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| 20100330468 | HALFTONE MASK AND MANUFACTURING METHOD THEREOF AND METHOD FOR FORMING FILM USING THE SAME - Embodiments relate to halftone masks that can uniformly form the height of an underlying layer in two regions that are spaced apart from each other, a manufacturing method thereof, and a method for forming a film using the same. The halftone mask includes a first light blocking unit and a second light blocking unit, and a semi-transmitting unit that is disposed adjacent to the side of the second light blocking unit. The first and second light blocking units block light and are spaced apart from each other at a predetermined interval. The semi-transmitting unit is positioned at a side far from the first light blocking unit and reduces intensity of light. Sum of the second length of the second light blocking unit and the third length of the semi-transmitting unit is larger than the first length of the first blocking unit. | 12-30-2010 |
| 20110033992 | Thin Film Transistor, Method of Fabricating the Same, and Organic Light Emitting Display Device Including the Same - A thin film transistor (TFT) having improved characteristics, a method for fabricating the same, and an organic light emitting display device (OLED) including the same. The TFT is constructed with a substrate, a semiconductor layer disposed on the substrate and including a channel region, source and drain regions, a gate insulating layer disposed on the semiconductor layer, a gate electrode disposed on the gate insulating layer and corresponding to the channel region, an interlayer insulating layer disposed on the gate electrode, and source and drain electrodes electrically connected to the source and drain regions of the semiconductor layer. The channel region is made from polycrystalline silicon (poly-Si), and the source and drain regions are made from amorphous silicon (a-Si). The polycrystalline silicon of the channel region is formed by crystallizing amorphous silicon using Joule's heat generated by the gate electrode. | 02-10-2011 |
| 20110229994 | Method of manufacturing organic light emitting display device - A method of manufacturing an organic light emitting display device includes providing a substrate, the substrate including a first electrode on which a first photosensitive layer is formed, a second electrode on which a second photosensitive layer is formed, and an exposed third electrode, coating an organic layer on the substrate, and carrying out an ashing process to remove the organic layer and the second photosensitive layer and to partially remove the first photosensitive layer so as to avoid exposing the upper surface of the first electrode. | 09-22-2011 |
| 20120028386 | Method of manufacturing organic light emitting display - A method of manufacturing an organic light-emitting display device, the method including forming a thin film transistor (TFT); forming a planarization layer on the TFT; forming an opening in the planarization layer; and forming an organic light emitting diode that is electrically connected to the TFT through the opening, wherein forming the opening in the planarization layer includes forming a photosensitive layer on the planarization layer, and irradiating light on the photosensitive layer such that the light has a focus point offset from a surface of the planarization layer to control a gradient of the opening. | 02-02-2012 |
| 20120097966 | Thin Film Transistor, Organic Light Emitting Diode (OLED) Display Including the Same, and Manufacturing Methods of Them - The present invention relates generally to a thin film transistor, an organic light emitting diode (OLED) display including the same, and manufacturing methods of them. The thin film transistor comprises: a substrate; a gate electrode disposed on the substrate; a gate insulating layer disposed on the gate electrode; a semiconductor layer disposed on the gate insulating layer; an inter layer dielectric disposed on the entire surface of the substrate; and source and drain electrodes disposed on the inter layer dielectric and connected to the semiconductor layer, and in which the gate electrode is disposed so as to correspond to the entire surface of the semiconductor layer, and a manufacturing method thereof. The organic light emitting diode (OLED) display comprises the elements of the thin film transistor described above, and also includes an insulating film disposed on the entire surface of the substrate, and a first electrode, an organic layer, and a second electrode disposed on the insulating film, the first electrode being electrically connected to any one of the source and drain electrodes, and the gate electrode is disposed so as to correspond to the entire surface of the semiconductor layer. | 04-26-2012 |
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| 20090013666 | METHOD FOR DETERMINING MALFUNCTION OF NITROGEN OXIDE SENSOR AND SELECTIVE CATALYTIC REDUCTION SYSTEM OPERATING THE SAME - A method for determining malfunction of a nitrogen oxide sensor compares a nitrogen oxide amount detected by the sensor with a predetermined value of nitrogen oxide. If the difference between the predetermined value and the amount detected by the sensor is within a predetermined range, the method determines whether an engine is in a steady state. If the engine is in a steady state, the method changes one or more engine control parameters, thereby varying an actual nitrogen oxide amount. After changing the parameters, the method determines whether the amount detected by the sensor changes. The method determines that the sensor is malfunctioning if the amount detected by the sensor does not change. A selective catalytic reduction system includes a first nitrogen oxide sensor, a selective catalytic reduction apparatus, and a second nitrogen oxide sensor, all disposed in an exhaust pipe. A control portion performs the above-described method. | 01-15-2009 |
| 20090114199 | METHOD AND APPARATUS FOR CONTROLLING DIESEL ENGINE - A diesel engine may be stably controlled without an exhaust gas temperature at an upstream side of a turbocharger, by a method for controlling a diesel engine that includes: detecting an engine rotation speed; detecting or estimating a lambda value; estimating an exhaust gas temperature at an upstream side of a turbocharger by using relationship between the lambda value and an exhaust temperature; determining whether the estimated exhaust gas temperature exceeds a first predetermined reference value; and limiting an engine output power and/or regeneration of a CPF when the estimated exhaust gas temperature exceeds the first predetermined reference value. | 05-07-2009 |
| 20120012088 | APPARATUS AND METHOD FOR CONTROL LOW PRESSURE EXHAUST GAS RECIRCULATION SYSTEM - A low pressure EGR (Exhaust Gas Recirculation) system control apparatus of an internal combustion engine of a vehicle may include an atmosphere temperature detecting portion that detects atmosphere temperature of a driving region of the vehicle, an air conditioner switch that outputs ON/OFF signal of an air conditioner, a wiper switch outputting ON/OFF signal of a wiper, a control portion that uses the atmosphere temperature to determine a relative humidity and limits an operation of a low pressure EGR system such that condensate may be not formed therein, when the relative humidity may be higher than a predetermined humidity value. | 01-19-2012 |
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| 20110147741 | X-RAY DETECTOR - An X-ray detector constructed as an exemplary embodiment of the present invention includes a semiconductor layer, a data line including a source electrode covering a first portion of the semiconductor layer, a drain electrode disposed opposite to the source electrode, a first lower electrode formed on the upper portion of a second portion of the semiconductor layer and a gate insulating layer and elongated from the drain electrode, and a passivation layer formed on the upper portion of one part of the lower electrode including the drain electrode. Further, the second lower electrode is formed approaching the gate electrode. The X-ray detector constructed as the exemplary embodiment of the present invention includes a second lower electrode formed on the passivation layer and placed approaching a gate electrode. The area in which a diode is disposed may be maximized, and the amount of leakage current may be reduced. | 06-23-2011 |
| 20110163241 | APPARATUS FOR DETECTING X-RAYS AND METHOD OF OPERATING THE SAME - An apparatus for detecting X-rays and a driving method of the X-ray detecting apparatus. The driving method includes sampling a first data voltage corresponding to a rheobase voltage and a bias voltage, the rheobase voltage being generated by a current from a photodiode, sampling a second data voltage corresponding to the bias voltage after resetting the rheobase voltage, and resetting the rheobase voltage from the time that the sampling of the second data voltage is finished to the time that a corresponding frame is finished. An image delay generated when an X-ray motion picture is displayed may be minimized. | 07-07-2011 |
| 20110164723 | APPARATUS AND METHOD FOR X-RAY DETECTING - An X-ray detecting apparatus constructed as the present invention receives an X-ray passing through a subject during a window time in which the subject is exposed to the X-ray, and converts the X-ray into an electrical signal to output the electrical signal as a video signal. The X-ray detecting apparatus subtracts the offset video signal determined according to the window time in the video signal to generate a real video signal representing the X-ray result for photographing the subject. | 07-07-2011 |
| 20110168907 | X-Ray Detecting Device and Operating Method Thereof - An X-ray detecting device includes: an X-ray receiving panel including a plurality of scan lines, a plurality of data lines, and a plurality of photodetecting pixels connected to the scan lines and the data lines; a scan driver, connected to the scan lines, for applying a scan signal for controlling outputs of data signals of the photodetecting pixels; and a data detector, connected to the data lines, for receiving the data signals output by the photodetecting pixels, reading the data signals, and controlling capacitance according to transmissivity of a subject. Detective quantum efficiency of the X-ray detecting device can be improved by adaptively controlling capacitance of an integrator according to measured transmissivity of a subject. | 07-14-2011 |
| 20110180889 | X-RAY DETECTOR - An X-ray detector includes a substrate; a gate line that is extended in a first direction on the substrate; a gate electrode that is extended from the gate line; a semiconductor layer that is positioned on the gate electrode; a source electrode and drain electrode that are positioned on the semiconductor layer; a lower electrode that is extended from the drain electrode; a photodiode that is positioned on the lower electrode; a first insulation layer that is positioned on the source electrode and the drain electrode and that includes a first opening that exposes the source electrode; and a data line that is extended in a second direction intersecting a first direction on the first insulation layer to intersect the gate line with the first insulation layer interposed between the data line and the gate line, and the data line being electrically connected to the source electrode through the first opening. | 07-28-2011 |
| 20110278465 | PHOTO DETECTING PIXELS AND X-RAY DETECTOR INCLUDING THE SAME - An X-ray detector including photo detecting pixels capable of reducing kTC switching noise (k: Boltzmann's constant; T: temperature; C: capacitance) by accurately performing correlated double sampling (CDS). Each of the pixels includes a first transistor comprising a first electrode connected to a first power line, a second electrode connected to a first node, and a gate electrode receiving the reset signal; a second transistor comprising a first electrode connected to the first power line, a second electrode connected to a second node, and a gate electrode connected to the first node; a third transistor comprising a first electrode connected to the second node, a second electrode connected to a data line, and a gate electrode connected to a gate line; a fourth transistor comprising a first electrode connected to the first node, a second electrode connected to a photo detecting diode, and a gate electrode receiving the control signal; and the photo detecting diode comprising a first electrode connected to the fourth transistor, and a second electrode connected to ground. | 11-17-2011 |
| 20110303853 | X-ray detector and X-ray image detecting method - An X-ray detector and a method of detecting an X-ray image. The method includes: during an offset adjustment, sequentially outputting first gate signals to a plurality of gate lines for turning on the switching devices; during an offset read out, sequentially outputting second gate signals to the plurality of gate lines for turning on the switching devices after a first window time; and during the offset read out, reading electrical signals output by the switching device. | 12-15-2011 |
| 20120061578 | X-Ray Detector Panel - An X-ray detector panel comprises: a substrate; a transistor including a gate electrode disposed on the substrate, a gate insulating layer disposed on the gate electrode, an active layer disposed on the gate insulating layer, and a source electrode and a drain electrode disposed on the active layer and separated from each other; a photodiode including a first electrode connected to the drain electrode of the transistor, a photoconductive layer disposed on the first electrode, and a second electrode disposed on the photoconductive layer; an interlayer insulating layer including a first interlayer insulating layer covering the transistor and the photodiode, the first interlayer insulating layer being formed of an insulating material having a band gap energy of about 8 eV to about 10 eV; a data line disposed on the interlayer insulating layer and contacting the source electrode of the transistor via the interlayer insulating layer; a bias line disposed on the interlayer insulating layer and contacting the second electrode of the photodiode via the interlayer insulating layer; and a passivation layer disposed on the data line, the bias line, and the interlayer insulating layer. | 03-15-2012 |
| 20120106700 | X-Ray Detector, Method of Controlling the Same, and X-Ray Photographing System - An X-ray detector photographs an object by receiving an X-ray irradiated from an X-ray generator. The X-ray detector includes: a plurality of photo-detecting pixels, each of which includes a photodiode, which detects an X-ray and generates an electric signal corresponding to an amount of a transmitted X-ray, and a switching device which transmits the electric signal; a gate driver which supplies a gate pulse to the switching device for turning on the switching device; and a read-out integrated circuit (IC) which reads out the electric signals from the plurality of photo-detecting pixels; wherein the gate driver and the read-out IC initialize the plurality of photo-detecting pixels in response to an X-ray warm-up control signal causing warm up of the X-ray generator. | 05-03-2012 |
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| 20100055343 | Donor substrate for laser induced thermal imaging and method of fabricating organic light emitting diode using the same - Provided are a donor substrate for laser induced thermal imaging (LITI) and a method of fabricating an organic light emitting diode (OLED) using the same, which can prevent a transferred emission layer from being damaged by heat and thus prevent wrinkles from forming on the surface thereof. The donor substrate includes a base layer, a light-to-heat conversion layer disposed on the base layer, a first transfer layer disposed on the light-to-heat conversion layer and including an organic layer, an inorganic layer, or a double layer thereof, and a second transfer layer disposed on the first transfer layer and including an emission layer. The first transfer layer has an absolute value of lowest unoccupied molecular orbital energy level of 2.6 to 3.0 eV and a band gap energy of 2.8 to 3.4 eV. | 03-04-2010 |
| 20110084286 | DONOR SUBSTRATE AND METHOD OF FABRICATING ORGANIC LIGHT EMITTING DIODE USING THE SAME - A donor substrate for laser induced thermal imaging and a method of fabricating an organic light emitting diode (OLED) using the donor substrate are disclosed. In one embodiment, the donor substrate includes a base film, a light-to-heat conversion layer formed on the base film, a buffer layer formed on the light-to-heat conversion layer, and a transfer layer formed on the buffer layer. The buffer layer is formed of magnesium (Mg), an Mg alloy, or magnesium oxide. In the donor substrate for laser induced thermal imaging, the buffer layer is formed between the interlayer and the transfer layer or between the light-to-heat conversion layer and the transfer layer, so that surface characteristics between the donor substrate and the transfer layer can be improved. | 04-14-2011 |
| 20110240970 | ORGANIC LIGHT-EMITTING DISPLAY APPARATUS - An organic light-emitting display apparatus is disclosed. The organic light-emitting display apparatus includes a first sub-pixel, a second sub-pixel, and a third sub-pixel, where each of said first, second and third sub-pixels displays a different color, a substrate, a first electrode disposed on the substrate, a second electrode disposed on the first electrode, facing the first electrode, an organic emission layer disposed between the first electrode and the second electrode, including a first organic emission layer, a second organic emission layer, and a third organic emission layer, and an electron acceptor layer disposed between the first electrode and the second electrode configured to contact the organic emission layer, where the first organic emission layer is disposed in the first sub-pixel, the second organic emission layer is disposed in the second sub-pixel, and the third organic emission layer is commonly disposed over the first sub-pixel, the second sub-pixel, and the third sub-pixel, and where the electron acceptor layer is disposed between the first organic emission layer and the third organic emission layer in the first sub-pixel and between the second organic emission layer and the third organic emission layer in the second sub-pixel. | 10-06-2011 |
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| 20110129595 | Deposition source, deposition apparatus having the same, and method of forming thin film - A deposition source includes a first deposition source section, the first deposition source section being configured to store a deposition material, a second deposition source section, the second deposition source section being separate from the first deposition source section and being configured to store the deposition material, the first and second deposition source sections being configured to alternately supply the deposition material while heating or cooling the deposition material, a feed section configured to receive evaporated deposition material from the first and second deposition source sections, and a nozzle section configured to receive the deposition material from the feed section. | 06-02-2011 |
| 20110139357 | MASK, METHOD OF MANUFACTURING MASK AND APPARATUS FOR MANUFACTURING MASK - A method of efficiently manufacturing a large-sized mask is disclosed. In one embodiment, the method includes: 1) providing a first mask member comprising i) a first pattern unit having a plurality of slits, ii) a first buffer unit spaced apart from the first pattern unit, and iii) a first bonding unit interconnecting the first pattern unit and the first buffer unit and 2) providing a second mask member comprising i) a second pattern unit having a plurality of slits, ii) a second buffer unit spaced apart from the second pattern unit, and iii) a second bonding unit interconnecting the second pattern unit and the second buffer unit. The method may further include contacting the first bonding unit and the second bonding unit; and connecting the first mask member to the second mask member while tensile forces are applied to the first mask member and the second mask member. | 06-16-2011 |
| 20110146575 | EVAPORATION SOURCE AND DEPOSITION APPARATUS HAVING THE SAME - An evaporation source is disclosed. In one embodiment, the evaporation source includes: i) a crucible being open on one side thereof and configured to store a deposition material and ii) a nozzle section located on the open side of the crucible and comprising a plurality of nozzles, wherein each of the nozzles has a sidewall configured to spray the deposition material therethrough, wherein the side wall has an inclined portion. The evaporation source also includes i) a heater configured to heat the crucible and ii) a housing configured to accommodate the crucible, the nozzle section, and the heater, wherein the nozzle section has a maximum spray angle less than about 60°. | 06-23-2011 |
| 20110168553 | SPUTTERING SYSTEM - A sputtering system is disclosed. The sputtering system includes: a first sputter unit including: a first deposition material plate, a second deposition material plate, where the first and second deposition material plates face each other, and a first magnetic field generator disposed behind each of the first deposition material plate and the second deposition material plate, configured to generate a magnetic field, a second sputter unit including: a third deposition material plate, disposed next to the first deposition material plate, a fourth deposition material plate, disposed next to the second deposition plate, where the third and fourth deposition material plates face each other, and a second magnetic field generator disposed behind each of the third deposition material plate and the fourth deposition material plate, configured to generate a magnetic field, a first gas supply pipe disposed between the first and third deposition material plates, configured to discharge gas to the second and fourth deposition material plates, a second gas supply pipe disposed between the second fourth deposition material plates, configured to discharge gas to the first and third deposition material plates, a first substrate support unit, configured to support a first deposition substrate, oriented toward outer edges of the first and second deposition material plates, and a second substrate support unit, configured to support a second deposition substrate, oriented toward outer edges of the third and fourth deposition material plates. | 07-14-2011 |
| 20120064728 | SUBSTRATE DEPOSITING SYSTEM AND DEPOSITING METHOD USING THE SAME - A substrate depositing system and a method of using a substrate depositing system. A substrate depositing system includes a load-lock chamber for loading and unloading a substrate, at least one transfer chamber connected to the load-lock chamber and including a substrate transfer device configured to vertically transfer the substrate, and a pair of depositing chambers connected to opposite sides of the at least one transfer chamber and including a depositing source and a pair of substrate fixing devices, the substrate transfer device including a pair of substrate installing members. | 03-15-2012 |
| 20120094025 | Substrate Depositing System and Method - A substrate depositing system comprises a substrate loading chamber for receiving a substrate, a substrate unloading chamber for withdrawing the substrate, at least one process chamber disposed between the substrate loading chamber and the substrate unloading chamber for processing the substrate, and a mask keeping chamber connected to one side of the process chamber(s). A substrate depositing method comprises inputting a substrate into a process chamber, transferring a mask to the process chamber from a mask keeping chamber connected to the process chamber, aligning the substrate and the mask, depositing a depositing material on the substrate while moving a deposition source in the process chamber, and withdrawing the substrate from the process chamber. | 04-19-2012 |
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| 20110141427 | Liquid Crystal Display (LCD) Panel and Method of Manufacturing the Same - A liquid crystal display panel comprises an upper substrate including a plurality of color filters, a lower substrate comprising a plurality of circuit lines, and a sealant for adhering the upper substrate and the lower substrate to each other. A seal area black matrix transmitting ultraviolet (UV) light rays for curing the sealant is formed in the upper substrate. The seal area black matrix is formed by stacking the plurality of color filters in a seal area. | 06-16-2011 |
| 20110285944 | Liquid Crystal Display Device - A liquid crystal display device has a narrow black matrix located outside an effective display region, and comprises: a first substrate; a second substrate facing the first substrate; first conduction lines spaced apart from each other on a surface of the first substrate facing the second substrate; a first insulating layer covering the first conduction lines and formed on the first substrate; second conduction lines spaced apart from each other on the first insulating layer and formed in regions corresponding to intervals of the first conduction lines; a second insulating layer formed on the first insulating layer and covering the second conduction line; a sealant interposed between the second insulating layer and the second substrate, forming a closed loop along edges of the first and second substrates, and overlapping at least a portion of the first and second conduction lines; and a black matrix interposed between the second substrate and the sealant, and overlapping the first and second conduction lines and the sealant. At least one kind of conduction lines selected from the group consisting of first and second conduction lines is formed of a transparent conductive material. | 11-24-2011 |
| 20110317109 | LIQUID CRYSTAL DISPLAY APPARATUS - A liquid crystal display apparatus is disclosed. The liquid crystal display apparatus includes: a plurality of sub-pixels, a first substrate on which at least one first thin film is disposed, a second substrate facing the first substrate and on which at least one second thin film is disposed, a liquid crystal layer disposed between the first substrate and the second substrate, and a spacer unit disposed between the first substrate and the second substrate to maintain a space where the liquid crystal layer is disposed, and continuously formed across at least two sub-pixels from among the plurality of sub-pixels, where the spacer unit includes a contact unit and an isolation unit including a plurality isolation sub-units, where the contact unit is formed to contact the first thin film closest to the liquid crystal layer and the second thin film closest to the liquid crystal layer, where the isolation unit is formed to be spaced apart from the first thin film closest to the liquid crystal layer and to contact the second thin film closest to the liquid crystal layer, and where a distance between the plurality of isolation sub-units and the first thin film closest to the liquid crystal layer is not uniform. | 12-29-2011 |
| 20120037909 | THIN FILM TRANSISTOR ARRAY PANEL AND MANUFACTURING METHOD THEREOF - A thin film transistor array panel includes: a gate line and a storage electrode on a substrate and separated from each other; a gate insulating layer covering the gate line and the storage electrode; a data line crossing the gate line and being on the gate insulating layer; a thin film transistor formed at a crossing region of the gate line and the data line, and including a gate electrode, a source electrode, and a drain electrode; a passivation layer exposing a portion of the drain electrode and formed on the thin film transistor and the data line; and a pixel electrode contacting the drain electrode and overlapping the storage electrode with the gate insulating layer interposed therebetween. | 02-16-2012 |
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| 20100003629 | Substrate firing device - A substrate firing device having an increased contact area between the substrate and substrate support portions, thereby preventing the substrate support portions from generating scratches on the substrate when the substrate expands and contracts due to heating and cooling. By increasing the contact area to the substrate and by using quartz on items that contact the substrate, it is possible to prevent scratches occurring on a substrate, even after an etching process of the substrate, thereby improving quality of the slimmer final product. | 01-07-2010 |
| 20100014807 | LASER BEAM MIXING APPARATUS AND METHOD OF SEALING ORGANIC LIGHT EMITTING DIODE DISPLAY USING THE SAME - A laser beam mixing apparatus to convert a laser beam bundle into a single laser beam having a uniform energy density. The laser beam mixing apparatus includes: a barrel to adjust a distance between a multi-core optical cable and an optical lens included therein, to convert a laser beam bundle into a single beam; and a stage to adjust the position and angle a single-core optical cable with respect to the optical lens, to align the core of the single-core optical cable with the center of the single beam. | 01-21-2010 |
| 20100188794 | Electrostatic chuck and device of manufacturing organic light emitting diode having the same - The present invention discloses an electrostatic chuck sucking and supporting a substrate with an electrostatic force and an OLED manufacturing apparatus having the same. The electrostatic chuck includes an insulating plate having at least one opening penetrating a center thereof, a pair of electrodes mounted on the insulating plate, a first controller applying a voltage to the pair of electrodes, and an electrostatic charge removing unit disposed near the insulating plate and emitting ions into the at least one opening to remove electrostatic charges distributed around a side of the insulating plate. | 07-29-2010 |
| 20110079350 | LASER IRRADIATION SYSTEM AND LASER IRRADIATION METHOD - A laser irradiation system includes a laser beam generator to generate laser beams, a laser beam irradiator to radiate the laser beams onto a target, a laser beam guide to detect whether one of the laser beams is reflected back toward the laser beam irradiator, a detector to convert the reflected laser beam into electrical signal data, and a controller to control the output of the laser beam generator, based on the signal data. | 04-07-2011 |
| 20110080926 | Laser irradiation system - A laser irradiation system includes a laser configured to irradiate light, a laser transfer unit configured to transfer the laser along a target irradiation area, the target irradiation area being divided into a plurality of sections, a laser transfer controller configured to control a speed of the laser in each of the plurality of sections of the target irradiation area, a laser output controller configured to control an output level of the laser in each of the plurality of sections of the target irradiation area, and a main controller configured to control the laser output controller and the laser transfer controller. | 04-07-2011 |
| 20110083788 | SUBSTRATE BONDING APPARATUS AND SUBSTRATE BONDING METHOD - A substrate bonding apparatus includes a vacuum chamber having a bonding space where a first substrate and a second substrates are bonded together, a first pump for sucking air of the bonding space at a first intensity, a second pump for sucking the air of the bonding space at a second intensity greater than the first intensity, a nitrogen supply for supplying nitrogen to the bonding space, a sensor for sensing the pressure of the bonding space; and a controller for controlling the first pump, the second pump, and the nitrogen supply. | 04-14-2011 |
| 20110242021 | FLAT PANEL DISPLAY INTEGRATED TOUCH SCREEN PANEL AND FABRICATION METHOD THEREOF - A structure for forming a touch screen panel directly on an upper substrate of a flat panel display device, and more particularly a touch screen panel integrated flat panel display device in which an insulating layer formed on the touch screen panel is implemented by a spin on glass (SOG layer having stable thermal property suitable for high temperature plastic process of a sealing material for encapsulating the upper substrate and a lower substrate of the flat panel display device, and a method of fabricating the same. | 10-06-2011 |
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| 20100245269 | Organic light emitting display apparatus and method of manufacturing the same - An organic light emitting display apparatus includes a substrate; a display unit formed on the substrate and comprising an organic light emitting device; and a touch panel formed on the display unit, wherein the touch panel further includes a sealing substrate, a ground layer formed on a surface of the sealing substrate, a first pattern layer formed on a surface of the sealing substrate opposite to the surface of the sealing substrate on which the ground layer is formed, a first insulating layer formed on the first pattern layer, a second pattern layer formed on the first insulating layer, and a second insulating layer formed on the second pattern layer. | 09-30-2010 |
| 20110177640 | Method for manufacturing an organic light emitting diode display - A method for manufacturing an organic light emitting diode (OLED) display includes forming a first electrode having different thicknesses corresponding to a first pixel, a second pixel, and a third pixel, forming a first emission layer, a second emission layer, and a third emission layer respectively corresponding to the first pixel, the second pixel, and the third pixel, and forming a second electrode on the first emission layer, the second emission layer, and the third emission layer, wherein forming the first electrodes includes forming a first electrode material layer on the substrate, forming a photoresist pattern having different thicknesses corresponding to the first pixel, the second pixel, and the third pixel, respectively, and etching the first electrode material layer along with the photoresist pattern. | 07-21-2011 |
| 20120001206 | Organic light emitting diode display and fabricating method thereof - An organic light emitting diode display and a fabrication method thereof, the display including a substrate; a thin film transistor on the substrate; and an organic light emitting diode on the substrate, the organic light emitting diode including a pixel electrode, an organic emission layer, and a common electrode, wherein the organic emission layer includes a red (R) pixel, a green (G) pixel, and a blue (B) pixel, the pixel electrode includes a first pixel electrode, a second pixel electrode, and a third pixel electrode that respectively correspond to the red pixel, the green pixel, and the blue pixel, the first pixel electrode, the second pixel electrode, and the third pixel electrode each have different thicknesses, and the first pixel electrode, the second pixel electrode, and the third pixel electrode each include a first hydrophobic layer. | 01-05-2012 |
