Integrated Computational Investigation of Photoconductive Semiconductor Switches in Pulsed Power Radio Frequency Applications

Wolfe Timothy S.; Francis Sarah Ashley; Langley Derrick; Petrosky James C.; Roos Jason; Terzuoli Andrew; Zens Timothy

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Integrated Computational Investigation of Photoconductive Semiconductor Switches in Pulsed Power Radio Frequency Applications

机译：脉冲功率射频应用中光电导开关的综合计算研究

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Successful integration of linear-mode photoconductive semiconductor switches (PCSS) into RF pulsing antenna sources may yield higher switching speeds and improved power efficiency over conventional switching methods, while also reducing size/weight. This paper presents a multiphysics computational methodology for studying linear-mode PCSS in a high-power antenna system, with a focus on extrinsically triggered widebandgap materials. A comparison with the existing literature reveals crucial performance sensitivities to photon absorption models, as well as encouraging results for the potential of PCSS as high-power switching devices.

机译：成功地将线性模式光电导半导体开关（PCSS）集成到RF脉冲天线源中，可以产生比传统开关方法更高的开关速度和更高的功率效率，同时还可以减小尺寸/重量。本文提出了一种多物理场计算方法，用于研究大功率天线系统中的线性模式PCSS，重点是外在触发的宽带隙材料。与现有文献的比较揭示了对光子吸收模型的关键性能敏感性，以及令人鼓舞的结果，即PCSS作为大功率开关设备的潜力。

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来源
《Plasma Science, IEEE Transactions on》 |2016年第1期|60-70|共11页
作者
Wolfe Timothy S.; Francis Sarah Ashley; Langley Derrick; Petrosky James C.; Roos Jason; Terzuoli Andrew; Zens Timothy;
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作者单位

Air Force Institute of Technology, Wright-Patterson AFB, OH, USA;

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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
Charge carriers; optical switches; photoconductivity; power semiconductor switches; semiconductor device modeling; wide bandgap semiconductors; wide bandgap semiconductors.;

机译：电荷载流子;光开关;光电导;功率半导体开关;半导体器件建模;宽带隙半导体;宽带隙半导体。;

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专利

1. Research on synchronization of 15 parallel high gain photoconductive semiconductor switches triggered by high power pulse laser diodes [J] . Wei Wang, Liansheng Xia, Yi Chen, Applied Physics Letters . 2015,第2期

机译：大功率脉冲激光二极管触发的15个并联高增益光电导半导体开关的同步研究
2. Photoconductive semiconductor switch experiments for pulsed power applications [J] . Zutavern F.J., Loubriel G.M. IEEE Transactions on Electron Devices . 1990,第12期

机译：脉冲功率应用的光电导半导体开关实验
3. High Power Lateral Silicon Carbide Photoconductive Semiconductor Switches and Investigation of Degradation Mechanisms [J] . Mauch Daniel, Sullivan William, Bullick Alan, Plasma Science, IEEE Transactions on . 2015,第6期

机译：大功率横向碳化硅光电导半导体开关及其降解机理的研究
4. PHOTOCONDUCTIVE SEMICONDUCTOR SWITCHES FOR PULSED POWER APPLICATIONS [C] . Loubriel, G.M., Zutavern, . -1

机译：用于脉冲电源的光导半导体开关
5. Evaluation of 4H-SiC photoconductive switches for pulsed power applications based on numerical simulations. [D] . Tiskumara, Rajintha. 2016

机译：基于数值模拟的脉冲功率应用4H-SiC光电导开关的评估。
6. Manufacturing and Testing of Radio Frequency MEMS Switches Using the Complementary Metal Oxide Semiconductor Process [O] . Zung-You Tsai, Po-Jen Shih, Yao-Chuan Tsai, 2021

机译：射频MEMS开关的制造和测试使用互补金属氧化物半导体工艺
7. High Power Semiconductor Devices and Solid State Switches for Pulsed Discharge Applications [O] . Fleischmann W., Welleman A. 2006

机译：大功率半导体器件和固态开关，用于脉冲放电应用
8. Photoconductive Semiconductor Switches for pulsed power applications. [R] . Loubriel, G. M., Zutavern, F. J., Denison, G. J., 1993

机译：用于脉冲功率应用的光电导半导体开关。

Integrated Computational Investigation of Photoconductive Semiconductor Switches in Pulsed Power Radio Frequency Applications

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