Introduction to Flat Panel Displays
(Sprache: Englisch)
Flat Panel Displays (FPDs) are a frequent feature in our daily lives, used in mobile phones, laptop computers, desktop computer monitors and TVs. Several display technologies have been developed for FPDs, such as liquid crystal display (LCD), plasma display...
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Flat Panel Displays (FPDs) are a frequent feature in our daily lives, used in mobile phones, laptop computers, desktop computer monitors and TVs. Several display technologies have been developed for FPDs, such as liquid crystal display (LCD), plasma display panel (PDP), light emitting diode (LED), organic light emitting device (OLED) and field emission display (FED).Introduction to Flat Panel Displays describes the fundamental sciences behind each display technology: LCD, PDP, LED, OLED and FED including carbon nanotubes. It contains a comparative analysis of the different display technologies in which detailed overviews of each technology are linked together so as to provide a comprehensive reference for students and display engineers, alike. Solved problems as well as homework problems are provided in each chapter to help consolidate students' reading, as well as solutions hosted on an accompanying website.Features include:* the classifications and specifications of display technologies as guidelines for developing a display and judging their performances;* principles for designing color displays with good color saturation and wide color gamut;* basic operating principles of thin-film transistors (TFTs) and their applications to state-of-the-art TFT-LCD and TFT-OLED;* an overview of FED fundamentals comprising the physics of field emission, as well as FED structure and display mechanism.Senior undergraduate and graduate students taking courses in engineering, physics and chemistry will benefit from the systematic approach used throughout the book, which will help to prepare students for entry into a display profession. Display engineers, research scientists and technicians working on the development of flat panel display technology will also find this book an invaluable resource. Comparisons of the strengths and weaknesses of each of the display technologies will help professionals to decide which to use for their applications.
Flat Panel Displays (FPD) have become a major part of our daily lives. Introduction to Flat Panel Displays describes the fundamental physics and materials of major flat panel display technologies, including LED, OLED, LCD, PDP, and FED and carbon nano-tubes. Covering the basic sciences behind each display technology while comparing the strengths and weaknesses of each, this textbook for senior undergraduate and graduate students as well as display engineers, research scientists, and technicians, includes solved problems and homework problems in each chapter to help consolidate reading.
Inhaltsverzeichnis zu „Introduction to Flat Panel Displays “
Series Editor's ForewordAbout the authors
Preface
Acknowledgements
Chapter 1: Introduction
1.1 Flat Panel displays
1.2 Emissive and non-emissive displays
1.3 Display specifications
1.4 Applications of flat panel displays
References
Chapter 2: Color Science and Engineering
2.1 Introduction
2.2 The Eye
2.3 Colorimetry
2.4 Produce and re-produce colors
References
Chapter 3: Thin Film Transistors
3.1 Introduction
3.2 Basic concepts of crystallized semiconductor materials
3.3 Disorder semiconductor
3.4 TFT characteristics
3.5 PM and AM driving schemes
3.6 Non-Si based TFTs
References
Chapter 4: Liquid Crystal Displays
4.1 Introduction
4.2 Transmissive TFT LCDs
4.3 Liquid Crystal Materials
4.4 Liquid Crystal Alignment
4.5 Homogeneous Cell
4.6 Twisted Nematic (TN)
4.7 In-Plane Switching (IPS)
4.8 Fringe Field Switching (FFS)
4.9 Alignment (VA)
4.10 Optically Compensated Bend (OCB) Cell
4.11 Transflective LCDs
4.12 Future Directions
References
Chapter 5: Plasma Display Panels
5.1 Introduction
5.2 Physics of gas discharge
5.3 PDP panels
5.4 Front plate techniques
5.5 Rear plate techniques
5.6 Assembly and aging techniques
5.7 System techniques
References
Chapter 6: Light-emitting Diodes
6.1 Introduction
6.2 Material systems
6.3 Diode characteristics
6.4 Light-emitting characteristics
6.5 Device fabrication
6.6 Applications
References
Chapter 7: Organic Light-emitting Devices
7.1 Introduction
7.2 Energy states in organic materials
7.3 Photophysical process
7.4 Carrier injection, transport and recombination
7.5 Structure, fabrication and characterization
7.6 Improvement of internal quantum efficiency
7.7 Improvement of extraction efficiency
References
Chapter 8: Field Emission Displays
8.1 Introduction
8.2 Physics of field emission
8.3 FED structure and display mechanism
8.4.
... mehr
Emitter
8.5 Panel process
8.6 Field emission array (FEA) plate techniques
8.7 Phosphor plate techniques
8.8 Assembly and aging techniques
8.9 System techniques
References
8.5 Panel process
8.6 Field emission array (FEA) plate techniques
8.7 Phosphor plate techniques
8.8 Assembly and aging techniques
8.9 System techniques
References
... weniger
Autoren-Porträt von Jiun-Haw Lee, David N. Liu, Shin-Tson Wu
Series Editor's ForewordAbout the authorsPrefaceAcknowledgementsChapter 1: Introduction1.1 Flat Panel displays1.2 Emissive and non-emissive displays1.3 Display specifications1.4 Applications of flat panel displaysReferencesChapter 2: Color Science and Engineering2.1 Introduction2.2 The Eye2.3 Colorimetry2.4 Produce and re-produce colorsReferencesChapter 3: Thin Film Transistors3.1 Introduction3.2 Basic concepts of crystallized semiconductor materials3.3 Disorder semiconductor3.4 TFT characteristics3.5 PM and AM driving schemes3.6 Non-Si based TFTsReferencesChapter 4: Liquid Crystal Displays4.1 Introduction4.2 Transmissive TFT LCDs4.3 Liquid Crystal Materials4.4 Liquid Crystal Alignment4.5 Homogeneous Cell4.6 Twisted Nematic (TN)4.7 In-Plane Switching (IPS)4.8 Fringe Field Switching (FFS)4.9 Alignment (VA)4.10 Optically Compensated Bend (OCB) Cell4.11 Transflective LCDs4.12 Future DirectionsReferencesChapter 5: Plasma Display Panels5.1 Introduction5.2 Physics of gas discharge5.3 PDP panels5.4 Front plate techniques5.5 Rear plate techniques5.6 Assembly and aging techniques5.7 System techniquesReferencesChapter 6: Light-emitting Diodes6.1 Introduction6.2 Material systems6.3 Diode characteristics6.4 Light-emitting characteristics6.5 Device fabrication6.6 ApplicationsReferencesChapter 7: Organic Light-emitting Devices7.1 Introduction7.2 Energy states in organic materials7.3 Photophysical process7.4 Carrier injection, transport and recombination7.5 Structure, fabrication and characterization7.6 Improvement of internal quantum efficiency7.7 Improvement of extraction efficiencyReferencesChapter 8: Field Emission Displays8.1 Introduction8.2 Physics of field emission8.3 FED structure and display mechanism8.4. Emitter8.5 Panel process8.6 Field emission array (FEA) plate techniques8.7 Phosphor plate techniques8.8 Assembly and aging techniques8.9 System techniquesReferences
Bibliographische Angaben
- Autoren: Jiun-Haw Lee , David N. Liu , Shin-Tson Wu
- 2008, 1. Auflage, 304 Seiten, Maße: 24,4 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 0470516933
- ISBN-13: 9780470516935
- Erscheinungsdatum: 04.12.2008
Sprache:
Englisch
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