Narrow Bandwidth Active Noise Control for Microphonics Rejection in Superconducting Cavities at LCLS-II

Bellandi, Andrea; Aderhold, Sebastian; Benwell, Andrew; Brachmann, Axel; Branlard, Julien; Diaz Cruz, Jorge; Gonnella, Daniel; Hoobler, Sonya; Nelson, Janice; Porter, Ryan; Ratti, Alessandro; Zacarias, Lisa

doi:10.18429/JACoW-LINAC2022-THPOPA21

Journals of Accelerator Conferences Website (JACoW)

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RIS citation export for THPOPA21: Narrow Bandwidth Active Noise Control for Microphonics Rejection in Superconducting Cavities at LCLS-II

TY  - CONF
AU  - Bellandi, A.
AU  - Aderhold, S.
AU  - Benwell, A.L.
AU  - Brachmann, A.
AU  - Branlard, J.
AU  - Diaz Cruz, J.A.
AU  - Gonnella, D.
AU  - Hoobler, S.L.
AU  - Nelson, J.
AU  - Porter, R.D.
AU  - Ratti, A.
AU  - Zacarias, L.M.
ED  - McIntosh, Peter
ED  - Burt, Graeme
ED  - Apsimon, Robert
ED  - Schaa, Volker R.W.
TI  - Narrow Bandwidth Active Noise Control for Microphonics Rejection in Superconducting Cavities at LCLS-II
J2  - Proc. of LINAC2022, Liverpool, UK, 28 August-02 September 2022
CY  - Liverpool, UK
T2  - International Linear Accelerator Conference
T3  - 31
LA  - english
AB  - LCLS-II is an X-Ray Free Electron Laser (XFEL) under commissioning at SLAC, being the first Continuous Wave (CW) hard XFEL in the world to come into operation. To accelerate the electron beam to an energy of 4 GeV, 280 superconducting cavities of the TESLA types are used. A Loaded Q (QL) value of 4x10⁷ is used to drive the cavities at a power level of a few kilowatts. For this QL value, the RF cavity bandwidth is equal to 32 Hz. Therefore, keeping the cavity resonance frequency within such bandwidth is imperative to avoid a significant increase in the required RF power. In superconducting accelerators, resonance frequency variations are produced by mechanical microphonic vibrations of the cavities. One source of microphonics noise is rotary machinery such as vacuum pumps or HVAC equipment. A possible method to reject these disturbances is to use Narrowband Active Noise Control (NANC) techniques. Such a technique was already tested at DESY/CMTB and Cornell/CBETA. This proceeding presents the implementation of a NANC controller in the LCLS-II Low Level RF (LLRF) control system. Tests on the rejection of LCLS-II microphonics disturbances are also presented.
PB  - JACoW Publishing
CP  - Geneva, Switzerland
SP  - 785
EP  - 788
KW  - cavity
KW  - controls
KW  - resonance
KW  - SRF
KW  - FPGA
DA  - 2022/09
PY  - 2022
SN  - 2226-0366
SN  - 978-3-95450-215-8
DO  - doi:10.18429/JACoW-LINAC2022-THPOPA21
UR  - https://jacow.org/linac2022/papers/thpopa21.pdf
ER  -