Disclosed is a plug connector for positioning on a mating connector and for producing an electrically conductive connection. The plug connector comprises a guide means and a contact pin. The guide means is configured and positioned such that to produce the electrically conductive connection, contact bars of a contact socket of the mating connector can be guided by means of the guide means toward the contact pin, said contact bars encompassing the contact pin in a frictional engagement to establish electrical contact.

Disclosed is a plug connector for positioning on a mating connector and for producing an electrically conductive connection. The plug connector comprises a guide means and a contact pin. The guide means is configured and positioned such that to produce the electrically conductive connection, contact bars of a contact socket of the mating connector can be guided by means of the guide means toward the contact pin, said contact bars encompassing the contact pin in a frictional engagement to establish electrical contact.

An electrical connector (1) including a male contact (5) and a female contact (10) movable between a non-inserted position, and an inserted position, wherein an electrically conductive insertable portion (12) of the male contact (5) is inserted along an insertion axis (D) into a housing (14) defined by the female contact, the female contact including: an electrically conductive body (22), a plurality of strips (26) protruding axially from the body and angularly distributed around the insertable portion in the inserted position, the strips being electrically conductive and radially flexible, the body and the strips defining the housing, and at least one annular contention member (28) positioned on radially external faces (30) of the strips and adapted for exerting a centripetal radial pressure on the strips in the inserted position, the strips having radially internal faces (42) flattened against the insertable portion in the inserted position.

An electric terminal includes a contact portion that includes a contact box. A first contact arm extends from the contact box and is adapted to engage a corresponding terminal. The electric terminal also includes a spring portion with a first spring box that is located around a portion of the contact box. The spring portion also includes a second spring box that is located adjacent to the first spring box. The first spring box includes a first spring arm that engages the first contact arm. The second spring box includes a first guard that engages the first spring arm.

An electric terminal includes a contact portion that includes a contact box. A first contact arm extends from the contact box and is adapted to engage a corresponding terminal. The electric terminal also includes a spring portion with a first spring box that is located around a portion of the contact box. The spring portion also includes a second spring box that is located adjacent to the first spring box. The first spring box includes a first spring arm that engages the first contact arm. The second spring box includes a first guard that engages the first spring arm.

Systems and methods providing an electrical interface between a male plug (1002) and a female receptacle (100, 500, 1000, 1600). The methods comprise: receiving a conductive pin (402, 800, 1006, 1602) of the male plug in a socket opening (112, 900, 1012, 1612) of the female receptacle; providing (a) first spring loaded floating contact points (460) between an elongate body (422) of the conductive pin and an electrical contact (106A-106B) of the female receptacle and (b) at least one second spring loaded floating contact point (462) between a tip (420) of the conductive pin and the electrical contact (110) of the female receptacle, when the conductive pin is fully inserted into the female receptacle; and maintaining at least two of the spring loaded floating contact points when the pin moves within the socket opening as a result of an external force applied to the male plug or female receptacle.

Systems and methods providing an electrical interface between a male plug (1002) and a female receptacle (100, 500, 1000, 1600). The methods comprise: receiving a conductive pin (402, 800, 1006, 1602) of the male plug in a socket opening (112, 900, 1012, 1612) of the female receptacle; providing (a) first spring loaded floating contact points (460) between an elongate body (422) of the conductive pin and an electrical contact (106A-106B) of the female receptacle and (b) at least one second spring loaded floating contact point (462) between a tip (420) of the conductive pin and the electrical contact (110) of the female receptacle, when the conductive pin is fully inserted into the female receptacle; and maintaining at least two of the spring loaded floating contact points when the pin moves within the socket opening as a result of an external force applied to the male plug or female receptacle.

A connector for an implantable medical device includes a lumen extending from a port defined along a length of a connector housing. Axially-spaced-apart connector couplers are disposed along the lumen and are configured to couple to a proximal end of an inserted lead or lead extension. Each of the connector couplers includes a plurality of circumferentially-spaced-apart coupling members and at least one elastic member. The plurality of circumferentially-spaced-apart coupling members each have inner surfaces and outer surfaces. The inner surfaces of the coupling members are configured and arranged to couple to the proximal end of the lead or lead extension when the proximal end of the lead or lead extension is inserted into the lumen. The at least one elastic member couples the coupling members to one another such that a distance between the coupling members is expandable.

A connector for an implantable medical device includes a lumen extending from a port defined along a length of a connector housing. Axially-spaced-apart connector couplers are disposed along the lumen and are configured to couple to a proximal end of an inserted lead or lead extension. Each of the connector couplers includes a plurality of circumferentially-spaced-apart coupling members and at least one elastic member. The plurality of circumferentially-spaced-apart coupling members each have inner surfaces and outer surfaces. The inner surfaces of the coupling members are configured and arranged to couple to the proximal end of the lead or lead extension when the proximal end of the lead or lead extension is inserted into the lumen. The at least one elastic member couples the coupling members to one another such that a distance between the coupling members is expandable.

A device for receiving a data carrier has a receiving body that has a receiving region with a circular-cylindrical cross-section, wherein the receiving region has a circular opening on one end of the receiving body that corresponds to the cross-section of the receiving region, a data carrier which is arranged at least partially in the receiving region, and a circular-cylindrical fixing pin that is arranged on the other end of the receiving body.