手提电脑中使用电致发光显示屏。
薄膜电致发光显示是平板显示的主要技术之一。
Thin film electroluminescent display is one of the main flat panel displays.
主要阐述了一种无机电致发光显示器的老化技术方法。
A new type of burning method of inorganic EL device is presented in the paper.
这种担忧在消费者经常巩固安全和环境卫生电致发光显示国内法规。
Such concerns frequently underpin domestic regulation in elds of consumer safety and environmental health.
将稀土配合物应用于有机电致发光显示器件(OLED)对于实现全彩色显示具有重要意义。
The application of rare earth complexes in organic light emitting diode (OLED) is very significative for realizing full color display.
提出并设计了一种有机电致发光显示器交流电压驱动电路,在验证此电路性能的同时也对有机电致发光显示器在交流驱动下的特性进行了测试。
The relevant test and research show that the AC-driving circuit functions excellently, realizing AC driving and restraining the cross talk, and the lifetime of OLED can be improved greatly.
红色发光材料一直是有机电致发光中较为稀缺的材料,也是电致发光全色显示不可缺少的材料。
Up to date, the red light emitting materials used in organic electroluminescence, which are highly required in full color display, remain rare.
有机电致发光器件(OLED)的一个重要用途是在平板显示领域。
Organic light-emitting device (OLED) is a promising candidate for next generation flat plane display (FPD).
有机材料本身固有的宽谱带发射使有机电致发光器件的色度难以达到全色显示所要求的饱和色。
Due to the intrinsic broad spectra of the organic materials the chroma of the organic light emitting diode (OLED) can not meet the need of the full color display.
新型主战飞机用电致发光屏是一种新型的飞机座舱仪表信号显示屏,是基于电致发光(EL)原理而制作的,用于飞机座舱仪表照明显示。
The electroluminescent phosphors are the important materials of new type cabin signal display EL screen used for displaying the data of the main battle aircraft.
无机电致发光(EL)平板显示是一项有着广泛应用前景的自发光型平板显示技术。
Inorganic electroluminescent (el) display is an emissive type of flat panel display technology with great potential for broader areas of application.
有机电致发光因其在平板显示领域的广阔应用前景而成为重要的研究领域之一。
Organic light-emitting diode (OLED) has become an important research area due to its potential applications in flat panel displays field.
本文在简单介绍了无机电致发光光柱的结构及生产工艺的基础上,对其静态驱动显示技术进行了详细的讨论。
The paper emphasizes on the static driving and displaying technology of the inorganic electroluminescence bar graphic display, based on the simple introduction of its structure and technics.
基于以上理论和技术,实现了具有一定性能的有机电致发光二极管和七段数码显示。
Based on above principles and techniques, we demonstrate both organic light-emitting diodes and seven segment OLED display having adequate performance for display applications.
有机电致发光因其在平板显示领域具有广阔的市场前景而成为重要的研究领域之一。
Organic light-emitting diode (OLED) has become become a new important area due to its potential applications in flat panel displays.
有机电致发光(OELD)是近年来国际上的一个研究热点。有机电致发光器件具有低压驱动、高亮度、高效率以及能实现大面积彩色显示等优点。
Organic electroluminescent devices (OELD) have such advantages as low-voltage driving, high luminosity, high efficiency and large-area color display which can be realized.
有机电致发光器件具存低压驱动、高亮度、高效率以及能实现大面积彩色显示等优点。
Organic electroluminescent devices have such advantages as low-voltage driving, high luminosity, high efficiency and large-area color display which can be realized.
作为有机led平板显示器的物质基础,电致发光(EL)材料是直接影响其器件性能的关键因素。
As the foundation of organic LEDs, electroluminescent (el) materials are one of the key factors influencing the device performance.
有机电致发光二极管显示技术与液晶、等离子等平板显示技术相比具有很多优势及市场竞争力,被称为第三代显示技术。
Organic Light-emitting Diode(OLED), possessing many kind of advantages, and market competitive potentials over LCD and PDP et al, is called the third generation display technology.
新型红色有机电致发光材料的研究和开发对有机发光器件的全彩色平板显示具有重要意义。
It is vitally important to research the red emitting materials for developing full-color display of OLEDs.
某些材料是电致发光的,电致发光效应已经用于显示器背光的结构中。
Certain materials are electroluminescent, and this electroluminescent effect has been used in the construction of backlights for displays.
某些材料是电致发光的,电致发光效应已经用于显示器背光的结构中。
Certain materials are electroluminescent, and this electroluminescent effect has been used in the construction of backlights for displays.
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