Patent application number | Description | Published |
20090109408 | LIGHT-FILTERING MODULE AND PROJECTING SYSTEM APPLIED THEREWITH - A light-filtering module includes a light-source module, a dichroic mirror and a first image unit. The light-source module outputs a light beam. The dichroic mirror divides the light beam into a first colored light and a dual colored light. The first image unit provides the first colored light with image information. The light-filtering module includes a light-filtering unit and a driving unit. The light-filtering unit located between the dichroic mirror and the first image unit is located at a light path of the first colored light. The driving unit includes a coupling element coupled to the light-filtering unit and a driving element utilized to drive the coupling element. The driving element drives the light-filtering unit, switching between a first status and a second status by the coupling element, and a wide-wavelength spectrum and a narrow-wavelength spectrum are provided when the light-filtering unit is in the first and second statuses, respectively. | 04-30-2009 |
20090109640 | OPTICAL ENGINE - An optical engine is provided, including an imaging module, a driver module and a connecting unit. The imaging module includes an imaging housing with an imaging space and an imaging unit installed in the imaging space. The imaging housing is made of a conductive material. The driver module includes a driver housing with a driver space and a driver circuit board installed in the driver space. The connecting unit includes at least one of the cables is electrically connected to the imaging unit and the driver circuit board and at least a protruding module protruding from the imaging housing (or the driver housing) to contact with the driver housing (or the imaging housing). The cable is installed in the protruding module made of a conductive material. | 04-30-2009 |
20100283975 | DISPLAY APPARATUS - A display apparatus comprises a light module and an optical engine. The light module has a plurality of lighting members that emit light beams with single wavelengths, and a wavelength transfer device with different fluorescent matters. When the light beams emitted from the lighting members pass through the fluorescent matter, the light beams become visible light beams with different wavelengths. The optical engine at least has one micro-displaying member. When a visible light beam enters the optical engine, it is emitted through the micro-displaying member and generates an imaging light beam. Finally, the imaging light beam is emitted on a screen. | 11-11-2010 |
20110019057 | Electronic Playback Apparatus with a Micro-Projector - An electronic playback apparatus. An image pickup unit receives an image of a target imaged through a lens when a photographic mode is in operation. A semiconductor light source module emits a plurality of visible light beams with different bands when a broadcast mode is in operation. A micro-display member receives the visible light beams with the different bands and modulates the visible light beams into an image beam. The image beam is projected onto a screen by the lens. | 01-27-2011 |
20110032485 | Optical Projection Device and Projecting Method Thereof - An optical projection device includes a laser engine, a first wave plate and a lens. The laser engine provides light. The first wave plate changes a light phase. The lens focuses light. A projecting method of an optical projection device includes providing a light including a first P polarized light, a first S polarized light, and a second S polarized light, and projecting light through a wave plate on a screen, wherein the wave plate moves in a direction perpendicular to light. A projecting method of an optical projection device includes providing light including a first P polarized light, a first S polarized light, and a second S polarized light, and projecting light through a wave plate on a screen, wherein the wave plate rotates around an axis parallel to a projecting direction of light. | 02-10-2011 |
20120120648 | Light Source Module of Projector - A light source module of a projector includes a beam splitter, a red light source, a blue light source, and a blue light source. The beam splitter has a first reflection side, on which a first splitter film is provided, and a second reflection side, on which a second splitter film is provided. An angle between a normal line of the first reflection side, and a normal line of the second reflection side, is in a range between 165 degrees and 180 degrees. Both the first splitter film and the second splitter film permit red rays to pass therethrough. The red light source is separated from the blue and green light sources to obtain a better thermal dissipation. | 05-17-2012 |
20120281186 | LASER PROJECTION SYSTEM - A laser projection system includes a laser module, a red, a green, and a blue fluorescent member, three collimators, a prism, and a scan system lens. The laser module emits laser beam of single wavelength. The red, green, and blue fluorescent members are excited by the laser beam from the laser module to emit red beam, green beam, and blue beam respectively. The collimators are on paths of the red, green, and blue beams respectively to collimate them. The prism reflects the collimated red, green, and blue beams to project them onto an imaging surface through the scan system lens. | 11-08-2012 |
20130163097 | PROJECTION LENS - A projection lens, in order along an optical axis from an image formation side to an image source side, includes a first lens, an aperture, a second lens, a third lens, and a fourth lens. The first lens is a meniscus lens with positive refractive power and a convex surface thereof facing the image formation side, and has at least an aspheric surface. The second lens is a biconcave lens with negative refractive power, and has at least an aspheric surface. The third lens is a biconvex lens with positive refractive power, and the fourth lens is a biconvex lens with positive refractive power, and has at least an aspheric surface. Therefore, the projection lens has a small size and high zoom ratio. | 06-27-2013 |