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    Journals >Microelectronics >Volume 52 >Issue 5 >Page 790 > Article
    • Microelectronics
    • Vol. 52, Issue 5, 790 (2022)
    Study on Control Strategy of a Four-Switch Buck-Boost Converter with CC/CV Modes for Automotive Applications
    WU Dongming1, LI Keyu1, XIE Zeya1, YANG Tao1, ZHEN Shaowei1, LUO Ping1、2, and ZHANG Bo1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
    • show less
    DOI: 10.13911/j.cnki.1004-3365.220007 Cite this Article
    WU Dongming, LI Keyu, XIE Zeya, YANG Tao, ZHEN Shaowei, LUO Ping, ZHANG Bo. Study on Control Strategy of a Four-Switch Buck-Boost Converter with CC/CV Modes for Automotive Applications[J]. Microelectronics, 2022, 52(5): 790 Copy Citation Text show less
    References

    [1] DRAGOI B. On selecting a front-end DC-DC converter for automotive applications [C]// 12th IEEE ISETC. Timisoara, Romania. 2016: 29-32.

    [2] XUE J, SONG M K, KE X, et al. A 2 MHz 4-to-60 VIN buck-boost converter for automotive use achieving 95% efficiency and CISPR 25 class 5 standard [C]// IEEE ISSCC. San Francisco, CA, USA. 2019: 158-160.

    [3] REZZAK D, SITAYEB A, HOUAM Y, et al. A new design of lead-acid battery charger based on non-inverting buck-boost converter for the photovoltaic application [C]// 6th IRSEC. Rabat, Morocco. 2018: 1-7.

    [4] Texas Instruments. LM5176-Q1 datasheet [EB/OL]. https://www.ti.com.cn/lit/gpn/lm5176-q1, 2021.

    [5] KIM K D, LEE H M, HONG S W, et al. A noninverting buck-boost converter with state-based current control for Li-ion battery management in mobile applications [J]. IEEE Trans Indus Elec, 2018, 66(12): 9623-9627.

    [6] SINGH M, FAYED A A. A 1-A 6-MHz digitally assisted buck-boost converter with seamless mode transitions and fast dynamic performance for mobile devices [J]. IEEE Trans Power Elec, 2020, 36(4): 4338-4351.

    [7] YANG S H, LIU J W, WU Y H, et al. A high voltage battery charger with smooth charge mode transition in BCD process [C]// IEEE ISCAS. Rio de Janeiro, Brazil. 2011: 813-816.

    [8] YANG S H, LIU J W, WANG C C. A single-chip 60-V bulk charger for series Li-ion batteries with smooth charge-mode transition [J]. IEEE Trans Circ Syst I: Reg Pap, 2012, 59(7): 1588-1597.

    [9] CHEN M, RINCN-MORA G A. Accurate, compact, and power-efficient Li-ion battery charger circuit [J]. IEEE Trans Circ Syst II: Expr Brie, 2006, 53(11): 1180-1184.

    [10] LIM C Y, MANDAL D, BAKKALOGLU B, et al. Switching battery charger with cascaded two loop control using time-based techniques [C]// IEEE APEC. Phoenix, AZ, USA. 2021: 1991-1995.

    [11] ARORA S, SINGH M.Reduction of switching transients in CC/CV mode of electric vehicles battery charging [C]// CEAT2018. Kuala Lumpur, Malaysia. 2018: 1-6.

    [12] WU J F, WEI C L, JUANG Y Z. A monolithic high-voltage Li-ion battery charger with sharp mode transition and partial current control technique [J]. IEEE Trans Circ Syst I: Reg Pap, 2018, 65(9): 3099-3109.

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    WU Dongming, LI Keyu, XIE Zeya, YANG Tao, ZHEN Shaowei, LUO Ping, ZHANG Bo. Study on Control Strategy of a Four-Switch Buck-Boost Converter with CC/CV Modes for Automotive Applications[J]. Microelectronics, 2022, 52(5): 790
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