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    • 3. 发明授权
    • Method of forming a suspension fabricated from silicon
    • 形成由硅制成的悬架的方法
    • US5711063A
    • 1998-01-27
    • US661816
    • 1996-06-11
    • Richard August BuddeKevin Jon SchultzDaniel E. GlumacPatrick J. RyanCal E. Hardie
    • Richard August BuddeKevin Jon SchultzDaniel E. GlumacPatrick J. RyanCal E. Hardie
    • G11B5/48G11B5/42
    • G11B5/484Y10T29/49021Y10T29/4903
    • An apparatus comprising a magnetic head suspension assembly (10) comprised of a rectangular portion (12), load beam (14) and flexure (16) fabricated from a silicon structure using the etching techniques of the integrated circuit fabrication industry. Said magnetic head suspension assembly (10) having electrical leads (23) to a slider, a pre-amp circuit (25) and a microactuator (27) fabricated directly thereon. A system of providing a loading force passing to slider (50) comprising either a tapered base plate (40) adapted to be held by a horizontally oriented actuator arm or an actuator arm (60) having at least one angled receiving surface (62,64) for attachment to said suspension assembly. The method of forming a magnetic head suspension assembly (10) from an etched silicon structure comprising a cutting step comprising cutting said silicon structure into the silhouette shape of a magnetic head suspension assembly, having a rectangular portion (12), a load beam (14) and a flexure (16), said flexure being cut in a shape such that finger members (18), slider bond tongue (19) and dimple tongue (20) appear thereon, and subsequent to said cutting step, the step of photo-etching regions of said silicon structure to reduce thickness of said silicon structure in certain regions, said photo-etching leaving a remaining non-etched small plateau area which is adapted to act as a point or dimple for an attached slider to gimbal about.
    • 一种包括由使用集成电路制造工业的蚀刻技术由硅结构制成的矩形部分(12),负载梁(14)和挠曲件(16)组成的磁头悬挂组件(10)的装置。 所述磁头悬挂组件(10)具有到滑块的电引线(23),直接在其上制造的前置放大器电路(25)和微型致动器(27)。 提供通过滑块(50)的加载力的系统,包括适于由水平定向的致动器臂保持的锥形基板(40)或具有至少一个成角度的接收表面(62,64)的致动器臂(60) ),用于附接到所述悬架组件。 从蚀刻的硅结构形成磁头悬挂组件(10)的方法,包括切割步骤,包括将所述硅结构切割成具有矩形部分(12),负载梁(14)的磁头悬挂组件的轮廓形状 )和挠曲件(16),所述挠曲被切割成使得指状构件(18),滑块结合舌(19)和凹窝舌(20)出现在其上的形状,并且在所述切割步骤之后, 蚀刻所述硅结构的区域以减小某些区域中所述硅结构的厚度,所述光蚀刻留下剩余的未蚀刻的小平台区域,其适于作为用于万向节的附接滑块的点或凹坑。
    • 5. 发明授权
    • Implantable middle ear transducer having diagnostic detection sensor
    • 具有诊断检测传感器的植入式中耳传感器
    • US09525949B1
    • 2016-12-20
    • US13649254
    • 2012-10-11
    • Daniel E. Glumac
    • Daniel E. Glumac
    • H04R25/00
    • H04R25/608A61F2/18H04R25/00H04R25/305H04R25/554H04R2225/67
    • Methods and devices for measuring vibration of an implanted driven vibrating elongate body coupled to a bone of the middle ear, for example using an accelerometer coupled to the vibrating body. The measured vibration can be taken during implantation and long again after implantation to check for possible decoupling, disease, or additionally impeded vibratory driving of the middle ear bone. An accelerometer signal can be converted to a displacement value and used to check for an under impeded or over impeded vibratory body. An implanted device can be used to periodically check the vibration of the vibratory body. Methods and devices can be used in conjunction with implanted devices which receive vibratory signals from a middle ear bone and use the signals to drive a disarticulated middle ear bone closer to the ear drum.
    • 用于测量与中耳的骨骼耦合的植入的驱动的振动细长体的振动的方法和装置,例如使用耦合到振动体的加速度计。 测量的振动可以在植入期间和植入后长时间进行,以检查可能的解耦,疾病或另外阻碍的中耳骨的振动驱动。 加速度计信号可以转换为位移值,用于检查受阻或过阻的振动体。 可以使用植入装置来周期性地检查振动体的振动。 方法和装置可以与接收来自中耳骨的振动信号的植入装置一起使用,并且使用该信号驱动更接近耳鼓的脱粒中耳骨。
    • 7. 发明授权
    • Suspension fabricated from silicon
    • 由硅制成的悬架
    • US5896246A
    • 1999-04-20
    • US837604
    • 1997-04-21
    • Richard August BuddeKevin Jon SchultzDaniel E. GlumacPatrick J. RyanCal E. Hardie
    • Richard August BuddeKevin Jon SchultzDaniel E. GlumacPatrick J. RyanCal E. Hardie
    • G11B5/48
    • G11B5/484Y10T29/49021Y10T29/4903
    • An apparatus comprising a magnetic head suspension assembly (10) comprised of a rectangular portion (12), load beam (14) and flexure (16) fabricated from a silicon structure using the etching techniques of the integrated circuit fabrication industry. The magnetic head suspension assembly (10) has electrical leads (23) to a slider, a pre-amp circuit (25) and a microactuator (27) fabricated directly thereon. A system of providing a loading force passing to slider (50) comprises either a tapered base plate (40) adapted to be held by a horizontally oriented actuator arm or an actuator arm (60) having at least one angled receiving surface (62,64) for attachment to said suspension assembly. The method of forming a magnetic head suspension assembly (10) from an etched silicon structure comprising a cutting step comprising cutting the silicon structure into the silhouette shape of a magnetic head suspension assembly, having a rectangular portion (12), a load beam (14) and a flexure (16), the flexure is cut in a shape such that finger members (18), slider bond tongue (19) and dimple tongue (20) appear thereon. Subsequent to the cutting step, photo-etching regions of the silicon structure reduces thickness of the silicon structure in certain regions. The photo-etching leaves a remaining non-etched small plateau area which is adapted to act as a point or dimple for an attached slider to gimbal about.
    • 一种包括由使用集成电路制造工业的蚀刻技术由硅结构制成的矩形部分(12),负载梁(14)和挠曲件(16)组成的磁头悬挂组件(10)的装置。 磁头悬挂组件(10)具有到滑块的电引线(23),直接制造的前置放大器电路(25)和微致动器(27)。 提供通过滑块(50)的加载力的系统包括适于由水平定向的致动器臂保持的锥形基板(40)或具有至少一个成角度的接收表面(62,64)的致动器臂(60) ),用于附接到所述悬架组件。 从蚀刻硅结构形成磁头悬挂组件(10)的方法,包括切割步骤,包括将所述硅结构切割成具有矩形部分(12),负载梁(14)的磁头悬挂组件的轮廓形状 )和弯曲部(16),弯曲部被切割成使得手指部件(18),滑块接合舌片(19)和凹形舌片(20)出现在其上的形状。 在切割步骤之后,硅结构的光蚀刻区域在某些区域减小了硅结构的厚度。 光蚀刻留下剩余的未蚀刻的小平台区域,该区域适于作为用于附近的滑块的万向节的点或凹坑。