I'm really happy I don't have enough space for that stuff. Otherwise I would be poor. It's hard enough to keep myself from buying another old computer.
Mine is pretty basic but is built on the shoulders of giants. Also that $20 was from pre-pandemic / pre-chip shortage prices. I’m guessing it’s more like $35 now, or maybe high $20s from ali express.
I use Home Assistant for home automation. It has a now official addon called ESPHome for easily configuring esp devices and adding them to Home Assistant.
I bought some cheap dev boards off amazon and thankfully they worked
an esp8266 microcontroller with IC2 headers and a microusb port already onboard
a bmp280 that measures temp, humidity, and barometric pressure
a lux sensor with a plastic dome over the top
I soldered them together on a prototyping board
All the components were supported by esphome, so I just needed to write the device config and then flash the devboard via esphome (in a web browser) over the built in usb.
I 3d printed a housing for it, but you can also buy boxes. It needs airflow but also needs to stay dry. You can use a spray sealant to help avoid corrosion from ambient humidity. I skipped that step because I want to see how quickly it becomes problematic… and I should probably check on that.
Can you recommend any good soldering gear for an intermediate level? I've done plenty of soldering over the years but have always used crappy low end products. It's always been a struggle to properly do a clean-true solder (not just heating the solder like I see everywhere) even though I try to meticulously maintain my equipment. I'm hoping that it's just the equipment I use and a higher end one will make things a breeze like I see the professional's use.
It's really a pain in my ass. On top of maintaining the equipment I have whole setups I've constructed to hold wires and equipment snugly so I can properly apply heat. I purchased a high temp kit but it's cheap as well and still sometimes run into the same problem, with the smaller components and projects though I'm afraid to use it and overheat something that can't handle it.
get one with easily swapped tips... Of an industry standard size. It's super helpful to have multiple tip sizes
clean your tip with brass sponge!!!^1
cheat mode: use liquid solder flux, Kester 2331 ZX
follow Sparkfun's soldering tutorial.
1 I taught a bunch of elementary kids how to solder. We only had water sponges and within minutes nobody could solder right. I had one brass sponge and it made instant difference. Now the tip could actually conduct heat properly. It is seriously an unexpected total game changer.
As for the brand... Whatever Sparkfun or Adafruit is selling is legit but more budget friendly. I took a look and Sparkfun has some good options from Weller.
I got a Weller WS81. It's been good except the first wand didn't like too much side pressure (user error really). Otherwise it's been totally solid for years. They cost a lot less when I got it. Yikes. Get the cheaper WE1010 or the other red one.
An Aoyue might be ok. My Aoyue hot air rework station has been solid for the past several years assembling several hundred boards.
PS as an experiment I once tried using a dollar store soldering iron... Cheap POS. No temp control. As long as I used a brass sponge it was easy to use.
I'm not really the right guy to ask - I don't have that much soldering experience, and I'm a broke college student - but I've found the Pinecil to be Pretty Good™ for my use case of "occasionally soldering things to microcontrollers."
It accepts power over USB-C, so no need for a bulky (and expensive) base station like a Hakko or Weller. (You do need an AC adapter capable of pushing 65W PD, but if you're into electronics you probably already have something like that just lying around.) Proper temperature control is also nice compared to the cheap "plug and go" irons.
YMMV, I upgraded to it from a Home Depot butane iron (yes it was as bad as it sounds) so...
Pinecil works OK for small things, but struggles on larger joints because of it's low power and small thermal mass. Personally, I'd prefer one of the many Hakko/Weller clones for a cheap solution.
Thermal mass is a valid concern, but the v2 can pull 100w from an appropriatly beefy usb-c adapter, and 200w+ from one on the new usb-pd spec (testing is ongoing for that though)
I would totally recommend a good precision pencil-style iron. They are somewhat expensive (400$ to 600$), but super nice and easy to use. All the power supply and control electronics is in the base, making the actual iron super light and easy to use, furthermore the hot part is tiny, so it's much easier to avoid touching it when doing fine work. Despite the small size of the hot end, they do very well on large parts, and are able to heat up instantly.
Same. I'm lucky for software to be my hobby/career. It's practically free. Contrary to popular misconception, it doesn't require any kind of special or more powerful hardware (for most dev, at least). Maybe $150 for a second monitor, for sanity, but that's not actually necessary.
...I mean, I do have good hardware too, but that's for my gaming hobby, not my software hobby.
To be fair, if C++ or Rust is your thing... let's just say I'd have a Threadripper if they weren't five grand.
I once had to (repeatedly) compile a C++ codebase on some Lenovo shitbook. It ended up being so infuriating (thirty seconds, minimum) that I wrote a few load-bearing shell scripts to rsync everything to my desktop, build it, and copy the binary back... which was ultimately about five times faster.
Man, I wish I could have just used MicroPython for that project.
Lol I feel ya. I ended up making and selling electronics kits to fund the hobby somewhat.
I have been using cheap vintage oscilloscopes the whole time.
Not sure what they go for now but $100 for a 20MHz scope and $200 for a 100MHz was what it was several years ago. Cheapest I got off a buddy for $40. I am still using that one.
Sometimes I fix broken ones and sell them. One time I got one that they thought was broken but turned out it was just the basic settings. I like trying different ones so I have gone through a dozen or so by now.
Now* that I think about it, o-scopes are a whole other hobby lol.
Anyway. Yeah by the time you get the test gear and enough sensors and microcontrollers and whatever it adds up.
Right now I'm working on a power supply design for a 50W class D stereo. Found out big toroidal transformers are not cheap. Oof. And enclosures big enough (especially if labeled "amplifier" or "stereo") are ridiculously spendy.
My next step is custom boards and smds, and an oscilloscope seems like a good way to diagnose when reflow goes wrong. I already have had some fights with I2C using dev boards. But really I'm eyeing one because I have allusions about doing fine calibration on analog sensors.
I should add that I've been talking myself out of an oscilloscope for 2+ years now. I don't REALLY need one.
I just looked I to a scope that can handle USB speeds (my cheap-ish Siglent one can’t) because I’m developing a board with USB 3.1. Now I’m like "nah, it hopefully just works, if it doesn’t, I’ll have no clue why".