Fiber-bundle assembly for maintaining a select order in an optical fiber cable

What is claimed is: 1. A fiber-bundle sub-assembly for a loose-tube optical fiber cable, comprising: an array of at least three fiber bundles, each fiber bundle comprising at least one optical fiber, wherein the array includes at least a first fiber bundle and a second fiber bundle; a first connecting element and a second connecting element extending along the array; and a plurality of first anchors coupled to the first fiber bundle and a plurality of second anchors coupled to the second fiber bundle, wherein each of the first connecting element and the second connecting element are secured by the plurality of first anchors and the plurality of second anchors to the first and second fiber bundles in an axially staggered arrangement to define a first connecting span and a second connecting span that respectively cross a first side of the array and a second side of the array, wherein the first connecting span and the second connecting span maintain each of the at least three fiber bundles in a relative position to each other even when the first and second connecting spans and the at least three fiber bundles are cut at a cut location adjacent one of the plurality of first anchors or one of the plurality of second anchors. 2. The fiber-bundle sub-assembly according to claim 1 , wherein each of the first connecting element and the second connecting element comprises a serpentine path. 3. The fiber-bundle sub-assembly according to claim 1 , wherein the first connecting element and the second connecting element do not cross over one another. 4. The fiber-bundle sub-assembly according to claim 1 , wherein each fiber bundle comprises a single optical fiber. 5. The fiber-bundle sub-assembly according to claim 1 , wherein the first connecting span and the second connecting span are attached to each fiber bundle of the at least three fiber bundles using a light-cured securing material. 6. The fiber-bundle sub-assembly according to claim 1 , wherein each fiber bundle of the at least three fiber bundles is color coded. 7. The fiber-bundle sub-assembly according to claim 1 , wherein the first connecting span and the second connecting span cross the array between the first and second anchors at a crossing angle θ in the range 0.1 degree<θ<90 degrees as measured relative to a central axis. 8. A loose-tube optical fiber cable, comprising: the fiber-bundle sub-assembly according to claim 1 ; and a cable jacket having an interior cavity, with the fiber-bundle sub-assembly disposed in the interior cavity. 9. A fiber-bundle sub-assembly for a loose-tube optical fiber cable, comprising: an array of three or more loosely arranged color-coded fiber bundles comprising select relative positions, wherein the color-coded fiber bundles each contain at least one optical fiber, and wherein the array has a central axis and is made up of a first set of color-coded fiber bundles and a second set of color-coded fiber bundles on respectively first and second opposite sides of the array: a plurality of first and second connecting spans that run between and that are attached to top and bottom anchors on the first and second opposite sides of the array respectively, wherein the top and bottom anchors are axially staggered; and the first connecting span being attached to each of the color-coded fiber bundles in the first set of color-coded fiber bundles and the second connecting span being attached to each of the color-coded fiber bundles in the second set of color-coded fiber bundles to maintain the select relative positions of the color-coded fiber bundles. 10. The fiber-bundle sub-assembly according to claim 9 , wherein the first and second connecting spans are respectively defined by first and second continuous connecting elements that each define a serpentine path. 11. The fiber-bundle sub-assembly according to claim 9 , wherein the first and second connecting spans are respectively defined by first and second continuous connecting elements that each define a helical path. 12. The fiber-bundle sub-assembly according to claim 9 , further comprising at least one strength member arranged substantially along the central axis. 13. The fiber-bundle sub-assembly according to claim 9 , wherein the first and second connecting spans each comprises at least one strand. 14. The fiber-bundle sub-assembly according to claim 13 , where the at least one strand comprises a material including a polymer, a metal, a yarn, a synthetic fiber, a nylon or a polyvinylidene fluoride. 15. The fiber-bundle sub-assembly according to claim 9 , wherein each color-coded fiber bundle comprises a single optical fiber. 16. The fiber-bundle sub-assembly according to claim 9 , wherein the array comprises more than three color-coded fiber bundles. 17. The fiber-bundle sub-assembly according to claim 9 , wherein: a first set of the top anchors is spaced apart by an axial distance dT; a second set of the bottom anchors is spaced apart by an axial distance dB=dT; and wherein the first set of top anchors and the second set of bottom anchors are axially offset. 18. A loose-tube optical fiber cable, comprising: the fiber-bundle sub-assembly according to claim 9 ; and a tubular cable jacket having an interior cavity, with the fiber-bundle sub-assembly disposed in the interior cavity. 19. A method of forming a fiber-bundle sub-assembly that maintains three or more fiber bundles in select relative positions, wherein each fiber bundle comprises at least one optical fiber, the method comprising: arranging a plurality of fiber bundles in select relative positions to define a fiber-bundle array having a central axis, a first set of fiber bundles and a second set of fiber bundles that are disposed on respective first and second sides of the array; defining a plurality of first and second connecting spans that run between top and bottom anchors secured to top and bottom fiber bundles in an axially staggered configuration; and attaching the first connecting span to each of the fiber bundles in the first set of fiber bundles and attaching the second connecting span to each of the fiber bundles in the second set of fiber bundles to maintain the select order. 20. The method according to claim 19 , wherein the array has an end and a rolled configuration with two endmost spans, and processing the fiber bundles at the end of the array while maintaining the select order by: cutting the first and second connecting spans immediately adjacent an endmost anchor on a side of the endmost anchor opposite the end of the array; and reconfiguring the fiber bundles from the rolled configuration to an unrolled configuration. 21. The method according to claim 20 , further comprising connectorizing at least one optical fiber of the reconfigured fiber bundles. 22. The method according to claim 19 , wherein the first and second connecting spans each comprise at least one strand. 23. The method according to claim 22 , where the at least one strand comprises a material including a polymer, a metal, a yarn, a synthetic fiber, a nylon and a polyvinylidene fluoride. 24. The method according to claim 19 , wherein each fiber bundle has a color identifier. 25. The method according to claim 19 , further comprising: arranging the top anchors to be spaced apart by an axial distance dT; arranging the bottom anchors to be spaced apart by an axial distance dB=dT; and axially offsetting the top and bottom anchors.