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http://dx.doi.org/10.6113/JPE.2016.16.3.1218

Modeling and Analysis of an Avionic Battery Discharge Regulator  

Chen, Qian (Zhejiang Electric Power Corporation Research Institute)
Yu, Haihong (Zhejiang Electric Power Corporation Research Institute)
Huang, Xiaoming (Zhejiang Electric Power Corporation Research Institute)
Lu, Yi (Zhejiang Electric Power Corporation Research Institute)
Qiu, Peng (Zhejiang Electric Power Corporation Research Institute)
Tong, Kai (Zhejiang Electric Power Corporation Research Institute)
Xuan, Jiazhuo (Zhejiang Electric Power Corporation Research Institute)
Xu, Feng (Zhejiang Electric Power Corporation Research Institute)
Xuan, Xiaohua (Zhejiang Electric Power Corporation Research Institute)
Huang, Weibo (Department of Electronic and Electrical Engineering, Beijing Jiaotong University)
Zhang, Yajing (College of Information Science & Technology, Beijing University of Chemical Technology)
Publication Information
Journal of Power Electronics / v.16, no.3, 2016 , pp. 1218-1225 More about this Journal
Abstract
The avionic battery discharge regulator (BDR) plays an important role in a power-conditioning unit. With its merits of high efficiency, stable transfer function, and continuous input and output currents, the non-isolated Weinberg converter (NIWC) is suitable for avionic BDR. An improved peak current control strategy is proposed to achieve high current-sharing accuracy. Current and voltage regulators are designed based on a small signal model of a three-module NIWC system. The system with the designed regulators operates stably under any condition and achieves excellent transient response and current-sharing accuracy.
Keywords
BDR; Current sharing; Modeling; Peak-current mode control; Weinberg;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 K. H. Park, C. H. Kim, and H. K. Cho, “Design considerations of a lithium ion battery management system (BMS) for the STSAT-3 satellite,” Journal of Power Electronics, Vol. 10, No. 2, pp. 210-217, Mar. 2010.   DOI
2 W. Lei, C. Wan, and B. Han, "Modeling analysis and study of the Weinberg converter with current programming control for space application," in Proceedings of the 8th European Space Power Conference, Konstanz, 2008.
3 W. Lei and Y. Li, “Small-signal modeling and analysis of the weinberg converter for high-power satellites bus application,” Chinese Journal of Electronics, Vol. 18, No. 1, pp. 171-176, 2009.
4 J. Ejea-Marti, E. Sanchis-Kilders, E. Maset, A. Ferreres, J. M. Blanes, A. Garrigos, J. Jordan, and V. Esteve, “Phase margin degradation of a peak current controlled converter at reduced duty cycle,” IEEE Trans. Power Electron., Vol. 25, No. 4, pp. 863-874, Apr. 2010.   DOI
5 J. Ejea-Marti, E. Sanchis-Kilders, E. Maset, A. Ferreres, J. Jordan, and V. Esteve,"Stability problems of peak current control at narrow duty cycles," in Proc. IEEE Conference on Applied Power Electronics, 2008.
6 J. Ejea-Marti, E. Sanchis-Kilders, E. Maset, A. Ferreres, J. Jordan, and V. Esteve, "Peak current control instabilities at narrow duty cycles," in Proc. IEEE Conference on Computational Intelligence and Security Workshops, 2008.
7 Q. Chen, T. Q. Zheng, Y. Li, and T. Shao, “The effect of transformer leakage inductance on the steady state performance of push-pull based converter with continuous current,” Journal of Power Electronics, Vol. 13, No. 3, pp. 349-361, May 2013.   DOI
8 E. Masetand and A. Ferreres, "5kW Weinberg converter for battery discharging in high-power communications satellites," in Proc. IEEE Conference on Power Electronics Specialists, 2005.
9 E. Maset, J. B. Ejea, A. Ferreres, E. Sanchis-Kilders, J. Jordan, and V. Esteve "High-efficiency weinberg converter for battery discharging in aerospace applications," in Proc. IEEE Conference on Applied Power Electronics, 2006.
10 R. D. Middlebrook, "Design techniques for preventing input-filter oscillations in switched-mode regulators," in Proc. Powercon 5, 1978.
11 B. Choi, B. H. Cho, R. B. Ridley, and F. C. Lee, "Control strategy for multi-module parallel converter system," in Proc. IEEE Conference on Power Electronics Specialists, 1990.
12 R. W Erickso, Fundamentals of Power Electronics, 2nd ed., Massachusetts: Kluwer Academic Publisher, pp. 462-504, 2001.
13 M. K. Kazimierczuk, “Transfer function of current modulator in PWM converters with current-mode control,” IEEE Trans. Circuits Syst. I, Fundam. Theory, Vol. 47, No. 9, pp. 1407-1412, Sep. 2000.   DOI
14 ECSS-E-20A: Space engineering electrical and electronic, October 4th 1999.