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    • 5. 发明授权
    • Multiple width transceiver host board system
    • 多宽度收发器主机板系统
    • US07177157B2
    • 2007-02-13
    • US10036995
    • 2001-10-22
    • Lewis B. AronsonPaul K. Rosenberg
    • Lewis B. AronsonPaul K. Rosenberg
    • H05K7/16
    • G02B6/4201G02B6/3897G02B6/4261H01R12/7023H01R12/716
    • The present invention provides a host board system in which transceivers of two sizes (the larger approximately twice the width of the smaller) can be arbitrarily mixed within a given host board design. This is accomplished by specifying an arrangement of electrical connectors, a guide rail design, a set of transceiver features, and a bezel configuration to meet this need as well as the other requirements of optoelectronic transceivers. Typically, two slots and connectors are lined up behind an opening in a bezel that provides transceiver access to two connectors. So that either double-width or single-width transceivers can be used in the same opening, the double-width transceiver is designed to engage with the connectors in the same position as a single-width transceiver. Further, the slots and connectors are spaced evenly so that all of the slots and connectors can accommodate a single-width transceiver and all adjacent slots and connectors can accommodate a double-width transceiver.
    • 本发明提供了一种主机板系统,其中可以在给定的主机板设计中任意混合两种尺寸(较小的较小的两倍的宽度)的收发器。 这通过指定电连接器的布置,导轨设计,一组收发器特征以及面板配置来实现,以满足这种需要以及光电收发器的其它要求。 通常,两个插槽和连接器排列在一个挡板后面的一个开口的后面,提供收发器访问两个连接器。 因此,双宽度收发器可以在同一个开口中使用,双宽度收发器设计成与单宽度收发器处于相同位置的连接器。 此外,槽和连接器均匀地间隔开,使得所有的槽和连接器可以容纳单宽度收发器,并且所有相邻的槽和连接器可容纳双宽度收发器。
    • 6. 发明授权
    • Compact optical assembly for optoelectronic transceivers
    • 用于光电收发器的紧凑型光学组件
    • US06668113B2
    • 2003-12-23
    • US09957557
    • 2001-09-19
    • Chris K. TogamiPaul K. RosenbergJan LipsonLewis B. Aronson
    • Chris K. TogamiPaul K. RosenbergJan LipsonLewis B. Aronson
    • G02B632
    • G02B6/4246G02B6/4212G02B6/4214G02B6/43
    • An optical assembly includes a first lens positioned along a first axis and configured to focus light from a light source along the first axis, and a second lens positioned along the first axis and configured to focus light from the first lens onto an optical target. A third lens is positioned along a second axis and configured to approximately collimate light from a second light source along the second axis, and a reflector positioned along the second axis is configured to reflect light from the third lens onto a fourth lens. The fourth lens is positioned on a third axis angled from the second axis and configured to focus light from the reflector onto an optical detector. Furthermore, the optical assembly is preferably a single molded optic. The optical assembly may be used in an optoelectronic transceiver having an optical subassembly, including a light source and an optical detector. The optical assembly is used to couple a pair of closely spaced optical fibers to the light source and optical detector.
    • 光学组件包括沿着第一轴定位并被配置为沿着第一轴聚焦来自光源的光的第一透镜和沿着第一轴定位的第二透镜,并且被配置为将来自第一透镜的光聚焦到光学目标上。 第三透镜沿着第二轴定位并且被配置为沿着第二轴近似准直来自第二光源的光,并且沿着第二轴定位的反射器被配置为将来自第三透镜的光反射到第四透镜上。 第四透镜定位在与第二轴线成角度的第三轴上,并被配置为将来自反射器的光聚焦到光学检测器上。 此外,光学组件优选为单个模制光学元件。 光学组件可以用在具有光学子组件的光电收发器中,该光学子组件包括光源和光学检测器。 光学组件用于将一对紧密间隔的光纤耦合到光源和光学检测器。
    • 7. 发明授权
    • Alignment of optoelectronic components using a composite adhesive
    • 使用复合胶粘剂对光电子元件的对准
    • US07418176B2
    • 2008-08-26
    • US11468629
    • 2006-08-30
    • Paul K. Rosenberg
    • Paul K. Rosenberg
    • G02B6/42
    • G02B6/4246G02B6/4201G02B6/4204H01L2224/73204
    • Optical components are aligned within an optoelectronic device using a composite adhesive material. An optical subassembly of the optoelectronic device includes a package housing, an optical component, and a composite adhesive that at least indirectly maintains the optical component in a predetermined position on a mounting surface within the package housing. The composite adhesive includes an adhesive substance, and a plurality of spacing elements intermixed in the adhesive substance. The spacing elements at least indirectly space the optical component from a designated surface of the package housing such that the component is positioned in the predetermined position.
    • 光学元件使用复合粘合剂材料在光电器件内对齐。 光电子器件的光学子组件包括封装壳体,光学部件和复合粘合剂,其至少间接地将光学部件保持在封装壳体内的安装表面上的预定位置。 复合粘合剂包括粘合剂物质和混合在粘合物质中的多个间隔元件。 间隔元件至少间接地将光学部件与包装壳体的指定表面间隔开,使得部件定位在预定位置。