Continuously transposed cable with an integrated sensing device

The invention claimed is: 1. A continuously transposed cable CTC extending according to a longitudinal development direction (L) and having two opposite longitudinal ends, said CTC cable comprising a plurality of strands arranged so to form at least a first and a second adjacent stacks, each stack extending along the longitudinal development direction (L), wherein said at least first and second stacks form a longitudinal interface ( 16 ) therebetween wherein the longitudinal interface comprises one or more optical fibers positioned at the interface between the first and the second stacks, wherein the CTC cable comprises three groups of optical fibers each comprising a plurality of optical fibers, each optical fiber of the groups of optical fibers having a respective free portion outside the CTC cable and a tip, respectively positioned near the first longitudinal end, in an intermediate position between the first and the second longitudinal end, and near the second longitudinal end. 2. The CTC cable according to claim 1 , wherein the one or more optical fibers extend parallel to said longitudinal development direction (L). 3. The CTC cable according to claim 1 , comprising an insulating separator, made of electrically insulating material, at said interface extending along the longitudinal development direction (L). 4. The CTC cable according to claim 3 , wherein the one or more optical fibers are positioned on the insulating separator. 5. The CTC cable according to claim 4 , wherein the insulating separator comprises two opposite portions and the one or more optical fibers are positioned therebetween, or wherein the insulating separator comprises one or more tubular portions and the one or more optical fibers are positioned inside said one or more tubular portions. 6. The CTC cable according to claim 1 , comprising a plurality of optical fibers having a tip, wherein the tips of each optical fiber is positioned in a different position along the longitudinal development direction (L). 7. The CTC cable according to claim 1 , wherein the tips of the plurality of optical fibers of each group are longitudinally shifted one relative to another. 8. The CTC cable according to claim 1 , comprising a measuring apparatus connected to the one or more optical fibers, said measuring apparatus being suitable to measure a quantity detected by the one or more optical fibers. 9. The CTC cable according to claim 8 , wherein said quantity includes: the temperature in correspondence of a tip, the temperature along the second portion up to the tip, deformations and/or vibrations in correspondence of the tip. 10. A winding of an electromagnetic induction device formed by winding a CTC cable according to claim 1 . 11. The winding according to claim 10 , having a winding top exit and a winding bottom exit, wherein one of the first and the second longitudinal end of the CTC cable corresponds to the winding top exit and the other of the first and the second longitudinal end corresponds to the winding bottom exit. 12. The electromagnetic induction device comprising one or more windings according to claim 10 . 13. The electromagnetic induction device according to claim 12 , wherein the electromagnetic induction device is a transformer. 14. The CTC cable according to claim 1 , wherein the one or more optical fibers comprise a first portion outside the CTC cable at the first and/or at the second longitudinal end thereof, and a second portion extending inside the CTC cable in correspondence of said interface between the first and the second stacks, and wherein the second portion of the one or more optical fibers ends with a tip. 15. A continuously transposed cable CTC extending according to a longitudinal development direction (L) and having two opposite longitudinal ends, said CTC cable comprising a plurality of strands arranged so to form at least a first and a second adjacent stacks, each stack extending along the longitudinal development direction (L), wherein said at least first and second stacks form a longitudinal interface ( 16 ) therebetween wherein the longitudinal interface comprises one or more optical fibers positioned at the interface between the first and the second stacks, wherein the CTC cable comprises three optical fibers each comprising a plurality of optical fibers, each optical fiber of the three optical fibers having a respective free portion outside the CTC cable and a tip, respectively positioned near the first longitudinal end, in an intermediate position between the first and the second longitudinal end, and near the second longitudinal end.