Electrical bus bar assembly

The invention claimed is: 1 . An electrical bus bar assembly, comprising: a first bus bar segment; a second bus bar segment separated from the first bus bar segment; a first plurality of bearings formed of an electrically conductive material and in electrical contact with the first bus bar segment and the second bus bar segment, the first plurality of bearings contains roller bearings arranged in a parallel alignment, the first plurality of bearings is configured to allow the first bus bar segment to move relative to the second bus bar segment; and a bearing retainer configured to maintain alignment of the first plurality of bearings, the bearing retainer is further configured to maintain the parallel alignment of the roller bearings. 2 . The electrical bus bar assembly in accordance with claim 1 , wherein the first plurality of bearings contains ball bearings arranged in an array and the bearing retainer is configured to maintain a distance between the ball bearings in the array. 3 . The electrical bus bar assembly in accordance with claim 1 , further comprising a clamp having a spring member disposed within the clamp and wherein the spring member is configured to apply a normal force to the first bus bar segment, the second bus bar segment, and the first plurality of bearings. 4 . The electrical bus bar assembly in accordance with claim 3 , wherein the clamp is affixed to the second bus bar segment. 5 . The electrical bus bar assembly in accordance with claim 3 , wherein the first bus bar segment is configured to move within the clamp in a direction parallel to the second bus bar segment. 6 . The electrical bus bar assembly in accordance with claim 1 , wherein the first plurality of bearings is formed of a tin-plated copper-based material. 7 . The electrical bus bar assembly in accordance with claim 1 , further comprising an electrically insulative housing surrounding the first plurality of bearings, a portion of the first bus bar segment, and a portion of the second bus bar segment. 8 . The electrical bus bar assembly of claim 3 , wherein the spring member applies a normal force in the range of 70 to 90 newtons. 9 . The electrical bus bar assembly of claim 3 , wherein the first plurality of bearings and the clamp are configured to permit movement of the first bus bar segment relative to the second bus bar segment in at least two orthogonal directions. 10 . An electrical bus bar assembly, comprising: a first bus bar segment; a second bus bar segment separated from the first bus bar segment; and a first plurality of bearings formed of an electrically conductive material and in electrical contact with the first bus bar segment and the second bus bar segment, wherein the first plurality of bearings is configured to allow the first bus bar segment to move relative to the second bus bar segment; a clamp having a spring member disposed within the clamp and wherein the spring member is configured to apply a normal force to the first bus bar segment, the second bus bar segment, and the first plurality of bearings; and a second plurality of bearings disposed between the spring member and the first bus bar segment. 11 . The electrical bus bar assembly in accordance with claim 10 , further comprising a bearing retainer configured to maintain alignment of the first plurality of bearings. 12 . The electrical bus bar assembly in accordance with claim 11 , wherein the first plurality of bearings contains roller bearings arranged in a parallel alignment and the bearing retainer is configured to maintain the parallel alignment of the roller bearings. 13 . The electrical bus bar assembly in accordance with claim 10 , the second plurality of bearings is formed of a material having a lower electrical conductivity than the electrically conductive material forming the first plurality of bearings. 14 . The electrical bus bar assembly in accordance with claim 10 , wherein the first plurality of bearings is formed of a tin-plated copper-based material. 15 . The electrical bus bar assembly in accordance with claim 10 , further comprising an electrically insulative housing surrounding the first plurality of bearings, a portion of the first bus bar segment, and a portion of the second bus bar segment. 16 . The electrical bus bar assembly of claim 10 , wherein the spring member applies a normal force in the range of 70 to 90 newtons. 17 . The electrical bus bar assembly of claim 10 , wherein the first and second plurality of bearings and the clamp are configured to permit movement of the first bus bar segment relative to the second bus bar segment in at least two orthogonal directions. 18 . An electrical bus bar assembly, comprising: a first bus bar segment; a second bus bar segment in mechanical and electrical contact with the first bus bar segment; a clamp having a spring member disposed within the clamp and wherein the spring member is configured to apply a normal force to the first bus bar segment and the second bus bar segment; a sealed electrically insulative housing surrounding the clamp, a portion of the first bus bar segment, and a portion of the second bus bar segment; and a lubricant disposed within the sealed electrically insulative housing. 19 . The electrical bus bar assembly in accordance with claim 18 , wherein the lubricant is an electrically conductive lubricant.