Patent application number | Description | Published |
20090222708 | ERROR CORRECTING DEVICE AND ERROR CORRECTING METHOD - An error correcting device for correcting erroneous data included in data read out from a nonvolatile memory includes a determining unit that determines whether the data read out from the nonvolatile memory include an error beyond an error correcting capability of the error correcting device. When the determining unit has determined that an error beyond the error correcting capability exists, the error correcting device does not perform the correction of the error. | 09-03-2009 |
20120166908 | SEMICONDUCTOR STORAGE DEVICE, METHOD OF CONTROLLING THE SAME, AND ERROR CORRECTION SYSTEM - A semiconductor storage device, a method of controlling the same, and an error correction system allow reduction in power consumption and circuit scale without detriment to error correction capability. An error correction code (ECC) circuit of a solid state drive (SSD) performs first error correction on read data using a first error correction code (Hamming code), and further performs second error correction on the result of the first error correction using a second error correction code (BHC code). Furthermore, the ECC circuit performs third error correction on the result of the second error correction using a third error correction code (RS code). | 06-28-2012 |
20120246383 | MEMORY SYSTEM AND COMPUTER PROGRAM PRODUCT - According to an embodiment, a memory system includes semiconductor memories each having a plurality of blocks; a first table; a receiving unit; a generating unit; a second table; and a writing unit. The first table includes a plurality of memory areas each associated with each block and in each of which defect information is stored. The generating unit generates a set of blocks by selecting one block to which data are to be written in each semiconductor memory based on an index number indicating one of a plurality of rows in the first table and the first table. In the second table, an index number and a channel number are stored for each logical block address in association with one another. When a write command is received by the receiving unit, the writing unit writes data to a block associated with a selected channel number among blocks constituting the set. | 09-27-2012 |
20130132795 | SEMICONDUCTOR STORAGE DEVICE, METHOD OF CONTROLLING THE SAME, AND ERROR CORRECTION SYSTEM - A semiconductor storage device, a method of controlling the same, and an error correction system allow reduction in power consumption and circuit scale without detriment to error correction capability. An error correction code (ECC) circuit of a solid state drive (SSD) performs first error correction on read data using a first error correction code (Hamming code), and further performs second error correction on the result of the first error correction using a second error correction code (BHC code). | 05-23-2013 |
20130173997 | MEMORY CONTROLLER, MEMORY SYSTEM, AND MEMORY WRITE METHOD - A memory controller includes a memory interface that has multiple channels and carries out writing into a nonvolatile memory through each of the channels, a data buffer, an ECC (error correcting code) encoder for applying an error correction encoding processing on write data which are to be written into the nonvolatile memory to generate ECC data, a channel allocation part for allocating the channels to the write data and the ECC data based on a write data format of the nonvolatile memory, a write data reception processing part that stores the write data in the data buffer and outputs the write data to the ECC encoder, and a channel scheduler for transferring the write data stored in the data buffer and the ECC data to the channels of the memory interface as allocated by the channel allocation part. | 07-04-2013 |
20130297984 | SEMICONDUCTOR STORAGE DEVICE, METHOD OF CONTROLLING THE SAME, AND ERROR CORRECTION SYSTEM - A semiconductor storage device, a method of controlling the same, and an error correction system allow reduction in power consumption and circuit scale without detriment to error correction capability. An error correction code (ECC) circuit of a solid state drive (SSD) performs first error correction on read data using a first error correction code (Hamming code), and further performs second error correction on the result of the first error correction using a second error correction code (BHC code). | 11-07-2013 |
20140068378 | SEMICONDUCTOR STORAGE DEVICE AND MEMORY CONTROLLER - According to an embodiment, a semiconductor storage device includes a memory, an encoding unit that generates a parity, and a decoding unit that includes a syndrome calculating unit, an error position polynomial calculating unit, and an error searching and correcting unit, and performs an error correcting process based on data and the parity read from the memory. At the time of performing a compaction process, a process of the error searching and correcting unit is not performed, when the number of error bits acquired by an error position polynomial is equal to or less than a first threshold value based on valid data. | 03-06-2014 |
20140241096 | STORAGE DEVICE - A storage device according to an embodiment includes first and second non-volatile semiconductor memories. In addition, the storage device includes first controller that controls the first non-volatile memory to cause the first non-volatile memory to perform processes. In addition, the storage device includes second controller that controls the second non-volatile memory to cause the second non-volatile memory to perform processes. The storage device further includes a signal line which is connected to the first controller and the second controller and through which a token is transmitted between the first controller and the second controller. The first controller is capable of controlling the first non-volatile memory while holding the token and the second controller is capable of controlling the second non-volatile memory while holding the token. | 08-28-2014 |
Patent application number | Description | Published |
20080226312 | ACTUATOR, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An actuator includes: a first vibration system including a driving member having a frame shape, and a pair of first axial members each one end of which supports the driving member so as to allow the driving member to rotate about an X-axis; a second vibration system including a movable plate provided inside the driving member, and a pair of second axial members each one end of which supports the movable plate so as to allow the movable plate to rotate about a Y-axis perpendicular to the X-axis; a driving unit including a ferromagnetic member, a coil acting a magnetic field on the ferromagnetic member and a voltage applying unit applying a voltage to the coil, either one of the ferromagnetic member and the coil being disposed at a position on the driving member apart from each of the X and Y axes in a plan view of the movable plate; and a positioning portion that is disposed to the driving member and determine a fixing position of the ferromagnetic member or the coil with respect to the driving member. The movable plate rotates about each of the X and Y-axes by the voltage applying unit applying a voltage to the coil. | 09-18-2008 |
20090262409 | ACTUATOR, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An actuator includes: a first vibration system including a driving member having a frame shape, and a pair of first axial members each one end of which supports the driving member so as to allow the driving member to rotate about an X-axis; a second vibration system including a movable plate provided inside the driving member, and a pair of second axial members each one end of which supports the movable plate so as to allow the movable plate to rotate about a Y-axis perpendicular to the X-axis; a driving unit including a ferromagnetic member, a coil generating a magnetic field on the ferromagnetic; and a positioning portion that places the ferromagnetic member or the coil symmetrical with respect to an intersection point of the X and Y-axes. | 10-22-2009 |
20100118368 | LIGHT SCANNING DEVICE AND IMAGE FORMING DEVICE - A light scanning device includes a light source outputting a laser beam, a light deflecting unit having a light reflecting unit, the light deflecting unit being adapted to be rotatable about a predetermined axis and scanning an object with the laser beam reflected by the light reflecting unit, a drive controlling unit controlling a deflection angle variation in a vertical direction of the light deflecting unit per unit time so that an interval between scanning lines in the vertical direction by the light deflecting unit is constant, and a driving unit rotationally driving the light deflecting unit in accordance with an rotational angle determined by the driving controlling unit. | 05-13-2010 |
20100245962 | OPTICAL DEVICE, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An optical device includes: a movable plate disposed in a distribution range of light input from outside, and having a light reflecting surface adapted to reflect the light; a shaft member adapted to support the movable plate so that the movable plate can swing around a predetermined axis; a ferromagnetic member provided to the movable plate; and a drive section configured to generate electromagnetic force between the drive section and the ferromagnetic member to thereby swing the movable plate, wherein a portion of the drive section, included in the distribution range of the light, is formed of a surface having a normal vector with which the light is reflected to outside of a predetermined range. | 09-30-2010 |
20100265556 | ACTUATOR, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An actuator includes: a first vibration system including a driving member having a frame shape, and a pair of first axial members each one end of which supports the driving member so as to allow the driving member to rotate about an X-axis; a second vibration system including a movable plate provided inside the driving member, and a pair of second axial members each one end of which supports the movable plate so as to allow the movable plate to rotate about a Y-axis perpendicular to the X-axis; a driving unit including a ferromagnetic member, a coil generating a magnetic field on the ferromagnetic; and a positioning portion that places the ferromagnetic member or the coil symmetrical with respect to an intersection point of the X and Y-axes. | 10-21-2010 |
20110038023 | OPTICAL DEVICE, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An optical device includes: a movable plate disposed in a distribution range of light input from outside, and having a light reflecting surface adapted to reflect the light; a shaft member adapted to support the movable plate so that the movable plate can swing around a predetermined axis; a permanent magnet associated with the movable plate; and a coil generating an electromagnetic force to swing the movable plate. An upper surface of the coil is opposite to the permanent magnet, and the upper surface of the coil is formed as a plane having a predetermined angle with respect to a plane parallel to the movable plate | 02-17-2011 |
20110205611 | LIGHT SCANNING DEVICE AND IMAGE FORMING DEVICE - A light scanning device includes a light source outputting a laser beam, a light deflecting unit having a light reflecting unit, the light deflecting unit being adapted to be rotatable about a predetermined axis and scanning an object with the laser beam reflected by the light reflecting unit, a drive controlling unit controlling a deflection angle variation in a vertical direction of the light deflecting unit per unit time so that an interval between scanning lines in the vertical direction by the light deflecting unit is constant, and a driving unit rotationally driving the light deflecting unit in accordance with an rotational angle determined by the driving controlling unit. | 08-25-2011 |
20110310453 | OPTICAL DEVICE, OPTICAL SCANNER, AND IMAGE FORMING APPARATUS - An optical device includes: a movable plate disposed in a distribution range of light input from outside, and having alight reflecting surface adapted to reflect the light; a shaft member adapted to support the movable plate so that the movable plate can swing around a predetermined axis; a ferromagnetic member provided to the movable plate; and a drive section configured to generate electromagnetic force between the drive section and the ferromagnetic member to thereby swing the movable plate, wherein a portion of the drive section, included in the distribution range of the light, is formed of a surface having a normal vector with which the light is reflected to outside of a predetermined range. | 12-22-2011 |
Patent application number | Description | Published |
20080203084 | Heating apparatus for heating objects to be heated, heating method for heating the objects to be heated, and storage medium in which computer-readable program is stored - The present invention provides a heating apparatus for heating objects to be processed, which can detect a temperature of the objects to be processed with higher precision and accuracy, thereby to achieve higher precision temperature control. A heating apparatus | 08-28-2008 |
20080205864 | Heat processing furnace and vertical-type heat processing apparatus - The present invention is a heat processing furnace comprising: a processing vessel for accommodating an object to be processed and performing thereto a heat process; and a cylindrical heater disposed to surround a circumference of the processing vessel, for heating the object to be processed; wherein: the heater includes a cylindrical heat insulating member, ribbed shelf sections that are axially formed in a tier-like manner on an inner circumference of the heat insulating member, and heating resistance wires of a helical pattern that are placed along the respective shelf sections; and pin members are arranged in the heat insulating member at suitable intervals therebetween, the pin members holding the heating resistance wires such that the heating resistance wires are movable in a radial direction of the heater, while preventing dropout of the heating resistance wires from the shelf sections. | 08-28-2008 |
20080232787 | Heat processing furnace and vertical-type heat processing apparatus - There is provided a heat processing furnace capable of quickly increasing and decreasing a temperature, while achieving improvement in durability. A heat processing furnace | 09-25-2008 |
20090194521 | Thermal processing furnace - A thermal processing furnace comprises: a tubular heat insulation member | 08-06-2009 |
20090311807 | THERMAL PROCESSING APPARATUS AND THERMAL PROCESSING METHOD FOR OBJECT TO BE PROCESSED - The present invention is a thermal processing apparatus comprising: a processing vessel capable of being evacuated, the processing vessel also being capable of accommodating, in addition to a plurality of objects, an object for temperature measurement equipped with an elastic wave device; a holding unit configured to be loaded into and unloaded from the processing vessel, while the holding unit holding the plurality of objects to be processed and the object for temperature measurement; a gas introduction unit configured to introduce a gas into the processing vessel; a heating unit configured to heat the plurality of objects to be processed and the object for temperature measurement that are accommodated in the processing vessel; a first conductive member configured to function as a transmitter antenna connected to a transmitter through a radiofrequency line, for transmitting an electric wave for measurement toward the elastic wave device accommodated in the processing vessel; a second conductive member configured to function as a receiver antenna connected to a receiver through a radiofrequency line, for receiving an electric wave dependent on a temperature of the elastic wave device which is emitted from the elastic wave device accommodated in the processing vessel; a temperature analysis part configured to obtain a temperature of the object for temperature measurement based on the electric wave received by the receiver antenna; and a temperature control part configured to control the heating unit; wherein: the first conductive member is disposed as a part of a thermal processing part in the processing vessel; and the second conductive member is disposed as a part of a thermal processing part in the processing vessel. | 12-17-2009 |
Patent application number | Description | Published |
20090081524 | SEPARATOR AND FUEL CELL USING THEREOF - A fuel cell is provided therein with a metal separator for aiming at preventing corrosion and at reducing a contact resistance. The separator is compose of conductive passage board formed therein with passages, and a metal planar panel, the passage boards and the metal planar panel being superposed with one another. The metal planar panel is formed therein with a plurality of manifolds for passing reactive gas or cooling medium through an adjacent cell while the passage boards are formed therein with a plurality of meandering through channels for distributing the reactive gas or the cooling medium from the manifolds. Further, a part of the meandering through channels is superposed with a part or all parts of the manifolds, and a covering layer for preventing the metal planar panel from being corroded, and for restraining a growth of a nonconductive film is formed over an entire part of the metal planar panel or over at least a part thereof which makes contact with the meandering through channels. | 03-26-2009 |
20090291348 | ELECTROLYTE MEMBRANE FOR FUEL CELL AND METHOD OF MANUFACTURING THE SAME, MEMBRANE ELECTRODE ASSEMBLY AND FUEL CELL - The present invention provides an electrolyte membrane with high proton conductivity and low methanol permeability, a high output MEA and DMFC. The electrolyte membrane is characterized by comprising a metal oxide hydrate having proton conductivity and an organic polymer having proton conductivity. A preferable metal oxide hydrate is zirconium oxide hydrate or tungsten oxide hydrate. The composite electrolyte membrane has an ion exchange capacity of 0.75 to 1.67 meq/g as a preferable range. The composite electrolyte membrane constituted by the metal oxide hydrate and the organic polymer is provided with high proton conductivity and low methanol permeability so that MEA for DMFC with high output is provided. | 11-26-2009 |
20100291448 | FUEL CELL SYSTEM - There is provided a fuel cell system capable of minimizing the formation of a local cell even if the start and the stop are repeated, thereby substantially reducing a degradation in performance of the fuel cell. | 11-18-2010 |
20110039177 | FUEL CELL SYSTEM - The fuel cell system includes a fuel cell stack, a fuel cell temperature sensor for measuring the internal temperature of the fuel cell, a voltage sensor for measuring the power generation voltage of the fuel cell, a current sensor for measuring the current flowing from the fuel cell, a radiator for radiating heat generated by the fuel cell, a fan attached to the radiator for controlling the heat radiation amount, a cooling water pump for increasing the pressure of a cooling fluid, a bypass valve for controlling the cooling fluid amount entering the radiator, and a controller, on the basis of the voltage information measured by the voltage sensor, the temperature information measured by the temperature sensor, and the current information measured by the current sensor, for controlling at least one of the operation amount of the cooling water pump, the operation amount of the fan, and the cooling fluid amount flowing through the bypass valve. | 02-17-2011 |
20110065013 | FUEL CELL STRACK START METHOD - A fuel cell stack start method is to provide in which without relying on oxidation and reduction condition of an anode, an output reduction of the fuel cell stack can be avoided. | 03-17-2011 |
20120107722 | SEPARATOR AND FUEL CELL USING THE SAME - A separator for a fuel cell includes a metal separator (metal substrate) having projections formed by ribs, and porous members provided in a plurality of flow passages partitioned by the projections, in which a hydrophilic portion is provided in a center part of a cross section orthogonal to a flow direction in the porous member, and a water repellent portion is provided in at least a part of portions in contact with wall surfaces of the flow passage within a range of the cross section. | 05-03-2012 |
20130004869 | FUEL CELL SYSTEM - A fuel cell system having a fuel cell | 01-03-2013 |
Patent application number | Description | Published |
20080260324 | ACTIVE SENSOR, MULTIPOINT ACTIVE SENSOR, INSPECTION METHOD OF PIPE DETERIORATION AND INSPECTION APPARATUS OF PIPE DETERIORATION - An active sensor | 10-23-2008 |
20110155357 | HEAT EXCHANGER - A heat exchanger includes a shell; a pair of tube plates provided at both ends of the shell; a plurality of heat transfer tubes supported by the tube plates and housed in the shell; and a high-temperature fluid inlet connection for introducing a high-temperature fluid into the shell. A cooling jacket having a porous structure, over which a cooling fluid is to be spread, is provided on the interior surface of the high-temperature fluid inlet connection. | 06-30-2011 |
20120145367 | HEAT EXCHANGER AND NOZZLE OF HEAT EXCHANGER - In one embodiment, a heat exchanger is provided with an inside shell, an outside shell, a cooling portion, and an inlet nozzle. The inside shell has an inside space for flowing a fluid, and an opening portion for outflowing the fluid from the inside space. The outside shell covers the inside shell to form a first passage between them to flow the fluid outflowing from the opening portion. The cooling portion is disposed within the inside shell to cool the fluid within the inside space. The inlet nozzle has an inner pipe, an outer pipe, and an outlet pipe. The inner pipe flows the fluid into the inside space through the outside shell. The outer pipe covers the inner pipe to form a second passage between them and has its one end connected to the outside shell to communicate the second passage with the first passage, and its other end connected to the inner pipe on the outside of the outside shell to seal the second passage to flow the fluid partly from the first passage to the second passage. The outlet pipe is connected to the outer pipe to inflow the fluid from the second passage. | 06-14-2012 |