A ganged connector assembly includes: a plurality of coaxial cables; a plurality of coaxial connectors, each of the coaxial connectors connected with a respective one of the plurality of coaxial cables; a shell surrounding the coaxial connectors, the shell defining a plurality of electrically isolated cavities, each of the coaxial connectors being located in a respective cavity; a latch that is pivotally attached relative to the shell via a post that extends from the shell and receives an opening in the latch, wherein the latch is configured to engage a pin on a mating ganged connector assembly to secure the ganged connector assembly and the mating ganged connector assembly in a mated condition; and a radially outwardly-extending protrusion associated with the post that prevents the latch from slipping off of the post.

A smart-home device may include a plurality of wire connectors configured to receive a plurality of signals from an environmental system; a plurality of diodes configured to receive the plurality of signals from the plurality of wire connectors, wherein at least two of the plurality of diodes have different voltage drops; and a power-stealing circuit that is configured to receive outputs of the plurality of diodes and to steal power through one of the plurality of wire connectors that is determined at least in part by the different voltage drops.

An extension cord for polyphase voltage conversion includes a socket body, a conductive cable and a polyphase circuit disposed in the socket body. The socket body has a hollow housing, and a four-phase power connective head is disposed at an end of the housing in order to supply power to the extension cord. A breaker having safety switch function and at least two power sockets providing voltages with different phases are disposed in the housing. An end of the conductive cable is electrically connectable with a four-phase power source. The other end of the conductive cable has a four-phase power plug electrically connectable with the four-phase power connective head of the socket body. The polyphase circuit includes three phase conductors, a neutral conductor and a ground conductor. The conductors are used to electrically connect with the four-phase power connective head, the breaker and the respective at least two power sockets.

The invention relates to a cable switch with a USB charger, which is formed from: a protective case (2) containing electricity-interrupting means (3) connected between an input connector (4) and an output connector (5), said connectors being connected to the live wire (F) and the neutral wire (N) of the electric cable (6) in which the switch is installed; a power supply (7) connected between the input connector (4) and the output connector (5); and at least one USB connection port (8) connected to the power supply (7). Preferably, the switch comprises an EMI filter (9) connected between the input connector (4) and the power supply (7). Preferably, the power supply (7) is a power source that converts 110-220 V alternating current into 5V/2A continuous current.

Apparatus for opposed terminals of an electrical device includes magnetic material carried by a cover formed of an electrically insulative material and concurrently covering the terminals, and a magnetic attraction between the magnetic material and the terminals magnetically coupling the cover to the terminals. In another embodiment, the apparatus includes covers formed of an electrically insulative material and connected by hinges to the electrical device for movement between open positions away from the terminals and closed positions covering the respective terminals.

A redundant network system includes a compute node having a network interface card includes a node port. The redundant network system includes a primary switch having a primary switch component and a primary switch port coupled to the primary switch component. The redundant network system includes a secondary switch having a secondary switch component and a secondary switch port coupled to the secondary switch component. The redundant network system includes a cable assembly having a node connector coupled to the node port, a primary connector coupled to the primary switch port, and a secondary connector coupled to the secondary switch port. The cable assembly includes a signal splitting circuit between the node connector and the primary and secondary connectors. The cable assembly includes a first cable between the signal splitting circuit and the primary connector and a second cable between the signal splitting circuit and the secondary connector.

A modular high-current connector (1) has a first housing part (7) and a second housing part (8) connected thereto. The high-current connector (1) has a pin contact (9), the pin contact (9) being substantially cylindrical and having a connection region (A′) and a contact region (K′) for making electrical contact with a device socket or a mating connector. The contact region (K′) of the pin contact (9) projects out of the high-current connector (1) on the plug-in side.

A high-power plug connection system comprises a cable connection housing for connecting at least two electric high-power plug connectors in order to transmit and/or distribute high current strengths and at least two insulating bodies for receiving a respective high-power contact and at least one electrically conductive rail. Longitudinal axes of the high-power contacts are generally arranged on one plane in an offset manner from each other, and the high-power contacts are connected together in an electrically conductive manner by means of an electrically conductive rail, said at least two high-power contacts being provided with a recess into which the electrically conductive rail is at least partly inserted.

A high-power plug connection system comprises a cable connection housing for connecting at least two electric high-power plug connectors in order to transmit and/or distribute high current strengths and at least two insulating bodies for receiving a respective high-power contact and at least one electrically conductive rail. Longitudinal axes of the high-power contacts are generally arranged on one plane in an offset manner from each other, and the high-power contacts are connected together in an electrically conductive manner by means of an electrically conductive rail, said at least two high-power contacts being provided with a recess into which the electrically conductive rail is at least partly inserted.

A connector for use with high speed signals. The connector may include lead frame assemblies in a connector housing. A lead frame assembly may include signal conductive elements and ground conductive elements disposed in a repeating pattern, and one or more corrugated sheets attached to the ground conductive elements. The corrugated sheets may extend more than half of the length of the signal conductive elements. Valleys of the corrugated sheets may be welded to the ground conductive elements with line welds. The line welds may extend over a large percentage of the length of the conductive elements. Such a configuration enables accurately and repeatedly establishing signal to ground spacing and therefore promotes high signal integrity, even for miniaturized connectors. Such a connector may be used to meet signal integrity requirements in connectors designed for 112 GBps and beyond.