Automatika (Jul 2024)

Advanced gate driving concepts and switching optimization for SiC semiconductors

  • Tomislav Ivaniš,
  • Marinko Kovačić,
  • Martin Makar,
  • Željko Jakopović

DOI
https://doi.org/10.1080/00051144.2024.2362525
Journal volume & issue
Vol. 65, no. 3
pp. 1300 – 1314

Abstract

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Silicon carbide (SiC) MOSFETS are increasingly favoured in power electronics for their improved properties compared to silicon-based counterparts, such as IGBTs. Their ability to operate at higher switching frequencies and execute faster switching transients is notable. However, these features also raise significant concerns with electromagnetic interference (EMI). To exploit the full capabilities of SiC-based technology, meticulous design strategies encompassing the power stage, commutation loop, and gate drive are essential. This paper conducts a comprehensive review of existing gate drive techniques aimed at enhancing the performance of SiC devices. Moreover, this study introduces an innovative approach for optimizing switching processes through the use of active gate drivers (AGD). By pre-mapping the gate-source voltage profiles for different conditions (such as load current, temperature, and DC-link voltage), it is possible to achieve a significantly improved switching trajectory. This optimization process can be applied on a cycle-by-cycle basis in practical scenarios. Herein, pre-mapping and optimization have been experimentally confirmed in a half-bridge configuration. Through simulation, it is demonstrated that optimizing the switching trajectory can lead to a balanced compromise between EMI and switching losses, showcasing the potential for significant performance enhancements in SiC device operation.

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