Patent application number | Description | Published |
20100228453 | VEHICLE CONTROL SYSTEM DESIGNED TO MINIMIZE ACCELERATION SHOCK - A vehicle control system for an engine-powered vehicle equipped with an engine and an automatic transmission with a clutch. When a given engine stop requirement is met during running of the engine, the system stops the engine automatically. When a given engine restart requirement is met after stop of the engine, the system restarts the engine and enters a clutch control mode to bring the clutch in the automatic transmission into a slippable state in which the clutch is permitted to slip based on the speed of the vehicle, thereby absorbing the acceleration shock which usually occurs upon engagement of the clutch to transmit engine torque to wheels of the vehicle when the engine is restarted, and the speed of the vehicle is relatively low. | 09-09-2010 |
20100228460 | VEHICLE CONTROL SYSTEM CONTROLLING EXERTION OF BRAKING FORCE ON WHEEL - A vehicle control system is provided which is designed to stop or restart an engine automatically. The system is equipped with a vehicle speed determining circuit which determines the speed of the vehicle and has a dead zone around where a real speed of the vehicle is zero. The vehicle speed determining circuit has a characteristic in which when falling in the dead zone, the determined speed shows zero. When the determined speed is zero, and the real speed is expected to have dropped to zero, the system applies a first braking force to the wheel to keep the vehicle stopped. When the determined speed has become zero following the automatic stop of the engine, the system applies a second braking force smaller in magnitude than the first braking force to the wheel, thereby decelerating the vehicle slowly to avoid unexpected sudden deceleration. | 09-09-2010 |
20110256980 | VEHICLE CONTROL APPARATUS - A vehicle control apparatus includes: an automatic-stop-and-restart-control-unit stopping/restarting an engine, a brake-fluid-pressure-control-unit controlling wheel-cylinder-pressure using a brake-system, which intensifies brake-manipulation-force by a brake-booster to cause master-cylinder-pressure in a master-cylinder while the engine operates, and which transfers the master-cylinder-pressure to wheel-cylinders to cause the wheel-cylinder-pressure, the brake-system including an actuator automatically increasing pressure in the wheel-cylinders irrespective of the brake-manipulation-force; a negative-pressure-detection-unit which detects the vacuum-pressure; a first-determination-unit which determines whether the vacuum-pressure is not more than a first threshold while the engine stops, a restarting-unit which allows the automatic-stop-and-restart-control-unit to restart the engine when the first-determination-unit determines that the vacuum-pressure is not more than the first threshold; a second-determination-unit which determines whether the vacuum-pressure is not more than a second threshold; and a braking-boost-unit which allows the brake-fluid-pressure-control-unit to automatically increase the pressure in the wheel-cylinders when the second-determination-unit determines that the vacuum-pressure is not more than the second threshold. | 10-20-2011 |
20110256981 | APPARATUS FOR CONTROLLING AUTOMATIC STOP AND RESTART OF ENGINE - An apparatus for controlling automatic stop/restart of an engine, includes: an automatic-stop/restart-control-unit which stops/restarts the engine; a brake-pressure-detection-unit which detects brake pressure in a brake system and controls the brake pressure to perform anti-skid control; a first-determination-unit which determines whether the brake pressure is not less than a first-threshold; a second-determination-unit which determines whether the brake pressure is not less than a second-threshold larger than the-first threshold; a stop-allowing-unit which allows the automatic-stop/restart-control-unit to stop the engine while the engine operates, when the first-determination-unit determines that the brake pressure is not less than the first-threshold and the second-determination-unit determines that the brake pressure is less than the second-threshold; and a stop-inhibiting-unit which inhibits the automatic-stop/restart-control-unit from stopping the engine while the engine operates, when the-first-determination-unit determines that the brake pressure is less than the first-threshold and the second-determination-unit determines that the brake pressure is not less than the second-threshold. | 10-20-2011 |
20120022773 | ENGINE AUTOMATIC STOP AND RESTART CONTROL APPARATUS - An engine automatic stop and restart control apparatus is provided. The apparatus includes a control unit which stops and restarts an engine, an actual axle torque change speed calculation unit which calculates change speed in actual axle torque that is actually generated when the engine is restarted, an ideal axle torque change speed calculation unit which calculates change speed in ideal axle torque that corresponds to engine torque generated by the engine, a change speed difference calculation unit which calculates a change speed difference that is a difference between the change speed in actual axle torque and the change speed in ideal axle torque, and a vibration suppression control unit which executes a vibration suppression control for applying braking torque based on the change speed difference. | 01-26-2012 |
20120077640 | ENGINE CONTROL APPARATUS - An engine control apparatus capable of performing engine automatic stop includes an engine automatic stop inhibition means configured to inhibit the engine automatic stop after engine restart conditions are satisfied and the engine is restarted until a vehicle speed exceeds a predetermined speed, a brake operation detection means configured to detect a presence of increase of the amount of a brake operation in a state of the brake operation being performed after the vehicle has been stopped, and an engine stop control means configured to release inhibition of the engine automatic stop to allow the engine to be automatically stopped, if the brake operation detection means detects presence of increase of the amount of the brake operation while the engine automatic stop is inhibited by the engine automatic stop inhibition means. | 03-29-2012 |
20120080001 | ENGINE CONTROL APPARATUS - An engine control apparatus is configured to perform engine automatic stop to automatically stop an engine when predetermined engine stop conditions are satisfied and automatically restart the engine when predetermined engine restart conditions are satisfied. The stop conditions including that a vehicle speed decreases below a predetermined stop permission speed. The engine control apparatus includes a variation amount detection means for detecting a variation amount of a brake operation being performed by the vehicle driver during a deceleration period from when the vehicle has started to decelerate to when the vehicle speed has decreased below the stop permission speed, and a stop determination means for determining whether the engine automatic stop should be performed when the engine stop conditions are satisfied based on the variation amount detected by the variation amount detection means. | 04-05-2012 |
20130130070 | BATTERY UNIT - A battery unit has battery cells having electrode terminals, bus bars having voltage potential detection terminals, a control board having a voltage detection circuit and a discharge duct. In the battery cell, the electrode terminals of the battery cells are electrically connected to the voltage potential detection terminals of the bus bars. The voltage potential detection terminals of the bus bars are electrically connected to the voltage detection circuit formed on the control board through metal conductive members or lines. The voltage detection circuit detects a voltage potential of each of the battery cells through the metal conductive members. The metal conductive members are not dedicated components, and integrated with the discharge duct by insert molding. | 05-23-2013 |
20140011058 | BATTERY UNIT - A battery unit has a battery pack module that has a plurality of single cells, a control circuit board that has a control section that controls a charge and discharge in the battery pack module, and an accommodation case where the battery pack module and the control circuit board are accommodated. The control circuit board is disposed in a position above the battery pack module, and separated away from the base plate by a distance more than a distance from the base plate to a wall top end part of the wall section. Moreover, the submergence sensor is disposed in a position nearer to the base plate than to the wall top end part of the wall section that is in a space within the case | 01-09-2014 |
Patent application number | Description | Published |
20080263414 | SEMICONDUCTOR DEVICE AND DATA PROCESSING SYSTEM - The test design cost of a circuit capable of accessing an external memory is reduced. There is included a built-in self-test circuit for use in testing an external memory separately from a memory controller for performing memory control in response to an access request to the external memory capable of being coupled to a memory interface, and a TAP controller is used to control the built-in self-test circuit and referring to a test result. There is adopted a multiplexer for switchably selecting the memory controller or the built-in self-test circuit as a circuit for coupling to the memory interface in accordance with control information externally inputted through the TAP controller. The built-in self-test circuit programmably generates and outputs a pattern for a memory test in accordance with an instruction inputted through the TAP controller, and compares data read from the external memory with an expected value. | 10-23-2008 |
20090099414 | METHOD OF PERFORMING DIAGNOSIS OR TREATMENT ERENDOSCOPICALLY AND MEDICAL TREATMENT DEVICE - A method of performing diagnosis or treatment perendoscopically in which a guide catheter is inserted inside a body, and the guide catheter is made to protrude beyond a distal end portion of the endoscope; and in which a first diagnosis or treatment is performed by inserting a medical treatment device that performs the diagnosis or treatment of the body inside the guide catheter, and causing this medical treatment device to protrude by a first predetermined distance from the guide catheter; and in which the medical treatment device is extracted from the guide catheter; and in which a second diagnosis or treatment is performed by inserting a medical treatment device into the guide catheter, and causing the medical treatment device to protrude by a second distance which is adjusted in accordance with the first predetermined distance. | 04-16-2009 |
20090158087 | SEMICONDUCTOR INTEGRATED CIRCUIT WITH MEMORY REPAIR CIRCUIT - A semiconductor integrated circuit which can perform repair of at least one memory circuit in RAM, etc. and can promote improvement in the degree of integration is provided. The encoding circuit | 06-18-2009 |
20100024239 | DRUM-TYPE WASHER/DRYER - A drum-type washer/dryer having an evaporator ( | 02-04-2010 |
20100120237 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICES - A growth substrate is removed from a semiconductor film, and a surface of the semiconductor film exposed by removing the growth substrate is flattened. The semiconductor film along device division lines are partially etched by dry etching to form grooves in a lattice that form streets, not reaching the metal support in the semiconductor film. The surface of the semiconductor film at the bottom of the grooves is flattened. The semiconductor film along the device division lines at the bottom of the grooves are further etched by wet etching to expose the metal support at the bottom of the grooves to finish the streets. | 05-13-2010 |
20110160577 | LIGHT MARKER FOR INDWELT USE IN PATIENTS BODY AND FOR IDENTIFICATION OF LESIONS INSIDE PATIENTS TUBULAR ORGAN USING THE LIGHT MARKER - A lesion identification system for surgical operations has a light marker adapted for placement in the vicinity of a lesion inside an organ of an organism, and a location-identifying device detecting a light emitted from the light marker at an outside of the organ for identifying a location of the lesion. The marker includes a light emitter and an engagement member associated with the emitter to be engageable with a wall of the organ. The engagement member includes a clip. The light emitter emits light with a wavelength in a near-infrared range. The device includes an endoscope comprising an inserter section having an image pickup element picking up a reflected light, involving the light from the light marker, at an outside of the organ, and an image pickup unit allowing the reflected light, picked by the image pickup element, to be generated as an image for display on a monitor. | 06-30-2011 |
20110161751 | SEMICONDUCTOR INTEGRATED CIRCUIT WITH MEMORY REPAIR CIRCUIT - A semiconductor integrated circuit which can perform repair of at least one memory circuit in RAM, etc. and can promote improvement in the degree of integration is provided. The encoding circuit | 06-30-2011 |
20130038943 | OPTICAL DEVICE - To realize a memory effect in an optical device using the electro wetting effect. An optical device includes: first and second substrates placed opposite each other; a partition provided therebetween; a first electrode provided on one side of the first substrate, at least a part thereof overlapping with a region surrounded by the partition in a plan view; second and third electrodes provided on one side of the second substrate and which are respectively placed opposite the first electrode across the region surrounded by the partition; a smoothing layer provided on one side of the second substrate and which covers the second and third electrodes; and first and second fluid, which are incompatible, disposed in the region surrounded by the partition. The first fluid is made of a liquid body possessing polarity or conductivity, and the second fluid is made of a liquid body containing a liquid-crystalline material. | 02-14-2013 |
Patent application number | Description | Published |
20110198228 | MAGNETIC RECORDING MEDIUM AND METHOD OF MANUFACTURING THE SAME - The present invention provides a method of manufacturing a magnetic recording medium having high recording density. The magnetic recording medium manufacturing method of the present invention is directed to a manufacturing method including: disposing at least a silicon layer on a substrate; disposing an uneven structure including regularly arranged projections on the silicon layer; disposing magnetic material on the upper surfaces of the projections and within recessed parts of the uneven structure; and allowing the magnetic material disposed within each recessed part to be changed into silicon compound by heat treatment. | 08-18-2011 |
20110248366 | RADIATION-DETECTING DEVICE AND METHOD OF MANUFACTURING SAME - A method of manufacturing a radiation-detecting device including spaced first columnar scintillators, second columnar scintillators which are located between the neighboring first columnar scintillators and which are spaced from the first columnar scintillators, and photodetecting elements overlapping with the first columnar scintillators includes a step of preparing the substrate such that the substrate has a surface having an uneven section having protruding portions and a plurality of spaced flat sections surrounded by the uneven section and also includes a step of forming the first columnar scintillators and the second columnar scintillators on the flat sections and the protruding portions, respectively, by depositing a scintillator material on the substrate having the uneven section and the flat sections. The uneven section has recessed portions and satisfies the following inequality: | 10-13-2011 |
20130015360 | RADIATION DETECTORAANM Kobayashi; TamakiAACI Isehara-shiAACO JPAAGP Kobayashi; Tamaki Isehara-shi JPAANM Saito; TatsuyaAACI Kawasaki-shiAACO JPAAGP Saito; Tatsuya Kawasaki-shi JPAANM Yasui; NobuhiroAACI Yokohama-shiAACO JPAAGP Yasui; Nobuhiro Yokohama-shi JPAANM Den; ToruAACI TokyoAACO JPAAGP Den; Toru Tokyo JP - A radiation detector including a scintillator structure comprising a first plane and a second plane which are not positioned on the same plane, the scintillator structure having an optical waveguiding property in a direction between the first plane and the second plane; and a two-dimensional light receiving element formed of multiple pixels which are disposed parallel to either one of the first plane and the second plane. The radiation detector includes at least one smoothness-deteriorate region which is positioned in one of the first plane and the second plane of the scintillator structure and has an area of 1/6 or more of a light receiving area of each of the multiple pixels. The region is repaired by an optically transparent material so as to be smoothed. | 01-17-2013 |
20130026374 | RADIATION DETECTOR - Provided is a radiation detector, including: a two-dimensional light receiving element including a plurality of pixels; and a scintillator layer having multiple scintillator crystals two-dimensionally arranged on a light receiving surface of the two-dimensional light receiving element, in which: the scintillator crystal includes two crystal phases, which are a first crystal phase including a material including a plurality of columnar crystals extending in a direction perpendicular to the light receiving surface of the two-dimensional light receiving element and having a refractive index n | 01-31-2013 |
20140374609 | RADIATION DETECTING ELEMENT USING OXIDE CRYSTAL AND METHOD OF MANUFACTURING OXIDE CRYSTAL - Provided is a radiation detecting element, including: a semiconductor layer including a tin oxide crystal; and a detecting unit configured to detect, as an electrical signal, charges generated in the semiconductor layer when the semiconductor layer is irradiated with radiation, in which a resistivity of the semiconductor layer is 10 | 12-25-2014 |
20150129771 | METHOD FOR PREPARING BISMUTH IODIDE ARTICLE AND METHOD FOR MANUFACTURING RADIATION DETECTING ELEMENT - A method for preparing a bismuth iodide article includes heat-treating bismuth iodide at a temperature less than the melting point of bismuth iodide in an atmosphere containing iodine. | 05-14-2015 |