030172f523
Captures everything needed to redeploy the two-display clock (hour on I2C 0x61, minute on I2C 0x63) on a fresh Pi: - Both systemd units (matrix0x61.service, matrix0x63.service) - Deployed Pimoroni script tree, including the local %I (12-hour) clock customization - Vendored upstream sources (ltp305-python, breakout-garden) so restore is fully offline-capable - Boot config snippet enabling I2C - install.sh that wires it all back up idempotently - Inventory doc cross-referencing every live-system path Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
1.6 KiB
Seismograph example
The Dino-Detect v1.2 beta is a dino stomp detector. It's a UNIX system, I know this.
Pre-requisites
This example requires:
- A Pimoroni Breakout Garden
- A Pimoroni LSM303D 6DoF Sensor Breakout
- A Pimoroni 1.12" OLED Breakout (SPI)
Installation
Pop the breakouts into your Breakout Garden, and then run the install.sh
script in the root of this repository with sudo ./install.sh to automagically
install the libraries to run the I2C breakouts.
For this example you'll need to make sure some additional software is installed:
sudo apt install python3-pil
You'll need to clone and install the library for the 1.12" OLED Breakout (SPI) as follows:
git clone https://github.com/pimoroni/sh1106-python
sudo ./install.sh
This example assumes that you have the OLED plugged into the front slot on the
Breakout Garden HAT, which should also work with the Breakout Garden Mini HAT.
To change it to the back slot, change device=1 to device=0 on the line
where the OLED is set up.
Running this example
To run this example, type ./seismograph.py in the terminal.
Note that it takes a baseline reading initially to zero out the axes, and then calculates subsequent readings against the baseline, so make sure that your Breakout Garden is sitting still when you start the program.
The sensitivity variable can be changed to make the seismograph more or
less sensitive to dino stomps.