Latest revision as of 06:07, 1 April 2015

June 27, 2013 FDC meeting

Agenda

Production
- Spacers between packages [1], [2],[3](Bill, Dave)
- Thick cell results (Lubomir, Vlad) [4], [5],[6],[7],[8]
Engineering [9], [10] (Bill)
Electronics (Chris, Nick)
Full electronics test FDC E-log (Beni)
Other

Minutes

Participants: Bill, Dave, Chris, Nick, Simon, Vlad, Beni, Eugene, and Lubomir.

Production

- Bill: two spacers are ready, the last one will be glued right after the meeting. Pictures of the spacers, the fixture and the gluing are attached above. The carbon fiber rods are glued to the g10 cylinder. The two gusset rings needed for this procedure were taken from the spare package which is sitting now on a granite table with two Lexan sheets on both sides. Tomorrow after the last spacer is ready, we will put the gussets back. This operation requires at least 4 people, since we use metal pins inserted in the six places when lifting the Lexan sheets. As in happened already when taking the gusset ring in the same way, the pin can lift some of the planes/cells up.

- Lubomir and Vlad showed some results from the thick cell study with a scope. We used two differential probes connected to wires from the two top cells. We used a scope as a trigger and fADC: we triggered on coincidences from the two wires, thus selecting almost vertical MIP that crossed the whole volume above the wires. We recorded manually about a thousand events and the plots linked above represent the results from their analysis. We increased the HV to +2450/-500V which corresponds to about 2-3*10^5 and it was stable for the whole weekend. With such high gain and very low noise (threshold of 5mV) we were able to see individual electrons with about 80% efficiency. There was 30-40 % loss of electrons (somehow different for the two cells) due to recombination (oxygen was 90-100 ppm) over the very long drift time of >20usec. Increasing the flow will reduce this effect. One can see the correlation in the cluster number counted by the two cells. The width of the difference agrees with the statistics. Interesting studies of the amplitudes of the single electrons show a nice exponential distribution of the gas gain with a slope that agrees to the average gas gain.

Engineering

- Bill explained how to install the trigger scintillators on the FDC installation cart as shown in the 3D models above.

- We discussed the plan for the coming two months: finish with the spacers (end of this week) and the installation of the manifolds (next week) ; wait for the fiducial holders (end of next week) and then start installation of packages #1 and #2 on the cart with a spacer in between. After the third package is back from testing continue with the installation of packages #3 and #4; install the fiducials; make the gas connections between the packages (Bill still needs to find the right manifolds for the gas). At about middle of July, after all four packages are connected move them outside of the clean room and start practicing with the mock-up, connecting with cables one quadrant. Then, beginning of August move the packages to 126 and do the tests with the HV.

- At the same time we should start moving the equipment out of Blue Crab. According to Dave Tim is working to find some space for us in the TDEF building. Eugene: Rolf Ent stated that physics wants to keep the clean room. There are rumors that Hall C wants to disassemble (Walter is coordinating this) it and store it somewhere for later use, but nothing official. In any case we would like to have the right to use some area of the clean room if we need to do something on the FDC.

Electronics

- Chris and Nick will collect all the signal cables for each package together: some of the cables are with Tom, that's why the cables at Blue Crab to be used for the mock-up are mixed.

- We may need contact cleaner for fixing the cathode pre-amp contacts; Chris will look for such cleaner.

Full electronics tests

- Now the whole package is equipped with electronics and all the cables connected.

- Beni showed results of the 4 cell tests. In the E-log entry 112 most of the pictures show the wire position as reconstructed by the strips. Interestingly, the width of the wire varies with the position in the chamber. It is small in the middle, then getting wider, then again small at the periphery. People suggested different explanations, but all this requires more studies, like plots of the widths along one strip, increasing the high voltage to see if the effect remains with higher signal and better strip resolution. Such variations resemble the variations we had of the charge from the strips due to frame deformation, but this is unlikely (Bill) since we have a strong-back now. Other than that, the noise on the strips and wires is as low as it was in the previous test of the packages partially equipped with electronics. Several cathode channel still require "fixing" by re-seating the pre-amps and eventually bending the cooling tubes.

- Plans: after fixing all the channels we would like to take data also at different high voltages; expect to be ready with the tests by July 8th in which week we want to move the package to Blue Crab. There will be no time now to test the new F1TDCs, since this will require new crate and with a ROC and TI, and also development of the firmware and software. Rather than that, we decided to test the new F1TDCs with the spare package that will be moved to 126 at the same week of July 8th.

Other

- No meeting next week: 4th of July.

@@ Line 4: / Line 4: @@
 # Production
 #* Spacers between packages [http://www.jlab.org/Hall-D/detector/fdc/photographs/IMG_0536.JPG], [http://www.jlab.org/Hall-D/detector/fdc/photographs/IMG_0537.JPG],[http://www.jlab.org/Hall-D/detector/fdc/photographs/IMG_0538.JPG](Bill, Dave)
-#* Thick cell results (Lubomir, Vlad)  [http://www.jlab.org/Hall-D/detector/fdc/clucou/tek00077.png]
+#* Thick cell results (Lubomir, Vlad)  [http://www.jlab.org/Hall-D/detector/fdc/clucou/tek00077.png], [http://www.jlab.org/Hall-D/detector/fdc/clucou/Clusters1vs2.pdf],[http://www.jlab.org/Hall-D/detector/fdc/clucou/Cdiff.pdf],[http://www.jlab.org/Hall-D/detector/fdc/clucou/Timing_chan1and2.pdf],[http://www.jlab.org/Hall-D/detector/fdc/clucou/Ampl1.pdf]
-# Engineering (Bill)
+# Engineering [http://www.jlab.org/Hall-D/detector/fdc/drawings/PADDLES_ABOVE_AND_BELOW_CART_END_VIEW.PNG], [http://www.jlab.org/Hall-D/detector/fdc/drawings/PADDLES_ABOVE_AND_BELOW_CART_SIDE_VIEW.PNG] (Bill)
 # Electronics (Chris, Nick)
-# Full electronics test [https://halldweb1.jlab.org/elog-halld/FDC FDC E-log] (Beni)
+# Full electronics test [https://halldweb.jlab.org/elog-halld/FDC FDC E-log] (Beni)
 # Other
-<!--
 = Minutes =
-Participants: Bill, Beni, Simon, Vlad, and Lubomir. Due to the PAC, magnet test going on at the same time, Wiener people coming on site, the turnout was low for this meeting. The meeting was in A110.
+Participants: Bill, Dave, Chris, Nick, Simon, Vlad, Beni, Eugene, and Lubomir.
 == Production ==
-- End of last week we installed the last cell of the last package (see the photos of the package and the happy people around it, attached above). Vlad tested the new cells and found no problems. The top two cells have 3.5 instead of 0.5cm spacer ring. When using iron source Vlad had to increase the HV by 100V to see approximately the same amplitudes as from the regular cells. Very interestingly the last two cells showed very low dark current ~20-30nA, compared to 200-800nA for the other cells. We are not sure why, just because these were the last two wire frames produced, or there's something else related to the special geometry of the cells.
+- Bill: two spacers are ready, the last one will be glued right after the meeting. Pictures of the spacers, the fixture and the gluing are attached above. The carbon fiber rods are glued to the g10 cylinder. The two gusset rings needed for this procedure were taken from the spare package which is sitting now on a granite table with two Lexan sheets on both sides. Tomorrow after the last spacer is ready, we will put the gussets back. This operation requires at least 4 people, since we use metal pins inserted in the six places when lifting the Lexan sheets. As in happened already when taking the gusset ring in the same way, the pin can lift some of the planes/cells up.
-- First signals on the scope with definitely visible individual clusters over a very long drift time (up to 15 usec)  are attached above. We some minimal grounding we were able to lower the noise to <5mV. At the same time we increased the gas gain to about 2-3 x 10^5 by going up with the HV up to 2450/-500V !
+- Lubomir and Vlad showed some results from the thick cell study with a scope. We used two differential probes connected to wires from the two top cells. We used a scope as a trigger and fADC: we triggered on coincidences from the two wires, thus selecting almost vertical MIP that crossed the whole volume above the wires. We recorded manually about a thousand events and the plots linked above represent the results from their analysis. We increased the HV to +2450/-500V which corresponds to about 2-3*10^5 and it was stable for the whole weekend. With such high gain and very low noise (threshold of 5mV) we were able to see individual electrons with about 80% efficiency. There was 30-40 % loss of electrons (somehow different for the two cells) due to recombination (oxygen was 90-100 ppm) over the very long drift time of >20usec. Increasing the flow will reduce this effect. One can see the correlation in the cluster number counted by the two cells. The width of the difference agrees with the statistics. Interesting studies of the amplitudes of the single electrons
-Amazingly the two cells were stable at this HV at least for several hours. Having such gas gain we were able to clearly see (scope pictures above) individual electrons corresponding to ~20-30 mV signal. On average we have two electrons per cluster, and really we see some single peaks, and some double/triple peaks separated due to the diffusion. On some of the plots two neighboring channels are shown (with different colors; we used a second differential probe from Fernando) and you can see the transition from one wire to another when the track crosses the filed region between the two wires.
+show a nice exponential distribution of the gas gain with a slope that agrees to the average gas gain.
-- Plans: on Monday we will take the two gusset rings from the spare package since we will need them for a week to build the package spacers. For that, first we will replace the top gusset with a Lexan sheet, then will take the package out of the mounting table and put it upside down using some strong-back. Then we will replace the bottom gusset. After we are done with the spacers we will re-install the gusset rings in the same way. The spare package will go for testing in 126 after we are done with the third package there. The spacers will be installed between the packages and then we will do the practicing with the mock-up.
 == Engineering ==
-- Bill started working on the fixture for the scintillators needed at the Hall for triggering: it is not a problem at all and will consists of unistruts along the cart attached to the cart frame.
+- Bill explained how to install the trigger scintillators on the FDC installation cart as shown in the 3D models above.
-- Bill was asked by Bruce Lenzer (suggested by Glen) to include the mock-up cabling in their QA plan, since this will verify that the cable density is correct and that there's enough space to the CDC and BCAL. Bill will write a short report after this exercise.
+- We discussed the plan for the coming two months: finish with the spacers (end of this week) and the installation of the manifolds (next week) ; wait for the fiducial holders (end of next week) and then start installation of packages #1 and #2 on the cart with a spacer in between. After the third package is back from testing continue with the installation of packages #3 and #4; install the fiducials; make the gas connections between the packages (Bill still needs to find the right manifolds for the gas). At about middle of July, after all four packages are connected move them outside of the clean room and start practicing with the mock-up, connecting with cables one quadrant. Then, beginning of August move the packages to 126 and do the tests with the HV.
+- At the same time we should start moving the equipment out of Blue Crab. According to Dave Tim is working to find some space for us in the TDEF building. Eugene: Rolf Ent stated that physics wants to keep the clean room. There are rumors that Hall C wants to disassemble (Walter is coordinating this) it and store it somewhere for later use, but nothing official. In any case we would like to have the right to use some area of the clean room if we need to do something on the FDC.
+== Electronics ==
+- Chris and Nick will collect all the signal cables for each package together: some of the cables are with Tom, that's why the cables at Blue Crab to be used for the mock-up are mixed.
+- We may need contact cleaner for fixing the cathode pre-amp contacts; Chris will look for such cleaner.
 == Full electronics tests ==
-- Beni now has the software to sparsify the data from the fADC in the ROC processors. Now he is taking long runs over the night and some results are shown in the E-log entries 110, 111. There you can see the raw signals (one plot per fADC), the profiles of the strips from all the planes connected (4 cells so far), and the wire positions as reconstructed from the strips. The reconstruction method is simplified so far, that's why you see a lot of noise in between the wire positions.
+- Now the whole package is equipped with electronics and all the cables connected.
+- Beni showed results of the 4 cell tests. In the  E-log entry 112 most of the pictures show the wire position as reconstructed by the strips. Interestingly, the width of the wire varies with the position in the chamber. It is small in the middle, then getting wider, then again small at the periphery. People suggested different explanations, but all this requires more studies, like plots of the widths along one strip, increasing the high voltage to see if the effect remains with higher signal and better strip resolution. Such variations resemble the variations we had of the charge from the strips due to frame deformation, but this is unlikely (Bill) since we have a strong-back now. Other than that, the noise on the strips and wires is as low as it was in the previous test of the packages partially equipped with electronics. Several cathode channel still require "fixing" by re-seating the pre-amps and eventually bending the cooling tubes.
-- Two fADC channels are not working properly and there are four strips where the problem is in the FDC. In the previous version of these plots there were ~10 missing strips. Vlad and Lubomir fixed all of them by unplugging/plugging the cards and sometimes releasing a little bit the screws on the clamps. Several of the channels were next to a manifold, but those were fixed.  After that two strips re-appeared as problematic and two new strips showed problems. Beni suggested to spray the connectors with a cleaner to see if this will help.
+- Plans: after fixing all the channels we would like to take data also at different high voltages; expect to be ready with the tests by July 8th in which week we want to move the package to Blue Crab. There will be no time now to test the new F1TDCs, since this will require new crate and with a ROC and TI, and also development of the firmware and software. Rather than that, we decided to test the new F1TDCs with the spare package that will be moved to 126 at the same week of July 8th.
-- Plans: the new VXS crate is in 126 and Chris and Nick will install it soon. Next week when Cody is back Beni will take 12 more fADC125s. Then we will connect the last two cells with signal cables and will be able to take data from all the channels.
+== Other ==
--->
+- No meeting next week: 4th of July.

Difference between revisions of "Minutes-6-27-2013"

Latest revision as of 06:07, 1 April 2015

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Engineering

Electronics

Full electronics tests

Other

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