Title :
Timing and Triggering System Prototype for the XFEL Project
Author :
Hidvégi, Attila ; Gessler, Patrick ; Rehlich, Kay ; Bohm, Christian
Author_Institution :
Phys. Dept., Stockholm Univ., Stockholm, Sweden
Abstract :
The European X-ray Free Electron Laser (XFEL) [1] at DESY in Hamburg will begin operating in the next few years, enabling new, ground-breaking research opportunities. The entire system requires very precise clock and trigger distribution, synchronous with the 1.3 GHz system RF-frequency, over distances of more than 3.4 km. The new experiment demanded features that other commercial solutions could not yet provide. Researchers at Stockholm University and DESY have developed a prototype for the timing system of XFEL. It has been decided that XFEL will use modern ATCA and Micro-TCA systems because of their advanced features and reliability. The timing system has been adapted to the Micro-TCA bus standard and also follows the new upcoming xTCA for physics standard. The prototype is fully functional and complete. It will serve as a platform for future development of the whole timing system. This paper describes the hardware design and some test results using the prototype board.
Keywords :
X-ray lasers; free electron lasers; synchrotron radiation; synchrotrons; timing circuits; trigger circuits; ATCA system; DESY; European X-ray Free Electron Laser; XFEL project; advanced telecommunications computing architecture; clock distribution; frequency 1.3 GHz; microTCA bus standard; microTCA system; system RF frequency; timing system prototype; trigger distribution; triggering system prototype; Clocks; Delay; Field programmable gate arrays; Jitter; Prototypes; Synchronization; Distribution; FEL; drift compensation; timing; trigger;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2011.2151205
