Passivity‐based output admittance shaping of the converter‐side current‐controlled grid‐tied inverter to improve the robustness to the grid impedance

In the LCL‐filtered grid‐tied inverter, the classical low‐cost control strategy which is composed of the single converter‐side current control and the unit grid voltage feedforward compensation, is commonly employed to inject the sinusoidal current into the utility. However, the inverter output admittance features the non‐passive behaviour, which indicates that the harmonic currents may be amplified under the disturbances of the grid voltage and the grid impedance. Therefore, two dedicated current loops based on only the converter‐side current feedback are proposed, which consist of the low‐pass filter‐based current regulation and the high‐pass filter‐based active damping (HFAD). The mixed asymmetrical regular sampling method is further used to reduce the control delay of the HFAD. Moreover, the low‐pass filter‐based feedforward is developed to make a compromise between the disturbance rejection and the stability. Fair comparisons with other typical control strategies are made through analysing the virtual resistor in parallel with the filter capacitor, which reveals that the positive virtual resistance at the frequency lower than half of the switching frequency is maintained. With the elaborated control parameters, the exhaustive experimental results finally verify the effectiveness of the proposed method in passivating the inverter output admittance.