异步栅极信号下并联碳化硅MOSFET导通行为的解析模型

IF 0.2 Q4 AREA STUDIES
Chen Wang, Shuang Zhao, Jianing Wang, Helong Li, Yuqi Wei, H. Mantooth
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引用次数: 2

摘要

与使用大功率模块相比,并联电源器件是一种广泛应用于工业的解决方案,可以提高变换器系统的额定电流。然而,由于不希望的PCB布局或半导体制造公差,漏源电流(Ids)不匹配会加速特定器件的老化过程。碳化硅(SiC)器件的应用由于其更高的开关速度而加剧了这一问题。不同驱动芯片的传播延迟、门环寄生电感或异步PWM信号带来的异步门信号延迟是暂态电流不平衡的主要原因。其对开关性能的影响分析尚不明确。本文分析了并联MOSFET中不同类型的电流不平衡。提出了一种精确的分析模型,用于推导不同栅极信号延迟时间下并联SiC mosfet的导通开关轨迹。利用该模型,可以推导出导通开关能量损耗、电流应力等重要性能指标。实验研究验证了该模型的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analytical Model of the Parallel-Connected Silicon Carbide MOSFET Turn-ON Switching Behavior Under Asynchronous Gate Signals
Parallel-connected power device is an extensively applied solution in the industry to increase the current rating of the converter system compared with using high-power modules. However, due to the undesired PCB layout or semiconductor fabrication tolerance, mismatched drain-source current (Ids) which speeds up the aging process of a specific device can be introduced. The application of silicon carbide (SiC) devices aggravates this problem due to their higher switching speed. Asynchronous gate signal delay brought by the different driver chip propagation delay, gate loop parasitic inductance, or asynchronous PWM signal is a major reason of transient current imbalance. The analysis of its impact on switching performance is yet to be clarified. In this paper, different types of current imbalance of parallel connected MOSFET are analyzed. An accurate analytical model for deriving the turn-on switching trajectory of parallel-connected SiC MOSFETs under different gate signal delay time is firstly proposed. With the proposed model, the important performance indicators such as turn-on switching energy loss, current stress can be derived with the trajectory model. Experimental study is conducted to validate the proposed model.
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来源期刊
CiteScore
1.20
自引率
0.00%
发文量
8
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