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Progress Report on INGRID Electronics Production and Trigger System Development

This report outlines the current status of the INGRID Electronics project as of March 20, 2008. The production of the TFB (Trigger Front-End Board) has recently launched, with only minor modifications to prototypes. The first pre-production batches are expected within 2–4 weeks, and full-scale production is scheduled to begin in May with a target of 200 units per month. Key development indicators include the completion of schematics and the near finish of the layout. Additionally, considerations regarding trigger algorithms, cosmic testing, and power supply specifications are discussed.

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Progress Report on INGRID Electronics Production and Trigger System Development

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  1. INGRID ElectronicsOpen Issues Alfons Weber LLR March 20, 2008

  2. Electronics Status • TFB Production just launched • only minor changes to prototypes • DC coupling of LVDS links • 10+750 boards • Pre-production batch in ~ 2-4 weeks • Full production on schedule for start May • 200 / month • MCM/SCM/RMM/CTM • schematics almost finished • layout to be finished in ~4 weeks • first boards around May/June • production fast (~50 boards) • tight schedule

  3. System Integration (INGRID) CTM Trigger Primitives 100 MHz trigger trigger trigger GPS & beam MCM RMM0 Clk & trg data TFB0-47 100 MHz Clk & trg data RMM1 TFB0-47 100 MHz Clk & trg data TFB0-47 RMM2 TFB: TRIP-t front-end boardRMM: r/o merger moduleCTM: global trigger moduleMCM: master clock moduleSCM: slave clock moduleFPN: front-end proc. node (PC)DCC: data concentrator cardCMB: crate master board Clk & trg data TFB0-47 RMM3 Gigabit/Ethernet CTM, MCM, RMM FPN opticalLVDS

  4. Two types of trigger single module pre-scale according to position (<1:256) top more bottom less useful for strip-to-strip pulse height, relative timing and efficiency calibration multi module take always useful for module to module timing calibration Cosmic Trigger (I)

  5. Cosmic Trigger (II) • Single CTM has to serve all of INGRID • max number of trigger TFBs: 48x4 = 192 • up to 11 = 192/17 TFBs / module can be included in trigger • What is the trigger algorithm ??? • Trigger Algorithm (after glass of wine) • TFB • Tracking plane (2-fold coincidence) • veto plane (no coinc. possible) • CTM • n out of 11 planes • Questions (still not answered) • noise rate? • efficiency? • use veto planes? • max trigger rate? 1 2

  6. Cosmic Tests on Surface • Simplified set-up • run original 1 module algorithm (whatever it is) • typical rate 20 Hz, after pre-scaling • Needs • real DAQ system • HV settings for each sensor Gigabit/Ethernet opticalLVDS CTM, MCM, RMM FPN CTM TFB: TRIP-t front-end boardRMM: r/o merger moduleCTM: global trigger moduleMCM: master clock moduleSCM: slave clock moduleFPN: front-end proc. node (PC) Trigger Primitives 100 MHz trigger trigger MCM RMM0 Clk & trg data TFB0-12 100 MHz

  7. TFB Power Supplies • Specifications • service 13 TFBs • used in INGRID (MCM, CTM, 4 RMMs) • used in Off-axis Detector (MCM, 3 SCM) • power requirements into TFB (put in some headroom) • 260 mA @ 1.7 V  4 A • 600 mA @ 3.1 V  10 A • 50 mA @ 3.8 V  1 A • 180 mA @ 5.5 V  3 A • slow control interface • TCP/IP who is in charge • Alain Debraine • Important • ground potential of TFBs, RMMs and CTM have to be identical (DV << 1 V)

  8. TFB Power Supplies • Specifications • service 13 TFBs • used in INGRID (MCM, CTM, 4 RMMs) • used in Off-axis Detector (MCM, 3 SCM) • power requirements into TFB (put in some headroom) • 260 mA @ 1.7 V  4 A • 600 mA @ 3.1 V  10 A • 50 mA @ 3.8 V  1 A • 180 mA @ 5.5 V  3 A • slow control interface • TCP/IP who is in charge • Alain Debraine • Important • ground potential of TFBs, RMMs and CTM have to be identical (DV << 1 V)

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