Kashiwaya, JP
Makoto Kashiwaya, Kanagawa JP
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20080236498 | VACUUM FILM DEPOSITION APPARATUS - There is provided a vacuum film deposition apparatus which forms a film on a substrate by a vacuum film deposition technique, include: substrate holding means for holding the substrate; a deposition preventing member for preventing film deposition at undesired positions within the apparatus; and contacting means for bringing the substrate or the substrate holding means and the deposition preventing member into contact with each other. | 10-02-2008 |
20080286461 | VACUUM EVAPORATION METHOD - The vacuum evaporation method provides a heating element between an evaporation source of a film-forming material and a substrate; and forms a phosphor layer of an alkali halide-based phosphor on a surface of said substrate by vacuum evaporation while causing the heating element to generate heat at a temperature t (° C.) satisfying Formula (1): | 11-20-2008 |
Motofumi Kashiwaya, Tokyo JP
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20120159089 | Integrated device - An integrated device able to simplify interconnects up to memories, able to prevent a reduction of performance due to an increase of area and longer interconnects, and able to speed up memory access. An input/output port of a processing module, memory interfaces, and memory banks are connected by connection interconnects arranged in a matrix in a first direction and a second direction above an arrangement region of a plurality of memory macros. As connection interconnects, command information interconnects and data interconnects are included. The command information interconnects are formed by private interconnects, while the data interconnects are formed by private interconnects for at least the second direction interconnects. | 06-21-2012 |
20120185859 | METHODS AND SYSTEMS FOR PROGRAM ANALYSIS AND PROGRAM CONVERSION - History memory | 07-19-2012 |
Tomoyuki Kashiwaya, Ebina-Shi, Kanagawa JP
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20150352956 | DISPLAY CONTROL DEVICE FOR VEHICLE AND DISPLAY CONTROL METHOD FOR VEHICLE - Information display is performed, in which recognizability of information regarding a driving support control is relatively good even in a situation where a driving load is relatively large, the information display not annoying a driver. A display controller displays a support state displaying image, which is an image having a configuration in which a vehicle image is superimposed on a mesh image as a mesh-like planar image, on a liquid crystal display device provided in a meter panel of a meter device. In addition, upon having determined that a driving support control implemented by a driving support device is operating, the display controller performs a display control to change a display mode of a mesh image portion of the support state displaying image, which is to be displayed on the liquid crystal display device, to a preset display mode. | 12-10-2015 |
Tomoyuki Kashiwaya, Ebina-Shi JP
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20090024279 | IN-LANE RUNNING SUPPORT SYSTEM, AUTOMOBILE AND IN-LANE RUNNING SUPPORT METHOD - The in-lane running support system includes a steering input device and a steering input detector. The in-lane running support system further comprises a reaction force device that changes a condition of the steering input device between a normal operation mode that provides a normal reaction force to the driver, and a hapthic operation mode that performs a notification operation to the driver, a turning output device that is in a state mechanically disconnected from the steering input device and that turns steerable wheels, and a turning output controller. A running state detecting device acquires information of a running state of the vehicle with respect to a lane. An in-lane running support device controls the turning output device and the haptic device based on the information of the running state such that the vehicle runs in the lane, and has a first control mode that controls the turning output control device and causes the reaction force device to operate in the normal operation mode, and a second control mode that controls the turning output control device and causes the reaction force device to operate in the haptic operation mode. | 01-22-2009 |
20100222965 | VEHICLE DRIVING OPERATION SUPPORT APPARATUS/METHOD AND VEHICLE - A motor vehicle includes a vehicle driving operation support system. The vehicle driving operation support system senses an environment surrounding the motor vehicle; senses a traveling condition of the motor vehicle; calculates a risk potential of the motor vehicle on a basis of the sensed environment and the sensed traveling condition; controls the motor vehicle on a basis of a control setpoint. The vehicle driving operation support system sets on a basis of the calculated risk potential the control setpoint to a provisional setpoint effective for reducing the risk potential; senses driver's operation in reaction to the controlling operation with the control setpoint set to the provisional setpoint; and sets the control setpoint to a normal setpoint on a basis of the sensed driver's operation. | 09-02-2010 |
Toshikatsu Kashiwaya, Inazawa-City JP
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20090152996 | Piezoelectric/electrostrictive membrane element - Disclosed is a piezoelectric/electrostrictive membrane element having a large flexural displacement with suppressed disadvantages such as the generation of a micro crack and a lattice defect due to a concentrated stress. The element includes a substrate of a ceramic material, a membranous piezoelectric/electrostrictive portion including a piezoelectric/electrostrictive body constituted of a large number of crystal particles | 06-18-2009 |
Toshikatsu Kashiwaya, Inazawa JP
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20090189112 | PIEZOELECTRIC/ELECTROSTRICTIVE CERAMICS AND PROCESS FOR PRODUCING THE SAME - Piezoelectric/electrostrictive ceramics are provided, which exhibit only a small change in properties after polarization, high insulating properties, and narrow variations in durability. A piezoelectric/electrostrictive element has a laminated structure in which an electrode film, a piezoelectric/electrostrictive film, another electrode film, another piezoelectric/electrostrictive film, and another electrode film are laminated in order of mention on a thin portion of a substrate. The piezoelectric/electrostrictive films are ceramic films that include a perovskite oxide containing lead as an A-site component and magnesium, nickel, niobium, titanium, and zirconium as B-site components. Crystal grains in the piezoelectric/electrostrictive films have a core/shell structure with the shell portion having a higher concentration of nickel than the core portion and with the core portion having a higher concentration of magnesium than the shell portion. Such piezoelectric/electrostrictive films can be formed by firing a piezoelectric/electrostrictive material powder synthesized from a columbite compound. | 07-30-2009 |
20090267446 | PIEZOELECTRIC/ELECTROSTRICTIVE CERAMICS AND PIEZOELECTRIC/ELECTROSTRICTIVE DEVICE - The piezoelectric/electrostrictive properties and mechanical durability of a piezoelectric/electrostrictive ceramic can be improved. A piezoelectric/electrostrictive device has a laminated structure in which an electrode film, a piezoelectric/electrostrictive film, an electrode film, an piezoelectric/electrostrictive film, and an electrode film are laminated in the order mentioned on a thin portion of a substrate. The piezoelectric/electrostrictive films are ceramic films with a matrix of perovskite oxide that contains lead (Pb) as an A-site component and nickel (Ni), aluminum (Al), niobium (Nb), zirconium (Zr), and titanium (Ti) as B-site components. The piezoelectric/electrostrictive films are formed by firing as a unit the substrate that contains aluminum oxide and an intermediate coating film of perovskite oxide that contains components other than aluminum so that aluminum oxide is diffused from the substrate to the intermediate coating film. | 10-29-2009 |
20110234044 | PIEZOELECTRIC/ELECTROSTRICTIVE CERAMIC, MANUFACTURING METHOD FOR PIEZOELECTRIC/ELECTROSTRICTIVE CERAMIC, PIEZOELECTRIC/ ELECTROSTRICTIVE ELEMENT, AND MANUFACTURING METHOD FOR PIEZOELECTRIC/ELECTROSTRICTIVE ELEMENT - Provided is a piezoelectric/electrostrictive ceramic which produces large electric-field induced strain without performing an aging treatment for a long period of time. A piezoelectric/electrostrictive ceramic sintered body in which the ratio of the number of ions at A sites to the number of ions at B sites in a perovskite structure is at least 0.94 to at most 0.99 is subjected to an oxygen heat treatment at a temperature of 600 to 1050° C. for 2 to 100 hours under an atmosphere with an oxygen partial pressure of 0.05 to 1.0 atm. | 09-29-2011 |
Toshikatsu Kashiwaya, Nagoya-City JP
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20110006639 | PIEZOELECTRIC MATERIAL/ELECTROSTRICTIVE MATERIAL, PIEZOELECTRIC/ELECTROSTRICTIVE CERAMICS COMPOSITION, PIEZOELECTRIC ELEMENT/ELECTROSTRICTIVE ELEMENT, AND PIEZOELECTRIC MOTOR - There is provided a piezoelectric element/electrostrictive element having little decease of Qm even in a high electric field in the case of a piezoelectric element. The piezoelectric body/electrostrictive body is characterized in that the rate of Qm in an electric field of 10 V/mm is 30% or more with respect to Qm in an electric field of 1 V/mm. | 01-13-2011 |
Toshikatsu Kashiwaya, Inazawa-Shi JP
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20140292156 | PIEZOELECTRIC/ELECTROSTRICTIVE ELEMENT AND WIRING SUBSTRATE - A piezoelectric/electrostrictive element includes a substrate, an adhesive layer, a first conductive layer, an anchor portion and a second conductive layer. The substrate contains a ceramic as a main component. The substrate has a main surface. The adhesive layer is formed on the main surface of the substrate. The adhesive layer contains a metal oxide as a main component. The first conductive layer is formed on the adhesive layer. The anchor portion is formed on the adhesive layer. The anchor portion is embedded in the conductive layer. The anchor portion contains glass as a main component. The second conductive layer is disposed opposite to the first conductive layer with the substrate located in-between. | 10-02-2014 |
Yoshiaki Kashiwaya, Sapporo-Shi JP
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20100031777 | ORE TREATING METHOD, ORE TREATING APPARATUS, IRON MANUFACTURING METHOD, AND IRON AND STEEL MANUFACTURING METHOD - An ore containing crystal water (bond water) is heated to dehydrate the crystal water in the form of water vapor, thereby rendering the ore porous to generate a porous ore. Next, the porous ore is forced into contact with a dry-distilled gas (organic gas) obtained by dry-distillation of an organic substance such as wood and the like or an organic liquid such as tar and the like. An organic compound such as tar and the like contained in the dry-distilled gas or organic liquid adheres to the surface of the porous ore. Next, the porous ore adhered with an organic compound is heated at 500° C. or higher, to generate an ore in which a part of an oxide of an element such as iron and the like contained is reduced by carbon in the organic compound. | 02-11-2010 |