Provided is an electrical connection device (1) including a connector (2) having a hollow connecting cavity (21), each of two opposite sides of the connecting cavity is connected to a conductive plug (22) electrically coupled with the connecting cavity (21). The connecting cavity (21) is form by a plurality of flexible conductive materials. When in use, the grid-like connecting cavity (21) made of the flexible conductive materials can be elongated, compressed, or radially twisted, and is adaptive to changes in relative displacement at various angles at various angles in the axial direction or radial direction between different electrical connecting bases, thereby preventing degradation of performance of electrical connection due to the changes in relative displacement.

Provided is an electrical connection device (1) including a connector (2) having a hollow connecting cavity (21), each of two opposite sides of the connecting cavity is connected to a conductive plug (22) electrically coupled with the connecting cavity (21). The connecting cavity (21) is form by a plurality of flexible conductive materials. When in use, the grid-like connecting cavity (21) made of the flexible conductive materials can be elongated, compressed, or radially twisted, and is adaptive to changes in relative displacement at various angles at various angles in the axial direction or radial direction between different electrical connecting bases, thereby preventing degradation of performance of electrical connection due to the changes in relative displacement.

A connector assembly includes a connector body with an elongated shape and a longitudinal axis. The connector body defines a port at a first end configured to receive a proximal portion of a lead or lead extension. Contact assemblies are axially spaced-apart within the connector body and collectively form a lumen that extends from the port along the longitudinal axis of the connector body. Each contact assembly includes a spring contact disposed within a contact housing. The spring contact has a contact region that extends diagonally with respect to the longitudinal axis of the connector body. The contact region is positioned within the contact housing so that insertion of the proximal portion of the lead or lead extension into the contact housing results in a bending deflection of the contact region of the spring contact while maintaining contact between the contact region and the lead or lead extension.

A connector assembly includes a connector body with an elongated shape and a longitudinal axis. The connector body defines a port at a first end configured to receive a proximal portion of a lead or lead extension. Contact assemblies are axially spaced-apart within the connector body and collectively form a lumen that extends from the port along the longitudinal axis of the connector body. Each contact assembly includes a spring contact disposed within a contact housing. The spring contact has a contact region that extends diagonally with respect to the longitudinal axis of the connector body. The contact region is positioned within the contact housing so that insertion of the proximal portion of the lead or lead extension into the contact housing results in a bending deflection of the contact region of the spring contact while maintaining contact between the contact region and the lead or lead extension.

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.

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.

A terminal fitting to be connected to a mating terminal in a form of a flat plate, the terminal fitting including: a body including a pair of side walls arranged to face each other and a coupling wall coupling the pair of side walls and capable of accommodating the mating terminal inside; and an obliquely wound coil spring arranged along the coupling wall inside the body, electrically connected to the body and configured to resiliently contact the mating terminal accommodated inside the body.

Provided is a connection structure for a power conversion device to be mounted in a vehicle, including: a casing of the power conversion device; an electric connection part, which is to be mechanically connected to the casing, and is configured to electrically connect the power conversion device and an external device to each other; and an electric conductor configured to electrically connect the power conversion device and the electric connection part to each other, wherein the casing and the electric connection part are mechanically connected to each other through intermediation of an anti-vibration structure, and wherein the electric conductor has such flexibility as to be able to follow a relative displacement between the casing and the electric connection part.

Provided is a connection structure for a power conversion device to be mounted in a vehicle, including: a casing of the power conversion device; an electric connection part, which is to be mechanically connected to the casing, and is configured to electrically connect the power conversion device and an external device to each other; and an electric conductor configured to electrically connect the power conversion device and the electric connection part to each other, wherein the casing and the electric connection part are mechanically connected to each other through intermediation of an anti-vibration structure, and wherein the electric conductor has such flexibility as to be able to follow a relative displacement between the casing and the electric connection part.

A plug element (10) includes a housing (10a, 10b) and two contact spring wires (17a, 18a) arranged and fixed in the housing (10a, 10b). The housing (10a, 10b) includes laterally arranged openings (25, 26), and the contact spring wires (17a, 18a) form spring pressure contacts (17a, 18a) in the area of the lateral openings (25, 26).