The lower hybrid current drive (LHCD) is an effective approach for auxiliary heating and non-inductive current drive in the experimental advanced superconducting tokamak. The 6 MW/4.6 GHz LHCD system is being designed and installed with twenty-four 250 KW/4.6 GHz high power klystron amplifiers. The test bench operating at 250 KW/4.6 GHz in continuous wave mode has been set up, which can test and train microwave components for the 6 MW/4.6 GHz LHCD system. In this paper, the system architecture and software of the microwave test bench are presented. Moreover, the test results of these klystrons and microwave units are described here in detail. The long term operation of the test bench and improved performance of all microwave component samples indicated that the related technologies on test bench can be applied in the large scale LHCD systems.
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January 2013
Research Article|
January 11 2013
High power continuous wave microwave test bench at 4.6 GHz for experimental advanced superconducting tokamak
Wendong Ma;
Wendong Ma
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Huaichuan Hu;
Huaichuan Hu
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Jiafang Shan;
Jiafang Shan
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Handong Xu;
Handong Xu
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Mao Wang;
Mao Wang
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Zege Wu;
Zege Wu
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Liang Zhu
Liang Zhu
Institute of Plasma Physics,
Chinese Academy of Sciences
, Hefei, China
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Rev. Sci. Instrum. 84, 013503 (2013)
Article history
Received:
November 01 2012
Accepted:
December 22 2012
Citation
Wendong Ma, Huaichuan Hu, Jiafang Shan, Handong Xu, Mao Wang, Zege Wu, Liang Zhu; High power continuous wave microwave test bench at 4.6 GHz for experimental advanced superconducting tokamak. Rev. Sci. Instrum. 1 January 2013; 84 (1): 013503. https://doi.org/10.1063/1.4775486
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