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    • 1. 发明授权
    • Perpendicular magnetic recording apparatus
    • 垂直磁记录装置
    • US07106539B2
    • 2006-09-12
    • US11168997
    • 2005-06-29
    • Yuka AoyagiTsutomu TanakaKenji ShimizuAkira Sakawaki
    • Yuka AoyagiTsutomu TanakaKenji ShimizuAkira Sakawaki
    • G11B15/18
    • G11B5/667G11B5/1278G11B5/656G11B2005/0005
    • A perpendicular magnetic recording apparatus includes a perpendicular double-layered media having a substrate, a soft underlayer including a soft magnetic layer, an intermediate layer, and another soft magnetic layer in which the two soft magnetic layers are antiferromagnetically coupled with each other, and a perpendicular recording layer, and a magnetic head including a main pole, a return yoke, and an exciting coil. A relationship between an antiferromagnetic coupling force Hex_afc of the two soft magnetic layers included in the soft underlayer and a full width at half maximum MWW in a cross track direction when a low-frequency signal is recorded on the perpendicular recording layer by the magnetic head satisfies the following formula: Hex—afc>1.6*ln((0.23−MWW)2*100))+25.6.
    • 垂直磁记录装置包括具有基板的垂直双层介质,包括软磁层的软底层,中间层和其中两个软磁层彼此反铁磁耦合的另一软磁层,以及 垂直记录层和包括主极,返回轭和励磁线圈的磁头。 在低磁信号由磁头记录在垂直记录层上时,包含在软底层中的两个软磁性层的反铁磁耦合力Hex_afc与横向磁道方向上的半高宽MWW之间的关系满足 以下公式:<?in-line-formula description =“In-line Formulas”end =“lead”?> Hex < - > / afc> 1.6 * ln((0.23-MWW) * 100))+ 25.6。<?in-line-formula description =“In-line Formulas”end =“tail”?>
    • 3. 发明申请
    • Perpendicular magnetic recording apparatus
    • 垂直磁记录装置
    • US20060001996A1
    • 2006-01-05
    • US11168997
    • 2005-06-29
    • Yuka AoyagiTsutomu TanakaKenji ShimizuAkira Sakawaki
    • Yuka AoyagiTsutomu TanakaKenji ShimizuAkira Sakawaki
    • G11B5/02
    • G11B5/667G11B5/1278G11B5/656G11B2005/0005
    • A perpendicular magnetic recording apparatus includes a perpendicular double-layered media having a substrate, a soft underlayer including a soft magnetic layer, an intermediate layer, and another soft magnetic layer in which the two soft magnetic layers are antiferromagnetically coupled with each other, and a perpendicular recording layer, and a magnetic head including a main pole, a return yoke, and an exciting coil. A relationship between an antiferromagnetic coupling force Hex_afc of the two soft magnetic layers included in the soft underlayer and a full width at half maximum MWW in a cross track direction when a low-frequency signal is recorded on the perpendicular recording layer by the magnetic head satisfies the following formula: Hex_afc>1.6*ln((0.23−MWW)2*100))+25.6.
    • 垂直磁记录装置包括具有基板的垂直双层介质,包括软磁层的软底层,中间层和其中两个软磁层彼此反铁磁耦合的另一软磁层,以及 垂直记录层和包括主极,返回轭和励磁线圈的磁头。 在低磁信号由磁头记录在垂直记录层上时,包含在软底层中的两个软磁性层的反铁磁耦合力Hex_afc与横向磁道方向上的半高宽MWW之间的关系满足 以下公式:<?in-line-formula description =“In-line Formulas”end =“lead”?> Hex_afc> 1.6 * ln((0.23-MWW)<2> * 100))+ 25.6。 <?in-line-formula description =“In-line Formulas”end =“tail”?>
    • 5. 发明申请
    • Non-Transitory Computer Readable Medium Storing Instructions for Update Management, Update Management Device, and Image Processing System
    • 非瞬时计算机可读介质存储更新管理指令,更新管理设备和图像处理系统
    • US20140245283A1
    • 2014-08-28
    • US14191948
    • 2014-02-27
    • Tsutomu Tanaka
    • Tsutomu Tanaka
    • G06F9/445
    • G06F8/65
    • A non-transitory computer readable medium stores an update management program for causing an update on control program, which is installed on each of image processing devices. The update management program, when executed by a processor, causes the computer to: acquire an update program and update function information regarding functions to be updated by the update program from a firmware distribution server; acquire device function information regarding functions of each image processing device from the each image processing device; transmit the update program to the each image processing device; determine an update sequence of timing for causing the each image processing device to update its control program, based on the acquired update function information and the acquired device function information; and cause the each image processing device to update its control program by executing the transmitted update program in accordance with the determined update sequence of timing.
    • 非暂时性计算机可读介质存储用于对安装在每个图像处理装置上的控制程序进行更新的更新管理程序。 更新管理程序在由处理器执行时使计算机从固件分发服务器获取更新程序并更新关于由更新程序更新的功能的功能信息; 从每个图像处理装置获取关于每个图像处理装置的功能的装置功能信息; 将更新程序发送到每个图像处理装置; 基于所获取的更新功能信息和所获取的设备功能信息,确定使每个图像处理设备更新其控制程序的定时更新顺序; 并且通过根据确定的定时更新顺序执行所发送的更新程序,使每个图像处理装置更新其控制程序。
    • 8. 发明授权
    • Connector
    • 连接器
    • US08568159B2
    • 2013-10-29
    • US13405440
    • 2012-02-27
    • Masahiro NodaTsutomu Tanaka
    • Masahiro NodaTsutomu Tanaka
    • H01R13/58
    • H01R13/5812H01R13/562
    • Areas at outer edge sides of a draw-out area for wires (13) out of a rear end surface (10R) of a housing (10) serve as operation surfaces (14) used to push the housing (10) forward. Areas of the outer periphery of a rear end portion of the housing (10) corresponding to and before the operation surfaces (14) are recessed to form outward forming grooves (15). The housing (10) is formed with bores (18) by further recessing parts of groove bottom surfaces (17) of the outward facing grooves (15). Inward facing projections (26) engageable with the outward facing grooves (15) are formed on the inner surface of a wire cover (20). Each locking projection (26) is formed with restricting projections (27) engageable with the bores (18).
    • 在壳体(10)的后端面(10R)之外的用于电线(13)的拉出区域的外边缘侧的区域用作用于向前推动壳体(10)的操作表面(14)。 对应于操作表面(14)之前和之前的壳体(10)的后端部分的外周的区域被凹入以形成向外的形成槽(15)。 壳体(10)通过进一步凹入面向外的凹槽(15)的槽底表面(17)的部分而形成有孔(18)。 在电线罩(20)的内表面上形成有与面向外的槽(15)接合的向内的突起(26)。 每个锁定突起(26)形成有可与孔(18)接合的限制突起(27)。