| Patent application number | Description | Published |
|---|
| 20080277681 | LIGHT EMITTING DIODE - A light emitting diode includes a substrate, a reflecting layer, an active layer, a transparent electrode, a first photonic crystal structure, and a second photonic crystal structure. The reflecting layer is disposed on the substrate. The active layer is disposed on the reflecting layer. The transparent electrode is disposed on the active layer and includes an upper surface and a lower surface. The lower surface of the transparent electrode combines with the active layer. The first photonic crystal structure is formed on the upper surface of the transparent electrode. The second photonic crystal structure formed in the active layer. | 11-13-2008 |
| 20090034264 | Backlight module - A backlight module includes a light source, a light guide plate and a reflector. The light guide plate includes a light incidence surface, a light-emitting surface opposite to the light incidence surface, and a pair of side surfaces connecting the light incidence surface to the light-emitting surface. The light-emitting surface of the light guide plate includes a groove formed therein. The reflector is placed between the light source and the light incidence surface of the light guide plate, and located corresponding to the groove of the light-emitting surface of the light guide plate. The reflector includes a light-receiving surface. The light source is facing the light-receiving surface of the reflector. | 02-05-2009 |
| 20090040757 | MIXED LIGHT APPARATUS - A mixed light apparatus for mixing light emitted from a first light source and a second light source includes a body, a first light reflecting element and a second light reflecting element. The body has a light emitting surface. A first reflecting element extends from the light emitting surface. The first light reflecting element has a first emanating point and a first focal point. The first light source is disposed at the first focal point. A second reflecting element extends from the light emitting surface. The second light reflecting element has a second emanating point and a second focal point. The second light source is disposed at the second focal point. The first emanating point and the second emanating point overlaps and are disposed on the light emitting surface. | 02-12-2009 |
| 20090040768 | LIGHT GUIDE PLATE AND DIRECT-TYPE BACKLIGHT MODULE WITH SAME - An exemplary backlight module includes a light guide plate and light sources. The light guide plate includes a block body and the recessed parts. The block body has a top light output surface and a bottom surface. The recessed parts are provided at the bottom surface. The light sources are disposed at least partly in or adjacent to the recessed parts. | 02-12-2009 |
| 20090116033 | REFRACTIVE INDEX SENSOR - An exemplary refractive-index sensor includes a photonic crystal microcavity structure, a light source, and a detector. The photonic crystal microcavity structure includes a photonic crystal layer having first holes and a second hole. The first holes are arranged in a pattern of staggered parallel rows. The second hole is located at an approximate center point of the middle row of the pattern rather than a first hole. A diameter of the second hole is less than that of each of the first holes. Some of the first holes disposed at each of opposite ends of a diagonal row having the second hole are omitted to define an input waveguide and an output waveguide. The light source is adjacent to the input waveguide. The detector is adjacent to the output waveguide. | 05-07-2009 |
| 20090116237 | BACKLIGHT MODULE - A backlight module includes a light guide plate, at least one mixed light apparatus, a first light source and a second light source. The light guide plate includes a body including at least one recess provided at a bottom surface thereof. The mixed light apparatus is disposed partly in or adjacent to the recess. The mixed light apparatus includes a body, a first light reflecting element and a second light reflecting element. The body of the mixed light apparatus has a light emitting surface. Each of the light reflecting elements extends from the light emitting surface. Each of the light reflecting elements has an emanating point and a focal point. The emanating points overlap at the light emitting surface. One of the light sources is disposed at one of the focal points. | 05-07-2009 |
| 20090116238 | MIXED LIGHT APPARATUS - A mixed light apparatus for mixing light emitted from a first light source and a second light source includes a body, a first light reflecting element, a second light reflecting element and a field lens. The body has a light emitting surface. A first reflecting element extends from the light emitting surface. The first light reflecting element has a first emanating point and a first focal point. The first light source is disposed at the first focal point. A second light reflecting element extends from the light emitting surface. The second light reflecting element has a second emanating point and a second focal point. The second light source is disposed at the second focal point. The first emanating point and the second emanating point overlapat the light emitting surface. The field lens is disposed on the light emitting surface and corresponds to the first and second emanating points. | 05-07-2009 |
| 20090153843 | REFRACTIVE-INDEX SENSOR - An exemplary refractive-index sensor includes a photonic crystal microcavity structure, a light source, and a detector. The photonic crystal microcavity structure includes a photonic crystal layer having first holes and a second hole defined therein. The first holes are arranged in a regular pattern of staggered parallel rows. The second hole is at an approximate center of the regular pattern, instead of a first hole. A diameter of the second hole is different from that of the first holes. The first holes at each of opposite ends of the row having the second hole are omitted, thereby defining an input waveguide and an output waveguide. The light source is adjacent to the input waveguide. The detector is adjacent to the output waveguide. | 06-18-2009 |
| 20100033955 | LIGHT GUIDE PLATES AND BACKLIGHT MODULE - A light guide plate includes a body having a bottom surface and a light output surface opposite to the bottom surface. A scattering structure is formed on the bottom surface. The scattering structure includes a plurality of scattering dots located in the form of a plurality of concentric shapes about the center. A backlight module using the light guide plate is also provided. | 02-11-2010 |
| 20100070060 | Method for designing a light guide plate and method for manufacturing the same - A method for designing a light guide plate includes the following steps. A raw light guide plate having a light input surface and a light output surface is provided. A region of the light input surface is divided into several annuluses according to a luminance distribution E(ρ,θ) of the light output surface. A scattering dots density D(ρ,θ) of each annulus on the light input surface is figured out. A total number N of the scattering dots of each annulus on the light input surface are gained, and the scattering dots is randomly distributed in the each annulus defined on the light input surface, whereby a designed light guide plate is obtained. | 03-18-2010 |
| 20100142224 | LIGHT GUIDE PLATES AND BACKLIGHT MODULE - A light guide plate includes a light discharge surface, a light diffusing surface, a light incident surface, and a plurality of scattering dots. The light diffusing surface is located opposite to the light discharge surface. The light diffusing surface has a first part and a second part. The first part is adjacent to a light source. The light incident surface intersects with the light discharge surface and the light diffusing surface. The scattering dots within the first part are arranged in the form of a plurality of concentric arcs, and the scattering dots within the second part are arranged in the form of a plurality of lines. | 06-10-2010 |
| 20100149787 | LIGHT GUIDE PLATES AND BACKLIGHT MODULE - A light guide plate includes a body having a bottom surface and a light output surface opposite to the bottom surface. A reflector is located on the light output surface opposite to the center of the bottom surface. The reflector is a cavity concaved from the light output surface to the inside of the body. A plurality of scattering dots are located on the bottom surface. The scattering dots are arranged in the form of a plurality of concentric circles around the center of the bottom surface. The number of the scattering dots is defined based on a radius of the circle they reside on, and the radius of the circle is greater than or substantially equal to 4 millimeter. | 06-17-2010 |
| 20110046922 | METHOD FOR DESIGNING A LIGHT GUIDE PLATE - The present disclosure relates to a method for designing a light guide plate. A raw light guide plate having a light input surface and light output surface opposite to the light input surface is provided. An illuminating surface having a shape and area same to that of the light output surface is built. The illuminating surface is divided into n×m illuminating areas, and the light input surface is divided into n×m scattering dots distributing areas corresponding to n×m illuminating areas. A number of original scattering dots are distributed on each scattering dots distributing areas. The original scattering dots are optimized. | 02-24-2011 |
| 20110090672 | LIGHT GUIDE PLATES AND BACKLIGHT MODULE - A light guide plate includes a body having a bottom surface, a top surface opposite to the bottom surface, and at least one lateral side. A recess is defined at the top surface. The recess is concaved toward the bottom surface and has a reflective surface. Only one part of the reflective surface has reflective structure located thereon. A backlight module using the light guide plate is related. | 04-21-2011 |
| 20110109839 | BACKLIGHT MODULE AND LIQUID CRYSTAL DISPLAY - A backlight module includes a light guide plate and at least two groups of light sources. The light guide plate includes at least two independent light guide modules optically isolated from each other. Each group of light sources is located corresponding to an independent light guide module and controlled independently. A liquid crystal display using the backlight module is also related. | 05-12-2011 |
