Patent application number | Description | Published |
20080204360 | SYSTEM AND METHOD FOR OPTIMIZING HEAD-UP DISPLAY UNIFORMITY - A system and method for optimizing image uniformity in a head-up display (HUD) are provided. An imaging subsystem is characterized in that if light of a first uniformity is propagated therethrough, an uncompensated image would be displayed to a user via uncompensated image light. The uncompensated image light has first and second portions with respective first and second values of a radiant property. A difference between the first and second values is a first amount. The light source is configured to emit source light of a second, predetermined uniformity through the imaging system such that a compensated image is displayed to the user via compensated image light. The first portion of the compensated image light has a third value of the radiant property, and the second portion of the compensated image light has a fourth value of the radiant property. A difference between the third and fourth values is less than the first amount. | 08-28-2008 |
20080291686 | EXTENDED AVIONICS LCD BACKLIGHT - An aircraft avionics display assembly comprises a first and second liquid crystal display, each operable to display avionics flight data in an aircraft. A backlight is operable to backlight both the first and second liquid crystal displays. In some embodiments, the backlight comprises a primary light source and a redundant light source, wherein the primary light source and the redundant light source are controlled by a common backlight controller. | 11-27-2008 |
20090033643 | INTEGRATED DISPLAY MODULE - A display device includes a substrate. At least a portion of a plurality of pixel circuits are disposed over or integrated into a first surface of the substrate, and arranged in a matrix. A control device is disposed over a second surface of the substrate. | 02-05-2009 |
20090128735 | BACKLIGHT SYSTEMS FOR LIQUID CRYSTAL DISPLAYS - A backlight system for a liquid crystal display includes a substantially planar, refractive waveguide having a first major face and a second major face opposite the first major face. The waveguide includes a viewable region corresponding to a viewable area of the liquid crystal display. The system further includes a light source positioned proximate to the second major face and within the viewing region for producing light. An injection feature is proximate to one or more of the second major face and the first major face and within the viewing region to optically couple the light into the waveguide such that the light becomes waveguided light. A plurality of extraction features is proximate to one or more of the second major face and the first major face and within the viewing region to optically couple the waveguided light out of the waveguide. | 05-21-2009 |
20100302135 | BACKLIGHT SYSTEMS FOR LIQUID CRYSTAL DISPLAYS - A backlight system for a liquid crystal display includes a substantially planar, refractive waveguide having a first major face and a second major face opposite the first major face. The waveguide includes a viewable region corresponding to a viewable area of the liquid crystal display. The system further includes a light source positioned proximate to the second major face and within the viewing region for producing light. An injection feature is proximate to one or more of the second major face and the first major face and within the viewing region to optically couple the light into the waveguide such that the light becomes waveguided light. A plurality of extraction features is proximate to one or more of the second major face and the first major face and within the viewing region to optically couple the waveguided light out of the waveguide. | 12-02-2010 |
20110096098 | LOW LUMINANCE READABILITY IMPROVEMENT SYSTEM AND METHOD FOR LIQUID CRYSTAL DISPLAYS - A display system and method is provided to increase the ability to recognize and distinguish red, magenta, and various other colors rendered on a display device by dynamically compensating for, at least in part, changes in the human vision system when the display luminance is within the mesopic range. The dynamic compensation enables the display system to be optimized differently depending upon the visual luminance range, be it photopic, mesopic, or scotopic. | 04-28-2011 |