Dynamic Feedback Controlling Chaos in Current-Mode Boost Converter
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Abstract
A method for the control of chaos in the current-mode boost converter is presented by using the first-order dynamic feedback control. The feedback part consists of a resistance and a capacitance in series. The system to be controlled is treated as a third-order model, and then the discrete mapping model is obtained by using the data-sampling method. By analysing the position of the maximum norm eigenvalue, the stable range of feedback gain is ascertained out and its optimization is also carried out. Finally, the results of simulation and experiment confirm the correctness of the theoretical analysis and the validity of the proposed means.
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Cite this article:
LU Wei-Guo, ZHOU Luo-Wei, LUO Quan-Ming. Dynamic Feedback Controlling Chaos in Current-Mode Boost Converter[J]. Chin. Phys. Lett., 2007, 24(7): 1837-1840.
LU Wei-Guo, ZHOU Luo-Wei, LUO Quan-Ming. Dynamic Feedback Controlling Chaos in Current-Mode Boost Converter[J]. Chin. Phys. Lett., 2007, 24(7): 1837-1840.
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LU Wei-Guo, ZHOU Luo-Wei, LUO Quan-Ming. Dynamic Feedback Controlling Chaos in Current-Mode Boost Converter[J]. Chin. Phys. Lett., 2007, 24(7): 1837-1840.
LU Wei-Guo, ZHOU Luo-Wei, LUO Quan-Ming. Dynamic Feedback Controlling Chaos in Current-Mode Boost Converter[J]. Chin. Phys. Lett., 2007, 24(7): 1837-1840.
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