Masanori Kimura

30.5L: Late‐News Paper: An Advanced 23‐inch In‐Plane‐Switching Mode TFTLCD with H1920 × V1200 Pixels

A new 23-inch diagonal IPS (In-Plane-Switching) mode TFT-LCD with H1920 × V1200 pixels has been developed. This TFT-LCD has obtained good uniformity by using an advanced driving method which combines the Dual-line driving and the design of optimized storage-capacitance for each pixels. Furthermore, using a new pixel structure, which is a zigzag shaped pixel including zigzag shaped source lines, common electrodes, pixel electrodes and a color-filter, the aperture ratio becomes 25% larger than a conventional LCD.

A 23-in. UXGA-wide advanced IPS TFT-LCD with new driving method

Abstract A new 23-in. diagonal in-plane-switching (IPS) mode TFT-LCD with H1920×V1200 pixels has been developed. This TFT-LCD, which is a new structure with zigzag shaped pixels, has been adopted as an advanced IPS technology. Using this structure, the aperture ratio becomes 25% larger than that of conventional liquid crystal displays (LCDs). Furthermore, uniform image quality has been obtained by using the new dual-line driving method where the design has optimized storage-capacitance for each pixel.

42.1: Invited Paper: Development of High‐Performance Panel and High‐Speed 3D Driving Technology for World's First Full HD 3D Plasma Displays

For full HD 3D plasma displays, we newly developed a high luminous efficiency design, a short discharge-time-lag material, and a new driving method for 3D. High picture quality was realized by a new cell design, materials, and a panel driving sequence.