| Entries |
| Document | Title | Date |
|---|
| 20080220682 | Panel for flat panel display | 09-11-2008 |
| 20080254702 | APPARATUS FOR ASSEMBLING LAMPS AND METHOD OF ASSEMBLING LAMPS USING THE SAME - An apparatus for assembling lamps that automatically installs lamps into a container includes a lamp arrangement unit including a retaining-stage formed to receive a plurality of lamps, and a lamp press-fitting unit including grippers that holds lamps positioned on the retaining-stage to move lamps, a body press-fitting portion that positions bodies of lamps into a container, and a lead press-fitting portion that positions leads of lamps into the container. A method of assembling lamps uses the apparatus. | 10-16-2008 |
| 20080299859 | SUB-ASSEMBLIES AND PROCESSES FOR THE PRODUCTION OF ELECTRO-OPTIC DISPLAYS - An electrophoretic medium consists of a plurality of discrete droplets ( | 12-04-2008 |
| 20090023354 | METHOD OF MANUFACTURING A LIGHTING BOLLARD ASSEMBLY - The present invention provides methods of manufacturing a bollard light assembly that provides a choice of light output by being size-adaptable depending on the choice of light output. The methods comprise, in pertinent part, selecting an elongated light and interposing a number of lens rings and light deflectors which correspond to the length of the selected elongated light. Also provided is a lighting bollard assembly manufactured according to the methods of the present invention. | 01-22-2009 |
| 20090142983 | FLAT PANEL DISPLAY AND METHOD OF MANUFACTURING THE SAME - A flat panel display and a method of manufacturing the same are disclosed. In one embodiment, the manufacturing method includes: i) preparing a substrate, ii) forming a plurality of subpixels on the substrate and iii) forming a light resonating layer including two or more layers on the subpixels, wherein the light resonating layer varies in thickness depending on the subpixels. According to at least one embodiment, it is possible to improve the brightness and the external light coupling efficiency. Further, it is possible to easily manufacture the light resonating layer with the structure in which the low refractive layers alternate with the high refractive layers. | 06-04-2009 |
| 20090149103 | Plasma display panel and method for manufacturing the same - A plasma display panel (PDP) and the method for manufacturing the same. A method for manufacturing a plasma display panel includes forming electrodes along one direction on a substrate, applying the dielectric paste along the other direction perpendicular to the one direction of the electrodes on the substrate, drying the dielectric paste and firing the dried dielectric paste to form a dielectric layer. Only one swath is needed for the entire dielectric layer, saving time and production costs, while providing a superior quality layer. Accordingly, since the dielectric paste is applied along the direction perpendicular to the longitudinal direction of the display electrodes, it is advantage that tack time and the number of cleaning the nozzle is reduced. | 06-11-2009 |
| 20090197496 | Organic Light Emitting Device, Method of Manufacturing the Same, and Method of Forming Organic Layer - An organic light emitting device that has improved lifespan properties by improving the characteristics of an interface between at least one of a red emissive layer, a green emissive layer or a blue emissive layer, and an electron transport layer, and a method of manufacturing the organic light emitting device. | 08-06-2009 |
| 20090203282 | Gate controlled field emission triode and process for fabricating the same - This invention relates to a process for fabricating ZnO nanowires with high aspect ratio at low temperature, which is associated with semiconductor manufacturing process and a gate controlled field emission triode is obtained. The process comprises providing a semiconductor substrate, depositing a dielectric layer and a conducting layer, respectively, on the semiconductor substrate, defining the positions of emitter arrays on the dielectric layer and conducting layer, depositing an ultra thin ZnO film as a seeding layer on the substrate, growing the ZnO nanowires as the emitter arrays by using hydrothermal process, and etching the areas excluding the emitter arrays, then obtaining the gate controlled field emission triode. | 08-13-2009 |
| 20090215349 | METHOD FOR MANUFACTURING LIGHT-EMITTING DEVICE - A method for manufacturing a light-emitting device includes a first step of forming at least one light-emitting element on a first substrate; a second step of applying a resin adhesive to a first application area that includes an area where the at least one light-emitting element is formed, so as to cover the at least one light-emitting element; a third step of applying a glass frit paste on a surface of the first substrate where the at least one light-emitting element is formed or on a second substrate and also to a second application area that surrounds the area where the at least one light-emitting element is formed; a fourth step of laminating the first substrate and the second substrate; a resin curing step of curing the resin adhesive to bond the first substrate and the second substrate in the first application area and to seal the at least one light-emitting element from an outside; and a glass frit melting step of melting the glass frit paste to bond the first substrate and the second substrate in the second application area. | 08-27-2009 |
| 20090215350 | METHOD OF MANUFACTURING ORGANIC ELECTROLUMINESCENCE DEVICE - There is provided a method of manufacturing an organic electroluminescence device including a plurality of light-emitting elements, The method of manufacturing an organic electroluminescence device according to Claim | 08-27-2009 |
| 20090253330 | Low-Pressure Discharge Lamp And Method For Manufacturing Thereof - A low-pressure discharge lamp having a tubular glass lamp vessel | 10-08-2009 |
| 20090264041 | SERIALLY CONTROLLABLE LED LIGHTING SYSTEMS - A surface-mounted lighting system and method wherein a lamp (e.g., an LED) is mounted within a surface (e.g., a wall, the wall of a pool or spa, a panel, etc.) such that it casts light to one side of the surface. A lighting system of the present invention comprises a) a lens cap/light emitting diode/first connector subassembly and b) a second connector/wire subassembly. A first connector located on the lens cap/light emitting diode/first connector subassembly is connectable to the second connector located on the second connector/wire subassembly such that power may be delivered through the second connector/wire subassembly to the lamp. Thereafter, when it is desired to remove or change the lamp, the first connector is disconnected from the second connector and the entire Lens cap/LED/first connector subassembly may be removed and replaced. In this manner, the lamp may be changed from a front or exposed side surface of a wall in which the lamp is mounted without the need to access wiring that is concealed or enclosed behind or on the opposite side of that wall. | 10-22-2009 |
| 20090280713 | Method of making an integral HID reflector lamp - An integral HID reflector lamp may be formed with an HID held in a reflector. An inner element is mechanically coupled to the reflector. The inner element is formed with a first mechanical coupling to mate with the reflector, a second mechanical coupling to mate with a circuit board, and an electrical coupling to at least electrically couple one of the leads to the circuit board. A circuit board has an edge mechanically coupled to the inner element and electrically connected to the leads by an electrical coupling on the inner element. A heat sink spans at least one side of the circuit board and forming an EMI shielding. An outer cover encloses the heat sink, circuit board, and inner element and coupled to the assembly of the reflector, HID lamp, inner element, and heat sink with each elements of the assembly clipped together. | 11-12-2009 |
| 20100022154 | LIGHT SHADES AND LIGHTING SYSTEMS - Light shades and lighting systems that create a spectral effect when a lighting element is illuminated within the shade, and features that reflect light originating within the shade. Embodiments of the invention incorporate hollow body having a diffraction grating thereon and an internal cavity to retain one or more lighting elements, and in some instances, to also retain one or more lengths of conductor. | 01-28-2010 |
| 20100029165 | Method for Securing a Minature Blub in a Holder - Miniature bulbs are secured in their holders against twisting by first forming holders with tapered cavities smaller at their bottoms than the bulb, then heating the holders to soften them prior to insertion of the bulb. When the bulb is fully seated and the holder has cooled and firmed up, the holder will conform to the exterior shape of the bulb including the irregularities in its surface caused by the bulb formation process. The snug fit of the holder to the irregularities in the bulb resist the twisting of the bulb. | 02-04-2010 |
| 20100048084 | DONOR FILM AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING DEVICE USING SAME - A donor film and a method of manufacturing an organic light emitting device using the donor film. The donor film having a stack structure includes: a first layer comprising first transfer portions comprising a light emitting material of a first color, and first opening portions; a second layer that is formed on the first layer and comprising second transfer portions corresponding to the first opening portion and further comprising a light emitting material of a second color, and second opening portions; and a third layer that is formed on the second layer and comprising third transfer portions corresponding to the first and second opening portions and further comprising a light emitting material of a third color, and third opening portions. | 02-25-2010 |
| 20100048085 | LIGHTGUIDE PLATE AND LIGHTGUIDE PLATE MANUFACTURING METHOD - A film-shaped lightguide plate having high light entrance efficiency and easy to make has a lightguide plate body having an upper surface as a light-exiting surface, a lower surface opposite to the upper surface, and a peripheral side surface extending between the respective peripheral edges of the upper and lower surfaces. A circumferential part of the peripheral side surface forms a light-entrance surface that faces a light source. The lightguide plate further has an additional lightguide portion formed on at least one of the upper and lower surfaces of the lightguide plate body at the light-entrance surface side. The additional lightguide portion has a light-entrance surface facing the light source, together with the light-entrance surface of the lightguide plate body. The additional lightguide portion receives light from the light source through its light-entrance surface and guides the light into the lightguide plate body. | 02-25-2010 |
| 20100087118 | MOUNTING ARRANGEMENT AND METHOD FOR LIGHT EMITTING DIODES - A modular light emitting diode (LED) mounting configuration is provided including a light source module having a plurality of pre-packaged LEDs arranged in a serial array. The module includes a heat conductive body portion adapted to conduct heat generated by the LEDs to an adjacent heat sink. As a result, the LEDs are able to be operated with a higher current than normally allowed. Thus, brightness and performance of the LEDs is increased without decreasing the life expectancy of the LEDs. The LED modules can be used in a variety of illumination applications employing one or more modules. | 04-08-2010 |
| 20100120317 | ARRANGEMENT OF A HEADLAMP SHELL, A SENSOR AND A PROTECTIVE PLATE FOR THE SENSOR IN A VEHICLE - A sensor mounting arrangement for a vehicle has a headlamp shell ( | 05-13-2010 |
| 20100130087 | LED LAMP MANUFACTURING METHOD - An improved LED lamp manufacturing method is described. An LED lamp bulb and a pair of electrical cables are provided. The LED lamp bulb is electrically coupled with the pair of electrical cables. A main body is provided to enclose the LED lamp bulb, wherein the main body consists of a first plastic member and a second plastic member. The first plastic member is coupled with the second plastic member. | 05-27-2010 |
| 20100190407 | METHODS FOR MAKING FIELD EMISSION ELECTRON SOURCE HAVING CARBON NANOTUBE - A method for manufacturing a field emission electron source includes the following steps: (a) providing a pair of conductive bases ( | 07-29-2010 |
| 20100216364 | LED-based white-light lighting module for preventing glare and providing adjustable color temperature - Disclosed is an illuminative module for enhancing the white balance while reducing thermal drift and color blocks. The illuminative module includes a substrate and light-emitting elements provided on the substrate to emitting light of the primary colors and a fourth color, respectively, so that the light of the primary colors is mixed with the light of the fourth color to provide white light. | 08-26-2010 |
| 20100261400 | METHOD FOR CONNECTING A DISCHARGE VESSEL OF A DISCHARGE LAMP TO A TUBE SECTION, ESPECIALLY A PUMP TUBE - A method for connection of a discharge vessel of a discharge lamp to a tubular piece is provided, wherein the discharge vessel is heated at the connection point which is provided with the tubular piece, and the material of the discharge vessel which has been softened at the connection point is torn open such that it rests on the inner face of the tubular piece, and a continuous hole is produced in the discharge vessel. | 10-14-2010 |
| 20100279574 | PAR lamp and method of making same - A method of making a subassembly ( | 11-04-2010 |
| 20100279575 | METHOD AND SYSTEM FOR DYNAMIC IN-SITU PHOSPHOR MIXING AND JETTING - A system and method for depositing a phosphor composition onto a light emitting device improves manufacturing yield, simplifies conventional processes, and decreases costs. For example, a method of dispensing a phosphor composition onto a light emitting device includes dispensing a portion of the phosphor composition onto the light emitting device utilizing a plurality of colored phosphor dispensers each for dispensing a respective type of phosphor. Power is applied to the light emitting device to emit light, and a characteristic the light emitted by the light emitting device is detected. Phosphor mixing and phosphor dispensing are dynamically controlled. Therefore the color characteristics of phosphor dispensed on LEDs are consistent. The system and method may also reduce the difference between detected characteristic of the light and a desired characteristic of the light. | 11-04-2010 |
| 20100317250 | METHOD OF FABRICATING A COLOR BACKLIGHT DEVICE - A color backlight device and fabrication method thereof is provided. A surface conduction emitter display with more than one color serves as the color backlight device. The color backlight device can be used in a liquid crystal display (LCD) to obviate the use of a color filter. The disclosure also provides a color display control method of the LCD and a pixel arrangement method of the color backlight device. | 12-16-2010 |
| 20110014840 | ASSEMBLY METHOD OF A LED LAMP - Simple, rapid and low-cost assembly methods of a LED lamp are provided. A standard lamp base having two electrodes and a cavity is soldered with a resistor to the first one of the electrodes, and then filled with a thermally conductive electric insulator in the cavity. A circuit board is attached onto the thermally conductive electric insulator and then soldered to the second electrode and the resistor. An LED device is soldered onto the circuit board such that the LED device and the resistor are serially connected between the electrodes. Preferably, the circuit board has a through hole through which a thermally conductive member is inserted into the thermally conductive electric insulator with its lower end, and the LED device is placed onto the upper end of the thermally conductive member. | 01-20-2011 |
| 20110034101 | Method for manufacturing light set with surface mounted light emitting components - A method for manufacturing a light set with surface mounted light emitting components is disclosed. A rod having a predetermined length and a winding control architecture with corresponding driving spindles are prepared first. The rod is driven to rotate by a winding machine via driving spindles to wind conducting wires. The insulating layer of each conducting wire is then ground along an axial direction of the rod to expose the conductor of each conducting wire to form contact-pad area. A conductive paste is applied to each contact-pad area, and the surface mounted light emitting components are straddled thereon. Each lead of the surface mounted light emitting components is respectively positioned corresponding to the contact-pad areas, and is electrically connected to the conductors by the conductive paste. The contact-pad areas and the surface mounted light emitting component are then covered with a package. | 02-10-2011 |
| 20110039471 | PHOSPHOR HOUSING FOR LIGHT EMITTING DIODE LAMP - A light emitting apparatus includes a housing having a transparent bulb with phosphor, and at least one LED positioned within the housing to excite the phosphor and emit light through the transparent bulb. | 02-17-2011 |
| 20110076908 | LAMP ELECTRODE AND METHOD OF FABRICATING THE SAME - A lamp electrode includes a sealed tube for generating light when powered by an external power supply and a pair of electrodes formed on the ends of the sealed tube. Solder is filled into the space between each electrode and the sealed tube, and formed on the surface of the exterior surface of the electrodes. A method for forming the lamp electrode includes forming a cylindrically shaped electrode on an end of a sealed tube; maintaining a supply of solder in the liquid state; and dipping the end of the tube on which the electrode is formed into the solder. | 03-31-2011 |
| 20110124259 | METHOD AND APPARATUS FOR MANUFACTURING LIGHT SOURCE - An apparatus for manufacturing a light source and a method therefor are provided that enables a high efficient light source to be manufactured even when an optical element whose characteristic significantly varies is used. After maintaining temperatures of a laser device and a wavelength conversion element at a temperature where an output of light emitted from each of the device and the element is equal to or greater than a predetermined rate of the maximum output, the laser device and the wavelength conversion element whose temperatures have been maintained are joined together so that the output of the light emitted from the wavelength conversion element is equal to or greater than a predetermined value. | 05-26-2011 |
| 20110130064 | METHOD FOR FABRICATING ALTERNATING-CURRENT LIGHT-EMITTING-DIODE PACKAGE DEVICE - The present invention discloses a method for fabricating an AC LED package device, which comprises steps: providing a plurality of LED modular chips each having a plurality of LEDs in same polar direction in series; connecting forward and reversely the LED modular chips with a wire-bonding method to form an AC LED package device; and connecting the AC LED package device with an AC power source. In the present invention, the LED modular chips, each of which have LEDs all connected in same polar direction, are used to form an AC LED package device. Therefore, the present invention is using less-complicated photomasks compared with prior art. Accordingly, the present invention simplifies the process, promotes the yield and lowers the cost. | 06-02-2011 |
| 20110237148 | METHOD FOR MAKING FIELD EMISSION CATHODE DEVICE - A method for making a field emission cathode device is presented. First, an insulative substrate is provided. The insulative substrate includes a first surface and a second surface opposite to the first surface. The insulative substrate defines a number of openings extending through from the first surface to the second surface. Second, at least one electron emitter is provided corresponding to each of the number of openings. The electron emitter includes a fixing portion and an electron emission portion connecting to the fixing portion. The fixing portion is fixed on the first surface, and the electron emission portion extends from the fixing portion into the number of openings. Third, a number of cathode electrodes are formed on the first surface to fix the fixing portion between the insulative substrate and the cathode electrodes. | 09-29-2011 |
| 20110281490 | LAMP AND METHOD OF MANUFACTURING SAME - A lamp including a plurality of light emitting devices and heat sinks can be configured to dissipate heat generated by the plurality of light emitting devices. The heat sinks can be branched into a generally Y-shaped configuration as viewed in a section that includes a primary optical axis of the vehicle lamp. One of the light emitting devices is connected to one of the branched parts of the heat sinks. Another light emitting device is connected to the other branched part of the heat sinks. | 11-17-2011 |
| 20120135660 | FABRICATION OF FUNCTIONAL DEVICE MOUNTING BOARD MAKING USE OF INKJET TECHNIQUE - An apparatus for fabricating a functional device mounting board comprises a holder for holding a substrate on which functional devices are to be formed, a jet head for ejecting a droplet containing a functional material onto the substrate, and a data input unit for supplying droplet ejection information to the jet head. The jet head ejects the droplets onto the substrate based on the droplet ejection information so as to form the functional device in the functional device forming area. The functional device is formed by allowing a volatile ingredient of the droplet, while allowing a solid component of the droplet to remain on the substrate. | 05-31-2012 |
| 20120276800 | PHOTOLUMINESCENT SLEEVE - An elongate tube formed from a composite material comprising a polymer and a photoluminescent material has a cylindrical wall that defines an arc of between about 180 degrees and 360 degrees or greater. An elongate opening is defined in the wall along the length of the tube. The wall of the tube is flexible which permits the opening to be manually enlarged to enable the tube to be mounted over an electric light source. The wall is configured to approximate the outer dimensions of the light source which retains the tube on the light source. The photoluminescent material in the tube wall is energized by the light source and emits sufficient light for a period of time if the electricity to the light source is temporarily interrupted. | 11-01-2012 |
| 20130005210 | MANUFACTURING METHOD OF LIGHT EMITTING DEVICES - A manufacturing method of light emitting devices, comprises a substrate-forming step of forming a planar-shaped substrate, a frame-forming step of forming a closed frame on the substrate, an element-mounting step of mounting multiple light emitting elements in an inside of the frame, a sealing step of injecting a liquid material that is to be a sealing member to the inside of the frame so as to seal the multiple light emitting elements, and a dividing step of dividing the multiple light emitting elements together with the substrate and the sealing member so as to obtain multiple light emitting devices with the sealing member exposed from a side surface thereof. | 01-03-2013 |
| 20130189893 | METHOD FOR DISASSEMBLING PLASMA DISPLAY DEVICE - The present disclosure relates to a method for disassembling a plasma display device including PDP ( | 07-25-2013 |
| 20130225030 | METHOD FOR DISASSEMBLING PLASMA DISPLAY DEVICE - The present disclosure relates to a method for disassembling a plasma display device including PDP ( | 08-29-2013 |
| 20130295814 | FABRICATING MEHTOD OF GAS BARRIER SUBSTRATE, ORGANIC ELECTRO-LUMINESCENT DEVICE AND PACKAGING METHOD THEREOF - A gas barrier substrate including a first gas barrier layer, a substrate, and a second gas barrier layer is provided. The first gas barrier layer has a central bonding surface bonded with the substrate and a peripheral boding surface surrounding the central bonding surface. The second gas barrier layer entirely covers the substrate and the first gas barrier layer. The second gas barrier layer is bonded with the substrate and the peripheral boding surface of the first gas barrier layer, wherein a minimum distance from an edge of the substrate to an edge of the first gas barrier layer is greater than a thickness of the first gas barrier layer. | 11-07-2013 |
| 20130303044 | MANUFACTURING METHOD OF PLANAR LIGHT SOURCE - There are provided a plane light source and an LCD backlight unit having the same. A plane light source having a plurality of light emitting devices arranged in a light emitting device matrix having rows and columns at a substrate according to an aspect of the invention includes a first matrix having a plurality of light emitting devices arranged in rows and columns; and a second matrix having a plurality of light emitting devices arranged in rows and columns, each of the light emitting devices located within a quadrangle formed by four neighboring light emitting devices included in the first matrix, wherein a pitch S between one light emitting device included in the light emitting device matrix and another light emitting device most adjacent to the one light emitting device satisfies the following equation to obtain uniform luminance distribution at a position distant from a light emitting surface of the light emitting device by an optical length l, | 11-14-2013 |
| 20130337719 | PHOSPHOR-COATED LIGHT EXTRACTION STRUCTURES FOR PHOSPHOR-CONVERTED LIGHT EMITTING DEVICES - A conformal thin-film phosphor layer is disposed over a surface of a hemispherical lens, a Fresnel lens, or a microlens array, thereby forming a phosphor-coated light extraction structure. Also disclosed is a phosphor-converted photonic crystal light emitting device that incorporates a thin-film phosphor layer. A wafer-level packaging process incorporating a thin-film phosphor layer is also disclosed herein. | 12-19-2013 |
| 20140141681 | ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to an organic light emitting device and a manufacturing method thereof. The present invention discloses an organic light emitting device including: a plurality of scanning signal lines; a first and second contact assistant; a plurality of data lines crossing the scanning signal lines; a driving voltage line; and a first pixel, a second pixel, and a third pixel alternately arranged, wherein each pixel includes: a switching transistor, a driving transistor including an output terminal, a pixel electrode connected to the output terminal, the pixel electrode including at least two layers including a transflective electrode, an organic light emitting member arranged on the pixel electrode, and a common electrode arranged on the organic light emitting member, wherein the first pixel further includes a supplementary member arranged on the pixel electrode, and wherein the first and second contact assistants include the same material as the supplementary member. | 05-22-2014 |
| 20180024645 | METHOD AND SYSTEM FOR ASSEMBLING BACKLIGHT MODULE | 01-25-2018 |
