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Display or gas panel making

Subclass of:

445 - Electric lamp or space discharge component or device manufacturing

445001000 - PROCESS

445023000 - With assembly or disassembly

Patent class list (only not empty are listed)

Deeper subclasses:

Class / Patent application numberDescriptionNumber of patent applications / Date published
445025000 With sealing 110
Entries
DocumentTitleDate
20110177745INTERCONNECT STRUCTURE FOR MEMS DEVICE - An interferometric modulator array is formed with connectors and/or an encapsulation layer with electrical connections. The encapsulation layer hermetically seals the array. Circuitry may also be formed over the array.07-21-2011
20110201245METHOD FOR MANUFACTURING PLASMA DISPLAY PANEL - A plasma display panel capable of displaying high definition at high luminance with lower power consumption is obtainable. Metal oxide paste formed of metal oxide particles, organic resin component, and diluting agent is painted on primary film (08-18-2011
20080261478PATTERNING METHOD FOR LIGHT-EMITTING DEVICES - A method of forming a patterned, light-emitting device that includes providing a substrate, and mechanically locating a first masking film over the substrate. The first masking film is segmented into a first masking portion and one or more first contiguous opening portions in first locations. The first contiguous opening portions are mechanically removed. Subsequently, first light-emitting materials are deposited over the substrate in the first locations to form first light-emitting areas; and the first masking portion is mechanically removed.10-23-2008
20110195629ELECTRO-OPTIC MEDIA PRODUCED USING INK JET PRINTING - Ink jet printing can be used in the production of electro-optic displays for (a) forming a layer of a polymer-dispersed electrophoretic medium on a substrate; (b) forming a color electro-optic layer; (c) forming a color filter; and (d) printing electrodes and/or associated conductors on a layer of electro-optic material.08-11-2011
20110195628LAYOUT OF LIQUID CRYSTAL DISPLAY PANELS AND SIZE OF MOTHER SUBSTRATE - A layout of LCD panels and a size of the mother substrate are disclosed, to improve the efficiency in arrangement of the LCD panels, and to maximize the substrate efficiency, the layout comprising a mother substrate; a dummy region of 15 mm or less in a periphery of the mother substrate; and six LCD panels of the 26-inch model in a matrix of 2×3 on the mother substrate excluding the dummy region with a margin corresponding to 2˜4% of a length of the LCD panel.08-11-2011
20100081355SUBSTRATE HOLDING APPARATUS, CARRIER, SUBSTRATE PROCESSING APPARATUS, AND IMAGE DISPLAY DEVICE MANUFACTURING METHOD - An apparatus comprises a carrier configured to hold a mask containing a magnetic material and a substrate by magnetically attracting the mask via the substrate, and a controller configured to control the carrier, the carrier including a permanent electromagnet and a first contact, the permanent electromagnet including a variable-polarity magnet, a coil electrically connected to the first contact and generates a magnetic field for changing the polarity of the variable-polarity magnet by an electric current supplied via the first contact, and a fixed-polarity magnet. The controller includes a second contact which is in contact with the first contact and supplies an electric current to the coil via the first contact, a sensor unit which senses a contact state between the first contact and the second contact, and a current supply unit which supplies an electric current to the coil via the first contact and the second contact.04-01-2010
20100112888MANUFACTURING METHOD OF BARRIER RIBS OF PLASMA DISPLAY PANEL - A manufacturing method of barrier ribs of a plasma display panel is provided. First, a substrate, divided into a display area and a non-display area located in the periphery of the display area, is provided. Next, when a patterned barrier material layer forms on the substrate, the layer further constitutes discharging spaces in the display area and a plurality of honeycomb supporting structures in the non-display area.05-06-2010
20120244775METHOD FOR MANUFACTURING DISPLAY DEVICE - A method for manufacturing a display device is provided. The method includes forming a circuit part; forming a planarization insulating layer on the circuit part; forming a separator in an area outside a display area in which a plurality of light emitting elements are formed by removing the planarization insulating layer at a position surrounding the display area; forming an electrically-conductive layer including a plurality of first electrodes and an auxiliary interconnect on the planarization insulating layer; forming an aperture-defining insulating layer that insulates the first electrodes from each other and has an aperture through which part of the first electrode is exposed; and forming a plurality of light emitting elements by stacking the first electrode, an organic layer, and a second electrode common to the plurality of light emitting elements.09-27-2012
20130078884METHOD OF MANUFACTURING LIQUID CRYSTAL DISPLAY PANEL - The present invention provides a method of manufacturing a liquid crystal display panel. First, a top substrate, a bottom substrate, and a liquid crystal medium are provided, and the liquid crystal medium is filled between the top substrate and the bottom substrate. Next, an electric field is applied to the liquid crystal medium. Then, the electric field is stopped. Thereafter, an energy light beam is irradiated on the liquid crystal medium to form a liquid crystal layer.03-28-2013
20130040527METHOD OF FABRICATING TRANSFLECTIVE DISPLAYS - A method of fabricating a transflective display. The method includes providing a first substrate; forming a first electrode thereon; providing a second substrate having a reflective area and a transmissive area opposite to the first substrate; forming a second electrode having a plurality of slits on the second substrate opposite to the first electrode; disposing a liquid crystal layer including a plurality of liquid crystal molecules and monomers between the first electrode and the second electrode, wherein the monomers have a weight ratio of about 0.1-20%; and polymerizing the monomers to form a plurality of non-liquid crystal polymers adjacent to the first electrode and the second electrode.02-14-2013
20100041298ORGANIC ELECTROLUMINESCENT DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic electroluminescent device and its method of manufacturing are provided. The organic electroluminescent device may include a rear substrate, an organic electroluminescent unit including a first electrode, an organic film, and a second electrode stacked on a surface of the rear substrate. It may also include a front substrate joined to the rear substrate to seal an internal space in which the organic electroluminescent unit is disposed. It may also include a porous oxide layer composed of a porous silica and a metal compound on a lower surface thereof. A device constructed according to the present invention may have excellent adsorption of moisture and oxygen, thereby increasing the life span of the device.02-18-2010
20090156083METHOD OF MANUFACTURING DISPLAY APPARATUS WITH SAW TOUCH SENSOR - First electrodes partially configuring light-emitting elements are patterned in the form of stripes on a first major surface of a transparent substrate. After the step of forming the first electrodes, piezoelectric elements functioning a SAW touch sensor is formed on a second major surface of the transparent substrate. Furthermore, after the step of forming the piezoelectric elements, the light-emitting elements forming step of forming light-emitting elements on the first electrodes which are patterned in advance is sequentially executed.06-18-2009
20100041297Method for making liquid crystal display adopting touch panel - A method for making a liquid crystal display screen is provided. A touch panel including at least one carbon nanotube structure layer is prepared. A first polarizer is applied on a surface of the touch panel. A thin film transistor panel including a number of thin film transistors is prepared. A liquid crystal layer is placed between the first polarizer and the thin film transistors.02-18-2010
20090156082Apparatus for Transferring Substrate - An apparatus for transferring at least one substrate includes a base, a plurality of forks and at least one fastener. The base has a side surface. The forks are disposed on the side surface of the base and parallel to each other. The fastener is disposed on each of the forks.06-18-2009
20100105275ORGANIC ELECTROLUMINESCENCE DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an organic EL display panel, the method includes: a step of forming a first electrode on a substrate; a step of forming an organic functional layer; and a step of forming a second electrode comprising a plurality of stripe-shape electrodes, wherein the step of forming the second electrode includes: a step of pressing a sealing substrate, which has an insulating blade portion protruding toward this substrate, toward the substrate, so that the blade portion mechanically severs a conductive thin film deposited on the organic functional layer, thereby causing separation of adjacent stripe-shape electrodes among the plurality of stripe-shape electrodes, with the blade portion being enclosed therebetween; and a step of fixing the sealing substrate to the substrate.04-29-2010
20120164909DISPLAY DEVICE MANUFACTURING METHOD AND APPARATUS - The present disclosure is directed to a method of manufacturing a display device including a first substrate including a conductive layer and a terminal, a second substrate, and a display element disposed between the first substrate and the second substrate.06-28-2012
20090124158SYSTEM FOR ATTACHING DISPLAY PANEL FOR STEREOSCOPIC IMAGE - A system for attaching a display panel and a stereoscopic lens panel is provided. The system may include a panel supply device that receives a display panel and a stereoscopic lens panel, and a conveyance device that conveys the display panel and the stereoscopic lens panel. A cleaning device cleans attachment surfaces of the display panel and stereoscopic lens panel, and a laminating device laminates an adhesive film onto an attachment surface of the display panel. A panel attachment device then attaches the display panel and the stereoscopic lens panel, either of which may be laminated with the adhesive film by the laminating device, and a baking device bakes the adhesive film interposed between the display panel and the stereoscopic lens panel to form a stereoscopic display panel. A panel discharge device then loads the stereoscopic display panel thereon for subsequent processing.05-14-2009
20100068965LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD THEREOF - A liquid crystal display (LCD) device and its fabrication method are disclosed. Specifically, a fabrication method in which polyhedral spacers are implemented on a substrate through an ink jet method are used for an LCD device. The spacers have the polyhedral shape to increase their contact area with two substrates, and include a surface processed layer for strengthening a bonding force in its bonding with an alignment film formed on the two substrates. The spacers have a polyhedral shape for maintaining the cell gap between the substrates.03-18-2010
20090291609Method of manufacturing plasma display device and plasma display device made by this method - A method of manufacturing a plasma display device and a plasma display device made by this method are taught. In the plasma display device, the adhesion rate between a graphite layer and a plasma display panel is increased, therefore, the performance of the heat dissipation may be enhanced, the noises may be reduced, and the afterimages may be prevented, and the procedural steps of manufacture and the costs of making the graphite layer may be reduced. The method contemplates a first panel preparing step performed by preparing a first panel; a graphite layer forming step performed by coating a liquid graphite material on the first panel using a coating apparatus, and hardening the coated liquid graphite; and a chassis base adhering step performed by adhering a chassis base on the first panel with the chassis base facing to the graphite layer disposed on the plasma display panel.11-26-2009
20130072079MANUFACTURING METHOD FOR FLEXIBLE DISPLAY APPARATUS - A manufacturing method for a flexible display apparatus is provided. A rigid substrate is provided. A flexible substrate having a supporting portion and a cutting portion surrounding the supporting portion is provided. A first adhesive material is formed between the rigid substrate and the cutting portion of the flexible substrate, so that the flexible substrate is adhered onto the rigid substrate by the first adhesive material. The first adhesive material does not locate on the supporting portion of the flexible substrate. At least a display unit is formed on the supporting portion of the flexible substrate. The supporting portion and the cutting portion of the flexible substrate are separated so as to separate the rigid substrate and the flexible substrate, wherein the flexible substrate and the display unit thereon form a flexible display apparatus. In the method, the flexible substrate and the rigid substrate can be easily separated.03-21-2013
20110014841LIQUID CRYSTAL DISPLAY DEVICE USING THIN-FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a liquid crystal display device using a thin-film transistor, and the invention also provides a method for manufacturing the liquid crystal display device.01-20-2011
20090298375METHOD OF FORMING SPACER - It is an object to enable sharp-cornered concave/convex portions to be easily formed when forming a spacer 12-03-2009
20090270006METHOD OF MANUFACTURING IMAGE DISPLAYING APPARATUS - In a method of manufacturing an image displaying apparatus which has plural spacers for defining a distance between substrates, the present invention enables to effectively perform a process of assembling the spacers in a less number of steps and improves accuracy of a spacer assembling position. In this method, in case of clamping plural spacers respectively by individual hands, positioning the plural spacers on the substrate in a lump, applying an adhesive to the positioned spacers, heat hardening the adhesive, and fixing the spacers to which the adhesive was applied to the substrate, pitches of the hands are adjusted according to heat expansion of the substrate in the pitch direction of the spacers occurred due to heat of the adhesive.10-29-2009
20130065475DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a display apparatus. The liquid crystal display includes a first substrate and a pixel electrode formed on the first substrate and having a plurality of branches. A plurality of alignment sections are interposed among the branches. An auxiliary liquid crystal layer having discotic liquid crystals is formed on the pixel electrode and the alignment sections. A main liquid crystal layer having a vertical alignment mode is formed on the auxiliary liquid crystal layer. A common electrode is formed on the main liquid crystal layer to apply an electric field to the main liquid crystal layer together with the pixel electrode. A second substrate is formed on the common electrode.03-14-2013
20090233512Method For Producing Barrier Rib Substrate For Plasma Display Panel - The present invention provides a method by which a barrier rib substrate for a plasma display panel can be produced easily.09-17-2009
20090047859Method of Fabricating Flexible Display Device - A method of fabricating a flexible display device, the method including applying an adhesive layer including polyimide on a carrier substrate, laminating a flexible substrate on the adhesive layer, and separating the carrier substrate from the flexible substrate by irradiating a laser beam or light onto the adhesive layer.02-19-2009
20120115389METHOD FOR MANUFACTURING ELECTRONIC PAPER DISPLAY DEVICE - Disclosed herein is a method for manufacturing an electronic paper display device, including: laminating a dry film on a first electrode; performing exposing and developing processes on the dry film to form barriers defining cells; injecting electronic balls into the cells; and binding a second electrode onto the first electrode including the electronic balls.05-10-2012
20090011677Method for Manufacturing Light-Emitting Device - A method for manufacturing a light-emitting device including a layer containing different evaporation materials, by which a desired layer containing the different evaporation materials is formed easily using a plurality of evaporation materials. A light-emitting device is manufactured in such a manner that a plurality of layers each containing a different evaporation material from each other is stacked over a first substrate; a second substrate which has a first electrode is placed at a position facing the first substrate; the plurality of layers containing evaporation materials is heated to form a layer containing different evaporation materials is formed on the first electrode provided for the second substrate; and a second electrode is formed on the layer containing different evaporation materials.01-08-2009
20120238176METHOD FOR CONTINUOUSLY MANUFACTURING LIQUID CRYSTAL DISPLAY PANEL AND INSPECTION METHOD - The invention is a method for continuously manufacturing a liquid crystal display panel. In the method, the manufacturing step and the inspection step are performed on a continuous feeder. The inspection step includes applying a line-shaped light beam from one side with respect to the feeder to the liquid crystal display panel being fed; and imaging a region irradiated with the line-shaped light beam in the liquid crystal display panel, wherein the imaging is continuously performed in a line pattern parallel to a width direction of the feeder and performed at a position that is on another side with respect to the feeder and tilted at a predetermined angle to a feed direction of the feeder or a direction opposite thereto with respect to a direction in which the line-shaped light beam is applied.09-20-2012
20130165009Alignment Device and Manufacturing Method for Polymer Stabilized Vertical Alignment Liquid Crystal Panel - The present invention discloses an alignment device and a manufacturing method for polymer stabilized vertical alignment (PS-VA) liquid crystal panel. The method includes: forming a first substrate of PS-VA liquid crystal panel, the first substrate including a common electrode; forming a second substrate of the PS-VA liquid crystal panel, the second substrate including a pixel electrode; forming a liquid crystal layer between the first and second substrates, the liquid crystal layer containing negative liquid crystal molecules and ultraviolet-curable resin; applying an electrical voltage that exceeds a rotation threshold of the liquid crystal layer to the common electrode and the pixel electrode; and reciprocally moving an ultraviolet light source, which is composed of at least two ultraviolet light sources that are distributed parallel to each other in a first direction and respectively extend in a second direction, in such a direction as to have accumulation of ultraviolet light received by the ultraviolet-curable resin of the liquid crystal layer homogenized. Through the above operation, the present invention can make the accumulation of ultraviolet light received by the ultraviolet-curable resin of the liquid crystal layer homogenized so as to avoid the occurrence of displaying defects.06-27-2013
20090068916METHOD OF MANUFACTURING CONDUCTIVE PARTICLE, ANISOTROPIC CONDUCTIVE ADHESIVE HAVING THE SAME, AND METHOD OF MANUFACTURING DISPLAY APPARATUS USING THE SAME - In an anisotropic conductive adhesive containing a conductive particle, the conductive particle includes a resin particle that is provided with a cavity formed therein and a conductive layer surrounding a surface of the resin particle. The cavity is formed by mixing the resin particle with a reactant and partially removing the reactant from the resin particle. Thus, the conductive particle may readily absorb an external pressure, thereby providing an improved malleability to the conductive particle.03-12-2009
20110281491METHOD OF MANUFACTURING DISPLAY DEVICE AND DISPLAY DEVICE - A method of manufacturing a display device includes the steps of: forming a positive type photoresist above a surface of a first transparent substrate having a transistor formed on the surface thereof so as to cover the transistor; radiating a light from a back surface side of the first transparent substrate to the first transparent substrate having the positive type photoresist formed thereabove, for exposing the positive type photoresist; developing the positive type photoresist thus exposed to selectively leave the positive type photoresist located above the transistor, for forming a spacer; and laminating a second transparent substrate above the surface of the first transparent substrate through the spacer.11-17-2011
20110300769Light-Emitting Panel and A Method For Making - An improved light-emitting panel having a plurality of micro-components sandwiched between two substrates is disclosed. Each micro-component contains a gas or gas-mixture capable of ionization when a sufficiently large voltage is supplied across the micro-component via at least two electrodes. An improved method of manufacturing a light-emitting panel is also disclosed, which uses a web fabrication process to manufacturing light-emitting displays as part of a high-speed, continuous inline process.12-08-2011
20110143625TAPE FOR HEAT DISSIPATING MEMBER, CHIP ON FILM TYPE SEMICONDUCTOR PACKAGE INCLUDING HEAT DISSIPATING MEMBER, AND ELECTRONIC APPARATUS INCLUDING THE SAME - Disclosed is a chip-on-film (COF) type semiconductor package and a device using the same. The COF type semiconductor package may include an insulation substrate including a top surface and bottom surface, a semiconductor device on the top surface of the insulation substrate, a heat dissipating component on the bottom surface of the insulation substrate, and at least one space between the bottom surface of the insulation substrate and a top surface of the heat dissipating component.06-16-2011
20090104833Plasma Display Device Capable of Increasing Attachment of Heat-Dissipating Plate to Plasma Display Panel - A plasma display device having a laminar attachment structure capable of increasing attachment of a heat-dissipating plate to a plasma display panel. Through a laminar attachment structure with a plurality of small pieces of thermal pad or adhesive double tape and a closed loop of thermal pad or adhesive double tape accommodating the plurality of small pieces as well as by means of vacuum pumping, the air within the closed loop is drawn out when the heat-dissipating plate is combined to the plasma display panel so as to reduce bubbles formed between the heat-dissipating plate and the plasma display panel and to increase tight attachment therebetween.04-23-2009
20100210168PLASMA DISPLAY PANEL MANUFACTURING METHOD - In order to realize a plasma display panel with high-definition/high-luminance display performance as well as with low power consumption, after formation of a primary film, a metal oxide paste made up of metal oxide particles, an organic resin component, and diluting solvent is applied and fired. Thereby, a plurality of aggregated particles of the metal oxide particles are attached and formed onto the primary film. As the metal oxide paste used is one with a content of the aggregated particles of the metal oxide particles being not larger than 1.5 vol % and a content of the organic resin component being in a range of 8.0 vol % to 20.0 vol %.08-19-2010
20080268738 Method for manufacturing liquid crystal display device - It is an object to prevent disordered orientation of liquid crystal molecules which is due to division of substrates even when a liquid crystal dripping method is used, and to provide a method for manufacturing a liquid crystal display device in which liquid crystal is not adversely affected even when a sealant not cured and liquid crystal are in contact. In a method for manufacturing a liquid crystal display device using a liquid crystal dripping method, a scribe groove is provided for at least one of a pair of substrates with a diamond cutter or the like before the pair of substrates are attached under reduced pressure. After the scribing, the pair of substrates are attached under reduced pressure, heat treatment for curing the sealant and aligning the liquid crystal molecules is performed, and the substrates are divided by applying impact using a breaking apparatus.10-30-2008
20120142245TRANSFLECTIVE LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A transflective type LCD device and a method for manufacturing the same is disclosed, in which an aperture ratio of a reflective part is improved, and manufacturing process is simplified by decreasing the number of masks for forming contact holes. The transflective type LCD device includes a plurality of gate and data lines crossing each other, defining a plurality of pixel regions; a thin film transistor at a crossing point of the gate and data lines; a lower storage electrode formed by one portion of a preceding gate line, and an upper storage electrode above the lower storage electrode having a gate insulating layer in between; a transmitting electrode in contact the upper storage electrode; and a reflective electrode in contact with the transmitting electrode in the reflective part of the pixel region wherein the transmitting electrode is in between the reflective electrode and the substrate.06-07-2012
20120270461METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY APPARATUS - A method of manufacturing an organic light-emitting display apparatus according to a laser-induced thermal imaging (LITI) method, the method including patterning a transfer layer arranged on a donor film; disposing the donor film on an acceptor substrate; laminating the donor film on the acceptor substrate; transferring the transfer layer of the donor film to the acceptor substrate; and removing the donor film from the acceptor substrate.10-25-2012
20090275254LIGHT-EMITTING PANEL AND A METHOD FOR MAKING - An improved light-emitting panel having a plurality of micro-components sandwiched between two substrates is disclosed. Each micro-component contains a gas or gas-mixture capable of ionization when a sufficiently large voltage is supplied across the micro-component via at least two electrodes. An improved method of manufacturing a light-emitting panel is also disclosed, which uses a web fabrication process to manufacturing light-emitting displays as part of a high-speed, continuous inline process.11-05-2009
20090291610SUBSTRATE TREATMENT APPARATUS AND SUBSTRATE TREATMENT METHOD - This invention provides a substrate processing apparatus and a substrate processing method for improving the adhesion of a patterned region which is a relatively thin region of a metal mask to a substrate. According to one embodiment of this invention, in a method for fixing a metal mask (11-26-2009
20080242181DISPLAY DEVICE MANUFACTURING METHOD AND DISPLAY DEVICE PRODUCED THEREBY - A display device manufacturing method comprising: forming pixels 10-02-2008
20100136869METHOD OF FABRICATING ELECTRON-EMITTING DEVICE AND METHOD OF MANUFACTURING IMAGE DISPLAY APPARATUS - The following method is provided: a method of readily fabricating an electron-emitting device, coated with a low-work function material, having good electron-emitting properties with high reproducibility such that differences in electron-emitting properties between electron-emitting devices are reduced. Before a structure is coated with the low-work function material, a metal oxide layer is formed on the structure.06-03-2010
20080287029Array substrate having color filter on thin film transistor structure for LCD device and method of fabricating the same - An array substrate device includes a gate line formed on a substrate extending along a first direction having a gate electrode, a data line formed on the substrate extending along a second direction having a data pad disposed apart from a first end of the data line, the data and gate lines defining a pixel region, a gate pad formed on the substrate disposed apart from a first end of the gate line, a thin film transistor formed at a crossing region of the gate and data lines and including the gate electrode, a semiconductor layer, a source electrode, and a drain electrode, a black matrix overlapping the thin film transistor, the gate line, and the data line except for a first portion of the drain electrode, a first pixel electrode at the pixel region contacting the first portion of the drain electrode and the substrate, a color filter on the first pixel electrode at the pixel region, and a second pixel electrode on the color filter contacting the first pixel electrode.11-20-2008
20080305706Plasma display panel - A method for manufacturing a plasma display panel is provided. The method includes making a front substrate and a rear substrate individually and applying a low melting point glass paste including non-porous bead onto a portion of the front substrate or the rear substrate so that the applied low melting point glass paste forms a frame-like shape having a height greater than that of the structural member. The method includes assembling the front substrate and the rear substrate in a face-to-face relation with each other and burning the applied low melting point glass paste while vacuuming a discharge gas space between the front substrate and the rear substrate so as to seal the front substrate and the rear substrate.12-11-2008
20080311817DISPLAY DEVICE HAVING PAIR OF GLASS SUBSTRATES AND METHOD FOR CUTTING IT - A display device includes a pair of glass substrates. On the side of each of the pair of glass substrates, a press mark is formed between a first end of each of the pair of glass substrates and a position at least 0.3 mm but no more than 3 mm away from the first end, another press mark is formed between a second end of each of the pair of glass substrates and a position at least 0.3 mm but no more than 3 mm away from the second end, a scribing groove having a predetermined scribing amount is formed between the press marks, and there are rib marks in the scribing groove.12-18-2008
20080233828PLASMA DISPLAY PANEL - A plasma display panel including a gas adsorption member is disclosed. An effort of gas adsorption is obtained sufficiently, and the presence of the gas adsorption member avoids problems at an exhausting operation in exhaust-baking step. The plasma display panel includes a pair of plates opposed to each other with an enclosed discharge space in between. The pair of plates refer to a front plate and a back plate, and at least one of the plates has a communication hole, around which the gas adsorption member having a hole is disposed.09-25-2008
20130217291METHOD FOR DISASSEMBLING PLASMA DISPLAY DEVICE - The present disclosure relates to a method for disassembling a plasma display device including PDP (08-22-2013
20080287028METHOD OF MANUFACTURING DISPLAY UNIT - A laminated structure is formed by placing a cover substrate over a device substrate with a projection structure in between in the vacuum atmosphere. Next, the laminated structure is taken out into the air in a state that a space between the device substrate and the cover substrate is maintained in the vacuum atmosphere. Subsequently, the portion of the organic layer formed on the auxiliary electrode is removed by irradiating laser light to the laminated structure. Since the space between the device substrate and the cover substrate is maintained in the vacuum atmosphere, even if the laser light is emitted to the laminated structure taken out into the air, the laser light is emitted to the portion of the organic layer formed on the auxiliary electrode in the vacuum atmosphere.11-20-2008
20100144230METHOD AND DEVICE FOR PROVIDING ELECTRONIC CIRCUITRY ON A BACKPLATE - A MEMS-based display device is described, wherein an array of interferometric modulators are configured to reflect light through a transparent substrate. The transparent substrate is sealed to a backplate and the backplate may contain electronic circuitry fabricated on the backplane. The electronic circuitry is placed in electrical communication with the array of interferometric modulators and is configured to control the state of the array of interferometric modulators.06-10-2010
20100136870SEMICONDUCTOR DEVICE, DISPLAY DEVICE AND DEVICE FABRICATING METHOD - The invention provides a display device using a one-dimensional substrate making layout of a substrate unnecessary and realizing a further low cost.06-03-2010
20110269364NANO PATTERNING METHOD AND METHODS FOR FABRICATING SURFACE PLASMON COLOR FILTER AND LIQUID CRYSTAL DISPLAY DEVICE USING THE SAME - Disclosed are a nano patterning method for fabricating a surface plasmon color filter having a transmissive pattern which selectively transmits light of specific wavelengths, and methods for fabricating a surface plasmon color filter and a liquid crystal display (LCD) device using the same. Used are a stamp which provides a partial electrification region, and a template, thiol-terminated nanospheres which can be self-assembled, thereby fabricating nano holes having a two-dimensional period and arranged in a hexagonal lattice. This may be applied onto a large area of a substrate, and may implement simplified processes and reduced fabrication costs.11-03-2011
20090029622AIRTIGHT CONTAINER AND MANUFACTURING METHOD OF IMAGE DISPLAYING APPARATUS USING AIRTIGHT CONTAINER - An airtight container manufacturing method, comprises: exhausting the inside of a container via a through-hole provided on the container; arranging a plate member on the outer surface of the container the inside of which was exhausted, so as to close up the through-hole; and sealing the container by arranging a cover member so as to cover the plate member and by bonding the arranged cover member and the outer surface of the container to each other via a sealant positioned between the cover member and the outer surface of the container, wherein the sealing includes hardening the sealant after deforming the sealant as pressing the plate member.01-29-2009
20090163108SELF-EMISSION PANEL AND METHOD OF MANUFACTURING THE SAME - A self-emission panel and a method of manufacturing a self-emission panel which can prevent emission failures from occurring due to various factors, thereby achieving a self-emission panel that is free from emission failures. The self-emission panel is manufactured by forming a first conductive layer on a substrate directly or via other layers, forming a deposition layer including a luminescent layer on the first conductive layer, and forming a second conductive layer on the deposition layer. This manufacturing method includes: a first step of forming a sectioning layer for sectioning an opening for making a emission area on the first conductive layer after the formation of the first conductive layer; a second step of applying surface treatment to at least the surface of the first conductive layer inside the opening; and a third step of depositing a deposition layer on the first conductive layer given surface treatment in the second step.06-25-2009
20090286445LIGHT EMITTING DEVICE AND METHOD FOR FABRICATING LIGHT EMITTING DEVICE - It is an object of the present invention to provide a method for fabricating a light emitting device, in which brightness gradient due to potential drop of a counter electrode can be prevented from being observed and an auxiliary electrode can be formed without increasing the number of steps, even when the precision of a light emitting device is improved. It is another object of the invention to provide a light emitting device fabricated according to the method. The light emitting device has a light emitting element and an auxiliary electrode in each pixel. The light emitting element includes a first electrode, a second electrode, an electroluminescent layer provided between the first and the second electrodes. Further, the first electrode is overlapped with the electroluminescent layer and the second electrode formed over an insulating film by means of a first opening formed in the insulating film. Still further, the auxiliary electrode is overlapped with the second electrode by means of a second opening formed over the second insulating film.11-19-2009
20090286446DISPLAY APPARATUS, MANUFACTURING METHOD THEREOF, PATTERN DISPLAY METHOD, BLIND APPARATUS, AND BLIND METHOD - A method of manufacturing a display apparatus that includes: a light guide plate; and a light source provided on an edge face of the light guide plate. In the light guide plate, a display portion made of a dot-like reflection portion with a reflection surface for reflecting a light beam emitted from the light source to a surface is formed. In the display portion, the reflected light beam from the dot-like reflection portion is configured to be visible. This display apparatus manufactured by the method is excellent in transparency, has a display portion visually recognizable with ease, and can be manufactured at a low cost.11-19-2009
20100003883Reflective type liquid crystal display device and fabricating method thereof - The present invention provides a reflective type liquid crystal display device and fabricating method thereof, by which resolution is enhanced in a manner of representing two colors from one sub-pixel. The present invention includes a first substrate having a plurality of thin film transistors and a plurality of pixel electrodes within a plurality of sub-pixels defined by a plurality of gate and data lines perpendicularly crossing with each other, respectively, a second substrate assembled to the first substrate to confront, a liquid crystal layer between the first and second substrates, a third substrate assembled to the first substrate to confront, a plurality of reflective electrodes on an inside of the third substrate to correspond to a plurality of the sub-pixels, respectively, and a color filter layer having a plurality of electrophoretic bodies on a plurality of the reflective electrodes wherein each of the electrophoretic bodies is micro-encapsulated with ionic pigment particles.01-07-2010
20090325451DONOR SUBSTRATE AND METHOD OF MANUFACTURING DISPLAY - The present invention provides a donor substrate used in forming a light emitting layer by forming a transfer layer containing light emission material, irradiating a radiation ray to the transfer layer while the transfer layer and a substrate to be transferred face each other, and sublimating or vaporizing the transfer layer so that the transfer layer is transferred to the substrate to be transferred. The donor substrate includes: a base; a photothermal conversion layer arranged on the base; and a heat interfering layer arranged between the base and the photothermal conversion layer, and including two or more layers with refraction index different from each other.12-31-2009
20100248578DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A display panel includes a base substrate, a first linear pattern on the base substrate along a first direction and a second linear pattern on the first linear pattern along a second direction crossing the first direction. The display panel further includes a color filter layer on the first linear pattern and an overcoat layer on the second linear pattern. The color filter layer includes a number of color filter patterns disposed along the first direction. The first direction is perpendicular to the second direction. The invention also discloses a fabrication method of the display panel. The method includes forming the first linear pattern and forming the second linear pattern. Here, a gravure printing forms the first and the second linear patterns. The fabrication method further includes forming the color filter layer. The method further includes flattening the color filter layer and forming an overcoat layer on the second linear pattern.09-30-2010
20100248577OPTICAL DIFFUSER - An improved optical diffuser for use in a multi-component display (MCD), and also to a method of manufacturing the same, is disclosed. Embodiments provide an optical diffuser film which may be manufactured with fewer manual operations, at a lower cost, and in larger volume than conventional optical diffusers. The optical diffuser film may include a flexible polymer substrate coupled to an optical diffuser material with a plurality of features for diffusing light. The optical diffuser film may be stored, transported, or otherwise handled more easily and with less damage than conventional optical diffusers. Additionally, the optical diffuser film may be coupled to a rigid substrate to reduce distortion of the optical diffuser, thereby providing improved optical performance.09-30-2010
20100248576METHOD FOR PRODUCING PLASMA DISPLAY PANEL - A method for producing a plasma display panel comprising a front panel wherein an electrode, a dielectric layer and a protective layer are formed on a substrate of the front panel, a formation of the dielectric layer comprising: (i) preparing a dielectric material comprising a glass component and an organic solvent; (ii) supplying the dielectric material onto the substrate having the electrode thereon, and then reducing the organic solvent contained in the supplied dielectric material to form a dielectric precursor layer therefrom; and (iii) heating the dielectric precursor layer to form a dielectric layer therefrom, wherein the content N of the organic solvent contained in the dielectric material of the above (i) satisfies Inequality 1: N<(6.5×Dz+500)/Ez wherein N [% by weight]: content of organic solvent based on the weight of dielectric material Ez [μm]: thickness of electrode provided on substrate of front panel, and Dz [μm]: thickness of dielectric layer of front panel.09-30-2010
20100159785IN-PLANE SWITCHING MODE LIQUID CRYSTAL DISPLAY DEVICE - An IPS mode LCD device is disclosed in which a common voltage drop and delay is decreased. The LCD includes gate and data lines crossing each other to define pixel regions. Thin film transistors are formed at crossing portions of the gate and data lines. Common lines are parallel with the gate lines and common electrodes project from the common lines parallel with the data lines. Pixel electrodes connected with drain electrodes of the thin film transistors are formed in the pixel regions between the parallel common electrodes. A first common voltage supplying line applies a first common voltage or a second common voltage to a closed circuit formed by grouping the adjacent odd numbered common lines. A second common voltage supplying line applies the second common voltage or the first common voltage to a closed circuit formed by grouping the adjacent even numbered common lines.06-24-2010
20090081914ORGANIC ELECTRONIC DEVICE AND PROCESS FORMING THE SAME - An organic electronic device includes a first electrode layer, an organic resistive layer coupled to the first electrode layer wherein the organic resistive layer defines at least three regions, an organic active layer coupled to the organic resistive layer, and a second electrode layer coupled to the organic active layer. Each of the at least three regions is characterized by one of the plurality of resistances and the plurality of resistances includes at least three discrete resistances that are different from one another. The regions can be fabricated by selectively exposing portions of the organic resistive layer to a chemical, selectively removing portions of the organic resistive layer, or depositing a plurality of blends.03-26-2009
20090098789EQUIPMENT AND METHOD FOR PRODUCING OPTICAL SHEET FOR DISPLAY - A desired optical sheet for a display is easily provided while flexibly responding to addition of size and change in size of an optical sheet for a display. An equipment for producing an optical sheet for a display, including: a joining device which joins two or more optical sheets at one or more parts, a cutting device which cuts the optical sheets joined by the joining device or periphery of optical sheets not joined by the joining device into a product size, a packaging device which stacks and packages the optical sheets joined by the joining device and a control device which variably sets the product size and the order of the joining step by the joining device, the cutting step by the cutting device and the packaging step by the packaging device.04-16-2009
20090098788PLASMA DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - In a plasma display panel where a discharge space is partitioned by lattice-shaped barrier rib which comprises vertical ribs and horizontal ribs, a manufacturing method for the plasma display panel is acquired. This manufacturing method is designed for allowing substantially-linear exhaustion-use through holes parallel to the vertical ribs to be formed on the horizontal ribs with the execution of a simple and convenient processing step. The plasma-display-panel manufacturing method thus acquired includes steps of forming a glass-containing material, which becomes step-difference, into a stripe-shaped configuration at positions of the vertical ribs on a coated film of a barrier rib material formed on a glass substrate, and after that, performing patterning of the lattice-shaped barrier rib.04-16-2009
20090098790Field emission display (FED) and method of manufacture thereof - A Field Emission Display (FED) and a method of manufacturing the FED are provided. The FED includes a substrate; a plurality of under-gate electrodes formed parallel to one another on a top surface of a substrate; a plurality of cathode electrodes formed perpendicular to the under-gate electrodes on an upper portion of the under-gate electrode, each of cathode holes being formed in portions of the cathode electrodes that intersect with the under-gate electrodes; a plurality of emitters formed symmetrical with respect to centers of the cathode holes on the cathode electrodes; and a plurality of gate electrodes formed to be electrically connected to the under-gate electrodes in central portions of the cathode holes.04-16-2009
20090209160CHIP ON GLASS TYPE LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR FABRICATING THE SAME - A chip on glass type liquid crystal display device and a method for fabricating the same are provided in which a surface of a pad electrode for attaching a flexible printed circuit film is embossed to increase an adhesive force between a pad electrode and a flexible printed circuit film, thereby ensuring contact between the pad electrode and the flexible printed circuit film. Unit pixels in an active region contain thin film transistors formed at intersections of gate lines and data lines. A pad electrode is formed in an inactive region. An embossing pattern is formed on the pad electrode. An adhesive is provided on the pad electrode including the embossing pattern and an external drive circuit part is connected to the pad electrode by the adhesive.08-20-2009
20090053962Field emission display (FED) and method of manufacture thereof - A Field Emission Display (FED) includes: a first substrate; a first insulating layer arranged on the first substrate; a cathode arranged on the first substrate to cover the first insulating layer, the cathode having a first concave opening arranged between portions thereof covering the first insulating layer: a second insulating layer arranged on the first substrate and the cathode, the second insulating layer having a second opening connected to the first opening to expose a portion of the cathode; a gate electrode arranged on the second insulating layer, the gate electrode having a third opening connected to the second opening; a plurality of emitters arranged on the cathode in the first opening and along both edges of the first opening and spaced apart from each other; and a second substrate facing the first substrate and spaced apart therefrom and having an anode and a fluorescent layer arranged on a surface thereof.02-26-2009
20090053963ORGANIC EL PANEL AND METHOD OF MANUFACTURING THE SAME - The present invention is to ensure that when it has been judged that film-formation areas of a plurality of layers laminated on the same luminescent areas of organic EL devices involve a defect, it is possible to exactly find which layer of the multi-laminated layers is a defective layer. The film formation areas of layers to be laminated on luminescent area are formed in a manner such that overlap deviations e02-26-2009
20090209161METHOD FOR MANUFACTURING A LIGHT EMITTING DISPLAY - The invention relates to a method for manufacturing a light emitting display comprising a plurality of light emitting elements on a substrate, wherein at least one delimiting means is provided on or over the substrate for at least partially bounding sites for deposition of a fluid light emitting substance to form the light emitting elements. At least a part of at least one of the delimiting means is repellent to the fluid light emitting substance. The repellent part may comprise a hydrophobic flow barrier. The method has the advantage of an enhanced resolution of light emitting elements, especially if the fluid light emitting substance is deposited by means of inkjet printing and involves different materials for generating different colours of light.08-20-2009
20080274660Electroluminescent display device, method for manufacturing the same, and electronic equipment - A transparent cathode electrode technology for an electroluminescent display device having a top emission structure, provides a top emission type electroluminescent display device and a method to manufacture the same. Oxidation of a substrate film can be reduced or prevented during the film formation of a metal oxide. Electronic equipment including this display device is also provided. A first electrode, a function layer including a luminescent layer, and a transparent second electrode made of a metal oxide are laminated on the substrate in that order from the lower surface. At this time, the oxygen concentration in the second electrode is made to vary in the film thickness direction, and the oxygen concentration in the vicinity of the interface between the second electrode and the function layer is made lower than the average oxygen concentration in the second electrode.11-06-2008
20090215352ELECTROLUMINESCENT DISPLAY DEVICE - The invention is directed to an electroluminescent display device in which a first planarization insulating film need not be used so that a manufacturing cost reduces, and a display defect caused by a cut in an organic EL layer or moisture absorption at a step portion is prevented. An R color filter layer, a G color filter layer, and a B color filter layer are so formed that end portions of the adjacent R, G, and B color filter layers overlap each other. The R color filter layer, the G color filter layer, and the B color filter layer serve as a first planarization insulating film. For planarization, the end portions of the color filter layers overlap each other. For reducing a step height of an overlapping portion, the end portions of the color filters are formed in a tapered shape.08-27-2009
20090239438METHOD FOR MAKING BACKLIGHT MODULE FRAME - An exemplary method for making backlight module frames includes: method includes: providing a first metallic sheet and a second metallic sheet, each of the first and second metallic sheets having at least two L-shaped portions connected side by side and oriented in the same direction; welding the two metallic sheets to form a plurality of connected semi-manufactured frames corresponding to s subsequent backlight module frame; and pressing the connected semi-manufactured frames to form a plurality of backlight module frames. The method costs less welding time and it is convenient for the backlight module frames to be mass-produced.09-24-2009
20090253332ASSEMBLING METHOD OF LIQUID CRYSTAL DISPLAY PANEL - Disclosed is an assembling method of LCD panel comprising the following steps. In step one, a plurality of spherical spacers are mixed with a liquid crystal solution so as to form a mixed liquid crystal solution with spherical spacers dispersed uniformly in the liquid crystal solution. In step two, a seal agent is applied onto edge portions of a first substrate and the mixed liquid crystal solution is applied onto a second substrate by dropping. In step three, the first and second substrates are assembled, spreading the mixed liquid crystal solution therebetween so as to dispose the spherical spacers uniformly between the first and second substrates.10-08-2009
20090253331ORGANIC EL LIGHT-EMITTING DEVICE AND PRODUCTION METHOD THEREOF - There is provided a method of producing an organic EL light-emitting device which enables prevention of crosstalk between adjacent pixels of the same color. Provided is a method of producing an organic EL light-emitting device which has banks provided in a row direction and in a column direction, and a plurality of organic EL light-emitting portions isolated from each other by the banks. The method includes the steps of forming banks such that a height of a bank portion of a row direction and a height of a bank portion of a column direction are different from each other; and applying an organic EL material in a continuous manner along the bank portion which is higher of the bank portion of the row direction and the bank portion of the column direction, between the banks of the higher bank portion.10-08-2009
20090253333LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display includes a display panel, a first data circuit board, a second data circuit board, and a clip. The first data circuit board has a portion of a plurality of conductors that are coupled to the display panel. The second data circuit board has a second plurality of conductors that are coupled to the display panel. A clip couples the first and the second circuit boards together. A method of assembling the liquid crystal display includes positioning a light source; coupling a clip to the first circuit board and the second circuit board that form a display panel; positioning the clip, the first circuit board, and the second circuit board below the light source; and coupling the clip to a ground plane.10-08-2009
20090258564METHOD OF MANUFACTURING DISPLAY APPARATUS - In a method of manufacturing a display apparatus, a first display substrate is bonded to a first carrier substrate including a plurality of divided regions, and a second display substrate is bonded to a second carrier substrate. Then, the first display substrate is coupled with the second display substrate, and the second carrier substrate is separated from the second display substrate. After cutting the first display substrate and the second display substrate corresponding to the divided regions, the first carrier substrate is separated from the first display substrate.10-15-2009
20110104974LIQUID CRYSTAL DISPLAY DEVICE HAVING PATTERNED SPACERS AND METHOD OF FABRICATING THE SAME - A liquid crystal display device includes first and second substrates, a black matrix on the second substrate, the black matrix including a plurality of open portions corresponding to pixel regions and a plurality of holes disposed adjacent to the plurality of open portions, color filter layers on the black matrix, and a plurality of patterned spacers corresponding to each of the plurality of holes between the first and the second substrates.05-05-2011
20100159784METHOD FOR PRODUCING ELECTRON-EMITTING DEVICE AND METHOD FOR PRODUCING IMAGE DISPLAY APPARATUS INCLUDING THE SAME - A method for producing an electron-emitting device includes forming an electrode above a top surface of an insulation layer including the top surface and a side surface connected to the top surface; forming a first conductive film on the insulation layer so as to be separated from the electrode and extend from the top surface to the side surface; forming a second conductive film on the first conductive film so as to extend from the top surface to the side surface; and etching the second conductive film.06-24-2010
20100159786System and method for dispensing liquid crystal material and method for fabricating liquid crystal display device using the same - A liquid crystal dispensing system in which dispensing of a liquid crystal material is paused when an earthquake or the like occurs, while restarting the dispensing of the liquid crystal material when the earthquake stops, the liquid crystal dispensing system comprising a liquid crystal dispensing apparatus for dispensing a liquid crystal material onto a substrate, a detecting unit for detecting an abnormal dispensing, and a controller for controlling the liquid crystal dispensing apparatus to pause dispensing of the liquid crystal material when an abnormal dispensing of liquid crystal material is detected.06-24-2010
20100159781METHOD OF MANUFACTURING ELECTRON-EMITTING DEVICE AND METHOD OF MANUFACTURING IMAGE DISPLAY APPARATUS - An electron-emitting device manufacturing method includes a first step of forming a conductive film on an insulating layer having an upper surface and a side surface connected to the upper surface via a corner portion so as to extend from the side surface to the upper surface and cover at least a part of the corner portion, and a second step of etching the conductive film in a film thickness direction. At the first step, the conductive film is formed so that film density of the conductive film on the side surface of the insulating layer becomes the same as or higher than film density of the conductive film on the upper portion of the insulating film.06-24-2010
20100240273MANUFACTURING METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A method for manufacturing a liquid crystal display panel including the steps is provided. A semi-finished liquid crystal display panel including a first substrate, a second substrate, a liquid crystal layer, an opposing electrode, scan lines, data lines, polymerizable molecules, pixel structures, first capacitor bottom electrodes, and second capacitor bottom electrodes is provided. Each pixel structure has a first pixel electrode and a second pixel electrode, and the blocks of the liquid crystal layer corresponding to the first pixel electrodes and the second pixel electrodes are respectively a plurality of first blocks and a plurality of second blocks. Then, a first voltage difference and a second voltage difference are respectively formed in the first blocks and the second blocks respectively, wherein the first voltage difference is different from the second voltage difference. Accordingly, the polymerizable molecules are polymerized to form the liquid crystal display panel.09-23-2010
20100099322METHOD FOR MANUFACTURING ELECTRO-OPTICAL DEVICE AND APPARATUS FOR MANUFACTURING ELECTRO-OPTICAL DEVICE - A method for manufacturing an electro-optical device includes performing a discharge-scanning by moving a nozzle row including a plurality of discharge nozzles and a substrate including a plurality of functional film partitioned areas relative to each other in a direction perpendicular to an array direction of the discharge nozzles in the nozzle row and by selectively discharging liquid from the discharge nozzles to deposit the liquid in the film formation partitioned areas to form a functional film, and performing a secondary scanning by moving the substrate and the nozzle row relative to each other in the array direction. The performing of the secondary scanning includes performing a first secondary scanning at least once in which a relative movement distance between the nozzle row and the substrate is equal to an integral multiple of an arrangement pitch of the film formation partitioned areas in the array direction.04-22-2010
20100136868METHOD OF FORMING A COLOR FILTER TOUCH SENSING SUBSTRATE - A method of forming a color filter touch sensing substrate integrates touch-sensing structures/elements of a touch panel into the inner side of the color filter substrate, which faces a thin film transistor substrate, and forms patterned assistant electrodes on the surfaces of the transparent sensing pads for decreasing the equivalent resistance of the touch-sensing structures/elements. Moreover, since an adjacent transparent conductive layer and an assistant electrode layer are patterned to form the transparent sensing pads and the patterned assistant electrodes, a simplified pattern-transferring process can be applied to the transparent sensing pads and the patterned assistant electrodes, or bridge structures can be formed from the assistant electrode layer for electrically connecting between some transparent sensing pads. Therefore, the forming process is simplified.06-03-2010
20100120319ELECTRON-EMITTING DEVICE, ELECTRON SOURCE AND DISPLAY APPARATUS USING THE SAME DEVICE, AND MANUFACTURING METHODS OF THEM - An electron-emitting device having little dispersion of its electron emission characteristic and a suppressed “fluctuation” of its electron emission quantity is provided. The electron-emitting device includes a substrate equipped with a first portion containing silicon oxide and a second portion arranged abreast of the first portion and having a higher heat conductance, and an electroconductive film including a gap therein, the electroconductive film arranged on the substrate, wherein the first and the second portions having a resistance higher than that of the electroconductive film, and the gap is arranged on the first portion.05-13-2010
20110111668FABRICATION METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A method of fabricating an LCD panel includes the following steps. A patterned black matrix layer is formed on a first surface of the first substrate, wherein the patterned black matrix layer includes a plurality of black-matrix patterns disposed at boundaries of adjacent first and second sub-pixel regions. Then, a first color filter layer is formed and patterned such that the patterned first color filter layer is disposed in the first sub-pixel regions and covers surfaces of the black-matrix patterns at a side of first sub-pixel regions concurrently. After that, a second color filter layer is formed and patterned so that the patterned second color filter layer is disposed in the second sub-pixel regions. A plurality of spacers are disposed on the first surface, disposed on the surfaces of the black-matrix patterns and the surface of the first color filter layer covering the black-matrix patterns.05-12-2011
20100197186PHOTOALIGNMENT MATERIAL AND METHOD OF MANUFACTURING DISPLAY SUBSTRATE USING THE SAME - A photoalignment material and a method of manufacturing of a display substrate using the photoalignment material are disclosed. The photoalignment material includes a photoalignment polymer, a photoalignment additive, and an organic solvent. When the photoalignment additive is used, a side reaction due to ultraviolet (UV) light may be prevented, and the stability of alignment layer may be improved.08-05-2010
20080293319Method of fabricating an organic light emitting display device - An organic light emitting display device and a method of fabricating the same. A dummy pattern is formed in an emission region to increase the step height of the emission region by an electrode material while a thin film transistor is fabricated, so that a distance between a pixel electrode and a donor film is decreased during fabrication of an organic layer. This reduced distance reduces laser energy for transfer using laser-induced thermal imaging, thus improving life span and efficiency of the device. Further, the pixel electrode can extend into a thin film transistor region and a capacitor region, thus enhancing an aperture ratio.11-27-2008
20100304634METHOD FOR PRODUCING PLASMA DISPLAY PANEL - The present invention provides a method for producing a plasma display panel, including a step of providing a back substrate with a barrier rib to form a plurality of recesses separated each other by the barrier rib, and a step of applying a phosphor ink to the recesses using an inkjet device, wherein the phosphor ink contains a phosphor having an average particle diameter of not less than 1.0 μm, a solvent and a dispersant, and the content of the phosphor in the phosphor ink is not less than 30 wt % and not more than 70 wt %.12-02-2010
20090075548MANUFACTURING METHOD FOR CROSS-WIRING ELECTRODE WIRE OF FIELD EMISSION DISPLAY - A manufacturing method of cross-wiring an electrode wire of a field emission display is used for forming a cross-wire structure of an electrode wire. In the method, a has a conducting layer, and the conducting layer has a protruded object. A tool is used for aligning the substrate, and the tool has a dispensing pillar made of an elastic material. The front end of the dispensing pillar has a dispensing head aligning precisely with the position of the protruded object. After a conductive adhesive is adhered onto the dispensing head, the protruded object is pressed, such that the dispensing head is deformed to cover the protruded object completely, and the conductive adhesive adhered on the dispensing head forms a conducting layer on the outer circumferential surface of the protruded object for cross-wiring an electrode wire, immediately after the dispensing pillar is pulled away.03-19-2009
20110009025METHOD FOR MANUFACTURING IMAGE DISPLAY APPARATUS - A spacer having bending portions in the vicinity of end portions is used, and grip portions provided between the end portions and the bending portions are held by holding units. Tension is applied to the spacer in a longitudinal direction, and the grip portions are rotated to release a rotational moment applied to a longitudinal portion of the spacer. In this state, the spacer is attached to a rear plate.01-13-2011
20100159782METHOD OF FABRICATING LIQUID CRYSTAL DISPLAY DEVICE - A method of fabricating a liquid crystal display device includes: a first step of attaching a polarizing plate to an outer surface of a liquid crystal panel; a second step of attaching a tape carrier package (TCP) to the liquid crystal panel; a third step of coating a resin onto a rear surface of the TCP and a connection portion of the liquid crystal panel and the TCP; a fourth step of inspecting the TCP and the liquid crystal display panel; a fifth step of inserting the liquid crystal panel into a transferring means; a sixth step of transferring the transferring means; a seventh step of extracting the liquid crystal panel from the transferring means; a eighth step of attaching the TCP to a printed circuit board (PCB); a ninth step of inspecting the PCB, the TCP and the liquid crystal panel; and a tenth step of assembling the liquid crystal panel and a backlight unit with a plurality of frames.06-24-2010
20110130065METHOD FOR ADHERING LIGHT-TRANSMISSIVE SUBSTRATES AND METHOD FOR PRODUCING DISPLAY - A method for producing a display is provided, the method comprising a step of adhering a light-transmissive substrate, wherein it is possible to suppress the occurrence of any bubble when the light-transmissive substrate is adhered to a display surface, even when the display surface is large-sized. A plurality of adhesive puddles 06-02-2011
20110212663ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - An electroluminescent display device includes a display panel having scan lines, data lines, and pixel circuits. The pixel circuit includes an electroluminescent element having a first electrode layer, a first insulation film, and an emitting layer for displaying images. A driving circuit is coupled to the electroluminescent element. The first electrode layer is superimposed on a power source line, a scan line, or both, with a second insulation film therebetween.09-01-2011
20090104832Method for making liquid crystal display screen - A method for making a liquid crystal display screen includes the steps of: providing a base comprising a surface; manufacturing a substrate, wherein manufacturing a substrate comprises: placing a carbon nanotube layer on the surface of the base, the carbon nanotube layer comprising a plurality of carbon nanotubes substantially aligned along a same direction; applying a fixing layer on a surface of the carbon nanotube layer, thereby obtaining a first substrate; and supplying a liquid crystal layer, wherein the carbon nanotubes of a first substrate are arranged perpendicular to that of a second substrate.04-23-2009
20110244752LIQUID CRYSTAL DISPLAY AND FABRICATING METHOD THEREOF - A liquid crystal display device includes: a liquid crystal display panel having a plurality of data lines and a plurality of gate lines crossing each other; a data drive circuit which supplies data voltages to the data lines; a gate drive circuit which supplies scan pulses to the gate lines; and first dummy pads on a substrate of the liquid crystal display panel at both sides of the data drive circuit, and wherein the data drive circuit is joined onto the substrate with a first anisotropic conductive film and both sides of the first anisotropic conductive film are joined to the first dummy pads.10-06-2011
20100056009METHOD FOR FABRICATING FIELD EMISSION DISPLAY - A method for fabricating a carbon nanotube-based field emission display includes providing a substrate, forming a cathode array on the substrate, forming a catalyst layer on the cathode array of the substrate by self-assembly of catalyst powders onto the cathode array, growing carbon nanotubes from the cathode array of the substrate, forming an insulating layer on an area of the substrate bearing no cathode array, forming a grid array on the insulating layer of the substrate; and packaging the substrate with a phosphor screen to form the field emission display.03-04-2010
20110097960Testing Electronic Textiles During Assembly and Electronic Textile Displays - Ribbons containing e.g. inorganic NMOS devices are assembled in electrical contact with ribbons containing e.g. PMOS devices (preferably organic) to enable flexible electronic textile circuits, e.g. displays, to be inexpensive and practical for a wide for a variety of functions. The use of ribbons provides flexibility, reduces costs, and allows testing during assembly and different processes to be efficiently used for different components. This is apparently the first time that ribbons (especially inorganic-device-containing ribbons) have been interconnected to form a flexible CMOS electronic textile.04-28-2011
20090215351Manufaturing method of display device - A method of manufacturing a display device in which a transparent substrate is bonded to a display panel by an adhesive, includes: applying the adhesive to the display panel or the transparent substrate in a predetermined pattern; bonding the display panel and the transparent substrate together by means of the adhesive after the applying step; and curing the adhesive after the bonding step, wherein in the applying step, a viscosity of the adhesive being more than 5000 mPa·s and 15000 mPa·s or less, the application of the adhesive is carried out by a screen printing, a time from a finishing point of the application of the adhesive in the applying step until a starting point of the bonding in the bonding step is 10 seconds or more and 120 seconds or less, in the bonding step, in a condition in which the adhesive applied in the applying step is spreading, with air bubbles remaining, and a maximum size of the air bubbles is 0.5 mm or less, the display panel and the transparent substrate are bonded together by the adhesive under a reduced pressure atmosphere lower than the atmospheric pressure, and in the curing step, after the maximum size of the air bubbles have reached 0.1 mm or less, ultraviolet light is applied, curing the adhesive.08-27-2009
20110097961DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - In a display panel and a method of manufacturing the display panel, a gate line, a data line, and source and drain electrodes including a same material as the data line are formed on a substrate constituting the display panel, and the data line includes an aluminum based alloy containing sufficient nickel to inhibit corrosion during dry etching. The corrosion resistance of the AlNi-containing alloy helps prevent corrosion of the data line, the source electrode, and the drain electrode during selective dry etching that shapes these lines and electrodes.04-28-2011
20110097962METHOD OF MAKING A LIQUID CRYSTAL DISPLAY DEVICE - Disclosed are a liquid crystal display device 04-28-2011
20110070799DISPLAY DEVICE INTEGRAL WITH PROTECTION PLATE, AND DISPLAY APPARATUS USING THE SAME - A display device includes a display panel to display an image, a protection plate that is arranged on an observation side of the display panel with a predetermined gap with respect to the display panel, spacer that is arranged between the display panel and the protection plate to surround a region that corresponds to a screen area of the display panel, and a filler layer filling the region that is surrounded by the spacer of a gap between the display panel and the protection plate. The spacer includes at least one missing portion to connect an inside and an outside of the region to each other. The filler layer has been polymerized by irradiation of light and heating.03-24-2011
20110070797SYSTEM FOR DISPLAYING IMAGES AND METHOD FOR FABRICATING THE SAME - Systems for displaying images and fabrication method thereof are provided. A representative system incorporates an electroluminescent device including light emitting units emitting lights with different luminescent intensities along light emitting paths thereof, formed overlying a substrate. And a compensation layer is disposed along the light emitting paths to adjust the different luminescent intensities for outputting substantially uniform light.03-24-2011
20110070798DISPLAY DEVICE - A display device comprising: a display cell including at least two color regions, each of the at least color regions including a right-eye pixel and a left-eye pixel corresponding to a right eye and a left eye of a viewer, respectively; and a lenticular cell including at least two lenses corresponding to the at least two color regions, wherein the at least two lenses having different focal lengths03-24-2011
20100311298METHOD FOR FABRICATING FUNCTIONAL FILM - It is an object to provide a functional-film fabricating method capable of forming uniform coating films without degrading the productivity, in the event of occurrence of non-ejectable nozzles, out of nozzles in an ink jet apparatus.12-09-2010
20120202400ORGANIC EL DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic EL display including a plurality of pixels each having, in order from a substrate side, a first electrode, an organic layer including a light emission layer, and a second electrode; an auxiliary wiring disposed in a periphery region of each of the plurality of pixels and conducted to the second electrode; and another auxiliary wiring disposed apart from the auxiliary wiring at least in a part of outer periphery of a formation region of the auxiliary wiring in a substrate surface.08-09-2012
20080242180JOINTING METHOD FOR SUPPORT STRUCTURE OF FILED EMISSION DISPLAY ELEMENT - A jointing method for the support structure of a FED component is provided for fixing the relative position between the support structure and the electrode plates; first of all, a bearing plate is provided, on which a plurality of grooves spaced in parallel are, in advance, arranged for placing support structures thereon; furthermore, there is a metal jointing layer arranged respectively on the substrates of cathode and anode for aligning and positioning the substrates with respect to the bearing plate having a plurality of support structures, then the plural support structures are pressed together with the metal jointing layer; finally, both the jointed substrates and the bearing plates are simultaneously sent into a vacuum furnace for processing a high temperature sinter procedure, whereby the support structures and the substrates are formed into an eutectic structure through the metal jointing layers; therefore, the relative position between the support structures and substrates is fixed.10-02-2008
20100120318METHOD OF ASSEMBLING LCD PANEL, INTERFACE APPARATUS, AND ASSEMBLING APPARATUS - The present invention provides a method of assembling an LCD panel, an interface apparatus, and an assembling apparatus. In this invention, the first panel of the LCD panel is mounted on the interface apparatus before being pressed to the second panel of the LCD panel. Therefore, the complexity of the assembly room can be simplified and the cycle time in the assembly room can be shortened by moving the processes of flatly attaching and separating panels out of the assembly room. The interface apparatus is easier to be processed than a glass substrate during operation. The design of the interface apparatus can simplify the mechanisms in the assembly room and shorten the cycle time. The usage of the interface apparatus can reduce the alignment error caused by nonsynchronization of releasing static electricity suckers.05-13-2010
20080214082Method for manufacturing field emission electron source - A method for manufacturing a field emission electron source, the method comprising the steps of: preparing a substrate, a carbon nanotubes slurry, and a conductive slurry; applying a conductive slurry layer onto the substrate; applying a layer of carbon nanotubes slurry onto the conductive slurry layer; and solidifying the substrate under a temperature of 300 to 600 degrees centigrade so as to form the field emission electron source.09-04-2008
20080214083Alignment layer printing apparatus and method of printing using the same - A method of manufacturing a liquid crystal display includes: loading an upper substrate or a lower substrate on a stage; positioning a printing roll on the loaded substrate; measuring the printing roll, the measurement being indicative of a size change of the printing roll; compensating the operation of the printing roll relative to the stage according to the measurement of the printing roll; supplying an alignment solution to the printing roll; driving the printing roll under the compensated operation to print the alignment solution onto the loaded substrate; attaching the upper substrate and the lower substrate; and forming a liquid crystal layer between the upper substrate and the lower substrate.09-04-2008
20080254703METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DEVICE AND ORGANIC LIGHT-EMITTING DEVICE MANUFACTURED USING THE METHOD - A method of manufacturing an organic light-emitting device, the method including: forming an anode; forming an intermediate layer comprising an emission layer on the anode; and forming a cathode on the intermediate layer, wherein the forming of the cathode comprises thermally depositing indium or indium oxide, with at least one of a metal or a metal oxide in plasma generated in a chamber to form a transparent conductive layer of indium oxide doped with the at least one of the metal or the metal oxide.10-16-2008
20110053451DISPLAY DEVICE MODULE AND METHOD FOR MANUFACTURING THE SAME - The display device module according to the present invention comprises a pixel circuit section including at least one light emitting area, each light emitting area being formed on an overlying area of a first electrode and a second electrode on a substrate; at least one first line connected to a first end portion of the first electrode; at least one first auxiliary line to a second end portion of the first electrode; at least one second auxiliary line having a connecting bar formed at one end thereof; at least one second line connected to the second electrode; and at least one dummy line having a connecting bar formed at one end thereof, the dummy line being disposed not to contact with the pixel circuit section. The display device module of the present invention further comprises a device-driving unit mounted on a mounting area adjacent to the pixel circuit section, and connected electrically to the first and second lines, or a connecting means mounted on a mounting area adjacent to the pixel circuit section and connecting an exterior device-driving unit and the pixel circuit section. The above connecting means is a film on which a device-driving unit is mounted, wherein the film is connected to the pixel circuit section via the first and second lines.03-03-2011
20100285714VERTICALLY ALIGNED LIQUID CRYSTAL DISPLAY DEVICE HAVING AN OPTIMIZED VIEWING ANGLE - A method of improving the viewing angle of a vertically-aligned liquid crystal display device is presented. The method involves designing a uniaxial compensation film to provide a retardation value of 200 nm or less for light having a wavelength of about 550 nm. Using this uniaxial compensation film, a display device can be built by obtaining a liquid crystal panel with liquid crystal molecules contained between glass substrates, coupling the uniaxial compensation film to at least one of the glass substrates, and coupling a polarization film and electrodes to the compensation film. Preferably, the uniaxial compensation film has a thickness less than or equal to 50 microns. Where there are multiple compensation films, the total thickness and the total retardation values should be considered.11-11-2010
20100323577METHOD FOR PRODUCING PLASMA DISPLAY PANEL - The present invention provides a method for producing a plasma display panel, including a step of providing a back substrate with a barrier rib to form a plurality of recesses separated each other by the barrier rib, and a step of applying a phosphor ink to the recesses using an inkjet device, wherein the phosphor ink contains a phosphor having a median particle diameter of not less than 1.0 μm, and a solvent, and an initial speed of the phosphor ink ejected from a nozzle hole of the inkjet device is not less than 4 m/s and not more than 10 m/s.12-23-2010
20100323576Fabricating Method of Flexible Display Device - In a fabricating method of flexible display device, firstly, a sacrificial layer is formed on a first rigid substrate. Secondly, a first flexible substrate is formed on the sacrificial layer. The bonding force of the sacrificial layer absorbing a breaking-bond light may be broken and the first flexible substrate is transparent for the breaking-bond light. Moreover, the transmission rate of visible light of the first flexible substrate is larger than that of the sacrificial layer. Then, the sacrificial layer is illuminated by the breaking-bond light for breaking the bonding force of the sacrificial layer to separate the first rigid substrate from the first flexible substrate. Since the first rigid substrate has a high transmission rate of visible light, may be separated from the first flexible substrate by the first breaking-bond light with low energy, the cost of fabricating the flexible display device may display the images with real color. Therefore, the chromatic performance of the flexible display device may be enhanced.12-23-2010
20100330863METHOD FOR PRODUCING PLASMA DISPLAY PANEL - The present invention provides a method for producing a plasma display panel, including a step of providing a back substrate with a barrier rib to form a plurality of recesses separated each other by the barrier rib, and a step of applying a phosphor ink to the recesses using an inkjet device,12-30-2010
20100330864MANUFACTURING METHOD OF PLASMA DISPLAY PANEL - In the manufacturing method of the plasma display panel, the protective layer of the front plate has a base film evaporated on a dielectric layer, and this base film is surface-treated, and an ink film formed of agglomerated particles agglomerating a plurality of crystal particles of metal oxide and an organic solvent is formed, and after vacuum drying, the organic solvent is removed from the ink film, and thereby the plurality of agglomerated particles are bonded and formed on the base film.12-30-2010
20100330862METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part.12-30-2010
20090197497Small molecular organic electroluminescent display device and method of fabricating the same - An organic electroluminescent display (OELD) device and a method of fabricating the same are disclosed. The OELD device includes a substrate, a first electrode, an organic layer containing at least one light emitting layer, and a second electrode. The light emitting layer is comprised of at least one phosphorescent dopant and at least two host materials.08-06-2009
20120309252METHOD OF MANUFACTURING ORGANIC EL DISPLAY PANEL - The volume per drop of the drops ejected by each nozzle is detected. It is then determined whether a volume of drops equal to or greater than a target value can be ejected by causing one or more first nozzles to eject drops, the detected volume per drop of the first nozzles falling within a first range of a preset value. When the determination is affirmative, the first nozzles are selected for ejection of drops. When the determination is negative, the first nozzles and one or more second nozzles are selected for ejection of drops. The detected volume per drop of the second nozzles falls within a second range of the present value, where the second range is greater than the first range.12-06-2012
20120309253METHOD FOR MANUFACTURING IMAGE DISPLAY ELEMENT - A method for manufacturing an image display element including: a front panel; a back panel facing the front panel; plural pixels arranged in a matrix between the panels, and to be selected to be in a display or non-display state; and plural electrodes for controlling the pixels, the panels being bonded with the pixels and the electrodes interposed therebetween, and the electrodes being connected to a driving control circuit via metal wires, includes a first step of performing dicing from the back side of the opposing surface from the front panel, and forming a groove part such that electrode terminals connected to the electrodes are exposed between adjacent plural pixel lines, with the back panel bonded thereto, and a second step of forming the metal wires so as to be connected to the electrode terminals exposed at the groove part.12-06-2012
20100159783METHOD FOR PRODUCING ELECTRON-EMITTING DEVICE AND METHOD FOR PRODUCING IMAGE DISPLAY APPARATUS INCLUDING THE SAME - A method for producing an electron-emitting device includes forming a first conductive film on a side surface of an insulation layer including the side surface and a top surface connected to the side surface; forming a second conductive film from the top surface to the side surface and on the first conductive film; and etching the second electrically conductive film.06-24-2010
20100022156Color filter on thin film transistor type liquid crystal display device and method of fabricating the same - A liquid crystal panel for a color filter on thin film transistor (COT) type liquid crystal display (LCD) device includes: first and second substrates facing each other and having a display area and a non-display area, the non-display area is at a periphery of the display area; a gate line and a data line on the first substrate, the gate line and the data line crossing each other to define a pixel region in the display area; a thin film transistor connected to the gate line and the data line; a color filter layer over the thin film transistor; a black matrix on the color filter layer; a pixel electrode contacting the thin film transistor on the color filer layer; a common electrode on the second substrate; a first alignment key on the second substrate in the non-display area; a sealant between the first and second substrates at a boundary between the display area and the non-display area; and a liquid crystal layer between the pixel electrode and the common electrode.01-28-2010
20100022155ARRAY SUBSTRATE FOR LCD DEVICE - An array substrate for a liquid crystal display (LCD) device. An exemplary embodiment of an array substrate comprises a transparent substrate. A plurality of first and second conductive lines overlies the transparent substrate and cross over each other, thereby defining a plurality of display regions. At least one first spacer overlies a portion of the first or second conductive lines, wherein the first spacer is not formed over an intersection of the first and second conductive lines. A pixel electrode layer overlies the display regions, wherein the first spacer partially covers the pixel electrode layer.01-28-2010
20090191781Method for manufacturing color organic EL display - A color organic EL display includes: a substrate; a color filter layer disposed on the substrate; a gas barrier layer disposed on the color filter layer; and an organic EL structural body disposed on the gas barrier layer. The substrate and the color filter layer provide an underlayer of the gas barrier layer. The underlayer is a degassed underlayer. The gas barrier layer is provided by an atomic layer deposition method at a temperature equal to or lower than a decomposition starting temperature of the color filter layer.07-30-2009
20110111667SYSTEM AND METHOD FOR MANUFACTURING OPTICAL DISPLAY DEVICE - There are provided a system and a method for manufacturing an optical display device, in which optical films fed from two rolls which are the same in the direction of optical anisotropy, such as the direction of absorption axis, can be bonded to one and the other surfaces of an optical display unit so that the optical anisotropy of the one can be orthogonal to that of the other.05-12-2011
20100267306METHOD OF FABRICATING AN LCD DEVICE USING FLEXIBLE SUBSTRATES - A jig for a flexible substrate comprises a glass plate having a concave portion and a plurality of grooves at periphery of the concave portion. The jig further comprises a plurality of fixing elements inserted in the plurality of grooves to fix the flexible substrate to the glass plate.10-21-2010
20110306263Method for aligning film sheets and rectangular panels in display panel manufacturing system - A method for aligning film sheets and rectangular panels in a continuous manufacturing system of display panels, each of the film sheets being formed between two longitudinally adjacent slit lines, one on an upstream side and the other on a downstream side, and extending in a transverse direction with respect to a feeding direction of a strip shaped film laminate, such that the rectangular panels conveyed to the lamination position are overlapped with the film sheets conveyed to the lamination position. The method includes steps of; angularly adjusting the rectangular panel conveyed to the lamination position such that a center line extending in the feeding direction of the rectangular panels is parallel to the center line extending in the feeding direction of the film sheets conveyed to the lamination position; and position adjusting the angularly adjusted rectangular panels by shifting for a displacement from a position of the film sheets conveyed to the lamination position.12-15-2011
20130143464Method of Fabricating Lightweight and Thin Liquid Crystal Display - In a method for fabricating a lightweight and thin liquid crystal display (LCD), a first mother substrate, a subsidiary substrate and a thin second mother substrate are provided. An edge cut is formed by cutting edges of the first and second mother substrates and the subsidiary substrate to be inclined at a predetermined angle. An array process is performed on the first mother substrate. The subsidiary substrate is attached to the second mother substrate. A color filter process is performed on the second mother substrate having the subsidiary substrate attached thereto. The first and second mother substrates are attached together. The subsidiary substrate is separated from the first and second substrates by spraying air between the second mother substrate and the subsidiary substrate, in which the edge cut is formed.06-06-2013
20110059670LIQUID CRYSTAL DISPLAY DEVICE TO CONTROL VIEWING ANGLE - A view angle controlling LCD comprises a first panel part that has a first group of electrodes and a first liquid crystal layer driven by a first vertical electric field. The first group of electrodes includes a pixel electrode and a common electrode to generate the first vertical electric field. The view angle controlling LCD device further comprises a second panel part deposited on the first panel part that has a second group of electrodes and a second liquid crystal layer panel driven to have slope angle from the horizontal alignment condition by a second vertical electric field. The second group of electrodes includes a first electrode and a second electrode to generate the second vertical electric field.03-10-2011
20120009842DISPLAY DEVICE, METHOD OF MANUFACTURING THE SAME AND MASK FOR MANUFACTURING THE SAME - A mask is provided. The mask includes a mask body, a first exposing part and a second exposing part. The first exposing part is on the mask body. The first exposing part includes a first light transmitting portion and second light transmitting portions. The first light transmitting portion exposes a portion of the photoresist film corresponding to the output terminal to a light of a first light amount. The second light transmitting portions exposes an adjacent portion of the photoresist film adjacent to the output terminal to a light of a second light amount smaller than the first light amount. The second exposing part is on the mask body. The second exposing part includes third light transmitting portions for partially exposing the photoresist film corresponding to the storage electrode to a light of a third light amount that is between the first and second light amounts.01-12-2012
201200155793-DIMENSIONAL DISPLAY AND METHOD OF MANUFACTURE - In general, embodiments of the present invention provide a 3-dimensional (3-D) display and method of manufacture. Specifically, under the embodiments of the present invention, a plurality of active lighting panels is stacked in successive fashion within a display. The plurality of active light panels typically comprises pixel-based active lighting panels, Liquid Crystal Display (LCD)-based active lighting panels, Light Emitting Diode (LED)-based active lighting panels, Organic Light Emitting Diode (OLED)-based active lighting panels, or a combination thereof. Using the stack of active lighting panels, a 3-D view is generated. This 3-D view is viewable to the naked eye of a viewer (e.g., without the use of 3-D glasses or any other type of assistive optics). Typically, the view is generated and controlled using active light device control circuitry, which is configured to control the output of the active lighting panels both individually and with respect to one another.01-19-2012
20120045959DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to provide a display device that has a structure of an electrode where a residue of a transparent conductive film is not generated when a weak acid solution is used in etching, which is particularly appropriate for an electrode of a light-emitting element.02-23-2012
20120045958FILM FORMATION MASK - Provided is a film formation mask capable of preventing slit-like openings from being closed by vibrations so as to form a highly precise patterned film with stability. In a film formation mask formed by providing multiple slit-like openings in a metal foil, the shape of the opening of at least one end of the slit-like openings is asymmetrical with respect to a center line of the width direction of the slit-like openings.02-23-2012
20120015580METHOD FOR PRODUCING DISPLAY MEMBER AND MOLDED PRODUCT FOR DISPLAY MEMBER - A method for producing a display member that can restrain lights from leaking from a remainder chip of a runner and a portion around the remainder chip. The method includes laminating a transparent layer on a light-diffusing layer; forming slant surfaces each having an slant angle of more than 45 degrees with respect to an extending direction D of a runner, the slant surfaces being provided around a portion on the rear surface of the transparent layer to which the runner is connected and being inclined cutting out the runner at a position along and near the slant surfaces; and forming a shielding layer on a remainder chip of the runner and on a rear surface of the display member inside the remainder chip by spraying a light-shielding material onto a front surface of the display member main body and a side part of the remainder chip.01-19-2012
20110165813SYSTEM FOR DISPLAYING IMAGES AND FABRICATION METHOD THEREOF - The invention provides a system for displaying image and a fabrication method thereof. The system comprises an organic electroluminescent display device comprising a first substrate divided into a pixel region and a non-pixel region, a conductive layer formed in the non-pixel region, a second substrate corresponding to the first substrate, a first electrode formed on the second substrate, an organic electroluminescent layer formed on the first electrode, and a second electrode formed on the organic electroluminescent layer and electrically connected to the conductive layer. The system further includes an exterior circuit electrically connected to the conductive layer for transmitting signals.07-07-2011
20110165812LINE-AT-A-TIME FOIL DISPLAY - A display device comprising a light guide (07-07-2011
20120058702MANUFACTURING METHOD OF DISPLAY DEVICE - The present invention relates to a method of manufacturing a liquid crystal display device having a TFT substrate and a counter substrate, and prevents brightness unevenness from being caused by orientation film thickness unevenness.03-08-2012
20120071057SYSTEM AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY ELEMENT - There are provided a system and a method for manufacturing a liquid crystal display element, which make it possible to perform a lamination process in a smaller installation space, and which are provided to perform a process including turning over and horizontally rotating a liquid crystal panel using a panel turning unit, feeding optical functional films from first and second continuous rolls, respectively, using film feeding lines arranged linearly in planar view, feeding the liquid crystal panel using a panel feeding line placed above the film feeding lines in an overlapping manner and shaped linearly in planar view, and bonding each of the optical functional films, which are fed from the first and second rolls, to the liquid crystal panel from below.03-22-2012
20120071058SYSTEM AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY ELEMENT - A system and a method for manufacturing a liquid crystal display element through a reduced number of steps are provided, in which a liquid crystal panel is turned over, by means of a panel turning mechanism, about an axis not parallel to any of the long and short sides of the liquid crystal panel so that the positional relationship between the long and short sides of the liquid crystal panel can be reversed, after one of sheet pieces of optical functional films is bonded to the liquid crystal panel and before another of the sheet pieces is bonded thereto, which can achieve the same effect by a single operation as in the case where turning over the liquid crystal panel and rotating it are performed independently.03-22-2012
20120208425METHOD OF MANUFACTURING AN ELECTROPHORETIC DISPLAY - Single particle and dual-particle electrophoretic display devices are disclosed. The display comprises a back substrate and including a substantially hollow container that includes a transparent substrate forming a cavity therebetween. The transparent substrate including one or more cathode electrodes forming a plurality of electronically and selectively addressable pixels; one or more side walls extending from the transparent substrate, the side walls defining corresponding pixels, and a suspension fluid including a plurality of pigment particles in fluid communication with each of the cells by a gap formed between the top of the side walls and the back substrate. In addition, the displays include a thin-film transistor (TFT) active matrix substrate to selectively drive one or more cathode electrodes. In addition, methods for manufacturing of the displays are disclosed.08-16-2012
20110092125Testing Electronic Textiles During Assembly and Electronic Textile Displays - Ribbons containing e.g. inorganic NMOS devices are assembled in electrical contact with ribbons containing e.g. PMOS devices (preferably organic) to enable flexible electronic textile circuits, e.g. displays, to be inexpensive and practical for a wide for a variety of functions. The use of ribbons provides flexibility, reduces costs, and allows testing during assembly and different processes to be efficiently used for different components. This is apparently the first time that ribbons (especially inorganic-device-containing ribbons) have been interconnected to form a flexible CMOS electronic textile.04-21-2011
20100093247Method for fabricating touch panel - A method for fabricating a touch panel is provided. A first substrate and a second substrate are provided. A first carbon nanotube composite layer is applied on a surface of the first substrate to obtain a first electrode plate. A second carbon nanotube composite layer is applied on a surface of the first substrate to obtain a second electrode plate. The first and second electrode plates are assembled to obtain the touch panel.04-15-2010
20090061721METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device having flexibility by separating an element that is manufactured by a comparatively low-temperature (temperature of less than 500° C.) process from a substrate is provided. The element is separated from a glass substrate by the following steps: forming a silicone layer over a glass substrate; performing plasma treatment to the surface of the silicone layer to weaken the surface of the silicone layer; stacking an organic compound layer over the silicone layer; and forming an element that is manufactured through a process at a comparatively low-temperature, typically, a temperature that the organic compound can withstand, over the compound layer.03-05-2009
20110183574FSS MODE LIQUID CRYSTAL DISPLAY DEVICE WITH VIEWING ANGLE CONTROL REGION AND METHOD OF FABRICATING THE SAME - A liquid crystal display device and method of fabricating the device where the device can control a viewing angle in all directions without forming a white pixel. The liquid crystal display device includes a display control region that is controlled such that liquid crystal molecules are inclined and a viewing-angle control region that is controlled such that liquid crystal molecules are aligned in a horizontal or vertical direction, where a control voltage is supplied through a viewing angle control line independent of a common line for the display control region.07-28-2011
20120315817LIQUID CRYSTAL DISPLAY DEVICE WITH FIRST TO THIRD SUBPIXELS DRIVEN IN A TN MODE AND A FOURTH SUBPIXEL DRIVE IN ECB MODE - A liquid crystal display device and a method of manufacturing the liquid crystal device are disclosed. The liquid crystal display device includes a red subpixel, a green subpixel, a blue subpixel, and a viewing angle controlling subpixel. The red, green, and blue subpixels are driven in a TN method, and the viewing angle controlling subpixel is driven in an ECB method. Therefore, the liquid crystal display device provides flexibility in a security range to a user, and not only can be used for one person but also can be used for two or more persons to view an image of high quality without inconvenience while securing security.12-13-2012
20120135661SOLVENT FOR MAKING LIQUID CRYSTAL ALIGNMENT FILM, MATERIALS FOR THE ALIGNMENT FILM, AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY - Provided is a solvent for forming an alignment film capable of fabricating a liquid crystal alignment film having high quality, an improved imidization ratio, large surface anisotropy, and a strong anchoring force. The solvent for forming an alignment film including a polymer for a liquid crystal display includes the polymer of the alignment film including polyimide and a variable compound capable of changing a chemical structure for evaporating after imidizing and sintering, which is in a liquid state during a film-forming process of coating, imidizing, and sintering polyamic acid which is a precursor of polyimide.05-31-2012
20100173553PRINTING METHOD AND DISPLAY APPARATUS MANUFACTURING METHOD - A printing method including the steps of, forming a transfer layer on a blanket, forming a groove portion on the transfer layer by pressing a protrusion portion of a mold member including the protrusion portion having a predetermined pattern against the transfer layer, the groove portion having the pattern corresponding to the protrusion portion, forming a print pattern layer on the blanket by causing the transfer layer on the blanket and a relief printing plate including a convex portion having a pattern corresponding to a reverse pattern of the protrusion portion to face each other and pressure-contacting them so that a portion on the transfer layer corresponding to the convex portion is selectively eliminated, and transferring the print pattern layer onto a substrate to be printed by causing the print pattern layer on the blanket and the substrate to be printed to face each other and pressure-contacting them.07-08-2010
20100173554STATIC ELECTRICITY PREVENTION METHOD OF AN ORGANIC EL DISPLAY - A static electricity prevention method of an organic EL display (07-08-2010
20120252300REVERSE PRINTING INK COMPOSITION, PRINTING METHOD USING THE SAME, METHOD OF MANUFACTURING DISPLAY UNIT USING THE SAME - A reverse printing ink composition capable of realizing printing with a uniform film thickness and high-definition patterning, a printing method using the same, and a method of manufacturing a display unit using the same are provided. The reverse printing ink composition includes a solvent containing an aromatic carbon hydride and a straight-chain carbon hydride and a low-molecular material.10-04-2012
20120214377FABRICATING METHOD OF LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display (LCD) panel and a fabricating method thereof are described. First, a first substrate and a second substrate are provided. A liquid crystal monomer layer is then formed on the surface of at least one of the first and second substrates. Next, a curing step is performed to the liquid crystal monomer layer to induce a polymerization reaction, so as to form a liquid crystal polymer layer. Thereafter, the first and second substrates are assembled and a liquid crystal layer is filled between the first and second substrates.08-23-2012
20100273386LIQUID CRYSTAL DISPLAY DEVICE, METHOD FOR FABRICATING THE SAME, AND PORTABLE TELEPHONE USING THE SAME - A liquid crystal display device comprises a liquid crystal display panel and a semiconductor integrated circuit for driving and controlling the liquid crystal display panel. The number of input/output wires connected to I/O terminals (bonding pads) of the semiconductor integrated circuit is reduced so as to simplify wiring patterns of the I/O wires, whereby degrees of freedom in arranging the I/O wiring patterns are enhanced. The panel has a pair of insulating substrate, and the semiconductor integrated circuit is mounted on one of the paired substrates. The semiconductor integrated circuit has a mode terminal which is fixed to a power supply potential or to a reference potential during operation of the integrated circuit, and power supply dummy terminals connected to the power supply potential or reference potential inside the semiconductor integrated circuit. The wiring patterns formed on the paired insulating substrates connect the mode terminal to the power supply dummy terminals.10-28-2010
20100009588Method of manufacturing lighted signs from electroluminescent panels - A method of manufacturing a lighted sign from an electroluminescent panel having a plurality of layers that illuminate the panel when electrically energized. In one embodiment, the panel layers comprise a rear electrode, dielectric layer, phosphor layer, front electrode and transparent substrate layer. The method comprises the step of utilizing a laser to remove at least one of the panel layers from around a desired design shape such that only the design shape is illuminated when the panel is energized. In a preferred embodiment, the design shape is designed with a standard design program and the design shape is transmitted to a laser controller that controls the operation of the laser to remove the unwanted areas of the panel and quickly and inexpensively form the lighted sign. The laser can remove the rear electrode, all layers except the transparent layer or all layers from the unwanted areas of the panel.01-14-2010
20090305596METHOD FOR PRODUCING PLASMA DISPLAY PANEL - A method for producing a front panel of a plasma display panel wherein an electrode, a dielectric layer and a protective layer are formed on a substrate of the front panel, a formation of the protective layer comprising the steps of: (i) forming a first protective layer by sputtering or vapor deposition process on a dielectric layer of a substrate; (ii) applying a MgO material onto the first protective layer to form a MgO material layer; and (iii) drying the Mgo material layer so as to form a second protective layer therefrom, wherein the MgO material comprises a MgO powder, a solvent A and a solvent B; a vapor pressure of the solvent A is higher than and equal to 50 Pa at 20° C.; a vapor pressure of the solvent B is lower than and equal to 7 Pa at 20° C.; and a proportion of the solvent B to all solvents contained in the MgO material is higher than and equal to 3% by weight.12-10-2009
20090305597PROCESS OF FABRICATING ORGANIC ELECTRO-LUMINESCENCE DISPLAY - In a process of fabricating an organic electro-luminescence display, a substrate, a plurality of organic electro-luminescence devices, and a patterned separator structure are provided. The organic electro-luminescence devices and the patterned separator structure are disposed over the substrate. The patterned separator structure separates the organic electro-luminescence devices. A thickness of the patterned separator structure is greater than that of the organic electro-luminescence devices. A first passivation layer is then formed to completely cover the patterned separator structure and the organic electro-luminescence devices. A plurality of color filters are formed on the first passivation layer. The color filters are located above the organic electro-luminescence devices.12-10-2009
20110124261METHOD OF MAKING AIR-FIRED CATHODE ASSEMBLIES IN FIELD EMISSION DEVICES - This invention relates a method for manufacturing cathode assemblies for field emission devices.05-26-2011
20110124260DISPLAY THAT EMITS CIRCULARLY-POLARIZED LIGHT - One embodiment of the present invention provides a display that emits circularly-polarized light. This display includes a display mechanism that emits linearly-polarized light and a layer placed in the path of the linearly-polarized light. The layer receives the linearly-polarized light on one surface, converts the linearly-polarized light to circularly-polarized light, and then emits the circularly-polarized light from another surface. By emitting circularly-polarized light, the display reduces the perceived distortion found at some angles when the display is viewed through a linearly-polarizing filter.05-26-2011
20120231694LEADER MEMBER, SUBSTRATE, SUBSTRATE CARTRIDGE, SUBSTRATE-PROCESSING APPARATUS, LEADER-CONNECTING METHOD, METHOD OF MANUFACTURING DISPLAY ELEMENT, AND APPARATUS FOR MANUFACTURING DISPLAY ELEMENT - A leader member includes a connection portion that is connected to a substrate and a position reference portion that is used at least for aligning the substrate with the connection portion.09-13-2012
20080299862Dial module and process for manufacturing the same, LED display element, display module, movement module, connector module and meter employing the same - The dial module includes: a sheet-shaped dial having a design part on a surface of the dial; a sheet-shaped light source fixed to a back surface of the dial for illuminating the design part; and a flexible printed circuit fixed to a back surface of the light source. The dial module thus constructed enables to reduce the number of components, to facilitate assembly of a meter which employs the dial module therein, to improve the productivity, and to reduce the cost.12-04-2008
20080299861ORGANIC LIGHT-EMITTING DISPLAY DEVICE - A scanning line, a signal line, a first current supply line, and a second current supply line are formed on a glass substrate, a first electrode is formed on the wiring layer comprising the above members, an organic layer comprising a hole transport layer, a light-emitting layer, an electron transport layer, and an electron injection layer is formed on the first electrode, a second electrode is formed as cathode on the electron injection layer, the first electrode as anode is connected to a plus terminal of a power source through the driving devices and the first current supply line, whereas the second electrode as cathode is connected to a minus terminal of the power source, and is connected to the second current supply line in the display region of each pixel, with a contact hole serving as a feeding point, whereby wiring resistance due to the second electrode is reduced, and variations in the brightness of a panel is reduced.12-04-2008
20080299860METHOD OF FABRICATING SMART DISPLAY CARD HAVING LIQUID CRYSTAL DISPLAY UNIT - The present invention relates to a method of fabricating a smart display card having a liquid crystal display unit. A synthetic resin sheet is punched using a press machine, thus forming a frame. The frame is attached to a transparent synthetic resin base sheet on which a gluing agent is coated. A liquid crystal display unit, an IC chip, a PCB, a CPU, and a thin film battery are attached to the transparent synthetic resin base sheet inside the frame. UV resin is coated inside the frame. A cover sheet is attached to the top surface of the frame. The cover sheet is flattenedly pressed in order to remove bubbles in the UV resin. The base sheet, the frame and the cover sheet are placed on a glass plate and then irradiated with UV in order to cure the UV resin. The base sheet and the cover sheet are separated from the frame. Synthetic resin printed sheets are adhered to the top surface and the underside of the frame using the cured UV resin, thus completing the smart display card.12-04-2008
20110212661METHOD AND APPARATUS FOR MANUFACTURING TOUCH SCREEN - Disclosed herein is a method of manufacturing a touch screen, including: supplying a PET film; supplying and printing transparent conductive polymer electrodes on both sides of the PET film; printing conductive patterns on the transparent conductive polymer electrodes; supplying an adhesive to the transparent conductive polymer electrodes to form an adhesive layer; supplying a protective film to the adhesive layer; and cutting a laminate composed of the PET film, the printed transparent conductive polymer electrodes, the conductive patterns, the adhesive layer and the protective film. The method is advantageous in that a touch screen can be manufactured by an automated process using a roll-type feed or a sol-type feeder.09-01-2011
20110237149METHOD FOR FABRICATING A LIQUID CRYSTAL DISPLAY DEVICE AND AN LCD DEVICE THEREBY - A method for fabricating a LCD having enhanced aperture ratio and brightness includes: forming a gate line, a gate electrode, a common electrode and a common line in a first mask process; depositing a gate insulating layer covering the gate line, the gate electrode and the common electrode; forming an active layer on the gate insulating layer, and an ohmic contact layer on the active layer in a second mask process; forming a data line, a source electrode, and a drain electrode facing the source electrode in a third mask process; depositing a protective layer over the data line, the source electrode and the drain electrode; forming a pixel contact hole in a fourth mask process; and forming a pixel electrode, wherein the pixel electrode is connected to the drain electrode through the pixel contact hole in a fifth mask process using a reverse tapered photo-resist pattern.09-29-2011
20120322334METHOD OF MANUFACTURING FILM AND METHOD OF MANUFACTURING DISPLAY - There are provided a method of manufacturing a film, suitable for forming a film having a plurality of minute through holes, and a method of manufacturing a display using the method of manufacturing a film. The method of manufacturing a film, includes: transferring a film of a first pattern onto a base material with use of an intaglio plate including the first pattern and a second pattern; and forming a film including through holes on the base material by transferring a film of the second pattern of the intaglio plate onto the film of the first pattern.12-20-2012
20100233930MANUFACTURING METHODS OF TOUCH PANEL, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A manufacturing method of a touch panel having a plurality of first electrodes and a plurality of second electrodes which are formed on one surface of a substrate and extend in directions crossing each other, includes: forming the second electrodes so as to be separated at intersections between the first and second electrodes on the substrate; forming the first electrodes at the intersections on the substrate; forming an insulating film at least on the first electrodes at the intersections using a printing method; and forming bridge wirings that connect the second electrodes separated at the intersections to each other over the insulating film using the printing method, wherein forming partition walls for partitioning at least a part of a profile shape of the insulating film is performed prior to the forming of the insulating film.09-16-2010
20120088426Method of manufacturing LCDs from half-finished LCD articles - A method of manufacturing an LCD from a rectangular half-finished LCD article including a first polarizing filter film on one surface, a first glass substrate adhered to the first polarizing filter film, a second polarizing filter film on the other surface, a second glass substrate adhered to the second polarizing filter film, and a twisted nematic liquid crystal layer between the first and second glass substrates comprising the steps of cutting the first polarizing filter film; turning the half-finished LCD article upside down; cutting the second polarizing filter film; cutting the first glass substrate; turning the half-finished LCD article upside down; cutting the second glass substrate; removing the cut portions of both the first and second glass substrates; and applying UV light curing adhesive on periphery of each of the second glass substrate and the twisted nematic liquid crystal layer to produce the finished LCD.04-12-2012
20100203794FLAT PANEL DISPLAY - A method for forming a flat panel display includes disposing a light guide plate below a display panel, disposing at least one optical film between the display panel and the light guide plate, and disposing at least one illuminating device package in proximity to the light guide plate. The method for forming the illuminating device package includes forming a light emitting diode device over a substrate and forming a lens encapsulating the light emitting diode device. The lens includes two reflective surfaces disposed substantially symmetrically at either side of a central axis. The reflective surfaces is configured to reflect portions of light beams to at least one of the diffractive surfaces. The lens also includes a plurality of diffractive surfaces separating the reflective surfaces. The diffractive surfaces are configured to diffract the reflected light beams into a convergent angle. Each of the diffractive surfaces having a tilt angle respective to the central axis.08-12-2010
20100203793METHOD AND APPARATUS OF FORMING ALIGNMENT LAYER FOR LIQUID CRYSTAL DISPLAY DEVICE - A method for forming an alignment layer is disclosed, to prevent light leakage generated by a physical contact between a rubbing roll and a substrate, which includes preparing a substrate; coating an alignment material on the substrate, for initial alignment of liquid crystal; applying an electric field or a magnetic field to the alignment material, for determination of alignment direction in the alignment material; and curing the alignment material.08-12-2010
20100203792METHOD FOR MANUFACTURING PLASMA DISPLAY PANEL - In order to realize a plasma display panel with high-definition/high-luminance display performance as well as with low power consumption, after formation of a primary film, a metal oxide paste made up of aggregated particles of metal oxide particles, an organic resin component, and diluting solvent is applied and fired. Thereby, a plurality of aggregated particles of the metal oxide particles are attached and formed onto the primary film. The metal oxide paste is obtained by mixing a first metal oxide paste with a content of the aggregated particles of the metal oxide, the organic resin component, and the diluting solvent being not smaller than 1.5 vol % and a second metal oxide paste made up only of the organic resin component and the diluting solvent.08-12-2010
20120329355SWITCHABLE PARTICLE-BASED DISPLAY AND METHOD OF MANUFACTURING SAME - A method for manufacturing a switchable PBD includes filling a plurality of first-type particles and a plurality of second-type particles into each cell, where the plurality of first-type particles carries charges of a first charge polarity having a first charge density and the plurality of second-type particles is substantially electrically neutral, or carries charges having a second charge density that is substantially lower than the first charge density of the first-type particles, and filling a fluid into each cell, where the fluid comprises a charge controlling agent having a second charge polarity opposite to the first charge polarity, and the charge controlling agent has a substantially selective wettability, absorbability or adsorbability on the plurality of second-type particles. As such, at least part of the plurality of second-type particles is charged to have the second charge polarity in each cell.12-27-2012
20120100774TRANSPARENT SUBSTRATE WITH THIN FILM AND METHOD FOR MANUFACTURING TRANSPARENT SUBSTRATE WITH CIRCUIT PATTERN WHEREIN SUCH TRANSPARENT SUBSTRATE WITH THIN FILM IS USED - An object of the invention is to provide a method for manufacturing a transparent substrate provided with a tin oxide thin film which can be satisfactorily patterned even by irradiation with a laser light having low energy because an ablation phenomenon occurs therewith. The invention relates to a method for manufacturing a transparent substrate bearing a circuit pattern, which comprises irradiating a thin-film-attached transparent substrate comprising a transparent substrate having thereon a transparent conductive film having a carrier concentration of 5×1004-26-2012
20120100773ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An organic light emitting device having a photonic crystal structure and a manufacturing method thereof are provided. The organic light emitting device comprises: a substrate through which light passes; a photonic crystal layer formed on the substrate and having a photonic crystal structure; an intermediate layer formed on the photonic crystal layer and having a large refractive index compared with the photonic crystal layer; a first electrode layer formed on the intermediate layer; a light emitting layer formed on the first electrode layer and emitting light according to current flow; and a second electrode layer formed on the light emitting layer.04-26-2012
20100178834Method for producing display device - A method for producing a display device in which a repair operation can be carried out easily and reliably without damage to a bonding portion caused by a cured resin. The method comprises: (a) coating a resin composition on at least one of the display part and the protective part, (b) closely adhering the display part and the protective part via the resin composition interposed therebetween, and (c) arranging the cured resin layer between the display part and the protective part by curing the resin composition by irradiating UV rays externally side of protective part. The method further comprises, depending on the presence of defects: (d) separating the display part and the protective part by being in contact with a wire having a smaller diameter than a thickness of the cured resin layer to a side face of the cured resin layer where the protective part and the display part are bonded and moving the wire through the cured resin layer, (e) peeling off and removing the cured resin adhered to the separated display part and the protective part by a removing solution which contains an organic solvent, and (f) repeating steps (a) to (c).07-15-2010
20100178833WIRING METHOD FOR CHECKING WIRINGS OF AN ORGANIC ELECTROLUMINESCENT DISPLAY - A wiring method for checking wirings of an organic electroluminescent display, in which a plurality of organic electroluminescent displays are arranged and encapsulated on a large piece of glass substrate, a power contact block with a main checking wiring is arranged at one side of the glass substrate, the cathode and the anode of the display which is at the centre are connected to said main checking wirings through an electrically conductive cathode checking wiring and an electrically conductive anode checking wiring, respectively. The main checking wirings connect the plurality of displays to the power contact block in series or parallel at a side of the glass substrate, wherein said cathode checking wiring may be connected to the cathode from any side of the display, then be wired and extended out, said anode checking wiring may be wired and extended out from other one side other than the anode end side which is connected to the integrate circuit for the display, and the anode checking wiring is only is connected to other end of the anode.07-15-2010
20100178832Methods of Fabricating Display Panel and Flexible Color Filter thereof - A method of fabricating a display panel comprises the steps of: forming a controlling elements array substrate and a flexible color filter, respectively; forming a displaying medium on the controlling elements array substrate; and assembling the flexible color filter to the controlling elements array substrate for disposing it on the displaying medium layer. A method of fabricating a flexible color filter comprises the steps of: forming a flexible substrate on a rigidly substrate; forming a color filter film comprising a plurality of color filter patterns; and separating the flexible substrate from the rigidly substrate. Since the color filter film are formed before separating the flexible substrate from the rigid substrate, the flexible color filter may have good resolution and process yield.07-15-2010
20100130089METHOD FOR MANUFACTURING FLUORESCENT SUBSTRATE AND METHOD FOR MANUFACTURING IMAGE DISPLAY DEVICE - The method for manufacturing a fluorescent paste includes a process of applying a fluorescent paste including a sulfide fluorescent material and a binder resin onto a substrate, a first baking process of baking the substrate for a predetermined time at a first temperature that is equal to or lower than a temperature at which a generated amount of water has a maximum in a case where the fluorescent paste is measured by a TDP-MS method, and a second baking process of baking the substrate for a predetermined time at a second temperature that is equal to or higher than a temperature at which a generated amount of carbon dioxide has a minimum in a case where the fluorescent paste is measured by a TDP-MS method after the first baking process.05-27-2010
20100130088METHOD FOR MANUFACTURING PLASMA DISPLAY PANEL - A plasma display panel capable of displaying high definition at high luminance with lower power consumption is obtainable. Metal oxide paste formed of metal oxide particles, organic resin component, and diluting agent is painted on primary film (05-27-2010
20130017750METHOD AND APPARATUS FOR MANUFACTURING LIQUID CRYSTAL DISPLAY PANELAANM Wu; Jo-shanAACI ShenzhenAACO CNAAGP Wu; Jo-shan Shenzhen CNAANM Chen; HungjuiAACI ShenzhenAACO CNAAGP Chen; Hungjui Shenzhen CN - The embodiment of the present invention provides a method and an apparatus for manufacturing a liquid crystal display (LCD) panel. The method comprises: alternately processing a first substrate and a second substrate on a production line for achieving an array process of the first substrate and the second substrate, coating a sealant, coating a silver adhesive and dispensing a liquid crystal (LC) mixed with monomers, wherein the first substrate is a thin film transistor (TFT) substrate, and the second substrate is a color filter (CF) substrate; assembling the first substrate and the second substrate as a large panel and curing the sealant there between; applying a voltage and irradiating an ultraviolet light to the large panel, so as to allow LC molecules in the large panel to have a pre-tile angle; and cutting the large panel according to a predetermined size, thereby achieving the LCD panel. The method and the apparatus of the embodiment of the present invention for manufacturing the LCD panel can achieve the production of the LCD panel on the single production line, thus preventing idle times on the production line and raising the production efficiency. The occupied area of the equipments for manufacturing the LCD panel can be decreased, and the production cost of the LCD panel can be reduced.01-17-2013
20110159771SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to provide a peeling method that causes no damage to a layer to be peeled and to allow not only a layer to be peeled with a small surface area but also a layer to be peeled with a large surface area to be peeled entirely. Further, it is also an object of the present invention to bond a layer to be peeled to various base materials to provide a lighter semiconductor device and a manufacturing method thereof. Particularly, it is an object to bond various elements typified by a TFT, (a thin film diode, a photoelectric conversion element comprising a PIN junction of silicon, or a silicon resistance element) to a flexible film to provide a lighter semiconductor device and a manufacturing method thereof.06-30-2011
20110159770Method of Producing Liquid Crystal Display Device Including Forming an Align Mark in an Insulating Mother Substrate - A method of producing a liquid crystal display in which elements can be precisely aligned includes: providing an insulating mother substrate; forming an align mark within the insulating mother substrate by irradiating laser light, which has a wavelength less than 355 nm and having an insulating mother substrate absorbance of 10% or greater for the laser light; forming a plurality of elements with reference to the align mark on the insulating mother substrate; and forming a plurality of insulating unit substrates by cutting the insulating mother substrate.06-30-2011
20110159769MANUFACTURING METHOD OF A FLAT PANEL DISPLAY DEVICE - Disclosed is a manufacturing method for a spacer in a flat panel display device. The method comprises forming a color filter substrate including: defining pixel areas on a transparent substrate; forming black matrixes surrounding the pixel areas; forming a first color filter in a first area, and a first pigment layer having a first width on a spacer area in the black matrixes by depositing and patterning a first pigment on the substrate; forming a second color filter in a second area, and a second pigment layer having a second width on the spacer area in the black matrixes by depositing and patterning a second pigment on the substrate; and forming a third color filter in a third area, and a third pigment layer having a third width on the spacer area in the black matrixes by depositing and patterning a third pigment on the substrate.06-30-2011
20130023179DONOR SUBSTRATE, METHOD OF MANUFACTURING A DONOR SUBSTRATE AND A METHOD OF MANUFACTURING AN ORGANIC LIGHT EMITTING DISPLAY DEVICE USING A DONOR SUBSTRATE - A donor substrate may include a base substrate, a light-to-heat conversion layer, a transfer layer, and a rib structure. The light-to-heat conversion layer may be on the base substrate. The transfer layer may be on the light-to-heat conversion layer. The rib structure is on the transfer layer. The rib structure may include a plurality of tubes spaced apart from one another. In a laser induced thermal imaging process, the donor substrate including the rib structure may be easily removed from a display substrate without damage, thereby to form an organic layer pattern regularly on the display substrate.01-24-2013
20080254704METHOD AND APPARATUS FOR MANUFACTURING DISPLAY DEVICES - A method for fabricating a display device including forming a standard mark in a flexible substrate fed in a first direction, forming a partition wall in the flexible substrate, and forming an electrode by applying a conductive member at a predetermined position between the partition walls by an applicator based on the standard mark. An apparatus is provided that includes a transportation unit to transport a flexible substrate in a first direction, a mark formation unit to form a standard mark in the flexible substrate, a partition wall formation unit to form a partition wall in the flexible substrate, and an application unit to apply a conductive member to a predetermined position between the partition walls based on the standard mark. A display device is provided that includes a flexible substrate, a partition wall formed by pressing the flexible substrate, and an electrode formed by application between the partition walls.10-16-2008
20130171902METHOD OF FABRICATING FLEXIBLE DISPLAY DEVICE - A method of fabricating flexible display device includes providing a flexible display panel having an uneven surface, and forming at least one filling layer on the uneven surface of the flexible display panel. The filling layer includes an organic filling layer polymerized by a precursor layer, or an inorganic filling layer including nanometer-scale carbon structure.07-04-2013
20080233827METHOD FOR MANUFACTURING DISPLAY DEVICE - Disclosed herein above is a method for manufacturing a display device, the method including the steps of: forming a transfer layer containing an organic light-emitting material over a support substrate by coating; heat-treating the transfer layer over the support substrate; and thermally transferring the heat-treated transfer layer over a device substrate.09-25-2008
20080227358METHOD FOR MANUFACTURING IMAGE DISPLAY DEVICE, IMAGE DISPLAY DEVICE, AND TV APPARATUS - A method for manufacturing an image display device includes the steps of preparing a plurality of spacers preliminarily, measuring heights of the plurality of spacers prepared by the preparing step individually, and deciding an order of arranging the spacers on the basis of the measured heights obtained in the measuring step. The spacers are arranged in the order decided in the deciding step.09-18-2008
20080220683Luminance improved organic electroluminescent device - An organic light emitting diode (OLED) is capable of improving light efficiency per pixel unit by forming a cathode electrode to cover an anode electrode, thereby focusing light emitted from a luminescent layer per pixel unit. The OLED comprises: a second insulating film formed on a substrate including a TFT with source/drain electrodes formed on a first insulating film; a lower electrode formed on the second insulating film and connected to one of the source/drain electrodes; a third insulating film having an opening for exposing a portion of the lower electrode; a luminescent layer formed on the lower electrode inside the opening; a groove formed to surround the luminescent layer; and an upper electrode formed on the substrate including the groove so that the upper electrode surrounds the luminescent layer. The upper electrode functions as a reflection layer for reflecting total light while light emitted from the luminescent layer is being pulled out through the substrate.09-11-2008
20120252301Method for Manufacturing PCB, Display Module and Method for Fabricating Display Module - A method for manufacturing PCB, a display module and a method for fabricating a display module is disclosed. The method for fabricating a display module comprises the following steps. A printed circuit board with at least one locating pin formed thereon is provided. The printed circuit board is positioned on a backboard of a display module by means of the locating pin.10-04-2012
20120252299METHOD FOR FABRICATING LIQUID CRYSTAL DISPLAY - The invention provides a method for fabricating a liquid crystal display, including: providing a first substrate and a second substrate, wherein the first substrate and the second substrate are disposed oppositely to each other; filling a mixed solution between the first substrate and the second substrate, wherein the mixed solution comprises a plurality of liquid crystal molecules and a plurality of monomers; performing a UV light irradiation process to the mixed solution, wherein the monomers are polymerized to form a first alignment control layer on a surface of the first substrate facing the liquid crystal molecules, and form a second alignment control layer on a surface of the second substrate facing the liquid crystal molecules, and the thickness of the first alignment control layer and that of the second alignment control layer have a ratio of about 1/2-2/1.10-04-2012
20130143463MANUFACTURING METHOD OF DISPLAY PANEL - A manufacturing method for a display panel includes: forming a first display panel including a plurality of pixel electrodes, gate lines and data lines connected to the pixel electrodes, a first pad unit connected to the gate lines, and a second pad unit connected to the data lines; forming a second display panel including a common electrode; forming a first short point connected to the first pad unit; forming a second short point connected to the second pad unit; adhering the first display panel and the second display panel; dividing the second display panel into a plurality of regions insulated from each other, a first region corresponding to the first short point, a second region corresponding to the second short point, and a third region; and applying a first voltage to the first region, a second voltage to the second region, and a third voltage to the third region.06-06-2013
20110217896PROCESS FOR PREPARING A DISPLAY PANEL - This application is directed to processes for preparing electrophoretic displays and semi-finished display panels comprising display cells prepared from the microcup and top-sealing technologies. The semi-finished display panel comprises an array of display cells sandwiched between two temporary substrate layers, between a temporary substrate layer and a conductor layer or between a temporary substrate layer and a permanent substrate layer, wherein said display cells are filled with an electrophoretic fluid and top-sealed with a polymeric sealing layer formed from a top-sealing composition which is being hardened while on top of the electrophoretic fluid.09-08-2011
20110212662LAYOUT OF LIQUID CRYSTAL DISPLAY PANELS AND SIZE OF MOTHER SUBSTRATE - A layout of LCD panels and a size of the mother substrate are disclosed, to improve the efficiency in arrangement of the LCD panels, and to maximize the substrate efficiency, the layout comprising a mother substrate; a dummy region of 15 mm or less in a periphery of the mother substrate; and six LCD panels of the 26-inch model in a matrix of 2×3 on the mother substrate excluding the dummy region with a margin corresponding to 2˜4% of a length of the LCD panel.09-01-2011
20110244751FRINGE FIELD SWITCHING MODE LIQUID CRYSTAL DISPLAY AND MANUFACTURING METHOD THEREOF - Provided is a fringe field switching mode liquid crystal display. The fringe field switching mode liquid crystal display includes a transparent common electrode having a predetermined shape and formed within the pixel area to adjust light transmittance by applying a voltage to the liquid crystal layer, and a transparent pixel electrode having a plurality of slits and formed above the transparent common electrode with an insulating layer interposed between the transparent common electrode and the transparent pixel electrode. A rubbing direction for aligning the liquid crystal layer is within 5° with respect to a direction of the gate line to remove a light shielding region above the data line, one end of the transparent common electrode is arranged between the data line and the transparent pixel electrode, and a distance between the transparent common electrode and the transparent pixel electrode is regulated with respect to the data line.10-06-2011
20100304633Plasma Display Panel, And Substrate Assembly of Plasma Display Panel - A method for producing a plasma display panel, includes mixing MgO crystals with MgF12-02-2010
20130137333ASSEMBLING A DISPLAY DEVICE - A technique comprising: assembling together a front plane (05-30-2013
20100317251 METHOD FOR PRODUCING AN ORGANIC EL DISPLAY - A production method for an organic EL display comprises sticking an anti-static sheet 12-16-2010
20130189894METHOD FOR MANUFACTURING FLAT DISPLAY - According to one embodiment, a method for manufacturing a flat display includes applying a dot-like adhesive coating pattern in a region to be bonded on the surface of one of a display panel and a protective plate after forming a wall pattern along the outer circumference of the region to be bonded.07-25-2013
20130189895METHOD OF MANUFACTURING ORGANIC-LIGHT-EMITTING-DIODE FLAT-PANEL LIGHT-SOURCE APPARATUS - A method of manufacturing an organic-light-emitting-diode (OLED) flat-panel light-source apparatus. The method includes depositing a metal layer on a substrate and patterning the metal layer to form a plurality of subsidiary electrodes, forming an insulating layer on the substrate including the plurality of subsidiary electrodes and forming a first subsidiary electrode layer by etching the insulating layer until some of the plurality of subsidiary electrodes are exposed, and sequentially forming an anode, an organic emission layer (EML), and a cathode on the substrate on which the first subsidiary electrode layer is formed.07-25-2013
20130203313Manufacturing Method of Liquid Crystal Display Device - Manufacturing method of a liquid crystal display device having a TFT substrate with a display area in which pixels are arranged, a counter substrate, a sealing material formed in a periphery to bond the TFT and counter substrates, and a liquid crystal layer interposed between an orientation film on the TFT substrate and an orientation film on the counter substrate. The method includes the steps of forming a first color filter, a second color filter, or a third color filter corresponding to each of the pixels in the display area of the TFT substrate, and forming an orientation film stopper by overlapping a portion of the first color filter, the second color filter, or the third color filter, in an area between the display area and the sealing material. A profile of the orientation film formed in the TFT substrate is defined by the orientation film stopper.08-08-2013
20120094569LIQUID CRYSTAL DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - Provided are an LCD device that can control a viewing angle freely and a manufacturing method thereof. The LCD device includes a first substrate, a second substrate, and an LC layer interposed between the first and second substrates. The LCD device further includes red, green, blue, and viewing angle controlling subpixels. These subpixels are driven in a VA mode. The red, green, and blue subpixels have a transflective structure. The viewing angle controlling subpixel has a transmissive or transflective structure.04-19-2012
20130210312LIGHT-EMITTING DISPLAY AND METHOD OF MANUFACTURING THE SAME - A light-emitting display capable of maintaining low power consumption and improving display quality irrespective of the configuration of an auxiliary wiring. A second electrode and an auxiliary wiring are electrically connected to each other through a conductive contact section. Moreover, only a part of the auxiliary wiring is connected to the contact section. Even if the surface of the auxiliary wiring is oxidized, an increase in connection resistance is prevented. Moreover, a restriction on layout is not imposed at the time of forming the contact section.08-15-2013

Patent applications in class Display or gas panel making

Patent applications in all subclasses Display or gas panel making