pdps

Development and outlook for PDPs

等离子体显示的发展现状和前景展望

Technologies for High Quality TV Image on PDPs

高品质等离子电视图象技术

Comments on Process of Electrode and Barrier Rib for Color PDPs

彩色PDP电极和障壁制作技术评述

The PDPs are configured to support various conditions and react accordingly .

PDP可以支持各种条件并相应地做出反应。

The phosphor in PDPs is coated by screen printing method .

PDP中的荧光粉是通过丝网印刷的方法涂敷的。

Relative Ratio Method for Evaluating DFC in Color PDPs

彩色PDP动态假轮廓的评价方法&相对比值法

Simulation of Motion Artifacts in LCDs and PDPs Based on Temporal Response Curves

基于实际响应曲线的PDP运动伪像模拟计算及仿真

The market prospects of PDPs are very broad .

等离子市场前景非常广阔。

Image Data Processing Based on Single-Memory in PDPs

基于单存储器架构的PDP图像数据处理方法

Sand-blasting Constant and its application in the Process controll of Color PDPs

喷砂常数及其在彩色PDP喷砂工艺控制中的应用

The current and potential processes of electrode and barrier rib for color PDPs are reviewed .

简要介绍了当前流行的和具有发展潜力的彩色PDP显示屏的电极和障壁制作技术，并对它们的优缺点和发展前景作出了相应的评述。

A simulation method is proposed to predict the motion artifacts of plasma display panels ( PDPs ) .

针对目前等离子显示屏普遍存在的运动伪像问题，提出了一种新颖的模拟计算方法，该方法实现了对等离子体显示屏运动伪像的准确、快速估计。

Color Plasma Display Panels ( PDPs ) is one of the important developing trends in the flat display field .

等离子体显示器已成为平板显示领域主要发展方向之一。

Policies are built into systems establishing policy decision points ( PDPs ), where events are defined and decisions made .

包含策略的系统要建立策略决策点（PDP），在这些点上定义事件并做出决策。

Governance plays a crucial role in defining PDPs and PEPs as well as their behavior .

治理在定义PDP和PEP以及它们的行为方面起关键作用。

Calculations of the Luminous Efficiency on Color PDPs

彩色PDP发光效率的计算

The nozzle rate controlled formula and uniformity controlling method of sand-blasting process for color PDPs is introduced and studied .

研究和引入了彩色PDP的喷砂工艺均匀性控制方法和喷头速率控制公式。

For the improvement of TV image quality on plasma displays ( PDPs ), one of the most important technologies is video signal processing .

视频信号处理是改善等离子电视显示图象质量最重要的技术之一。

Registries may delegate certain PDPs and PEPs to their constituent nodes .

注册中心可能将某些PDP和PEP授权给它们合法的节点。

To some extent , whether mastering the PDPs ' advanced manufacturing technology or not marks the based manufacturing capacity of the nation .

在某种程度上，是否掌握先进的等离子制造技术标志着国家基础制造能力的高低。

SAML authorities can be further specified as authentication authorities , attribute authorities , or PDPs .

SAML权威可进一步划分为验证权威、属性权威或者PDP。

The selection method of low fusing point glass for sealing PDPs and the sealing technique of PDPs are introduced in this paper .

本文介绍了用于PDPs封接的低溶玻璃材料的选择方法和PDPs的封接工艺。

PDPs Meet Needs for Large-Capacity High-Brightness Display

大容量高亮度的等离子体显示板

PDPs and LCDs are now the most competitive candidates in market of the large-screen display terminal product .

在大屏幕娱乐平板显示终端产品领域，目前最主流产品是等离子体显示屏和液晶屏。

Micro-phase structure of the PDMS / PDPS block copolymer was studied by blend phase diagram , IR spectrum and X-ray diffraction .

采用共混相图、红外光谱和X射线的方法研究了PDMS/PDPS嵌段共聚物的微相结构，结果表明PDMS和PDPS存在微相分离现象；

It is demonstrated that they are effective in lowering the firing and sustaining voltage of PDPs and enhancing the brightness of the panel as well .

现已证实：它们在降低PDP的着火和维持电压方面是有效的，且能提高PDP的亮度。

The PDP-15 was implemented with TTL-integrated circuits , unlike earlier PDPs , which were built from discrete transistors .

不同于早期的PDP（其从分散的晶体管构建），PDP-15通过TTL集成的电路实现。

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 .

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。

The importance of the printing process in PDPs is described in the paper , and the process for barrier ribs , phosphor layer and addressing electrodes is described in detail .

本文介绍印刷技术在PDP中的重要性，具体介绍用印刷法制造隔栅，荧光粉层和选址电极。

High power consumption of high voltage and high speed circuits , useless power consumption of parasitic capacitor , and low luminous efficiency are the main causes for the high power consumption of color PDPs .

目前彩色PDP的功耗比较大，这主要是由于它的发光效率比较低，高压高速电路损耗较大，以及显示屏寄生电容的充、放电而带来的无用功耗比较大而造成的。