1 / 10

MPS ASPECTS OF THE WARM MAGNET INTERLOCK SYSTEM

MPS ASPECTS OF THE WARM MAGNET INTERLOCK SYSTEM. INTRODUCTION. Required to avoid overheating of normal conducting magnets and protection in case of a powering failure 8 Warm Magnet Interlock Controller installed in the LHC 144 normal conducting magnets and 40 Power Converters in the LHC.

sue
Download Presentation

MPS ASPECTS OF THE WARM MAGNET INTERLOCK SYSTEM

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. MPS ASPECTS OF THE WARM MAGNET INTERLOCK SYSTEM

  2. INTRODUCTION • Required to avoid overheating of normal conducting magnets and protection in case of a powering failure • 8 Warm Magnet Interlock Controller installed in the LHC • 144 normal conducting magnets and 40 Power Converters in the LHC MAGNET WIC PC CMD_FABORT_WIC ST_MAG_OVERTEMP ST_FAILURE_WIC CMD_MAG_OVERTEMP_TEST USER_PERMIT_A USER_PERMIT_B CIBU

  3. SIGNALS BETWEEN BIC AND CIBU WIC USER_PERMIT_B BEAM_INFO USER_PERMIT_A BIC USER INTERFACE (CIBUS) BIC

  4. REDUNDANCY IN WIC – BIC SIGNALS Power Converters Magnets PLC FM - 352 USER_PERMIT_A USER_PERMIT_B USER_PERMIT_A USER_PERMIT_B WIC CIBU

  5. EXAMPLE: HARDWARE OF THE WIC INSTALLED IN POINT 8

  6. SYSTEM TEST WITHOUT BEAM (1/4) • CONDITIONS REQUIRED: • Successful completion of the individual tests of the warm magnet interlock system (LHC-MW-HCP-002) • All electrical circuits ready in the IR • Tests can be performed at zero current, only PC control unit fully operational • Logging system available • BIS operational in the desired IR • Mains network and UPS supplies operational in the IR

  7. SYSTEM TESTS WITHOUT BEAM (2/4) • Test beam dump triggered by over-temperature in a magnet • Test beam dump triggered by PC event

  8. SYSTEM TESTS WITHOUT BEAM (3/4) • Test beam dump triggered by over-temperature in a magnet • Circuit by Circuit • Verify that PC_PERMIT signal is OK • Verify that USER_PERMIT TO BIS is OK • Enable CMD_MAG_OVERTEMP_TEST (open the thermo-switch) • Verify that ST_MAG_OVERTEMP and PC_PERMIT are removed for a few seconds • Verify USER_PERMIT TO BIS has been removed • Validate trigger of the WIC event in the BIC history buffer and determine time delay

  9. SYSTEM TESTS WITHOUT BEAM (4/4) • Test beam dump triggered by PC event • For any Power Converter • Verify that PC_PERMIT signal is OK • Verify that ST_FAILURE_WIC is OK • Verify that USER_PERMIT TO BIS is OK • Send CMD_FABORT_WIC to the PC • Verify that PC_PERMIT has been removed • Verify that ST_FAILURE_WIC has been removed • Verify USER_PERMIT TO BIS has been removed • Validate trigger of the WIC event in the BIC history buffer and determine time delay

  10. CONCLUSION • A first EDMS MPS Commissioning Procedure will be released including all the information from this meeting:

More Related