[joppedc] wrote in to let us know that the Formula 1® season is coming to an end, and that the final race should be bangin’. To get ready, he built this ultra-sleek logo light box last week that does more than just sit there looking good, although it does that pretty well. This light box reacts to live race events, flashing yellow for safety cars, red for red flags, and green for, well, green flags.
Continue reading “F1 Light Box Helps You Know The Current Race Status”
USB PD is a fun protocol to explore, but it can be a bit complex to fully implement. It makes sense we’re seeing new stacks pop up all the time, and today’s stack is a cool one as far as code reusability goes. [Vitaly] over on Hackaday.io brings us pdsink – a C++ based PD stack with no platform dependencies, and fully-featured sink capabilities.
Continue reading “Standalone USB-PD Stack For All Your Sink Needs”
[Michael Lynch] recently decided to delve into the world of off-grid, decentralized communications with MeshCore, because being able to communicate wirelessly with others in a way that does not depend on traditional communication infrastructure is pretty compelling. After getting his hands on a variety of hardware and trying things out, he wrote up his thoughts from the perspective of a hardware-curious software developer.
He ends up testing a variety of things: MeshCore firmware installed on a Heltec V3 board (used via an app over Bluetooth), a similar standalone device with antenna and battery built in (SenseCAP T-1000e, left in the header image), and a Lilygo T-Deck+ (right in the header image above). These all use MeshCore, which is built on and reportedly compatible with Meshtastic, a framework we have featured in the past.
Continue reading “Lessons Learned After Trying MeshCore For Off-grid Text Messaging”
If you’ve got an RTL-SDR compatible receiver, you’ve probably used it for picking up signals from all kinds of weird things. Now, [Jaron McDaniel] has built a tool to integrate many such devices into the world of Home Assistant.
It’s called RTL-HAOS, and it’s intended to act as a bridge. Whatever you can pick up using the RTL_433 tool, you can set up with Home Assistant using RTL-HAOS. If you’re unfamiliar with RTL_433, it’s a multitalented data receiver for picking up all sorts of stuff on a range of bands using RTL-SDR receivers, as well as a range of other hardware. While it’s most closely associated with products that communicate in the 433 MHz band, it can also work with products that talk in 868 MHz, 315 MHz, 345 MHz, and 915 MHz, assuming your hardware supports it. Out of the box, it’s capable of working with everything from keyless entry systems to thermostats, weather stations, and energy monitors. You can even use it to listen to the tire pressure monitors in your Fiat Abarth 124 Spider, if you’re so inclined.
[Jaron’s] tool integrates these devices nicely into Home Assistant, where they’ll appear automatically thanks to MQTT discovery. It also offers nice signal metrics like RSSI and SNR, so you can determine whether a given link is stable. You can even use multiple RTL-SDR dongles if you’re so inclined. If you’re eager to pull some existing environmental sensors into your smart home, this may prove a very easy way to do it.
The cool thing about Home Assistant is that hackers are always working to integrate more gear into the ecosystem. Oftentimes, they’re far faster and more efficient at doing this than big-name corporations. Meanwhile, if you’re working on your own hacks for this popular smart home platform, we’d probably like to know about it. Be sure to hit up the tips line in due time.
Nothing lasts forever, and that includes the ROMs required to make a retrocomputer run. Even worse, what if you’re rolling your own firmware? Period-appropriate EPROMs and their programmers aren’t always cheap or easy to get a hold of these days. [Kyo-ta04] had that problem, and thanks to them, we now all have a solution: Pico2ROMEmu, a ROM emulator based on, you guessed it, the Raspberry Pi Pico2.
The site is called Hackaday, and has been for 21 years. But it was only for maybe the first half-year that it was literally a hack a day. By the 2010s, we were putting out four or more per day, and in the later 20-teens, we settled into our current cadence of eight hacks per day, plus some original pieces over the top. That’s a lot of hacks per day! (But “Eight-to-Ten-Hacks-a-Day” just isn’t as catchy.)
With that many posts daily, we also tend to reach out to a broader array of interests. Quite simply, not every hack is necessarily going to be just exactly what you are looking for, but we wouldn’t be writing it up if we didn’t think that someone was looking for it. Maybe you don’t like CAN bus hacks, but you’re into biohacking, or retrocomputing. Our broad group of writers helps to make sure that we’ll get you covered sooner or later.
What’s still surprising to me, though, is that a couple of times per week, there is a hack that is actually relevant to a particular project that I’m currently working on. It’s one thing to learn something new every day, and I’d bet that I do, but it’s entirely another to learn something new and relevant.
So I shouldn’t have been shocked when Tom and I were going over the week’s hacks on the podcast, and he picked an investigation of injecting spray foam into 3D prints. I liked that one too, but for me it was just “learn something new”. Tom has been working on an underwater ROV, and it perfectly scratched an itch that he has – how to keep the top of the vehicle more buoyant, while keeping the whole thing waterproof.
That kind of experience is why I’ve been reading Hackaday for 21 years now, and it’s all of our hope that you get some of that too from time to time. There is a lot of “new” on the Internet, and that’s a wonderful thing. But the combination of new and relevant just can’t be beat! So if you’ve got anything you want to hear more about, let us know.
If you wanted to build an electronic dice, you might grab an Arduino and a nice OLED display to whip up something fancy. You could even choose an ESP32 and have it log your rolls to the cloud. Or, you could follow the lead of [Axiometa] and do it the old-school way.
Continue reading “Electronic Dice Built The Old Fashioned Way”
