Project Sky Canvas - artificial shooting stars

Painting The Sky With Shooting Stars

May 28, 2016 by Steven Dufresne 39 Comments

Japanese company ALE has been working on a new type of sky show, artificial shooting stars, literally creating an artificial meteor shower at a height of 40 to 50 miles (60 to 80km). The show will be visible to anyone within a 125 mile diameter area (200km), meaning that people in New York city and Philadelphia or Los Angeles and San Diego can watch the same show. Aptly named, they’re calling the project “Sky Canvas”.

The plan is to have a satellite, containing around 500 to 1000 source particles, discharge the particles with a specially designed device. As the video below shows, by ejecting the particles in a continuous manner, rather than all at once, they’ll create the equivalent of a meteor shower. The particles will travel around 1/3rd the way around the Earth before entering the atmosphere, creating the shower of shooting stars. Different colors will be possible by using different materials for the particles, something this fireball cannon illustrates.

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Hacklet 109 – Complex 3D Printed Projects

May 28, 2016 by Adam Fabio 13 Comments

If you can’t tell, we’re on a roll with 3D printers and printed projects this month. So far, we’ve covered printers, and simple functional 3D prints. This week we’re taking a look at some of the awesome complex 3D printed projects on Hackaday.io.

Complex 3D printed projects are things like robots, quadcopters, satellite tracking systems, and more. So let’s jump in and look at some of the best complex 3D printed projects on Hackaday.io!

We start with [Alberto] and Dtto v1.0 Modular Robot. Dtto is [Alberto’s] entry in the 2016 Hackaday Prize. Inspired by Bruce Lee’s famous water quote, Dtto is a modular snake-like robot. Each section of Dtto is a double hinged joint. When two sections come together, magnets help them align. A servo controlled latch solidly docks the sections, which then work in unison. Dtto can connect and separate segments autonomously – no human required. [Alberto] sees applications for a robot like [Dtto] in search and rescue and space operations. Continue reading “Hacklet 109 – Complex 3D Printed Projects” →

CNC Clock Mills Itself, Displays The Time

May 28, 2016 by Elliot Williams 42 Comments

[Christian] wrote and sells some CAM/CNC controller software. We’re kinda sticklers for open source, and this software doesn’t seem to be, so “meh”. But what we do like is the Easter egg that comes included: the paths to mill out the base for a clock, and then the codes to move steel ball-bearings around to display the time.

Of course we’d like to see more info (more, MORE, MOAR!) but it looks easy enough to recreate. We could see redesigning this with marbles and a vacuum system, for instance. The seats for the ball bearings don’t even need to be milled out spheres. You could do this part with a drill press. Who’s going to rebuild this for their 3D printer? You just have to make sure that the machine is fast enough to move the balls around within one minute.

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Free Radio On My Phone

May 28, 2016 by Jenny List 84 Comments

If you have owned Android phones, there’s a reasonable chance that as the kind of person who reads Hackaday you will at some time have rooted one of them, and even applied a new community ROM to it. When you booted the phone into its new environment it’s not impossible you would have been surprised to find your phone now sported an FM radio. How had the ROM seemingly delivered a hardware upgrade?

It’s something your cellphone carrier would probably prefer not to talk about, a significant number of phones have the required hardware to receive FM radio, but lack the software to enable it. The carriers would prefer you to pay for their data to stream your entertainment rather than listen to it for free through a broadcaster. If you are someone capable of upgrading a ROM you can fix that, but every other phone owner is left holding a device they own, but seemingly don’t own.

Across North America there is a group campaigning to do something about this situation. Free Radio On My Phone and their Canadian sister organization are lobbying the phone companies and manufacturers to make the FM radio available, and in the USA at least they have scored some successes.

We have covered numerous attempts to use the DMCA to restrict people’s access to the hardware they own, but this story is a little different. There is no question of intellectual property being involved here, it is simply that the carriers would rather their customers didn’t even know that they had bought an FM radio along with their phone. If this bothers you, thanks to Free Radio On My Phone you can now join with others and find a voice on the matter.

It’s interesting to note that many FM radio chips also support a wider bandwidth than the North American and European 88 to 108MHz or thereabouts. In parts of Asia the broadcast band extends significantly lower than this, and the chipset manufacturers make products to support these frequencies. This opens up the interesting possibility that given a suitable app a cellphone could be used to receive other services on these frequencies. Probably more of a bonus for European radio amateurs with their 70MHz allocation than for North American residents.

Via CBC News. Cellphone image: By Rob Brown [Public domain], via Wikimedia Commons.

IPad Control For Guitar Pedals

May 28, 2016 by Elliot Williams 4 Comments

[gutbag] is a guitarist. And guitarists are notorious knob-twiddlers: they love their effects pedals. But when your music involves changing settings more than a few times in the middle of a song, it can get distracting. If only there were little robot hands that could turn the knobs (metaphorically, sorry) during the performance…

Tearing into his EHX Pitch Fork pedal, [gutbag] discovered that all of the external knob controls were being read by ADCs on the chip that did all of the processing. He replaced all of the controls with a DAC and some analog switches, coded up some MIDI logic in an ATmega328, and built himself a custom MIDI-controlled guitar pedal. Pretty slick, and he can now control it live with his iPad, or sequence the knobs with the rest of their MIDI system.

This wasn’t [gutbag]’s first foray into pedal automation, however. He’d previously automated a slew of his pedals that were already built to take control-voltage signals. What we like about this hack is the direct substitution of DAC for potentiometers. It’s just hackier. (Oh, and we’re envious of [gutbag]’s lab setup.)

This isn’t the first time we’ve covered [gutbag]’s band, Zaardvark, either. Way back in 2013, we featured an organ-pedal-to-MIDI hack of theirs. Keep on rockin’.

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Pong In Real Life, Mechanical Pong

May 28, 2016 by Gerrit Coetzee 43 Comments

[Daniel Perdomo] and two of his friends have been working on a mechanical version of Pong for the past two years. We can safely say that the final result is beautiful. It’s quite ethereal to watch the pixe–cube move back and forth on the surface.

[Daniel] has worked in computer graphics for advertising for more than 20 years. However, he notes that neither he nor his friends had any experience in mechanics or electronics when they began. Thankfully, the internet (and, presumably, sites like Hackaday) provided them with the information needed.

The pong paddles and and pixel (ball?) sit onto of a glass surface. The moving parts are constrained to the mechanics with magnets. Underneath is a construction not unlike an Etch A Sketch for moving the ball while the paddles are just on a rail with a belt. The whole assembly is made from V-groove extrusion.

Our favorite part of the build is the scroll wheel for moving the paddle back and forth. For a nice smooth movement with some mass behind it, what’s better than a hard-drive platter? They printed out an encoder wheel pattern and glued it to the surface. The electronics are all hand-made. The brains appear to be some of the larger Arduinos. The 8-bit segments, rainbow LEDs, etc were build using strips glued in place with what looks like copper foil tape connecting buses. This is definitely a labor of love.

It really must be seen to be understood. The movement is smooth, and our brains almost want to remove a dimension when watching it. As for the next steps? They are hoping to spin it up into an arcade machine business, and are looking for people with money and experience to help them take it from a one-off prototype to a product. Video after the break.

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Hackaday Prize Entry: Adding HDMI To Small Displays

May 27, 2016 by Brian Benchoff 16 Comments

LCDs come in a lot of sizes, and there’s a lot written about pushing pixel data out to larger displays. Smaller LCDs, like the 4, 5 and 7 inch variety, aren’t used much, because no one seems to know how to drive the things. For [Joe]’s Hackaday Prize Entry, he’s creating an open source interface for tiny LCDs, making it easy and cheap to add one to everything with an HDMI port.

[Joe]’s Open LCD Interface comes on two boards, with the first providing connections to an LCD, all the power circuitry required, and a bunch of pads to break out every IO line. The second part of the puzzle is a decoder that takes HDMI signals and drives a small LCD.

HDMI decoders are nothing new to the world of hobby electronics – there are multiple projects that give the BeagleBoard a display through HDMI. Even Adafruit sells one of these converters. [Joe]’s board has another trick up its sleeve, though: it can give any microcontroller a high-resolution display, too.

There’s another module that connects to [Joe]’s breakout board that turns the LCD into an SPI display. This means any microcontroller can drive a high-resolution display. It’s fast, too: in the video below, [Joe]’s SPI display can push pixels at least as fast as any other microcontroller-based display we’ve seen.

It’s a great project, and a by opening up the doors to millions of cheap LCDs on eBay and Alibaba, [Joe] has a great entry for the Hackaday Prize on his hands.

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