A contact assembly for an electrical connector includes a contact positioner having contact support walls holding a contact array. The contact array includes signal contacts and ground contacts interspersed with the signal contacts. The signal contacts include mating ends configured to be mated with a mating electrical connector and mounting ends configured to be terminated to a host circuit board. The signal contacts include transition portions between the mating ends and the mounting ends. The ground contacts include mating ends, mounting ends, and transition portions between the mating ends and the mounting ends. The contract assembly includes a ground bus wire extending transversely across the contact array. The ground bus wire is electrically connected to each of the ground contacts. The ground bus wire is electrically isolated from each of the signal contacts.

A functional contactor is provided. A functional contactor according to an exemplary embodiment of the present invention comprises; a clip-shaped conductor having elasticity which is in electrical contact with a conductor of an electronic device; a functional element which is electrically connected to the clip-shaped conductor in series via a solder and comprises a first electrode and a second electrode respectively provided on the entire upper and lower surfaces thereof; and an arrangement guide which is formed to surround at least a part of the clip-shaped conductor on the upper surface of the functional element so as to arrange the position of the clip-shaped conductor and is made of nonconductive resin.

A functional contactor is provided. Provided according to an exemplary embodiment of the present invention is a functional contactor comprising: a conductor which has elasticity and comes into contact with a conductor of an electronic device; a functional element which is connected to the conductor having elasticity and has a first and a second electrode respectively disposed on at least a part of an upper and a lower surface thereof; and a solder through which a lower surface of the conductor having elasticity is coupled with the first electrode of the functional element. The first electrode includes a first part outwardly extending from the lower surface of the conductor having elasticity along one side surface of the conductor having elasticity, and the solder includes an exposure part formed between the first part and a partial lateral surface of the one side surface of the conductor having elasticity.

Various connector and sensor assemblies are described. In some embodiments, the connector and sensor assembly comprises a connector and a sensor assembly. The connector can have an opening that has a first surface and second surface that are opposite each other. The connector can have a plurality of retractable electrical connectors that extend from the first surface and a lock structure that is located on the second surface. The sensor assembly is comprised of a body portion and a proximal end. The proximal end has a top side and a bottom side. The top side includes a plurality of electrical contacts that is configured to interact with the plurality of retractable electrical connectors. The bottom side includes a key structure that is configured to interact with the lock structure in the connector.

The present disclosure discloses a safety plug comprising two pins, an insulating housing, a limiting member, and an operating member. The operating member is configured to drive the limiting member to be changed between a position-limited position and an unlocked position. First ends of the two pins extend into the insulating housing, a short-circuit protection circuit is disposed in the insulating housing, and the short-circuit protection circuit is disposed in a path in which the two pins move away from the insulating housing. When the limiting member is in the position-limited position, a limiting fit is defined, and the first ends of the two pins are spaced apart from the short-circuit protection circuit. When the limiting member is in the unlocked position, the limiting fit is released, and the insulating housing is pulled to enable the short-circuit protection circuit to short circuit the two pins.

The application is directed to various connector and sensor assemblies. In some embodiments, the connector and sensor assembly comprises a connector and a sensor assembly. The connector can have an opening that has a first surface and second surface that are opposite each other. The connector can have a plurality of retractable electrical connectors that extend from the first surface and a lock structure that is located on the second surface. The sensor assembly is comprised of a body portion and a proximal end. The proximal end has a top side and a bottom side. The top side includes a plurality of electrical contacts that is configured to interact with the plurality of retractable electrical connectors. The bottom side includes a key structure that is configured to interact with the lock structure in the connector.

It is aimed to provide a shielded connector capable of improving heat dissipation performance while suppressing enlargement. A shielded connector 10 includes a housing 11, a shield shell 12 for covering the housing 11 from outside, a connection terminal 14 to be accommodated into the housing 11 and electrically connected to a mating device, and an inner conductive member 13 for electrically connecting the connection terminal 14 and a wire W. High radiation portions 51 having at least a higher radiation rate than a core W1 of the wire W are provided on at least some of a surface 11a of the housing 11, a surface 12a of the shield shell 12, a surface 14a of the connection terminal 14 and a surface 13a of the inner conductive member 13.

This invention is an active cable or cables with a female micro USB or other connector recessed at the rear end of the HDMI plug for connecting external power when needed. The recessed connector is connected to an internal circuitry that combines this external power with the power from the source or sink device via a straight or “OR” circuits. This design is clean when no external power is needed because there're no dangling pigtails with USB plugs. When external power is needed because the source or sink devices can't provide enough current, the user can use for example widely available male micro USB to male USB cable (the standard charging cable for most Android phones and many other computer or phone accessories) or other cable to get external power, and the cable length can be selected to fit the application.

The present disclosure discloses a safety plug comprising two pins, an insulating housing, a limiting member, and an operating member. The operating member is configured to drive the limiting member to be changed between a position-limited position and an unlocked position. First ends of the two pins extend into the insulating housing, a short-circuit protection circuit is disposed in the insulating housing, and the short-circuit protection circuit is disposed in a path in which the two pins move away from the insulating housing. When the limiting member is in the position-limited position, a limiting fit is defined, and the first ends of the two pins are spaced apart from the short-circuit protection circuit. When the limiting member is in the unlocked position, the limiting fit is released, and the insulating housing is pulled to enable the short-circuit protection circuit to short circuit the two pins.

Embodiments of a method, a circuit and a system are disclosed. In an embodiment, a discharge protection circuit is disclosed. The discharge protection circuit includes a switch having a capacitive coupling between a gate and a drain of the switch, wherein the capacitive coupling facilitates a capacitively coupled current. The discharge protection circuit further includes a gate network including at least the gate of the switch, a gate control element and a resistor connected to the gate and the gate control element. In addition, the discharge protection circuit includes an electrostatic discharge rail that connects to a diode that is coupled to the gate and the resistor, wherein the capacitive coupling facilitates sinking of at least a part of an electrostatic discharge current via the gate network.