Comparative study of electromagnetic performance of switched reluctance machines under different excitation techniques

This paper analyses and compares the electromagnetic performance of switched reluctance (SR) machines having three different excitations, i.e. conventional unipolar, AC sinusoidal bipolar with/without DC bias. Under the AC sinusoidal bipolar excitation, the SR machine becomes synchronous reluctant (SynR) machines having concentrated winding. On the other hand, in principle the SR machine under sinusoidal and excitation with DC bias is similar to the switched flux permanent magnet (SFPM) machine. During the finite element investigation, the torque capability and torque-speed characteristics are particularly investigated, whilst the losses and efficiency are also highlighted. In conclusion, the SR machines having AC sinusoidal bipolar excitations with DC bias exhibits relatively smooth output torque, widest torque-speed characteristics, lowest iron loss as well as relatively high efficiency. Furthermore, comparing with the conventional unipolar excitation, both AC sinusoidal bipolar excitations can result in much lower torque ripple percentage and same or even higher average output torque, as well as lower iron loss and higher efficiency. A prototype is constructed and experimental results are presented to verify the predictions and analyses.

[1]  Shigeo Morimoto,et al.  A novel control scheme for maximum power operation of synchronous reluctance motors including maximum torque per flux control , 2009 .

[2]  Z. Q. Zhu,et al.  Influence of end-effect and cross-coupling on torque-speed characteristics of switched flux permanent magnet machines , 2011, 8th International Conference on Power Electronics - ECCE Asia.

[3]  V. Kamaraj,et al.  Minimization of torque ripple in switched reluctance machine for direct drive applications , 2005, Proceedings of the IEEE Symposium on Emerging Technologies, 2005..

[4]  M. Gabsi,et al.  Comparative Studies Between Classical and Mutually Coupled Switched Reluctance Motors Using Thermal-Electromagnetic Analysis for Driving Cycles , 2011, IEEE Transactions on Magnetics.

[5]  F. Villata,et al.  On the evolution of AC machines for spindle drive applications , 1989, Conference Record of the IEEE Industry Applications Society Annual Meeting,.

[6]  R. Deodhar,et al.  Performance comparison between unipolar and bipolar excitations in switched reluctance machine with sinusoidal and rectangular waveforms , 2011, 2011 IEEE Energy Conversion Congress and Exposition.

[7]  R. Rabinovici,et al.  New procedures for minimizing the torque ripple in switched reluctance motors by optimizing the phase-current profile , 2005, IEEE Transactions on Magnetics.

[8]  Iqbal Husain,et al.  Torque ripple minimization in switched reluctance motors using adaptive fuzzy control , 1997, IAS '97. Conference Record of the 1997 IEEE Industry Applications Conference Thirty-Second IAS Annual Meeting.

[9]  Kaushik Rajashekara,et al.  Power Electronics and Motor Drives in Electric, Hybrid Electric, and Plug-In Hybrid Electric Vehicles , 2008, IEEE Transactions on Industrial Electronics.

[10]  Chang Seop Koh,et al.  Pole-Shape Optimization of a Switched-Reluctance Motor for Torque Ripple Reduction , 2007, IEEE Transactions on Magnetics.

[11]  D. Howe,et al.  Influence of load on noise and vibration of voltage and current controlled switched reluctance machines , 2002 .

[12]  R. Deodhar,et al.  Comparison of losses and efficiency in alternate flux-switching permanent magnet machines , 2010, The XIX International Conference on Electrical Machines - ICEM 2010.

[13]  Z. Q. Zhu,et al.  Investigation of electromagnetic performance of salient-pole synchronous reluctance machines having different concentrated winding connections , 2013, 2013 International Electric Machines & Drives Conference.

[14]  X. Mininger,et al.  Sinusoidal feeding for Switched Reluctance Machine: Application to vibration damping , 2008, 2008 18th International Conference on Electrical Machines.

[15]  Z. Zhu,et al.  Electromagnetic performance analysis of synchronous reluctance machines having non-overlapping concentrated winding and AC sinusoidal bipolar with DC bias excitation , 2013, 2013 International Electric Machines & Drives Conference.

[16]  M. Ehsani,et al.  Advantages of switched reluctance motor applications to EV and HEV: design and control issues , 1998, Conference Record of 1998 IEEE Industry Applications Conference. Thirty-Third IAS Annual Meeting (Cat. No.98CH36242).