DC injection control for grid-connected inverters based on virtual capacitor concept

DC injection is a critical issue in the distributed generation systems according to IEEE Std. 1547-2003. Unfortunately, few literatures discuss this problem. In this paper, a novel control strategy is proposed to achieve zero steady-state DC injection. The proposed idea stems from a well-known fact that a capacitor can block DC component naturally. Generally, this capacitor should be large enough to avoid excessive losses of the grid-connected inverter system. In this paper, this large and costly capacitor is replaced with the proposed control strategy. So it is called virtual capacitor. Theoretical analysis and simulation results confirm the concept.

[1]  F. Blaabjerg,et al.  A review of single-phase grid-connected inverters for photovoltaic modules , 2005, IEEE Transactions on Industry Applications.

[2]  Andres Barrado,et al.  DC current injection into the network from PV inverters of <5 kW for low-voltage small grid-connected PV systems , 2007 .

[3]  Yaow-Ming Chen,et al.  Multi-Input Inverter for Grid-Connected Hybrid PV/Wind Power System , 2007, IEEE Transactions on Power Electronics.

[4]  Sewan Choi,et al.  A Low Cost Utility Interactive Inverter for Residential Fuel Cell Generation , 2007, IEEE Transactions on Power Electronics.

[5]  A. Ahfock,et al.  DC magnetisation of transformers , 2006 .

[6]  H. Stemmler,et al.  Stationary frame generalized integrators for current control of active power filters with zero steady state error for current harmonics of concern under unbalanced and distorted operation conditions , 2000, Conference Record of the 2000 IEEE Industry Applications Conference. Thirty-Fifth IAS Annual Meeting and World Conference on Industrial Applications of Electrical Energy (Cat. No.00CH37129).

[7]  P. Sanchis,et al.  Transformerless Inverter for Single-Phase Photovoltaic Systems , 2007, IEEE Transactions on Power Electronics.

[8]  J. Bordonau,et al.  Topologies of single-phase inverters for small distributed power generators: an overview , 2004, IEEE Transactions on Power Electronics.

[9]  F.Z. Peng,et al.  $Z$-Source Inverter for Residential Photovoltaic Systems , 2006, IEEE Transactions on Power Electronics.

[10]  M. Liserre,et al.  Stability of photovoltaic and wind turbine grid-connected inverters for a large set of grid impedance values , 2006, IEEE Transactions on Power Electronics.

[11]  D.G. Infield,et al.  Power quality from multiple grid-connected single-phase inverters , 2004, IEEE Transactions on Power Delivery.