Inhibitor module and shielding arrangements for high voltage equipment

The invention claimed is: 1. An inhibitor module arrangement for connection between a piece of high voltage equipment and a first shield element for the piece of high voltage equipment, the inhibitor module arrangement comprising: a first string that comprises at least one resistor; a second string that comprises at least one capacitor, the first string being physically separated from and electrically connected in parallel with the second string; and at least one first inhibitor module comprising: a first electrical connection terminal at a first end of the module for connection to the piece of high voltage equipment; a second electric connection terminal at a second end of the module for connection to the first shield element; and a closed interior comprising at least one of the first and second strings electrically connected between the first and the second electrical connection terminals. 2. The inhibitor module arrangement according to claim 1 , wherein the first inhibitor module comprises both the first string and the second string connected between the first and the second electrical connection terminals. 3. The inhibitor module arrangement according to claim 1 , further comprising a second inhibitor module, wherein the first inhibitor module comprises the first string and the second inhibitor module comprises the second string. 4. The inhibitor module arrangement according claim 1 , wherein the closed interior comprises an insulating medium. 5. The inhibitor module arrangement according to claim 4 , wherein the insulating medium is fluid. 6. The inhibitor module arrangement according to claim 4 , wherein the insulating medium is solid. 7. The inhibitor module arrangement according to claim 6 , wherein the at least one resistor is realized as a resistive filling material in a die cast structure of solid insulating medium. 8. The inhibitor module arrangement according to claim 1 , further comprising at least one wall of dielectric material stretching between the first and second electrical connection terminals of the first inhibitor module in order to separate the interior of the at least one inhibitor module from an exterior of the inhibitor module. 9. The inhibitor module arrangement according to claim 8 , further comprising a first screen surrounding the at least one wall at the first end of the first inhibitor module and connected to the first electrical connection terminal and a second screen surrounding the at least one wall at the second end of the first inhibitor module and connected to the second electrical connection terminal. 10. The inhibitor module arrangement according to claim 9 , wherein the exterior of the first inhibitor module has a first withstand voltage between the first and second connection terminals and the interior of the first inhibitor module has a second withstand voltage between the first and second connection terminals, where the first withstand voltage is lower than the second withstand voltage. 11. The inhibitor module arrangement according to claim 9 , wherein the first and second screens each have a toroidal shape. 12. The inhibitor module arrangement according to claim 1 , wherein a resistance of the first string and a capacitance of the second string together define a time constant in a range of 10 μs-50 ms. 13. The inhibitor module arrangement according to claim 1 , wherein a resistance of the first string is in the range 0.1-12 MΩ and the capacitance of the second string is in the range 0.1-10 nF. 14. A shielding arrangement for a piece of high voltage equipment spaced from a neighboring object, where the piece of high voltage equipment has a first electric potential and the neighboring object has a second electric potential, the shielding arrangement comprising a first shield element for connection connected to the high voltage equipment and an inhibitor module arrangement comprising: a first string that comprises at least one resistor; a second string that comprises at least one capacitor, the first string being physically separated from and electrically connected in parallel with the second string; and at least one first inhibitor module comprising: a first electrical connection terminal at a first end of the module connected to the piece of high voltage equipment; a second electric connection terminal at a second end of the module connected to the first shield element; and a closed interior comprising at least one of the first and second strings electrically connected between the first and the second electrical connection terminals. 15. A converter station comprising: a converter for converting between alternating current and direct current, the converter comprising a plurality of converter valves; an enclosure, the converter being enclosed in an enclosure wherein at least one of the converter valves is provided with a shielding arrangement; wherein the at least one converter valve has a first electric potential and the enclosure has a second electric potential; wherein the shielding arrangement comprises a first shield element connected to the at least one converter valve and an inhibitor module arrangement; and wherein the inhibitor module arrangement comprises: a first string that comprises at least one resistor; a second string that comprises at least one capacitor, the first string being physically separated from and electrically connected in parallel with the second string; and at least one first inhibitor module comprising: a first electrical connection terminal at a first end of the module connected to the at least one converter valve; a second electric connection terminal at a second end of the module connected to the first shield element; and a closed interior comprising at least one of the first and second strings electrically connected between the first and the second electrical connection terminals. 16. The inhibitor module arrangement according to claim 12 , wherein a resistance of the first string and a capacitance of the second string together define a time constant in a range of 0.1-15 ms. 17. The inhibitor module arrangement according to claim 12 , wherein a resistance of the first string and a capacitance of the second string together define a time constant in a range of 0.5-5 ms. 18. The inhibitor module arrangement according to claim 13 , wherein a resistance of the first string is in the range of 0.2-4 MΩ. 19. The inhibitor module arrangement according to claim 13 , wherein a resistance of the first string is in the range of 0.5-3 MΩ.