Tag Archives: uno

Arduino-controlled 360° camera trap for animal photography

via Arduino Blog

Using an Arduino, wildlife observer and hiking hacker Andrew Quitmeyer modified a spherical camera to take pictures when motion is detected.

If you’d like to photograph wildlife without actually being there to scare the animals off (or because you would eventually get bored), a great solution is a camera trap. These devices can trigger a camera when animals move nearby, hopefully capturing interesting images. Generally, you need to point your camera in the right direction, but Quitmeyer got around this by using a 360 camera instead to eliminate this placement bias.

In order to control the device, he rigged up his own system with PIR motion sensors and an Arduino Uno to prompt the camera as well as power it on and off. The hack looks effective, though voiding an expensive camera’s warranty like this will certainly scare a few Makers off!

You can see more about how this project was pulled off on Instructables, and find the Arduino code used on GitHub.

Testing microswitches with a (not quite) Useless Machine

via Arduino Blog

Pete “Raster” Prodoehl shows how to test microswitches with an Arduino Uno.

As referenced in his write-up, Prodoehl needed a way to test microswitches that he’d be using for an exhibit. After all, when something is on display, the last thing you want is to have to replace components. Inspired by how Consumer Reports tests things, he decided to build his own setup with a counter and 3D-printed “pusher.”

What he found was that when you’re testing the life span of a component made to work over and over, your testing components have to also be robust enough to handle the very gradual abuse. It’s an interesting exercise, and something that engineers in manufacturing have to deal with constantly. Getting something to work once or even a times is neat, but getting it to function thousands of times for a test or otherwise takes a different way of thinking!

You can see more about this project on Prodoehl’s page here, and check out the video compilation below for a quick overview.

Build an Arduino-powered magnetic drawing machine

via Arduino Blog

As touched on in this video by Charlotte Dann (aka “Charbytes”), she has magnets in her fingers.

This may or may not seem like a small detail, but either way it allows her to draw interesting shapes by passing them over a magnetometer mounted to an Arduino Uno. Dann’s sensor/Arduino package passes serial data to a computer, which does the “heavy lifting,” turning the input into beautiful colors on a computer screen.

It’s an interesting project, and the build process is nicely narrated in her video. A few highlights include a problem with “plastic weld” at 4:00, and a few electrical issues around 7:30 that she eventually solves. You can see more details on this project on its GitHub page, as well as check out Dann’s Twitter account to see what else she’s up to!

Build an Arduino-powered magnetic drawing machine

via Arduino Blog

As touched on in this video by Charlotte Dann (aka “Charbytes”), she has magnets in her fingers.

This may or may not seem like a small detail, but either way it allows her to draw interesting shapes by passing them over a magnetometer mounted to an Arduino Uno. Dann’s sensor/Arduino package passes serial data to a computer, which does the “heavy lifting,” turning the input into beautiful colors on a computer screen.

It’s an interesting project, and the build process is nicely narrated in her video. A few highlights include a problem with “plastic weld” at 4:00, and a few electrical issues around 7:30 that she eventually solves. You can see more details on this project on its GitHub page, as well as check out Dann’s Twitter account to see what else she’s up to!

Easy ‘USB-ake’ Oven with Arduino Uno

via Arduino Blog

After procuring a new Easy-Bake Oven, engineer Jason Cerundolo decided to convert it to run off of USB. According to his project write-up, “USB-C spec allows for 100 Watts of power to be transferred through the connector, and that is the power rating for the oven, so it should work.”

The biggest modification in this build was dividing the heating element into six segments in order to power it with 20V allowed over USB-C. Finding a suitable charger for this device was also a bit of a challenge, but after 20 minutes, it was able to reach 300° F, producing five strangely-shaped but likely still tasty cookies!

For the electronics, I used my USB-C breakout board with the FUSB302B PHY and an Arduino Uno. I wired I2C plus interrupt between the two. I connected VBUS from the breakout board to VIN on the Arduino to power it. Then, I connected +3V3 from the Arduino to the VDD on the breakout board to power the FUSB302B, as well as +5V to V_pullup on the breakout board. I also connected VBUS to the switch, then to the modified heating element and back to GND. To make the connections easier, I crimped spade connectors onto jumper wires. Finally, I plugged the modified light into pin 13 on the Arduino.

You can check out more about Cerundolo’s project, and find his code on GitHub.

“Smarten” a dumb switch without running wires

via Arduino Blog

Using a pair of Arduino Unos and nRF24L01+ modules, this hacker can now remote control his lights.

After struggling with a wall switch that was just too far from his desk to turn off without getting up, “Guyfromhe” decided to take matters into his own hands and rig up a servo to do it for him. The servo is simply hot glued to the switch plate, and when it gets a command, it obediently switches the lights on or off. Though crude, it seems to get the job done, and it wouldn’t be too hard to imagine a good bracket setup.

An Arduino Uno controls the servo, and takes signals from another Arduino via an nRF24+ RF module. He chose this wireless device as a simple transmission method, and one that uses less power than an ESP8266 that he also tried out. The non-servo Arduino can potentially take signals from several sources, including a Raspberry Pi, laptop, or even a hacked Amazon Dash button.

You can see this makeshift system demonstrated in the video below, and read more about the build here.