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    • 4. 发明授权
    • Method of disc alignment using printed alignment marks
    • 使用印刷对准标记的盘对准方法
    • US08792201B2
    • 2014-07-29
    • US12629791
    • 2009-12-02
    • Gennady GauznerDavid S. KuoJustin Jia-Jen HwuLi-Ping WangZhaoning YuKim Yang Lee
    • Gennady GauznerDavid S. KuoJustin Jia-Jen HwuLi-Ping WangZhaoning YuKim Yang Lee
    • G11B21/02G11B5/82B82Y10/00G11B5/855G11B5/74G11B25/04
    • G11B25/043B82Y10/00G11B5/743G11B5/746G11B5/82G11B5/855Y10T29/49021
    • Processes include aligning a disc with a template at a location so that the pattern from the template is transferred to the disc in a relative orientation. The relative orientation provides that when the disc with the transferred pattern is finally assembled into a hard disc drive, an inner diameter of the spindle hole of the disc may be abutted against an outer diameter of the disc drive spindle, and the data-containing patterns on the discs will be aligned concentrically with a center of the disc drive spindle. While the data-containing patterns are aligned concentrically with the disc drive spindle, the substrate itself is allowed to be non-concentric. Still other aspects include a disc having eccentric formations including PIM and one or more of bit patterns and servo information formed on a disc surface, the eccentricity of the formations is determined based on an expected difference between the radius of the spindle hole of the disc and the radius of the spindle on which the disc will be placed during assembly, with the PIM used to determine the angular alignment of the disc with the spindle.
    • 过程包括将光盘与模板在一个位置对齐,使得来自模板的图案以相对方向被传送到光盘。 相对方向规定,当具有转印图案的光盘最终组装成硬盘驱动器时,盘的主轴孔的内径可以抵靠盘驱动主轴的外径,并且包含数据的图案 碟盘将与盘片驱动主轴的中心同心对齐。 当包含数据的图案与盘驱动器心轴同心对准时,衬底本身被允许为非同心的。 其它方面还包括具有包括PIM和形成在盘表面上的位图形和伺服信息中的一种或多种的偏心构造的盘,基于盘的主轴孔的半径和 在组装过程中将放置光盘的主轴的半径,PIM用于确定光盘与主轴的角度对齐。
    • 6. 发明申请
    • PROFILE CONTROL UTILIZING A RECESSED IMPRINT TEMPLATE
    • 配置文件控制使用一个被压印的模版
    • US20110027407A1
    • 2011-02-03
    • US12510894
    • 2009-07-28
    • Kim Yang LeeDavid S. KuoZhaoning Yu
    • Kim Yang LeeDavid S. KuoZhaoning Yu
    • B29C59/00B44C1/22C23F1/00G03F7/20
    • G03F7/0002B82Y10/00B82Y40/00H01L2251/105
    • An imprint template is provided with a shallower field bordering the patterned region. The shallower field can be formed with additional lithography/etch steps after (or before) the formation of the features in the patterned region. The template is used to establish a thin film pattern with a field thickness that is shallower than the pattern. A shallower field bordering the patterned region alleviates sidewall re-deposition during ion mill. In a planarization/etch-back process, a thinner field helps to achieve a flat top surface by compensating for the thickness variation caused by different filling ratios. Fabrication of the recessed field template comprises a multi-step patterning process. The initial patterns are formed using a convention fabrication process. A second patterning step is used to reduce the height of the field region, which can be applied by coating the “half-finished” template with a suitable resist pattern and patterning the resist using a second lithography step that is aligned to the original pattern. Template material in the field region is then etched with the resist as a mask, forming a template with a recessed field region after the remaining resist is removed. It should be appreciated that the order of these etch steps can be reversed to obtain the same result.
    • 压印模板设置有与图案化区域相邻的较浅的场。 可以在(或之前)在图案化区域中形成特征之后的附加光刻/蚀刻步骤形成较浅的场。 该模板用于建立具有比图案浅的场厚的薄膜图案。 与图案区域相邻的较浅的场减轻离子磨中的侧壁再沉积。 在平坦化/回蚀刻工艺中,通过补偿由不同填充率引起的厚度变化,较薄的场有助于实现平坦的顶表面。 凹陷场模板的制造包括多步图案化工艺。 使用惯例制作工艺形成初始图案。 使用第二图案化步骤来减小场区域的高度,其可以通过用合适的抗蚀剂图案涂覆“半成品”模板并且使用与原始图案对准的第二光刻步骤来图案化抗蚀剂来施加。 然后用抗蚀剂作为掩模蚀刻场区域中的模板材料,在除去剩余的抗蚀剂之后,形成具有凹陷场区域的模板。 应当理解,可以颠倒这些蚀刻步骤的顺序以获得相同的结果。
    • 8. 发明授权
    • Media contact zone with bell-shaped texturing features
    • 具有钟形纹理特征的介质接触区
    • US06663938B1
    • 2003-12-16
    • US09210018
    • 1998-12-11
    • Wei H. YaoYuh-Jen ChengLi-Ping WangDavid S. KuoChiao-Ping KuBruno Marchon
    • Wei H. YaoYuh-Jen ChengLi-Ping WangDavid S. KuoChiao-Ping KuBruno Marchon
    • G11B582
    • G11B5/82G11B5/6005G11B23/0021Y10T428/24355
    • A magnetic data recording medium substrate has a contact zone and a data zone. The contact zone is textured by forming multiple texturing features, each having a bell-shaped profile resembling a Gaussian curve. The features preferably are formed by pulsed laser energy applied to a glass substrate, or to an aluminum nickel-phosphorous substrate coated with a glass layer. As compared to previous laser texturing approaches, the laser beam is less narrowly focused to provide a beam impingement area with a diameter of at least three microns, forming texturing features with diameters of at least three microns. The texturing features preferably are uniform in height and diameter, and may be symmetrical or have asymmetrical aspects, so long as bell-shaped profiles are present in the direction of travel of the recording medium, relative to transducing heads.
    • 磁数据记录介质基板具有接触区和数据区。 通过形成多个纹理特征来形成接触区域,每个具有类似于高斯曲线的钟形轮廓。 特征优选通过施加到玻璃基板的脉冲激光能量或涂覆有玻璃层的铝镍磷基板形成。 与以前的激光纹理方法相比,激光束的聚焦较少,以提供直径至少为三微米的光束冲击区域,形成具有至少三微米直径的纹理特征。 纹理特征优选地在高度和直径上是均匀的,并且可以是对称的或具有不对称的方面,只要钟形轮廓相对于换能头在记录介质的行进方向上存在。
    • 9. 发明授权
    • Disk head height control
    • 磁盘头高度控制
    • US06473259B1
    • 2002-10-29
    • US09405832
    • 1999-09-24
    • David S. KuoWei H. YaoRamesh SundaramHuan Tang
    • David S. KuoWei H. YaoRamesh SundaramHuan Tang
    • G11B2102
    • G11B21/21G11B5/60
    • A disk head fly height adjustment method includes positioning a disk head over a surface of a rotating data storage disk and dynamically altering a load point of the disk head by changing an electrical force applied to an active element mounted to a head-gimbal assembly. A data storage apparatus includes a head assembly having a data transfer head coupled to a gimbal and an active element coupling the head assembly and a suspension. The active element is configured to exert a force between the head assembly and the suspension in response to an electrical force applied to the active element. The active element can dynamically shift a load point of a disk head. Shifting the load point can alter the pitch of the disk head and, consequently, the fly height of the head.
    • 盘头飞行高度调节方法包括将盘头定位在旋转数据存储盘的表面上,并且通过改变施加到安装到头部万向节组件上的有源元件的电力来动态地改变盘头的负载点。 数据存储装置包括头组件,其具有耦合到万向节的数据传送头和联接头组件和悬架的有源元件。 有源元件构造成响应于施加到有源元件的电力而在头部组件和悬架之间施加力。 有源元件可以动态地移动磁盘头的负载点。 移动负载点可以改变磁头的间距,从而改变磁头的飞行高度。
    • 10. 发明申请
    • METHOD OF DISK ALIGNMENT USING PRINTED ALIGNMENT MARKS
    • 使用打印对齐标记进行磁盘对准的方法
    • US20110128647A1
    • 2011-06-02
    • US12629791
    • 2009-12-02
    • Gennady GauznerDavid S. KuoJustin Jia-Jen HwuLi-Ping WangZhaoning YuKim Yang Lee
    • Gennady GauznerDavid S. KuoJustin Jia-Jen HwuLi-Ping WangZhaoning YuKim Yang Lee
    • G11B21/02G11B5/82G11B33/00G11B33/10
    • G11B25/043B82Y10/00G11B5/743G11B5/746G11B5/82G11B5/855Y10T29/49021
    • Processes include aligning a disc with a template at a location so that the pattern from the template is transferred to the disc in a relative orientation. The relative orientation provides that when the disc with the transferred pattern is finally assembled into a hard disc drive, an inner diameter of the spindle hole of the disc may be abutted against an outer diameter of the disc drive spindle, and the data-containing patterns on the discs will be aligned concentrically with a center of the disc drive spindle. While the data-containing patterns are aligned concentrically with the disc drive spindle, the substrate itself is allowed to be non-concentric. Still other aspects include a disc having eccentric formations including PIM and one or more of bit patterns and servo information formed on a disc surface, the eccentricity of the formations is determined based on an expected difference between the radius of the spindle hole of the disc and the radius of the spindle on which the disc will be placed during assembly, with the PIM used to determine the angular alignment of the disc with the spindle.
    • 过程包括将光盘与模板在一个位置对齐,使得来自模板的图案以相对方向被传送到光盘。 相对方向规定,当具有转印图案的光盘最终组装成硬盘驱动器时,盘的主轴孔的内径可以抵靠盘驱动主轴的外径,并且包含数据的图案 碟盘将与盘片驱动主轴的中心同心对齐。 当包含数据的图案与盘驱动器心轴同心对准时,衬底本身被允许为非同心的。 其它方面还包括具有包括PIM和形成在盘表面上的位图形和伺服信息中的一种或多种的偏心构造的盘,基于盘的主轴孔的半径和 在组装过程中将放置光盘的主轴的半径,PIM用于确定光盘与主轴的角度对齐。