大功率空间行波管效率提升研究
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摘要
以X波段脉冲800 W空间行波管为模型,对大功率脉冲空间行波管效率提升问题进行了研究。采用螺旋线内径渐变与螺距改变的组合方式,对原设计方案进行了优化,在抑制返波振荡的同时,提高了互作用效率。经过对收集极结构改进,进一步提高了大功率脉冲空间行波管效率。
Research on efficiency improvement of high power pulsed space TWTswas carried out based on an 800 W X-bandTWT.Original design was optimized by usinghelix with gradientinner diameter and gradientpitch,which depressesbackward-wave oscillation and improves interaction efficiency.A new structure of multistage depressed collector was used and it further improves efficiency of high power pulsed space TWT.
Research on efficiency improvement of high power pulsed space TWTswas carried out based on an 800 W X-bandTWT.Original design was optimized by usinghelix with gradientinner diameter and gradientpitch,which depressesbackward-wave oscillation and improves interaction efficiency.A new structure of multistage depressed collector was used and it further improves efficiency of high power pulsed space TWT.
引文
[1]樊会明.高效率空间行波管慢波系统的研究[D].北京:中国科学院研究生院(电子学研究所),2007.
[2]郭开周.行波管研制技术[M].北京:电子工业出版社,2008.
[3]吉尔默A S,著,吴常津,译.行波管原理[M].北京:中国电子科技集团公司第十二研究所,2005.
[4]何俊,黄明光,李现霞,等.高效率偏心多级降压收集极的研究[J].微波学报,2014,(6).
[2]郭开周.行波管研制技术[M].北京:电子工业出版社,2008.
[3]吉尔默A S,著,吴常津,译.行波管原理[M].北京:中国电子科技集团公司第十二研究所,2005.
[4]何俊,黄明光,李现霞,等.高效率偏心多级降压收集极的研究[J].微波学报,2014,(6).