Bipolar DC power transmission scheme

What is claimed is: 1. A bipolar DC power transmission scheme comprising: first and second DC poles, each DC pole including a respective DC power transmission medium extending between first and second ends; a plurality of converters, wherein each end of the DC power transmission medium of each of the first and second DC poles is respectively operatively connected to at least one of the plurality of converters to form a rectifier at the first ends of the DC power transmission media and an inverter at the second ends of the DC power transmission media; and a controller programmed to operate at least one converter of one of the rectifier and inverter in a first control mode and at least one converter of the other of the rectifier and inverter in a second control mode in response to a fault occurring on either of the first and second DC poles so as to oppose a resultant change in current in the healthy other of the first and second DC poles on which the fault has not occurred; wherein the first control mode includes decreasing the operating DC voltage of the or each corresponding converter from a normal operating voltage value, and wherein the second control mode includes increasing the operating DC voltage of the or each corresponding converter from a normal operating voltage value. 2. The bipolar power transmission scheme according to claim 1 wherein the first control mode includes decreasing the operating DC voltage of the or each corresponding converter from a normal operating voltage value to a minimum allowable voltage value and/or the second control mode includes increasing the operating DC voltage of the or each corresponding converter from a normal operating voltage value to a maximum allowable voltage value. 3. The bipolar DC power transmission scheme according to claim 2 wherein the maximum allowable voltage value is 1.0 per unit and/or the minimum allowable voltage value is limited by the peak magnitude of an AC side voltage of the corresponding converter. 4. The bipolar DC power transmission scheme according to claim 1 wherein the controller is programmed to operate the at least one converter of the rectifier in the first control mode and the at least one converter of the inverter in the second control mode in response to a converter current of at least one of the converters exceeding a first overcurrent threshold. 5. The bipolar DC power transmission scheme according to claim 4 further including a plurality of circuit interruption devices, each circuit interruption device arranged to be selectively operable to clear a respective one of the DC power transmission media, wherein the controller is programmed to block each converter with a converter current that exceeds a second overcurrent threshold and to send an open command to the or each corresponding circuit interruption device to clear the DC power transmission medium corresponding to the faulty one of the first and second DC poles on which the fault has occurred, wherein the second overcurrent threshold is higher than the first overcurrent threshold. 6. The bipolar DC power transmission scheme according to claim 1 further including a first monitoring device configured to identify the faulty one of the first and second DC poles on which the fault has occurred, wherein the at least one converter of the one of the rectifier and inverter operated in the first control mode and the at least one converter of the other of the rectifier and inverter operated in the second control mode is operatively connected to the healthy other of the first and second DC poles on which the fault has not occurred. 7. The bipolar DC power transmission scheme according to claim 6 further including a plurality of circuit interruption devices, each circuit interruption device arranged to be selectively operable to clear a respective one of the DC power transmission media, wherein the controller is programmed to block each converter connected to the identified faulty one of the first and second DC poles on which the fault has occurred and to send an open command to the or each corresponding circuit interruption device to clear the DC power transmission medium corresponding to the faulty one of the first and second DC poles on which the fault has occurred. 8. The bipolar DC power transmission scheme according to claim 6 wherein the monitoring device is configured to identify the faulty one of the first and second DC poles on which the fault has occurred by one or more of: wherein the bipolar DC power transmission scheme includes a current return path, monitoring the direction of current in the current return path; monitoring the reflection of one or more travelling waves in each DC power transmission medium; monitoring the rate of rise of converter current of at least one of the plurality of converters; monitoring the magnitude of converter current of at least one of the plurality of converters. 9. The bipolar DC power transmission scheme according to claim 1 wherein the controller is programmed to operate each converter operated in the respective one of the first and second control modes and connected to the healthy one of the first and second DC poles on which the fault has not occurred so as to operate in a third control mode subsequent to its operation in the respective one of the first and second control modes, the third control mode including restoring the operating DC voltage of the or each corresponding converter to a normal operating voltage value. 10. The bipolar DC power transmission scheme according to claim 9 wherein the controller is programmed to operate each converter operated in the respective one of the first and second control modes and connected to the healthy one of the first and second DC poles on which the fault has not occurred so as to operate in the third control mode when one or more of the following conditions are met: decrease of the converter current in each corresponding converter below a third overcurrent threshold; lapse of a time delay after the operation of each corresponding converter in the respective one of the first and second control modes; lapse of a time delay after the decrease of the converter current in each corresponding converter below a fourth overcurrent threshold. 11. The bipolar DC power transmission scheme according to claim 9 , wherein the controller is programmed to operate the at least one converter of the inverter in the first control mode and the at least one converter of the rectifier in the second control mode in response to a converter current of at least one of the converters connected to the healthy one of the first and second DC poles on which the fault has not occurred dropping below an undercurrent threshold and programmed to operate each converter operated in the respective one of the first and second control modes and connected to the healthy one of the first and second DC poles on which the fault has not occurred so as to operate in the third control mode when the converter current in each corresponding converter returns to a normal operating current value. 12. The bipolar DC power transmission scheme according to claim 1 wherein the controller is programmed to operate the at least one converter of the inverter in the first control mode and the at least one converter of the rectifier in the second control mode in response to a converter current of at least one of the converters connected to the healthy one of the first and second DC poles on which the fault has not occurred dropping below an undercurrent threshold. 13. The bipolar DC power transmission scheme according to claim 12 further including a second monitoring device configured to detect the occ