Ching-Bei Lin, R. Horng, Yu-Li Tsai, D. Wuu, Heng-I. Lin
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引用次数: 0
摘要
为了提高蓝宝石基发光二极管(led)的吸光效率和散热性能,研制并优化了与蓝宝石紧密接触电铸铜散热片。仿真结果表明,与不含铜的LED相比,含铜LED的结温降低。此外,底部凸出的铜包围LED与底部平坦的LED表现出几乎相同的热性能。在实际制造中,所有带有铜的LED样品都显示出结温从原始LED的150.4°C显著降低到注入电流为1 A (~ 3 W/mm2)时的100°C以下。在相同的驱动电流下,封装的LED的输出功率为~ 700mw,是未使用铜的原始LED的2.7倍。
Optimization design of cup-shaped copper heat spreaders for high-power InGaN/sapphire LEDs
To improve light extraction efficiency and heat dissipation of sapphire-based light-emitting diodes (LEDs), we develop and optimize copper heat spreader which was electroformed in close contact with sapphire. On the basis of simulation results, an LED with copper lowers junction temperature when compared with the LED without copper. In addition, a copper-surrounded LED with protruded bottom surface exhibits almost the same thermal performance as that with flat bottom surface. In practical fabrication, all the LED samples with copper show significant reduction in junction temperature form 150.4°C for the original LED to less than 100°C at injection current of 1 A (∼ 3 W/mm2). The encapsulated LED at the same driven current yields an output power of ∼700 mW, which is 2.7 times higher than that of the original LED without copper.
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