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    • 1. 发明授权
    • Storage apparatus and program update method
    • 存储设备和程序更新方法
    • US08904107B2
    • 2014-12-02
    • US13497689
    • 2012-03-14
    • Yusuke MatsumuraTomohisa OgasawaraYukiyoshi TakamuraRyoma Ishizaka
    • Yusuke MatsumuraTomohisa OgasawaraYukiyoshi TakamuraRyoma Ishizaka
    • G06F12/00
    • G06F8/65Y02D10/42
    • A storage apparatus and program update method for reducing tediousness and complications of drive inventory management.A storage apparatus 10 includes a disk unit 400 composed of a plurality of first drives 420 storing first firmware of the same type, a controller 100 for controlling data during operation of the first firmware, a relay device 300, and a second drive 520. Then, the second drive 520 stores second firmware of the same type as that of the first firmware and third firmware of a type different from that of the first firmware. The controller 100 includes: a firmware comparison unit for comparing the first firmware with the second firmware; a firmware comparison unit for deciding firmware to operate on the storage apparatus 10 based on the comparison result; and a firmware update unit for updating the firmware operating on the first drive 420 or the second drive 520 with the decided firmware.
    • 一种用于减少驱动库存管理繁琐和并发症的存储装置和程序更新方法。 存储装置10包括由存储相同类型的第一固件的多个第一驱动器420组成的盘单元400,用于在第一固件操作期间控制数据的控制器100,中继装置300和第二驱动器520.然后, 第二驱动器520存储与第一固件的类型相同类型的第二固件和与第一固件不同的类型的第三固件。 控制器100包括:固件比较单元,用于将第一固件与第二固件进行比较; 固件比较单元,用于基于比较结果来确定对存储装置10进行操作的固件; 以及固件更新单元,用于利用所确定的固件更新在第一驱动器420或第二驱动器520上操作的固件。
    • 2. 发明申请
    • SOLID-STATE IMAGING DEVICE, METHOD OF MANUFACTURING SOLID-STATE IMAGING DEVICE, AND ELECTRONIC APPARATUS
    • 固态成像装置,制造固态成像装置的方法和电子装置
    • US20110248371A1
    • 2011-10-13
    • US13078569
    • 2011-04-01
    • Yusuke MatsumuraTakashi Machida
    • Yusuke MatsumuraTakashi Machida
    • H01L27/146H01L31/18
    • H01L27/14612H01L27/14614H01L27/14656H01L27/14689H04N5/3745H04N5/37452
    • Provided is a solid-state imaging device including: a first-conductivity-type substrate; a second-conductivity-type well formed in a surface side of the first-conductivity-type substrate; a photoelectric conversion area configured with a first-conductivity-type-impurity area formed in the second-conductivity-type well to convert incident light to charges; a first-conductivity-type-charge retaining area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to retain the charges converted by the photoelectric conversion area until the charges are read out; a charge voltage conversion area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to convert the charges retained in the charge retaining area to a voltage; and a first-conductivity-type-layer area configured by forming a first-conductivity-type-in a convex shape from a boundary between the first-conductivity-type substrate and the second-conductivity-type well to a predetermined depth of the surface side under at least one portion of the charge retaining area and the charge voltage conversion area.
    • 提供一种固态成像装置,包括:第一导电型基板; 在第一导电型基板的表面侧形成的第二导电型阱; 光电转换区,配置有形成在第二导电型阱中的第一导电型杂质区,以将入射光转换成电荷; 形成在第二导电型阱中的第一导电型杂质区的第一导电型电荷保持区,以保持由光电转换区转换的电荷,直到读出电荷; 电荷电压转换区域,其被配置有形成在第二导电型阱中的第一导电型杂质区域,以将保留在电荷保持区域中的电荷转换成电压; 以及第一导电型层区域,其通过从第一导电型基板和第二导电型阱之间的边界到表面的预定深度形成具有凸形的第一导电类型 在电荷保持区域和充电电压转换区域的至少一部分之下。
    • 3. 发明授权
    • Solid-state imaging device, method of manufacturing solid-state imaging device, and electronic apparatus
    • 固态成像装置,制造固态成像装置的方法和电子装置
    • US08716719B2
    • 2014-05-06
    • US13078569
    • 2011-04-01
    • Yusuke MatsumuraTakashi Machida
    • Yusuke MatsumuraTakashi Machida
    • H01L31/0232
    • H01L27/14612H01L27/14614H01L27/14656H01L27/14689H04N5/3745H04N5/37452
    • Provided is a solid-state imaging device including: a first-conductivity-type substrate; a second-conductivity-type well formed in a surface side of the first-conductivity-type substrate; a photoelectric conversion area configured with a first-conductivity-type-impurity area formed in the second-conductivity-type well to convert incident light to charges; a first-conductivity-type-charge retaining area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to retain the charges converted by the photoelectric conversion area until the charges are read out; a charge voltage conversion area configured with the first-conductivity-type-impurity area formed in the second-conductivity-type well to convert the charges retained in the charge retaining area to a voltage; and a first-conductivity-type-layer area configured by forming a first-conductivity-type-in a convex shape from a boundary between the first-conductivity-type substrate and the second-conductivity-type well to a predetermined depth of the surface side under at least one portion of the charge retaining area and the charge voltage conversion area.
    • 提供一种固态成像装置,包括:第一导电型基板; 在第一导电型基板的表面侧形成的第二导电型阱; 光电转换区,配置有形成在第二导电型阱中的第一导电型杂质区,以将入射光转换成电荷; 形成在第二导电型阱中的第一导电型杂质区的第一导电型电荷保持区,以保持由光电转换区转换的电荷,直到读出电荷; 电荷电压转换区域,其被配置有形成在第二导电型阱中的第一导电型杂质区域,以将保留在电荷保持区域中的电荷转换成电压; 以及第一导电型层区域,其通过从第一导电型基板和第二导电型阱之间的边界到表面的预定深度形成具有凸形的第一导电类型 在电荷保持区域和充电电压转换区域的至少一部分之下。
    • 4. 发明申请
    • STORAGE APPARATUS AND PROGRAM UPDATE METHOD
    • 存储设备和程序更新方法
    • US20130246706A1
    • 2013-09-19
    • US13497689
    • 2012-03-14
    • Yusuke MatsumuraTomohisa OgasawaraYukiyoshi TakamuraRyoma Ishizaka
    • Yusuke MatsumuraTomohisa OgasawaraYukiyoshi TakamuraRyoma Ishizaka
    • G06F12/08
    • G06F8/65Y02D10/42
    • A storage apparatus and program update method for reducing tediousness and complications of drive inventory management.A storage apparatus 10 includes a disk unit 400 composed of a plurality of first drives 420 storing first firmware of the same type, a controller 100 for controlling data during operation of the first firmware, a relay device 300, and a second drive 520. Then, the second drive 520 stores second firmware of the same type as that of the first firmware and third firmware of a type different from that of the first firmware. The controller 100 includes: a firmware comparison unit for comparing the first firmware with the second firmware; a firmware comparison unit for deciding firmware to operate on the storage apparatus 10 based on the comparison result; and a firmware update unit for updating the firmware operating on the first drive 420 or the second drive 520 with the decided firmware.
    • 一种用于减少驱动库存管理繁琐和并发症的存储装置和程序更新方法。 存储装置10包括由存储相同类型的第一固件的多个第一驱动器420组成的盘单元400,用于在第一固件操作期间控制数据的控制器100,中继装置300和第二驱动器520.然后, 第二驱动器520存储与第一固件的类型相同类型的第二固件和与第一固件不同的类型的第三固件。 控制器100包括:固件比较单元,用于将第一固件与第二固件进行比较; 固件比较单元,用于基于比较结果来确定对存储装置10进行操作的固件; 以及固件更新单元,用于利用所确定的固件更新在第一驱动器420或第二驱动器520上操作的固件。
    • 5. 发明申请
    • MEASUREMENT METHOD AND MEASUREMENT RETICLE
    • 测量方法和测量方法
    • US20090213388A1
    • 2009-08-27
    • US12370381
    • 2009-02-12
    • Yusuke Matsumura
    • Yusuke Matsumura
    • G01B9/02G01B11/00
    • G01M11/0264G03F7/706
    • The present invention provides a measurement method of measuring a wavefront aberration of an optical system to be measured, the method including arranging a measurement reticle on an object plane of the optical system to be measured, forming an image of the wavefront measurement mark on an image plane of the optical system to be measured, and calculating the wavefront aberration based on a position shift amount of the image of the wavefront measurement mark from an ideal position, the image being formed on the image plane of the optical system to be measured, wherein the wavefront measurement mark includes a first mark having a longitudinal direction in a first direction, and a second mark having a longitudinal direction in a second direction perpendicular to the first direction and spaced apart from the first mark.
    • 本发明提供了一种测量待测光学系统的波前像差的测量方法,该方法包括在被测光学系统的物平面上布置测量标线片,在图像上形成波前测量标记的图像 平面,并且根据要测量的光学系统的图像平面上形成的图像,基于来自理想位置的波前测量标记的图像的位置偏移量来计算波前像差,其中 波前测量标记包括具有在第一方向上的纵向方向的第一标记和在垂直于第一方向的第二方向上具有纵向方向并与第一标记隔开的第二标记。
    • 6. 发明授权
    • Stabilized magnetic fluid and method for stabilizing magnetic fluid
    • 稳定磁流体和稳定磁流体的方法
    • US5827444A
    • 1998-10-27
    • US638155
    • 1996-04-26
    • Kazuya ShimizuKousuke OkuraYusuke Matsumura
    • Kazuya ShimizuKousuke OkuraYusuke Matsumura
    • H01F1/44
    • H01F1/445H01F1/44
    • The present invention provides a magnetic fluid which comprises a magnetic fluid comprising magnetic fine particles coated with a fatty acid in an oily medium, and at least one selected from the group consisting of sulfonate surfactants and animal waxes, has an excellent stability even when used at a high temperature and high humidity and having the fluidity maintained for a long period, and is suitable for use particularly in a severe environment as a bearing, magnetic damper, magnetic seal, specific gravity separator, liquid damper, switch, acceleration sensor, tilt sensor, or heat exchanger for heat pipe or heat sink, and further a magnetic fluid-stabilizing additive allowing the magnetic fluid to have an excellent stability for a long period while maintaining the magnetic fluid's own performance even when used at a high temperature and high humidity for a long period, and a method of stabilizing the magnetic fluid.
    • 本发明提供一种磁性流体,其包含磁性流体,其包含在油性介质中涂覆有脂肪酸的磁性细颗粒,以及选自磺酸盐表面活性剂和动物蜡中的至少一种,具有优异的稳定性,即使在 高温高湿,流动性长时间保持,特别适用于轴承,磁阻尼器,磁力密封,比重分离器,液体阻尼器,开关,加速度传感器,倾斜传感器等严酷环境中 或用于热管或散热器的热交换器,以及另外一种磁性流体稳定添加剂,其允许磁性流体在长时间内具有优异的稳定性,同时保持磁性流体自身的性能,即使在高温高湿下使用 长时间和稳定磁性流体的方法。