发光二极管

fā guāng èr jí guǎn
  • Light Emitting Diode;LED
发光二极管发光二极管
  1. 单支红色发光二极管表示电源已接通。

    A single red LED shows that the power is switched on .

  2. 索尼也在研究轻薄显示技术,并展示了一种柔性全彩有机发光二极管显示器。

    Sony has also been working on ever-thinner technology , demonstrating a flexible full-color organic LED display .

  3. C(60)作激子阻挡层的有机发光二极管

    Organic light-emitting-diodes by inserting C_ ( 60 ) as exciton barrier layer

  4. 显示部分主要由LED数码管、发光二极管等组成。

    Display part is mainly consist of LED digital tubes , LED .

  5. 提高发光二极管(LED)外量子效率的途径

    Enhancement of the External Quantum Efficiency of Light-emitting-diodes

  6. 白光发光二极管(LED),作为新一代半导体照明光源正在引发一场照明革命。

    Recently , white-light emitting diode ( LED ) is triggering a revolution of general illumination .

  7. 发光二极管(LED)缺陷检测工作是确保LED产品质量的必不可少的质量检验环节,具有重要的意义。

    The deformity detection of light emitting diode is an important work for quality assurance of LED .

  8. 基于GaN的半导体发光二极管(LED)和半导体激光器(LD)已被广泛应用。

    GaN based LED and laser diode have been broadly used .

  9. SiC和GaN系列蓝色发光二极管的研制

    Preparation of the SiC and GaN Series Blue Light Emitting Diodes

  10. 反向偏压下ZnS(Zn,Al)蓝色电致发光二极管

    Blue electroluminescence in reverse biased zns : ( zn , al ) diodes

  11. 本文是在对LED(发光二极管,LightEmittingdiode)行业进行详尽的实地调研基础上形成的。

    This thesis is based on the detailed research of LED ( Light Emitting Diode ) industry .

  12. 影响发光二极管(LED)颜色的光谱参数有:峰值波长、带宽、主波长和质心波长。

    Peak wavelength , bandwith , domain wavelength , and centroid wavelength are factors affecting on light color of LED .

  13. 他开始在亚伯达卡尔加里大学的实验室用发光二极管(LED)进行实验。

    He began experimenting with light-emitting diodes , LEDs , at his laboratory at the University of Calgary in Alberta .

  14. 基于MEMS的波长可调谐微腔有机发光二极管的设计

    Design of the Wavelength Tunable Microcavity Organic Light Emitting Diode Based on MEMS

  15. 建立了在单层有机发光二极管中电场强度不太大(E≤104Vcm)的情况下,载流子注入、传输和复合的理论模型。

    A model for carriers injection , transport and recombination in single layer organic light emitting diodes was presented .

  16. VOx作空穴注入层的低启亮电压有机发光二极管

    Low Turn-on Voltage Organic Light-emitting-diodes with a Hole-injecting Layer of VO_x

  17. 离子注入缺陷局域掺杂的高效率硅pn结发光二极管

    Efficient Silicon Light-emitting pn Diode Prepared by Ion Implantation Locally-doped Defects

  18. 该装置采用低廉CCD摄像机,配以可见和红外发光二极管组成。

    The device used the cheap CCD camera and visible light led and infrared ray led .

  19. 在各种新光源中,最受瞩目的就是半导体发光二极管(LED)。

    Among all sorts of new light sources , Light Emitting Diode ( LED ) is most potential for energy saving .

  20. 在分析发光二极管(LED)光色特性的特殊性和复杂性的基础上,试着寻求得到更加准确数据的测试方法。

    We try to find better methods to measure photometric and colorimetric parameters of LED after analyse its particularity and complexity .

  21. GaAs红外发光二极管的可靠性研究

    Study on the Reliability of GaAs Light emitting Diode

  22. GaN发光二极管表观电容极值分析

    Analysis of the Apparent Capacitance Extremum of GaN Light - emitting Diode

  23. 从亮度、色度、视觉及衰减等四个方面阐述用于显示屏的发光二极管的特性,并讨论在设计和制作LED显示屏时如何选择和使用发光二极管。

    This paper discusses the brightness , color , visual sense and optical attenuation of the Light-Emitting-Diodes , used in LED display-board .

  24. 换成更多节能的LED(发光二极管)灯的计划正在进行中,在保护环境的同时也抵消了能源成本。

    Plans are already underway to switch to more energy-saving LED lights , to both offset energy costs while protecting the environment .

  25. 首个此类产品原本会是一个可用智能手机应用点亮的发光二极管(LED)灯泡。

    The first of these products was meant to be an LED lightbulb that could be turned on using a smartphone app .

  26. OLED(即有机发光二极管)是继LED之后的下一代固态照明技术。

    OLED ( Organic Light-Emitting Diode ) is the next generation of solidstate lighting technology .

  27. GaN基蓝光发光二极管正向电压温度特性研究发射极基极二极管

    Temperature characteristics of the forward voltage of GaN based blue light emitting diodes

  28. GaN基发光二极管合成照明光源的开发研究

    Investigation development of synthesis lighting source GaN LED

  29. 电流拥挤效应对GaN基发光二极管可靠性的影响

    Effect of Current Crowd in g on the Reliability of GaN - based LEDs

  30. 半导体发光二极管(LightEmittingdiode,LED)是二十一世纪最具发展前途的一种新型绿色固体光源。

    Light emitting diode ( LED ) is one of the most promising green solid light sources in the twenty-first century .