8/9/2000T.Matsumoto RICH Front End RICH FEE Overview PMT to FEE signal connection Trigger Tile...

8/9/2000 T.Matsumoto

RICH Front End

RICH FEE OverviewPMT to FEE signal connectionTrigger TileSummation of Current RICH LVL-1 Trigger Module1,2What is going to be built Connection of RICH FEE with MuID ROCSchedule

T.Matsumoto, CNSAug 9, 2000

8/9/2000 T.Matsumoto

RICH FEE Overview

Have you seen this in IR? Components 1 controller Module (center) 10 AMU/ADC Modules 2 Trigger Modules 2 Readout Modules

Input and Output / crate 640 PMT signal input 4 G-LINK output (2 initially) to DCM 2 G-LINK output for LVL-1Trigger

8/9/2000 T.Matsumoto

PMT to FEE signal connection

Figure shows an arm (2 side) of RICH PMT array 2560 PMT

640 PMT signals / crate8 RICH FEE crate is used to read out total 5120 PMT signals There are 2 arms !

RICH FEE Crates 16 PMT (Z)

80PM

T (p

hi)

PMT array

8/9/2000 T.Matsumoto

Trigger Tile

80 PMT (phi)5 PMT

4 PMT TriggerTile

…..preamps

These 16 Trigger Tiles are processed on aSame LVL-1 Trigger Module.

……16 PMT (z)

8/9/2000 T.Matsumoto

Summation of current

5 AMU/ADC Modules

•A RICH Chip on each AMU/ADC Module makes 2 pairs of 4PMT current sum.•Output of RICH Chip are summed up on the Back Plane, again .

Back Plane

RICH Chip

Itotal = i1+i2+i3+i4+i5

i1 i2 i3 i4 i5

4x5 PMT sum4PMT sum

8/9/2000 T.Matsumoto

RICH LVL-1 Trigger Module 1

There is working prototype Functions Current to voltage

conversion AD conversion

(BC =9.6 MHz; 3.5 BC latency)

Compare the signals with threshold in each clock

8/9/2000 T.Matsumoto

RICH LVL-1 Trigger Module 2

Configurations Input : 16 channel

/module 4x5 PMT current sum /

channel Comparison with

threshold Output : 1 G-LINK /module

(16 bits)

Total 256 bits of trigger information

8/9/2000 T.Matsumoto

What is going to be built ?

Final version of RICH LVL-1 Trigger Module We already have working prototype

G-LINK Receiver Board Design, test prototype Production of Final version

8/9/2000 T.Matsumoto

Connection of RICH LVL-1 Module and MuID ROC

Develop special G-LINK receiver board 4 G-LINK receiver deve

loped at BNL Connect with MuID ROC

using flat cable behind back plane

GND separation

8/9/2000 T.Matsumoto

ScheduleRICH LVL-1 Module(Final) by T.Matsumoto

Receiver board(prototype) by M.Tamai

Aug 2000

Sep

Oct

Nov

Dec

Jan 2001

Feb

Mar

Insall

DesignProduction

Test

Design

Production

Test

Receiver board(Final) by M.Tamai

Design

Production

Test

Insall

8/9/2000 T.Matsumoto

Some plot from prototype test

FADC output as a function of constant input current Typical pulse height distribution 5MHz rectangular curren

t pulse 10 MHz sampling Base line 2.8 mA Height 4.5 mA

8/9/2000 T.Matsumoto

Summary

There is already working prototype

We will make…. Final version of RICH LVL-1 Trigger Module Prototype and final version of G-LINK receiver

board

All these work will be done by next March