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    • 2. 发明授权
    • Disk drive to characterize misaligned servo wedges
    • 磁盘驱动器来表征不对准的伺服楔
    • US07551390B1
    • 2009-06-23
    • US11842315
    • 2007-08-21
    • Zhi WangJenghung Chen
    • Zhi WangJenghung Chen
    • G11B5/596G11B5/09
    • G11B5/59611G11B19/045G11B20/10009G11B20/10222G11B20/1403G11B20/18G11B2020/1282G11B2220/2516
    • Disclosed is a disk drive and method to characterize misaligned servo wedges. The disk drive includes an actuator arm, a head, a disk, and a servo controller. The head is connected to a distal end of the actuator arm in which the actuator arm is rotatable about a pivot to move the head radially over the disk. The servo controller is used to characterize misaligned servo wedges by implementing operations including: commanding the head to track follow on a track; measuring wedge-to-wedge time (WTWT) values corresponding to time intervals between identified servo wedges; calculating wedge-to-wedge time (WTWT) variations for the measured WTWT values; and characterizing the calculated WTWT variations, wherein, characterizing the calculated WTWT variations for the track includes utilizing a WTWT variation modeling function to model the WTWT variations.
    • 公开了一种用于表征不对准伺服楔的磁盘驱动器和方法。 磁盘驱动器包括致动器臂,磁头,磁盘和伺服控制器。 头部连接到致动器臂的远端,致动器臂可绕枢轴旋转,以使头部径向移动到盘上。 伺服控制器用于通过执行操作来表征不对准的伺服楔块,包括:命令头跟踪轨道跟踪; 测量对应于所识别的伺服楔之间的时间间隔的楔到楔时间(WTWT)值; 计算测量WTWT值的楔形到楔形时间(WTWT)变化; 并且表征所计算的WTWT变化,其中,表征所述轨道的所计算的WTWT变化包括利用WTWT变化建模函数来模拟所述WTWT变化。
    • 5. 发明授权
    • Disk drive recursively estimating repeatable runout
    • 磁盘驱动器递归地估计可重复的跳动
    • US07088547B1
    • 2006-08-08
    • US11188914
    • 2005-07-25
    • Zhi WangJenghung Chen
    • Zhi WangJenghung Chen
    • G11B5/596
    • G11B5/59627
    • A disk drive is disclosed comprising control circuitry for generating a control signal applied to a VCM in response to a position error signal (PES) generated from reading embedded servo sectors and a feed-forward compensation value that compensates for a repeatable runout (RRO) disturbance. The feed-forward compensation value is generated for each servo sector in response to an RRO estimate Ŝ computed recursively for each servo sector according to: S ^ n + 1 = S ^ n - λ ⁡ [ S ^ n - 1 n ⁢ ∑ i = 1 n ⁢ ⁢ PES i ] wherein: λ is a predetermined fraction; PESi is the position error signal generated for a selected servo sector during an ith revolution of the disk; and n represents a number of disk revolutions.
    • 公开了一种磁盘驱动器,其包括用于响应于从读取嵌入式伺服扇区产生的位置误差信号(PES)产生施加到VCM的控制信号的控制电路和补偿可重复跳动(RRO)干扰的前馈补偿值 。 响应于针对每个伺服扇区递归地计算的RRO估计S,针对每个伺服扇区产生前馈补偿值:
    • 6. 发明授权
    • Method for improved repeatable runout learning in a disk drive
    • 在磁盘驱动器中改进可重复跳动学习的方法
    • US08643976B1
    • 2014-02-04
    • US11700380
    • 2007-01-31
    • Zhi WangHien T. ChuJenghung Chen
    • Zhi WangHien T. ChuJenghung Chen
    • G11B5/596
    • G11B5/59627
    • A method is disclosed for adaptive learning of fundamental-frequency repeatable runout (1FRRO) compensation information in a disk drive. The disk drive includes a transducer head, a magnetic disk having a plurality of concentric data tracks defined by embedded servo wedges that provide position information, and a control system. In the method, 1FRRO compensation information is learned over a predetermined minimum number of disk revolutions. After the predetermined minimum number of disk revolutions, the 1FRRO compensation information is monitored for convergence while learning of the 1FRRO compensation information continues. Learning is terminated upon detection of convergence of the 1FRRO compensation information.
    • 公开了一种用于磁盘驱动器中基频可重复跳动(1FRRO)补偿信息的自适应学习的方法。 磁盘驱动器包括换能器头,具有由提供位置信息的嵌入式伺服楔定义的多个同心数据磁道的磁盘以及控制系统。 在该方法中,在预定的最小盘数转换中学习1FRRO补偿信息。 在预定的最小盘数之后,在继续学习1FRRO补偿信息的同时监视1FRRO补偿信息的收敛。 在检测到1FRRO补偿信息的收敛时,学习被终止。
    • 7. 发明授权
    • Disk drive to characterize misaligned servo wedges
    • 磁盘驱动器来表征不对准的伺服楔
    • US07212374B1
    • 2007-05-01
    • US11250649
    • 2005-10-14
    • Zhi WangJenghung ChenChun Sei TsaiCarl E. Barlow
    • Zhi WangJenghung ChenChun Sei TsaiCarl E. Barlow
    • G11B5/596G11B21/02
    • G11B5/59627G11B5/5534
    • Disclosed is a disk drive to characterize misaligned servo wedges. A disk of the disk drive includes a plurality of circumferential tracks, in which, each track includes a plurality of servo wedges spaced sequentially around the circumference of the track wherein the servo wedges may be misaligned relative to the head of the disk drive that moves about a pivot. A servo controller is used to characterize the misaligned servo wedges relative to the head during a seek operation by implementing the following operations: commanding the head to perform a seek operation from a starting track to an ending track; obtaining samples of wedge-to-wedge time (WTWT) values corresponding to time intervals between identified servo wedges for sampled tracks traversed during the seek operation; calculating WTWT variations for each sample; and calculating a calibrated misalignment value for each sample based upon WTWT variations.
    • 公开了一种用于表征不对准伺服楔的磁盘驱动器。 磁盘驱动器的盘包括多个周向轨道,其中,每个轨道包括围绕轨道圆周顺序间隔的多个伺服楔,其中伺服楔可能相对于磁盘驱动器的头部移动而围绕 一个枢纽 伺服控制器用于通过执行以下操作来表征在搜索操作期间相对于头部的不对准伺服楔块:命令头从起始轨到结束轨执行寻道操作; 获得对应于在寻道操作期间穿过的采样轨迹的识别的伺服楔之间的时间间隔的楔到楔时间(WTWT)值的样本; 计算每个样品的WTWT变化; 以及基于WTWT变化计算每个样本的校准的未对准值。
    • 8. 发明授权
    • Disk drive estimating a sinusoidal error in a wedge time period due to eccentricity in disk rotation
    • 磁盘驱动器估计由于盘旋转中的偏心导致的楔形时间段内的正弦误差
    • US07068451B1
    • 2006-06-27
    • US10989674
    • 2004-11-16
    • Zhi WangJenghung ChenDavid Dung Tien Nguyen
    • Zhi WangJenghung ChenDavid Dung Tien Nguyen
    • G11B5/09
    • G11B5/59627G11B20/1258G11B2020/1282
    • A disk drive and method for estimating a sinusoidal error in a wedge time period is disclosed. An estimated WTP is calculated according to: EST_WTP=RTP+â*cos(2πk/N)+{circumflex over (b)}*sin(2πk/N) wherein RTP is a reference time period corresponding to a nominal WTP, k is an index representing a servo wedge, and {â,{circumflex over (b)}} are adjustable coefficients. A wedge time error e(k) is estimated as the difference between the estimated WTP and a detected actual WTP. The coefficients {â,{circumflex over (b)}} for generating the estimated WTP are adjusted according to: â(k+1)=â(k)−G*e(k)*cos(2πk/N) {circumflex over (b)}(k+1)={circumflex over (b)}(k)−G*e(k)*sin(2πk/N) wherein G is a predetermined gain.
    • 公开了一种用于估计楔形时间段中的正弦误差的盘驱动器和方法。 估计的WTP根据以下计算:<?in-line-formula description =“In-line Formulas”end =“lead”?> EST_WTP = RTP +â* cos(2pik / N)+ b * sin(2pik / N )其中,RTP是与标称WTP对应的基准时间段,k是表示伺服楔的索引,{âb }是可调系数。 估计楔形时间误差e(k)作为估计的WTP与检测到的实际WTP之间的差。 用于生成估计的WTP的系数{â,b}根据:<?in-line-formula description =“In-line Formulas”end =“lead”?>â(k + 1)=â(k) -G * e(k)* cos(2pik / N)<?in-line-formula description =“In-line Formulas”end =“tail”?> <?in-line-formula description =“ “end =”lead“?> b(k + 1)= b(k)-G * e(k)* sin(2pik / N)<?in-line-formula description =”In-line Formulas“end = “尾”→其中G是预定的增益。