Electrical contact component

What is claimed is: 1. An electrical contact component ( 100 ) for a contact socket ( 200 ) of an implantable medical device, the electrical contact component including: A. an electrical contact element ( 140 ) configured to electrically contact an electrical counter contact ( 300 ); and B. an electrically conductive outer ring ( 110 ) having a borehole configured to receive the electrical counter contact ( 300 ), the outer ring ( 110 ) having an interior including a depression ( 111 ) receiving the electrical contact element ( 140 ), wherein the electrical contact element ( 140 ) includes: a. several contact bodies ( 142 ), b. a cage element ( 141 ) receiving the contact bodies ( 142 ), and c. an electrically conductive spring element ( 150 ): (1) situated within the depression ( 111 ) between the contact bodies ( 142 ) and the interior of the outer ring ( 110 ), and (2) being configured to keep at least one of the contact bodies ( 142 ) in electrical contact with the outer ring ( 110 ) and the electrical counter contact ( 300 ). 2. The electrical contact component ( 100 ) of claim 1 wherein: a. the outer ring ( 110 ) includes a housing ( 120 ) and a cover ( 130 ), b. the housing ( 120 ) and the cover ( 130 ) each including an interior having a web ( 121 , 131 ) thereon, c. the webs ( 121 , 131 ) bound the depression ( 111 ). 3. The electrical contact component ( 100 ) of claim 1 wherein the depression ( 111 ) has one of the following cross-sectional shapes: semi-circular, triangular, rectangular, trapezoidal, or quarter-round. 4. The electrical contact component ( 100 ) of claim 1 wherein the contact bodies ( 142 ) have circular cross-sectional shapes. 5. The electrical contact component ( 100 ) of claim 4 wherein the contact bodies ( 142 ) are defined by balls or rolls. 6. The electrical contact component ( 100 ) of claim 1 wherein: a. the depression ( 111 ) is defined by an annular groove within the interior of the outer ring ( 110 ), and b. the cage element ( 141 ) and the electrically conductive spring element ( 150 ) extend through at least substantially the entirety of the depression. 7. The electrical contact component ( 100 ) of claim 1 wherein one or more of: a. the depression ( 111 ), b. the cage element ( 141 )), and c. the spring element ( 150 ), extend about at least substantially the entirety of the borehole. 8. The electrical contact component ( 100 ) of claim 1 wherein the spring element ( 150 ) is defined by a resiliently flexible member extending through at least substantially the entirety of the depression ( 111 ). 9. The electrical contact component ( 100 ) of claim 1 wherein the spring element ( 150 ) is defined by an annulus. 10. The electrical contact component ( 100 ) of claim 9 wherein the annulus is an annular tube. 11. The electrical contact component ( 100 ) of claim 9 wherein the annulus is an annular coil spring. 12. The electrical contact component ( 100 ) of claim 9 wherein the annular spring element ( 150 ) has one of the following cross-sectional shapes: round, z-shaped, c-shaped, semi-circular, Ω-shaped, or rectangular. 13. The electrical contact component ( 100 ) of claim 1 wherein each contact body ( 142 ) has a respective spring element ( 150 ) urging against each contact body ( 142 ). 14. The electrical contact component ( 100 ) of claim 1 wherein: a. the cage element ( 141 ) includes an annular ring having openings therein, b. each contact body ( 142 ) is received within one of the openings, c. each opening is sized to prevent passage of its contact body ( 142 ) therethrough. 15. The electrical contact component ( 100 ) of claim 1 wherein the electrical contact element ( 100 ) includes 7 to 15 contact bodies ( 142 ). 16. The electrical contact component ( 100 ) of claim 1 further including an implantable medical device wherein the electrical contact component ( 100 ) is situated. 17. The implantable medical device of claim 16 wherein the implantable medical device defines a cardiac pacemaker, a cardioverter-defibrillator, or a neurostimulator. 18. An electrical contact component ( 100 ) for a contact socket ( 200 ) of an implantable medical device, the electrical contact component including: A. an electrically conductive outer ring ( 110 ) having a borehole configured to receive an electrical counter contact ( 300 ), the outer ring ( 110 ) having an interior with a depression ( 111 ) defined therein, B. an electrical contact element ( 140 ): a. configured to electrically contact an electrical counter contact ( 300 ) received within the borehole of the outer ring ( 110 ), b. situated within the depression ( 111 ), and c. including: (1) a cage element ( 141 ), (2) contact bodies ( 142 ) situated within openings in the cage element ( 141 ), (3) an electrically conductive spring element ( 150 ) situated in compression between the contact bodies ( 142 ) and the interior of the outer ring ( 110 ). 19. The electrical contact component ( 100 ) of claim 18 wherein: a. the depression ( 111 ) is defined by an annular groove within the interior of the outer ring ( 110 ), b. the cage element ( 141 ) and the electrically conductive spring element ( 150 ) extend through at least substantially the entirety of the depression, and c. the contact bodies ( 142 ) are defined by balls or rolls. 20. An electrical contact component ( 100 ) for a contact socket ( 200 ) of an implantable medical device, the electrical contact component including: A. an electrically conductive outer ring ( 110 ) having a borehole configured to receive an electrical counter contact ( 300 ), the outer ring ( 110 ) having an interior with an annular depression ( 111 ) defined therein, B. an electrical contact element ( 140 ): a. configured to electrically contact an electrical counter contact ( 300 ) received within the borehole of the outer ring ( 110 ), b. including: (1) an electrically conductive spring element ( 150 ) extending along the depression ( 111 ) against the outer ring ( 110 ), (2) an annular cage element ( 141 ) situated radially inwardly from the spring element ( 150 ), the cage element ( 141 ) having spaced openings thereon, and (3) contact bodies ( 142 ) situated between the spring element ( 150 ) and the cage element ( 141 ) and within the openings.