Author: Zoe Skyforest

3644 Articles

Modding A Toddler’s Ride-On For More Grunt

January 17, 2025 by 6 Comments

Kids love their Power Wheels and other ride-on electric cars. Indeed, [Ashwin]’s son was digging his little ATV, but soon found that some care was needed on the pedal. It had no proper throttle control, instead turning the motor hard on or off and scaring the poor kid in the process. The solution? A bit of an upgrade from some off-the-shelf electronics.

Inspiration came from—where else—the /r/PowerWheelsMods subreddit. The main tweak was to install an off-the-shelf soft-start circuit to stop the motor banging hard on when the accelerator was pushed. Instead, when the accelerator is pushed, the module gradually ramps up its PWM output to the motor to smooth out the acceleration curve. This would make the ATV much easier to ride.

Implementing this off-the-shelf solution did take some doing, though. The first attempt ended with a short circuit and a blown fuse. However, [Ashwin] wasn’t deterred—a trip back online to do some research did the trick. With some careful wiring that took into account the crude forward and reverse circuit, [Ashwin] had a much smoother running ride-on for his son.

While most of the mods we see for these little ride-ons are all about power and speed, we do appreciate the occasional attempt to make the things a bit safer for younger drivers. If you’re brewing up your own fancy kidmobile at home—don’t hesitate to let us know!

Neat Ring Clock Relies On Addressable LEDs

January 16, 2025 by 8 Comments

[WhiskeyTangoHotel] wanted to build an LED clock after seeing some great designs online. They elected to go after a ring clock design, based around the ever-popular WS2812B addressable LEDs.

The core of the build is the HELTEC WiFi 32 development board. It’s not one we’re intimately familiar with, but it’s based around the popular Expressif ESP32. Since it’s got WiFi, it’s able to simply dial up a network time server to always keep accurate time. It then drives a set of WS2812B LEDs set up in six rings. They display the current time with a layout akin to that of a typical analog clock.

What makes this build just a little more fun is the inclusion of Disco Mode. At the press of a button, the full set of LEDs flashes out some fun dancing patterns. The clock is also programmed to trigger the same display for sixty seconds at the top of each hour.

It’s a straightforward build—what might have been highly complicated to build two decades ago has been simplified with the magic of addressable LEDs. What’s also cool is that this clock was apparently inspired by another project shared on these very pages. If you’ve been spurred to build something cool yourself, don’t hesitate to notify the tipsline!

Building A Raycaster Within Bash

January 16, 2025 by 4 Comments

Wolfenstein 3D was a paradigm-shifting piece of software, using raycasting techniques to create a game with pseudo-3D graphics. Now, [izabera] has done something very similar, creating a raycasting display engine that runs entirely within bash.

The work was developed with an eye cast over an existing raycasting tutorial online. As you might imagine, implementing these graphical techniques in a text console proved difficult. The biggest problem [izabera] encountered was that bash is slow. It’s not supposed to display full frames of moving content at 25+ fps. It’s supposed to display text. Making it display graphics by using tons of colorful characters is really pushing the limits. Bash also doesn’t have any ability to work with floating points, so all the calculations are done with massive integers. Other problems involved the limited ways to read the keyboard in bash, and keeping track of the display as a whole.

It’s neat reading about how this was pulled off—specifically because it was hard. It might not be the kind of project you’d ever implement for serious work, but there are learnings to be had here that you won’t get anywhere else. Code is on Github, while there’s a visual storytelling of how it came together on imgur.

We’ve seen similar work before—with magical 3D graphics generated in Microsoft Excel. Will wonders never cease? We hope not, because we always like to see new ones on the tipsline. Keep us busy!

Building A 3D-Printed Strandbeest

January 16, 2025 by 16 Comments

The Strandbeest is a walking machine, a creation of the celebrated artist Theo Jansen. They can look intimidating in their complexity, but it’s quite possible to build your own. In fact, if you’ve got a 3D-printer, it can be remarkably straightforward, as [Maker 101] demonstrates.

The build relies on an Arduino Uno as the brains. It’s equipped with an L293D motor driver shield to run two DC gear motors which drive the walking assemblies. Power is courtesy of a 3-cell lithium-polymer battery. The chassis, legs, and joints are all 3D-printed, and rather attractively in complimentary colors, we might add.

Controlling this little Strandbeest is simple. [Maker 101] gave the Arduino an infrared sensor which can pick up signals from a simple IR remote control. It can be driven backwards and forwards or turned left and right. What’s more, it looks particularly elegant as it walks—a hallmark of a good Strandbeest design.

Design files are available online for the curious. We love a good Strandbeest build, and some can even be useful, too! Video after the break.
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Taser Ring Is Scary Jewelry You Shouldn’t Build

January 16, 2025 by 39 Comments

Officially, the term “taser” refers to a particular brand of projectile-firing electric stun gun. However, the word is also colloquially used to refer to just about any device intended for delivering electric shocks to an adversary. The taser ring from [Penguin DIY] definitely fits that description, though we’d strictly advise you not to consider building this at home.

The build is a hacky one. An arc generator circuit was pulled out from a jet cigarette lighter, and reconfigured to fit in a small ring-based form factor. It was hooked up with a power switch and a small bank of 30 mAh lithium polymer cell for power, and a compact USB-C charger board was installed to keep the batteries juiced. The electronics were then delicately assembled into a ring-shaped mold, which was injected with resin to produce the final ring. Once cast, a pair of small metal electrodes were installed on the outside. Activating the taser function is as simple as squeezing the ring—easy to do just by making a fist.

We’ve seen projects like these before; our advice is usually to avoid them unless you really know what you’re doing. Whether you end up shocking someone else or accidentally shocking yourself, the results tend to be bad. The latter seems particularly easy to do if you’re wearing this thing on your finger. Given it’s a ring, don’t expect to be able to pull it off in a hurry, either. It’s hard to see how that ends well.

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Gimbal Clock Relies On Servos For Its Cool Movements

January 16, 2025 by 1 Comment

In the annals of human history, clocks got boring there for a while. Most were just variations on hands spinning in a circle, with the occasional tweeting bird mechanism to liven things up. These days, we’re treated to all kinds of original and oddball designs, like this neat gimbal clock from [Twisted&Tinned].

The concept of the build is straightforward enough. It has four main vertical arms, each with a servo at the base that rotates about a vertical axis. Upon each arm are between one and three servos which rotate 3D printed structures in the shape of numbers. A Wemos D1 Mini microcontroller commands the servos to the correct positions to display the current time. It also uses its WiFi connection to get accurate time updates directly from a network time server.

It’s quite an artistic build—and it’s rather enjoyable to watch this one flex and twist its way into displaying the right time. It’s also easier to read at a glance than some of the more unintelligible designs out there. Indeed, we see all kinds of neat and innovative clocks around these parts.

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The Many Leaning Towers Of Santos, Brazil

January 14, 2025 by 55 Comments

If you’ve ever gazed at the shoreline of Santos, Brazil, and felt like something was tugging at your inner eye level, you’re not alone. In fact, you’ve spotted one of the world’s most bizarre architectural phenomena.

Santos is an interesting contradiction—it’s a sunny coastal city with pristine beaches that also plays host to a bustling port. What draws the eye, however, is the skyline—it’s decidedly askew. This isn’t a Photoshop job or some avant-garde urban planning experiment, either. It’s a consequence of engineering hubris, poor planning, and geology just doing its thing.

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