A passive optical fiber switch includes: a housing defining a plurality of ports configured to receive fiber optic connectors; a substrate positioned within the housing, the substrate defining a plurality of waveguide paths; and an arm positioned relative to one of the plurality of ports such that the arm moves as a fiber optic connector is positioned in the one port, movement of the arm causing the waveguide paths to shift to break a normal through configuration.

A passive optical fiber switch includes: a housing defining a plurality of ports configured to receive fiber optic connectors; a substrate positioned within the housing, the substrate defining a plurality of waveguide paths; and an arm positioned relative to one of the plurality of ports such that the arm moves as a fiber optic connector is positioned in the one port, movement of the arm causing the waveguide paths to shift to break a normal through configuration.

A cover for a fiber optic cable connection includes a cap portion having a first housing portion having a first housing wall and a second housing portion having a second housing wall. A union portion has a union wall defining a union opening and is configured to receive the first housing portion and the second housing portion to couple the first housing portion and the second housing portion in a closed position. The first housing wall and the second housing wall define a housing opening to receive a sealing assembly that has an inner surface and an outer surface. A sealing opening is configured to receive a fiber optic cable associated with the fiber optic cable connection. The outer surface is configured to contact at least one of the first housing wall, the second housing wall, or the union wall when the sealing assembly is received within the housing opening.

A high-capacity optical fiber switching system enables selective interconnection of individual input fibers to output fibers. A three-dimensional array of paired linear elements with selectable flexibility and length is arranged in horizontal rows and vertical columns to form a transverse interchange plane. Each pair consists of a stationary lower element and a movable upper element, the latter holding a terminus of a distinct optical fiber. Couplers placed within this array facilitate signal conductor connections. A transport device with an axially movable gripper moves in horizontal spaces between columns to reposition the movable fiber terminals. Signal-controlled, orthogonal linear drives provide vertical and horizontal movements of the transport device, enabling placement within the fiber array.

An optical switch and system including the same are provided. The optical switch includes (i) a fastening portion configured to releasably attach directly or indirectly to a fuse casing, (ii) a cable connecting portion including a first fiber optic cable connection port, a second fiber optic cable connection port, and an optical through-channel extending from the first fiber optic cable connection port and the second fiber optic connection port; and (iii) an actuator configured to move between a first position associated with a non-blown fuse and a second position associated with a blown fuse. The actuator includes an optical blocking portion that is moved into or within the optical through-channel of the cable connecting portion when the actuator is in the second position.

An optical transceiver includes a housing, a release component, a bottom cover and a handle. The housing includes a terminal portion and a first engagement component connected to each other. The first engagement component detachably engages a second engagement component of an elastic arm of a cage. The release component is in an accommodation space of the terminal portion. The bottom cover includes a main portion and an elastic component connected to each other. The main portion is fixed to the terminal portion. The elastic component extends from the main portion into the accommodation space and exerts an elastic force on the release component so that the release component is positioned at or moved to an original position. The handle is movably disposed on the terminal portion for pushing the release component so as to detach the second engagement component from the first engagement component.