Design of SWS for a Ku-band 140W short-length TWT

2009 International Conference on Emerging Trends in Electronic and Photonic Devices & Systems Pub Date : 2009-12-01 DOI:10.1109/ELECTRO.2009.5441080
V. Srivastava, D. Kumar, R. Sharma
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Abstract

Helical slow wave structure (SWS) for Ku-band 140W short length space TWT has been designed in a single section to achieve the desired saturated RF output power 140W, gain 25dB and electronic efficiency more than 28% over the frequency band of 10.9 to 11.7GHz. This short-length TWT has been designed for a microwave power module (MPM). In-house developed one-dimensional large signal model (SUNRAY-1D) and 2.5-dimensional large signal model (SUNRAY-2.5D) along with the commercial code CST-MWS have been used for the design of helix SWS assembly. Dependency of helix tape and APBN support rod dimensions on the SWS dispersion and impedance characteristics over the desired frequency band of 10.9 to 11.7 GHz has also been analyzed.
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ku波段140W短长度行波管的SWS设计
设计了ku波段140W短长空间行波管的螺旋慢波结构(SWS),在10.9 ~ 11.7GHz频段内实现饱和RF输出功率140W,增益25dB,电子效率大于28%。这种短长度行波管被设计用于微波功率模块(MPM)。内部开发的一维大信号模型(SUNRAY-1D)和2.5维大信号模型(SUNRAY-2.5D)以及商业代码CST-MWS已用于螺旋SWS组件的设计。在10.9 ~ 11.7 GHz期望频段内,分析了螺旋带和APBN支撑棒尺寸对SWS色散和阻抗特性的影响。
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2009 International Conference on Emerging Trends in Electronic and Photonic Devices & Systems
2009 International Conference on Emerging Trends in Electronic and Photonic Devices & Systems
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