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    • 1. 发明授权
    • Adjustable transfer tool for lapping magnetic head sliders
    • 用于研磨磁头滑块的可调式传送工具
    • US5117589A
    • 1992-06-02
    • US679836
    • 1991-04-01
    • Peter G. BischoffRobert A. Cole
    • Peter G. BischoffRobert A. Cole
    • G11B5/31
    • G11B5/3163
    • An adjustable transfer tool is used to compensate for row bow during lapping a bar or a row of magnetic head sliders. The adjustable transfer tool enables establishing uniform and substantially precise throat heights for a multiplicity of thin film transducers disposed on said sliders. To allow the desired adjustment, the transfer tool incorporates slot means by which the shape of the surface of the tool on which the bar of sliders is mounted can be modified so that the slider transducers assume a collinear array across its entire length for the lapping process. Adjustment is accomplished by manual means, such as by a screw or a tapered pipe plug, or by electrical means, such as a piezoelectric actuator, in conjunction with a computer or microprocessor.
    • 在研磨棒或一排磁头滑块时,可调式传送工具用于补偿行弓。 可调传送工具能够为设置在所述滑块上的多个薄膜换能器建立均匀且基本上精确的喉部高度。 为了允许所需的调整,转移工具包括槽装置,通过该槽装置可以安装滑块条上的工具的表面的形状,使得滑块换能器在其整个长度上呈现共线阵列用于研磨过程 。 通过手动装置,例如通过螺钉或锥形管塞,或通过诸如压电致动器的电气装置,结合计算机或微处理器来进行调整。
    • 3. 发明授权
    • Thin film contact recording head
    • 薄膜接触式记录头
    • US5327310A
    • 1994-07-05
    • US904033
    • 1992-06-25
    • Peter G. BischoffChak M. LeungStephen S. Murray
    • Peter G. BischoffChak M. LeungStephen S. Murray
    • G11B5/31G11B5/60
    • G11B5/6005G11B5/3106
    • A thin film magnetic head assembly useful for contact recording in a disk drive comprises an air bearing slider formed with only a single air bearing rail. The slider is substantially L-shaped having a leg portion on which a pedestal with an air bearing surface is provided. A wear pad is formed on the pedestal and encompasses the pole tips and transducing gap of the transducer. The wear pad makes contact with the magnetic disk during operation of the disk drive. The small area of the wear pad makes minimal contact with the surface of the magnetic disk so that frictional effects are significantly reduced thereby extending the wear life of the magnetic head. An alternative embodiment of a contact head slider uses a tripad design wherein the front pads fly relative to the disk and the rear pad which supports the transducer is in contact with the rotating disk during operation of a disk drive.
    • 用于磁盘驱动器中的接触记录的薄膜磁头组件包括仅由单个空气轴承导轨形成的空气轴承滑块。 滑块基本上为L形,具有腿部,在其上设置有具有空气轴承表面的基座。 在基座上形成耐磨垫片,并且包围传感器的极尖和换能间隙。 在磁盘驱动器的操作过程中,磨损垫与磁盘接触。 磨损垫的小区域与磁盘的表面最小接触,使得摩擦效果显着降低,从而延长了磁头的磨损寿命。 接触头滑动器的替代实施例使用三角形设计,其中前板相对于盘飞行,并且在盘驱动器的操作期间支撑换能器的后垫与旋转盘接触。
    • 5. 发明授权
    • Thin film magnetic recording transducer having embedded pole piece design
    • 具有嵌入式极片设计的薄膜磁记录传感器
    • US4517616A
    • 1985-05-14
    • US479224
    • 1983-03-28
    • Peter G. Bischoff
    • Peter G. Bischoff
    • G11B5/31H01F41/34G11B5/16
    • H01F41/34G11B5/3163Y10S428/90Y10T428/1186Y10T428/24545
    • The subject invention relates to the fabrication of metal oxide patterns on a substrate adapted for use with thin film magnetic heads. The metal oxide pattern has a precisely defined geometry including nearly vertical side walls, for minimizing read/write errors. In addition, a filler material formed from a non-magnetic, non-metallic compound is provided on the substrate in a pattern complimentary to the metal oxide pattern. In accordance with the subject invention, the top surface of the metal oxide pattern and the filler material are co-planar. By this arrangement, subsequent layers may be uniformly deposited without discontinuities. The subject method includes a plurality of distinct masking and etching steps in order to achieve the desired result.
    • 本发明涉及在适用于薄膜磁头的衬底上制造金属氧化物图案。 金属氧化物图案具有精确限定的几何形状,包括几乎垂直的侧壁,用于最小化读/写错误。 此外,由非磁性非金属化合物形成的填充材料以与金属氧化物图案互补的图案提供在基板上。 根据本发明,金属氧化物图案的顶表面和填充材料是共面的。 通过这种布置,随后的层可以不间断地均匀地沉积。 主题方法包括多个不同的掩蔽和蚀刻步骤,以便实现期望的结果。
    • 6. 发明授权
    • Thin-film electro-magnetic coil design for use in a flying
magneto-optical head
    • 用于飞行磁光头的薄膜电磁线圈设计
    • US5886959A
    • 1999-03-23
    • US19225
    • 1998-02-04
    • Peter G. BischoffYugang Wang
    • Peter G. BischoffYugang Wang
    • G11B5/127G11B5/17G11B5/31G11B7/12G11B7/135G11B11/105G11B11/00
    • G11B7/1384G11B11/10534G11B11/1058G11B7/122G11B11/10543G11B11/10554G11B5/1278G11B5/17G11B5/313
    • A thin-film coil for use in a flying magneto-optical data storage system is formed on an undercoat layer, and includes an underside and a conductor deposited on the undercoat layer. The conductor is covered by an insulation layer on which a yoke is formed for providing a path to a magnetic field generated by the conductor. The yoke is formed of three sections: an upper section, an intermediate section, and the tip. The yoke tip defines an optical opening and has its underside substantially flush with the underside of the undercoat layer for increasing the density of the magnetic field at a target distance from the coil. The yoke tip underside is defined by an inner edge that delineates the optical opening, and that is formed of two semi-circular sections and two linear sections tangential to the semi-circular sections. The yoke can optionally include an outer section that extends over the peripheral side of the insulation layer and that further extends in an enlarged toe section.
    • 用于飞行磁光数据存储系统的薄膜线圈形成在底涂层上,并且包括下侧和沉积在底涂层上的导体。 导体被绝缘层覆盖,其上形成有轭以提供由导体产生的磁场的路径。 磁轭由三部分组成:上部,中间部分和末端。 轭头限定了光学开口,并且其下侧基本上与底涂层的下侧齐平,以增加距离线圈的目标距离处的磁场的密度。 轭尖下侧由描绘光学开口的内边缘限定,并且由两个半圆形部分和与半圆形切片相切的两个直线部分形成。 磁轭可以可选地包括在绝缘层的周边侧延伸并且在扩大的脚趾部分中进一步延伸的外部部分。
    • 8. 发明授权
    • Self-aligned pole tips
    • 自对准极点
    • US4436593A
    • 1984-03-13
    • US282540
    • 1981-07-13
    • John R. OsbornePeter G. Bischoff
    • John R. OsbornePeter G. Bischoff
    • G11B5/31G11B5/42
    • G11B5/3163Y10T29/49044Y10T29/49046
    • A method is disclosed for precisely aligning the pole tips of a thin film magnetic head. Two separate metallic layers, such as Permalloy (Ni-Fe alloy) are separated by a layer of insulating material such as silicon dioxide or AL.sub.2 O.sub.3 which will serve as the insulative spacer of the final magnetic head. A photo-resist is applied to the surface of the top metallic layer in an imagewise configuration to establish the shape of the top pole. The top pole is then etched and the photo-resist removed. The top electrode is then encapsulated with a protective metal and is used as a mask during the chemical etching of the insulative layer, the bottom electrode being used as an etch stop. This integral structure is then used as a mask during the chemical etching of the bottom electrode, resulting in pole tips which are precisely aligned.
    • 公开了一种用于精确对准薄膜磁头的极尖的方法。 两个单独的金属层,例如坡莫合金(Ni-Fe合金)被绝缘材料层(例如二氧化硅或AL 2 O 3)隔开,其将用作最终磁头的绝缘间隔物。 以成像方式将光致抗蚀剂施加到顶部金属层的表面,以确定顶极的形状。 然后蚀刻顶极,并除去光致抗蚀剂。 然后用保护金属封装顶部电极,并且在绝缘层的化学蚀刻期间用作掩模,底部电极用作蚀刻停止。 然后在底电极的化学蚀刻期间将该整体结构用作掩模,产生精确对准的极尖。
    • 9. 发明授权
    • Thin film magnetic head with stress relief layering
    • 薄膜磁头与应力消除分层
    • US5949627A
    • 1999-09-07
    • US20306
    • 1993-02-19
    • Edgar M. WilliamsPeter G. BischoffDaniel A. Nepela
    • Edgar M. WilliamsPeter G. BischoffDaniel A. Nepela
    • G11B5/31G11B5/147
    • G11B5/3146G11B5/3106G11B5/3113G11B5/3133
    • A thin film magnetic head is fabricated having soft metal layers of 0.25 to 1 micron thickness disposed on each side of the first and second magnetic layers of Permalloy forming the magnetic yoke. The soft layers are formed between the ceramic substrate and the first Permalloy layer, between the first Permalloy layer and the insulation surrounding the electrical coil of the head, between the insulation and the second Permalloy layer, and between the second Permalloy layer and the insulating overcoat of the head. The soft metal has a coefficient of thermal expansion between that of the Permalloy and that of the ceramic substrate and insulation materials. In this way, stress buffers are provided to minimize the mismatch and thermal stress transfer between the Permalloy and the other materials of the adjacent layers, resulting in improved domain stability and a significant reduction in popcorn noise.
    • 制造薄膜磁头,其具有设置在形成磁轭的坡莫合金的第一和第二磁性层的每一侧上的具有0.25至1微米厚度的软金属层。 软陶瓷层形成在陶瓷基板和第一坡莫合金层之间,在第一坡莫合金层与围绕电线圈的绝缘体,绝缘层和第二坡莫合金层之间以及第二坡莫合金层与绝缘外涂层之间 的头。 软金属具有与坡莫合金和陶瓷基体与绝缘材料的热膨胀系数之比。 以这种方式,提供应力缓冲器以最小化坡莫合金和相邻层的其它材料之间的失配和热应力传递,导致改进的结构域稳定性和爆米花噪声的显着降低。