Shinichi Abe
Shinichi Abe, Shiga JP
Patent application number | Description | Published |
---|---|---|
20100141128 | ORGANIC EL DISPLAY - An organic EL display of the present invention includes a plurality of organic EL devices, each including a first electrode, an intermediate insulating film disposed on the first electrode so as to have an exposed portion in which the first electrode is partially exposed, an organic layer disposed on the exposed portion, and a second electrode disposed on the organic layer. The organic layer has, on a part disposed on the exposed portion, a thick film portion disposed around the center of the exposed portion and a thin film portion disposed around the end of the exposed portion and having a smaller thickness than the thick film portion, and the thin film portions of the adjacent organic EL devices are substantially equal in width. | 06-10-2010 |
Shinichi Abe, Yasu-Shi JP
Patent application number | Description | Published |
---|---|---|
20090273589 | El Device - An EL device includes a substrate having a square shape, an element-forming region provided on an upper surface of the substrate and having organic light-emitting elements, a protruding section arranged in a region between the element-forming region and an end portion of the substrate, and a protection film deposited in a region extending from the element-forming region to the end portion of the substrate and disposed so as to cover the protruding section. The protruding section is disposed in a substantially strip-like shape along at least two of four sides of the substrate. | 11-05-2009 |
Shinichi Abe, Aichi-Ken JP
Patent application number | Description | Published |
---|---|---|
20090145375 | Cooling system - A cooling system includes a first cooling system in which coolant is supplied from a radiator to a motor so as to cool the motor, and then the coolant is supplied to banks of an engine through a circulation passage and split flow passages so as to cool the engine; and a second cooling system in which the coolant delivered from the radiator through a branch passage is further cooled by a radiator, and the cooled coolant is supplied to a drive circuit so as to cool the drive circuit. With this configuration, it is possible to efficiently cool the motor, the engine, and the drive circuit whose suitable operating temperatures are different from each other, and to make the configuration of the cooling system simple. | 06-11-2009 |
Shinichi Abe, Kadoma-Shi JP
Patent application number | Description | Published |
---|---|---|
20110285515 | LIGHTING REMOTE CONTROL SYSTEM - A lighting remote control system includes an illuminating device for irradiating illumination light in a changeable direction, a remote controller for irradiating visible light, a direction sensor for detecting an irradiating direction of the visible light based on a posture of the remote controller, and a position sensor for detecting position coordinates of the remote controller. The illuminating device is designed to irradiate the illumination light on a position specified pursuant to the position coordinates of the remote controller detected by the position sensor, the irradiating direction of the visible light detected by the direction sensor and an arbitrarily-set unit length. | 11-24-2011 |
Shinichi Abe, Kusatsu-Shi JP
Patent application number | Description | Published |
---|---|---|
20130032201 | PHOTOELECTRIC CONVERSION ELEMENT, PHOTOELECTRIC CONVERSION DEVICE, AND METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION ELEMENT - [Problem] In the case of further stacking a window layer or the like on a buffer layer, the buffer layer and the light absorption layer are likely to be damaged during the formation of the window layer due to inferior moisture resistance and plasma resistance, and photoelectric conversion elements sometimes fail to achieve any satisfactory conversion efficiency in terms of reliability. | 02-07-2013 |
Shinichi Abe, Uji-Shi JP
Patent application number | Description | Published |
---|---|---|
20140069492 | PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device is disclosed. The photoelectric conversion device includes an electrode layer and a semiconductor layer. The semiconductor layer is located on the electrode layer and contains a group I-III-VI compound. In the semiconductor layer, an atomic ratio of a group I-B element to a group III-B element decreases from one principal surface side of the semiconductor layer on the electrode layer side to a central portion in a thickness direction and increases from the central portion to another principal surface side on a side opposite to the electrode layer. | 03-13-2014 |
20140127851 | METHOD FOR PRODUCING SEMICONDUCTOR LAYER, METHOD FOR PRODUCING PHOTOELECTRIC CONVERSION DEVICE, AND SEMICONDUCTOR STARTING MATERIAL - Methods for producing a semiconductor layer and for producing a photoelectric conversion device, semiconductor raw material are disclosed. An embodiment of the method for producing a semiconductor layer includes: forming a film containing a metal element and an oxygen element; generating oxygen gas by heating the film; and forming a semiconductor layer containing a metal chalcogenide from the film by allowing the metal element to react with a chalcogen element. Another embodiment of the method includes forming a lower film containing a metal element; forming an upper film, which contains the metal element and a substance that contains oxygen, on the lower film; generating oxygen gas by heating the substance; and forming a semiconductor layer containing a metal chalcogenide from the lower film and the upper film by allowing a chalcogen element to react with the metal element in the lower film and the upper film. | 05-08-2014 |
Shinichi Abe, Takasaki-Shi JP
Patent application number | Description | Published |
---|---|---|
20140085769 | MULTILAYER CERAMIC CAPACITOR - A multilayer ceramic capacitor has multiple laminated dielectric ceramic layers made of a dielectric ceramic, internal electrodes formed between the dielectric ceramic layers, and external electrodes electrically connected to the internal electrodes, wherein generation of cracks in the dielectric layer due to expansion of the internal electrode is suppressed by causing ceramic grains having a crystal axis ratio c/a higher than that of the ceramic grains constituting the dielectric layer to be present in non-contiguous parts of the internal electrodes between the dielectric ceramic layers, and by harnessing the stress-mitigating effect of domain switching involving these ceramic grains. | 03-27-2014 |