The present disclosure related to a method and a controller for controlling an AC generator which is used in connection with a wind turbine having a variable speed. The multi-phase generator is connected to a controllable converter and is controlled to provide a desired power or a desired torque. An
The present disclosure related to a method and a controller for controlling an AC generator which is used in connection with a wind turbine having a variable speed. The multi-phase generator is connected to a controllable converter and is controlled to provide a desired power or a desired torque. An AC reference signal is generated, which would provide the desired power or torque. A P+Resonant converter may be used to control an electrical characteristic of the generator in view of the reference, by applying control signals to the controllable converter. Thereby, the need to transform the electrical characteristic into a rotating frame may be eliminated which provides for a less complex controller.
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1. A method for controlling a multi-phase alternating current (AC) generator which is connected to a controllable converter, the generator having a rotor with a shaft connected to at least one wind turbine blade, the method comprising: determining a rotational speed and a phase of a rotor flux gener
1. A method for controlling a multi-phase alternating current (AC) generator which is connected to a controllable converter, the generator having a rotor with a shaft connected to at least one wind turbine blade, the method comprising: determining a rotational speed and a phase of a rotor flux generated by the rotor;determining an estimate of a stator flux;generating an AC stator flux reference signal based on the phase of the rotor flux;determining an error signal representing the difference between estimated stator flux and the AC stator flux reference signal;applying the error signal to a controller to generate a reference voltage, wherein the controller has a feedback function and a resonant function with a variable resonance frequency set to correspond to the frequency of the stator flux reference; andapplying the reference voltage to the controllable converter. 2. The method of claim 1, wherein the AC stator flux reference signal is generated based on an error signal corresponding to a difference between a desired power and an actual power. 3. The method of claim 1, wherein the AC stator flux reference signal is generated based on an error signal corresponding to a difference between a desired torque and an actual torque. 4. The method of claim 1, the method further comprising measuring an electrical characteristic of the AC generator, and the stator flux estimate is determined based on the electrical characteristic. 5. The method of claim 1, wherein the stator flux estimate is determined by direct measurement of the stator flux. 6. The method of claim 1, wherein the stator flux reference is generated in the d-q rotating frame before being transformed to the α-β stationary frame. 7. The method of claim 1, wherein the stator flux reference is generated in the d-q rotating frame before being transformed to the a-b-c natural frame. 8. The method of claim 1, wherein a transformation to the d-q rotating frame is not carried out in any of the steps. 9. The method of claim 1, wherein the controller is a P+resonant controller comprising a proportional coefficient, KP, and a resonant coefficient, KI, wherein KP and KI are constants, and wherein the resonance frequency of the controller is varied in accordance with the rotor speed. 10. The method of claim 1, wherein the controller is a P+resonant controller comprising a proportional coefficient, KP, and a resonant coefficient, KI, wherein either or both of KP and KI are varied depending on the rotational speed of the rotor flux, and wherein the resonance frequency of the controller is varied in accordance with the rotor speed. 11. The method of claim 1, wherein the reference voltage is compensated for the generator electromagnetic force, EMF. 12. A controlling arrangement for a multi-phase alternating current (AC) generator, comprising a rotor connected to at least one wind turbine blade, which is connected to a controllable converter, the arrangement comprising: a first detector device for detecting a rotational speed of a rotor flux generated by the rotor;at least one sensing device for measuring an electrical characteristic of the AC generator;a flux estimator for determining an estimate of a stator flux based on the electrical characteristic of the AC generator;an AC stator flux generator for generating an AC stator flux reference based on a phase of the rotor flux, the phase of the rotor flux being determined based on the rotational speed;an error signal generator for determining an error signal representing the difference between the estimated stator flux and the AC flux reference; anda controller adapted to generate a reference voltage based on the error signal, wherein the controller has a feedback function and a resonant function with a variable resonance frequency set to correspond to the frequency of the stator flux reference, wherein the reference voltage is adapted to control the controllable converter. 13. The arrangement of claim 12, wherein the AC stator flux reference signal is generated based on an error signal corresponding to a difference between a desired power and an actual power. 14. The arrangement of claim 12, wherein the AC stator flux reference signal is generated based on an error signal corresponding to a difference between a desired torque and an actual torque. 15. The arrangement of claim 12, wherein the controller is a P+resonant controller comprising a proportional coefficient, KP, and a resonant coefficient, KI wherein KP and KI are constants, and wherein the resonance frequency of the controller is varied in accordance with the rotor speed. 16. The arrangement of claim 12, wherein the controller is a P+resonant controller comprising a proportional coefficient, KP, and a resonant coefficient, KI wherein either or both of KP and KI are varied depending on the rotational speed of the rotor flux, and wherein the resonance frequency of the controller is varied in accordance with the rotor speed. 17. The arrangement of claim 12, wherein the reference voltage is compensated for the generator electromagnetic force, EMF.
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이 특허에 인용된 특허 (5)
Spiegel Ronald J. (Chapel Hill NC) Bose Bimal K. (Knoxville TN), Fuzzy logic integrated electrical control to improve variable speed wind turbine efficiency and performance.
Castelli Dezza, Francesco; Marchegiani, Gabriele; Pallotti, Fabio; Rosati, Gabriele, Control system for wind farms with aerogenerations provided with modular converters.
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