IET Power Electronics (Nov 2022)

A novel high‐frequency floating resonant gate driver with reduced gate driving loss

  • Cheng Gu,
  • Qinsong Qian,
  • Yanting Wang,
  • Song Ding,
  • Ziyan Zhou,
  • Tianhao Dong,
  • Weifeng Sun

DOI
https://doi.org/10.1049/pel2.12326
Journal volume & issue
Vol. 15, no. 14
pp. 1563 – 1571

Abstract

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Abstract Conventional resistive gate driving circuits suffer from significant recovery gate driving losses, especially at MHz ranges. The increasing gate driving losses brought by high switching frequency place a limitation to the high power density converter design. This paper proposes a novel floating resonant gate driver which maintains high efficiency at several megahertz operating frequency. The gate loss reduction is achieved by adopting a resonant process with driving power recycling. Part of the gate driving power can be recycled to a gate driving capacitor in the gate driving loop during charging and discharging. The proposed gate driver merges the merits of fast switching speed and low gate driving losses. A prototype of LLC power converter with the proposed floating resonant gate driver operating at 3.5 MHz is implemented. According to the experimental verification, the proposed gate driver realized a driving loss reduction by 70% and theoretical analysis is in good agreement with experimental results.