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    • 3. 发明授权
    • Thin film magnetic head including thermal deformation-preventing layer
    • 薄膜磁头包括热变形防止层
    • US08045293B2
    • 2011-10-25
    • US11851692
    • 2007-09-07
    • Kiyoshi KobayashiSumihito MoritaTomoo OtsukaHironori Namba
    • Kiyoshi KobayashiSumihito MoritaTomoo OtsukaHironori Namba
    • G11B5/31G11B5/60G11B21/21
    • G11B5/3133G11B5/3103G11B5/3136
    • A thin film magnetic head includes a recording and playback element, a lead conductor layer for feeding a power to the recording and playback element, an electrically conductive bump for conductively connecting the lead conductor layer to an electrode pad for external connection, and an insulating protective layer filling between the recording and playback element and the electrically conductive bump. A thermal deformation-preventing layer composed of a material having a thermal expansion coefficient smaller than that of the insulating protective layer is disposed in the insulating protective layer in such a way as to locate between a medium-facing surface and the electrically conductive bump without being exposed at the medium-facing surface. In the resulting thin film magnetic head, protrusion of the recording and playback element toward the recording medium side can be prevented without changing the configuration of the recording and playback element nor the forming material.
    • 薄膜磁头包括记录和重放元件,用于向记录和回放元件供电的引线导体层,用于将引线导体层导电连接到用于外部连接的电极焊盘的导电凸块,以及绝缘保护 记录和再现元件与导电凸块之间的层填充。 由热膨胀系数小于绝缘保护层的材料构成的热变形防止层设置在绝缘保护层中,以便定位在介质表面和导电凸块之间,而不会 暴露在面向中间的表面。 在所得到的薄膜磁头中,可以防止记录和再现元件向记录介质侧的突出,而不改变记录和再现元件的构造以及形成材料。
    • 6. 发明授权
    • Thin film magnetic head having heating element
    • 具有加热元件的薄膜磁头
    • US08159782B2
    • 2012-04-17
    • US13020881
    • 2011-02-04
    • Kiyoshi KobayashiSumihito MoritaTomoo Otsuka
    • Kiyoshi KobayashiSumihito MoritaTomoo Otsuka
    • G11B5/31G11B5/40
    • G11B5/314G11B5/1278G11B5/3136G11B5/3967G11B5/6064
    • A thin film magnetic head is provided, in which the amount of protrusion in the periphery of an element portion can be reduced or a local temperature increase of electrode leads of a heating element can be prevented. The thin film magnetic head includes a playback element disposed between lower and upper shield layers, a recording element laminated on the upper shield layer, a heating element which is disposed below a coil layer and which generates heat to allow the playback element to protrude toward the recording medium side through thermal expansion, and a pair of electrode leads including overlapping regions, which are in contact with rear ends of the heating element and which overlap with the upper shield layer, and heat dissipation regions. Furthermore, connection wiring portions of the pair of electrode leads are disposed in a region sandwiched between the upper shield layer and a magnetic layer.
    • 提供一种薄膜磁头,其中可以减少元件部分的周边中的突出量,或者可以防止加热元件的电极引线的局部温度升高。 薄膜磁头包括设置在下屏蔽层和上屏蔽层之间的重放元件,层叠在上屏蔽层上的记录元件,设置在线圈层下方并产生热量以允许播放元件朝向 记录介质侧通过热膨胀,并且一对电极引线包括与加热元件的后端接触并且与上屏蔽层重叠的重叠区域和散热区域。 此外,一对电极引线的连接布线部分设置在夹在上屏蔽层和磁性层之间的区域中。
    • 7. 发明授权
    • Thin film magnetic head having heating element
    • 具有加热元件的薄膜磁头
    • US07903373B2
    • 2011-03-08
    • US11802019
    • 2007-05-18
    • Kiyoshi KobayashiSumihito MoritaTomoo Otsuka
    • Kiyoshi KobayashiSumihito MoritaTomoo Otsuka
    • G11B5/31G11B5/40
    • G11B5/314G11B5/1278G11B5/3136G11B5/3967G11B5/6064
    • A thin film magnetic head is provided, in which the amount of protrusion in the periphery of an element portion can be reduced or a local temperature increase of electrode leads of a heating element can be prevented. The thin film magnetic head includes a playback element disposed between lower and upper shield layers, a recording element laminated on the upper shield layer, a heating element which is disposed below a coil layer and which generates heat to allow the playback element to protrude toward the recording medium side through thermal expansion, and a pair of electrode leads including overlapping regions, which are in contact with rear ends of the heating element and which overlap with the upper shield layer, and heat dissipation regions. Furthermore, connection wiring portions of the pair of electrode leads are disposed in a region sandwiched between the upper shield layer and a magnetic layer.
    • 提供一种薄膜磁头,其中可以减少元件部分的周边中的突出量,或者可以防止加热元件的电极引线的局部温度升高。 薄膜磁头包括设置在下屏蔽层和上屏蔽层之间的重放元件,层叠在上屏蔽层上的记录元件,设置在线圈层下方并产生热量以允许播放元件朝向 记录介质侧通过热膨胀,并且一对电极引线包括与加热元件的后端接触并且与上屏蔽层重叠的重叠区域和散热区域。 此外,一对电极引线的连接布线部分设置在夹在上屏蔽层和磁性层之间的区域中。
    • 8. 发明申请
    • PERPENDICULAR MAGNETIC RECORDING HEAD AND MANUFACTURING METHOD THEREOF
    • 全能磁记录头及其制造方法
    • US20080225436A1
    • 2008-09-18
    • US12038343
    • 2008-02-27
    • KIYOSHI KOBAYASHITomoo Otsuka
    • KIYOSHI KOBAYASHITomoo Otsuka
    • G11B5/33
    • G11B5/3116G11B5/1278G11B5/3163
    • A perpendicular magnetic recording head includes a main magnetic pole layer exposed to an opposing surface opposite a recording medium, applying a perpendicular recording magnetic field to the recording medium; a return yoke layer disposed in the opposing surface opposite the recording medium above or below the main magnetic pole layer, the return yoke layer receiving the recording magnetic field returning thereto after passing through the recording medium; and a planarized nonmagnetic layer filling the surroundings of the return yoke layer to planarized the return yoke layer. Inclined or curved surfaces are formed at both sides in a track width direction of the return yoke layer, the inclined or curved surfaces gradually broadening the dimension of the return yoke layer in the track width direction as the inclined or curved surfaces extend from front end surfaces thereof exposed to the opposing surface opposite the recording medium in the height direction. A cohesive layer is disposed between the return yoke layer and the planarized nonmagnetic layer to increase the cohesive properties between the return yoke layer and the planarized nonmagnetic layer compared with the case in which the return yoke layer is directly connected to the planarized nonmagnetic layer.
    • 垂直磁记录头包括暴露于与记录介质相对的相对表面的主磁极层,向记录介质施加垂直记录磁场; 返回磁轭层,设置在与主磁极层上方或下方的与记录介质相对的相对表面中,返回磁轭层在通过记录介质之后接收返回到其的记录磁场; 以及填充返回磁轭层的周围的平坦化非磁性层以使返回磁轭层平坦化。 倾斜或弯曲表面形成在返回轭层的轨道宽度方向上的两侧,倾斜或弯曲表面随着倾斜或弯曲表面从前端表面延伸而逐渐变宽了轨道宽度方向上的返回轭层的尺寸 其在高度方向上暴露于与记录介质相对的相对表面。 与返回磁轭层直接连接到平坦化非磁性层的情况相比,在返回磁轭层和平坦化非磁性层之间设置内聚层以增加返回磁轭层和平坦化非磁性层之间的内聚性。
    • 9. 发明授权
    • Perpendicular magnetic recording head and manufacturing method thereof
    • 垂直磁记录头及其制造方法
    • US08045291B2
    • 2011-10-25
    • US12038343
    • 2008-02-27
    • Kiyoshi KobayashiTomoo Otsuka
    • Kiyoshi KobayashiTomoo Otsuka
    • G11B5/31
    • G11B5/3116G11B5/1278G11B5/3163
    • A perpendicular magnetic recording head includes a main magnetic pole layer exposed to an opposing surface opposite a recording medium, applying a perpendicular recording magnetic field to the recording medium; a return yoke layer disposed in the opposing surface opposite the recording medium above or below the main magnetic pole layer, the return yoke layer receiving the recording magnetic field returning thereto after passing through the recording medium; and a planarized nonmagnetic layer filling the surroundings of the return yoke layer to planarized the return yoke layer. Inclined or curved surfaces are formed at both sides in a track width direction of the return yoke layer, the inclined or curved surfaces gradually broadening the dimension of the return yoke layer in the track width direction as the inclined or curved surfaces extend from front end surfaces thereof exposed to the opposing surface opposite the recording medium in the height direction. A cohesive layer is disposed between the return yoke layer and the planarized nonmagnetic layer to increase the cohesive properties between the return yoke layer and the planarized nonmagnetic layer compared with the case in which the return yoke layer is directly connected to the planarized nonmagnetic layer.
    • 垂直磁记录头包括暴露于与记录介质相对的相对表面的主磁极层,向记录介质施加垂直记录磁场; 返回磁轭层,设置在与主磁极层上方或下方的与记录介质相对的相对表面中,返回磁轭层在通过记录介质之后接收返回到其的记录磁场; 以及填充返回磁轭层的周围的平坦化非磁性层以使返回磁轭层平坦化。 倾斜或弯曲表面形成在返回轭层的轨道宽度方向上的两侧,倾斜或弯曲表面随着倾斜或弯曲表面从前端表面延伸而逐渐变宽了轨道宽度方向上的返回轭层的尺寸 其在高度方向上暴露于与记录介质相对的相对表面。 与返回磁轭层直接连接到平坦化非磁性层的情况相比,在返回磁轭层和平坦化非磁性层之间设置内聚层以增加返回磁轭层和平坦化非磁性层之间的内聚性。
    • 10. 发明授权
    • Thin film magnetic head using a shunt line connecting to the magnetic layer at a position that deviates from the center of the heat generating region
    • 薄膜磁头使用在偏离发热区域的中心的位置连接到磁性层的分流线
    • US07933098B2
    • 2011-04-26
    • US11939107
    • 2007-11-13
    • Tomoo OtsukaManabu Usui
    • Tomoo OtsukaManabu Usui
    • G11B5/56
    • G11B5/3133G11B5/3116G11B5/3136G11B5/3967G11B5/6064
    • A thin film magnetic head is disclosed that is capable of improving the thermal efficiency of a heater. A thin film magnetic head includes: a lower shield layer; an upper shield layer; a reproducing element that is provided between the lower shield layer and the upper shield layer; a recording element that is formed on the upper shield layer; a heater that generates heat to expand at least one of the reproducing element and the recording element such that the reproducing element and/or the recording element protrude toward a recording medium; and a shunt line that applies a reference potential that is equal to the potentials of the lower shield layer and the upper shield layer to a magnetic layer of the recording element. In the thin film magnetic head, the shunt line is connected to the magnetic layer of the recording element at a position that deviates from the center of a heat generating region of the heater in a track width direction.
    • 公开了能够提高加热器的热效率的薄膜磁头。 薄膜磁头包括:下屏蔽层; 上屏蔽层; 设置在下屏蔽层和上屏蔽层之间的再现元件; 形成在所述上屏蔽层上的记录元件; 加热器,其产生热量以使再现元件和记录元件中的至少一个膨胀,使得再现元件和/或记录元件朝向记录介质突出; 以及将等于下屏蔽层和上屏蔽层的电位的参考电位施加到记录元件的磁性层的分路线。 在薄膜磁头中,分流线在与加热器的发热区域的中心沿轨道宽度方向偏离的位置处连接到记录元件的磁性层。