DEF CON Badgelife: The ESP Rules All

Badgelife is the celebration of independent hardware creators, working for months at a time to bring custom electronic badges to conferences around the world. This year at DEF CON, Badgelife is huge. It’s not just because this year was supposed to feature a non-electronic badge, and it’s not because the official badge imploded last month — Badgelife is all about people spending most of the year designing, and manufacturing hardware, culminating in one very special weekend.

[Garrett] owns Hacker Warehouse, a store providing all kinds of neat hacker tools ranging from software-defined radios to lock pick sets to side channel analysis toolkits. This year, [Garrett] decided he wanted to branch out his business and get involved in a little bit of hardware creation. He’s been curious about this for some time and figured a limited edition DEF CON badge made sense. What he wound up with is a beautiful little badge with games, blinkies, graphics, and potential to cause a lot of wireless mischief.

Would you look at that. RF design on an independent badge.

The design of the Hacker Warehouse badge is surprisingly simple compared to the Bender Badges and puzzling crypto badges that are also part of this year’s Badgelife hardware celebration. On board is an ESP8266 with a custom PCB implementation that includes a larger Flash chip. The other side of the board is loaded up with four tact switches in a D-pad arrangement. On top is a 96 x 64 pixel full-color OLED display, and blinkies are provided by fourteen mini WS2812 RGB LEDs. Power is provided by two AA cells and what looks to be a nice fancy switching regulator. This is real hardware, not just a few modules thrown together with a bunch of LEDs.

Oh, what wireless fun

This badge is built around the ESP8266, a very interesting WiFi-enabled microcontroller that has more features than it should. [Garrett] is using the ESP as a WiFi scanner of sorts, allowing anyone with this badge to monitor WiFi channels, APs, packets, and — this is important — deauth packets.

Over the last year, there have been a number of projects around the Internet that take an ESP8266 and spew deauthorization frames into the spectrum. These frames cause a WiFi client to stop using an access point, and basically shuts down all the WiFi in an area. It’s well documented, and people have been doing it for years, but the ESP8266 makes deauth attacks so very, very easy. We’re going to see a lot of deauth frames this year at DEF CON, and the Hacker Warehouse badge will be able to detect them. It can also generate these frames, but that capability is locked for now.

Blinking and glowing

An electronic conference badge isn’t cool unless it has obnoxiously bright and glowy LEDs, and the Hacker Warehouse badge is very cool.

Onboard the Hacker Warehouse badge are 14 RGB LEDs, programmed with 46 different patterns that are certainly bright enough to annoy someone. This is what you need for a badge, and it’s beautiful.

This is a truly fantastic badge that’s also a great development board for the ESP8266. Everything you need for portable WiFi gaming fun is already there — you have blinky LEDs, an OLED, what seems to be a fairly nice power supply, and enough buttons to do something interesting. All you need to do to program this badge is attach a USB to serial adapter to the pre-populated header and you really have something. It’s a great badge, and we can’t wait to see the hacks for this great piece of hardware next week at DEF CON.

Hackaday Prize Entry: BeagleLogic

A few years ago, [Kumar] created the BeagleLogic, a 14-channel, 100 MSPS logic analyzer for the BeagleBone as an entry for the Hackaday Prize. This is a fantastic tool that takes advantage of the PRUs in the BeagleBone to give anyone with a BeagleBone a very capable logic analyzer for not much cash.

This year, [Kumar] is back at it again. He’s improving the BeagleLogic with a BeagleBone on a chip. This is the BeagleLogic Standalone, a 16-channel logic analyzer at 100 MSPS using a single chip.

Like the BeagleLogic from a few years ago, [Kumar] is relying on those fancy PRUs in the BeagleBone that make reading GPIOs and blinking LEDs so easy and fast. Unlike the BeagleLogic shield/cape/whatever, the BeagleLogic Standalone uses the Octavo Systems’ OSD3358 — the BeagleBone on a chip — for the hardware. This incorporates everything in a BeagleBone into a single package, making for a compact unit that still has all the capabilities of the bigger BeagleLogic.

On board this pocket-sized logic analyzer is the OSD3358 itself, the logic analyzer frontend, a gigabit Ethernet port, USB, an SPI Flash, SD card slot and eMMC, and an RTC. An expansion header breaks out a UART, I2C, SPI, two PWM outputs, 6 GPIOs, and a clock to a PRU for experimental synchronous captures.

With a web-based frontend for this Logic Analyzer, this looks like it’ll be a fantastic tool for any hardware hacker, and something that should be reasonably inexpensive.

Friday Hack Chat: Making Electronics for Education

For this week’s Hack Chat on, we’ll be talking with AnnMarie Thomas about making electronics for education. There’s a huge intersection between electronics and education, and whether you’re designing robots for a FIRST team or designing a geometry curriculum around 3D-printed objects, there’s a lot electronics can teach students.

AnnMarie Thomas is an associate professor at the School of Engineering and the Opus College of Business at the University of St. Thomas. She’s the founder of the Playful Learning Lab, and along with her students she’s created Squishy Circuits. AnnMarie is the author of Making Makers: Kids, Tools, and the Future of Innovation. Basically, if you’re looking for someone who knows how to make an educational product, you can’t do any better.

For this week’s Hack Chat, we’ll be talking about how to define how technology and education can intersect. There are ways to define a concept, build and sell an educational product, and how to find a market for a product. If you’ve ever wanted to know what goes into getting students to dive into electronics, this is the Hack Chat you have to sit in on.

Oh, AnnMarie is also a judge for this year’s Hackaday Prize. Neat.

Also on deck for this week’s Hack Chat will be Tindie. Tindie is Supplyframe’s (Hackaday’s parent company) answer to the question, ‘where should I sell my hardware product’. Think of it as ‘Etsy for electronics’, but with less furniture made out of pallet wood, but paradoxically more products that require a California prop 65 warning. Isn’t electronics fun?

Here’s How To Take Part:

join-hack-chatOur Hack Chats are live community events on the Hack Chat group messaging. This Hack Chat will take place at noon Pacific time on Friday, July 21st. Confused about where and when ‘noon’ is? Here’s a time and date converter!

Log into, visit that page, and look for the ‘Join this Project’ Button. Once you’re part of the project, the button will change to ‘Team Messaging’, which takes you directly to the Hack Chat.

You don’t have to wait until Friday; join whenever you want and you can see what the community is talking about.

DEF CON Badgelife: Someone Finally Did It

Badgelife is the celebration of electronic conference badges, a way of life that involves spending far too much time handling the logistics of electronics manufacturing, and an awesome hashtag on Twitter. Badgelife isn’t a new thing; it’s been around for a few years, but every summer we see a massive uptick in the lead up to Def Con.

For the last few years, the designers and engineers deep into Badgelife have had the same conversation dozens of times. One person says, “you know, someone should build a badge that’s a quadcopter.” Another person replies, “Can you imagine how annoying that would be? You’d be putting ten thousand people in a room during the closing ceremonies at DefCon, and a few dozen people would have quadcopters. It would be horrible” Yes, there have been plans to build a quadcopter badge for the last few years, but cooler heads prevailed.

Someone finally did it. The wearable electronic conference badge that’s also a quadcopter is finally here. It’s the work of [b1un7], and it’s going to be exactly as annoying as you would expect.

This badge is actually two PCBs, the first being the quadcopter itself, the second being the joystick/controller. The quad is shaped like the familiar jolly roger found in most Whiskey Pirate badges ([b1un7] hangs with that crew), and the controller is a pirate’s treasure map loaded up with joysticks, buttons, and radios. The motors for this quad appear to be brushed, not brushless, and it looks like the arms of the quad have some space for obnoxiously bright LEDs.

This is an awesome badge but it’s still [b1un7]’s first attempt at making a badge. Right now, there’s still a bit of work to do — there’s only one week until Defcon — but with any luck [b1un7] will have 25 of these wearable electronic conference badges buzzing around. It’s a terrible idea and we love it.

Customize Forstner Bits For Fidget Spinner Explosions

[Matthias Wandel] is a woodworker par excellence. He’s the guy behind all those wooden gear contraptions, he made cove molding on a table saw, and if the phrase, ‘don’t do this unless you know what you’re doing’ applies to anyone, it applies to [Matthias]. Now he’s getting into the fidget spinner craze, but there’s a problem in the workshop: [Matthias] couldn’t find the right sized drill bit, so he modified a Forstner bit to contain the heart of a spinner.

[Matthias] has a few roller skate bearings, which are 22mm in diameter. However, the closest drill to this size was 7/8″, or 22.23mm. A drill can be ground down, so the bit was chucked into a hand drill and taken over to the bench grinder. As with most things [Matthias] demonstrates, you shouldn’t do this unless you know what you’re doing. [Matthias] does.

With the bit ground down to 22mm, [Matthias] drilled a hole in a piece of wood, inserted the bearing, and completed an epic quest that was his destiny. There is no use for fidget spinners, so [Matthias] decided to make this one explode. After cutting several notches in this wooden spinner, [Matthias] applied shop air liberally and spun the spinner up until it fell apart.

You can check out the video of the fidget spinner carnage below, or check out [Matthias]’ write-up here.

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Hackaday Links: July 16, 2017

[Carl Bass] has joined the board at Formlabs. This is interesting, and further proof that Print The Legend is now absurdly out of date and should not be used as evidence of anything in the world of 3D printing.

Here’s something cool: a breadboardable dev board for the Parallax Propeller.

Finally, after years of hard work, there’s a petition to stop me. I must congratulate [Peter] for the wonderful graphic for this petition.

Want some flexible circuits? OSHPark is testing something out. If you have an idea for a circuit that would look good on Kapton instead of FR4, shoot OSHPark an email.

SeeMeCNC has some new digs. SeeMeCNC are the creators of the awesome Rostock Max 3D printer and hosts of the Midwest RepRap Festival every March. If you’ve attended MRRF, you’re probably aware their old shop was a bit on the small side. As far as I can figure, they’ll soon have ten times the space as the old shop. What does this mean for the future of MRRF? Probably not much; we’ll find out in February or something.

Rumors of SoundCloud’s impending demise abound. There is some speculation that SoundCloud simply won’t exist by this time next year. There’s a lot of data on the SoundCloud servers, and when it comes to preserving our digital heritage, the Internet Archive (and [Jason Scott]) are the go-to people. Unfortunately, it’s going to cost a fortune to back up SoundCloud, and it would be (one of?) the largest projects the archive team has ever undertaken. Here’s your donation link.

If you’re looking for a place to buy a Raspberry Pi Zero or a Pi Zero W, there’s the Pi Locator, a site that pings stores and tells you where these computers are in stock. Now this site has been expanded to compare the price and stock of 2200 products from ModMyPi, ThePiHut, Pi-Supply, and Kubii.

Slimline Nixie Clocks

Everyone needs to build a Nixie clock at some point. It’s a fantastic learning opportunity; not only do you get to play around with high voltages and tooobs, but there’s also the joy of sourcing obsolete components and figuring out the mechanical side of electronic design as well. [wouterdevinck] recently took up the challenge of building a Nixie clock. Instead of building a clock with a huge base, garish RGB LEDs, and other unnecessary accouterments, [wouter] is building a minimalist clock. It’s slimline, and a work of art.

The circuit for this Nixie clock is more or less what you would expect for a neon display project designed in the last few years. The microcontroller is an ATMega328, with a Maxim DS3231 real time clock providing the time. The tubes are standard Russian IN-14 Nixies with two IN-3 neon bulbs for the colons. The drivers are two HV5622 high voltage shift registers, and the power supply is a standard, off-the-shelf DC to DC module that converts 5 V from a USB connector into the 170 V DC the tubes require.

The trick here is the design. The electronics for this clock were designed to fit in a thin base crafted out of sheets of bamboo plywood. The base is a stackup of three 3.2mm thick sheets of plywood and a single 1.6 mm piece that is machined on a small desktop CNC.

Discounting the wristwatch, this is one of the thinnest Nixie clocks we’ve ever seen and looks absolutely fantastic. You can check out the video of the clock in action below, or peruse the circuit design and code for the clock here.

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