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LBNL PowerPoint Slides

 

 

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sampleLabeldimensionquantitywhodate
Heaters single sizeA1921.3x20.59Marco3/21/19
Heaters single sizeB1921.3x20.59Marco3/21/19
Heaters quad sizeC1945x4125Marco3/21/19
Heaters dummies for tests (wafer edges)D1945x4120Marco3/21/19
Stavelets12-16(2 quad heaters per stavelet)5Marco2/20/19

Dummy Heaters Inventory (the table above is a screenshot of 3/22). The latest status is  at

https://docs.google.com/spreadsheets/d/1sRQGOEt-tPp5GND5u0Be2pRa7I8mnm7PT83Qhs2TdIk/edit?invite=COHc_pQK&ts=5c952d67#gid=0

 

Resistance measurement of a single quad heater:

1.9 ohms

Soldering Procedures

List of Materials:

1. Using cobar core solder 63/37 (Sn64 Pb37) type with flux core or.... the type of solder makes too much difference. 
The diameter of the wire needs to be small 0.012" to 0.020".

2. The solder wick is either Solder-Wick by Chemtroncs. Or Hex-Wick by Hexacon Electric Co.  

3. Liquid flux for between the wick and silicon. 
The liquid flux defines where the solder will flow.  Don't get the flux anywhere you don't want solder.  

4. Alcohol for cleaning the flux from the fixtures after the soldering. A wood toothpick and cotton swab is useful to rub off some of the remaining flux. 
Also, rinse the remaining wick with alcohol as it contains dry flux and looks nicer when it's cleaned off.

5. Heaters

6. Fixture to hold heaters and fixtures

7. Hot plate (to achieve 220C)

8. Protective equipment

 

Cobar core solder 63/37 type with flux core

 

 

 

Solder-Wick by Chemtroncs (Left). Hex-Wick by Hexacon Electric Co. 

 

List of Steps

(use photos for reference -  NOTE: the "single" and "quad" modules are used interchangeably in the photos)

  • Place heaters in the fixtures
  • Align 2 solder wicks across the edge of the heater and hold them in place with the aluminum bar
  • Fasten the aluminum bar down with the screw to keep the wick from moving

This step are illustrated in the photos here (for the quad modules):

 


and for the single modules here:




  • Once in the heater is assembled into the fixture place it on top of the hot plate
  • Bring the hot plate up to 220 C


  • When the aluminum fixture reaches the temperature of the hotplate: apply flux to the area between the solder wick and the heater
    • Try to keep the flux contained to the location where the solder will go ("Don't get the flux anywhere you don't want solder")
  • Apply the solder to the area between the solder wick and the heater. (the solder wick should be 0.03 inches in diameter, the solder wire should be between 0.012 and 0.02 inches in diameter
  • Once the solder is applied, turn off the hot plate and remove the fixture with the heater
    • Wear protective gear!! Be careful: do not to touch the hot plate!!
  • Let the solder cool

  • Once the solder is cool clean the flux away with alcohol and a wooden q-tip stick

  • Once complete the heater with the soldered on wicks will look like this:

Timed Process for mass implementation

  1. Hot plate [10 mins to heat up + 10 mins to stabilize]

    1. Turn on high setting.

    2. Attach the thermal sensor to the aluminum rectangle ( below the washer)

    3. Place the rectangle on the hot plate - make sure the wires don't bend and the electrical tape doesn't touch the aluminum.

    4. In 10 mins check the temperature and if ~ 250 ℃ - turn the hot plate to 3.5 and let stabilize (fluctuations of ± 2 ℃)

  2. Fixture setup [4-6 mins]

    1. Clean the fixture ethanol

    2. Lightly screw in the rectangles to the fixture

    3. Cut the solder wick into ~8cm lengths

    4. Set initial wire positions 

    5. Place the heater in the fixture in the right orientation (using a vacuum pen?)

    6. Tighten the screws making sure the wires are in the right position

    7. Clean the heaters with ethanol

  3. Soldering [5 mins + 6 mins - actual soldering ]

    1. Check the temperature ~ 245 ℃

    2. Using 2 pliers place the fixture with the heaters on the hot plate

    3. Wait ~4 mins for the fixture to come to the right temperature (it smells funky and smokes a bit)

    4. Using the <0.02” diameter solder perform the actual soldering - be careful not to over solder


  4. Clean up  [15 mins]

    1. Pick up the fixture with 2 pliers and place on the aluminum sheet

    2. Wait 2 mins for the fixture to cool down

    3. Use ethanol to clean up residue (napkins and Q-tips)

    4. Undo the screws and rectangles

    5. Remove the heater carefully (maybe vacuum pen will help here?) Sometimes the soldering makes the heaters stick to the fixture.

    6. Place the heater in the wax cover and measure the resistance

    7. Clean the fixture again to get it ready for the next heater.


Issues/Suggestions

  1. How to avoid over soldering? Practice?

  2. Speckles on the heaters after soldering - What are they?

  3. Maybe some kind of support for Thanh?

  4. How to label the heaters to record the resistance measurements? Mark the wax paper

Tests Performed

Test 1: May 2nd (Successful) [Spare Heater 1]

Spare heaters soldered at SLAC:

1st quad heater solder job:

Resistance for the spare quad heater: 3.5 ohms

Test 2: May 13th (Successful)  [Spare Heater 2]

Resistance - 3.4 ohms

Issues -

  1.  Speckling on the heater surface - Remained even after cleaning the surface with Alcohol - Maybe the flux spluttering and then baking on the heater surface
  2.  Over Soldering - We requested Tan to use lesser solder in the process. Could also be because there was a small gap between the wick and the heater surface causing the solder to flow. 

 

Test 3: May 14th  (Not successful)  [Spare Heater 3]

 The wick just came off the heater without any force 

 

Test 4: May 15th (Not successful) - Re-did the same heater as the above.  [Spare Heater 3]

same issue - Wick just came off the heater. 


Test 5: May 16th (Successful) - Re-did the same heater as above.  [Spare Heater 3]

Why did it work this time?

  • The heaters have a preferred side - There seems to be a blueish grey tinge on one side while the other is much more reflective. All the failed tests were set up to be soldered on the highly reflective side. The speckling from the flux that happened in the first 2 tests didn't happen on the "blue" side.
  • Thanh soldered in between the wick and the heater

Issues - during the failed tests, the reflective side placed on the bottom was scratched. 

 

Test 6: May 16th (Successful)  [Spare Heater 4]

 Resistance: 3.1 ohms

 

 

Test 7: May 22nd (Successful)  [Spare Heater 5]

 Resistance: 2.8 ohms

Test 8: May 24th (Successful) [Spare Heater 6]

Resistance: 3.5 ohms

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