Voltage measuring device

The invention claimed is: 1. A method of measuring the voltage of at least one conductor of an electric power cable comprising the steps of: arranging an enclosure of a conductive material around a portion of the cable and at least one electric field sensor between the enclosure and the cable; taking the enclosure to a constant potential and measuring the electric field with the sensor; and determining said voltage based on the comparison of the measured electric field with simulated electric fields for a plurality of configurations of point electric charges within the cable. 2. The method of claim 1 , further comprising the steps of: determining by simulation the electric field obtained at the location of said sensor for a plurality of configurations of point electric charges corresponding to different positions of the point electric charges; determining a criterion of comparison between the electric field and the simulated electric field for each configuration; and storing the configuration for which the comparison criterion is at an extremum. 3. The method of claim 2 , comprising determining by simulation the electric field obtained at the location of said sensor for each configuration of a first set of configurations having a first number of point electric charges and for each configuration of a second set of configurations having a second number of point electric charges different from the first number. 4. The method of claim 2 , further comprising the steps of: selecting at least one parameter from the group comprising the position of the center of the conductor with respect to the center of the cable, the average radius of the conductor, the angular position of the conductor with respect to a reference axis, the phase of the voltage of the conductor, and the maximum amplitude of the voltage of the conductor; varying the parameter between an initial value and a final value with a step; and determining by simulation the electric field obtained at the location of said sensor for each configuration of point electric charges associated with each value of the parameter. 5. The method of claim 2 , further comprising the steps of: (a) determining the number of conductors of the cable based on the comparison of the measured electric field with the simulated electric fields for configurations of point electric charges comprising different numbers of point electric charges; and (b) determining said voltage based on the comparison of the measured electric field with the simulated electric fields for a plurality of configurations having the same number of point electric charges. 6. The method of claim 5 , wherein step (a) is carried out by varying, simultaneously for each conductor, at least one first parameter from said group and wherein step (b) is carried out by varying, independently for each conductor, at least one second parameter from said group. 7. A device for measuring the voltage of at least one conductor of an electric power cable comprising: an enclosure of a conductive material intended to be arranged around a portion of the cable and at least one electric field sensor intended to be arranged between the enclosure and the cable; a source of a constant potential connected to the enclosure; and a processing unit capable of determining said voltage based on the comparison of a measured electric field obtained with the electric field sensor with simulated electric fields produced by the electric field sensor, for a plurality of configurations of point electric charges within the cable. 8. The device of claim 7 , comprising a plurality of electric field sensors. 9. The device of claim 8 , wherein the sensors are maintained in a tubular support of a dielectric material. 10. The device of claim 7 , comprising at least one optical sensor measuring the electric field comprising an isotropic electro-optical crystal.