A cable junction device including a housing having a bottom wall, a first forward-facing wall defining a first acute angle relative to the bottom wall, and a second forward-facing wall defining a second acute angle relative to the bottom wall. A single printed circuit board defines a third acute angle relative to the bottom wall. At least one first port extends from the first forward-facing wall toward an exterior of the housing. At least one second port extends from the second forward-facing wall toward the exterior of the housing. The at least one first port and the at least one second port each include a conductive pin configured to be directly electrically connected to the single printed circuit board.

The invention comprises distribution point unit (DPU) including a host for a GPON ONU/ONT module, CPU system-on-chip (SoC) providing a DPU and traffic management, a reverse power harvester and a high speed electrical (HSE) module and the DPU receiving optical signals via the GPON ONU/ONT module and converting to electrical signals and the HSE module transmitting electrical signals via a twisted pair or coaxial cable to a customer premises equipment (CPE) within a home or building and the reverse power harvester receiving power from the HSE module and the GPON ONU/ONT and HSE modules are pluggably mateable to the DPU.

Example management closures (110) enable incoming optical and/or electrical signals to be connected to one or more subscribers (109) via an electrical distribution cable (102). Termination connections within the management closure (110) are connected to active electronic equipment (131) for modifying and/or enhancing the incoming signals. However, the connections between the central office (101), the active electronic equipment (131), and a subscriber (109) need not be made until the subscriber requests a service upgrade. Accordingly, the closure (110) allows for simple and low cost installation of the closure (110) before upgraded service is needed.

A mounting apparatus including a base with a perimeter edge having at least one depression formed therein. A mounting plate can be detachably coupled with the base and have a corresponding perimeter edge with at least one displaceable protrusion formed thereon. The displaceable protrusion can have a biasing element configured to bias the displaceable protrusion away from the corresponding perimeter. At least a portion of the base perimeter edge is configured to compress the biasing element during rotation of the mounting plate relative to the base, thereby displacing the displaceable protrusion and wherein the displaceable protrusion is configured to engage the at least one depression.

A mounting apparatus including a base with a perimeter edge having at least one depression formed therein. A mounting plate can be detachably coupled with the base and have a corresponding perimeter edge with at least one displaceable protrusion formed thereon. The displaceable protrusion can have a biasing element configured to bias the displaceable protrusion away from the corresponding perimeter. At least a portion of the base perimeter edge is configured to compress the biasing element during rotation of the mounting plate relative to the base, thereby displacing the displaceable protrusion and wherein the displaceable protrusion is configured to engage the at least one depression.

A cable junction device including a housing having a bottom wall, a first forward-facing wall defining a first acute angle relative to the bottom wall, and a second forward-facing wall defining a second acute angle relative to the bottom wall. A single printed circuit board defines a third acute angle relative to the bottom wall. At least one first port extends from the first forward-facing wall toward an exterior of the housing. At least one second port extends from the second forward-facing wall toward the exterior of the housing. The at least one first port and the at least one second port each include a conductive pin configured to be directly electrically connected to the single printed circuit board.

An Omedia panel may be provided that includes an at least one network interface device, a housing, and a front panel. The at least one network interface device might be in communication with a service provider network. The housing may be integrated into a wall of a customer premises and positioned within a wall cavity of the wall. The housing might be configured to support the at least one network interface device. The front panel may be communicatively interfaced with the at least one network interface device such that a user can access one or more ports of the at least one network interface device via the front panel.

The invention comprises distribution point unit (DPU) including a host for a GPON ONU/ONT module, CPU system-on-chip (SoC) providing a DPU and traffic management, a reverse power harvester and a high speed electrical (HSE) module and the DPU receiving optical signals via the GPON ONU/ONT module and converting to electrical signals and the HSE module transmitting electrical signals via a twisted pair or coaxial cable to a customer premises equipment (CPE) within a home or building and the reverse power harvester receiving power from the HSE module and the GPON ONU/ONT and HSE modules are pluggably mateable to the DPU.

A method includes receiving packets of data from an external network and receiving location information over a wireless communication link from a wireless communication device located inside a building. The location information indicates a relative location of the wireless communication device. The method also includes executing beam forming with the wireless communication device based on the received location information to form a communication beam directed toward the wireless communication device. The method also includes transmitting the communication beam over the wireless communication link from the external network interface unit to the wireless communication device, the communication beam containing the data packets.

An Omedia panel may be provided that includes an at least one network interface device, a housing, and a front panel. The at least one network interface device might be in communication with a service provider network. The housing may be integrated into a wall of a customer premises and positioned within a wall cavity of the wall. The housing might be configured to support the at least one network interface device. The front panel may be communicatively interfaced with the at least one network interface device such that a user can access one or more ports of the at least one network interface device via the front panel.