平板显示器件

本论文通过查阅大量的资料文献，对几种主要的平板显示器件显示原理进行分析，最后从显示控制电路的改进上考虑，提出一种基于像素复用的虚拟显示算法，提高平板显示器件显示分辨率。

This dissertation analyzes the principle of several kinds of primary FPD through consulting with many data and literature and considers improving the driving circuit , in the last puts forward a arithmetic of virtual display based on multiplexing of pixels . to improve the resolution of FPDs .

平板显示器件、固体摄象器件及应用技术学术会议在南京召开

Symposium on Flat Panel Display Devices , Solid Pick-up Devices and Their Application Technique Was Held in Nanjing

平板显示器件通用驱动电路IP核的设计

Design of an IP Core for General Flat Panel Displays Driver

基于FPGA的平板显示器件驱动电路的设计

Design of Driving Circuit for Flat Panel Display Based on FPGA

介绍了一种全新的平板显示器件通用驱动电路IP核的总体设计。

A novel IP core for Flat Panel Displays ( FPD ) driver has been designed .

FED平板显示器件封接及除气工艺的研究

Investigation on FED Sealing and Gas Exhausting Technique

场发射显示器件（FED）正在成为新一代平板显示器件。

Field emission display ( FED ) is becoming a new generation of flat panel display ( FPD ) .

液晶显示（LCD：LiquidCrystalDisplay）器件是众多平板显示器件中发展最成熟、应用面最广、已经产业化并且仍在迅猛发展的一种显示器件。

Liquid Crystal Display ( LCD ) is one of the most maturely developed and widely applied flat panel displays , which has already industrialized and is still under developing .

平板显示器件由于具有厚度薄、重量轻、驱动电压低、无X射线等优点，在与CRT的竞争中具有越来越强的优势。

The flat panel display ( FPD ) has many special advantages , such as thin thickness , light weight , low drive voltage , no X-ray .

仿真结果表明：FPGA设计的控制电路，能够在阵列型彩色平板显示器件上实现超分辨率显示，水平分辨率由原来的384提高到1152。

The results indicate that the realization of this technique on color array display panel can be obtained by FPGA device easily , improving the horizontal resolution from 384 to 1 152 .

场发射显示器件（FED）是一种新型平板显示器件，具有超高分辨率、超高清晰度、响应快、视角宽、能耗低、易携带等诸多优点。

Field emission display ( FED ) is a novel flat panel display with the adventages of super-high resolution and definition , fast response , wide-angle , low energy consumption , easy carried and so on .

场致发射显示器集CRT的高显示质量和LCD的低功耗优点于一身，是一种新兴的具有广阔发展潜力的自发光平板显示器件。

As a new self-luminous flat panel display technology , field emission display ( FED ) has great potential for development , with the advantages of high display-quality of CRT and low power consumption of LCD .

彩色等离子体平板显示器件已经成为信息显示领域重要发展方向之一，荧光粉对PDP器件的性能起着决定性的作用。

Color Plasma Display Panels ( PDPs ) has become one of the important developing trends in the information display field , phosphor is of critical role to the performance of PDPs .

为了获得良好的视觉效果，数字HDTV要求大屏幕的平板显示器件，投影技术能满足HDTV的大屏幕、纯平面和薄型的显示要求而成为HDTV的一种显示技术。

Digital HDTV needs flat panel display to obtain the fine visual effect , projection technology have become into a new display technology since it 's fit for big screen , real flat and thin panel .

OLED具有主动发光、重量轻、厚度薄、高亮度、快速响应、高清析度、低电压、高效率、可以在各种恶劣环境下工作等优点，未来OLED器件最有可能替代LCD平板显示器件。

OLED , which has the merits such as active luminescence , light weight , thin thickness , high brightness , fast response , high definition , low voltage , high efficiency and so on , is a potential substitute for LCD .

全球平板显示器件用玻璃的发展

The development of glass substrate for flat panel display in the world

平板显示器件框架玻条的机械化切割法

Mechanized Manufacture of Frame Glass Strip in Flat Display Devices

平板显示器件技术与进展

Development and Technology Trends of Flat Panel Display

场发射平板显示器件亮度非均匀性校正方法的研究

A Study of the Correction Method to Improve Luminance Uniformity on Field Emission Display

场发射平板显示器件

Flat Panel Display based on Field Emission

在此基础上本文研究了平板显示器件对亮度均匀性的要求。

Based on this criterion , the requirement of luminance uniformity on flat panel displays is also studied .

薄膜电致发光平板显示器件

TFEL Panel Display Devices

要制造出高质量的场发射平板显示器件，不仅需要高性能的阴极，还需要与之相匹配的阳极荧光层以及先进的器件封装技术。

To make high quality of FED , not only superior cathode but also matching fluorescent anode and advanced sealed vacuum technique are needed .

建立了矩阵式平板显示器件亮度非均匀性校正的物理模型，并近似成相应的数学模型；

The physical model of luminance nonuniformity on matrix flat panel display is established and the corresponding approximate mathematic model is established to find the optimized parameter .

首次提出采用亮度不均校正的方案解决场发射平板显示器件中微尖阵列均匀性问题；

In this paper , the luminance nonuniformity correction method is proposed to solve the uniformity problem of micro tips array on field emitting displays for the first time .

世界显示产业正处在由传统的阴极射线管向平板显示器件转型的时刻，这为中国显示企业赶超世界平板显示企业提供了有利的契机。

The world display industry is transferring from conventional cathode ray tube to flat panel display ; this gives Chinese display enterprise a opportunity to overtake foreign FPD enterprise .

其中，使用磷光材料的平板显示器件内量子效率理论上可以达到100%，比仅利用荧光材料的器件的效率高很多。

Among , take advantage of phosphorescent materials , the interior quanta efficiency of is up to 100 % , In theory , which is much higher than fluorescence materials .

场发射平板显示器件由于具有高亮度、体积小、低能耗、高视觉性能等优点，深受众多研究者的青睐。

Field emission display ( FED ) was given much attention by many researchers for its advantages such as high luminance , thin structure , low power consumption , and high visual property .

利用钙钠玻璃作为阴极和阳极面板，并采用低熔点玻璃粉进行高温烧结，制作了三极管型的碳纳米管阴极场致发射平板显示器件样品。

The triode field emission display sample with carbon nanotube emitters was fabricated by the high temperature sintering process of low-melting-point glass frit , with the lime-soda flat glass as rear and front faceplate .

本文初步探讨了真空技术在：纳米加工、微电子电路、平板显示器件、光电传感器和微机电系统制造等航空机电产品关键制造技术开发中的应用。

The latest progress of vacuum technology applications is tentatively discussed in the development of various emerging technologies , including nano-fabrication , integration of microelectronic circuits , and fabrication technologies of flat panel display devices , photo-electronic sensors , and micro electromechanical systems .