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    • 2. 发明申请
    • SIMULATING DISCRETE TRACK MEDIA WITH CONTINUOUS MEDIA FOR HEAD EVALUATION
    • 用连续介质模拟离散跟踪介质进行头部评估
    • US20120113538A1
    • 2012-05-10
    • US12941482
    • 2010-11-08
    • Kezhao ZhangJizhong HeShanlin DuanJane Jie ZhangZhupei Shi
    • Kezhao ZhangJizhong HeShanlin DuanJane Jie ZhangZhupei Shi
    • G11B27/36
    • G11B27/36G11B5/455G11B5/743G11B2220/2516
    • Approaches for a testing device for selecting a discrete track media (DTM) format for use with a particular head of a hard-disk drive (HDD). The testing device comprises a continuous magnetic-recording disk, rotatably mounted on a spindle, which stores data using a continuous media format. The testing device also comprises a testing module configured to simulate reading data, stored using a discrete track media (DTM) format, from the continuous magnetic-recording medium. Advantageously, testing time and cost is reduced as both discrete track media (DTM) disks and expensive discrete track media (DTM) recording testing hardware are not required to select the optimal a discrete track media (DTM) format for use with a particular head of a hard-disk drive (HDD). In addition, embodiments may be used to optimize features of the tracks of the DTM disk, such as the land to groove ratio.
    • 用于选择与硬盘驱动器(HDD)的特定头部一起使用的离散轨道介质(DTM)格式的测试设备的方法。 测试装置包括可旋转地安装在主轴上的连续磁记录盘,其使用连续的媒体格式存储数据。 测试装置还包括被配置成模拟从连续磁记录介质中使用离散轨道介质(DTM)格式存储的读取数据的测试模块。 有利的是,测试时间和成本被降低,因为不需要离散轨道介质(DTM)盘和昂贵的离散轨道介质(DTM)记录测试硬件来选择最佳的离散轨道介质(DTM)格式,以用于特定的头 硬盘驱动器(HDD)。 此外,可以使用实施例来优化DTM盘的轨道的特征,例如陆地与凹槽之比。
    • 3. 发明授权
    • Simulating discrete track media with continuous media for head evaluation
    • 模拟具有连续介质的离散轨道介质进行头部评估
    • US08395857B2
    • 2013-03-12
    • US12941482
    • 2010-11-08
    • Kezhao ZhangJizhong HeShanlin DuanJane Jie ZhangZhupei Shi
    • Kezhao ZhangJizhong HeShanlin DuanJane Jie ZhangZhupei Shi
    • G11B27/36G11B5/09
    • G11B27/36G11B5/455G11B5/743G11B2220/2516
    • Approaches for a testing device for selecting a discrete track media (DTM) format for use with a particular head of a hard-disk drive (HDD). The testing device comprises a continuous magnetic-recording disk, rotatably mounted on a spindle, which stores data using a continuous media format. The testing device also comprises a testing module configured to simulate reading data, stored using a discrete track media (DTM) format, from the continuous magnetic-recording medium. Advantageously, testing time and cost is reduced as both discrete track media (DTM) disks and expensive discrete track media (DTM) recording testing hardware are not required to select the optimal a discrete track media (DTM) format for use with a particular head of a hard-disk drive (HDD). In addition, embodiments may be used to optimize features of the tracks of the DTM disk, such as the land to groove ratio.
    • 用于选择与硬盘驱动器(HDD)的特定头部一起使用的离散轨道介质(DTM)格式的测试设备的方法。 测试装置包括可旋转地安装在主轴上的连续磁记录盘,其使用连续的媒体格式存储数据。 测试装置还包括被配置成模拟从连续磁记录介质中使用离散轨道介质(DTM)格式存储的读取数据的测试模块。 有利的是,测试时间和成本被降低,因为不需要离散轨道介质(DTM)盘和昂贵的离散轨道介质(DTM)记录测试硬件来选择最佳的离散轨道介质(DTM)格式,以用于特定的头 硬盘驱动器(HDD)。 此外,可以使用实施例来优化DTM盘的轨道的特征,例如陆地与凹槽之比。
    • 8. 发明申请
    • APPARATUS, SYSTEM, AND METHOD FOR DETECTION OF FLY HEIGHT MARGIN USING CONTROLLED EXCITATION OF AIR BEARING MODE
    • 使用空气轴承模式的控制激励来检测飞行高度的装置,系统和方法
    • US20080137225A1
    • 2008-06-12
    • US11609811
    • 2006-12-12
    • Shanlin DuanJizhong HeJohn Stephen Hopkins
    • Shanlin DuanJizhong HeJohn Stephen Hopkins
    • G11B21/02
    • G11B5/6058G11B5/5534G11B5/6052G11B5/6076
    • An apparatus, system, and method are disclosed for fly height detection. The apparatus includes an actuator configured to induce vibrations in a glide head that is configured to detect physical asperities on a disk surface. The apparatus may also include a second end of the suspension arm coupled with the glide head and a sensor module that is configured to communicate with a control module in response to the glide head coming in contact with at least one physical asperity. The system includes the apparatus, a disk having a surface comprising physical asperities, and a head gimbal assembly configured to calibrate a fly height margin for the disk. The method includes inducing vibrations in a glide head, detecting physical asperities on a disk surface, and communicating with a control module in response to the glide head coming in contact with at least one physical asperity.
    • 公开了用于飞行高度检测的装置,系统和方法。 该装置包括致动器,其构造成在滑动头中引起被配置为检测盘表面上的物理粗糙度的振动。 该装置还可以包括悬挂臂的与滑行头连接的第二端和传感器模块,该传感器模块被配置成响应于滑动头与至少一个物理凹凸接触而与控制模块通信。 该系统包括装置,具有包括物理粗糙度的表面的盘以及被配置为校准盘的飞行高度余量的头部万向节组件。 该方法包括在滑动头部引起振动,检测盘表面上的物理粗糙度,以及响应于滑动头与至少一个物理粗糙度接触而与控制模块通信。
    • 10. 发明授权
    • Apparatus, system, and method for detection of fly height margin using controlled excitation of air bearing mode
    • 使用空气轴承模式的受控激励来检测飞行高度裕度的装置,系统和方法
    • US07692888B2
    • 2010-04-06
    • US11609811
    • 2006-12-12
    • Shanlin DuanJizhong HeJohn Stephen Hopkins
    • Shanlin DuanJizhong HeJohn Stephen Hopkins
    • G11B21/02
    • G11B5/6058G11B5/5534G11B5/6052G11B5/6076
    • An apparatus, system, and method are disclosed for fly height detection. The apparatus includes an actuator configured to induce vibrations in a glide head that is configured to detect physical asperities on a disk surface. The apparatus may also include a second end of the suspension arm coupled with the glide head and a sensor module that is configured to communicate with a control module in response to the glide head coming in contact with at least one physical asperity. The system includes the apparatus, a disk having a surface comprising physical asperities, and a head gimbal assembly configured to calibrate a fly height margin for the disk. The method includes inducing vibrations in a glide head, detecting physical asperities on a disk surface, and communicating with a control module in response to the glide head coming in contact with at least one physical asperity.
    • 公开了用于飞行高度检测的装置,系统和方法。 该装置包括致动器,其构造成在滑动头中引起被配置为检测盘表面上的物理粗糙度的振动。 该装置还可以包括悬挂臂的与滑行头连接的第二端和传感器模块,该传感器模块被配置成响应于滑动头与至少一个物理凹凸接触而与控制模块通信。 该系统包括装置,具有包括物理粗糙度的表面的盘以及被配置为校准盘的飞行高度余量的头部万向节组件。 该方法包括在滑动头部引起振动,检测盘表面上的物理粗糙度,以及响应于滑动头与至少一个物理粗糙度接触而与控制模块通信。