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
    • 3. 发明授权
    • Simplified and shortened parallel cable
    • 简化和缩短的并行电缆
    • US09081156B2
    • 2015-07-14
    • US12717352
    • 2010-03-04
    • Chris K. TogamiGary D. SasserFrank Flens
    • Chris K. TogamiGary D. SasserFrank Flens
    • G02B6/36G02B6/42G02B6/38
    • G02B6/4201G02B6/3885G02B6/424G02B6/4246G02B6/4253G02B6/428G02B6/4281G02B6/4284
    • One embodiment includes a connector comprising a connector housing, a ferrule, and a crimp ring. The connector housing has inner and outer surfaces extending between forward and rear ends of the connector housing. The inner surfaces defined a passageway extending lengthwise between the forward and rear ends. The connector housing includes at least one protrusion formed on one of the outer surfaces that is configured to engage a corresponding connector engaging structure of an alignment guide to secure the connector housing within the alignment guide. The ferrule is configured to mount upon end portions of a plurality of optical fibers of a multi-fiber communication cable. The ferrule is disposed partially within the passageway. The crimp ring encompasses the rear end of the connector housing and is configured to secure the connector to the multi-fiber communication cable.
    • 一个实施例包括连接器,其包括连接器壳体,套圈和压接环。 连接器壳体具有在连接器壳体的前端和后端之间延伸的内表面和外表面。 内表面限定了在前端和后端之间纵向延伸的通道。 连接器壳体包括形成在一个外表面上的至少一个突出部,其被构造成与对准引导件的对应的连接器接合结构接合,以将连接器壳体固定在对准引导件内。 套圈构造成安装在多纤维通信电缆的多个光纤的端部上。 套圈部分地设置在通道内。 压接环包围连接器壳体的后端,并且被配置为将连接器固定到多光纤通信电缆。
    • 5. 发明申请
    • UV adjustable optical attenuator
    • UV可调光衰减器
    • US20070019287A1
    • 2007-01-25
    • US11186110
    • 2005-07-21
    • Tom WongJuay KohFrank FlensArjan Haasteren
    • Tom WongJuay KohFrank FlensArjan Haasteren
    • F21V9/06
    • G01J1/04G01J1/0418G01J1/0488G02B5/23G02F1/0126G02F2201/086G02F2203/48
    • An optical element includes a light absorbing medium formed of a transparent material and light absorbing elements encapsulated within the transparent material. The light absorbing elements have an ultraviolet (UV) light-dependent absorption characteristic and UV light is applied to the light absorbing medium to change the attenuation of the light absorbing medium to a desired attenuation. UV light is applied to the light absorbing medium in a controlled manner to change the attenuation of the light absorbing medium from an initial attenuation to the desired attenuation. The application of UV light to the light absorbing medium can cause the light absorbing elements encapsulated within the light absorbing medium to degrade such that the amount of light absorbed by the light absorbing medium is reduced. Reducing the amount of light that is absorbed effectively reduces the attenuation of the light absorbing medium.
    • 光学元件包括由透明材料形成的光吸收介质和封装在透明材料内的光吸收元件。 光吸收元件具有紫外(UV)光依赖性的吸收特性,并且UV光被施加到光吸收介质以将光吸收介质的衰减改变为期望的衰减。 UV光以受控的方式施加到光吸收介质上,以将光吸收介质的衰减从初始衰减改变为期望的衰减。 将UV光施加到光吸收介质可以使封装在光吸收介质内的光吸收元件劣化,使得由光吸收介质吸收的光量减少。 减少吸收的光量有效地减少了光吸收介质的衰减。
    • 7. 发明申请
    • ELECTROMAGNETIC RADIATION CONTAINMENT IN AN OPTOELECTRONIC MODULE
    • 光电子模块中的电磁辐射容纳
    • US20100296817A1
    • 2010-11-25
    • US12629650
    • 2009-12-02
    • Chris K. TogamiGary SasserFrank Flens
    • Chris K. TogamiGary SasserFrank Flens
    • H04B10/00H05K9/00G02B6/36
    • G02B6/43G02B6/4246G02B6/4292H05K9/0058
    • Electromagnetic radiation (EMR) containment assemblies for use in optoelectronic modules. In one example embodiment, an EMR containment assembly includes an EMR shield and a mounting spring plate attached to the EMR shield. The EMR shield includes a first substantially flat body defining at least one edge, a plurality of optical ports defined in the first body; and a plurality of fingers defined along at least one edge of the first body. The fingers are configured to bias against a housing of an optoelectronic module. The mounting spring plate includes a second substantially flat body defining at least one edge, an optical window defined in the second body, and a plurality of leaf springs defined along at least one edge of the second body. The leaf springs are configured to bias against an alignment guide positioned within the optoelectronic module.
    • 用于光电子模块的电磁辐射(EMR)容纳组件。 在一个示例性实施例中,EMR容纳组件包括附接到EMR屏蔽的EMR屏蔽和安装弹簧板。 EMR屏蔽包括限定至少一个边缘的第一基本上平坦的主体,限定在第一主体中的多个光学端口; 以及沿着所述第一主体的至少一个边缘限定的多个手指。 指状物构造成偏压光电子模块的壳体。 安装弹簧板包括限定至少一个边缘的第二基本上平坦的主体,限定在第二主体中的光学窗口,以及沿着第二主体的至少一个边缘限定的多个板簧。 板簧构造成偏压位于光电子模块内的对准引导件。
    • 8. 发明授权
    • Electromagnetic radiation containment in an optoelectronic module
    • 光电子模块中的电磁辐射抑制
    • US08459881B2
    • 2013-06-11
    • US12629650
    • 2009-12-02
    • Chris K. TogamiGary D. SasserFrank Flens
    • Chris K. TogamiGary D. SasserFrank Flens
    • G02B6/36H05K1/14
    • G02B6/43G02B6/4246G02B6/4292H05K9/0058
    • Electromagnetic radiation (EMR) containment assemblies for use in optoelectronic modules. In one example embodiment, an EMR containment assembly includes an EMR shield and a mounting spring plate attached to the EMR shield. The EMR shield includes a first substantially flat body defining at least one edge, a plurality of optical ports defined in the first body; and a plurality of fingers defined along at least one edge of the first body. The fingers are configured to bias against a housing of an optoelectronic module. The mounting spring plate includes a second substantially flat body defining at least one edge, an optical window defined in the second body, and a plurality of leaf springs defined along at least one edge of the second body. The leaf springs are configured to bias against an alignment guide positioned within the optoelectronic module.
    • 用于光电子模块的电磁辐射(EMR)容纳组件。 在一个示例性实施例中,EMR容纳组件包括附接到EMR屏蔽的EMR屏蔽和安装弹簧板。 EMR屏蔽包括限定至少一个边缘的第一基本上平坦的主体,限定在第一主体中的多个光学端口; 以及沿着所述第一主体的至少一个边缘限定的多个手指。 指状物构造成偏压光电子模块的壳体。 安装弹簧板包括限定至少一个边缘的第二基本上平坦的主体,限定在第二主体中的光学窗口,以及沿着第二主体的至少一个边缘限定的多个板簧。 板簧构造成偏压位于光电子模块内的对准引导件。
    • 10. 发明授权
    • UV adjustable optical attenuator
    • UV可调光衰减器
    • US07345813B2
    • 2008-03-18
    • US11186110
    • 2005-07-21
    • Tom Sheau Tung WongJuay Sim KohFrank FlensArjan Van Haasteren
    • Tom Sheau Tung WongJuay Sim KohFrank FlensArjan Van Haasteren
    • G02B5/20F21V9/06
    • G01J1/04G01J1/0418G01J1/0488G02B5/23G02F1/0126G02F2201/086G02F2203/48
    • An optical element includes a light absorbing medium formed of a transparent material and light absorbing elements encapsulated within the transparent material. The light absorbing elements have an ultraviolet (UV) light-dependent absorption characteristic and UV light is applied to the light absorbing medium to change the attenuation of the light absorbing medium to a desired attenuation. UV light is applied to the light absorbing medium in a controlled manner to change the attenuation of the light absorbing medium from an initial attenuation to the desired attenuation. The application of UV light to the light absorbing medium can cause the light absorbing elements encapsulated within the light absorbing medium to degrade such that the amount of light absorbed by the light absorbing medium is reduced. Reducing the amount of light that is absorbed effectively reduces the attenuation of the light absorbing medium.
    • 光学元件包括由透明材料形成的光吸收介质和封装在透明材料内的光吸收元件。 光吸收元件具有紫外(UV)光依赖性的吸收特性,并且UV光被施加到光吸收介质以将光吸收介质的衰减改变为期望的衰减。 UV光以受控的方式施加到光吸收介质上,以将光吸收介质的衰减从初始衰减改变为期望的衰减。 将UV光施加到光吸收介质可以使封装在光吸收介质内的光吸收元件劣化,使得由光吸收介质吸收的光量减少。 减少吸收的光量有效地减少了光吸收介质的衰减。