会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Rotatable top shell
    • 可旋转顶壳
    • US08356728B2
    • 2013-01-22
    • US12039677
    • 2008-02-28
    • Joshua MooreDaehwan Daniel KimGary Dean Sasser
    • Joshua MooreDaehwan Daniel KimGary Dean Sasser
    • B65D43/14B65D51/04
    • G02B6/4201G02B6/4256G02B6/4261
    • In one example, a rotatable top shell is provided for an example optoelectronic device. The rotatable top shell includes a body defining a curved tongue on one end. The tongue is configured to rotate about a complimenting curved mating surface of a bottom shell of the optoelectronic device to allow the body to rotate between an open position and a closed position. The rotatable top shell further includes means for securing the rotatable top shell relative to the bottom shell. The means for securing the rotatable top shell may include one or more of: a plurality of nubs defined along at least one edge of the body, a hole defined in the body for receiving a retention pin of the bottom shell, two sides for being received within a main cavity of the bottom shell, or the like.
    • 在一个示例中,为示例性光电子器件提供可旋转顶壳。 可旋转的顶壳包括在一端限定弯曲舌头的主体。 舌部构造成围绕光电子器件的底壳的补充的弯曲配合表面旋转,以允许身体在打开位置和关闭位置之间旋转。 可旋转顶壳还包括用于固定可旋转顶壳相对于底壳的装置。 用于固定可旋转顶部壳体的装置可以包括以下中的一个或多个:沿着主体的至少一个边缘限定的多个突出部,限定在主体中的孔,用于接收底部壳体的保持销,用于接收的两个侧面 在底壳的主腔内等。
    • 2. 发明申请
    • ROTATABLE TOP SHELL
    • 可旋转顶壳
    • US20080203864A1
    • 2008-08-28
    • US12039677
    • 2008-02-28
    • Joshua MooreDaehwan Daniel KimGary Dean Sasser
    • Joshua MooreDaehwan Daniel KimGary Dean Sasser
    • A47B97/00
    • G02B6/4201G02B6/4256G02B6/4261
    • In one example, a rotatable top shell is provided for an example optoelectronic device. The rotatable top shell includes a body defining a curved tongue on one end. The tongue is configured to rotate about a complimenting curved mating surface of a bottom shell of the optoelectronic device to allow the body to rotate between an open position and a closed position. The rotatable top shell further includes means for securing the rotatable top shell relative to the bottom shell. The means for securing the rotatable top shell may include one or more of: a plurality of nubs defined along at least one edge of the body, a hole defined in the body for receiving a retention pin of the bottom shell, two sides for being received within a main cavity of the bottom shell, or the like.
    • 在一个示例中,为示例性光电子器件提供可旋转顶壳。 可旋转的顶壳包括在一端限定弯曲舌头的主体。 舌部构造成围绕光电子器件的底壳的补充的弯曲配合表面旋转,以允许身体在打开位置和关闭位置之间旋转。 可旋转的顶壳还包括用于固定可旋转顶壳相对于底壳的装置。 用于固定可旋转顶部壳体的装置可以包括以下中的一个或多个:沿着主体的至少一个边缘限定的多个突出部,限定在主体中的孔,用于接收底部壳体的保持销,用于接收的两个侧面 在底壳的主腔内等。
    • 7. 发明申请
    • ELECTROMAGNETIC RADIATION CONTAINMENT AND HEAT MANAGEMENT IN AN ELECTRONIC MODULE
    • 电子模块中的电磁辐射容纳和热管理
    • US20080137306A1
    • 2008-06-12
    • US11952991
    • 2007-12-07
    • Daehwan Daniel Kim
    • Daehwan Daniel Kim
    • H05K7/20H05K9/00H05K5/00
    • H01R13/6584H01R12/712H01R13/6594H05K9/0058
    • In one example, and electromagnetic radiation containment system includes an electrically conductive shroud configured to be mounted to a ground plane of a host board, the electrically conductive shroud defining an opening by way of which an edge connector of an electronic module can be received, the electrically conductive shroud sized and configured to substantially enclose a host board connector mounted to the host board. The electromagnetic radiation containment system further includes, in this example, an electrically conductive sealing element configured to be disposed about a portion of the electronic module such that when the edge connector of the electronic module is fully received in the host board connector, the electrically conductive sealing element cooperating with the electrically conductive shroud to at least partially define a Faraday cage substantially enclosing the edge connector and the host board connector.
    • 在一个示例中,并且电磁辐射容纳系统包括被配置为安装到主板的接地平面的导电护罩,导电罩限定了可以接收电子模块的边缘连接器的开口, 尺寸和构造为基本上封装安装到主板的主板连接器的导电导电罩。 在该示例中,电磁辐射容纳系统还包括导电密封元件,其被配置为围绕电子模块的一部分设置,使得当电子模块的边缘连接器完全容纳在主板连接器中时,导电 密封元件与导电护罩配合以至少部分地限定基本上包围边缘连接器和主板连接器的法拉第笼。
    • 8. 发明授权
    • Electromagnetic radiation containment in an electronic module
    • 电子模块中的电磁辐射防护
    • US07804696B2
    • 2010-09-28
    • US11952991
    • 2007-12-07
    • Daehwan Daniel Kim
    • Daehwan Daniel Kim
    • H05K9/00
    • H01R13/6584H01R12/712H01R13/6594H05K9/0058
    • Electromagnetic radiation containment in an electronic module. In one example, an electronic module includes a housing, a printed circuit board, and an electrically conductive sealing element. The printed circuit board is partially positioned within the housing and defines an edge connector extending from the housing. The electrically conductive sealing element radially surrounds 360 degrees of one end of the housing and the printed circuit board proximate the edge connector such that when the edge connector is fully received in a host board connector mounted to a host board, the electrically conductive sealing element cooperates with a corresponding structure of the host board to at least partially define a Faraday cage substantially enclosing the edge connector and the host board connector. The housing defines a radial groove which aids in the retention of the sealing element.
    • 电子模块中的电磁辐射防护。 在一个示例中,电子模块包括壳体,印刷电路板和导电密封元件。 印刷电路板部分地定位在壳体内并且限定从壳体延伸的边缘连接器。 导电密封元件径向地围绕壳体的一端360度和靠近边缘连接器的印刷电路板,使得当边缘连接器完全容纳在安装到主机板的主机板连接器中时,导电密封元件协作 具有主机板的对应结构,以至少部分地限定基本上包围边缘连接器和主机板连接器的法拉第笼。 壳体限定有助于保持密封元件的径向凹槽。
    • 9. 发明授权
    • Optical component and transceiver packaging
    • 光学元件和收发器包装
    • US07785020B2
    • 2010-08-31
    • US11840315
    • 2007-08-17
    • Daehwan Daniel KimMark J. Donovan
    • Daehwan Daniel KimMark J. Donovan
    • G02B6/36H04B10/00
    • G02B6/4292G02B6/3825G02B6/3897G02B6/4246
    • Methods of packaging a high density optical module. In one example embodiment, a method of packaging the high density optical module includes various acts. First, a first detachable fiber assembly is connected to an optical component disposed in the module such that the connection between the fiber assembly and the optical component is disposed inside a housing of the optical module. Next, the fiber included in the fiber assembly is spooled around a spooling assembly. Then, the receptacle is secured in a receptacle holder such that the receptacle is able to connect with an external fiber connector. Next, the fiber assembly is detached from the optical component. Finally, the optical component is heated such that a ball grid array connection, that connects the optical component to a high speed printed circuit board, flows such that the optical component can be removed from the high speed printed circuit board.
    • 封装高密度光模块的方法。 在一个示例实施例中,封装高密度光学模块的方法包括各种动作。 首先,第一可拆卸光纤组件连接到设置在模块中的光学部件,使得光纤组件和光学部件之间的连接设置在光学模块的壳体内。 接下来,包括在纤维组件中的纤维围绕绕线组件缠绕。 然后,将容器固定在容器保持器中,使得容器能够与外部光纤连接器连接。 接下来,将光纤组件从光学部件分离。 最后,加热光学部件,使得将光学部件连接到高速印刷电路板的球栅阵列连接流动,使得可以从高速印刷电路板移除光学部件。
    • 10. 发明申请
    • OPTICAL COMPONENT AND TRANSCEIVER PACKAGING
    • 光学元件和收发器包装
    • US20090010600A1
    • 2009-01-08
    • US11840315
    • 2007-08-17
    • Daehwan Daniel KimMark J. Donovan
    • Daehwan Daniel KimMark J. Donovan
    • G02B6/36
    • G02B6/4292G02B6/3825G02B6/3897G02B6/4246
    • An optical module and packaging thereof. A high speed optical module, such as a transceiver or transponder is disclosed. A fiber assembly including a receptacle, a fiber, and a modified connector are provided and enable an optical connection from inside of the optical component to outside of the component. Internally, the fiber assembly is detachable from an internal optical component. the optical component is connected to a PCB using a ball grid array. By detaching the fiber assembly, the optical component can be changed-out without damaging the fiber. The fiber is spooled inside the module to protect the fiber around a spooling assembly that is integrated with the receptacle holders that form part of the module's ports.
    • 光学模块及其包装。 公开了一种高速光学模块,例如收发器或应答器。 提供了包括插座,光纤和改进的连接器的光纤组件,并且使得能够从光学部件的内部到部件外部的光学连接。 在内部,光纤组件可从内部光学部件拆卸。 光学部件使用球栅阵列连接到PCB。 通过分离光纤组件,可以将光学部件切换而不会损坏光纤。 纤维缠绕在模块内部,以保护纤维围绕缠绕组件,该组件与构成模块端口一部分的插座座一体化。