Poopable Cameras

April 24, 2016 by Brian Benchoff 51 Comments

Pill cameras, devices for ‘capsule endoscopy’, or in much cruder terms, ‘poopable cameras’, are exceedingly cool technology. They’re astonishingly small, communicate through a gastrointestinal tract to the outside world, and have FDA certification. These three facts also mean pill cameras are incredible expensive, but that doesn’t mean a hardware hacker can’t build their own, and that’s exactly what [friarbayliff] is doing for his entry into The Hackaday Prize.

First things first: [friarbayliff] is not building one of these for human consumption. That’s a morass of regulatory requirements and ethical issues. This pill camera is only being built as an experiment, because it would be fun to build one. The pill cams swallowed by patients every day have millions of dollars in R&D behind them before human trials. That said, given a good food-safe enclosure, I’d down one of these as an experiment.

This pill camera will use a simple, off-the-shelf 2 megapixel image sensor that can be bought on eBay for less than five dollars. With a small 32-bit micro, these cameras are easy to drive and capture images from. Power is provided from a single silver oxide button cell battery and a boost converter. In total, [friarbayliff] estimates the total PCB area to be just under one square inch, making this a relatively inexpensive device to build. There will be a radio transceiver in there somewhere, but [friar] hasn’t figure that part out yet.

Pill cameras are some amazing technology, but relatively inaccessible unless you get a used one. Ew. [Mike Harrison] tore one of these pill cams apart a few years ago, and it really is an incredible device. Building one for fun – even if it won’t be used in a human – is a fantastic learning experience and a great entry for the 2016 Hackaday Prize.

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Magical Blinky Capacitive Sensing Tweezers

April 23, 2016 by Brian Benchoff 10 Comments

Electronic tweezers – the kind that can test the voltage between two contacts, the resistance of an SMD resistor, or the capacitance of a circuit – are very cool and very useful if somewhat expensive. We’ve seen commercial versions of these smart tweezers, hacks to make them more useful, and homebrew versions that still work very well. All of these versions are pretty large, as far as tweezers go. [kodera2t]’s version of electronic tweezers submitted for this year’s Hackaday Prize goes in the other direction: it’s the smallest set of electronic tweezers that’s still useful.

[kodera]’s electronic sensing tweezers only measure capacitors, and for good reason: chip caps usually don’t have values printed on them. These tweezers don’t print out the value of a cap on a display, either. Instead, these tweezers just flash an LED if the value of the cap is above 0.1uF. It’s simple, but surprisingly useful for most soldering jobs.

The circuit for this pair of magical tweezers is about as simple as if can get, with all the smarts contained in a very small ATtiny10. The PCB [kodera] designed is smaller than the coin cell battery, and with the help of some copper tape and possibly an insulator, this device can be mounted to any pair of tweezers. It’s a simple tool, yes, but that’s the beauty of it, and makes for a great entry into the Hackaday Prize

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Today Is World Create Day

April 23, 2016 by Mike Szczys 6 Comments

It has finally arrived, today is World Create Day which is being celebrated with Hackaday Meetups in 64 cities throughout the world.

If you are at one of these meetups, share the fun and excitement of your event today using the hashtag #WorldCreateDay. We want a taste of what is going on in your town so Tweet early and Tweet often! If you can’t be there, join in on Hack Chat and watch the projects as they come in throughout the day. If you see one you love you can even request to join the team.

We want to feature your meetup on the Hackaday front page but we need your help to do it. Make sure you take a lot of pictures, and maybe even some video. Send those along with your tale of World Create Day to: prize at hackaday email address.

If you can’t make it to a live meetup, don’t let that stop you. Design Your Concept today and submit it to the Hackaday Prize; you’ll be making it in just ahead of the Monday deadline. Follow along with the #WorldCreateDay hashtag, encouraging others and posting info about your own project.

Oh, and that amazing art at the top of this post? There’s more were that came from. See all of the designs we’ve put together for World Create Day.

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TinyDriver – ATtiny84 Platform Without Arduino

April 22, 2016 by Anool Mahidharia 28 Comments

You don’t need an Arduino for everything! Or do you? This is an argument that plays out here quite often. Whatever the outcome, most folks agree that once you’ve dipped your feet in the shallow end of the pool, the real fun is when you dive into the deep end.

[Mahesh Venkitachalam] designed tinyDriver, an experimental Open Source breakout board for the Atmel ATtiny84 chip. His idea was to create a convenient platform which can be used to understand microcontrollers in-depth, by letting users dive under the hood and make use of the various features of the chip such as timers, PWM, interrupts, ADC, and digital I/O. The ATtiny84 is cheap and simple enough for starters. Add a low-cost AVR programmer, install the free and cross-platform avr-gcc and avrdude tool chain, read up the data sheet, learn some C programming and start experimenting. Rinse and repeat and you’ll be a pro at it soon. He’s got a few starter projects documented on his website to get you going.

The hardware is open source, and the Git repository contains the hardware source and example code. If you’re a hardware noob, he’s thoughtfully added a PTC resettable fuse and reverse polarity protection on the board to make sure you don’t release the magic blue smoke prematurely. All of the I/O’s are broken out on a header, and the motor driver and RGB LED can be disabled when not needed. The board isn’t hand-assembly friendly, but he plans to crowd fund it shortly. If you want to move beyond the Arduino platform, projects like the tinyDriver are the way to go.

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USB-less WiFi For The Pi Zero

April 21, 2016 by Brian Benchoff 27 Comments

Since the introduction of the Raspberry Pi Zero, the hacker, maker, and hobbyist electronics world has been thrown into turmoil. ‘The Raspberry Pi Foundation is corrupt,’ the detractors said, ‘and the Pi Zero is just a marketing ploy to get their name out.’ Others chimed in that the Raspberry Pi Zero doesn’t even exist. Despite what a million monkeys on a million keyboards say, the Raspberry Pi Zero does exist and is very cool, despite how limited it is. There’s only one USB port, but that doesn’t mean you can’t have WiFi. [ajlitt] came up with a WiFi hat for the Pi Zero that goes right through the GPIO pins, and shouldn’t cost more than a few dollars to implement on any Raspberry Pi.

There is no Ethernet port on the Pi, and apart from a single USB OTG port, no apparent high-speed interfaces to the outside world. On the other hand, there’s a few things hidden deep down in the SoC on the Pi including two MMC controllers. One of these controllers is used for the SD card, but the second can be broken out on a few GPIO pins. By tapping into those pins and configuring the kernel just right, SDIO is available on the GPIO pins, giving the Pi WiFi through a cheap ESP8266 module.

We’ve seen [ajlitt]’s work on SDIO devices on the Pi before, but he’s slowly been reworking this build with the Pi Zero in mind. It didn’t begin as a project for the Hackaday Prize, but already it’s one of the more popular entries so far. Of course there are thousands of projects on Hackaday.io that aren’t entered into the Hackaday Prize this year, and if you’re behind one of those, this is your call to step up.

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World Create Day: A Subcontinent, An Island Continent, And Asia

April 21, 2016 by Brian Benchoff 3 Comments

Hackaday’s own World Create Day is just two days away. This Saturday, April 23rd, the Hackaday community will rise up, come together, have fun, share a few stories, and build something cool in the process.

When we announced World Create Day a few weeks ago, we were inundated with responses. Hackerspaces across the globe have offered up their spaces for the Hackaday community to brainstorm the latest entries for The Hackaday Prize.

We have hackerspaces from Islamabad to Adelaide and from Mumbai to Shenzhen opening their doors to the world. If you’re near any of these events, join in on the festivities. If you don’t see one in your neck of the woods, you can still host your own meetup. Just click here to get your town on the map.

What’s going on at these meetups? [Robert] and [Steven] in Adelaide are planning several events including a meet and greet, a few lightning talks, and snacks. They’re also live streaming their event. Maker’s Asylum in Mumbai is doing project demos and forming some teams for the Hackaday Prize. It’s going to be a great event at every hackerspace, and the largest distributed meetup we’ve ever done. Don’t miss this.

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A Friendly Flying Robot Pet

April 20, 2016 by Brian Benchoff 14 Comments

[luca] has always wanted a flying robot, but despite the recent popularity of quadcopters and drones [luca] has never seen a drone that is truly autonomous. Although sometimes billed as autonomous, quadcopters and fixed wing aircraft have always had someone holding a remote, had to stay in a controlled environment, or had some off-board vision system.

Computers are always getting smaller and faster, battery and motor technology is always getting better. That’s why [luca] is building a truly autonomous flying robot for the 2016 Hackaday Prize.

Since [luca] is building a coaxial copter – something that looks like a ducted fan with a few vanes at the bottom – there will be control issues. Normal helicopters use the pitch of the blades and the torque produced by the tail rotor to keep flying straight. A quadcopter uses two pairs of motors spinning in opposite directions to stay level. With just two rotors mounted on top of each other, you would think [luca]’s coaxial copter is an intractable problem. Not so; there are bizarre control systems for this type of flying machine that make it as nimble in the sky as any other helicopter.

The design of this flying robot is a bit unlike anything on the market. It looks like a flying ducted fan, with a few electronics strapped to the bottom. It’s big, but also has the minimum number of rotors, to have the highest power density possible with current technology. With a few calculations, [luca] predicted this robot will be able to hoist an IMU, GPS, ultrasonic range finder, optical flow camera, and a LIDAR module in the air for about fifty minutes. That’s a remarkably long flight time for something that hovers, and we can’t wait to see how [luca]’s build turns out.

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