Difference between revisions of "Minutes-6-2-2011"

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== Production ==
 
== Production ==
  
- The first chamber is being assembled right now. We have, from bottom to top on the assembly fixture: 9 empty cathode frames, end window (1mil mylar) with O-ring, cathode type 3 (0.5mil mylar with holes on the bottom and cathode foil on the top). Casey is putting now the O-ring on the wire plane that will be installed in the package right after the meeting. Then we will put the spacer ring (also ready except for O-rings) and then will put on the top the transparent lexan sheet. Later we will replace it with the second cathode (ready) and the second end window.
+
- The first production chamber is being assembled right now. We have, from bottom to top on the assembly fixture: 9 empty cathode frames, end window (1mil mylar) with O-ring, cathode type 3 (0.5mil mylar with holes on the bottom and cathode foil on the top). Casey is putting now the O-ring on the wire plane that will be installed in the package right after the meeting. Then we will put the spacer ring (also ready except for O-rings) and then will put on the top the transparent lexan sheet. Later we will replace it with the second cathode (ready) and the second end window.
  
 
- Cathodes: we have the third (type 3) and fourth (type 1) cathodes mechanically ready, waiting for the rigid-flexes, on the fifth cathode (type 3) the mylar will be tensioned today. By tomorrow  we will have also the second end window (2mil mylar) ready.  
 
- Cathodes: we have the third (type 3) and fourth (type 1) cathodes mechanically ready, waiting for the rigid-flexes, on the fifth cathode (type 3) the mylar will be tensioned today. By tomorrow  we will have also the second end window (2mil mylar) ready.  
  
- Wire frames: the second wire frame is being prepared now for stringing. We have also the third wire frame laminated. On the test wire plane and on the first production wire plane we tried the new procedure, ultrasonic cleaning, and it worked fine. First the plane was cleaned with Vigon, then put in the ultrasonic tank filled with distilled water where it was rotated manually.
+
- Wire frames: the second wire frame is being prepared now for stringing. We have also the third wire frame laminated. On the test wire plane and on the first production wire plane we tried the new procedure, ultrasonic cleaning, and it worked fine. First the planes were cleaned with Vigon, then put in the ultrasonic tank filled with distilled water where they were rotated manually.
  
 
== Engineering ==
 
== Engineering ==
Line 35: Line 35:
 
- Rigid-flex pressing tool: today Bill and Casey did tests using pressure indicator paper. It showed that the issues we had with the un-tinned  flexes are due to pressure not being equally applied on all the contacts. With the tinned contacts, due to increased thickness, the pressure was OK for all the test configurations. For the un-tinned contacts they tried several configurations: kapton tape only at one side of the connector (first two cathodes were done in such configuration), kapton tape over the connector, and without kapton tape. The best results were obtained with the kapton tape over the connector. In addition they tested the flatness of the shoe and turned out there's a gap in the middle. Bill will take the tool and will modify it in couple of days. In addition to make it flat, he will also reduce the width of the shoe that is now ~6mm; the first tool had 4mm shoe.  
 
- Rigid-flex pressing tool: today Bill and Casey did tests using pressure indicator paper. It showed that the issues we had with the un-tinned  flexes are due to pressure not being equally applied on all the contacts. With the tinned contacts, due to increased thickness, the pressure was OK for all the test configurations. For the un-tinned contacts they tried several configurations: kapton tape only at one side of the connector (first two cathodes were done in such configuration), kapton tape over the connector, and without kapton tape. The best results were obtained with the kapton tape over the connector. In addition they tested the flatness of the shoe and turned out there's a gap in the middle. Bill will take the tool and will modify it in couple of days. In addition to make it flat, he will also reduce the width of the shoe that is now ~6mm; the first tool had 4mm shoe.  
  
- Wire sensing problem: at the end of last week we found by turning off all potentially vibrating devices, that the vibration is not causing this problem. As suspected before the field wires we are using are the problem: they are not seen by the sensor at some places. We have no problems with the old field wires. Caleb made several samples with wires marked in the problematic regions. It turned out Hall B is using exactly the same field wires but we are not aware if they had any problems with them. Important finding was that our field wires only 2% of theirs, so if need spare (since we have a little only) we may borrow from them.   
+
- Wire sensing problem: at the end of last week we found by turning off all potentially vibrating devices, that the vibration is not causing this problem. As suspected before, the field wires are the problem: they are not seen by the sensor at some places. We have no problems with the old field wires. Caleb made several samples with wires marked in the problematic regions. It turned out Hall B is using exactly the same field wires but we are not aware if they had any problems with them. Important finding was that our field wires are only 2% of theirs, so if we need spare (since we have a little only) we may borrow from them.   
 
+
   
 
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- The new tool for gluing the rigid-flexes works reliably only with the tinned flexes. On the first two cathodes we used tinned ones, except at two places. Bill thinks it is the new foot that has to be modified to fix the problem, and will try to do it a.s.a.p. After that we will make again several samples and also work on the testing cathode to investigate the problem. Eugene insisted that before continuing with the production we have to make sure the tool works as before. All the samples that we investigate before were made with the old tool, that in principle we can also use but we had some problems with the foot attachment. 
 
 
- Encoder: Larry was yesterday at Blue Crab and offered us a replacement encoder from Renishaw for ~$2k, resolution of 0.5u. Bill will look into the technical data; also the mounting of the scale on the encoder rail will be tricky.
 
 
- Gussets for the production chamber package: Bill explained us his ideas for a tool that makes the gusset as one ring from carbon-fiber-glass material.   
 
 
  
 
== Electronics ==
 
== Electronics ==

Revision as of 23:40, 2 June 2011

June 2, 2011 FDC meeting

Agenda

  1. Production (Dave)
    • First chamber assembly
    • Cathodes
    • Wire planes
    • Other
  2. Engineering (Bill)
    • Rigid-flex gluing tool
    • Wire position measurements
    • Other
  3. Electronics update (Chris)
  4. Chamber testing (Beni)
  5. Other


Minutes

Participants: Bill, Dave, Chris, Beni, Glenn, and Lubomir.

Short meeting since most of the people are at Blue Crab every day and know what's going on; still we discussed some issues in more detail. For the outside people I added more info about the current status. After the meeting we finished the assembly of the first chamber layer, important milestone.

Production

- The first production chamber is being assembled right now. We have, from bottom to top on the assembly fixture: 9 empty cathode frames, end window (1mil mylar) with O-ring, cathode type 3 (0.5mil mylar with holes on the bottom and cathode foil on the top). Casey is putting now the O-ring on the wire plane that will be installed in the package right after the meeting. Then we will put the spacer ring (also ready except for O-rings) and then will put on the top the transparent lexan sheet. Later we will replace it with the second cathode (ready) and the second end window.

- Cathodes: we have the third (type 3) and fourth (type 1) cathodes mechanically ready, waiting for the rigid-flexes, on the fifth cathode (type 3) the mylar will be tensioned today. By tomorrow we will have also the second end window (2mil mylar) ready.

- Wire frames: the second wire frame is being prepared now for stringing. We have also the third wire frame laminated. On the test wire plane and on the first production wire plane we tried the new procedure, ultrasonic cleaning, and it worked fine. First the planes were cleaned with Vigon, then put in the ultrasonic tank filled with distilled water where they were rotated manually.

Engineering

- Rigid-flex pressing tool: today Bill and Casey did tests using pressure indicator paper. It showed that the issues we had with the un-tinned flexes are due to pressure not being equally applied on all the contacts. With the tinned contacts, due to increased thickness, the pressure was OK for all the test configurations. For the un-tinned contacts they tried several configurations: kapton tape only at one side of the connector (first two cathodes were done in such configuration), kapton tape over the connector, and without kapton tape. The best results were obtained with the kapton tape over the connector. In addition they tested the flatness of the shoe and turned out there's a gap in the middle. Bill will take the tool and will modify it in couple of days. In addition to make it flat, he will also reduce the width of the shoe that is now ~6mm; the first tool had 4mm shoe.

- Wire sensing problem: at the end of last week we found by turning off all potentially vibrating devices, that the vibration is not causing this problem. As suspected before, the field wires are the problem: they are not seen by the sensor at some places. We have no problems with the old field wires. Caleb made several samples with wires marked in the problematic regions. It turned out Hall B is using exactly the same field wires but we are not aware if they had any problems with them. Important finding was that our field wires are only 2% of theirs, so if we need spare (since we have a little only) we may borrow from them.


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