Binder film system

What is claimed is: 1 . A fiber optic cable, comprising: inner core elements wound in a pattern of stranding, the inner core elements comprising tubes surrounding optical fibers; an inner binder film surrounding the stranded inner core elements, wherein the inner binder film is continuous peripherally around the core elements, forming a continuous closed loop when viewed in cross-section, and continuous lengthwise along a length of the cable that is at least a meter, and wherein the inner binder film is in radial tension and opposes outwardly transverse deflection of the inner core elements; and outer core elements wound in a pattern of stranding around the inner binder film and the inner core elements, the outer core elements also comprising tubes surrounding optical fibers. 2 . The fiber optic cable of claim 1 , wherein the inner binder film has a thickness of 0.5 millimeters or less and is formed from an extrudable polymeric material. 3 . The fiber optic cable of claim 2 , further comprising an outer binder film surrounding the stranded outer core elements such that the inner binder film and inner core elements are nested within the outer core elements, and the outer core elements are in turn nested within the outer binder film. 4 . The fiber optic cable of claim 3 , further comprising a jacket surrounding the outer binder film, wherein the jacket is at least five times thicker than either the inner binder film or the outer binder film. 5 . The fiber optic cable of claim 4 , wherein the outer binder film is bonded directly to the jacket. 6 . The fiber optic cable of claim 4 , wherein the outer binder film is cohesively bonded to the jacket. 7 . The fiber optic cable of claim 1 , further comprising a central strength member, wherein the inner core elements are stranded around the central strength member, wherein the inner binder film loads the inner core elements normally to the central strength member such that contact between the inner core elements and central strength member provides coupling therebetween, thereby limiting axial migration of the inner core elements relative to the central strength member. 8 . The fiber optic cable of claim 7 , wherein the pattern of stranding of the inner core elements includes reversals in lay direction of the inner core elements, and wherein the pattern of stranding of the outer core elements includes reversals in lay direction of the outer core elements. 9 . The fiber optic cable of claim 1 , further comprising water-swellable powder attached to the exterior of the inner binder film such that at least some of the water-swellable powder is positioned between the inner binder film and the outer core elements. 10 . The fiber optic cable of claim 9 , wherein the water-swellable powder includes powder particles partially embedded in the inner binder film such that the powder particles have a portion thereof submerged in the inner binder film passing partly through a surface plane of the inner binder film and another portion thereof exposed partially projecting away from the surface plane of the inner binder film. 11 . The fiber optic cable of claim 9 , further comprising additional water-swellable powder attached to the inner binder film such that at least some of the powder particles thereof are positioned on an inside surface of the inner binder film between the inner binder film and the inner core elements. 12 . The fiber optic cable of claim 9 , wherein the inner binder film comprises a ripcord-type feature that is integrated therewith such that the inner binder film may be torn open by drawing upon the ripcord-type feature. 13 . The fiber optic cable of claim 12 , wherein the ripcord-type feature is formed from an extrudable polymeric material. 14 . The fiber optic cable of claim 13 , wherein the ripcord-type feature is integral with the inner binder film and is formed from the same type of material thereof, is formed as an extension thereof, and is continuously connected therewith. 15 . A fiber optic cable, comprising: core elements wound in a pattern of stranding, the core elements comprising tubes surrounding optical fibers; an binder film surrounding the stranded core elements, wherein the binder film is continuous peripherally around the core elements, forming a continuous closed loop when viewed in cross-section, and continuous lengthwise along a length of the cable that is at least a meter, and wherein the binder film is in radial tension and opposes outwardly transverse deflection of the core elements; and water-swellable powder attached to the exterior of the binder film such that the water-swellable powder is positioned on a side of the binder film that faces away from the core elements. 16 . The fiber optic cable of claim 15 , wherein the binder film is 0.5 millimeters or less in thickness and is formed from an extrudable polymeric material. 17 . The fiber optic cable of claim 15 , wherein the water-swellable powder includes powder particles partially embedded in the binder film such that the powder particles have a portion thereof submerged in the binder film passing partly through a surface plane of the binder film and another portion thereof exposed partially projecting away from the surface plane of the binder film. 18 . The fiber optic cable of claim 15 , further comprising additional water-swellable powder attached to the inner binder film such that at least some of the powder particles thereof are positioned on an inside surface of the inner binder film between the inner binder film and the inner core elements. 19 . The fiber optic cable of claim 15 , wherein the binder film is an inner binder film, wherein the core elements are inner core elements, and the fiber optic cable further comprising: outer core elements wound in a pattern of stranding around the inner binder film and the inner core elements, the outer core elements also comprising tubes surrounding optical fibers; an outer binder film surrounding the stranded outer core elements such that the inner binder film and inner core elements are nested within the outer core elements, and the outer core elements are in turn nested within the outer binder film; and a jacket surrounding the outer binder film, wherein the jacket is thicker than either the inner binder film or outer binder film 20 . The fiber optic cable of claim 15 , wherein the inner binder film comprises a ripcord-type feature that is integrated therewith such that the inner binder film may be torn open by drawing upon the ripcord-type feature.