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General Information
    • ISSN: 2010-3719
    • Frequency: Bimonthly
    • DOI: 10.18178/IJIEE
    • Editor-in-Chief: Prof. Chandratilak De Silva Liyanage
    • Associate Executive Editor: Ms. Jennifer Zeng
    • Executive Editor: Mr. Ron C. Wu
    • Abstracting/ Indexing : Google Scholar, Electronic Journals Library, Crossref and ProQuest, Ei (INSPEC, IET).
    • E-mail ijiee@ejournal.net

Faculty of Science, University of Brunei Darussalam, Brunei Darussalam   
" It is a great honor to serve as the editor-in-chief of IJIEE. I'll work together with the editorial team. Hopefully, IJIEE will be recognized among the readers in the related field."
IJIEE 2017 Vol.7(4): 127-131 ISSN: 2010-3719
doi: 10.18178/ijiee.2017.7.4.675

Digital Controller Implementation of a Corrector Power Converter for TPS Fast Corrector Magnet

Bao-Sheng Wang, Kuo-Bin Liu, Chen-Yao Liu, and Yuan-Chen Chien
Abstract—In the beginning of 2016, TPS (Taiwan Photon Source) has started its light source services to user. TPS, a 3rd generation synchrotron light source, is newly constructed to provide high brightness beam source for a variety of scientific researches. To maintain the electronic beam orbit stability, fast orbit feedback system (FOFB) is essential to suppress the unwanted disturbances from difference noise sources. The FOFB system is composed of fast corrector magnets, wide bandwidth power supplies, beam position data and orbit compensation algorithm to serve the noise suppression purpose. It is shown that FOFB system is effective in stabilizing the beam position This paper describes a new type full-digital corrector power supply to serve as the driving source to feed the fast corrector magnet in the FOFB system, where both wide bandwidth and fast transient response are needed. The new power supply employs the same power stage of the analog fast corrector power supply, the current output regulation is redesigned and implemented in NI-sbRIO9606, which embeds a real-time processor and a user-reconfigurable FPGA (Field Programmable Gate Array) on a single module from National Instruments. The simulation and prototype result indicates that the new power supply can deliver operational bandwidth at about 10 KHz and faster transient behavior compared to the along version of the fast corrector power supply.

Index Terms—Synchrotron, fast corrector, wide bandwidth, embedded controller, power supply.

The authors are with the Power Supply Group, National Synchrotron Radiation Research Center, Taiwan (e-mail: wang.bs@nsrrc.org.tw, ycchien@nsrrc.org.tw).


Cite: Bao-Sheng Wang, Kuo-Bin Liu, Chen-Yao Liu, and Yuan-Chen Chien, "Digital Controller Implementation of a Corrector Power Converter for TPS Fast Corrector Magnet," International Journal of Information and Electronics Engineering vol. 7, no. 4, pp. 127-131, 2017.

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