Hack a Day

Simple tracking in 3D space

Caleb Kraft — 2008-07-23T14:15:00+00:00

Filed under: misc hacks, peripherals hacks

[kylemcdonald] has posted this how to build a simple 3D tracking interface. Using 6 resisters, some wire, aluminum foil, an Arduino, and a cardboard box, he was able to do 3D capacitive sensing. Coupling that with Processing, he was able to overlay an interface using augmented reality. The video above shows a 3D tic tac toe application. While it seems less than perfect, its pretty amazing for how simple it is.

Seen anything similar to this out there? What applications would be fun with this?

Read | Permalink | Email this | Linking Blogs | Comments

Name that Ware

Eliot Phillips — 2008-07-22T19:00:00+00:00

Filed under: contests, misc hacks

Last month we mentioned [bunnie]'s Name that Ware competition where participants try to guess the functionality of a random bit of hardware. We thought you might want to see another example; pictured above is the June 2008 ware provided by [xobs]. You can see a high res version here and an image of the daughter card as well. Be forewarned that someone has already posted the solution in the comments. At first glance there are quite a few interesting bits: board is copyright 1991, the 8-bit ISA connector doesn't have any data lines connected, just power, and it's got a lot of analog circuitry. Take a guess and then check out the comments on [bunnie]'s site to see the solution.

Read | Permalink | Email this | Linking Blogs | Comments

Home made PCB drill press

Caleb Kraft — 2008-07-22T16:30:00+00:00

Filed under: misc hacks, tool-hacks

[yellowduck] took some fantastic initiative with this home made PCB drill press. Many people have a rotary tool already. Just add some scrap wood and four hinges. The drill press isn't perfect; it pivots a little as it lowers. This shouldn't be a problem for drilling printed circuit boards though. The PCB should be thin enough for the pivot to have little effect. After some test runs, he added a lamp for better lighting and intends to add a return spring and foot switch. It's definitely a better solution than drilling multiple holes with a hand drill.

Read | Permalink | Email this | Linking Blogs | Comments

Annoy your friends with high pitched noise

Caleb Kraft — 2008-07-22T16:00:00+00:00

Filed under: misc hacks, news

[Hungry_Myst] has put together this fantastic device to annoy your friends. It randomly emits high pitched sounds, then stops for a while to make it very hard to locate. He has added an extra level of annoyance by putting the noise in vicinity of 17KHz thus making it almost undetectable by people over the age of 30. The fact that not everyone in the room can hear it makes people go even crazier trying to find it.

The parts list is fairly short, and the directions concise. One thing that is fantastic about this article is that he encourages people to improve it. That alone is not a huge deal, but he mentions in several areas specific additions that would make it more user friendly: on/off, pitch control, and delay control.

Related: [jay]'s Picaxe based Brain Assailant

Read | Permalink | Email this | Linking Blogs | Comments

1-wire barometer

Will O'Brien — 2008-07-22T07:46:00+00:00

Filed under: misc hacks, daily

[David] put together this rather nice 1-wire barometer. An MPX4115 measures the pressure while an SMD DS2438 mounted to an 8 pin DIP socket provides the 1-wire interface. The writeup includes a nice description of the board layout and wiring, making this project accessible to just about anyone with a decent tip on their soldering iron.

Read | Permalink | Email this | Linking Blogs | Comments

Fun with Radiohead's data from 'House of Cards'

Will O'Brien — 2008-07-21T13:10:00+00:00

Filed under: laser hacks, misc hacks

Radiohead recently released the 3D data that was used to create the video for their song 'House of Cards'. You can see the original video and grab the data from here. [Micheal_z] sent in some of the results of his groups playtime with the data. The first effort involved some data translation. Then they created an atomizer of the head and put it up on their ungodly huge 8160x4000 pixel multi-touch display. The video above was created by tracking the background image to orient and overlay the projection.

Read | Permalink | Email this | Linking Blogs | Comments

PIC based boiler controller

Will O'Brien — 2008-07-21T08:52:00+00:00

Filed under: misc hacks, home hacks, daily

We're used to central A/C, so we were surprised by this PIC controller based heater controller. It's based around a pump controlled boiler/radiator system. A PIC 16F84 is used to input the set point and control a pump to circulate the heated water as needed. You can grab full schematics on the project page.

Update: We added a screen capture of the schematic after the break since the site keeled over.The image is wider than our normal column width, so right click and view it to see the entire image.

Read | Permalink | Email this | Linking Blogs | Comments

HOPE 2008: Community Fabrication

Eliot Phillips — 2008-07-19T17:10:00+00:00

Filed under: misc hacks, cons

Today at The Last HOPE, [Far McKon] from Philadelphia's Hacktory presented on community fabrication. Over the last few years we've seen a lot of different accessible rapid prototyping machines created. There's the RepRap, a fabrication machine that has achieved self replication; our friends at Metalab have gotten their own version of the machine running too. The Hacktory has recently acquired a Fab@home machine. Fab@home hopes to make manufacturing using multiple materials accessible to home users. Multiple materials means people have constructed objects that vary from embedded circuits to hors d'oeuvres. We can't talk about edible prototyping without bringing up the CandyFab machine, which fuses sugar. The Hacktory has enjoyed their machine so far, but have found the learning curve fairly difficult. While it's great to see the cost of rapid prototyping dropping, we'll be much happier when the ease of use improves.

Permalink | Email this | Linking Blogs | Comments

HOPE 2008: The impossibility of hardware obfuscation

Eliot Phillips — 2008-07-18T14:20:00+00:00

Filed under: misc hacks, cons

The Last HOPE is off and running in NYC. [Karsten Nohl] started the day by presenting The (Im)possibility of Hardware Obfuscation. [Karsten] is well versed in this subject having worked on a team that the broke the MiFare crypto1 RFID chip. The algorithm used is proprietary so part of their investigation was looking directly at the hardware. As [bunnie] mentioned in his Toorcon silicon hacking talk, silicon is hard to design even before considering security, it must obey the laws of physics (everything the hardware does has to be physically built), and in the manufacturing process the chip is reverse engineered to verify it. All of these elements make it very interesting for hackers. For the MiFare crack, they shaved off layers of silicon and photographed them. Using Matlab they visually identified the various gates and looked for crypto like parts. If you're interested in what these logic cells look like, [Karsten] has assembled The Silicon Zoo. The Zoo has pictures of standard cells like inverters, buffers, latches, flip-flops, etc. Have a look at [Chris Tarnovsky]'s work to learn about how he processes smart cards or [nico]'s guide to exposing standard chips we covered earlier in the week.

Permalink | Email this | Linking Blogs | Comments

Nodeblinky, rechargeable and full of blink

Caleb Kraft — 2008-07-17T16:00:00+00:00

Filed under: misc hacks, news

Over 2500 unique patterns and up to 25 hours of winky blinky fun, that's what you get with Nodeblinky. This contraption was designed by the Image Node crew as a learning platform and a way to raise money for their upcoming Burning Man display.

The kit measures 4" square and has 28 LEDs spread across its surface. An AVR ATmega168, rechargeable 9 volt battery, and two LED drivers power it. One section of their site states that it has over 2500 unique patterns, while another area says 5000 combinations of patterns. Either way, its pretty trippy as you can see in the video above. There are 4 brightness levels as well as 4 running modes to keep you amused. The kit can be purchased for $40 or the assembled unit for $80. They do freely give out all the details though, so if you really felt like building one yourself, you probably could.

Read | Permalink | Email this | Linking Blogs | Comments

Machine embroidered LED matrix

Eliot Phillips — 2008-07-16T21:50:00+00:00

Filed under: misc hacks

Our favorite electric textiles expert, [Leah Buechley], put together this machine embroidered LED matrix proof of concept. For the vertical rows, the top thread is conductive, while the thread on the underside (the bobbin) is not. For the horizontal rows, the the thread is swapped and the fabric acts as an insulator between the two layers of wiring. You can see a small brown bunch of thread next to each LED: this is the via to wiring on the backside of the fabric. The matrix is being controlled by a LilyPad Arduino. This is an interesting idea and has the potential to make prototyping wearable projects much faster. Here are two more pictures of the project.

Read | Permalink | Email this | Linking Blogs | Comments

Tennis for Two resurrected

Eliot Phillips — 2008-07-16T19:20:00+00:00

Filed under: home entertainment hacks, misc hacks

The first video game every created is attributed to physicist William Higinbotham. Tennis for Two is played on an oscilloscope using two controllers. Each one has a knob that controls the trajectory and a button to hit the ball. The fine folks at Evil Mad Scientist Laboratories have recreated the game so you can play it on any oscilloscope. An ATmega168 is used to control everything. It takes user input from the paddles and outputs an the X and Y analog signals for the scope. An R-2R style DAC is used for the output stage which gives a 256x256 resolution. Everything is built on top of one of their business card sized project boards-which really shows how useful such a simple board can be. The source code is free and the write up includes plenty of detail. We'd love to see what modifications people come up with since the base game doesn't even have scoring. There's a video of EMSL's system embedded below.

Read | Permalink | Email this | Linking Blogs | Comments

Turn any motor into a servo with RepRaps new board

Will O'Brien — 2008-07-16T07:18:00+00:00

Filed under: misc hacks, daily

[Zach] just let us know about a new board that's available from the RepRap project. It uses an AS5040 magnetic rotary encoder to measure the absolute position of the rotor of whatever motor you're using. This is actually pretty damn exciting. Powerful servo motors are expensive, but with one of these, you can use whatever motor you can get your hands on. Big DC motors are cheap, but even used DC servo motors expensive. Best of all, the encoder is open source and you can score a kit version for a paltry $20. Now we can make that 8 horse power servo...

Read | Permalink | Email this | Linking Blogs | Comments

Exposing and photographing silicon

Benjamin Eckel — 2008-07-15T18:50:00+00:00

Filed under: misc hacks

Have you ever wanted to break open your IC and see where those pins really go? [nico] goes through his process of dissolving ICs to their core and photographing the tiny die. The technique involves liquefying the package in sulfuric acid until all the packaging material and pins are gone. He even explains how to use sodium bicarbonate (common baking soda) to neutralize the solution thus allowing for simple sink disposal. Although silicon hacking is generally done by funded hackers with a really nice lab, it is certainly possible to execute some of these techniques with limited equipment and chemical access. For instance, if you can't get sulfuric acid, send your IC off to a failure analysis lab like MEFAS. For more information and stories on silicon hacking, check out [Chris Tarnovsky]'s process for hacking smartcards and [bunnie]'s talk Hacking silicon: secrets behind the epoxy curtain.

Read | Permalink | Email this | Linking Blogs | Comments

ATmega88 webserver

Benjamin Eckel — 2008-07-15T16:45:00+00:00

Filed under: misc hacks

If you are an Atmel fan, you may enjoy this webserver built around the ATmega88. Since it has full TCP and HTTP support, communication can be done using a standard web browser on any system. We also noticed that the code uses AVR Libc and the processor can be replaced with an ATmega168, both used on the Arduino platform. Honestly, we think the most interesting part about this project is the firmware. The author has assumed that the webserver will only be sending one packet per request and the code is optimized for this setup. This leaves around 50% of the memory for the web application.

[via YourITronics]

Read | Permalink | Email this | Linking Blogs | Comments

Scavenging a WWVB module from an RC clock

Fabienne Serriere — 2008-07-15T16:10:00+00:00

Filed under: misc hacks, wireless hacks

[Chris Kuethe] shows how to scavenge what could be a pricey WWVB module from a radio controlled clock. WWVB is a special radio station in Colorado that transmits an atomic-clock-derived signal to RC clocks. The clock model he uses, the Atomix 13131, goes for less than twenty bucks. He also shares the link to another tear down of a Sony branded radio controlled clock for similar purposes. So if you're looking for a cheap way to obtain a WWVB module, the scavenging method could be the thrifty solution you seek.

(Disclaimer: A sticker for an event I organize is in the background of the photos, it's not meant to be there as product placement.)

Read | Permalink | Email this | Linking Blogs | Comments

Ice carving robot

Will O'Brien — 2008-07-15T07:08:00+00:00

Filed under: misc hacks, robots hacks, daily

[Bruce] and [Jesse] put together an ice carving robot a while back. For the most part, it's a CNC machine that is placed on top of the ice. In order to handle the actual ice cutting, they opted for a weed eater turned super rotary tool.

Read | Permalink | Email this | Linking Blogs | Comments

DeWalt-16, how Rambo would remodel

Caleb Kraft — 2008-07-14T18:30:00+00:00

Filed under: misc hacks

[David Wiggins] has sent some info on this DeWALT M-16 gun mod to Toolmonger. Inspired by a picture of an earlier version back in 2003, he decided to go a step further. He already had the M-16 and only lives a few miles from a DeWalt factory service location so he was able to get original stickers and battery casings. After some careful dremmeling and a layer of Krylon, he had the DeWalt-16. Lets be clear, this thing still shoots bullets, not nails.

If modding your M-16 to be a DeWalt power tool is just too manly, you could always go with the Hello Kitty AR-15.

Read | Permalink | Email this | Linking Blogs | Comments

Victorian Nixie tube clock

Caleb Kraft — 2008-07-14T17:25:00+00:00

Filed under: misc hacks

[John Clarke Mills] has pieced together this tastefully done Victorian style Nixie tube clock. He picked up a kit from nixietube.com and an old clock off of eBay. A little bit of elbow grease and solder later, he has this very nice mantle piece. Well done.

For those unfamiliar, a Nixie tube is used for displaying numbers or letters. They are a glass tube, filled with a gas (usually neon). There are metal structures inside that glow when electricity is applied. First widely used in the early sixties, Nixies were pretty much replaced when LED technology got cheap.

We noticed that nixietube.com was down, so you might also check TubeClock.com and neonixie.com for kits.

If you're looking for more inspiration, read about the Nixie counter clock, Russian vfd, and the 6502 driven Nixie clock all previously on Hack a Day.

[via Retro Thing]

Read | Permalink | Email this | Linking Blogs | Comments

Ard-e: Cheap Arduino robot platform

Will O'Brien — 2008-07-14T07:01:00+00:00

Filed under: misc hacks, daily

[Adam] sent in his robot: Ard-e. It's build on a cheap remote control bull dozer kit along with a pile of cheap parts. He managed to keep the cost under $100. You might be getting sick of the Arduino love, but we love how the platform makes it possible for the micro controller novice to get results without taking advanced assembly language.

Read | Permalink | Email this | Linking Blogs | Comments