Improving the reliability of power LEDs with diamond boards

2023 IEEE 27th Workshop on Signal and Power Integrity (SPI) Pub Date : 2022-06-01 DOI:10.1109/SPI57109.2023.10145530

J. Mendes, Luís Rodrigues, Sushmitha Kyatam, Luis N. Alves, L. Pereira

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引用次数: 3

Abstract

High power light emitting diodes (LEDs) are much more efficient than conventional light sources like filament bulbs. Nevertheless, heat is still generated, and this directly affects the reliability of these solid-state light (SSL) devices. In order to decrease the operating temperature, these LEDs can be assembled on metal core printed circuit boards (MCPCBs). However, in applications where stability/lifetime is a critical parameter, such as space applications, diamond plates may be considered. These plates are available from manufacturers with metallized tracks for direct assemblage of surface mount devices (SMD). In order to evaluate the impact of the board on SSL reliability, high power Cree LEDs were assembled on MCPCB and diamond plates. The case temperature was measured for different current ratings and the life-time increase induced by the diamond plate was estimated based on the calculation of the acceleration factor (AF). Diamond plates were shown to have a big impact on the life-time; for nominal current level, and depending on the activetion energy of the aging processes, the LED assembled on the MCPCB will age 2.5-8.8 times faster than the one assembled on the diamond plate. For high current ratings the spectrum radiated by the LED assembled on the diamond plate was also shown to be more stable than the one on the MCPCB.

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提高采用钻石板的功率led的可靠性

大功率发光二极管(led)比灯丝灯泡等传统光源效率高得多。然而，仍然会产生热量，这直接影响了这些固态光(SSL)器件的可靠性。为了降低工作温度，这些led可以组装在金属芯印刷电路板(mcpcb)上。但是，在稳定性/寿命是关键参数的应用中，例如空间应用，可以考虑使用金刚石板。这些板可从具有金属化轨道的制造商处获得，用于直接组装表面贴装设备(SMD)。为了评估电路板对SSL可靠性的影响，在MCPCB和金刚石板上组装了大功率Cree led。测量了不同额定值下的壳体温度，并根据加速度因子(AF)的计算估计了金刚石板引起的寿命增加。钻石板被证明对寿命有很大的影响;对于标称电流水平，根据老化过程的活动力，组装在MCPCB上的LED将比组装在钻石板上的LED老化快2.5-8.8倍。对于高电流额定值，组装在钻石板上的LED辐射的光谱也显示出比MCPCB上的更稳定。

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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来源期刊

2023 IEEE 27th Workshop on Signal and Power Integrity (SPI)

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