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HV & LV status DELIVERED AT BLG 904 40/60 67% of the A3009 (LV)
6/40 15% A3512N (HV) 10/10 100% A3018 (T sens) 30/34 88% EASY crates 5/7 71% branch controllers 6 boards land to ALICE + 2 to the DT group P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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BLG 904 test setup Hardware and Software Test
3 LV EASY Crate running 15 boards 180 channels 1 HV EASY Crate running 2 boards 12 channels 20 LV boards tested = 240 channels 2 broken (< 1%) 2 HV boards tested = 12 channels OK Board Temperature went up to 60 °C due to a bad air circulation. Now fixed and temperature around 40 °C DCS is always running (see Giovanni Talk) LabVIEW (D. Lomidze) test program is under installation for more than 900 hours P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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HV-LV schema for MTCC W+1 W+2 Balcony Barack Detector RPC RPC BC HV BC
SY1527 MAO rpc-dt BC HV BC LV BC LV BC LV Control cable PP trigger LV HV 24 ch – HV - Barrel HV multicond. 10 ch. service control 380 3-phase HV 24 ch – HV - Endcap W+2 LV RPC LV MAO Rpc-dt MAJISTE HV service 48 V - service trigger LV PP service 380 3-phase control Balcony Barack Detector P. Paolucci - I.N.F.N. Napoli
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RPC ground schema Rack From LV power supply with floating output LV
ALV1 AGND1 ALV DLV1 DGND1 shielded cable AGND ALV2 AGND2 DLV DLV2 DGND DGND2 shield LV distrib. board 4 pairs IRON – MAGNET safety ground AGND FEB 1 chip chip AGND FEB strip copper chip kapton Double Gap 2 AGND DGND Double Gap 1 Chamber metallic structure AGND chip chip FEB 6 HVReturn Copper 2 Copper 1 chamber GND RPC ground schema
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W+1 W+2 Ground schema for MTCC Balcony Barack Detector RPC EASY BC LV
EARTH rack GND reference on the chamber W+1 LV EASY LV EARTH rack SY1527 MAO rpc-dt BC LV Control shielded cable GND Iron BC HV BC LV BC LV Link Box HV 24 ch – HV - Barrel HV multicond. shielded 10 ch. PP service control 380 3-phase HV 24 ch – HV - Endcap W+2 LV RPC LV MAO Rpc-dt MAJISTE HV service 48 V - service trigger LV PP service 380 3-phase control Balcony Barack Detector P. Paolucci - I.N.F.N. Napoli
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MTCC status LV hardware is ready for Barrel and Endcap
HV hardware ready for May the 22th LV LB hardware now at blg 904 LV EASY crates installation on the balconies started on May the 9th. Crate insertion in the rack is difficult No space around the racks Balcony barrack 3-phase installation is underway P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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MTCC status HV multicond. cables
3 barrel cables are ready and have been tested by myself at CPE 2 endcap cables are in construction at CPE They will be sent at CERN on May 12th to be installed on May 22th Local EASY cables will be ready for May 22th Service and Control long cables ready on May 22th P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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wheel (RPC-trigger). Ready ??
To be done LV hardware is ready for Barrel and Endcap HV hardware ready for May the 22th LV EASY crates installation on the balconies started on May the 9th. Crate insertion in the rack is difficult No space around the racks Balcony barrack 3-phase installation is underway We need 1 MAO channel per wheel (RPC-trigger). Ready ?? P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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RPC DCS for MTCC P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06
Correttezza = accuracy P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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To be done for MTCC Release the CMS_RPCfwHardware Component
Move to RPC condition db on SX5 and test the performance. Release the CMS_RPCfwHardware Component Help our Warsaw friends, creating a control and monitoring system of the LB low voltage, and integrate it into the RPC DCS. Do we want to integrate it in the FSM ?? It will be also discussed tomorrow in the DCS working group. Test all the system when the hardware will be ready at SX5 (June 06). Write documentation and organize training in order to have more people ready to take data. RPC DCS is developed as a hierarchy where every object is represented as a node of the tree, following the CMS structure. Control Unit performs as logical decision unit, they can take decisions and act on their children, sending comands, based on their states. The logical behavior of a Control Units is expressed in terms of Finite State Machines States transitions can be triggered by: Command reception, either from its parent or from the operator State changes of its child Each single element of the structure, in the FSM approach, is a different parts of the detectors, structured as logical software units, arranged in a tree-like structure. Each logical unit is characterized by a set of well defined states. P. Paolucci - I.N.F.N. di Napoli MTCC meeting May 06 P. Paolucci - I.N.F.N. Napoli
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