Results of the 2007 BLM hardware tests in LSS5

Slides:

Advertisements

Similar presentations

LHC Commissioning WG 27/03/ Commissioning of BLM system L. Ponce With the contribution of B. Dehning, E.B. Holzer, M. Sapinski, C. Zamantzas and.

Advertisements

F.Brinker, DESY, July 17 st 2008 Injection to Doris and Petra Fitting the detector in the IP-region Radiation issues Beam optic, Target cell Polarisation.

LECC 2006 Ewald Effinger AB-BI-BL The LHC beam loss monitoring system’s data acquisition card Ewald Effinger AB-BI-BL.

Eva Barbara Holzer IEEE NSS, Puerto Rico October 26, Beam Loss Monitoring System of the LHC Eva Barbara Holzer, CERN for the LHC BLM team IEEE Nuclear.

LHC ARC Commissioning report during LS1 Agenda: VRGPE documentation (former VRJGE) Active Penning modification By-Pass Valves modification LHC ARC commissioning.

V.Grishin, A.Koshelev, A.Larionov A.Pushkarev, V.Seleznev, M.Sleptsov A.Sytin.

Status of halo excitation studies at CERN R. Bruce, D. Banfi, M. Buzio, J. Barranco, O. Bruning, X. Buffat, R. Chritin, R. de Maria, M. Fitterer, M. Giovannozzi,

Status of FLUKA Simulations for Collimation BLM Thresholds 6 th BLM Threshold Working Group 10/02/2015 E.Skordis On behalf of the FLUKA team Sixtrack input.

#1 Energy matching It is observed that the orbit of an injected proton beam is horizontally displaced towards the outside of the ring, by about  x~1 mm.

Laboratory 10: Electronic Filters. Overview  Objectives  Background  Materials  Procedure  Report / Presentation  Closing.

BLM AUDIT 2010Ewald Effinger BE-BI-BL BLM tunnel installation and data acquisition card (BLECF) Ewald Effinger AB-BI-BL.

M.Gasior, CERN-BE-BI8th DITANET Topical Workshop on Beam Position Monitors, January 2012, CERN 1 BPM Signal Processing with Diode Detectors Marek.

Collimator BPM electronics – Results from the lab, SPS and LHC

Results of microphone tests in HiRadMat Collimation WG Meeting Daniel Deboy on behalf of the Collimation team, thanks to A. Masi, J. Lendaro,

FFAG Studies at RAL G H Rees. FFAG Designs at RAL Hz, 4 MW, 3-10 GeV, Proton Driver (NFFAGI) Hz,1 MW, GeV, ISIS Upgrade (NFFAG) 3.

IEEE NSS 2007 D.Kramer 1 Very High Radiation Detector for the LHC BLM System based on Secondary Electron Emission Daniel Kramer, Eva Barbara.

Simulation comparisons to BLM data E.Skordis On behalf of the FLUKA team Tracking for Collimation Workshop 30/10/2015 E. Skordis1.

Chamonix 2006, B.Dehning 1 Commissioning of Beam Loss Monitors B. Dehning CERN AB/BDI.

Secondary Emission Monitor for very high radiation areas of LHC Daniel Kramer for the BLM team.

The Introduction to CSNS Accelerators Oct. 5, 2010 Sheng Wang AP group, Accelerator Centre,IHEP, CAS.

PPAC in ZDC for Trigger and Luminosity Edwin Norbeck University of Iowa Luminosity Workshop November 5, 2004.

Beam Loss Monitor Yoshinori Sato (KEK, IPNS) Target & Monitor Sub-Group.

M.Gasior, CERN-BE-BILHC Optics Measurement and Corrections Review, June Diode ORbit and OScillation (DOROS) System Marek GASIOR Beam Instrumentation.

D.Macina TS/LEATOTEM Meeting25/02/2004 Roman Pot test at the SPS Test of the Roman Pot prototype in the SPS proposed in December 2003 (CERN/LHCC ):

NMLTA Protection System Update -Loss Monitors- Arden Warner September 2 nd, 2009.

A Survey of TBT Capabilities of the Upgraded TeV BPMs Rob Kutschke, CD/EXP Tevatron Department Meeting February 18, 2005 Beams-doc-1583-v2.

A Survey of the Capabilities of the Upgraded TeV BPMs Rob Kutschke, CD/EXP Run II Meeting March 24, 2005 Beams-doc-1752-v2.

Use of a Diamond BLM System in the LHC Ring

LHC Wire Scanner Calibration

TCT BLM response from tertiary halo at 6.5 TeV

2007 IEEE Nuclear Science Symposium (NSS)

BEAM LOSS MONITORING SYSTEM

Tracking simulations of protons quench test

SPS dose forecast for foreseen safety installations

Use of a Diamond BLM System in the LHC Ring

dBLM Hardware and Signal

Injection region BLMs – ECR

Beam Loss Monitors and Ion Chambers for protecting Hall Equipment Tommy Michaelides (SSG) Stay Treat 2016.

Saturday 21st April 00:33 Interlock during ramp on BLM HV

Fast losses at collimators during 16L2 dumps

Beam dump on LHC beams dumped on 08:20:04 by SIS, following a failing BLM HV check in IR7.

LHC BLM system: system overview

Disabling Rules.

BEAM LOSS MONITORING SYSTEM

External Review on LHC Machine Protection, B.Dehning

Secondary Emission Monitor for very high radiation areas of LHC

Thursday morning – optics correction

Tuesday 22nd January - morning

Interpretation and use of BLM Data

Beam loss monitoring requirements and system description

Use of Beam Loss Monitor type detectors in CNGS muon station

Direct Dump Tests Modify

LHC Injection and Dump Protection

J. Emery, B. Dehning, E. Effinger, G. Ferioli, C

Agenda 9:00-10:00 Beam Interlock System Changes Following the 2006 Audit Benjamin Todd 10:00-11:00 Beam Dump System follow-up from the 2008 Audit Jan Uythoven.

BLM changes HV software interlock (SIS)

Sensitivity tests of BLM_S chamber in PSB dump

Commissioning of BLM system

External Review of LHC Collimation Project Oliver Aberle 1th July 2004

SEM Calibration in H6 Beam Line, 20cm Cupper Target

450 GeV Initial Commissioning with Pilot Beam - Beam Instrumentation

Why do BLMs need to know the Quench Levels?

Wednesday 10:00 test of the un-squeeze to 90 m at 4 TeV.

Warm Magnet Thresholds

Placement of the LHC BLMIs around TI8 TED (Q9)

Tunnel hardware installation

Fri :52 Stable beams fill #2536

Powering scheme for Hollow Electron Lens

Daniel, Gianluca and Belen (for the Collimator team)

Presentation transcript:

Results of the 2007 BLM hardware tests in LSS5 ..And a coast MD request for the 2008 Daniel Kramer for the BLM team

Standard BLMI ARC installation HV Power Supply HV ground cut here BLMI Small low pass filter in the CFC input stage CFC is always close to the quadrupole Up to 8 BLMs connected in parallel 18.2.2008 Collimation WG D.Kramer

BLMI installation for collimation areas 6 HV capacitors in parallel HV capacitor removed 8 chambers in 1 NG18 cable (up to 700m) 150k for current limitation 280pF = chamber’s capacity 18.2.2008 Collimation WG D.Kramer

SPS LSS5 Installation – System A AIM: study space charge effects with large doses Compare directly BLMI with SEM large capacitor directly on the HV side Cf capacitor directly on the signal side 150kOhm after Cf -> large time constant 18.2.2008 Collimation WG D.Kramer

SPS LSS5 Installation – System B AIM: study cable crosstalks with different filters verify the peak current limitation by the 150k resistor Cf capacitor directly on the signal side 150kOhm on HV side -> current limitation 18.2.2008 Collimation WG D.Kramer

BLM installation in LSS5 of SPS System A System B 18.2.2008 Collimation WG D.Kramer

Beam dump on Closed Jaws SEM to BLMI comparison 1.3 1013p+ Black line – signal not clipped 5*τ_filter = 350ms 18.2.2008 Collimation WG D.Kramer

BLMI Space charge effect estimation (“signal saturation”) 18.2.2008 Collimation WG D.Kramer

BLMI Space charge effect estimation (“signal saturation”) SEM expected to be “saturation free” BLMI’s expected deposited dose to be scaled by SEM/BLMI ratio from FLUKA (50% errorbarx) 18.2.2008 Collimation WG D.Kramer

150kOhm resistor limitation (between HV capacitor & IC) Limits the peak current on the chamber input to 1500 / 150k = 10mA Fast loss has only the Chamber charge available 280pF * 1500V = 0.4 uC Corresponds to ~ 7 mGy total loss Corresponds to ~ 180 Gy/s (PM limit = 22 Gy/s..) Slows down the signal collection DC current limited to 1500 / 1M = 1.5 mA Corresponds to ~ 26 Gy/s (total in max 8 chambers) 18.2.2008 Collimation WG D.Kramer

Cable crosstalks study System A Ch 8 unconnected Ch 2 saturated Xtalk should be proportional to the signal derivation Signal peak ratio 4.3e-3 (47dB) Integral ratio 1.4e-4 (77dB) 18.2.2008 Collimation WG D.Kramer

Cable crosstalks study System B Ch 6..8 unconnected Xtalk clearly depends on the derivation Signal peak ratio 5e-2 (26dB) (worst case) Integral ratio 4.4e-3 (47dB) No fundamental difference between A and B 18.2.2008 Collimation WG D.Kramer

Resulting actions for the LHC installation HV cables separated between SEM and BLMI Signal cables (NG18) not shared by SEM and BLMI CFC cards not shared either For collimation areas capacitors removed from the chambers 150kOhm resistance to limit the i/o BLMI current 18.2.2008 Collimation WG D.Kramer

System A 1.3e13 p+ dumped on collimator, Left Jaw at -5 mm, Right Jaw out 18.2.2008 Collimation WG D.Kramer

System A 1.3e13 p+ injection plateau, Left Jaw at 10mm, Right Jaw out, Dump @ 1.2s 18.2.2008 Collimation WG D.Kramer

FFT of the previous plot (red channel from 200 to 1200ms) Different scales presented The 3-phase power supply lines similar to the coasting case. 600Hz should be caused by the 12-pole converter of the rectifier

Jaw not closed: comparison of system A and B Sys A Sys B 18.2.2008 Collimation WG D.Kramer

MD request for 2008 2007 halo oscillations estimated to ~1.8 um Aim is to verify the beam halo position oscillations by using both horizontal jaws (LHC collimator) By using vertical jaws of the SPS collimator Is the beam center moving? (fast BPMs) Need coasting beam 270 GeV Up to 12 bunches LHC Collimator control SPS Collimator control 2006 data CWG 19/3/07 18.2.2008 Collimation WG D.Kramer

W37 Coasting beam 270GeV 200um Left jaw move, no signal filters 18.2.2008 Collimation WG D.Kramer

W37 Coasting beam 270GeV 200um Left jaw move, no signal filters 18.2.2008 Collimation WG D.Kramer

thanks

Spare plots 1 Tune calculation from the BLM measurement

Spare plots 2 H4 Calibration of the SEM (to be presented later)

Spare plots 3 SEM assembly