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ptorrone writes: Adafruit is now shipping the USA-made open-source Arduinos. In celebration Ladyada the engineer posted an Arduino rotating in front of an American flag with the public domain "America the Beautiful" by the United States Navy Band as background music. Adafruit immediately received notice from from YouTube stating that the song is owned by Rumblefish. Rumblefish previously claimed to own copyright to ambient birdsongs, too.

ptorrone writes: Adafruit is now shipping the USA-made open-source Arduinos. In celebration Ladyada the engineer posted an Arduino rotating in front of an American flag with the public domain "America the Beautiful" by the United States Navy Band as background music. Adafruit immediately received notice from from YouTube stating that the song is owned by Rumblefish. Rumblefish previously claimed to own copyright to ambient birdsongs, too.

ptorrone writes: Open source hardware pioneer and founder of Adafruit Limor "Ladyada" Fried sat down and interviewed the new CEO of MakerBot, Jonathan Jaglom. She asked some really tough questions had some suggestions for them, too, if they're going to turn things around. Discussed: Is there a desire for MakerBot to patch things up with the open source community? Jaglom wants to assure the 3D-printing community there are not any plans for filament DRM, and it was nice to hear him say "patents are not the way to win." Lastly, Fried suggested the open-sourcing of some specific elements of the MakerBot to get back to its open-source hardware roots.

ptorrone writes: Open source hardware pioneer and founder of Adafruit Limor "Ladyada" Fried sat down and interviewed the new CEO of MakerBot, Jonathan Jaglom. She asked some really tough questions had some suggestions for them, too, if they're going to turn things around. Discussed: Is there a desire for MakerBot to patch things up with the open source community? Jaglom wants to assure the 3D-printing community there are not any plans for filament DRM, and it was nice to hear him say "patents are not the way to win." Lastly, Fried suggested the open-sourcing of some specific elements of the MakerBot to get back to its open-source hardware roots.

Mark F. Brown and Joel Rozenweig build autonomous drones; that is, drones that don't need an operator every second. You tell the autonomous drone, "Pick up package # 941A at the loading dock and deliver it to 451 Bradbury St.' and off it goes. It's going to be a while yet before that happens, but one day....

Back in the present, dronemaking is still a hobby for Mark and Joel, something they do for fun after spending their workdays as software engineers at Intel. Joel says there is 'remarkably little' crossover between their jobs and their hobby, and that (so far) Intel has contributed little beyond some Edison modules (which you can buy for less than $50) and travel to the Embedded Linux Conference, where they gave a talk accompanied by these slides. NOTE: We have a little bonus for you today. We try to keep videos to 10 minutes or less, but we have no such constraints on transcript length. So if you want the 'full' version of this interview, please read the transcript.

coop0030 (263345) writes Adafruit held a 2014 Raspberry Pi Photography contest that has completed with the winners selected. You can see the winning photographs as well as all of the entries. Andrew Mulholland, using a Raspberry Pi powered LEGO panobot, is the winning photographer. He's also provided a video of how his winning photographs were put together.

coop0030 (263345) writes Adafruit held a 2014 Raspberry Pi Photography contest that has completed with the winners selected. You can see the winning photographs as well as all of the entries. Andrew Mulholland, using a Raspberry Pi powered LEGO panobot, is the winning photographer. He's also provided a video of how his winning photographs were put together.

coop0030 (263345) writes Adafruit held a 2014 Raspberry Pi Photography contest that has completed with the winners selected. You can see the winning photographs as well as all of the entries. Andrew Mulholland, using a Raspberry Pi powered LEGO panobot, is the winning photographer. He's also provided a video of how his winning photographs were put together.

From the Firepick website: 'We are developing a really cool robotic machine that is capable of assembling electronic circuit boards (it also 3D prints, and does some other stuff!). It uses a vacuum nozzle to pick really tiny resistors and computer chips up, and place them down very carefully on a printed circuit board.' There are lots of companies here and in China that will happily place and solder components on your printed circuit board, but hardly any that will do a one-off prototype or a small quantity. And the components have gotten small enough that this is really a job for a robot (or at least a Waldo), not human fingers. || There are obviously other devices on the market that do this, but Firepick Delta creator Neil Jansen says they are far too expensive for small companies, let alone individual makers.

The Firepick Delta Hackaday page talks about a $300 price for this machine. That may be too optimistic, but even if it ends up costing two or three times that amount, that's still a huge step forward for small-time inventors and custom manufacturers who need to populate just a few circuit boards, not thousands. They have a Haxlr8r pitch video, and have been noticed by TechCrunch, 3DPrintBoard.com, and Adafruit, just to name a few. Kickstarter? Not yet. Maybe next year. Open source? Totally, complete with GitHub repository. And they were at OSCON 2014, which is where Timothy found them. (Alternate Video Link)

coop0030 (263345) writes "Celebrate the 25th anniversary of the classic gaming device, Game Boy, by building your own with 3d printing and DIY electronics. This project uses a Raspberry Pi and TFT touch screen to make an epic DIY Game Girl. The 3d printed enclosure houses all of the components and can be printed in your favorite color. It's controlled with SNES gaming controller components, reusing the printed circuit board, buttons and elastomers. The 3D files can be found on Thingiverse, and a video of the finished product is provided as well."

coop0030 (263345) writes "Becky Stern at Adafruit has created a guide on how to create an open source NFC ring or other wearable to mod and unlock your Android phone. From the tutorial: 'Unlock your phone by just picking it up! No more pesky password or gesture PIN, just scan an NFC tag! This guide covers creating an NFC ring, putting an NFC tag in your nail polish, modding your Android installation to read tags from the lockscreen, and creating an automation toolchain to unlock the phone when the desired tag is scanned.' There is also a video that demonstrates how it works."

coop0030 (263345) writes "Noe & Pedro Ruiz at Adafruit have created a pair of open source near-eye video glasses combined with a Raspberry Pi. Their 3D Printed design turns a pair of 'private display glasses' into a "google glass"-like form factor. It easily clips to your prescription glasses, and can display any kind of device with Composite Video like a Raspberry Pi. They have a video demonstrating the glasses, a tutorial on how to build them, along with the 3d files required to print it out."

Arvydas Juskevicius (say that five times fast) is an independent software developer and hardware hacker based in London (which is where I got a chance to talk with him) who's decided to bring the useful LED signalling capabilities of many modern smartphones into the world of desktop or laptop computers. With his £10 BlinkStick kit (£15 pre-assembled), you get a programmable multi-color LED that's about the size of a flash memory key. Deceptively simple -- it's essentially one giant pixel, after all, which might not sound exciting when you have millions of them on a dense display surface. But that LED light is something you can use as a signal for alarms, or to tell you that you have a message from one app while another is at full-screen, or practically anything else that you can devise software to notice and react to. I get the sense that Juskevicius would prefer that people get the kit version, to help spur interest in actually soldering some hardware rather than just plugging it in. If you're allergic to paying in other than U.S. dollars, the BlinkStick is also available from Adafruit Industries. Watch the video below to see it in action.

With her signature pink hair, MIT engineer Limor Fried has become a force in the maker movement. Last year she was awarded Entrepreneur of the Year by Entrepreneur Magazine, and her company, Adafruit Industries, did $10 million in sales. Limor has agreed to take some time away from soldering and running a new company to answer your questions about hardware, electronics, and Adafruit. As usual, ask as many as you'd like, but please, one question per post.

coop0030 writes "Adafruit has a new tutorial that will show you how to use your Raspberry Pi as a WiFi access point that blocks ads by default for any devices using it. This is really neat in that it would work for your Android or iOS device, your Xbox 360, TiVo, laptop, and more without needing to customize any of those devices other than to use your Raspberry Pi as the access point for WiFi. Using an ad-blocker can be useful for conserving bandwidth, helping out low-power devices, or for keeping your sanity while browsing the web!"

coop0030 writes "Adafruit has a new tutorial that will show you how to use your Raspberry Pi as a WiFi access point that blocks ads by default for any devices using it. This is really neat in that it would work for your Android or iOS device, your Xbox 360, TiVo, laptop, and more without needing to customize any of those devices other than to use your Raspberry Pi as the access point for WiFi. Using an ad-blocker can be useful for conserving bandwidth, helping out low-power devices, or for keeping your sanity while browsing the web!"

coop0030 writes "Add GPS, compass navigation & visibility with LEDs to a helmet that helps you find your way to the closest Citi Bike station in New York City. It's powered by Adafruit's FLORA, a wearable electronics platform. With a detailed tutorial, you can build the helmet, and customize it to work in most cities with a bike share as well."

coop0030 writes "Feel like someone is snooping on you? Browse anonymously anywhere you go with the Onion Pi Tor proxy. This is fun weekend project from Adafruit that uses a Raspberry Pi, a USB WiFi adapter and Ethernet cable to create a small, low-power and portable privacy Pi."

coop0030 writes "Thanks to the affordable Raspberry Pi and some clever software, anyone can re-create the classic arcade experience at home. Adafruit brings the genuine 'clicky' arcade controls, you bring the game files and a little crafting skill to build it. Classic game emulation used to require a well-specced PC and specialized adapters for the controls, so it's exciting to see this trickle down to a $40 system. Also, a video of the game system is on YouTube."

XWWT writes "A few weeks ago Make offered to send us a sample of its Raspberry Pi Starter Kit to see if we would do a review of the product. Samzenpus asked around the engineering team to see if there was someone who would be willing to do an on-camera review of the device. With all of the buzz about Raspberry Pi, I was very excited to get hands-on time with the device so I could more closely examine the platform. At first we wanted to do this piece as a video but quickly realized that a) it would probably be boring to see some blinky lights and push buttons working on a sample project, and b) the amount of audio that would need to be bleeped to cover my frustration with parts of the kit would be annoying. On a personal note, I also wanted to document all of my experience here as I thought it would be beneficial for newcomers to the maker technology and sometimes having someone else’s experience documented can help you avoid pitfalls and mistakes. (Full Disclosure: I am the Director of Engineering for Slashdot Media. We were given a review copy of the Make: Raspberry Pi Starter Kit. We were not paid for this review but had fun doing it.)" Keep reading for the rest of Wes's review. Unpacking the Box:
The box was nicely packaged with lots of little pieces parts in baggies and was well assembled. I immediately pulled out the Pi board and all of the packaged elements to see what was included. It became apparent that the shipping box would be useless to keep all the parts together once I unpacked it and found an old small plastic tool box to keep the parts in for future use and transport.

Included in the box was the 512MB Pi unit, 1A USB charger (underpowered for big projects), Pi Cobbler kit, Pi enclosure, 4GB Class 4 SDHC card, breadboard, a trimmed down version of the Medtronics kit, short HDMI cable, jumper wires (male) and the Getting Started with Raspberry Pi book. They seemed to be packed well as subassemblies so I tried to keep them together as such until later so I wouldn’t lose or mix parts.

The Medtronics kit had LEDs, resistors, capacitors, diodes, pushbuttons, switches, jumpers and some timer chips; all fun toys. Basically it is a collection that anyone doing electronics work would need in order to do a handful of projects. Most of these parts are cheap when bought in bulk, but getting variety collections like this tend to be expensive as you are buying only a couple of parts so it was nice to see them included. I was disappointed that I didn’t see any male-to-female jumpers in the box as these are useful in connecting pins but realized that was the point of the Pi Cobbler Kit.

After I had looked over the board itself, I thought it best to actually try to follow instructions since I was supposed to review the kit. I opened the included Getting Started with Raspberry Pi book and reviewed the first two chapters to get an idea of what was actually on-board the Pi itself and to see how the “Getting Started” would work for a first timer. Typically I find that getting started books from Make try to appear like How-To manuals blended with a lab book and they don’t do well being either. That was certainly the case with this book as I progressed.

The first chapter was really helpful as it laid out what the main components were on the board and what the actual available processing power. The board is an ARM11, 32bit, 700MHz processor. We happened to get the B version so it has 512MB of available RAM. The physical size of the board is a little larger than a stack of credit cards, with all of the components it is about the total size of a mans pocket wallet (about 3”x2”x1/2”). I examined the physical joints on the board and all were machine done (expected) and seemed to be in good order. The first problem I noticed though was that the joints for the HDMI and Audio/Video jacks would not be sufficient to keep them from being broken off the board. Additionally the joints holding the power unit seemed shaky if the unit were plugged in/out too frequently (the book and blogs confirmed that suspicion). The Ethernet port on the board seemed to be in good shape as did the GPIO and Display and Camera Serial Interfaces.

I was pleased to see that there were some status LEDs on-board for simple debugging. Those of us that are used to solving boot problems with status indicators like LEDs or audible tones know that these are important when you just can’t get a board to respond.

I then examined the enclosure case assembly which still had the protective wrapping on it and stunk of cutting fluid. There were no instructions on assembly for that so I set it aside. There seemed to be small parts in that package and I didn’t want to lose them, so I left it sealed.

Setting up Raspbian:
I wanted to validate quickly that there were no problems with the board so I ran through the steps of flashing the SD card with a copy of Raspbian. I actually tried both the dd tool installation under UNIX and the Win32DiskImager to see if there were significant differences in the experience. While the dd process seemed straight-forward the Win32DiskImage was just as easy. I found the documentation here to be the simplest to follow. Some might argue that having a pre-loaded SD card would have been best but I think the point of doing this yourself helps you to better learn the process and get more comfortable with the device.

I then plugged in the HDMI cable to the Pi and dug up a USB mouse and keyboard. Next, I plugged in the USB power supply and SD card. Immediately I made a note to use a powered USB port next time as it would reduce the number of times I would have to torque the onboard USB ports. When I went to plug the HDMI into my monitor I realized that I only had DVI ports and had to scrounge around in my toolbox for a HDMI to DVI converter. (DVI converters are inexpensive and would have been a nice addition to the kit.) I also made a mental note at this point to DX the 1.5m HDMI cable for something longer. I put the board on a non-reactive surface (notebook) so the contacts would not short and then booted the device. I followed all of the default options laid out in the Getting Started book just to make it simple. All-in-all the experience in booting and setting up Raspbian for the first time was satisfying.

Make: Pi Enclosure:
When I first looked at the Pi Enclosure it was pretty easy to see how it was supposed to go together. What I didn’t realize was the amount of swearing it would take to actually get it done. There are only nine parts in the V1 assembly and it should be easy to do, but without instructions it might as well have had a million parts. There is a delicate balance between each of the parts and the tolerance is very low compared to the profile of the board. You also need to torque the enclosure parts to get them to fit together while balancing the assembly in one hand and not drop the Pi. Not at all optimal. In the end I broke a connector slot on the enclosure which required a little superglue to fix. Once I had the board in the enclosure I realized that the opening for the power port was off enough that it would require modification to accept the USB power cord. After taking the enclosure apart I used a project file to widen a couple of the openings (power, GPIO) and tried again, this time adding in the 26 pin ribbon for the Cobbler kit knowing I didn’t want to have to take this apart again just to add that in later. It was even more difficult to put the pieces together with the ribbon cable, but I got it to work. (BTW: Make sure colored ribbon is on pin 1 which is on the same end as the Pi power port.). The how-to for assembling the enclosure here seems to work fine, but doesn’t account for adding the ribbon cable. (I looked over the V2 of this box which uses bolts and nuts to hold together and I see there are problems with how you hold the nuts in place for assembly. I can only imagine the frustration with that version and the number of times nuts are dropped into the box only to have to open it and retrieve them to try again.) Better option: Make your own project box out of LEGOs.

Ada Fruit Cobbler Kit:
Basically the Ada Fruit Cobbler Kit is a simple device to connect the GPIO of the Pi to a breadboard making experimentation a little easier. The kit includes a PCB, socket, 26 pin ribbon and header pins. Assembly was pretty straightforward except for separation of the header pins. My kit came with the header pins in one stick with about 36 pins. You only need 26 (2x13) so breaking this down, while simple, still takes some care. I should have used jewelry pliers or side cutters which would have made sure I didn’t break it into 12, 13 and the balance. Adding back in one header pin is never fun and I should have known better.

Soldering was simple. First I soldered the socket to the PCB so I was working from the inside joints to the outside joints. Turning the assembly upside down worked well for this and my iron was still at a good temperature. I started from one end and worked my way down each set of pins, checked the joints and cleaned up one or two that were messy. Next I placed the 12 and 13 pins into a breadboard, set the PCB on that and worked from the middle pins out and then added the lone pin back in. (2x13 sticks would have made this much easier.) The header pin plastic melted a little because I was being aggressive, but a few tweaks and I was able level the socket with the pins so it didn’t look like my youngest child completed the work. It would have been a better experience if I had a soldering iron with temperature adjustment, smaller soldering tip and smaller diameter solder. My desolder tool helped when I found I had to reset a head pin that I accidentally pushed on with my iron.

I think assembly of the Ada Fruit Cobbler kit will be the most intimidating part of the kit for someone new to electronics. The kit calls out that you will need soldering skills and this is as basic a soldering job as you can get, but still some might shy away from it. I understand that more recent versions actually have the kit pre-assembled for those who don’t want to solder.

Good assembly instructions can be found here.

Working with the OS:
The Raspian OS is Lightweight X11 (LXDE) with Openbox. For non-Linux users this may seem a little scary but there is a whole body of work around this and outside of the scope of this review.

Configuring and setting up the OS on my home network was typical for a Linux install. I wish I had a wireless USB though so I didn’t need to rely on the Ethernet adapter and fear of having a cable pulled and dropping the device. Connectivity completed, I wanted to play with some programming on the device.

I was happy to see Python and IDLE in the install as it made writing a simple program to tinker with the system easy. Additional modules can be downloaded and installed easily. Sample programs are easy to find or write and are typical. At this point I had a working Linux desktop computer, the size of my wallet, connected to my network and a breadboard for experimenting with IO.

I have yet to run this headless but will do so at some point.

Working with IO:
After I completed the assembly items and tinkering, I picked out a project for the breakout board to see if there was something cool that I could show. I worked on the first simple IO example in the book and quickly found that the documentation is really poor for a first-timer.

The first example of GPIO work in the Getting Started book lays out that you should use male-to-female adapters, then promptly tells you that the Pi Cobbler makes it easier to experiment and then continues the experiment with mtf adapters, which aren’t included in the kit. It tries to compensate for this by using a really bad drawing of the GPIO pins that aren’t completely labeled and have caveats about versions of the board. So before wiring the board I had to do a little investigation about the version of the board which you can tell only by booting the device (a nice stamp on the board would have been nice). Fortunately I have a version 2 board making the wiring a little easier to follow. (More information on Pin IO can be found here.) I checked for errata on the book to see if some of it has been sorted out but didn’t see this addressed at the time I was setting the project up.

Note on IO projects: You should really make sure you have your circuits setup and buffered when working with external experiments. It is also important to understand how a breadboard works and which terminals are tied out. Basically if you aren’t careful and paying attention you can accidentally feed power back to your Pi and end up blowing it out. (Mixing the 3V3 and 5V will do that in an instant.) For a $35 board that isn’t too expensive of a lesson, but would probably cause a newbie to be quickly discouraged.

The ‘Hello World’ examples in the Getting Started for IO include lighting an LED and reading from a pushbutton. The setup for these circuits is pretty simple but the author of the experiment doesn’t explain well how the powerbus works on the breadboard which could easily lead to a project discouragement. Additionally, the diagrams are set for mtf jumpers so matching that to the Cobbler kit and making sure you get the correct pins there can be a problem. Reading IO in the samples was easy and was simply a matter of running as su and setting the direction of the pin and then echo or cat the value to set/read its state.

Other sample projects assume you have a PowerSwitch tail relay sitting around, which I don’t, so turning off an external device (table lamp) was out of the question in my first couple of experiments. I would have been nice to see either all of the experiments focused at what was in the kit, or to include all of the items needed for the experiments in the kit.

I tinkered with GPIO and Python to automate some of the work and it was all quite simple to do. Samples in the Getting Started were fine but as with most programming examples, there were some small typos.

I think for someone coming to this the first time the experiments in the book are pretty simple but assume some experience with electronics. For new electronics users I would recommend a copy of Make: Electronics as it does a good job of laying out Electricity 101 in straightforward terms. You will also want to start assembling some other break out tools which can be easily had from lots of sources.

I picked up a copy of Raspberry Pi Users Guide by Upton and Halfacree for more project ideas in the future and look forward to reading and working those projects. I also ended up getting a couple of other books about the Raspberry Pi to see what they have in them and will likely do a book review at some point about their content.

General Observations:
For $35 the Pi is a great buy but the problem is finding the companies who are selling it for that price; Make sells theirs for $50. The added project items needed in this kit seem to be a little pricy, causing the overall price to get it up to the $130 range. Ada Fruit Cobbler kits are running $8, Pi enclosures are running $15, USB chargers run about $7, 4GB cards run about $6, solderless breadboards about $15 and probably $10 for the extra parts in the box, $10 or so for the book. If you are already doing electronics hobby work, I would find a different sourced board and skip the extras here. If you are new and want to give this a try or want to one-stop the parts, then buy the kit.

There is a great deal of an IKEA effect by having you participate in the assembly and feel like you just made something cool. It was largely fun putting the parts together and I am thinking about project applications almost daily. One of our developers belongs to a racing club and we were thinking that these would be a cheap means of tracking and relaying car speed/vitals to a central unit. I am also curious to see if these would be a better solution for tracking car performance for those into hypermiling. In any case, I plan on trying a number of projects and continue to develop with the board.

Lessons Learned:

• A) Find a project box or assemble one of the nice Lego Pi Enclosures described out on the Internet. The project enclosure in the kit is fragile and difficult to assemble. There is a nice example made by a German Scout named Biz and can be found here. Or, if you are clever, you can make something bigger and better. As there is no heat-sink on board, I would avoid enclosures with a lid so you can vent any thermal from the board.

• B) The enclosed book is ok, but there are other resources that were more valuable in the setup.

• C) Get a powered USB device to control your mouse/keyboard, etc. There are only a couple of open slots on the Pi.

• D) An HDMI to DVI adapter is helpful.

• E) Get a longer HDMI cable to make this practical for experimenting.

ptorrone writes "In a welcome turn of events, President Barack Obama spoke directly to the patent troll problem and the need for more comprehensive patent reform yesterday in a 'Fireside Hangout' — a live question and answer session (video) hosted in a Google+ hangout. The President was responding to a question by the prominent electrical engineer and entrepreneur Limor 'Ladyada' Fried of Adafruit Industries, who in 2009 won an EFF Pioneer Award for her work with free software and open-source hardware."

ptorrone writes "In a welcome turn of events, President Barack Obama spoke directly to the patent troll problem and the need for more comprehensive patent reform yesterday in a 'Fireside Hangout' — a live question and answer session (video) hosted in a Google+ hangout. The President was responding to a question by the prominent electrical engineer and entrepreneur Limor 'Ladyada' Fried of Adafruit Industries, who in 2009 won an EFF Pioneer Award for her work with free software and open-source hardware."

coop0030 writes "Open source hardware company Adafruit has announced a new tiny wearable electronics platform board called the Gemma. The Gemma is a tiny, 1-inch diameter and 4-mm thick package. It's powered by an Attiny85 and programmable with an Arduino IDE over USB. There are three available I/O pins, one of which is also an analog input and two of which can do PWM output. Gemma is currently wrapping up development, but should be available soon."

coop0030 writes "Open source hardware company Adafruit has announced a new tiny wearable electronics platform board called the Gemma. The Gemma is a tiny, 1-inch diameter and 4-mm thick package. It's powered by an Attiny85 and programmable with an Arduino IDE over USB. There are three available I/O pins, one of which is also an analog input and two of which can do PWM output. Gemma is currently wrapping up development, but should be available soon."

coop0030 writes "Open source hardware company Adafruit has announced a new tiny wearable electronics platform board called the Gemma. The Gemma is a tiny, 1-inch diameter and 4-mm thick package. It's powered by an Attiny85 and programmable with an Arduino IDE over USB. There are three available I/O pins, one of which is also an analog input and two of which can do PWM output. Gemma is currently wrapping up development, but should be available soon."

coop0030 writes "Wired has an article up about how Adafruit, the kit-based electronics retailer and promoter of hobbyist engineering, is aiming to teach electronics to a younger demographic. So young that they're enlisting the help of puppets. Their new online show, titled Circuit Playground, will teach the essentials of electronics and circuitry to children through kid-friendly dolls with names like Cappy the Capacitor and Hans the 555 Timer Chip. Limor 'Ladyada' Fried, Adafruit's founder and chief engineer (and 2012 Entrepreneur of the Year), will host the episodes, with her team assisting with onscreen and puppeteering duties. Episodes will premiere this March, and Fried holds hope for them to help inspire the next generation of designers and builders."

coop0030 writes "Wired has an article up about how Adafruit, the kit-based electronics retailer and promoter of hobbyist engineering, is aiming to teach electronics to a younger demographic. So young that they're enlisting the help of puppets. Their new online show, titled Circuit Playground, will teach the essentials of electronics and circuitry to children through kid-friendly dolls with names like Cappy the Capacitor and Hans the 555 Timer Chip. Limor 'Ladyada' Fried, Adafruit's founder and chief engineer (and 2012 Entrepreneur of the Year), will host the episodes, with her team assisting with onscreen and puppeteering duties. Episodes will premiere this March, and Fried holds hope for them to help inspire the next generation of designers and builders."

coop0030 writes "Wired has an article up about how Adafruit, the kit-based electronics retailer and promoter of hobbyist engineering, is aiming to teach electronics to a younger demographic. So young that they're enlisting the help of puppets. Their new online show, titled Circuit Playground, will teach the essentials of electronics and circuitry to children through kid-friendly dolls with names like Cappy the Capacitor and Hans the 555 Timer Chip. Limor 'Ladyada' Fried, Adafruit's founder and chief engineer (and 2012 Entrepreneur of the Year), will host the episodes, with her team assisting with onscreen and puppeteering duties. Episodes will premiere this March, and Fried holds hope for them to help inspire the next generation of designers and builders."

coop0030 writes "Wired has an article up about how Adafruit, the kit-based electronics retailer and promoter of hobbyist engineering, is aiming to teach electronics to a younger demographic. So young that they're enlisting the help of puppets. Their new online show, titled Circuit Playground, will teach the essentials of electronics and circuitry to children through kid-friendly dolls with names like Cappy the Capacitor and Hans the 555 Timer Chip. Limor 'Ladyada' Fried, Adafruit's founder and chief engineer (and 2012 Entrepreneur of the Year), will host the episodes, with her team assisting with onscreen and puppeteering duties. Episodes will premiere this March, and Fried holds hope for them to help inspire the next generation of designers and builders."

ptorrone writes "Limor 'Ladyada' Fried of open-source hardware company Adafruit Industries was awarded Entrepreneur of the Year by Entrepreneur Magazine. From the article: 'Recognizable by her signature vivid-pink locks, Fried (or Ladyada, as she is known on the internet) is one of the dominant forces behind the maker movement--a legion of do-it-yourself-minded folks who create cool things by tweaking everyday technology. Last year New York City-based Adafruit did a booming $10 million trade in sales of DIY open-source electronic hardware kits.'"

coop0030 writes "The first photos and videos of the Model A production samples are now available. The Raspberry Pi Model A is the newest low-cost computer from the Raspberry Pi Foundation. Compared to the popular Model B, the Model A forgoes the Ethernet Controller, has 256MB of RAM, and has a single USB port. A benefit of the missing Ethernet controller is that power consumption is reduced. This allowed them to reach their goals of a low-cost $25 computer. The release date is for sometime early in 2013."

coop0030 writes "The first photos and videos of the Model A production samples are now available. The Raspberry Pi Model A is the newest low-cost computer from the Raspberry Pi Foundation. Compared to the popular Model B, the Model A forgoes the Ethernet Controller, has 256MB of RAM, and has a single USB port. A benefit of the missing Ethernet controller is that power consumption is reduced. This allowed them to reach their goals of a low-cost $25 computer. The release date is for sometime early in 2013."

coop0030 writes "Ladyada and pt had an old NeXT keyboard with a strong desire to get it running on a modern computer. These keyboards are durable, super clicky, and very satisfying to use! However, they are very old designs, specifically made for NeXT hardware: pre PS/2 and definitely pre-USB. That means you can't just plug the keyboard into a PS/2 port (even though it looks similar). There is no existing adapters for sale, and no code out there for getting these working, so we spent a few days and with a little research we got it working perfectly using an Arduino Micro as the go between."

coop0030 writes "Ladyada and pt had an old NeXT keyboard with a strong desire to get it running on a modern computer. These keyboards are durable, super clicky, and very satisfying to use! However, they are very old designs, specifically made for NeXT hardware: pre PS/2 and definitely pre-USB. That means you can't just plug the keyboard into a PS/2 port (even though it looks similar). There is no existing adapters for sale, and no code out there for getting these working, so we spent a few days and with a little research we got it working perfectly using an Arduino Micro as the go between."

ptorrone writes "Adafruit, the NYC based open-source hardware company led by Ladyada released their open-source Raspberry Pi WebIDE alpha today. Its goal is to be 'The easiest way to develop code on your Raspberry Pi.' To get up and running head on over to learn.adafruit.com/webide and follow the installation and setup instructions. It uses Bitbucket, and any code changes you make will be synced to your Bitbucket account. Adafruit chose Bitbucket over GitHub because they offer free secure accounts, which is very important for a Web-based IDE."

ptorrone writes "Adafruit, the NYC based open-source hardware company led by Ladyada released their open-source Raspberry Pi WebIDE alpha today. Its goal is to be 'The easiest way to develop code on your Raspberry Pi.' To get up and running head on over to learn.adafruit.com/webide and follow the installation and setup instructions. It uses Bitbucket, and any code changes you make will be synced to your Bitbucket account. Adafruit chose Bitbucket over GitHub because they offer free secure accounts, which is very important for a Web-based IDE."

ptorrone writes "Adafruit, the NYC based open-source hardware company led by Ladyada released their open-source Raspberry Pi WebIDE alpha today. Its goal is to be 'The easiest way to develop code on your Raspberry Pi.' To get up and running head on over to learn.adafruit.com/webide and follow the installation and setup instructions. It uses Bitbucket, and any code changes you make will be synced to your Bitbucket account. Adafruit chose Bitbucket over GitHub because they offer free secure accounts, which is very important for a Web-based IDE."

ptorrone writes "Adafruit, the NYC based open-source hardware company led by Ladyada released their open-source Raspberry Pi WebIDE alpha today. Its goal is to be 'The easiest way to develop code on your Raspberry Pi.' To get up and running head on over to learn.adafruit.com/webide and follow the installation and setup instructions. It uses Bitbucket, and any code changes you make will be synced to your Bitbucket account. Adafruit chose Bitbucket over GitHub because they offer free secure accounts, which is very important for a Web-based IDE."

ptorrone writes "Open-source hardware company Adafruit has released a Linux Raspberry Pi distro for hardware hacking and teaching electronics. This distro comes with SPI, I2C, & OneWire WiFi. It also has some things to make overall hacking easier, such as sshd on startup (with key generation on first boot) and Bonjour (so you can simply ssh raspberrypi.local from any computer on the local network). The distro is called Occidentalis v0.1. Rubus occidentalis (the black raspberry) is derived from Raspbian Wheezy, and is available for download here."

ptorrone writes "Open-source hardware company Adafruit has released a Linux Raspberry Pi distro for hardware hacking and teaching electronics. This distro comes with SPI, I2C, & OneWire WiFi. It also has some things to make overall hacking easier, such as sshd on startup (with key generation on first boot) and Bonjour (so you can simply ssh raspberrypi.local from any computer on the local network). The distro is called Occidentalis v0.1. Rubus occidentalis (the black raspberry) is derived from Raspbian Wheezy, and is available for download here."

ptorrone writes "Open-source hardware company Adafruit has released a Linux Raspberry Pi distro for hardware hacking and teaching electronics. This distro comes with SPI, I2C, & OneWire WiFi. It also has some things to make overall hacking easier, such as sshd on startup (with key generation on first boot) and Bonjour (so you can simply ssh raspberrypi.local from any computer on the local network). The distro is called Occidentalis v0.1. Rubus occidentalis (the black raspberry) is derived from Raspbian Wheezy, and is available for download here."

An anonymous reader writes "Outside of the Raspberry Pi Foundation, it seems work is being done to support the tiny PC with add-ons. One of the companies set to launch such a product is Adafruit, which has just announced an electronics plate kit for the device. The kit is currently in the prototype stages, but once released Adafruit is hoping to encourage people to use the board to prototype electronic circuits and create some embedded computer projects. It's certainly an idea that will excite those coming to the Raspberry Pi who have experience with Arduino."

ptorrone writes "MAKE Magazine's article talks about some of the {unspoken} rules most/all the open-source hardware community seems to follow. Why? Because the core group of people who've been doing what is collectively called 'open source hardware' know each other — they're friends, they overlap and compete in some ways, but they all work towards a common goal: sharing their works to make the world a better place and to stand on each others shoulders and not each others toes : ) There will be some folks who agree strongly with what they've outlined as 'unspoken rules,' others, will completely disagree with many points too. That's great, it's time we start this conversation!"

ptorrone writes "Limor 'Ladyada' Fried's NYC based Open-source electronics studio, Adafruit, today announced their new open wearable platform called the FLORA (blog post & video). The FLORA is Arduino compatible as well as supporting a variety of sensors and add-on devices including: Bluetooth, GPS, 3-axis accelerometer, compass module, flex sensor, piezo, IR LED, push button, embroidered + capacitive keypad, OLED and more. The first round of hardware is in the hands of testers to create wearable projects."

ptorrone writes "Limor 'Ladyada' Fried's NYC based Open-source electronics studio, Adafruit, today announced their new open wearable platform called the FLORA (blog post & video). The FLORA is Arduino compatible as well as supporting a variety of sensors and add-on devices including: Bluetooth, GPS, 3-axis accelerometer, compass module, flex sensor, piezo, IR LED, push button, embroidered + capacitive keypad, OLED and more. The first round of hardware is in the hands of testers to create wearable projects."

ptorrone writes "MAKE magazine has published an in-depth look at what the recent acquisition of Instructables by Autodesk means for makers and the DIY movement. MAKE suggests it wasn't about getting the millions of members or projects at Instructables or upselling Autodesk tools. Instead, the acquisition was more about creating many Instructable-like communities around Autodesk's new free and trial tools including their 3D printing site and service, Autodesk123D."

ptorrone writes "MAKE Magazine takes a look at Sony's history of suing makers, hackers and innovators. Over the last decade Sony has been targeting legitimate innovation, hobbyists, and competition. From picking on people who want to program their robot dogs to dance to suing people who want to run their own software on something they bought. Sony has made so many mistakes with technology choices (Memory Stick, Magic Gate, UMD!), perhaps they'll end themselves soon enough, but until then MAKE is keeping score for Sony's all-out war on tinkerers."

scharkalvin writes "Adafruit has announced a winner to their bounty for an open source driver for the MS Kinect. From the article: 'We have verified that it works and have a screenshot from another member in the hacking community (thanks qdot!) who was also able to use the code. Congrats to Hector! He's running all this on a Linux laptop (his code works with OpenGL) and doesn't even have an Xbox!'" We talked about Adafruit's bounty yesterday.

sammyF70 writes "Adafruit's bounty on open source drivers for Microsoft's Kinect may have been already won. Someone called 'KinectMan2' has posted videos of Kinect's output as seen on Windows 7 to YouTube. That was fast. Hopefully Linux drivers are coming soon." A few more details are available on a forum post the man made. Adafruit said the bounty could be his if he posts the source code, and they also upped the reward to $3,000 in response to another silly statement from Microsoft.

sammyF70 writes "Adafruit's bounty on open source drivers for Microsoft's Kinect may have been already won. Someone called 'KinectMan2' has posted videos of Kinect's output as seen on Windows 7 to YouTube. That was fast. Hopefully Linux drivers are coming soon." A few more details are available on a forum post the man made. Adafruit said the bounty could be his if he posts the source code, and they also upped the reward to $3,000 in response to another silly statement from Microsoft.