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TRT Detector Status Report
Konstantin Zhukov (Lebedev Physics Institute)for the ATLAS TRT groupID week, 19 May 2014
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Subsystems covered in this talk
• Active Gas System (Active GS)• Remote Regulation for AGS• Ozone studies• Gas Gain Stabilization System (GGSS)• High Voltage System (HV)• DAQ• Radiation Damages• DCS• Auxiliary TRT systems
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Active Gas: leaks estimationsIn 2012 large leaks appeared in detector’s peek pipes -With the help of many our colleagues Data quality wasn’t affected.
We fixed all accessible pipes (in the EndCaps). Target leak rate ~100l/day (in TDR)
Modifications/upgrades of the GS- General maintenance of the GS done- Sensors/transmitters upgrade for precise control done- Distribution racks modifications to be ready for different scenarios of detector work (for
Ar-mix, Xe-mix flush) in progress- Planned upgrades for safety and reliability in progress- Transferring specific TRT options to CPC6: run mode – done/ other in progress- Remote gas flow regulation and DCS control (remote adjustments) in progress
Tuning in progress:System is running with AR-CO2-O2 mixture. The fine tuning of leaking channels is ongoing to estimate the level of gas consumption we can keep. Works with remote regulation implementation.
All works are well supported by CERN Gas Group.
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Active GS: Remote flow regulation
Remote flow regulation
Design/production of HW part
Software development/
debugging
Test stand for DCS part development
Installation in the rack in UX
Full system test with DCS control
with running GS in normal mode
Regulators’ modification was done (fine regulation). All parts are ready to install.
Few versions of SW were tested. Algorithms’ debugging is in progress.
Test setup is ready for remote tests/developing of FSM panels
EC A has been equipped with regulators. EC C/Barrel ready to mount. In progress.
After full installation many tests should be done/debugging
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Ozone studiesThe ozone production studies are in progress to give an answer whether we can reduce ozone concentration to reduce destructive factor for peek tubes.
- Tests with 300mm straw matrix (a prototype with 15 straws) were done
- Tests with different gas additive were done (using the straw matrix)
- Measurements with Barrel module type2 (1440mm straws) in progress
- Ozone influence on TRT materials (peek, polyurethane etc.) to be done in June
Results will be presented at TRT Krakow workshop in June.
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Gas Gain Stabilization System
The commissioning of the new hardware was successfully done. New hardware equipment installed in USA15.
GGSS - migrated in March• All new hardware installed• GGSS low level software packed to dedicated rpms• Waiting for Xe mixture for final calibration and tunning• GGSS is working with the reference Ar gas mixture
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High Voltage systemSC508 HVSys Controller Firmware upgraded (to achieve better communication performance) • 57600 Baud rate (better internal synchronization-buffering) –
3x faster• Cell monitoring faster (aggregation of voltage value, current
value and status bits in one command)
New OPC UA server development in debug phase (h/w)• HVSys OPC DA (TRT private development – 2005) migrated to
new OPC UA standard• ATLAS standard OPC UA Toolkit used (migration to new
Toolkit)• Windows version of the server is ready• Moving to SLC6 platform, tests and preparing rpm package
in progress
PFC controller upgrade: in progress (waiting for boards from HVSYS)Three more boards ready to send for checks/upgrade. System is ready for M3.
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DAQ: milestones runs
TRT joined M2, will participate in all following milestone runs
In M2:
- migration of software to SLC6 and tdaq-05-03-00 successful
- joined combined running successful
- provided fast-or trigger for cosmics successful
- test of recovery procedures to be completed in M3
- high rate testsROD firmware prevented us from reaching 100 kHz
have a new version now, currently under test in standalone
to be tested in combined partition in M3
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DAQ: other upgrades/maintenance
Tackling the front-end – ROD bandwidth limit:• reduced readout (chop off last 4 of 27 data bits per straw word) allows 105 kHz
rates, minimal impact on tracking implemented/tested
Tackling the ROD processing limit (event processing time proportional to occupancy due to compression)• application of validity gate (straw considered empty if no signal in certain time
window) reduces occupancy implemented/tested• clock speed update on ROD board implemented, currently testing• hard-coding of most common straw patterns to increase speed of compression to
be done
Hardware• crate power supplies: new fans, higher current limits for end-cap in preparation
for higher load in run 2 done• low voltage power supplies: rolling upgrade in progress to improve voltage
stability by gold-plating the connectors on schedule for Run 2• maintenance of off-detector electronics in progress• recovering of spares where possible in progress
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Radiation damage studiesRadiation damage of front-end electronics• effects seen at lower total ionizing doses than expected• flattening off• to check if initial effects were missed during earlier tests, new irradiation
tests of front-end board (lower rates, lower total doses) work in progress• high threshold calibration to mitigate radiation effects during Run 2 in
progress
Absolute change in the threshold needed for a 300 kHz noise rate, vs integrated luminosity in 2011+2012
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DCS: migration to new environment: Dell R610, SLC6/VM2008, WinCCOA 3.11
SCS – migrated in February • System Overview part to be installed after all projects migrated• Gas system: all h/w modifications *extra mixer *, *extra distribution*
- to be followed by DCS modifications when finished by gas group (DCS part to follow the h/w commissioning) - we are in contact with gas group developers
LCS1 (Cooling, LV Bulk, VME crates, CAN bus PSU, HWI, Alarms): migrated in December• Scattered project: main project on Linux, Wiener OPC DA server on
VM2008• Upgrades foreseen: FSM for CAN PSU to include control of individual
branches
PPA1, A2, C1, C2 (Front End LV + detector temperature): migrated in December• CanOpen OPC UA server + upgraded TRT dedicated f/w componentHVA, B, C (high voltage control): to be migrated when HV OPC UA server readyCHROM (gas chromatograph): to be migrated, a small project, will be done at the end
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Auxiliary systems ouside Point1
SR1 TRT Demonstration and Test Stand• Test Stand is operational (W7 + XP PC’s)• Long term plans: migrate to Dell Server PowerEdge 1950
(pcatltrtsr1det) with Linux SLC6 and VM 2008
Test Stand in 104 RC-016: tests and repairs of LVPP Patch Panels and tests of TTC Patch Panels, tuning Maraton bulks• Test stand operational on 2 XP PC’s• Long term plans:
• Migrate to SLC6/W7/W2008 – started• Development GUI for LVPP tests (in place of CLI) - started
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SUMMARYActive gas system: Ready for M3. Run mode is ready. On schedule. Leak estimations in mid-summer.
Remote regulation: installation in progress. Ready for final tests this summer.
Ozone studies: in progress. Results in June-July.
HV System: Ready for Run2. PFC upgrade in progress. Ready in autumn.
GGSS: Ready for Run2. Some tuning with Xe mixture needed.
DAQ: many things done, some things in progress, on schedule
Radiation Damages Studies: new irrad. tests in progress
DCS: many things has been migrated. Other things in progress, on schedule.
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Thank you.
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