Mitsuhito
Mitsuhito Abe, Ebina-Shi JP
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20120077302 | LEAD WIRE CONNECTION APPARATUS AND CONNECTION METHOD OF SEMICONDUCTOR CELLS - Convey means for pitch-feeding the semiconductor cell to which the conductive tapes have been attached, lead wire processing means for forming-processing the lead wire, provisional pressure-bonding means which is provided at a part opposed to the semiconductor cell that is pitch-fed, holds the lead wires which are forming-processed, repeats provisional pressure-bonding of the lead wires to the conductive tapes provided on the upper surface and lower surface of the semiconductor cell that is pitch-fed, and alternately connects the upper surfaces and lower surfaces of the neighboring semiconductor cells, and main pressure-bonding means which is disposed on a downstream side of the provisional pressure-bonding means in a direction of conveyance of the semiconductor cell, and which mainly pressure-bonds, simultaneously, the paired upper and lower lead wires which have been provisionally pressure-bonded to the upper surface and lower surface of the semiconductor cell. | 03-29-2012 |
Mitsuhito Ito, Chigasaki-Shi, Kanagawa JP
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20150298606 | VEHICLE INTERIOR ILLUMINATION DEVICE - A vehicle interior device includes a first illumination unit configured to illuminate a first region of a passenger compartment of a vehicle, a second illumination unit configured to illuminate a second region in a rear part of the vehicle more rearward than the first region and being disposed in the upper part of the passenger compartment, a third illumination unit configured to illuminate a third region in a low part of the vehicle lower than the first region and being disposed in the front part of the passenger compartment, a fourth illumination unit configured to illuminate a fourth region in the rear part and in the low part, and a controller programmed to differentiate at least one of an intensity of the first illumination unit relative to the fourth illumination unit and an intensity of the second illumination unit relative to the third illumination intensity unit. | 10-22-2015 |
Mitsuhito Okitsa, Osaka JP
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20090030191 | Process for Producing Carbon-Reduced Aldose Compounds - The present invention provides a process capable of industrially producing 5-deoxy-L-arabinose, important as a raw material for the production of sapropterin useful as a therapeutic agent for atypical hyperphenylalaninemia, satisfactorily efficiently even with a simple production apparatus. Provided is the process for producing 5-deoxy-L-arabinose characterized by including: reacting L-rhamnose with a C | 01-29-2009 |
Mitsuhito Suwa, Otu-Shi JP
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20120244473 | PHOTOSENSITIVE RESIN COMPOSITION, LAMINATE UTILIZING SAME AND SOLID-STATE IMAGING DEVICE - A photosensitive resin composition which can impart insulating properties and light-shielding properties against light having a wavelength lying in an ultra-violet range, a visible range and a near-infrared range to a substrate more readily when applied onto the substrate, wherein the substrate has such properties that the permeability to light having a wavelength of 400 to 900 nm inclusive is less than 3.0% and the maximum value of the permeability to light having a wavelength of longer than 900 nm and not longer than 1300 nm is 3.0% or more. The photosensitive resin composition is characterized by comprising (a) an alkali soluble resin, (b) a specific tungsten oxide and/or a specific composite tungsten oxide, (c) a photopolymerizable compound having at least two polymerizable groups, (d) an oxime-type photopolymerization initiator, and (e) a solvent. | 09-27-2012 |
Mitsuhito Takahashi, Annaka-Shi JP
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20130171763 | METHOD FOR PRODUCING SOLAR CELL AND FILM-PRODUCING DEVICE - Disclosed in a method that is for producing a solar cell and that is characterized by performing an annealing step on a semiconductor substrate before an electrode-forming step. By means of performing annealing in the above manner, it is possible to improve the electrical characteristics of the solar cell without negatively impacting reliability or outward appearance. As a result, the method can be widely used in methods for producing solar cells having high reliability and electrical characteristics. | 07-04-2013 |
20130247957 | SOLAR CELL AND SOLAR-CELL MODULE - A solar cell has: an emitter layer formed on a light-receiving-surface side of a crystalline silicon substrate, with a dopant of the opposite conductivity type from the silicon substrate added to the emitter layer, a passivation film formed on the surface of the silicon substrate, an extraction electrode and a collector electrode. The extraction electrode extracts photogenerated charge from the silicon substrate and the collector electrode collects the charge collected at the extraction electrode. The extraction electrode contains a first electrode that consists of a sintered conductive paste. The first electrode, at least, is formed so as to pass through the passivation layer. The collection electrode contains a second electrode that has a higher conductivity than the first electrode. This solar cell reduces contact-resistance losses between the silicon and the electrodes, resistance losses due to electrode resistance, and optical and electrical losses in the emitter layer. | 09-26-2013 |
20130247974 | SOLAR CELL AND MANUFACTURING METHOD THEREOF - Disclosed is a solar cell having a silicon monocrystal substrate surface with a textured structure and, near the surface of said substrate, a damage layer reflecting the slice processing history from the time of manufacture of the silicon monocrystal substrate. The damage layer near the surface of the silicon monocrystal substrate is derived from the slice processing history at the time of manufacture of the substrate and functions as a gettering site, contributing to a longer lifetime of the substrate minority carriers. Thanks to this effect, the solar cell characteristics are dramatically increased. Further, new damage need be inflicted, and no additional work is required because damage from the slicing is used. | 09-26-2013 |
20150206990 | SOLAR CELL PRODUCTION METHOD, AND SOLAR CELL PRODUCED BY SAME PRODUCTION METHOD - This solar cell production method involves productively forming an antireflection film comprising silicon nitride, said antireflection film having an excellent passivation effect. In an embodiment, a remote plasma CVD is used to form a first silicon nitride film on a semiconductor substrate ( | 07-23-2015 |