Su Jung-Chieh, Song Siao-Fang, Chen Hung-Shing
Department of Electronics Engineering, National Taiwan University of Science and Technology, 43, Sec. 4, Keelung Road., Taipei, Taiwan.
Appl Opt. 2011 Jan 10;50(2):177-82. doi: 10.1364/AO.50.000177.
The thermal stability of blue LEDs and yellow YAG phosphor for blue-pumped white LEDs is critical to the performance of white LEDs, including the color properties and luminous efficacy. To investigate the thermal effect on the color properties of emitted white light, the junction temperature of the excitation blue LED was raised by increasing the supplied current. However, by choosing an optical filter with the appropriate transmittance spectrum for processing a portion of the blue light output and reexciting the secondary yellow emission, we observed a reduction in color instability and lower color temperature across the current range of 20-200 mA. Moreover, the color temperature distribution was improved.
用于蓝光泵浦白光发光二极管的蓝色发光二极管和黄色YAG荧光粉的热稳定性对于白光发光二极管的性能至关重要,包括颜色特性和发光效率。为了研究热对发射白光颜色特性的影响,通过增加供电电流来提高激发蓝色发光二极管的结温。然而,通过选择具有合适透过率光谱的光学滤波器来处理一部分蓝光输出并重新激发二次黄色发射,我们观察到在20 - 200 mA的电流范围内颜色不稳定性降低且色温降低。此外,色温分布得到了改善。