Back
 EPE  Vol.5 No.4 B , July 2013
The Research of Three-phase Boost/Buck-boost DC-AC Inverter
Xiangli Li*, Zhaoyang Yan, Yanni Gao, Hanhong Qi
Show more
Abstract: This paper presents a new inverter based on three-phase Boost/Buck-boost single-stage inverter. The basic configuration of the new topology and their fundamental principle are firstly introduced, the method of design double-loop controller and sliding mode controller are clarified, analyzed and compared in the following. Finally the validity and feasibility of the new topology are tested by simulation. The results indicate that regulation of the voltage transfer ratio and output frequency can be realized optionally by the new converter, furthermore the harmonic distortion of waveform is low. So the inherent drawback of low voltage transfer ratio of traditional converter is effectively settled. This study may provide inspiration for further engineering application.
Keywords: Three-phase Boost Single-stage Inverter; Three-phase Buck-boost Single-stage inverter; Double-loop Controller; Sliding Mode Controller
Cite this paper: X. Li, Z. Yan, Y. Gao and H. Qi, "The Research of Three-phase Boost/Buck-boost DC-AC Inverter," Energy and Power Engineering, Vol. 5 No. 4, 2013, pp. 906-913. doi: 10.4236/epe.2013.54B174.
References

[1]   R. O. Cáceres and I. Barbi, “A Boost DC–AC Converter: Analysis, Design, and Experimentation,” IEEE, Transactions on Power Electronics 1999, Vol. 14, pp. 134-141.

[2]   Z. X. Yan, J. X. Li, W. Zhang, Q. Zhang, Y. N. Zheng and W. Y. Wu, “Topology Family and the Simulation of “BOOK” Differential Single-stage Stage Inverter,” IEEE, 2010. doi:10.1109/63.737601

[3]   Z. Y. Yan, J. X. Li, Y. N. Zheng and W. Y. Wu, “Research of Double-Boost Single-stage Stage DC/AC Converter based on SPWM,” Vol. 47, No. 9, 2007, pp. 17-19.

[4]   N. Vazquez, D. Cones, C. HemaIldez, et a1., “A New Nonlinear Control Strategy for the Boost Inverter,” IEEE International power Electronics Conference, Mexico, 2003.

[5]   P. Sanchis, A. U. E. Gubía and L. Marroyo, “Boost DC-AC Inverter: A New Control Strategy,” IEEE Transactions on Power Electronics, Vol. 20, No. 02, 2005, pp. 343-353. doi:10.1109/TPEL.2004.843000

[6]   B. Kalaivani, V. K. Chinniyan and J. Jerome, “A Novel Control Strategy for the Boost DC-AC Inverter,” India International Conference on Power Electronics, 2006, pp. 341-344.

[7]   R. Cáceres, R. Rojas and O. Camacho, “Robust PID Control of a Buck-Boost DC-AC Converter,” IEEE, 1998, pp. 180-185.

[8]   P. Sanchis, A. Ursua, E. Gubia and L. Marroyo, “Buck- Boost DC-AC inverter: Proposal for a New Control Strategy,” 35th Annual IEEE Power Electronics Specialists Conference, 2004, pp. 3994-3998.

[9]   Z. Q. Cai, F. Hong and Wang, “Research on a Single-stage-stage Buck/Boost Inverter,” Power Supply Technologies and Application, Vol. 11, No. 4, 2008, pp. 43-47.

[10]   H. Ma, T. Zhang and S. L. han, “Analysis and Design of Sliding Mode Control for Novel Buck Inverter,” Transactions of China Electrotechnical Society, 2005, Vol. 20, No. 7, pp. 50-56.

[11]   J. Chen, “The Research of DC-AC Inverter Based on Sliding Mode Control,” Master’s Thesis, University,2003.

[12]   J. L. Zhu, Z. Yue, X. P. Zhang, S. S. Liu and S. W. Liu, “A Study of BMC and BBMC with High Voltage Transfer Ratio. Proceedings of the CSEE,” 2007, Vol. 27, No. 16, pp. 85-91

 
 
Top