A new digital beam position and phase measurement implementation based on a field programmable gate array for the high intensity heavy-ion accelerator iLinac

Author:

Ni Fafu12ORCID,Li Zhixue12,Wu Junxia12ORCID,Wei Yuan12,Hu Xuejing12,Gu KeWei1,Tian Ruixia1,Zhang Yong12,Zhu Guangyu12ORCID,Su Jianjun1,Wang Yanyu12ORCID

Affiliation:

1. Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

2. School of Nuclear Science and Technology, University of Chinese Academy of Sciences, Beijing 100049, China

Abstract

A new digital beam position and phase measurement (BPM) system was designed for the ion-Linac accelerator at the high intensity heavy ion accelerator facility. The fundamental and second harmonic signals are retrieved from the BPM electrodes to simultaneously calculate their respective beam positions and phases. All data acquisition and digital signal processing algorithm routines are performed in a field programmable gate array (FPGA). The position and phase information are obtained by using the in-phase and quadrature demodulation method. A practical and straightforward method is used to generate the second harmonic reference signal for processing the second harmonic beam signal. The reconfigurable filters are integrated into the FPGA to allow the measurement of short beam pulse length. The laboratory test results show that the achieved phase resolution is better than 0.2° and 0.03° when the input signal is −60 and −45 dBm, respectively. A position resolution better than 30 μm was achieved for an input power level of approximately −60 dBm, and it can reach 7 μm with the input power higher than −45 dBm. The entire execution time of the algorithm is accomplished within 3.4 µs, which provides a sufficient reaction time for the fast beam interlock signal to the machine protection system. The performance of this newly designed prototype BPM electronics was evaluated with the online proton beam.

Funder

National Natural Science Foundation of China

National Science Fund for Distinguished Young Scholars

West Light Foundation of the Chinese Academy of Sciences

Publisher

AIP Publishing

Subject

Instrumentation

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