PCB etching instructions: Difference between revisions
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Follow instructions on the notice, but the board is done when all the exposed copper is removed. The balance is removing too much copper and getting breaks in traces vs not enough and some small closely laid traces may have bridges. You are looking for clean edges to your traces - not wobbley "chewed" looking edges. | Follow instructions on the notice, but the board is done when all the exposed copper is removed. The balance is removing too much copper and getting breaks in traces vs not enough and some small closely laid traces may have bridges. You are looking for clean edges to your traces - not wobbley "chewed" looking edges. | ||
After this stage you should rinse the board in water before touching it with your hands, and stripping the photo resist. | After this stage you should rinse the board in water (using the integrated spraying slots in the etching station) before touching it with your hands, and stripping the photo resist. | ||
=== Stripper === | === Stripper === |
Revision as of 12:57, 15 June 2014
Note : see Pcb for other references
PCB Etching Process
Here's the overall process for producing PCBs @ LHS
<graphviz border='frame' format='svg' >
digraph rfboard{ rankdir=TD; size="14,9!";
cleaning [label="Copper board cleaning",shape=box,style=dashed]; photoresist [label="Photo resist coat",shape=box,style=dashed]; resist_cure [label="Photo resist curing",shape=box,style=dashed];
breadboard [label="Breadboard",shape=box]; board_layout [label="Board schematic",shape=box]; uv_exposure [label="UV exposure",shape=box]; develop [label="Develop (Tank A)",shape=box]; etch [label="Etch (Tank B)",shape=box]; strip [label="Clean (IPA) ",shape=box]; drill [label="Drill",shape=box]; solder [label="Assemble and solder",shape=box];
breadboard-> board_layout [label="Fritzing"]; board_layout-> uv_exposure; cleaning->photoresist; resist_cure -> uv_exposure; photoresist->resist_cure; uv_exposure->develop; develop->etch [label="Spray wash"]; etch->strip [label="Spray wash"]; strip->drill [label="Spray wash, dry"]; drill->solder;
} </graphviz>
Photo Sensitive Board
It is possible to sensitise your own board by getting a coper clad board, cleaning and coating it with photo-resist and allowing it to cure. However it's vastly easier just to buy some.
See Pcb_etching_instructions#Results_people_found_with_materials.2Fcompounds for a list of known good materials.
You may want to try:
- Photoetch PCB (Rapid)
- FPC 16 (various options there, FPC 16 seems to be the cheapest)
NOTE : the developer is from Mega Electronics, also sold through Rapid. It works well with photo PCB material from the same source. It does NOT work with Maplin photo material !
Printing Board Schematic
Plain paper works surprisingly well! The printers at the space do a good job.
If you use eagle, you can use the print option (as opposed to exporting an image). Print on normal paper first and check dimensions on some components.
Some people get better (resolution mostly, especially for SMT designs) results with acetate, but this needs to be special laserable acetate (which we have, kept with the UV Exposure kit!). Do NOT use normal transparency! Melting a sheet onto a fuser is expensive!
If you want to get really upmarket, you could try Mega LaserStar transfer film (for printing with a laser printer of some sort). Hugely expensive, but does take on plenty toner and produces excellent results.
Double Sided Boards
There's a couple of extra steps required for two-sided boards:
- Print both sides out on separate sheets (or cut one sheet in half), one of them mirrored
- Align the two sheets and staple them together to retain registration
- Cut them to size so that they are slightly smaller than your photo PCB material.
- Remove the protective film on both sides, place the PCB between the two transparencies leaving a slight overhang, and tape the PCB to the transparency. so it does not move when you flip it during exposure!
See also Double sided boards
UV Exposure
Use the UV Exposure Box to expose a photosensitve board.
Make sure your print is the right way round so that your board isn't back to front when it's etched!
5 minutes with acetate and something like 15 with paper. The uv board should look green with faint lighter green traces where your traces are.
Ensure that there are no creases or folds, and that your paper/film is perfectly flat against the photo board!
Developing
Put the board in the developer (tank A). Developer does not need to be heated to above room temperature to remain effective. Developing should take around 30 seconds to a minute or so - but check on the board to see when it is complete. All of the copper to be removed should be exposed, and only your tracks should remain coloured ( probably green for UV exposure board).
You may wish to give the board a rinse (using the integrated spraying slots in the etching station) after this stage.
Etch
The Cupric Chloride etchant is in tank B
Follow instructions on the notice, but the board is done when all the exposed copper is removed. The balance is removing too much copper and getting breaks in traces vs not enough and some small closely laid traces may have bridges. You are looking for clean edges to your traces - not wobbley "chewed" looking edges.
After this stage you should rinse the board in water (using the integrated spraying slots in the etching station) before touching it with your hands, and stripping the photo resist.
Stripper
The stripper is in Tank C
The stripper removes the photo-resist left over after etching. Use the stripper for the specified time then scrub the black off and you should have nice copper traces! Use a multimeter to check for bridges.
After this stage, you may want to rinse the PCB in clean water, and then IPA.
Milling / Drilling
Normal drill press probably not ideal (not immune enough to wandering!).
You could use the Dremel stand (on the shelf outside the wood workshop) to drill holes more precisely.
May not have the original dremel, but other (green and blue) rotary tools fit as well.
Test / Assembly
If you're doing a double sided board, you'll need to solder up your vias first (we have no through hole plating facilities). A bit of solid core wire works well for this.
See also
More info on the process, including photos of an SMT breakout board
Results people found with materials/compounds
Name | Date | PhotoResist source (Rapid photo resist spray/pre sentesized deluxe board?) | UV exposure stencil used (paper/acetate?) | Exposure time | Develop time | Etch time | Notes |
---|---|---|---|---|---|---|---|
mentar | 3/4/2014 | Farnell presentesized epoxy glass FR4 board | Plain paper | 2 | 5 | 12 | First run in the new space |
Miguel | 13/5/2014 | white, single sided presentesized board (space stock) | Laserable acetate supplied and printed on by local printshop (£1.50) | 3 | 1.5 | 8 | Professionally printed acetate |
For those wanting to get training
If you want more traning please add yourself to the list here and there'll be another workshop
Name |
---|
Liam Lynch |
Rob Kam |
Bradley Wood |
Ian Lewis (Ianadan) |
Jiri Richter |
Nathan Spence |
Colin Cooper |
Matt Camp |
Ertion Axha |
Chris Roberts |
Daniel Garrido |
Owen Smith |