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BME/BOE cabling and readout proposal

BME/BOE cabling and readout proposal. G. Aielli. BME.Confirm (64Phi+40Eta)*2Layers. 7 mezzanines. 16 ch . . (x2 ly ). 16 ch . . (x2 ly ). 24 ch . . (x2 ly ). 24 ch . (x2 ly ). 32 ch . (x2 ly ). 32 ch . (x2 ly ). 6 mezzanines. BME.Pivot (80Phi+40Eta)*2Layers.

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BME/BOE cabling and readout proposal

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  1. BME/BOE cabling and readout proposal G. Aielli

  2. BME.Confirm (64Phi+40Eta)*2Layers 7 mezzanines 16 ch. . (x2 ly) 16 ch. . (x2 ly) 24 ch. . (x2 ly) 24 ch. (x2 ly) 32 ch. (x2 ly) 32 ch. (x2 ly) 6 mezzanines

  3. BME.Pivot (80Phi+40Eta)*2Layers 7 mezzanines 16 ch. (x2 ly) 16 ch. (x2 ly) 24 ch. (x2 ly) 24 ch. (x2 ly) 40 ch . (x2 ly) 40 ch. (x2 ly) 7 mezzanines

  4. BOE.Confirm (128Phi+40Eta)*2Layers 4 mezzanines 4 mezzanines 24 ch. (x2 ly) 24 ch. (x2 ly) 24 ch. (x2 ly) 24 ch. (x2 ly) 32 ch. (x2 ly) 32 ch. (x2 ly) 32 ch. (x2 ly) 32 ch. (x2 ly) 11 mezzanines

  5. Double readout scheme (e.g. Confirm) PAD RPC trigger and readout (depends on RPC DCS+LVL1 DCS) RPC FE (depends on RPC DCS) SPLITTER 13 Mezzanine boards MDT FE and RO (depends on MDT DCS) CSM Technical contact Tiesheng SPLITTER RPC trigger and readout (depends on RPC DCS+LVL1 DCS) MROD PAD RPC ROD b RPC ROD c

  6. Overview • Total 38 mezzanines per each side • 27 BM + 11 BO • Tiesheng will propose the best fitting with the CSM, two of them can host up to 36 mezzanines. • Readout electronics completely independent on each other. The LVL1 trigger is transparent. • RPC mezzanines to be initialized by MDT DCS. They are supposed to work in ToT mode. Data downstream to be kept separated. • Also the BUSY should be managed separately from the RPCs, as if the secondary readout would correspond to an MDT chamber.

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