*finally* some pictures of a real life board produced using this purpose.
This is the second real-life board, I have photos on my phone of the first, but this one was actually planned rather than being drawn up on the spur of the moment
The board itself is a combination of a buck SMPS and a flash trigger.
Here's the Circuit
I don't have the PCB layout or the dxf file produced from that to drive the laser printer at this stage. Let me know if you're interested.
The board was painted with two light coats of water based matt black acrylic. (I wanted an even coverage without runs). Due to time constraints the paint was dried using a hairdrier.
The laser cutter is an LG500. The settings are 100mm/s at 90% power with 45% corner power. These settings are significantly above the minimum required, but will ensure a good cut even if there is a blob of paint.
The width of the cut was assumed to be 0.4mm and the design rules were such that the closest permitted spacing was 0.45mm.
Three sets of milling files were produced, for cut widths of 0.4, 0.7, and 0.95mm. These were later combined so most paths were cut three times producing a wide clearance. (Incidentally, you might ask why those figures? the answer is that 1mm produced a weird cut that missed a lot of the pads, and 0.4/0.95 seemed to risk a small gap between the cuts (in retrospect it wouldn't)).
I don't have a picture of the board prior to etching, but here is the etched and mostly drilled board with the paint still on it.
The board here is untrimmed. the extent of the board was marked by a very thin line around the edge. Part of it survived the etching.
Holding it up to the light it looks like this:
I'm pretty happy with that. Spot the hole I didn't drill!
After trimming I made sure that everything actually fit.
And as an added bonus the box fitted like a glove (I was worried I had not allowed sufficient for the angled sides of the box)
Here's another view of the other side of the board prior to removing the paint, and with the holes drilled to their final sizes.
And then after cleaning
And then after the surface mount components were soldered in place:
Yeah, I know, it's a very poor job. It's a very good idea not to leave your solder paste out with the lid removed. It was, shall we say, "non-optimal" in consistency.
Also note that the resistor at the bottom doesn't fit the pads :-( And also that there are some solder bridges that I later removed.
And if you're wondering at any choices of components, they were simply what I had on hand. Yeah, I realise that an air core inductor is less than typical for a SMPS, but it's the only one I had that I didn't have to fear the core saturating.
For those interested in the PCB layout, notice the star ground and the Kelvin measuring of output voltage.
