Fiber cable fan-out assembly and method

We claim: 1. A multi-fiber cable assembly comprising: a multi-fiber cable including: a block of optical fiber ribbons, the block having an external profile; a strength is surrounding the optical fiber ribbons; a jacket surrounding the strength layer; and a fanout arrangement disposed at a first end of the multi-fiber cable, the fanout arrangement including: an outer shell extending from a first end to a second end, the outer shell including a first interior mounting location spaced axially from a second interior mounting location; an orientation plug defining a longitudinal through-passage through which the block of optical fiber ribbons extends, the through-passage having an internal profile that inhibits rotation of the block of optical fiber ribbons, the orientation plug including a keying arrangement that axially and rotationally fixes the orientation plug to the outer shell at the first interior mounting location; a furcation tube assembly axially and rotationally fixed to the outer shell at the second interior mounting location, the furcation tube assembly including a plurality of furcation tube arrangements mounted to an organizer. 2. The multi-fiber cable assembly of claim 1 , wherein the organizer includes a plate defining a plurality of slots, each slot having an open end, each furcation tube arrangement being configured to slide into one of the slots through the open end to axially fix the furcation tube arrangement at the plate. 3. The multi-fiber cable assembly of claim 2 , wherein each of the furcation tube arrangements includes a furcation tube mounted to a first end of an insert using a crimp sleeve, and wherein a second end of the insert defines an annular recess into which edges of the respective slot extends to axially fix the furcation tube arrangement to the plate. 4. The multi-fiber cable assembly of claim 2 , wherein each of the slots defined by the plate has a plurality of notched locations at which the furcation tube arrangements are indexed. 5. The multi-fiber cable assembly of claim 1 , wherein the first end of the outer shell has a rounded profile and the second end of the outer shell has a rectangular profile. 6. The multi-fiber cable assembly of claim 1 , further comprising a clamp disposed at an annular recess defined in the first end of the outer shell, the clamp applying a radially compressive force on the first end of the outer shell. 7. The multi-fiber cable assembly of claim 6 , wherein the clamp is spaced along the outer shell from the orientation plug. 8. The multi-fiber cable assembly of claim 6 , wherein the first end of the outer shell defines axial slots that separate the first end into axially extending flange members to facilitate compression of the first end of the outer shell by the clamp. 9. The multi-fiber cable assembly of claim 1 , further comprising a heat recoverable sleeve disposed around the jacket. 10. The multi-fiber cable assembly of claim 9 , wherein an interior surface of the outer shell at the first end of the outer shell defines raised circumferentially-extending ribs that dig into the heat recoverable sleeve. 11. The multi-fiber cable assembly of claim 1 , wherein a mounting section of the orientation plug defines an outwardly facing channel; and wherein the first interior mounting location of the outer shell includes an inwardly extending rail that fits in the outwardly facing channel to axially fix the orientation plug at the first interior mounting location. 12. The multi-fiber cable assembly of claim 11 , wherein the mounting section defines a notch; and wherein the first interior mounting location includes a protrusion that fits in the notch to rotationally fix the orientation plug at the first interior mounting location. 13. The multi-fiber cable assembly of claim 1 , wherein the second interior mounting location of the outer shell defines a channel sized to receive an exterior edge of the plate of the furcation tube assembly to axially and rotationally fix the furcation tube assembly to the second interior mounting location. 14. The multi-fiber cable assembly of claim 1 , wherein the outer shell includes a first part and a second part that latch together. 15. A fanout arrangement comprising: an outer shell extending from a first end to a second end, the outer shell including a first part that cooperates with a second part to define a through-passage between the first and second ends, the outer shell including an interior mounting location disposed within the through-passage; a cable anchor arrangement disposed at the first end of the outer shell; and a furcation tube assembly disposed and axially fixed at the interior mounting location, the furcation tube assembly including a plurality of furcation tube arrangements mounted to an organizer, the organizer defining a plurality of slots having open ends, each slot defining a plurality of indexed positions, each furcation tube arrangement including a furcation tube, an insert, and a crimp sleeve, the furcation tube mounting to a first end of the insert using the crimp sleeve, wherein a second end of each of the inserts is disposed within one of the slots of the organizer at one of the indexed positions, the furcation tube arrangements extending from the organizer in a series of rows. 16. The fanout arrangement of claim 15 , wherein the outer shell defines another interior mounting location at which an orientation plug is axially and rotationally fixed to the outer shell. 17. The fanout arrangement of claim 15 , further comprising a support structure disposed at the first end of the outer shell, the support structure having a first end configured to key to the outer shell and a second end extending outwardly from the outer shell, and the support structure defining a through-passage. 18. The fanout arrangement of claim 17 , further comprising a cable crimped to the second end of the support structure, wherein fibers of the cable extend through the through-passage of the support structure and into the through-passage of the outer shell. 19. The fanout arrangement of claim 15 , wherein the first and second parts are identical. 20. The fanout arrangement of claim 15 , wherein each of the first and second parts includes a latch arm on a first side and a recess sized to receive the latch arm on an opposite second side. 21. The fanout arrangement of claim 15 , wherein each of the first and second parts includes an axially-extending ridge on a first side and an axially-extending channel sized to receive the ridge on an opposite second side. 22. The fanout arrangement of claim 15 , wherein a first end of each of the first and second parts defines an axial slot that separates the first ends of the first and second parts into axially extending flange members. 23. The multi-fiber cable assembly of claim 1 , wherein the furcation tube assembly includes twenty-four furcation tubes. 24. A method of fanning out an optical fiber ribbon of a cable, the optical fiber ribbon including a plurality of optical fibers, the method comprising: threading furcation tube arrangements over the optical fibers of the optical fiber ribbon, each of the furcation tube arrangements being threaded over at least one of the optical fibers; sliding each of the furcation tube arrangements through an open end of one of a plurality of slots defined in an organizer; positioning each of the furcation tube arrangements at an indexed position along the slot; posit