Negami
Akihiko Negami, Susono-Shi JP
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20090188237 | Exhaust gas purification system for internal combustion engine - An object of the present invention is to recover the performance of an exhaust gas purification apparatus while suppressing slipping of fuel through the exhaust gas purification apparatus. When the performance of the exhaust gas purification apparatus is to be recovered at a time when the intake air quantity of the internal combustion engine is increasing (S | 07-30-2009 |
Masami Negami, Hiroshima-Shi JP
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20110126521 | EXHAUST APPARATUS FOR TRANSVERSE ENGINE - An exhaust upstream section ( | 06-02-2011 |
20110126522 | EXHAUST APPARATUS FOR TRANSVERSE ENGINE - Disclosed is an exhaust apparatus (E) for a transverse engine ( | 06-02-2011 |
Satoshi Negami, Yokohama-Shi JP
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20160119514 | IN-VEHICLE CAMERA - A front imaging portion captures the front side of a vehicle. A rear imaging portion captures the interior or the rear side of the vehicle. A casing houses the front imaging portion and the rear imaging portion. A heat sink is located between the front imaging portion and the rear imaging portion in the casing to radiate heat inside the casing. A fixing portion is located on the outer surface of the casing and between a first end and a second end of the heat sink and separated from the heat sink to fix the casing to the vehicle. An intake is located adjacent to the fixing portion at the first end to be open toward the heat sink. An outlet is located adjacent to the fixing portion at the second end to be open toward the heat sink while facing the intake with the fixing portion interposed therebetween. | 04-28-2016 |
Takayuki Negami, Osaka JP
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20090090618 | SOLAR CELL AND METHOD FOR MANUFACTURING THE SAME - It is an object of the present invention to provide a solar cell, and a method for manufacturing the same, that includes a layer having Zn, Mg, and O, and with which an increase in efficiency can be achieved. The solar cell includes a first electrode layer, a second electrode layer, a p-type semiconductor layer disposed between the first electrode layer and the second electrode layer, and a layer A disposed between the second electrode layer and the p-type semiconductor layer, the layer A includes Zn, Mg, O, and at least one element M selected from Ca, Sr, Ba, Al, In, and Ga, and photoelectromotive force is generated due to light that is incident from the second electrode layer side. | 04-09-2009 |
20120285523 | SOLAR CELL - A solar cell | 11-15-2012 |
20130112273 | SOLAR CELL - The present invention provides a semiconductor film which adapts to the solar cell in both of band gap and electric resistivity or carrier concentration. | 05-09-2013 |
Takuya Negami, Tokyo JP
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20090025511 | METHOD AND APPARATUS FOR MAKING METALLIC IRON - A method of making metallic iron in which a compact, containing iron oxide such as iron ore or the like and a carbonaceous reductant such as coal or the like, is used as material, and the iron oxide is reduced through the application of heat, thereby making metallic iron. In the course of this reduction, a shell composed of metallic iron is generated and grown on the surface of the compact, and slag aggregates inside the shell. This reduction continues until substantially no iron oxide is present within the metallic iron shell. Subsequently, heating is further performed to melt the metallic iron and slag. Molten metallic iron and molten slag are separated one from the other, thereby obtaining metallic iron with a relatively high metallization ratio. Through the employment of an apparatus for making metallic iron of the present invention, the above-described method is efficiently carried out, and metallic iron having a high iron purity can be made continuously as well as productively not only from iron oxide having a high iron content but also from iron oxide having a relatively low iron content. | 01-29-2009 |
Takuya Negami, Hyogo JP
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20120006449 | METHOD FOR PRODUCING METALLIC IRON - The present invention provides a method for producing metallic iron, which is operable at low temperature. The present invention relates to a method for producing a metallic iron, which comprises heating and reducing a raw material mixture containing a carbonaceous reducing agent and an iron oxide-containing material to produce the metallic iron, wherein the carbonaceous reducing agent has a volatile content of 20 to 60 mass %, a gas derived from the carbonaceous reducing agent is a CO—CO | 01-12-2012 |
Yuichi Negami, Ayase-Shi JP
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20100093283 | COMMUNICATION TEST DEVICE AND COMMUNICATION TEST METHOD - It is an object of the present invention to provide a communication test device which can assist in identifying a cause of the change in throughput of a mobile communication terminal. The communication test device includes accumulating means for accumulating trace data on a specific unit of data complying with a designated communication standard, and throughput data on throughput of the specific unit of data transmitted to and received from a mobile communication terminal, extracting means for extracting trace data and throughput data from the accumulating means, trace display means for displaying trace data on a display unit, throughput display means for displaying a graph of the variation with time of throughput on the display unit, and time obtaining means for obtaining a time. The extracting means is adapted to extract, from the accumulating means, trace data corresponding to time designated by an operating unit. The trace display means is adapted to display the trace data corresponding to the time on the display unit. | 04-15-2010 |
20130005271 | COMMUNICATION TEST DEVICE AND COMMUNICATION TEST METHOD - A communication test device can assist in identifying a cause of a change in throughput of a mobile communication terminal. The communication test device accumulates (a) trace data on a specific unit of data complying with a designated communication standard, and (b) throughput data on throughput of the specific unit of data transmitted to and received from a mobile communication terminal. Trace data and throughput data are extracted from the accumulation, and trace data is displayed. A graph of the variation of throughput with time is displayed on the display unit. Trace data corresponding to a time designated by an operating unit can also be displayed. | 01-03-2013 |
20130005373 | COMMUNICATION TEST DEVICE AND COMMUNICATION TEST METHOD - A communication test device can assist in identifying a cause of a change in throughput of a mobile communication terminal. The communication test device accumulates (a) trace data on a specific unit of data complying with a designated communication standard, and (b) throughput data on throughput of the specific unit of data transmitted to and received from a mobile communication terminal. Trace data and throughput data are extracted from the accumulation, and trace data is displayed. A graph of the variation of throughput with time is displayed on the display unit. Trace data corresponding to a time designated by an operating unit can also be displayed. | 01-03-2013 |