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An on-line data acquisition system of oscilloscope-embedded input/output controller for cavity BPM measurement 被引量:1

An on-line data acquisition system of oscilloscope-embedded input/output controller for cavity BPM measurement
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摘要 Cavity beam position monitor(BPM) is widely used in a precise electron beam position measurement. Based on high performance oscilloscope-embedded EPICS input/output controller,we developed an on-line cavity BPM signal processing system for fast data acquisition solution when designing a cavity BPM.Also,methods for extracting the position information from cavity pickup signals and calibration algorithm are included in this solution. Cavity beam position monitor (BPM) is widely used in a precise electron beam position measurement. Based on high performance oscilloscope-embedded EPICS input/output controller, we developed an on-line cavity BPM signal processing system for fast data acquisition solution when designing a cavity BPM. Also, methods for extracting the position information from cavity pickup signals and calibration algorithm are included in this solution.
作者 ZHANG Ning WANG Baopeng LENG Yongbin
机构地区 Shanghai Institute of Applied Physics
出处 《Nuclear Science and Techniques》 SCIE CAS CSCD 2011年第6期321-325,共5页 核技术(英文)
基金 Supported by National Natural Science Foundation(Grant No.11075198)
关键词 嵌入式控制器 数据采集系统 输入/输出 位置测量 BPM 示波器 信号处理系统 束流位置 Cavity, Embedded input/output controller, On-line acquisition, Signal processing, Fast Fourier transform
分类号 TN252 [电子电信—物理电子学] TM571 [电气工程—电器]
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参考文献7

  • 1Maesaka H, Inoue S, Ohshima T, et al. Ai MOPD07: Development of the RF cavity BPM of XFEL/SPR1NG-8,DIPAC09, Basel, Switzerland, May 2009, 56-58.
  • 2Young A, Johnson R G, Smith S. TUPSM028: LCLS Resonant cavity beam position monitors, BIW10, Santa Fe, US, May 2010, 177-181.
  • 3Lipka D. TUOC02: Cavity BPM designs, related electronics and measured performances, DIPAC09, Basel, Switzerland, May 2009, 280-284.
  • 4Jackson J D. Classical Electrodynamics, second Ed., Wiley, New York, 1975, 310/315: 569-580.
  • 5Chu J H. Study of C-band cavity BPM and RF front-end signal processing system, PhD. Thesis, Shanghai Institute of Applied Physics, CAS, 2008.
  • 6Walston S, Boogert S, Chung C, et al. Nucl Instrum Meth Phys Res, 2007, A578: 1-4.
  • 7Kraimer M R, Anderson J, Johnson A, et aL EPICS: Input /output controller application developer's guide, http:// www.aps.anl.gov/epics/(December 2010).

同被引文献7

  • 1Boogert S T, Ainsworth R, Boorman G, et al. Cavity Beam Position Monitor System For ATF2. Proceedings of IPAC'10, Kyoto, Japan, 2010:1140-1142.
  • 2Maesaka H, Inoue S, Ohshima T, et al. Development of the RF cavity BPM of XFEL/SPRING-8. Proceedings of DIPAC09, Basel, Switzerland. 2009:56-58.
  • 3Smith S, Hoobler S, Johnson R G, et al. LCLS cavity beam position monitors. Proceedings of DIPAC09, Basel, Switzerland. 2009:285-287.
  • 4CHU Jianhua, TONG Dechun, ZHAO Zhentang. RF Measurements of a C-band Cavity Beam position monitor[J]. Chinese Physics C (in China), 2008, 32(5): 385-388.
  • 5Sean Walston, Stewart Boogert, Carl Chung, et al. Performance of a high resolution cavity beam position monitor system[J]. Nuclear Instruments and Methods in Physics Research A. 2007, 578:1-22.
  • 6Zhao Z T, Dai Z M, Zhao X F, et al. The Shanghai high-gain harmonic generation DUV free-electron laser[J] Nuclear Instruments and Methods in Physics Research A, 2004, 528:591-594.
  • 7Hae-Moon Seo, Chang-Gene Woo, Pyung Choi. Relation between ADC performance and requirements of digital-IF receiver for WCDMA base-station[J]. IEEE Transactions on Vehicular Technology, 2003, 52(5): 1398-1408.

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二级引证文献1

Nuclear Science and Techniques
2011年 第6期

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