Patent application number | Description | Published |
20090059579 | Surface light source using white light emitting diodes and liquid crystal display backlight unit having the same - There is provided a surface light source using white light emitting diodes including: a plurality of white light emitting diodes arranged at a predetermined distance from one another, wherein the white light emitting diodes are arranged such that a light emitting diode unit defined by each of the white light emitting diodes and corresponding ones of the white light emitting diodes disposed at a closest distance from the each white light emitting diode has a central light amount ranging from 80% to 120% with respect to an average light amount of the white light emitting diodes. | 03-05-2009 |
20090168455 | BACKLIGHT UNIT FOR LIQUID CRYSTAL DISPLAY DEVICE - A backlight unit for a liquid crystal display (LCD) device, disposed under a liquid crystal panel to illuminate the liquid crystal panel. The backlight unit includes a light guide plate, first and second light emitting diode (LED) arrays, disposed on adjacent sides, perpendicular to each other, of the light guide plate, each array having a plurality of LED blocks, consisting of one or more LEDs, and a control unit that controls electric signals, respectively inputted to the LED blocks, to regulate luminance for the respective LED blocks, wherein light emitted from the first and second LED arrays is overlapped each other in the light guide plate. | 07-02-2009 |
20090258454 | METHOD OF MANUFACTURING GALLIUM NITRIDE BASED LIGHT EMITTING DIODE HAVING SURFACE IRREGULARITIES - An n-type GaN layer is formed on a substrate, and an active layer is formed on the n-type GaN layer. A p-type GaN layer is formed on the active layer, and portions of the p-type GaN layer and the active layer are mesa-etched so as to expose a portion of the n-type GaN layer. An irregularities forming layer is formed on the p-type GaN layer and a photosensitive film pattern for forming a surface irregularities pattern is formed on the irregularities forming layer. The irregularities forming layer is selectively wet-etched by using the photosensitive film pattern as an etching mask, thereby forming surface irregularities. A p-electrode is formed on the p-type GaN layer having the surface irregularities formed thereon, and an n-electrode is formed on the exposed n-type GaN layer.” | 10-15-2009 |
20090268457 | LED PACKAGE AND BACKLIGHT UNIT USING THE SAME - The invention relates to an LED package having a large beam angle of light emitted from an LED, simplifying a shape of a lens and an assembly process, and to a backlight unit using the same. The LED package includes a housing with a seating recess formed therein and at least one LED seated in the seating recess. The LED package also includes a lens having a predetermined sag on an upper side thereof, covering an upper part of the LED. The LED package and the backlight unit using the same can emit light uniformly without bright spots formed in an output screen, uses a simpler shaped lens with an increased beam angle, and minimizes a color mixing region to achieve miniaturization. | 10-29-2009 |
20090294793 | LED PACKAGE AND METHOD OF MANUFACTURING THE SAME - Provided is an LED package including a heat radiating portion that is composed of two or more metal layers and has a cavity formed therein; a first lead that extends from one side of the heat radiating portion; a second lead that is formed in the other side of the heat radiating portion so as to be separated from the heat radiating portion; a mold portion that fixes the heat radiating portion and the first and second leads; an LED chip that is mounted in the cavity; and a first filler that is filled in the cavity so as to protect the LED chip. | 12-03-2009 |
20100047937 | LED PACKAGE - A Chip on Board (COB) package which can reduce the manufacturing costs by using a general PCB as a substrate, increase a heat radiation effect from a light source, thereby realizing a high quality light source at low costs, and a manufacturing method thereof. The COB package includes a board-like substrate with a circuit printed on a surface thereof, the substrate having a through hole. The package also includes a light source positioned in the through hole and including a submount and a dome structure made of resin, covering and fixing the light source to the substrate. The invention allows a good heat radiation effect by using the general PCB as the substrate, enabling manufacture of a high quality COB package at low costs. This in turn improves emission efficiency of the light source, ultimately realizing a high quality light source. | 02-25-2010 |
20100047941 | HIGH POWER LED PACKAGE AND FABRICATION METHOD THEREOF - An LED diode package includes a heat connecting part for mounting a light emitting part on an upper surface thereof, frames electrically connected to the light emitting part while holding the heat connecting part and a molded part fixing the heat connecting part and the frames together. The light emitting part generates light in response to current applied thereto, and the upper surface of the heat connecting part is protruded beyond an upper surface of the molded part to a predetermined height. This can optimize the unique beam angle of the light source thereby to maximize lighting efficiency as well as prevent overflow of the encapsulating material in the assembling process of the lens, which may otherwise soil adjacent components. | 02-25-2010 |
20100053956 | LIGHT EMITTING MODULE - There is provided a light emitting module including: a printed circuit board; a plurality of light emitting diode chips disposed at a distance from one another on a conductive pattern formed on a top of the printed circuit board; and a connector formed on a bottom of the printed circuit board and electrically connected to the plurality of light emitting diode chips. The light emitting diode chips and the connector are optimally arranged to ensure that the light emitting module is suitably utilized as a high-density linear light source including a great number of light emitting diode chips and emits light outward with minimum loss. | 03-04-2010 |
20100270564 | LED PACKAGE AND BACKLIGHT UNIT USING THE SAME - The invention relates to an LED package having a large beam angle of light emitted from an LED, simplifying a shape of a lens and an assembly process, and to a backlight unit using the same. The LED package includes a housing with a seating recess formed therein and at least one LED seated in the seating recess. The LED package also includes a lens having a predetermined sag on an upper side thereof, covering an upper part of the LED. The LED package and the backlight unit using the same can emit light uniformly without bright spots formed in an output screen, uses a simpler shaped lens with an increased beam angle, and minimizes a color mixing region to achieve miniaturization. | 10-28-2010 |
20110031526 | LIGHT EMITTING DIODE PACKAGE AND FABRICATION METHOD THEREOF - An LED package and a fabrication method therefor. The LED package includes first and second lead frames made of heat and electric conductors, each of the lead frames comprising a planar base and extensions extending in opposed directions and upward directions from the base. The package also includes a package body made of a resin and configured to surround the extensions of the first and second lead frames to fix the first and second lead frames while exposing underside surfaces of the first and second lead frames. The LED package further includes a light emitting diode chip disposed on an upper surface of the base of the first lead frame and electrically connected to the bases of the first and second lead frames, and a transparent encapsulant for encapsulating the light emitting diode chip. | 02-10-2011 |
20110157492 | SURFACE LIGHT SOURCE USING WHITE LIGHT EMITTING DIODES AND LIQUID CRYSTAL DISPLAY BACKLIGHT UNIT HAVING THE SAME - There is provided a surface light source using white light emitting diodes including: a plurality of white light emitting diodes arranged at a predetermined distance from one another, wherein the white light emitting diodes are arranged such that a light emitting diode unit defined by each of the white light emitting diodes and corresponding ones of the white light emitting diodes disposed at a closest distance from the each white light emitting diode has a central light amount ranging from 80% to 120% with respect to an average light amount of the white light emitting diodes. | 06-30-2011 |
20110199787 | LED PACKAGE AND A BACKLIGHT UNIT UNIT COMPRISING SAID LED PACKAGE - A light emitting diode (LED) package includes: a main body mounted on a substrate; a light emitting diode that is mounted in the main body and emits light; and a lead frame exposed to allow the main body to be selectively top-mounted or side-mounted. A backlight unit includes: a light guide plate configured to allow a light source to proceed to a liquid crystal panel; a light emitting diode (LED) mounted in a main body mounted on a substrate and generating a light source; and an LED package having a lead frame exposed to allow the main body to be selectively top-mounted or side-mounted, and being mounted on the light guide plate. | 08-18-2011 |
20120127705 | LIGHT EMITTING MODULE - There is provided a light emitting module including: a printed circuit board; a plurality of light emitting diode chips disposed at a distance from one another on a conductive pattern formed on a top of the printed circuit board; and a connector formed on a bottom of the printed circuit board and electrically connected to the plurality of light emitting diode chips. The light emitting diode chips and the connector are optimally arranged to ensure that the light emitting module is suitably utilized as a high-density linear light source including a great number of light emitting diode chips and emits light outward with minimum loss. | 05-24-2012 |
20130194790 | LIGHT EMITTING MODULE - There is provided a light emitting module including: a printed circuit board; a plurality of light emitting diode chips disposed at a distance from one another on a conductive pattern formed on a top of the printed circuit board; and a connector formed on a bottom of the printed circuit board and electrically connected to the plurality of light emitting diode chips. The light emitting diode chips and the connector are optimally arranged to ensure that the light emitting module is suitably utilized as a high-density linear light source including a great number of light emitting diode chips and emits light outward with minimum loss. | 08-01-2013 |