用低压GaN HEMT保护SiC MOSFET免受负栅电压尖峰的影响

2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD) Pub Date : 2023-05-28 DOI:10.1109/ISPSD57135.2023.10147444

Ji Shu, Jiahui Sun, Zheyang Zheng, K. J. Chen

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引用次数: 0

摘要

在SiC MOSFET的快速开关瞬态过程中，门环寄生和米勒电容诱发的误导通导致开关损耗增大、电路振荡甚至通断。使用负的关断状态栅极电压$V_{\text{GS}-} \text{off}$可以有效地缓解误导通问题。然而，这种方法也提高了在$V_{\text{DS}}$下降期间发生的负栅极电压尖峰的幅度，导致不必要的负栅极过应力。本文设计了一种简单的基于gan - hemt的栅极箝位电路(GCC)，用于SiC MOSFET负栅极电压尖峰箝位。由于GaN HEMT的快速开关速度，即使在$V_{\text{GS}-\text{off}}$的高压转率下，GCC也能有效箝位负尖峰，保护栅极在施加负$V_{\text{GS}-\text{off}}$抑制假导通时免受过应力的影响。

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Protection of SiC MOSFET from Negative Gate Voltage Spikes with a Low-Voltage GaN HEMT

The false turn-on induced by the gate loop parasitic and Miller capacitance during the fast switching transient of SiC MOSFET leads to increased switching loss, circuit oscillation and even shoot-through. Using a negative OFF-state gate voltage $V_{\text{GS}-} \text{off}$ can effectively mitigate the false turn-on issue. However, this approach also raises the magnitude of negative gate voltage spikes that occur during the fall of $V_{\text{DS}}$, leading to unwanted negative gate overstress. In this work, a simple GaN-HEMT-based gate clamping circuit (GCC) is designed for SiC MOSFET negative gate voltage spike clamping. Thanks to the fast switching speed of GaN HEMT, GCC can clamp the negative spike effectively even at a high slew rate of $V_{\text{DS}}$ (120 V/ns), protecting the gate from overstress when negative $V_{\text{GS}-\text{off}}$ is applied to suppress false turn-on.

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2023 35th International Symposium on Power Semiconductor Devices and ICs (ISPSD)

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