||WO||WO/2014/184942 - SECURITY MANAGEMENT SYSTEM, DEVICE, AND METHOD||20.11.2014||
||PCT/JP2013/063749||HITACHI, LTD.||SAITO, Nao|
Provided is a security management device that: makes an inquiry to a communication agent device and thereby acquires constituent device information that is information relating to a constituent device in a control system and protocol identification information that makes it possible to identify a protocol that is used by the constituent device for communication; and uses the protocol that is identified using the protocol identification information to make an inquiry to the constituent device on the basis of the constituent device information and thereby acquire security setting information that is information relating to a security setting that is set in the constituent device. The communication agent device receives the inquiry from the security management device and reports the constituent device information and the protocol identification information to the security management device.
||WO||WO/2014/184821 - BUSINESS INFORMATION MANAGEMENT SERVER AND BUSINESS INFORMATION MANAGEMENT PROGRAM||20.11.2014||
||PCT/JP2013/003069||IPS CO., LTD.||AKITA, Toshifumi|
A business information management server (10) is provided with a business DB (11) for storing business information, and a business response assistance DB (12) for storing business response assistance information in which a response procedure corresponding to the content of a business response is indicated in order to assist with a business response operation for a business response in user terminals (31-3N) used by a user. According to a request for business response assistance from a user terminal (31), the business information management server (10) presents a response procedure by referring to the business response assistance information, accepts a business response operation conforming to the presented response procedure, and executes an operation response process corresponding to the accepted business response operation.
||WO||WO/2014/184825 - METHOD FOR TREATING INNER WALL SURFACE OF EMPTY MICROCHAMBER||20.11.2014||
||PCT/JP2013/003108||TOHOKU UNIVERSITY||SAKAI, Takeshi|
Provided is a method for treating the inner wall surface of a hole that makes it possible to reliably perform etching and cleaning even when a hole that is provided to a substrate to be treated is, for example, a narrow and deep hole. A substrate (100) comprises a surface to which a treatment liquid (106) is applied and an empty microchamber (104) that is within the substrate (100) and that has an opening (110) on the surface. The aspect ratio (l/r) of the empty microchamber (104) is 5 or more, or the aspect ratio is less than 5 and V/S (V is the volume of the empty microchamber and S is the area of the opening) is 3 or more. The substrate (100) is installed in a treatment space. Next, the interior of the empty microchamber (104) is exposed to an environment for the formation of a silicon oxide film and a silicon oxide film (201) is formed on the inner wall surface of the empty microchamber (104). The treatment liquid (106) is subsequently introduced to the treatment space and the inner wall surface of the empty microchamber (104) is treated.
||WO||WO/2014/184873 - METHOD FOR MANUFACTURING COMPONENT-EMBEDDED SUBSTRATE, AND COMPONENT-EMBEDDED SUBSTRATE||20.11.2014||
||PCT/JP2013/063432||MEIKO ELECTRONICS CO., LTD.||TODA, Mitsuaki|
In a method for manufacturing a component-embedded substrate (20), a through via (16) is formed after forming an outer metal layer (14), said through via penetrating a first insulating layer (5) and a second insulating layer (11) from the outer metal layer (14), and reaching a second terminal (4b) of an IC component (4).
||WO||WO/2014/184853 - HYBRID VEHICLE DRIVE SYSTEM||20.11.2014||
||PCT/JP2013/063321||TOYOTA JIDOSHA KABUSHIKI KAISHA||OKUWAKI, Shigeru|
This drive system (10A) is provided with: a first planetary gear mechanism (21), wherein a carrier (C1) is connected to an internal combustion engine (11), a sun gear (S1) is connected to a first motor-generator (MG) (12), and a ring gear (R1) is connected, via a first drive gear (24) and a first driven gear (25), to a counter shaft (15) so as to be able to transmit rotation; and a second planetary gear mechanism (22), wherein a brake (23) is disposed on a sun gear (S2), a carrier (C2) is connected to the internal combustion engine (11), and a ring gear (R2) is connected, via a second drive gear (26) and a second driven gear (27), to the counter shaft (15) in such a manner as to be able to transmit rotation. Moreover, a value is set for a gear ratio (γ1) of the first drive gear (24) and the first driven gear (25) that is larger than a gear ratio (γ2) of the second drive gear (26) and the second driven gear (27).
||WO||WO/2014/184839 - SILICON-CARBIDE SEMICONDUCTOR DEVICE||20.11.2014||
||PCT/JP2013/063265||HITACHI, LTD.||MATSUSHIMA, Hiroyuki|
In this silicon-carbide semiconductor device, a second p-type termination region (7) provided on an n-type drift layer (2) further towards an active region (AR) than a first p-type termination region (8) is has a higher impurity concentration than said first p-type termination region (8). Also, in said first p-type termination region (8) and second p-type termination region (7), charge-compensation regions (8a, 7a) formed on the top-surface side of the n-type drift layer (2) have higher impurity concentrations than charge-relaxation regions (8b, 7b) that are deeper than said charge-compensation regions (8a, 7a). As such, even if the charge of a silicon-oxide film (11) that covers the n-type drift layer (2) in a terminal region (TR) varies, complete depletion of the first p-type termination region (8) can be delayed, making it possible to obtain a stable, high withstand voltage.
||WO||WO/2014/184824 - PLASMA TREATMENT DEVICE AND SEALING METHOD THEREFOR||20.11.2014||
||PCT/JP2013/003107||TOHOKU UNIVERSITY||HIRAYAMA, Masaki|
Provided is a plasma treatment device in which the properties of a film formed by plasma treatment can be improved. This invention has: a treatment chamber (10) for defining a sealed space (11); a plasma-forming electrode (36) provided in the sealed space; an interior conductor (21) extending from the exterior of the treatment chamber (10) toward the plasma-forming electrode (36) through an opening (13h) formed in the treatment chamber (10); exterior conductors (22, 13) surrounding the periphery of the interior conductor (21), and defining the opening (13h) and a void (23) bounded on one side by the interior conductor (21); a sealing member (60) for dividing the void (23) into an atmosphere-side space and a space communicating with the sealed space (11), the sealing member (60) being formed from an insulator and being connected to the interior conductor (21) and the exterior conductors (22, 13); and an anti-discharge insulator (100) for filling a portion of the void (23) corresponding to the space formed on the sealed-space (11) side relative to the sealing member (60).
||WO||WO/2014/184836 - HYDRAULIC SHOCK ABSORBER||20.11.2014||
||PCT/JP2013/063249||TOYOTA JIDOSHA KABUSHIKI KAISHA||OGAWA, Kazuo|
A hydraulic shock absorber comprising a cylinder (10) and a variable valve (12), capable of changing damping force by controlling this variable valve (12), and having provided therein: a first valve mechanism (78) that permits flow of hydraulic fluid to a rod-side chamber (30) from a chamber (32) on the opposite side from the rod, in a state in which a first resistance is applied; and a second valve mechanism (84) that permits flow of hydraulic fluid to a buffer chamber (40) from the chamber on the opposite side from the rod, in a state in which a second resistance is applied. The hydraulic shock absorber adjusts the first and second resistances such that when the cylinder contracts, an amount of hydraulic fluid corresponding to the capacity increase in the rod-side chamber flows from the chamber on the opposite side from the rod to the rod-side chamber, and such that an amount of hydraulic fluid flows from the chamber on the opposite side from the rod to the buffer chamber, said amount corresponding to the amount the capacity increase in the rod-side chamber has decreased as a result of the decrease in capacity of the chamber on the opposite side from the rod. The hydraulic shock absorber is capable of making relatively large changes to the damping force when the cylinder is switching from expansion to contraction, without relying on variable valve control, as a result of being capable of generating a fixed damping force during contraction.
||WO||WO/2014/184838 - ENDLESS METAL RING MANUFACTURING METHOD AND ENDLESS METAL RING RESIN REMOVAL DEVICE||20.11.2014||
||PCT/JP2013/063260||TOYOTA JIDOSHA KABUSHIKI KAISHA||KOGA Mitsue|
Provided is an endless metal ring manufacturing method for manufacturing an endless metal ring (110) by carrying out a barrel polishing step (pr5) for polishing the endless metal ring (110) by using a barrel of a resin material, a rolling step (pr7) for rolling the endless metal ring (110) which was cleaned, and a nitriding step for nitriding the endless metal ring (110) which was rolled, wherein after the barrel polishing step (pr5) and before the rolling step (pr7), provided is a resin removing step (pr6) for removing resin that has adhered to the endless metal ring (110).
||WO||WO/2014/184826 - ELECTRICALLY ASSISTED BICYCLE||20.11.2014||
||PCT/JP2013/003109||PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.||KAWAKAMI, Masafumi|
Provided is an electrically assisted bicycle that can detect torque using a magnetostrictive torque sensor, and that can maintain satisfactory torque detection capability while detecting rotation of a crankshaft or the like. Placed on the outer periphery of a crankshaft (7a) are a tubular input transmission body (28) on which a torque sensor (31) for detecting input drive force is formed, an intermediate tube body (23) to which input drive force from the input transmission body (28) is transmitted, and a coupling body (29) to which input drive force from the intermediate tube body (23) is transmitted. Between the intermediate tube body (23) and the coupling body (29), a one-way clutch (30) is placed and there is provided a rotation detector (10) for detecting rotation of a rotating body (11) attached to the intermediate tube body (23), an optical sensor being used as the rotation detector (10).