final fed 1 testing set up testing idea and current status preliminary results future development

Final FED 1 Testing Set Up

• Testing idea and current status• Preliminary results• Future development• Summary

M. Noy

29-01-2003

M. Noy

29-01-2003

Some known (and relevant)

signal

FF1 (real)

FF1 emulator (SW)

SW comparison of processed

data

Analysis of functionality

(later pass/fail)Software Control

Data processing

Testing idea

M. Noy

29-01-2003

System status

M. Noy

29-01-2003

DAC Vocm

VME interface for PC control

digital sequencer 40MHz

12 bit DAC and fully differential op-amp with

common mode offset

analogue opto-tx

010

M. Noy

29-01-2003

VME interface logic

Analogue section

Sequence control logic

Sequence storage

DACAmplification+cmAnalogue opto-tx

M. Noy

29-01-2003

Software

I have developed software using XDAQ and the HAL

FedTesterObject: encapsulates functionality interface

FedTesterApplication: instantiates a (the) FedTesterObject(s); inherits from xdaqApplication and FedTesterSOAPCommandListener

Plus additional required SO class

M. Noy

29-01-2003

Results from the system: preliminary

M. Noy

29-01-2003

Analogue square wave, period 50ns.

(channel 0, bias setting 0x17, gain setting 1)

10% to 90% rise time:3.60.2 ns

90% to 10% fall time:3.40.2 ns

Settling time believed to be better than 17ns,

analogue noise believed to be less than 10mV, but not

characterised yet.

The optical output is fed into the first Optobahn opto-rx version, through 50 co-ax, into a 50

terminated scope.

M. Noy

29-01-2003

Linearity looks sufficient, but no

detailed measurements

have been made yet.

M. Noy

29-01-2003

Muxed pair of APV25 frames with

pedestals only.

pedestalsErrorbitsHeader

ticks

M. Noy

29-01-2003

Muxed pair of APV25 frames with a 1 MIP (approx.) hit

M. Noy

29-01-2003

HIP event: from the X5 beam test data.

R. Bainbridge,M. Takahashi

M. Noy

29-01-2003

Development

VME

Clock and trigger distribution (propagation matched lines)

Master trigger in

4x6U VME cardsActing master

M. Noy

29-01-2003

4 identical VME boards 6U in size

M. Noy

29-01-2003

Single Board

1 back end module controlling synchronisation and 4 front end modules

Mas

ter

trig

gers

in

Sla

ve tr

igge

r an

d cl

ock

BE to FE bus

with clock

and L1A

VME

BEV2

Temp unit

Front End

Modules

SRAM - optional add on, 512kB x 36 @80MHz

Front End Virtex 2

DAC x6Op-amp x6

3 channel analogue opto-tx

3 channel analogue opto-tx

I2C from BE

I2C from BE Serial connection from BE

Clock and Trigger from BE

Opt

ical

out

puts

To temp unit

M. Noy

29-01-2003

Single Front End Module

6 DAC 6 op-amp 2 analogue opto-tx-hybrid (current layout)

M. Noy

29-01-2003

Summary

The optical test board works, and will be used to test the FF1.Have a 9U crate, VME64x backplane, and 3.3v psu at IC.

Software for the set up is functional, we can produce test vectors and sequence tests. Some work is required to make it more user-friendly.

The next optical test card is being developed to provide multiple individually configurable channels, stepping towards more automation ( production testing)