Takeda, Yokohama
Hajime Takeda, Yokohama JP
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20150351113 | PORTABLE ELECTRONIC DEVICE - A portable electronic device of an embodiment has a communication section, a selection section, and a processing section. The communication section can communicate with an external device by a plurality of channels. The selection section selects a specification of class information which indicates a class of a command and included information indicating a channel number of the channel, from a plurality of the specifications of class information, based on prescribed information which is held in an own device and can be changed after a power source has been supplied. The processing section can execute command processings corresponding to a plurality of the specifications of class information, and when the communication section receives a command having the class information, executes the command processing corresponding to the specification of class information that the selection section has selected. | 12-03-2015 |
Hiroki Takeda, Yokohama JP
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20150027131 | Axial Compressor, Gas Turbine with Axial Compressor, and its Remodeling Method - An axial compressor includes: a rotor as a rotational shaft; a plurality of rotor blades mounted on the rotor; a compressor casing that covers the rotor and the rotor blades; a plurality of stator vanes mounted on the compressor casing. The rotor blades and the stator vanes are each disposed in a circumferential direction of the rotational shaft to form a rotor-blade cascade and a stator-vane cascade, respectively. The rotor-blade cascade and the stator-vane cascade are arranged in plural rows, respectively, in an axial direction of the rotational shaft. The stator vane has a dovetail as a base for supporting a vane section. The compressor casing has a dovetail groove formed therein. The dovetail groove extends in the circumferential direction of the rotational shaft to receive the dovetail inserted therein to fix the stator vanes. Two or more stator vanes, the stator vanes belonging to stator-vane cascades different from each other, are fixed in the dovetail groove. | 01-29-2015 |
Kouji Takeda, Yokohama JP
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20150085913 | DATA RECEIVING CIRCUIT AND SEMICONDUCTOR DEVICE - A data receiving circuit that can accurately obtain a data signal corresponding to information data from a high speed high density transmitted signal, and a semiconductor device including the data receiving circuit. The amplitude of a first differential signal corresponding to a level difference between a pair of received differential signals, generated in a first differential stage, is amplified and binalized to obtain a received data signal. A second differential signal corresponding to the level difference between the received differential signals, and a third differential signal which is a phase-inverted signal of the second differential signal are generated in a second differential stage provided separately, and a current corresponding to the second differential signal and a current corresponding to the third differential signal are discharged into the respective ones of the pair of transmission lines, thereby suppressing the amplitudes of the received differential signals. | 03-26-2015 |
Kuniaki Takeda, Yokohama JP
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20150144769 | INSPECTION APPARATUS AND INSPECTION METHOD - An inspection apparatus and an inspection method capable of performing an inspection more accurately are provided. An inspection apparatus according to the present invention includes a light source | 05-28-2015 |
Naomi Takeda, Yokohama JP
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20150193301 | MEMORY CONTROLLER AND MEMORY SYSTEM - A controller according to one embodiment controls a memory, the memory including blocks and configured to erase data in the blocks with each of the blocks as a minimum unit. Each of the blocks includes unit memory areas each specified by an address. The controller is configured to add a code for error correction to received data to generate a data unit, divide the data unit into data unit sections, and write the data unit sections in unit memory areas of respective blocks, the unit memory areas having different addresses. | 07-09-2015 |
20150212884 | MEMORY CONTROLLER, STORAGE DEVICE, AND MEMORY CONTROL METHOD - According to one embodiment, a storage device includes an encoder, a nonvolatile memory that stores user data and a parity, a magnetic disk, and a management unit that holds correspondence between a logical address and a first physical address as first conversion information, and holds correspondence between the first physical address and a second physical address as second conversion information, with the second physical address including media information indicating a medium of a storage destination and information indicating a storage position. When the user data stored in the nonvolatile memory is to be moved to the magnetic disk, the management unit updates the second physical address of the user date in the second conversion information, to a value indicating a storage destination after the movement. | 07-30-2015 |
Takuya Takeda, Yokohama JP
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20150135722 | SYSTEM AND METHOD OF CONTROLLING A TWO-SHAFT GAS TURBINE - A two-shaft gas turbine control system and method are provided that can enhance the efficiency and reliability thereof by controlling the amount of intake air spray and the rotational speed of a high-pressure turbine in accordance with the aperture of an inlet guide vane in a state where a two-shaft gas turbine is being operated with the efficiency of its compressor reduced. | 05-21-2015 |
Yasushi Takeda, Yokohama JP
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20150128559 | Advanced Humid Air Gas Turbine System - One of the objects of the invention is to provide a water-saving type advanced humid air gas turbine system (AHAT) that can decrease the amount of makeup water to be supplied from the outside, by reducing the amount of water consumed when the gas turbine system is starting up, shut down, or subjected to load rejection. | 05-14-2015 |
Yoshiro Takeda, Yokohama JP
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20130042099 | ELECTRONIC APPARATUS, SYSTEM AND MEDIUM FOR STORING PROGRAM - An electronic apparatus includes a processor and a memory coupled to the processor. The processor executes a process including calculating a first accumulated time during which the battery device feeds power to the electronic apparatus while being attached to the electronic apparatus in a first attachment state in which a first surface of the battery device faces a reference surface provided in the electronic apparatus, calculating a second accumulated time during which the battery device feeds power to the electronic apparatus while being attached to the electronic apparatus in a second attachment state in which a second surface of the battery device faces the reference surface, the second surface being different from the first surface, and providing an instruction to change an attachment state of the battery device when a difference between the first accumulated time and the second accumulated time exceeds a given time. | 02-14-2013 |