A circuit board assembly includes a circuit board and an electrical connector having a connector housing holding contacts in a contact array. The connector housing has a mating end configured to be mated with a mating electrical connector in a mating direction. The electrical connector has cables terminated to the contacts and extending from a cable end. A connector mount is used to locate the electrical connector relative to the circuit board. A bracket is coupled to the mounting surface of the circuit board. A biasing member is coupled to the bracket and the mounting feature and is compressible along a compression axis parallel to the mating direction to allow the electrical connector to float in the mating direction relative to the circuit board.

An electrical contact element for electrically contacting a mating contact element includes: a plurality of contact lamellae which are arranged around a plug opening into which a mating contact element is pluggable along a plug direction and which together form a groove that encircles the contact lamellae around the plug direction; and a spring element that is arranged on the groove and engages the contact lamellae to provide an elastic clamping force on the contact lamellae. The contact lamellae each have an inner surface which faces the plug opening and is straight in cross section transversely to the plug direction.

An electrical contact element for electrically contacting a mating contact element includes: a plurality of contact lamellae which are arranged around a plug opening into which a mating contact element is pluggable along a plug direction and which together form a groove that encircles the contact lamellae around the plug direction; and a spring element that is arranged on the groove and engages the contact lamellae to provide an elastic clamping force on the contact lamellae. The contact lamellae each have an inner surface which faces the plug opening and is straight in cross section transversely to the plug direction.

An electrical connector assembly is provided. The electrical connector assembly includes a housing and two electrically conductive connection members. Each of the two electrically conductive connection members is arranged in the housing and is connected to at least one electrically conductive cable. The electrically conductive connection member has an electrically conductive terminal, a cable connection member, and a terminal holding member. The electrically conductive terminal has two leaf springs that are opposite to each other and a U-shaped connection part connected between the two leaf springs. The cable connection member is bent and has a first connection part and a second connection part. The terminal holding member has two sheet bodies that are arranged opposite to each other and a plate-shaped connection part connected between same sides of the two sheet bodies, so that the terminal holding member is in a shape of an inverted U.

The connector includes: an axial member that is a cylindrical conductor; a central contact disposed inside along a central axis of the axial member; an insulating member interposed between the axial member and the central contact and which holds the central contact; a first flange and a second flange provided on an outer peripheral surface of the axial member; and a metal spring provided along an outer peripheral surface of the axial member. The metal spring includes: a C-shaped metal spring body; curved parts; elastic pieces that extend from the curved parts so as to face an outer peripheral surface of the metal spring body; inner protrusions provided on an inner peripheral surface of the metal spring body so as to protrude inside the metal spring body; and outer protrusions provided on outer peripheral surfaces of the elastic pieces so as to protrude outside the elastic pieces.

The connector includes: an axial member that is a cylindrical conductor; a central contact disposed inside along a central axis of the axial member; an insulating member interposed between the axial member and the central contact and which holds the central contact; a first flange and a second flange provided on an outer peripheral surface of the axial member; and a metal spring provided along an outer peripheral surface of the axial member. The metal spring includes: a C-shaped metal spring body; curved parts; elastic pieces that extend from the curved parts so as to face an outer peripheral surface of the metal spring body; inner protrusions provided on an inner peripheral surface of the metal spring body so as to protrude inside the metal spring body; and outer protrusions provided on outer peripheral surfaces of the elastic pieces so as to protrude outside the elastic pieces.

An electrical connector includes at least one base body with at least one contact portion and at least one connection portion. The connection portion is provided for fastening an electrical conductor. The base body is made of a first material, and a layer of a second material is arranged in a surface area of the contact portion. An electrical connector that ensures reliable electrical contacting even under heavy mechanical stresses is realized by applying the layer of the second material by means of roll cladding or an additive manufacturing process.

An electrical connector includes at least one base body with at least one contact portion and at least one connection portion. The connection portion is provided for fastening an electrical conductor. The base body is made of a first material, and a layer of a second material is arranged in a surface area of the contact portion. An electrical connector that ensures reliable electrical contacting even under heavy mechanical stresses is realized by applying the layer of the second material by means of roll cladding or an additive manufacturing process.

A female terminal is provided with a pair of connecting portions arranged to face each other across a male terminal insertion gap, a spring member held on the pair of connecting portions while sandwiching the pair of connecting portions and configured to bias the pair of connecting portions in mutually approaching directions along a facing direction, and a stopper protrusion projecting on at least one of the pair of connecting portions and configured to come into contact with the other of the pair of connecting portions to hold the male terminal insertion gap by restricting displacements of the pair of connecting portions in the approaching directions. Displacements in separating directions of the pair of connecting portions are allowed against a biasing force of the spring member, whereby a male terminal is press-fit into the male terminal insertion gap and disposed between the pair of connecting portions.

An electrical connector includes an insulating housing, at least one flexible printed circuit board mounted in the insulating housing, at least one location block disposed to a middle of an outer surface of the at least one flexible printed circuit board, at least one elastic structure disposed on an outer surface of the at least one location block, and a shell. The at least one flexible printed circuit board includes an outer ground layer, a signal layer and an inner ground layer. The signal layer has a plurality of traces. Each trace has a main portion, at least one contact portion and a soldering portion. The shell surrounds the insulating housing, the at least one flexible printed circuit board, the at least one location block and the at least one elastic structure.