An electrical connector includes a contact button having a first layer formed of a first electrically conductive material that is attached to a first electrical bus bar and having a second layer formed of a second electrically conductive material clad to the first layer. The electrical connector includes a clamp assembly including a retaining band surrounding the contact button and the first electrical bus bar and having a spring configured to provide a contact force between the contact button and a second electrical bus bar when the second electrical bus bar is disposed between the contact button and the spring.

An electrical connector includes a contact button having a first layer formed of a first electrically conductive material that is attached to a first electrical bus bar and having a second layer formed of a second electrically conductive material clad to the first layer. The electrical connector includes a clamp assembly including a retaining band surrounding the contact button and the first electrical bus bar and having a spring configured to provide a contact force between the contact button and a second electrical bus bar when the second electrical bus bar is disposed between the contact button and the spring.

A shunt device is used to be mated with an adapter socket of a connector configured on a circuit board to shunt electric current of the connector. The shunt device includes an insulating housing and a first electric terminal. The insulating housing has a bottom surface. The first electric terminal is fixed on the insulating housing. The first electric terminal has a first contact portion and a first leg that extends out of the insulating housing from the first contact portion, so as to provide a first cable connection surface for being connected to at least one wire cable. The first contact portion is exposed from the bottom surface and has a contact surface that is parallel to the bottom surface, so as to abut against a shunt contact surface of the adapter socket.

The present invention provides a combined power socket for artificial trees. The combined power socket includes a first socket and a second socket which are capable of supplying control signals to light strings on the artificial trees in addition to power supply, thus can realize the intelligent control of light strings. Furthermore, the first socket and a second socket can be connected in two directions without considering the positive and negative poles of the power supply. The product assembly is simpler and more convenient.

The present invention provides a combined power socket for artificial trees. The combined power socket includes a first socket and a second socket which are capable of supplying control signals to light strings on the artificial trees in addition to power supply, thus can realize the intelligent control of light strings. Furthermore, the first socket and a second socket can be connected in two directions without considering the positive and negative poles of the power supply. The product assembly is simpler and more convenient.

An electrical connection piece including: a flexible circuit board having: a central section penetrated by contact openings arranged mirror-symmetrically; a first and second arm, each of the first and second arms extending in different directions away from the central section, the end of the first arm having a first end surface, the end of the second arm having a second end surface, the end of the first arm having a third end surface opposing the first end surface and end of the second arm having a fourth end surface opposing the second end surface; first strip conductors extending between the contact openings and first electrical contacting surfaces; and second strip conductors extending between the contact openings and second electrical contacting surfaces; wherein the first electrical contacting surfaces have a contact configuration different from a contact configuration of the second electrical contacting surfaces.

An electrical connector assembly includes a male terminal having a first pivot feature and a plurality of contact arms extending from the first pivot feature. The assembly further includes a female terminal having a base plate defining a second pivot feature and a plurality of receptacle features configured to receive free ends of the plurality of contact arms as the first pivot feature engages the second pivot feature and the plurality of contact arms is rotated around the first and second pivot features.

An electrical connector assembly includes a male terminal having a first pivot feature and a plurality of contact arms extending from the first pivot feature. The assembly further includes a female terminal having a base plate defining a second pivot feature and a plurality of receptacle features configured to receive free ends of the plurality of contact arms as the first pivot feature engages the second pivot feature and the plurality of contact arms is rotated around the first and second pivot features.

A connector for a medical device. The connector including an elongate body having a proximal end and a distal end. The connector further including a strut, a plurality of conductors, and a plurality of electrical contacts. The strut being disposed within the elongate body and defining a plurality of channels. Each of the plurality of channels having a proximal end and a distal end opposite the proximal end. The plurality of conductors being disposed within the elongate body and are sized and configured to be received within the plurality of channels and extend between the proximal end and the distal end. The plurality of electrical contacts being coupled to an outer surface of the elongate body and in communication with the plurality of conductors.

A connector for a medical device. The connector including an elongate body having a proximal end and a distal end. The connector further including a strut, a plurality of conductors, and a plurality of electrical contacts. The strut being disposed within the elongate body and defining a plurality of channels. Each of the plurality of channels having a proximal end and a distal end opposite the proximal end. The plurality of conductors being disposed within the elongate body and are sized and configured to be received within the plurality of channels and extend between the proximal end and the distal end. The plurality of electrical contacts being coupled to an outer surface of the elongate body and in communication with the plurality of conductors.