OSHWA recently announced a call for Open Hardware Trailblazer Fellows. Thanks to the generous support of the Alfred P. Sloan Foundation, OSHWA is taking a giant step towards expanding open source hardware in academia through the Open Hardware Trailblazer Fellows initiative. The one-year fellowship provides grants to individuals who are leading the way as open source hardware expands into academia. The fellows will document their experience of making open source hardware in academia to create a library of resources for others to follow.
The call was incredibly competitive. We received truly amazing submissions. The fellows were chosen by the program’s mentors and an OSHWA board selection committee.
Congratulations to the Open Hardware Trailblazer Fellows!
“Ding! That’s the bell for the second challenge round of the 2022 Hackaday Prize. If your project reuses or recycles what would otherwise be waste materials, or helps you to do the same for further projects, we want to see it.
Hackers are often frugal folk — we’ll recycle parts for projects because it’s easier on the pocketbook when prototyping. But in these strangest of times, when we’ve seen $1 microcontrollers in such shortage that they fetch $57 apiece (if you can get the parts at all), making use of what you’ve got on hand can be an outright necessity. If this is going to become the new normal, it’s going to make sense that we automate it. There’s gold, literally and metaphorically, in busted PCBs. How are you going to get the most value out of our broken electronic waste in our post-apocalyptic near future? Have you built an unpick-and-unplace machine? We’d like to see it.
The summit is available on YouTube for free, but buying a ticket helps support OSH year-round! We have PWYC, Standard, and Goodie Bag tickets, as well as free RSVP tickets.
The Open Hardware Summit is the annual conference organized by the Open Source Hardware Association a 501(c)(3) not for profit charity. It is the world’s first comprehensive conference on open hardware; a venue and community in which we discuss and draw attention to the rapidly growing Open Source Hardware movement.
Speakers include world renowned leaders from industry, academia, the arts and maker community. Talks cover a wide range of subjects from electronics, mechanics to related fields such as digital fabrication, fashion technology, self-quantification devices, and IP law. As a microcosm of the Open Source Hardware community, the Summit provides an annual friendly forum for the community. For over five years we have had an established fellowship which supports travel and admission for women and other minorities as well as hardship tickets for low income individuals. The Open Hardware Summit was founded in 2010 by Alicia Gibb and Ayah Bdeir with support from Peter Semmelhack and Bug Labs in its founding years. Read more about the history of the organization and feel free to contact us with any questions.
After five years and a few prototype revisions of the Version 2.12 Programmable Voltage reference, I decided it was time to update the project based on many requests and lessons learned from prototypes over the years.
The project remained dormant for several years while I worked on many other projects. After many requests for a 5 volt version of the PVR, I started working on an updated design again last year (2021) at a slow pace. The two main design factors were, providing an output up to 5 volts, and reducing the drift at the output from temperature and humidity changes.
What I ended up with after many iterations, was a 0.001 to 5.000 volt output version 3.14 of the Programmable Voltage Reference, with new components and and upgraded specifications.
This year’s 2022 Hackaday Prize challenges you to think of big or small ways to create greener energy sources, make recycling easier, hack old devices to save them from the landfill, or build out the networks that keep our local communities together and conscious of our group effort. If you’ve got a super solar harvester, a recycling robot, or even reverse engineering tools to help combat forced technological obsolescence, we want to see your hacks. Or if you’d like, you can simply save the world in the wildcard round.
As always, courtesy of our overlords at Supplyframe and the generous sponsorship of Digikey, we’ve got tons of prize money to give out to the best projects. The top ten projects in each of five challenge rounds will receive a $500 cash prize, and five winning projects will bag from $5,000 to $50,000 in the finals in November. But you shouldn’t wait — the first round, Planet-Friendly Power, starts right now!
We are thrilled by the recent successful deployment of OreSat0 into orbit and congratulate the Portland State Aerospace Society (PSAS) on their tremendous achievement!
After months of research, testing, and development, the first Oregon-made satellite, built by Portland State University students apart of the Portland Aerospace Society, was launched into space this month and is currently orbiting the earth sending back data packets.
The Portland State Aerospace society is a primarily undergraduate group at Portland State University that builds small rockets and satellites.
OreSat0, made of solar panels, batteries, radios, computer, GPS, and a star tracker, has been years in the making, according to David Lay, an Electrical Engineering undergrad involved in the Portland State Aerospace Society.
The Open Source Hardware Association (OSHWA) has just announced our Open Hardware Trailblazers Fellowship. The one year fellowship provides $50,000 or $100,000 grants to individuals who are leading the way as open source hardware expands into academia. The fellows will document their experience of making open source hardware in academia to create a library of resources for others to follow. The RFP is here, and the application form for fellows is here. It is due April 7th.
To support the Open Hardware Trailblazers Fellowship, OSHWA is recruiting open source hardware professionals and practitioners from both inside and outside of academia with diverse backgrounds to serve on the mentor committee. The committee will review applications, make recommendations on fellowship awards, and advise fellows through their year-long Open Hardware Trailblazers Fellowship. For more details you can see this post. The mentor application is due March 30th.
Board space is a premium on small circuit board designs, and [Alvaro] knows it. So instead of adding a separate programming port, he’s found a niche USB-C feature that lets him use the port that he’s already added both for its primary application and for programming the target microcontroller over JTAG. The result is that he no longer needs to worry about spending precious board space for a tiny programming port; the USB-C port timeshares for both!
In a Twitter thread (Unrolled Link), [Alvaro] walks us through his discovery and progress towards an encapsulated solution. It turns out that the USB-C spec supports a “Debug-Accessory Mode” specification, where some pins are allowed to be repurposed if pins CC1 and CC2 are pulled up to Logic-1. Under these circumstances, the pin functions are released, and a JTAG programmer can step in to borrow them. To expose the port to a programmer, [Alvaro] cooked up a small breakout board with a USB-C plug and separate microcontroller populated on it.
This board also handles a small quirk. Since [Alvaro’s] choice of programming pins aren’t reversible, the USB-C plug will only work one of the two ways it can be plugged in. To keep the user informed, this breakout board sports a red LED for incorrect orientation and a green LED for correct orientation–nifty. While this design quirk sacrifices reversibility, it preserves the USB 2.0 D+ and D- pins while also handling some edge cases with regard to the negotiating for access to the port.
Aeroh One is a hackable IR remote board that can turn any remote-controlled device into an internet-connected one. It will support Alexa, Google Assistant, Apple Siri, iOS/Android App, and IFTTT integration. Aeroh One is compatible with the majority of remote controls that operate over infrared.
Aeroh One has a small footprint, making it easy to mount on top of the infra-red remote receiver of your equipment. In addition, we will have a wide range of mounting options that you can either order or 3D models you can freely download and print yourself.
You can continue to use your old OEM remote while Aeroh One is mounted on the equipment. This is because Aeroh One has an infra-red remote receiver in the front, and can proxy the signals that it receives. It is programmed to emit the remote signals based on what your equipment can understand. With this infra-red remote receiver you can also record custom infra-red signals and program the Aeroh One to work with new equipment.
With Aeroh One, make your smart home smarter, without breaking the bank!