| Patent application number | Description | Published |
|---|
| 20090095975 | LIGHT EMITTING DIODE PACKAGE - A light emitting diode package for preventing an electric short circuit among semiconductor layers and with excellent bonding strength. The light emitting diode package includes a package substrate, a light emitting diode chip bonded to an upper surface of the package substrate, and a bonding material for bonding the light emitting diode chip to the package substrate. The package substrate has a recess formed in a bonding surface thereof to accommodate the bonding material. | 04-16-2009 |
| 20110042042 | RADIATING PACKAGE MODULE FOR EXOTHERMIC ELEMENT - Disclosed herein is a radiating package module for an exothermic element. The radiating package module includes a heat conducting plate which has a groove of an internal thread shape, with the exothermic element being mounted on a surface of the heat conducting plate. A heat pipe is inserted into the groove in a screw-type coupling manner and has a coupling part of an external thread shape. An adhesive is applied between the groove and the coupling part. A cooling unit is coupled to an end of the heat pipe. The radiating package module maintains the reliability with which the radiating package radiates heat and improves structural reliability. | 02-24-2011 |
| 20110061901 | HEAT-DISSIPATING SUBSTRATE AND FABRICATING METHOD THEREOF - Disclosed herein are a heat-dissipating substrate and a fabricating method thereof. The heat-dissipating substrate includes a plating layer divided by a first insulator formed in a division area. A metal plate is formed on an upper surface of the plating layer and filled with a second insulator at a position corresponding to the division area, with an anodized layer formed on a surface of the metal plate. A circuit layer is formed on the anodized layer which is formed on an upper surface of the metal plate. The heat-dissipating substrate and fabricating method thereof achieves thermal isolation by a first insulator formed in a division area and a second insulator. | 03-17-2011 |
| 20110083885 | METAL WIRING STRUCTURE COMPRISING ELECTROLESS NICKEL PLATING LAYER AND METHOD OF FABRICATING THE SAME - Disclosed herein is a metal wiring structure, including: an electroless nickel plating layer formed on an insulation layer; and a surface treatment layer formed on the electroless nickel plating layer, and a method of fabricating the same. The metal wiring structure has excellent adhesivity without regard to the kind of substrate and can be easily fabricated. | 04-14-2011 |
| 20110095315 | PACKAGE SUBSTRATE FOR OPTICAL ELEMENT AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a package substrate for optical elements, including: a conductive substrate including an insulation layer formed thereon; a circuit layer which is formed on the conductive substrate | 04-28-2011 |
| 20110140144 | PACKAGE SUBSTRATE FOR OPTICAL ELEMENT AND METHOD OF MANUFACTURING THE SAME - Disclosed is a package substrate for an optical element, which includes a base substrate, a first circuit layer formed on the base substrate and including a mounting portion, an optical element mounted on the mounting portion, one or more trenches formed into a predetermined pattern around the mounting portion by removing portions of the first circuit layer so that the first circuit layer and the optical element are electrically connected to each other, and a fluorescent resin material applied on an area defined by the trenches so as to cover the optical element, and in which such trenches are formed on the first circuit layer so that the optical element and the first circuit layer are electrically connected to each other, thus maintaining the shape of the fluorescent resin material and obviating the need to form a via under the optical element. A method of manufacturing the package substrate for an optical element is also provided. | 06-16-2011 |
| 20110284382 | PRINTED CIRCUIT BOARD AND METHOD OF MANUFACTURING THE SAME - Disclosed herein is a printed circuit board, including: a metal substrate; an anodic oxide layer formed by anodizing the metal substrate; circuit layers formed on the anodic oxide layer; and a first sol-gel layer formed by applying a photocatalytic material between circuit wirings of the circuit layers and then curing the applied photocatalytic material. The printed circuit board is advantageous in that it can be realized into a high-voltage package printed circuit board because a sol-gel layer is formed between circuit wirings of circuit layers. | 11-24-2011 |
| 20110316035 | HEAT DISSIPATING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Disclosed is a heat-dissipating substrate, which includes a base substrate including a metal layer, an insulating layer formed on one surface of the metal layer, and a circuit layer formed on the insulating layer, a heat sink layer formed on the other surface of the metal layer, a connector for connecting the base substrate and the heat sink layer to each other, an opening formed in a direction of thickness of the base substrate and into which the connector is inserted, and an anodized layer formed on either or both of the other surface and a lateral surface of the metal layer, and in which the metal layer and the heat sink layer are insulated from each other by means of the anodized layer, thus preventing transfer of static electricity or voltage shock to the metal layer. A method of manufacturing the heat-dissipating substrate is also provided. | 12-29-2011 |
