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SSRF Beamline Control System

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Presentation on theme: "SSRF Beamline Control System"— Presentation transcript:

1 SSRF Beamline Control System
LIU Ping Beamline Control Group

2 Contents 1. Overview 2. Personnel Safety Interlock System(PSIS)
3. Equipment Protection System(EPS) 4. Motion Control System 5. Operator Interfaces(OPI)

3 1.1 Overview: Purposes of control
Protecting people from the X-ray radiation hazard. Protecting the equipments from damage. Detecting the position of the X-ray beam. Controlling the optical components to get the satisfied beam. Monitoring and archiving the status of beamline, issuing the information of beamline status.

4 1.2 Overview: Tasks of control
Personnel safety interlock system Equipment status monitor and protecting system Diagnosing the beam position with XBPM. Optical elements motion control

5 1.3 Overview: Principles of control
Based on an general and standard platform. Scalable, Reliable and flexible. Easy to maintain, upgrade and extend. Easy to use commercial devices. Rich interfaces to experimental application programs.

6 1.4 Overview: Hardware Framework
Motor driver XBPM Acquisition PSIS and EPS Motion control

7 1.5 Overview: Hardware and Software
Upper level:Personal Computer Middle level:IOC based on VME or PC Low level: Motion controller and driver based on VME Industrial PLC, I/O module, serial port server module, temperature module, and ADC module based on Ethernet Software EPICS/synApps:Motor、transform、autoSaveRestore、sscan StreamDevice、Asyn、SNL、Edm

8 1.6 Overview: Beamline Control System
Front End Optical Hutch Experimental Hutch Equipment Protection System Safety InterlockSystem Motion Control System Operation Interface Ethernet Display Interface Servers Gateways

9 1.6 Overview: Beamline Control System
Control Channels IOCs Computers Operator Interface MX 1275 7 2 115 SAXS 1188 6 103 XMF 2076 8 152 XRD 1306 XAFS 1905 176 XIM 1219 106 STXM 924 77 Total 9893 47 14 844

10 2. Personnel Safety Interlock System
Personnel Safety Interlocking System is to setup a logical action between Optical Shutters and Door Switches, Search Buttons to keep the people from the probable Radiation Hazard. Front End Optical Hutch Experimental Hutch Photon shutter Safety Shutter1 Safety Shutter2 Door Switches Search Buttons Emergency Buttons

11 Photographs of PSIS FE Control Panel Display Screen Search Buttons
Emergency Buttons SS2 Control Panel Display Screen BL PS&SS1 Control Panel Emergency Buttons

12 3. Equipment Protection System
Equipment Protection System is to alarm and take actions to protect the equipments from damage while the monitored parameters such as temperature, vacuum, cooling water flow, pressure of compressed air over the set threshold. Water Flow Experimental Hutch Optical Hutch Front End Temperature Vacuum Beam Kick

13 Frontend EPS PLC Temperature Monitor Display Screen Water Flow Monitor
Serial port Server Water Flow Monitor Vacuum Monitor PLC Aperture Safety Shutter Fluorescent Screen Aperture Photon Shutter

14 Excluding EPS actions by compressed air !
4. Motion Control System Motion Control System is to control the optical elements to get the wanted X-ray beam in Energy, spot size and Flux. Excluding EPS actions by compressed air ! Front End Optical Hutch Experimental Hutch Detector Signal Acquisition Motion Control

15 Motion Control Cabinet
Piezo controller Step motor driver VME/IOC Motion Controller

16 5. Motion Control Interface
Slit Control Panel Beamline Motion Control Interface Mirror Control panel Physical Parameter Control WBPM control Panel Motor Control

17 Control Panel for LN2-cooled DCM
Piezo Control Panel

18 Control Panel for Plane Grating Monochromator
Local Controller Control Panel based on EPICS

19 Control Panel for Water-cooled DCM
Local Controller Control Panel based on EPICS

20 Beamline Status Monitoring
Parameters of Accelerator Frontend Status Safety Interlock System Status Beamline Status

21 Information Services Beamlines summary interface
XBPM data BL detailed status Alarms Temperatures Vacuum pump current All actions and status parameters are monitored and archived. Status information can be released to internet under permission.

22 Acknowledgement Dr. Mitsuhashi Toshiyuki, Dr. Xiaowei Zhang from Photon Factory, Japan High Energy Accelerator Organization, Dr. Aoyagi Hideki from Japan Synchrotron Radiation Research Institute, Dr. Deming Su from Advanced Photon Source, for their help and salutary advice on BBPM structural design. Dr. Dongliang Chen from Beijing Synchrotron Facility for CVD fluorescent screen test. Dr. Detlef Vermeulen, Dr. David Maden, Dr. Claude Pradervand, Dr. Elke Zimoch, Dr. Dirk Zimoch, Dr. Renate Krempaska, Dr. Juraj Krempasky, Dr. Jud Gaudenz, Dr. Werner Portmann, Dr. Rene Kapeller, Dr. Colin Higgs from Swiss Light Source for beneficial discussion on beamline control system. Dr. Tim Mooney from Advanced Photo Source, Dr. Zhijian Yin from Brookhaven National Laboratory, for discussion on motion control. Dr. Noboru Yamamoto from Japan Proton Accelerator Research Complex, Dr. Takashi Obina, Dr. Jun-ichi Odagiri from Japan High Energy Accelerator Organization, for discussion on setting up the platform of developing control system.

23 Thank you

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