Patent application number | Description | Published |
20130108806 | WINDOW FOR DISPLAY PROTECTION AND DISPLAY USING THE SAME | 05-02-2013 |
20130126079 | ACRYLATE BASED ADHESIVE COMPOSITION FOR OPTICAL USE, ACRYLATE BASED ADHESIVE SHEET FOR OPTICAL USE, AND METHOD FOR SEPARATING OPTICAL COMPONENT USING THE SAME - Disclosed is an acrylate based adhesive composition for optical use that includes: a copolymer prepared by polymerizing an alkyl(meth)acrylate (wherein the alkyl is a C16 to C22 linear alkyl group) in an amount of about 1 to about 10 parts by weight, an alkyl(meth)acrylate (wherein the alkyl is a C1 to C12 alkyl group) in an amount of about 70 to about 98 parts by weight, and a polar monomer in an amount of about 1 to about 20 parts by weight; and a cross-linking agent. The cross-linking agent is included in an amount of about 0.5 to 5 parts by weight based on 100 parts by weight of the copolymer. | 05-23-2013 |
20130194204 | DISPLAY DEVICE INTEGRATED WITH TOUCH SCREEN PANEL - A display device integrated with a touch screen panel includes top and bottom substrates, each being divided into a display region, a first region on an outline of the display region, and a second region on an outline of the first region, pixels in the display region of the bottom substrate, pads in the second region of the bottom substrate, signal lines in the first region of the bottom substrate electrically coupling the pixels to the pads, sensing patterns in the display region of the top substrate, sensing lines in the first region of the top substrate and coupled to the sensing patterns, an auxiliary display unit in the first region of the top substrate that overlaps the sensing lines, and a window on a top surface of the top substrate that includes a decoration layer overlapping only a second region of the top substrate. | 08-01-2013 |
20130278511 | FLEXIBLE TOUCH SCREEN PANEL - In a flexible touch screen panel, sensing patterns as a touch sensor are formed on the first surface of a flexible thin film substrate and a coated polarizer layer is formed on the second surface of the thin film substrate to secure the flexible characteristic, to reduce the thickness of the touch screen panel, and to improve the visibility of an image. Particularly, the flexible touch screen panel includes a flexible substrate comprising an active region and a non-active region positioned outside the active region, sensing patterns formed over the active region of a first surface of the substrate, conductive lines formed over the non-active region of the first surface of the substrate and connected to the sensing patterns, and a coated polarizer layer formed over a second surface of the substrate. | 10-24-2013 |
20130285938 | FLEXIBLE TOUCH SCREEN PANEL AND FLEXIBLE DISPLAY DEVICE INCLUDING THE SAME - A flexible touch screen panel includes a polarizing film having an active region and a non-active region, the non-active region being along an outline of the active region, and the polarizing film having a polarizer, a phase difference compensating layer defining a first surface of the polarizing film, and a transparent adhesive between the phase difference compensating layer and the polarizer, the transparent adhesive being configured to support the polarizer, sensing patterns on the first surface of the polarizing film, the sensing patterns being in the active region, and sensing lines on the first surface of the polarizing film, the sensing lines being in the non active region and being coupled to the sensing patterns. | 10-31-2013 |
20130293096 | FLEXIBLE TOUCH SCREEN PANEL AND FLEXIBLE DISPLAY DEVICE WITH THE SAME - A flexible touch screen panel includes a substrate having flexibility, sensing electrodes on at least one surface of the substrate, and implemented using an opaque conductive metal, and a polarizing plate on the substrate having the sensing electrodes formed thereon. The sensing electrodes may be implemented in a mesh shape having a plurality of openings. | 11-07-2013 |
20130300678 | FLEXIBLE TOUCH SCREEN PANEL AND FLEXIBLE DISPLAY DEVICE HAVING THE SAME - A flexible touch screen panel includes a flexible thin-film substrate including an active region and an inactive region, the inactive region being at an outer side portion of the active region, and the thin-film substrate being configured to bend along at least one bending axis, sensing patterns in the active region of the thin-film substrate, the active region being divided into a plurality of electrically independent regions by the at least one bending axis, and sensing lines in the inactive region of the thin-film substrate, the sensing lines being connected to the sensing patterns. | 11-14-2013 |
20140043734 | FLEXIBLE DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - A flexible display apparatus is disclosed. In one aspect, the apparatus includes a flexible display panel including a first surface, a second surface facing the first surface, and a side surface that connects the first surface and the second surface. The apparatus also includes a passivation layer that is disposed on at least one of the first surface, the second surface, and the side surface of the display panel and includes a viscoelastic fluid and a vessel unit that contains the viscoelastic fluid therein. | 02-13-2014 |
20140065326 | FOLDABLE DISPLAY DEVICE - A foldable display device includes a flexible display panel and a cover window on an outside of the flexible display panel. The cover window includes a foldable region between plane regions that are on opposite sides of the cover window, and the plane regions have a first hardness and the foldable region has a second hardness that is smaller than the first hardness. | 03-06-2014 |
20140118426 | DISPLAY DEVICE, APPARATUS FOR COMPENSATING DEGRADATION AND METHOD THEREOF - A display device includes: a plurality of pixels; a degradation compensator for using a temperature weight value for a reference temperature, a luminance weight value for a reference luminance, and a material weight value for a reference material, for calculating a reference using time when a degradation rate of the pixels is changed to a reference degradation rate of a reference degradation curve, and for generating a control variable according to the reference using time; and a power supply for controlling a voltage difference between a first power source voltage for supplying a driving current to the pixels and a second power source voltage according to the control variable. | 05-01-2014 |
20140210766 | TOUCH SCREEN PANEL - A touch screen panel includes a substrate comprising a major surface and divided into an active area and a non-active area when viewed in a viewing direction perpendicular to the major surface; a plurality of driving electrodes formed over the active area of the substrate and generally arranged along a first direction; a plurality of first sensing electrodes formed over the active area of the substrate and generally arranged along a second direction; and a plurality of second sensing electrodes formed over the active area of the substrate and arranged along the second direction. The shapes of the first sensing electrode and the second sensing electrode are different from each other. | 07-31-2014 |
20140267950 | FLEXIBLE DISPLAY DEVICE WITH FLEXIBLE TOUCH SCREEN PANEL - A flexible display device with a flexible touch screen includes, a window substrate divided into an active area and a non-active area outside of the active area, a touch screen panel including a plurality of sensing patterns on the active area and a plurality of sensing lines on the non-active area, the sensing lines coupled to the sensing patterns, a display panel on one surface of the touch screen panel, a transparent adhesive having at least two layers configured to attach the window substrate, the touch screen panel, and the display panel to one another, and a bending compensation portion on the same layer as at least one layer of the transparent adhesive. The flexible display device includes a folding axis in a first direction along which the window substrate, the touch screen panel, and the display panel are to be repeatedly bent. | 09-18-2014 |
20140287213 | COVER WINDOW FOR DISPLAY DEVICE, DISPLAY DEVICE COMPRISING THE SAME, AND METHOD FOR MANUFACTURING THE SAME - A cover window for a display device which is bendable and having more than a certain degree of surface hardness, the cover window including a base film and a coating layer on the base film, the coating layer including first and second regions including different degrees of hardness. | 09-25-2014 |
20140342131 | CONDUCTIVE FILM AND FABRICATING METHOD THEREOF - A conductive film includes an elastomer film having a concave-convex structure at a region thereof, and a conductive layer at a surface of the elastomer film and having a concave-convex structure at a region thereof. | 11-20-2014 |
20150085223 | QUANTUM DOT LIGHT-EMITTING DEVICE AND DISPLAY APPARATUS - A quantum dot light-emitting device and a display apparatus including the same, the device including a light-emitting device that emits a first light; a quantum dot layer facing the light-emitting device, the quantum dot layer including a plurality of quantum dots, absorbing the first light, and emitting a second light and a third light that have different wavelength ranges compared to the first light; and a band pass filter on the quantum dot layer, the band pass filter cutting off a portion of the second light and a portion of the third light. | 03-26-2015 |
20150085384 | DISPLAY APPARATUS - A display apparatus including a display unit including at least one pixel area and a non-pixel area, the non-pixel area dividing the at least one pixel area; and a metamaterial structure that controls a path of light emitted from the at least one pixel area. | 03-26-2015 |
Patent application number | Description | Published |
20100112768 | METHOD OF MANUFACTURING NON-VOLATILE SEMICONDUCTOR DEVICES - A non-volatile semiconductor device includes a memory cell in a first area of a substrate, a low voltage transistor in a second area of the substrate, and a high voltage transistor in a third area of the substrate. The memory cell includes a tunnel insulation layer formed on the substrate, a charge trapping layer pattern formed on the tunnel insulation layer in the first area of the substrate, a blocking layer pattern formed on the charge trapping layer pattern and a control gate formed on the blocking layer pattern. The control gate has a width substantially smaller than a width of the blocking layer pattern and the width of the control gate is substantially smaller than a width of the charge trapping layer pattern. In addition, an offset is formed between the control gate and the blocking layer pattern such that a spacer is not formed on a sidewall of the control gate. | 05-06-2010 |
20100173469 | METHODS OF MANUFACTURING CHARGE TRAP-TYPE NON-VOLATILE MEMORY DEVICES - Some methods are directed to manufacturing charge trap-type non-volatile memory devices. An isolation layer pattern can be formed that extends in a first direction in a substrate. A recess unit is formed in the substrate by recessing an exposed surface of the substrate adjacent to the isolation layer pattern. A tunnel insulating layer and a charge trap layer are sequentially formed on the substrate. The tunnel insulating layer and the charge trap layer are patterned to form an isolated island-shaped tunnel insulating layer pattern and an isolated island-shaped charge trap layer pattern by etching defined regions of the substrate, the isolation layer pattern, the tunnel insulating layer, and the charge trap layer until a top surface of the charge trap layer that is disposed on a bottom surface of the recess unit is aligned with a top surface of the isolation layer pattern. A blocking insulating layer is formed that covers the charge trap layer pattern, the isolation layer pattern, and a defined region of the substrate interposed between the charge trap patterns. A gate electrode pattern is formed on the blocking insulating layer to face the charge trap layer pattern. This manufacturing process may reduce charge spreading between unit memory cells and/or may prevent/avoid reduction in the breakdown voltage of the blocking insulating layer. | 07-08-2010 |
20110233653 | NON-VOLATILE SEMICONDUCTOR DEVICES AND METHODS OF MANUFACTURING NON-VOLATILE SEMICONDUCTOR DEVICES - A non-volatile semiconductor device includes a memory cell in a first area of a substrate, a low voltage transistor in a second area of the substrate, and a high voltage transistor in a third area of the substrate. The memory cell includes a tunnel insulation layer formed on the substrate, a charge trapping layer pattern formed on the tunnel insulation layer in the first area of the substrate, a blocking layer pattern formed on the charge trapping layer pattern and a control gate formed on the blocking layer pattern. The control gate has a width substantially smaller than a width of the blocking layer pattern and the width of the control gate is substantially smaller than a width of the charge trapping layer pattern. In addition, an offset is formed between the control gate and the blocking layer pattern such that a spacer is not formed on a sidewall of the control gate. | 09-29-2011 |
20130149499 | MAGNETIC DEVICES AND METHODS OF MANUFACTURING THE SAME - Magnetic devices, and methods of manufacturing the same, include a stack structure including at least one magnetic layer, etched using an etching gas including at least 70 volume percent of a hydrogen-containing gas and at least 2 volume percent of CO gas. | 06-13-2013 |
20140035048 | SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a semiconductor device and a method of fabricating the same. The device may include a transistor on a substrate comprising a gate insulating pattern, a gate electrode and an impurity region, a shared contact plug electrically connected to the gate electrode and the impurity region, and an etch-stop layer between side surfaces of the gate electrode and the shared contact. The shared contact plug may include a first conductive pattern electrically connected to the first impurity region and a second conductive pattern electrically connected to the gate electrode, and a top surface of the first conductive pattern may be higher than a top surface of the gate electrode. | 02-06-2014 |