Patent application number | Description | Published |
20090184658 | IMAGE DISPLAY APPARATUS - An image display apparatus includes: a rear plate having multiple electron-emitting devices; and a face plate having multiple anode electrodes and a common electrode electrically connected to the multiple anode electrodes, and facing the rear plate. The rear plate has a first conductive member at a position facing the common electrode, and the first conductive member is electrically connected via a resistive device to a second conductive member that is applied with a potential lower than a potential which is applied to the multiple anode electrodes. | 07-23-2009 |
20090302735 | LIGHT EMITTER SUBSTRATE AND IMAGE DISPLAYING APPARATUS USING THE SAME - It aims to improve, in a light emitter substrate which has a resistor for connecting electrodes adjacent in a row direction, withstand discharge performance of the resistor. In the light emitter substrate which comprises a substrate, plural light-emitting members which are positioned in matrix on the substrate, plural electrodes each of which covers at least one of the light-emitting members and which are positioned in matrix, and a row-direction resistor which is positioned between the electrodes adjacent in the row direction and connects these electrodes to each other, a row-direction separated distance Gx′ between the electrodes adjacent in the row direction at a connecting portion between the electrodes and the row-direction resistor is larger than a row-direction separated distance Gx between the electrodes adjacent in the row direction at a portion covering the light-emitting members (Gx′>Gx). | 12-10-2009 |
20090309480 | LIGHT EMITTER SUBSTRATE AND IMAGE DISPLAYING APPARAUTS USING THE SAME - In a light emitter substrate which has a resistor for connecting electrodes adjacent in a row direction, it aims to improve withstand discharge performance of the resistor. In the substrate comprising a substrate, plural light emitting members which are positioned in matrix on the substrate, plural electrodes each of which covers at least one of the light emitting members and which are positioned in matrix, and a row-direction striped resistor which is positioned between the electrodes adjacent in a column direction and connects the electrodes adjacent in a row direction and the column direction, a row-direction separated distance Gx′ between the electrodes adjacent in the row direction at a connecting portion between the electrodes and the resistor is made larger than a row-direction separated distance Gx between the electrodes adjacent in the row direction at a portion covering the light emitting members (Gx′>Gx). | 12-17-2009 |
20090310360 | LIGHT EMITTER SUBSTRATE AND IMAGE DISPLAYING APPARATUS USING THE SAME - The invention aims to improve, in a light emitter substrate having a resistor for connecting row-direction adjacent electrodes, withstand discharge performance of the resistor. The light emitter substrate comprises a substrate, plural light emitting members positioned in matrix on the substrate, plural electrodes positioned in matrix and each covering at least one of the light emitting members, and a row-direction striped resistor positioned between the column-direction adjacent electrodes and connecting the row/column-direction adjacent electrodes. A row-direction separated distance between the row-direction adjacent electrodes in a connecting portion between the electrodes and the resistor is larger than a row-direction separated distance between the row-direction adjacent electrodes in a portion covering the light emitting members at a position along a row-direction edge portion of the resistor, and is larger than a row-direction separated distance between the row-direction adjacent electrodes in the connecting portion at an edge portion in a column-direction end region. | 12-17-2009 |
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 |
20100148670 | ELECTRON SOURCE SUBSTRATE AND IMAGE DISPLAY APPARATUS - Row-directional wires, column-directional wires having a resistance higher than that of the row-directional wires, and electron-emitting devices are disposed on a substrate. The electron-emitting devices and the column-directional wires are each connected via a resistor element. The resistor element is provided with a local fuse portion that is easier to fuse than the other portion. The fuse portion is provided closer to the row-directional wire than to the column-directional wire. | 06-17-2010 |
20100283370 | LIGHT-EMITTING SUBSTRATE INCLUDING LIGHT-EMITTING MEMBERS AND IMAGE DISPLAY APPARATUS INCLUDING THE LIGHT-EMITTING SUBSTRATE - A light-emitting substrate includes a substrate, a plurality of light-emitting members arranged in a matrix on the substrate, and a plurality of metal backs arranged in a matrix over the plurality of light-emitting members. In each row or each column of the plurality of metal backs, two adjacent metal backs are connected to each other through a resistive member. A conductive member having a resistance value lower than that of the resistive member is connected to a portion of the resistive member, the portion being spaced from the two adjacent metal backs. | 11-11-2010 |
20120007493 | 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. | 01-12-2012 |
Patent application number | Description | Published |
20120013582 | IMAGE DISPLAY APPARATUS - An image display apparatus comprises a face plate including a common electrode extending in an outside of an image region along a one side of the image region, n first resistor members connected to the common electrode and connected to each of anodes in the divisional regions corresponding thereto, and a second resistor member connecting between one and the other of the first resistor members. R | 01-19-2012 |
20120188554 | LIGHT SOURCE DEVICE AND IMAGING APPARATUS USING THE SAME - A light source device includes an optical resonator that includes an optical gain medium amplifying light and an optical waveguide having wavelength dispersion of a refractive index, and an optical modulator that modulates an intensity of the light in the optical resonator. An oscillation wavelength of an optical pulse is varied according to a modulation frequency of the optical modulator. The optical modulator can adjust transmittance of the light passing through the optical modulator, and a duty ratio of a transmission time of the light passing through the optical modulator is less than 50%. | 07-26-2012 |
20130169973 | OPTICAL COHERENCE TOMOGRAPHY APPARATUS AND METHOD - An OCT apparatus includes, in addition to a first light source that changes a wavelength of light that is emitted, a second light source that emits light having a particular wavelength. The OCT apparatus is formed so that, when light having the particular wavelength is emitted from the first light source, the light emitted from the second light source is detected by a second optical detector. | 07-04-2013 |