An Additional Resonance Damping Control for Grey-Box D-PMSG Wind Farm Integrated Weak Grid
This addresses resonance damping for wind farm operators in weak grids where existing methods are unavailable or costly due to commercial secrecy.
The paper tackles resonance issues in grey-box D-PMSG wind farm systems by proposing an Additional Resonance Damping Control (ARDC) that adds an external control loop, verified through simulation and hardware-in-the-loop experiments.
Considerable efforts have been made to address the resonance issue of the Direct-drive Permanent Magnet Synchronous Generator (D-PMSG) wind farm integrated power systems. However, the D-PMSG controller structure and parameters are concealed because of commercial secrecy, thus the target system exhibits grey-box characteristics. The existing resonance damping methods are either unavailable for grey-box systems or economically infeasible, which makes resonance damping of grey-box systems extremely challenging. To address this issue, this paper proposes an Additional Resonance Damping Control (ARDC) specfically for the grey-box D-PMSG system. This strategy is achieved by incorporating an additional control loop outside the D-PMSG controller. Firstly, the external impedance characteristics are obtained by the frequency sweeping technique ofline and then the key parameter of the additional control loop is determined by the Bode-diagram-based method under the worst stability scenario. Once the resonance occurs, the external impedance of the black-box D-PMSG is reshaped online to increase the magnitude stability margin of the system, thus providing effective resonance damping. The ARDC's effectiveness is finally verfied in the simulation and controller-hardware-in-the-loop experiment under various operating conditions.