Patent application number | Description | Published |
20090009730 | Light Recycling in a Micromirror-Based Projection Display System - A digital micromirror projection display system is disclosed in which “off” pixel light is recaptured and recycled. In the disclosed system, a digital micromirror device directs incident light for “on” pixels in the image to be displayed through projection lenses to a projection screen. The digital micromirror device directs incident light for “off” pixels back toward the light source for recapture by a light integrator. Both the incident and projected light can pass through a rear group of projection lenses, with the first projection lens being disposed near the digital micromirror device. A mirror directs the incident light toward the digital micromirror device, and the “off” pixel light from the digital micromirror device toward the light integrator. As a result, “off” pixel light can be recycled without degrading image contrast, in a manner that can place fast projection lenses close to the digital micromirror device to save cost. | 01-08-2009 |
20090073527 | System and Method for Generating Multicolor Scan Lines and Multicolor Projection Video Display Incorporating the Same - A system for, and method of, generating multicolor scan lines and a multicolor projection video display (PVD) incorporating the system or the method. In one embodiment, the system includes: (1) light sources that emit light of different colors at different emission locations and (2) first and second lenses having lenticular arrays associated therewith and configured to receive the light of the different colors and generate multicolor scan lines therefrom, the emission locations separated by different distances from the first lens. | 03-19-2009 |
20090097112 | Rear-projection screen for projection video display system, method of rear-projection collimation and projection video display system incorporating the same - Various embodiments of a rear-projection screen, a method of rear-projection collimation and a projection video display (PVD) system. In one embodiment, a rear-projection screen includes: (1) a total-internal-reflection (TIR) fresnel lens configured to aim light received at an incidence angle toward a central axis of the TIR fresnel lens at a convergence angle and (2) a refractive fresnel lens configured to refract the light received from the TIR fresnel lens and at least to reduce the convergence angle. | 04-16-2009 |
20090116214 | LED ILLUMINATION SYSTEM WITH POLARIZATION RECYCLING - A light engine has a light source front surface that emits non-collimated light. A collection lens collects the non-collimated light and provides incompletely collimated light. A collimating lens receives the incompletely collimated light and provides a collimated image. A non-orthogonal polarizing filter receives the collimated image and passes a polarized portion of the collimated image as a direct component of the polarized light engine image. The non-orthogonal polarizing filter reflects a recycled image back to the front surface. The non-orthogonal shape of the polarizing filter is selected according to the pattern of light on the light source front surface. | 05-07-2009 |
20100097699 | SCREEN FILM FOR LIGHT PROJECTION BRIGHTNESS ENHANCEMENT - A front-projection screen that includes a prismatic film that comprises an outside surface of the screen. The film includes parallel prismatic grooved lines. Each of the lines have a draft surface, a groove surface, and, each of the lines are located on a first side of a base portion of the film. The screen also includes a diffuser-reflector layer adjacent to a second opposite side of the base portion. The outside surface of the screen is oriented to receive an incoming light exclusively through the draft surfaces of the lines. The incoming light has an angle of incidence of about 60 degrees or greater with respect to the normal of the outside surface. A draft-base angle between the base portion and the draft surface is about 75 degrees or greater. | 04-22-2010 |
20110122371 | OPTICAL PROJECTION SUBSYSTEM - A projection subsystem includes a light engine that provides a collection lens, a collimator and at least one solid state light emitter. A projection lens assembly receives the image and provides a projection beam having a luminous flux level. The projection subsystem has a portability efficacy. | 05-26-2011 |
20110241518 | LED SOURCE WITH HOLLOW COLLECTION LENS - A light source, includes an LED emitter and a meniscus lens having a hollow cavity in which the LED emitter is disposed. The meniscus lens is in exemplary embodiments hyperhemispheric, and it produces a high quality optical image of the LED emitter. The cavity of the lens is filled with air, such as terrestrial atmosphere, inert gas, or vacuum. | 10-06-2011 |
20120287406 | OPTICAL PROJECTION SUBSYSTEM - A projection subsystem includes a light engine that provides a collection lens, a collimator and at least one solid state light emitter. A projection lens assembly receives the image and provides a projection beam having a luminous flux level. The projection subsystem has a portability efficacy. | 11-15-2012 |
20140211173 | OPTICAL PROJECTION SUBSYSTEM - A projection subsystem includes a light engine that provides a collection lens, a collimator and at least one solid state light emitter. A projection lens assembly receives the image and provides a projection beam having a luminous flux level. The projection subsystem has a portability efficacy. | 07-31-2014 |
20140368797 | METHODS AND APPARATUS FOR REDUCING GHOST IMAGES IN REFLECTIVE IMAGER-BASED PROJECTORS - An image projection system ( | 12-18-2014 |