Usugi
Koudai Usugi, Kawasaki-Shi JP
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20150272174 | METHOD OF PRODUCING STARCH-CONTAINING FOOD AND ENZYME PREPARATION FOR MODIFYING STARCH-CONTAINING FOOD - Starch-containing foods having improved physical properties and taste may be obtained by adding a branching enzyme and an α-glucosidase. | 10-01-2015 |
Shinichi Usugi, Chiba-Shi, Chiba JP
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20100063246 | POLYMERIZABLE COMPOSITION, RESIN USING THE SAME, OPTICAL COMPONENT AND LENS - Disclosed is a polymerizable composition containing a compound represented by the general formula (1) below and a bluing agent, | 03-11-2010 |
Shinichi Usugi, Chiba JP
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20090076208 | POLYMERIZABLE COMPOSITION, RESIN USING SAME, OPTICAL COMPONENT AND LENS - A polymerizable composition including a compound represented by the following formula (1) and elemental sulfur. (In the following formula (1), M represents a metal atom; X | 03-19-2009 |
20090192288 | POLYMERIZABLE COMPOSITION, RESIN USING THE SAME, OPTICAL COMPONENT AND COMPOUND - Disclosed is a polymerizable composition containing a compound represented by the following general formula (1), | 07-30-2009 |
20100298519 | POLYMERIZABLE COMPOSITION, AND RESIN AND OPTICAL PART USING THE SAME - A polymerizable composition including a compound represented by following General Formula (1): | 11-25-2010 |
20110040065 | POLYESTER RESIN, PRODUCTION PROCESS THEREFOR AND USE THEREOF - Polyester resins (C) of the invention have a practically sufficient high molecular weight and a high crystallinity and have an amide group in the molecular chain. Processes for producing the polyester resins are also disclosed. In detail, the polyester resins (C) have a practically sufficient high molecular weight and a high crystallinity and have a biodegradable amide group in the molecular chain. Processes for producing the polyester resins are also disclosed. | 02-17-2011 |
20120025674 | PIEZOELECTRIC POLYMER MATERIAL, PROCESS FOR PRODUCING SAME, AND PIEZOELECTRIC ELEMENT - The invention provides a piezoelectric polymer material including a helical chiral polymer having a weight average molecular weight of from 50,000 to 1,000,000 and having optical activity, the piezoelectric polymer material having a piezoelectric constant d | 02-02-2012 |
20120095169 | POLYLACTIC ACID-BASED RESIN, PROCESS FOR PRODUCING POLYLACTIC ACID-BASED RESIN, POLYLACTIC ACID RESIN COMPOSITION, STEREOCOMPLEX POLYLACTIC ACID RESIN COMPOSITION AND PROCESS FOR PRODUCING STEREOCOMPLEX POLYLACTIC ACID RESIN COMPOSITION - The invention provides a polylactic acid-based resin having a high molecular weight, high heat resistance and an amide bond in its molecular chain, a production process and a use thereof. The polylactic acid-based resin comprises a constituting unit represented by the following formula (1) and which is obtained by allowing a polyisocyanate compound to react with a mixture comprising at least a poly (L-lactic acid) in which the percentage of the terminal functional group which is a carboxyl group exceeds 50% and a poly (D-lactic acid) in which the percentage of the terminal functional group which is a carboxyl group exceeds 50%. | 04-19-2012 |
Shinichi Usugi, Chiba-Shi JP
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20140011965 | BIODEGRADABLE RESIN COMPOSITION AND MOLDED ARTICLE OF THE SAME - Disclosed are a biodegradable resin composition comprising a copolymer (A) with a weight average molecular weight of 1,000 to 30,000, which comprises a constituent unit (a-1) derived from a multivalent carboxylic acid except for an amino acid and a constituent unit (a-2) derived from a hydroxycarboxylic acid, and a biodegradable resin (B), which has excellent hydrolyzability and excellent transparency; and a biodegradable molded article composed of this biodegradable resin composition. | 01-09-2014 |
20140322474 | ADHESIVE RESIN COMPOSITION, LAMINATE, AND SELF-STRIPPING METHOD - An adhesive resin composition of the present invention includes an expandable sticky polymer having a structure derived from a Meldrum's acid derivative, or a Meldrum's acid derivative represented by the following general formula (1) and an adhesive resin. | 10-30-2014 |
Shinichi Usugi, Ichihara-Shi JP
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20130005934 | Polymerizable Composition, and Resin and Optical Part Using the Same - A polymerizable composition including a compound represented by following General Formula (1): | 01-03-2013 |
Tatsunari Usugi, Inagi JP
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20120307874 | CDR CIRCUIT, RECEIVER, AND TRANSMITTING-RECEIVING SYSTEM - A CDR circuit, a receiver, and a transmitting-receiving system weight the output of the nonlinear phase detector that receives received data and the recovery clock on the basis of whether a clock out-of-phase with the recovery clock lags or leads in phase with respect to the received data, and adjust the phase of the recovery clock on the basis of the weighted output. | 12-06-2012 |
Tatsunori Usugi, Hamura JP
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20110175648 | PHASE-FREQUENCY COMPARATOR AND SERIAL TRANSMISSION DEVICE - Disclosed is a phase-frequency comparator stabilizing a loop band width by a simple circuit, there is provided a phase-frequency comparator which is a phase-frequency comparator of inputting a reference clock and a feedback clock and outputting an up signal to a frequency synthesizer and a down signal to the frequency synthesizer, which is provided with a first phase-frequency comparing circuit, a second phase comparing circuit, and a delay circuit portion inputting the reference clock and the feedback clock and providing a predetermined relative delay to an input of the first phase-frequency comparing circuit and an input of the second phase comparing circuit, in which frequency comparison is carried out by the first phase-frequency comparing circuit, and phase comparison is carried out by the first phase-frequency comparing circuit and the second phase comparing circuit controlling a latch. | 07-21-2011 |
20110234274 | SEMICONDUCTOR DEVICE - A digital compensation phase locked loop circuit of a semiconductor device includes a phase locked loop circuit including a voltage controlled oscillator having capacitors at oscillation nodes and consecutively controlled by an applied voltage, and a digital compensation circuit which variably controls the capacitors at the oscillation nodes of the voltage controlled oscillator in accordance with an input phase difference. A gain of the conventional voltage controlled oscillator whose gain is determined by an applied voltage is discretely changed by a control signal of the digital compensation circuit. The digital compensation circuit dynamically controls the gain so as to secure the optimum phase margin by applying a load (capacitor) to the oscillation node of the voltage controlled oscillator with respect to a phase lead and decreasing the load (capacitor) with respect to a phase delay. | 09-29-2011 |
Tatsunori Usugi, Inagi JP
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20120187986 | LATCH CIRCUIT, CDR CIRCUIT, AND RECEIVER - A receiving circuit that consumes less electric power is provided. The present invention provides a latch circuit that latches a differential signal by interrupting an electric current generated by a differential input using a corresponding differential output when the differential signal is differentially amplified. By using the latch circuit, transmitted data can be received even if the voltage difference of the differential signal components of the received signal is small. As a result, the number of amplifiers can be reduced, thereby enabling the power consumption of the receiver to be reduced. | 07-26-2012 |
20120188013 | RECEIVING CIRCUIT, SEMICONDUCTOR DEVICE INCLUDING THE SAME, AND INFORMATION PROCESSING SYSTEM - In a receiving circuit, and in a semiconductor device and an information processing system including the receiving circuit, the receiving circuit is configured to amplify a high-speed signal by a greater gain than a low-speed signal with a low electric power consumption. The receiving circuit includes a first amplifier and a second amplifier having a cutoff frequency lower than a cutoff frequency of the first amplifier. A received signal is inputted to the first amplifier and the second amplifier, an output from the second amplifier is subtracted from an output from the first amplifier, and a result is outputted from the receiving circuit. | 07-26-2012 |
Toshihiro Usugi, Hiroshima JP
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20110174869 | JOINING METHOD OF HIGH CARBON STEEL FOR ENDLESS HOT ROLLING AND THE APPARATUS THEREFOR - An endless hot rolling material shear-joining method capable of threading hot rolling materials in a finish rolling process without strip breakage by controlling joining conditions for the hot rolling materials in an endless hot rolling process for high carbon steel, and an endless hot rolling plant therefor are disclosed. The shear-joining method for endless hot rolling materials of high carbon steel includes shear-joining high carbon steel metal bars comprising, in terms of weight %, 0.30% to 1.20% C, inevitable impurities, and balance Fe, or comprising 0.15% to 1.5% C containing at least one of Cr, Ni, Mo, V, Ti, W, B, Nb, and Sb, inevitable impurities, and balance Fe, such that a joined surface of the joined metal bars is formed to be inclined in a thickness direction of the metal bars, in a hot rolling plant by a joiner adapted to join the metal bars after overlapping tail part of a leading one of the metal bar and top part of a trailing metal bar. | 07-21-2011 |
20130014553 | MANUFACTURING APPARATUS AND MANUFACTURING METHOD OF HOT-ROLLED STEEL SHEET - Provided is a manufacturing apparatus and manufacturing method of hot-rolled steel sheet which enables uniform cooling of a rolled material and improvement of the surface properties thereof. The manufacturing apparatus comprises: a rolling stand; a supplying device capable of supplying lubricant to work rolls and/or backup rolls; an online roll grinding device; and a removing device capable of removing at least part of the lubricant before the surface of the work rolls is ground by the grinding device. The manufacturing method comprises the steps of: removing at least part of the lubricant adhered to the work rolls, or to the work rolls and backup rolls using the lubricant removing device after completing rolling of a preceding material; grinding the work rolls using the online roll grinding device after the removing step; and supplying the lubricant to the work rolls and/or backup rolls from the lubricant supplying device. | 01-17-2013 |