Keyword: PLC
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TUP14 The Assembly and Adjustment of the Second Stripping Probe System for CYCIAE-100 controls, proton, cyclotron, extraction 199
 
  • Shizhong. An, L.C. Cao, X.L. Fu, Z.G. Li, G.S. Liu, Y.L. Lv, G.F. Pan, Y. Wang, L.P. Wen, J.S. Xing, T.J. Zhang, Y.W. Zhang
    CIAE, Beijing, People's Republic of China
 
  A 100 MeV H compact cyclotron is under construction at China Institute of Atomic Energy (CYCIAE-100). The proton beams ranging from 75 MeV - 100 MeV with 200 μA beam intensity will be extracted in dual opposite direction by charge exchange stripping devices. The stripping probe system is the key part of extraction system for CYCIAE-100. The first stripping extraction system was installed in 2014 and it has satisfied all kinds of requirements for the proton beam extraction. The first 100 MeV proton beam was got on July 4, 2014 and the beam current was stably maintained at above 25 μA for about 9 hours on July 25, 2014. The first RIB with ISOL system driven by 100 MeV proton beam was generated in 2015. The second stripping system was installed in 2015 after the assembly and adjustment. The beam commissioning based on the second stripping system will be finished and the extracted proton beam parameters will be measured in detail in this year.  
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TUP15 Control System Dedicated for Beam Line of Proton Radiography on 100 MeV Cyclotron CYCIAE-100 controls, proton, EPICS, interface 202
 
  • Y.W. Zhang, H.R. Cai, L.C. Cao, T. Ge, S.M. Wei, J.J. Yang, Z.G. Yin, T.J. Zhang
    CIAE, Beijing, People's Republic of China
 
  After the first beam on July 4 2014, CYCIAE-100's performance have been improved gradually and is ready for routine operation. There are 7 beam lines in total in the design stage, i.e. N1:ISOL, N2:isotope production, N3:beam dump, S1: single energy neutron, S2:white light neutron source, S3: radiobiological effect, S4:single event effect. The beam lines N2 and N3 were combined into one line during the construction. In the last two years, we propose to build to two new lines, one for principle verification of Proton Radiography, the other one for demonstration of proton therapy. Both of them are quite special. In this paper, a control system for the operation of the beam line of proton radiography, including the magnets, vacuum and water cooling, the beam intensity & profile diagnostics, and the imaging etc, will be presented.  
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TUP22 PLC Control System for Vacuum and 20 Kw RF Amplifier vacuum, controls, cyclotron, operation 215
 
  • H.S. Kim, J.-S. Chai, M. Ghergherehchi, D.H. Ha, J.C. Lee, S.C. Mun, H. Namgoong
    SKKU, Suwon, Republic of Korea
 
  Funding: This work was supported by the National Research Foundation of Korea (NRF) grant funded by the Korean government (MSIP:Ministry of Science, ICT and Future Planning) (NRF-2015M2B2A8A10058096)
Since 2014, the Sungkyunkwan University has been upgrade 10 MeV cyclotron (SKKUCY-10) prototype for producing radio isotopes. For stable and robust cyclotron operation, local controller is main issue. Especially, RF and Vacuum is main part for control system and each sub system fault result in damage to the other sub systems. To solve those problem, we integrate RF amplifier and vacu-um local controller by LS PLC (Programmable Logic Controllers). Integrated Interlock event is also processed at one controller. This paper describe system requirement for RF amplifier and vacuum and discuss the detailed design and software development by PLC programming at SKKUCY -10
 
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THP07 Development of Control System for 10 MeV Cyclotron controls, cyclotron, vacuum, power-supply 319
 
  • M. Hassani, H. Afarideh, Y. Ghorashinejad
    AUT, Tehran, Iran
 
  AmirKabir University of Technology is developing a 10 MeV cyclotron to produce radio isotopes. In order to operate the cyclotron stably, all sub-systems in the cyclotron are controlled and monitored consistently. The control system has been developed based on PLC and the operation is monitored by HMI permanently. Also, the control console located in the control room, provides data logging and controlling different steps of operation by the operator. In addition, the system can be remotely accessed over the network to monitor the status of cyclotron easily. The configuration of the control system for 10MeV cyclotron will be presented in this paper.  
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