Difference between revisions of "PCB Etching"
(Added tutorial link) |
(Added sodium persulfate instructions from workshop) |
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* Cost | * Cost | ||
* Make a lot of dust | * Make a lot of dust | ||
− | |||
PCB Etching using toner transfer method: | PCB Etching using toner transfer method: | ||
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* Need an insolation box | * Need an insolation box | ||
* Number of step for the process | * Number of step for the process | ||
− | |||
== Components == | == Components == | ||
Line 41: | Line 39: | ||
===Parts=== | ===Parts=== | ||
− | *Uv light (UV LED strip or DIY UV LED fixture?) | + | * Uv light (UV LED strip or DIY UV LED fixture?) |
− | *Pre-coated photoresist positive pcb | + | * Pre-coated photoresist positive pcb |
− | *Lye (NaOH) | + | * Lye (NaOH) |
− | *Ammonium persulfate | + | * Ammonium persulfate (or Ferric Chloride, available at Fixme hackerspace) |
===PCB Layout=== | ===PCB Layout=== | ||
Line 57: | Line 55: | ||
Remove the plastic protection on the PCB. Place the printed side of the layout against the copper side of the PCB. Remove the air bubbles captured under the greased paper | Remove the plastic protection on the PCB. Place the printed side of the layout against the copper side of the PCB. Remove the air bubbles captured under the greased paper | ||
− | Place the PCB & Layout inside the exposure box. Then let the UV light do the work for | + | Place the PCB & Layout inside the exposure box. Then let the UV light do the work for 2 minutes 30 seconds ''This is a '''completely arbitrary''' timing, we should test different values'' |
Remove the PCB & Layout from the exposure box | Remove the PCB & Layout from the exposure box | ||
Line 70: | Line 68: | ||
===Etching=== | ===Etching=== | ||
− | The etching solution is a 200g/L ammonium persulfate mix. | + | The etching solution is a 200g/L ammonium persulfate mix (or Ferric Chloride). |
The etching process can take to over an hour. To speed up this shit, you can add heat and/or bubbles to the solution. | The etching process can take to over an hour. To speed up this shit, you can add heat and/or bubbles to the solution. | ||
Line 77: | Line 75: | ||
The reaction is (NH_4)_2 S_ 2 O_8 -> CuSO4 + (NH4)_2 SO. The resultant liquid is less harmful than ferric chloride but should still be treated with other chemical waste | The reaction is (NH_4)_2 S_ 2 O_8 -> CuSO4 + (NH4)_2 SO. The resultant liquid is less harmful than ferric chloride but should still be treated with other chemical waste | ||
+ | |||
+ | == Photoresist etching with Sodium Persulfate == | ||
+ | # Print inversed PCB on two layers of transparencies, and make sure that there is visible text to be able to identify the side later | ||
+ | # Place glossy side of transparency on the glass of the UV exposure box, and the matt side (with the toner) face up - you should be able to read the text inverted now | ||
+ | # Peel back the protective film from the pre-sensitised PCB, and carefully place it over the transparency | ||
+ | # Expose for ~3 minutes (time needs to be experimented with still), with a weight (such as one of the bottles) on the cover for pressure | ||
+ | ## Whilst the PCB is getting exposed, pour 1cm worth of soda (french: soude) into a container | ||
+ | ## Prepare another container with just water, to rinse of the soda | ||
+ | # Remove PCB from UV exposure box, and place into soda solution. Stir and agitate until the soda and PCB until there are no more violet traces that leave | ||
+ | # Remove PCB from soda solution, and rince off with water in other container - use plastic tweezers to handle it | ||
+ | # Attach PCB to support wire, and place the PCB into the Sodium Persulfate solution, and wait until you can see the resin (should take ~20 minutes) | ||
+ | ## Whilst waiting, pour the soda back into its bottle, and rinse the containers | ||
+ | # After you can see the resin, remove the PCB before the traces get etched away, and rinse it off | ||
+ | # Pour Sodium Persulfate back into its container and clean up | ||
+ | |||
+ | (photos to come) | ||
== Safety == | == Safety == | ||
Line 95: | Line 109: | ||
* [[PCB_Fab]] | * [[PCB_Fab]] | ||
* [http://www.engscope.com/pcb-fab-tutorial/ Fairly in depth tutorial] | * [http://www.engscope.com/pcb-fab-tutorial/ Fairly in depth tutorial] | ||
+ | * [http://nononux.free.fr/index.php?page=elec-brico-outils#!elec-brico-outil-largeur-piste-pcb Outil de calcul de largeur de pistes] | ||
== Participant == | == Participant == |
Latest revision as of 00:10, 31 January 2015
Contents
Description
A logical extension to the Kicad workshop (electronics design) is to realize the designed PCB. There are 3 ways to produce PCBs at FIXME (with the required components):
- PCB Milling with a CNC Router
- PCB Etching using toner transfer method
- PCB Etching using the photosensitive positive method
Goal
- Make custom PCBs for FIXME members and projects.
Obstacles
PCB Milling with a CNC Router:
- Cost
- Make a lot of dust
PCB Etching using toner transfer method:
- Use chemicals requiring precautions for use
PCB Etching using the photosensitive positive method:
- Use chemicals requiring precautions for use
- Need an insolation box
- Number of step for the process
Components
- Iron(III) chloride / Perchlorure de fer Corrosive!
or
- HCl + H2O2 / Acide chlorydrique + Peroxyde d'Hydrogène (eau oxygénée) => HCl+H2O2 method on Hackaday
"Toner transfer" PCB etching
- http://www.riccibitti.com/pcb/pcb.htm
- Test print design : [1]
Photoresist PCB Etching
Mainly inspired from [2]
Parts
- Uv light (UV LED strip or DIY UV LED fixture?)
- Pre-coated photoresist positive pcb
- Lye (NaOH)
- Ammonium persulfate (or Ferric Chloride, available at Fixme hackerspace)
PCB Layout
The pcb layout should be the positive (black parts are where copper will stay) and *mirrored* image, full size (1:1) of the layout.
This layout is printed on standard paper with a laser printer (or copier) and set the toner density to the maximum value. This will make the black part really dark so the light can not pass trough.
The paper is then drenched in a 'drying' oil (like sunflower seed oil). This will make the white parts of the paper transparent. Remove the extra oil carefully.
Exposition
Remove the plastic protection on the PCB. Place the printed side of the layout against the copper side of the PCB. Remove the air bubbles captured under the greased paper
Place the PCB & Layout inside the exposure box. Then let the UV light do the work for 2 minutes 30 seconds This is a completely arbitrary timing, we should test different values
Remove the PCB & Layout from the exposure box
Remove the the layout paper (if you want to reuse it, you can dry it)
Development
We use a 1% Lye (Sodium Hydroxide = NaOH) solution for development. (Add 10 grams of Lye to a liter of water)
To know if the development process is finished, take a look to the traces. They should be clearly distinguishable.
Etching
The etching solution is a 200g/L ammonium persulfate mix (or Ferric Chloride).
The etching process can take to over an hour. To speed up this shit, you can add heat and/or bubbles to the solution.
The solution should take a blue to deep blue hue.
The reaction is (NH_4)_2 S_ 2 O_8 -> CuSO4 + (NH4)_2 SO. The resultant liquid is less harmful than ferric chloride but should still be treated with other chemical waste
Photoresist etching with Sodium Persulfate
- Print inversed PCB on two layers of transparencies, and make sure that there is visible text to be able to identify the side later
- Place glossy side of transparency on the glass of the UV exposure box, and the matt side (with the toner) face up - you should be able to read the text inverted now
- Peel back the protective film from the pre-sensitised PCB, and carefully place it over the transparency
- Expose for ~3 minutes (time needs to be experimented with still), with a weight (such as one of the bottles) on the cover for pressure
- Whilst the PCB is getting exposed, pour 1cm worth of soda (french: soude) into a container
- Prepare another container with just water, to rinse of the soda
- Remove PCB from UV exposure box, and place into soda solution. Stir and agitate until the soda and PCB until there are no more violet traces that leave
- Remove PCB from soda solution, and rince off with water in other container - use plastic tweezers to handle it
- Attach PCB to support wire, and place the PCB into the Sodium Persulfate solution, and wait until you can see the resin (should take ~20 minutes)
- Whilst waiting, pour the soda back into its bottle, and rinse the containers
- After you can see the resin, remove the PCB before the traces get etched away, and rinse it off
- Pour Sodium Persulfate back into its container and clean up
(photos to come)
Safety
Equipment:
- Gloves
- Goggles
- Lab coat
Docs:
- Iron(III) chloride / Perchlorure de fer : (de) Sicherheitsdatenblatt (fr) Fiche de sécurité
- Stop using Ferric Chloride etchant : [On instructables]
Schedule
- 13 décembre 2012: First workshop [Doodle ]