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Fernando,<br>
<br>
I think it would helpful for you to have a closer look at our progress
on the electronics some time this fall, if you have the time.
Meanwhile, here are the highlights after a major push to complete the
design and prototyping work this summer.<br>
<ol>
<li>Work on the readout control board (we call it the "digital
board"). This is the most complex component of the readout system,
since in involves a computer interface to multiple sensors and the way
that the bias voltages on the SiPM's are controlled. We have three
populated prototypes and are busy with debugging. Several bugs have
been found and fixed in the clock generation and distribution scheme
that was used. At this point, the initializatin of the FPGA is
proceding correctly, and we see the long startup conversation with the
ethernet controller chip completing, and the controller correctly
negotiates basic ethernet communication. However, the wake-up packet
that is supposed to be sent upon initialization is not sent over the
wire. Igor has created some useful modular tools in the FPGA program
to allow him to debug and discover what about the startup sequence
perhaps he has not yet understood. Progress has been steady, and I
expect another few weeks before the digital prototype is completely
working.<br>
</li>
<li>Work on the preamp board (we call it the "analog board"). This
design has been prototyped and tested on the bench with a single SiPM
channel. Now the design is complete that integrates 30 SiPMs (6
columns of 5 fibers each) on a single 6-layer board. The SiPM's are
mounted directly on the preamp board. The individual amplified outputs
from each SiPM are presented on individual output pins, as well as the
6 5-in/1-out column analog sums. This parts list and gerbers for this
design have been presented to a small handful of prototype
manufacturers, and we have quotes for 3 boards that are in the $700
range. We plan to make the order within the next week or so, as soon
as we hear whether one of them wants to compete for a
build-and-populate bundle price. We also have quotes from a couple of
vendors to populate the boards. The price for that is in the $900
range. We will buy the parts ourselves, for a total cost around $2K
for three prototypes.<br>
</li>
<li>The interconnect board (we call it the "backplane board"). This
board does power distribution to the analog and digital boards, and
makes the connections between them. It also houses the lemo
connections that carry the analog outputs to the digitization
electronics. The design is complete and the parts list and gerbers
produced. We have quotes from a number of vendors for production.
Since this board has to provide a light seal to the interior of the
box, we are still deliberating over its mechanical specs (thickness,
number and placement of holes) but I think we have a plan that will
work, at least for the prototype.<br>
</li>
</ol>
<br>
Richard Jones<br>
<br>
Fernando J. Barbosa wrote:
<blockquote type="cite" cite="mid:4AA659CC.3070609@jlab.org">
<pre wrap="">Hi Richard,
I have not talked to you in some time but I would appreciate if you
could send me an update on the electronics. I know you will provide the
details at the collaboration meeting but I need to provide an overview
of all the electronics.
I have talked to you about a review on your electronics some time ago
but I have not had the time and I would like to take a look at the
tagger electronics sometime this Fall.
Thanks and best regards,
Fernando
</pre>
</blockquote>
<br>
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