sample | Label | dimension | quantity | who | date |
Heaters single size | A19 | 21.3x20.5 | 9 | Marco | 3/21/19 |
Heaters single size | B19 | 21.3x20.5 | 9 | Marco | 3/21/19 |
Heaters quad size | C19 | 45x41 | 25 | Marco | 3/21/19 |
Heaters dummies for tests (wafer edges) | D19 | 45x41 | 20 | Marco | 3/21/19 |
Stavelets | 12-16 | (2 quad heaters per stavelet) | 5 | Marco | 2/20/19 |
Dummy Heaters Inventory (the table above is a screenshot of 3/22). The latest status is at
Resistance measurement of a single quad heater:
1.9 ohms
Spare heaters soldered at SLAC:
Resistance for the spare quad heater: 3.5 ohms
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 its 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)
This step are illustrated in the photos here (for the quad modules):
and for the single modules here: