Koto, JP
Haruhiro Koto, Tokyo JP
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20150228085 | IMAGE PROCESSING DEVICE - Disclosed is a method for correcting for shimmer due to thermal turbulence, even for moving subjects, on a time smoothed base. The device is provided with: a movement compensation means that, for a correction-targeted block of a correction-targeted image within an input image, uses a temporally proximate correction image to derive movement information about a moving object, performs motion compensation, and outputs a correction block and a cost value; and a shimmer correction means that carries out time averaging processing, in accordance with the cost value, of the correction-targeted block and the correction block, and outputs a corrected block in which shimmer of the moving object has been corrected, and correction information. Through two-stage motion detection, the movement compensation means extracts and compensates for movement of a moving object, in a manner unaffected by thermal turbulence. | 08-13-2015 |
Hideaki Koto, Aichi-Ken JP
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20110178689 | DEVICE FOR CONTROLLING TRAVELING OF VEHICLE - After a vehicle has entered a curve, a deviation (Sch) between a target turning state quantity Td and an actual turning state quantity Ta is computed. In a stage in which Sch does not reach a predetermined value after the vehicle has entered the curve, the possibility of the vehicle traveling in the curve is judged to be low, and the reliability of the curve information Rc, Pc is judged to be low. In this case, a determination for prohibiting execution of control (So=0) is made. In a stage after Sch has reached the predetermined value, the possibility of the vehicle traveling in the curve is judged to be high, and the reliability of the curve information Rc, Pc is judged to be high. In this case, a determination for permitting execution of the control (So=1) is made. Deceleration control is started and executed only when a control start condition is satisfied, and the determination for permission is made. Accordingly, even when the control start condition is satisfied, the deceleration control is not started, if the prohibition determination is made. Thus, the reliability of the curve information based on map information on the vehicle is evaluated reliably, and the deceleration control within the curve can be prevented from being unnecessarily executed on the basis of curve information whose reliability is low. | 07-21-2011 |
Hideaki Koto, Kiraya-Shi JP
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20100082212 | SPEED CONTROL DEVICE FOR VEHICLE - A speed control device includes: a reference point setting unit that sets, based on shape and position of a curve in advance of a vehicle, first and second reference points within the curve, the second reference point being nearer the curve exit than the first reference point; a distance calculating unit that calculates, based on the vehicle location and the reference points, first and second distances, between the vehicle and the first and second reference points, respectively; a target speed determination unit that determines, based on the curve shape and the first and second distances, the first and second target vehicle speeds to be maintained, respectively, before and after passing the first reference point; and a speed control unit that controls the speed of the vehicle based on the target speeds and the detected speed of the vehicle. | 04-01-2010 |
Hideaki Koto, Anjo-Shi JP
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20100082216 | SPEED CONTROL DEVICE FOR VEHICLE - A speed control device for a vehicle includes a vehicle speed obtaining means obtaining a vehicle speed, a shape obtaining means obtaining a curve shape, a position obtaining means obtaining a positional relationship between a curve and the vehicle, a target vehicle speed determining means determining a target vehicle speed based on the curve shape and the positional relationship, a vehicle speed controlling means controlling the vehicle speed based on the target vehicle speed and the vehicle speed, and an acceleration operation quantity obtaining means obtaining an operation quantity of an acceleration operating member operated by a driver, wherein the target vehicle speed determining means includes a modification means modifying the target vehicle speed based on the operation quantity so that the target vehicle speed obtained when the operation variable is greater than zero becomes a greater value than the target vehicle speed obtained when the operation quantity is zero. | 04-01-2010 |
20110246017 | VEHICLE MOTION CONTROLLER - If an actual lateral acceleration is equal to or greater than a target lateral acceleration Gth and at least one of a steering angle lateral acceleration Gys and a yaw-rate lateral acceleration Gyy is less than the target lateral acceleration Gth, the increase of the W/C pressure of the vehicle to be controlled is inhibited. Accordingly, it is possible to suppress the increase in the roll angle by actively generating the understeering to suppress rolling and to early suppress an increase in understeering if the increase in understeering is made to be unnecessary. | 10-06-2011 |
20120065859 | ROLLOVER SUPPRESSION CONTROL APPARATUS AND ROLLOVER SUPPRESSION CONTROL METHOD - A rollover suppression control apparatus and method are provided. The apparatus includes a rollover state value detection unit which detects a rollover state value indicating that a vehicle is under rollover tendency, a braking force applying unit which performs a rollover suppression control of applying braking force to a wheel of the vehicle to suppress the rollover thereof when the detected rollover state value is greater than the control threshold value, a understeer state detection unit which detects whether a traveling state of the vehicle is a understeer state or a non-understeer state, and a setting unit which sets a first control threshold value as the control threshold value when the traveling state is detected as the non-understeer state, and which sets a second control threshold value greater than the first control threshold value as the control threshold value when the traveling state is detected as the understeer state. | 03-15-2012 |
20130190945 | VEHICLE MASS ESTIMATING APPARATUS - There is provided a vehicle mass estimating apparatus including an acceleration detecting unit which detects an acceleration of a vehicle, a driving-force calculating unit which calculates a driving force of the vehicle corresponding to the acceleration, a steering-angle associated value detecting unit which detects a steering-angle associated value which is associated with a steering angle of the vehicle at a detection time of the acceleration, and a mass estimating unit which estimates a vehicle mass at the detection time of the acceleration based on the acceleration and the driving force on a condition that the steering angle associated value satisfies a predetermined condition. | 07-25-2013 |
Hideaki Koto, Kariya JP
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20090240413 | DRIVING SUPPORT DEVICE, DRIVING SUPPORT METHOD, AND DRIVING SUPPORT PROGRAM - A target vehicle speed at a predetermined position ahead of a host vehicle is obtained, and a plurality of deceleration patterns with different deceleration schemes is obtained for decelerating the host vehicle to the target vehicle speed. Based on a driving operation for controlling speed of the host vehicle, a deceleration pattern is selected from the plurality of deceleration patterns. Using the selected deceleration pattern as a reference, the vehicle speed of the host vehicle is reduced to the target vehicle speed before the host vehicle reaches the predetermined position. | 09-24-2009 |
Hideaki Koto, Kariya-Shi JP
Hideaki Koto, Anjyo-Shi JP
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20090095562 | STEERING CONTROL DEVICE FOR VEHICLE - A steering control device for a vehicle includes a first adjustment value determination means for determining a first adjustment value of a value corresponding to a wheel steering angle based on an actual value and a target value of turning state quantity, the first adjustment value is a value directing to approximate the actual value to the target value, and a steering control means for adjusting the wheel steering angle by modifying the value corresponding to the wheel steering angle based on the first adjustment value, wherein the first adjustment value determination means includes an index value obtaining means for obtaining an index value indicating a probability of an occurrence of a side-slip of a wheel and a regulation means for regulating the first adjustment value so that the greater the probability of the occurrence of the side-slip is, the smaller the first adjustment value is set to be. | 04-16-2009 |
20110035131 | SPEED CONTROL APPARATUS FOR VEHICLE - A plurality of position data sets representing a plurality of points on a road ahead of a vehicle are acquired, and the degree of curvature of the road at each point is computed. On the basis of the degree of curvature, a constant curvature degree section of a curve is identified, and the degree of curvature and the end position of the constant curvature degree section are determined. In order to cause the vehicle to properly pass through the curve, curve deceleration control is executed on the basis of the actual vehicle speed, a proper vehicle speed determined from the degree of curvature, and the end position of the constant curvature degree section. That is, the curve deceleration control is performed on the basis of the start point of a section of a curve having the maximum degree of curvature and the constant degree of curvature of that section. | 02-10-2011 |
20120283923 | MOTION CONTROL APPARATUS FOR VEHICLE - A vehicle motion control device providing good trace performance with a simple configuration for performing a rollover prevention control involving suppressing rollover of a vehicle by applying a braking force to a front wheel located on the radially outer of the turning locus and a rear wheel located on the radially outer of the turning locus, comprises a braking control unit configured to restrict the application of the braking force to the front wheel located on the radially outer of the turning locus until a predetermined limit time elapses since the application of the braking force to the rear wheel located on the radially outer of the turning locus is started when the braking force is applied to the front wheel located on the radially outer of the turning locus and the rear wheel located on the radially outer of the turning locus as the rollover prevention control. | 11-08-2012 |
Hideyuki Koto, Saitama JP
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20110228675 | WIRELESS NODE - A module transmits a request for line connection to a module at a communication time notified from a module. The module proceeds to line connection processing in response to the request for line connection and notifies the module of success or failure of line connection. The module notifies a log database of the notified success or failure of line connection. The log database records success or failure of line connection in a database as log data and notifies the module of the log data at predetermined time intervals. The module revises a communication time based on the log data and notifies the module of the revised communication time. | 09-22-2011 |
20110317556 | TRAFFIC CONTROL METHOD AND APPARATUS FOR WIRELESS COMMUNICATION - A throughput detector | 12-29-2011 |
20120044810 | WIRELESS TERMINAL - A communication permitted slot setting section | 02-23-2012 |
Hideyuki Koto, Fujimino-Shi JP
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20090245106 | TRANSMISSION CONTROL METHOD AND SYSTEM THEREOF - A control server | 10-01-2009 |
20100172261 | INFORMATION COLLECTION DEVICE, COMMUNICATION ERROR DETECTION DEVICE, AND COMPUTER PROGRAM - An information collection device includes a signaling packet analysis section which extracts communication device information from a signaling packet, the communication device information identifying a communication device that transmits the signaling packet when connecting to another device. | 07-08-2010 |
Hiroyasu Koto, Kawasaki-Shi JP
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20150311012 | MEMBRANE SWITCH AND OBJECT EMPLOYING SAME - A membrane switch in which a first conductive part is formed on a first substrate, a second conductive part is formed on a second substrate, and the substrates are layered via a spacer such that the conductive parts face each other with a space therebetween, and an organic material showing piezoelectricity is filled, or disposed in the space such that an air gap is present, are useful for obtaining an output signal corresponding to an applied pressure. | 10-29-2015 |
Kazuhiro Koto, Kariya-Shi JP
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20100080332 | CLOCK-SYNCHRONOUS COMMUNICATION APPARATUS AND COMMUNICATION SYSTEM - In a clock-synchronous communication system, a clock pulse as a communication clock is outputted from a master device to a slave device so as to synchronize the master device and slave device. The transmitting side transmits a data to a data line with a first edge timing of the clock pulse, and the receiving side receives the data from the data line with a second edge timing of the clock pulse. A microcomputer as the master device is configured to enable separate setting of high-level duration and low-level duration of a clock pulse to be outputted, using a program. High-level duration and low-level duration are each set to a minimum value that satisfies the requirements for constituting communication with a communication destination. Uprating not only the cycle of a clock pulse but also the communication baud rate, efficient clock-synchronous communication can be performed. | 04-01-2010 |
Kiyohiro Koto, Higashiohmi-Shi JP
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20090179732 | NTC THERMISTOR CERAMIC AND NTC THERMISTOR USING THE SAME - A NTC thermistor ceramic having higher voltage resistance and a NTC thermistor are provided. The NTC thermistor ceramic either contains manganese and nickel, the manganese/nickel content ratio being is 87/13 to 96/4, or the manganese/cobalt content ratio being is 60/40 or more and 90/10 or less. The NTC thermistor ceramic includes a first phase, which is a matrix, and a second phase composed of plate crystals dispersed in the first phase, the second phase has an electrical resistance higher than that of the first phase and a higher manganese content than the first phase, and the first phase has a spinel structure. A NTC thermistor includes a ceramic element body composed of the NTC thermistor ceramic having the above-described features, internal electrode layers formed inside the ceramic element body, and external electrode layers disposed on two side faces of the ceramic element body | 07-16-2009 |
20110012707 | NTC THERMISTOR CERAMIC, METHOD FOR PRODUCING NTC THERMISTOR CERAMIC, AND NTC THERMISTOR - A ceramic main body | 01-20-2011 |
20120154105 | NTC THERMISTOR CERAMIC AND NTC THERMISTOR USING THE SAME - A NTC thermistor ceramic having higher voltage resistance and a NTC thermistor are provided. The NTC thermistor ceramic either contains manganese and nickel, the manganese/nickel content ratio being is 87/13 to 96/4, or the manganese/cobalt content ratio being is 60/40 or more and 90/10 or less. The NTC thermistor ceramic includes a first phase, which is a matrix, and a second phase composed of plate crystals dispersed in the first phase, the second phase has an electrical resistance higher than that of the first phase and a higher manganese content than the first phase, and the first phase has a spinel structure. A NTC thermistor includes a ceramic element body composed of the NTC thermistor ceramic having the above-described features, internal electrode layers formed inside the ceramic element body, and external electrode layers disposed on two side faces of the ceramic element body. | 06-21-2012 |
Kiyohiro Koto, Nagaokakyo-Shi JP
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20140159191 | SEMICONDUCTOR CERAMIC AND SEMICONDUCTOR CERAMIC ELEMENT - Provided is a semiconductor ceramic element constructed by using a semiconductor ceramic that generates metal-insulator transition at a temperature of actual use and has a sufficient strength to enable easy handling. The semiconductor ceramic element has an element main body having a semiconductor ceramic made of a perovskite-type or pyrochlore-type oxide containing a rare earth element, nickel, and titanium, in which a part of the nickel is present as metal nickel; and a pair of electrodes formed to interpose the element main body therebetween. This semiconductor ceramic element shows a sharp resistance change within a temperature range of actual use, and can be used advantageously as a temperature sensor. | 06-12-2014 |
Makoto Koto, Yokohama-Shi JP
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20110260325 | SEMICONDUCTOR DEVICE - To provide a semiconductor device including vertically formed nanowires in which parasitic capacitance is prevented from increasing and time constant associated with an operation speed is improved. Two different layers, which are a film thickness adjustment layer and a protective insulating layer, are provided as an interlayer insulating film between an electrode and a planar main surface of an electrically conductive substrate. This structural characteristic can reduce parasitic capacitance generated among the nanowires which electrically connect the planar main surface and the electrode to each other, the electrically conductive substrate, and the electrode, while controlling peel-off of a low dielectric film having a poor adhesion by separating the low dielectric film from the electrode with the protective insulating layer interposed therebetween. | 10-27-2011 |
20120293160 | FIELD-EFFECT TRANSISTOR INCLUDING MOVABLE GATE ELECTRODE AND SENSOR DEVICE INCLUDING FIELD-EFFECT TRANSISTOR - A field-effect transistor includes a semiconductor layer, at least two active regions disposed in the semiconductor layer, a source electrode in contact with one of the two active regions, a drain electrode in contact with the other active region; an insulating layer which is located between the source electrode and the drain electrode and which is disposed on the semiconductor layer, a gate electrode overlying the insulating layer, an adsorption site which is disposed between the gate electrode and the insulating layer and is used to adsorb a molecule, and a driving unit used to drive the gate electrode. | 11-22-2012 |
20120329253 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The present invention relates to a method of manufacturing a semiconductor device by which the length of nanowires perpendicularly formed can be fabricated with high reproducibility. The method of manufacturing a semiconductor device includes the steps of forming a first layer; forming a stop layer on the first layer, the stop layer having a higher Young's modulus than the first layer; forming a recess by partially removing the first layer and the stop layer; growing nanowires in the recess; forming a planarizing layer; removing the planarizing layer to the level of the stop layer to expose the nanowires from the surface of the planarizing layer; and forming an electrode so as to be in contact with the upper ends of the nanowires. | 12-27-2012 |
20130264687 | METHOD FOR PRODUCING COLUMNAR STRUCTURE - A method for producing a semiconductor includes a step of preparing a substrate having a fixing portion, a step of disposing a catalyst on the fixing portion, and a step of growing a semiconductor between the catalyst and the fixing portion, wherein a eutectic temperature between the catalyst and the semiconductor is lower than that between the fixing portion and the substrate. | 10-10-2013 |
20140124885 | DIODE ELEMENT AND DETECTING DEVICE - Provided is a diode element, a detecting device, and the like which solve problems of a conventional lateral diode element. In the conventional element, a semiconductor interface appears in current path between two electrodes on a surface thereof, and thus noise caused by the interface is large. The diode element includes: a first-conductive-type low carrier concentration layer; a first-conductive-type high carrier concentration layer; and a Schottky electrode and an ohmic electrode which are formed on a semiconductor surface. The low carrier layer has a carrier concentration that is lower than that of the high carrier layer. The diode element includes a first-conductive-type impurity introducing region formed below the ohmic electrode, and includes a second-conductive-type impurity introducing region so as not to be in electrical contact with the Schottky electrode on the semiconductor surface between the Schottky and the ohmic. The second-conductive-type region is in contact with the first-conductive-type region. | 05-08-2014 |
Masaaki Koto, Osaka JP
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20080211475 | Step-up converter - The present invention provides a current-mode control step-up converter capable of reducing the minimum duty ratio to a sufficiently small value and facilitating the setting of the maximum duty ratio. The step-up converter comprises a current detector | 09-04-2008 |
20080252354 | OUTPUT CIRCUIT - An output circuit includes an output block and a predrive block for driving the output block based on an input signal. The predrive block has a clamp unit connected between the gate terminal of a first output transistor and the gate terminal of a second output transistor to limit the potential of the gate terminal of the first output transistor to a value of not more than a first potential and limit the potential of the gate terminal of the second output transistor to a value of not less than a second potential. | 10-16-2008 |
20110248748 | LOAD DRIVE CIRCUIT WITH CURRENT BIDIRECTIONAL DETECTING FUNCTION - A load drive circuit with a current bidirectional detecting function includes: a current bidirectional switch connected between a first wire and a second wire and through which a first forward current flows in a direction from the first wire to the second wire and a first backward current flows in a direction from the second wire to the first wire; a forward current detecting switch connected to the first wire and into which a second forward current correlated to the first forward current flowing through the current bidirectional switch flows; a backward current detecting switch connected to the second wire and into which a second backward current correlated to the first backward current flowing through the current bidirectional switch flows. | 10-13-2011 |
Naoki Koto, Shizuoka-Ken JP
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20120318554 | INTER-WIRE CONNECTION STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - An inter-wire connection structure includes: first and second wires connected to each other and each having a core sheathed with an insulating sheath section and including a plurality of element wires; a single-wire structure section in which the plurality of element wires of at least one of the cores exposed from the insulating sheath sections are made into a single; a core joint section in which both the cores exposed from the insulating sheath sections are joined at a position where an entire region of the single-wire structure section is not overlapped, and having an outer peripheral surface in a shape of a circumferential surface; and a tube tightly covering portions of the cores exposed from the insulating sheath sections including the single-wire structure section and the core joint section, and portions of the insulating sheath sections. | 12-20-2012 |
Naoki Koto, Makinohara-Shi JP
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20120318575 | ELECTRIC CABLE CONNECTION TERMINAL AND WIRE HARNESS HAVING THE ELECTRIC CABLE CONNECTION TERMINAL - There is provided an electric cable connection terminal. A first connection part is configured to connect the one electric cable thereto. A second connection part is configured to connect the other electric cable thereto. A waterproof member is configured to be melted to seal leading end portions of core wires of the electrics cable when being heated and configured to be solidified to waterproof the leading end portions when being cooled. An accommodation part accommodating the waterproof member therein is provided between the first and second connection parts. A thermal shrinkage member is provided to cover the first and second connection parts and the accommodation part and configured to be shrunken when being heated to closely contact the first and second connection parts and the accommodation part. When the cables are connected to the first and second connection part, respectively, the core wires are arranged at an interval. | 12-20-2012 |
20120318576 | CONNECTING STRUCTURE AND CONNECTING METHOD FOR ELECTRIC CABLES - There is provided a connecting structure for electric cables. A first electric cable includes a first core and a first cover covering the first core. A portion of the first core is exposed from an end of the first cover. A second electric cable includes a second core made of a different metal from that of the first core and a second cover covering the second core. A portion of the second core is exposed from an end of the second cover. A tube is shrunk in a state where the tube accommodates thereinside the portion of the first core and the portion of the second core which are connected to each other. An inside of the tube except for the portion of the first core and the portion of the second core is filled with cured hot-melt. | 12-20-2012 |
Ryoji Koto, Mie JP
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20110021774 | METHOD FOR PRODUCING PYRIMIDINE COMPOUND - To provide a method for producing pyrimidine compound useful as an intermediate for agricultural chemicals or pharmaceuticals, which is simple in operation, presents high yield and produces only a small amount of by-products. | 01-27-2011 |
Shiichiro Koto, Machida-Shi JP
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20090252223 | VIDEO ENCODING/DECODING METHOD AND APPARATUS - A video encoding method comprises selecting one combination, for each block of an input video signal, from a plurality of combinations each including a predictive parameter and at least one reference picture number determined in advance for the reference picture, generating a prediction picture signal in accordance with the reference picture number and predictive parameter of the selected combination, generating a predictive error signal representing an error between the input video signal and the prediction picture signal, and encoding the predictive error signal, information of the motion vector, and index information indicating the selected combination. | 10-08-2009 |
Shinchiro Koto, Machida-Shi JP
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20100202520 | VIDEO ENCODING/DECODING METHOD AND APPARATUS - A video encoding method comprises selecting one combination, for each block of an input video signal, from a plurality of combinations each including a predictive parameter and at least one reference picture number determined in advance for the reference picture, generating a prediction picture signal in accordance with the reference picture number and predictive parameter of the selected combination, generating a predictive error signal representing an error between the input video signal and the prediction picture signal, and encoding the predictive error signal, information of the motion vector, and index information indicating the selected combination. | 08-12-2010 |
Tomohiko Koto, Kasugai JP
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20080290902 | LEVEL CONVERTER - A level converter comprising an input circuit, coupled to a low power source and a first high power source, which generates a complementary first signal and second signal; and a shift circuit that outputs an output signal generated by shifting a voltage level of the input signal, the shift circuit including: a latch circuit having: a first inverter circuit provided in a first path between a second high power source and the low power source; and a second inverter circuit provided in a second path between the second high power source and the low power source, wherein the latch circuit is formed by coupling an input terminal and an output terminal of the first inverter circuit and the second inverter circuit; a first transistor coupled to the first path; and a second transistor coupled to the second path. | 11-27-2008 |
20090174437 | Semiconductor Device and Method for Controlling Thereof - A semiconductor device includes a circuit section having an output impedance which changes in accordance with a switching signal for switching between drive capabilities, and transforming an input signal into an output signal in accordance with the output impedance, a reference voltage generating section generating a reference voltage in accordance with the switching signal and the input signal, and a comparing section comparing a voltage of the output signal to the reference voltage. | 07-09-2009 |
Tsukasa Koto, Nagano JP
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20110156505 | MAGNETIC ENCODER AND ACTUATOR - First to fourth magnetic detection units ( | 06-30-2011 |
Tsukasa Koto, Azumino-Shi JP
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20120229127 | MAGNETIC ABSOLUTE ENCODER AND MOTOR - A magnetic absolute encoder includes: a board-holding assembly mounted to a motor case assembly side; and a flexible printed wiring board which is held, by the board-holding assembly, in the shape of a loop surrounding multipolar and bipolar ring magnets. On the flexible printed wiring board, multipolar-side hall elements and bipolar-side hall elements are mounted and a wiring pattern relating to the hall elements are printed. The assembling work and wiring work of the magnetic absolute encoder provided with a multipolar magnetic encoder and a bipolar magnetic encoder can be performed simply in a short time. | 09-13-2012 |
Yohei Koto, Yokohama City JP
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20150340324 | Integrated Circuit Die And Package - A semiconductor package assembly includes a substrate having an upper surface with a die attachment region thereon. A layer of die attachment material is positioned on top of the die attachment region. The semiconductor package assembly also includes an integrated circuit (“IC”) die. The die has a top portion including a laterally extending top wall surface and a plurality of generally vertically extending wall surfaces extending downwardly from the top wall surface. The die has a metallized bottom portion. The bottom portion has at least two metallized laterally extending wall surfaces and a plurality of metallized generally vertically extending connecting surfaces that connect the metallized laterally extending surfaces of the bottom portion. The layer of die attachment material interfaces with one or both of the metallized laterally extending surfaces and the plurality of metallized generally vertically extending connecting wall surfaces. | 11-26-2015 |