Wind turbine rotational system

The invention claimed is: 1. A method of operating a wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the central control system sends speed setpoints and torque setpoints to the electronic converters and the electronic converters drive the motors in accordance with the received setpoints, the method comprising designating one of the drives as a master drive and designating the other drives as slave drives, designating a drive of reference, the central control system determining a master speed setpoint and a master torque setpoint, the central control system sending the master speed setpoint and the master torque setpoint to the master drive, the central control system obtaining, from the master drive, a value representing the real torque of the motor of the master drive, the central control system obtaining, from the drive of reference, a value representing the real speed of the motor of the drive of reference, and the central control system sending a slave speed setpoint and a slave torque setpoint to each of the slave drives, wherein the slave speed setpoint is equal to the master speed setpoint, and wherein the slave torque setpoint is equal to the value representing the real torque of the motor of the master drive plus a variable offset value based on a difference between the master speed setpoint and the value representing the real speed of the motor of the drive of reference. 2. The method according to claim 1 , wherein the slave torque setpoint is the same for all the slave drives. 3. The method according to claim 2 , wherein the master drive is the drive of reference. 4. The method according to claim 3 , wherein the variable offset value is determined in accordance with a PID control based on a difference between the master speed setpoint and the value representing the real speed of the motor of the drive of reference, which is the master drive. 5. The method according to claim 1 , wherein the drive of reference is one of the slave drives. 6. The method according to claim 5 , wherein the variable offset value for each slave drive is determined in accordance with a PID control based on a difference between the master speed setpoint and the value representing the real speed of the motor of the drive of reference, which is the slave drive itself. 7. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 1 . 8. The wind turbine rotational system according to claim 7 , wherein the wind turbine rotational system is a pitch system for pitching a blade. 9. The wind turbine rotational system according to claim 7 , wherein the wind turbine rotational system is a yaw system. 10. A wind turbine comprising a wind turbine rotational system according to claim 7 . 11. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 2 . 12. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 3 . 13. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 4 . 14. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 5 . 15. A wind turbine rotational system comprising a plurality of drives and a central control system, each drive comprising: a motor, an electronic converter for driving the motor, and an actuator operatively connected with the motor, wherein the wind turbine rotational system is adapted to perform the method of claim 6 . 16. A wind turbine comprising a wind turbine rotational system according to claim 11 . 17. A wind turbine comprising a wind turbine rotational system according to claim 12 . 18. A wind turbine comprising a wind turbine rotational system according to claim 13 . 19. A wind turbine comprising a wind turbine rotational system according to claim 14 . 20. A wind turbine comprising a wind turbine rotational system according to claim 15 .