A connector for providing an electrical connection between at least one terminating mating terminal to a substrate. The connector includes a housing having at least one terminal receiving cavity. A receptacle terminal is positioned in the at least one terminal receiving cavity. The receptacle terminal has a latching projection which cooperates with the at least one mating terminal to retain the at least one mating terminal in electrical engagement with the receptacle terminal when the at least one mating terminal is fully inserted in the at least one terminal receiving cavity. A release mechanism is provided in the housing in line with the latching projection of the receptacle terminal, the release mechanism is configured to cooperate with the receptacle terminal to depress the latching projection when the at least one mating terminal is to be removed from the at least one terminal receiving cavity.

The fixing method involves the fixing, for example by screwing, of the electrical connector (202) to the electrical terminal (210). It also involves, before the fixing of the electrical connector (202) to the electrical terminal (210): fixing of the electrical terminal (210) to an intermediate support (206), and the engagement of the electrical connector (202) with at least one element (410, 416) of the intermediate support (206) in order to keep the electrical connector (202) in position with respect to the intermediate support (210).

A terminal module (10) has a metal case (20) with a ceiling wall (21), a bottom wall (51) facing the ceiling wall (21), opposed side walls (23) extending from the ceiling wall (21) toward the bottom wall (51) and retaining pieces (24). A coil spring (40) is sandwiched between the ceiling wall (21) and the bottom wall (51). The retaining pieces (24) face each other in a direction perpendicular to a facing direction of the side walls (23) and project toward the bottom wall (51) from the periphery of the ceiling wall (21). The side walls (23) and the retaining pieces (24) are disposed alternately on the periphery of the ceiling wall (21). A spring receiving portion (26) formed by the ceiling wall (21), the side walls (23) and the retaining pieces (24) receives an end part of the coil spring (40) on the side of the ceiling wall (21).

The outer layer is peeled exactly a predetermined length from the end portion of the electromagnetic shielding tube. That is, the metal layer is exposed exactly a predetermined range at the end portion of the electromagnetic shielding tube. A flexible conductor is connected to the exposed metal layer. A separated portion is provided in the inner layer. The separated portion is formed along the length direction of the electromagnetic shielding tube. Additionally, a depth of the separated portion is the same value as the thickness of the inner layer. As such, the inner surface of the metal layer is exposed at the separated portion. It is preferable that the separated portion be formed at a plurality of locations in the circumferential direction. The inner layer is divided into a plurality of sections in the circumferential direction by the separated portion. The separated portion is a terminal processed portion, which mitigates the effects caused by differences in the physical properties of the inner layer and the metal layer.

There is provided a male cable connector (1) for reversibly connecting a computer network cable (7) to form at least one electrical connection or one optical connection to a second component, said male cable connector (1) comprising a male member (3) enclosing at least one electrical lead (14) electrically connected to one electric contact surface (13) and the network cable (7) or said male member (3) enclosing at least one optical fiber (17) connected to an optical connection surface (22) and the network cable (7), said male member (3) being associated with a front direction which is parallel to the longitudinal axis of the male member (3) and directed from the cable (7) towards a forward end (11) of the male member (3) characterized in that said at least one electrical contact surface (13) or at least one optical connection surface (22) is arranged on the surface of the male member (3) and the male member (3) has a bore (4) for connecting a pull-cord. There is also provided a female connector, adaptors, cables and kits.

There is provided a male cable connector (1) for reversibly connecting a computer network cable (7) to form at least one electrical connection or one optical connection to a second component, said male cable connector (1) comprising a male member (3) enclosing at least one electrical lead (14) electrically connected to one electric contact surface (13) and the network cable (7) or said male member (3) enclosing at least one optical fiber (17) connected to an optical connection surface (22) and the network cable (7), said male member (3) being associated with a front direction which is parallel to the longitudinal axis of the male member (3) and directed from the cable (7) towards a forward end (11) of the male member (3) characterized in that said at least one electrical contact surface (13) or at least one optical connection surface (22) is arranged on the surface of the male member (3) and the male member (3) has a bore (4) for connecting a pull-cord. There is also provided a female connector, adaptors, cables and kits.

This terminal-equipped electric wire for a charging inlet comprises: an electric wire that has a conductor and an insulation coating; and a terminal that is connected to the conductor exposed on the end part of the electric wire. The insulation coating has an olefin resin as the main component thereof. The terminal-equipped electric wire further comprises: heat-shrinkable tubing that covers a region spanning from a site where the conductor and the terminal are connected to the insulation coating; and a primer layer that is provided between the inner peripheral surface of the heat-shrinkable tubing and the outer peripheral surface of the terminal. The inner peripheral surface of the heat-shrinkable tubing and the outer peripheral surface of the insulation coating are in direct contact.

This terminal-equipped electric wire for a charging inlet comprises: an electric wire that has a conductor and an insulation coating; and a terminal that is connected to the conductor exposed on the end part of the electric wire. The insulation coating has an olefin resin as the main component thereof. The terminal-equipped electric wire further comprises: heat-shrinkable tubing that covers a region spanning from a site where the conductor and the terminal are connected to the insulation coating; and a primer layer that is provided between the inner peripheral surface of the heat-shrinkable tubing and the outer peripheral surface of the terminal. The inner peripheral surface of the heat-shrinkable tubing and the outer peripheral surface of the insulation coating are in direct contact.

A quick connect terminal assembly for attaching a conductor to an electrical circuit includes a terminal which can be attached to an electrical circuit. A retainer engages the terminal which defines a conductor space between the retainer and the terminal. The conductor space insertably receives an end of a conductor. The retainer is biased toward the terminal to compress the conductor between the terminal and the retainer. Each of the retainer and the terminal is comprised of an electrically conductive material to facilitate electrical communication between the conductor and the electrical circuit. A sheath is positioned around the terminal and the retainer to inhibit electrical communication between the conductor and external objects.

A quick connect terminal assembly for attaching a conductor to an electrical circuit includes a terminal which can be attached to an electrical circuit. A retainer engages the terminal which defines a conductor space between the retainer and the terminal. The conductor space insertably receives an end of a conductor. The retainer is biased toward the terminal to compress the conductor between the terminal and the retainer. Each of the retainer and the terminal is comprised of an electrically conductive material to facilitate electrical communication between the conductor and the electrical circuit. A sheath is positioned around the terminal and the retainer to inhibit electrical communication between the conductor and external objects.