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    • 2. 发明授权
    • Optical coupling system
    • 光耦合系统
    • US07210857B2
    • 2007-05-01
    • US10620489
    • 2003-07-16
    • Raymond W. BlasingameJames C. LeeBernard Q. Li
    • Raymond W. BlasingameJames C. LeeBernard Q. Li
    • G02B6/36G02B6/42G02B6/00
    • G02B6/4292G02B6/3877G02B6/4204G02B6/423G02B6/4237
    • An optical coupling system having a split sleeve with a metallized strip adhered to a housing barrel at one end. The sleeve may be smaller than an optical fiber ferrule. The sleeve may have spring-like flexibility and be stretched open at the slit sufficiently to permit insertion of the ferrule in the sleeve. The sleeve may be made of zirconia. The ferrule may be held by the sleeve's spring-like contraction around the ferrule. Attached at the other end of the barrel may be an optoelectronic element such as a vertical cavity surface emitting laser. An optical fiber end of the ferrule may be aligned with the laser. Since the ferrule may be held firmly by the sleeve attached to the coupling barrel, there would be virtually no movement or wiggle of the fiber end relative to the laser and thus the alignment may be maintained.
    • 一种光耦合系统,其具有在一端具有金属化条带的外壳套筒与壳体连接的开口套管。 套筒可以小于光纤套圈。 套筒可以具有弹簧状柔性并且在狭缝处被充分拉伸以允许套圈插入套筒中。 套筒可以由氧化锆制成。 套圈可以通过套筒的弹簧状收缩保持在套圈周围。 连接在枪管的另一端可以是诸如垂直腔表面发射激光器的光电元件。 套圈的光纤端可以与激光器对准。 由于套圈可以被连接到联接筒的套筒牢固地保持,所以纤维端相对于激光器实质上不会移动或摆动,因此可以保持对准。
    • 3. 发明授权
    • Wire configuration and method of making for an implantable medical apparatus
    • 电线配置和可植入医疗器械的制造方法
    • US08639352B2
    • 2014-01-28
    • US12419082
    • 2009-04-06
    • Ling WangBernard Q. Li
    • Ling WangBernard Q. Li
    • A61N1/04
    • A61N1/05A61N1/0472A61N1/0488A61N1/0551Y10T29/49002
    • A filar includes an inner conductive core that is formed of a low-resistivity material such as silver having a resistivity of less than 20 μΩ per centimeter. A conductive coil is provided around the core to form a filar. This coil is formed of a biocompatible alloy or super alloy having an ultimate tensile strength (UTS) of between 150 kilo pounds per square inch (ksi) and 280 ksi at room temperature. Examples of such alloys include CoCrMo, CoFeCrMo, and CoFeNiCrMo. In one specific embodiment, the alloy is MP35N (CoNiCrMo), which may be low-titanium (“low-ti”) MP35N. One or more such filars may be included within a wire. This wire may be carried by an implantable medical apparatus such as a lead, lead extension, or catheter. The wire may electrically couple elements such as connector electrodes to conducting electrodes or sensors.
    • 丝状物包括由诸如银的低电阻率材料形成的内导电芯,其电阻率小于每平方厘米20微米。 在芯周围设置导电线圈以形成丝状体。 该线圈由在室温下具有150千磅/平方英寸(ksi)和280ksi之间的极限拉伸强度(UTS)的生物相容性合金或超级合金形成。 这种合金的实例包括CoCrMo,CoFeCrMo和CoFeNiCrMo。 在一个具体实施方案中,合金是MP35N(CoNiCrMo),其可以是低钛(“低钛”)MP35N。 一根或多根这样的丝状物可以包括在线内。 该线可以由诸如铅,引线延伸或导管的可植入医疗设备携带。 导线可以将诸如连接器电极的元件电耦合到导电电极或传感器。
    • 9. 发明申请
    • LOW IMPEDANCE, LOW MODULUS WIRE CONFIGURATIONS FOR A MEDICAL DEVICE
    • 低阻抗,用于医疗设备的低模数电线配置
    • US20120271385A1
    • 2012-10-25
    • US13092380
    • 2011-04-22
    • Bernard Q. LiLing Wang
    • Bernard Q. LiLing Wang
    • A61N1/00C22F1/18
    • B21C1/16A61N1/0551A61N1/056A61N1/375C22C14/00C22F1/183
    • Techniques are disclosed related to wires that may be used within a medical device. According to one example, a wire may include a core formed of a material having a resistivity of less than 25 micro-ohm-cm and a layer of a biocompatible beta titanium alloy surrounding the core. As one example, the beta titanium alloy has an elastic modulus ranging from 30 GigaPascals (GPa) to 90 GPa and comprises at least two elements from a group consisting of titanium, molybdenum, niobium, tantalum, zirconium, chromium, iron and tin. In one embodiment, the core may be formed of silver, tantalum, a tantalum alloy, niobium, a niobium alloy, platinum, a platinum alloy, palladium, or a palladium alloy. In some examples, one or more wires may be incorporated into a coil or a cable and one or more such coils or cables may be carried by a medical device such as a medical electrical lead.
    • 公开了可以在医疗装置内使用的电线的技术。 根据一个示例,线可以包括由电阻率小于25微欧姆-cm的材料形成的芯和围绕芯的生物相容性β钛合金层。 作为一个实例,β钛合金的弹性模量范围为30千兆帕(GPa)至90GPa,并且包括来自钛,钼,铌,钽,锆,铬,铁和锡的至少两种元素。 在一个实施例中,芯可以由银,钽,钽合金,铌,铌合金,铂,铂合金,钯或钯合金形成。 在一些示例中,一个或多个电线可以结合到线圈或电缆中,并且一个或多个这样的线圈或电缆可以由诸如医疗电引线的医疗设备携带。
    • 10. 发明申请
    • Wire Configuration and Method of Making for an Implantable Medical Apparatus
    • 电线配置和制造可植入医疗器械的方法
    • US20100256718A1
    • 2010-10-07
    • US12419082
    • 2009-04-06
    • Ling WangBernard Q. Li
    • Ling WangBernard Q. Li
    • A61N1/05H01R43/00
    • A61N1/05A61N1/0472A61N1/0488A61N1/0551Y10T29/49002
    • A filar includes an inner conductive core that is formed of a low-resistivity material such as silver having a resistivity of less than 20 μΩ per centimeter. A conductive coil is provided around the core to form a filar. This coil is formed of a biocompatible alloy or super alloy having an ultimate tensile strength (UTS) of between 150 kilo pounds per square inch (ksi) and 280 ksi at room temperature. Examples of such alloys include CoCrMo, CoFeCrMo, and CoFeNiCrMo. In one specific embodiment, the alloy is MP35N (CoNiCrMo), which may be low-titanium (“low-ti”) MP35N. One or more such filars may be included within a wire. This wire may be carried by an implantable medical apparatus such as a lead, lead extension, or catheter. The wire may electrically couple elements such as connector electrodes to conducting electrodes or sensors.
    • 丝状体包括由诸如银的低电阻率材料形成的内导电芯,其电阻率小于20μΩg; 每厘米 在芯周围设置导电线圈以形成丝状体。 该线圈由在室温下具有150千磅/平方英寸(ksi)和280ksi之间的极限拉伸强度(UTS)的生物相容性合金或超级合金形成。 这种合金的实例包括CoCrMo,CoFeCrMo和CoFeNiCrMo。 在一个具体实施方案中,合金是MP35N(CoNiCrMo),其可以是低钛(“低钛”)MP35N。 一根或多根这样的丝状物可以包括在线内。 该线可以由诸如铅,引线延伸或导管的可植入医疗设备携带。 导线可以将诸如连接器电极的元件电耦合到导电电极或传感器。