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    • 2. 发明授权
    • Magnetic disk drive with controlled transducer movement during a seek
    • 磁盘驱动器在搜索期间具有受控的换能器运动
    • US07619849B2
    • 2009-11-17
    • US11796228
    • 2007-04-26
    • Hiroshi UchidaIsao YonedaHideki Ohzeki
    • Hiroshi UchidaIsao YonedaHideki Ohzeki
    • G11B5/596
    • G11B5/5526
    • Embodiments in accordance with the present invention provide a magnetic disk drive with reduced noise during seek operation without causing any delay in control response. According to one embodiment of the present invention, a control circuit of a magnetic disk drive controls the drive power supplied to a voice coil motor during a seek operation adapted to move a magnetic head over a target track formed on a magnetic disk so as to bring the travel speed of the magnetic head close to a predetermined target speed. The control circuit determines a provisional current according to the difference between the predetermined target speed and an actual travel speed in an acceleration zone adapted to accelerate the magnetic head to the predetermined target speed. If the provisional current exceeds a limit specified in relation to an elapsed time from the start of acceleration, the control circuit sets the limit as the current of the drive power supplied to the voice coil motor to control the motor.
    • 根据本发明的实施例提供一种在寻道操作期间具有降低的噪声的磁盘驱动器,而不会导致控制响应的任何延迟。 根据本发明的一个实施例,磁盘驱动器的控制电路在搜索操作期间控制提供给音圈电机的驱动电力,以便将磁头移动到形成在磁盘上的目标磁道上,以便带动 磁头的行进速度接近预定的目标速度。 控制电路根据预定目标速度与适于将磁头加速到预定目标速度的加速区域中的实际行驶速度之间的差异来确定临时电流。 如果临时电流超过关于从加速开始起的经过时间规定的限制,则控制电路将限制设定为作为提供给音圈电动机的驱动电力的电流以控制电动机。
    • 4. 发明申请
    • Magnetic disk drive
    • 磁盘驱动器
    • US20070253100A1
    • 2007-11-01
    • US11796228
    • 2007-04-26
    • Hiroshi UchidaIsao YonedaHideki Ohzeki
    • Hiroshi UchidaIsao YonedaHideki Ohzeki
    • G11B5/596
    • G11B5/5526
    • Embodiments in accordance with the present invention provide a magnetic disk drive with reduced noise during seek operation without causing any delay in control response. According to one embodiment of the present invention, a control circuit of a magnetic disk drive controls the drive power supplied to a voice coil motor during a seek operation adapted to move a magnetic head over a target track formed on a magnetic disk so as to bring the travel speed of the magnetic head close to a predetermined target speed. The control circuit determines a provisional current according to the difference between the predetermined target speed and an actual travel speed in an acceleration zone adapted to accelerate the magnetic head to the predetermined target speed. If the provisional current exceeds a limit specified in relation to an elapsed time from the start of acceleration, the control circuit sets the limit as the current of the drive power supplied to the voice coil motor to control the motor.
    • 根据本发明的实施例提供一种在寻道操作期间具有降低的噪声的磁盘驱动器,而不会导致控制响应的任何延迟。 根据本发明的一个实施例,磁盘驱动器的控制电路在搜索操作期间控制提供给音圈电机的驱动电力,以便将磁头移动到形成在磁盘上的目标磁道上,以便带动 磁头的行进速度接近预定的目标速度。 控制电路根据预定目标速度与适于将磁头加速到预定目标速度的加速区域中的实际行驶速度之间的差异来确定临时电流。 如果临时电流超过关于从加速开始起的经过时间规定的限制,则控制电路将限制设定为作为提供给音圈电动机的驱动电力的电流以控制电动机。
    • 5. 发明授权
    • Method and apparatus for detecting servo timing marks in a magnetic disk system
    • 用于检测磁盘系统中的伺服定时标记的方法和装置
    • US07675701B2
    • 2010-03-09
    • US11600593
    • 2006-11-15
    • Hideki OhzekiNoboru YoshidaKazuyuki IshibashiTetsuo UedaIsao YonedaToshiaki Wada
    • Hideki OhzekiNoboru YoshidaKazuyuki IshibashiTetsuo UedaIsao YonedaToshiaki Wada
    • G11B5/09
    • G11B5/59688
    • Detection capability of a servo timing mark (STM) is improved. Long STM is configured by pseudo-STM forming part of an AGC/PLL pattern and intrinsic STM. When a system can not recognize the intrinsic STM, it keeps a state that a sector detection window is opened, and is operated in a long STM detection mode to recognize the long STM, thereby generates an STM detection signal. After the STM detection signal has been generated, an STM detection window is closed, and the system is operated in an intrinsic STM detection mode. Since the long STM has longer bit length than the intrinsic STM, it has high discriminating power with respect to other bit patterns. Therefore, even if the sector detection window is remained to be in an opened state, bit strings of data sector, address information in a servo sector or the like is not falsely recognized.
    • 提高伺服定时标志(STM)的检测能力。 长STM由构成AGC / PLL模式和固有STM的一部分的伪STM构成。 当系统不能识别本征STM时,它保持扇区检测窗口打开的状态,并且以长STM检测模式操作以识别长STM,从而生成STM检测信号。 在产生STM检测信号之后,关闭STM检测窗口,并以本征STM检测模式操作系统。 由于长的STM具有比固有的STM更长的位长度,所以它对于其他位模式具有很高的识别能力。 因此,即使扇区检测窗口保持为打开状态,也不会错误地识别数据扇区的位串,伺服扇区中的地址信息等。
    • 6. 发明申请
    • Magnetic disk system
    • 磁盘系统
    • US20070146919A1
    • 2007-06-28
    • US11600593
    • 2006-11-15
    • Hideki OhzekiNoboru YoshidaKazuyuki IshibashiTetsuo UedaIsao YonedaToshiaki Wada
    • Hideki OhzekiNoboru YoshidaKazuyuki IshibashiTetsuo UedaIsao YonedaToshiaki Wada
    • G11B5/09G11B20/10
    • G11B5/59688
    • Detection capability of a servo timing mark (STM) is improved. Long STM is configured by pseudo-STM forming part of an AGC/PLL pattern and intrinsic STM. When a system can not recognize the intrinsic STM, it keeps a state that a sector detection window is opened, and is operated in a long STM detection mode to recognize the long STM, thereby generates an STM detection signal. After the STM detection signal has been generated, an STM detection window is closed, and the system is operated in an intrinsic STM detection mode. Since the long STM has longer bit length than the intrinsic STM, it has high discriminating power with respect to other bit patterns. Therefore, even if the sector detection window is remained to be in an opened state, bit strings of data sector, address information in a servo sector or the like is not falsely recognized.
    • 提高伺服定时标志(STM)的检测能力。 长STM由构成AGC / PLL模式和固有STM的一部分的伪STM构成。 当系统不能识别本征STM时,它保持扇区检测窗口打开的状态,并且以长STM检测模式操作以识别长STM,从而生成STM检测信号。 在产生STM检测信号之后,关闭STM检测窗口,并以本征STM检测模式操作系统。 由于长的STM具有比固有的STM更长的位长度,所以它对于其他位模式具有很高的识别能力。 因此,即使扇区检测窗口保持为打开状态,也不会错误地识别数据扇区的位串,伺服扇区中的地址信息等。
    • 10. 发明授权
    • Magnetic recording apparatus
    • 磁记录装置
    • US07489470B2
    • 2009-02-10
    • US11725038
    • 2007-03-15
    • Hiroshi UchidaMirei HosonoHideki OhzekiTetsuo Ueda
    • Hiroshi UchidaMirei HosonoHideki OhzekiTetsuo Ueda
    • G11B5/596
    • G11B5/59627
    • Embodiments of the present invention provide a magnetic recording apparatus capable of generating RRO compensation information that can expand the disturbance frequency range in which to compensate for RRO. Embodiments of the present invention describe a magnetic recording apparatus that uses a plurality of repetitive control systems to detect repeatable runout during the rotation of a magnetic recording medium for a frequency characteristic of each of the repetitive control systems. The magnetic recording apparatus further generates compensation information to compensate for each of the detected repeatable runout. The magnetic recording apparatus still further writes the compensation information generated for each of the repetitive control systems to a servo signal, thus suppressing and controlling the repeatable runout.
    • 本发明的实施例提供一种磁记录装置,其能够产生可以扩大其中补偿RRO的干扰频率范围的RRO补偿信息。 本发明的实施例描述了一种磁记录装置,其使用多个重复控制系统来检测用于每个重复控制系统的频率特性的磁记录介质旋转期间的可重复跳动。 磁记录装置进一步产生补偿信息以补偿每个检测到的可重复跳动。 磁记录装置还将针对每个重复控制系统生成的补偿信息写入伺服信号,从而抑制和控制可重复的跳动。