Patent application number | Description | Published |
20090040463 | Illumination system of LED for projection display - An illumination device and a projection system using the same are provided. The illumination device comprises a first light source module, a second light source module and a dichroic element. The first light source module comprises a first carrying board and a plurality of first light-emitting units disposed thereon for providing a first light beam. The second light source module comprises a second carrying board and a plurality of second and third light-emitting units disposed thereon for providing a second light beam. The dichroic element has a first side, a second side and a light output side. The first and the second light source modules are respectively optically aligned with the first side and the second side of the dichroic element, wherein the dichroic element provides a third light beam to the light output side by chromatically combining the first light beam and the second light beam. | 02-12-2009 |
20090213448 | OPTICAL SYSTEM - An optical system, adapted for providing an image beam, including a light source, a beam splitting/combining device, and a light valve is provided. The light source provides an illumination beam. The beam splitting/combining device includes a first polarizing beam splitter (PBS), a second PBS, a quarter wave plate (QWP), and a reflector. The first PBS reflects a first illumination beam of the illumination beam from the light source and the second illumination beam from the light source passes through the first PBS. The second illumination beam from the first PBS passes through the second PBS and the QWP, reflected by the reflector, passes through the QWP, and reflected by the second PBS. The light valve converts the first illumination beam from the first PBS and the second illumination beam reflected by the second PBS into the image beam. | 08-27-2009 |
20090268165 | OPTICAL ENGINE - An optical engine including a light source, a polarizing beam splitter (PBS), a multi-focus lens, and a light valve is provided. The light source is capable of emitting an illumination beam. The PBS is disposed on the light path of the illumination beam. The multi-focus lens is disposed on the light path of the illumination beam between the light source and the PBS, and has a plurality of refractive portions. The refractive portions have different effective focal lengths from one another. The PBS allows at least a part of the illumination beam with a first polarization direction to travel to the light valve. The light valve is capable of reflecting the part of the illumination beam and converting the part of the illumination beam into an image beam with a second polarization direction. The image beam from the light valve travels to the PBS. | 10-29-2009 |
20090268166 | PROJECTION SYSTEM - A projection system including an illumination unit, a polarization conversion unit, a light valve, a projection lens, and a polarizing beam split (PBS) element is provided. The polarization conversion unit includes a V-shaped PBS element, a wave plate, and two reflective surfaces. The V-shaped PBS element includes a first PBS portion and a second PBS portion. The first PBS portion is adapted to be passed through by a first partial beam with a first polarization direction and reflect a second partial beam with a second polarization direction. The second PBS portion is adapted to be passed through by a third partial beam with the first polarization direction and reflect a fourth partial beam with the second polarization direction. The wave plate is disposed in the transmission paths of the first partial beam and the third partial beam. The reflective surfaces are located at opposite sides of the V-shaped PBS element. | 10-29-2009 |
20100006877 | LIGHT-EMITTING DIODE PACKAGE - An LED package including a carrier, a LED chip, and a lens is provided. The LED chip is disposed on the carrier. The lens is disposed on the carrier and above the LED chip. A gap is formed between the LED chip and the lens. The lens has a first surface, a second surface, a protrusion, and at least one protruding ring. The first surface faces the LED chip. The second surface is opposite to the first surface. The protrusion is located at the first surface. The protruding ring is located at the first surface and surrounds the protrusion. | 01-14-2010 |
20100195056 | HYBRID POLARIZATION BEAM SPLITTER ARCHITECTURE AND OPTICAL PROJECTION SYSTEM THEREOF - A hybrid PBS architecture includes a first prism, a second prism, and a beam splitting coating layer. The first prism is made of a first material, and the second prism is made of a second material being different from the first material. The beam splitting coating layer is sandwiched between the first prism and the second prism. The first material is a glass material and the second material is a plastic material. | 08-05-2010 |
Patent application number | Description | Published |
20080287191 | Method and System for Computing Online/Offline Multimedia Data - A method and system for processing online/offline multimedia data are disclosed. The system comprises a remote mainframe, a local host and a portable apparatus. When the portable apparatus is electrically connected with the remote mainframe and the local host, the portable apparatus can immediately exchange multimedia data exchange with the remote mainframe and the local host. When the portable apparatus is not electrically connected with the remote mainframe and the local host, the portable apparatus can independently process the multimedia data previously received from the remote mainframe and the local host; also the portable apparatus can update the multimedia data with the remote mainframe and the local host when the portable apparatus is electrically reconnected with the remote mainframe and the local host. With the system configuration, the present invention features online/offline multimedia-data processing capabilities. | 11-20-2008 |
20090079760 | IMAGE PROCESSING METHOD AND SYSTEM - The invention provides an image processing method. An image is provided, and the image is divided into a first subimage, a second subimage, a third subimage, and a fourth subimage according to a decomposing method. Next, the first, second, third, and fourth subimages are processed to generate a first subframe, a second subframe, a third subframe, and a fourth subframe. Finally, the first, second, third, and fourth subframes are combined as a frame according to a composing method corresponding to the decomposing method. | 03-26-2009 |