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    • 1. 发明申请
    • AN APPARATUS FOR CONCATONATING A PLURALITY OF UNDERSEA PRESSURE VESSELS EACH HOUSING AN OPTICAL AMPLIFIER MODULE
    • 在每个住房中集中多个压力容器的装置,一个光学放大器模块
    • WO2005083852A8
    • 2006-11-30
    • PCT/US2005005613
    • 2005-02-23
    • RED SKY SYSTEMS INCDELUCA ROBERT GYOUNG MARK KDEVINCENTIS DAVID SCAMPOREALE SAVINO SSMITH STEPHEN ARTHUR HUGHES
    • YOUNG MARK KDEVINCENTIS DAVID SCAMPOREALE SAVINO SSMITH STEPHEN ARTHUR HUGHES
    • G02B6/44H01S3/00H04B10/00
    • G02B6/4428G02B6/4448
    • An undersea optical repeater is provided. The repeater includes at least first and second pressure vessels for use in an undersea environment. Each of the pressure vessels includes a pressure housing and at least two cable receiving elements disposed on opposing ends of the pressure housing for respectively receiving ends of optical cables that each include an electrical conductor therein. The cable receiving elements are adapted to be in electrical contact with the respective electrical conductors in the optical cables. The pressure housing is adapted to provide electrical isolation between the respective cable receiving elements attached thereto. At least one optical amplifier is located in each of the pressure vessels. Each of the optical amplifiers includes at least one electrical component adapted to receive electrical power from the electrical conductors in. the optical cables. A coupling element, which provides optical and electrical connectivity between the first and second pressure vessels, connects one of the cable receiving elements of the first pressure vessel to one of the cable receiving elements of the second pressure vessel.
    • 提供海底光中继器。 中继器包括用于在海底环境中使用的至少第一和第二压力容器。 每个压力容器包括压力壳体和设置在压力壳体的相对端部上的至少两个电缆接收元件,用于分别容纳各自包括其中的电导体的光缆的端部。 电缆接收元件适于与光缆中的相应电导体电接触。 压力壳体适于在附接到其上的各个电缆接收元件之间提供电隔离。 至少一个光放大器位于每个压力容器中。 每个光放大器包括至少一个适于从光缆中的电导体接收电力的电气部件。 在第一和第二压力容器之间提供光学和电连接的耦合元件将第一压力容器的电缆接收元件中的一个连接到第二压力容器的电缆接收元件之一。
    • 3. 发明申请
    • IDLER TONE BLOCKER
    • IDLER音调阻塞器
    • WO2005102014A2
    • 2005-11-03
    • PCT/US2005/013717
    • 2005-04-22
    • RED SKY SYSTEMS, INC.EVANGELIDES, Stephen, G., Jr.NEUBELT, Michael J.
    • EVANGELIDES, Stephen, G., Jr.NEUBELT, Michael J.
    • G02B6/29394G02B6/278G02B6/2931G02B6/29317G02B6/29382G02B6/29389G02B6/29395H04J14/0206H04J14/0212
    • An optical line interface is provided for communicating between terrestrial terminal equipment and an undersea optical transmission path a WDM optical signal having a plurality of wavelength components. The optical line interface includes a signal processing unit for transforming WDM optical signals between optical layer transport protocols employed by the terrestrial terminal equipment and undersea optical layer transport protocols employed over the undersea optical transmission path. The optical line interface also includes an idler tone generator for generating idler tones at wavelengths corresponding to selected wavelengths components of the WDM signal that are not information-carrying wavelength components. An idler tone blocker is located within a signal path of the signal processing unit for selectively transmitting and blocking wavelength components of the WDM optical signal corresponding to the idler tones.
    • 提供光线路接口,用于在陆地终端设备和海底光传输路径之间通信具有多个波长分量的WDM光信号。 光线路接口包括信号处理单元,用于在地面终端设备采用的光层传输协议和海底光传输路径采用的海底光层传输协议之间转换WDM光信号。 光线路接口还包括一个惰轮音产生器,用于产生与不是信息携带波长分量的WDM信号的选定波长分量对应的波长的空闲音调。 空载音调抑制器位于信号处理单元的信号路径内,用于选择性地发送和阻挡对应于空闲音调的WDM光信号的波长分量。
    • 4. 发明申请
    • THERMAL MANAGEMENT OF AN OPTICAL AMPLIFIER MODULE HOUSED IN A UNIVERSAL CABLE JOINT
    • 通用电缆接头中放置的光放大器模块的热管理
    • WO2005091445A1
    • 2005-09-29
    • PCT/US2005/008394
    • 2005-03-11
    • RED SKY SYSTEMS, INC.DEVINCENTIS, David, S.YOUNG, Mark, K.
    • DEVINCENTIS, David, S.YOUNG, Mark, K.
    • H01S3/00
    • G02B6/4427G02B6/4471H01S3/0405H01S3/06704H01S3/06754H01S5/02248
    • An optical amplifier module is provided that contains at least one optical amplifier. The module includes an internal housing having an outer dimension substantially equal to an outer dimension of an internal fiber splice housing of an undersea optical fiber cable joint. The internal housing includes a pair of opposing end faces each having a retaining element for retaining the internal housing within an outer housing of the undersea optical fiber cable joint. The internal housing also includes a sidewall interconnecting the opposing end faces, which extends between the opposing end faces in a longitudinal direction. The sidewall, which is formed from a thermally conductive material, includes a receptacle portion having a plurality of thru-holes each being sized to receive a passive optical component employed in an optical amplifier. The module also includes at least one circuit board on which resides at least one voltage dropping element for conveying voltage from the conductor to electronics also residing on the circuit board and associated with the optical amplifier. An isolated electrical path provides electrical power received from a conductor in at least one optical fiber cable to the at least one circuit board. The voltage dropping element is in thermal communication with the sidewall.
    • 提供了一种光放大器模块,其包含至少一个光放大器。 模块包括具有基本上等于海底光纤电缆接头的内部光纤接头外壳的外部尺寸的外部尺寸的内部壳体。 内部壳体包括一对相对的端面,每个端面具有用于将内部壳体保持在海底光纤电缆接头的外部壳体内的保持元件。 内部壳体还包括将相对端面互相连接的侧壁,其在纵向方向上在相对的端面之间延伸。 由导热材料形成的侧壁包括具有多个通孔的插座部分,每个通孔的尺寸被设计成接收在光放大器中使用的无源光学部件。 该模块还包括至少一个电路板,在该电路板上设置有至少一个降压元件,用于将电压从导体传送到也位于电路板上并与光放大器相关联的电子器件。 隔离电路提供从至少一根光纤电缆中的导体接收的电力到至少一个电路板。 降压元件与侧壁热连通。
    • 5. 发明申请
    • MODULAR DISPERSION COMPENSATOR
    • 模块化色散补偿器
    • WO2005008905A3
    • 2005-09-22
    • PCT/US2004022106
    • 2004-07-12
    • RED SKY SYSTEMS INCWILSON DAVID L
    • WILSON DAVID L
    • G02B6/34H04B10/18G02B6/26
    • G02B6/29394G02B6/29317G02B6/29376H04B10/2525
    • A method and apparatus is provided to compensate for dispersion of a WDM optical signal. The method begins by directing a WDM optical signal having a prescribed bandwidth to a first dispersion compensating element and substantially compensating, with the first dispersion compensating element, each wavelength in the WDM optical signal for dispersion at a prescribed wavelength within a first sub-band of the prescribed bandwidth. The method continues by directing to a second dispersion compensating element wavelengths received from the first dispersion compensating element outside the first sub-band and substantially compensating, with the second dispersion compensating element, each wavelength received from the first dispersion compensating element for dispersion at a prescribed wavelength within a second sub-band of the prescribed bandwidth; The wavelengths received from the second dispersion compensating element are combined within the second sub-band of the prescribed bandwidth with the wavelengths received from the first dispersion compensating element within the first sub-band.
    • 提供了一种方法和设备来补偿WDM光信号的色散。 该方法开始于将具有规定带宽的WDM光信号引导至第一色散补偿元件,并且利用第一色散补偿元件基本上补偿WDM光信号中的每个波长以便在第一子带 规定的带宽。 该方法通过引导到第二色散补偿元件,该第二色散补偿元件在第一子带之外从第一色散补偿元件接收到的波长,并且利用第二色散补偿元件基本上补偿从第一色散补偿元件接收的每个波长, 在规定带宽的第二子带内的波长; 从第二色散补偿元件接收到的波长在规定带宽的第二子带内与在第一子带内从第一色散补偿元件接收的波长组合。
    • 9. 发明申请
    • UNDERSEA BRANCHING UNIT FOR AN UNDERSEA OPTICAL TRANSMISSION SYSTEM
    • 用于一个不理想的光传输系统的分支分支单元
    • WO2005037642A2
    • 2005-04-28
    • PCT/US2004/034222
    • 2004-10-15
    • RED SKY SYSTEMS, INC.NAGEL, Jonathan, A.TAYLOR, Nigel, HuntEVANGELIDES, Stephen, G., Jr.
    • NAGEL, Jonathan, A.TAYLOR, Nigel, HuntEVANGELIDES, Stephen, G., Jr.
    • B63G
    • H04J14/0201G02B6/29383H04B10/808H04J14/0206H04J14/0217
    • A branching unit is provided for interconnecting at least three undersea optical transmission cables. The branching unit includes first, second and third ports for receiving first, second and third undersea optical transmission cables, respectively. The first and second cables each include an electrical power conductor and a plurality of first optical fibers. The third cable is electrically unpowered and includes at least one drop optical fiber and at least one add optical fiber. An electrical power conductor segment for electrically coupling the conductor in the first cable received in the first port to the conductor in the second cable received in the second port. A first optical fiber segment optically couples a first of the plurality of first optical fibers in one of the first or second cables to the drop optical fiber of the third cable. A second optical fiber segment optically couples a second of the plurality of first optical fibers in one of the first and second cables to the add optical fiber of the third cable. First and second optical amplifiers are located along the first and second optical fiber segments, respectively so that the first optical amplifier provides optical gain to traffic being dropped on the drop optical fiber of the third cable and the second optical amplifier provides optical gain to traffic being added on the add optical fiber of the third cable. At least one electrically conductive path is provided for supplying electrical energy from at least one of the electrical power conductors to each of the optical amplifiers.
    • 提供分支单元用于互连至少三条海底光传输电缆。 分支单元包括分别用于接收第一,第二和第三海底光传输线缆的第一,第二和第三端口。 第一和第二电缆各自包括电力导体和多个第一光纤。 第三电缆不通电,并且包括至少一个引出光纤和至少一个添加光纤。 一个电力导体段,用于将容纳在第一端口中的第一电缆中的导体电耦合到容纳在第二端口中的第二电缆中的导体。 第一光纤段将第一或第二电缆中的一个中的多个第一光纤中的第一光纤光学耦合到第三电缆的引出光纤。 第二光纤段将第一和第二电缆之一中的多个第一光纤中的第二光纤光耦合到第三电缆的附加光纤。 第一和第二光放大器分别沿着第一和第二光纤段布置,使得第一光放大器为在第三电缆的分出光纤上丢弃的业务提供光增益,并且第二光放大器向业务提供光增益 添加在第三根电缆的附加光纤上。 提供至少一个导电路径用于从至少一个电力导线向每个光放大器供应电能。
    • 10. 发明申请
    • OTDR ARRANGEMENT FOR DETECTING FAULTS IN AN OPTICAL TRANSMISSION SYSTEM EMPLOYING TWO PAIRS OF UNIDIRECTIONAL OPTICAL FIBERS
    • 用于检测光纤传输系统故障的OTDR安排,使用两对非对称光纤
    • WO2004066510A2
    • 2004-08-05
    • PCT/US2004/002024
    • 2004-01-23
    • RED SKY SYSTEMS, INC.NEUBELT, Michael, J.
    • NEUBELT, Michael, J.
    • H04B
    • H04B10/071
    • A method and apparatus is provided for using optical time-domain reflectometry (OTDR) with a WDM transmission system that includes a plurality of terminal interconnected by at least two pairs of unidirectional optical transmission paths each of which has at least one repeater therein. The method begins by transmitting an optical probe signal from a first OTDR unit associated with a first terminal into the repeater over a first optical path in a first of the at least two pairs of unidirectional optical transmission paths. The first OTDR unit receives a first returned OTDR signal over a second optical path in the first optical path pair. The first OTDR signal contains status information concerning the first optical path in the first optical path pair. The optical probe signal from the first optical path in the first optical path pair. The optical probe signal from the first optical path in the first optical path pair is coupled to a second optical path in the second optical path pair. The first optical path in the first optical path pair supports optical signals traveling in a direction opposite to optical signals supported by the second optical path in the second optical path pair. A second returned OTDR signal is received over a first optical path in the second optical path pair in which status information concerning the second optical path in the second optical path pair is embodied. The second returned OTDR signal traverses a repeater located in the second optical path pair. The second returned OTDR signal is coupled from the first optical path in the second optical path pair to the second optical path in the first optical path pair so that the second OTDR signal is returned to the first OTDR unit. The first optical path in the second optical path pair supports optical signal traveling in a direction opposite to optical signals supported by the second optical path in the first optical path pair.
    • 提供了一种使用具有WDM传输系统的光时域反射测量(OTDR)的方法和装置,该WDM传输系统包括通过至少两对单向光传输路径互连的多个终端,每个单向光传输路径中至少有一个中继器。 该方法首先通过在至少两对单向光传输路径中的第一个中的第一光路上将来自与第一终端相关联的第一OTDR单元的光探测信号发射到中继器中。 第一OTDR单元在第一光路对中的第二光路上接收第一返回的OTDR信号。 第一OTDR信号包含关于第一光路对中的第一光路的状态信息。 来自第一光路对中的第一光路的光探测信号。 来自第一光路对中的第一光路的光探测信号被耦合到第二光路对中的第二光路。 第一光路对中的第一光路支持在与第二光路对中由第二光路支持的光信号相反的方向上行进的光信号。 在第二光路对中的第一光路上接收第二返回的OTDR信号,其中具体涉及第二光路对中的第二光路的状态信息。 第二返回的OTDR信号穿过位于第二光路对中的中继器。 第二返回的OTDR信号从第二光路对中的第一光路耦合到第一光路对中的第二光路,使得第二OTDR信号返回到第一OTDR单元。 第二光路对中的第一光路支持在与第一光路对中由第二光路支持的光信号相反的方向上行进光信号。