New Frequency-Tuning System and Digital LLRF for Stable and Reliable Operation of SRILAC

Suda, Kenji; Hara, Hiroshi; Kako, Eiji; Kamigaito, Osamu; Miyamoto, Akihiro; Nakai, Hirotaka; Ozeki, Kazutaka; Sakai, Hiroshi; Sakamoto, Naruhiko; Sennyu, Katsuya; Umemori, Kensei; Yamada, Kazunari; Yanagisawa, Takeshi

doi:10.18429/JACoW-SRF2021-WEPTEV013

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BiBTeX citation export for WEPTEV013: New Frequency-Tuning System and Digital LLRF for Stable and Reliable Operation of SRILAC

@inproceedings{suda:srf2021-weptev013,
  author       = {K. Suda and H. Hara and E. Kako and O. Kamigaito and A. Miyamoto and H. Nakai and K. Ozeki and H. Sakai and N. Sakamoto and K. Sennyu and K. Umemori and K. Yamada and T. Yanagisawa},
% author       = {K. Suda and H. Hara and E. Kako and O. Kamigaito and A. Miyamoto and H. Nakai and others},
% author       = {K. Suda and others},
  title        = {{New Frequency-Tuning System and Digital LLRF for Stable and Reliable Operation of SRILAC}},
  booktitle    = {Proc. SRF'21},
% booktitle    = {Proc. 20th International Conference on RF Superconductivity (SRF'21)},
  pages        = {666--670},
  eid          = {WEPTEV013},
  language     = {english},
  keywords     = {cavity, cryomodule, controls, SRF, operation},
  venue        = {East Lansing, MI, USA},
  series       = {International Conference on RF Superconductivity},
  number       = {20},
  publisher    = {JACoW Publishing, Geneva, Switzerland},
  month        = {10},
  year         = {2022},
  issn         = {2673-5504},
  isbn         = {978-3-95450-233-2},
  doi          = {10.18429/JACoW-SRF2021-WEPTEV013},
  url          = {https://jacow.org/srf2021/papers/weptev013.pdf},
  abstract     = {{The superconducting booster linac at RIKEN (SRILAC) has ten 73-MHz quarter-wavelength resonators (QWRs) that are contained in three cryomodules. The beam commissioning of SRILAC was successfully performed in January 2020. Frequency tuning during cold operation is performed by compressing the beam port of the cavity with stainless wires and decreasing the length of each beam gap, similar to the method adopted at ANL and FRIB. However, each tuner is driven by a motor connected to gears, instead of using gas pressure. Since the intervals of the QWRs are small due to the beam dynamics, a compact design for the tuner was adopted. Each cavity was tuned to the design frequency, which required frequency changes of 3 kHz to 7 kHz depending on the cavity. Although no piezoelectric actuator is mounted on the tuning system, phase noise caused by microphonics can be sufficiently reduced by a phase-locked loop using a newly developed digital LLRF. The details of the tuning system as well as the digital LLRF will be presented.}},
}