Electrical assembly having a backshell with a cable follower

What is claimed is: 1. An electrical assembly comprising: a backshell having a coupling nut defining a cavity and a cable follower received in the cavity and extending rearward from the coupling nut, the coupling nut having a pocket, the cable follower having a plurality of rearward extending spring fingers extending to distal ends, the spring fingers defining a cable channel configured to receive a cable, the spring fingers being deflectable and being spring biased against the cable to provide a clamping force against the cable, the spring fingers being tapered inward to the distal ends to define a generally conical shaped cable channel, the spring fingers being spring biased against the cable in different radial directions to substantially center the cable in the cable channel; and a retention feature coupled between the cable follower and the coupling nut, the retention feature allowing the coupling nut to be rotatably coupled to the cable follower such that the coupling nut is rotatable relative to the cable, the coupling nut being configured to be coupled to a front shell of the electrical assembly, wherein the retention feature is held in the pocket in the coupling nut and rotatable with the coupling nut about the cable follower. 2. The electrical assembly of claim 1 , wherein the spring fingers are circumferentially disposed around the cable channel and diametrically opposed to each other to provide clamping forces on opposite sides of the cable. 3. An electrical assembly comprising: a backshell having a coupling nut defining a cavity and a cable follower received in the cavity and extending rearward from the coupling nut, the cable follower having ratchet slots at a front end of the cable follower, the cable follower having a plurality of rearward extending spring fingers extending to distal ends, the spring fingers defining a cable channel configured to receive a cable, the spring fingers being deflectable and being spring biased against the cable to provide a clamping force against the cable, the spring fingers being tapered inward to the distal ends to define a generally conical shaped cable channel, the spring fingers being spring biased against the cable in different radial directions to substantially center the cable in the cable channel; and a retention feature coupled between the cable follower and the coupling nut, the retention feature having a ratchet feature operably received in the ratchet slots to rotatably fix the coupling nut to the cable follower at defined ratchet positions, the retention feature allowing the coupling nut to be rotatably coupled to the cable follower such that the coupling nut is rotatable relative to the cable, the coupling nut being configured to be coupled to a front shell of the electrical assembly. 4. An electrical assembly comprising: a backshell having a coupling nut defining a cavity and a cable follower received in the cavity and extending rearward from the coupling nut, the coupling nut having a groove, the cable follower having a groove, the cable follower having a plurality of rearward extending spring fingers extending to distal ends, the spring fingers defining a cable channel configured to receive a cable, the spring fingers being deflectable and being spring biased against the cable to provide a clamping force against the cable, the spring fingers being tapered inward to the distal ends to define a generally conical shaped cable channel, the spring fingers being spring biased against the cable in different radial directions to substantially center the cable in the cable channel; and a retention feature coupled between the cable follower and the coupling nut, the retention feature allowing the coupling nut to be rotatably coupled to the cable follower such that the coupling nut is rotatable relative to the cable, the coupling nut being configured to be coupled to a front shell of the electrical assembly, wherein the retention feature is a captive ring discrete from the cable follower and from the coupling nut, the captive ring being received in the groove in the cable follower and received in the groove in the coupling nut. 5. The electrical assembly of claim 1 , wherein the cable channel extends linearly through the back shell. 6. The electrical assembly of claim 1 , wherein the cavity extends along a cavity axis, the cable channel extending along a cable channel axis, the cable channel axis being angled nonparallel to the cavity axis. 7. The electrical assembly of claim 1 , wherein the spring fingers are cantilevered to the distal ends and circumferentially spaced apart by gaps to allow independent movement of the spring fingers relative to each other. 8. The electrical assembly of claim 1 , wherein the cable follower has a base ring, the spring fingers extending rearward from the base ring, the cable channel at the base ring having a first diameter, the cable channel at the distal ends having a second diameter less than the first diameter. 9. The electrical assembly of claim 1 , wherein the spring fingers are uniformly spaced circumferentially around the cable channel to provide a uniform clamping force around the cable. 10. The electrical assembly of claim 1 , wherein the spring fingers include a clamp end at or near the distal ends of the spring fingers configured to engage the cable, the spring fingers having ribs at the clamp end extending laterally across the spring fingers to provide positive retention of a band strap around the spring fingers. 11. The electrical assembly of claim 1 , wherein the spring fingers include a clamp end at or near the distal ends of the spring fingers configured to engage the cable, the spring fingers having tabs extending inward from interior surfaces of the spring fingers at the clamp end, the tabs extending laterally across the spring fingers to dig into the cable. 12. The electrical assembly of claim 1 , wherein the retention feature comprising a ratchet feature to rotatably fixed the coupling nut to the cable follower at defined ratchet positions. 13. The electrical assembly of claim 1 , further comprising a cavity insert received in the cavity, the cavity insert having a braid lip configured to be mechanically and electrically coupled to a cable braid of the cable, the cavity insert having a keying feature configured to engage the cable follower to secure the relative position of the cavity insert with respect to the cable follower. 14. The electrical assembly of claim 13 , wherein the cavity insert includes anti-rotation teeth to resist rotation of the cavity insert and the cable follower relative to the front shell. 15. An electrical assembly comprising: a backshell having a coupling nut defining a cavity, a cavity insert received in the cavity and a cable follower received in the cavity and extending rearward from the coupling nut for supporting a cable; the cavity insert having a braid lip configured to be mechanically and electrically coupled to a cable braid of the cable, the cavity insert having a keying feature configured to engage the cable follower to secure the relative position of the cavity insert with respect to the cable follower; the cable follower having a plurality of rearward extending spring fingers extending to distal ends, the spring fingers defining a cable channel configured to receive the cable, the spring fingers being deflectable and being spring biased against the cable to provide a clamping force against the cable, the spring fingers being tapered inward to the distal ends to define a generally conical shaped cable channel, the spring fingers being spring biased against the cable in different radial di