[M. Eric Carr] built this a long time ago as his Senior Project for EET480. It’s an electronic version of the ball-in-maze game. We’ve embedded this video after the break for your convenience.

The game has just one input; an accelerometer. If you’re having trouble visualizing the game, it works the same as this Android-based version, but replaces the physical maze and marble with a virtual maze on the graphic LCD screen. This has huge implications. Instead of just recreating the maze on the screen, [Eric] designed a multi-screen world, complete with warp blocks, which adds difficulty to  finding a solution. It also means that multiple different mazes can be played if you get tired of playing the same level.

This game also features music. A separate PIC microcontroller uses PWM to push out the 8-bit sound heard in the video. From the YouTube comments we learned that [Eric] didn’t write the music himself, but we still appreciate the playback quality he achieves with his hardware.

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[Jonathan Thomson] was ruminating on EL wire displays and decided that most he has seen are boring, static fixtures or installations that simply flash EL wire on and off at a fixed rate. He thought that EL wire has far more potential than that, and set off to build something more exciting. Using a graphic equalizer T-shirt, with which we’re sure you are familiar, he put together a slick, sound-reactive EL wire display.

He started off by removing the EL panel and inverter from the aforementioned T-shirt, separating the display into two pieces. He set aside the panel and focused on wiring up the inverter’s ribbon cable to a set of EL wire strands he picked up for the project. Once he had everything hooked up, he put a design together on a cardboard box, which he intended to use for wrapping Christmas presents. With the holiday behind him, [Jonathan] broke down his original display and constructed another to offer up some fun birthday wishes.

While the EL inverter was originally built to display sounds detected by an onboard mic, [Jonathan] added a 3.5” stereo jack to his so that he can feed audio directly into the display using an MP3 player.

Continue reading to see the EL display in action, and be sure to check out his writeup if you are looking to spice up your gift giving this year.

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So do you have an Atari 2600 laying around collecting dust? Perhaps you’d like to have a musical instrument to take up the time that you would spend playing video games if you had a modern console. Well, look no further than the GATARI 2600!

[cTrix] made this device with a custom EPROM chip plugged in as a cartridge. Although details of the build are somewhat vague, this custom chip allows music to be written for the device. Everything is controlled with a joystick that tells the GATARI to generate the desired track. From this basic track, the sound is modified using three pedals including an equalizer, a flange pedal, and a hold pedal.

Check out the video after the break for a brief explanation of how it was built. Skip to 1:05 if you’d rather just see it in action at [Blipfest] in Japan!

If you’d rather listen to music rather than playing it, why not build your own snap together boombox instead!

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With 8 drives working in concert, this “floppy drive array orchestra” takes drive music to a whole new level!  As if that wasn’t enough, [SileNT] decided to use the16x64 LED array that he’s been working on in concert with the drives.

For those that remember, we’ve actually featured [SileNT], AKA [Pawel]‘s, work before, where we were impressed that he was able to play the Imperial March from Star Wars on 2 floppy drives. He’s planning more information about his floppy drive music making in the future and maybe even instructions on building your own personal disk drive orchestra. Apparently [SileNT] has an abundant supply of 3 1/2 inch drives, so maybe even this feat can be topped…

Be sure to check out the video after the break of these 8 drives in action. In the video, more tunes are promised “soon”, so be sure to check back or subscribe to him on Youtube for more sweet melodies. Read the rest of this entry »

We love a good Tesla coil music performance, but have never really considered building our own. After reading [TheHomebrewGuru's] guide to musical Tesla coils we’re still not considering it. Whether or not you’re going to undertake the project, his massive writeup is worth a look.

The tutorial begins at the beginning, with a bit of background on these devices, including what they are, where they came from, and the electrical theory behind them. From there it’s on to the build. This isn’t a go-out-and-buy it type of project. You’re going to need some ingenuity to hunt down parts that will work, and will work with each other.

The image above shows a partially built device, using sheet metal ductwork covered in foil tape as the torroid at the top. The column is wrapped in wire, forming the secondary coil, and the wooden base is ready for the installation of the primary coil. Electronics will be housed between the two wood discs of the base, with a TI Launchpad board driving the music part of the hack.

There isn’t a good demo video of this playing music. But you can get the idea if you look back at the head-mounted tesla coil which did a great job of pumping out the tunes.

If you are considering repurposing some old computer equipment to create music, be aware that the bar has been raised just a tad. YouTube user [BD594] spent some time sifting through his bin of used electronics and put together a 5-piece band that plays a pretty awesome rendition of The Animals’ “House of the Rising Sun”.

Last week, we saw a pretty impressive hack with a floppy drive that could bang out music using a calculator, but this takes things to a whole new level. [BD594] used an old HP ScanJet to simulate the song’s vocals, while an Atari 800XL combined with an oscilloscope is used as an organ. A Ti-99/4a is used in conjunction with another scope to play guitar notes, while a PIC-controlled hard drive does double duty, playing both the bass drum and cymbals.

We dare you to watch the video below and NOT be thoroughly impressed with his work.

[BD594] says that once he has a bit of free time, he’ll be putting out another video – something we’ll be anxiously waiting to see.

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[Chris] says that he’s been pretty busy lately, leaving little opportunity for hacking. However he did manage to find a little time to put together a small project that has occupied his to-do list for a while – a floppy drive music controller.

We have seen hacks that use microcontrollers to actuate floppy drive motors before, but we can’t remember anything that used a calculator to do the job instead. While a microcontroller gives you plenty of I/O pins to play with, [Chris’] Ti-83+ only has two.

Even with the calculator’s I/O limitations, he didn’t find the task too overly difficult as he merely needed to hold a pair of the drive’s pins low, while pulsing two others. He modified a media player written for Ti calculators to output the necessary control signals, then he cranked out some tunes.

As you can see in the video below, his simple setup works quite well – not bad for just a few hours’ work.

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“I can’t hear myself in the mix,” “yeah, man, I’ll be there at 8,” and “dude, we need like four more mics.” Each and every one of these words is documented in actuarial tables and doesn’t bode well for your sound tech’s risk of a stroke. Luckily, there’s an even better way to kill your sound guy and this time, it’s actually pretty clever.

[@dop3j0e] at the Stuttgart hackerspace Shackspace came up with the Noiseplug. It’s a very small build that could almost fit into a quarter-inch jack. It’s all SMD with a tiny (unknown) ATtiny9 microcontroller powered by a watch battery.

The music coming out of the Noiseplug is really interesting. All the code on the microcontroller is a one-liner written in C. Similar ‘algorithmic chiptune’ programs can be run on any PC: check out these three examples.

These potential entries to the International Obfuscated C Code Contest throw chars into an 8-bit PCM stream. Piping the output of these programs to /dev/audio would generate an actual song – written entirely in one line of C.

Of course, [@dop3j0e] could have made his Noiseplug a little less annoying, but sound techs are underappreciated for a reason, right?

Check out the Noiseplug in action after the break along with a few one-liner C songs.

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