The present disclosure describes a power cable connector. The connector includes a main body having a bore therethrough, a first threaded section, and a second threaded section; a back cover having a third threaded section configured engage the first threaded section of the main body; a pair of female conductor pins configured to be coupled to inner conductors of a power cable; an insulator having one or more recesses extending along an outer surface and a fourth threaded section configured to engage with the second threaded section of the main body, the insulator having a pair of inner channels extending therethrough sized to receive the pair of female conductor pins; an end cap including one or more recesses; and a locking nut including one or more protrusions extending radially inward. When the locking nut is inserted onto the insulator and end cap, the one or more recesses of the insulator and one or more recesses of the end cap are configured to receive and guide the one or more protrusions of the locking nut to secure the end cap to the insulator. Connector assemblies are also described herein.

A terminal-equipped electric wire, a connector including the terminal-equipped electric wire and a manufacturing method of the connector are provided. The terminal-equipped electric wire includes an electric wire including a conductor core wire formed of a conductor material and a terminal formed of a composite metal material in which a plurality of types of metal materials are clad-bonded with each other. The terminal includes a first connection portion and a second connection portion, each of which is formed of a metal material of respective one of the plurality of types of metal materials. The conductor core wire is electrically connected to one of the first and second connection portions, the one corresponding to the conductor material forming the conductor core wire.

A load-bearing connector connection includes two half-flanges encapsulated in a coupling body extending from a first end to a second end. The two assembled half-flanges cover the end of a cable having a plurality of plugs and a helical armor. The two half-flanges include on the inner face thereof a part of the threading engaging with the threading of the helical armor. A locking ring is positioned at the level of a plug housing adjacent to the first end of the coupling body. The coupling body is screwed to the plug housing. The second end of the coupling body is adjacent to a coupling nut. The coupling nut traverses the cable and is assembled with the coupling body by screwing.

The present disclosure describes a power cable connector. The connector includes a generally cylindrical main body having a bore therethrough, a back cover configured to be removably secured to an end of the main body, a first seal sized to fit within at least a portion of the bore of the main body, a pair of female conductor pins configured to be coupled to the inner conductors of a power cable, an insulator having a pair of inner channels sized to receive the pair of female conductor pins, wherein the insulator is configured to be removably secured to an opposing end of the main body, a second seal sized to fit within at least a portion of the insulator, an end cap, a third seal residing between the insulator and the end cap, and a locking nut configured to secure to the end cap to the insulator. Power cable connector assemblies and methods of assembling a power cable connector are also described herein.

A connector for a coaxial cable includes a coupler portion configured to engage an interface port, a housing portion having a forward end configured to be disposed at least partially within the coupler portion, and an outer conductor engager portion made of a conductive material disposed within the housing portion. The housing portion includes a rearward end configured to receive the coaxial cable and is configured to move axially relative to a post that engages the outer conductor of the cable. An interior surface of the housing portion is configured to compress an insert of the post when the housing portion is moved axially relative to the post such that the outer conductor is compressed radially inward against an exterior surface of the insert of the post.

A motor vehicle handle includes a handle body with a first longitudinal end, a second longitudinal end, and a receiving space is formed on the handle body between the first longitudinal end and the second longitudinal end. An electronic module is arranged within the receiving space. At least one cable, which is used to transmit information and/or energy, connects a connection plug to the electronic module. A free end of a bearing arm which can be pivotally mounted on a motor vehicle protrudes from the first longitudinal end of the handle body, and the connection plug is arranged on the bearing arm free end. A strain-relief cable guide element, which is designed to guide the at least one cable, is releasably attached to the handle body and extends between the electronic module and the connection plug.

A device for implant in a hole in cranium relative to a bone table includes a can having an electrical-contact pad. The can has a perimeter edge defining a boundary, and a recessed portion with an upper surface positioned to lie beneath the bone table when the can is placed in the hole. The device also include a cover assembly that couples to and decouples from the can at the electrical-contact pad. A strain relief system includes a lower strain relief and an upper strain relief. The lower strain relief defines channels that receive a portion of a lead and includes a curved portion that extends upward from the upper surface of the recessed portion to the bone table, and a linear portion that extends from the curved portion to an end beyond the perimeter edge. The upper strain relief couples to and decouples from the can and/or the lower strain relief.

The present disclosure describes a power cable connector. The connector includes a generally cylindrical main body having a bore therethrough, a back cover configured to be removably secured to an end of the main body, a first seal sized to fit within at least a portion of the bore of the main body, a pair of female conductor pins configured to be coupled to the inner conductors of a power cable, an insulator having a pair of inner channels sized to receive the pair of female conductor pins, wherein the insulator is configured to be removably secured to an opposing end of the main body, a second seal sized to fit within at least a portion of the insulator, an end cap, a third seal residing between the insulator and the end cap, and a locking nut configured to secure to the end cap to the insulator. Power cable connector assemblies and methods of assembling a power cable connector are also described herein.

A magnetic latching connector for making electrical connections between cables, electrical power and signal sources, equipment and the like in a variety of medical and other applications in which it is desired to have the connection maintained with a predetermined amount of magnetic attractive force. The magnetic latching connector generally includes male and female connector components. The male and female connector components comprise male and female couplings and male and female coupling housings. The male and female coupling housings enclose electrical connections between the male and female couplings and electrical cables. Recessed within the male and female couplings are electrically conductive pins and sockets and male and female magnetic latching elements. When the male and female connector components are coupled, the pins and sockets provide electrical connections and the recessed magnetic latching elements provide a predetermined magnetic attraction force to maintain the connections.

A connector assembly comprising a male connector, and a female connector mateable to the male connector. Each of the male and female connectors include a shielding shell having two identical shielding half shells each comprising a bottom wall and a pair of side walls, a protrusion formed on one of the pair of side walls, and a latch formed on the other of the pair of side walls. The latch of one of the two shielding half shells engages with the protrusion of the other of the two shielding half shells for locking the two shielding half shells together. A terminal module is installed in each of the shielding shells. The terminal module and shielding shell of the male connector is adapted to be received within and electrically connected to the female connector.