Physical insight into turn-on transient of silicon carbide gate turn-off thyristor

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Accounts of Chemical Research Pub Date : 2024-05-08 DOI:10.1049/pel2.12706
Hangzhi Liu, Shiwei Liang, Yuming Zhou, Jun Wang
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Abstract

Silicon Carbide (SiC) Gate Turn-off (GTO) thyristor is regarded as a promising option for pulsed power applications; however, the formation of high di/dt has been constrained by the slow current rise transient phase and the turn-on current heterogeneity over the chip device. In this paper, a practical integrated multi-cell simulation is performed to physically characterize the turn-on transient of SiC GTO thyristor. Through examining electrical coupling between adjacent cells caused by both parasitics of electrode metallization and carrier travelling via SiC, the current distributions are observed, and the carrier transport dynamics are analyzed in detail. Furthermore, physical mechanisms dominating the current heterogeneity among multi-cells are discovered in depth. It is revealed that the current heterogeneity during the turn-on transient is primarily resulted from the Gate signal delay caused by the Gate Runner metallization, and the lateral interaction from adjacent semiconductor regions adds to this inhomogeneity; however, this situation can be improved once the electrical distance between each Anode contact and the Anode electrode gets lowered. Design method for turn-on performance improvement is also proposed accordingly. Besides, based on the analysis conducted on the multi-cell simulation results, the possible reason of the extremely slow current rise transient phase is speculated and experimentally verified. The improvement in the comprehension of SiC GTO's turn-on transient, which cannot be obtained from the traditional investigation from the viewpoint of one elementary cell, will provide guiding principles helping in directing future efforts to advance the improvement of device design technology.

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对碳化硅栅极关断晶闸管导通瞬态的物理洞察
碳化硅(SiC)栅极关断(GTO)晶闸管被认为是脉冲功率应用的一种有前途的选择;然而,高 di/dt 的形成一直受到瞬态电流上升阶段较慢和芯片器件导通电流异质性的限制。本文通过实际的集成多单元仿真,对 SiC GTO 晶闸管的接通瞬态进行了物理特性分析。通过研究由电极金属化寄生和载流子通过碳化硅传播引起的相邻单元之间的电耦合,观察了电流分布,并详细分析了载流子传输动力学。此外,还深入研究了主导多电池间电流异质性的物理机制。研究发现,开启瞬态期间的电流异质性主要是由栅极流道金属化引起的栅极信号延迟造成的,而相邻半导体区域的横向相互作用又增加了这种不均匀性;不过,一旦降低每个阳极触点与阳极电极之间的电气距离,这种情况就会得到改善。此外,还提出了相应的改善开启性能的设计方法。此外,基于对多电池仿真结果的分析,推测并通过实验验证了电流上升瞬态阶段极慢的可能原因。对 SiC GTO 接通瞬态的理解能力的提高,是传统的从一个基本单元的角度进行研究无法获得的,这将为指导未来改进器件设计技术的工作提供指导原则。
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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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