Patent application number | Description | Published |
20080279304 | DATA TRANSMITTING DEVICE, DATA TRANSMITTING METHOD, DATA TRANSMITTING AND RECEIVING SYSTEM, DATA TRANSMITTING COMPUTER PROGRAM AND STROAGE MEDIUM THEREFOR, DATA RECEIVING DEVICE, DATA RECEIVING METHOD, AND DATA RECEIVING COMPUTER PROGRAM AND STORAGE MEDIUM THEREFOR - A plurality of connection frames are transmitted which differ from each other in at least either modulation scheme or transfer rate. Accordingly, a receiving-end device can properly receive a connection frame even in an environment where the connection frame is likely to be affected by noise. | 11-13-2008 |
20080313710 | COMMUNICATIONS DEVICE, COMMUNICATIONS METHOD, COMMUNICATIONS PROGRAM, AND COMPUTER-READABLE STORAGE MEDIUM STORING THE COMMUNICATIONS PROGRAM - The communications device of the present invention performs an authentication with the device at the other end automatically or through a simple operation, independently of an authentication scheme supported by the device at the other end. A communications device includes: a connecting section for establishing a connection with the other communications device according to the IrSimple scheme; an authentication section for performing an authentication by the IrSimple scheme; a connecting section for establishing a connection with the other communications device according to the IrDA scheme, an authentication section for performing an authentication according to the IrDA scheme; and a protocol switching section for causing the connecting section to initiate a connection and causing the authentication section to perform an authentication, when an authentication by the authentication section is unsuccessful. This makes it possible to switch to a protocol of the IrDA scheme and perform communications according to the IrDA scheme when the other communications device does not support device authentication of the IrSimple scheme although being compliant with the IrSimple scheme. | 12-18-2008 |
20090180394 | COMMUNICATIONS DEVICE, COMMUNICATIONS METHOD, AND STORAGE MEDIUM - A communications device is provided which receives data frames in FIR communications mode even if the device has failed to normally receive a connect frame in SIR communications mode. | 07-16-2009 |
Patent application number | Description | Published |
20100258837 | SEMICONDUCTOR LIGHT EMITTING ELEMENT AND SEMICONDUCTOR LIGHT EMITTING DEVICE USING THE SAME - In a semiconductor light emitting device, in which a light emitting layer is formed on one surface of a conductive substrate, and an n-type electrode and a p-type electrode are formed on the same side as the light emitting layer, there has been the problem that, if larger electric power is applied, heat is generated near the n-side electrode to reduce luminous efficiency. | 10-14-2010 |
20110037092 | LIGHT-EMITTING ELEMENT - A light-emitting device includes an n-type semiconductor layer | 02-17-2011 |
20120126276 | LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE - A light emitting element and a light emitting device for which light extraction efficiency is enhanced are provided. | 05-24-2012 |
20130168721 | LIGHT EMITTING DEVICE - A light emitting device includes a light transmissive substrate, a semiconductor layer formed on the substrate, and having an n-type layer, a light emitting layer, and a p-type layer, a reflective electrode formed on the semiconductor layer, and reflecting light from the light emitting layer toward the substrate, a barrier electrode formed on the reflective electrode, and a cover electrode formed on the barrier electrode. The reflective electrode includes a Ag layer, the cover electrode includes an layer, and the barrier electrode reduces interdiffusion between Ag and Al. | 07-04-2013 |
Patent application number | Description | Published |
20110199105 | ELECTROSTATIC CAPACITY TYPE TOUCH SENSOR - This invention offers an electrostatic capacity type touch sensor that can be calibrated in a short period of time at a moment when a finger of operator or the like does not touch a touch pad. An absolute value of a difference (AD | 08-18-2011 |
20110199331 | ELECTROSTATIC CAPACITY TYPE TOUCH SENSOR - The invention provides an electrostatic capacity type touch sensor that is not influenced by a parasitic capacitor formed between a sensor line connected to a touch sensor pad and other signal line and provides a stable sensor output. A sensor line connected to a touch sensor pad is connected to a non-inverting input terminal (+) of a charge amplifier. An LED is disposed in the touch sensor pad, and the cathode of the LED is connected to an LED signal line. Since the LED signal line is disposed adjacent to the sensor line, a parasitic capacitor is formed between the LED signal line and the sensor line. In order to keep the capacitance of this parasitic capacitor constant, a pull-up resistor is connected to the LED signal line. The LED signal line is biased to a power supply potential Vdd by the pull-up resistor. | 08-18-2011 |
20120001869 | ELECTROSTATIC CAPACITY TYPE TOUCH SENSOR - There is offered an electrostatic capacity type touch sensor capable of detecting a large number of touch positions with high accuracy. The electrostatic capacity type touch sensor is composed of a touch panel and a signal processing circuit. The touch panel is structured to include first through fourth detection electrodes, first and second common electric potential lines, a common electric potential wiring, a common electric potential terminal and first through fourth output terminals disposed on an insulating substrate. The signal processing circuit is structured to include a clock generator, a selection circuit, a charge amplifier, an A/D converter and an arithmetic unit. The charge amplifier detects a change in capacitance induced by that a finger of an operator touches the first through fourth detection electrodes. | 01-05-2012 |
20120062464 | TOUCH SENSOR - The invention provides a touch sensor in which the numbers of channels and wires are decreased simultaneously and a simultaneous touch operation of a plurality of touch keys is realized. A keyboard includes 36 pieces of touch keys disposed in 6 rows and 6 columns, drive lines, and sensor lines on an insulation substrate. The touch key includes a center electrode disposed on the insulation substrate and an annular electrode disposed surrounding this center electrode. A sensor circuit includes a selection circuit and an electric charge amplifier. The electric charge amplifier detects the amount of change of a capacitance of an electrostatic capacitor formed between the center electrode and the annular electrode of the touch key connected to one sensor line selected by the selection circuit. | 03-15-2012 |
Patent application number | Description | Published |
20090077650 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, AND COMPUTER READABLE MEDIUM - An information processing apparatus includes: a connecting section; an information storage; a request accepting section; a searching section; a setting information storage; a determining section; and a process executing section. | 03-19-2009 |
20090080014 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, IMAGE FORMING APPARATUS, IMAGE FORMING SYSTEM, AND COMPUTER READABLE MEDIUM - An information processing apparatus includes: an information storage that stores information; a request accepting section that accepts a predetermined request for the information; a setting section that, for each of the information, sets whether the predetermined request is allowed; a setting storage that stores a setting by the setting section; a determining section that, with respect to the information corresponding to a request accepted by the request accepting section, reads out a corresponding setting from the setting storage, and that determines allowance/non-allowance of the predetermined request; and a process executing section that, in a case where the determining section determines allowance of the predetermined request, executes a process corresponding to the predetermined request on the information. | 03-26-2009 |
20090091782 | IMAGE FORMING DEVICE, IMAGE FORMING SYSTEM AND COMPUTER READABLE MEDIUM - An image forming device includes an image forming section, a connection section, a request receiving section, an illegality detection section, a notice section and a web page creation section. The image forming section performs image formation on a medium. The connection section communicates with an information processing device. The request receiving section receives a request from the information processing device through the connection section. The illegality detection section detects an illegal access to the request receiving section through the connection section. The notice section notifies, to the information processing device, a detection result by the illegality detection section through the connection section. | 04-09-2009 |
20090094241 | INFORMATION PROCESSING DEVICE, INFORMATION MANAGEMENT DEVICE, INFORMATION PROCESSING SYSTEM AND COMPUTER READABLE MEDIUM - An information processing device includes a lock section, a creation section, a transmission section, a reception section, and a release section. The lock section disables an authorization function of the information processing device under a given condition. The creation section creates a first lock release file so that releasing the function due to the lock section. The transmission section transmits the first lock release file created by the creation section to the information management device. The reception section receives a second lock release file which is transmitted as a reply from the information management device based on the first lock release file. The release section tries to enable the authorization function of the information processing device when the second lock release file is judged to be valid. | 04-09-2009 |
20140347698 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, IMAGE FORMING APPARATUS, IMAGE FORMING SYSTEM, AND COMPUTER READABLE MEDIUM - An information processing apparatus includes: an information storage that stores information; a request accepting section that accepts a predetermined request for the information; a setting section that, for each of the information, sets whether the predetermined request is allowed; a setting storage that stores a setting by the setting section; a determining section that, with respect to the information corresponding to a request accepted by the request accepting section, reads out a corresponding setting from the setting storage, and that determines allowance/non-allowance of the predetermined request; and a process executing section that, in a case where the determining section determines allowance of the predetermined request, executes a process corresponding to the predetermined request on the information. | 11-27-2014 |
Patent application number | Description | Published |
20120264557 | TORQUE DISTRIBUTOR - A torque distributor includes a friction-drive mechanism having a first roller rotatable together with a first rotary member, partly constituting a torque-transmission path to primary drive wheels, and a second roller rotatable together with a second rotary member, partly constituting a torque-transmission path to secondary drive wheels. Also provided is an eccentric-crank mechanism for revolving the second roller in a direction opposite to a rotation direction of power transmission of the second roller around an eccentric-shaft axis displaced from a second-roller rotation axis to produce a displacement of the second roller from a non-power-transmission position of non-frictional-contact with the first roller to a radially-loaded power-transmission position of frictional-contact with the first roller. Although the friction-drive type is used, the torque distributor enables torque-distribution-control mode switching between them, while ensuring high-precision torque-distribution control by avoiding a polarity of moment acting on a rotational-position-control system for an eccentric crank from being reversed. | 10-18-2012 |
20140013902 | DRIVE FORCE DISTRIBUTING APPARATUS - A driving force distribution apparatus is provided that includes a first roller rotatable together with a main wheel transmission system associated with main drive wheels and a second roller rotatable together with a subordinate driving wheel transmission system associated with subordinate drive wheels. A driving force distribution is enabled to the subordinate drive wheels by adjusting the radial pressing force between the first roller and the second roller through a revolution of the second roller using a power of an inter-roller radial pressing force generating source to thereby control the driving force distribution between the main driving wheels and subordinate driving wheels. Further, an electromagnetic brake is provided that, when energized and supplied with current, generates a braking force to hold the revolution position of the second roller. When de-energized, no braking force will be produced so that the revolution of the second roller will be allowed. | 01-16-2014 |
20140018205 | DRIVE FORCE DISTRIBUTING APPARATUS - A drive force distributing apparatus includes a first roller that is rotatable with a main drive wheel system and a second roller that is rotatable with a subordinate drive wheel system. Control of the drive force distribution between the main drive wheel system and the subordinate drive wheel system is carried out by turning the second roller by the rotation of a crankshaft to thereby adjust a radial pressing force of the second roller against the first roller. A bearing support includes an exterior wall disposed in a housing, a first through bore formed in the exterior wall for receiving a shaft portion of the first roller, a first interior side wall extending radially outward from the first through bore, a second through bore formed in the exterior wall for receiving a crankshaft, and a second interior side wall extending radially outward from the second through bore. An angle formed between a rotational axis of the first roller and a rotational axis of the second roller is a first angle, an angle formed between the first interior side wall and the exterior wall is a predetermined angle larger than “0”, and an angle formed between the second interior side wall and the exterior wall is an angle obtained by subtracting the predetermined angle from the first angle. | 01-16-2014 |
20140018208 | DRIVE FORCE DISTRIBUTING APPARATUS - A drive force distributing apparatus includes a first roller that is rotatable with a main drive wheel system and a second roller that is rotatable with a subordinate drive wheel system. Control of the drive force distribution between the main drive wheel system and the subordinate drive wheel system is carried out by turning the second roller by the rotation of a crankshaft to thereby adjust a radial pressing force of the second roller against the first roller by an adjustment mechanism. The adjustment mechanism includes a pinion shaft in meshed engagement with the crankshaft, a first output gear fitted to the pinion shaft, and a second output gear meshed with the first output gear and driven to rotate by a motor. A rotation angle sensor is provided to detect a variation in teeth of the first output gear to detect a rotation angle of the first output gear, whereby control of the drive force distribution is performed based on the detected rotation angle of the first output gear. | 01-16-2014 |
20140031167 | DRIVE FORCE DISTRIBUTING APPARATUS - A drive force distributing device includes first and second rollers rotatable jointly with main a drive wheel system and a subordinate drive wheel system, respectively. Control of the drive force distribution between the main drive wheels and the subordinate drive wheels is performed by adjusting an inter-roller pressing force. A structural body suppresses turning of one of the first and second rollers at a predetermined position. A reference position setting mechanism turns either one of the first and second rollers to turn in one direction, detects a position at which the turn is suppressed by the structural body, and sets a reference position based on the detected position. A turning amount of one of the first and second rollers is detected with respect to the reference position set by the reference position setting mechanism and the control of drive force distributing is performed based on the detected turning amount. | 01-30-2014 |
Patent application number | Description | Published |
20090043480 | FLUID INJECTION DEVICE - A fluid injection device includes a fluid supply unit that accommodates and supplies fluid, a fluid injection unit that injects fluid supplied from the fluid supply unit, and a driving waveform generating device which is equipped with at least one adjusting device, a one-input multiple-control parameter changing unit that simultaneously changes plural control parameters for determining a fluid injection condition of the fluid injection unit on the basis of a signal from the at least one adjusting device, and a driving waveform generator that generates and outputs a driving waveform of the fluid injection unit on the basis of the control parameters set by the one-input multiple-control parameter changing unit. | 02-12-2009 |
20130218184 | FLUID INJECTION DEVICE - A fluid injection device includes a fluid supply unit that accommodates and supplies fluid, a fluid injection unit that injects fluid supplied from the fluid supply unit, and a driving waveform generating device which is equipped with at least one adjusting device, a one-input multiple-control parameter changing unit that simultaneously changes plural control parameters for determining a fluid injection condition of the fluid injection unit on the basis of a signal from the at least one adjusting device, and a driving waveform generator that generates and outputs a driving waveform of the fluid injection unit on the basis of the control parameters set by the one-input multiple-control parameter changing unit. | 08-22-2013 |
20140088628 | FLUID INJECTION DEVICE - A fluid injection device includes a fluid supply unit that accommodates and supplies fluid, a fluid injection unit that injects fluid supplied from the fluid supply unit, and a driving waveform generating device which is equipped with at least one adjusting device, a one-input multiple-control parameter changing unit that simultaneously changes plural control parameters for determining a fluid injection condition of the fluid injection unit on the basis of a signal from the at least one adjusting device, and a driving waveform generator that generates and outputs a driving waveform of the fluid injection unit on the basis of the control parameters set by the one-input multiple-control parameter changing unit. | 03-27-2014 |
Patent application number | Description | Published |
20100209639 | GAS BARRIER LAYERED PRODUCT AND PACKAGING MEDIUM, AND METHOD FOR PRODUCING GAS BARRIER LAYERED PRODUCT - A gas barrier layered product and a method for producing the same are provided. The gas barrier layered product exhibits a high oxygen barrier property regardless of humidity, exhibits a high oxygen barrier property even after being subjected to retort processing, and is excellent in strength and transparency. In order to provide the gas barrier layered product, the gas barrier layered product includes a base material and a layer stacked on at least one surface of the base material. The layer is formed of a composition that includes: a hydrolyzed and condensed product of at least one compound (L) containing a metal atom to which at least one characteristic group selected from a halogen atom and an alkoxy group has been bonded; and a neutralized product of a polymer containing at least one functional group selected from a carboxyl group and a carboxylic anhydride group. At least a part of the —COO— group contained in the at least one functional group has been neutralized with metal ions having a valence of two or more. | 08-19-2010 |
20140084220 | PI-ELECTRON CONJUGATED BLOCK COPOLYMER AND PHOTOELECTRIC CONVERSION ELEMENT - Provided is a conjugated block copolymer that is capable of morphology control and that can achieve superior conversion efficiency. A π-electron conjugated block copolymer contiguously or non-contiguously bonding polymer block (A) involving a monomer unit having in a portion of a chemical structure at least one heteroaryl skeleton selected from a thiophene, a fluorine, a carbazole, a dibenzosilole and a dibenzogermole; and a polymer block (B) involving a monomer unit similarly having at least one heteroaryl skeleton; wherein the polymer block (A) comprises a homopolymer block of a monomer unit having a substituent R | 03-27-2014 |
20140124710 | BLOCK COPOLYMER AND PHOTOELECTRIC CONVERSION ELEMENT - Provided are: a conjugated block copolymer capable of increasing the amount of optical absorption by a photoelectric conversion active layer and controlling the morphology thereof and capable of achieving excellent photoelectric conversion efficiency; and a photoelectric conversion element comprising a composition including an electron accepting material using this kind of conjugated block polymer. | 05-08-2014 |
20140166942 | BLOCK COPOLYMER AND PHOTOELECTRIC CONVERSION ELEMENT - Provide are: a conjugated block copolymer capable of increasing the amount of optical absorption by a photoelectric conversion active layer and controlling the morphology thereof and capable of achieving excellent photoelectric conversion efficiency; and a photoelectric conversion element comprising a composition including an electron accepting material and this kind of conjugated block polymer. A π-electron conjugated block copolymer comprising: a polymer block (A) which involving a monomer unit having at least one heteroaryl skeleton selected from the group consisting of a fused π-conjugated skeleton, a fluorene, a carbazole, a dibenzosilole and a dibenzogermole containing at least one thiophene ring in a part of a chemical structure thereof; and a polymer block (B) involving a monomer unit of a thiophene-2,5-diyl group having a substituent at least at a 3-position thereof. | 06-19-2014 |
Patent application number | Description | Published |
20090034094 | DRIVING MECHANISM, DRIVING DEVICE, AND LENS DRIVING DEVICE - A driving mechanism, a driving device, and a lens driving device includes a lever member. The lever member includes an arm portion for surrounding a part of a driven member in a side direction. The arm portion has a plurality of displacement output portions to be engaged with the driven member. The lever member is constructed in such a manner that a displacement amount of the displacement output portions in a predetermined first axis direction is set larger than a displacement amount of a displacement input portion to be generated by input of a moving force to be applied by a shape memory alloy actuator. The driving mechanism, the driving device, and the lens driving device enable to obtain a large displacement amount with a reduced size and a reduced weight, and stably move the driven member. | 02-05-2009 |
20100293940 | DRIVE MECHANISM AND DRIVE DEVICE - A drive mechanism and a drive device each comprise a driven body ( | 11-25-2010 |
20110016860 | ACTUATOR DRIVING DEVICE - An actuator driving device includes: an actuator made of a shape metal alloy having a property that a predetermined shape is memorized in advance, and that the predetermined memorized shape is recovered when the actuator is heated to a predetermined temperature; an applier for applying, to the actuator, a pulse current or a pulse voltage at least having a predetermined current value or a predetermined voltage, and a predetermined duty ratio to heat the actuator; and a determiner for determining the current value or the voltage value, and the duty ratio of the pulse current or the pulse voltage to be applied to the actuator by the applier, wherein the determiner is operative to determine the pulse current or the pulse voltage having: the current value larger than a current value of a constant current required for displacing the actuator by a predetermined targeted displacement amount, or the voltage value corresponding thereto; and the duty ratio of making an applied current amount smaller than an applied current amount corresponding to an integrated value of the constant current in applying the constant current to the actuator. | 01-27-2011 |
20110102917 | DRIVE MECHANISM, DRIVE DEVICE, AND LENS DRIVE DEVICE - Provided is a drive mechanism comprising a stationary support member, a lever member having a displacement input portion for receiving a moving force from the outside and a bearing portion for abutting against the support member, so that the lever member engages with a driven member and swings on the bearing portion relative to the support member in response to the input of the moving force to the displacement input portion, thereby moving the driven member in a predetermined first axis direction, and a shape-memory alloy actuator for applying the moving force to the displacement input portion. The drive mechanism is characterized in that a displacement input member having the displacement input portion and a bearing member having the bearing portion are formed, in the lever member, of a material different from that of the lever member. | 05-05-2011 |
20110176047 | DRIVING DEVICE AND IMAGING DEVICE - Provided is a driving device having a rod-like terminal capable of stably fixing an SMA and connecting a conductive member without preventing the size of the driving device from being reduced and affecting the performance of the SMA. Also provided is an imaging device. The driving device is equipped with a string-shaped shape-memory alloy as a driving source and includes: a base member serving as the base of the driving device; and the rod-like terminal made of a metal penetrating the base member and secured to the base member. One end side of the rod-like terminal is caulked to interpose and hold the shape-memory alloy, and the other end side of the rod-like terminal has a crimp portion where the conductive member for supplying current to the shape-memory alloy is crimped and fixed. | 07-21-2011 |
20130003201 | Driving Mechanism, Driving Device, and Method of Manufacturing Driving Device - Disclosed are a driving mechanism and a driving device to which durable shape memory alloy (SMA) is applied and that can operate normally even in a high temperature environment. Also disclosed is a method of manufacturing such a driving device. In the driving mechanism, the driving device, and the method of manufacturing the driving device, building tension of the SMA is adjusted in advance so as to balance with bias force during supplying of a predetermined amount of electricity to the SMA after all members are integrated together. | 01-03-2013 |
Patent application number | Description | Published |
20100052017 | SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor memory device includes a first block having first memory cells and first select transistors, a second block having second memory cells and second select transistors, and arranged adjacent to the first block in a first direction, the second select transistor being arranged to face the first select transistor and commonly having a diffusion region with the first select transistor, a first interconnection layer provided on the diffusion region between the first and second blocks and extending in a second direction, and a second interconnection layer having a first portion provided in contact with an upper portion of the first interconnection layer and extending to a portion outside the first interconnection layer, and a second portion extending in the second direction and connected to the first portion in a portion outside a portion on the first interconnection layer. | 03-04-2010 |
20100091566 | NAND FLASH MEMORY - In a state in which a first and second selection gate transistors are turned off and a first voltage is applied to a control gate of a second memory cell transistor which is connected to a source line side of a first memory cell transistor selected from among the memory cell transistors and which is to be cut off, a second voltage which is higher than the first voltage and which causes a plurality of third memory cell transistors remaining unselected in the memory cell transistors to conduct is applied to control gates of the third memory cell transistors, and thereafter a threshold voltage of the first memory cell transistor is changed to a threshold voltage higher than the first threshold voltage corresponding to the erase state by applying a third voltage which is higher than the second voltage to a control gate of the first memory cell transistor. | 04-15-2010 |
20100176435 | SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREFOR - First gate electrodes of memory cell transistors are formed in series with each other on a semiconductor substrate. A second gate electrode of a first selection transistor is formed adjacent to one end of the first electrodes. A third gate electrode of a second selection transistor is formed adjacent to the second electrode. A fourth gate electrode of a peripheral transistor is formed on the substrate. First, second, and third sidewall films are formed on side surfaces of the second, third, and fourth gate electrodes, respectively. A film thickness of the third sidewall film is larger than that of the first and second sidewall films. A space between the first electrode and the second electrode is larger than a space between the first electrodes, and a space between the second electrode and the third electrode is larger than a space between the first electrode and the second electrode. | 07-15-2010 |
20100246255 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD FOR CONTROLLING THE SAME - A nonvolatile semiconductor storage device includes a memory cell array and a peripheral circuit. The memory cell array includes active areas extending in a first direction, a dummy active area extending in the first direction, memory cells on the plurality of active areas, first dummy cells on the dummy active area, diffusion layer areas each connected to the corresponding memory cell and the corresponding first dummy cell, first contacts in the respective active areas, and a second contact in the dummy active area. The peripheral circuit includes a voltage applying unit configured to apply to each of the first contacts a first voltage to set each of the memory cells in a write enable state or a second voltage to set the memory cells in a write inhibit state, and to apply to the second contact a third voltage to change a threshold of the dummy cell. | 09-30-2010 |
20110075489 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE - Two or more writing prohibition voltages are applied to bit lines connected to memory cell transistors corresponding to the writing voltage of word lines in a writing operation to write data in the memory cell transistors, while increasing the writing voltage of the word line in a stepwise. Two or more selection gate line voltages, corresponding to the writing prohibition voltages applied to the bit lines, are applied to the gates of selection gate transistors. | 03-31-2011 |
20110249493 | NAND FLASH MEMORY - In a state in which a first and second selection gate transistors are turned off and a first voltage is applied to a control gate of a second memory cell transistor which is connected to a source line side of a first memory cell transistor selected from among the memory cell transistors and which is to be cut off, a second voltage which is higher than the first voltage and which causes a plurality of third memory cell transistors remaining unselected in the memory cell transistors to conduct is applied to control gates of the third memory cell transistors, and thereafter a threshold voltage of the first memory cell transistor is changed to a threshold voltage higher than the first threshold voltage corresponding to the erase state by applying a third voltage which is higher than the second voltage to a control gate of the first memory cell transistor. | 10-13-2011 |
20110250744 | SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor memory device includes a first block having first memory cells and first select transistors, a second block having second memory cells and second select transistors, and arranged adjacent to the first block in a first direction, the second select transistor being arranged to face the first select transistor and commonly having a diffusion region with the first select transistor, a first interconnection layer provided on the diffusion region between the first and second blocks and extending in a second direction, and a second interconnection layer having a first portion provided in contact with an upper portion of the first interconnection layer and extending to a portion outside the first interconnection layer, and a second portion extending in the second direction and connected to the first portion in a portion outside a portion on the first interconnection layer. | 10-13-2011 |
20120094461 | SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREFOR - First gate electrodes of memory cell transistors are formed in series with each other on a semiconductor substrate. A second gate electrode of a first selection transistor is formed adjacent to one end of the first electrodes. A third gate electrode of a second selection transistor is formed adjacent to the second electrode. A fourth gate electrode of a peripheral transistor is formed on the substrate. First, second, and third sidewall films are formed on side surfaces of the second, third, and fourth gate electrodes, respectively. A film thickness of the third sidewall film is larger than that of the first and second sidewall films. A space between the first electrode and the second electrode is larger than a space between the first electrodes, and a space between the second electrode and the third electrode is larger than a space between the first electrode and the second electrode. | 04-19-2012 |
20150062843 | SEMICONDUCTOR DEVICE AND ELECTRONIC APPARATUS - According to one embodiment, a semiconductor device includes a cell portion and a peripheral portion, including: a substrate, a first insulating layer disposed on the substrate, a first conductive layer disposed on the first insulating layer, a second insulating layer disposed on the first conductive layer, and a second conductive layer disposed on the second insulating layer. | 03-05-2015 |
Patent application number | Description | Published |
20090017296 | Pressure-Sensitive Adhesive Sheet for Automobile Marking - A pressure-sensitive adhesive sheet for automobile marking comprising a substrate | 01-15-2009 |
20100198964 | COMPUTER SYSTEM, MANAGING APPARATUS AND COMPUTER SYSTEM MANAGING METHOD - A resource usage analysis tool ( | 08-05-2010 |
20110212328 | RELEASABLE ADHESIVE SHEET AND METHOD FOR PROTECTING INCOMPLETELY CURED COATING FILM - According to the present invention, there are provided a removable pressure sensitive adhesive sheet applicable even to a coating film incompletely cured immediately after having been dried and a method of protecting an incompletely cured coating film. The removable pressure sensitive adhesive sheet of the present invention is a removable pressure sensitive adhesive sheet characterized in that the sheet is obtained by providing a substrate sheet with a pressure sensitive adhesive layer, and that the pressure sensitive adhesive layer has a storage elastic modulus at 23° C. of 1.0×10 | 09-01-2011 |
20140094935 | SYSTEM AND SYSTEM CONTROL METHOD - An object is to provide a system in which components can overall operate in concert with one another by using only functions about the components, without using the theory of probability. The system includes a plurality of function blocks correlated to one another. The plurality of function blocks each include: a storing unit including an evaluation function that is associated with its own function block; a profit maximization control unit for adjusting the operation level of its own function block by information about the evaluation function of another of the plurality of function blocks that has a relation with its own function block; an activation/shutdown problem solution control unit for adjusting a suppression of the operation level by profit maximization control based on an active state/shutdown state of its own function block; and a restraint condition fulfillment control unit for adjusting the operation level of its own function block based on a restraint condition that is to be fulfilled by its own function block and all of the plurality of function blocks together. | 04-03-2014 |
20140249687 | CONTROL METHOD FOR SYSTEM AND SYSTEM - Provided is a system including a plurality of correlated function blocks, for executing load balancing among the function blocks. The plurality of function blocks each include an activation/shutdown control unit to determine whether to activate/shut down its own function block based on information of an evaluation function of its own function block and information of an evaluation function of another function block that has a relation to its own function block, and the activation/shutdown control unit determines whether to activate/shut down its own function block by using an amount relevant to the evaluation function of its own function block in a state where the evaluation function of its own function block takes a desired value, and using a state of the evaluation function of the another function block having a relation to its own function block that is equivalent to, or related to, the relevant amount. | 09-04-2014 |
Patent application number | Description | Published |
20090017567 | Method for manufacturing semiconductor device - An object is to suppress discharge due to static electricity generated by peeling, when an element formation layer including a semiconductor element is peeled from a substrate. Over the substrate, the release layer and the element formation layer are formed. The support base material which can be peeled later is fixed to the upper surface of the element formation layer. The element formation layer is transformed through the support base material, and peeling is generated at an interface between the element formation layer and the release layer. Peeling is performed while the liquid is being supplied so that the element formation layer and the release layer which appear sequentially by peeling are wetted with the liquid such as pure water. Electric charge generated on the surfaces of the element formation layer and the release layer can be diffused by the liquid, and discharge by peeling electrification can be eliminated. | 01-15-2009 |
20090017599 | Method for manufacturing semiconductor device - An object is to suppress discharge due to static electricity generated by peeling, when an element formation layer including a semiconductor element is peeled from a substrate. Over the substrate, the release layer and the element formation layer are formed. The support base material which can be peeled later is fixed to the upper surface of the element formation layer. The element formation layer is transformed through the support base material, and peeling is generated at an interface between the element formation layer and the release layer. Peeling is performed while the liquid is being supplied so that the element formation layer and the release layer which appear sequentially by peeling are wetted with the liquid such as pure water. Electric charge generated on the surfaces of the element formation layer and the release layer can be diffused by the liquid, and discharge by peeling electrification can be eliminated. | 01-15-2009 |
20090023251 | Method for manufacturing semiconductor device - An object is to suppress discharge due to static electricity generated by peeling, when an element formation layer including a semiconductor element is peeled from a substrate. Over the substrate, the release layer and the element formation layer are formed. The support base material which can be peeled later is fixed to the upper surface of the element formation layer. The element formation layer is transformed through the support base material, and peeling is generated at an interface between the element formation layer and the release layer. Peeling is performed while the liquid is being supplied so that the element formation layer and the release layer which appear sequentially by peeling are wetted with the liquid such as pure water. Electric charge generated on the surfaces of the element formation layer and the release layer can be diffused by the liquid, and discharge by peeling electrification can be eliminated. | 01-22-2009 |
20120045861 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - An object is to suppress discharge due to static electricity generated by peeling, when an element formation layer including a semiconductor element is peeled from a substrate. Over the substrate, the release layer and the element formation layer are formed. The support base material which can be peeled later is fixed to the upper surface of the element formation layer. The element formation layer is transformed through the support base material, and peeling is generated at an interface between the element formation layer and the release layer. Peeling is performed while the liquid is being supplied so that the element formation layer and the release layer which appear sequentially by peeling are wetted with the liquid such as pure water. Electric charge generated on the surfaces of the element formation layer and the release layer can be diffused by the liquid, and discharge by peeling electrification can be eliminated. | 02-23-2012 |
20120168066 | PEELING APPARATUS AND MANUFACTURING APPARATUS OF SEMICONDUCTOR DEVICE - To eliminate electric discharge when an element formation layer including a semiconductor element is peeled from a substrate used for manufacturing the semiconductor element, a substrate over which an element formation layer and a peeling layer are formed and a film are made to go through a gap between pressurization rollers. The film is attached to the element formation layer between the pressurization rollers, bent along a curved surface of the pressurization roller on a side of the pressurization rollers, and collected. Peeling is generated between the element formation layer and the peeling layer and the element formation layer is transferred to the film. Liquid is sequentially supplied by a nozzle to a gap between the element formation layer and the peeling layer, which is generated by peeling, so that electric charge generated on surfaces of the element formation layer and the peeling layer is diffused by the liquid. | 07-05-2012 |
20150017751 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - An object is to suppress discharge due to static electricity generated by peeling, when an element formation layer including a semiconductor element is peeled from a substrate. Over the substrate, the release layer and the element formation layer are formed. The support base material which can be peeled later is fixed to the upper surface of the element formation layer. The element formation layer is transformed through the support base material, and peeling is generated at an interface between the element formation layer and the release layer. Peeling is performed while the liquid is being supplied so that the element formation layer and the release layer which appear sequentially by peeling are wetted with the liquid such as pure water. Electric charge generated on the surfaces of the element formation layer and the release layer can be diffused by the liquid, and discharge by peeling electrification can be eliminated. | 01-15-2015 |
Patent application number | Description | Published |
20090167046 | VEHICLE SEATS - A vehicle seat includes a support base, a seat back tiltably supported on the support base, a seat cushion, a first link and a second link. Each of the first and second links is pivotally coupled to the support base and the seat cushion, so that a quadrant link mechanism is formed by the support base, the seat cushion, the first link and the second link. A coupling device couples the seat back to the first link at a position between a first coupling point and a second coupling point. The first coupling point couples the first link to the seat cushion, and the second coupling point couples the first link to the support base. | 07-02-2009 |
20090167068 | VEHICLE SEATS - A vehicle seat that includes a support base, a seat back tiltably supported on the support base, a seat cushion, a first link and a second link. Each of the first and second links is pivotally coupled to the support base and the seat cushion, so that a quadrant link mechanism is formed by the support base, the seat cushion, the first link and the second link. A coupling device couples the seat back to the first link, so that the first link can pivot relative to the support base and the seat cushion in response to the tilting movement of the seat back. The tilting movement of the seat back causes the seat cushion to shift toward the support base, while a coupling point between the first link and the seat cushion and a coupling point between the second link and the seat cushion move substantially in the same direction relative to the support base. | 07-02-2009 |