Abstract:Three-phase grid-connected voltage source inverter(VSI) is often used to feed high quality current into grid in photovoltaic(PV) power generation system. But many factors, such as switching dead-time effects and disturbance of grids etc, will deteriorate the current waveform, and a large number of harmonic will be fed into grid too. Owing to the conflict between stability and fast response, proportional-integral (PI) controller has limited capabilities to restrain harmonic disturbances and can not guarantee the output performance of grid-connected inverter, so a new control algorithm using compound controller constituted by repetitive controller(RC) and PI controller is proposed in this paper to overcome the shortcomings of PI controller in harmonic control. A dynamic model of grid-connected inverter in synchronous rotating frame(SRF) is derived and the compound current controller design is presented too. Theoretic analysis and experimental results on a 20kW prototype verify that the proposed current controller offers a high performance of current control.
[1] Beck Y, Bishara B, Medini D. Connecting an alternative energy source to the power grid by a DSP controlled DC/AC inverter [C]. Power Engineering Society Inaugural Conference and Exposition in Africa, 2005: 120-124. [2] Victor M, Cardenas G, Sergio Horta M, et al. Elimination of dead-time effects in three phase inverters [C]. IEEE CIEP Conf. Rec., 1996:258-262. [3] Garcia Cerrada A, Roncero Sanchez P, et al. Detailed analysis of closed-loop control of output-voltage harmonics in voltage-source inverters [J]. IEE Proc. Electr. Power Appl., 2004, 151(6): 734-743. [4] Duan Shanxu, Sun Zhaohui, et al. A compensation strategy for dead-time effect of SPWM inverters based on repetitive control[J]. Transactions of China Electrotechnical Society, 2004, 19(2): 52-57. [5] Kong Xuejun, Wang Jingjiang, et al. The control scheme of three-phase voltage-source inverter output waveform based on internal model theory [J]. Proceedings of the CSEE, 2003, 23(7): 67-70. [6] Wei Xueliang, Dai Ke, et al. Performance analysis and improvement of output current controller for three-phase shunt active power filter [C]. IEEE Industrial Electronics, IECON, 2006: 1757-1762. [7] George Ellis. Control system design guide: using your computer to develop and diagnose feedback controllers [M]. San Diego: Academic Press, 1991. [8] Burup U, Prasad P N, et al.A new space-vector-based control method for UPS systems powering nonlinear and unbalanced loads [J]. IEEE Transactions on Industry Applications, 2001, 37(6): 1864-1870. [9] Zeng Qingrong, Chang Liuchen. Development of an SVPWM-based predictive current controller for three-phase grid-connected VSI [C]. IEEE IAS Conf., 2005: 2395-2400. [10] Li M, Xing Y. Digital voltage regulation with flux balance control for sine wave inverters[C]. IEEE APEC Conf. Rec., 2004:1311-1314. [11] Zhang K, Kang Y. Direct repetitive control of SPWM inverter for UPS purpose [J]. IEEE Transactions on Power Electronics, 2003, 1(3): 784-792. [12] Harold L Broberg, Richard G Molyet. A new approach to phase cancellation in repetitive control[C]. IEEE IAS Conf. Rec., 1994: 1766-1770.
2010, Vol. 25 
