Method of SZ stranding flexible micromodules

The invention claimed is: 1. A method of SZ stranding into a one strand bundle at least two flexible micromodules, each micromodule comprising an optical fiber, the method comprising: providing a device configured to SZ strand the at least two flexible micromodules into the one strand bundle, the device having a longitudinal axis and a first and second pulley positioned along the longitudinal axis of the device; the first pulley is located with its winding surface adjacent to a longitudinal axis of a cabling line; the second pulley is located with its winding surface adjacent to said longitudinal axis of the cabling line, upstream said first pulley and on an opposite side of said longitudinal axis, and guiding the bundle of micromodules along a longitudinal axis of the device between the first and second pulley and winding the bundle of micromodules around the winding surface of said first pulley and subsequently guiding over and winding the bundle of micromodules around the winding surface of said second pulley, while said first and second pulleys are simultaneously rotating around said longitudinal axis of the cabling line, wherein: the rotational speed of said pulleys, or the rotational direction of said pulleys around said longitudinal axis, is alternating thereby forming the SZ stranded micromodules into the one strand bundle, and including holders attached to a hollow crossbar that position the first and second pulleys outside of the hollow crossbar such that the hollow crossbar is in between the first and second pulleys. 2. The method of claim 1 , wherein the rotational speed of said pulleys is alternating between a high speed and a lower speed. 3. The method of claim 1 , wherein the speed difference between said high speed and said lower speed is set as a function of a required average pitch for said SZ stranding and a cabling line speed. 4. The method of claim 1 , wherein the rotation time of said pulleys at said high speed equals the rotation time of said pulleys at said lower speed. 5. The method of claim 1 , wherein said rotation time is set as a function of a required distance between SZ inversions and a cabling line speed. 6. The method of claim 1 , wherein the rotational direction of said pulleys around said longitudinal axis alternates between N turns clockwise and N turns counter clockwise, and so on, with N an integer greater than 1. 7. The method of claim 6 , wherein said pulleys stop rotating for a predetermined amount of time between said N turns clockwise and said N turns counter clockwise. 8. A device for SZ stranding into a one strand bundle at least two flexible micromodules, each micromodule comprising an optical fiber, wherein it comprises: a first pulley, which is located with its winding surface adjacent to a longitudinal axis of a cabling line and which rotates around said longitudinal axis of the cabling line; a second pulley, which is located with its winding surface adjacent to said longitudinal axis of the cabling line, upstream said first pulley and on an opposite side of said longitudinal axis; a guide that guides said bundle of micromodules in between the first and second pulley along a longitudinal axis of the device, first over the winding surface of said first pulley, and subsequently over the winding surface of said second pulley, so that said bundle of micromodules winds around the winding surface of said first and second pulleys, while said first and second pulleys are simultaneously rotating around said longitudinal axis of the cabling line; and a motor configured to alternate the rotational speed of said pulleys, or the rotational direction of said pulleys to produce SZ stranded micromodules into the one strand bundle, and including holder attached to a hollow crossbar that position the first and second pulleys outside of the hollow crossbar such that the hollow crossbar is in between the first and second pulleys. 9. The device of claim 8 , wherein said motor configured to alternate the rotational speed of said pulleys is configured to alternate said rotational speed between a high speed and a lower speed. 10. The device of claim 8 , wherein said motor configured to alternate the rotational direction of said pulleys is configured to alternate said rotational direction around said longitudinal axis between N turns clockwise and N turns counter clockwise, and so on, with N an integer greater than 1. 11. The device of claim 10 , wherein said pulleys stop rotating for a predetermined amount of time between said N turns clockwise and said N turns counter clockwise. 12. The method of claim 1 , wherein each micromodule comprises a plurality of optical fibers arranged together within a micromodule sheath of flexible polymeric material. 13. The method of claim 12 , wherein a thickness of each micromodule sheath including the plurality of optical fibers therein ranges from 0.05 to 0.15 mm in diameter. 14. The device of claim 8 , wherein each micromodule comprises a plurality of optical fibers arranged together within a micromodule sheath of flexible polymeric material. 15. The device of claim 14 , wherein a thickness of each micromodule sheath including the plurality of optical fibers therein ranges from 0.05 to 0.15 mm in diameter.