper performs a thorough analysis concerning heat distribution in an 18W chip-on-board LED by performing both simulations and laboratory measurements. Using computational methods, a virtual LED model has been designed having the material properties as input data for a thermal solver. Furthermore, laboratory measurements were made on the LED in order to compare the results with the simulation. This thermal study offers valuable information about the limits of heat evacuation in lighting systems that use high power LEDs.

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大功率led散热极限的研究

从能耗的角度来看，LED技术是目前最高效的照明方式。在设计LED照明系统时，应考虑热、电以及机械方面的问题。散热要求通常与机械设计联系在一起，这意味着照明单元散热器代表了外壳组件。在尝试获得最优解的过程中，除了数学方法之外，还需要进行模拟以验证和改进解决方案。本文通过模拟和实验室测量对18W片上LED的热分布进行了深入的分析。利用计算方法，设计了一个虚拟LED模型，并将材料特性作为热求解器的输入数据。此外，为了与模拟结果进行比较，对LED进行了实验室测量。这项热研究提供了关于使用大功率led照明系统的热疏散限制的宝贵信息。

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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2016 8th International Conference on Electronics, Computers and Artificial Intelligence (ECAI)

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