Fearless makers are conquering ever more fields of engineering and science, finding out that curiosity and common sense is all it takes to tackle any DIY project. Great things can be accomplished, and nothing is rocket science. Except for rocket science of course, and we’re not afraid of that either. Soldering, welding, 3D printing, and the fine art of laminating composites are skills that cannot be unlearned once mastered. Unfortunately, neither can the long-term damage caused by fumes, toxic gasses and heavy metals. Take a moment, read the material safety datasheets, and incorporate the following, simple practices and gears into your projects.
So you like watching stupid stuff? Here you go, a scene from Bones that tops the infamous ‘IP backtrace with Visual Basic’ or ‘four-handed keyboard’ scenes from other TV shows. Someone hacked the bones by embedding malware in a calcium fractal pattern. Also, when she uses the fire extinguisher, she doesn’t spray the base of the fire.
Raspberry Pi! You have no idea how good the term Raspberry Pi is for SEO. Even better is Raspberry Pi clusters, preferably made with Raspberry Pi Zeros. Here’s a Raspberry Pi hat for four Raspberry Pi Zeros, turning five Raspberry Pis into a complete cluster computer. To be honest and fair, if you’re looking to experiment with clusters, this probably isn’t a bad idea. The ‘cluster backplane’ is just a $2 USB hub chip, and a few MOSFETs for turning the individual Pis on and off. The Zeros are five bucks a pop, making the entire cluster cost less than two of the big-boy sized Pi 3s.
Do you think you might have too much faith in humanity? Don’t worry, this video has you covered.
Hacking on some Lattice chips? Here’s a trip to CES for you. Lattice is holding a ‘hackathon’ for anyone who is building something with their chips. The top prize is $5k, and a trip to next year’s CES in Vegas, while the top three projects just get the trip to Vegas. If you already have a project on your bench with a Lattice chip, it sounds like a great way to wait an hour for a cab at McCarran.
UPSat. What’s an upsat? Not much, how about you? The first completely open source hardware and software satellite will soon be delivered to the ISS. Built by engineers from the University of Patras and the Libre Space Foundation, the UPSat was recently delivered to Orbital ATK where it will be delivered to the ISS by a Cygnus spacecraft. From there, it will be thrown out the airlock via the NanoRacks deployment pod.
The Voyager Golden Record is a message in a bottle thrown into the cosmic ocean and a time capsule from Earth that may never be opened. Now it’s a Kickstarter. Yes, this record is effectively Now That’s What I Call Humanity volume 1, but there are some interesting technical considerations to the Voyager Golden Record. To the best of my knowledge, no one has ever tried to extract the audio and pictures from this phonographic time capsule. The pictures included in the Golden Record are especially weird, with the ‘how to decode this’ message showing something like NTSC, without a color burst, displayed on a monitor that is effectively rotated 90 degrees counterclockwise from a normal CRT TV. Want to know how to get on Hackaday? Get this Golden Record and show an image on an oscilloscope. I’d love to see it, if only because it hasn’t been done before by someone independent from the original project.
The Arduino has proved to be a great platform for electronics projects. The same goes for the Raspberry Pi. However, there are some projects that fall in the gap between these two options. Projects that need more memory or processing power than the ATmega microcontrollers have to offer, but not so much as to require a full Linux/ARM powerhouse. For those projects, there is the Teensy series. [Paul Stoffregen] created these lilliputian boards, and he’s been adding features ever since. The thousands of Teensy projects out there stand as proof that these little boards have been well received by the hacker community. This week’s Hacklet is about some of the best Teensy projects on Hackaday.io!
We start with [Jonathan Payne] and Beats by Teensy. Beats is an all in one music machine. A sampler, sequencer, and MIDI control surface; all powered by the Teensy 3.1 and the Teensy Audio Board. The audio board gives Beats the ability to record and playback 16 bit audio at a sampling rate of up to 44.1 kHz. [Jonathan’s] inspiration came from devices such as the Akai MPC, and the MIDI Fighter. He utilized the incredible Teensy audio library on the software side. A project like this needs a serious case. [Jonathan] designed and built the perfect panel and case utilizing arcade buttons and a 128×64 LCD from Adafruit.
Next we have [RF William Hollender] and Teensy Super Audio Board. Not satisfied with CD quality 44.1 kHz audio, [William] decided to add a high quality audio codec to Teensy’s bag of tricks. He picked the CS4272 codec from Cirrus Logic. Capable of sampling rates up to 192 kHz, with a THD+N of -100 db, this codec should please all but the most discerning audiophiles. The high noise immune design doesn’t stop there though. [William’s] design isolated the Teensy and the rest of the interfaces from the codec to prevent ground loops. Connectivity is via standard I2S for the audio stream and I2C for control. This means the super audio board can be used with Raspberry Pi’s and the like.
Next up is [Spino] with Spino. Teensy boards can do a lot more than just audio. Spino is a POV display with 32 spinning RGB LEDs. Spino can do more than just show pretty pictures though. With a Teensy 3.2 and bluetooth radio on board, the spino team is able to play games on their display. LEDs don’t work exactly like CRTs and LCDs though, so some color changes were necessary. The team utilized cell shading with a sobel filter to make Doom look even better than ever. The Teensy is even powerful enough to handle live webcam video sent over USB. The video is rendered and displayed on the spinning LEDs.
Finally we have [Tim Trzepacz] with Megsy? A homebrew Teensy 3++. [Tim] is working on Megsy as part of his residency at the Supplyframe Design Lab. Teensy’s have lots of edge mounted IO pins. There isn’t enough real estate for all the pins though, so some are routed to pads on the bottom. Megsy is a Teensy carrier board that breaks these pads out to pins. The idea is to solder the Teensy directly do the Megsy. As [Tim] calls it, “a poor man’s BGA”. The problem is getting the solder hot enough to melt while sandwiched between two insulating PCBs. [Tim’s] first attempt netted him a rather scorched Megsy board. Blacked as it may have been, the board did work!
If you want to see more Teensy projects, check out our new Teensy projects list. Notice a project I might have missed? Don’t be shy, just drop me a message on Hackaday.io. That’s it for this week’s Hacklet, As always, see you next week. Same hack time, same hack channel, bringing you the best of Hackaday.io!
In the last (and first) post in this series, we took a look at Eagle. Specifically, we learned how to create a custom part in Eagle. Our goal isn’t just to make our own parts in Eagle, we want to make schematics, boards, and eventually solder a few PCBs.
The board we’ll be making, like all of the boards made in this Creating A PCB In Everything series, is the Nanite Wesley, a small USB development platform based on the ATtiny85. This board has less than a dozen parts, most of which are through-hole. This is the simplest PCB I can imagine that has sufficient complexity to demonstrate how to make a board.
With that said, let’s get onto the second part of our Eagle tutorial and lay out our circuit board.
On the eve of the New York Maker Faire, Hackaday is throwing a meetup in the heart of Manhattan. Join us next Thursday for a low-key get-together, a few talks on assistive technologies, and a demo of the coolest new tool in recent memory.
Although these meetups are highly informal (and bringing some of the cool stuff you’ve built is encouraged), we do have a few speakers lined up. Holly Cohen and John Schimmel of DIYAbility are speaking about using homebrew devices for making everyone’s life easier. Johnny Falla of the Enable Community Foundation will give a talk about using 3D printing technology to make hyper-affordable prosthetic devices for underserved populations. Chad Leaman will be representing the Neil Squire Society and will speak about using technology to empower people with disabilities.
As always, snacks and drinks will be provided, and like all Hackaday meetups, bring some cool gear or whatever project you’re working on along with you. This bring-a-hack isn’t a competition, but if it was, we know who would win. Nisan Larea will be attending the meetup, demoing the Wazer desktop waterjet cutter. We caught a glimpse of this machine in San Francisco, and it’s amazing. If you want to see the Wazer waterjet before Maker Faire, this is your chance.
This month’s Hackaday NYC meetup will be at Pivotal Labs, 625 Avenue of the Americas, on Thursday, September 29. It would be really, really cool if you could RSVP beforehand.
This is Hackaday’s pre-game for the World Maker Faire. We’ll be attending, scoping out all the coolest projects and products from this year’s NYC Maker Faire. Find one of the Hackaday crew at the faire, and we’ll hook you up with some swag.
For the first in a series of posts describing how to make a PCB, we’re going with Eagle. Eagle CAD has been around since the days of DOS, and has received numerous updates over the years. Until KiCad started getting good a few years ago, Eagle CAD was the de facto standard PCB design software for hobbyist projects. Sparkfun uses it, Adafruit uses it, and Dangerous Prototypes uses it. The reason for Eagle’s dominance in a market where people don’t want to pay for software is the free, non-commercial and educational licenses. These free licenses give you the ability to build a board big enough and complex enough for 90% of hobbyist projects.
Of course, it should be mentioned that Eagle was recently acquired by Autodesk. The free licenses will remain, and right now, it seems obvious Eagle will become Autodesk’s pro-level circuit and board design software.
Personally, I learned PCB design on Eagle. After a few years, I quickly learned how limited even the professional version of Eagle was. At that point, the only option was to learn KiCad. Now that Eagle is in the hands of Autodesk, and I am very confident Eagle is about to get really, really good, I no longer have the desire to learn KiCad.
With the introduction out of the way, let’s get down to making a PCB in Eagle.
We’re in the last few weeks for entries in the 2016 Hackaday Prize — specifically the challenge is to show off your take on assisstive technology. This is a hugely broad category and I’ve been thinking about it for a while. I’m sure there’s a ton of low-hanging fruit that’s not obvious to everyone. This would be a great time to hit up the comments below and leave your “hey, I always thought someone should make…” ideas. I’m looking forward to reading them and it might just inspire someone to spend the next couple weeks hammering out a prototype to enter.
For me, it’s medication. I knew this can be a challenging problem having gone through a few cycles of prescription medicines in my life. But recently I helped out a family member who was suddenly on many medications taken on eight different times a day — including once, twice, three, and six times per day. This was further compounded by sleep deprivation (having to set alarms at night to take the medicine) and drowsy/woozy effects from the medicine. I can tell you first hand that this is really tough for anyone to deal with and it’s incredibly easy to make a mistake or not be able to remember if you took a dose.
Pill Organizers Do No More or Less
We’ve seen a number of pill organizers before and that’s what I reached for in this case. However, that organizer only had four slots for each day. I didn’t hack it (other than writing on the doors with a Sharpie for when to take each) but even if there were added buttons or LEDs I’m not convinced this would be a marked improvement.
What you see above is my proposal for the medicine problem. Smartphones have become ubiquitous and the processing power and cameras of even budget phones are mind blowing. I think it is entirely possible to write an app that uses computer vision to recognize pills and sync them with the schedule. This may mean whipping the phone out of your pocket, or designing a pill box that has a phone stand next to it (saying that makes me think of using RPi and a Pi camera). Grab your pills and validate them under the camera.
Useful Augmented Reality
The screen of the phone would use augmented reality to overlay information about the pills it sees — you know, like Pokemon Go but in a way that enriches your life. ‘pills, catch ’em all!’ — new pills can be learned of the fly, delivering the user to a screen to identify the pill and the dosing schedule. Taking the validation picture will record when the medicine was taken, and the natural extension of this systems is a pharmacy’s ability to push your dose schedule to your account when you pick up the prescription. A stretch goal would be keeping an eye out for interactions.
This is all very much like how hospitals do it — they’re scanning bar codes on the packaging and the patient bracelet and recording it. This would be an easier user experience and quite frankly I think companies already in this space (like Snapchat and Niantic) could whip this up in a single-day hackathon no problem.
Is it the perfect system? Maybe not. But there is no perfect system or we’d be using it by now. We need you, the world’s talent pool, to step up and make life a little better. Do it in prototype form by October 3rd and you’ll be eligible for one of twenty $1000 cash prizes and a chance at winning the Hackaday Prize. But even if you don’t build a single thing, one idea could be the spark that lets others change the world for the better. So let’s hear it!