LV-HV cable reuse for the Si Tracker Being worked out with S. Wenig.

Slides:

Advertisements

Similar presentations

WP7 ATLAS ID Barrel End Services T.J.FRASER UCL Aim: Using experience gained from work on the current ATLAS SCT Barrel, attempt an improved design and.

Advertisements

November Vertex 2002 Kazu Hanagaki1 Layer 0 in D0 Silicon Tracker for run2b Kazu Hanagaki / Fermilab for D0 run2b Silicon Tracker group Motivation.

1 Module and stave interconnect Rev. sept. 29/08.

1 Presented at ColUSM by D. Ramos on behalf of the Cold Collimator Feasibility Study Working Group Longitudinal.

Panda PCB for prototype status report by D Malkevich on behalf of the ITEP group ITEP.

CO2 cooling pressure drop measurements R. Bates, R. French, G. Viehhauser, S. McMahon.

ACES Workshop 3-4 March, 2009 W. Dabrowski Serial power circuitry in the ABC-Next and FE-I4 chips W. Dabrowski Faculty of Physics and Applied Computer.

Infrastructure for LHCb Upgrade workshop – MUON detector Infrastructure for LHCB Upgrade workshop: MUON power, electronics, cable Muon upgrade in a nutshell.

SLHC - WP7 Barrel UPDATE on LAYOUT OF SERVICES AT THE BARREL ENDS OPTO PCBS: Sketches describe options after discussion with Tony Weidberg ( ) Preference.

Advantages & Disadvantages of DC-DC Conversion Schemes Power Task Force Summary Meeting January 30 th, 2009 Katja Klein 1. Physikalisches Institut B RWTH.

Switched capacitor DC-DC converter ASICs for the upgraded LHC trackers M. Bochenek 1,2, W. Dąbrowski 2, F. Faccio 1, S. Michelis 1 1. CERN, Conseil Européen.

Preparation of SPD Cabling Calo comissioning meeting – 19th July 2006 – CERN I.Status of cables II.Cable reels III.Labelling IV.Cabling inside a VFE box.

Noise studies: hardware tests and preliminary results Anna, Anton, Giovanni, Pigi, Silvia, A. Boiano, A. Vanzanella.

17/06/2010UK Valencia RAL Petals and Staves Meeting 1 DC-DC for Stave Bus Tapes Roy Wastie Oxford University.

Marc Ross Nick Walker Akira Yamamoto XFEL – based HLRF scheme 07 Sept 2010 BAW 1 - Backup HLRF 1.

ATLAS Upgrade ID Barrel: Services around ‘outer cylinder’ TJF updated According to the drawing ‘Preparation outer cylinder volume reservation’

John Matheson Rutherford Appleton Laboratory On behalf of the SP Community Thanks to Martin Gibson (RAL), Richard Holt (RAL), Dave Lynn (BNL), Peter Phillips.

HEP GROUP MEETING work on the ATLAS UPGRADE T.J.Fraser.

Ron Madaras, LBL U.S. Pixel Meeting, SCIPP, July 9-10, 2003 Patch Panel 1 (PP1) Brief Review Cost and Effort Estimate.

Pippa Wells25 October Procurement and manpower for service installation Services readiness dates Planning for type ii/iii Fibre installation dates.

1 Module and stave interconnect Rev. sept. 29/08.

ALICE DCS Workshop 28/29 May 2001 Vito Manzari, INFN Bari SSD (Silicon Strip Detector) SDD (Silicon Drift Detector) SPD (Silicon Pixel Detector) Detector.

1 Hi-Lumi WP3 meeting Update on the Q1 to D1 cryostat Jan 28, 2014  Outline  Cryostat cross section options  Elliptical interconnect.

L. Greiner 1IPHC meeting – May 7, 2012 STAR HFT Plans for the next year A short report on HFT/PXL plans for post May 2012 TPC – Time Projection Chamber.

V. Cindro, Jožef Stefan Institute, Ljubljana, Slovenia DAQ, DCS, Power Supply and Cables Review CERN, March Electrical PP1 Basic features Electrical.

Power Distribution Peter W Phillips STFC Rutherford Appleton Laboratory ECFA HL-LHC Workshop, Aix-les-Bains, 1-3 October 2013.

1 Serial Powering for Silicon Strip Detectors at SLHC Marc Weber (RAL), Giulio Villani (RAL), M. Lammentausta (Savonia Polytechnic Kuopio) The problem:

ATLAS Tracker Upgrade - Services at Barrel Ends: Scenario where services are routed through existing services channels on cryostat shown on the next 3.

LARP CM15 Magnet Testing Working Group SLAC, November 2 nd 2010.

Power Distribution Existing Systems Power in the trackers Power in the calorimeters Need for changes.

Work Package 3 On-detector Power Management Schemes ESR Michal Bochenek ACEOLE Twelve Month Meeting 1st October 2009 WPL Jan Kaplon.

W. Karpinski, Nov CMS Electronics week CMS Microstrip Tracker grounding & shielding of the CMS Tracker R. Hammarstrom (CERN EP/CMT) & W. Karpinski.

18 July 2006A.Ciocio -SCTSG1 SCT Services Installation ID week full report (July 4) SCT Cables Web page

20 Mar 2007ACES workshop -- Switched Capacitors -- M. Garcia-Sciveres1 Switched Capacitor DC-DC converters Peter Denes, Bob Ely, Maurice Garcia-Sciveres.

Power Working Group Summary Philippe Farthouat Magnus Hansen DC-DC Plug-in Module based on Rad Tol AMIS2 ASIC.

2 Silicon pixel part Done and to be written Written! Under way To be done Introduction 1.Hybrid Pixel Assembly Concept 2.Silicon sensor 1.First thinned.

Paolucci INFN-Napoli Muon Annul Review Cern 15 September 2003 RPC cabling HV & LV cables Signal cables Position and composition of racks in UXC and USC.

D. Nelson October 7, Serial Power Overview Presented by David Nelson

November 04 Jason Tarrant CCLRC1 SCT EC Interconnects l Progress of SCT EC Interconnects »Services (Required for Disc Insertion 2004 / Integration 2005)

5 K Shield Study of STF Cryomodule Norihito Ohuchi, Norio Higashi KEK Xu QingJin IHEP 2008/3/3-61Sendai-GDE-Meeting.

System implementation of a power distribution scheme based on DC-DC converters F.Faccio, G.Blanchot, S.Michelis, C.Fuentes, B.Allongue, S.Orlandi CERN.

Serial Powering System Architecture Peter W Phillips STFC Rutherford Appleton Laboratory On behalf of the SP Community Acknowledgement: many figures prepared.

Compilation of Dis-/Advantages of DC-DC Conversion Schemes Power Task Force Meeting December 16 th, 2008 Katja Klein 1. Physikalisches Institut B RWTH.

1 Monophase Measurements on Prototype Pixel Structures D. Bintinger, M. Gilchriese, J. Taylor and J. Wirth and contributions from D. Cragg, E. Perrin and.

SP & DC-DC Considering the benefits of combining serial powering and DC-DC conversion technologies in powering ATLAS SCT upgrade modules & staves Richard.

TC Straw man for ATLAS ID for SLHC This layout is a result of the discussions in the GENOA ID upgrade workshop. Aim is to evolve this to include list of.

8 June 2006A.Ciocio - SCTSG1 Status of Type IV Cables Cables production –resumed in February after 3 months stop –See ID week February ‘06 Delivery of.

Infrastructure for LHCb Upgrade workshop – MUON detector Infrastructure for LHCB Upgrade workshop: MUON power, electronics Muon upgrade in a nutshell LV.

31 January 2006A.Ciocio - SCTSG1 Type ii-iii and PP1 Production Timescale for installation Plan PP1and Testing.

Rutherford Appleton Laboratory Particle Physics Department 1 Serial Powering Scheme Peter W Phillips STFC Rutherford Appleton Laboratory On behalf of RAL.

EOS and type I Prototype Service Modules Mike Dawson (Oxford), Rob Gabrielczyk (RAL), John Noviss (RAL) 19 th January 2015 ATLAS Upgrade Activities, Oxford.

Preparation for production phase Web – New web with HV pigtail qualified (?) – Installed on 2 views in Technical run Very little effect on noise; detector.

C.BAULT November 9 th  LAYOUT STRAWMAN 07V13 Vs STRAWMAN 07V14  SERVICES AND STRUCTURES INVENTORY  ENVELOPE SERVICES  BARREL SERVICES ROUTING.

Upgrade PO M. Tyndel, MIWG Review plans p1 Nov 1 st, CERN Module integration Review – Decision process  Information will be gathered for each concept.

Comments on Engineering talk by A. Catinaccio at Inner Tracker Engineering Meeting CERN ) Fixed length barrel layout drawing by C. Bault (Strawman.

Steinar Stapnes, LHCC June The ATLAS inner detector TRT endcap A+B TRT endcap C TRT barrel SCT barrel SCT endcap Pixels uWhole ID sits inside bore.

Mauro Citterio Milano, PP2/Services - an update - Mauro Citterio INFN Milano Type II cables  Layout in progress  Duplication of VVDC wires.

ATLAS TRT Duke University CERN, Feb Fuse Box Status Duke University.

EC: 7 DISK concept Preliminary considerations

Each Stage Efficiency = 0.8 Overall Efficiency = 0.64

Update of MVD services and requests

MVD updates SUMMARY OF GSI OCTOBER 28th -29th

Services – First Considerations Sigi Wenig / Nicolas Massol ATLAS Tracker Upgrade Workshop Valencia December 2007 Existing services (in cryostat.

Mechanics: (Tim).

Constructional requirements from ITk-Strips

Compilation of Dis-/Advantages of DC-DC Conversion Schemes

Mechanics of the MVD Daniela Calvo on behalf of the MVD group

Outer Endcap External Bus tape

Aim: How do we explain resistance?

A DLC μRWELL with 2-D Readout

Presentation transcript:

LV-HV cable reuse for the Si Tracker Being worked out with S. Wenig

Cable reuse scenarios  Two possible reuse scenarios: –Scenario 1: Reuse of SCT Type-II/III and Type-IV cables Cut SCT type-II cables in chamfer region –Type-II/III splices not accessible –Chamfer region: next to cryostate bore, intermediate between splices and PP1 –Scenario 2: Reuse of TRT type-III cables Dismount all type-II cables up to PP2 Reuse type-III cables from PP2 to US/USA15

LV cables available  LV cables available: –Scenario 1: Reuse of SCT cables Currently 4088 SCT cables (Type-II/III and Type-IV) installed –2 LV lines (+ returns) per cable, i.e LV lines available »Type-II: (19x) 0.2 mm conductor diameter: mm2 »Type-III: (19x) 0.25 mm conductor diameter: 0.93 mm2 »Type IV: (19x) 0.3 mm conductor diameter: mm2 –Scenario 2: Reuse of TRT cables Currently 1100 TRT Type-III LV cables –Solid copper lines with large cross section (35, 50 mm2) –550 LV lines available (+ returns)

LV cable needs  LV cable needs: –DC-DC powering: 1 power line per stave, ~ 5.3 A for barrel short strips, ~ 1.9 A for barrel long strips End of Stave (EoS) boards included in the power scheme –Serial powering: 1 power line per stave ~ 2.2 A for barrel short strips, ~ 1.5 A for barrel long strips EoS boards not included in the serial power chain  Additional power line ~ 0.8 A, 2.5 V?  Include it in the serial powering chain (step-up charge pumps V at the EoS boards)?

LV: Feasibility of both scenarios  Scenario 1: 8176 LV cables available –Several lines have to be combined to reach a maximum voltage drop of 1 V until chamfer region DC-DC powering: –Type-IV: 3168 lines –Type-II/III: 6912 lines –1264 spare Type-II/III lines Serial powering: –Type-IV: 3168 lines –Type-II/III: 7920 lines »Number could be reduced significantly including EoS in the serial power chain –256 spare Type-II/III lines –Conclusion: there are enough LV lines (Type-II/III and Type-IV) available for both powering schemes (including returns) –Possibility to include EoS boards on SP chain: –Additional 1.2 V step in the chain (low effect on system efficiency, < 1% decrease) –Use of step-up charge pumps in the EoS boards from 1.2 V, ~ 2.14 A to 2.4 V, ~ 0.8 A –Some prototypes of step-up charge pumps designed and fabricated by CERN (Jan Kaplon, Michal Bochenek), with ~ 84% power efficiency

HV Cables Based on Fixed Length Barrel layout Assuming one HV line per module Number of lines (same number needed for returns) Current estimation Sigi Wenig 6

There are 4088 SCT cables (Type-II/III and Type-IV) installed Each cable comprises 1 HV line (and 1 returns), i.e HV lines are available Conclusion: Present SCT cables can make up for only 24% of necessary HV leads (lines+returns) HV leads (lines+returns) to be installed !! Scenario 2 being worked out Match Requirements to Scenario-1 (Re-use SCT Cables) Sigi Wenig 7 S. Wenig, CERN