A fitting-equipped conductive sheet including: a conductive sheet material in which a plurality of conductive strands are aligned planarly; and a plate-shaped conductive fitting attached to ends of the plurality of conductive strands, wherein the conductive fitting includes a folded-back portion, and a first sandwiching portion and a second sandwiching portion that are folded back with the folded-back portion as a starting point and the first sandwiching portion and the second sandwiching portion are opposed to each other.

An electromagnetic terminal shield includes a shield body formed of sheet metal having a connector opening configured to receive a corresponding mating terminal shield and a cable opening configured to receive a wire cable and a plurality of cantilevered spring arms integrally formed with the shield body having fixed ends attached to the connector opening and free ends disposed within a shield cavity defined by the shield body. Each spring arm in the plurality of cantilevered spring arms has a free end that is in contact with the inner surface of the shield body within the shield cavity. A process for manufacturing an electromagnetic terminal shield and the electromagnetic terminal shield produced by this process are also presented herein.

An electromagnetic terminal shield includes a shield body formed of sheet metal having a connector opening configured to receive a corresponding mating terminal shield and a cable opening configured to receive a wire cable and a plurality of cantilevered spring arms integrally formed with the shield body having fixed ends attached to the connector opening and free ends disposed within a shield cavity defined by the shield body. Each spring arm in the plurality of cantilevered spring arms has a free end that is in contact with the inner surface of the shield body within the shield cavity. A process for manufacturing an electromagnetic terminal shield and the electromagnetic terminal shield produced by this process are also presented herein.

An electromagnetic terminal shield includes a shield body formed of sheet metal having a connector opening configured to receive a corresponding mating terminal shield and a cable opening configured to receive a wire cable. The terminal shield also includes a plurality of cantilevered spring arms integrally formed with the shield body having fixed ends attached to the connector opening and free ends disposed within a shield cavity defined by the shield body. A process for manufacturing the electromagnetic terminal shield is also presented.

An electromagnetic terminal shield includes a shield body formed of sheet metal having a connector opening configured to receive a corresponding mating terminal shield and a cable opening configured to receive a wire cable. The terminal shield also includes a plurality of cantilevered spring arms integrally formed with the shield body having fixed ends attached to the connector opening and free ends disposed within a shield cavity defined by the shield body. A process for manufacturing the electromagnetic terminal shield is also presented.

An AC power input socket includes a casing and at least two conductive pins. The casing comprises a connection side and an output side based on performance of the AC power input socket. The casing is provided with an accommodating groove at the connection side, each of the two conductive pins includes a power connection section located in the accommodating groove, an output section extending from the power connection section and passing through the casing to be exposed on the output side, and a capacitor connecting section extending from an end of the output section. Each of the conductive pins is provided with a through hole in the output section for disposing an electric wire, and the capacitor connecting section provides a capacitor pin to be connected thereon, so that the capacitor pin and the electric wire do not need to be disposed at a same hole position.

An AC power input socket includes a casing and at least two conductive pins. The casing comprises a connection side and an output side based on performance of the AC power input socket. The casing is provided with an accommodating groove at the connection side, each of the two conductive pins includes a power connection section located in the accommodating groove, an output section extending from the power connection section and passing through the casing to be exposed on the output side, and a capacitor connecting section extending from an end of the output section. Each of the conductive pins is provided with a through hole in the output section for disposing an electric wire, and the capacitor connecting section provides a capacitor pin to be connected thereon, so that the capacitor pin and the electric wire do not need to be disposed at a same hole position.

A plug assembly for a surgical device having a loading unit includes a tray member, first and second contact members received within and extending distally from the tray member, first and second elongated electrical conductors in electrical connection with the first and second contact members and extending proximally from the tray member, an outer case formed about the tray member and the proximal portion of the first and second contact members, and a seal member received about the first and second contact members adjacent the outer tray. Each of the first and second contact members includes proximal and distal portions and an extension formed on the proximal portions. Each of the first and second elongated electrical conductors includes proximal and distal portions and a loop formed on the distal portion. The loop of each of the first and second elongated electrical conductors is received about the extension of the respective first and second contact members.

An electric cable assembly is provided for a human-powered vehicle. The electric cable assembly includes an electric cable, a connector, a coupling member and a molded part. The electric cable includes at least a wire extending from an insulated portion. The coupling member electrically couples the wire to the connector. The molded part integrally accommodates at least part of the insulated portion, at least part of the connector, and the coupling member.

An electric cable assembly is provided for a human-powered vehicle. The electric cable assembly includes an electric cable, a connector, a coupling member and a molded part. The electric cable includes at least a wire extending from an insulated portion. The coupling member electrically couples the wire to the connector. The molded part integrally accommodates at least part of the insulated portion, at least part of the connector, and the coupling member.