Design of vacuum pumping and fuelling control system based on experimental physics and industrial control system

doi:10.16568/j.0254-6086.201901006

NUCLEAR FUSION AND PLASMA PHYSICS ›› 2019, Vol. 39 ›› Issue (1): 34-40.DOI: 10.16568/j.0254-6086.201901006

• Nuclear Fusion Engineering and Technology • Previous Articles Next Articles

Design of vacuum pumping and fuelling control system based on experimental physics and industrial control system

YUAN Xiao-lin1, 2, CHEN Yue1, LI Jian-gang1, HU Jian-sheng1,ZHOU Yue1, HOU Ji-lei1, 2, HUANG Ming1

(1. Institute of Plasma Physics Chinese Academy of Sciences, Hefei 230031; 2. University of Science and Technology of China, Hefei 230026)

Online:2019-03-15 Published:2019-03-13

基于实验物理与工业控制系统的EAST 真空抽气及加料控制系统设计

袁啸林1, 2，陈跃1, 李建刚1，胡建生1，周跃1，侯吉磊1, 2，黄明1

(1. 中国科学院等离子体物理研究所，合肥 230031；2. 中国科学技术大学，合肥 230026)

作者简介:袁啸林(1986-)，男，安徽芜湖人，博士，助理研究员，从事真空及加料控制系统研究。
基金资助:
国家重点研发计划(2017YFA0402500)；国家自然科学基金(11625524，11605246)

Abstract

Abstract:

Supervisory control and data acquisition (SCADA) framework of bottom layer and top layer, interlock protection, operational mode and system implementation were described. In bottom layer, vacuum pumping system and fuelling system are adopted to two different topological structures of optical fiber ring network. The top layer uses the experimental physical and industrial control system (EPICS) architecture to meet the requirements of the large-scale scientific facility. The topological structure of optical fiber ring network and EPICS framework are combined to develop the largely distributed SCADA system. Test results show that the control system is stable and reliable. The SCADA system provides not only reliable support for EAST, but also a good reference for developing other SCADA system of large-scale scientific facility in the future.

Key words: EAST tokamak, Experimental physics and industrial control system (EPICS), Dual optical fiber ring network, Vacuum pumping and fuelling, SCADA

摘要：

介绍EAST 真空及加料监控系统底层和顶层的架构设计、连锁保护设计、运行模式设计以及系统部署。在底层架构中，真空抽气和加料监控系统分别采用两套相互独立的光纤环网拓扑，构成双光纤环网结构。顶层设计主要采用符合大科学装置规范的实验物理与工业控制系统(EPICS)架构。系统设计主要特点是将底层双光纤环网结构拓扑和顶层EPICS 架构相结合，构建了大型分布式真空抽气和加料数据采集与监视控制系统。测试结果表明整套监控系统运行稳定可靠，该监控系统不仅为EAST 装置实验提供了可靠支撑，同时也为未来其它大科学装置的监控系统构建提供参考和借鉴。

关键词: EAST 装置, 实验物理与工业控制系统(EPICS), 双光纤环网, 真空抽气及加料, 监控系统

CLC Number:

TL62+8

YUAN Xiao-lin, CHEN Yao, LI Jian-gang, HU Jian-sheng, ZHOU Yao, HOU Ji-lei, HUANG Ming. Design of vacuum pumping and fuelling control system based on experimental physics and industrial control system[J]. NUCLEAR FUSION AND PLASMA PHYSICS, 2019, 39(1): 34-40.

袁啸林1, 2，陈跃1, 李建刚1，胡建生1，周跃1，侯吉磊1, 2，黄明1. 基于实验物理与工业控制系统的EAST 真空抽气及加料控制系统设计[J]. 核聚变与等离子体物理, 2019, 39(1): 34-40.

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Design of vacuum pumping and fuelling control system based on experimental physics and industrial control system

基于实验物理与工业控制系统的EAST 真空抽气及加料控制系统设计

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