A voltage source converter

What is claimed is: 1 . A voltage source converter for interconnecting first and second electrical networks, the voltage source converter comprising a converter structure including: a first terminal for connection to the first electrical network; a second terminal for connection to the second electrical network; at least one module connected between the first and second terminals, the or each module including at least one energy storage device and at least one switching element, the or each energy storage element and switching element being operable to selectively provide a voltage source; and an integrated passive fault current limiter configured to present a first impedance to a normal current flowing in the voltage source converter during normal operation of the voltage source converter, and configured to present a second impedance to a fault current flowing in the voltage source converter during a fault condition, the first impedance being lower than the second impedance. 2 . A voltage source converter according to claim 1 wherein the second impedance is sufficiently high to limit the rate of increase of the fault current to a predetermined level. 3 . A voltage source converter according to claim 2 wherein the second impedance is sufficiently high to additionally limit the fault current to a level at or below the current rating of the or each switching element in the or each module. 4 . A voltage source converter according to claim 1 wherein the fault current limiter is or includes a material which transitions between a first low impedance state and a second high impedance state according to the level of current flowing therethrough. 5 . A voltage source converter according to claim 4 wherein the material is or includes a superconducting material which has a resistance that changes when the current flowing therethrough exceeds a current threshold. 6 . A voltage source converter according to claim 5 wherein the superconducting material is configured to provide the fault current limiter with non-linear resistance characteristics. 7 . A voltage source converter according to claim 5 wherein the superconducting material is configured to provide the fault current limiter with non-linear inductance characteristics. 8 . A voltage source converter according to claim 4 wherein the material is or includes a magnetic material which dissipates a greater amount of energy as the current flowing therethrough increases. 9 . A voltage source converter according to claim 8 wherein the magnetic material is unmagnetised and becomes magnetised as the level of current flowing through it increases. 10 . A voltage source converter according to claim 8 wherein the magnetic material is premagnetised and becomes demagnetised as the level of current flowing through it increases. 11 . A voltage source converter according to claim 1 including an integrated passive fault current limiter connected between the first and second terminals in series with the or each module. 12 . A voltage source converter according to claim 1 including an integrated passive fault current limiter connected in series between the first terminal and the first electrical network connected in use with the first terminal. 13 . A voltage source converter according to claim 1 including an integrated passive fault current limiter connected in series between the second terminal and the second electrical network connected in use with the second terminal.