Generator for producing electric power

The invention claimed is: 1. A generator for producing electric power, the generator comprising: a generator unit comprising a stator and a rotatably supported rotor, the stator having a first set of windings and a second set of windings, and wherein the rotatably supported rotor is configured to induce electrical voltage in the first set of windings and in the second set of windings when the rotatably supported rotor is rotated relative to the stator; a first converter coupled to the first set of windings, the first converter being configured to convert alternating voltage in the first set of windings into an output DC voltage; a DC output coupled to the first converter to receive the output DC voltage; and a second converter coupled to the second set of windings and to the DC output, the second converter being configured to generate control voltages and/or control currents in the second set of windings. 2. The generator according to claim 1 , wherein the first converter comprises a diode full-bridge rectifier, and/or wherein the second converter comprises a PWM full-bridge converter. 3. The generator according to claim 1 , wherein the second converter is configured to perform at least one of the following functions: a sensorless field orientated vector control, Id current control for field weakening or field strengthening, DC output voltage regulation, active and reactive power control, harmonic current control, torque ripple or vibration control, cogging torque control, generator power factor control or efficiency control by field regulation, and various other control functions. 4. The generator according to claim 1 , further comprising a control unit for controlling operation of the second converter. 5. The generator according to claim 1 , wherein the control unit is configured to control the second converter based on measurement data that is representative of the currents in the first set of windings, the currents in the second set of windings, the voltage at the DC output, and the current at the DC output. 6. The generator according to claim 1 , wherein the stator comprises a plurality of stator slots for holding the first set of windings and the second set of windings, wherein each of the plurality of stator slot holds at least one winding of the first set of windings and at least one winding of the second set of windings. 7. The generator according to claim 1 , wherein a number of windings in the first set of windings is equal to or larger than a number of windings in the second set of windings. 8. The generator according to claim 1 , wherein the output DC voltage of the first converter is equal to an output DC voltage of the second converter, and wherein the first converter and the second converter are coupled in parallel to the DC output. 9. The generator according to claim 1 , wherein the output DC voltage of the first converter is larger than an output DC voltage of the second converter, further wherein the first converter is coupled to the DC output via at least two capacitors (C 11 , C 12 , C 13 ) connected in series, and the second converter is coupled to the DC output via one of the at least two capacitors. 10. A system for generating electric power, the system comprising a plurality of generators according to claim 1 . 11. The system according to claim 10 , wherein at least one generator of the plurality of generators comprises a wind turbine. 12. The system according to claim 10 , further comprising a DC/DC output converter for connecting to a HVDC connection , wherein the DC output of each generator of the plurality of generators is coupled to the DC/DC output converter. 13. A method of producing electric power by a generator, the generator comprising a generator unit having a stator and a rotatably supported rotor, the stator comprising a first set of windings and a second set of windings, the rotatably supported rotor inducing electrical voltage in the first set of windings and in the second set of windings when the rotatebly supported rotor is rotated relative to the stator, the method comprising: operating a first converter coupled to the first set of windings to convert alternating voltage in the first set of windings into an output DC voltage; providing the output DC voltage of the first converter to a DC output; and operating a second converter coupled to the second set of windings and to the DC output to generate control voltages and/or control currents in the second set of windings. 14. A wind turbine for generating electric power, the wind turbine comprising a generator according to claim 1 .