Abstract
In the distributed power generation system (DPGS), there may be a large range perturbation values of equivalent grid impedance at the point of common coupling (PCC). Perturbation of the impedance will cause resonant frequency variation of the Inductance Capacitance Inductance (LCL) filter on a large scale, affecting the quality of the grid current of the grid-connected inverter (GCI) and even causing resonance. To deal with this problem, a novel H∞ robust control strategy based on mixed-sensitivity optimization is proposed in this paper. Its generalized controlled object is augmented by properly selecting weighting functions in order to consider both tracking performance around power frequency and the stability margin in a high frequency of the GCI. For convenient implementation, the H∞ robust controller is simplified by model reduction from the seventh order to the third order. By comparison with a traditional control strategy with a quasi-proportional resonance controller, the proposed H∞ robust control strategy avoids crossing 180 degrees at the resonant frequency point in the phase frequency characteristic of current loop, and moves the phase frequency characteristic left. It guarantees a sufficient margin of stability throughout the designed range of grid impedance perturbation values and avoids the difficulty of parameter setting. Finally, the experimental results support the theoretical analyses and demonstrate the feasibility of the proposed strategy.
Highlights
The distributed power generation system (DPGS) with renewable energy sources is becoming a promising power generation system which can improve efficiency and enhance the reliability of the power supply
When grid-connected inverter (GCI) are connected in parallel at the point of common coupling (PCC), these GCIs will interact with each other for grid impedance, while the impact of grid impedance on these GCIs will increase by N times (N is the number of these GCIs) [2]
The effects of grid impedance perturbation are shown in following aspects: (1) It can cause the resonant frequency variation of Inductance Capacitance Inductance (LCL) filter usually used as the output filter of GCI, Energies 2018, 11, 57; doi:10.3390/en11010057
Summary
The distributed power generation system (DPGS) with renewable energy sources is becoming a promising power generation system which can improve efficiency and enhance the reliability of the power supply. Grid-connected inverters (GCIs) are broadly used as important interface devices between renewable energy generations and the grid [1]. The grid-connected/islanded modes of GCIs will frequently change the equivalent grid impedance in DPGSs [3]. With the increase of the penetration rate of GCIs, large-range perturbation of the equivalent grid impedance on the PCC may occur more and more frequently, and weaken the control performance of GCIs in DPGSs. The effects of grid impedance perturbation are shown in following aspects: (1) It can cause the resonant frequency variation of Inductance Capacitance Inductance (LCL) filter usually used as the output filter of GCI, Energies 2018, 11, 57; doi:10.3390/en11010057 www.mdpi.com/journal/energies
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