The Preparation and Properties Study of High CRI White LED Based on Remote Phosphor Technology
LI Bo-chao1, 2, ZHUO Ning-ze2*, LI Wen-quan2,3, HE Qing-yang1, 2, HUANG Ru-xi2, LIU Guang-xi2, YE En-gan1, 2, WANG Hai-bo2*
1. College of Material Science and Engineering, Nanjing Tech University, Nanjing 210009,China 2. The Research Institute of Electric LightSource Materials, Nanjing Tech University, Nanjing 210015, China 3. Energy Science and Engineering, Nanjing Tech University, Nanjing 211816, China
Abstract:Focusing on the defects in the lighting color of LED lamps and the chip heat exists in the traditional LED package which caused phosphor performance degradation, color temperature drift and the uneven light, the remote phosphor package which is emerging in recent years is used in this paper. With yellow-green YGG phosphor and nitrogen red phosphors mixing with silica gel, the remote phosphor is made and then encapsulated as the LED lamps. A lot of experiments were made to determine the best ratio of yellow green phosphor, red phosphor and silica gel, LED lamps with different color temperature was prepared. The lamps were also tested and analyzed with some parameters such as e color coordinates, luminous efficiency, color rendering index (CRI), R9, color quality scale (CQS), color temperature, and the gamut area index (GAI), which provide a more objective and comprehensive evaluation to the high quality LED lighting. Experimental results show that the optimum ratio of red and yellow-green phosphor is 1∶7.6, and total phosphor with silica gel is 1∶5,at this time the white LED lighting color temperature is 4 113 K, the color coordinate (x, y) is (0.375 4, 0.373 1), luminous efficiency is 52.33 lm·w-1, color gamut is 0.981, color rendering index is up to 96, R9 is 97, color quality scale Qa is up to 93, and the gamut area index is 79. Compared with the traditional packaging,the surface temperature ofthe remote phosphor encapsulated fluorescent plate is much lower than that of adhesive dispensing encapsulation, which can effectively avoid the harmful effect caused by high temperature on the LED.
Key words:Remote phosphor;High color rendering index;Color quality scale(CQS);Gamut area index(GAI);White LED
李博超1, 2,卓宁泽2*,李文铨2, 3,何清洋1, 2,黄如喜2,刘光熙2,叶恩淦1, 2,王海波2* . 基于远程荧光技术的高显指白光LED的制备和性能研究 [J]. 光谱学与光谱分析, 2017, 37(03): 728-732.
LI Bo-chao1, 2, ZHUO Ning-ze2*, LI Wen-quan2,3, HE Qing-yang1, 2, HUANG Ru-xi2, LIU Guang-xi2, YE En-gan1, 2, WANG Hai-bo2*. The Preparation and Properties Study of High CRI White LED Based on Remote Phosphor Technology . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2017, 37(03): 728-732.
[1] Lei Z, Xia G, Liang T, et al. Microelectronics Journal, 2007, 38(1): 1. [2] Wang J, Wang C, Feng Y, et al. Ceramics International, 2015, 41(9): 11592. [3] Li P, Xu Z, Zhao S, et al. Materials Research Bulletin, 2012, 47(11): 3825. [4] Hur S, Song H J, Roh H S, et al. Ceramics International, 2013, 39(8): 9791. [5] Narukawa Y, Narita J, Sakamoto T, et al. Physica Status Solidi, 2007, 204(6): 2087. [6] He J. China Light & Lighting, 2009. [7] Davis W, Ohno Y. Optical Engineering, 2010, 49(3): 033602-16. [8] Mike Wood, YAO Han-chun(迈克·伍德[美] , 姚涵春). Interpretation of Science and Technology(演艺科技), 2014, (9): 15. [9] SHI Feng-hua, WANG Hai-bo(施丰华, 王海波). China Light & Lighting(中国照明电器), 2012,(4): 6. [10] XIAO Hua, Lü Yi-jun, XU Yun-xin,et al(肖 华, 吕毅军, 徐云鑫, 等). Chinese Journal of Luminescence(发光学报), 2014, 35(1): 66. [11] Tsai P Y, Huang H K, Sung J M, et al. IEEE Electron Device Letters, 2015, 36(3): 250. [12] Dong M Z, Wei J, Ye H Y, et al. Journal of Semiconductors, 2013, 34(5). [13] ZHOU Qing-chao, BO Ze-long, LU Lu,et al(周青超, 柏泽龙, 鲁 路, 等). China Optics(中国光学), 2015,(3): 313. [14] Rea M S, Freyssinier Nova J P. Color Research & Application, 2008, 33(3): 192. [15] Rea M S, Freyssinier J P. Color Research & Application, 2010, 35(6): 401.