• Title/Summary/Keyword: DAB (Dual-Acive-Bridge) converter

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Operating Frequency Design for Stable Initial Operation of Loosely Coupled Resonant DAB Converter (Loosely Coupled Resonant DAB 컨버터의 안정적인 초기 구동을 위한 동작 주파수 설계)

  • Baek, Seung-Hyuk;Kim, Sungmin;Lee, Jaehong;Lee, Seung-Hwan
    • The Transactions of the Korean Institute of Power Electronics
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    • v.26 no.6
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    • pp.437-445
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    • 2021
  • This paper proposes an operating frequency design method that limits the voltage applied to aload-side converter during the initial operation of a loosely coupled resonant dual-active bridge (LCR-DAB) converter and an initial operating strategy that applies it. The LCR-DAB converter uses two wireless power transfer coils instead of the high-frequency transformer of the general DAB converter. The wireless power coil has a physical distance of several tens of millimeter or more between the two coils; thus, the LCR-DAB converter is a bidirectional isolated power conversion system that can easily achieve high insulation performance. However, for the initial operation of the LCR-DAB, if the power-side converter is operated at the resonance frequency while the load-side converter is not operating, then a very high voltage due to resonance is applied to the load-side converter, thereby causing damage to the converter. Therefore, a method that can stably charge the DC link voltage of the secondary-side converter during the initial operation is needed. This paper proposes a method to initially charge the secondary-side DC link by operating the primary-side converter at a frequency with limited voltage gain rather than at a steady-state operating frequency. The validity of the proposed frequency design method and initial operating sequence is verified through simulation and experimentation of the 1 KW LCR-DAB converter.