Optimized thermal management from a chip to a heat sink for high-power GaN-based light-emitting diodes

Ray-Hua Horng; Jhih Sin Hong; Yu Li Tsai; Dong Sing Wuu; Chih Ming Chen; Chia Ju Chen

doi:10.1109/TED.2010.2053492

Optimized thermal management from a chip to a heat sink for high-power GaN-based light-emitting diodes

Ray-Hua Horng^*, Jhih Sin Hong, Yu Li Tsai, Dong Sing Wuu, Chih Ming Chen, Chia Ju Chen

^*此作品的通信作者

電子研究所

研究成果: Article › 同行評審

56 引文斯高帕斯（Scopus）

摘要

To improve heat dissipation of sapphire-based LEDs, we develop a new LED package with a dual heat spreader design. The first heat spreader is a cup-shaped copper sheet, which was directly contacted with sapphire to enhance heat dissipation of the chip itself. The second heat spreader is the die-bonding material of diamond-added AgSnCu solder and a high thermal conductive metal-core printed circuit board (MCPCB), where the conventional dielectric layer was replaced with a thin diamond-like layer. Characterization results demonstrate that the diamond-added composite solder is useful in reducing LED thermal resistance, thus avoiding the thermal accumulation phenomenon. In addition, a LED packaged on the new MCPCB exhibits smaller total thermal resistance and larger light output power.

原文	English
文章編號	5512606
頁（從 - 到）	2203-2207
頁數	5
期刊	IEEE Transactions on Electron Devices
卷	57
發行號	9
DOIs	https://doi.org/10.1109/TED.2010.2053492
出版狀態	Published - 9月 2010

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10.1109/TED.2010.2053492

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引用此

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AU - Chen, Chih Ming

AU - Chen, Chia Ju

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AB - To improve heat dissipation of sapphire-based LEDs, we develop a new LED package with a dual heat spreader design. The first heat spreader is a cup-shaped copper sheet, which was directly contacted with sapphire to enhance heat dissipation of the chip itself. The second heat spreader is the die-bonding material of diamond-added AgSnCu solder and a high thermal conductive metal-core printed circuit board (MCPCB), where the conventional dielectric layer was replaced with a thin diamond-like layer. Characterization results demonstrate that the diamond-added composite solder is useful in reducing LED thermal resistance, thus avoiding the thermal accumulation phenomenon. In addition, a LED packaged on the new MCPCB exhibits smaller total thermal resistance and larger light output power.

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Optimized thermal management from a chip to a heat sink for high-power GaN-based light-emitting diodes

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