https://shop.pimoroni.com/products/explorer-hat
https://shop.pimoroni.com/products/explorer-phat
The Explorer HAT and Explorer pHAT have a heap of useful input and output options that will take your Raspberry Pi projects to the next level. Great for driving motors, using analog sensors, interfacing with 5V systems, and touch interfaces.
We've created an easy installation script that will install all pre-requisites and get your Explorer HAT/pHAT up and running with minimal efforts. To run it, fire up Terminal which you'll find in Menu -> Accessories -> Terminal on your Raspberry Pi desktop, as illustrated below:
In the new terminal window type the command exactly as it appears below (check for typos) and follow the on-screen instructions:
curl https://get.pimoroni.com/explorerhat | bash
Enable i2c:
sudo raspi-config nonint do_i2c 0
Install the library:
python3 -m pip install --upgrade explorerhat
If you want to contribute, or need to run the latest, unreleased code you should clone this repository, cd
to the library directory, and run:
sudo python3 setup.py install
You will also need to enable the i2c bus:
sudo raspi-config nonint do_i2c 0
- Guides and tutorials
https://learn.pimoroni.com/explorer-hat
https://learn.pimoroni.com/explorer-phat - Function reference
https://github.com/pimoroni/explorer-hat/blob/master/documentation/ - GPIO Pinout
https://pinout.xyz/pinout/explorer_hat_pro
https://pinout.xyz/pinout/explorer_phat - Get help
http://forums.pimoroni.com/c/support
Explorer HAT/pHAT uses an output driver chip called the ULN2003A, which contains a set of transistor pairs called a Darlington Array. It transforms the small logic signal of the Pi into something capable of driving much bigger loads, such as motors, steppers, lights and more.
The 4 outputs on Explorer can sink 5V, but not source. This means you need to connect your load to one of the 5V pins, and then to the output. When you turn the output on it will connect your circuit to ground, allowing current to flow and your load to turn on. This is the opposite of using a bare Pi GPIO pin, where you might connect to the pin and then to ground; keep this in mind!