LST Mechanical Design Review Utility Routing, Cableways & Crate Locations Peter Kim October 21, 2003.

Slides:

Advertisements

Similar presentations

FGT installation disks … viewed from the back (From West end looking in towards vertex). SSD cables go in the spaces above and below the rails on the left.

Advertisements

Cabling system components

Network Design Issues Design and Documentation Prepared by: Aline L. Mendoza.

B.Satyanarayana, TIFR, Mumbai INO Collaboration. B.Satyanarayana BARC-TIFR INO meeting, TIFR, Mumbai November 9,

F. Formenti - ALICE forum 16/03/ Contacted some teams for system GND discussions: cases analyzed are presented here Planned to continue with others.

TPC Proposal for the 35 Ton Liquid Argon Test Abstract We propose to equip the 35 ton cryostat with one APA and two CPA’s, and all the necessary equipment.

M.PEGORARO Grounding Workshop 24th Jan 08 DT GROUNDING & SHIELDING Presented by A. BENVENUTI.

IFR-LST status report G. Cibinetto INFN Ferrara Babar Collaboration Meeting, Feb. 21, 2004 Milestones LST production status 1 st module assembled Princeton.

1Daya Bay RPC HV FDR 6/17/2008 RPC HV cable pick-up noise issue C. Lu, Princeton University (6/17/2008)

RACKS AND CABLES Peter Kim SLAC LST Install Readiness Review May 5, 2004.

July 10, 2008 PHENIX RPC review C.Y. Chi 1 RPC Front End Electronics On chamber discriminator  The strips  The CMS discriminator chips  The discriminator.

RPC Electronics Overall system diagram –At detector –Inside racks Current status –Discriminator board –TDC board –Remaining task.

C. Lu, RPC System Installation Workshop, 6/11/2009, CUHK 1 1 RPC gas system installation (step by step plan) (CUHK, 6/11/2009) Changguo Lu, Kirk McDonald.

BaBar: The Detector Richard F Boyce 21 October 2003.

LarTPC Electronics Meeting Current Work at MSU Fermilab Dan Edmunds 23-February-2010.

Daya Bay Muon Subsystem Review, 7/28-29/2007, IHEP, Beijing Daya Bay RPC Gas System: Design Report & Budget Estimate Changguo Lu, Kirk McDonald Princeton.

1 Daya Bay Muon system Installation Workshop, Daya Bay, March 22, Daya Bay RPC Gas System Installation Plan Changguo Lu Princeton University.

RPC system cable routing Yang Changgen, Guan Mengyun IHEP, Beijing.

BaBar/LST Meeting Dec 8, 2003K. Honscheid, Ohio State University Module Assembly Quality Control High Voltage Ohio State Status Report.

FT Integration Raffaella De Vita INFN – Genova Jefferson Lab 10/15/2013.

Performance of the DZero Layer 0 Detector Marvin Johnson For the DZero Silicon Group.

Experimental Area Meeting V. Bobillier1 Good connection to earth (in many points) of every metallic parts to be installed in the cavern is very.

ZTF Interconnecting Scheme Stephen Kaye

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

ILC / ILD TPC Requirements of the support mechanics Volker Prahl ILD Workshop 2013 Cracow

FEE LVPS 1. INTRODUCTION This section describes the Low Voltage Power Supplies (LVPS) for the TPC FEEs and RDOs. Plans currently call for all of the old.

1 5 December 2012 Laurent Roy Infrastructure / Electronics Upgrade -Cabling (long distance) -Rack and Crate (space, electrical distribution, cooling) -Detector.

Gif++ CR tracker setup G. Aielli for the RPC collaboration.

CMS Muon Chambers Long term studies at GIF++ Andrey Marinov On Behalf of Long Term Studies of the CMS Muon Detectors 1.

Figure 1: ICD Single Channel Block Diagram Schematic PMT High Voltage Supply (see Figure 4 & 4a) LED Pulser PMT Calibration (see Figure 6) ICD Scintillator.

RPC (Barrel) Cabling summary. Signal cable specifications Signal Cables (two possibilities): –Loose pair round and twisted pairs (with flat zone for crimping.

The LST High Voltage System LST Readiness Review May 5, 2004 Klaus Honscheid Ohio State University.

Update on the HBD Craig Woody BNL DC Meeting June 8, 2005.

LST Upgrade LST Upgrade Readiness Review William Sands, Princeton University,

11 SSD Power and Cooling on the Cone STAR Integration Workshop Howard Matis May 16, 2008 STAR Integration Workshop Howard Matis May 16, 2008.

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

Progress Completed Order/Fabricate SS Piping for HBD Purge gas from all detectors DAQ tests Prep. for Shutdown work (open doors, move carriages, etc. Pave.

BKLM RPC Signal & Ground Schematic Gerard Visser, Indiana University (for the barrel KLM team) 10th B2GM, 11/2011 magnet structure GND 7mm FOAM 3mm GLASS.

Grounding Guidelines Developed for LBNE

Test Tube Activities at Ohio State (8/5/03) Two (very useful) sub-group meetings after last weekly meeting –Mechanics (Bill, Lu, Mark, Jim, Charlie, Klaus)

1 VELO integration INTEGRATION, december 05 OUTLOOK : - PARTS - 3D MODEL - LV & HV CABINETS INTEGRATION - LV CABLING - RPT CABLING.

C. Lu, K.T. McDonald RPC Connections October 27, RPC Module Signal and HV Connections (October 27, 2008) Changguo Lu, Kirk T. McDonald Princeton.

Proposal for LST-based IFR barrel upgrade Roberto Calabrese Ferrara University Workshop on IFR replacement, SLAC, 11/14/2002.

9/18/2003Safety Review Electronics Electronics design LV, HV power supply Fusing Heat.

8/31/05DR Lynch1 HBD Preparations in the IR Don Lynch.

PHENIX Safety Review Overview of the PHENIX Hadron Blind Detector Craig Woody BNL September 15, 2005.

LSTs in the IFR gaps Workshop on IFR replacement SLAC November 14, 2002 L. Piemontese INFN Ferrara.

SVD Cables & Pipes Markus Friedl (HEPHY Vienna) B2GM, 24 July 2012.

Comments on Services Elba Comments on Services & … Bill Wisniewski SLAC.

Belle-II bKLM RPC Readout Power & Ground Discussion 12 th Belle II General Meeting Gerard Visser Indiana University CEEM 7/24/2012.

Test Tube Activities at Ohio State (7/29/03) Amphenol/Spectra Strip will send two 10 m long samples of signal cable –With a (round) jacket, shielding –20.

Preliminary thoughts on SVT services

- STT LAYOUT - SECTOR F SECTOR A SECTOR B SECTOR E SECTOR D SECTOR C

cooling and supports of the forward endcap EMC

HF “Slice test box” fabrication and installation

Requirements of the support mechanics

IFR detector mechanics

First of all we will remind some numbers:

BaBar IFR Upgrade Mark Convery SLAC 7 Jun 06.

LST Module Installation

RPC and LST at High Luminosity

Overview of T1 detector T1 is composed by 2 arms

RPC Front End Electronics

SuperB Integration Summary of previous integration sessions.

Inner DET. Integration Inner detector envelope Radial clearances.

RPC Electronics Overall system diagram Current status At detector

Limited Streamer Tube Project Summary

TOF & BB FEE Safety Review

SuperB Integration Summary of the Integration Status

BaBar LST Upgrade Richard F Boyce

Presentation transcript:

LST Mechanical Design Review Utility Routing, Cableways & Crate Locations Peter Kim October 21, 2003

P.Kim2 OVERVIEW SPACE ISSUES –Where Do All the Cables Go? –Cable Routing inside the Sextant –Cable Routing Around the Detector –Cable Routing to Outside Shielding Wall WITHOUT DISTURBING OTHER COMPONENTS Some RPC Infrastructure Remains –Top/Bottom Sextants installed in 2004, Side Sextants in 2005 –Cylindrical RPC & ENDCAP RPC Operational after 2005

October 21, 2003P.Kim3 Current IFR/RPC System High Voltage –CAEN HV Supply in Elec. Hut outside the Shielding Wall –HV Distribution Boxes positioned around BABAR Detector –8 kV HV Cables to RPC Modules behind the Corner Plates Gas System –Gas Manifold/Bubblers/Flowmeters in Racks above BABAR –Teflon/Polyflo Tubes feed RPC Modules behind the Corner Plates Signal Readout –Preamps on RPC Modules –Twisted Pair Flat Ribbon Cable carries Signal to FEC in Racks around BABAR Detector; Processed Signals go to DAQ via Optical Fibers

October 21, 2003P.Kim4 RPC HV Cable Routing Gas Supply HV Cables Drawing from R. Principe Shielding Wall

October 21, 2003P.Kim5 BABAR CABLE TRAYS LST will use North Tray TRAYS are Busy, but Space available for LST HV/Gas Lines

October 21, 2003P.Kim6 RPC Gas Tubes TEFLON Gas Supply Tubes TEFLON / POLYFLO Connections Backward Side Front Side TEFLON POLYFLO

October 21, 2003P.Kim7 A Sextant full of RPC From R. Boyces Talk this Morning

October 21, 2003P.Kim8 LST High Voltage System HV Distribution (Baseline Design) –HV Supply located above Electronic Hut outside Shielding Wall –One HV Cable (10-wire or 20-wire Kerpen) for each LST Module –Total of 564 Cables (94 Cables in each Sextant) –No Distribution Boxes near BABAR: Long Cables (25-40 m) from HV Supply to LST Modules Cable Trays & Cableways –HV Cables need to be Separated from Other Supply Lines –New Cable Tray under the Shielding Wall –New Cableways to run HV Cables Around BABAR Detector Inside Each Sextant –Top/Bottom Sextants: Use Open Space Either Side of CENTER PLATE –Side Sextants: Use existing RPC Signal Cable Box in the Middle

October 21, 2003P.Kim9 High Voltage Supply BABAR Detector Electronic Hut RPC HV Supply LST HV Supply

October 21, 2003P.Kim10 BABAR Viewed From South Center Plate Corner Plate Side Plate Removed

October 21, 2003P.Kim11 Closeup View of Side Sextant Side Plate Goes Back in Here

October 21, 2003P.Kim12 Open Box Signal Readout Cable Box (2 Wide, 5 Deep) Signal Readout Cable Box (2 Wide, 5 Deep) Space Available for LST HV/Gas Lines (6 Wide, 5 Deep)

October 21, 2003P.Kim13 High Voltage Cable KERPEN 6 kV HV Cable Zero Halogen, Frame Retardant Polymer Sheath Diameter: 9.1 mm for 10-conductors 10.7 mm for 20-conductors Minimum Bending Radius = 6 x Diameter Tinned copper, Flexible stranded Conductors (0.16 mm diameter)

October 21, 2003P.Kim14 LST Gas System Gas Distribution –Reuse Rack space on Top of BABAR, currently occupied by RPC Crates –New Gas Manifolds, but Reuse RPC Bubblers/Flow meters –LST Gas is NON-FLAMMABLE Reuse RPC Teflon Tubes –Need to install 60 more lines (228 for RPC; 288 for LST) –RPC Tubes going to the Front Side need to be Rerouted (LST Gas Tubes go to Backward Side only) Polyflo Tubing –Teflon/Polyflo Connections –Two Bundles of 24 Polyflo Cables (Input/Output Lines) enter Sextants in the Middle

October 21, 2003P.Kim15 HV-GAS Supply for LST

October 21, 2003P.Kim16 LST Electronics Readout BASELINE DESIGN –Z-Strip Signal Read out from the Back Side 1152 Channels per Sextant –Phi Signal Read out from the Front Side 758 Channels per Sextant –AMPHENOL Twisted/Flat Readout Cable –Preamps on FEC, Not on the LST Module –7 Crates for Z Signals and 6 Crates for Phi Signals –Output Digital Signal to DAQ via Optical Fibers CRATE Features – VME Standard 6U High (26.5 cm); 55 cm Wide, 55 cm Deep –7 Crates for Z Signals and 6 Crates for Phi Signals –All Input/Output Cables are Connected from the Front

October 21, 2003P.Kim17 Amphenol Readout Cable MicroribbonTwitst/Flat Cable 17 Twisted Pairs Shielded & Jacketed Diameter at Round Section: 0.75 cm 48 Phi Cables / Sextant 72 Z Cables / Sextant Enough Room in Two 5 cm x 12 cm Cable Boxes / Sextant

October 21, 2003P.Kim18 Examples of Conduits for Phi Signal Readout

October 21, 2003P.Kim19 Rack Locations Keep the Racks Close to LST Modules –Deterioration of Raw Signal over Distance –Higher Background Noise Pick Up over Distance Space Considerations –Allow Access to Other Parts of BABAR Detector, Endcap Doors, Earthquake Braces, etc. –Cooling Fans / Air Circulation –Removal and Insertion of FEC Cards

October 21, 2003P.Kim20 Electronic Rack Locations on the Forward Side Drawing from R. Principe

October 21, 2003P.Kim21 Electronic Rack Locations on the Backward Side

October 21, 2003P.Kim22 Space Check with Mockup Crates

October 21, 2003P.Kim23 Installation Schedule Racks & Fixtures Design, Fabraication, and Installation before July Shutdown New Cable Trays and Conduits installed while RPCs are being removed GAS Tubes and HV Cables will be laid down One Layer at a time, following LST module install schedule

October 21, 2003P.Kim24 SUMMARY NO SPACE PROBLEM EXPECTED UNDER BASELINE DESIGN LOTS OF WORK TO DO, BUT WILL BE ABLE TO MEET IFR INSTALL SCHEDULE FOR 2004/2005