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基于LCC-LC谐振变换器的高压储能电源研究

钱黎涛 王德玉 于建萍 赵清林

钱黎涛, 王德玉, 于建萍, 等. 基于LCC-LC谐振变换器的高压储能电源研究[J]. 强激光与粒子束, 2020, 32: 075004. doi: 10.11884/HPLPB202032.200074
引用本文: 钱黎涛, 王德玉, 于建萍, 等. 基于LCC-LC谐振变换器的高压储能电源研究[J]. 强激光与粒子束, 2020, 32: 075004. doi: 10.11884/HPLPB202032.200074
Qian Litao, Wang Deyu, Yu Jianping, et al. Research on high voltage energy storage power supply of pulse plasma thruster based on LCC-LC resonant converter[J]. High Power Laser and Particle Beams, 2020, 32: 075004. doi: 10.11884/HPLPB202032.200074
Citation: Qian Litao, Wang Deyu, Yu Jianping, et al. Research on high voltage energy storage power supply of pulse plasma thruster based on LCC-LC resonant converter[J]. High Power Laser and Particle Beams, 2020, 32: 075004. doi: 10.11884/HPLPB202032.200074

基于LCC-LC谐振变换器的高压储能电源研究

doi: 10.11884/HPLPB202032.200074
基金项目: 国家自然科学基金项目(51407154);河北省自然科学基金项目(E2016203237)
详细信息
    作者简介:

    钱黎涛(1993—),男,硕士,主要从事谐振型变换器研究;2387278553@qq.com

    通讯作者:

    王德玉(1979—),男,博士,副教授,硕导,主要从事高功率重频脉冲充放电技术及脉冲信号测量技术,谐振型DC/DC变换器研究;wdy@ysu.edu.cn

  • 中图分类号: TM910.6

Research on high voltage energy storage power supply of pulse plasma thruster based on LCC-LC resonant converter

  • 摘要: 针对脉冲等离子体推力器(PPT)高压储能电容充电这一应用背景,研究了一种新型LCC-LC谐振变换器。该变换器在保留了LCC谐振网络基本特性的同时,引入了零增益点,使谐振变换器具有负载短路保护和缓启动功能,且相比于LCC谐振变换器的工作频率调整范围更窄,有利于磁集成和功率密度的提升。利用基波分析法和阻抗分析法分析了高阶LCC-LC谐振腔的特性,并基于此进行工作区间划分,确保LCC-LC谐振变换器宽负载范围内实现软开关;针对LCC-LC谐振变换器的高效运行,给出了一整套参数优化设计方法。最后,通过仿真和1 kW的原理样机实验数据,对所研究的变换器各项功能进行了验证。
  • 图  1  LCC-LC谐振变换器

    Figure  1.  LCC-LC resonant converter

    图  2  LCC-LC谐振变换器等效电路

    Figure  2.  Equivalent circuit of LCC-LC resonant converter

    图  3  LCC-LC变换器电压和电流增益

    Figure  3.  Gain analysis of LCC-LC converter

    图  4  LCC-LC参数设计流程

    Figure  4.  LCC-LC parameter design process

    图  5  恒流输出(Io=500 mA)仿真波形

    Figure  5.  Simulation waveform of constant current output(Io=500 mA)

    图  6  恒压输出(Vo=2 kV)仿真波形

    Figure  6.  Simulation waveform of constant voltage output(Vo=2 kV)

    图  7  漏电补偿(Io=2.7 mA)仿真波形

    Figure  7.  Simulation waveform of trickle output(Io=2.7 mA)

    图  8  短路输出(Vo=0 V)仿真波形

    Figure  8.  Simulation waveform of short circuit protection output (Vo=0 V)

    图  9  缓启动波形

    Figure  9.  Waveform of soft start

    表  1  多谐振网络参数

    Table  1.   Parameter of multi resonance network

    Vin/VIomax/AUomax/VPomax/kWnCs/μFLs/μHCp/μFLp/μHCm/μFCm/μF
    2700.52 0001300.27150.1357.50.1352
    下载: 导出CSV
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出版历程
  • 收稿日期:  2020-03-20
  • 修回日期:  2020-04-20
  • 刊出日期:  2020-06-24

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