Tag Archives: Mega

FISHBOT reels in fish under smartphone control

via Arduino Blog

As reported by Hackaday, fishing is generally considered to be a fun and relaxing activity, but it isn’t accessible for those without a certain amount of strength and dexterity. To help more people to be able to enjoy this sport, Ozgur Ozcan has been working on what he calls the “FISHBOT.”

This auto-fishing device is controlled by an Arduino Mega, along with an IBT_2 PWM driver to actuate a 400 watt DC motor for reeling duties. An HM-10 Bluetooth module enables smartphone connectivity, opening up the possibility for fingertip activation, or even via the internal gyroscope.

The setup also features a load cell, which could be used to release the line when it’s in danger of being snapped, or to weigh the fish automatically when landed.

This sensor-based tic-tac-toe game looks like some touchless fun!

via Arduino Blog

Tic-tac-toe is normally played with a pen and paper, or perhaps with a physical marker, but maker “techiesms” has put a new spin on this classic pastime.

His build, as seen here, takes the form of a wooden box that mounts onto the wall with nine square sections arranged in a grid pattern. Players take turns, activating a square by moving their hand near an IR proximity sensor inside each one. 

The squares then light up green or red depending on the player, and when a line is made, the system beeps and blinks on and off to signify a winner. Everything is controlled via an Arduino Mega, along with a custom PCB for wiring.

More details on the game and its construction can be found in techiesms’ post here.

Control your holiday lights with a tap of a Disney MagicBand

via Arduino Blog

If you enjoy all things Disney and would love to bring some of its park magic into your home, then look no further than Dominick Civitano’s recent project.

Because of travel limitations due to the pandemic, Civitano decided to create a replica of a MagicBand reader that uses an NFC card reader module to recognize a programmed MagicBand, which triggers a ring of LEDs, audio output, and a relay for Christmas lighting. This setup could likely be applied to other devices, opening up its possibilities into January and beyond.

Electronics for the build — including an Arduino Mega that runs the show — are hidden inside of a 3D-printed, property-themed enclosure that resembles those found outside of any Disney theme park. This would potentially preserve a sense of wonder at the device, and diffuses the LEDs nicely.

More details on the Civitano’s work can be found on GitHub!

Creating a continuum tentacle-like robot with Arduino

via Arduino Blog

Continuum robots — which look like a tentacle or perhaps an elephant’s trunk — use a series of linkage sections and internal tendons to move both horizontally and vertically. While they may seem quite exotic, in the video below element14 Presents’ DJ Harrigan breaks down how he built one with an Arduino Mega and a fairly simple list of parts.

The robotic mechanism hangs down from a support structure, with universal joints allowing each section to bend, but not twist, with respect to the next one. These 10 sections are pulled in different directions using two servos and Kevlar cord, with user interface provided by two potentiometers. A third pot actuates another motor attached to the tentacle, acting as a gripper for tools, or whatever else Harrigan needs at the time!

Homemade recycling rig turns plastic waste into new products

via Arduino Blog

While that plastic cup, bag, dish, or other item may have served its purpose, more than likely it could be formed into something new. With this in mind, the SOTOP-Recycling team of Manuel Maeder, Benjamin Krause, and Nadina Maeder developed an automated injection molding machine that can be built at home and is small enough to allow you to run your own recycling operation!

The “Smart Injector” receives shredded pieces of plastic in a small hopper, then transports them down an extrusion pipe where heat is applied. This material is clamped together via a pair of stepper motors, with screws and timing belts implemented to apply sufficient pressure. Everything is controlled by an Arduino Mega.

As shown in the video, the plastic waste is converted into phone covers in just minutes, though other things could also be made depending on the form tooling used.

The GPRino is a $300 ground penetrating radar

via Arduino Blog

Ground penetrating radar systems, which can be used to sense the density of objects under the Earth, are normally seen as a fairly exotic piece of equipment. Naturally, such devices cost thousands of dollars. Mirel Paun’s “GPRino” prototype, though, aims to accomplish this viewing task for the comparatively paltry sum of $300.

The GPRino uses antipodal Vivaldi antennas to see into the ground, under control of an Arduino Mega. Onboard visualization is handled by an LCD shield, and collected data can also be transmitted to a PC for further analysis.

More information homemade GPR can be found in Paun’s project write-up. You can see a demo of it scanning in the first video below, while a quick clip of its wheel switch (a simple cam setup) is shown in the second.