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Addressing Techniques of Liquid Crystal Displays.

Unique reference source that can be used from the beginning to end of a design project to aid choosing an appropriate LCD addressing technique for a given application This book will be aimed at design engineers who are likely to embed LCD drivers and controllers in many systems including systems on...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Ruckmongathan, Temkar N.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : Wiley, 2014.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Addressing Techniques of Liquid Crystal Displays; Contents; Series Editors Foreword; Acknowledgements; 1 Introduction; 2 Liquid Crystal Displays; 2.1 Matrix Displays; 2.2 Display Fonts and Formats; 2.3 Liquid Crystals; 2.4 Physical Properties of Liquid Crystals; 2.5 Basics of Electro-optic Effects with Liquid Crystals; 2.6 Twisted Nematic Effect; 2.7 Super Twisted Nematic (STN)-LCD; 2.8 STN-LCD with a 270° Twist (STN-270); 2.9 STN-LCD with a 180° Twist (STN-180); 2.10 In-plane Switching; 2.11 Ferroelectric LCD (FLCD); 2.12 Summary; 3 Review of Addressing Techniques; 3.1 Addressing Techniques.
  • 3.2 Matrix Addressing3.3 Nonlinear Characteristics; 3.4 Cross-Talk in a Matrix LCD; 3.5 Driving Matrix Displays; 3.6 Bi-phase Addressing; 3.7 Line-by-Line Addressing (LLA); 3.8 Half-Select Technique; 3.9 Two-Third-Select Technique (TTST); 3.10 Selection Ratio (SR) and the Maximum Selection Ratio; 3.11 Limitations of Matrix Addressing; 3.12 Principle of Restricted Pattern Addressing; 3.13 Pulse Coincidence Technique (PCT); 3.14 Pseudo Random Technique (PRT); 3.15 Restricted Pattern Addressing Technique (RPAT); 3.16 Addressing Technique for Dial Type Displays; 3.17 Frame Frequency.
  • 3.18 Large Area Display3.19 Dielectric Relaxation; 3.20 Supply Voltage of Drivers; 3.21 Nonuniformity Due to Resistance Mismatches; 3.22 Need for Multiline Addressing Techniques; 4 Binary Addressing; 4.1 Principle; 4.2 Binary Addressing Technique (BAT); 4.3 Analysis of the BAT; 4.4 Practical Aspects of the BAT; 4.5 Drivers for Driving the LCD with the BAT; 5 Orthogonal Functions and Matrix Addressing; 5.1 Orthogonal Functions; 5.2 Multiplexing; 5.3 Matrix Addressing; 5.4 Line-by-Line Addressing; 5.5 Multiline Addressing; 5.6 Discussion; 6 Active Addressing; 6.1 Principle.
  • 6.2 Active Addressing Technique (AAT)6.3 Summary; 7 Hybrid Addressing; 7.1 Principle; 7.2 Hybrid Addressing Technique (HAT); 7.3 Analysis of the HAT; 7.4 Drivers of the Hybrid Addressing Technique; 7.5 Discussion; 8 Improved Hybrid Addressing; 8.1 Principle; 8.2 Improved Hybrid Addressing Technique (IHAT); 8.3 Analysis of IHAT; 8.4 Discussion; 9 Improved Hybrid Addressing Special Case 3; 9.1 Principle; 9.2 Analysis; 9.3 Summary; 10 Improved Hybrid Addressing Special Case 4; 10.1 Principle; 10.2 Analysis; 10.3 Summary; 11 Sequency Addressing; 11.1 Principle; 11.2 Technique; 11.3 Discussion.
  • 12 Restricted Pattern Addressing12.1 Principle; 12.2 Technique; 12.3 Analysis; 12.4 Summary; 13 Review of Methods to Display Greyscales; 13.1 Greyscales in Liquid Crystal Displays; 13.2 Basics of Greyscale; 13.3 Frame Modulation; 13.4 Pulse Width Modulation; 13.5 Row Pulse Height Modulation; 13.6 Data Pulse Height Modulation; 13.7 Summary; 14 Amplitude Modulation; 14.1 Principle; 14.2 Amplitude Modulation
  • Split Time Interval; 14.3 Amplitude Modulation in Multiline Addressing; 14.4 Pulse Height Modulation; 14.5 Discussion; 15 Successive Approximation; 15.1 Principle; 15.2 Technique.