Progress on the Prototype design Catania Goikoetxea, Mikel Navarro Medrano, Javier Mainz, March 31st, 2011 1.

Slides:

Advertisements

Similar presentations

ATD Assembly. ATD Assembly #1 Dewar Assembly #1 Status: Dewar has been completely assembled and vacuum tested. No vacuum leaks were detected on the outer.

Advertisements

EMB PAR, 23 nov P. Perrodo, LAPP, Annecy1 ATLAS EMB SERIE MODULE CABLING Experience started with three successive prototype modules (module 0) in.

Rosier Ph. – IPNO – Detector Dpt. – 27/05/2011APRIME HPS collaboration meeting 1/24 1- Vacuum chamber proposal 1.1- Stainless steel chamber design and.

16 August 2006 APD module development at IU 1 APD Module IU B. Adams, F. Busch, P. Childress, W. Fox, S. Mufson, J. Urheim, G. Visser with.

V. Carassiti - Princeton (USA) 9-13/01/ BABAR IFR UPGRADE DETECTOR ASSEMBLING AND MOUNTING.

OLYMPUS Collaboration Meeting Luminosity Monitor Symmetric Möller/Bhabha Calorimeter David Rodríguez Piñeiro Mainz University OLYMPUS Collaboration Meeting.

Walls crates cables gas chambers electronics CERN adb.

MM mechanical prototype Work progress at CERN MicroMegas General Meeting, CERN, 5-6 November

Engineering Design Review for TRD-Readout Chamber

CERN PH/DT 12/05/13 Jordan Degrange / Francisco Perez Gomez CERN PH/DT.

CERN PH/DT 30/01/14 Francisco Perez Gomez CERN PH/DT.

Sales Training Outline 2006 Jeff Roye Product Manager DIN Enclosures 35 Royal Road Flemington, NJ

IBL Mock Up IBL Mock Up MANUFACTURING 2011/04/29 François-Xavier NUIRY Maxence CURDY Andrea CATINACCIO CERN PH/DT/PO 1.

A.Levin, IHEP, Protvino, RussiaApril 27, nd PANDA Russia Workshop Status-report on the barrel mechanical design work. A.Levin Institute for High.

Single PET-module Design Update 1 TRIMAGE Meeting Munich, Dec. 12,2014 WP 3 Design and optimization of PET-system Andreas Seebacher, raytest.

SQXF Shell & Yoke Assembly Procedure

AIDA Infrastructure for very forward calorimeters Design proposal Mechanical support structure Designers:In collaboration with: Eric DavidFrancois-Xavier.

1 Coordinate Detector: prototype design The Coordinate Detector (CDET): Three independent vertical planes with 15 cm plastic shield in front, all planes.

1 GLASTGLAST Pisa GLAST Italia meeting, 18/02/02 A.Brez – INFN Pisa GLAST:Gamma Ray Large Area Telescope Ladders, Trays and Towers Construction A.Brez.

Update on alignment kit and stave 250 frame M.Gibson (RAL) 1.

GLAST LAT ProjectDOE/NASA Mechanical Systems Peer Review, March 27, 2003 Document: LAT-PR-0XXXX Section 5.1 Grid Box Design 1 GLAST Large Area Telescope:

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

PWO/APD/CSP Development at Hiroshima U. Hiroshima ALICE-PHOS Group (T.Sugitate, K.Shigaki, et al.) 17 August, 2004, at CERN.

Update on Alignment kit and Stave 250 frame and thoughts for Stave 130 M.Gibson (RAL) 2/5/13 1 Status of the frame for stave 250 Status of infrastructure.

1 1. EMR production status 2. EMR simulations (FEA studies) 3. RAL 1. EMR production status 2. EMR simulations (FEA studies) 3. RAL Teleconf.

GLAST LAT ProjectSLAC, May 14, 2003 A.Brez 1 Honeycomb grounding of the GLAST trays Tray electrical conductivity: Carbon Carbon, carbon fiber and Al core.

Mass production and mechanical structure P. Pakhlov (ITEP)

IPC-2221 Connectors and Interconnects

MFT WG5: ladder disk and global assembly Stéphane BOUVIER & Sébastian HERLANT MFT WG7: Mechanics and Thermal studies Jean-Michel BUHOUR & Emili SCHIBLER.

Proposal for the assembly of the PHOBOS ring counters (H.P. 3/20/98) I would like to propose and discuss with you an alternative layout and assembly procedure.

LEGO Construction Tips.

Coordinate Detector: prototype design General idea about the Coordinate Detector (CDET) so far: Three independent vertical planes with 15 cm plastic shield.

PS Module Ron Lipton, Feb A bit of History During much of the conceptual design phase of the outer tracker we had focused on the “long barrel”

Pixel Atsushi Taketani RIKEN RIKEN Brookhaven Research Center 1.Overview of Pixel subsystem 2.Test beam 3.Each Components 4.Schedule 5.Summary.

Glenn Lopez P0Dule Production Planning. Glenn Lopez Overview Eventually want a detailed procedure for P0Dule production Workspace layout is efficient.

Zaragoza, 5 Julyl Construction of and experience with a 2.4 x 1 m² micromegas chambers Givi Sekhniaidze On behalf of the Micromegas community.

August 04 Jason Tarrant CCLRC1 SCE EC Design & Manufacture l Progress of SCT EC »Support Structure (Required for Disc Assembly 2004) »Services (Required.

D. Greenfield CLRC1 End-cap Mechanics FDR Baseline Design Overview Debbie Greenfield, RAL 1 November 2001.

Front Structure Load and Weld Station

15th January 2014 WP4 Meeting Oxford1 EoS PCB Mike Dawson University of Oxford.

Chamber mechanics Chamber mechanics Production in China Peking University Group – 20 Aug

2010/12/14 Caltech Massimo Benettoni FDIRC FBox (almost) ready for production Box design finalized (as possible) Gives precise Fblock positioning wrt guiding.

EMC BWE Proto18 - Orsay Meeting 1 PANDA EMC BWE Proto18 Mikel Catania Goikoetxea, Javier Navarro Medrano, David Rodríguez Piñeiro, Yue Ma, Frank.

Baby Mind C OIL DESIGN AND ASSEMBLY SCENARIOS Helder Silva Phillipe Benoit Alexey Dudarev Gabriela Rolando Herman ten Kate Etam Messomo Laurent Nicola.

Progress on Stave assembly tooling Stephanie Yang (Oxford) WP4 meeting at Liverpool University, 13 th November 2014.

B [OT - Mechanics & Cooling] Stefan Gruenendahl February 2, 2016 S.Grünendahl, 2016 February 2 Director's Review -- OT: Mechanics &

Baby MIND Scintillator modules 11 November 2015 Revision E. Noah.

Dan Cheng 8/27/2015 MQXFS1 Observations and Feedback from the Assembly Processes, Part II.

Sentek Technologies Joining EnviroSCAN Probes. Probe Components 20-way probe cable connector (special order) Cable spacer (Part No 80015) Probe rods Probe.

Thoughts about PS module assembly Ulrich Heintz, Meenakshi Narain, Bill Patterson, Eric Spencer, Juan Trenado Brown University, Providence 4/16/2015Heintz,

Completed Front and Rear Standard 10 ½” 1 ½” 3 ¼” 4 ½” 1” ¾” 1 ½” 6” ¾” Channel Length: 5 ¼”, ¾” from end.

Development of a low material endplate for LP1 and ILD Dan Peterson, Cornell At previous meetings, , showed the carbon fiber molded.

BM&N STS ladders assembly in VLHEP

The design of a photodetector unit of a new Shashlyk EM

Panda Solenoid Content Interface Box Cold Mass Layout Cooling Lines

Progress with System Integration of the CBM Silicon Tracking Detector

Baby-MIND Modules & Services

Update on Pavia MM mechanical prototype

FRESCA2 Update on the dipole design and new calculations

Integration issues at IHEP

HB RM prototype component status

Step-by-step assembly instructions

iSHELL Design Review Cryostat & Optics Bench

The Quench Detection-Wire-Feedthrough Plug-In of W7-X

KX24/25 SERIES CONNECTORS Product Bulletin

NPS mechanical design 11/13/2018 Jlab meeting

Gattini Detector Installation

NPS mechanical design 01/31/2019 Jlab meeting

BUILDING AN AUTONOMOUS QUADCOPTER.

After service guide for changing PCB

Presentation transcript:

Progress on the Prototype design Catania Goikoetxea, Mikel Navarro Medrano, Javier Mainz, March 31st,

Previous prototype 2 16 Crystals separated in 4 groups, inserted in each of the alveole quarters CF Alveole PWO Crystals Al Insert 2 preamplifiers per Crystal Capsules with 2 APD per Crystal L Frames to support Capsules. Glued to the Crystal Grease between APD and Crystal

Drawbacks APDs Capsules redesign Frames redesign Preamplifiers configuration 3

New design criteria APDs: together and centered? – Test of configuration (together or not together) Preamplifiers configuration: as close as possible due space limitations – Insert thickness 4

Capsules Compactness around APDs: gives more gluing surface between Crystal and Frame. 5 Inserted from sides Gluing surface Active area

Patch Panel Removes wiring between APDs and Preamplifiers. Mounted on Capsules. 2 types of Patch Panels. 6 Assembly 1.Patch panel insertion 2.APD insertion guided by pins 3.Pins welding?

Preamplifiers New stacking method: one opposite to the other. Grouped over a single Tray (16 per Tray).º 7 Connectors for pins Spacers between Preamplifiers and Tray

Preamplifiers Positioning. 8

Frame Group of 4 Crystals/Capsules. Groove for spare glue mm groove New design

Mounting group 10 4 Crystals 1 Frame 4 APD Capsule groups To be assembled in each Alveole quarter hole

Frame - Materials PEEK: expensive? ABS: properties? Aluminium: – Better for thermal behaviour – Electric point of view? – Possible to glue? 11

Alveoles 10 mm of gluing surface. Front covered. Frames separated by middle cross? mm of gluing surface Middle cross Holes for Optic Fibers in the front

Aluminium Insert Thickness of 5-6 mm. 0.1 mm from Alveoles for gluing Possibility of assembly guides Grooves for Trays 13 6 mm thick 5 mm thick

Future tasks Material analysis. Load analysis of Insert and Alveoles. Thermal analysis. – Test different ideas for cooling Vertical and horizontal load analysis. Mounting plates, Supports… Continue with the design Assembly procedure 14

Questions? 15