Gate Commutated Thyristor With Voltage Independent Maximum Controllable Current

Lophitis; N.; Antoniou; M.; Udrea; F.; Nistor; I.

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Gate Commutated Thyristor With Voltage Independent Maximum Controllable Current

机译：具有电压独立最大可控电流的栅极换向晶闸管

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In this letter, we use a novel 3-D model, earlier calibrated with experimental results on standard gate commutated thyristors (GCTs), with the aim to explain the physics behind the high-power technology (HPT) GCT, to investigate what impact this design would have on 24 mm diameter GCTs, and to clarify the mechanisms that limit safe switching at different dc-link voltages. The 3-D simulation results show that the HPT design can increase the maximum controllable current in 24 mm diameter devices beyond the realm of GCT switching, known as the hard-drive limit. It is proposed that the maximum controllable current becomes independent of the dc-link voltage for the complete range of operating voltage.

机译：在这封信中，我们使用了一种新颖的3-D模型，该模型先前已在标准门换向晶闸管（GCT）上通过实验结果进行了校准，目的是解释高功率技术（HPT）GCT背后的物理原理，以研究这将产生什么影响该设计将采用直径为24 mm的GCT，并阐明限制不同直流链路电压下安全开关的机制。 3-D仿真结果表明，HPT设计可以将直径为24 mm的设备中的最大可控电流增加到GCT切换范围之外，这被称为硬盘限制。建议在整个工作电压范围内，最大可控电流变得独立于直流母线电压。

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来源
《IEEE Electron Device Letters》 |2013年第8期|954-956|共3页
作者
Lophitis; N.; Antoniou; M.; Udrea; F.; Nistor; I.;
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作者单位

Electrical Division, Department of Engineering, University of Cambridge, Cambridge, U.K.|c|;

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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
Gate commutated thyristor; maximum controllable current; safe operating area; thyristor; wafer modeling;

机译：栅极换向晶闸管;最大可控电流;安全工作区;晶闸管;晶片建模;

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专利

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. Parameters influencing the maximum controllable current in gate commutated thyristors [J] . Lophitis N., Antoniou M., Udrea F., Circuits, Devices & Systems, IET . 2014,第3期

机译：影响栅极换向晶闸管中最大可控电流的参数
3. New Bi-Mode Gate-Commutated Thyristor Design Concept for High-Current Controllability and Low ON-State Voltage Drop [J] . N. Lophitis, M. Antoniou, U. Vemulapati, IEEE Electron Device Letters . 2016,第4期

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
4. Average-value modeling of thyristor controlled line-commutated converter using voltage and current source formulations [C] . Atighechi Hamid, Jatskevich Juri, Cano Jose.M. IEEE Power and Energy Society General Meeting . 2013

机译：利用电压和电流源公式对可控硅换相转换器的平均值建模
5. Characteristics and simulation of integrated gate commutate thyristor (IGCT). [D] . Wang, Xiaobin. 2004

机译：集成栅极换向晶闸管（IGCT）的特性和仿真。
6. On the control of the proton current in the voltage-gated proton channel Hv1 [O] . Myungjin Lee, Chen Bai, Mikolaj Feliks, 2018

机译：关于电压门控质子通道Hv1中质子电流的控制
7. Optimal Gate Commutated Thyristor Design for Bi-Mode Gate Commutated Thyristors Underpinning High, Temperature Independent, Current Controllability [O] . N. Lophitis, M. Antoniou, U. Vemulapati, 2018

机译：最佳闸门换向晶闸管设计，用于双模门换向晶闸管支撑高，温度无关，电流可控性
8. Silicon controlled rectifier polyphase bridge inverter commutated with gate-turn-off thyristor [R] . 1986

机译：可控硅整流多相桥式逆变器与栅极关断晶闸管整流

Gate Commutated Thyristor With Voltage Independent Maximum Controllable Current

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