Abstract: A telecommunications system is provided to allow for the securement of a module to a chassis in multiple positions. The multiple positions may include a storage position and/or an engaged position.

Abstract: A telecommunications infrastructure includes first and second trough members for routing signal-carrying fibers. A coupler is used to releasably couple the first and second trough members together. The coupler includes a first pair of rotatable latches for releasably securing the first trough member to the coupler, and a second pair of rotatable latches for releasably securing the second trough member to the coupler.

Abstract: One embodiment of an cabinet according to the present invention comprises an inner cabinet having a plurality of inner walls that form an enclosure. A phase change material covers at least some of the plurality of inner walls. An outer cabinet is positioned around the inner cabinet and comprises a plurality of outer walls arranged such that there is a space between the inner and outer walls. A mechanism is included for drawing air from outside of the outer cabinet into the space between the inner and outer walls. The phase-change material is arranged to melt when exposed to heat energy to reduce heat transfer into the enclosure. The enclosure is particularly adapted for holding heat sensitive devices such as batteries with the cabinet controlling heat transfer during cyclic heat exposure.

Abstract: A communications management system includes a cabinet, a chassis, and a panel for mounting optical circuits. In one implementation, the chassis is coupled to the cabinet and slides outward from the cabinet and the panel is coupled to the chassis and pivots about an axis that is perpendicular to the direction that the chassis slides. A communications management system my include a cabinet with substantially parallel first and second surfaces. In one implementation, one of the surfaces contains a provision for attaching the cabinet to a second cabinet and a feature for passing a communications fiber from the cabinet to the second cabinet. A second communications management system includes panel for mounting optical circuits. In one implementation, the panel includes a feed adapter for terminating optical fibers that are in use and a parking lot for terminating optical fiber that are not in use.

Abstract: Structured cabling solutions may include techniques and systems usable to route, organize, and otherwise manager wires, optical fibers, and other cables. Structured cabling solutions may include one or more chassis coupled to and movable relative to a frame to provide access to signal connectors on the chassis. Structured cabling solutions may also include labeling schemes that identify patch connectors that correspond to outlets in a structured cabling installation.

Abstract: Structured cabling solutions may include techniques and systems usable to route, organize, and otherwise manager wires, optical fibers, and other cables. Structured cabling solutions may include one or more chassis coupled to and movable relative to a frame to provide access to signal connectors on the chassis. Structured cabling solutions may also include labeling schemes that identify patch connectors that correspond to outlets in a structured cabling installation.

Abstract: Structured cabling solutions may include techniques and systems usable to route, organize, and otherwise manager wires, optical fibers, and other cables. Structured cabling solutions may include one or more chassis coupled to and movable relative to a frame to provide access to signal connectors on the chassis. Structured cabling solutions may also include labeling schemes that identify patch connectors that correspond to outlets in a structured cabling installation.

Abstract: A fiber management apparatus includes a module for managing fibers. In one implementation, the module includes at least two trays. An upper one of the trays is slidable and pivotable relative to a base tray to allow access to fibers managed by the base tray. In another implementation, the module is coupled to a chassis and is pivotable through an angle greater than 90 degrees relative to the chassis. A kit for mounting a chassis includes at least two different sized sets of brackets for mounting the chassis to racks of various different widths. A method of managing fibers includes pulling a module having multiple trays out of a chassis, pulling a first exposed one of the trays outward from the chassis, and lifting the first tray to expose a second one of the trays.

Abstract: Embodiments of telecommunications equipment with a memory device are presented herein.

Abstract: A telecommunications system includes a first fiber management apparatus having a rear-trough architecture, a second fiber management apparatus having a front-access architecture, and a transition panel interposed between the first and second fiber management apparatuses, to transition fibers from the rear-trough architecture of the first fiber management apparatus to the front-access architecture of the second fiber management apparatus.

Abstract: Hybrid systems for managing wires and optical fibers include a first rack having trays for managing optical fibers, and a second rack proximate to the first rack. Modules are mounted to the second rack for managing wires. At least one of the racks is movable at least partially away from the other rack to provide access to both sides of each of the first and second racks.

Abstract: Embodiments of a mounting bracket for a telecommunications terminal block are presented herein.

Abstract: A telecommunications system includes a first fiber management apparatus having a rear-trough architecture, a second fiber management apparatus having a front-access architecture, and a transition panel interposed between the first and second fiber management apparatuses, to transition fibers from the rear-trough architecture of the first fiber management apparatus to the front-access architecture of the second fiber management apparatus.

Abstract: A fiber management access system includes a guide that can be movably coupled to an exterior of a chassis for routing fibers of the system. The guide can include a channel for directing fibers of the system to a side of the guide, and can have multiple routing troughs located in the channel for routing the fibers. The guide can be movable to allow access to a serviceable element of the fiber management access system.

Abstract: One embodiment of an cabinet according to the present invention comprises an inner cabinet having a plurality of inner walls that form an enclosure. A phase change material covers at least some of the plurality of inner walls. An outer cabinet is positioned around the inner cabinet and comprises a plurality of outer walls arranged such that there is a space between the inner and outer walls. A mechanism is included for drawing air from outside of the outer cabinet into the space between the inner and outer walls. The phase-change material is arranged to melt when exposed to heat energy to reduce heat transfer into the enclosure. The enclosure is particularly adapted for holding heat sensitive devices such as batteries with the cabinet controlling heat transfer during cyclic heat exposure.

Abstract: Embodiments of tubular telecommunications cabinets are presented herein.

Abstract: Embodiments of variable structural members for a telecommunications equipment cabinet are presented herein. The variable structural members include an embedding surface configured to removably receive a structural insert to modify the characteristics of the equipment cabinet. A variety of removable structural inserts may be embedded in the embedding surface. The structural inserts may be arranged and rearranged to modify the structural characteristics of a cabinet such as at the time of manufacture and/or by a technician or user “in the field”.

Abstract: Embodiments of a digital cross-connect panel with tracer lamps for identifying telecommunications circuits are presented herein.

Abstract: A breakout kit is adapted to hold a cable by engaging three different layers of the cable, including an interior layer of the cable, an exterior of the cable, and an intermediate layer of the cable which is between the interior layer and the exterior layer.

Abstract: Embodiments of telecommunications equipment with RFID tags are presented herein.