New Bi-Mode Gate-Commutated Thyristor Design Concept for High-Current Controllability and Low ON-State Voltage Drop

N. Lophitis; M. Antoniou; U. Vemulapati; M. Arnold; I. Nistor; J. Vobecky; M. Rahimo; F. Udrea

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New Bi-Mode Gate-Commutated Thyristor Design Concept for High-Current Controllability and Low ON-State Voltage Drop

机译：高电流可控性和低导通状态压降的新型双模栅极换向晶闸管设计概念

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摘要

A new design approach for bi-mode gate-commutated thyristors (BGCTs) is proposed for high-current controllability and low ON-state voltage drop. Using a complex multi-cell mixed-mode simulation model which can capture the maximum controllable current (MCC) of large area devices, a failure analysis was performed to demonstrate that the new design concept can increase the MCC by about 27% at room temperature and by about 17% at 400 K while minimizing the ON-state voltage drop. The simulations depict that the improvement comes from the new approach to terminate the GCT part in the BGCT way of intertwining GCT and diode regions for reverse conducting operation.

机译：针对高电流可控性和低导通状态压降，提出了一种双模栅极换向晶闸管（BGCT）的新设计方法。使用可以捕获大面积设备的最大可控电流（MCC）的复杂的多单元混合模式仿真模型，进行了故障分析，以证明新的设计理念在室温下可将MCC提升约27％，在400 K时可降低约17％，同时使导通状态的压降最小。仿真结果表明，这种改进来自采用GG和二极管区域交织的BGCT方式终止GCT部分的新方法，从而实现了反向传导操作。

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来源
《IEEE Electron Device Letters》 |2016年第4期|467-470|共4页
作者
N. Lophitis; M. Antoniou; U. Vemulapati; M. Arnold; I. Nistor; J. Vobecky; M. Rahimo; F. Udrea;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
BGCT; Bi-mode; Full Wafer Modelling; Full wafer modelling; GCT; Gate Commutated Thyristor; MCC; Maximum Controllable Current; Reverse Conducting; SOA; Safe Operating Area; Thyristor; bi-mode; gate commutated thyristor; maximum controllable current; reverse conducting; safe operating area; thyristor;

机译：BGCT;双模;全晶片建模;全晶片建模;GCT;门控换流晶闸管;MCC;最大可控电流;反向传导;SOA;安全工作区;晶闸管;双模;栅极换向晶闸管;最大可控电流;反向导电;安全工作区;晶闸管;

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1. Optimal Gate Commutated Thyristor Design for Bi-Mode Gate Commutated Thyristors Underpinning High, Temperature Independent, Current Controllability [J] . N. Lophitis, M. Antoniou, U. Vemulapati, Electron Device Letters, IEEE . 2018,第9期

机译：双模栅极换向晶闸管的最佳栅极换向晶闸管设计，以高，温度独立，电流可控性为基础
2. 8000-V 1000-A gate turn-off thyristor with low on-state voltage and low switching loss [J] . Kekura M., Akiyama H. IEEE Transactions on Power Electronics . 1990,第4期

机译：具有低导通电压和低开关损耗的8000V 1000A栅极关断晶闸管
3. Design and Manufacturing of 1200V SiC JBS Diodes with Low On-State Voltage Drop and Reverse Blocking Leakage Current [J] . Woong Je Sung, Ki Jeong Han, B. Jayant Baliga Materials science forum . 2018,第期

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4. 4 kV insulated gate controlled thyristor with low on-state voltage drop [C] . Sakano, J., Kobayashi, . 1996

机译：具有低通态压降的4 kV绝缘栅控晶闸管
5. Analysis and design of an auxiliary commutated full bridge DC/DC converter for low-voltage and high-current applications. [D] . Jain, Dheeraj Kumar. 2002

机译：用于低压和大电流应用的辅助换向全桥DC / DC转换器的分析和设计。
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7. New Bi-Mode Gate-Commutated Thyristor Design Concept for High-Current Controllability and Low ON-State Voltage Drop [O] . Lophitis N., Antoniou M., Vemulapati U., 2016

机译：高电流可控性和低导通状态压降的新型双模栅极换向晶闸管设计概念

New Bi-Mode Gate-Commutated Thyristor Design Concept for High-Current Controllability and Low ON-State Voltage Drop

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