DLPC105B September   2018  – June 2024 DLP470NE , DLP470TE , DLP471NE , DLP471TE , DLP472NE , DLP472TE , DLP472TP , DLP650NE , DLP650TE , DLP651NE , DLP660TE , DLP780NE , DLP780TE , DLP781NE , DLP781TE

 

  1.   1
  2.   What is DLP technology?
  3.   What is laser TV?
  4.   Laser TV features
  5.   DLP technology for laser TV
  6.   System and electronics
  7.   Design considerations
    1.     Brightness
    2.     Resolution
    3.     Contrast
    4.     Throw Ratio
    5.     Size and form factor
  8.   Display surfaces
  9.   DLP chipsets for laser TV
  10.   Additional resources

DLP technology for laser TV

DLP technology offers several key advantages that make it a great fit for laser TV:

  • Form Factor – A laser TV system can be designed tofit into many form factors that allow for a range of system dimensions with powerful display capabilities.
  • Wide choice of display resolution chipsets – The portfolio of DLP chips ranges across multiple resolutions including: HD, Full HD, and Ultra-HD.

    This provides a developer with the flexibility to design differentiating products across different brightness, size, resolution, and cost levels.

  • High contrast – DLP technology can enable a high contrast ratio, which creates deep blacks and improves perceived brightness and image quality.
  • High speed – Each DLP micromirror can switch thousands of times per second, enabling fast refresh rates and high frame rates that result in low display latency making DLP laser TV solutions a great fit for fast action movies and gaming.
  • Advanced image processing algorithms – The DLP® Brilliant Color™ suite of algorithms provides illumination efficiency which makes use of additional color filters to improve brightness.

For more information, see the Introducing BrilliantColor™ Technology white paper.

Ifan application requires size optimization or ultra portability in controlled lighting environments, check out the DLP® Technology for Mobile Smart TV white paper.