Speaker
Description
Modern compact cyclotrons have multiple system components and are used for isotope research, neutron imaging and BNCT. All these applications demand that the cyclotron possesses high reliability. Focusing on the series of compact high-current cyclotrons of the China Institute of Atomic Energy, a control system architecture is constructed in this paper, which effectively improves the stability and efficiency of the control system. A standard three-layer distributed control architecture has been designed for multiple cyclotron systems. Based on functional division, a multi-threaded approach was im-plemented at the top layer of the control system to han-dle different tasks, effectively enhancing the accelerator's operational efficiency. This paper provides a stable and scalable distributed control solution for the compact cyclotron, which provides a reliable guarantee for im-proving the operation of the accelerator, and more intel-ligent control technology will be completed based on this system in the future.
