Analytical models of the crosstalk voltage in SiC MOSFETs under different loads-Reference-Cited by-同舟云学术

Analytical models of the crosstalk voltage in SiC MOSFETs under different loads

Published:2023-07-16 Issue:14 Volume:16 Page:2356-2368
ISSN:1755-4535
Container-title:IET Power Electronics
language:en
Short-container-title:IET Power Electronics

Author:

Xu Hao¹^ORCID,Cai Yumeng¹,Sun Peng¹,Zhao Zhibin¹,Cao Boyuan²

Affiliation:

1. State Key Laboratory of Alternate Electrical Power System with Renewable Energy Sources North China Electric Power University Beijing China

2. State Grid Shanghai Municipal Electric Power Company Shanghai China

Abstract

AbstractDue to the higher switching speed and lower threshold voltage of SiC MOSFET, its crosstalk issue is more serious than that of Si devices. Firstly, the mechanism and process of crosstalk under resistive load and inductive load are compared and analyzed. Then, a parameter decoupling method based on energy conservation is proposed, and an analytical model of the crosstalk voltage under resistive load is established. Moreover, an analytical model of the crosstalk voltage under inductive load with only device and circuit parameters is introduced. Furthermore, the influence of the drive resistance and the common source inductance on the crosstalk voltage under different loads is evaluated through the analytical model. Finally, a double pulse test is carried out to verify the validity of the analysis. The results presented here can provide guidance for the design of gate circuit parameters to regulate the crosstalk issue of SiC MOSFETs under different loads.

Publisher

Institution of Engineering and Technology (IET)

Subject

Electrical and Electronic Engineering

Reference25 articles.

1. A resonant gate driver for SiC MOSFET;Zhang J.;Trans. China Electrotech. Soc.,2020

2. A recent review on silicon carbide power devices technologies;Sheng K.;Proc. CSEE,2020

3. Katsuaki M. Koosuke H.:Analysis of a self turn‐on phenomenon on the synchronous rectifier in a DC‐DC converter. In:The 25th International Telecommunications Energy Conference 2003. INTELEC '03.Yokohama Japan pp.199–204 (2003)

4. SiC MOSFET gate driver design based on interference dynamic response mechanism;Shao T.;Trans. China Electrotech. Soc.,2021

5. Dynamic characterization assessment on series short‐circuit of SiC MOSFET;Zhang J.;Trans. China Electrotech. Soc.,2021