Active Matrix Liquid Crystal Displays: Fundamentals and Applications
Willem den Boer
- 出版商: Newnes
- 出版日期: 2005-08-01
- 售價: $3,320
- 貴賓價: 9.5 折 $3,154
- 語言: 英文
- 頁數: 256
- 裝訂: Paperback
- ISBN: 0750678135
- ISBN-13: 9780750678131
-
相關分類:
物理學 Physics、電子學 Eletronics
海外代購書籍(需單獨結帳)
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商品描述
Description:
Active matrix liquid crystal displays (AMLCDs) are the preferred choice when thin, low power, high quality, and lightweight flat panel displays are required. Here is the definitive guide to the theory and applications of AMLCDs.
Contemporary portable communication and computing devices need high image quality, light weight, thin, and low power flat panel displays. The answer to this need is the color active matrix liquid crystal display (AMLCD). The rides of AMLCD technology over less than two decades to undisputed dominance as a flat panel display has been breathtaking, and designers of portable devices need a thorough understanding of the theory and applications of AMLCDs. Willem den Boer, a holder of over 30 patents in imaging technologies, has created this guide to AMLCD theory, operating principles, addressing methods, driver circuits, application circuits, and alternate flat display technologies (including active matrix flat panel image sensors). Numerous design and applications examples illustrate key points and make them relevant to real-world engineering tasks.
Table of Contents:
Preface
1. Introduction
1.1 Historical Perspective
1.2 Liquid Crystal Properties
1.3 Polarization, Dichroism, and Birefringence
1.4 The Twisted Nematic Cell
1.5 Limitations of Passive Matrix Addressing
2. Operating Principles of Active Matrix LCDs
2.1 The Case of Active Matrix
2.2 Requirements for Active Matrix Switching Devices
2.3 The Thin Film Transistor
2.4 Thin Film Silicon Properties
2.5 Amorphous Silicon TFTs
2.6 Poly-Silicon TFTs
2.7 Basic Pixel Circuit and Addressing Methods
2.8 Diode-Based Displays
2.9 Plasma-Addressed LCDs
3. Manufacturing of AMLCDs
3.1 Basic Structure of AMLCDs
3.2 Thin Film Processing
3.3 Thin Film Properties
3.4 Amorphous Silicon TFT Array Processes
3.5 Poly-Si TFT Array Processes
3.6 Color Filter Array Process
3.7 LC Cell Assembly
3.8 Module Assembly
3.9 Yield Improvements and Considerations
3.10 Trends in Manufacturing
4. AMLCD Electronics
4.1 Drive Methods
4.2 Row Select and Column Data Drivers
4.3 Timing Controllers, Display Controllers, and Interfaces
4.4 Integration of Electronics on Glass
4.5 Backlights
4.6 Power Consumption
5. Performance Characteristics
5.1 Basics of Photometry and Colorimetry
5.2 Brightness and Contrast Ratio
5.3 Viewing Angle Behavior
5.4 Color and Gray Scale Performance
5.5 Response Time and Flicker
5.6 Resolution and Size
5.7 Image Artifacts
6. Improvement of Image Quality in AMLCDs
6.1 Brightness Improvements
6.2 Readability Under High Ambient Lighting Conditions
6.3 Color Gamut Improvements
6.4 Wide Viewing Angle Technologies
6.5 Enhancement of Video Performance
6.6 Large Size
7. Special AMLCD Configurations
a. Ultra-High-Resolution Monitors and Improved Gray Scale
b. Reflective and Transflective Displays
c. Field-Sequential Color LCDs
d. Stereoscopic AMLCDs
e. Touch Screen Technologies
8. Alternative Flat Panel Display Technologies
8.1 Plasma Displays
8.2 Electroluminescent Displays
8.3 Electronic Paper and Flexible Displays
8.4 Organic Thin Film Transistors
8.5 Front and Rear Projection Displays
9. Active Matrix Flat Panel Image Sensors
9.1 Flat Panel Image Sensors
9.2 Direct Conversion Detectors
9.3 Indirect Conversion Detectors
9.4 Applications of Flat Panel X-Ray Sensors
Index
商品描述(中文翻譯)
描述:
主動矩陣液晶顯示器(AMLCD)是在需要薄型、低功耗、高品質和輕量化平板顯示器時的首選。這是關於AMLCD理論和應用的權威指南。
當代便攜式通訊和計算設備需要高畫質、輕薄、低功耗的平板顯示器。這個需求的答案是彩色主動矩陣液晶顯示器(AMLCD)。AMLCD技術在不到二十年的時間內從不爭之地崛起為平板顯示器的主導地位,便攜設備的設計師需要對AMLCD的理論和應用有透徹的了解。Willem den Boer是一位在影像技術方面擁有30多項專利的持有人,他創作了這本關於AMLCD理論、工作原理、地址方法、驅動電路、應用電路和其他平板顯示技術(包括主動矩陣平板圖像傳感器)的指南。大量的設計和應用實例說明了關鍵點並使其與實際的工程任務相關。
目錄:
前言
1. 簡介
1.1 歷史背景
1.2 液晶特性
1.3 偏振、二色性和雙折射
1.4 扭曲向列細胞
1.5 被動矩陣地址的限制
2. 主動矩陣液晶顯示器的工作原理
2.1 主動矩陣的情況
2.2 主動矩陣開關器件的要求
2.3 薄膜電晶體
2.4 薄膜矽特性
2.5 非晶矽薄膜電晶體
2.6 聚矽薄膜電晶體
2.7 基本像素電路和地址方法
2.8 基於二極管的顯示器
2.9 等離子體地址液晶顯示器
3. AMLCD的製造
3.1 AMLCD的基本結構
3.2 薄膜處理
3.3 薄膜特性
3.4 非晶矽薄膜電晶體陣列製程
3.5 聚矽薄膜電晶體陣列製程
3.6 彩色濾光片陣列製程
3.7 液晶細胞組裝
3.8 模組組裝
3.9 產量改善和考慮因素
3.10 製造趨勢
4. AMLCD電子學
4.1 驅動方法
4.2 行選擇和列數據驅動器
4.3 時序控制器、顯示控制器和接口
4.4 電子元件在玻璃上的集成
4.5 背光
4.6 功耗
5. 性能特點
5.1 光度計和色度計的基礎知識
5.2 亮度和對比度
5.3 觀看角度行為
5.4 色彩和灰度性能
5.5 響應時間和閃爍
5.6 分辨率和尺寸
5.7 圖像異常
6. AMLCD中圖像質量的改善
6.1 亮度改善
6.2 在高環境光照條件下的可讀性
6.3 色域改善
6.4 寬視角技術
6.5 視頻性能的增強
6.6 大尺寸
7. 特殊AMLCD配置
a. 超高分辨率顯示器和改進的灰度
b. 反射和半反射顯示器
c. 場序列彩色液晶顯示器
d. 立體AMLCD
e. 觸摸屏技術
8. 替代平板顯示技術
8.1 等離子顯示器
8.2 電致發光顯示器
8.3 電子紙和柔性顯示器
8.4 有機薄膜電晶體
8.5 前投影和後投影顯示器
9. 主動矩陣平板顯示技術