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    • 2. 发明授权
    • Method and apparatus for optimizing piezoelectric surface asperity
detection sensor
    • 用于优化压电表面粗糙度检测传感器的方法和装置
    • US5581021A
    • 1996-12-03
    • US482536
    • 1995-06-07
    • Karl A. FlechsigChih-Kung LeeSylvia L. LeeUllal V. NayakTimothy C. O'Sullivan
    • Karl A. FlechsigChih-Kung LeeSylvia L. LeeUllal V. NayakTimothy C. O'Sullivan
    • G01H11/08G11B33/10G01B5/28H01L41/047
    • G11B33/10G01H11/08Y10S73/04
    • Disclosed is a method and apparatus for sensing the vibrational response of a slider of predetermined dimensions during contact with one or more surface asperities on a recording surface, separating the response into its individual bending mode frequency component responses, determining one or more bending mode frequency responses which display monotonic behavior with increasing asperity interference, and designing a mode selection sensor optimized to detect the monotonic bending mode frequency identified. The mode enhanced sensor is designed by first analyzing the stress distribution of the slider corresponding to the monotonic bending mode frequency, identifying regions of the slider which experience substantially positive or substantially negative stress, and partitioning the upper conductive layer of a piezoelectric sensor to form a partitions corresponding to each of the identified regions. The sensor may be further enhanced by tailoring the partitions to exclude undesirable stress contributions.
    • 公开了一种用于在与记录表面上的一个或多个表面粗糙度接触期间感测预定尺寸的滑块的振动响应的方法和装置,将响应分离成其单独的弯曲模式频率分量响应,确定一个或多个弯曲模式频率响应 其显示单调性行为随着越来越严重的干扰,并且设计了优化以检测所识别的单调弯曲模式频率的模式选择传感器。 通过首先分析对应于单调弯曲模式频率的滑块的应力分布来设计模式增强传感器,识别经历基本上正的或基本上负的应力的滑块的区域,以及分隔压电传感器的上导电层以形成 对应于每个识别的区域的分区。 可以通过调整隔板以排除不期望的应力贡献来进一步增强传感器。
    • 4. 发明授权
    • Method for optimizing piezoelectric surface asperity detection sensor
    • 压电表面粗糙度检测传感器优化方法
    • US5450747A
    • 1995-09-19
    • US174484
    • 1993-12-27
    • Karl A. FlechsigChih-Kung LeeSylvia L. LeeUllal V. NayakTimothy C. O'Sullivan
    • Karl A. FlechsigChih-Kung LeeSylvia L. LeeUllal V. NayakTimothy C. O'Sullivan
    • G01H11/08G11B33/10G01B5/28H01L41/047
    • G11B33/10G01H11/08Y10S73/04
    • A method and apparatus for sensing the vibrational response of a slider of predetermined dimensions during contact with one or more surface asperities on a recording surface, separating the response into its individual bending mode frequency component responses, determining one or more bending mode frequency responses which display monotonic behavior with increasing asperity interference, and designing a mode selection sensor optimized to detect the monotonic bending mode frequency identified. The mode enhanced sensor is designed by first analyzing the stress distribution of the slider corresponding to the monotonic bending mode frequency, identifying regions of the slider which experience substantially positive or substantially negative stress, and partitioning the upper conductive layer of a piezoelectric sensor to form a partitions corresponding to each of the identified regions. The sensor may be further enhanced by tailoring the partitions to exclude undesirable stress contributions.
    • 一种用于在与记录表面上的一个或多个表面粗糙度接触期间感测预定尺寸的滑块的振动响应的方法和装置,将响应分离成其单独的弯曲模式频率分量响应,确定显示的一个或多个弯曲模式频率响应 单调性行为随着越来越严重的干扰,并且设计了优化的模式选择传感器,以检测所识别的单调弯曲模式频率。 通过首先分析对应于单调弯曲模式频率的滑块的应力分布来设计模式增强传感器,识别经历基本上正的或基本上负的应力的滑块的区域,以及分隔压电传感器的上导电层以形成 对应于每个识别的区域的分区。 可以通过调整隔板以排除不期望的应力贡献来进一步增强传感器。
    • 6. 发明申请
    • Magnetic performance of a magnetic transducer operating within a hard disk drive
    • 磁性传感器在硬盘驱动器内工作的磁性能
    • US20090147404A1
    • 2009-06-11
    • US12001250
    • 2007-12-10
    • Bernhard E. KniggeUllal V. Nayak
    • Bernhard E. KniggeUllal V. Nayak
    • G11B5/60
    • G11B5/6064G11B5/40G11B5/607G11B2005/0002
    • A method for improving the magnetic performance of at least one magnetic transducer operating within a hard disk drive. The method comprises flying the magnetic transducer at a distance of separation from a magnetic recording media. The magnetic transducer is coupled with a highly damped air bearing surface and a fly height control device. At least one operating parameter of the hard disk drive is measured. The magnetic transducer is moved with the fly height control device into contact with the magnetic recording media, in accordance with at least one operating parameter of the hard disk drive. The magnetic transducer is operated while the magnetic transducer is in contact with the magnetic recording media, thereby improving the magnetic performance of the magnetic transducer.
    • 一种用于改善在硬盘驱动器内操作的至少一个磁换能器的磁性能的方法。 该方法包括在与磁记录介质分离的距离处使磁换能器飞行。 磁换能器与高度阻尼的空气轴承表面和飞行高度控制装置相结合。 测量硬盘驱动器的至少一个操作参数。 根据硬盘驱动器的至少一个操作参数,磁传感器与飞行高度控制装置一起移动以与磁记录介质接触。 在磁传感器与磁记录介质接触的同时操作磁换能器,从而提高磁传感器的磁性能。