Abstract
This paper presents a proportional plus resonant (P+RES) controller applied to the control of generated power from the switched reluctance generator (SRG). The P+RES controller is used to reject any frequencies outside the resonant point, where its gain is infinite. The controller was implemented on digital signal processor (TMS320F2835), and the experimental results show that the proposal can be a good alternative for SRG’s power control once, in addition to other benefits, they provide power ripple reduction.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akcayol, M. A. (2004). Application of adaptive neuro-fuzzy controller for srm. Advances in Engineering Software, 35(3–4), 129–137.
Barazarte, R. Y., Gonzalez, G., & Hall, E. (2011). Comparison of electrical generators used for wind power generation. IEEE Latin America Transactions, 9(7), 1040–1044.
Capovilla, C. E., Casella, I. R. S., Filho, A. J. S., dos Santos Barros, T. A., & Filho, E. R. (2015). Performance of a direct power control system using coded wireless ofdm power reference transmissions for switched reluctance aerogenerators in a smart grid scenario. IEEE Transactions on Industrial Electronics, 62(1), 52–61. https://doi.org/10.1109/TIE.2014.2331017.
Choi, D. W., Byun, S. I., & Cho, Y. H. (2014). A study on the maximum power control method of switched reluctance generator for wind turbine. IEEE Transactions on Magnetics, 50(1), 1–4.
Deskur, J., Pajchrowski, T., & Zawirski, K. (2010). Optimal control of current switching angles for high-speed SRM drive. COMPEL-The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 29(1), 156–172.
dos Barros, T. A. S., Filho, A. J. S., & Filho, E. R. (2013). Direct power control for switched reluctance generator in wind energy. In S. M. Muyeen, A. Al-Durra, & H. M. Hasanien (Eds.), Modeling and control aspects of wind power systems, chap 3. Rijeka: IntechOpen. https://doi.org/10.5772/54162.
Feng, S., Jiang, P., & Wu, X. (2017). Suppression of power system forced oscillations based on pss with proportional-resonant controller. International Transactions on Electrical Energy Systems, 27(7), e2328.
Husain, I. (2002). Minimization of torque ripple in SRM drives. IEEE Transactions on Industrial Electronics, 49(1), 28–39.
Husev, O., Roncero-Clemente, C., Makovenko, E., Pimentel, S. P., Vinnikov, D., & Martins, J. (2020). Optimization and implementation of the proportional-resonant controller for grid-connected inverter with significant computation delay. IEEE Transactions on Industrial Electronics, 67(2), 1201–1211.
Islam, M., Anwar, M., & Husain, I. (2003). Design and control of switched reluctance motors for wide-speed-range operation. IEE Proceedings-Electric Power Applications, 150(4), 425–430.
Karthikeyan, R., Vijayakumar, K., & Arumugam, R. (2009). Study on switched reluctance generator for rural electrification. In International Conference on Industrial and Information Systems (ICIIS), IEEE, New York (pp. 472–476).
Krishnan, R. (2001). Switched reluctance motor drives: Modeling, simulation, analysis, design, and applications. Boca Raton: CRC Press.
Lee, D. H., Lee, Z. G., Liang, J., & Ahn, J. W. (2007). Single-phase srm drive with torque ripple reduction and power factor correction. IEEE Transactions on Industry Applications, 43(6), 1578–1587.
Mahmoud, S. M., El-Sherif, M. Z., Abdel-Aliem, E. S., & Nashed, M. N. (2013). Studying different types of power converters fed switched reluctance motor. International Journal of Electronics and Electrical Engineering, 1(4), 281–290.
Mikail, R., Husain, I., Sozer, Y., Islam, M. S., & Sebastian, T. (2014). A fixed switching frequency predictive current control method for switched reluctance machines. IEEE Transactions on Industry Applications, 50(6), 3717–3726.
Nassereddine, M., Rizk, J., & Nagrial, M. (2009). Conversion of a switched reluctance motor to operate as a generator for wind power applications. In IEEE Bucharest PowerTech, IEEE, New York (pp 1–5).
Oliveira, A. L., Pelizari, A., & Filho, A. J. S. (2018). Finite element analysis simulation of switched reluctance motor drive. IEEE Latin America Transactions, 16(7), 1928–1933. https://doi.org/10.1109/TLA.2018.8447359.
Oruganti, H., Dash, S., Nallaperumal, C., & Ramasamy, S. (2018). A proportional resonant controller for suppressing resonance in grid tied multilevel inverter. Energies, 11(5), 1024.
Oshaba, A., Ali, E., & Elazim, S. A. (2015). Aco based speed control of srm fed by photovoltaic system. International Journal of Electrical Power & Energy Systems, 67, 529–536.
Ozdemir, S. (2016). Z-source t-type inverter for renewable energy systems with proportional resonant controller. International Journal of Hydrogen Energy, 41(29), 12591–12602.
Saad, N. H., El-Sattar, A. A., & Metally, M. E. (2018). Artificial neural controller for torque ripple control and maximum power extraction for wind system driven by switched reluctance generator. Ain Shams Engineering Journal, 9(4), 2255–2264.
Samani, L., RASHIDI, A., Saghaiannezhad, S. M., et al. (2016). A designed converter for minimizing SRM torque ripple with controlled boost capacitor automatically. Turkish Journal of Electrical Engineering and Computer Science, 24(5), 3358–3370.
Teodorescu, R., Blaabjerg, F., Liserre, M., & Loh, P. C. (2006). Proportional-resonant controllers and filters for grid-connected voltage-source converters. IEE Proceedings-Electric Power Applications, 153(5), 750–762.
Teodorescu, R., Liserre, M., & Rodriguez, P. (2011). Grid converters for photovoltaic and wind power systems, (Vol. 29). Hoboken: Wiley.
Tiwari, R., & Babu, N. R. (2016). Recent developments of control strategies for wind energy conversion system. Renewable and Sustainable Energy Reviews, 66, 268–285.
Torrey, D. A. (2002). Switched reluctance generators and their control. IEEE Transactions on industrial electronics, 49(1), 3–14.
Viajante, G., Andrade, D., Chaves, E., Bernadelli, V., Queiroz, C., Freitas, M., et al. (2016). A grid connection scheme of a switched reluctance generator for active power injection using p-resonant (p-res) controller. Electric Power Systems Research, 141, 572–579.
Yang, Y., & Zhang, Y. (2005). Sliding mode-PI control of switched reluctance motor drives for EV. In Proceedings of the eighth international conference on electrical machines and systems, ICEMS 2005, IEEE, New York (vol. 1, pp. 603–607).
Zan, X., Cui, M., Yu, D., Xu, R., & Ni, K. (2018). Improvement of the response speed for switched reluctance generation system based on modified pt control. Energies, 11(8), 2049.
Zmood, D. N., & Holmes, D. G. (2003). Stationary frame current regulation of pwm inverters with zero steady-state error. IEEE Transactions on Power Electronics, 18(3), 814–822. https://doi.org/10.1109/TPEL.2003.810852.
Acknowledgements
The authors would like to thank the University of São Paulo, the Laboratory of Power Electronics and Smart Grids of Federal University of ABC and CAPES for the financial support.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Chirapo, K.A.C., Oliveira, A.L., Sguarezi Filho, A.J. et al. P+RES Controller Applied to the Direct Power Control of Switched Reluctance Generator. J Control Autom Electr Syst 31, 360–366 (2020). https://doi.org/10.1007/s40313-019-00543-1
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s40313-019-00543-1