Difference between revisions of "Assembly"

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Tag: Reverted
Tag: Manual revert
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[[File:Overview.jpg|500px|left]]<br clear=all>
'''Requirements (not pictured above):
#  Solder Iron
#  Solder
#  Flux
#  3D Printer
'''
'''3d Print – STL Fileson github repository or bcmeter.or<br>
'''
A: Upper Case<br>
B: Lower Case<br>
C: Intake manifold<br>
D: LED/Sensor holder<br><br>
'''Order (links for convenience, parts are off-the-shelf available)<br>
'''
F: PCB from pcbway.com, jlcpcb.com  or anywhere else (~$20) – find gerber files on github repository or bcmeter.org<br>
G: Components from mouser.com or anywhere else  (~$40) – shopping cart to import on mouser on github repository or bcmeter.org<br>
H: Order filter papers (~$50) – Pack of 50 sufficient for at least 1000 samples. Type TBD, tested with T60A20 – ask local labs for availability<br>
I: Additional material:<br>
* Hot Glue ~$7
* Rubber band (SHORE A) for sealing ~$11
* M3 Screws ~$3
* M3 threads ~$7
* microSD Card (4gb+)
40 Pin Header (optional for plug the Hat)
J: Order membrane pump (~$160) - here (TBD – cheaper solution may be available soon)
STL for 3D Printing (SLA or FDM) attached. Print on any 3d printer or send to any service provider. Use black filament / resin. If possible, use flex filament or mix resin with flex resin.
200g Resin / FDM ~ $5-$10<br>
Assembly Instructions<br>
Current version is designed for absolute simplicity so as little as possible SMD components and parts with large footprints are used. Start assembling by soldering the smalles parts first (MMBT3904 + MCP3426). Then add THT passive parts piece by piece according to description on the PCB and the BOM.
Current version is designed for absolute simplicity so as little as possible SMD components and parts with large footprints are used. Start assembling by soldering the smalles parts first (MMBT3904 + MCP3426). Then add THT passive parts piece by piece according to description on the PCB and the BOM.



Revision as of 16:37, 7 July 2021

Overview.jpg


Requirements (not pictured above):

  1. Solder Iron
  2. Solder
  3. Flux
  4. 3D Printer

3d Print – STL Fileson github repository or bcmeter.or
A: Upper Case

B: Lower Case

C: Intake manifold

D: LED/Sensor holder


Order (links for convenience, parts are off-the-shelf available)
F: PCB from pcbway.com, jlcpcb.com or anywhere else (~$20) – find gerber files on github repository or bcmeter.org

G: Components from mouser.com or anywhere else (~$40) – shopping cart to import on mouser on github repository or bcmeter.org

H: Order filter papers (~$50) – Pack of 50 sufficient for at least 1000 samples. Type TBD, tested with T60A20 – ask local labs for availability

I: Additional material:

  • Hot Glue ~$7
  • Rubber band (SHORE A) for sealing ~$11
  • M3 Screws ~$3
  • M3 threads ~$7
  • microSD Card (4gb+)

40 Pin Header (optional for plug the Hat) J: Order membrane pump (~$160) - here (TBD – cheaper solution may be available soon)

STL for 3D Printing (SLA or FDM) attached. Print on any 3d printer or send to any service provider. Use black filament / resin. If possible, use flex filament or mix resin with flex resin. 200g Resin / FDM ~ $5-$10


Assembly Instructions

Current version is designed for absolute simplicity so as little as possible SMD components and parts with large footprints are used. Start assembling by soldering the smalles parts first (MMBT3904 + MCP3426). Then add THT passive parts piece by piece according to description on the PCB and the BOM.


  1. Place IRL81A (IR Emitter) and LPT80A (Sensor) in adapters D and E, seal with hot glue and solder wires to the corresponding vias on the PCB. Long leg is anode (positive).
    Sensor-emitter-brackets.jpg

  2. Place adapters D and E in the case A and B. Emitter to top case. Seal with (hot) glue or tape.
    Brackets-in-lower-case.jpg

  3. Put pump in place and do a test run for leakage.
    Pump.jpg