A stubbed terminal housing for fiber optic cable management in a utility vault or pedestal housing having a body portion, a cavity within the body portion, a plurality of fiber optic fiber ports extending from the body portion for entry and exiting of fiber optic fibers, and a mounting portion extending from the body portion for attaching the stubbed terminal housing to the utility vault or pedestal housing.

The present disclosure relates to a utility enclosure that can store fiber optic cables that includes an underground enclosure and a cable storage system mountable to a wall of the enclosure. The cable storage system includes a cable storage wheel for storing the fiber optic cable, a mounting plate used to secure the cable storage wheel to the wall of the enclosure, and a spacer. The spacer has a first end secured to the mounting plate and a second end secured to the cable storage wheel for maintaining the cable storage wheel in a spaced relationship relative to the wall of the enclosure.

An optical fiber tape includes a matrix and at least one optical fiber connected to the matrix in an undulating manner. The undulations of the optical fiber are generally sinusoidal, semicircular, or elliptic, and are of amplitude and wavelength such that the minimum bend radius of each undulation is not less than a minimum bend radius specified by a manufacturer of the optical fiber. A road having an upper surface has a pathway indented into the upper surface to less than full depth of the road and has the optical fiber tape laid in the pathway so that the optical fiber tape does not protrude above the upper surface of the road.

Novel tools and techniques are provided for implementing telecommunications signal relays, and, more particularly, to methods, systems, and apparatuses for implementing telecommunications signal relays using radiating closures (either aerial, below grade, and/or buried, etc.), or the like. In various embodiments, a signal distribution system, which might be disposed within a radiating closure, might receive a first communications signal. A wireless transceiver of the signal distribution system might send the first communications signal, via one or more wireless communications channels, to one or more devices that are external to the radiating closure. In some embodiments, antennaswhich might comprise first antennas disposed within the radiating closure or second antennas embedded in a housing material of the radiating closure, or bothmight direct the first communications signal that is sent from the wireless transceiver to the one or more devices. In some cases, IoT sensors may be implemented in the radiating closure.

A fiber optic closure assembly includes a base having an opening for receiving an incoming fiber optic cable along a longitudinal axis. A perimeter shoulder extending outwardly from a substantially planar surface of the base. A housing is dimensioned for receipt on the base and has a cover that when joined to the base encloses a cavity. The housing includes a substantially planar wall with at least one opening therethrough parallel to the longitudinal axis and through which an associated bulkhead may be mounted to provide operative communication between an optical fiber operatively connected to the incoming fiber optic cable and an outgoing drop line.

Novel tools and techniques are provided for implementing telecommunications signal relays, and, more particularly, to methods, systems, and apparatuses for implementing telecommunications signal relays using radiating closures (either aerial, below grade, and/or buried, etc.), or the like. In various embodiments, a signal distribution system, which might be disposed within a radiating closure, might receive a first communications signal. A wireless transceiver of the signal distribution system might send the first communications signal, via one or more wireless communications channels, to one or more devices that are external to the radiating closure. In some embodiments, antennaswhich might comprise first antennas disposed within the radiating closure or second antennas embedded in a housing material of the radiating closure, or bothmight direct the first communications signal that is sent from the wireless transceiver to the one or more devices. In some cases, IoT sensors may be implemented in the radiating closure.

Novel tools and techniques are provided for implementing point-to-point fiber insertion within a passive optical network (PON) communications system. The PON communications system, associated with a first service provider or a first service, might include an F1 line(s) routed from a central office or DSLAM to a fiber distribution hub (FDH) located within a block or neighborhood of customer premises, via at least an apical conduit source slot, an F2 line(s) routed via various apical conduit components to a network access point (NAP) servicing customer premises, and an F3 line(s) distributed, at the NAP and from the F2 Line(s), to a network interface device or optical network terminal at each customer premises via various apical conduit components (e.g., in roadway surfaces). Point-to-point fiber insertion of another F1 line(s), associated with a second service provider or a second service, at either the NAP or the FDH (or outside these devices).

A stubbed terminal housing for fiber optic cable management in a utility vault or pedestal housing having a body portion, a cavity within the body portion, a plurality of fiber optic fiber ports extending from the body portion for entry and exiting of fiber optic fibers, and a mounting portion extending from the body portion for attaching the stubbed terminal housing to the utility vault or pedestal housing.

A modular system and method for monitoring and distributing power is disclosed. A container having at least one side surface with an exit port or entrance port, a conduit transmitting through the container and an internal cavity. A container system in the internal cavity has a power distribution system, a data distribution system, and monitoring sensor monitoring container system data. A processor receives the container system data from the monitoring sensor, processes the data and transmits the processed data to the container system.

The present invention discloses a plurality of modular containers. The modular containers can comprise a first container that includes a first top surface, a first bottom surface and at least one first side surface oriented between the first top and the first bottom surface. The first container can define a first internal cavity. The modular containers can also include a container system that is located in the first internal cavity. The modular containers can include a power distribution system and a data distribution system. In addition, the modular containers can include a second container. The second container can comprise a second top surface, a second bottom surface and at least one second side surface oriented between the second top and the second bottom surface. The second container can also define second internal cavity. Further, the modular containers can include a container subsystem located in the second internal cavity. The container system can also be in communication with the container subsystem.