Tera
Masayuki Tera, Tokyo JP
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20120135469 | NOVEL GLYCOSYLTRANSFERASE, NOVEL GLYCOSYLTRANSFERASE GENE, AND NOVEL SUGAR DONOR COMPOUND - An object of the present invention is to provide a sugar donating reagent comprising a sugar donor compound other than a sugar nucleotide and an enzyme capable of catalyzing a glycosyl transfer reaction using a sugar donor compound other than a sugar nucleotide. The present invention provides the following: a sugar donating reagent containing a compound of formula (A): | 05-31-2012 |
Masayuki Tera, Takatsuki-Shi JP
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20160039784 | PYRAZOLE DERIVATIVE - Provided are a compound expressed by formula (I) or a pharmacologically permissible salt thereof, as well as a drug or drug composition that contains this compound as an active ingredient, having a xanthine oxidase inhibiting effect that is very useful for treating or preventing diseases that are contributed to by xanthine oxidase, such as gout, hyperuricemia, tumor lysis syndrome, urinary tract stones, hypertension, dyslipidemia, diabetes, cardiovascular disease such as heart failure and arterial sclerosis, renal disease such as diabetic near opacity and the like, respiratory disease such as chronic obstructive pulmonary disease and the like, autoimmune diseases such as inflammatory bowel disease, and the like. [In the formula, A, X, Y, Z, R, and R | 02-11-2016 |
Naveen R. Tera, Sandy, UT US
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20160057843 | Electrodeless Fluorescent Ballast Driving Circuit and Resonance Circuit with Added Filtration and Protection - A ballast circuit for a lighting system using an induction fluorescent lamp utilizes an AC-DC rectification circuit, a DC-DC boost power conversion circuit, a DC-AC half bridge inverter circuit, and a resonating circuit to ignite the lamp and maintain substantially constant power output of the lamp, while the DC-AC half bridge inverter circuit is further comprised of a gate isolation transformer connected in a half bridge inverter schematic which uses a ballast integrated circuit (IC) to drive a high side MOSFET and a low side MOSFET and the gate isolation transformer electrically isolates a gate signal to the high side MOSFET. | 02-25-2016 |
Nobuyuki Tera, Kurobe-Shi JP
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20130267152 | ABRASIVE WATER JET NOZZLE AND ABRASIVE WATER JET MACHINE - Provided is an abrasive water jet nozzle comprising a mixing chamber for absorbing the abrasives with air through a supply port; a water nozzle; a mixing nozzle disposed on the downstream side against the water nozzle, to mix the abrasives in a water jet jetted out of the water nozzle, and to jet the water jet into the mixing chamber out of a through hole of the mixing nozzle; and an abrasive nozzle disposed on the downstream side against the mixing nozzle, to introduce the water jet thereinto to jet an abrasive water jet. A diameter of the through hole is larger than that of the water nozzle so that the abrasives in the mixing chamber are absorbed with air in a clearance between the through hole and the water jet passing through the through hole to mix the abrasives in the water jet. | 10-10-2013 |
20140087635 | APPARATUS AND METHOD FOR ABRASIVE WATER JET MACHINING - To provide an abrasive water jet machining apparatus in which the machining accuracy and machining efficiency is improved by improving the flowability of an abrasive through a nozzle. An abrasive water jet machining apparatus performs machining by directing an abrasive water jet at a workpiece, the abrasive water jet being composed of a mixture of a high-pressure processing fluid with an abrasive. The machining apparatus includes: a nozzle that directs the abrasive water jet; a high-pressure water supply device that supplies the processing fluid to the nozzle; and an abrasive supply device that supplies the abrasive to the processing fluid. The abrasive is composed of a coated abrasive, the coated abrasive being produced by coating a surface of an abrasive material composed of abrasive grains with a water-repellent material or flow promoting material. The abrasive supply device | 03-27-2014 |
Ryonosuke Tera, Toyota-City JP
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20090108747 | Organic electroluminescent display and method of making the same - An organic EL display includes an organic material, a gas barrier layer on the member, and an organic EL unit on the gas barrier layer. The gas barrier layer comprises AlxTiyOz, wherein Al represents aluminum, Ti represents titanium, O represents oxygen, x represents the ratio of atoms of Al, y represents the ratio of atoms of Ti, and z represents the ratio of atoms of O. A Ti-atom ratio of the gas barrier layer is given in the units of atom % and defined by the following equation: Ti-atom ratio={y/(x+y)}·100. The gas barrier layer has a first portion at an interface with the member and a second portion at an interface with the organic EL unit. The Ti-atom ratio of the first portion is 0 atom %. The Ti-atom ratio of the second portion is greater than or equal to 10 atom %. | 04-30-2009 |
20090191781 | Method for manufacturing color organic EL display - A color organic EL display includes: a substrate; a color filter layer disposed on the substrate; a gas barrier layer disposed on the color filter layer; and an organic EL structural body disposed on the gas barrier layer. The substrate and the color filter layer provide an underlayer of the gas barrier layer. The underlayer is a degassed underlayer. The gas barrier layer is provided by an atomic layer deposition method at a temperature equal to or lower than a decomposition starting temperature of the color filter layer. | 07-30-2009 |
Ryonosuke Tera, Kariya-City JP
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20110034032 | Method of formation or thermal spray coating - A method of formation of a thermal spray coating which forms a thermal spray coating on a coating-forming surface, characterized by comprising a thermal spraying step of thermally spraying feedstock powder on the coating-forming surface and a deposition and coating forming step of having the thermally sprayed feedstock powder deposit on the coating-forming surface and solidify to form a coating, in the deposition and coating forming step, when deposited on the coating-forming surface by thermal spraying, the feedstock powder deposits in the solid phase state in 50 to 90%, preferably 70 to 80%, of the whole so as to raise the ratio of the crystallite remaining in the feedstock powder and secure a high heat conductivity. | 02-10-2011 |
20120119649 | PLASMA GENERATING APPARATUS - A plasma generating apparatus includes: a power supply one of whose electrodes is connected to vacuum chamber walls of N vacuum chambers; an oscillator which outputs a pulse signal at every predetermined period; N pulse amplifying circuits which are connected in parallel to the oscillator as well as to the other electrode of the power supply, and each of which amplifies the pulse signal and supplies the amplified pulse signal to a corresponding one of N electrodes disposed in the N vacuum chambers; and at least (N−1) timing generating circuits which are connected between the oscillator and at least (N−1) pulse amplifying circuits, and which delay the pulse signal by respectively different delay times so that at any specific time, the pulse signal is supplied to only one of the pulse amplifying circuits. | 05-17-2012 |
20160039056 | METHOD FOR MANUFACTURING HEAT EXCHANGER, AND HEAT EXCHANGER - A method for manufacturing a heat exchanger includes: assembling a plurality of heat exchanger components in an assembly step; and forming a film on surfaces of the heat exchanger components using a chemical vapor deposition method in a film formation step after the assembly step. The film can restrict a formation of a through hole due to corrosion. The film can be restricted from being damaged at a delivery or assembling time, because the film formation step is provided after the assembly step. An occurrence of clogging can be restricted at a minute portion inside of the heat exchanger in the film formation step, because the film is formed using the chemical vapor deposition method. | 02-11-2016 |
Shigeo Tera, Gunma-Ken JP
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20110077791 | ELECTRICAL EQUIPMENT MANAGEMENT SYSTEM - An electrical equipment management system includes: a total electrical energy information acquiring unit disposed in a building having a plurality of sections, the unit to acquire total electrical energy information indicative of total electrical energy consumed in a whole of the sections; an individual electrical energy acquiring unit to acquire individual electrical energy information indicative of electrical energy consumption in each section depending on the total electrical energy; and a control information output unit to output control information for controlling operation of electrical equipment disposed in the sections so that electrical energy consumption thereof does not exceed an upper limit, in accordance with difference between the individual electrical energy information and upper limit information indicative of an upper limit of electrical energy consumption for each predetermined period for each of the sections as well as remaining period information indicative of a remaining period before a lapse of the predetermined period. | 03-31-2011 |
20110186644 | AIR-CONDITIONING CONTROL APPARATUS - An air-conditioning control apparatus for controlling an air conditioner configured to supply conditioned air into a space to be air-conditioned so that a temperature of a predetermined section in a plurality of sections in the space to be air-conditioned becomes a set temperature, the air-conditioning control apparatus comprising: | 08-04-2011 |
Takahiro Tera, Obu-Shi JP
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20150332825 | REACTOR - A reactor includes a laminated core formed by laminating soft-magnetic ribbons in a lamination direction. The laminated core has a gap formed across a magnetic path direction in the laminated core. The laminated core also has a flat facing surface that faces the gap and a pair of flat side surfaces that are respectively on opposite sides of the facing surface in the lamination direction. The laminated core further has a pair of first corner curved surfaces that are formed between the facing surface and the pair of side surfaces. Each of the first corner curved surfaces has a width in the lamination direction greater than the thickness of each of the soft-magnetic ribbons. For each of the first corner curved surfaces, a length of the first corner curved surface in the magnetic path direction is greater than the width of the first corner curved surface in the lamination direction. | 11-19-2015 |