半导体光电, 2018, 39 (6): 793, 网络出版: 2019-01-10  

具有ODR结构的高压倒装氮化镓基发光二极管

High-Voltage Flip-Chip GaN LED with ODR Structure
作者单位
厦门乾照光电股份有限公司, 福建 厦门 361101
摘要
通过在传统ITO+DBR膜系结构基础上令电极金属与DBR层形成ODR(全角反射镜)膜系结构的方法, 设计并制备了具有ODR结构的高压倒装氮化镓基发光二极管, 有效提高了LED芯片的光效。ODR结构由DBR(分布布拉格反射镜)层上联接芯粒的电极金属和DBR层组成, 经过理论分析和计算, 与传统ITO+DBR结构器件相比, 在400~550nm波长范围、全角度入射时平均反射率Rave从86.25%提升到了96.71%。实验制备了传统ITO+DBR结构和ODR结构的3颗芯粒串联的高压倒装氮化镓基 LED器件, 尺寸为0.2mm×0.66mm, ODR结构器件的有效反射结构面积增加了4.8%, 饱和电流增加了12mA, 用3030支架封装后在30mA的测试电流下, 电压降低了0.163V, 辐射功率提升了3.78%, 在显色指数均为71时光效提升了5.42%。
Abstract
The high-voltage flip-chip (HVFC) GaN light-emitting diodes (LED) with omni-directional reflector (ODR) structure was optimized on the basis of traditional indium-tin-oxide (ITO)+ distributed bragg Bragg reflector (DBR) structure, thus the luminous efficiency is greatly improved. The ODR structure is composed of the electrode metal and DBR layer connected with core particles on the DBR layer. After theoretical analysis and calculation, it is shown that, compared with the traditional ITO+DBR structure devices, the average reflectivity is increased from 86.25% to 96.71% under full angle incidence in the wavelength range of 400~550nm. High pressure inversion gallium nitride LED devices were prepared with series-wound traditional ITO+DBR structure and the three core grains of the ODR structure. The device size is 0.2mm×0.66mm, the effective reflection area is increased by 4.8%, and saturation current is increased by 12mA. After being encapsulated with 3030 stents, and under the test current of 30mA, the voltage is decreased by 0.163V, radiation power is increased by 3.78%, and the luminous efficiency is increased by 5.42% when the color rendering index is 71. The NP-METAL which connected cells of LED was put on the DBR layer and make up the ODR structure, the average reflectance Rave over the wavelength from 400nm to 550nm and the incident angle from 0° to 90° would increase from 86.25% to 96.71%, compared with the traditional structure. The 3 cells connected in series were formed in the 0.2mm×0.66mm HVFC LED chip. Compared to the chip with traditional structure, the chip with ODR structure which had double ISO layers would increase 4.8% effective reflection area, when test current was 30mA bonded in emc3030, could decrease 0.163V Voltage, increase 3.78% radiant powerand increase 5.42% luminous efficiency at Ra 71.

周弘毅, 魏振东, 刘英策, 吴奇隆, 李俊贤, 陈凯轩. 具有ODR结构的高压倒装氮化镓基发光二极管[J]. 半导体光电, 2018, 39(6): 793. ZHOU Hongyi, WEI Zhendong, LIU Yingce, WU Qilong, LI Junxian, CHEN Kaixuan. High-Voltage Flip-Chip GaN LED with ODR Structure[J]. Semiconductor Optoelectronics, 2018, 39(6): 793.

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