NIKKEI MICRODEVICES' FLAT PANEL DISPLAY 2006 YEARBOOK

Publisher: Nikkei BP., Tokyo, Japan, ISBN: 1-884730-39-6

Published: 2006

Price: $99.00


Available on CD or Hard Copy
In 2006, competitive conditions in the flat panel display (FPD) industry will change significantly. The era in which competition was primarily based on increasing investment and glass substrate sizes is over. Henceforth, overall capability, including parts/material strategy and equipment strategy, will become the decisive factor. By 2010, parts and material costs will account for 80% of the total cost of large-size LCD panels, which will drive future market expansions; thus, parts and materials will make up most of the value addition in panels. Leading panel makers are starting to reinforce their cooperative relationships with parts and material makers, as well as with equipment makers.

Part 1 Trends

    FPDs to account for half of TVs on market by 2010; Meeting diverse demands from full-HD TVs to models in the100,000-yen class
      1 Industry trends
        Overall capability, including panels, parts and materials, and production equipment, becomes the deciding factor
      2 Market analysis .
        Rapid expansion of the FPD TV market accelerating panel demand recovery
Part 2 Image Quality Evaluation
    Image quality of FPDs closing in on CRTs;
    Evaluating image quality in latest models
      1 Image-quality benchmark
        Simultaneously achieving price reduction to the 1 inch = 10,000 yen level, along with picture quality improvements in FPD TVs
      2 Ergonomic
        Ergonomic issues in picture quality improvement in flat panel TVs
      3 Evaluation and measurement
        Current status of and expectation for picture quality evaluation/measurement technologies
      4 Video response measurement .
        Motion blur- latest technologies for its evaluation, and remaining issues
      5 Signal generator
        Increases and diversification in FPD picture quality leading to changing requirements for signal generators
Part 3 Liquid Crystal Display Technologies 1: Image Quality Innovation
    Technologies abound to correct LCDs’ flaws;
    vast improvement in picture contrast and video characteristics
      1 OCB liquid crystal displays
        OCB liquid crystal panel technology
        – Advance in moving picture performance and future prospects –
      2 Area control
        LED light sources and area control technology enable high performance that surpasses CRTs
      3 LED
        Use of LEDs rapidly expanding from backlights to cars and illumination
Part 4 Liquid Crystal Display Technologies 2: Production Innovation
    Elemental technologies for revolutionary inkjet and roll-to-roll materials emerge
      1 Roll-to-roll
        Roll-to-roll technology for components utilized in FPDs
      2 Laser direct imaging
        Laser direct patterning technology becoming the key for cost-cutting in next-generation lines
      3 Film
        Light guide technology for improving efficiency and reducing cost of backlights
Part 5 PDP Technologies
    Luminous efficiency to exceed 2 lm/W;
      Complete renovation from rib structure to materials
    1 Improvement of luminous efficiency
      Striving for a 1080p, 50-inch PDP with a luminous efficiency of 2 lm/W
    2 High image quality
      Technology to improve the picture quality of plasma displays and win the picture-quality competition in the age of digital HDTV
Part 6 Rear Projection Technologies
    Revamping panels, screens, and optical systems;
      Image quality approaching level of LCDs and PDPs 1 High-temperature polysilicon Si
        Continued innovations in high-temperature polysilicon TFT technologies to achieve both high picture quality and low cost
      2 DMD
        Differentiation through color reproducibility based on full-HD
Part 7 Organic EL Technologies
    OLED enters market, challenging LCDs cost-wise; Reassessing drive circuit, panel structure, and materials
      1 Larger screens
        Development of a 40-inch color organic EL panel utilizing a single a-Si TFT substrate
      2 Drive methods
        Analog drive as the realistic solution a-Si TFT substrate now one of the alternatives
      3 Manufacturing processes
        Prototype 200-ppi, high-definition organic EL panel created utilizing photolithographic technology
Part 8 Seeds
    On-glass DRAMs and on-plastic processors; Substrate technologies that lead to realization of sheet computers
      1 Integrated memory
        DRAM on glass: validating the potential for incorporation with LCDs
      2 Integrated processors
        An 8-bit asynchronous processor formed on a flexible substrate