A connector includes a housing extending in a predetermined direction intersecting the fitting direction, a plurality of contacts held by the housing and arrayed along the predetermined direction, and a reinforcing member held at an end portion of the housing in the predetermined direction and made of a metal material, the reinforcing member having a first member and a second member, the first member including a first reinforcing portion extending in a U-shape along the end portion of the housing when viewed in the fitting direction, and a connecting portion connected to the first reinforcing portion and electrically connected to a counter reinforcing member of the counter connector, the second member being formed as a separate component from the first member and including a second reinforcing member extending in a U-shape along the first reinforcing portion when viewed in the fitting direction.

A production method for a terminal includes: a first pressing step for pressing a parent material plate made of a conductive metal and punching out a prescribed shape; a second pressing step following the first pressing step, for bending the plate of prescribed shape, and forming a terminal provided with a box part onto the front surface of which opens a terminal insertion port into which a partner terminal is inserted, and a spring contact part arranged inside the box part; and a plating step following the second pressing step, for plating at least the spring contact part with a conductive metal.

A production method for a terminal includes: a first pressing step for pressing a parent material plate made of a conductive metal and punching out a prescribed shape; a second pressing step following the first pressing step, for bending the plate of prescribed shape, and forming a terminal provided with a box part onto the front surface of which opens a terminal insertion port into which a partner terminal is inserted, and a spring contact part arranged inside the box part; and a plating step following the second pressing step, for plating at least the spring contact part with a conductive metal.

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.

A connector 10 disclosed by this specification is a connector 10 into which a plate-like mating terminal 100 is insertable and is provided with a plate-like connection terminal 20, a spring portion 80, and a housing 40 including an insertion opening into which the mating terminal 100 is inserted, the spring portion 80 being held in the housing 40. The mating terminal 100 inserted into the insertion opening and the connection terminal 20 are sandwiched by the spring portion 80.

A connector 10 disclosed by this specification is a connector 10 into which a plate-like mating terminal 100 is insertable and is provided with a plate-like connection terminal 20, a spring portion 80, and a housing 40 including an insertion opening into which the mating terminal 100 is inserted, the spring portion 80 being held in the housing 40. The mating terminal 100 inserted into the insertion opening and the connection terminal 20 are sandwiched by the spring portion 80.

Various crimpless electrical connector assemblies are disclosed. The crimpless connector can include a crimpless contact configured to join two electrical conductors. A portion of the crimpless contact can be received in an outer housing that comprises a tapered lumen. The crimpless contact can be coupled to an activation unit, such as with a threaded connection. Rotation of the activation unit can cause the crimpless contact to translate within the outer housing and the tines to be compressed against the first conductor, thereby physically securing the first conductor in the crimpless connector.

A communication outlet for use with a communication plug comprising a plurality of plug contacts. The outlet includes contact pads, contact members, and a biasing member. The contact members each have an electrically conductive portion attached to an electrically non-conductive portion. Each of the conductive portions forms an electrical connection with a different corresponding one of the contact pads. Each of the contact members is movable with respect to its corresponding contact pad. The contact members are movable with respect the plug contacts. The biasing member is attached to the non-conductive portion of each of the contact members and is configured to bias the conductive portion of each of the contact members toward a different corresponding one of the plug contacts when the plug is inserted into the outlet.

A communication outlet for use with a communication plug comprising a plurality of plug contacts. The outlet includes contact pads, contact members, and a biasing member. The contact members each have an electrically conductive portion attached to an electrically non-conductive portion. Each of the conductive portions forms an electrical connection with a different corresponding one of the contact pads. Each of the contact members is movable with respect to its corresponding contact pad. The contact members are movable with respect the plug contacts. The biasing member is attached to the non-conductive portion of each of the contact members and is configured to bias the conductive portion of each of the contact members toward a different corresponding one of the plug contacts when the plug is inserted into the outlet.

A connector apparatus for a medical device includes a cylindrical core of nonconductive material, a beam of conductive material, and a sleeve of conductive material. The cylindrical core includes an outside surface, an inside surface, a hollow center having a cross sectional area, and a slot opening in the cylindrical core extending from the outside surface to the inside surface. The beam is placed in the slot opening in the cylindrical core, wherein the beam reduces the cross-sectional area of the hollow center of the cylindrical core. The sleeve of conductive material is placed over the outside surface of the cylindrical core.