Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke
Parallel connection of silicon carbide (SiC) MOSFETs is a cost-effective solution for high-capacity power converters. However, transient imbalance current, during turn-on and -off processes, challenges the safety and stability of parallel SiC MOSFETs. In this paper, considering the impact factors of...
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sg-ntu-dr.10356-1552092022-02-15T07:49:47Z Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke Zeng, Zheng Zhang, Xin Zhang, Zhe School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Parallel SiC MOSFETs Mechanism of Imbalance Current Parallel connection of silicon carbide (SiC) MOSFETs is a cost-effective solution for high-capacity power converters. However, transient imbalance current, during turn-on and -off processes, challenges the safety and stability of parallel SiC MOSFETs. In this paper, considering the impact factors of device parameters, circuit parasitics, and junction temperatures, in-depth mathematical models are created to reveal the electrothermal mechanisms of the imbalance current. Moreover, with the incorporation of a differential mode choke (DMC), an effective approach is proposed to suppress the imbalance current among parallel SiC MOSFETs. Physics concepts, operation principles, and design guidelines of the DMC-based suppression method are fully presented. Besides, to reduce the equivalent leakage inductance and equivalent parallel capacitance of the DMC, winding patterns of the DMC are comparatively studied and optimized to suppress turn-off over-voltage and switching ringing. Concerning the influence of winding patterns, load currents, gate resistances, and junction temperatures, experimental results are comprehensively demonstrated to confirm the validity of theoretical models and the function of the proposed DMC-based suppression method. It is turned out the low-cost DMC is easy to design and utilize without complex feedback circuits or control schemes, which is a cost-effective component to guarantee consistent and synchronous on-off trajectories of parallel SiC MOSFETs. Ministry of Education (MOE) This work was supported in part by the Chinese National Natural Science Foundation under Grant 51607016, in part by the Chinese National Key Research & Development Program under Grant 2017YFB0102 303, and in part by Singapore ACRF Tier 1 under Grant RG 85/18, as well as in part by the start-up grant (SCOPES) of Professor Xin Zhang 2022-02-15T07:49:47Z 2022-02-15T07:49:47Z 2020 Journal Article Zeng, Z., Zhang, X. & Zhang, Z. (2020). Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke. IEEE Transactions On Industrial Electronics, 67(2), 1508-1519. https://dx.doi.org/10.1109/TIE.2019.2901655 0278-0046 https://hdl.handle.net/10356/155209 10.1109/TIE.2019.2901655 2-s2.0-85071610500 2 67 1508 1519 en RG 85/18 IEEE Transactions on Industrial Electronics © 2019 IEEE. All rights reserved. |
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Engineering::Electrical and electronic engineering Parallel SiC MOSFETs Mechanism of Imbalance Current |
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Engineering::Electrical and electronic engineering Parallel SiC MOSFETs Mechanism of Imbalance Current Zeng, Zheng Zhang, Xin Zhang, Zhe Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| description |
Parallel connection of silicon carbide (SiC) MOSFETs is a cost-effective solution for high-capacity power converters. However, transient imbalance current, during turn-on and -off processes, challenges the safety and stability of parallel SiC MOSFETs. In this paper, considering the impact factors of device parameters, circuit parasitics, and junction temperatures, in-depth mathematical models are created to reveal the electrothermal mechanisms of the imbalance current. Moreover, with the incorporation of a differential mode choke (DMC), an effective approach is proposed to suppress the imbalance current among parallel SiC MOSFETs. Physics concepts, operation principles, and design guidelines of the DMC-based suppression method are fully presented. Besides, to reduce the equivalent leakage inductance and equivalent parallel capacitance of the DMC, winding patterns of the DMC are comparatively studied and optimized to suppress turn-off over-voltage and switching ringing. Concerning the influence of winding patterns, load currents, gate resistances, and junction temperatures, experimental results are comprehensively demonstrated to confirm the validity of theoretical models and the function of the proposed DMC-based suppression method. It is turned out the low-cost DMC is easy to design and utilize without complex feedback circuits or control schemes, which is a cost-effective component to guarantee consistent and synchronous on-off trajectories of parallel SiC MOSFETs. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zeng, Zheng Zhang, Xin Zhang, Zhe |
| format |
Article |
| author |
Zeng, Zheng Zhang, Xin Zhang, Zhe |
| author_sort |
Zeng, Zheng |
| title |
Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| title_short |
Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| title_full |
Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| title_fullStr |
Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| title_full_unstemmed |
Imbalance current analysis and its suppression methodology for parallel SiC MOSFETs with aid of a differential mode choke |
| title_sort |
imbalance current analysis and its suppression methodology for parallel sic mosfets with aid of a differential mode choke |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155209 |
| _version_ |
1725985712487006208 |