High voltage measurement systems

The invention claimed is: 1. Measurement apparatus for measuring the voltage of an insulated electrical cable including at least one central conductor, a first dielectric layer surrounding the at least one central conductor, a semiconducting layer surrounding the first dielectric layer and a cable shield surrounding the semiconducting layer, the apparatus comprising: a sensing electrode assembly arranged around the semiconducting layer of the cable, comprising a sensing electrode element constructed on top of and connected to the semiconductor layer, such that a sensing capacitor is formed by the semiconductor layer together with the at least one central conductor and at least the first dielectric layer of the insulated electrical cable; an electrical circuit connected to the sensing electrode element; and an arrangement for defining the effective sensing area of the sensing electrode assembly; wherein the electrical circuit comprises a current-mode signal conditioning circuit, an input of the current-mode signal conditioning circuit being connected to the sensing electrode element and being referenced to a ground potential of the current-mode signal conditioning circuit, to which the cable shield is connected, the current-mode signal conditioning circuit being arranged for compensating parasitic impedances of the semiconductor layer by actively driving its input impedance towards zero; and wherein the sensing electrode assembly enables the detection of the voltage of the insulated electrical cable. 2. Measurement apparatus according to claim 1 , wherein said arrangement for defining the effective sensing area is formed by first and second additional electrode elements positioned either side of the sensing electrode element and being connected to the semiconductor layer. 3. Measurement apparatus according to claim 1 , wherein said arrangement for defining the effective sensing area is formed by first and second clamping devices around edge portions of the cable shield on either side of the sensing electrode element. 4. Measurement apparatus according to claim 1 , wherein the assembly further comprises a second dielectric layer placed over at least the sensing electrode element. 5. Measurement apparatus according to claim 4 , wherein the assembly further comprises an electrostatic shield placed over the second dielectric layer. 6. Measurement apparatus according to claim 5 , wherein the electrostatic shield is connected to the cable shield. 7. Measurement apparatus according to claim 5 , wherein the electrostatic shield is part of the cable shield of the insulated electrical cable which extends along the electrical cable and over the second dielectric layer covering at least the electrode element. 8. Measurement apparatus according to claim 1 , wherein the current-mode signal conditioning circuit is provided for converting an input current sensed on its input into an output voltage indicative of the voltage on the at least one central conductor. 9. Measurement apparatus according to claim 8 , wherein the current-mode signal conditioning circuit comprises a charge amplifier with an integrating capacitor. 10. Measurement apparatus according to claim 9 , wherein the integrating capacitor is well-chosen and thermally linked with the sensing capacitor such that temperature dependence of the sensing capacitor is compensated for. 11. Measurement apparatus according to claim 8 , wherein the current-mode signal conditioning circuit comprises a current-to-voltage converter, an integrator and a gain stage. 12. Measurement apparatus according to claim 8 , wherein the current-mode signal conditioning circuit comprises a Miller integrator based on an operational amplifier. 13. Measurement apparatus according to claim 1 , further comprising a temperature sensor associated with the electrode element. 14. Measurement apparatus according to claim 1 , further comprising a multi-axial conductor that makes connections with the electrode elements.