Patent application number | Description | Published |
20090021171 | PLASMA DISPLAY PANEL AND A METHOD OF MANUFACTURING THE SAME - The PDP has front panel ( | 01-22-2009 |
20090058296 | PLASMA DISPLAY PANEL - The PDP has front panel ( | 03-05-2009 |
20100156292 | PLASMA DISPLAY PANEL - There is provided a plasma display panel including: a front plate having display electrodes, a dielectric layer, and a protective layer formed on a glass substrate; and a rear plate that has electrodes, barrier ribs, and a phosphor layer formed on a substrate and is disposed opposite to the front plate. Peripheries of the front plate and the rear plate are sealed to form a discharge space, the display electrodes contains at least silver, the dielectric layer is configured to include a first dielectric layer that covers the display electrodes and second dielectric layer that covers the first dielectric layer and contains bismuth oxide, the thickness of the first dielectric layer is equal to or larger than 5 μm and equal to or smaller than 13 μm, and the ratio of the thickness of the first dielectric layer to the thickness of the display electrodes is larger than 1 and equal to or smaller than 3. | 06-24-2010 |
20100207922 | PLASMA DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - Having a low-cost transparent electrode, the plasma display panel suppresses variations in discharge characteristics between discharge cells and provides high quality image. To attain above, a scan electrode has a scan transparent electrode formed by applying a dispersion liquid containing particles of metal or metal oxide onto a front substrate, and a scan bus electrode on the front substrate. A sustain electrode has a sustain transparent electrode formed by applying a dispersion liquid containing particles of metal or particles of metal oxide onto the front substrate, and a sustain bus electrode on the front substrate. Besides, a discharge gap is formed by a scan bus electrode and a sustain bus electrode. An outer periphery section on a discharge-gap side of a scan transparent electrode overlaps with a scan bus electrode, and an outer periphery section on a discharge-gap side of a sustain transparent electrode overlaps with a sustain bus electrode. | 08-19-2010 |
20110018927 | METHOD FOR MANUFACTURING PLASMA DISPLAY PANEL - The present invention provides a method for manufacturing a panel. According to the method, employing an ink containing particles of metal or particles of metal oxide allows transparent electrodes to be formed with high dimensional accuracy and little loss of productivity. Specifically, the transparent electrodes are formed in a manner that an ink containing particles of metal or particles of metal oxide is printed by inkjet printing as a plurality of ink dots with different diameters onto the front substrate. | 01-27-2011 |
20110102399 | PLASMA DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a plasma display panel having a low-cost transparent electrode, without decrease in yield. To achieve above, the panel has a first bus electrode, a second bus electrode, a first transparent electrode, and a second transparent electrode on the front substrate. The first transparent electrode covers at least a part of the first bus electrode, and similarly, the second transparent electrode covers at least a part of the second bus electrode. | 05-05-2011 |
20110200945 | METHOD OF MANUFACTURING FLAT PANEL DISPLAY - An alignment mark having high precision and good visibility is formed in a simple manner without modification of a manufacturing line or a significant increase of man hours and a flat panel display is manufactured at low cost and with good productivity. To achieve this, the method includes a step of forming a photosensitive film on a substrate, a step of forming an alignment mark by exposing the photosensitive film by using an exposing mask, and a step of performing position alignment by recognizing the alignment mark in an undeveloped state of the photosensitive film. | 08-18-2011 |
20110221728 | PLASMA DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - Having a low-cost transparent electrode, the plasma display panel suppresses variations in discharge characteristics between discharge cells and provides high quality image. To attain above, a scan bus electrode is formed so as to constitute an outer periphery in the lengthwise direction of a scan electrode and have a clearance inside, similarly, a sustain bus electrode is formed so as to constitute an outer periphery in the lengthwise direction of a sustain electrode and have a clearance inside. Besides, a scan transparent electrode is formed in the clearance of the scan bus electrode with use of a dispersion liquid containing particles of metal or particles of metal oxide, similarly, a sustain transparent electrode is formed in the clearance of the sustain bus electrode with use of a dispersion liquid containing particles of metal or particles of metal oxide. | 09-15-2011 |
20130236655 | PHOTO-SENSITIVE ELECTROMAGNETIC-WAVE INTERCEPTION INK COMPOSITION, ELECTROMAGNETIC-WAVE INTERCEPTION CURED MATERIAL, AND MANUFACTURING METHOD OF ELECTROMAGNETIC-WAVE INTERCEPTION CURED MATERIAL - A photosensitive electromagnetic-wave interception ink composition containing a photosensitive metal complex, electrically conductive particles, soft magnetic particles and a solvent is used for forming a coated film on a surface of a particular circuit element mounted on a circuit board by an ink-jet method, and the film is irradiated with light, whereby an electrically conductive cured material | 09-12-2013 |
20140335291 | MULTIPLE PANE - The disclosure relates to a multiple pane which includes a pair of glass panels spaced by the spacers and sealed at peripheries thereof. The objective is to provide a multiple pane in which the spacers are formed easily, and a method of preparing the multiple pane. The multiple pane includes: a pair of glass panels; a plurality of spacers interposed between the pair of glass panels; and a hermetic bond to hermetically bond peripheries of the pair of glass panels to each other. The multiple pane contains a space formed between the pair of glass panels, the space being to be sealed so as to be in a reduced pressure state. Each of the plurality of spacers being a porous member formed on one glass panel of the pair of glass panels. | 11-13-2014 |
20140356558 | MULTIPLE PANE - The multiple pane according to the present disclosure includes: a pair of glass panels; a plurality of spacers interposed between the pair of glass panels; and a hermetic bond to hermetically bond peripheries of the pair of glass panels to each other. The multiple pane contains a space formed between the pair of glass panels, the space being to be sealed so as to be in a reduced pressure state. Each of the plurality of spacers is a porous member. | 12-04-2014 |
20150068665 | PRODUCTION METHOD OF MULTIPLE PANES - The objective is to propose a production method of multiple panes which can be simple and nevertheless produce a multiple pane in its finished state which does not include any undesired protrusion from an external surface of a glass panel. The production method includes: hermetically bonding, with a sealing member, peripheries of paired glass panels disposed facing each other at a predetermined distance to form a space to be hermetically enclosed between the glass panels; evacuating air from the space through an outlet to make the space be in a reduced pressure state; subsequently dividing the space by a region forming member disposed inside the space to form a partial region which do not include the outlet; and subsequently cutting out the partial regions by cutting the pair of glass panels. | 03-12-2015 |
20150068666 | PRODUCTION METHOD OF MULTIPLE PANES - The objective is to propose a production method of multiple panes which can be simple and nevertheless produce a multiple pane in its finished state which does not include any undesired protrusion from an external surface of a glass panel. The production method includes: hermetically bonding, with a sealing member, peripheries of paired glass panels disposed facing each other at a predetermined distance to form a space to be hermetically enclosed between the glass panels; evacuating air from the space through an outlet to make the space be in a reduced pressure state; and dividing, after the space is made be in the reduced pressure state, the space by a region forming member into an outlet region including the outlet and a reduced pressure region other than the outlet region. | 03-12-2015 |