An electrical power cord includes intelligent switching capability. An electrical power input receives electrical power from a power source, and selectively conveys that power to an electrical power output only when certain occupancy or power usage criteria are met. The electrical power output conveys electrical power to an electrical consumer when a switch disposed along the power cord is closed. The switch is actuated in response to a signal received from a sensor, such as an occupancy sensor or a power consumption sensor, and breaks continuity along the power cord when signals received from the sensor indicate that the occupancy or power usage criteria are not being met, which criteria may be customized for a particular application. The electrical power cord is operable to automatically reduce or substantially eliminate power consumption at its power output end.

A system and methods for managing a transformer area in an electrical distribution grid having at least one substation transformer and one service transformer are presented. At least one Remote Hub governed by a policy may be provided, which collects data about the transformer area. The Remote Hub may also execute a discovery procedure to inventory Remotes in the transformer area. The Remote Hub may use the collected data to detect events, such as exceptional conditions, configuration changes, or derived results, within the transformer area. Based on the collected data, the Remote Hub is able to transmit data about the transformer area via a Substation-to-Edge channel. A method and system for forming and establishing boundaries of Transformer Area Networks is also presented. Discovery procedures may be used to form Transformer Area Networks out of Remote Hubs and Remotes powered by the same phase of the service transformer.

A load drive system for driving a load supplied with power from a power line includes a control unit which controls switching between the power line and the load and a communication unit which communicates using voltage and current of the power line. When performing the switching, the control unit controls, based on a width of a transition period of the power-line current, the transition period being attributable to the switching, timing of the switching so as to move the transition period away from a center of a period corresponding to a symbol communicated by the communication unit.

Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for modular electrical grid communications platform. In some implementations, a devices includes a housing that forms an interior space, and that includes an exterior surface, one or more pass-through regions that each define a through-hole between the interior space and the exterior surface, and a recess at the exterior surface that is capable of receiving a module. The device includes a printed circuit board disposed within the interior space of the housing. The devices includes a module that has at least one sensor and that is placed in the recess. The device includes electrical connections that each have a first end connected to the printed circuit board, and a second end that directly or indirectly contacts a corresponding component of the module.

An aircraft communication system is disclosed. The system includes one or more communication devices, an on-board hub, an amplifier, a data antenna, and a base station. The on-board hub prioritizes the information flow of the one or more communication devices. The communication system includes a controller to detect and mitigate signal oscillations of the amplifier.

A method for communicating data between a vehicle and a ground system comprises receiving, by a vehicle bus multiplexer on the vehicle, the data via a plurality of vehicle data buses from an onboard system. The method further comprises multiplexing, by the vehicle bus multiplexer, the data into at least one data path of a multi-use power interface. Also, the method comprises transmitting, by the multi-use power interface via at least one data path, the data from the vehicle bus multiplexer to a ground bus multiplexer associated with the ground system. In addition, the method comprises demultiplexing, by the ground bus multiplexer, the data from at least one data path of the multi-use power interface into a plurality of ground data buses associated with the ground system. Further, the method comprises transmitting, by the ground bus multiplexer, the data via the plurality of ground data buses to the ground system.

A notification system including an outlet and a notification center. The outlet is configured to output a signal indicative of the availability of the outlet. The notification control unit is configured to receive the signal, determine availability of the outlet based on the signal, and output information corresponding to the availability of the outlet to at least one selected from a group consisting of a computer, a smart phone, and a tablet.

In accordance with one or more embodiments, a system includes an impedance matching circuit that includes one or more adjustable circuit elements, wherein the impedance matching circuit receives an input signal and generates an output signal in response to the input signal. A guided wave launcher is configured to generate, in response to the output signal, a first guided electromagnetic wave along a surface of a transmission medium, wherein the first guided electromagnetic wave propagates along the surface of the transmission medium without requiring an electrical return path. A controller is configured to generate one or more control signals in response to a channel quality indicator, wherein the one or more control signals adjust the one or more adjustable circuit elements of the impedance matching circuit, wherein adjustment of the one or more adjustable circuit elements facilitates reducing an impedance mismatch of the guided wave launcher.

A system includes a multi-use power interface configured to be electrically and communicatively coupled to a vehicle via Broadband over Power Line (BPL) data links. The system also includes sensors configured to collect power quality data and load management data for the BPL data links and the multi-use power interface. The multi-use power interface includes a user interface, a processor, and a memory having instructions stored thereon that, when executed by the processor, cause the multi-use power interface to perform operations. The operations include receiving power quality data and load management data from the sensors. The operations also include determining, based on the received data, functional health statuses of the multi-use power interface and the BPL data links. The operations further include transmitting the functional health statuses, the power quality data, and the load management data to a data store, and indicating, in the user interface, the functional health statuses.

An external power supply converts AC power to DC Power for a device. The external power supply and the device comprise circuits that provide early AC input failure detection so that the device can take measures such as to safe keep data as long as the external power supply continues to provide DC power to the device.