TMSR核能加速器联锁保护系统
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摘要
为了快速准确地对加速器关键设备提供有效保护,避免关键部件损坏,TMSR核能加速器设计了一套功能齐全的联锁保护系统。阐述了系统结构、工作原理、硬件组成、软件设计,描述了联锁保护系统的功能及实现方法。该系统具有人机交互性好、研制成本低且操作使用简便等优点,工作稳定可靠,完全满足了核能加速器的运行需求。该系统对其他领域的控制,具有较大的参考价值。
In order to protect the key devices rapidly and effectively from unexpected damage,a full-featured interlock system is designed and developed for nuclear energy accelerator in TMSR.The system operational principle,hardware configuration and software block diagram are expatiated,and the function of interlock system and the method of realization are described.The system has such advantages as friendly interface,low cost of design and simple operation.The whole interlock system is reliable,stable and can meet the commissioning requirement of nuclear energy accelerator,and also have greater reference value for the control of other fields.
In order to protect the key devices rapidly and effectively from unexpected damage,a full-featured interlock system is designed and developed for nuclear energy accelerator in TMSR.The system operational principle,hardware configuration and software block diagram are expatiated,and the function of interlock system and the method of realization are described.The system has such advantages as friendly interface,low cost of design and simple operation.The whole interlock system is reliable,stable and can meet the commissioning requirement of nuclear energy accelerator,and also have greater reference value for the control of other fields.
引文
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[4] Y M ZHOU,Y B LENG,H J CHEN,et al.In:Proceedings of 8th International Particle Accelerator Conference.(Copenhagen,Demark,2017),pp.341-344
[5] T MITSUHASHI.In:Proceedings of 6th International Particle Accelerator Conference.(Richmond,VA,USA,2015),pp.3662-3667.
[6] Y YANG,Y B LENG,Y B YAN,et al.Development of the bunchby-bunch beam position acquisition system based on BEEcube.Nucl.Sci.Tech.27,47(2016).
[7] 于春蕾,赵欢,丁建国,等.上海软X射线自由电子激光装置联锁保护系统[J].原子能科学技术,2018,52(4):756-761.
[8] 祁斌川.SDUV-FEL实验装置真空联锁保护系统[D].北京:中国科学院研究生院,2012.
[9] 刘强,卓洁,郎自强,等.数据驱动的工业过程运行监控与自优化研究展望[J].自动化学报,2018,44(11):1944-1956.
[10] 郭玉辉,郑亚伟,龙银东,等.ADS注入器Ⅱ真空控制系统设计[J].原子能科学技术,2012,46(增刊):539-544.
[11] 许婕,董方正,田培红,等.实验物理与工业控制系统平台在HL-2A主机测控系统中的应用[J].核聚变与等离子体物理,2018,38(1):87-92.
[12] 王淑娴,彭东林,吴治峄,等.伺服电机位置检测技术综述[J].仪器仪表学报,2018,39(8):143-153.
[13] 阎映炳,冷用斌,陈永忠,等.上海光源增强器工作点测量数据采集系统[J].核技术,2009,32(9):645-648.
[14] 蒋舸扬,谭松清,赵欢,等.上海质子治疗装置动态电源控制系统[J].核技术,2018,41(2):020404.
[15] 雷碧峰,王春红,刘正同,等.基于MicroTCA的EPICS控制系统研究[J].原子能科学技术,2014,48(3):555-558.