INTEGRATED CIRCUITS DRIVING

Brand Owner (click to sort) Address Description
DNX PIXELWORKS, INC. Suite 101 16760 SW Upper Boones Ferry Rd. Portland OR 97224 Integrated circuits for driving, supporting, and enhancing flat panel displays; computer software for testing flat panel displays and associated controllers, for driving, supporting, and enhancing flat panel displays, and for manipulating, storing, receiving, transferring, processing, and digitizing images for display on flat panels; computer hardware, namely, flat panel display controllers, circuit boards, and circuits for manipulating, storing, receiving, transferring, processing, and digitizing images for display on flat panel displays, and for testing flat panel displays and associated controllers; computer firmware for manipulating, storing, receiving, transferring, processing, and digitizing images provided to flat panel displays and associated controllers;
DNX PIXELWORKS, INC. Suite 101 16760 SW Upper Boones Ferry Rd. Portland OR 97224 Integrated circuits for driving, supporting, and enhancing flat panel displays; computer software for testing flat panel displays and associated controllers, for driving, supporting, and enhancing flat panel displays, and for manipulating, storing, receiving, transferring, processing, and digitizing images for display on flat panels; computer hardware, namely, flat panel display controllers, circuit boards, and circuits for manipulating, storing, receiving, transferring, processing, and digitizing images for display on flat panel displays, and for testing flat panel displays and associated controllers; computer firmware for manipulating, storing, receiving, transferring, processing, and digitizing images provided to flat panel displays and associated controllers;Color is not claimed as a feature of the mark.;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. Methods and apparatus are provided for driving a liquid crystal microdisplay. The apparatus comprises more than one display driver integrated circuit where a liquid crystal microdisplay receives video information from at least two separate and distinct display driver integrated circuits. One of the display driver integrated circuits is designated as producing a master clock. The internal clocks of the other display driver integrated circuits are compared to the master clock and adjusted to reduce the phase difference to a delay that does not produce visible artifacts on the microdisplay. The frame polarity is compared to be the same from each integrated circuit driving the microdisplay before outputting video information. A frame synchronization signal is also generated from each display driver integrated circuit to ensure that they are all ready to provide information to the microdisplay.