Day: May 16, 2019

It Is ‘Quite Possible’ This Could Be The Last Bay Area Maker Faire

May 16, 2019 by 111 Comments

The Bay Area Maker Faire is this weekend, and this might be the last one. This report comes from the San Francisco Chronicle, and covers the continuing problems of funding and organizing what has been called The Greatest Show and Tell on Earth. According to Maker Media CEO Dale Dougherty, “it is ‘quite possible’ that the event could be the Bay Area’s last Maker Faire.”

Maker Faire has been drawing artists, craftspeople, inventors, and engineers for more than a decade. In one weekend you can see risque needlepoint, art cars meant for the playa, custom racing drones, science experiments, homebrew computers, gigantic 3D printers, interactive LED art, and so much more. This is a festival built around a subculture defined by an act of creation; if you do something with your hands, if you build something, or if you make something, Maker Faire has something for you. However you define it, this is the Maker Movement and since 2006, there has been a Maker Faire, a festival to celebrate these creators.

It’s sad to learn the future of this event is in peril. Let’s take a look at how we got here and what the future might hold.

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PocketPi Is Exactly What It Sounds Like

May 16, 2019 by 39 Comments

The Raspberry Pi line of single-board computers are remarkably useful things, but they generally require some accessories to be hooked up to become a useful computing platform. [Ramin Assadollahi] wanted a pocket-sized computer to work on without the distractions so common on smartphones, so whipped up the PocketPi to do the job.

It’s a testament to the popularity of the Raspberry Pi platform that [Ramin] was able to put this project together with so many off-the-shelf parts. A Pi Zero W was chosen for its compact size, while a HyperPixel 4.0 screen was chosen for its high resolution in a small package. These parts were combined with a 3000 mAh battery, Adafruit Powerboost 1000C and a small USB keyboard and hub. It’s all wrapped up in a tidy 3D printed package, giving the pocket-sized computer a classic late-1980s look, albeit with much more horsepower under the hood.

It looks like a fun and useful machine to have when out and about, and the full QWERTY keyboard makes input easy. We’ve seen [Ramin]’s work before – with last year’s StickPi implementing an e-paper display. Video after the break.

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An Impeccably Designed High-Speed LED Flash

May 16, 2019 by 58 Comments

If you want to take a picture of something fast, and we mean really fast, you need to have a suitably rapid flash to illuminate it. A standard camera flash might be good enough to help capture kids running around the back yard at night, but it’s not going to do you much good if you’re trying to get a picture of a bullet shattering a piece of glass. For that you’ll need something that can produce microsecond flashes, allowing you to essentially “freeze” motion.

You can buy a flash that fast, but they aren’t common, and they certainly aren’t cheap. [td0g] thought he could improve on the situation by developing his own microsecond flash, and he was kind enough to not only share it with the world, but create a fantastically detailed write-up that takes us through the entire design and construction process. Even if you aren’t in the market for a hyper-fast flash for your camera, this is a fascinating look at how you can build an extremely specialized piece of gear out of relatively common hardware components.

So what goes into a fast LED flash? Rather unsurprisingly, the build starts with high-quality LEDs. After some research, [td0g] went with an even dozen CREE CXA2530 arrays at just shy of $7 USD each. Not exactly cheap, but luckily the rest of the hardware is pretty garden variety stuff, including a ATMega328P microcontroller, some MOSFETs, and a TC4452 driver. He did pack in some monstrous 400 V 10μf capacitors, but has since realized they were considerably overkill and says he would swap them out if doing it all over again.

To make development easier (and less costly, should anything go wrong), [td0g] designed the flash so that the LEDs are arranged in banks of three which can be easily removed or swapped in the 3D printed case. Each trio of LEDs is in a removable “sled” that also holds the corresponding capacitor and MOSFET. Then it was just a matter of getting the capacitors charged up and safely dumping their energy into the banks of LEDs without frying anything. Simple.

At this point, the astute reader is probably thinking that a high speed flash is worthless without an equally fast way of triggering it. You’d be right, but [td0g] already figured that part. A couple years back we covered his incredible ballistic chronometer which is being used as a sensor to fire off his new flash.