Kuragaki, JP
Satoru Kuragaki, Isehara-Shi JP
Patent application number | Description | Published |
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20090096280 | BRAKE BOOST CONTROL APPARATUS - A brake boost control apparatus has a brake operation member, a master cylinder, a wheel cylinder, a hydraulic pump, a master cylinder pressure detection section detecting a pressure of the brake fluid, a brake stroke amount detection section detecting a stroke amount of the brake operation member, a hydraulic pressure control section that controls a pressure of the wheel cylinder, a boost section which boosts the pressure of the brake fluid and increases the wheel cylinder pressure, and a control unit. The control unit controls at least one of the hydraulic pump and the hydraulic pressure control section so that the stroke amount detected by the brake stroke amount detection section under a boost operation by the boost section and the pressure detected by the master cylinder pressure detection section are maintained at a predetermined relationship. | 04-16-2009 |
20090261649 | Brake Booster - The present invention provides a brake booster in which an excellent pedal feeling can be provided even though a brake fluid pressure control unit is disposed between the brake booster and a wheel cylinder. The brake booster according to the present invention performs different methods for controlling a booster based on whether the fluid pressure control unit is in operation, and controls a displacement amount of an assist member so that a change in a master cylinder pressure is within a predetermined range even when the fluid pressure control unit is in operation. | 10-22-2009 |
Satoru Kuragaki, Hitachinaka JP
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20090218179 | Electric Brake - Provided is an electric brake capable of accurately estimating the brake pad temperature and securing a sufficient braking force and response. An electric brake has a disc rotor rotating with a wheel, an actuator for rectilinearly actuating a piston in the axial direction of the disc rotor by using an electric motor, a drive controller for controlling the drive of the actuator, a brake pad pressed by the piston to give a frictional resistance to the disc rotor in the direction of rotation, and a braking start position detector for detecting a braking start position of the piston where the disc rotor is brought into contact with the brake pad. The drive controller stores the braking start position detected by the braking start position detector as the maximum braking start position. When the braking start position shifts in the pressing force-increasing direction, the drive controller updates the value stored as the maximum braking-start position. | 09-03-2009 |
Satoru Kuragaki, Isehara JP
Patent application number | Description | Published |
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20090026835 | Hydraulic Braking Device - The first control is to displace the primary piston by the amount obtained by multiplying the input rod displacement quantity by a proportional gain. The second control is to propel the primary piston by a prescribed offset thereby executing the first control. The third control is to displace the primary piston by the amount obtained by multiplying the input rod displacement quantity by a proportional gain specifically at a pressure decrease request. The brake force control device properly selects a control method from the first to third control methods to control the primary piston based on the automatic braking release conditions and a driver's brake request when a driver executes a brake operation during the automatic braking. | 01-29-2009 |
20090143951 | Forward Collision Avoidance Assistance System - An object of the present invention is to provide a forward collision avoidance assistance system that attains the reduction of driver's uncomfortable feeling and the improvement in drivability while ensuring the collision avoidance performance during operation for avoiding contact with an object. | 06-04-2009 |
Satoru Kuragaki, Hitachi-Shi JP
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20080282118 | Highly Reliable Distributed System - The highly reliable distributed system is composed of a communication protocol processing unit which comprises a mailbox for storing a communication message, and executes communication protocol processing between data of an application program and a network controller using the network controller performing network communication of the message in the mailbox; an error detection coding unit; an error detection decoding unit which reconverts data converted from communication data by the error detection coding unit to the original data, and detects that the content of the data is damaged if it is damaged; and a data comparing unit for checking whether or not two kinds of data agree with each other. | 11-13-2008 |
Shunji Kuragaki, Tokyo JP
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20090255456 | Method for evaluating metal contamination of silicon single crystal - When a silicon single crystal is grown by the CZ method using a pulling apparatus in which a voltage can be applied between a crystal suspending member and a crucible, the voltage is applied under the condition that the crystal suspending member is set as a negative electrode while the crucible is set as a positive electrode in a process for growing a lower end portion of a cylindrical portion or a tail portion which is of a non-convertible portion of the silicon single crystal. A sample wafer is collected from the lower end portion of the cylindrical portion or the tail portion, which is grown in association with the voltage application, and the metal contamination of the sample wafer is evaluated. The sample wafer has enough metal impurity concentration to evaluate the metal contamination. The metal contamination is evaluated for each of the sequentially grown silicon single crystals, so that a metal impurity generation behavior in a pulling apparatus, which is a factor in silicon single crystal metal contamination, can assuredly be grasped. | 10-15-2009 |
20090293801 | PRODUCTION METHOD OF SILICON SINGLE CRYSTAL - A method of growing a single crystal, wherein the yield in terms of specific resistance is improved by improving an effective segregation coefficient without affecting other characteristics, is provided: wherein a seed crystal provided to the lower end of a wire cable is immersed in melt in a crucible, a single crystal ingot is grown on the lower end portion of the seed crystal being elevated by pulling up the wire cable while rotating the same, and a horizontal magnetic field intensity to be applied to the silicon melt is changed in accordance with crystal positions along the growing axis direction of the single crystal ingot, so that an effective segregation coefficient of a dopant along the growing axis direction in the single crystal ingot becomes small. | 12-03-2009 |
20130269595 | METHOD FOR EVALUATING METAL CONTAMINATION OF SILICON SINGLE CRYSTAL - A method for evaluating metal contamination of a silicon single crystal grown by the Czochralski method using a pulling apparatus in which a voltage can be applied between a crystal suspending member and a crucible comprises the steps of: setting the crystal suspending member as a negative electrode while setting the crucible as a positive electrode in a process for growing a non-convertible portion of the silicon single crystal; applying the voltage; collecting a sample from the non-convertible portion grown in association with the voltage application; and evaluating the metal contamination of the sample by an analysis in which Surface Photo Voltage method is adopted. In a process for growing an end-product convertible portion of the silicon single crystal, the voltage is applied such that the crystal suspending member is set as the positive electrode while the crucible is set as the negative electrode, or the voltage is not applied. | 10-17-2013 |