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Hiroyuki Tokunaga
Hiroyuki Tokunaga, Onsen-Gun JP
| Patent application number | Description | Published |
|---|---|---|
| 20100252454 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 10-07-2010 |
| 20100320097 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 12-23-2010 |
| 20110132776 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 06-09-2011 |
| 20110132777 | Method of measuring quantity of substrate - A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply. | 06-09-2011 |
Hiroyuki Tokunaga, Wako-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20080243339 | STEERING SYSTEM - A steering system includes: an electric power steering device which includes a steering unit of front wheels having an electric motor for generating an auxiliary torque in accordance with at least a steering torque and for transmitting the auxiliary torque to the steering unit; toe angle changers for changing toe angles of rear wheels in accordance with at least a front wheel turning angle and a vehicle speed; and a steering controller for controlling the electric power steering device and the toe angle changer. The steering system further includes a toe angle changer anomaly detection unit and/or an electric power steering device anomaly detection unit, and when a toe angle changer abnormal state is detected, an auxiliary torque target value and/or a viscosity in the electric power steering device is controlled, and when an electric power steering device abnormal state is detected, the toe angle changer is controlled. | 10-02-2008 |
| 20100286868 | ELECTRIC POWER-ASSIST STEERING SYSTEM - An electric power-assist steering system that provides a steering assist control in accordance with the steering angle right after the idle stop to reduce an unpleasant steering feeling and is installed in a vehicle having an idle stop mechanism (engine controller) that automatically performs an idle stop operation in a predetermined condition. The electric power-assist steering system includes a torque sensor, a steering angle sensor for detecting a steering angle relative to a midpoint of a steering angle that is learned, an electric motor whose assist force is controlled based on the steering torque and the steering angle, and a resolver for detecting a rotational angle of the electric motor. A steering angle right after the idle stop is determined based on the steering angle detected by the steering angle sensor right before the idle stop and variation in the rotational angle detected by the resolver during the idle stop. | 11-11-2010 |
Hiroyuki Tokunaga, Utsunomiya-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20100126795 | Electric power steering apparatus for vehicles - While a steering angle speed which represents a steering speed of the steering wheel is equal to or smaller than a predetermined speed, i.e., while the vehicle is making a steady turn with the steering wheel being held at a given angle or while the vehicle is running straight, when the rate of change of a rack load calculated by a rack load rate-of-change calculator becomes equal to or greater than a predetermined value, an EPS motor is supplied with a corrective current or which serves as a corrective signal for a drive signal in a direction to cancel out the rate of change of the rack load. | 05-27-2010 |
Hiroyuki Tokunaga, Wako JP
| Patent application number | Description | Published |
|---|---|---|
| 20090266641 | ELECTRIC POWER STEERING SYSTEM - In an electric power steering system for a vehicle that controls a force that urges a steering wheel toward a neutral position thereof, a control unit ( | 10-29-2009 |
Hiroyuki Tokunaga, Omura-Shi JP
| Patent application number | Description | Published |
|---|---|---|
| 20090156101 | POLISHING APPARATUS, POLISHING HEAD AND POLISHING METHOD - A polishing apparatus comprises a polishing plate ( | 06-18-2009 |
Hiroyuki Tokunaga, Saitama JP
| Patent application number | Description | Published |
|---|---|---|
| 20080308342 | ELECTRIC POWER STEERING APPARATUS - An electric power steering apparatus for reducing disturbances caused by loads on a rack shaft is disclosed. The electric power steering apparatus performs compensation so as to obtain a value of zero for the deviation between a target rack travel distance computed by a target rack travel distance computation unit and an actual rack travel distance computed by a rack travel distance computation unit. Bringing the deviation close to zero reduces disturbances originating in the loads on the rack shaft. | 12-18-2008 |