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    • 1. 发明授权
    • Systems and methods for controlled wedge spacing in a storage device
    • 存储设备中控制楔形间距的系统和方法
    • US08780476B2
    • 2014-07-15
    • US13242983
    • 2011-09-23
    • Jeffrey P. Grundvig
    • Jeffrey P. Grundvig
    • G11B5/09
    • G11B20/1403G11B5/5965G11B20/10222
    • Various embodiments of the present invention provide systems and methods for data processing. For example, some embodiments of the present invention provide clock generation systems that include: a first clock multiplier circuit, a second clock multiplier circuit, a modulus accumulator circuit, and a data clock phase control circuit. The first clock multiplier circuit is operable to multiply a reference clock by a first multiplier to yield a first domain clock, and the second clock multiplier circuit is operable to multiply the reference clock by a second multiplier to yield a second domain clock. The modulus accumulator circuit is operable to yield a value indicating a fractional amount of the second domain clock that an edge of the second domain clock is offset from a trigger signal. The data clock phase control circuit is operable to phase shift the second domain clock by a phase amount corresponding to the fractional amount.
    • 本发明的各种实施例提供了用于数据处理的系统和方法。 例如,本发明的一些实施例提供了时钟产生系统,其包括:第一时钟乘法器电路,第二时钟乘法器电路,模数累加器电路和数据时钟相位控制电路。 第一时钟乘法器电路可操作以将参考时钟乘以第一乘法器以产生第一域时钟,并且第二时钟乘法器电路可操作以将参考时钟乘以第二乘法器以产生第二域时钟。 模数累加器电路可操作以产生指示第二域时钟的边缘与触发信号偏移的第二域时钟的分数量的值。 数据时钟相位控制电路可操作以将第二域时钟相移相应于分数量的相位量。
    • 3. 发明申请
    • STORAGE DEVICE HAVING CLOCK ADJUSTMENT CIRCUITRY WITH FIRMWARE-BASED PREDICTIVE CORRECTION
    • 具有基于固定预测校正的时钟调整电路的存储设备
    • US20130135766A1
    • 2013-05-30
    • US13306320
    • 2011-11-29
    • Jeffrey P. GrundvigJason D. Byrne
    • Jeffrey P. GrundvigJason D. Byrne
    • G11B27/10
    • G11B20/10509G11B20/10222G11B2220/20
    • A hard disk drive or other disk-based storage device comprises a storage disk, a read/write head configured to read data from and write data to the storage disk, and control circuitry coupled to the read/write head and configured to process data received from and supplied to the read/write head. The control circuitry comprises clock adjustment circuitry configured to generate a control signal for adjusting a parameter of a clock signal based at least in part on timing information obtained by detecting a timing pattern on a surface of the storage disk. The control signal is generated utilizing at least a predictive correction control loop, with the clock adjustment circuitry comprising predictive control firmware that implements at least a portion of the predictive correction control loop.
    • 硬盘驱动器或其他基于磁盘的存储设备包括存储盘,被配置为从存储盘读取数据并将数据写入存储盘的读/写头,以及耦合到读/写头并被配置为处理接收到的数据的控制电路 从读取/写入头提供。 控制电路包括时钟调整电路,其被配置为至少部分地基于通过检测存储盘表面上的定时模式获得的定时信息来产生用于调整时钟信号的参数的控制信号。 控制信号是利用至少一个预测校正控制环来产生的,其中时钟调整电路包括实现预测校正控制环路的至少一部分的预测控制固件。
    • 6. 发明授权
    • Clock synchronization between wireless devices during cradled time
    • 无线设备之间的时钟同步
    • US06587694B1
    • 2003-07-01
    • US09404807
    • 1999-09-24
    • Philip D. MooneyRichard L. McDowellJeffrey P. GrundvigJian Wu
    • Philip D. MooneyRichard L. McDowellJeffrey P. GrundvigJian Wu
    • H04L2730
    • H04M1/72502
    • Clocks between at least two wireless devices are synchronized to reduce the need to transmit synchronization signals over a wireless communication channel therebetween. Two wireless devices synchronize their respective clocks with each other when each are electrically coupled, e.g., during a cradle time when brought into physical contact with each other through charge contacts, e.g., to recharge a remote portable unit. The charge signal appearing at the charge contacts is driven to create a time duration marked by a start transition and an end transition in the charge signal. The number of clock pulses of each of the two wireless devices during the time duration is counted, and compared to determine the difference in clock speeds of the wireless devices. The frequency of the clock of at least one of the wireless devices is adjusted to bring the difference in the clock speeds within a predetermined threshold tolerance level.
    • 在至少两个无线设备之间的时钟被同步以减少通过它们之间的无线通信信道发送同步信号的需要。 两个无线设备在每个电耦合时使其各自的时钟彼此同步,例如在通过充电触点进行物理接触的支架时间期间,例如为远程便携式单元充电。 驱动出现在充电触点处的充电信号以产生由充电信号中的开始转换和结束转换所标记的持续时间。 对持续时间内的两个无线设备中的每一个的时钟脉冲数进行计数,并进行比较以确定无线设备的时钟速度的差异。 调整至少一个无线设备的时钟的频率以使时钟速度的差异在预定的阈值容差水平内。
    • 7. 发明授权
    • Disk-based storage device with head position control responsive to detected inter-track interference
    • 基于磁盘的存储设备,其具有响应于检测到的磁道间干扰的磁头位置控制
    • US08773806B2
    • 2014-07-08
    • US13368508
    • 2012-02-08
    • David M. SpringbergJefferson E. SingletonJeffrey P. Grundvig
    • David M. SpringbergJefferson E. SingletonJeffrey P. Grundvig
    • G11B21/02
    • G11B5/59627G11B19/045
    • A hard disk drive or other disk-based storage device comprises a storage disk, a read/write head configured to read data from and write data to the storage disk, and control circuitry coupled to the read/write head and configured to process data received from and supplied to the read/write head and to control positioning of the read/write head relative to the storage disk. The control circuitry comprises an inter-track interference detector configured to process a signal read from at least a given track of the storage disk via the read/write head in order to detect interference in that signal from at least one other track of the storage disk. The control circuitry further comprises an inter-track interference based head position controller configured to adjust the positioning of the read/write head responsive to the detected interference.
    • 硬盘驱动器或其他基于磁盘的存储设备包括存储盘,被配置为从存储盘读取数据并将数据写入存储盘的读/写头,以及耦合到读/写头并被配置为处理接收到的数据的控制电路 从读取/写入头提供给读/写头,并且控制读/写头相对于存储盘的定位。 控制电路包括轨道间干扰检测器,其被配置为经由读/写头处理从至少存储盘的给定轨道读取的信号,以便检测来自存储盘的至少一个其它轨道的该信号的干扰 。 控制电路还包括基于轨道间干扰的头部位置控制器,其被配置为响应于检测到的干扰来调整读/写头的位置。
    • 8. 发明授权
    • Systems and methods for inter-track alignment
    • 用于轨道间对准的系统和方法
    • US08498071B2
    • 2013-07-30
    • US13173088
    • 2011-06-30
    • Jeffrey P. GrundvigJason D. ByrneJefferson Singleton
    • Jeffrey P. GrundvigJason D. ByrneJefferson Singleton
    • G11B27/36G11B5/09
    • G11B20/10435G11B5/59616G11B5/59627G11B19/045G11B2020/1282G11B2020/1287G11B2220/2516
    • Various embodiments of the present invention provide systems and methods for data processing. As an example, a data processing circuit is discussed that includes: a servo address mark count circuit, a user sync mark count circuit, and an offset calculation circuit. The servo address mark count circuit is operable to provide: a first count corresponding to a first servo address mark within a first track of a storage medium, a second count corresponding to a second servo address mark within the first track, a third count corresponding to a third servo address mark within a second track of the storage medium, and a fourth count corresponding to a fourth servo address mark within the second track. The user sync mark count circuit is operable to provide: a fifth count corresponding to a first user sync mark within the first track, and to provide a sixth count corresponding to a second user sync mark within the second track. The offset calculation circuit is operable to calculate an offset between the first track and the second track based at least in part on the first count, the second count, the third count, the fourth count, the fifth count, and the sixth count.
    • 本发明的各种实施例提供了用于数据处理的系统和方法。 作为示例,讨论了包括:伺服地址标记计数电路,用户同步标记计数电路和偏移计算电路的数据处理电路。 伺服地址标记计数电路可操作地提供:与存储介质的第一轨道内的第一伺服地址标记相对应的第一计数,对应于第一轨道内的第二伺服地址标记的第二计数,对应于 在存储介质的第二磁道内的第三伺服地址标记,以及对应于第二磁道内的第四伺服地址标记的第四计数。 用户同步标记计数电路可操作以提供:对应于第一轨道内的第一用户同步标记的第五计数,并且提供对应于第二轨道内的第二用户同步标记的第六计数。 偏移计算电路至少部分地基于第一计数,第二计数,第三计数,第四计数,第五计数和第六计数来计算第一轨道和第二轨道之间的偏移。