Entries |
Document | Title | Date |
20080203894 | DISPLAY DEVICE - The purpose of the invention is to improve the mass productivity of display devices by using a glass substrate that prevents the degradation of an electrode caused by glass of the display device. The present invention provides a flat panel display device containing at least two substrates and a light emitting part provided between the two substrates, wherein at least one substrate of the two substrates contains SiO | 08-28-2008 |
20080211380 | Scanning Field Emission Display - Provided is a scanning field emission display (SFED). The SFED includes an electron emitter and a module for inducing electron emission of the electron emitter and deflecting an electron beam. A multi-SFED may be realized as a large-sized thin and flat display by arranging in an n×m array. | 09-04-2008 |
20080211381 | APPARATUS OF LIGHT SOURCE - An apparatus of light source includes a cathode structure, an anode structure, a fluorescent layer, a secondary electron generating layer, and a low-pressure gas layer. The fluorescent layer is located between the cathode structure and the anode structure. The low-pressure gas layer is filled between the cathode structure and the anode structure. The secondary electron generating layer is located on the cathode structure. The secondary electron generating layer can generate additional secondary electrons to hit the fluorescent layer for improving the performance of the light source. | 09-04-2008 |
20080211382 | Image display device - The present invention achieves a desired white color temperature without deteriorating white uniformity and without lowering brightness in a field emission display (FED). A width of a green phosphor is set larger than a width of a red phosphor or a width of a blue phosphor and, at the same time, a distance between the center of the red phosphor and the center of the green phosphor is set larger than a distance between the center of the blue phosphor and the center of the red phosphor. Due to such a constitution, black matrix widths between the respective phosphors are set to a fixed value. Simultaneously, positions of electron sources are set in conformity with the positions of the respective phosphors. Due to such a constitution, it is possible to realize a desired white color temperature without deteriorating landing tolerance of electron beams or without lowering a utilization efficiency of a phosphor screen. | 09-04-2008 |
20080211383 | Flat display, method for manufacturing same and displacement prevention member for use in the flat display - A displacement prevention member of a flat display includes attachment surfaces respectively attached to inner surfaces of first and second substrates forming an airtight vessel of the flat display; and a bending part between the attachment surfaces. The bending part is bent in one direction on a plane perpendicular to the pressing direction of pressure applied in the perpendicular direction to inner surfaces of the substrates. | 09-04-2008 |
20080211384 | Field Emission Display and Glass Frit - Constituent elements of a glass frit for fixing spacers propagate along the spacers and migrate to electron emitters to deteriorate the electron emitters, and thereby silhouetting shadows of the spacers on a screen are suppressed. In an image display which is equipped with a rear substrate provided on its inner surface with electron emitters, a front substrate facing the rear substrate, provided on its inner surface with a phosphor pattern having an array corresponding to the electron emitters, and having an outer surface serving as a display surface, and in which a gap between the substrates is held by glass-made spacers, propagation along the spacers and migration to the side of the electron emitters of the constituent elements of the glass frit for fixing spacers is prevented by fixing oxide crystal particles on the spacer surface, or by fixing at least a part of the spacer to the front panel by an adhesive layer comprising a conductive glass a part of which is crystallized. | 09-04-2008 |
20080231165 | FLAT PANEL DISPLAY - A flat panel display to maintain resistance of lines at the same level to reduce a luminance difference between the lines includes a plurality of electrodes and a plurality of lead lines to respectively connect a plurality of pads to the plurality of electrodes. The lead lines are formed in a parallelogram shape in which resistivity and line width are the same for each, and a length L and a line width W of each lead line are selected such that a value obtained by dividing the length L by the line width W may satisfy an equation of | 09-25-2008 |
20080278058 | METHOD FOR MANUFACTURING AIRTIGHT CONTAINER, METHOD FOR MANUFACTURING IMAGE DISPLAY APPARATUS, AND AIRTIGHT CONTAINER AND IMAGE DISPLAY APPARATUS - There are disclosed methods for manufacturing an airtight container and an image display apparatus. Especially, as a constitution of supplying a potential to an electrode in the airtight container, the container is constituted which includes a structure having a concave portion opened at a through-hole of a substrate and closed at the bottom, and a shape is formed in which by applying a pressure difference between the inside and the outside of the container, the structure is deformed to enable supplying of a potential to the electrode. | 11-13-2008 |
20080278059 | ELECTRON-EMITTING DEVICE, ELECTRON SOURCE, IMAGE DISPLAY APPARATUS AND METHOD FOR MANUFACTURING ELECTRON-EMITTING DEVICE - An electron-emitting device of the present invention has an electron-emitting film, and the electron-emitting film is composed of a first layer made of a first material, and a plurality of particles made of a second material whose electric resistivity is lower than that of the first material and provided into the first layer. The first material contains oxygen and nitrogen. A method for manufacturing the electron-emitting device according to the present invention has a step of forming the electron-emitting film, and the electron-emitting film forming step includes a step of forming the plurality of particles made of a second material whose electric resistivity is lower than that of a first material into the first layer made of the first material containing oxygen and nitrogen. | 11-13-2008 |
20080284307 | METHOD FOR DRIVING CATHADE OF FIELD EMISSION DISPLAY AND STRUCTURE OF THE SAME - A field emission display includes a cathode plate and an anode plate. The anode plate is provided with an anode unit thereon. The cathode plate is provided on a cathode substrate with two electrodes that are located in a common plane and separated from each other to correspond to a common anode unit. Cathode electron-emitters are provided on the two electrodes respectively. A reverse voltage is applied to the two electrodes alternately, causing the alternation of the positive and negative voltages between the two electrodes. As a result, the two electrodes form a gate and an emitter alternately based on the applied positive or negative voltage. Therefore, the cathode electron-emitter provided on the coplanar electrodes will generate electron beams alternately. | 11-20-2008 |
20080290780 | IMAGE DISPLAY APPARATUS - A carbon film is coated over the surface of a spacer. The carbon film has the following three features when the binding state of carbon is analyzed by X-ray photoelectron spectroscopy: (a) an integral area of a region of 284.5 eV or below is 27% or less of an integral area attributed to carbon, (b) an integral area of a region of 286.0 eV-287.0 eV is 18% or less thereof, and (c) an integral area of a region of 287.0 eV or above is 9% or more thereof. | 11-27-2008 |
20080290781 | Emissive Display Apparatus - There is disclosed a display apparatus using a long-lived MIM electron source that is excellent in grayscale controllability. In a device including an MIM dielectric layer having a film thickness of 9.6 nm, the diode current Id rises exponentially from around 4.8 V together with the voltage. The emission current Ie rises exponentially from 4.7 V. That is, VthIe11-27-2008 | |
20080290782 | Field emission display having an improved emitter structure - A field emission display (FED) is provided. The FED has an emitter structure where the emitter, a conductor and a cathode electrode are so arranged to produce a certain electric field about the emitter. The electric field about the emitter causes the electron beam emitted from the emitter to have improved focus and have less dispersion. This causes the electron beam to hit the intended pixel without exciting phosphor layers in neighboring pixels, thus improving image quality. | 11-27-2008 |
20080297025 | PLANE EMISSIVE CATHODE STRUCTURE OF FIELD EMISSION DISPLAY - In a plane emissive cathode structure of a field emission display having a common plane structure, a cathode plate includes a cathode substrate, and a plurality of cathode units on the cathode substrate, and the cathode unit includes an emitter layer, a gate electrode layer and a dielectric layer. The emitter layer and the gate electrode layer are disposed on a common plane of the cathode substrate and separated with each other to form an interval. The dielectric layer is formed in the interval between the emitter layer and the gate electrode layer, but not connected to the interval between the emitter layer and the gate electrode layer, so as to change the electric field distribution of the emitter layer and the gate electrode layer. | 12-04-2008 |
20080297026 | APPARATUS OF FIELD EMISSION LIGHT SOURCE - An apparatus of the field emission light source having a luminous area and a non-luminous area includes a first plate, a second plate, cathode structures, gate structures, emission sources, an anode layer, a fluorescent layer, a getter, a retaining device and a sealant. The cathode structures are disposed in the luminous area and on the first plate. The emission sources are disposed on the cathode structures. The anode layer is disposed on the second plate. The fluorescent layer is disposed on the anode layer. The getter is disposed in the non-luminous area and on one of the first and the second plates. The retaining device is disposed between the luminous area and the non-luminous area. The sealant is sandwiched between the first plate and the second plate. When activating the getter, the retaining device can prevent metal ions gushed from the getter from entering the luminous area. | 12-04-2008 |
20080303405 | Electrode for the source of field emitting electrons and a panel and a lighting apparatus thereof - The present invention relates to an electrode for a source of field emitting electrons and a lighting panel and a lighting apparatus thereof. A plurality of conductive emitters made from a combination of an electrical emitting source material and an electrical conductive material is formed on a cathode plate. Therefore, the conductive emitter can be a cathode, a gate and a field emitting electric source as well to simplify the structure and the process, and improve the brightness and uniformity thereof. | 12-11-2008 |
20080303406 | Image Display Device and Manufacturing Method of the Same - The present invention provides an image display device which can lower the resistance of scanning signal lines, can ensure the enhancement of reliability of supply of electricity and conductivity and the reliability of separation of elements, can exhibit excellent display characteristic, and can possess an extremely prolonged lifetime. The scanning signal line has the stacked film structure constituted of a lower layer film formed of an aluminum film and an upper layer film formed of an aluminum alloy film containing aluminum as a main component. | 12-11-2008 |
20090009053 | FIELD EMISSION DEVICE ARRAY SUBSTRATE AND FABRICATING METHOD THEREOF - A fabricating method of a field emission device array substrate is provided, which includes the following steps. First, a substrate is provided. Then, a cathode conductive layer is formed on the substrate. Moreover, an anodized layer with a plurality of holes is formed on the cathode conductive layer. Thereafter, a plurality of electron emitters is formed within the holes respectively. Additionally, an insulation layer is formed to cover the electron emitters and the anodized layer. Then, a gate material layer is formed on the insulation layer. Thereafter, the gate material layer is patterned to form a gate layer. The gate layer and the insulation layer have an opening to expose the electron emitters. | 01-08-2009 |
20090015132 | LEADING MEANS OF ELECTRODE LEADS OF FIELD EMISSION DISPLAY - A leading means of electrode leads of a field emission display includes a cathode plate, an anode plate and a package side frame. The cathode plate is combined with the anode plate correspondingly. The cathode plate has a cathode substrate. The cathode substrate is provided thereon with a cathode conductive layer. The anode plate has an anode substrate. The anode substrate is provided with an anode conductive layer thereon. Further, the package side frame is provided between the cathode substrate and the anode substrate. A lead plate extends from one side of the package side frame. Both end faces of the lead plate are provided with a plurality of electrode leads, and a conductive layer is provided between the electrode leads and the cathode/anode substrate to electrically connect with the cathode/anode conducting layer, respectively. The extending lead plate electrically guides the electricity of the cathode conductive layer and the anode conductive layer to the outside, thereby connecting to other power supply. | 01-15-2009 |
20090039759 | Phosphor for Display and Field Emission Display - Disclosed is a phosphor for displays which is characterized by being composed of a europium-activated thiogallate phosphor represented by the following chemical formula: SrGa | 02-12-2009 |
20090051266 | Light-Emitting Device - An electron emitting source | 02-26-2009 |
20090051267 | Fabrication method for carbon fiber, carbon fiber electron source, and field emission display device - A fabrication method for carbon fiber which can prevent abnormal growth from electrode wiring metal, and can be formed a carbon nano-tube with high-density and uniform, by a simple and cheap method and the fabrication method includes process steps: forming a cathode electrode on a substrate; forming a first insulating film on the cathode electrode; forming a gate electrode on the first insulating film; forming a hole which reaches to the cathode electrode surface into the first insulating film; forming a catalyst crystallite nucleus on a bottom of the hole; oxidized forming a second insulating film on the gate electrode surface; and forming a carbon nano-tube on the catalyst crystallite nucleus; a carbon fiber electron source of high-output current density; and FED device which has high-intensity and large capacity with high current density, are provided. | 02-26-2009 |
20090066216 | FIELD EMISSION LIGHT SOURCE - A field emission light source includes a foundation, a supporting member, a transparent shell, an anode, and a cathode. The transparent shell is disposed on the foundation, and thus defines a closed space in the transparent shell. The supporting member includes a first end and a second end opposite to the first end. The first end is connected to the foundation, and the second end is disposed at a center portion of the closed space. The cathode includes a plurality of carbon nanotubes. The cathode is disposed on the second end of the supporting member. | 03-12-2009 |
20090085459 | PROTECTIVE LAYER FOR CORROSION PREVENTION DURING LITHOGRAPHY AND ETCH - Forming a protective layer such as chromium, chrome alloys, nickel or cobalt as a cap over an aluminum film protects an underlying ITO layer from corrosion during the fabrication of flat panel displays such as field emission devices and the like. The presence of the protective layer during fabrication processes such as photolithography prevents diffusion of solutions through the aluminum into the ITO. This protective layer is especially effective during the development and resist stripping stages of photolithography which use solutions or solvents that would otherwise cause reductive corrosion of ITO in contact with aluminum. The methods and apparatus described herein are particularly advantageous for the fabrication of flat panel displays such as field emission devices and other display devices, because ITO is often used in such devices in contact with aluminum while exposed to corrosion-inducing media. | 04-02-2009 |
20090091237 | FLUOROPHOR AND METHOD FOR PRODUCTION THEREOF AND ILLUMINATOR - A fluorophor which comprises as a main component, an α type sialon crystal containing at least Li, A element (wherein A represents one or more elements selected from among Mn, Ce, Pr, Nd, Sm, Eu, Tb, Dy, Er, Tm and Yb), M element (wherein M represents one or more metal elements except Li and the A element), Si, Al, oxygen and nitrogen. The fluorophor has an a type sialon crystal structure which is represented by the general formulae: (Li | 04-09-2009 |
20090115309 | Pixel element for field emission display - A pixel element for field emission display includes a sealed container having a light permeable portion, an anode, a cathode, a phosphor layer formed on an end surface of the anode, and a CNT string electrically connected to and in contact with the cathode with an emission portion of the CNT string suspending. The phosphor layer is opposite to the light permeable portion, and the emission portion is corresponding to the phosphor layer. Some of CNT bundles in the CNT string are taller than and project over the adjacent CNT bundles, and each of projecting CNT bundles functions as an electron emitter. The anode, the cathode, the phosphor layer and the CNT string are enclosed in the sealed container. The luminance of the pixel element is enhanced at a relatively low voltage. | 05-07-2009 |
20090121613 | Method for producing carbon nanotube assembly, carbon nanotube assembly, catalyst particle dispersed film, electron emitting element, and field emission display - A method for producing a carbon nanotube assembly, the method controlling a growth density of carbon nanotubes on a substrate, includes: a step for preparing a catalyst particle dispersed film-formed substrate including a catalyst particle dispersed film in which metal catalyst particles having a predetermined particle diameter are dispersed among barrier particles; and a thermal CVD step for growing carbon nanotubes from the metal catalyst particles serving as starting points by heat decomposition of an organic compound vapor. | 05-14-2009 |
20090134772 | Color field emission display having carbon nanotubes - A color field emission display includes a sealed container having a light permeable portion and at least one color element enclosed in the sealed container. The color element includes a cathode, at least two anodes, at least two phosphor layers and at least two CNT strings. The phosphor layers are formed on the end surfaces of the anode. The CNT strings are electrically connected to and in contact with the cathode with the emission portion thereof suspending. The phosphor layers are opposite to the light permeable portion, and one emission portion is corresponding to one phosphor layer. The luminance of the color FED is enhanced at a relatively low voltage. | 05-28-2009 |
20090134773 | Color pixel element for field emission display - A color pixel element for field emission display includes a sealed container having a light permeable portion, at least two anodes, a cathode, at least two phosphor layers formed on the end surfaces of the anodes, and at least two CNT strings electrically connected to and in contact with the cathode with the emission portions of the CNT strings suspending. The phosphor layers are opposite to the light permeable portion, and one emission portion is corresponding to one phosphor layer. In each CNT string, some of CNT bundles are taller than and project over the adjacent CNT bundles, and each of projecting CNT bundles functions as an electron emitter. The anodes, the cathode, the phosphor layers and the CNT strings are enclosed in the sealed container. The luminance of the color pixel element is enhanced at a relatively low voltage. | 05-28-2009 |
20090140629 | Cathode planes for field emission devices - A substrate | 06-04-2009 |
20090153020 | IMAGE DISPLAY APPARATUS - In the image display apparatus using the electron-emitting device, wiring metal is prevented from being diffused to a fine particle when a fine particle dispersed film is disposed on the wiring, and the image characteristic is prevented from being degraded because of the diffusion. A first wiring | 06-18-2009 |
20090160312 | Field Emission display device - A field emission device includes an insulating substrate, one or more grids located on the insulating substrate. Each grid includes a first, second, third and fourth electrode down-leads and an electron emitting unit. The first, second, third and fourth electrode down-leads are located on the periphery of the grid. The first and the second electrode down-leads are parallel to each other. The third and the fourth electrode down-leads are parallel to each other. The electron emitting unit includes a first electrode, a second electrode and at least one electron emitter. The first electrode is electrically connected to the first electrode down-lead, and the second electrode is electrically connected to the third electrode down-lead. One end of the electron emitter is connected to the second electrode and an opposite end of the electron emitter is spaced from the first electrode by a predetermined distance. | 06-25-2009 |
20090160313 | LIGHT-EMITTING SUBSTRATE AND DISPLAY APPARATUS USING THE SAME - A light-emitting substrate includes a substrate, a plurality of light-emitting members arranged on the substrate in a matrix pattern, a partition arranged between respective adjacent ones of the plurality of light-emitting members and projecting relative to a surface of the substrate to a position higher than the light-emitting members, a plurality of conductors each covering at least one of the light-emitting members and arranged in a matrix pattern in a mutually spaced relation, and a resistor electrically interconnecting the plurality of conductors. The resistor has a column stripe portion extending in a column direction, and the column stripe portion is positioned on the partition. | 06-25-2009 |
20090167146 | WHITE-LIGHT FLUORESCENT LAMP HAVING LUMINESCENCE LAYER WITH SILICON QUANTUM DOTS - A structure is formed by putting glass plates between a luminescence generating device and an electron emitting device so that a vacuum is formed in between. After in putting a high-voltage, an electron beam is emitted from the electron emitting device using low power. In the end, silicon quantum dots in the luminescence generating device are excited to generate a white light. The present invention has a good optoelectronic transformation efficiency. | 07-02-2009 |
20090212682 | IMAGE DISPLAY APPARATUS - An image display apparatus includes a rear plate having a plurality of electron-emitting devices, a face plate having a plurality of pixels, each pixel having one or more phosphors that emit fluorescence in response to electrons emitted from the electron-emitting devices, and a drive circuit for driving the electron-emitting devices. At least one of the phosphors is CaAlSiN | 08-27-2009 |
20090236965 | Field emission display - A field emission device includes a transparent plate, an insulating substrate, one or more grids located on the insulating substrate. Each grid includes a first, second, third and fourth electrode down-leads and a pixel unit. The first, second, third and fourth electrode down-leads are located on the periphery of the grid. The first and the second electrode down-leads are parallel to each other. The third and the fourth electrode down-leads are parallel to each other. The pixel unit includes a phosphor layer, a first electrode, a second electrode and at least one electron emitter. The first electrode and the second electrode are separately located. The first electrode is electrically connected to the first electrode down-lead, and the second electrode is electrically connected to the third electrode down-lead. The phosphor layer is located on the corresponding first electrode. | 09-24-2009 |
20090236966 | LIGHT-EMITTING SUBSTRATE, IMAGE DISPLAY APPARATUS, AND INFORMATION DISPLAY AND REPRODUCTION APPARATUS USING IMAGE DISPLAY APPARATUS - To suppress discharge around an anode electrode. Provided is a light-emitting substrate, including a light-emitting member for emitting light by irradiation with an electron, a first electroconductive film stacked on the light-emitting member, a second electroconductive film which is distant from an outer periphery of the first electroconductive film and surrounds the outer periphery of the first electroconductive film, and a dielectric film for covering an end portion of the second electroconductive film which is opposed to the outer periphery of the first electroconductive film. | 09-24-2009 |
20090251043 | Coatings for Spacers in Emission Displays - A resistive spacer coating for a carbon nanotube (CNT)/field emission device (FED) display is described. The resistive spacer coating reduces electrostatic charging of the spacer during operation of the display while maintaining the field potential between the cathode and the phosphor screen. The resistive coating includes one or more resistive materials which are combined with binders that are then applied to the spacer. | 10-08-2009 |
20090284126 | Vacuum Electronic Devices and Cavities and Fabrication Methods Therefor - The present invention relates to the formation of a vacuum electronics circuit by the fusion bonding of multiple substrate wafers, e.g., silicon, copper, or other suitable conductive material, each etched using DRIE, cut using EDM, or machined by other suitable means. Other aspects of the invention relate to the alignment of a cathode with tube by fusion bonding the cathode wafer to a tube built using the fabrication methods described herein. Yet other aspects involve the alignment of dies or wafers during the fabrication of a vacuum electronics device using the “lego” technique outlined herein. In yet other aspects, fabrication methods are described. | 11-19-2009 |
20090284127 | ELECTRON-EMITTING DEVICE AND IMAGE DISPLAY APPARATUS - An electron-emitting device has a pair of device electrodes formed on a substrate and an electroconductive film connected to the device electrodes. The electroconductive film has a first gap between the device electrodes and has a carbon film having a second gap at least in the first gap. The substrate is formed by stacking a nitrogen-contained activation suppressing layer and an activation accelerating layer having a nitrogen containing ratio smaller than that of the activation suppressing layer onto a base and has nitrogen containing ratio distribution in the activation suppressing layer in a film thickness direction. The nitrogen containing ratio of the activation suppressing layer at the activation accelerating layer side is smaller than that at the base side. | 11-19-2009 |
20090322206 | ELECTRON-EMITTING DEVICE, METHOD OF MANUFACTURING THE SAME, ELECTRON SOURCE, AND IMAGE DISPLAY APPARATUS - Provided is an electron-emitting device which is excellent in electron-emitting efficiency, and may obtain a large electron-emitting amount and stable electron-emitting characteristics. The electron-emitting device includes: a first conductive film and a second conductive film which are provided through a first gap; first carbon films connected to the first conductive film; and second carbon films which are connected to the second conductive film, and are opposed to the first carbon films through second and third gaps. Continuous concave portions are provided in the second and third gaps. | 12-31-2009 |
20090322207 | LIGHT-EMITTING SCREEN AND IMAGE DISPLAYING APPARATUS - To prevent deterioration of an image based on a halation phenomenon due to secondary reflected electrons at the top of a rib member provided between light-emitting members for interrupting reflected electrons, an aperture portion for capturing the secondary reflected electrons is provided at a portion, positioned between the light-emitting members, on the rib member for separating the light-emitting members. | 12-31-2009 |
20100001630 | IMAGE DISPLAYING APPARATUS - To simultaneously suppress halation and discharging current flowing in the unlikely event of discharge, and easily perform potential regulating for a spacer, an image displaying apparatus comprises: a rear plate having electron-emitting devices arranged in matrix; a face plate having a substrate, light-emitting members arranged in matrix on the substrate, metal backs each covering at least one member and mutually arranged in matrix at gaps, ribs having first striped portions respectively positioned among the members and protruding toward the rear plate, and a resistive wiring including a resistor between the substrate and the ribs and electrically connecting the metal backs, and positioned oppositely to the rear plate; and a spacer positioned between the rear plate and the ribs to mutually support the rear and face plates, wherein the rib has a spacer connection wiring abutting against the spacer, and the spacer connection wiring is electrically connected to the resistive wiring. | 01-07-2010 |
20100007265 | ANODE CAP, AND VOLTAGE SUPPLY UNIT AND IMAGE DISPLAY APPARATUS UTILIZING THE SAME - An image display apparatus includes a display panel having an anode and an anode terminal, wherein the anode is disposed at an inside of the display panel, the anode terminal applies a voltage to the anode from an outside of the display panel and includes a portion disposed inside of the display panel and a portion disposed outside of the display panel, and an anode cap attached on an external surface of the display panel for holding an electroconductive wire applying a voltage to the anode terminal. In addition, a fixing member detachably fastens the anode cap, wherein the fixing member has a through hole in which the portion of the anode terminal disposed outside of the display panel is inserted, and the fixing member is fixed to an external surface of the display panel. The anode cap has inside thereof a fastening portion to be detachably fastened by the fixing member. | 01-14-2010 |
20100019652 | ELECTRON EMISSION DEVICE AND LIGHT EMISSION DEVICE INCLUDING THE SAME - An electron emission device includes a substrate; first electrodes on the substrate and spaced apart from each other in a first direction; a second electrode electrically insulated from the first electrodes and extending in a second direction crossing the first direction; and electron emitters located on sides of each of the first electrodes. | 01-28-2010 |
20100039022 | TRICHROMATIC FIELD-EMISSION DISPLAY AND PHOSPHORS THEREOF - A trichromatic field-emission display is disclosed to include a cathode plate, three cathode electroluminescent phosphor screens and an anode plate, the anode plate having a transparent oxide thin film bonded to the photo gate electrode thereof, electron sources emitted by the photo gate electrode of the cathode plate striking the cathode electroluminescent phosphor screens to cause change of the electric field in the gap between the cathode plate and the anode plate. The cathode electroluminescent phosphor screens are made of an excitable rare earth element, assuring high stability and uniformity of luminous brightness when excited by an electron beam. | 02-18-2010 |
20100052510 | LIGHT EMITTER SUBSTRATE AND IMAGE DISPLAYING APPARATUS USING THE SAME - To provide a light emitter substrate which is characterized in that discharge current reduction performance is excellent, plural phosphors are arranged in an X direction and a Y direction on a substrate, metal backs are arranged on the phosphors, ribs extending in the Y direction are arranged between the phosphors adjacent in the X direction, first resistors to electrically connect the metal backs adjacent in the Y direction are formed on the ribs respectively, and second resistors to electrically connect the metal backs adjacent in the X direction are formed under the ribs respectively. | 03-04-2010 |
20100127612 | PHOSPHOR AND ELECTRON BEAM EXCITED LIGHT-EMITTING DEVICE - The present invention provides a phosphor and an electron beam excited light-emitting device. The phosphor comprises a compound represented by the formula (I) ; and at least one selected from the group consisting of Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb and Mn as an activator, | 05-27-2010 |
20100156272 | Field Emission Device, Field Emission Display Device and Methods for Manufacturing the Same - A field emission device, a field emission display device, and a method for manufacturing the same are disclosed. The field emission device includes: i) a substrate; ii) an electrode positioned on the substrate; iii) a mask layer positioned on the electrode and including one or more openings; and iv) a plurality of nanostructures positioned on the electrode via the openings and formed to extend radially. The plurality of nanostructures may be applied to emit an electron upon receiving a voltage from the electrode. | 06-24-2010 |
20100176711 | Light Emission Device - A light emission device includes a first substrate having a plurality of recesses having a longitudinal axis extending in a first direction on a front surface of the first substrate; a first electrode in each of the plurality of recesses and having a longitudinal axis extending in the first direction; an electron emission part on the first electrode; a plurality of second electrodes extending in a second direction and crossing the plurality of recesses; a second substrate facing the first substrate; a third electrode and a phosphor layer on a rear surface of the second substrate facing the first substrate; an adhesive member on the second electrode and on the front surface of the first substrate; and a spacer contacting the adhesive member to maintain a space between the first and second substrates. | 07-15-2010 |
20100219744 | FIELD EMISSION ELECTRODE, MANUFACTURING METHOD THEREOF, AND ELECTRONIC DEVICE - An electron emission film having a pattern of diamond in X-ray diffraction and formed of a plurality of diamond fine grains having a grain diameter of 5 nm to 10 nm is formed on a substrate. The electron emission film can restrict the field intensity to a low level when it causes an emission current to flow, and has a uniform electron emission characteristic. | 09-02-2010 |
20100283379 | ELECTRON BEAM APPARATUS AND IMAGE DISPLAY APPARATUS - An electron beam apparatus | 11-11-2010 |
20100289401 | DISPLAY PANEL AND IMAGE DISPLAY APPARATUS - A display panel includes: a vacuum vessel provided with a face plate, a rear plate, and a plurality of plate-like spacers provided between the face plate and the rear plate so that the lengthwise directions thereof are parallel to each other; and a plurality of linear fixing members adhered to a surface of the rear plate on the opposite side from the surface opposing the face plate. Each of the plurality of linear fixing members is adhered to the rear plate by bonding members at mutually prescribed intervals and along the lengthwise direction of the plurality of spacers. | 11-18-2010 |
20110018427 | FIELD EMISSION DISPLAY - The present invention relates to a method for the manufacturing of a field-emission display ( | 01-27-2011 |
20110148283 | IMAGE DISPLAY APPARATUS INCLUDING ELECTRON-EMITTING DEVICE - A plurality of electron-emitting devices arranged in a matrix, a row wiring that connects electron-emitting portions of electron-emitting devices arranged in the same line to one another, and a column wiring that connects gate connection members of electron-emitting devices arranged in the same column to one another are included. Each of the plurality of gates is positioned at one side of an electron-emitting portion in an arrangement direction in which the plurality of electron-emitting portions are arranged. | 06-23-2011 |
20110215708 | Phosphor for low-voltage electron beam and vaccum fluorescent display apparatus - In order to provide a phosphor for a low-voltage electron beam and a vacuum fluorescent display apparatus in which the phosphor is used, a deposition layer is formed on a surface of a main body of a phosphor shown by the following chemical formula (1), the deposition layer being a plurality of oxide layers sequentially deposited on the surface of the phosphor main body. The phosphor for a low-voltage electron beam contains no cadmium, but has exceptional high-temperature exposure characteristics, as well as prolonged service life and higher brightness. | 09-08-2011 |
20110241535 | IMAGE DISPLAYING APPARATUS - To simultaneously suppress halation and discharging current flowing in the unlikely event of discharge, and easily perform potential regulating for a spacer, an image displaying apparatus comprises: a rear plate having electron-emitting devices arranged in matrix; a face plate having a substrate, light-emitting members arranged in matrix on the substrate, metal backs each covering at least one member and mutually arranged in matrix at gaps, ribs having first striped portions respectively positioned among the members and protruding toward the rear plate, and a resistive wiring including a resistor between the substrate and the ribs and electrically connecting the metal backs, and positioned oppositely to the rear plate; and a spacer positioned between the rear plate and the ribs to mutually support the rear and face plates, wherein the rib has a spacer connection wiring abutting against the spacer, and the spacer connection wiring is electrically connected to the resistive wiring. | 10-06-2011 |
20110254433 | IMAGE DISPLAY APPARATUS AND RIB FORMATION METHOD - An image display apparatus includes first and second substrates, an electron emitting device, light emitting members, and a spacer located between the first and second substrates. Straight-line ribs higher than the light emitting members are formed on the second substrate with one of the lines of light emitting members interposed between each adjacent pair of ribs. The spacer extends in a second direction intersecting a first direction in which the ribs extend, and is located between the light emitting members adjacent to each other in the first direction. The ribs include first and second ribs, and each first rib includes a wide portion where it intersects the spacer, the wide portion having a large width in the second direction and being higher than parts of the second ribs intersecting the spacer, at least one of the second ribs being disposed between each adjacent pair of first ribs. | 10-20-2011 |
20110298357 | LIGHT EMITTER SUBSTRATE AND IMAGE DISPLAYING APPARATUS USING LIGHT EMITTER SUBSTRATE - There is provided a light emitter substrate which can suppress halation by forming a rib between adjacent light-emitting members of respectively different light emitting colors, and at the same time can withdraw a potential difference when a discharge occurs between adjacent metal backs, thereby achieving a desired discharging current suppressing capability. For that purpose, the plural parallel ribs protruding from a substrate are formed, a phosphor is provided between the adjacent ribs, plural divided metal backs are disposed respectively on the phosphors in the direction along the ribs, the metal back is connected to a feeding resistor on the rib by means of a connection conductor, and the feeding resistor is covered by a high-resistance cover member. | 12-08-2011 |
20110304260 | FIELD EMISSION CATHODE DEVICE AND DISPLAY USING THE SAME - A field emission cathode device includes an insulative substrate, a number of cathode electrodes, and a number of liner electron emission units. The insulative substrate has a top surface and a bottom surface. The insulative substrate defines a number of openings. The cathode electrodes are located on the bottom surface. Each of the linear electron emission units has a first portion secured between the insulative substrate and one corresponding cathode electrode and a second portion received in one corresponding opening. | 12-15-2011 |
20120091881 | ELECTRON EMITTING DEVICE - The present invention provides an electron emitting device that includes a cathode, and a gate onto which electrons field-emitted from the cathode are irradiated. The gate includes at least a layer containing molybdenum and oxygen provided at a portion onto which the electrons field-emitted from the cathode are irradiated. The layer has peaks in a range of 397 eV through 401 eV, a range of 414 eV through 418 eV, a range of 534 eV through 538 eV, and a range of 540 eV through 547 eV, respectively, in a spectrum measured by electron energy loss spectroscopy using a transmission electron microscope. | 04-19-2012 |
20120153808 | Field emission light source device - The present invention relates to a field emission light source device, which includes: a base substrate; at least one cathode strip, disposed over the base substrate; at least one emissive protrusion, disposed over the cathode strip and electrically connected to the cathode strip; an insulating layer, disposed over the cathode strip and having at least one opening to allow the emissive protrusion to protrude out of the opening; at least one anode strip, disposed over the insulating layer, where the cathode strip and the anode strip are arranged into an m×n matrix and the at least one anode strip individually has an impacted surface corresponding to the emissive protrude; and a phosphor layer disposed over the impacted surface. Accordingly, the present invention can enhance light utilization efficiency of a field emission light source device. | 06-21-2012 |
20120153809 | Field emission display - The present invention relates to a field emission display, which includes: a base substrate; a plurality of cathode strips, disposed over the base substrate; an insulating layer, disposed over the cathode strips and having a plurality of openings, therewith the openings corresponding to the cathode strips; a plurality of anode strips, disposed over the insulating layer, where the cathode strips and the anode strips are arranged into a matrix and the anode strips individually have at least one impacted surface; and a plurality of subpixel units, individually including: an emissive region having a phosphor layer disposed over the impacted surface; and at least one emissive protrusion, corresponding to the emissive region and disposed in the openings to electrically connect to the cathode strips and protrude out of the openings. Accordingly, the present invention can enhance light utilization efficiency of a field emission display. | 06-21-2012 |
20120153810 | FIELD EMISSION DEVICE AND FIELD EMISSION DISPLAY USING SAME - A field emission device includes a cathode, an anode, an emitter, a first adjusting electrode, and a second adjusting electrode. The emitter electrically connects to the cathode. The cathode, the first adjusting electrode, and the second adjusting electrode electrically connect to an electrode down-lead. The anode electrically connects another electrode down-lead. The cathode is disposed between the first adjusting electrode and the second adjusting electrode. | 06-21-2012 |
20120176023 | Field emission lamp - A field emission lamp, capable of increasing the number of electron emitting points thereof, and of increasing the uniformity and the intensity of the light output therefrom by installing a lens unit is disclosed. The field emission lamp comprises: an outer shell having an inner surface, an anode portion formed on a portion of the inner surface of the outer shell, a cathode portion surrounded by the outer shell, a phosphor layer formed on a portion of the anode portion, and a lens unit disposed adjacent to the inner surface of the outer shell where the anode portion is not formed. Wherein, the phosphor layer generates light due to the bombardment of the electrons, the light passes through the lens unit and the inner surface of the outer shell where the anode portion is not formed, and outputs from the field emission lamp. | 07-12-2012 |
20120235557 | Display Panel - A display panel with secured mechanical reliability comprises: a first plate including a display region having light emitters and a non-display region, a second plate facing the first plate, a first frit portion interposed between the first plate and the second plate and sealing the display region from the outside, and a second frit portion separated from the first frit portion and comprising a plurality of sub-frits isolated from each other, wherein the sub-frits are located between a first line which passes through points closest to edges of the first plate among outer points of the first frit portion with respect to a sealed space and extends parallel to the edges of the first plate and a second line which passes through points furthest from the edges of the first plate among inner points of the first frit portion with respect to the sealed space and extends parallel to the edges of the first plate. | 09-20-2012 |
20120306350 | PIXEL ARRAY SUBSTRATE AND DISPLAY PANEL - A pixel array substrate includes a substrate, a plurality of pixel structures, a plurality of signal lines, a plurality of first traces, a plurality of second traces, a plurality of first conductive structures, and a plurality of second conductive structures. The pixel structures are arranged in array in a display region of the substrate. The signal lines are disposed in the display region and are formed in a first conducting wire layer and are electrically connected to the pixel structures. The first traces and the second traces are disposed in a periphery circuit region of the substrate and are respectively formed in a second conducting wire layer and the first conducting wire layer. A part of the signal lines are electrically connected to the first traces by the first conductive structures. Another of the signal lines are electrically connected to the second traces by the second conductive structures. | 12-06-2012 |
20130169143 | FIELD EMISSION LIGHT SOURCE DEVICE AND MANUFACTURING METHOD THEREOF - A field emission light source device, comprising: cathode plate comprising substrate and cathode conductive layer disposed on surface of substrate, and anode plate comprising base formed from transparent ceramic material and anode conductive layer disposed on one surface of base, and insulating support member by which cathode plate and anode plate are integrally fixed, and vacuum-tight chamber formed with anode plate, cathode plate and insulating support member; anode conductive layer and the cathode plate are disposed opposite each other. Because of advantages of good electrical conductivity, high light transmittance, stable electron-impact resistance performance and uniform luminescence, using transparent ceramic as the base of the anode plate in the field emission light source device can increase electron beam excitation efficiency effectively, increase light extraction efficiency of the field emission light source device, and finally increase its luminous efficiency. A manufacturing method of the field emission light source device is also provided. | 07-04-2013 |