A telecommunications connector includes a connector body and a shield attached to the connector body, the shield including a main body portion configured for attachment to the connector body and a barrel portion for crimping against a cable to be terminated to the connector. The barrel portion of the shield includes a corrugated side wall made up of a series of bends extending along a direction from the rear end of the barrel toward the front end of the barrel along at least a portion of a length of the barrel, wherein the bends defining the corrugated side wall are provided on the shield at a pre-crimped stage.

A method for aligning a crimper of a first tool relative to an anvil of a second tool in a crimping press, wherein a crimp connection is made by jointly by moving the crimper relative to the anvil in a first direction, includes: moving the crimper relative to the anvil in the first direction until the anvil is partially inside a cavity of the crimper; moving the anvil relative to the crimper in a second direction transverse to the first direction until detecting contact between the anvil and the crimper; moving the anvil relative to the crimper opposite to the second direction until detecting contact between the anvil and the crimper for determining a gap width between the anvil and the crimper; and moving the anvil relative to the crimper in the second direction by a distance which is equal to half of the determined gap width.

An electric connector terminal assembly which allows numerous different terminal connector ends and wire diameters to be connected to a single size and type crimp cylinder using an rolled metal strip insert. Preferably, the metal strip is made of copper, and preferably the copper strip is coated with tin. The metal strip is then formed into a cylinder for insertion to the crimp cylinder. A method for connecting a crimp terminal to an electric wire is also disclosed. The method requires cutting a metal strip to form a plurality of parallel compliant members (e.g., fingers) connected to a base, rolling the cut strip to form a cylindrical insert, positioning the insert within a crimp cylinder of an electric connector with the fingers extending toward the mating end, inserting an electric wire within the cylindrical insert, and crimping the crimp cylinder to secure the electric wire within the cylindrical insert and crimp cylinder.

An electrical connector includes conductive male and female contacts and insulating inner and outer sleeves, and connects first and second electrical wires end-to-end. The contacts can be attached to corresponding conductors of the first and second wires. The male contact includes an elongated pin; the female contact includes a receptacle. Inserting the pin into the receptacle results in mechanical engagement of, and electrical continuity between, the assembled contacts. The assembled contacts can be positioned within the compressible inner sleeve, which extends beyond the ends of the assembled contacts. The inner sleeve, with the assembled contacts therein, can be positioned within the rigid outer sleeve, which extends at least as far as the inner sleeve. Compression of the inner sleeve by the ends of the outer sleeve frictionally engages the ends of the inner sleeve with the corresponding wires.

An electrical connector includes conductive male and female contacts and insulating inner and outer sleeves, and connects first and second electrical wires end-to-end. The contacts can be attached to corresponding conductors of the first and second wires. The male contact includes an elongated pin; the female contact includes a receptacle. Inserting the pin into the receptacle results in mechanical engagement of, and electrical continuity between, the assembled contacts. The assembled contacts can be positioned within the compressible inner sleeve, which extends beyond the ends of the assembled contacts. The inner sleeve, with the assembled contacts therein, can be positioned within the rigid outer sleeve, which extends at least as far as the inner sleeve. Compression of the inner sleeve by the ends of the outer sleeve frictionally engages the ends of the inner sleeve with the corresponding wires.

A fixing device is used to fix a cable to a substrate. The cable has a first conductor and a second conductor. The substrate has a first substrate fixing portion and a second substrate fixing portion which corresponding to the first conductor and the second conductor, respectively. The fixing device has a first electrode portion, a second electrode portion and a coupling portion which connects the first electrode portion and the second electrode portion to each other. The first electrode portion has a first connection portion to be connected to the first conductor and a first fixing portion to be connected to the first substrate fixing portion. The second electrode portion has a second connection portion to be connected to the second conductor and a second fixing portion to be connected to the second substrate fixing portion.

A fixing device is used to fix a cable to a substrate. The cable has a first conductor and a second conductor. The substrate has a first substrate fixing portion and a second substrate fixing portion which corresponding to the first conductor and the second conductor, respectively. The fixing device has a first electrode portion, a second electrode portion and a coupling portion which connects the first electrode portion and the second electrode portion to each other. The first electrode portion has a first connection portion to be connected to the first conductor and a first fixing portion to be connected to the first substrate fixing portion. The second electrode portion has a second connection portion to be connected to the second conductor and a second fixing portion to be connected to the second substrate fixing portion.

An electrical assembly includes a terminal having a terminal body, a first wing extending from the terminal body, and/or a second wing extending from the terminal body. An electrical assembly may include a conductor in electrical contact with the first wing. The conductor may include a conductive layer and/or an insulative layer. An inner surface of the first wing and/or an outer surface of the first wing may be in direct contact with the conductive layer of the conductor.

An electrical assembly includes a terminal having a terminal body, a first wing extending from the terminal body, and/or a second wing extending from the terminal body. An electrical assembly may include a conductor in electrical contact with the first wing. The conductor may include a conductive layer and/or an insulative layer. An inner surface of the first wing and/or an outer surface of the first wing may be in direct contact with the conductive layer of the conductor.

Systems, apparatus, and/or processes directed to applying pressure to a socket to alter a shape of the socket to improve a connection between the socket and a substrate, printed circuit board, or other component. The socket may receive one or more chips, may be an interconnect, or may be some other structure that is part of a package. The shape of the socket may be flattened so that a side of the socket may form a high-quality physical and electrical coupling with the substrate.