投影显示

一种校正三级球差的二元全息图投影显示屏幕系统

A two-element holographic projection display screen for correction of the third-order spherical aberration

在国内首次实现全固态激光全色投影显示实验，同时提出了今后全固态激光显示的发展方向。

We first realized the projection display in large screen by the three primary lasers from all solid state laser in home-area , and presented the developing direction of all solid state laser projection .

光束扩展理论应用于LED投影显示系统

Application of Etendue Theory in LED Projection Display

LED广色域投影显示系统实时色域校准的研究

Real-time color gamut calibration of wide color gamut projection display system based on LED

LED光源作为新型光源，是目前投影显示器材的研究热点。

As a new light source , LED light source is the research focus of the projection display devices .

因此LED可以替代传统的弧光灯光源以满足投影显示的色度特性要求。

Therefore , LED can take place of conventional arc lamp to satisfy the colorimetric requirement of the projection display .

DMD微投影显示的LED光学引擎设计

Design of LED optical engine for micro-projection display of DMD

基于LCOS投影显示的LED照明设计与应用

The Application of LCOS Projection Display Based on the LED Lighting Design

该系统表明，用LCD器件实施色顺序投影显示是可行的。

The system demonstrates that color sequential projection displays are feasible with LCD devices .

随着蓝光LED的问世，LED三基色发光已齐备，近年来被逐步应用于投影显示中。

With the emergence of blue LED , trichromatic LEDs have been completed and LED has also been applied to the projection display .

用于投影显示的SCR色轮系统设计

Design of the SCR color wheel of the projection display

TIR透镜优化设计在LED微投影显示系统中的应用

Application of TIR lens optimization design in LED micro-projector

基于常规CMOS硅加工工艺的反射技术为投影显示展现了良好的前程。

Reflective technology based on standard silicon CMOS processing has emerged as a favorable direction for projection displays .

LED具有发光效率高、无红外辐射、器件小、功耗低、寿命长等特点，在投影显示系统的应用中有着传统光源无法替代的优点。

Compared to the traditional sources , the LED has the irreplaceable advantages of high efficiency , no infrared irradiation , small size , low power consumption and long lifetime .

基于LCoS投影显示的一种新型偏光转换装置

New Design for Polarization Conversion System of LCoS Projection Display

DLP投影显示系统的优势及发展前景

The Advantage and Development Foreground of DLP Projection Display System

开发以LCOS为基础的大屏幕投影显示

Develop The LCOS Based Large Screen Projector Display

DLP技术及其投影显示应用研究

DLP Technology and DLP Based Projection Display Application

DLP投影显示中的特殊技术

Special Techniques in DLP - based Projection Display

投影显示用LCoS显示芯片设计

Design of LCoS Display Chip for Projector

本文对LCOS投影显示光学系统设计理论、分析方法和系统实现进行了系统的研究。

The design theory , analysis and realization of micro LCOS Projector are studied in detail in this paper .

主要分析了LCOS投影显示的关键技术，并对LCOS投影在市场中的应用前景和发展趋势做了进一步的预测。

Furthermore , the applications prospect and the development trend of LCOS projector are discussed and forecasted as well .

本文以基于LCOS微显示芯片的微投影显示照明系统为重点，对照明系统的设计理念和模型的光学追迹结果进行了研究和分析。

So this dissertation focuses on the design principle and the simulation analysis of the illumination system for LCOS micro-projection system .

DLP技术提供了全数字投影显示，在清晰度、亮度、对比度和色彩还原方面能提供高质量的图像。

DLP technology provides all-digital projection display , offering superior picture quality in terms of resolution brightness contrast and color fidelity .

WGP偏振片在投影显示中的应用研究

Application of Wire - grid Polarizers to Projection Displays

由于采用了这些特殊技术，DLP投影显示系统获得了高质量的显示图像，其可靠性也得到了极大提高。

By adopting these special techniques , high quality display image is achieved in DLP projection display system and the reliability is greatly improved .

最近几年，薄膜晶体管液晶显示器（TFT-LCD）技术取得了快速而显著的进步，其性能超过了PDP、CRT以及投影显示。

In recent years , technologies for thin-film-transistor liquid crystal displays ( TFT-LCD ) have made fast and dramatic advancement with performance surpassing PDP , CRT , and projectors .

基于LCOS技术的投影显示更是大画面和高清晰度显示的杰出代表，并正以迅猛速度增长。

The projection display based on LCOS technology caters for the requirements of large-area image and high resolution , and grows up with vigor currently .

仿真结果表明，系统实现了高Etendue效率的照明，在0.5～0.7英寸SLM的投影显示中有潜在的应用价值。

The Emulations displayed high Etendue efficiency and proved that the four designs have potential values in 0.5-0.7 inch SLM project display .

开发了用于投影显示的Lu3+，Ga3+双掺杂的Ce，Tb∶YAG单晶绿色发光屏，但这种发光屏的外发光效率相对较低。

We have developed Lu 3 + , Ga 3 + doped Ce , Tb ∶ YAG single crystal luminescent screen used for projection display . The external efficiency of the single crystal YAG screen is relatively low .