Performance Tests and Control for the TRD-HV A. Markouizos, A. Petridis, S. Potirakis, M. Tsilis, M. Vassiliou Athens University ALICE DCS Workshop CERN.

Slides:



Advertisements
Similar presentations
ALICE DCS, Heidelberg 8 Sept G. De Cataldo, CERN CH and INFN Bari;A. Franco INFN Bari 1 Updating on the HV control systems in ALICE The DELPHI HV,
Advertisements

S.PopescuAlice DCS workshop, Colmar, OPCs latest news Iseg OPC server Wiener OPC server.
Peter Chochula CERN-ALICE ALICE DCS Workshop, CERN September 16, 2002 DCS – Frontend Monitoring and Control.
ALICE DCS Workshop - 15/3/2004 G. De Cataldo, A.Franco, A.Tauro - INFN Bari - 1 The SY1527 replay delay via the OPC and the ‘SY driver’ (By HMPID) The.
March 16, 2004Alice controls workshop, S.Popescu Low Voltage and High Voltage OPC status and plans.
TPC DETECTOR SEGMENTATION OF THE READOUT PLANE LATERAL VIEW OF THE TPC
André Augustinus 16 June 2003 DCS Workshop Safety.
Peter Chochula CERN-ALICE ALICE DCS Workshop, CERN September 16, 2002 DCS – Frontend Monitoring and Control.
Il sistema di HV del sottorivelatore DT S. Braibant, P. Giacomelli, M. Giunta, E. Borsato Bologna, 20/01/2007.
HV Report F.Cavallari (INFN Roma). High Voltage set-up in M0’ 2 channels each driving 50 crystals (100 APDs) 1 Crate hosting 1 board (final system). 1.
4 key operations UP/ DOWN 、 Esc and Enter Only 3 keys are needed for the rator to adjust all the parameters Simple Esc key Chips Programmable Intelsteer.
Peter Chochula, January 31, 2006  Motivation for this meeting: Get together experts from different fields See what do we know See what is missing See.
HV for SM surface testing 2 nd Workshop on the Detector Control System for TRD University of Tsukuba Kengo Watanabe.
The ALICE TRD - HVDistribution System A. Markouizos, P. Mantzaridis, P. Mitseas, A. Petridis, S. Potirakis, M. Tsilis, M. Vassiliou Athens University ALICE.
1 Integration of the HV Distribution System to the First TRD Super Module P. Mantzaridis, A. Markouizos, P. Mitseas, A. Petridis, S. Potirakis, M. Tsilis,
Jianchun Wang Syracuse University 10/16/99 CLEO Meeting Outline DAQ problems solved Recent results Status of DAQ Work to be done.
1 CALO DCS power supply status CALO meeting Anatoli Konoplyannikov [ITEP / LAPP] Outline  Introduction  Power supply description with hardware.
Yu. Guz 2015/04/211 CALO HV Updated version of the 2012 slides, ** See also Anatoli’s.
Design of Cooperative Vehicle Safety Systems Based on Tight Coupling of Communication, Computing and Physical Vehicle Dynamics Yaser P. Fallah, ChingLing.
1 ECS CALO HV Control CALO Piquet Training Session Anatoli Konoplyannikov /ITEP/ Outline  ECS HV control of the ECAL and HCAL.  ECS HV control.
PP2 Status F. Bellina. Problem solved.. Problem with inhibit and reading temperature and many crazy behavior Solved with a new FPGA firmware: the hardware.
09/12/2009ALICE TOF General meeting 1 Online Controls Andrea Alici INFN and Universtity of Bologna, Bologna, Italy ALICE TOF General Meeting CERN building.
3 June 2003U. Frankenfeld1 TPC Detector Control System Status.
LHC Gas Control System Stefan Haider EP-TA1-GS ALICE DCS workshop, S.Haider2 Outline Introduction and working philosophyIntroduction and working.
Normal text - click to edit RCU – DCS system in ALICE RCU design, prototyping and test results (TPC & PHOS) Johan Alme.
MDT PS DCS for ATLAS Eleni Mountricha
DCS workshop CERN, Mar 5, 2007 Kai Schweda 1 TRD Status Kai Schweda, University of Heidelberg B. Doenigus, J. de Cuveland, T. Dietel, D. Emschermann, M.
LHC ARC Commissioning report during LS1 Agenda: VRGPE documentation (former VRJGE) Active Penning modification By-Pass Valves modification LHC ARC commissioning.
Development and Performance of the High Voltage Distribution System for the ALICE TRD A. Markouizos, P. Mantzaridis, P. Mitseas, A. Petridis, S. Potirakis,
S.Sergeev (JINR). Tracker consists of  4 chambers of 4 views each In total ~7200 drift tubes (~450 per view) To be controlled/monitored  HV system.
LKr Calorimeter Control and monitoring R. Fantechi 19/02/2010 R. Fantechi.
XXVI Workshop on Recent Developments in High Energy Physics and Cosmology Theodoros Argyropoulos NTUA DCS group Ancient Olympia 2008 ATLAS Cathode Strip.
1 Low Voltage Power Supply Specification DCS Workshop 8 Sept 03 L.Jirden.
ATLAS MDT Power Supply DCS Anastasios Iliopoulos 15/08/2006.
André Augustinus 10 September 2001 DCS Architecture Issues Food for thoughts and discussion.
Thomas Jefferson National Accelerator Facility Page 1 Hall B Drift Chambers Review, March 2007 George Jacobs Jefferson Lab Hall B 12 GeV Upgrade Drift.
P. Chochula ALICE Week Colmar, June 21, 2004 Status of FED developments.
1 ECS CALO HV Control CALO Piquet Training Session Anatoli Konoplyannikov /ITEP/ Outline  ECS HV control of the ECAL/HCAL sub-detectors.  Introduction.
Adapting Muon Endcap UF/PNPI HV system for GEM V. Barashko, A. Korytov, A. Madorsky, G. Mitselmakher University of Florida/Physics N. Bondar, V. Golovtsov,
A. Ranieri / RPC-CMS Pre-loaded profile Synchronization & Control Board (SCB) The RPC electronics will consist of the FE board plus the Synchronization.
L0 DAQ S.Brisbane. ECS DAQ Basics The ECS is the top level under which sits the DCS and DAQ DCS must be in READY state before trying to use the DAQ system.
I. Vankov, NEC’2003, September ‘03, Varna HV PS System NEC’2003, September 03, VARNA CMS HCAL High Voltage Power Supply System Dimitrov L.(*), Kunov B.(*),
André Augustinus 16 June 2003 DCS Workshop General Purpose Monitor.
CERN Single Phase Prototype Initial Discussion on Power/Space Requirements Terri Shaw Neutrino Platform July 30, 2015.
Alice DCS workshop S.Popescu ISEG Crate controller + HV modules ISEG HV modules 12 Can bus PVSS OPC Client 1 Generic OPC Client Iseg OPC.
ELENA Fast Deflectors Generators N.Voumard, T. Gharsa.
DT Shifter Training Infrastructure A. Benvenuti, M.Giunta 07/07/2010.
1 Calorimeters LED control LHCb CALO meeting Anatoli Konoplyannikov /ITEP/ Status of the calorimeters LV power supply and ECS control Status of.
Dcs meeting, CERN, Mar 13  14, HV Control box HV Box from Athens Kai Schweda, University of Heidelberg P. Mantzaridis, A. Markouizos, P. Mitseas,
5th March 0718th DCS Workshop1 News on ISEG & WIENER Lionel Wallet, CERN High Voltage, Low Voltage & VME Crate control.
DCS for TRD Pre-trigger Ken Oyama Jan. 22, 2007 DCS Workshop in Heidelberg.
Distributed Low Voltage Power Supply System for Front End Electronics of the TRT Detector in ATLAS Experiment E.Banaś a, P.Farthouat b, Z.Hajduk a, B.Kisielewski.
Status of Integration of Busy Box and D-RORC Csaba Soós ALICE week 3 July 2007.
1 ECS CALO HV Control CALO Piquet Training Session Anatoli Konoplyannikov /ITEP/ Outline  ECS HV control of the ECAL/HCAL sub-detectors.  Introduction.
ATLAS DCS ELMB PRR, March 4th 2002, H.J.Burckhart1 Embedded Local Monitor Board ELMB  Context  Aim  Requirements  Add-ons  Our aims of PRR.
CSC Detector Control System of Silicon Drift Detector in ALICE Jiří Král Czech Technical University.
S.Sergeev (JINR). Tracker consists of  4 stations of 4 views (planes) each In total ~7200 drift tubes (~450 per view) To be controlled/monitored 
19/10/11FV 1 Behavior of generic HV channel. Mail’s survey: appeal for general policy VF2 19/10/11 Patrizia: “Based on the running experience of NA48,
Helen Heath, Magnus Loutit.  Useful meetings at CERN before Easter ◦ ML and HH met with John Fullerton from BE for practical advice on the CEDAR motor.
T0 DCS Status DCS Workshop March 2006 T.Karavicheva on behalf of T0 team.
EE EDR Workshop CERN March 2002 R M Brown - RAL 1 The VPT HV System lOverview of the architecture lThe HV filter card lRadiation tolerance lPower supply.
DCS meeting - CERN June 17, 2002V.Kouchpil SDD DCS status Low Voltage system End-ladder ASIC High Voltage system Cooling system Schedule.
HCAL1 Status 2004 Oleg Gavrishchuk, JINR, Dubna 1. HCAL1 performance in 2004 General design High Voltage system LED monitoring 2. Stability in 2003 Led.
Yu. Guz 14/03/20121 CALO HV ** See also Anatoli’s slides for the 2009 piquet training **
1 Top Level of CSC DCS UI 2nd PRIORITY ERRORS 3rd PRIORITY ERRORS LV Primary - MaratonsHV Primary 1 st PRIORITY ERRORS CSC_COOLING CSC_GAS CSC – Any Single.
Faculty of Physics, University of Belgrade Collaboration meeting, Budapest 15 th of May, ToF-L/R detector HV upgrade Jovan Puzović, Faculty of Physics,
ATLAS MDT HV – LV Detector Control System (DCS)
Pierluigi Paolucci & Giovanni Polese
Pierluigi Paolucci & Giovanni Polese
Pierluigi Paolucci & Giovanni Polese
Presentation transcript:

Performance Tests and Control for the TRD-HV A. Markouizos, A. Petridis, S. Potirakis, M. Tsilis, M. Vassiliou Athens University ALICE DCS Workshop CERN March 2006

Requirements of the TRD-HVDS A Master/Slave HV distribution system will deliver the required voltages to the TRD readout chambers: Drift HV: 540 ch. ~ -2.5 kV 170μA/ch (max) ΔI ~ 40nA/ch Anode HV: 540 ch. ~ +1.7 kV 7 μΑ/ch (max) ΔI ~ 2nA/ch

Stability test in the Lab with resistor loads 36 hours of operation for 6 channels

dN/dV distributions for the last 4 hours after 72 hours of operation

Perfomance test in Heildeberg HV card connected with TRD stack (18 hours of operation) Voltage in ADC units vs Time Reference channel with 500Mohm

Embedded Software Status: Main Structure of Software is completed Improvements Optimize the performance Decrease the response time Increase Accuracy Ensure Stability

Module 2Module 1 Crate 4 Module 0 Crate 5 Module 2Module 1Module 0 Crate 3 Module 2Module 1Module 0 Crate 2 Module 2Module 1Module 0 Crate 1 Module 2Module 1Module 0 Module 2Module 1Module 0 Crate 0 Rack 0 Module 2Module 1 Crate 4 Module 0 Crate 5 Module 2Module 1Module 0 Crate 3 Module 2Module 1Module 0 Crate 2 Module 2Module 1Module 0 Crate 1 Module 2Module 1Module 0 Module 2Module 1Module 0 Crate 0 Rack 1 Module 2Module 1Module 0 Crate 0 Concept of connecting the High Voltage Distribution System to DCS-Bord Layout of a Rack: Layout of a Crate: Layout of a Module: Card 4 Channel 5Channel 4Channel 3Channel 2Channel 1Channel 0 Card 3 Channel 5Channel 4Channel 3Channel 2Channel 1Channel 0 Card 2 Channel 5Channel 4Channel 3Channel 2Channel 1Channel 0 Card 1 Channel 5Channel 4Channel 3Channel 2Channel 1Channel 0 Channel 5Channel 4Channel 3Channel 2Channel 1Channel 0 Card 0  TRD Stack  TRD Supermodule

DCS Board 0 Crate 0 DCS Board 1 (Optional) Module 2 (Internal architecture similar to module 0) Crate 1 (Internal architecture similar to crate 0) Module 0 Card 0 Card 1 Card 2 Card 3 Card 4 Module 1 (Internal architecture similar to module 0) Architecture of the CAN network inside one rack:

Control Parameters

RAMPING

Error Messages Voltage Errors  Over Voltage  message: max allowed voltage is exceeded  action: voltage is set to the max allowed value  Under Voltage  message: min allowed voltage is out of range  action: voltage is set to the max allowed value  Limits Error  message: set value is out of limits  action: limit is set to the default value Current Errors (Hardware Error)  Over Current  alarm: max allowed current is exceeded or a short-circuit occurred Ramping Errors  Ramping Rate  message: max allowed rate is exceeded  action: rate is set to the max allowed value  Ramping End Value  message: end value is out of limits  Action: value is set to the max allowed  Limits Error  message: set value is out of limits  action: limit is set to the default value

Emergency Ramp Down Procedure: This is a special function that ramps down the channel but the rate may be different from the set one. (We suppose that the voltage measurement system is out of order) Control error on Current measurement Activate the emergency ramp down Ramp down and switch off the channel, or ignore. Due to three (or more) successive comm. errors the channel current Measure is halted. This affects Current Measurement, Over-Current Functions. ISO ADC communication failed 304 Communication error in Current measurement System No action. Channel must be inspected Warning: Communication error detected in current measurement system. The warning appears for the first and second time this error occurs. Error in ISO ADC communication detected 303 Control error on Voltage measurement Activate the emergency ramp down Emergency Ramp- Down Procedure may be activated. Channel has to be switched off. Due to three (or more) successive comm. errors the channel voltage control is halted. This affects Voltage Measurement, Over-Voltage, Ramp Functions. Voltage ADC communication failed 302 Communication error in Voltage measurement System No action. Channel must be inspected Warning: Communication error detected in voltage measurement system. The warning appears for the first and second time this error occurs. Error in Voltage ADC communication detected 301 PVSS Msg User Actions DescriptionTechnical Info Error No Error Messages (Hardware Errors)

General Communication Error (error #) Card has to be inspected From this error # the error messages are related with SJA1000 (can controller ) hardware errors. Multiple errors in a short period of time, may be a sign of future loss of the card. SJA1000 (Can Controller) Errors 308 Channel out of order No action. Actions should have been taken during the previous events Due to previous events the control of the channel is halted Hardware Error on channel 307 Voltage can not be increased to the desired value Ramp down channel, and then switch it off Voltage Value has reached the highest hardware possible value. This occurs due to either wrong voltage set or error in voltage control system Min Voltage DAC Value exceeded 306 Voltage can not be reduced to the desired value Ramp down channel, and then switch it off Voltage Value has reached the lowest hardware possible value. This occurs due to either wrong voltage set or error in voltage control system Max Voltage DAC Value exceeded 305 PVSS Msg User Actions DescriptionTechnical Info Error No

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.