Connector having coupling mechanism

What is claimed is: 1. A connector comprising: a shell having a chamber, the shell having a mating end configured to be mated with a mating connector, the shell holding at least one contact; and a coupling mechanism rotatable about the shell in a tightening direction and in an untightening direction, the coupling mechanism comprising an inner coupling nut and an outer coupling nut separate from the inner coupling nut, the inner coupling nut having threads configured to be threadably coupled to the mating connector, the inner coupling nut having a track defined by track walls formed into an outer surface of the inner coupling nut, the outer coupling nut having a cavity receiving the inner coupling nut, the outer coupling nut having a post extending into the cavity and being received in the track, the post engaging the track walls to tighten and untighten the inner coupling nut to the mating connector, the post being released from the track wall into the track when the connector is fully mated to the mating connector such that the outer coupling nut is freely rotatable in the track in the tightening direction when the connector is fully mated to the mating connector. 2. The connector of claim 1 , wherein the outer coupling nut is axially displaceable relative to the inner coupling nut. 3. The connector of claim 1 , further comprising a biasing mechanism between the inner coupling nut and the outer coupling nut. 4. The connector of claim 1 , wherein the track includes a circumferential groove, when the post is received in the circumferential groove, the outer coupling nut is freely rotatable about the inner coupling nut. 5. The connector of claim 1 , wherein the track includes a circumferential groove having an upper track wall and a lower track wall, the track having an untightening slot extending transversely upward from the upper track wall, the post being received in the untightening slot when the outer coupling nut is rotated in the untightening direction. 6. The connector of claim 5 , further comprising a biasing mechanism between the inner coupling nut and the outer coupling nut, the biasing mechanism biasing the post into the untightening slot. 7. The connector of claim 5 , wherein the post bypasses the untightening slot when the outer coupling nut is rotated in the tightening direction. 8. The connector of claim 1 , wherein the track includes a circumferential groove having an upper track wall and a lower track wall, the track having a tightening slot extending transversely downward from the lower track wall, the post configured to be received in the tightening slot when the outer coupling nut is rotated in the tightening direction. 9. The connector of claim 8 , wherein the tightening slot includes a ramped segment defined by a ramped track wall angled transverse to the circumferential groove, the post pressing against the ramped track wall as the outer coupling nut is rotated in the tightening direction to cause the inner coupling nut to rotate in the tightening direction until the connector is fully mated to the mating connector afterwhich the outer coupling nut rotates relative to the inner coupling nut in the tightening direction. 10. The connector of claim 9 , wherein the tightening slot further comprises a release segment at an end of the ramped segment, the post releasing from the ramped track wall in the release segment, the outer coupling nut rotating relative to the inner coupling nut as the post passes through the release segment. 11. The connector of claim 10 , wherein the tightening slot further comprises a return segment connecting the release segment and the circumferential groove, the post passing through the return segment to the circumferential groove. 12. The connector of claim 8 , further comprising a biasing mechanism between the inner coupling nut and the outer coupling nut, the biasing mechanism biasing the post into the tightening slot. 13. The connector of claim 8 , wherein the post bypasses the tightening slot when the outer coupling nut is rotated in an untightening direction. 14. A connector comprising: a shell having a chamber, the shell having a mating end configured to be mated with a mating connector, the shell holding at least one contact; and a coupling mechanism rotatable about the shell in a tightening direction and in an untightening direction, the coupling mechanism comprising an inner coupling nut and an outer coupling nut separate from the inner coupling nut, the inner coupling nut having threads configured to be threadably coupled to the mating connector, the inner coupling nut having a track defined by track walls formed into an outer surface of the inner coupling nut, the track comprising a circumferential groove extending entirely around the inner coupling nut, a tightening slot extending from the circumferential groove and an untightening slot extending from the circumferential groove, the outer coupling nut having a cavity receiving the inner coupling nut, the outer coupling nut having a post extending into the cavity, the post being received in the track, the post being received in the circumferential groove to allow the outer coupling nut to rotate freely relative to the inner coupling nut in both the untightening and the tightening directions, the post being received in the untightening slot during rotation of the outer coupling nut in the untightening direction to force the inner coupling nut to rotate in the untightening direction, the post being received in the tightening slot during rotation of the outer coupling nut in the tightening direction to force the inner coupling nut to rotate in the tightening direction. 15. The connector of claim 14 , wherein the outer coupling nut is axially displaceable relative to the inner coupling nut. 16. The connector of claim 14 , further comprising a first biasing mechanism between the inner coupling nut and the outer coupling nut and a second biasing mechanism between the inner coupling nut and the outer coupling nut, the first and second biasing mechanisms biasing the outer coupling nut relative to the inner coupling nut to align the posts with the track. 17. The connector of claim 14 , wherein the circumferential groove has an upper track wall and a lower track wall, the untightening slot extending transversely upward from the upper track wall, the tightening slot extending transversely downward from the lower track wall. 18. The connector of claim 14 , wherein the tightening slot includes a ramped segment defined by a ramped track wall angled transverse to the circumferential groove, the post pressing against the ramped track wall to cause the inner coupling nut to rotate in the tightening direction. 19. The connector of claim 18 , wherein the tightening slot further comprises a release segment at an end of the ramped segment, the post releasing from the ramped track wall in the release segment, the outer coupling nut rotating relative to the inner coupling nut as the post passes through the release segment. 20. The connector of claim 19 , wherein the tightening slot further comprises a return segment connecting the release segment and the circumferential groove, the post passing through the return segment to the circumferential groove.