Patent application number | Description | Published |
20090151781 | Solar cell having spherical surface and method of manufacturing the same - Provided is a solar cell having a spherical surface. The solar cell includes a substrate having a back contact layer formed thereon; a plurality of carbon nanoelectrodes formed on the back contact layer so as to cross the back contact layer at right angles; a p-type junction layer formed to have a plurality of spheres which surround the plurality of carbon nanoelectrodes; an n-type junction layer and a transparent electrode layer that are sequentially laminated on the p-type junction layer; a first electrode formed on one side of the top surface of the back contact layer; and a second electrode formed on one side of the top surface of the transparent layer. | 06-18-2009 |
20090165856 | High-efficiency solar cell and method of manufacturing the same - Provided is a high-efficiency solar cell including a back contact formed on a substrate; a conductive carbon nanotube array formed on the top surface of the back contact; a p-type semiconductor layer formed between a plurality of multi-wall carbon nanotubes composing the conductive carbon nanotube array and on the conductive carbon nanotube array; an n-type semiconductor layer formed on the top surface of the p-type semiconductor layer; and a transparent electrode formed on the top surface of the n-type semiconductor layer and composed of a plurality of hemispheric microlenses. | 07-02-2009 |
20090269559 | PRINTED CIRCUIT BOARD AND MANUFACTURING METHOD THEREOF - A printed circuit board and a method of manufacturing the printed circuit board are disclosed. The method of manufacturing the printed circuit board can include adhering a film to an insulation base, in which the film is configured to flatten a surface of the insulation base, thermosetting the film, and forming a circuit pattern on the film by way of ink-jetting. In accordance with the present invention, a surface of the insulation base can be flattened and the surface roughness thereof can be made uniform, so that the diffusivity of the circuit pattern can be controlled while printing a minute circuit pattern and an adhesive strength between the insulation base and the circuit pattern can be increased. | 10-29-2009 |
20100014105 | PROCESSING IMAGE DATA - A method of processing image data according to an embodiment of the present invention includes: setting a permissible pitch range for a distance between adjacent ink blots; arranging image data for the line pattern in an x-y coordinate system; selecting a first base point corresponding to one side of the image data for the line pattern; selecting a first determination point from the first base point, in which the first determination point is parallel to and separated from one side of the image data for the line pattern; determining whether a distance between the first base point and the first determination point is within the permissible pitch range; and storing a coordinate as print data if the distance between the first base point and the first determination point is within the permissible pitch range, in which the coordinate is located at a shortest distance from the first determination point. | 01-21-2010 |
20100051104 | Solar cell and manufacturing method thereof - Disclosed are a solar cell and a manufacturing method thereof. The solar cell in accordance with an embodiment of the present invention includes: a substrate having a plurality of holes formed on one surface thereof; a metal layer formed on an inner wall of the hole and on one surface of the substrate; a p-type semiconductor coated on the metal layer; an n-type semiconductor formed inside the hole and on one surface of the substrate; a transparent conductive oxide formed on the n-type semiconductor; and an electrode terminal formed on the p-type semiconductor and on the transparent conductive oxide. | 03-04-2010 |
20100053645 | METHOD FOR PROCESSING DATA AND RECORDING MEDIA RECORDED WITH PROGRAM REALIZING THE SAME - Disclosed are a method for processing data and a recording media recorded with a program realizing the same. The method for processing bitmap data for driving an inkjet head in which nozzle rows are spaced from one another in a scan direction, each of the nozzle rows consisting of a plurality of nozzles disposed on the same straight line, the method including: converting a distance by which a second nozzle row is spaced from a first nozzle row in the scan direction into a pixel count of the bitmap data; and compensating the bitmap data for driving the second nozzle row by as much as the pixel count. | 03-04-2010 |
20100060680 | METHOD OF PRINTING LINE BY USING INKJET APPARATUS - Disclosed is a method of printing a circuit line on the board by using an inkjet apparatus. The line printing method of an embodiment can include forming an original bitmap image including information related to a circuit line to be printed on the board; firstly printing the circuit line according to the original bitmap image on the board by using the inkjet apparatus; forming a first printed image by photographing the circuit line firstly printed on the board; forming a complementary bitmap image including complementary printing information corresponding to a defectively printed portion based on the first printed image; and secondly printing a pertinent portion according to the complementary bitmap image on the board by using the inkjet apparatus. | 03-11-2010 |
20100079565 | INK RECOVERY DEVICE - An ink recovery device is disclosed. The ink recovery device, configured to retrieve ink being sprayed out from an inkjet printer, in accordance with an embodiment of the present invention includes: a recovery unit, which retrieves the ink; a storage, which is connected to the recovery unit and stores the retrieved ink; and a vibrating unit, which vibrates the stored ink. The ink recovery device in accordance with an embodiment of the present invention can effectively retrieve ink being sprayed out for the maintenance of an inkjet head and immediately reuse the retrieved ink while maintaining the properties of the ink. | 04-01-2010 |
20100103214 | INKJET HEAD ALIGNING METHOD - Disclosed is a method of aligning an inkjet head. The method of aligning an inkjet head having a plurality of nozzles can include recognizing a position (x | 04-29-2010 |
20100132195 | MICRO-REFORMER AND MANUFACTURING METHOD THEREOF - The invention relates to a micro-reformer using a liquid fuel such as methanol and a manufacturing method thereof. The reformer for producing hydrogen gas from the liquid fuel includes a first substrate having a first grooved path and a catalyst layer, and a second substrate having a second grooved path and a catalyst layer, the first and second grooved paths are overlapped on each other forming a micro-channel. The micro-channel has a fuel inlet, a hydrogen outlet, a reforming section, and a carbon monoxide removing section with heating means disposed therein. Although reduced in size, the reformer allows increased hydrogen emission amount due to increased area of the inner path, and is operable with low power due to effective disposition of a heater. This allows manufacturing at low costs and mass-production via semiconductor process. | 06-03-2010 |
20110025792 | INK RECOVERY DEVICE - An ink recovery device is disclosed. The ink recovery device, configured to retrieve ink being sprayed out from an inkjet printer, in accordance with an embodiment of the present invention includes: a recovery unit, which retrieves the ink; a storage, which is connected to the recovery unit and stores the retrieved ink; and a vibrating unit, which vibrates the stored ink. The ink recovery device in accordance with an embodiment of the present invention can effectively retrieve ink being sprayed out for the maintenance of an inkjet head and immediately reuse the retrieved ink while maintaining the properties of the ink. | 02-03-2011 |
20110117694 | SOLAR CELL HAVING SPHERICAL SURFACE AND METHOD OF MANUFACTURING THE SAME - Provided is a solar cell having a spherical surface. The solar cell includes a substrate having a back contact layer formed thereon; a plurality of carbon nanoelectrodes formed on the back contact layer so as to cross the back contact layer at right angles; a p-type junction layer formed to have a plurality of spheres which surround the plurality of carbon nanoelectrodes; an n-type junction layer and a transparent electrode layer that are sequentially laminated on the p-type junction layer; a first electrode formed on one side of the top surface of the back contact layer; and a second electrode formed on one side of the top surface of the transparent layer. | 05-19-2011 |