| Document |
Document Title |
|
JP2013037871A |
To provide a plasma display panel capable of suppressing fluctuation of discharge starting voltages.A PDP 1 includes a front plate 2 and a back plate arranged to face the front plate 2 with a discharge space sandwiched therebetween. The ...
|
|
JP2013037916A |
To achieve a plasma display panel having excellent display characteristics, which is improved in electron emission characteristics in a protective layer, capable of reducing sustain discharge voltage, high in luminance even in a high-def...
|
|
JP5150632B2 |
A plasma display device includes a plasma display panel and a driver unit driving the plasma display panel. The plasma display panel includes a first plate on which a sustain electrode and a scan electrode, a dielectric layer, an address...
|
|
JP5150623B2 |
The present invention provides a blue phosphor having high luminance and showing less luminance degradation during driving of a light-emitting device. The present invention is a blue phosphor that includes: an alkaline earth metal alumin...
|
|
JP5146177B2 |
|
|
JP5146905B2 |
|
|
JP5150622B2 |
The present invention provides a blue phosphor that exhibits high luminance and shows less luminance degradation during driving of a light-emitting device. The present invention is a blue phosphor represented by the general formula aBaO....
|
|
JP2013033679A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate that has a protective layer; and a rear plate that is arranged op...
|
|
JP2013033626A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate that has display electrode pairs, a dielectric layer, and a prote...
|
|
JP2013033678A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate that has display electrode pairs, a dielectric layer, and a prote...
|
|
JP2013033602A |
To reduce drive voltage of a plasma display panel.A protective layer 9 includes, at least, a first metal oxide and a second metal oxide. In an X-ray diffraction analysis, the protective layer 9 has at least one peak between a first peak ...
|
|
JP2013033628A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate; and a rear plate that is arranged opposite the front plate. The ...
|
|
JP2013033629A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate; and a rear plate that is arranged opposite the front plate. The ...
|
|
JP2013033627A |
To provide a plasma display panel that has high-definition and high-luminance display performance and is low in power consumption.A plasma display panel has: a front plate that has a protective layer; and a rear plate that is arranged op...
|
|
JP5141358B2 |
To realize a plasma display panel having display performances of high precision and high brightness with low power consumption, after formation of base film (91), a metal oxide paste made of metal oxide particles, an organic component in...
|
|
JP5143683B2 |
|
|
JP5143448B2 |
|
|
JP2013030443A |
To provide a manufacturing method for a plasma display panel, PDP, capable of suppressing increase of discharge delay during sealing.A manufacturing method for a plasma display panel, PDP, comprises the steps of: a disposing step in whic...
|
|
JP2013030296A |
To provide a plasma display panel of low-power consumption capable of precisely displaying with a high brightness.The manufacturing method of the plasma display panel is configured including a front plate 2 and a rear plate 10 facing eac...
|
|
JP5137459B2 |
|
|
JP5137950B2 |
In a front plate for PDP, which includes: a large number of display electrodes formed in stripes on a substrate; a plurality of terminal groups for connection with an external drive circuit, each terminal group being formed along an edge...
|
|
JP5135480B2 |
|
|
JP2013025989A |
To provide a glass substrate in which such a situation that a formation failure such as a disconnection failure is caused at a pattern electrode can be reliably prevented.In a glass substrate 1 formed by a float method, when a central re...
|
|
JP2013023634A |
To provide a vacuum ultraviolet excitable light-emitting apparatus of which color saturation and luminescence intensity are improved by improving the maintenance factor of paste baking luminance of a rare earth phosphorus vanadate phosph...
|
|
JP2013020745A |
To provide a plasma display panel which is capable of low voltage drive and can eliminate or reduce a difference in luminance to improve display quality.The plasma display panel comprises a front plate having a plurality of display elect...
|
|
JP5130712B2 |
|
|
JP5129217B2 |
|
|
JP5131190B2 |
A float glass for a display substrate, characterized in that its composition consists essentially of, as represented by mass % based on oxide, from 52 to 62% of SiO2, from 5 to 15% of Al2O3, from more than 0% to 9% of MgO, from 3 to 12% ...
|
|
JP5134264B2 |
A drive method of a plasma display panel that can increase the dark contrast, without causing a discharge failure. When a discharge cell that assumes a black display state in a first field from among first and a second fields that are ad...
|
|
JP2013016338A |
To provide a plasma display panel which is short in after-grow time, and having high brightness, color purity and performance.In a plasma display panel having a green phosphor layer emitting visible light by vacuum ultraviolet ray, the g...
|
|
JP2013016409A |
To provide a plasma display panel capable of forming a narrow barrier having a barrier installation part width of 45 μm without reducing a yield, and having high performance and high definition.The plasma display panel is characterized ...
|
|
JP2013014679A |
To provide a Eu3+ activation rare earth phosphovanadate fluorescent substance that strikes a balance between high luminance and short afterglow properties, is stable, and hardly cause luminance saturation.A display device uses the rare e...
|
|
JP2013014678A |
To provide a plasma display device that is more excellent in the display quality of a stereoscopic vision and the stability of emission.The plasma display device uses at least a rare earth phosphovanadate fluorescent substance activated ...
|
|
JP2013016408A |
To provide a plasma display panel capable of forming a narrow barrier having a barrier installation part width of 45 μm without reducing a yield and having high performance and high definition.The plasma display panel is characterized t...
|
|
JP2013016340A |
To provide a plasma display panel having high performance.In a plasma display panel having a phosphor layer emitting visible light by vacuum ultraviolet ray, a phosphor containing 1 to 8 atom% of K is used in a vicinity of a surface of a...
|
|
JP5128545B2 |
This invention provides a plasma tube array-type display sub-module capable of reducing a possibility of occurrence of troubles on a plasma tube array during a manufacturing process even in a case where irregularities are formed on the b...
|
|
JP5124580B2 |
A plasma display of this invention includes a front panel, and this front panel includes a substrate, a plurality of display electrode pairs formed in stripes on the substrate, a dielectric layer formed to cover the display electrode pai...
|
|
JP5126166B2 |
The present invention provides a plasma display panel that has a fast response in discharge generation to voltage application owing to a short discharge delay time, and at the same time suppresses the change in the discharge delay time t...
|
|
JP5124082B2 |
|
|
JP5123764B2 |
|
|
JP5126451B2 |
A plasma display has a protective layer (9) including a base layer (91) over which aggregate particles (92) each including an aggregate of a plurality of magnesium oxide crystal particles (92a) and metal oxide particles (93) are scattere...
|
|
JP5126452B2 |
A plasma display has a protective layer (9) including a base layer (91) over which aggregate particles (92) each including an aggregate of a plurality of magnesium oxide crystal particles (92a) and metal oxide particles (93) are scattere...
|
|
JP5128653B2 |
In a plasma tube array-type display device, a first surface of the intermediate member, which is a flexible and bumpy intermediate member 4 interposed between a plasma tube array and a frame substrate, is attached with the rear surface o...
|
|
JP5126412B2 |
A plasma display panel includes: a front plate having a dielectric layer that is formed to cover display electrodes formed on a substrate, and a protective film that is formed on the dielectric layer; and a rear plate disposed facing the...
|
|
JPWO2011019039A1 |
In the present invention, tin oxide (SnO) is formed on a transparent glass substrate.2) Is formed as a main component of the transparent conductive film, and SnO at the XRD peak of the transparent conductive film.2The present invention r...
|
|
JPWO2011021327A1 |
Provided is a plasma display panel that can be expected to exhibit good image display performance while having a relatively low drive voltage. Therefore, in PDP200, one or more kinds of rare earth metals and a compound containing Sn and ...
|
|
JP2013011640A |
To provide a manufacturing method for a flat panel display capable of maintaining display quality while performing heat treatment of electrodes, dielectrics or the like formed on a substrate at an exact temperature.In a manufacturing met...
|
|
JPWO2011019040A1 |
In the present invention, tin oxide (SnO) is formed on a transparent glass substrate.2) As a main component and at least one selected from the group consisting of indium (In), tin (Sn), gallium (Ga), zinc (Zn), titanium (Ti) and niobium ...
|
|
JP2013501694A |
The present disclosure discloses a conductive substrate with a conductive pattern formed on a float glass and a method for manufacturing the same, which can prevent a yellowing phenomenon from occurring in the float glass during firing o...
|
|
JP5119631B2 |
In order to improve luminescence life, color temperature, the linearity of luminous intensity, and colority that have not been solved by conventional methods, a thin panel display of electron beam excitation type includes a substrate inc...
|
