循环平面磁控管同轴全腔提取

IEEE International Vacuum Electronics Conference. International Vacuum Electronics Conference Pub Date : 2014-04-22 DOI:10.1109/IVEC.2014.6857504

M. Franzi, R. Gilgenbach, B. Hoff, G. Greening, Y. Lau, N. Jordan, D. Simon, D. French, J. Luginsland

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引用次数: 4

摘要

最近在第一个循环平面磁控管(RPM)原型上的实验，l波段RPM-12a，已经成功地在1 GHz的pi模式附近产生微波功率，使用-300 kV脉冲电压和0.2 T轴向磁场。然而，这些最初的实验主要是为了证明可行性和验证射频色散关系。这个原型还没有证明有效地提取微波功率到波导中。密歇根大学目前正在开发一种新型的电力提取方法，该方法使用同轴改进型“全腔提取器”。同轴全腔提取器(CACE)是一种高度紧凑的轴向提取技术，专为适应RPM的平面慢波结构而设计。介绍了萃取器的概念和设计，以及一个新的实验原型RPM-CACE，这是一个12腔装置，在1.9 GHz下模拟产生450兆瓦，效率为60%。

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Coaxial all cavity extraction in the Recirculating Planar Magnetron

Recent experiments on the first Recirculating Planar Magnetron (RPM) prototype, the L-band RPM-12a, have demonstrated successful generation of microwave power in the vicinity of pi-mode at 1 GHz using a -300 kV pulsed voltage and 0.2 T axial magnetic field. However, these initial experiments were designed primarily to demonstrate feasibility and validate the RF dispersion relationship. This prototype has not demonstrated the efficient extraction of microwave power into waveguides. A novel approach to power extraction using a coaxial adaptation of the “all cavity extractor” is currently under development at the University of Michigan. The Coaxial All Cavity Extractor (CACE) is a highly compact axial extraction technique that is specifically designed to accommodate the planar slow wave structures of the RPM. Concepts and design of the extractor are presented as well as a new experimental prototype RPM-CACE, a 12-cavity device simulated to yield 450 MW with 60% efficiency at 1.9 GHz.

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IEEE International Vacuum Electronics Conference. International Vacuum Electronics Conference

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