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# Prototype PCBA Manufacturing
This documents free software and open source hardware manufacturing
of PCBAs (Printed Circuit Board Assemblies).
Focus is particularly on tools that can be used with hackerspace-
level technology.
# Software
Various Free Software (as defined by FSF) applications available
for the creation of PCBAs.
## Debian
The below packages are in Debian Buster. Note, even though it is in
Debian, you may want to build some of these packages from scratch
since the version in Debian is old. Debian `backports` maintains
an up to date KiCAD.
The following are in use in the current production toolchain:
* `freecad` --- Visualization of PCBAs and more. 3D CAD application.
* `inkscape` --- vector-based drawing program.
* `kicad` --- Electronic schematic and PCB design software.
The following are NOT in use:
* `electronics-pcb` --- Debian packages for PCB development (meta package).
* `fritzing` --- Easy-to-use electronic design software.
* `geda` --- GPL EDA -- Electronics design software.
* `gerbv` --- Gerber file viewer.
* `lepton-eda` --- Lepton Electronic Design Automation.
* `pcb` --- printed circuit board (pcb) design program.
* `pcb2gcode` --- command-line tool for engraving PCBs using CNCs.
* `pcb-rnd` - Modular Printed Circuit Board layout tool.
* `visolate` - tool for engraving PCBs using CNCs.
## Electronic Design Automation (EDA)
To design PCBs, KiCAD is used.
Export Gerber files for manufacturing.
# PCB Manufacturing.
You can make your own PCB or have them made by numerous suppliers.
Recommended suppliers (amongst many):
* OSHPark --- Strong FLO supporters, high quality, quick turn, USA.
* DirtyPCBs --- Lowest possible cost out of Shenzhen, China.
* ProtoExpress -- Quick turn, high quality, high cost, USA.
* Many others that also support KiCAD!
## Board Types and Features
FR1, FR4, etc.
## Copper Layer
Cu later.
## Soldermask
Green...
## Silkscreen
White...
## Standards & QC
cf. NASA Standards.
# Assembly
You can have a board assembled by a house such as ProtoExpress,
or you can assemble it yourself. There is an endless variety of
DIY approaches to this. This you have the PCB finished. You need to:
* Source components.
* Place components.
* Solder Components.
## Placement
The many ways to place a part...
* Fingers.
* Tweezers.
* Vacuum.
* Pick and Place.
What method is used depends on the type and size of the part
and what equipment is available. We'll be working with SMT,
BGA, and through hole parts.
## Solder Paste
To solder SMT parts to
## Solder Wire
## Heat
You need to melt that solder...
* Solder Iron.
* Skillet.
* Oven.
* Hot air pencil.
* Hot air bath.
# PCBA Testing
Pins.
# Equipment
## LASER
LASERS can serve a few purposes in manufacturing PCBAs.
Inexpensive LASER cutters are available at many hackerspaces.
Inexpensive LASERs can be retrofit to RepRap 3D printers.
* Cut solder paste stencils.
* Etch paint, which is then chemically etched.
* Board marking, such as serialization.
## CNC
Large CNCs are overkill for PCBA assembly.
Very small CNCs can be used.
CNCs are available at many hackerspaces.
CNCs can be used to:
* Engrave PCB.
* Drill PCB holes.
## 3D Printer
RepRap 3D printers are available at many hackerspaces.
3D printers can be used to:
* Make CNC fixtures.
* Make board holding fixtures.
* Make other tools, etc.
## Solder Station
Solder station tools:
* Soldering iron.
* Hot air pencil.
* Hot air bath.
* Fume extrator.
* PCB holder.
* Lights.
* Magnification.
* Solder paste dispenser.
* Vacuum pencil.
* Oven.
* Heat plate.
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