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    • 1. 发明授权
    • Method to write servo on multi-channels with voltage mode data and single channel with current mode data
    • 在电压模式数据和单通道与当前模式数据的多通道上写入伺服的方法
    • US06735030B2
    • 2004-05-11
    • US10071285
    • 2001-10-29
    • Tuan Van NgoRaymond Elijah BarnettScott Gary Sorenson
    • Tuan Van NgoRaymond Elijah BarnettScott Gary Sorenson
    • G11B509
    • G11B5/59633G11B5/012G11B20/10009G11B2005/0013
    • A write drive circuit (40) for a hard disk drive selectively providing a current mode operation for high speed data write of a single channel, and selectively providing a voltage mode operation during a servo write operation. A central buffer has a first circuit (50) providing a current mode drive signal to a head during a single channel write operation, and a second circuit (52) providing a voltage mode drive signal for multi-channel servo write operation. The outputs of both circuits (50, 52) is provided over a common differential connection (T1) feeding a pre-driver circuit (70) adapted to drive one or many heads, as determined by head select control lines (72). The circuit provides >1.6 Gb/s data write speed in single channel write operation, and has an architecture utilizing only two signal lines for four channels.
    • 一种用于硬盘驱动器的写入驱动电路(40),其选择性地提供用于单个通道的高速数据写入的电流模式操作,并且在伺服写入操作期间选择性地提供电压模式操作。 中央缓冲器具有在单通道写入操作期间向头提供电流模式驱动信号的第一电路(50)和为多通道伺服写操作提供电压模式驱动信号的第二电路(52)。 两个电路(50,52)的输出提供在公共差分连接(T1)上,该公共差分连接(T1)馈送适于驱动一个或多个磁头的预驱动电路(70),如由磁头选择控制线(72)确定的。 该电路在单通道写操作中提供> 1.6 Gb / s的数据写入速度,并具有仅使用两条信号线用于四个通道的架构。
    • 2. 发明申请
    • LOW-POWER IMPEDANCE-MATCHED DRIVER
    • 低功率阻抗匹配驱动器
    • US20080265950A1
    • 2008-10-30
    • US12102110
    • 2008-04-14
    • Scott Gary SorensonJeremy Robert Kuehlwein
    • Scott Gary SorensonJeremy Robert Kuehlwein
    • H03K3/01
    • H03K19/01825
    • One embodiment of the invention includes a driver circuit. The driver circuit comprises a high-side switch that is activated in response to a positive driver input signal to provide a positive output signal at a driver output. The driver circuit also comprises a low-side switch that is activated in response to a negative driver input signal to provide a negative output signal at the driver output. The positive and negative driver input and output signals can be relative to respective cross-over magnitudes. The driver circuit further comprises at least one impedance-matching device configured to activate the low-side switch in response to a positive signal reflection at the driver output and to activate the high-side switch in response to a negative signal reflection at the driver output.
    • 本发明的一个实施例包括驱动器电路。 驱动器电路包括响应于正驱动器输入信号而激活的高侧开关,以在驱动器输出端提供正输出信号。 驱动器电路还包括低侧开关,其响应于负驱动器输入信号被激活以在驱动器输出端提供负输出信号。 正负驱动器输入和输出信号可以相对于相应的交叉幅度。 驱动器电路还包括至少一个阻抗匹配装置,其被配置为响应于驱动器输出处的正信号反射而激活低侧开关,并且响应于驱动器输出处的负信号反射而激活高侧开关 。
    • 7. 发明授权
    • Low power servo mode write driver
    • 低功耗伺服模式写驱动
    • US07382560B2
    • 2008-06-03
    • US10249665
    • 2003-04-29
    • Raymond Elijah BarnettTuan Van NgoScott Gary Sorenson
    • Raymond Elijah BarnettTuan Van NgoScott Gary Sorenson
    • G11B5/09
    • G11B5/022G11B5/012G11B5/02G11B5/59633G11B20/10009G11B2005/0013
    • A circuit (40) for use in a mass data storage device (10) has first (44) second (46) current driver circuits for providing write currents to the data transducer (18). The first and second current levels are different, the second current level being lower than the first. The first current driver circuit (44) may be used to apply currents representing user data to the data transducer (18) and the second current driver circuit (46) may be used to apply currents representing servo information to the data transducer (18). In addition, the first (44) and second (46) current drivers circuits may be operated at different frequencies. The first (44) and second (46) current driver circuits additionally may share at least some circuit components (70, 72, 74-75, 64-65), and may operate at different write speeds.
    • 用于大容量数据存储装置(10)的电路(40)具有用于向数据传感器(18)提供写入电流的第一(44)第二(46)个电流驱动器电路。 第一和第二电流水平不同,第二电流水平低于第一电流水平。 第一电流驱动器电路(44)可用于将表示用户数据的电流施加到数据传感器(18),并且第二电流驱动器电路(46)可用于将表示伺服信息的电流施加到数据传感器(18)。 此外,第一(44)和第二(46)电流驱动器电路可以以不同的频率操作。 第一(44)和第二(46)电流驱动器电路另外可以共享至少一些电路部件(70,72,74-75,64-65),并且可以以不同的写入速度工作。
    • 10. 发明授权
    • Method to increase head voltage swing and to reduce the rise time of write driver
    • 增加磁头电压摆幅并减少写入驱动器上升时间的方法
    • US06879455B2
    • 2005-04-12
    • US10002193
    • 2001-10-19
    • Tuan Van NgoRaymond Elijah BarnettScott Gary Sorenson
    • Tuan Van NgoRaymond Elijah BarnettScott Gary Sorenson
    • G11B5/00G11B5/02
    • G11B5/022G11B5/02G11B2005/0013
    • A voltage-mode boosting write driver circuit (40) having a pair of voltage boosting PMOS transistor sets (44, 46) coupled to a high current H-switch (42). One set (44) of the boosting PMOS transistors correspondingly pulls output pin HY high, while the other transistor set (46) correspondingly pulls output pin HX high and the other output pin HY low thereby significantly improving the head voltage swing, and also achieving a faster slew rate. Moreover, resistors (R3, R4) of the H-switch are both matched to each other and impedance matched to a flex cable (T0) interconnection impedance, which interconnection is coupled to the thin film head, to thereby eliminate signal reflection such that the write current (Iw) settles quickly with minimum ringing to achieve a high data rate. Moreover, less power dissipation and smaller number of devices used are achieved by making use of existing transient currents of the pre-driver emitter follower stage.
    • 具有耦合到大电流H开关(42)的一对升压PMOS晶体管组(44,46)的电压模式升压写驱动器电路(40)。 升压PMOS晶体管的一组(44)相应地将输出引脚HY拉高,而另一个晶体管组46相应地将输出引脚HX拉高,另一个输出引脚HY低,从而显着提高磁头电压摆幅,并且还实现 更快的压摆率。 此外,H开关的电阻器(R3,R4)都彼此匹配,并且阻抗匹配到柔性电缆(T0)互连阻抗,该互连耦合到薄膜头,从而消除信号反射,使得 写入电流(Iw)可以通过最小振铃快速定位,实现高数据速率。 此外,通过利用预驱动器射极跟随器级的现有瞬态电流来实现更少的功率消耗和更少数量的器件。