Key Features
· Systematically discusses the principles of liquid crystal displays and active matrix addressing.
· Describes methods of enhancing AMLCD image quality.
· Extensive coverage of AMLCD manufacturing techniques.
· Thorough examination of performance characteristics and specifications of AMLCDs.
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.
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Readership
Designers of devices requiring a display. Electronics engineering students.
Active Matrix Liquid Crystal Displays, 1st Edition
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
