An optical fiber includes an integrated detector in the form of phosphors that emit light of a characteristic frequency or wavelength in response to leakage, through the fiber cladding, of light having an interrogation wavelength 1. Stimulation of phosphor emission by the interrogation light is indicative of aging or wear on the layers surrounding the cladding, and therefore can be used to assess the risk of imminent breakage of the fiber.

A fiber-optic connection assembly including a cable, a fiber-optic connector and an adapter. The cable terminates with the fiber-optic connector. The fiber-optic connector is removably connected to the adapter with a fastener. The fiber-optic connection assembly also includes a cover that is configured to inhibit access to the fastener. The cover includes a passageway that is configured to removably receive at least a portion of the fiber-optic connector and at least a portion of the adapter.

The present disclosure relates to telecommunications enclosures that can be customizable to meet customer needs. A telecommunications enclosure can be customized to included added security as desired. That is, a modular security lock may be utilized as an add-on feature for telecommunications enclosures.

A telecommunications component includes an outer housing that includes a badge holder. The badge holder is configured to receive a badge. The badge is configured to be inserted into the badge holder. The badge includes a feature that is identifying of the source of the telecommunications component and the feature is at least one of a logo, a specific color, text information, a barcode, a QR code, and a RFID tag. The badge includes a pair of arms extending from opposing sides to engage with the badge holder of outer housing. The badge includes a securing feature that is configured to secure the badge within the badge holder.

Systems and methods for tamper proof cables are described herein. In certain implementations, a system includes one or more pieces of equipment and one or more tamper proof cables connecting the equipment within a network. A tamper proof cable includes a core that provides a transmission medium through the cable; an insulator enveloping the core; a first conductive braid encircling the insulator; a dielectric enveloping the first conductive braid; and a second conductive braid encircling the dielectric, the first and second conductive braids, and the dielectric forming a capacitor. The system includes one or more detectors, each detector coupled to the tamper proof cables, each detector and an associated capacitor forming a tuned circuit, the detectors providing a signal when an associated portion of the tamper proof cables is tampered with; a monitor coupled to the detectors that notifies an infrastructure management system when the signal is received.

Novel tools and techniques are provided for implementing installation of optical fiber, non-fiber lines, and/or power lines in a ground surface. In various embodiments, a foldable base might be placed in a channel in a ground surface. The foldable base might include a base portion, two side wall portions, at least two points of articulation, and two plug contacts. Each point of articulation allows each side wall portion to fold relative with the base portion, forming a cavity. One or more lines may be placed within the cavity. A plug, placed above the lines in the cavity, may engage with the two plug contacts to secure the plug to the foldable base. Capping material, placed in microchannel on a top surface of the plug, may flow beyond the microchannel and over any openings between the plug and the foldable base and between the foldable base and edges of the channel.

Systems and methods for tamper proof cables are described herein. In certain implementations, a system includes one or more pieces of equipment and one or more tamper proof cables connecting the equipment within a network. A tamper proof cable includes a core that provides a transmission medium through the cable; an insulator enveloping the core; a first conductive braid encircling the insulator; a dielectric enveloping the first conductive braid; and a second conductive braid encircling the dielectric, the first and second conductive braids, and the dielectric forming a capacitor. The system includes one or more detectors, each detector coupled to the tamper proof cables, each detector and an associated capacitor forming a tuned circuit, the detectors providing a signal when an associated portion of the tamper proof cables is tampered with; a monitor coupled to the detectors that notifies an infrastructure management system when the signal is received.

A telecommunications box includes a base frame, having generally planar outer walls that form an enclosed loop around an interior volume. The outer walls include first and second sidewalls that are parallel to and spaced apart from one another. A flange adjoins front-facing edge sides of the outer walls and extends away from the outer walls in an opposite direction as the interior volume. A first window, which is partially defined by the front-facing edge sides of the outer walls, exposes the interior volume from a front side of the base frame. A second window, which is partially defined by rear-facing edge sides of the outer walls, exposes the interior volume from a rear side of the base frame. The first window occupies the same footprint in a front-facing position that the second window occupies in a rear-facing position that is rotationally reversed from the front-facing position.

A telecommunications box includes a base frame, having generally planar outer walls that form an enclosed loop around an interior volume. The outer walls include first and second sidewalls that are parallel to and spaced apart from one another. A flange adjoins front-facing edge sides of the outer walls and extends away from the outer walls in an opposite direction as the interior volume. A first window, which is partially defined by the front-facing edge sides of the outer walls, exposes the interior volume from a front side of the base frame. A second window, which is partially defined by rear-facing edge sides of the outer walls, exposes the interior volume from a rear side of the base frame. The first window occupies the same footprint in a front-facing position that the second window occupies in a rear-facing position that is rotationally reversed from the front-facing position.

Novel tools and techniques are provided for implementing installation of optical fiber, non-fiber lines, and/or power lines in a ground surface. In various embodiments, a foldable base might be placed in a channel in a ground surface. The foldable base might include a base portion, two side wall portions, at least two points of articulation, and two plug contacts. Each point of articulation allows each side wall portion to fold relative with the base portion, forming a cavity. One or more lines may be placed within the cavity. A plug, placed above the lines in the cavity, may engage with the two plug contacts to secure the plug to the foldable base. Capping material, placed in microchannel on a top surface of the plug, may flow beyond the microchannel and over any openings between the plug and the foldable base and between the foldable base and edges of the channel.