Ishide
Daisuke Ishide, Ritto-Shi JP
Patent application number | Description | Published |
---|---|---|
20090243777 | MULTILAYER TRANSFORMER COMPONENT - A multilayer transformer component includes a chip body including a primary-side coil and a secondary-side coil, and first to fourth external electrodes. The primary-side coil includes a body portion, a first lead, and a second lead, and the secondary-side coil includes a body portion, a third lead, and a fourth lead. A first projection and a second projection of each body portion are arranged to lie substantially on a linear line. The first lead and the fourth lead are arranged to be line-symmetrical with respect to a center line which is arranged at an approximate center between respective distal ends of the first projection and the second projection, and which is perpendicular or substantially perpendicular to an overlying direction of the primary-side and secondary-side coils. The second lead and the third lead are also arranged to be line-symmetrical with respect to the center line. | 10-01-2009 |
Takashi Ishide, Nagasaki-Shi JP
Patent application number | Description | Published |
---|---|---|
20100108653 | METHOD FOR IMPROVING RESIDUAL STRESS IN TUBULAR BODY AND APPARATUS FOR IMPROVING RESIDUAL STRESS IN TUBULAR BODY - An object is to provide a method and an apparatus for improving a residual stress in a tubular body, which are enabled to improve the residual stress reliably by clearly defining controlling rage for treatment conditions without depending on an installation state and configuration of the tubular body. When an outer-circumferential surface of a welded portion of a cylindrical tubular body ( | 05-06-2010 |
20100122972 | APPARATUS FOR IMPROVING RESIDUAL STRESS IN TUBULAR BODY AND ADJUSTMENT METHOD OF THE SAME - Aims are to provide a tubular-body residual-stress improving apparatus and an adjustment method thereof capable of adjusting irradiation position with favorable reproducibility, even when an optical fiber is eccentric. In the tubular-body residual-stress improving apparatus, an optical control unit ( | 05-20-2010 |
Takashi Ishide, Takasago-Shi JP
Patent application number | Description | Published |
---|---|---|
20100059491 | APPARATUS FOR IMPROVING RESIDUAL STRESS IN TUBULAR BODY - An aim is to provide a tubular-body residual-stress improving apparatus capable of reducing irradiation on unnecessary areas by controlling the optical paths of laser beams. In the tubular-body residual-stress improving apparatus, an optical control unit ( | 03-11-2010 |
Takashi Ishide, Nagasaki JP
Patent application number | Description | Published |
---|---|---|
20110126894 | PHOTOELECTRIC CONVERSION DEVICE FABRICATION METHOD AND PHOTOELECTRIC CONVERSION DEVICE - Provided is a photoelectric conversion device fabrication method in which current leakage from an intermediate contact layer via an intermediate-contact-layer separating groove is prevented as much as possible. Included are a step of film-forming a top layer having amorphous silicon as a main component; a step of film-forming, on the top layer, an intermediate contact layer electrically and optically connected thereto; a step of separating the intermediate contact layer by removing the intermediate contact layer by irradiating it with a pulsed laser, forming an intermediate-contact-layer separating groove that reaches the top layer; and a step of film-forming, on the intermediate contact layer and inside the intermediate-contact-layer separating groove, a bottom layer electrically and optically connected thereto and having microcrystalline silicon as a main component. A pulsed laser having a pulse width of 10 ps to 750 ps, inclusive, is used as the pulsed laser for separating the intermediate contact layer. | 06-02-2011 |
20110126895 | PHOTOELECTRIC CONVERSION DEVICE FABRICATION METHOD AND PHOTOELECTRIC CONVERSION DEVICE - Provided is a method for fabricating a photoelectric conversion device in which current is prevented as much as possible from leaking via an intermediate contact layer separating groove. The method includes: a process of forming a top layer mainly containing amorphous silicon; a process of forming on the top layer an intermediate contact layer electrically and optically connected to the top layer; a process of removing the intermediate contact layer through irradiation with a pulsed laser and forming an intermediate contact layer separating groove that reaches the top layer to separate the intermediate contact layer; and a process of forming, on the intermediate contact layer and in the intermediate contact layer separating groove, a bottom layer that mainly contains microcrystalline silicon and that is electrically and optically connected to the intermediate contact layer. The intermediate contact layer separating groove is terminated in an i-layer of the top layer. | 06-02-2011 |
Takashi Ishide, Hyogo JP
Patent application number | Description | Published |
---|---|---|
20110226748 | METHOD FOR MANUFACTURING PHOTOELECTRIC-CONVERSION-DEVICE, DEVICE FOR PHOTOELECTRIC-CONVERSION-DEVICE MANUFACTURING DEVICE, AND PHOTOELECTRIC CONVERSION DEVICE - Provided is a method for manufacturing a photoelectric-conversion-device capable of controlling the groove depth of a processed groove to a desired value. The method for manufacturing a photoelectric conversion device ( | 09-22-2011 |
Takashi Ishide, Tokyo JP
Patent application number | Description | Published |
---|---|---|
20150352666 | MACHINING DEVICE AND MACHINING METHOD - Provided are a machining device and a machining method in which machining of higher precision can be performed with a simple configuration. The machining device has an irradiation head ( | 12-10-2015 |