Switching Strategy for Si/SiC Hybrid Switch Based on Dynamic Configuration of Driving Mode in Full Working Domain

LONG Liu; BAI Dan; XIAO Fan; TU Chunming; GUO Qi; {{custom_author.name_en}}

doi:10.13334/j.0258-8013.pcsee.251148

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Switching Strategy for Si/SiC Hybrid Switch Based on Dynamic Configuration of Driving Mode in Full Working Domain

更新时间：2026-06-11

- Switching Strategy for Si/SiC Hybrid Switch Based on Dynamic Configuration of Driving Mode in Full Working Domain
- Vol. 46, Issue 7, Pages: 2978-2990(2026)
- 作者机构：
  
  国家电能变换与控制工程技术研究中心(湖南大学),湖南省,长沙市,410082
- 作者简介：
- 基金信息：
- DOI：10.13334/j.0258-8013.pcsee.251148
  CLC：
- Published：2026
- 稿件说明：
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LONG Liu, BAI Dan, XIAO Fan, et al. Switching Strategy for Si/SiC Hybrid Switch Based on Dynamic Configuration of Driving Mode in Full Working Domain[J]. 2026, 46(7): 2978-2990.
DOI：

LONG Liu, BAI Dan, XIAO Fan, et al. Switching Strategy for Si/SiC Hybrid Switch Based on Dynamic Configuration of Driving Mode in Full Working Domain[J]. 2026, 46(7): 2978-2990. DOI： 10.13334/j.0258-8013.pcsee.251148.

摘要

Si/SiC混合器件(Si/SiC hybrid switch，Si/SiC HyS)由小电流SiC金属氧化物半导体场效应晶体管(metal oxide semiconductor field effect transistor，MOSFET)和大电流Si绝缘栅双极晶体管(insulated gate bipolar transistor，IGBT)并联组成，因其同时具备MOSFET低开关损耗、高开关速度的优异性能与IGBT的低成本优势而备受关注。然而，MOSFET与IGBT的开关速率差异大，重载下开关暂态过程中二者极易面临电流峰值越限问题，进而威胁到混合器件全工作域的可靠运行。针对这一问题，提出一种基于全工作域驱动模式动态配置的Si/SiC HyS开关策略。首先，详细分析驱动电压对Si/SiC HyS开关暂态电流分布的影响机理，建立电流峰值关于驱动电压的数学模型；在此基础上，考虑电流应力约束将全工作域划分为3个负载区间，以MOSFET与IGBT的开通及关断过流比均不超过1为原则、混合器件损耗最小化为优化目标，对不同负载区间的驱动时序与驱动电压进行动态最佳配置；最后，实验结果表明，相比于传统策略，所提开关策略能够实现更低损耗的同时，保障MOSFET与IGBT在全工作域内均不出现过流问题。

Abstract

The Si/SiC hybrid switch (Si/SiC HyS) is composed of a low-current SiC metal oxide semiconductor field effect transistor (MOSFET) and a high-current Si insulated gate bipolar transistor (IGBT) in parallel. It has attracted much attention because of its excellent performance of low switching loss and high switching speed of MOSFET and the low cost advantage of IGBT. However

the switching rates of MOSFET and IGBT are quite different. During the switching transient process under heavy load

MOSFET and IGBT are prone to the problem of peak current exceeding the limit

which threatens the reliable operation during the full working domain of the HyS. This paper proposes a switching strategy for Si/SiC HyS based on dynamic configuration of gate mode in full working domain. Firstly

the influence mechanism of the gate voltage on the switching transient current distribution of Si/SiC HyS is analyzed in detail

and the mathematical model of the peak current with respect to the gate voltage is established. Considering the current stress constraint

the whole working domain is divided into three load intervals. Guided by the principle that the turn-on and turn-off overcurrent ratios are capped at 1

this study takes the minimum loss of HyS as the optimization objective to dynamically optimize the driving sequence and gate voltage across different load intervals. Finally

the experimental results show that compared with the traditional strategies

the proposed switching strategy can achieve lower loss while ensuring that MOSFET and IGBT are free from overcurrent vulnerabilities in the whole working domain.

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