Warm Up Your Extruders, RepRap Festivals Are Back

April 12, 2022 by Tom Nardi 5 Comments

Like pretty much every other large gathering, the Midwest and East Coast RepRap Festivals had to be put on hold during the height of the COVID-19 pandemic. But now that the United States is cautiously returning to something that looks a lot like normal, both Festivals have now confirmed they will be back to full-scale live events for 2022.

After experimenting with a virtual event and a scaled-down show in 2021, the Midwest RepRap Festival (MRRF) will be returning to the Elkhart County 4H Fairgrounds in Goshen, Indiana from June 24th to the 26th. No tickets will be required for attendees or exhibitors, everyone is welcome to just show up and have a good time. There will however be sponsorship opportunities for anyone who wants to support this long-running event.

Summer already booked up? In that case, the East Coast RepRap Festival (ERRF) will be taking place from October 8th to the 9th at the APG Federal Credit Union Arena in Bel Air, Maryland. Tickets cost $10 for both exhibitors and attendees, though anyone under 17 gets in for free. Even though ERRF only confirmed their 2022 plans recently, it looks like there are only a few sponsor spots still left open.

Hackaday has attended both events in the past, and we’ve always come back blown away by the incredible variety of printers, projects, and products on display. It seems like there wouldn’t be that many different ways to show off melted plastic, but trust us, these folks always manage to surprise you. Given the amount of time that’s passed since either event was able to operate at normal capacity, we predict these 2022 Festivals are going to be smash hits that you won’t want to miss if you’re even remotely interested in 3D printing.

Trenton Computer Festival Makes YouTube Debut

April 11, 2022 by Tom Nardi 9 Comments

While it doesn’t have the recognition of DEF CON or even HOPE, the Trenton Computer Festival (TCF) holds the record for the longest continually running computer convention, dating all the way back to 1976. TCF has offered vendor spaces, a swap meet, workshops, and keynote talks for almost as long as the personal computer has existed. But until now, all that knowledge was only available to those in the Northeast US that were willing to follow the itinerant event as its bounced between venues over the decades.

Or at least, that used to be the case. Like many events, TCF was forced to go virtual during the COVID-19 pandemic, which meant for the first time all the talks were actually recorded. Over the weekend, the organizers announced that all of the talks and demonstrations from 2020 and 2021 had been uploaded to a new YouTube channel, opening them up to a global audience.

Two years might not sound like much, especially given the fact that there’s still 40+ years unaccounted for. But thanks to the incredible amount of content that is squeezed into each year’s event, the TCF YouTube channel is currently playing host to more than 80 presentations that run the gamut from live musical performances to deep-dives on the Apollo Guidance Computer and quantum computing. Whatever you’re interests happen to be, there’s a good chance you’ll find a presentation or two that talks about it in this impressive collection.

When we made our last visit to this legendary convention, our only real complaint was the fact that none of the presentations were being recorded. With over 40 talks crammed into a six hour event, attendees couldn’t hope but to see more than a fraction of what was on the schedule. The nature of going virtual obviously made it much easier to preserve all this incredible content for later viewing, but it’s unclear if the organizers will be able to maintain that momentum in 2023 when it’s expected TCF will once again be in-person.

Remoticon 2021 // Rob Weinstein Builds An HP-35 From The Patent Up

April 7, 2022 by Chris Lott 40 Comments

Fifty years ago, Hewlett-Packard introduced the first handheld scientific calculator, the HP-35. It was quite the engineering feat, since equivalent machines of the day were bulky desktop affairs, if not rack-mounted. [Rob Weinstein] has long been a fan of HP calculators, and used an HP-41C for many years until it wore out. Since then he gradually developed a curiosity about these old calculators and what made them tick. The more he read, the more engrossed he became. [Rob] eventually decided to embark on a three year long reverse-engineer journey that culminated a recreation of the original design on a protoboard that operates exactly like the original from 1972 (although not quite pocket-sized). In this presentation he walks us through the history of the calculator design and his efforts in understanding and eventually replicating it using modern FPGAs.

The HP patent ( US Patent 4,001,569 ) contains an extremely detailed explanation of the calculator in nearly every aspect. There are many novel concepts in the design, and [Rob] delves into two of them in his presentation. Early LED devices were a drain on batteries, and HP engineers came up with a clever solution. In a complex orchestra of multiplexed switches, they steered current through inductors and LED segments, storing energy temporarily and eliminating the need for inefficient dropping resistors. But even more complicated is the serial processor architecture of the calculator. The first microprocessors were not available when HP started this design, so the entire processor was done at the gate level. Everything operates on 56-bit registers which are constantly circulating around in circular shift registers. [Rob] has really done his homework here, carefully studying each section of the design in great depth, drawing upon old documents and books when available, and making his own material when not. For example, in the course of figuring everything out, [Rob] prepared 338 pages of timing charts in addition to those in the patent. Continue reading “Remoticon 2021 // Rob Weinstein Builds An HP-35 From The Patent Up” →

REMOTICON 2021 // Hal Rodriguez And Sahrye Cohen Combine Couture And Circuitry

March 31, 2022 by Kristina Panos 3 Comments

[Hal Rodriguez] and [Sahrye Cohen] of Amped Atelier focus on creating interactive wearable garments with some fairly high standards. Every garment must be pretty, and has to either be controllable by the wearer, through a set of sensors, or even by the audience via Bluetooth. Among their past creations are a dress with color sensors and 3D-printed scales on the front that change color, and a flowing pantsuit designed for a dancer using an accelerometer to make light patterns based on her movements.

Conductive Melody — a wearable musical instrument that is the focus of [Sahrye] and [Hal]’s Remoticon 2021 talk — was created for a presentation at Beakerhead Festival, a multi-day STEAM-based gathering in Calgary. [Sahrye] and [Hal] truly joined forces for this one, because [Sahrye] is all about electronics and costuming, and [Hal] is into synths and electronic music. You can see the demo in the video after the break.

The dress’s form is inspired by classical instruments and the types of clothing that they in turn inspired, such as long, generous sleeves for harp players and pianists. So [Hal] and [Sahrye] dreamed up a dress with a single large playable sleeve that hangs down from the mid- and upper arm. The sleeve is covered with laser-cut conductive fabric curlicues that look like a baroque interpretation of harp strings. Play a note by touching one of these traces, and the lights on the front of the dress will move in sync with the music.

[Sahrye] started the dress portion of Conductive Melody with a sketch of the garment’s broad strokes, then painted a more final drawing with lots of detail. Then she made a muslin, which is kind of the breadboard version of a project in garment-making where thin cotton fabric is used to help visualize the end result. Once satisfied with the fit, [Sahrye] then made the final dress out of good fabric. And we mean really good fabric — silk, in this case. Because as [Sahrye] says, if you’re going to make a one-off, why not make as nicely as possible? We can totally get behind that.

[Sahrye] says she is always thinking about how a wearable will be worn, and how it will be washed or otherwise cared for. That sequined and semi-sheer section of the bodice hides the LEDs and their wiring quite well, while still being comfortable for the wearer.

Inside the sleeve is an MPRP121 capacitive touch sensor and an Arduino that controls the LEDs and sends the signals to a Raspberry Pi hidden among the ruffles in the back of the dress.

The Pi is running Piano Genie, which can turn eight inputs into an 88-key piano in real time. When no one is playing the sleeve, the lights have a standby mode of mellow yellows and whites that fade in and out slowly compared to the more upbeat rainbow of musical mode.

We love to see wearable projects — especially such fancy creations! — but we know how finicky they can be. Among the lessons learned by [Sahrye] and [Hal]: don’t make your conductive fabric traces too thin, and silver conductive materials may tarnish irreparably. We just hope they didn’t have to waste too much conductive fabric or that nice blue silk to find this out.

Continue reading “REMOTICON 2021 // Hal Rodriguez And Sahrye Cohen Combine Couture And Circuitry” →

Hacker Camps Are Back. To Get You In The Mood, Here’s A Story From 1997

March 26, 2022 by Jenny List 6 Comments

The past couple of years of the COVID pandemic have been rough in some unexpected ways, and it’s clear that our world will never be quite the same as it was beforehand. In our community, the hackerspaces are open again, and while the pandemic hasn’t gone away this year shows the promise of hosting the first major hacker camps to be held since 2019. We’re sure a number of you will be making your way to them. To give a taste of what is to come we’ve got a rare glimpse into hacker camps past.

The Netherlands events are held every four years outside pandemic disruptions, and we’re going back as far as 1997 for HIP, or Hacking In Progress, where [Christine Karman] kept a daily diary of the event. 25 years later it’s both a familiar account of a hacker camp and an interesting glimpse into a time when for much of the wider population an Internet connection was still a novelty. Continue reading “Hacker Camps Are Back. To Get You In The Mood, Here’s A Story From 1997” →

REMOTICON 2021 // Jay Doscher Proves Tinkercad Isn’t Just For Kids

March 24, 2022 by Michael Shaub 20 Comments

We invited [Jay Doscher] to give us a view into his process designing 3D printed parts for the impressive array of cyberdecks we’ve covered since 2019.

[Jay] got his start as a maker through woodworking in high school, getting satisfaction from bringing something from idea to reality. After a more recent class in blacksmithing and ax-making showed him what he could do when really focused, his hardware hacking really took off and his line of cyberdecks and other portable computers was born.

If you’ve heard of Tinkercad, you probably think it’s just for kids. While designed as an educational tool, [Jay] found that Autodesk’s younger sibling to the professionally powered (and priced) Fusion 360 had everything needed for making cyberdecks. If you’re willing to work around a few limitations, at the low-low price of free, Tinkercad might be right for you too.

What limitations? To start, Tinkercad is only available in a browser and online. There’s also no guarantee that it will remain free, but [Jay] notes that with its educational focus that is likely to remain the case. There is no library of common components to import while modeling. And, when your model is complete the options for exporting are limited to 2D SVGs and 3D STL, OBJ, and gaming-focused GBL formats. [Jay] has converted those to other formats for laser cutting and the STEP file a machine shop is expecting but admits that it’s something that adds complexity and is an annoyance.

In the talk, [Jay] discusses moving from his initial “cringy” explorations with Tinkercad, to his first cyberdeck, a little history on that term, and the evolution of his craft. It’s mostly a hands-on demo of how to work with Tinkercad, full of tips and tricks for the software itself and implications for 3D printing yourself, assembly, and machining by others.

While quite limited, Tinkercad still allows for boolean operations to join two volumes or the subtraction of one from another. [Jay] does a wonderful job of unpeeling the layers of operations, showing how combinations of “solids” and “holes” generated a complex assembly with pockets, stepped holes for fasteners, and multiple aligned parts for his next cyberdeck. Even if you already have a favorite CAD tool, another approach could expand your mind just like writing software in Strange Programming Languages can.

Continue reading “REMOTICON 2021 // Jay Doscher Proves Tinkercad Isn’t Just For Kids” →

Remoticon 2021 // Arsenijs Tears Apart Your Laptop

March 17, 2022 by Dave Rowntree 9 Comments

Hackaday’s own [Arsenijs Picugins] has been rather busy hacking old laptops apart and learning what can and cannot be easily reused, and presents for the 2021 Hackaday Remoticon, a heavily meme-loaded presentation with some very practical advice.

Full HD, IPS LCD display with touch support, reused with the help of a dedicated driver board

What parts inside a dead laptop are worth keeping? Aside from removable items like RAM stick and hard drives, the most obvious first target is the LCD panel. These are surprisingly easy to use, with driver boards available on the usual marketplaces, so long as you make sure to check the exact model number of your panel is supported.

Many components inside laptops are actually USB devices, things like touch screen controllers, webcams and the like are usually separate modules, which simply take power and USB. This makes sense, since laptops already have a fair amount of external USB connectivity, why not use it internally too? Other items are a bit trickier: trackpads seem to be either PS/2 or I²C and need a bit more hardware support. Digital microphones mostly talk I²S, which means some microcontroller coding.

Some items need a little more care, however, so maybe avoid older Dell batteries, with their ‘spicy pillow’ tendencies. As [Arsenijs] says, take them when they are ripe for the picking, but not too ripe. Batteries need a little care and feeding, make sure you’ve got some cell protection, if you pull raw cells! Charging electronics are always on the motherboard, so that’s something you’ll need to arrange yourself if you take a battery module, but it isn’t difficult, so long as you can find your way around SMBus protocol.

These batteries are too ripe. Leave them alone.

Older laptops were much more modular and some even designed for upgrade or modification, and this miniaturization-driven trend of shrinking everything — where a laptop now needs to be thin enough to shave with — is causing some manufacturers to move in a much more proprietary direction regarding hardware design.

This progression conflicts with our concerns of privacy, repairability and waste elimination, resulting in closed boxes filled with unrepairable, non-reusable black boxes. We think it’s time to take back some of the hardware, so three cheers to those taking upon themselves the task to reverse engineer and publish reusability information, and long may it be possible to continue.

Continue reading “Remoticon 2021 // Arsenijs Tears Apart Your Laptop” →