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International Journal of Electronics Volume 106, 2019 - Issue 6
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Articles

Inductance optimisation method of a four-wire shunt APF based on unified mathematical model

Le JianSchool of Electrical Engineering, Wuhan University, Wuhan, ChinaCorrespondence[email protected]
,
Zhou QianSchool of Electrical Engineering, Wuhan University, Wuhan, China
,
Zhang HaoSchool of Electrical Engineering, Wuhan University, Wuhan, China
,
Li XingruiSchool of Electrical Engineering, Wuhan University, Wuhan, China
,
Wang CaoSchool of Electrical Engineering, Wuhan University, Wuhan, China
&
Sui ChunsongSchool of Electrical Engineering, Wuhan University, Wuhan, China
Pages 846-861 | Received 03 Aug 2018, Accepted 06 Dec 2018, Published online: 13 Feb 2019

References

  • Bouyakoub, I., Djahbar, A., Taleb, R., & Maarouf, O. (2017, December). Active filter 3-phase 4-wire controlled by 3D-SVM for unbalanced load. International Renewable and Sustainable Energy Conference (pp. 1–5). Tangier, Morocco: IEEE.
  • Brandao, D. I., Paredes, H. K. M., Costabeber, A., & Marafão, F. P. (2016). Flexible active compensation based on load conformity factors applied to non-sinusoidal and asymmetrical voltage conditions. IET Power Electronics, 9(2), 356–364.
  • Büyük, M., Tan, A., Bayindir, K. Ç., & Tümay, M. (2015, September). Analysis and comparison of passive damping methods for shunt active power filter with output LCL filter. Intl Aegean Conference on Electrical Machines & Power Electronics (pp. 434–440). Side, Turkey: IEEE.
  • Gutierrez, B., & Kwak, S. S. (2016). Finite control set predictive control of shunt hybrid power filter. International Journal of Electronics, 104(6), 913–927.
  • Ismail, N. M., & Mishra, M. K. (2018). Study on the design and switching dynamics of hysteresis current controlled four-leg voltage source inverter for load compensation. IET Power Electronics, 11(2), 310–319.
  • Jain, S. K., Agrawal, P., & Gupta, H. O. (2002). Fuzzy logic controlled shunt active power filter for power quality improvement. IEEE Proceedings-Electric Power Applications, 149(5), 317–328.
  • Jayalath, S., & Hanif, M. (2018). An LCL-filter design with optimum total inductance and capacitance. IEEE Transactions on Power Electronics, 33(8), 6687–6698.
  • Kanjiya, P., Khadkikar, V., & Zeineldin, H. H. (2013). A noniterative optimized algorithm for shunt active power filter under distorted and unbalanced supply voltages. IEEE Transactions on Industrial Electronics, 60(12), 5376–5390.
  • Kumar, S. J., & Sreenivas, G. N. (2017, October). Analysis of spilt capacitor three-phase four-wire shunt active filter in distribution system. International Conference on Signal Processing, Communication, Power and Embedded System (pp. 1418–1422). Paralakhemundi, India: IEEE.
  • Lam, C. S., Choi, W. H., Wong, M. C., & Han, Y. D. (2012). Adaptive dc-link voltage-controlled hybrid active power filters for reactive power compensation. IEEE Transactions on Power Electronics, 27(4), 1758–1772.
  • Le, J., Li, X. R., Wang, C., Zhang, H., & Gao, C. (2018). Novel compound PWM strategy of a four-leg shunt active power filter. International Journal of Electronics, 105(12), 1993–2008.
  • Liu, S. L., & Ma, Y. B. (2010, June). Optimization design of the inductance of boost converters. International Conference on Electrical and Control Engineering (pp. 3949–3952). Wuhan, China: IEEE.
  • Miret, J., de Vicuna, L. G., Castilla, M., Matas, J., & Guerrero, J. M. (2009). Design of an analog quasi-steady-state nonlinear current-mode controller for single-phase active power filter. IEEE Transaction on Industrial Electronics, 56(12), 4872–4881.
  • Samet, B., Ozgur, C. O., Soydan, R., & Mustafa, S. D. (2016). New hybrid active power filter for harmonic current suppression and reactive power compensation. International Journal of Electronics, 103(8), 1397–1414.
  • Vahid, S., Rastegar, H., Fathi, S. H., & Jedari, M. (2016, September). A comprehensive comparison between three different control strategies for four-leg active power filters. International Symposium on Environment Friendly Energies and Applications (pp. 1–7). Belgrade, Serbia: IEEE.
  • Xie, C., Zhao, X., Savaghebi, M., Meng, L., Guerrero, J. M., & Vasquez, J. C. (2017). Multirate fractional-order repetitive control of shunt active power filter suitable for microgrid applications. IEEE Journal of Emerging and Selected Topics in Power Electronics, 5(2), 809–819.
  • Zhang, Y., & Zhang, B. (2016, October). Optimized LCR output filter of APF based on genetic algorithm. IEEE International Conference on Power and Renewable Energy (pp.151–155). Shanghai, China: IEEE.
  • Zou, Z., Zhou, K., Wang, Z., & Cheng, M. (2015). Frequency-adaptive fractional-order repetitive control of shunt active power filters. IEEE Transactions on Industrial Electronics, 62(3), 1659–1668.

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