Load carrying bundle intended for use in a power cable or a power umbilical

The invention claimed is: 1. A power umbilical comprising: a number of electric high power cables for transfer of large quantities of electric power/energy; filler material in the form of stiff elongate polymer elements located at least partially around and between the number of electric cables, said number of electric cables and the stiff elongate polymer elements being gathered in a twisted bundle by means of a laying and closing operation; and at least one first load carrying bundle made up of a number of load carrying elements arranged at a predetermined location in the cross section of the power umbilical, wherein the number of electric cables, the stiff elongate polymer elements and the at least one first load carrying bundle, are either laid in a continuous helix, or are alternately laid by a continuously alternating direction, in the entire or part of the longitudinal extension of the power umbilical, to form a power umbilical bundle, wherein the power umbilical further comprises: at least one second load carrying bundle comprising a centrally arranged integrated strain sensing fibre optic cable for global strain monitoring, and a number of individual elongated strength elements helically surrounding the centrally arranged fibre optic cable so that said load carrying elements are laid adjacent to each other to form both a protective enclosure of the fibre optic cable and to provide a frictional bonding between the fibre optic cable and the load carrying elements, said elongate polymer elements being assembled to form conduits respectively encompassing the load carrying elements of the at least one first load carrying bundle or the at least one second load carrying bundle. 2. The load carrying bundle according to claim 1 , wherein each individual elongated strength element is a carbon fibre rod, which carbon fibre rod is made of carbon fibres embedded in a resin matrix. 3. The load carrying bundle according to claim 1 , wherein each individual elongated strength element is a metal rod. 4. The load carrying bundle according to claim 1 , wherein the fibre optic cable includes at least one optical fibre embedded in a composite carrier matrix such as polyurethane. 5. The load carrying bundle according to claim 4 , wherein the at least one optical fibre is surrounded by a high temperature strain transferring coating, a strain transferring adhesive and a stainless steel enclosure. 6. The load carrying bundle according to claim 1 , wherein the fibre optic cable include both a strain sensing fibre filament and a temperature sensing fibre filament. 7. The load carrying bundle according to claim 1 , wherein the number of individual elongated strength element is 6, 12 or 18, wherein the number of individual elongated strength elements can optionally be laid in more than one layer. 8. The power umbilical according to claim 1 , wherein the power umbilical comprises at least one fluid pipe in the cross section, of metal and/or polymer material. 9. The power umbilical according to claim 1 , wherein a protective sheath encompasses the twisted bundle of electric power cables, the load carrying elements and the filler material. 10. The power umbilical according to claim 1 , wherein the load carrying elements are either steel wire ropes or steel rods or a combination of steel wire ropes and steel rods. 11. The power umbilical according to claim 1 , wherein the power umbilical further includes regular electric signal wires and/or additional fibre optic conductors. 12. The power umbilical according to claim 1 , wherein the power umbilical further includes at least one longitudinally extending channel for forced flow transportation of a cooling agent through said power umbilical in order to cool down the electric cables and their insulation material from a critical temperature value. 13. An umbilical comprising: at least one fluid pipe for transfer of fluids like hydraulic fluid; filler material in the form of stiff elongate polymer elements located at least partially around and between the at least one fluid pipe, said at least one fluid pipe and the stiff elongate polymer elements being gathered in a twisted bundle by means of a laying and closing operation; and at least one first load carrying bundle made up of a number of load carrying elements arranged at a predetermined location in the cross section of the umbilical, wherein the at least one pipe, the stiff elongate polymer elements and the at least one first load carrying bundle, are either laid in a continuous helix, or alternately laid by a continuously alternating direction, in the entire or part of the longitudinal extension of the umbilical, to form an umbilical bundle, and wherein the umbilical further comprises at least one second load carrying bundle comprising a centrally arranged integrated strain sensing fibre optic cable for global strain monitoring, and a number of individual elongated strength elements helically surrounding the centrally arranged fibre optic cable so that said load carrying elements are laid adjacent to each other to form both a protective enclosure of the fibre optic cable and to provide a frictional bonding between the fibre optic cable and the load carrying elements, said elongate polymer elements are assembled to form conduits respectively encompassing the load carrying elements of the at least one first load carrying bundle or the at least one second load carrying bundle. 14. The umbilical according to claim 13 , wherein a protective sheath encompasses the twisted bundle of the at least one fluid pipe, the load carrying elements and the filler material. 15. The umbilical according to claim 13 , wherein the load carrying elements are either steel wire ropes or steel rods or a combination of steel wire ropes and steel rods. 16. The umbilical according to claim 13 , wherein the at least one fluid pipe includes a plurality of fluid pipes for transport of multiple fluids. 17. The umbilical according to claim 13 , wherein the umbilical further includes regular electric signal wires and/or additional fibre optic conductors.