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    • 1. 发明授权
    • Communication media multi-switch system
    • 通信媒体多开关系统
    • US09036961B2
    • 2015-05-19
    • US13172145
    • 2011-06-29
    • David Zhi Chen
    • David Zhi Chen
    • G02B6/35H04B3/60H04B10/00
    • G02B6/3508G02B6/3556G02B6/3574H04B10/22
    • Exemplary systems and methods for testing communication media and devices are disclosed herein. An exemplary system may include a transmitting media support and a receiving media support, each including a plurality of communication media. The system may further include a movement support configured to selectively translate the receiving media support relative to the transmitting media support between a transmission position and a free position. In the transmission position, a receiving media may be engaged with the transmitting media to receive an initiated signal from the transmitting media. In the free position, a first end face of the receiving media may be spaced apart from a second end face of the transmitting media, thereby preventing contact between the first and second end faces. The movement support may be further configured to align the at least one of the receiving media with the transmitting media.
    • 本文公开了用于测试通信介质和设备的示例性系统和方法。 示例性系统可以包括传输媒体支持和接收媒体支持,每个包括多个通信媒体。 该系统还可以包括运动支撑件,其构造成在传动位置和自由位置之间相对于传送介质支撑件选择性地平移接收介质支撑件。 在发送位置,接收媒体可以与发送媒体接合,以从发送媒体接收发起的信号。 在自由位置,接收介质的第一端面可以与传送介质的第二端面间隔开,从而防止第一和第二端面之间的接触。 运动支撑件可以被进一步配置成将接收介质中的至少一个与传送介质对准。
    • 3. 发明申请
    • HARDENED MULTIPORT OPTICAL CONNECTOR ASSEMBLY
    • 硬化多光电连接器总成
    • US20130236139A1
    • 2013-09-12
    • US13413735
    • 2012-03-07
    • David Zhi ChenGeorge N. Bell
    • David Zhi ChenGeorge N. Bell
    • G02B6/38
    • G02B6/3878G02B6/3816G02B6/3821G02B6/3822
    • A multiport optical connector assembly (MOCA) includes an insertion optical fiber assembly having an insertion assembly housing and a connector disk that includes a first connector element having a first ferrule and a first optical fiber. The MOCA further includes a coupling optical fiber assembly having a second connector element including a second ferrule and a second optical fiber. The MOCA further includes an adapter assembly that includes an adapter assembly housing a docking unit for docking the first connector element and the second connector element when the MOCA is assembled. When the first connector element and the second connector element are docked, a tip of the first optical fiber and a tip of the second optical fiber abut one another and the first optical fiber and the second optical fiber form an optical path.
    • 多端口光连接器组件(MOCA)包括插入光纤组件,其具有插入组件壳体和连接器盘,该连接器盘包括具有第一套圈和第一光纤的第一连接器元件。 MOCA还包括具有包括第二套圈和第二光纤的第二连接器元件的耦合光纤组件。 MOCA还包括适配器组件,其包括适配器组件,该适配器组件容纳用于在组装MOCA时对接第一连接器元件和第二连接器元件的对接单元。 当第一连接器元件和第二连接器元件对接时,第一光纤的末端和第二光纤的末端彼此邻接,并且第一光纤和第二光纤形成光路。
    • 7. 发明授权
    • Communication media connector
    • 通讯媒体连接器
    • US08366327B2
    • 2013-02-05
    • US12750033
    • 2010-03-30
    • David Zhi ChenVijay Jain
    • David Zhi ChenVijay Jain
    • G02B6/255G02B6/38G02B6/36
    • G02B6/255G02B6/02314G02B6/2558Y10T29/49117
    • A communication media having a first media portion defining a first end, a second media portion having first and second ends, the first end of the second communication media fused to the first end of the first media portion at a media joint, the second media portion configured to transmit data received from the first media portion; and a support sleeve disposed about the media joint. The support sleeve defines an end face, the second end of the second communication media terminating at an end surface parallel with the end face, the end face configured to be selectively connected to a media component.
    • 具有限定第一端的第一介质部分的通信介质,具有第一和第二端的第二介质部分,所述第二通信介质的第一端在介质接头处熔合到所述第一介质部分的第一端,所述第二介质部分 被配置为发送从所述第一媒体部分接收的数据; 以及围绕介质接头设置的支撑套筒。 支撑套筒限定端面,第二通信介质的第二端终止于与端面平行的端面,该端面被配置为选择性地连接到介质部件。
    • 8. 发明申请
    • COATED OPTICAL-FIBER BEND-FATIGUE AND RELIABILITY TESTER
    • 涂层光纤弯曲疲劳和可靠性测试仪
    • US20110313683A1
    • 2011-12-22
    • US12817811
    • 2010-06-17
    • David Zhi CHENVijay JAIN
    • David Zhi CHENVijay JAIN
    • G06F19/00G01N3/32G01N21/00
    • G01M11/088G01N2203/0005G01N2203/0023
    • Apparatus and methodology for testing coated optical-fiber bend fatigue and operational reliability by subjecting a coated optical-fiber carrying an optical signal to bending motion. The motion can be either: (1) in the same angular direction for multiple revolutions or (2) alternating clockwise and counterclockwise directions for repetitive single revolutions. The motions are achieved by using either a single conical-cylindrical form or two conically-shaped forms separated from each other by a constant gap width with the coated optical-fiber under test strung in the gap between the forms. With the two cones, the fiber is wrapped over each form in an alternating manner by a rotating arm that makes only single revolutions in clockwise and counterclockwise directions. With either embodiment, varied circumferences are controllably presented to the optical fiber resulting in varying bend radii. Fiber tension, signal strength and optical wavelength are parameters that can also be varied under computer control, the computer providing spreadsheet data for clear analysis.
    • 通过对带有光信号的涂覆光纤进行弯曲运动来测试涂层光纤弯曲疲劳和操作可靠性的装置和方法。 运动可以是:(1)在相同的角度方向进行多次转动,或者(2)交替顺时针和逆时针方向重复单次旋转。 运动是通过使用单个锥形圆柱形或两个锥形形式,通过恒定的间隙宽度彼此分开,被测光纤被覆在形式之间的间隙中。 通过两个锥体,纤维以交替的方式被旋转臂缠绕在每个形状上,该旋转臂仅在顺时针和逆时针方向上仅旋转一圈。 在任一实施例中,可变的周长可控地呈现给光纤,导致变化的弯曲半径。 光纤张力,信号强度和光波长是计算机控制下也可以变化的参数,计算机提供电子表格数据进行清晰分析。
    • 9. 发明申请
    • RETURN LOSS MEASUREMENT SYSTEM
    • 返回损失测量系统
    • US20110235023A1
    • 2011-09-29
    • US12748742
    • 2010-03-29
    • David Zhi ChenVijay Jain
    • David Zhi ChenVijay Jain
    • G01N21/41G01N21/00
    • G01M11/31
    • A method may include injecting a test signal having a first optical launch power into a device under test via an optical splitter. The optical splitter includes at least two upstream ports and a downstream port and the test signal is injected in a first upstream port of the optical splitter. The device under test is coupled to the downstream port. Return loss associated with the device under test is measured at a second upstream input of the optical splitter. The RL measurement in stored a database. The injecting, measuring, and storing are repeated for a number of different optical launch powers.
    • 一种方法可以包括通过光分路器将具有第一光发射功率的测试信号注入到被测器件中。 光分路器包括至少两个上游端口和下游端口,并且测试信号被注入到光分路器的第一上游端口中。 被测设备耦合到下游端口。 在分光器的第二上游输入处测量与被测器件相关联的回波损耗。 存储数据库中的RL测量。 对于许多不同的光发射功率重复注入,测量和存储。