PCaPAC2014 - List of Keywords (storage-ring)

Paper	Title	Other Keywords	Page
WPO022	Control System of Two Superconducting Wigglers and Compensation Magnets in The SAGA Light Source	wiggler, PLC, quadrupole, controls	84
	Y. Iwasaki SAGA, Tosu, Japan
	The SAGA Light Source is a synchrotron radiation facility consisting of a 255 MeV injector linac and a 1.4 GeV electron storage ring. Three insertion devices: a superconducting wiggler, an APPLE-II undulator, and a planar undulator, are used for synchrotron radiation experiments. For the demand of hard x-ray experiment, we are planning to install a second superconducting wiggler in the electron storage ring. We are developing the control system for the next superconducting wiggler using conventional PLCs and PCs. To compensate the closed orbit distortion, tune shift and chromaticity change induced by the excitation of the superconducting wiggler, the control system of dipole, quadrupole and sextupole magnets power supplies are also being upgraded. PLCs are linked by optical fiber cable to synchronize each power supplies. We present the control system of the superconducting wigglers and the compensation magnets using PLCs and PCs at this meeting.

WPO035	BPM Control, Monitor, and Configuration Environments for TPS Booster	booster, electronics, synchrotron, status	120
	P.C. Chiu, Y.-S. Cheng, K.T. Hsu, K.H. Hu, C.H. Kuo NSRRC, Hsinchu, Taiwan
	Booster synchrotron for the Taiwan photon source project which is a 3 GeV synchrotron light source constructed at NSRRC is in commissioning. The BPM electronics Libera Brilliance⁺ [1] are adopted for booster and storage ring of Taiwan Photon Source (TPS). The acceptance test had been completed in 2012 [2]. The provided BPM data is useful for beam commissioning where it can be used to measure beam position, rough beam intensity along the longitudinal position and also for tune measurement. This report summarizes the efforts on BPM control, monitor and configuration environment.

TCO201	Managing the FAIR Control System Development	controls, ion, project-management, hardware	135
	R. Bär, F. Ameil GSI, Darmstadt, Germany
	After years of careful preparation and planning, construction and implementation works for the new international accelerator complex FAIR (Facility for Antiproton and Ion Research) at GSI have seriously been started. The FAIR accelerators will extend the present GSI accelerator chain, then being used as injector, and provide anti-proton, ion, and rare isotope beams with unprecedented intensity and quality for a variety of research programs. The accelerator control system for the FAIR complex is presently being designed and developed by the GSI Controls group with a team of about 50 soft- and hardware developers, complemented by an international in-kind contribution from the FAIR member state Slovenia. This paper presents requirements and constraints from being a large and international project and focusses on the organizational and project management strategies and tools for the control system subproject. This includes the project communication, design methodology, release cycle planning, testing strategies and ensuring technical integrity and coherence of the whole system during the full project phase.
	Slides TCO201 [2.781 MB]

TCO205	Conceptual Design of the Control System for SPring-8-II	controls, database, framework, operation	144
	R. Tanaka, T. Matsushita, T. Sugimoto, R. Tanaka JASRI/SPring-8, Hyogo-ken, Japan T. Fukui RIKEN SPring-8 Center, Innovative Light Sources Division, Hyogo, Japan
	The SPring-8 storage ring was inaugurated 17 years ago in 1997. The storage ring is an 8-GeV synchrotron that functions as a third-generation light source, providing brilliant X-ray beams to a large number of experimental users from all over the world. In recent years, discussions have been held on the necessity of upgrading the current ring to create a diffraction-limited storage ring at the same location. Now, a plan to upgrade the storage ring, called SPring-8-II, has been launched. First, new beam optics capable of storing beams of 6 GeV was designed using a five-bend magnet system to obtain smaller electron beam emittance that would produce coherent X-rays that are brighter than those produced by the current ring. The design of a control system that would meet the performance requirements of the new ring has also started. Equipment control devices are based on factory automation technologies such as PLC and VME, whereas digital data handling with high bandwidths is realized using telecommunication technologies such as xTCA. In this paper, we report on the conceptual design of the control system for SPring-8-II on the basis of the conceptual design report proposed by RIKEN.
	Slides TCO205 [7.572 MB]

FPO013	Beam Data Logging System Base on NoSQL Database at SSRF	database, injection, synchrotron, hardware	188
	Y.B. Yan, Y.B. Leng SINAP, Shanghai, People's Republic of China Z.C. Chen, H.L. Geng, L.W. Lai SSRF, Shanghai, People's Republic of China
	Funding: Supported by the Knowledge Innovation Program of Chinese Academy of Sciences To improve the accelerator reliability and stability, a beam data logging system was built at SSRF, which is base on NOSQL database Couchbase. The Couchbase is an open source software, and can be used both as a document database or pure key-value database. The logging system stores beam parameters under predefined conditions. It is mainly used for the fault diagnosis, beam parameters tracking or automatic report generation. The details of the data logging system will be reported in this paper.

Paper

Title

Other Keywords

Page

WPO022

Control System of Two Superconducting Wigglers and Compensation Magnets in The SAGA Light Source

wiggler, PLC, quadrupole, controls

84

Y. Iwasaki
SAGA, Tosu, Japan

The SAGA Light Source is a synchrotron radiation facility consisting of a 255 MeV injector linac and a 1.4 GeV electron storage ring. Three insertion devices: a superconducting wiggler, an APPLE-II undulator, and a planar undulator, are used for synchrotron radiation experiments. For the demand of hard x-ray experiment, we are planning to install a second superconducting wiggler in the electron storage ring. We are developing the control system for the next superconducting wiggler using conventional PLCs and PCs. To compensate the closed orbit distortion, tune shift and chromaticity change induced by the excitation of the superconducting wiggler, the control system of dipole, quadrupole and sextupole magnets power supplies are also being upgraded. PLCs are linked by optical fiber cable to synchronize each power supplies. We present the control system of the superconducting wigglers and the compensation magnets using PLCs and PCs at this meeting.

WPO035

BPM Control, Monitor, and Configuration Environments for TPS Booster

booster, electronics, synchrotron, status

120

P.C. Chiu, Y.-S. Cheng, K.T. Hsu, K.H. Hu, C.H. Kuo
NSRRC, Hsinchu, Taiwan

Booster synchrotron for the Taiwan photon source project which is a 3 GeV synchrotron light source constructed at NSRRC is in commissioning. The BPM electronics Libera Brilliance⁺ [1] are adopted for booster and storage ring of Taiwan Photon Source (TPS). The acceptance test had been completed in 2012 [2]. The provided BPM data is useful for beam commissioning where it can be used to measure beam position, rough beam intensity along the longitudinal position and also for tune measurement. This report summarizes the efforts on BPM control, monitor and configuration environment.

TCO201

Managing the FAIR Control System Development

controls, ion, project-management, hardware

135

R. Bär, F. Ameil
GSI, Darmstadt, Germany

After years of careful preparation and planning, construction and implementation works for the new international accelerator complex FAIR (Facility for Antiproton and Ion Research) at GSI have seriously been started. The FAIR accelerators will extend the present GSI accelerator chain, then being used as injector, and provide anti-proton, ion, and rare isotope beams with unprecedented intensity and quality for a variety of research programs. The accelerator control system for the FAIR complex is presently being designed and developed by the GSI Controls group with a team of about 50 soft- and hardware developers, complemented by an international in-kind contribution from the FAIR member state Slovenia. This paper presents requirements and constraints from being a large and international project and focusses on the organizational and project management strategies and tools for the control system subproject. This includes the project communication, design methodology, release cycle planning, testing strategies and ensuring technical integrity and coherence of the whole system during the full project phase.

Slides TCO201 [2.781 MB]

TCO205

Conceptual Design of the Control System for SPring-8-II

controls, database, framework, operation

144

R. Tanaka, T. Matsushita, T. Sugimoto, R. Tanaka
JASRI/SPring-8, Hyogo-ken, Japan
T. Fukui
RIKEN SPring-8 Center, Innovative Light Sources Division, Hyogo, Japan

The SPring-8 storage ring was inaugurated 17 years ago in 1997. The storage ring is an 8-GeV synchrotron that functions as a third-generation light source, providing brilliant X-ray beams to a large number of experimental users from all over the world. In recent years, discussions have been held on the necessity of upgrading the current ring to create a diffraction-limited storage ring at the same location. Now, a plan to upgrade the storage ring, called SPring-8-II, has been launched. First, new beam optics capable of storing beams of 6 GeV was designed using a five-bend magnet system to obtain smaller electron beam emittance that would produce coherent X-rays that are brighter than those produced by the current ring. The design of a control system that would meet the performance requirements of the new ring has also started. Equipment control devices are based on factory automation technologies such as PLC and VME, whereas digital data handling with high bandwidths is realized using telecommunication technologies such as xTCA. In this paper, we report on the conceptual design of the control system for SPring-8-II on the basis of the conceptual design report proposed by RIKEN.

Slides TCO205 [7.572 MB]

FPO013

Beam Data Logging System Base on NoSQL Database at SSRF

database, injection, synchrotron, hardware

188

Y.B. Yan, Y.B. Leng
SINAP, Shanghai, People's Republic of China
Z.C. Chen, H.L. Geng, L.W. Lai
SSRF, Shanghai, People's Republic of China

Funding: Supported by the Knowledge Innovation Program of Chinese Academy of Sciences
To improve the accelerator reliability and stability, a beam data logging system was built at SSRF, which is base on NOSQL database Couchbase. The Couchbase is an open source software, and can be used both as a document database or pure key-value database. The logging system stores beam parameters under predefined conditions. It is mainly used for the fault diagnosis, beam parameters tracking or automatic report generation. The details of the data logging system will be reported in this paper.