Deep sea heavy lifting synthetic cable

The invention claimed is: 1. A deep sea cable comprising: a cable core surrounded by armouring, wherein the armouring is surrounded by an outer jacket, wherein the cable core comprises at least one power cable, the cable core having a core jacket, and the core jacket surrounds the power cable, where the power cable comprises a conductor, surrounded by a conductor insulation, said power cable having a central conductor core of a polymer material selected from the group consisting of polypropylene, polyethylene, polyolefin, thermoplastic polyester or rubber, with the central conductor core is less stiff than the conductor, wherein the armouring comprises synthetic stiff ropes arranged in at least two helical layers around the cable core, and interstices between the stiff ropes of at least two helical layers are filled with a high viscous filler with an apparent viscosity of more than 500 Pas at 35° C., measured according to ASTM D3236, wherein, within said cable core, interstices in the cable core, inside the core jacket, have the same high viscous filler as the armouring interstices between the core jacket and the outer jacket, wherein said high viscous filler and said stiff ropes together are sufficient to prevent radial deformation and allowing movement of individual ropes during bending under tension. 2. The deep sea cable according to claim 1 , wherein each stiff rope is made of yarn comprising filaments that have an axial elastic modulus of above 80 GPa, measured according to ASTM D3379. 3. The deep sea cable according to claim 2 , wherein the yarn comprises above 80% filaments with an axial elastic modulus of above 80 GPa. 4. The deep sea cable according to claim 3 , wherein the yarn comprises above 80% filaments with an axial elastic modulus of above 120 GPa. 5. The deep sea cable according to claim 4 , wherein the yarn comprises 100% filaments with an axial elastic modulus of above 120 GPa. 6. The deep sea cable according to claim 3 , wherein the yarn comprises above 80% filaments with an axial elastic modulus of above 145 GPa. 7. The deep sea cable according to claim 6 , wherein the yarn comprises 100% filaments with an axial elastic modulus of above 145 GPa. 8. The deep sea cable according to claim 3 , wherein the yarn comprises above 80% filaments with an axial elastic modulus of above 160 GPa. 9. The deep sea cable according to claim 8 , wherein the yarn comprises 100% filaments with an axial elastic modulus of above 160 GPa. 10. The deep sea cable according to claim 3 , wherein the yarn comprises 100% filaments with an axial elastic modulus of above 80 GPa. 11. The deep sea cable according to claim 2 , wherein each stiff rope is made of yarn comprising filaments that have an axial elastic modulus of above 120 GPa, measured according to ASTM D3379. 12. The deep sea cable according to claim 2 , wherein each stiff rope is made of yarn comprising filaments that have an axial elastic modulus of above 145 GPa, measured according to ASTM D3379. 13. The deep sea cable according to claim 2 , wherein each stiff rope is made of yarn comprising filaments that have an axial elastic modulus of above 160 GPa, measured according to ASTM D3379. 14. The deep sea cable according to claim 1 , wherein the stiff ropes are made of synthetic yarn and the yarn is prepared of filaments of a material selected from HMPE, aramid, or other high modulus yarn material or a combination thereof. 15. The deep sea cable according to claim 1 , wherein the high viscous filler is temperature stable up to at least 100° C. such that the high viscous filler has an apparent viscosity at 100° C. of more than 100 Pas, measured according to ASTM D3236. 16. The deep sea cable according to claim 15 , wherein the high viscous filler is temperature stable up to at least 100° C. such that the high viscous filler has an apparent viscosity at 100° C. of more than 200 Pas, measured according to ASTM D3236. 17. The deep sea cable according to claim 1 , wherein the high viscous filler comprises a solvent, selected from the group consisting of waxes, mineral or synthetic oil, polybutenes, and bitumen, combined with a blend of polymers, rubbers and additives. 18. The deep sea cable according to claim 1 , wherein the conductor comprises a conductor material selected from copper, copper alloys or combinations thereof. 19. The deep sea cable according to claim 1 , wherein the power cable has an elasticity measured as strain to yield of at least 0.6%. 20. The deep sea cable according to claim 19 , wherein the power cable has an elasticity measured as strain to yield of at least 1.0%. 21. The deep sea cable according to claim 1 , wherein the cable core comprises at least one optical cable and a core jacket surrounding the at least one optical cable. 22. The deep sea cable according to claim 1 , wherein the cable core has an elasticity measured as strain to yield of at least 0.6%. 23. The deep sea cable according to claim 22 , wherein the cable core has an elasticity measured as strain to yield of at least 1.0%. 24. The deep sea cable according to claim 1 , wherein the high viscous filler has an apparent viscosity of more than 1000 Pas at 35° C., measured according to ASTM D3236.