会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Shingled recording systems using multiple pass write, single pass read architecture
    • 嵌入式录音系统采用多通写,单通读结构
    • US08786969B2
    • 2014-07-22
    • US13251031
    • 2011-09-30
    • Prakash KasirajThomas R. Albrecht
    • Prakash KasirajThomas R. Albrecht
    • G11B20/10
    • G11B5/012G11B5/746
    • In one embodiment, a magnetic data storage system includes a bit patterned magnetic medium, wherein centers of bits in adjacent data tracks do not lie on a common line in a cross-track direction, a magnetic head having a writer element having a width greater than a width of a data track in a track width direction adapted for writing data successively to at least two adjacent data tracks of the magnetic medium, and a reader element having a width larger than the width of a data track in the track width direction adapted for reading data concurrently from the at least two adjacent data tracks of the magnetic medium in a single pass, a drive mechanism for passing the magnetic medium over the magnetic head, and a controller electrically coupled to the magnetic head for controlling operation of the magnetic head.
    • 在一个实施例中,磁数据存储系统包括位图形磁介质,其中相邻数据磁道中的位中心不位于交叉磁道方向上的公共线上,磁头具有写入器元件,宽度大于 适于将数据连续地写入磁介质的至少两个相邻数据轨道的轨道宽度方向上的数据轨道的宽度,以及宽度大于轨道宽度方向上的数据轨道的宽度的读取器元件, 在单次通过中从磁介质的至少两个相邻数据轨道同时读取数据,用于使磁介质通过磁头的驱动机构,以及电耦合到磁头的控制器,用于控制磁头的操作。
    • 6. 发明申请
    • SELF-ASSEMBLY STRUCTURES USED FOR FABRICATING PATTERNED MAGNETIC MEDIA
    • 用于制作图形磁介质的自组装结构
    • US20110215070A1
    • 2011-09-08
    • US13108515
    • 2011-05-16
    • Thomas R. AlbrechtXiao Z. WuHenry Hung Yang
    • Thomas R. AlbrechtXiao Z. WuHenry Hung Yang
    • B29C33/42B05D5/12
    • G11B5/855B82Y10/00G11B5/743G11B5/82G11B5/865
    • Methods of defining servo patterns and data patterns for forming patterned magnetic media are described. For one method, a lithographic process is performed to define a servo pattern in servo regions on a substrate. The lithographic process also defines a first data pattern in data regions of the substrate. The first data pattern is then transferred to (i.e., etched into) the data regions. Self-assembly structures are then formed on the data pattern in the data regions to define a second data pattern. The servo pattern is then transferred to the servo regions and the second data pattern is transferred to the data regions. Thus, the servo pattern is defined through lithographic processes while the data pattern is defined by a combination of lithographic processes and self-assembly.
    • 描述了定义用于形成图案化磁性介质的伺服图案和数据图案的方法。 对于一种方法,执行光刻处理以在衬底上的伺服区域中定义伺服图案。 光刻工艺还定义了衬底的数据区域中的第一数据模式。 然后将第一数据模式转移到(即蚀刻)数据区。 然后在数据区域中的数据模式上形成自组装结构以定义第二数据模式。 然后将伺服模式传送到伺服区域,并将第二数据模式传送到数据区域。 因此,通过光刻工艺定义伺服图案,同时通过光刻工艺和自组装的组合来定义数据图案。
    • 9. 发明授权
    • Patterned media magnetic recording disk drive with write clock phase adjustment for write head track misregistration
    • 带图形的介质磁记录磁盘驱动器,具有写入时钟相位调整用于写入磁头轨迹重合
    • US07848048B1
    • 2010-12-07
    • US12477765
    • 2009-06-03
    • Thomas R AlbrechtManfred Ernst Schabes
    • Thomas R AlbrechtManfred Ernst Schabes
    • G11B21/02
    • G11B5/59627B82Y10/00G11B5/743
    • A patterned-media magnetic recording disk drive has compensation for write head track misregistration (TMR) from the track centerline. As the disk rotates, the read head detects angularly spaced servo sectors and generates a position error signal (PES) which is used by the servo control system to maintain the read head on track. As the disk rotates, the read head also detects angularly spaced synchronization marks, which are used to control the write clock so that magnetization reversal of the magnetic write field from the write head is synchronized with the position of the data islands. If there is TMR of the write head, there will be an effective shift of Δφ in the timing of when the center of the data islands pass through the write field. The disk drive includes write clock phase adjustment circuitry that correlates the PES with Δφ to compensate for TMR of the write head.
    • 图案介质磁记录磁盘驱动器对从轨道中心线的写入磁头轨迹重合失调(TMR)进行补偿。 当磁盘旋转时,读取头检测角度间隔的伺服扇区,并产生位置误差信号(PES),伺服控制系统使用该位置误差信号来维持读取头的轨迹。 当盘旋转时,读取头还检测角度间隔的同步标记,其用于控制​​写入时钟,使得写入磁头的磁性写入磁场的磁化反转与数据岛的位置同步。 如果有写头的TMR,将会有一个有效的转移&Dgr& 在数据岛的中心通过写入场的时刻。 磁盘驱动器包括写时钟相位调整电路,其将PES与&Dgr& 以补偿写入头的TMR。
    • 10. 发明申请
    • HARD DISK DRIVE WITH DISK SEPARATOR FOR CREATING AXIAL GAPS BETWEEN DISKS FOR ACCESS BY READ/WRITE HEADS
    • 硬盘驱动器,带磁盘分离器,用于创建用于读/写头访问的磁盘之间的轴向GAPS
    • US20100091408A1
    • 2010-04-15
    • US12248117
    • 2008-10-09
    • Thomas R. AlbrechtHal J. Rosen
    • Thomas R. AlbrechtHal J. Rosen
    • G11B5/48
    • G11B17/26G11B17/021
    • A hard disk drive (HDD) has a stack of disks mounted on a rotatable spindle with the disks being movable axially, i.e., in a direction parallel to the axis of rotation of the spindle. A disk separator is located inside the spindle and separates axially-adjacent disks in a pair to create an axial gap. Any pair of axially-adjacent disks can be separated so that different axial gaps are created. A single head-arm assembly with at least one and preferably two read write heads is movable axially so that it can be rotated by the rotary actuator into any one of the axial gaps. The read/write heads can thus access data on the disk surfaces in the axial gaps. When it is desired to have the disk separator create an new axial gap and thus a new pair of disk surfaces to be accessed, the actuator rotates the head-arm assembly away from the outer perimeters of the disks and moves the read/write heads onto a head support structure that supports the read/write heads off the disks.
    • 硬盘驱动器(HDD)具有安装在可旋转主轴上的盘堆,盘可以轴向移动,即在与主轴的旋转轴线平行的方向上移动。 磁盘分离器位于主轴内部并且分离成一对轴向相邻的磁盘以产生轴向间隙。 可以分离任何一对轴向相邻的盘,使得产生不同的轴向间隙。 具有至少一个并且优选两个读写头的单个头臂组件可轴向移动,使得其可以由旋转致动器旋转到任何一个轴向间隙中。 因此,读/写头可以在轴向间隙中访问磁盘表面上的数据。 当希望磁盘分离器产生新的轴向间隙并且因此产生一对新的待访问的盘表面时,致动器将头臂组件旋转远离盘的外周,并将读/写头移动到 一个头部支持结构,支持磁盘上的读/写磁头。