The present invention discloses a sofa USB socket including: a USB female socket including a tongue core, wherein the tongue core includes 5 pins, and the fifth pin is an ID pin; and a USB circuit including a power circuit, a filter circuit, a control chip and a buck chopper circuit, wherein the buck chopper circuit includes a transistor, and the ID pin is electrically connected with the transistor. When an external USB male plug is inserted into the USB female socket, the power circuit supplies power to the USB female socket; when the USB female socket is in an unloaded state, the fifth pin is suspended, the control chip enters a sleep state, and the USB female socket has no output voltage, which greatly reduces the no-load energy consumption, thereby being beneficial to extending the endurance time and the service life of a power supply battery.

A first connector pin to a third connector pin have a substantially L-shaped cross-sectional shape formed by a horizontal part embedded in the top of an inner housing part by resin molding and a vertical part continuous with and protruding upwardly orthogonal to the horizontal part. A fourth connector pin has a substantially I-shaped cross-sectional shape having only the vertical part. The horizontal part of the first connector pin is provided so as to surround the first end of the first connector pin, the horizontal part and the first end of the second connector pin, the horizontal part and the first end of the third connector pin, and is integrated and connected to the fourth connector pin. A chip capacitor is attached to the connector pins by a joining member. Thus, the connector pins are connected to each other via the chip capacitors.

An electrical socket for connecting an electrical installation of a towing vehicle with an electrical installation of a trailer is provided. The electrical socket comprises a plurality of electrical connectors and a plurality of holes for receiving pins from an electrical plug to connect to the electrical connectors. The socket further comprises one or more light sources, a proximity sensor and a control unit for and a control unit for activating the light sources in response to the proximity sensor detecting a presence of a user at a distance around the socket below a predetermined threshold distance. An electrical kit for connecting an electrical installation of a towing vehicle with an electrical installation of a trailer comprising such an electrical socket is also disclosed.

An electric connecting structure is provided, which includes an outer casing, at least two electrical connection terminals, at least two cables, and an electronic component. At least part of each electrical connection terminal is fixed in the outer casing. Each of the at least two cables has an end connected to the corresponding electrical connection terminal. The electric connection structure further includes at least one cable holder molded onto the at least two cables and mounted in the outer casing. The electronic component is connected between the ends of the at least two cables. The electric connection structure can simplify the wiring operations and consequently reduce the time and costs required for the wiring operations.

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.

An adapter has two conductors each with a U-shaped bend forming upper longer legs and lower shorter legs. The conductors face each other with the longer legs linearly aligned with each other and the shorter legs aligned with each other, thereby forming a first gap between the longer legs and a second gap between the shorter legs. The first gap is substantially smaller than the second gap, so that an electrical package can be placed across the first gap to contact the two upper longer legs, while the two shorter legs are spaced further apart to span a larger gap between conductors of a connector. Thus, the adapter enables the electrical package to be connected to conductors having a gap that is larger than the electrical package.

A cable includes a cable part including at least one set of signal cables for differential transmission, a ground cable, and a power cable, and a first connector and a second connector arranged at both ends of the cable part. At least one of the first connector and the second connector has a common-mode choke coil connected to the ground cable and the power cable.

A circuit board for a high speed communication jack including a rigid circuit board in the housing having a substrate, a plurality of vias extending through the substrate with each via being configured to accommodate a pin on the housing, a plurality of traces on a middle layer in the substrate, with each trace extending from a corresponding one of the plurality of vias, a first shielding layer on a first side of the middle layer in the substrate, a second shielding layer on a second side of the middle layer in the substrate, and a third shielding layer adjacent to the second shielding layer.

At least one example embodiment is directed to a device including a first section having a connector that enables communication according to a first protocol. The device may further include a second section engageable with the first section. The second section may include a cavity that houses the connector when the second section is engaged with the first section, and an antenna that enables wireless communication according to a second protocol when the second section is engaged with the first section.

An in-line suspended power sensor coupling configuration situated within a high frequency transmission line housing that allows forward, reverse, and sampling voltage elements to all be produced simultaneously on one double sided printed circuit board (PCB). The power sensor coupling allows for calibrated coupling responses across a much wider frequency range with a single PCB assembly, as opposed to the need to cover equivalently sized frequency ranges with multiple individually fabricated coupling element assemblies.