A system for power distribution including a first connection and a second connection each connected respectively to a first multi connector cable and a second multi connector cable; said second multi connector cable being split into a set of two distinct wires with each distinct wire including a circuit protector, wherein each of the first multi connector cable and the second multi connector cable are ultimately connected respectively to a third connection and a fourth connection, and a fifth connection and a sixth connection.

A system for power distribution including a first connection and a second connection each connected respectively to a first multi connector cable and a second multi connector cable; said second multi connector cable being split into a set of two distinct wires with each distinct wire including a circuit protector, wherein each of the first multi connector cable and the second multi connector cable are ultimately connected respectively to a third connection and a fourth connection, and a fifth connection and a sixth connection.

A socket turned off at a limiting temperature includes a live wire conductive plate, live wire terminals, a neutral wire conductive plate, neutral wire terminals, a seat, protective structures, and a support element. The seat installs the live wire conductive plate, the live wire terminals, the neutral wire conductive plate and the neutral wire terminals. A predetermined gap is between a live wire conductive spring plate and a live wire contact portion as well as between a neutral wire spring plate and a neutral wire contact portion. The protective structure provides a force of constraint, allowing the live wire spring plate to contact with the live wire contact portion as well as the neutral wire spring plate to contact with the neutral wire contact portion. The support element provides a supporting force corresponding to the force of constraint.

A socket turned off at a limiting temperature includes a live wire conductive plate, live wire terminals, a neutral wire conductive plate, neutral wire terminals, a seat, protective structures, and a support element. The seat installs the live wire conductive plate, the live wire terminals, the neutral wire conductive plate and the neutral wire terminals. A predetermined gap is between a live wire conductive spring plate and a live wire contact portion as well as between a neutral wire spring plate and a neutral wire contact portion. The protective structure provides a force of constraint, allowing the live wire spring plate to contact with the live wire contact portion as well as the neutral wire spring plate to contact with the neutral wire contact portion. The support element provides a supporting force corresponding to the force of constraint.

A resettable switching apparatus, useful in a GFCI receptacle, has an auto-monitoring circuit for automatically testing various functions and structures of the device. The auto-monitoring circuit initiates an auto-monitoring routine which, among other things, establishes a test fault situation on either the positive or negative half-wave of the power cycle and determines whether the detection mechanisms within the device appropriately detect the test fault and whether the device would trip in the event of an actual fault. Additional functionality of the auto-monitoring circuit permits automatic verification that the device is properly wired, that is, not miswired, and determines whether the device has reached the end of its useful life.

A resettable switching apparatus, useful in a GFCI receptacle, has an auto-monitoring circuit for automatically testing various functions and structures of the device. The auto-monitoring circuit initiates an auto-monitoring routine which, among other things, establishes a test fault situation on either the positive or negative half-wave of the power cycle and determines whether the detection mechanisms within the device appropriately detect the test fault and whether the device would trip in the event of an actual fault. Additional functionality of the auto-monitoring circuit permits automatic verification that the device is properly wired, that is, not miswired, and determines whether the device has reached the end of its useful life.

A hybrid jumper cable assembly includes: a plurality of power conductors; a plurality of optical fibers; a jacket surrounding the power conductors and the optical fibers; one or more connectors connected with the power conductors and the optical fibers; and a fuse electrically connected with one of the plurality of power conductors.

A hybrid jumper cable assembly includes: a plurality of power conductors; a plurality of optical fibers; a jacket surrounding the power conductors and the optical fibers; one or more connectors connected with the power conductors and the optical fibers; and a fuse electrically connected with one of the plurality of power conductors.

A connector-fitting structure of flexible printed circuit includes: a flexible printed circuit on which a wiring pattern is formed; an electronic component connected to the wiring pattern of the flexible printed circuit; and a connector to which one end part of the flexible printed circuit is fitted. The one end part of the flexible printed circuit is fitted to the connector to cause the electronic component to be housed in the connector.

A connector for electric vehicle supply equipment includes: a housing; a first electrical coupling member supported by the housing and that mates with an inlet of an electric vehicle, the first electrical coupling member including a first pin part; a second electrical coupling member supported by the housing and that mates with the inlet, the second electrical coupling member including a second pin part; and a conductive barrier supported by the housing that extends between the first and second pin parts. The conductive barrier interacts with at least one of the first and second pin parts to provide a conduction path for electrical power monitorable to evaluate electrical isolation of the first and second electrical coupling members and avoid electrical arcing or short-circuiting.