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J. Korean Ceram. Soc. > Volume 52(4); 2015 > Article
Journal of the Korean Ceramic Society 2015;52(4): 229.
doi: https://doi.org/10.4191/kcers.2015.52.4.229
Effect of Lu3Al5O12:Ce3+ and (Sr,Ca)AlSiN3:Eu2+ Phosphor Content on Glass Conversion Lens for High-Power White LED
Hyo-Sung Lee, Jong Hee Hwang, Tae-Young Lim, Jin-Ho Kim, Dae-Woo Jeon, Hyun-Suk Jung1, Mi Jai Lee
Optic & Display Material Team, Korea Institute of Ceramic Engineering and Technology
1Department of Materials science and Engineering, Sungkyunkwan University
Currently, the majority of commercial white LEDs are phosphor converted LEDs made of a blue-emitting chip and YAG yellow phosphor dispersed in organic silicone. However, silicone in high-power devices results in long-term performance problems such as reacting with water, color transition, and shrinkage by heat. Additionally, yellow phosphor is not applicable to warm white LEDs that require a low CCT and high CRI. To solve these problems, mixing of green phosphor, red phosphor and glass, which are stable in high temperatures, is common a production method for high-power warm white LEDs. In this study, we fabricated conversion lenses with LUAG green phosphor, SCASN red phosphor and low-softening point glass for high-power warm white LEDs. Conversion lenses can be well controlled through the phosphor content and heat treatment temperature. Therefore, when the green phosphor content was increased, the CRI and luminance efficiency gradually intensified. Moreover, using high heat treatment temperatures, the fabricated conversion lenses had a high CRI and low luminance efficiency. Thus, the fabricated conversion lenses with green and red phosphor below 90 wt% and 10 wt% with a sintering temperature of $500^{circ}C$ had the best optical properties. The measured values for the CCT, CRI and luminance efficiency were 3200 K, 80, and 85 lm/w.
Key words: Remote phosphor, White LED package, Color glass, Conversion Lens, Phosphor
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