Liquid Crystal Displays - Ernst Lueder

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14.3 The Dynamics of Switching by TFTs 14.4 Bias-Temperature Stress Test of TFTs 14.5 Drivers for AMLCDs 14.6 The Entire Addressing System 14.7 Layouts of Pixels with TFT Switches 14.8 Fabrication Processes of a-Si TFTs 14.9 Addressing of VA Displays 14.10 Motion Blur 14.11 The Optical Response of a VA Cell 14.12 Reduction of the Optical Response Time by a Special Addressing Waveform References

      25  15 Addressing of LCDs with Poly-Si TFTs 15.1 Fabrication Steps for Top-Gate and Bottom-Gate Poly-Si TFTs 15.2 Laser Crystallization by Scanning or Large Area Anneal 15.3 Lightly Doped Drains for Poly-Si TFTs 15.4 The Kink Effect and its Suppression 15.5 Circuits with Poly-Si TFTs References

      26  16 Liquid Crystal on Silicon Displays 16.1 Fabrication of LCOS with DRAM-Type Analog Addressing 16.2 SRAM-Type Digital Addressing of LCOS 16.3 Microdisplays Using LCOS Technology References

      27  17 Addressing of Liquid Crystal Displays with Metal-Insulator-Metal Pixel Switches References

      28  18 Addressing of LCDs with Two-Terminal Devices and Optical, Plasma, Laser and e-beam Techniques References

      29  19 Components of LCD Cells 19.1 Additive Colours Generated by Absorptive Photosensitive Pigmented Colour Filters 19.2 Additive and Subtractive Colours Generated by Reflective Dichroic Colour Filters 19.3 Colour Generation by Three Stacked Displays 19.4 LED Backlights 19.5 Cell Assembly References

      30  20 Projectors with Liquid Crystal Light Valves 20.1 Single Transmissive Light Valve Systems 20.2 Systems with Three Light Valves 20.3 Projectors with Two LC Light Valves 20.4 A Rear Projector with One or Three Light Valves 20.5 A Projector with Three Optically Addressed Light Valves References

      31  21 Liquid Crystal Displays with Plastic Substrates 21.1 Advantages of Plastic Substrates 21.2 Plastic Substrates and their Properties 21.3 Barrier Layers for Plastic Substrates 21.4 Thermo-Mechanical Problems with Plastics 21.5 Fabrication of TFTs and MIMs at Low Process Temperatures 21.6 Transfer of High Temperature Fabricated AMLCDs to a Flexible Substrate References

      32  22 Printing of Layers for LC Cells 22.1 Printing Technologies 22.2 Surface Properties for Printing 22.3 Printing of Components for Displays 22.4 Cell Building by Lamination References

      33  23 Advances of TFTs and Structures for Enhancing Mobility 23.1 Physical Properties of Oxide Semiconductors 23.2 Mobility and Other Performance Criteria of TFTs 23.3 Materials and Structures for the Fabrication of Oxide TFTs 23.4 Printing of TFTs 23.5 Flexible Displays 23.6 Organic TFTs 23.7 LC Materials with a Short Switching Time References

      34  24 Fringe-Field Switching (FFS) Technologies 24.1 Evolution of LC Technologies in TFT-LCDs 24.2 Fundamentals of the FFS Mode 24.3 Pixel Structure of the FFS Mode References

      35  25 Automotive

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