LLRF超导腔体控制系统的测试

朱正龙; 王贤武; 李春龙; 常玮; 张生虎; 张军辉; 张瑞锋; 文良华; 高郑; 陈奇; 岳伟明; 宋玉堃

doi:10.11804/NuclPhysRev.32.02.196

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LLRF超导腔体控制系统的测试

朱正龙, 王贤武, 李春龙, 常玮, 张生虎, 张军辉, 张瑞锋, 文良华, 高郑, 陈奇, 岳伟明, 宋玉堃

文章导航 > 原子核物理评论 > 2015 > 32(2): 196-201

朱正龙, 王贤武, 李春龙, 常玮, 张生虎, 张军辉, 张瑞锋, 文良华, 高郑, 陈奇, 岳伟明, 宋玉堃. LLRF超导腔体控制系统的测试[J]. 原子核物理评论, 2015, 32(2): 196-201. doi: 10.11804/NuclPhysRev.32.02.196

引用本文:

ZHU Zhenglong, WANG Xianwu, LI Chunlong, CHANG Wei, ZHANG Shenghu, ZHANG Junhui, ZHANG Ruifeng, WEN Lianghua, GAO Zheng, CHEN Qi, YUE Weiming, SONG Yukun. Test of LLRF Control System on Superconducting Cavity[J]. Nuclear Physics Review, 2015, 32(2): 196-201. doi: 10.11804/NuclPhysRev.32.02.196

Citation:

ZHU Zhenglong, WANG Xianwu, LI Chunlong, CHANG Wei, ZHANG Shenghu, ZHANG Junhui, ZHANG Ruifeng, WEN Lianghua, GAO Zheng, CHEN Qi, YUE Weiming, SONG Yukun. Test of LLRF Control System on Superconducting Cavity[J]. Nuclear Physics Review, 2015, 32(2): 196-201. doi: 10.11804/NuclPhysRev.32.02.196

LLRF超导腔体控制系统的测试

doi: 10.11804/NuclPhysRev.32.02.196

中国科学院近代物理研究所,兰州 730000;
中国科学院大学,北京 100049;
西北师范大学,兰州 730070;
宜宾学院物理与电子工程学院,四川宜宾 644000

Test of LLRF Control System on Superconducting Cavity

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;
University of Chinese Academy of Sciences, Beijing 100049, China;
Northwest Normal University,Lanzhou 730070, China;

摘要: 中国科学院近代物理研究所自主研发的ADS注入器Ⅱ第一代高频低电平(LLRF) 控制系统，工作频率为162.5 MHz；LLRF 系统是由基于I/Q 采样的正交解调技术构成的全数字闭环反馈控制系统，其主要功能是实现超导腔腔体电压幅值稳定控制、相位稳定控制与腔体谐振频率控制；LLRF 控制系统在液氦温区超导腔上进行了系统稳定度和性能的在线测试，根据实验数据计算得超导腔体电压幅度稳定度为3.4‰，相位稳定度为0.3°，腔体表面峰值电场(Epk) 能长时间稳定在25.1 MV/m。通过实验测试，检验了LLRF 控制系统的性能，并对测试过程中出现的问题进行了分析，为将来超导腔LLRF 控制系统运行积累了经验。The first generation Low-Level radio frequency(LLRF) control systemfor China ADS injector Ⅱis developed by IMP, CAS(Institute of Modern Physics, Chinese Academy of Sciences). This system is composed by superconducting cavity amplitude stability controller, phase stability controller and the cavity resonance frequency controller; the operation frequency is 162.5 MHz. This is an all-digital closed-loop feedback control system which based on the IQ quadrature sampling demodulation technique. The performance of the system has been tested on the superconducting cavity, which is running in the temperature range of liquid helium and the Epk=25.1 MV/m (the peak electricon the surface of the superconducting cavity). The amplitude stability is less than 4 ‰ and the phase stability is less than 0.3°. Superconducting cavity bandwidth is about 230 Hz. From the spectrum, the phase noise suppression can reach 70 dBm.
- LLRF /
- 幅度相位 /
- 稳定度 /
- 控制系统 /
- 测试
Abstract: The first generation Low-Level radio frequency(LLRF) control systemfor China ADS injector Ⅱis developed by IMP, CAS(Institute of Modern Physics, Chinese Academy of Sciences). This system is composed by superconducting cavity amplitude stability controller, phase stability controller and the cavity resonance frequency controller; the operation frequency is 162.5 MHz. This is an all-digital closed-loop feedback control
system which based on the IQ quadrature sampling demodulation technique. The performance of the system has been tested on the superconducting cavity, which is running in the temperature range of liquid helium and the Epk=25.1 MV/m (the peak electricon the surface of the superconducting cavity). The amplitude stability is less
than .4 ‰ and the phase stability is less than 0.3°. Superconducting cavity bandwidth is about 230 Hz. From the spectrum, the phase noise suppression can reach 70 dBm.
- Low-Level radio frequency /
- amplitude and phase /
- stability /
- control system /
- test

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LLRF超导腔体控制系统的测试

doi: 10.11804/NuclPhysRev.32.02.196

中国科学院近代物理研究所,兰州 730000;

中国科学院大学,北京 100049;

西北师范大学,兰州 730070;

宜宾学院物理与电子工程学院,四川宜宾 644000

收稿日期: 1900-01-01
修回日期: 1900-01-01
刊出日期: 2015-06-20

关键词:

LLRF /

幅度相位 /

稳定度 /

控制系统 /

测试

摘要: 中国科学院近代物理研究所自主研发的ADS注入器Ⅱ第一代高频低电平(LLRF) 控制系统，工作频率为162.5 MHz；LLRF 系统是由基于I/Q 采样的正交解调技术构成的全数字闭环反馈控制系统，其主要功能是实现超导腔腔体电压幅值稳定控制、相位稳定控制与腔体谐振频率控制；LLRF 控制系统在液氦温区超导腔上进行了系统稳定度和性能的在线测试，根据实验数据计算得超导腔体电压幅度稳定度为3.4‰，相位稳定度为0.3°，腔体表面峰值电场(Epk) 能长时间稳定在25.1 MV/m。通过实验测试，检验了LLRF 控制系统的性能，并对测试过程中出现的问题进行了分析，为将来超导腔LLRF 控制系统运行积累了经验。The first generation Low-Level radio frequency(LLRF) control systemfor China ADS injector Ⅱis developed by IMP, CAS(Institute of Modern Physics, Chinese Academy of Sciences). This system is composed by superconducting cavity amplitude stability controller, phase stability controller and the cavity resonance frequency controller; the operation frequency is 162.5 MHz. This is an all-digital closed-loop feedback control system which based on the IQ quadrature sampling demodulation technique. The performance of the system has been tested on the superconducting cavity, which is running in the temperature range of liquid helium and the Epk=25.1 MV/m (the peak electricon the surface of the superconducting cavity). The amplitude stability is less than 4 ‰ and the phase stability is less than 0.3°. Superconducting cavity bandwidth is about 230 Hz. From the spectrum, the phase noise suppression can reach 70 dBm.

English Abstract

Test of LLRF Control System on Superconducting Cavity

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;

University of Chinese Academy of Sciences, Beijing 100049, China;

Northwest Normal University,Lanzhou 730070, China;

Received Date: 1900-01-01
Rev Recd Date: 1900-01-01
Publish Date: 2015-06-20

Keywords:

Abstract: The first generation Low-Level radio frequency(LLRF) control systemfor China ADS injector Ⅱis developed by IMP, CAS(Institute of Modern Physics, Chinese Academy of Sciences). This system is composed by superconducting cavity amplitude stability controller, phase stability controller and the cavity resonance frequency controller; the operation frequency is 162.5 MHz. This is an all-digital closed-loop feedback control
system which based on the IQ quadrature sampling demodulation technique. The performance of the system has been tested on the superconducting cavity, which is running in the temperature range of liquid helium and the Epk=25.1 MV/m (the peak electricon the surface of the superconducting cavity). The amplitude stability is less
than .4 ‰ and the phase stability is less than 0.3°. Superconducting cavity bandwidth is about 230 Hz. From the spectrum, the phase noise suppression can reach 70 dBm.

引用本文:

Citation:

ZHU Zhenglong, WANG Xianwu, LI Chunlong, CHANG Wei, ZHANG Shenghu, ZHANG Junhui, ZHANG Ruifeng, WEN Lianghua, GAO Zheng, CHEN Qi, YUE Weiming, SONG Yukun. Test of LLRF Control System on Superconducting Cavity[J]. Nuclear Physics Review, 2015, 32(2): 196-201. doi: 10.11804/NuclPhysRev.32.02.196

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LLRF超导腔体控制系统的测试

doi: 10.11804/NuclPhysRev.32.02.196

Test of LLRF Control System on Superconducting Cavity

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LLRF超导腔体控制系统的测试

doi: 10.11804/NuclPhysRev.32.02.196

中国科学院近代物理研究所,兰州 730000; 中国科学院大学,北京 100049; 西北师范大学,兰州 730070; 宜宾学院物理与电子工程学院,四川 宜宾 644000

English Abstract

Test of LLRF Control System on Superconducting Cavity

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China; University of Chinese Academy of Sciences, Beijing 100049, China; Northwest Normal University,Lanzhou 730070, China;

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中国科学院近代物理研究所,兰州 730000;

中国科学院大学,北京 100049;

西北师范大学,兰州 730070;

宜宾学院物理与电子工程学院,四川宜宾 644000

Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China;

University of Chinese Academy of Sciences, Beijing 100049, China;

Northwest Normal University,Lanzhou 730070, China;