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    Journals >Microelectronics >Volume 52 >Issue 5 >Page 758 > Article
    • Microelectronics
    • Vol. 52, Issue 5, 758 (2022)
    A Static Model for Switched Capacitor Power Converters Based on Loss Voltage Analysis
    ZHENG Xinyi1, LUO Ping1,2, and WANG Hao1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.13911/j.cnki.1004-3365.220345 Cite this Article
    ZHENG Xinyi, LUO Ping, WANG Hao. A Static Model for Switched Capacitor Power Converters Based on Loss Voltage Analysis[J]. Microelectronics, 2022, 52(5): 758 Copy Citation Text show less
    References

    [1] SANDERS S R, ALON E, LE H P, et al. The road to fully integrated DC–DC conversion via the switched-capacitor approach [J]. IEEE Trans Power Elec, 2013, 28(9): 4146-4155.

    [2] IOINOVICI A. Switched-capacitor power electronics circuits [J]. IEEE Circ & Syst Magaz, 2001, 1(3): 37-42.

    [3] ANDERSEN T M, KRISMER F, KOLAR J W, et al. Modeling andpareto optimization of on-chip switched capacitor converters [J]. IEEE Trans Power Elec, 2016, 32(1): 363-377.

    [4] KIMBALL J W, KREIN P T, CAHILL K R. Modeling of capacitor impedance in switching converters [J]. IEEE Power ElectLett, 2005, 3(4): 136-140.

    [5] KIMBALL J W, KREIN P T. Analysis and design of switched capacitor converters [C]// Twentieth Annual IEEE Appl Power Elec Conf Exposi. 2005, 3: 1473-1477.

    [6] YE Y, CHENG K W E. Voltage-gap modeling method for single-stage switched-capacitor converters [J]. IEEE J Emerging Selected Topics Power Elec, 2014, 2(4): 808-813.

    [7] HIROSE T, NAKAZAWA Y. Design of switched- capacitor voltage boost converter for low-voltage and low-power energy harvesting systems [J]. IEICE Trans Elec, 2020, E103-C(10): 446-457.

    [8] ZHENG X, LUO P. A fully integrated switched capacitor power converter with minimum driving loss point tracking technique [J]. IEEE Trans Circ Syst II: Expr Brie, 2022, DOI: 10.1109/TCSII.2022.3201274.

    [9] CHEN P H, CHENG H C, CHEN P H. A fully integrated step-down switched-capacitor DC-DC converter with dual output regulation mechanisms [J]. IEEE Trans Circ Syst II: Expr Brie, 2020, 67(9): 1649-1653.

    [10] SEEMAN M D, SANDERS S R. Analysis and optimization of switched-capacitor DC-DC converters [J]. IEEE Trans Power Elec, 2008, 23(2): 841-851.

    [11] BEN-YAAKOV S, EVZELMAN M. Generic and unified model of switched capacitor converters [C]// IEEE Energy Conver Congress and Exposi. San Jose, CA, USA. 2009: 3501-3508.

    [12] WU B, WANG L, YANG L, et al. Comparative analysis of steady-state models for a switched capacitor converter [J]. IEEE Trans Power Elec, 2016, 32(2): 1186-1197.

    [13] EVZELMAN M, BEN-YAAKOV S. Average-current- based conduction losses model of switched capacitor converters [J]. IEEE Trans Power Elec, 2012, 28(7): 3341-3352.

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    ZHENG Xinyi, LUO Ping, WANG Hao. A Static Model for Switched Capacitor Power Converters Based on Loss Voltage Analysis[J]. Microelectronics, 2022, 52(5): 758
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