A mounting plate for removable mounting to a telecommunications frame includes a first set of mounting features for allowing a first type of telecommunications device to be mounted to the plate and a second set of mounting features for allowing a second type of telecommunications device to be mounted to the plate, the second type of telecommunications device defining a different width from a right side to a left side than the first type of telecommunications device.

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.

A fiber terminal rack mount with front-to-back fiber routing management is disclosed herein. The terminal rack mount is configured to be mounted in a remote terminal to facilitate fiber management of fiber optic cables routed from fiber optic equipment. In exemplary aspects disclosed herein, the fiber terminal rack mount comprises two vertically oriented panels with a plurality of horizontally oriented shelves positioned therebetween. The panels are configured to mount to vertical rails of a remote terminal cabinet of the fiber terminal. The panels and shelves also define routing channels for routing fiber optic cables therethrough, thereby facilitating front-to-back fiber routing between fiber optic equipment mounted in the fiber terminal. In this manner, as an example, the fiber terminal rack mount may more easily support fiber routing between back-to-back mounted fiber optic equipment, which may increase as fiber optic connectivity density increases.

A housing including a plurality of openings for receiving fiber optic connectors and protecting the polished end face of the connectors from damage while the connectors are stored within a telecommunications connection cabinet. A module with a plurality of optical fiber cables connected to a first optical fiber cable and terminated by a fiber optic connector. Each of the connectors are inserted within openings in a connector holder for storage and protection until the cables need to be connected to a customer equipment cable.

An enclosure for splicing a trunk line from outside a building to inside the building comprises a housing, a removable frame, and a splice tray. The housing includes a back and a sidewall comprising a wall portion and a gap. The removable frame is removably coupled to the back of the housing and comprises an adaptor plate, a splice tray coupler, and a wall. The wall of the removable frame fills in the gap of the sidewall of the housing. Further, the splice tray couples to the removable frame via the splice tray coupler of the removable frame.

A fiber optic adapter block is disclosed. The fiber optic adapter block includes at least three fiber optic adapters provided in a stacked arrangement extending widthwise in a longitudinal direction, wherein every other adapter of the at least three fiber optic adapters is staggered in a front to back direction with respect to an adjacent adapter such that front ends of the every other adapter of the at least three fiber optic adapters are aligned at a first depth and a front end of the adjacent adapter is at a second depth that is different than the first depth.

A fiber optic connector storage apparatus for storing a fiber optic connector having an exposed ferrule includes a housing and a dust cap portion. The housing defines a socket to receive and hold the fiber optic connector. The dust cap portion is integral with the housing and is configured to receive and protect the exposed ferrule when the fiber optic connector is inserted into the socket.

One embodiment is directed to a method of reading RFID tags in an interconnection system comprising at least one port. The method comprises initiating a localized read transaction to read any RFID tag attached to a first connector and any RFID tag attached to a second connector inserted into the port. The method further comprises, as a part of the localized read transaction, reading any RFID tag configured to respond to a first type of RFID interrogation signal, wherein the first connector comprises an attached RFID tag that is configured to respond to the first type of RFID interrogation signal; and, as a part of the localized read transaction, reading any RFID tag configured to respond to a second type of RFID interrogation signal, wherein the second connector comprises an attached RFID tag that is configured to respond to the second type of RFID interrogation signal. Other embodiments are disclosed.

Data center rack systems are described. A data center rack system can include a rack having switches. A removable chassis can include an arrangement of interconnect such that a topology for a switch network can be implemented when the removable chassis is coupled with the switches.

A cable panel rack includes: a center frame portion; and distribution cable management and bottom cable portions configured to be attached to the center frame portion. The center frame portion is configured to be attached at a first portion of the bottom cable portion when the distribution cable management portion is attached to a first side of the center frame portion, and the center frame portion is configured to be attached at a second portion of the bottom cable portion when the distribution cable management portion is attached to a second side of the center frame portion, so as to permit a user to select and/or change a configuration of the cable panel rack at an installation location without disconnecting cables from the cable panels in the center rack frame portion.