A system for providing power to a device is provided. The system includes at least one gateway that provides power and/or data to at least one device in the system; and at least one adapter coupled to the gateway and the at least one device, wherein the adapter is configured to couple lengths of cable between devices that are daisy chained together. Related adapters are also provided herein.

A system for providing power to a device is provided. The system includes at least one gateway that provides power and/or data to at least one device in the system; and at least one adapter coupled to the gateway and the at least one device, wherein the adapter is configured to couple lengths of cable between devices that are daisy chained together. Related adapters are also provided herein.

Systems and methods for automated broadband distribution point unit powering are provided. In one embodiment, an upstream service disconnect unit comprises: a processor; a relay control; and a switching relay coupled to a upstream service delivery unit, a first end of an electrical conductor span, and a access network distribution point unit that is coupled to an optical fiber network, wherein a second end of the electrical conductor span is coupled to a customer premises equipment DSL modem; wherein the upstream service disconnect unit is configured to energize the processor, the relay control, and the switching relay and to operate the switching relay to couple the electrical conductor span with the access network distribution point unit by tapping power of a trigger signal drawn from the electrical conductor span.

Systems and methods for automated broadband distribution point unit powering are provided. In one embodiment, an upstream service disconnect unit comprises: a processor; a relay control; and a switching relay coupled to a upstream service delivery unit, a first end of an electrical conductor span, and a access network distribution point unit that is coupled to an optical fiber network, wherein a second end of the electrical conductor span is coupled to a customer premises equipment DSL modem; wherein the upstream service disconnect unit is configured to energize the processor, the relay control, and the switching relay and to operate the switching relay to couple the electrical conductor span with the access network distribution point unit by tapping power of a trigger signal drawn from the electrical conductor span.

Submarine cable branching units with fiber pair switching configured to allow any number of trunk cable fiber pairs to access the optical spectrum any number of branch cable fiber pairs. Access to a particular branch terminal is not limited to predefined subset of the trunk fiber pairs. This approach allows fewer branch cable fiber pairs to be equipped in each branching unit, reducing system cost, simplifies system planning and provides flexible routing of overall trunk cable capacity.

A node of a radio frequency system can include a signal splitter, a power rectifier and conditioner, a communication filter, and a network processor. The signal splitter is configured to split a radio frequency transmission between a power path and a communications path within the node. The power rectifier and conditioner are configured to produce a conditioned power signal based on power received through the power path. The communication filter of the communications path is configured to produce a filtered communication signal. The network processor is powered by the conditioned power signal and configured to extract encoded information from the filtered communication signal.

A node of a radio frequency system can include a signal splitter, a power rectifier and conditioner, a communication filter, and a network processor. The signal splitter is configured to split a radio frequency transmission between a power path and a communications path within the node. The power rectifier and conditioner are configured to produce a conditioned power signal based on power received through the power path. The communication filter of the communications path is configured to produce a filtered communication signal. The network processor is powered by the conditioned power signal and configured to extract encoded information from the filtered communication signal.

To be able to check, from a remote location, a switching result of a power supply route, this communication system comprises: a plurality of terminal stations which each have a function of supplying power to a power supply path; a branching device which switches the power supply route, which includes a power supply path; and a monitoring device which, in response to one of the plurality of terminal stations transmitting to the branching device a switching signal specifying the power supply route, compares the voltages of the power supplied to the power supply paths respectively observed by the plurality of terminal stations, before and after transmission of the switching signal, and which, with the compared power supply voltages each having fluctuated by a first threshold or more, determines a switching result of the power supply route in the branching device.

To be able to check, from a remote location, a switching result of a power supply route, this communication system comprises: a plurality of terminal stations which each have a function of supplying power to a power supply path; a branching device which switches the power supply route, which includes a power supply path; and a monitoring device which, in response to one of the plurality of terminal stations transmitting to the branching device a switching signal specifying the power supply route, compares the voltages of the power supplied to the power supply paths respectively observed by the plurality of terminal stations, before and after transmission of the switching signal, and which, with the compared power supply voltages each having fluctuated by a first threshold or more, determines a switching result of the power supply route in the branching device.

A power source circuit includes circuit elements each including: a current control circuit including a DC/DC converter that inputs a predetermined voltage and outputs a voltage adjusted based on a control signal, to a load operated by feeding a predetermined current, a voltage dividing resistor that generates a reference voltage according to a voltage output from the DC/DC converter, a current detecting resistor that generates a current detecting voltage according to a current fed to the load, and a feedback circuit that compares the reference voltage with the current detecting voltage and outputs the control signal, to the DC/DC converter; and one or more Zener diodes connected in parallel to the DC/DC converter at a terminal for inputting the predetermined voltage, wherein the circuit elements are connected in series, and a system current is supplied from an external power source to the circuit elements connected in series.