Floating bus bar and connector within chassis and powered slide rails

What is claimed is: 1. A powered slide rail, comprising: first and second telescoping segments slidably nested relative to each other; an elongate conductor disposed on a printed circuit board mounted to the first segment; and a conductive element mounted on the second segment and positioned for continuous sliding contact with the elongate conductor. 2. The powered slide rail according to claim 1 , wherein the conductive element is spring biased toward the elongate conductor. 3. The powered slide rail according to claim 2 , wherein the conductive element includes one or more fingers. 4. The powered slide rail according to claim 1 , further comprising a connector in electrical communication with the elongate conductor. 5. The powered slide rail according to claim 1 , further comprising a connector in electrical communication with the conductive element. 6. The powered slide rail according to claim 1 , wherein the first segment includes opposed grooves and the second segment includes a pair of flanges mating with the opposed grooves. 7. A powered slide rail, comprising: an outer segment including a first elongate conductor on a first printed circuit board; a middle segment slidably nested with the outer segment and including a second elongate conductor on a second printed circuit board and a first conductive element connected to the second elongate conductor and biased toward the first elongate conductor for continuous sliding contact with the first elongate conductor; and an inner segment slidably nested with the middle segment and including a second conductive element biased toward the second elongate conductor for continuous sliding contact with the second elongate conductor. 8. The powered slide rail according to claim 7 , wherein the first and second conductive elements each include one or more fingers. 9. The powered slide rail according to claim 7 , further comprising a first connector in electrical communication with the first elongate conductor. 10. The powered slide rail according to claim 7 , further comprising a second connector in electrical communication with the second conductive element. 11. The powered slide rail according to claim 7 , wherein the outer segment includes opposed grooves and the middle segment includes a pair of flanges mating with the opposed grooves. 12. The powered slide rail according to claim 11 , wherein the middle segment includes opposed middle grooves and the inner segment includes a pair of inner flanges mating with the opposed middle grooves. 13. A powered chassis, comprising a base; a chassis; a pair of powered slide rails, each comprising: an outer segment mounted to the base and including a first elongate conductor on a first printed circuit board; a middle segment telescopically attached to the outer segment and including a second elongate conductor on a second printed circuit board and a first conductive element connected to the second elongate conductor and biased toward the first elongate conductor for continuous sliding contact with the first elongate conductor; and an inner segment telescopically attached to the middle segment and attached to the chassis, the inner segment including a second conductive element biased toward the second elongate conductor for continuous sliding contact with the second elongate conductor. 14. The powered chassis according to claim 13 , further comprising a first connector in electrical communication with the first elongate conductor and a second connector in electrical communication with the second conductive element. 15. The powered chassis according to claim 13 , wherein the outer segment includes opposed grooves and the middle segment includes a pair of flanges mating with the opposed grooves and wherein the middle segment includes opposed middle grooves and the inner segment includes a pair of inner flanges mating with the opposed middle grooves.