Research and control of SRG for variable-speed wind energy applications

Based on the investigation of the actual behaviour of switched reluctance generator (SRG), the nonlinear mathematical models of SRG are established, and the characteristics of its output voltage ripples are simply analyzed. Accordingly, a control system of voltage feedback with angles position controller (APC) section and filtering section is proposed to suppress voltage ripples. By choosing proper control parameters the stability of the whole system can be guaranteed for variable-speed. In the medium and low speed range, voltage ripples can be reduced effectively by closed loop control of voltage. For high speeds, the voltage feedback control is failed when winding current becomes single pulse mode and the proposed APC part is actuated automatically. The turn-on angle and turn-off angle are dynamically shifted to assist voltage feedback regulation control. The filtering components are properly designed to minimize high-frequency ripples caused by commutation and pulse width modulation (PWM) switching. With the compensating action of APC part and the filtering function, more desirable static and dynamic performances of SRG can be obtained. The effectiveness of the control approaches is confirmed by simulation results.

[1]  Ke Liu,et al.  Voltage Control Of A Switched Reluctance Generator By Means Of Fuzzy Logic Approach , 1998, Proceedings of the 6th International Conference on Optimization of Electrical and Electronic Equipments.

[2]  B. Fahimi,et al.  Design and control characterization of switched reluctance generator for maximum output power , 2006, Twenty-First Annual IEEE Applied Power Electronics Conference and Exposition, 2006. APEC '06..

[3]  C. Mademlis,et al.  Optimizing performance in current-controlled switched reluctance generators , 2005, IEEE Transactions on Energy Conversion.

[4]  S. Singer,et al.  Design of a simple high-power-factor rectifier based on the flyback converter , 1990, Fifth Annual Proceedings on Applied Power Electronics Conference and Exposition.

[5]  Chang-Ming Liaw,et al.  On the Design of Power Circuit and Control Scheme for Switched Reluctance Generator , 2008, IEEE Transactions on Power Electronics.

[6]  Christos Mademlis,et al.  Optimal efficiency control of switched reluctance generators , 2006, IEEE Transactions on Power Electronics.

[7]  H. Chen,et al.  Turn-on angle control for switched reluctance wind power generator system , 2004, 30th Annual Conference of IEEE Industrial Electronics Society, 2004. IECON 2004.

[8]  David A. Torrey Variable-reluctance generators in wind-energy systems , 1993, Proceedings of IEEE Power Electronics Specialist Conference - PESC '93.

[9]  J. Clare,et al.  Control of a switched reluctance generator for variable-speed wind energy applications , 2005, IEEE Transactions on Energy Conversion.

[10]  Y. Sozer,et al.  Closed loop control of excitation parameters for high speed switched-reluctance generators , 2003, Eighteenth Annual IEEE Applied Power Electronics Conference and Exposition, 2003. APEC '03..

[11]  D.S. Zinger,et al.  Voltage feedback signal conditioning in switched reluctance generation systems , 2000, APEC 2000. Fifteenth Annual IEEE Applied Power Electronics Conference and Exposition (Cat. No.00CH37058).

[12]  B. Fahimi,et al.  A switched reluctance machine-based starter/alternator for more electric cars , 2004, IEEE Transactions on Energy Conversion.