Month: March 2016

Tombstone Brings New Life To Board

March 19, 2016 by 24 Comments

Making revisions to existing PCBs with surface mount components often leads to creative solutions, and this insertion of a switch over a tombstoned resistor is no exception. According to [kubatyszko], “this is an FPGA-based Amiga clone. R15 serves as joint-stereo mixing signal between channels to make it easier on headphone users (Amiga has 4 channels, 2 left and 2 right). Removing R15 makes the stereo 100% ‘original’ with fully independent channels. Didn’t want to make it permanent so I decided to put a switch.”

Whether [kubatyszko] intends it or not, this solution is not going to be permanent without some additional work to mechanically secure the switch. We’ve tried this sort of thing before and it sometimes results in the contact area of the resistor being ripped off the substrate and separated from the rest of the resistor, rendering it useless. However, the creative use of the pads to get some additional functionality out of the board deserves some kudos.

We love creative fixes for board problems but it’s been a really long time since we’ve seen several of them collected in one place. We’d love to hear your favorite tricks so let us know in the comments below.

Third Person Driving IRL

March 19, 2016 by 31 Comments

It’s a dream come true: remote control of a real car. Besides being a lot of fun, a life-size RC vehicle has some practical applications, like performing rescue operations or delivering supplies to dangerous areas. For [Carter], [Dave], [Ryan], and [Sean], the dream became reality in the span of 24 caffeine-and-chicken-finger-fueled hours during an Ohio State University hackathon. They dubbed the system MagiKarpet because it sits in place of the floor mat and runs on pixies.

The plan was to control the throttle, brake, and steering of a Chevy Cobalt using a PlayStation controller. For added fun, a camera mounted high above the back bumper would provide a third-person view, and this feed would be displayed on a monitor in the backseat. Everything is controlled by an Arduino Mega. A beefy linear actuator works the brake and is attached temporarily with a band of Shapelock that slips around the pedal. The throttle is pushed by a lever attached to a car window motor. Another motor connects to the steering wheel with cables that can turn it 90° left and right. Although the build was successful, they ran into a couple of issues. But what’s a hackathon experience without a few problems?

The linear actuator was jammed for about an hour after some early testing, but they got it unstuck. The PS controller was borked, so they had to roll their own joysticks. The school wouldn’t let them actually drive it around because of safety (killjoys but we get it), so they put it up on a jack to demonstrate it for the judges. They took second place, though we can’t imagine what would have beat this. Check out the complete build video after the break.

You might remember these guys from last year around this time. They took first place at the same hackathon with Robottermilk Puncakes, a app-controlled pancake machine. Now that you’re hungry for pancakes, feast your eyes on this endless one.

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Restoration Of A Self-Crêpe Machine

March 18, 2016 by 23 Comments

A few years ago [Tweepy], one of the Hackaday readership’s global band of pancake enthusiasts, took possession of an aged “Self-Crêpe” machine. Judging by the look of the date codes on the ICs in the early 1980s, this machine cooked and sold a fresh crêpe on the insertion of a 1 Franc coin (about 17 U.S. cents in those days) for about thirty years.

Sadly, it would no longer produce crêpes. The aged control logic was the culprit, and rather than debug it [Tweepy] decided to replace it with a microcontroller (French language, Google Translate link). The one he chose (marked “RSF2127″, can anyone identify it?) came in a QFP package, so attaching it to a 0.1” prototyping board required some soldering wizardry with fine wires, but it was soon up and running. Some track-cutting and wiring into the original PCB, and the custom C code was ready to go.

The crêpe-making part of the machine features a heated roller not unlike the one in our recently featured South African endless pancake machine in whose comment thread [Tweepy] mentioned it, but appears to use only a single-sided cooking process. The roller has a round crêpe-sized raised area. To start the cooking process, a loading bath of batter is brought up under the roller which is then rotated so that the round raised area passes through the surface of the batter. As the roller turns, it cooks the crêpe, which is then diverted from the roller to the output chute. The whole process relies on a reservoir of pre-made batter, sadly it’s not a crêpe replicator. On the other hand, a single crêpe takes about 40 seconds to create, and the machine can produce them on a continuous basis as long as you keep it stocked with batter.

We like the crêpes, we like the machine, and we like what [Tweepy] has done with it. If any of these machines made it beyond the borders of France, we’ve never seen one in our corners of the Anglophone world. This is a shame, for who wouldn’t want one of those next to the kettle and microwave oven in their hackspace! They would have needed to work on that name, though, for the English-speaking market.

We’ve recently done a round-up of pancake-related hacks here at Hackaday, so there is no point in repeating it. This is however not the first vending machine hack we’ve seen. There was this stealth-upgraded soda dispenser, this Tweeting beer dispenser, or how about this open-source software machine that definitely didn’t vend.

Bartop Arcade RetroPie Powered Laser Cut

March 18, 2016 by 8 Comments

[hhtat] wanted to build an arcade cabinet since his days in high-school. Only recently have the tech planets aligned. Looking into the night sky he saw a laser cutter, the Raspberry Pi, and lowering prices on key components and thought, “this is the year.”

Much like an arcade cabinet we posted earlier, this one sits on a counter top. With full controls and a nice screen, it provides a lot of the experience without the additional explaining to the SO why the living space should house a giant decaled MDF box.

The frame was designed in SketchUp and vectors were made in Inkscape. The frame was lasercut out of MDF and Acrylic. Decals were printed and applied. The resulting case, build from tab and slot construction, is attractive.

The internals are simple. A Raspberry Pi with a fast SD card acts as the brain. Rather than make it difficult on himself, [hhat] bought a pre-made controls kit from eBay. Apparently there is a small market for this stuff. He also purchased an IPS screen with built in controller. The IPS panel gives the arcade cabinet a desireable wide viewing angle.

The final product looks like a lot of fun and we can see it turning at least one person into an unintentional loner at any house party.

Laser-Cut Lamp With Magic Switch

March 18, 2016 by 25 Comments

This laser-cut lamp is an awesome example of what you can do with a laser cutter and a bit of creativity. It was completely laser cut and features no fasteners, except for a bit of glue.

[PaisleyGarbage] has been making lamps for a while now and had the concept for this one early on. After rendering a model of it on the computer, he decided it was finally time to try making it. It wasn’t quite as easy as he thought it’d be, but the challenges along the way only help you to learn when doing a project like this.

He laser cut alternating strips of wood and acrylic to create the unique sandwiched light look of the final product. Instead of using fasteners or anything, he even slid the pieces together on acrylic dowels keeping the design as minimalist and clean as possible. But the part we really like is the magnetic switch.

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Live From The Midwest RepRap Festival

March 18, 2016 by 22 Comments

It’s time once again for the world’s premier DIY 3D printer event, the 2016 Midwest RepRap Festival.

The 2016 Midwest RepRap festival is a yearly celebration of blue tape, aqua net, and tangled strands of 3D printer filament held at the Elkhart county fairgrounds in Goshen, Indiana. This year, the fairgrounds has fiber Internet, and we have a Dropcam. This can only mean one thing: live streaming from the best 3D printer convention on the planet.

The livestream is down because MRRF is over

This stream should be active the entire weekend, with the requisite breaks for sleep and to take the entire crew to the Chinese buffet down the street. Of course, if you’re in the area, you’re more than welcome to stop by. Registration is free, although a small donation would be appreciated.

The schedule for the event is as follows:

  • Friday: now until 10pm Eastern
  • Saturday: 10am to 6pm Eastern
  • Sunday: 10am to 3pm Eastern

The (incomplete) list of speakers (which might be livestreamed) is as follows:

  • E-Nable 3D printed prosthetics
  • B3 Innovations From MRRF to retail
  • IMade3D STEM + Jellybox
  • MakerOS Make Money with 3D Printing
  • J. Conway 3D Printer Adaptive Scanning Technologies

Hacking The Raspberry Pi WiFi Antenna For More DB

March 18, 2016 by 38 Comments

I’ve been testing out the Raspberry Pi 3, and one thing I have found is that the WiFi antenna that was added in this new model is not especially good: the Pi has trouble connecting to my WiFi network in places that other devices have no issues. That’s not surprising, because the antenna on the Pi 3 is tiny: mounted right next to the display connector, it is just a few millimeters wide. [Ward] at DorkbotPDX agrees, so he decided to look into adding a better antenna by adding an external connector.

He tried two approaches: replacing the antenna with a tail connector, and adding a U.FL connector to the unused solder pads on the board. Both require some delicate soldering work, so they aren’t approached lightly. Replacing the antenna with an external connector produced a significant increase in signal output, which should equate with more range for the WiFi connection.

It is also interesting to note that the Pi 3 has solder pads on the board to add an external antenna connector, but that they are not used. Plus, one of the solder pads is covered by solder mask. Using these is the second approach that [Ward] used, soldering on a U.FL connector and connecting that to a small rubber duckie antenna. Again, this proved more efficient, increasing the power output of the antenna significantly.

NOTE: This hack definitely falls into “Don’t try this at home” territory. Messing with antennas voids the warranty and FCC certification for the Pi, and can cause all sorts of signal-related unpleasantness if you aren’t careful.