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| 瓦级大功率白光LED光色电特性研究 | |
| 引用本文: | 郭震宁,林介本,刘康,李建功,黄明波,黄智炜,吴利兴,林瑞梅.瓦级大功率白光LED光色电特性研究[J].现代显示,2010(7):44-48. |
| 作者姓名: | 郭震宁 林介本 刘康 李建功 黄明波 黄智炜 吴利兴 林瑞梅 |
| 作者单位: | 1. 华侨大学信息科学与工程学院,福建泉州,362021 2. 泉州紫欣光电科技有限公司,福建泉州,362000 3. 厦门光莆电子有限公司,福建厦门,361006 |
| 基金项目: | 福建省科技计划重点项目,厦门市科技计划重点项目,泉州市科技计划重点项目 |
| 摘 要: | 文章基于瓦级大功率白光LED在照明领域应用的广泛性和重要性,展开了瓦级大功率白光LED光色电特性的研究。采用大功率LED封装设备与紫外-可见光-近紫外光谱分析系统,制备并测量了瓦级大功率白色发光二极管(LED)在不同正向电流IF驱动下的光通量、电功率、发光效率、发射光谱和色品坐标等参数。研究表明,光通量与电功率随耳的增大呈亚线性增长的趋势,而荧光粉转换效率下降是影响其辐射功率的主要原因之一。当电流增大时,白光LED光谱的蓝光峰值出现先蓝移后红移的现象,而黄光部分光谱形状无明显变化。此外,色坐标x、y值均随着IF的增大而降低,主波长减小,色温值升高。 |
| 关 键 词: | 发光学 瓦级大功率白光LED 光色电特性 色温 色品坐标 |
Photometric,Chromatric,Electric Characteristics of Watt-level High Power White LED |
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| GUO Zhen-ning,LIN Jie-ben,LIU Kang,LI Jian-gong,HUANG Ming-bo,HUANG Zhi-wei,WU Li-xing,LIN Rui-mei.Photometric,Chromatric,Electric Characteristics of Watt-level High Power White LED[J].Advanced Display,2010(7):44-48. | |
| Authors: | GUO Zhen-ning LIN Jie-ben LIU Kang LI Jian-gong HUANG Ming-bo HUANG Zhi-wei WU Li-xing LIN Rui-mei |
| Affiliation: | 1. College of Information Science and Engineering, Huaqiao University, Quanzhou Fujian 362021, China; 2. Quanzhou Zixin Optoelectronic Co., Ltd., Quanzhou Fujian 362000, China; 3. Xiamen Guangpu Electronic Co., Ltd., Xiamen Fujian 361006, China) |
| Abstract: | Owing to the wide application and importance of watt level high power white LED in lighting area, the photometric, chromatric and electric characteristics of watt-level high power LED is researched. Based on high-power LED packaging equipment and UV-visible-near-ultraviolet spectroscopy system, the luminous flux, electrical power, luminous efficiency, emission spectra and color coordinates of a watt level high power LED is prepared and measured with different forward driving current 6. The experimental results show that the luminous flux and the electric power rise sub-linearly with the increase of IF, while a drop in conversion efficiency of phosphor affects its radiated power. When IF increases, the spectrum morphologies and the peak wavelength of white LED spectrum show a red-shift after the first slight blue-shift, while the yellow-green part of the spectrum shape has no significant changes. In addition, the color coordinates of x, y values become lower with the increase of IF, the dominate wavelength decreases, and the value of color temperature rises. |
| Keywords: | luminescence watt level high-power white LED photometric chromatric electric-characteristics color temperature color coordinate |
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