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    • 2. 发明申请
    • Optical coupling system
    • 光耦合系统
    • US20050013553A1
    • 2005-01-20
    • US10620489
    • 2003-07-16
    • Raymond BlasingameJames LeeBernard Li
    • Raymond BlasingameJames LeeBernard Li
    • G02B6/38G02B6/42G02B6/36
    • 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. 发明申请
    • Optical coupling system
    • 光耦合系统
    • US20050013539A1
    • 2005-01-20
    • US10622042
    • 2003-07-17
    • Bo ChenBernard Li
    • Bo ChenBernard Li
    • G02B6/42G02B6/32
    • G02B6/4204G02B6/4209
    • An optical coupling system having an integrated micro lens system for achieving high coupling efficiency between an optoelectronic element and an optical medium such as an optical fiber. The system may have a posts formed on the wafer incorporating the optoelectronic elements. The posts may have micro lenses formed on them. The posts with their respective micro lenses may be situated over respective optoelectronic elements. A window may be formed over the wafer components that may include micro lenses, posts and optoelectronic elements. The window may be part of the package that hermetically seals these components. An optical fiber or an array of fibers may be positioned proximate to the window for the receiving or transmitting of light. The optical coupling system may instead have an aspherical lens situated between the optoelectronic component and optical fiber. The fiber may be in contact with the near lens surface.
    • 一种具有集成微透镜系统的光耦合系统,用于在光电子元件和诸如光纤的光学介质之间实现高耦合效率。 该系统可以具有形成在包含光电子元件的晶片上的柱。 柱可以在其上形成微透镜。 具有各自的微透镜的柱可以位于相应的光电元件上。 可以在可以包括微透镜,柱和光电元件的晶片组件上形成窗口。 窗户可能是密封这些部件的包装的一部分。 光纤或光纤阵列可以靠近窗口定位以接收或传输光。 光耦合系统可以替代地具有位于光电子部件和光纤之间的非球面透镜。 纤维可以与近透镜表面接触。
    • 4. 发明授权
    • Discontinuous conductive filler polymer-matrix composites for electromagnetic shielding
    • 用于电磁屏蔽的不连续导电填料聚合物基体复合材料
    • US09044593B2
    • 2015-06-02
    • US11674992
    • 2007-02-14
    • Bernard LiChad CaiXingfu Chen
    • Bernard LiChad CaiXingfu Chen
    • A61B5/055A61N1/05A61N1/08
    • A61N1/08A61N1/05A61N1/0563A61N1/086
    • A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a polymer-matrix composite. The polymer-matrix composite includes a polymeric resin having discontinuous conductive fillers provided therein. The discontinuous conductive fillers include one or more of nano-sized metal structures and nano-sized non-metallic conductive structures. The nano-sized non-metallic conductive structures can have a coating formed of one or more metals. The nano-sized non-metallic conductive structures can be formed of carbon. In turn, the nano-sized non-metallic conductive structures can include one or more of carbon nanofibers, carbon filaments, carbon nanotubes, and carbon nanoflakes.
    • 一种具有由绝缘层覆盖的导体组件的医疗电引线和位于绝缘层的至少一部分附近或邻近绝缘层的屏蔽罩,以便屏蔽导体组件与一个或多个电磁场。 屏蔽罩由聚合物基体复合材料形成。 聚合物 - 基质复合材料包括其中提供不连续的导电填料的聚合物树脂。 不连续导电填料包括纳米尺寸金属结构和纳米尺寸非金属导电结构中的一种或多种。 纳米尺寸的非金属导电结构可以具有由一种或多种金属形成的涂层。 纳米尺寸的非金属导电结构可由碳形成。 反过来,纳米尺寸的非金属导电结构可以包括一个或多个碳纳米纤维,碳丝,碳纳米管和碳纳米片。
    • 7. 发明申请
    • DISCONTINUOUS CONDUCTIVE FILLER POLYMER-MATRIX COMPOSITES FOR ELECTROMAGNETIC SHIELDING
    • 电磁屏蔽不连续导电填充聚合物基复合材料
    • US20080195187A1
    • 2008-08-14
    • US11674992
    • 2007-02-14
    • Bernard LiChad CaiXingfu Chen
    • Bernard LiChad CaiXingfu Chen
    • A61N1/05
    • A61N1/08A61N1/05A61N1/0563A61N1/086
    • A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a polymer-matrix composite. The polymer-matrix composite includes a polymeric resin having discontinuous conductive fillers provided therein. The discontinuous conductive fillers include one or more of nano-sized metal structures and nano-sized non-metallic conductive structures. The nano-sized non-metallic conductive structures can have a coating formed of one or more metals. The nano-sized non-metallic conductive structures can be formed of carbon. In turn, the nano-sized non-metallic conductive structures can include one or more of carbon nanofibers, carbon filaments, carbon nanotubes, and carbon nanoflakes.
    • 一种具有由绝缘层覆盖的导体组件的医疗电引线和位于绝缘层的至少一部分附近或邻近绝缘层的屏蔽罩,以便屏蔽导体组件与一个或多个电磁场。 屏蔽罩由聚合物基体复合材料形成。 聚合物 - 基质复合材料包括其中提供不连续的导电填料的聚合物树脂。 不连续导电填料包括纳米尺寸金属结构和纳米尺寸非金属导电结构中的一种或多种。 纳米尺寸的非金属导电结构可以具有由一种或多种金属形成的涂层。 纳米尺寸的非金属导电结构可由碳形成。 反过来,纳米尺寸的非金属导电结构可以包括一个或多个碳纳米纤维,碳丝,碳纳米管和碳纳米片。