A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clips arms and the mounting tabs generally linearly arranged, the clip defining a slot for receiving cables, and a movable gate extending from a d
A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clips arms and the mounting tabs generally linearly arranged, the clip defining a slot for receiving cables, and a movable gate extending from a distal end of one of the clip arms across the slot to the distal end of the other clip arm. A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clip defining a slot for receiving cables, and a movable gate extending from a distal end of one of the clip arms across the slot to the distal end of the other clip arm.
대표청구항▼
A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clips arms and the mounting tabs generally linearly arranged, the clip defining a slot for receiving cables, and a movable gate extending from a d
A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clips arms and the mounting tabs generally linearly arranged, the clip defining a slot for receiving cables, and a movable gate extending from a distal end of one of the clip arms across the slot to the distal end of the other clip arm. A cable routing clip for mounting on a wall having clip arms extending from one side of a crosspiece and mounting tabs extending from the other side, the clip defining a slot for receiving cables, and a movable gate extending from a distal end of one of the clip arms across the slot to the distal end of the other clip arm. contact with corresponding contact terminals in the receptacle unit of a second cable segment when the plug and receptacle units are mated; each optical fiber in each cable segment having a first end terminated to a respective one of the optical fiber contact terminals in the plug unit of the respective cable segment and a second end terminated to a respective one of the optical fiber contact terminals in the receptacle unit of the respective cable segment; and the plug unit of a selected first cable segment being releasably mated with the receptacle unit of a selected second cable segment and the receptacle unit of the first cable segment being releasably mated with the plug unit of a selected third cable segment, such that the optical fibers in said first cable segment are connected in series with the fibers in the second and third cable segments, and the cable segments are connected together end-to-end in a predetermined sequence; whereby fibers in at least one of the connected cable segments are of a different type to the fibers in at least some successive cable segments. 2. The system as claimed in claim 1, wherein the cable segments include segments of different lengths. 3. The system as claimed in claim 1, wherein the fibers in respective cable segments are of at least three different fiber types. 4. The system as claimed in claim 1, including a plurality of optical devices for connection in series with adjacent cable segments, each optical device having a first end secured to a predetermined cable segment and a second end secured to one half of an underwater connector for connection to a respective mateable half of the underwater connector consisting of a plug or receptacle unit at the end of another cable segment. 5. The system as claimed in claim 1, wherein the plug and receptacle units comprise mating halves of a wet-mateable connector, each plug and receptacle unit having at least one end seals for sealing the contact terminals when the respective unit is unmated. 6. The system as claimed in claim 5, wherein each plug and receptacle unit has at least one chamber sealed by said end seal and containing at least one contact terminal, and each end seals has at least one passageway communicating with the respective chamber, and each end seal is movable between a first position sealing said chamber when the units are unmated, and a second position in which said passageway in each end seal is aligned with the passageway in the end seal of a mated unit to permit a contact terminal from one unit to extend through the aligned passageways into the chamber of the other, unit for contact with the contact terminal in the other mated units said end seals being in sealing engagement when said units are connected together with the end seals in said second position. 7. The system as claimed in claim 6, wherein each end seal comprises a rolling, cylindrical seal member having a longitudinal axis and being rotatable about said axis between said first and second positions, each plug and receptacle unit having plurality of chambers with a contact terminal in each chamber, and each cylindrical seal member having a plurality of said passageways each consisting of a diametrical through bores extending through said cylindrical seal member in a direction transverse to said longitudinal axis for alignment with a respective one of said chambers in said second position. 8. A modular undersea optical fiber telecommunication system, comprising: a plurality of cable segments each containing optical fibers, the cable segments being connected together end-to-end in a predetermined sequence on an ocean floor to form a hybrid span, the optical fibers in each cable segment being of a different fiber type from the optical fibers in at least some of the other cable segments; each cable segment having a first end and a second end, a connector plug unit secured to the first end of the cable segment and a connector receptacle unit secured to the se
※ AI-Helper는 부적절한 답변을 할 수 있습니다.