Find a project and make it. Maybe something off adafruit? https://learn.adafruit.com/
Pick up a pinecil for your first soldering iron.
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Find a project and make it. Maybe something off adafruit? https://learn.adafruit.com/
Pick up a pinecil for your first soldering iron.
Thank you!
May I suggest the Pinecil, if you're seeking a soldering iron?
https://pine64.com/product/pinecil-smart-mini-portable-soldering-iron/
The Pinecil is a smart mini portable soldering iron with a 32-bit RISC-V SoC featuring a sleek design, auto standby and it heats up to an operating temperature in just 6 seconds!
Dual power input design: 1) USB-C supports both PD and QC 3.0 and; 2) DC5525 barrel DC jack.
Speedy Rapid Warmup: Reaches operating temperature in 6 seconds. Support for on-demand rapid boost feature.
Adjustable soldering tip temperature which can be set between 100Β° C and 400Β° C using the adjustment buttons and an easy-to-read OLED display.
Portable: it features a sleek and slim design, comprised of an SAE 304 stainless steel core housed inside a polycarbonate shell.
Auto standby mode engages when it is not in use ensuring the user safety.
OS: Ralimβs IronOS build
Chipset: Bouffalo BL-706
CPU: 32-bit RV32IMAFC RISC-V βSiFive E24 Coreβ @ 144 MHz
It's got good support from the manufacturers and is a very versatile little starter gun if you don't already have one. Also very affordable.
https://learntosolderkits.com/collections/all
Some cheap little fun project kits. I started with the jitterbug.
For deeper info, you might try these Lemmy communities:
I guess maybe it's been a while since I've looked, but that soldering iron seems like a crazy good deal. I've been using a crappy iron with a way too stiff cord for the longest time cause I figured it wasn't worth it for how little I have to solder.
It really is, I love it.
Having a readout that tells me the exact temp of the tip is fire.
Thanks for the helpful links. :)
Wow, you couldn't be more different than I am. Over the years, I've bought kits that had tutorials along with them, and I could never get hooked by them. I guess there's better tutorials for things now than "make a bunch of LEDs blink in order", so maybe the terrain is different.
There are so many kits you can find online, and I think a lot of them are more or less interchangeable. I suppose it depends on what extent you want to focus on digital vs analog circuits, but given that you mention robotics, I would assume digital. Grab one of the kits that has an arduino or raspberry pi and a bunch of other components. In the grand scheme of things, components are cheap, but no one is going to ship you the 5 exact resistors you need, so you need to have a fairly large assortment to choose from for different projects. Kits are going to come with different components like digital readouts, joysticks, etc, so just choose one that looks like it has the things you would like to learn to use.
It seems like kits are divided into "contains every part of a specific project" or "contains parts for 1,000,000 potential projects, and here's a booklet of tutorials for some". I prefer the second, but you could prefer the first depending on if you want to go right for robotics use cases.
Personally, my best learning has been through repairing home appliances and stuff like that. Even just "necropsies" on broken things to understand how they work.
Something that you'll notice with electronics these days is that sometimes the difference between a base model widget and the "premium" widget that is 1.5-2 times the price is the addition of a handful of cheap parts. They might be easy to put in and cheap, but they are going to remove as many costs as possible for the base model. For example, a $350 dollar espresso machine with $100 of extra parts added can easily compete with a machine that costs $1000 or more.
What you said makes sense. To provide context for why I am/was looking for the exact opposite --
I have a long string of failed hobbies and junk accumulated from all the stuff I've bought for them. I carry a ton of guilt because of this.
I guess I'm too hesitant to buy parts and have them lying around if I don't end up using them all if I abandon this too. That's the reason why I was hoping to buy a fixed set of parts for specific projects so that way I can at least convince myself that I used it all at least once.
Yeah, I definitely understand that. I certainly have things that I don't use as much as I hoped (I'm staring at a solar panel doing nothing leaned against my wall). For me, I really need the resulting "thing" to be something that I will use/be excited about.
That's why, for me, fixing stuff that's broken, upgrading stuff, or repurposing stuff you already own is good. Replacing a worn out jack is a relatively simple task that can turn an expensive brick back into a nice thing.
The tools you need are not a very long list. You can get a cheap, crappy soldering iron for $6, solder for $4, a crappy multimeter for $7, and one of those magnifying glass/alligator clip things for $6 from harbor freight. Despite being poor quality, a lot can be accomplished with just those tools.
I ended up buying a bench power supply for like $40, but you can just get DC power supplies from the bin of assorted cords at your nearest thrift store for basically free.
If you're wanting to practice soldering, and build a small, cheap project at the same time, I'd recommend cheap project kits from Aliexpress (there are probably equivalents on Amazon). Do projects that are through hole soldering first, before attempting SMD components.
There are plenty to choose from and they're cheap, so if it doesn't work then it doesn't matter much.
There will be plenty of Youtube videos of people putting these things together if you want to know more.
Have fun!
Thank you!
Robotics can be dangerous, don't jump into the deep end of robotics without learning how to use electronics first. Definitely start with electronics and move up to robotics once you have a lot of electronic failures under your belt. I would suggest that you keep robotics in mind as you learn.
Many people provided you with great places to start with electronics. Start there, because robotics are electronics with motion and that's more dangerous. Motion can hurt someone or start a fire. Especially for as a hobby I'd be most concerned about accidentally starting a fire because of bad code and poor failure planning.
If you pick this up and get some experience with electronics, you'll begin to understand a lot of the things that can go wrong with robotics before they start a fire. Also this can get very expensive, you will destroy components. It's inevitable. I may be speaking from experience.
Thanks, fire safety concerns have definitely played a major role in why I haven't actually started building stuff. I'll keep this in mind.
It's not as big a risk as this person is making out. If you're playing with low current microcontroller stuff, there's virtually no risk. At most you're gonna let the magic smoke out of a chip, not start a fire.
If you start getting into stepper motors and things like that, sure, but that's a long ways from where you are today.
Where does something like "use a DC motor to build a tiny little fan" stand, in terms of safety?
Very safe unless you attach razor blades to the blades.
Most small DC motors don't have enough power to break the skin
Awesome, thanks!