High voltage device and a method of manufacturing a high voltage device

The invention claimed is: 1. An electric device arranged to provide electrical insulation of a conductor extending through the device, the electric device comprising: at least two electrodes which are separated by a dielectric part; at least one of said at least two electrodes being arranged to be at a floating potential so as to control an electric field around the conductor; the dielectric part comprising at least one turn of at least one non-impregnatable electrically insulating film between two neighbouring electrodes of said at least two electrodes; wherein each electrode is bonded to each of the at least one turns of non-impregnatable electrically insulating film that is adjacent thereto, and turns of non-impregnatable electrically insulating film which are adjacent to each other, if any, are bonded to each other, so that the dielectric part and the electrodes form a solid body. 2. The electric device of claim 1 , wherein at least two neighbouring electrodes of said at least two electrodes are separated by at least two turns of non-impregnatable electrically insulating film. 3. The electric device of claim 2 , wherein a space between two neighbouring electrodes of said at least two neighboring electrodes does not comprise any impregnated turn. 4. The electric device of claim 1 , wherein at least one of said at least one non-impregnatable electrically insulating film from which the dielectric part is formed comprises at least one layer of a thermoplastic material. 5. The electric device of claim 1 , wherein at least one of said at least one non-impregnatable electrically insulating film from which the dielectric part is formed comprises at least one layer of a glass material. 6. The electric device of claim 1 , wherein a distance between neighbouring electrodes lies within a range of 4-5000 μm. 7. The electric device of claim 1 , wherein an average number of turns between two neighbouring electrodes in the dielectric part lies within a range of 1-100. 8. The electric device of claim 1 , wherein the dielectric part has no voids larger than 10 μm. 9. The electric device of claim 1 , wherein at least one of said at least one non-impregnatable electrically insulating film from which the dielectric part is formed comprises at least two layers, wherein a first layer is of a first material and a second layer is of a second material, the first and second materials exhibiting different properties. 10. The electric device of claim 1 , wherein a boundary between adjacent turns of non-impregnatable electrically insulating film and/or a boundary between a turn of non-impregnatable electrically insulating film and an adjacent electrode comprises an adhesive substance of a composition different to a composition of the turns of non-impregnatable electrically insulating film. 11. The electric device of claim 1 , wherein at least one of said at least one turn of non-impregnatable electrically insulating film has a joint along a circumference of the turn. 12. The electric device of claim 1 , wherein the bonding of said at least one turn of non-impregnatable electrically insulating film to an adjacent turn or adjacent electrode underneath it, is provided before said at least one turn is covered by and bonded to a next turn or electrode. 13. The electric device of claim 1 , wherein the at least two electrodes are formed from a conductive material which has been printed or painted on at least one of the at least one non-impregnatable insulating films. 14. The electric device of claim 1 , wherein the at least two electrodes are formed from foils of a conductive material which have been inserted between said at least one turn of non-impregnatable electrically insulating film. 15. The electric device of claim 1 , wherein at least two of said at least two electrodes have a different length in an axial direction of the electric device, and the at least two electrodes are arranged so that at least one end edge of at least one of said at least two electrodes is not covered by any outer electrode. 16. The electric device of claim 1 , wherein the electric device is a bushing or a cable termination. 17. A method of manufacturing an electric device comprising at least two electrodes which are separated by a dielectric part, the method comprising: forming the dielectric part from at least one turn of at least one non-impregnatable, electrically insulating film; and bonding any adjacent turns of non-impregnatable insulating film to each other, as well as bonding electrodes to adjacent turns of non-impregnatable insulating film, so that a solid body is formed, wherein no turn located between two electrodes is formed from an impregnatable material; and the bonding of at least one of said turns is performed upon forming of said turn, so that the bonding of said turn, to the turn/electrode underneath, will commence before said turn has been completely covered by the next turn. 18. The method of claim 17 , wherein the bonding is performed by use of a substance which is in a liquid or semi-liquid phase during at least part of the step of bonding. 19. The method of claim 17 , wherein a pressure is applied, during the forming of said dielectric part, to the already formed turns, at least along a line from one end of the electric device to the other. 20. The method of any one of claim 17 , wherein the bonding comprises heating a thermoplastic material, which forms part of a non-impregnatable insulating film, beyond a temperature above which the thermoplastic material has adhesive properties. 21. The method of any one of claim 17 , wherein the bonding comprises the use of an external adhesive substance between turns of non-impregnatable insulating films and/or between a turn of non-impregnatable insulating film and an electrode. 22. The method of any one of the claim 17 , further comprising cooling at least part of the presently outermost turn before covering the presently outermost turn with the next turn. 23. The method of any one of claim 17 , wherein the forming comprises adding turns by winding at least one non-impregnatable insulating film at least one turn around an inner part of the electric device. 24. The method of any one of claim 17 , wherein the forming comprises adding turns by rotating an inner part of the electric device around an axis, in the vicinity of an extrusion nozzle, while non-impregnatable, electrically insulating material is extruded from the extrusion nozzle, so that turns of non-impregnatable, electrically insulating film are formed and bonded during the extrusion process. 25. The method of any one of claim 17 , wherein at least two films, located side by side in the axial direction of the device, are used to form a turn which has an axial length that is larger than the width of a single one of the at least two films.