A high performance plug has a housing, eight contacts contained within the font of the housing, and a termination block that is symmetric about its axis. In one embodiment, the termination block has contact interfaces configure to electrically engage the plug contacts and arranged such that the contact interfaces which are connected to plug contacts 1-8, become connected to plug contacts 8-1 when the termination block is rotated 180 degrees. In one embodiment, the coupling from the paths for contact 3 to contacts 1, 2, 4, and 5, respectively, is the same as the coupling for contact 6 to contacts 7, 8, 5, and 4, respectively.

A metallic contact for insertion into a modular telecommunications plug includes a generally planar body defining a top end, a bottom end, a front end, a rear end, and a length extending from the front end to the rear end. The bottom end is at least partially defined by a blade for piercing an insulation of a wire positioned within the plug. At least a portion of the top end is configured to electrically contact a conductor of a jack that receives the plug. The top end is defined at least in part by a first engagement surface that is separated from a second engagement surface by a notch. An uppermost portion of the first engagement surface defines a first push surface that is generally at the same height as a second push surface defined by an uppermost portion of the second engagement surface. The notch is defined by a front vertical wall spaced from a rear vertical wall, wherein the front vertical wall is positioned at a distance of at least half the length of the contact from the front end of the contact.

A component for a garment or textile product is disclosed. The component comprises a fabric substrate having a first surface and a second surface opposing the first surface; a contact pad formed from an electrically conductive material, the contact pad being configured to engage with a connector and arranged on the first surface of the fabric substrate; a conductive layer electrically coupled to the contact pad; and an electrically conductive line mechanically coupled to, and in electrically conductive contact with, the conductive layer.

A component for a garment or textile product is disclosed. The component comprises a fabric substrate having a first surface and a second surface opposing the first surface; a contact pad formed from an electrically conductive material, the contact pad being configured to engage with a connector and arranged on the first surface of the fabric substrate; a conductive layer electrically coupled to the contact pad; and an electrically conductive line mechanically coupled to, and in electrically conductive contact with, the conductive layer.

A surgical instrument includes a body, a shaft assembly, an end effector, and an electrical contact assembly. The includes a power source, while the shaft assembly extends distally from the body. The end effector includes a channel assembly and a cartridge assembly configured to selectively couple with the channel assembly. The cartridge assembly includes an electrically activated component. The electrical contact assembly is capable of electrically coupling the power source with the electrically activated component of the cartridge assembly. The electrical contact assembly includes a first electrical contact, a second electrical contact, and an insulating membrane. The first electrical contact is associated with the channel assembly while the second electrical contact is associated with the cartridge assembly. The insulating membrane is associated with either the first electrical contact or the second electrical contact. The insulating membrane is configured to transition between a closed position and an opened position. Either the first electrical contact or the second electrical contact is configured to transition the insulation membrane to the opened position when the cartridge assembly is coupled to the channel assembly.

The present invention relates to a self-locking wire device being adapted to receive at least one wire according to at least one insertion direction, the self-locking device comprises a housing being electrically insulating and a locking element being electrically conductive. The locking element comprises one or more bases extending all along an inner side of the housing and at least one locking portion being configured in a way to block any movement of the at least one wire in a direction being opposite to the insertion direction.

The present invention relates to a self-locking wire device being adapted to receive at least one wire according to at least one insertion direction, the self-locking device comprises a housing being electrically insulating and a locking element being electrically conductive. The locking element comprises one or more bases extending all along an inner side of the housing and at least one locking portion being configured in a way to block any movement of the at least one wire in a direction being opposite to the insertion direction.

A sensor package includes at least one conductive trace providing a voltage common and a base supporting the at least one conductive trace. A conductive extension extends from the base so as to contact a conductor of an insulated conductor when the sensor package is mounted on an insulator of the insulated conductor and thereby provide an electrical connection between the conductive trace providing the voltage common and the conductor.

A sensor package includes at least one conductive trace providing a voltage common and a base supporting the at least one conductive trace. A conductive extension extends from the base so as to contact a conductor of an insulated conductor when the sensor package is mounted on an insulator of the insulated conductor and thereby provide an electrical connection between the conductive trace providing the voltage common and the conductor.

This disclosure provides a method and apparatus for connecting and disconnecting a first wire to a second wire. More specifically, an apparatus that includes a first electrical contact, a second electrical contact, an insulated housing, and a male contact prong (i.e., a shunt) is disclosed. In an embodiment, the first and second electrical contacts conductively connect with a first and second wire, respectively, via an insulation displacement connector. Furthermore, the male contact prong conductively connects (i.e., shunts) the first and second electrical contacts together. A wire-to-wire contact with shunt allows for two wires to be quickly and efficiently connected and disconnected.