Patent application number | Description | Published |
20080210972 | Nitride-based semiconductor light emitting diode - Provided is a nitride-based semiconductor LED including a substrate; a first conductive-type nitride semiconductor layer formed on the substrate; an active layer formed on a predetermined region of the first conductive-type nitride semiconductor layer; a second conductive-type nitride semiconductor layer formed on the active layer; a transparent electrode formed on the second conductive-type nitride semiconductor layer; a second conductive-type electrode pad formed on the transparent electrode; a plurality of second conductive-type electrodes extending from the second conductive-type electrode pad in one direction so as to be formed in a line; a first conductive-type electrode pad formed on the first conductive-type nitride semiconductor layer, where the active layer is not formed, so as to be positioned on the same side as the second conductive-type electrode pad; and a plurality of first conductive-type electrodes extending from the first conductive-type electrode pad in one direction so as to be formed in a line. | 09-04-2008 |
20090145833 | FILTERING APPARATUS EMPLOYING THE ROTOR FOR MULTISTAGE GENERATING VARIABLE VORTEX FLOW - A filtering apparatus is provided for filtering raw water containing various impurities and mixtures into purified water, and more particularly, a multistage filtering apparatus is provided in which a rotor for generating vortex are installed in each of multiple layers of filtration membrane stacked within a closed barrel and the rotors are formed in multistage by having different diameter of each rotor so that the power for generating vortex can be remarkably minimized by generating the vertical vortex from top and bottom of the rotary rotor and the horizontal vortex from the outer side of circumference plate of the rotary rotor to be crossed over between membranes to prevent from blocking the pores or remove the deposited pollutants, and the closed-type barrel having multistage of membranes, rotary shaft, and rotary rotors for vortex generation within are constructed as a single module of filter pack, and the filter pack is connected and extended in accordance with required purified capacity so that large scale installation of filtering apparatus is possible. | 06-11-2009 |
20090202282 | Image forming apparatus - An image forming apparatus includes a printer body having a developing portion and a fixing portion therein; a plurality of sheet feeding rollers successively disposed along a sheet discharge path of the printer body and driven to discharge a sheet from fixing portion to an upper portion of the printer body; and a rear cover portion having a rear cover provided on a side of the printer body to open and close, a guide rib member to guide the sheet from the fixing portion, an idle roller to rotate in contact with one of the sheet feeding rollers to feed the sheet, and a supplementary guide member to change a position thereof when the rear cover is open to prevent the sheet being discharged to the guide rib member from running into the idle roller. | 08-13-2009 |
20100020580 | HIGH-VOLTAGE POWER SUPPLY - A high-voltage power supply includes a first circuit which is realized on a first board, receives a first voltage, and generates a second voltage according to the first voltage, and a second circuit which is realized on a second board stacked on the first board and amplifies the second voltage and then rectifies the amplified second voltage. | 01-28-2010 |
20100193823 | NITRIDE SEMICONDUCTOR LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - There are provided a method of manufacturing a nitride semiconductor light emitting device and the nitride semiconductor light emitting device manufactured by the method, the method including: forming a light emitting structure by sequentially growing a first conductivity nitride layer, an active layer and a second conductivity type nitride layer on a preliminary substrate for nitride single crystal growth; separating the light emitting structure in accordance with a size of final light emitting device; forming a conductive substrate on the light emitting structure; polishing a bottom surface of the preliminary substrate to reduce a thickness of the preliminary substrate; forming uneven surface structures by machining the preliminary substrate; selectively removing the preliminary substrate to expose portions of the first conductivity type nitride layer; and forming electrodes on the portions of the first conductivity type nitride layer exposed by selectively removing the preliminary substrate. | 08-05-2010 |
20110058842 | HIGH-VOLTAGE POWER SUPPLY OF IMAGE FORMING APPARATUS - A high-voltage power supply usable in an image forming apparatus includes a power transformation unit that generates an alternate-current (AC) voltage by transforming a voltage applied to the high-voltage power supply and a plurality of rectification units that are connected to the power transformation unit in order to rectify the AC voltage into different DC voltages, respectively. | 03-10-2011 |
20110098791 | PROBE FOR LOCAL ANAESTHETIC SYSTEM - The present invention relates to a probe for a local anaesthetic system, and more particularly, to a probe for a local anaesthetic system which cools a local area of the body to perform a local anaesthetic operation without difficulty. The present invention provides a probe for a local anaesthetic system which cools a local area to be anaesthetized, the probe comprising a cooling pad which has a heat conductive material and a predetermined contacting surface to contact an anaesthetic area; a heat capacity adding means which is liquid to increase a heat capacity of the cooling pad; and a thermoelement which is provided to emit a cool air to at least one of the heat capacity adding means and the cooling pad. The probe performs an anaesthetic operation without pain by instantly cooling a skin layer and blocking a transmission of a pain to the nerve, and performs an anaesthetic operation repeatedly and stably by raising a heat capacity of a cooling pad with a heat capacity adding means. | 04-28-2011 |
20110141004 | DRIVING METHOD FOR LOCAL DIMMING OF LIQUID CRYSTAL DISPLAY DEVICE AND APPARATUS USING THE SAME - A driving method for local dimming of a Liquid Crystal Display (LCD) device and an apparatus using the same are disclosed. The driving method includes assigning a first block index to each of a plurality of blocks into which backlight unit is divided, detecting a connection order of the blocks in the backlight unit, arranging the first block indexes according to the block connection order, storing first block index ordering information that specifies the arranged first block indexes, retrieving the stored first block index ordering information, generating second block index information that specifies second block indexes corresponding to the first block indexes of the backlight unit, determining a local dimming value for each block by analyzing input data on a block basis according to the second block index information, rearranging the local dimming values arranged based on the second block index information according to the first block index ordering information, and driving the plurality of blocks respectively using the rearranged local dimming values of the plurality of blocks. | 06-16-2011 |
20110141154 | LOCAL DIMMING DRIVING METHOD AND DEVICE OF LIQUID CRYSTAL DISPLAY DEVICE - Disclosed herein is a local dimming driving method and device of an LCD device, which is capable of minimizing luminance deviation at the same gray scale due to a dimming difference between blocks. The local dimming driving method of the LCD device includes analyzing input image data in units of blocks and determining a local dimming value per block, performing spatial filtering with respect to the local dimming value per block, repeating spatial filtering by a predetermined repeat count, and controlling luminance of a backlight unit on a block-by-block basis using the local dimming value per block controlled by spatial filtering. | 06-16-2011 |
20110148941 | DRIVING METHOD FOR LOCAL DIMMING OF LIQUID CRYSTAL DISPLAY DEVICE AND APPARATUS USING THE SAME - A driving method for local dimming of a Liquid Crystal Display (LCD) device and an apparatus using the same are disclosed. The driving method includes determining a dimming value of each of a plurality of local dimming blocks into which a backlight unit is divided to be driven on a block basis by analyzing input image data on a block basis, detecting a high gray area concentrated with high gray levels from each local dimming block based on the analysis of the input image data, and generating position information about the high gray area according to a distance between the high gray area in the block and an adjacent block, and compensating the dimming value of each of the plurality of local dimming blocks by spatial filtering using a spatial filter having a different filter size or different filter coefficients for local dimming blocks according to the position information about the high gray area in the local dimming block. | 06-23-2011 |
20110206436 | Image forming apparatus - An image forming apparatus includes a printer body having a developing portion and a fixing portion therein; a plurality of sheet feeding rollers successively disposed along a sheet discharge path of the printer body and driven to discharge a sheet from fixing portion to an upper portion of the printer body; and a rear cover portion having a rear cover provided on a side of the printer body to open and close, a guide rib member to guide the sheet from the fixing portion, an idle roller to rotate in contact with one of the sheet feeding rollers to feed the sheet, and a supplementary guide member to change a position thereof when the rear cover is open to prevent the sheet being discharged to the guide rib member from running into the idle roller. | 08-25-2011 |
20120007896 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR LOCAL DIMMING DRIVING OF THE SAME - A liquid crystal display device capable of improving a contrast ratio and of reducing a halo phenomenon with low power consumption and a method for local dimming driving the same are disclosed. A method for local dimming driving a liquid crystal display includes determining a local dimming value for each of light-emitting blocks based on analyzing input image data by the unit of light-emitting block provided in a backlight unit; determining a halo degree by analyzing a total light quantity of black pixels having black gradations in the input image data; adjusting the number of spatial filtering repetitions based on the determined halo degree; compensating the local dimming value by performing spatial filtering for the local dimming value an adjusted number of times; and controlling brightness of the backlight unit for each of the blocks by using the compensated local dimming value. | 01-12-2012 |
20120056907 | METHOD AND DEVICE FOR DRIVING LOCAL DIMMING IN LIQUID CRYSTAL DISPLAY DEVICE - The present invention provides method and device for driving local dimming in a liquid crystal display device which enables adaptive application of a gradation roll-off according to an image characteristic. The method for driving local dimming in a liquid crystal display device includes the steps of determining a local dimming value of each light emitting block by analyzing a received image data light emitting block by light emitting block of a backlight unit, producing a pixel compensating coefficient on a light quantity change of each pixel by using the local dimming value of each light emitting block, producing a required gradient value by compensating the received image data by using the pixel compensating coefficient, and producing maximum required gradient values for one frame and an average value of the maximum required gradient values for one frame, determining a roll-off end point of a gradient roll-off section according to the maximum required gradient value, and determining a roll-off starting point of the gradient roll-off section according to the average of the maximum required gradient values, setting a gradient change curve of the gradient roll-off section by using the roll-off starting point and end point, and producing a gain value of each pixel from the gradient change curve, and forwarding an output gradient value by correcting the required gradient value by using the gain value of each pixel. | 03-08-2012 |
20120174154 | DISPLAY APPARATUS - A display apparatus is provided, which includes a display panel, and a display driving apparatus mounted on the display panel and driving the display panel, which includes an RF modem having a first tuner for providing a broadcasting signal to the display panel. | 07-05-2012 |
20140070243 | LIGHT-EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - Provided is a light-emitting device including a light-emitting cell formed on one surface of a substrate, wherein the light-emitting cell comprises a plurality of semiconductor layers and emits light of a certain wavelength; and a wavelength conversion layer formed on the other surface of the substrate and to a certain height of the side of the substrate, wherein the wavelength conversion layer converts a wavelength of light emitted from the light-emitting cell. | 03-13-2014 |
20140143518 | MEMORY SYSTEM AND METHOD FOR OPERATING THE SAME - A memory system comprises a central processing unit. A memory management unit receives a virtual address from the central processing unit. The memory management unit converts the virtual address into a physical address. A main memory is assessed based on the physical address. The main memory stores data used the central processing unit. The main memory includes a first area including a non-volatile memory. First file data having a first characteristic is included in the first area of the main memory. The main memory includes a second area including a volatile memory. Second file data having a second characteristic different from the first characteristic is included in the second area of the main memory. A management table manages only the first area of the first and second areas of the main memory. | 05-22-2014 |