Cable for an electrically submersible pump (ESP) arrangement

The invention claimed is: 1. A cable arrangement for feeding power and signals to downhole equipment within an oil or gas well, the cable arrangement comprising: an upper suspension element, a lower connector, a docking station for the downhole equipment coupled to said connector, and a cable comprising lines for power and signal, and extending between and being coupled to said upper suspension element and said lower connector, wherein: said docking station is adapted for attachment to the inner surface of a production tubing, a gap is formed between said production tubing and said downhole equipment, said cable is shaped to fit inside said gap by having: a first dimension in the radial direction of said gap which is smaller than said gap, and a second dimension in the tangential direction of said gap, which is substantially larger than said first dimension. 2. The cable arrangement of claim 1 , wherein said cable is ring-shaped with a central void that is at least as large as an outer dimension of said downhole equipment, and that said lines are distributed along a circumference of said cable. 3. The cable arrangement of claim 2 , wherein said cable comprises an outer sleeve and an inner sleeve and that said lines are situated between said sleeves. 4. The cable arrangement of claim 3 , wherein said sleeves comprises fibres that are wound helically. 5. The cable arrangement of claim 3 , wherein said sleeves comprises fibres that extend longitudinally. 6. The cable arrangement of claim 1 , wherein said cable is collapsible into a generally flat configuration for reeling onto a cable drum. 7. The cable arrangement of claim 6 , wherein, when collapsed into the generally flat configuration, the lines on one side of the cable are pushed into gaps between lines on the opposite side of the cable. 8. The cable arrangement of claim 1 , wherein said lines are placed in one or more clusters, each cluster having a semi-circular shape with a radius substantially the same as the gap between the downhole equipment and the production tubing. 9. The cable arrangement of claim 1 , wherein said cable is attached to one or more ring-shaped or semi-ring-shaped spring elements that acts to push the cable against the inner surface of said production tubing. 10. The cable arrangement of claim 1 , wherein said cable is attached to a helical spring element that acts to push the cable against the inner surface of said production tubing. 11. The cable arrangement of claim 8 wherein said spring element is made of a memory alloy. 12. The cable arrangement of claim 1 , wherein said cable is equipped with at least one magnet that attaches said cable to the inner surface of the production tubing. 13. The cable arrangement of claim 1 , wherein said cable has an outer geometry that creates a radial force when said cable is subjected to a well flow, in order to push said cable against the inner surface of said production tubing. 14. The cable arrangement of claim 1 , wherein said cable comprises elongate strength elements. 15. The cable arrangement of claim 1 , wherein the downhole equipment comprises an electrically submersible pump. 16. The cable arrangement of claim 3 , wherein said sleeves comprises fibres that are wound as Z-winding.