Mini-Review on CLIQ Units CERN, April 8 2015 Felix Rodriguez-Mateos, TE-MPE.

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Presentation transcript:

Mini-Review on CLIQ Units CERN, April Felix Rodriguez-Mateos, TE-MPE

Agenda 1. Scope and objectives of the reviewFélix Rodríguez Mateos10’ 2. Introduction to the CLIQ protection method Emmanuele Ravaioli15’ 3. General aspects of the design, choice of components and safety issues Knud Dahlerup-Petersen15’ 4. Details of the designJoaquim Mourao30’ 5. Integration and implementationMathieu Favre15’ 6. Discussion and questions from the panel All30’ 6/21/2016 Mini-Review on CLIQ Units, April

Scope of the review Several units of CLIQ power supplies have been manufactured by the MSC Group over the last months (years) and used at CERN for testing of different magnets in SM18 We do not pretend to conduct a review on the “ad-hoc” design of those units, which has given good results so far This previous design has given the needed flexibility to optimize parameters as capacity, voltage/current, frequency and dumping time constant There is now a request to the MPE Group to produce 3 units, 2 of which will be sent to FNAL by the end of May. The third one will serve as spare This review focuses only on the design of these latter units keeping an eye on future developments 6/21/2016 Mini-Review on CLIQ Units, April

Near future plan for protecting magnets with CLIQ LHC-high luminosity upgrade  QXF is the inner triplet large quadrupole strings of magnets either side of the ATLAS and CMS.  Model testing in Fermi-lab (Two units plus spare)  Model testing in CERN (Two units plus spare)  First long magnet prototype test in BNL (Two units plus spare)  Production of 32 + spares units for LHC-HL, assuming two units per magnet. Courtesy Glyn Kirby

Longer term possibilities for use in LHC- HL upgrade CERN Orbit correctors for LHC-HL: Twin aperture independently powered dipole MQY for LHC-HL with pushed performance for the upgrade. Currently being tested in SM 18 at CERN. Each magnet would need 4 units LHC: Main dipole is being tested at CERN in SM18 in the following months in view for rapid repair of LHC systems Outside CERN KEK Japan: D1, LHC-HL Single aperture standalone dipoles requiring 4 units + spares CEA France: Q4 Twin aperture quadrupoles ~ 16 units + spares GSI: they are investigating for use with their magnet systems Further future 16 Tesla hybrid FCC models block design & cos-theta design could benefit from CLIQ CCT design (canted cosine theta) may rely on CLIQ; LBNL have requested two units for future testing of their 16 Tesla CCT magnet. Information from Glyn Kirby

Objectives Validation of the concept Coherence of the choices with respect to the established functionalities Correctness with integration and implementation according to the electrical standards applicable Safety aspects 6/21/2016 Mini-Review on CLIQ Units, April

Panel Jean-Paul Burnet, TE/EPC Alexander Erokhin, TE/MPE José Carlos Gascón, DGS-SEE-XP Christian Giloux, TE/MSC Andrzej Siemko, TE/MPE (ex-officio) Yves Thurel, TE/EPC 6/21/2016 Mini-Review on CLIQ Units, April