摘要
介绍了高能同步辐射光源(HEPS)人身保护系统实验平台的设计。该实验平台是基于嵌入式控制系统EPICS框架下设计与实现的,通过可编程控制器(PLC)与相应的硬件设备实现联锁保护的功能。平台硬件设备通过硬连接方式连接到PLC的I/O模块上,服务器独立运行I0C程序,实现IOC与OPI、PLC之间的数据交换。实验运行结果表明:该平台性能稳定可靠,能够对硬件故障及人为等一系列操作作出准确反应,人身保护系统的设计方案和功能得到验证,可满足高能同步辐射光源运行的需要。
The design of the experimental platform of the personal protection system of high energy synchrotron radiation source(HEPS)is introduced.The design and implementation of the experimental platform is based on embedded control system EPICS framework,which through the programmable controller(PLC)and the corresponding hardware equipment to achieve the interlock protection function.The hardware devices connect to the PLC I/O module through hard connection,and the server runs the IOC program independently to realize the data exchange between IOC,OPI and PLC.The results show that the platform is stable and reliable in performance,and which can respond accurately to a series of operations such as hardware failure and manual operation.The design scheme and function of the personal protection system have been verified and can meet the needs of the operation of high-energy synchrotron radiation light source.
作者
张会杰
马应林
王宇飞
阎明洋
马忠剑
刘琼瑶
李楠
王庆斌
ZHANG Hui-jie;MA Ying-lin;WANG Yu-fei;YAN Ming-yang;MA Zhong-jian;LIU Qiong-yao;LI Nan;WANG Qing-bin(Institute of High Energy Physics Chinese Academy of science,Beijing 100049,China;Dongguan Neutron Science Center,Dongguan Guangdong 523803,China;University of Chinese Academy of sciences,Beijing 100049,China)
出处
《核电子学与探测技术》
CAS
北大核心
2021年第5期763-769,共7页
Nuclear Electronics & Detection Technology
基金
国家重大科技基础设施项目(发改高技2173)资助。
