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RPC Detector Control System Endcap. Anna Cimmino, Pierluigi Paolucci & Giovanni Polese I.N.F.N. of Naples Joint RPC/Trigger Meeting - 30/01/06. Demands. 8 Disks YEP(1,2,3,4) YEM(1,2,3,4) 756 RPC (double gap) Up to 1512 HV channels 756 LV channels One temperature sensor per chamber.
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RPC Detector Control SystemEndcap Anna Cimmino, Pierluigi Paolucci & Giovanni Polese I.N.F.N. of Naples Joint RPC/Trigger Meeting - 30/01/06
Demands • 8 Disks • YEP(1,2,3,4) • YEM(1,2,3,4) • 756 RPC (double gap) • Up to • 1512 HV channels • 756 LV channels • One temperature sensor per chamber
RPC Endcap FSM Architecture Endcap_RPC YEP1 YEP2 YEP3 YEM4 Ring1 Ring2 Ring1 chamb1 chamb2 chamb3 chamb4 chamb5 chamb36/18 HV LV T All nodes are CUs made exception for the lower level.
The Final State Machine STANDBY STANDBY STANDBY OFF ON OFF ON Endcap RPC STANDBY OFF ON ERROR • Conformity with Barrel • Disk, Ring and Chamber follow the same logic • Presence of safe states and intermediate states STANDBY Disk RAMP1STEP OFF OFF STANDBY STANDBY Ring ERROR STANDBY Chamber ON RAMP2STEP ON RAMPDOWN OFF Channel ON RAMPUP
Main RPC Endcap DCS panel Ring color adds info on the state Endcap RPC Disk Ring • - Alarm handling • Initialize system • Appearance • Hardware view Chamber Channel
Disk Node Endcap RPC Disk Ring • Objects are cliccable • Global setting Chamber Channel
Ring Node Endcap RPC Disk Ring Chamber Channel
Chamber Node & Channel Panel Endcap RPC Disk Ring Chamber • In conformity with Barrel Channel
Conclusions • Hierarchical structure • Implementation FSM • Graphical interface • Tested with Hardware • Almost ready for cosmic challenge Things to be done • Temperature monitoring (next fw version) • Logfile, Alarm handling and Condition DB • Still testing with final HW config. For CC