Author: Coquet, J.
Paper Title Page
MOPMU040 REVOLUTION at SOLEIL: Review and Prospect for Motion Control 525
 
  • D. Corruble, P. Betinelli-Deck, F. Blache, J. Coquet, N. Leclercq, R. Millet, A. Tournieux
    SOLEIL, Gif-sur-Yvette, France
 
  At any synchrotron facility, motors are numerous: it is a significant actuator of accelerators and the main actuator of beamlines. Since 2003, the Electronic Control and Data Acquisition group of SOLEIL has defined a modular and reliable motion architecture integrating industrial products (Galil controller, Midi Ingénierie and Phytron power boards). Simultaneously, the software control group has developed a set of dedicated Tango devices. At present, more than 1000 motors and 200 motion controller crates are in operation at SOLEIL. Aware that the motion control is important in improving performance as the positioning of optical systems and samples is a key element of any beamline, SOLEIL wants to upgrade its motion controller in order to maintain the facility at a high performance level and to be able to answer to new requirements: better accuracy, complex trajectory and coupling multi-axis devices like a hexapod. This project is called REVOLUTION (REconsider Various contrOLler for yoUr moTION).  
poster icon Poster MOPMU040 [1.388 MB]  
 
WEMMU004 SPI Boards Package, a New Set of Electronic Boards at Synchrotron SOLEIL 687
 
  • Y.-M. Abiven, P. Betinelli-Deck, J. Bisou, F. Blache, F. Briquez, A. Chattou, J. Coquet, P. Gourhant, N. Leclercq, P. Monteiro, G. Renaud, J.P. Ricaud, L. Roussier
    SOLEIL, Gif-sur-Yvette, France
 
  SOLEIL is a third generation Synchrotron radiation source located in France near Paris. At the moment, the Storage Ring delivers photon beam to 23 beamlines. Since machine and beamlines improve their performance, new requirements are identified. On the machine side, new implementation for feedforward of electromagnetic undulators is required to improve beam stability. On the beamlines side, a solution is required to synchronize data acquisition with motor position during continuous scan. In order to provide a simple and modular solution for these applications requiring synchronization, the electronic group developed a set of electronic boards called "SPI board package". In this package, the boards can be connected together in daisy chain and communicate to the controller through a SPI* Bus. Communication with control system is done via Ethernet. At the moment the following boards are developed: a controller board based on a Cortex M3 MCU, 16bits ADC board, 16bits DAC board and a board allowing to process motor encoder signals based on a FPGA Spartan III. This platform allows us to embed process close to the hardware with open tools. Thanks to this solution we reach the best performances of synchronization.
* SPI: Serial Peripheral Interface
 
slides icon Slides WEMMU004 [0.230 MB]  
poster icon Poster WEMMU004 [0.430 MB]