Hi friends - still sick, feel like ass, but I did a lot of work recently, and if everything goes according to plan, within 2 more journal entries, I’ll be able to report on my very first hair removal test!

What I’ve been up to

This week was mostly board and circuit design. I just ordered two more circuit boards I designed, here they are:

Current pump, mk2

Schematic:

PCB:

3D PCB:

I talked about this one in Journal Entry #1 - since then, I received the board and the parts for mk1, and it works duck-dance

Technically, this means I can test hair removal on myself, but I’m going to try and wait until I have the new board, for a lot of reasons. Here’s what I changed:

  • Before, the current went out a current pump and went in to ground. If the current pump were to malfunction, it would cause more current than expected to leave the probe, which is a safety issue (not electrocution level, but possibly a scarring issue - very bad). I added a current sink hard-wired to 2 mA on the return of the current probe so that even if the current pump fails, the current sink will still cap the max current at 2 mA.
  • I added feedback so that I can measure the output current from a microcontroller. This is pre-work for the Sphynx Uno, and it can also be used as a safety measure - if the current goes too high, I can cut board power and flash an angry red LED as an error light.
  • I added a current knob! This is one more thing to test for the final version.
  • I broke out and very neatly labeled parts of the schematic so that this is an easier resource to learn from as an outsider.
  • I changed up some resistor values to make the current pump and current sink more stable.

My highly scientific outlook on this one is that there’s a 75% chance it works as intended first shot.

This is the board I’m going to use to test hair removal on myself (if it works)! If it works, there aren’t really any other current pump related changes to make and this one can get incorporated into the Sphynx Lite!

Digital timing, mk1

Schematic:

PCB:

3D PCB:

@macerated_baby_presidents@hexbear.net game me some really good feedback on this one in Journal Entry #2. I since figured out a better way to make the timer work by actually reading the manual for the part I’m using. This means the knob I’m using will actually be accurate and not have a dangerous failure mode! yay!

This one is a little less likely to be perfect on the first try - it is all new, unlike the current source, it’s also a little more complicated, and because of that, I’m giving it 40% odds to work on the first try.

When I get these two boards, if they both work as designed, I will be able to plug in a benchtop power supply, rig up some kind of weird holder for an electrolysis needle, and go for a spot of hair on my thigh I’ve been growing out for this moment! Journal entry 4 will probably be me designing and ordering the battery submodule, so journal entry 5 will be my first report of actual hair removal!

New Developments

We’re on git! Specifically sourcehut! https://git.sr.ht/~_410bdf/sphynx

It’s somewhat empty right now, it’s also especially clunky because I just set it up and all of my commits are just dumping in all of my files, but now people can actually look at my files and mess with them for themselves, or even contribute if there’s anything that anyone feels comfy adding!

Next up

As mentioned above, steady progess, waiting for boards to come in, making the battery board, and probably before the end of March I’ll be starting to get rid of some body hair. End of April is a very reasonable timeline for a beta version of the Sphynx Lite to be available for enthusiastic individuals to order, build, try, and review! We’re getting there!

Any ways to help?

Calls are out for a Sphynx logo for sure! Design review is always appreciated as well! Besides that, I’m just working through the early stuff, things are a little too turbulent at the moment for me to ask for much because things are moving too fast. Once I’m working on the Lite, it’d be SO sick if anyone artistically inclined would want to design some cool silkscreen for the Lite, maybe with a Blahaj, some trans/commie logos, possibly some original artwork - the possibilities are endless party-blob

This one’s a little terse because I’m sick and tired, but as usual, from last time - If you have any questions, please ask below! It doesn’t matter if they’re technical or non-technical, it doesn’t matter if you think they’re basic, dumb, not worth my time, or anything else - I want people to get excited about this and I would love to take the time to communicate the inner workings of this to y’all so that everyone can be included! I can’t guarantee I’ll reply to everyone but I’ll do my best to reply to comments that are asking something directly or I have something to add to!

  • 410757864530_dead_follicles [she/her]@hexbear.netOP
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    8 months ago

    the parts count growing is a little bit of a bummer, but you’d be surprised at how cheaply I’ve been finding things, my 5V LDO is like $3, the LTC6993 is like $4.50, and then everything else combined is less than $10, so we’re not breaking the bank yet. Total BOM cost can probably stay under $40 🤞

    in order:

    • really good point on the transients, I think they should be pretty tame given that every device on the way up the chain has bypass caps, the voltage is all regulated by LDOs and there’s no inductors around, not to mention that a sufficiently brief transient doesn’t really pose a health risk (too low voltage to cause electrocution, too brief to cause over-electrolysis), but that all said there’s definitely no harm in adding some output capacitance with a bleed resistor!
    • test points kitty-cri-screm i’m used to poking legs of ICs with needle probes but I thought I was gonna be better but I forgot boohoo this is what I get for working while I’m sick kitty-cri
    • the end product will be one single PCB! I’m just debugging with separate ones so I can iterate on different parts of the topology without having to rely on an omni-board for testing. Once the three boards (battery/power, timing, current pump) are done, I’m just gonna merge all the designs and route it as one very dense PCB, so in total I’m thinking smaller than a 3x5 card!
    • Wake [she/her, they/them]@hexbear.netM
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      8 months ago

      one very dense PCB

      Is there a reason to make it small and dense vs larger and more spread out? I would guess that the tighter the board is, the more difficult it will be to solder on components. And will heat management be a problem? How much heat do you think the components will generate? If there is a buildup of heat, it could warp or melt a 3d printed enclosure. PLA softens at 60C. So if it does generate heat, perhaps a header for a small fan would be a good addition.

      The small size does make it easier to find a suitable off the shelf enclosure, or print one. I think most printers have a 8"x8" build area at a minimum. So that gives you some room to make a larger PCB so long as cost isn’t a concern.

      • 410757864530_dead_follicles [she/her]@hexbear.netOP
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        8 months ago

        Hi thanks for engaging! trans-heart

        You honestly have a pretty good point about the board size, my original motivation was that ordering PCBs goes into price tiers - if I can keep it in a 100mm by 100mm square, it’ll be cheaper, but I think going up to 100mm by 200mm doesn’t add much more than a few bucks, so if it gets too cramped you’re right and I should definitely go up. Solderability is a real thing and you’ll hear some more about it when I make another post in a couple hours

        As for thermals, I think we’ll probably be okay in that regard, the whole board - LEDs, beeper, electrolysis front end, everything - should probably come in in the neighborhood of ~ 100 mW peak and ~20 mW average, so thermally it’s pretty chill and heat buildup won’t be too much of an issue - good looking out though!