Apparatus and method for control of direct current transmission lines

The invention claimed is: 1. A control apparatus for controlling a voltage source converter for direct current (DC) transmission of electrical power over a transmission line, the control apparatus comprising: a regulation control for generating a regulation signal to regulate a DC voltage of the transmission line, said regulation signal being based on a difference between a measured value of DC voltage of the transmission line and a reference value of DC voltage of the transmission line; and a damping control configured to generate a damping signal for modulating said regulation signal, wherein said damping signal is generated as a function of a measured value of DC current of the transmission line multiplied by an impedance value for the transmission line, wherein the damping signal reduces the regulation signal. 2. The control apparatus of claim 1 , wherein said damping control is configured such that the damping signal will apply modulation to said regulation signal if a rate of change of the measured value of DC current is above a first limit. 3. The control apparatus of claim 1 , wherein a high-pass filter is applied to said damping signal prior to modulating said regulation signal. 4. The control apparatus of claim 3 , wherein said high-pass filter has a frequency cut-off in a range of 5 Hz to 20 Hz. 5. The control apparatus of claim 1 , wherein said regulation signal is generated based on the difference between the measured value of DC voltage and the reference value of DC voltage as modified by the damping signal. 6. The control apparatus of claim 1 , wherein the voltage source converter is operating in a voltage control mode. 7. The control apparatus of claim 1 , further comprising a measurement processing device configured to measure the measured value of DC voltage and the measured value of DC current. 8. The control apparatus of claim 1 , wherein the reference value of DC voltage of the transmission line is derived from a demand signal indicating a voltage demand. 9. The control apparatus of claim 3 , wherein the high-pass filter has a cut-off frequency no greater than 10 Hz. 10. A control apparatus for controlling a voltage source converter for direct current (DC) transmission of electrical power over a transmission line, the control apparatus comprising: a regulation control for generating a regulation signal to regulate a power level of the transmission line, said regulation signal being based on a difference between a measured value of power of the transmission line and a reference value of power of the transmission line, wherein the measured value of power is generated as a function of a measured value of DC current of the transmission line multiplied by a measured value of DC voltage of the transmission line; and a damping control configured to generate a damping signal for modulating said regulation signal, wherein said damping signal is generated as a function of the square of the measured DC voltage of the transmission line divided by an impedance value of the transmission line. 11. The control apparatus of claim 10 , wherein said damping control is configured such that the damping signal will apply modulation to said regulation signal if a rate of change of the measured value of DC voltage is above a first limit. 12. The control apparatus of claim 10 , wherein a high-pass filter is applied to said damping signal prior to modulating said regulation signal. 13. The control apparatus of claim 12 , wherein said high-pass filter has a frequency cut-off in a range of 5 Hz to 20 Hz. 14. The control apparatus of claim 12 , wherein the high-pass filter has a cut-off frequency no greater than 10 Hz. 15. The control apparatus of claim 10 , wherein said regulation signal is generated based on the difference between the measured value of power and the reference value of power as modified by the damping signal. 16. The control apparatus of claim 10 , wherein the voltage source converter is operating in a power control mode. 17. The control apparatus of claim 10 , further comprising a measurement processing device configured to measure the measured value of DC voltage and the measured value of DC current. 18. The control apparatus of claim 10 , wherein the reference value of power of the transmission line is derived from a demand signal indicating a power demand. 19. The control apparatus of claim 10 , wherein the voltage source converter is connected for direct current transmission of electrical power over a transmission line.