Design of a New Type of Stub Tuner in ICRF Experiment 被引量：4

Design of a New Type of Stub Tuner in ICRF Experiment

下载PDF

导出

摘要 In the Ion Cyclotron Range of Frequency (ICRF) heating experiment, impedance matching is of great practical significance, because wide variations in antenna loading are observed within the discharge, in tokamaks operating in H-mode. A sudden decrease in antenna loading accompanying the L-mode to H-mode transition typically occurs on a timescale of a few milliseconds, as does the increase in loading at the H- to L-mode transition. Therefore, it is necessary to match dynamically in the transmission line between the generator output and the antenna input connections[1]. A new type of stub tuner being developed utilizes the difference in radio-frequency wavelengths between gas and liquid due to different relative dielectric constants. The impedance matching can be adjusted in realtime in an attempt to track the variations in the antenna loading. Since there are no mechanically moving parts in the short ends of stub, the change can be more convenient and safe, moreover, it can withstand higher voltage without breakdown. This system device will be applied in the HT-7 superconductor Tokamak ICRF experiment. In the Ion Cyclotron Range of Frequency (ICRF) heating experiment, impedance matching is of great practical significance, because wide variations in antenna loading are observed within the discharge, in tokamaks operating in H-mode. A sudden decrease in antenna loading accompanying the L-mode to H-mode transition typically occurs on a timescale of a few milliseconds, as does the increase in loading at the H- to L-mode transition. Therefore, it is necessary to match dynamically in the transmission line between the generator output and the antenna input connections[1]. A new type of stub tuner being developed utilizes the difference in radio-frequency wavelengths between gas and liquid due to different relative dielectric constants. The impedance matching can be adjusted in realtime in an attempt to track the variations in the antenna loading. Since there are no mechanically moving parts in the short ends of stub, the change can be more convenient and safe, moreover, it can withstand higher voltage without breakdown. This system device will be applied in the HT-7 superconductor Tokamak ICRF experiment.

作者秦成明赵燕平毛玉周丁家义王鹏潘亚平李国超

机构地区 Institute of Plasma Physics

出处《Plasma Science and Technology》 SCIE EI CAS CSCD 2003年第3期1779-1784,共6页 等离子体科学和技术（英文版）

关键词 ICRF stub tuner impedance matching ICRF, stub tuner, impedance matching

分类号 TL503 [核科学技术—核技术及应用]

引文网络
相关文献

参考文献7

1Braun F, ICRH Team, Arnold W. Fast Matching of Load Changes in the Ion Cyclotron Resonance Frequency Range. DE-AC03-89ER5 1114.
2Pinsker R I. Development of Impedance Matching Technologies for ICRF Antenna Arrays. General atomics report GA-A22817.
3Yang X K, Wang Z S, Zhao Y P, et al. ICRH system for HT-7 superconducting Tokamak. Fusion Engineering and Design, 1998, 39-40:129-133.
4acquinot J. Matching the JET ICRF Antenna,JET-IR(84)01.
5Kumazawa R, Mutoh T, Seki T, et al. Liquid Stub Tunner for Ion Cyclotron Heating. Rev. Sci. Instrum., 1999, 70(6): 2666-2672.
6Wu Zhengxian. The theory of microwave. Wuhan University, 1995.
7Liao Chengen. The basic theory of microwave technology. Science and technology of electron of Xi'an., 1995.

同被引文献17

1卢敬军,唐厚君.基于虚拟仪器的变频器测试系统[J].计算机测量与控制,2005,13(5):418-420. 被引量：10
2张新军,秦成明,赵燕平.Theoretical analysis of ion cyclotron range of frequency antenna array for HT-7U[J].Chinese Physics B,2005,14(11):2251-2255. 被引量：2
3王鹏,赵燕平,毛玉周,秦成明,T Watari,R Kumazawa,T Mutoh,T Seki.EAST装置离子回旋加热液态阻抗匹配系统的研究[J].核聚变与等离子体物理,2005,25(4):278-282. 被引量：4
4梁旭,李行善,高占宝.基于测试引擎的自动测试系统软件设计[J].电子测量与仪器学报,2006,20(5):11-16. 被引量：15
5闰润卿李英惠.微波技术基础[M].北京:北京理工大学出版社,1997.13-15.
6Yang X K,Wang Z S,Zhao Y P et al.ICRH system for HT-7 superconducting Tokamak[J].Fusion Engineering and Design,1998,30-40:129-133.
7雷振山.LabVIEW7.0实用技术教程[M].北京:中国铁道出版社,2005.
8王兆申,王亚民,许德政.离子回旋共振加热实验中用于瞬态射频阻抗测量的探针列阵的误差分析[R].中国核科技报告,北京:原子能出版社,1988.
9Yang X K, Wang Z S, Zhao Y P,et al. ICRH system for HT - 7 Superconducting Tokamak [ J ]. Fusion En- gineering and Design, 1998, 39 -40:129 - 133.
10Watari T, Kumazawa R, Toi K, et al. Limiter H-mode and other improved confinement regimes with ICRF and NBI heating in JIPP T-IIU [J]. Nuel. Fusion, 1990, 30(7): 1197.

引证文献4

1曾现祥,赵燕平,刘大明.离子回旋共振加热天线阻抗测量系统设计[J].计算机测量与控制,2006,14(6):704-706.
2吴东升,赵燕平,曾现祥.基于探针阵列的RF天线阻抗测量方法的研究[J].电子测量与仪器学报,2008,22(5):92-95. 被引量：4
3郑高伟,毛玉周,赵燕平,陈根,郑芬,何钟鑫.EAST-ICRF天线阻抗及传输线驻波电压的测量[J].核电子学与探测技术,2013,33(2):135-140. 被引量：3
4谭清懿,龚学余,杜丹,郭征荣.频率调制对ICRH天线阻抗匹配的影响研究[J].核聚变与等离子体物理,2015,35(2):151-155. 被引量：2

二级引证文献9

1李明昊,李斌.小型X波段贴片天线设计、匹配及测试[J].现代电子技术,2009,32(15):104-107. 被引量：3
2王帅雷,方宁,渠慎丰.过密等离子体包覆目标的散射特性分析[J].电子测量技术,2010,33(12):12-15. 被引量：3
3曹娟,纪秀明,黄建民.全机电缆分布式自动测试系统软件设计[J].电子测量技术,2010,33(12):106-110. 被引量：4
4张珈珲,赵燕平,毛玉周,陈根,李吉龙,何宗祥.EAST-ICRF传输线驻波电流测量[J].核电子学与探测技术,2015,35(4):378-381. 被引量：1
5熊炜,刘小镜.基于磁共振无线能量传输的自适应阻抗匹配[J].电子技术应用,2018,44(7):112-116. 被引量：1
6杨开建,杜丹,谭清懿,周华,潘光祖,乔冠瑾,龚学余.调频对ICRH天线系统单铁氧体阻抗匹配效果的研究[J].核技术,2022,45(4):74-80.
7王韧,唐涛,敬守钊,樊勇.具有共形能力的阻抗可调天线[J].成都信息工程大学学报,2022,37(2):155-158.
8平兰兰,吴东升,程健.EAST-ICRF传输线驻波电压测量系统设计[J].核电子学与探测技术,2023,43(2):313-317.
9陈青青,王磊,秦成明,刘鲁南,杨桦,孙玉鹏,周冀峰.EAST离子回旋加热高频检波器设计与校准[J].核电子学与探测技术,2023,43(4):884-891.

1A New Type of Bubble Detector[J].Annual Report of China Institute of Atomic Energy,2000(0):52-52.
2Guo Tianrui,Du Yifei,Yuan Shuanggui,Zhang Xueqian and Gan Zaiguo.A New Type of Acquisition System for Measurement of γ-spectra[J].IMP & HIRFL Annual Report,1995(0):59-59.
3Feng Yucheng, Ma Baohua, Li Jinyu, Wang Hui, He Wei, Sun Liangting, Cao Yun, Li Xixia Guo Xiaohong, Zhang Xuezhen, Zhang Zimin and Zhao Hongwei.Annual Operation Status of LECR2 Source[J].近代物理研究所和兰州重离子加速器实验室年报：英文版,2004(1):165-165.
4杜丹,龚学余,尹岚,向东,李景春.Theoretical Analysis of Triple Liquid Stub Tuner Impedance Matching for ICRH on Tokamaks[J].Plasma Science and Technology,2015,17(12):1078-1082.
5解怀东,安世忠,管锋平.CYCIAE-100剥离靶换靶机的研制[J].中国原子能科学研究院年报,2009(1):104-105. 被引量：1
6李新霞,项农,甘春芸.Effect of Wave Accessibility on Lower Hybrid Wave Current Drive in Experimental Advanced Superconductor Tokamak with H-Mode Operation[J].Chinese Physics Letters,2015,32(3):74-77. 被引量：1
7Yao Qinggao Ma Lizhen He Yuan Wu Wei Zhang Siling Han Shaofei Zhang Bin Yuan Pin.Magnet Design and Fabrication in IMP[J].近代物理研究所和兰州重离子加速器实验室年报：英文版,2008(1):153-154.
8潘亚平,王磊,赵燕平,秦成明,薛迪冶,邓旭,毛玉周,丁家义,T.Watari,R.Kumazawa,T.Seki.Design and Realization of Liquid Stub Tuner Control System[J].Plasma Science and Technology,2004,6(6):2531-2534.
9李妙辉,丁伯江,孔二华,张磊,张新军,钱金平,颜宁,韩效锋,单家方,刘甫坤,王茂,徐旵东,万宝年.Investigation of lower hybrid current drive during H-mode in EAST tokamak[J].Chinese Physics B,2011,20(12):298-304.
10韦维,匡光力,丁伯江,沈慰慈,HT-7 Team.LHCD Properties with a New Lower Hybrid Wave Antenna on HT-7 Tokamak[J].Plasma Science and Technology,2005,7(5):3005-3008.

Plasma Science and Technology

2003年第3期

浏览历史

内容加载中请稍等...

Design of a New Type of Stub Tuner in ICRF Experiment 被引量：4

参考文献7

同被引文献17

引证文献4

二级引证文献9

相关作者

相关机构

相关主题

浏览历史