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Status of the BI Work Package in the LIU-PSB frame Jocelyn TAN, BE-BI Thanks to the contributions of the WU holders: J. Belleman, P. Odier, F. Roncarolo,

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Presentation on theme: "Status of the BI Work Package in the LIU-PSB frame Jocelyn TAN, BE-BI Thanks to the contributions of the WU holders: J. Belleman, P. Odier, F. Roncarolo,"— Presentation transcript:

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2 Status of the BI Work Package in the LIU-PSB frame Jocelyn TAN, BE-BI Thanks to the contributions of the WU holders: J. Belleman, P. Odier, F. Roncarolo, S. Burger, D. Gerard, C. Zamantzas, B. Dehning. LIU-PSB meeting, 14 th April 2015

3 Outline Foreword BI Milestones −LS1 −New injection section & Half Sector Test −EYETS 2016-17 −LS2 Summary 3

4 LIU-PSB-BI Work Package Total budget: 3635 kCHF 5 budget codes 4 cost drivers represent 79.8 % of the WP budget −Wire Scanners: 970 kCHF −Booster TMS: 750 kCHF −Upgrade for L4:648 kCHF −BLMs: 532 kCHF 4 Machine sectorTotal: 20 Work Units BI line2 H - Injection & Half Sector Test6 + 3 Ring5 Extraction lines4

5 LIU-PSB Milestones LS1: 1.5 year Half Sector Test −connection of PIMS12 to be completed on 22 nd June 2016 (J. Coupard, http://indico.cern.ch/event/382143/ ) http://indico.cern.ch/event/382143/ −Part 1: L4T Q3 2015  Q2 2016 −Part 2 : HTS Q1 2016  Q3 2016 EYETS = Extended-Year-End Technical Stop −16 weeks, from Dec. 2016 to March 2017 −All WPs related to Linac4 connection: end 2016, should LHC fail all of a sudden. LS2 −1.5 year, from Q2 2018 to Q4 2019 −All WPs related to PSB energy upgrade −Linac4 connection to PSB if not done during EYETS Presently there is no management decision to relax on the end-2016 deadline for the Linac4 connection to the PSB. Therefore this has to stay the baseline for our planning. 5

6 Upgrade of BPMs in BTM & BTP extraction lines −8 monitors + 2 spares −New front and back end electronics for compatibility with Linac4 beams −New lab test bench −Budget : 264 kCHF BLMs : −new cables for monitors in L2 sections −Budget : 127kCHF 6 Work Units completed during LS1 BTP.BPM10

7 Outline Foreword BI Milestones −LS1 −New injection section & Half Sector Test −EYETS 2016-17 −LS2 Summary 7

8 Beam Diagnostics for the new H - charge- exchange injection system in section 1L1 8 BTV Optimization of the injection process Inspection of the stripping foil BTV Optimization of the injection process Inspection of the stripping foil H0/H- current monitor Stripping efficiency INTERLOCK for dump protection H0/H- current monitor Stripping efficiency INTERLOCK for dump protection       ICs for beam loss monitoring  Diamond detectors : for observation of fast losses and foil degradation Stripping foil current monitor Baseline: end 2016 All four rings Courtesy: W. Weterings

9 Beam Diagnostics for the new H - charge-exchange injection system: HST in Linac4 tunnel 9       ICs for beam loss monitoring  Diamond detectors : for observation of fast losses and foil degradation Courtesy: W. Weterings BTV Baseline: 1 BTV Q3 2016, the other one Q2 2016 Optimization of the injection process Inspection of the stripping foil BTV Baseline: 1 BTV Q3 2016, the other one Q2 2016 Optimization of the injection process Inspection of the stripping foil H0/H- current monitor Baseline: Q3 2016 Stripping efficiency INTERLOCK for dump protection H0/H- current monitor Baseline: Q3 2016 Stripping efficiency INTERLOCK for dump protection Stripping foil current monitor Baseline: Q2 2016 Stripping foil current monitor Baseline: Q2 2016 https://indico.cern.ch/event/306665/

10 10 New H - charge-exchange injection system Beam Loss and Interlock Systems beam Half Sector TestBLM for MonitoringBLM for Observation BUDGET5 kCHF30 kCHF137 kCHF StatusBLM support design and integration done 2015Installation + cablingElectronic board validationDiamond detector procurement 2016Q2: CommissioningElectronic board procurement EYETS 2016-17Cabling – DIC submitted BaselineQ2 2016End 2016 Ionization chambers : x6 LHC type Monitoring foil degradation Machine protection (H0/H - dump) Interlock Diamond: x8 Monitor fast losses & foil degradation Optimize stripping efficiency, OASIS aqn. Both detectors share the same support system Courtesy: W. Weterings, C. Zamantzas

11 HTS Part1 only electronics for stripping foil current monitoring in L4T HST Part2 Titanium plates to be installed in front of one H0/H- dump for H0/H- current monitoring New H - charge-exchange injection system H0/H - Current Monitor Courtesy: F. Roncarolo Half Sector Test PART1Half Sector Test PART2H0/H- current monitoring Budget10 KCHF50 kCHF StatusMechanical design finished, final review for drawings approval tomorrow! (organized by EN-MME for the whole inj region) Electronics design defined: need to be reviewed/approved with BE-OP 2015Q4: Production of mechanics 2016Q2: board installationQ3: Commissioning EYETS 2016-17Cabling – DIC submitted BaselineQ2 2016: stripping foil current monitoring Q3 2016 : H0/H- current monitor End 2016 Comments No spares : would need 19 kCHF.

12 HTS Part1 One BTV in L4T (permanent installation) HST Part2 One BTV in front of proton dump (AD type, temporary installation) One BTV system for foil inspection Courtesy: S. Burger 3D view of BTV_SF in the 4 rings of the BOOSTER New H - charge-exchange injection system Beam Profile and Foil Inspection Half Sector Test Part1 Half Sector Test Part2BTV screens at stripping foil Budget91 KCHF110 kCHF StatusDesign, integration and production: COMPLETE 2015Q2: validation of production and interlock system 2016 Q2: 1xBTV in L4T Q3: 1x BTV in front of proton dump Q3: 1x BTV system for foil inspection EYETS 2016-17Cabling – DIC submitted BaselineQ2 2016Q3 2016End 2016 CommentsOnly 2 spares: BTV replacement is not an issue with CF flanges

13 Outline Foreword BI Milestones −LS1 −New injection section & Half Sector Test −EYETS 2016-17 −LS2 Summary 13

14 14 Courtesy: F. Roncarolo, D. Gerard, M Hourican New WU created in 2014, related to the new INJECTION SEPTUM for 160 MeV beams Based on existing system: linear, no interlock, OASIS Specifications under discussion w/ Bettina −Ensure the distributed beams are centered in their respective apertures. −@ input plates: stripped electrons charge deposition −@ output plates: secondary emission, expected to be very weak −likely to move output plates outside the septum BEAM PROFILE BI.SMV position measurement plates w/ Linac4 New BI.SMV BI.SMV Position plates BUDGET50 kCHF StatusProgress aligned with the work done by ABT 2015Q2 :design by ABT, Q3: Procurement of 1mm thick Ti plates, Q4 : Installation in BI.SMV EYETS 2016-17Cabling – DIC submitted BaselineEnd 2016

15 BEAM PROFILE New Housing for BI.BTV30 Courtesy: D. Gerard MOTIVATION: The need of longer magnetic length for Septa induced by increased beam energy BI.BTV30 BUDGET60 kCHF StatusDesign in good progress Modification of adjacent pipes to be done 2015Production of optical mechanical part and of support To do ECR : will be done in the shadow of the one for the BI.SMV EYETS 2016-17Installation BaselineEnd 2016

16 16 BEAM PROFILE Turn by turn meas. for injection matching w/ Linac4 Courtesy: F. Roncarolo Section 4L1 SEM H+V SEM grids for PSB ring3 BUDGET135 kCHF StatusNo mechanical design started Electronics design: only just started 2015Proposed SEM’s integration: section 4L1. To do SRR + ECR EYETS 2016-17Cabling – DIC submitted YETS 2017-18BI proposes to postpone installation to YETS 17-18 as earliest possible date BaselineEnd 2016 CommentsDecision on spare grids to be taken once cost of final design clear Specifications : SEM grids injection of half a PSB turn to well separate turn-by-turn profiles (over 20turns) External condition interlock : to shorten the Linac4 pulse (1turn max) NOT PPM In/Out Permament implementation for commissioning, MDs and operation

17 BEAM INTENSITY Measurement of injection efficiency with Linac4 17 Courtesy: P. Odier BR.TMD in 8L1 section BUDGET198 kCHF StatusOne BCT available (without shielding) in the laboratory 2015 -2016 Acquisition chain: HW production, SW specification A spare ceramic chamber EYETS 2016-17 Reshuffle the monitors in the BI radioactive workshop: 4 days per monitor x 1.3man x 4 monitors = 20.8 man x days Cabling: DIC submitted BaselineEnd 2016 Comments ALARA checked with RP. Dose rate in Section 8L1 is reasonably low. Q3 2015: BI will submit a Work Dose Planning. Specifications Four monitors BR.TMD in 8L1, installed in ’72, un-used since early 80s’ Analog turn by turn acquisition, up to 100 turns Watchdog : comparison with BI.BCT20 after 100 turns

18 BEAM INTENSITY Quantify total intensity transmission during PSB cycle 18 Courtesy: P. Odier DC Current Transformer BUDGET114 kCHF Status Acquisition chain upgraded : ADC and Expert GUI Front End Electronics assembled : Not installed due to higher priorities 2015 -2016 Test of the new B Train Receiver Installation of the new Front End Electronics (TS 2015-2016) EYETS 2016-17 Installation of the new B train Receiver Adaptation for Linac4 intensities BaselineEnd 2016 Summary Four monitors BR.BCTDC in section 9 (DCCT) Upgrade of the acquisition chain

19 19 BEAM POSITION Ring Trajectory Measurement System Courtesy J. Belleman Booster Trajectory Measurement System BUDGET750 kCHF Status One full ring can be acquired, multiplexed, Design target resolution of 0.2mm for high intensities Software: FESA interface, with hooks for YASP and the Sampler + Expert GUI We’re still using the old front-end electronics 2015-2016 Qualify the acquisition system & Front End electronics reliable operation with new firmware/software demonstrated 2015 priorities: Demontrate resolution of 0.2mm for low intensities EYETS 2016-17 Cabling – DIC submitted – About 250 cables to converge towards BOR ! Decommissioning of old system : no way back BaselineEnd 2016 Comments Tight schedule Cannot be ready for end 2016 as the old system will be used till the end of the PSB run Change of planning implies new re-baselining for 515 kCHF After cabling complete, at least one month needed to fully test the system: will this be available ? Specifications − Bunch-by-bunch, turn-by-turn trajectories over the whole cycle − Various derived averages (Orbits, MRP) − Position resolution 200μm − No more multiplexing over the four rings − New front-end electronics with settable gain Front-end boxes: dated from 1974

20 20 BEAM POSITION Wide Band BPM in the BTP line Courtesy J. Belleman PR.UWB94 PS WB pick-up Wide Band Pick-Up in BTP line BUDGET75 kCHF StatusDesign just started 2015 -2016 Design + production: CERN Cabling – DIC submitted To do: SRR + ECR EYETS 2016-17Installation and commissioning BaselineEnd 2016 Comments Upscale of an existing monitor: Feasible and realistic Specifications Spot transverse instabilities during beam transfer between PSB ans PS Based on existing PS design (section 94) Acquisition : OASIS

21 21 BEAM LOSS PSB and Transfer lines BLM system Ionization chambers for Transfer linesFLAT Ionization chambers: L3 sections Budget211 kCHF164 KCHF StatusWU Cabling for L2 sections : COMPLETEProcurement of monitors and electronics: COMPLETE 2015validation of electronic board 2016electronic board production (*)To do: ECR EYETS 2016-17Cabling for transfer lines – DIC submittedCabling for L3 section – DIC submitted BaselineEnd 2016 Ionization Chambers in Transfer lines : 46 ICs from LHC, not paid by LIU Flat Ionization Chambers in L3 section: 32 new FICs (*) the PS could profit from the production for the Booster but their specs are still being discussed Courtesy: C. Zamantzas

22 Outline Foreword BI Milestones −LS1 −New injection section & Half Sector Test −EYETS 2016-17 −LS2 Summary 22

23 BEAM PROFILE New Housings for BT.BTV10 and 30 Courtesy: D. Gerard MonitorBT.BTV10BT.BTV30 Budget84 KCHF StatusTanks installedDesign in good progress 2015Production of optical mechanical part and of support EYETS 2016-17Production of transition pipes Tank production To do: ECR Modification of adjacent pipes LS2Monitors installation BaselineLS2 MOTIVATION: The need of longer magnetic length for Septa induced by increased beam energy

24 24 BEAM PROFILE Wire Scanner Aim : adaption of the scanner design for the PS and SPS to the limited space in the PSB Design proposal : Section 11L1 Courtesy: B. Dehning BI is in favor having 2 sections: could be 4L1 Wire scanner BUDGET970 kCHF Status Mechanical design proposals are under discussion Development of control end acquisition electronics advancing Proposed BWS’ integration: section 11L1 + 4L1 ? 2015 Two prototypes (SPS + Lab) are used for optimisation and development of control electronics If PSB study shows that integration is possible, then we can finalize the design (mechanics) To do: ECR + SSR + DIC 2016production prototype scanner for installation YETS16-17 2017commissioning of prototype BaselineLS2 Commentsbut we are on the critical path

25 Summary LS1: two WUs completed HST: on time Part 1 & Part 2 EYETS 16-17 : A large cabling effort required −H - injection section, BLMs and BTMS −Tight shedule for BTMS YETS 17-18 −Proposed installation date for the injection matching monitor (in ring 3) LS2 −BWS: on the critical path Budget −BI workpackage: 3635 kCHF −Change of baseline implies budget re-baselining −Most WUs includes spares. −Missing budget for H0/H- monitor spares: 19 kCHF 25

26 THANK YOU FOR YOUR ATTENTION!

27 Cost Breakdown 27

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