| Patent application number | Description | Published |
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| 20090058439 | ELECTRONIC DEVICE TEST SYSTEM - When the number of DUTs carried on a loader buffer and scheduled to be held by contact arms at the next test is less than N, a DUT at a contact arm corresponding to a missing position at the loader buffer among the N number of DUTs being held for execution of a current test is held as it is without being ejected. While holding this DUT, the DUTs carried at the loader buffer for execution of the next test are picked up and the test is executed in that state. | 03-05-2009 |
| 20090231388 | WASTE INK ABSORBENT MEMBER, AND WASTE INK CONTAINER AND INK JET RECORDING APPARATUS EQUIPPED WITH WASTE INK ABSORBENT MEMBER - To provide a waste ink absorbing tank, capable, even in the case of utilizing an ink of a high coagulating property, of causing a waste ink absorbent member to efficiently absorb such ink. A waste ink absorbent member has a hole portion corresponding to an introducing position of the waste ink, and the hole portion is opened on a lateral face of the absorbent member. The waste ink, introduced into the hole portion moves in one direction toward the waste ink absorbent member and absorbed therein. | 09-17-2009 |
| 20100033522 | INK SET, INK JET RECORDING METHOD AND INK JET RECORDING APPARATUS - An object of the invention is to provide an ink set which enables to improve image density and scratch resistance of the images recorded using an ink containing a self-dispersion pigment and an ink containing a modified siloxane compound. An ink set to be used for ink jet recording including plural inks having a first ink and a second ink independently, wherein the first ink contains at least a pigment having functional groups on surface of pigment particles and a compound having adsorptivity to the pigment and the functional group density on the surface of the pigment particles is 1.5 μmol/m | 02-11-2010 |
| 20100033523 | INK SET, INK JET RECORDING METHOD, AND INK JET RECORDING APPARATUS - Provided are an ink jet ink set, an ink jet recording method, and an ink jet recording apparatus each of which can reduce the graininess of an image to be recorded and improve the water fastness of the image even in a recording medium such as plain paper. The ink jet ink set has a first ink and a second ink independently, and is used so that the first and second inks overlap each other at least partly upon application of the inks to a recording medium. The first ink contains at least a pigment and a silicone oil. The second ink contains at least a pigment and a graft polymer that includes at least a nonionic unit represented by the general formula (I) and a unit having a polysiloxane structure. | 02-11-2010 |
| 20100034972 | INK JET INK, INK JET RECORDING METHOD, INK CARTRIDGE, RECORDING UNIT, AND INK JET RECORDING APPARATUS - Provided is an ink jet ink capable of recording an image having an unprecedentedly high level of scratch resistance and excellent glossiness while satisfying reliability of the ink such as ejection stability. The ink jet ink contains at least a pigment and a graft polymer, and is characterized in that the graft polymer includes at least a specific nonionic unit and a unit having a polysiloxane structure. | 02-11-2010 |
| 20120218345 | WASTE INK ABSORBENT MEMBER, AND WASTE INK CONTAINER AND INK JET RECORDING APPARATUS EQUIPPED WITH WASTE INK ABSORBENT MEMBER - To provide a waste ink absorbing tank, capable, even in the case of utilizing an ink of a high coagulating property, of causing a waste ink absorbent member to efficiently absorb such ink. A waste ink absorbent member has a hole portion corresponding to an introducing position of the waste ink, and the hole portion is opened on a lateral face of the absorbent member. The waste ink, introduced into the hole portion moves in one direction toward the waste ink absorbent member and absorbed therein. | 08-30-2012 |
| 20150332909 | WAFER PROCESSING METHOD - A method of processing a wafer includes: a grinding step of grinding a back surface of the wafer to form, on the back side of the wafer, a recess corresponding to a device region and an annular projecting portion corresponding to a peripheral marginal region; and a splitting groove forming step of forming, after the grinding step is conducted, a splitting groove for splitting the device region and the peripheral marginal region from each other at the boundary between the recess and the annular projecting portion, the splitting groove extending from the front surface of the wafer to reach the back surface of the wafer. The splitting groove is formed by dry etching. | 11-19-2015 |
| Patent application number | Description | Published |
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| 20150226864 | RADIATION IMAGE CONVERSION PANEL - A radiation image converting panel includes a flexible support, a photostimulable phosphor layer provided on the main surface of the support and made of a plurality of columnar crystals, a first protective film provided on the photostimulable phosphor layer, and a second protective film provided on the first protective film, the photostimulable phosphor layer is composed of a photostimulable phosphor including Eu-doped CsBr, the first protective film is provided so as to cover the upper surface and side surface of the photostimulable phosphor layer and fill a gap of the plurality of columnar crystals in the photostimulable phosphor layer, the pencil hardness of the second protective film is not more than the pencil hardness of the first protective film, and the radiation image converting panel has a flexibility of up to a bending radius of 15 mm. | 08-13-2015 |
| 20150241571 | RADIATION IMAGE CONVERSION PANEL - A radiation image converting panel includes a support, a photostimulable phosphor layer provided on the front surface of the support and made of a plurality of columnar crystals, and a first excitation light absorbing layer provided on the photostimulable phosphor layer, each of the plurality of columnar crystals has a helical structure portion formed by stacking in a helical shape at the side close to the support and a columnar portion formed by extending from the helical structure portion toward the first excitation light absorbing layer, and the photostimulable phosphor layer accumulates incident radiation, and as a result of being irradiated with excitation light via the first excitation light absorbing layer, outputs light according to the accumulated radiation via the first excitation light absorbing layer. | 08-27-2015 |
| 20150247934 | SCINTILLATOR PANEL AND RADIATION DETECTION DEVICE - A scintillator panel for converting radiation into scintillation light, includes a substrate having a front surface and a back surface, a plurality of scintillator sections formed on the front surface of the substrate so as to be separate from one another, and having upper surfaces and side surfaces extending from the upper surfaces toward the front surface of the substrate, solvent permeation blocking film formed on the upper surfaces and the side surfaces of the scintillator sections so as to cover the upper surfaces and the side surfaces of the scintillator sections, and a light shielding layer formed on the solvent permeation blocking film, that is for shielding the scintillation light, and the scintillator section is composed of a plurality of columnar crystals of a scintillator material, the solvent permeation blocking film is formed so as not to fill gaps between the side surfaces of the scintillator sections adjacent to one another, and the light shielding layer is formed on the solvent permeation blocking films on the side surfaces of the scintillator sections so as to fill the gaps. | 09-03-2015 |
| 20150247935 | SCINTILLATOR PANEL AND RADIATION DETECTOR - A scintillator panel for converting radiation into scintillation light, the scintillator panel includes a substrate having a front surface and a back surface, and formed with a plurality of convex portions projecting from the front surface in a predetermined direction toward the front surface from the back surface and a concave portion defined by the convex portions, a plurality of first scintillator sections formed on the respective convex portions of the substrate, and a second scintillator section formed on the bottom surface of the concave portion of the substrate, and the first scintillator section has a first portion extending along the predetermined direction from an upper surface of the convex portion and a second portion extending along the predetermined direction from side surfaces of the convex portion so as to contact with the first portion, the first and second portions are composed of a plurality of columnar crystals of a scintillator material, the first scintillator sections are separated from one another, and the second scintillator section is in contact with the second portion. | 09-03-2015 |
| 20150355342 | SCINTILLATOR PANEL MANUFACTURING METHOD, SCINTILLATOR PANEL, AND RADIATION DETECTOR - Provided is a method of manufacturing a scintillator panel configured to convert radiation into scintillation light, the method including a first process of forming a plurality of convex sections that protrude from a rear surface toward a front surface of the substrate in a predetermined direction and concave section defined by the convex sections on the front surface of the substrate having the front surface and the rear surface, a second process of forming first scintillator units respectively extending from the convex sections of the substrate in the predetermined direction through crystal growth of a columnar crystal of a scintillator material, and a third process of radiating a laser beam to contact portions of the first scintillator units extending from the adjacent convex sections and separating the first scintillator units extending from the adjacent convex sections by scanning the concave section with the laser beam. | 12-10-2015 |
