Techniques for supporting optical and electrical protocols, such as on the ports of a line card in a network device, are provided. A port on a line card supports optical and electrical connections. The PHY monitors a signal to determine if the transmission connection at the port has changed, such as from optical to electrical, or vice versa. If there has been a change, the PHY is directed to reset a port to correspond to the appropriate transmission connection. By resetting the port, the PHY changes the protocol that is utilized with the signals (e.g., NRZI or 3-Level MLT3).

Provided herein are systems, methods, and devices for controlling power to radio equipment that services antennas mounted on a structure, and disabling power to the same when either technicians are present or when the structure has tilted. The systems may include a main board comprising a processor and an isolation board located at least partially within the structure. The isolation board may be configured to transmit to the processor a signal when an input is received via a switch and periodically transmit an indication of an acceleration of the structure due to gravity in a selected axis. The processor may be configured to disconnect power to a radio unit servicing the antenna based on an occurrence of either receiving the first signal or determining that a tilt angle of the structure has exceeded a predetermined threshold for a predetermined period.

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.

Provided herein are systems, methods, and devices for controlling power to radio equipment that services antennas mounted on a structure, and disabling power to the same when either technicians are present or when the structure has tilted. The systems may include a main board comprising a processor and an isolation board located at least partially within the structure. The isolation board may be configured to transmit to the processor a signal when an input is received via a switch and periodically transmit an indication of an acceleration of the structure due to gravity in a selected axis. The processor may be configured to disconnect power to a radio unit servicing the antenna based on an occurrence of either receiving the first signal or determining that a tilt angle of the structure has exceeded a predetermined threshold for a predetermined period.

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.

An integrated communication unit includes a motherboard, at least one RJ45 interface and an SPI. The motherboard includes a microcontroller that has a middleware. The RJ45 interface provides a cable-based connection to an external control unit. The SPI interface couples to a further SPI interface of an application unit. The SPI interface is configured for receiving application data of the application unit and provides the application data to the microcontroller by transmission. The microcontroller is configured to process the application data and provide the application data to an external control unit via the RJ45 interface. The integrated communication unit is configured to be mounted on a printed circuit board of the application unit by THT or SMT.

Provided herein are systems, methods, and devices for controlling power to radio equipment that services antennas mounted on a structure, and disabling power to the same when either technicians are present or when the structure has tilted. The systems may include a main board comprising a processor and an isolation board located at least partially within the structure. The isolation board may be configured to transmit to the processor a signal when an input is received via a switch and periodically transmit an indication of an acceleration of the structure due to gravity in a selected axis. The processor may be configured to disconnect power to a radio unit servicing the antenna based on an occurrence of either receiving the first signal or determining that a tilt angle of the structure has exceeded a predetermined threshold for a predetermined period.

An integrated communication unit includes a motherboard, at least one RJ45 interface and an SPI. The motherboard includes a microcontroller that has a middleware. The RJ45 interface provides a cable-based connection to an external control unit. The SPI interface couples to a further SPI interface of an application unit. The SPI interface is configured for receiving application data of the application unit and provides the application data to the microcontroller by transmission. The microcontroller is configured to process the application data and provide the application data to an external control unit via the RJ45 interface. The integrated communication unit is configured to be mounted on a printed circuit board of the application unit by THT or SMT

Provided herein are systems, methods, and devices for controlling power to radio equipment that services antennas mounted on a structure, and disabling power to the same when either technicians are present or when the structure has tilted. The systems may include a main board comprising a processor and an isolation board located at least partially within the structure. The isolation board may be configured to transmit to the processor a signal when an input is received via a switch and periodically transmit an indication of an acceleration of the structure due to gravity in a selected axis. The processor may be configured to disconnect power to a radio unit servicing the antenna based on an occurrence of either receiving the first signal or determining that a tilt angle of the structure has exceeded a predetermined threshold for a predetermined period.

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.