Patent application number | Description | Published |
20110181151 | RIGID DUAL-SERVO NANO STAGE - The present invention relates to a stage, particularly to, a stage which is able to move minutely, having a rigidity-improved transfer part. A stage includes a work table on which a working object is placed, a motor configured to provide a rotational force, a shaft rotated by the motor to transfer the work table, a linear moving part configured to be expandable to linearly move the shaft in an axial direction, the linear moving part having a hollow to insert an end of the shaft therein, and an expanding part configured to be expandable as far as the shaft is moved by the linear moving part. | 07-28-2011 |
20120158176 | SWARM ROBOT AND SWEEPING METHOD USING SWARM ROBOT - A swarm robot and a sweeping method using the swarm robot are provided. The swarm robot removes a plurality of objects in a given sweeping area, and at least two swarm robots collaborate to remove the individual object. The swarm robot searches the sweeping area, detects environment information of the sweeping area, locates the swarm robot in the sweeping area, generates a local map and an object map using the environment information and the acquired position, moves to the object according to the local map and the object map, and removes the object. | 06-21-2012 |
Patent application number | Description | Published |
20120273867 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A non-volatile memory device includes a substrate; a first conductive layer over the substrate, a second conductive layer over the first conductive layer, a stacked structure disposed over the second conductive layer, wherein the stacked structure includes a plurality of first inter-layer dielectric layers and a plurality of third conductive layers alternately stacked, a pair of first channels that penetrate the stacked structure and the second conductive layer, a second channel which is buried in the first conductive layer, covered by the second conductive layer, and coupled to lower ends of the pair of the first channels; and a memory layer formed along internal walls of the first and second channels. | 11-01-2012 |
20130100741 | 3-D NONVOLATILE MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME, AND MEMORY SYSTEM INCLUDING THE 3-D NONVOLATILE MEMORY DEVICE - A three-dimensional (3-D) nonvolatile memory device includes vertical channel layers protruded from a substrate, interlayer insulating layers and memory cells, which are alternately stacked along the vertical channel layers, and select transistors including planar channel layers, each contacted with at least one of the vertical channel layers and being parallel to the substrate, and gate insulating layers formed over the planar channel layers. | 04-25-2013 |
20130161717 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A three-dimensional non-volatile memory device that may increase erase operation efficiency during an erase operation using Gate-Induced Drain Leakage (GIDL) current and a method for fabricating the three-dimensional non-volatile memory device. The non-volatile memory device includes a channel structure formed over a substrate including a plurality of inter-layer dielectric layers and a plurality of channel layers that are alternately stacked, and a first selection gate and a second selection gate that are disposed on a first side and a second side of the channel structure, wherein the first selection gate and the second selection gate contact sidewalls of the multiple channel layers, respectively, wherein a work function of a material forming the first selection gate is different from a work function of a material forming the second selection gate. | 06-27-2013 |
20140043915 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device includes memory strings each of which includes a drain select transistor, memory cells, and a source select transistor, a first bit line coupled to drain select transistors of first group memory strings among the memory strings, a second bit line coupled to drain select transistors of second group memory strings among the memory strings, and source lines coupled to source select transistors of the memory strings; and peripheral circuits configured to turn on source select transistors of non-selected memory strings coupled to source lines to which a precharge voltage is supplied or turn on drain select transistors of non-selected memory strings coupled to bit lines to which a program inhibition voltage is supplied in order to precharge channel regions of non-selected memory strings before a program voltage is supplied to a memory cell included in a selected memory string among the memory strings. | 02-13-2014 |
20140063951 | SEMICONDUCTOR MEMORY DEVICE, OPERATING METHOD THEREOF, AND MEMORY SYSTEM INCLUDING THE SAME - An operating method of a semiconductor memory device is provided. The method includes supplying a first voltage to a selected bit line where a selected memory cell among memory cells is connected and a second voltage, which is higher than the first voltage, to an unselected bit line, supplying a third voltage to a selected drain select line where the selected memory cell is connected, and a fourth voltage lower than the third voltage to an unselected drain select line; and supplying a fifth voltage to a selected word line where the selected memory cell is connected, and a sixth voltage, which is lower than the fifth voltage, to an unselected word lines for a program operation. | 03-06-2014 |
20150048435 | SEMICONDUCTOR DEVICE - A semiconductor device comprising four semiconductor pillars extending in a direction perpendicular to a substrate, a connection channel formed on the substrate and connected to one ends of the four semiconductor pillars, a source line connected to the other ends of first and second semiconductor pillars adjacent to each other among the four semiconductor pillars, a bit line connected to the other ends of third and fourth semiconductor pillars among the four semiconductor pillars, first to fourth stack structures, which are formed along the first to fourth semiconductor pillars, respectively, between the source and bit lines and the substrate, and each includes a pass word line, at least one word line and a select line which are stacked over the substrate, and a memory layer interposed between the word line and each of the first to fourth semiconductor pillars. | 02-19-2015 |
Patent application number | Description | Published |
20100107979 | APPARATUS FOR CONTINUOUS FABRICATING SUPERCONDUCTING TAPES - Provided is an apparatus for continuously fabricating superconducting tapes. An evaporation using drum in dual chamber (EDDC) method is suitable for mass production of high-temperature superconducting tapes. However, the EDDC method is limited to fabrication of high-temperature superconducting tapes having a limited length. In an attempt, high-temperature super-conducting tapes having a sufficiently large length can be fabricated using the EDDC method by releasing a long high-temperature superconducting tape from one reel and winding the long high-temperature superconducting tape around the other reel. In this case, it is important to stably move a high-temperature superconducting tape spirally wound around a drum from one reel to the other reel. Therefore, the provided apparatus uses endless tract belts separately disposed around a drum to stably and continuously move a high-temperature superconducting tape spirally wound around the drum along the centerline of the drum from one reel to the other reel. | 05-06-2010 |
20110111963 | Apparatus For Fabricating High Temperature Superconducting Film And High Temperature Superconducting Film Fabricated Through Auxiliary Cluster Beam Spraying - Disclosed herein is a high temperature superconducting film and an apparatus for fabricating a high temperature superconducting film in a vacuum chamber through auxiliary cluster beam spraying using an evaporation method, wherein a high temperature superconducting material is deposited on a substrate in a vapor state by evaporating the high temperature superconducting material, and at the same time, a cluster beam material is formed into gas atoms by heating the cluster beam material charged in a material housing, and the formed gas atoms pass through a nozzle of an inlet of the material housing and then are sprayed and grown on the substrate in the form of the cluster beam, thereby forming pinning centers in the high temperature superconducting film. | 05-12-2011 |
20150107739 | KERF STRUCTURE FOR SNOW TIRE - The present invention relates to a kerf structure for a snow tire, including a wave-shaped straight portion and an expansion portion formed expanding from the straight portion, wherein the expansion portion includes unit structures, on each of which central semi-sphere holes and polygonal forms around the semi-sphere holes form protrusions in opposite directions are formed continuously. According to the present invention, the kerf structure for a snow tire provides a symmetric shape, thereby securing uniform block rigidity regardless of the direction of the kerf, and the interlocking effect can be maximized through the combination of the protrusion shape of the polygonal shape and the embossing of the semi-sphere hole. In addition, according to the present invention, the tire performance on dry roads can be ensured by optimizing the collapse of the tire tread portion and the uniform performance of the traction can be maintained until the last stages of tread wear since the polygonal shape is maintained until the last stage of the wear even though the tire is worn. | 04-23-2015 |
20150107740 | KERF STRUCTURE FOR SNOW TIRE - The present invention provides a kerf structure for a snow tire, including unit structures on each of which spiral-shaped protrusions are continuously formed to be spaced a predetermined distance apart on the outer circumferential surface of a semi-cylindrical shaped column, wherein the continuously formed unit structures are arranged by alternating convex and concave portions in a zigzag formation, which is capable of optimizing the rigidity which can maintain gripping force as an original function of a kerf while ensuring a friction force generated from small blocks of a tread portion partitioned with kerfs by collapsing a block at an optimum level and further ensuring the kerf function on snow even in the last stages of tread wear by lowering the rigidity of the blocks of the tread portion. | 04-23-2015 |
20150321520 | PNEUMATIC TIRE FOR VEHICLE - A pneumatic tire for a vehicle is herein disclosed. The pneumatic tire includes a tread, side walls, and beads. A plurality of tread blocks and grooves are formed in the tread. Kerfs are formed in the tread blocks. Each kerf face of each of the kerfs includes a flange portion, a plurality of concave kerf portions, and a plurality of convex kerf portions. The flange portion is formed in the outermost portion of the tread. The concave kerf and convex kerf portions are connected to the flange portion, and are alternately formed in depth and lengthwise directions of the kerf. The concave kerf portions correspond to opposite convex kerf portions. The convex kerf portions correspond to opposite concave kerf portions. The concave and convex kerf portions are configured such that the protrusion directions of the concave and convex kerf portions are opposite to each other. | 11-12-2015 |
Patent application number | Description | Published |
20110057965 | LIQUID CRYSTAL DISPLAY DEVICE INCLUDING EDGE-TYPE BACKLIGHT UNIT AND METHOD OF CONTROLLING THE LIQUID CRYSTAL DISPLAY - A method of controlling a liquid crystal display (LCD) device including an LCD panel and an edge-type backlight unit is provided. The method includes: controlling turn-on and turn-off periods of an upper light source unit and a lower light source unit of the edge-type backlight unit to be synchronized with a period during which a 3D image is output on the LCD panel, wherein the upper light source unit includes a light source disposed at an upper edge of the edge-type backlight unit, and the lower light source unit includes a light source disposed at a lower edge of the edge-type backlight unit. | 03-10-2011 |
20110102422 | TWO-DIMENSIONAL/THREE-DIMENSIONAL IMAGE DISPLAY APPARATUS AND METHOD OF DRIVING THE SAME - A display apparatus which displays two-dimensional (2D) and three-dimensional (3D) images and a method of driving the same. In the 2D/3D image display apparatus, an image signal input unit inputs, to a display panel, a left image signal, a left inversion image signal, at least one 2D image signal, a right image signal and a right inversion image signal, a left shutter of shutter glasses is open in synchronization with the left image signal, a right shutter of the shutter glasses is open in synchronization with the right image signal, and the left shutter and the right shutter of the shutter glasses are closed in synchronization with the left inversion image signal, the at least one 2D image signal, and the right inversion image signal. | 05-05-2011 |
20110148863 | 3D DISPLAY DRIVING METHOD AND 3D DISPLAY APPARATUS USING THE SAME - A method for driving a 3D display and a display apparatus using the same are provided. The display apparatus includes a storage unit to store a received image and a controlling unit to drive a display by adjusting the brightness value using a first look-up table when the previous frame is different from the current frame and adjusting the brightness value using a second look-up table when the previous frame is the same as the current frame. According to the exemplary embodiment, an overdrive method may be applied to a 3D image display apparatus effectively. | 06-23-2011 |
20110148943 | METHOD FOR DRIVING THREE-DIMENSIONAL (3D) DISPLAY AND 3D DISPLAY APPARATUS USING THE SAME - A method for driving a three dimensional (3D) display and a 3D display apparatus using the same are provided. The 3D display apparatus includes a storage unit which stores a received image; and a controller which compares a previous frame of the received image with a current frame of the received image, and determines whether or not to input an image of the current frame to a liquid crystal panel based on whether the previous frame is identical to the current frame. Therefore, a method for driving a 3D display which does not cause characteristics of a liquid crystal to be deteriorated and a 3D display apparatus using the same are provided. | 06-23-2011 |
20110157165 | METHOD AND APPARATUS FOR DISPLAYING 3-DIMENSIONAL IMAGE AND METHOD AND APPARATUS FOR CONTROLLING SHUTTER GLASSES - An image display method includes alternately receiving left and right images of a 3D image; and turning on a backlight such that the backlight is on only in periods when the left images are displayed or only in periods when the right images are displayed. A method of controlling shutter glasses separately for left and right images of a three-dimensional (3D) image includes alternately receiving the left and right images of the 3D image; and opening two shutters of the shutter glasses only in periods when the left images are received or only in periods when the right images are received. | 06-30-2011 |
20110193897 | METHOD AND APPARATUS FOR CONTROLLING THE PARTITIONS OF A BACKLIGHT UNIT OF A 3D DISPLAY APPARATUS - A method and apparatus for controlling a backlight unit of a three-dimensional (3D) display apparatus receiving a 3D video sequence is provided. The method includes determining the image brightness level of the 3D video sequence displayed on a liquid crystal display (LCD) unit, for each of a plurality of partial regions of the LCD unit to which a plurality of sub-blocks of the backlight unit emit light; determining turn-on times of the plurality of sub-blocks of the backlight unit, based on the image brightness of each of the partial regions of the LCD unit; and determining turn-on periods of the plurality of sub-blocks of the backlight unit by synchronizing with a switching period between a set including a left visual point frame and a right visual point frame of the 3D video sequence. | 08-11-2011 |
20130063431 | THREE DIMENSIONAL (3D) IMAGE DISPLAY APPARATUS AND METHOD THEREOF - A three dimensional (3D) image display apparatus is provided, which includes a display which outputs a 3D image, a barrier which opens a first area to pass a light in a first direction of a 3D image pixel constituting the 3D image, and which closes a second area to block a light in a second direction of the 3D image pixel, and a controller which controls an operation of the barrier so that the first area becomes narrower than the second area. | 03-14-2013 |
20130286168 | 3D DISPLAY DEVICE AND METHOD - A 3D display device includes: a data processor configured to generate at least one frame by combining a left-eye image and a right-eye image; a panel including pixels, each of the pixels including three sub pixels; a barrier configured to form a light blocking region and a light transmitting region on the panel on a basis of two sub pixel units; and a controller configured to control the data processor to generate the at least one frame by placing the left-eye image and the right-eye image alternately on the basis of two sub pixels, and to control the panel to display at least one frame generated by the data processor. | 10-31-2013 |
20140192172 | 3D DISPLAY DEVICE USING BARRIER AND DRIVING METHOD THEREOF - A 3D display apparatus is provided, which includes a display panel which displays a multi-viewpoint image, a barrier arranged on one side of the display panel unit, and a controller which controls the barrier to alternately form light transmitting areas and light blocking areas. The barrier includes a liquid crystal layer, a plurality of upper electrodes arranged to be spaced apart from one another on an upper surface of the liquid crystal layer, and a plurality of lower electrodes arranged to be spaced apart from one another on a lower surface of the liquid crystal layer. | 07-10-2014 |