🤖 I'm Max and I am currently pursuing a Mechatronics Engineering degree at the University of Canterbury. I love to learn and I'm passionate about all aspects of STEM.

🏂 When I'm not working on projects, you can find me rock climbing, mountain biking or snowboarding.

👨‍💻 My biggest current tech-related interest is electronics and software for microcontrollers and other embedded systems.

⚡ Some interesting (maybe) things that I've worked on recently:

• 🏎 solar-car - This circuit is a buck converter that powers motors from a solar panel. There is a feedback loop that adjusts the converter duty cycle to ensure the solar panel is always operating at the maximum power point.
• 🚥 rgb-matrix - this is a PCB that drives a 8x8 matrix of RGB LED's. The repository also contains code for communicating with and controlling the outputs on the PCB.
• ℹ WASMSerialTerminal - every once in a while I need to communicate with devices that talk through the old serial ports. I made this webapp to achive this, so I can just boot up a browser instead of needing to download some desktop app every time.
• 🔒 Door lock - this is an electromechanical door lock powered by an esp32 and a couple of servos. A touchscreen on the front of the door allows users to input a password before the door unlocks. It employs gears ad a creative mechanism to prevent the lock from getting jammed.
• 🧗‍♂️ Fake kilter board - a Kilter board is a climbing wall with light up holds. It communicates with the official mobile app through bluetooth (specifically BLE). I wanted to figure out how it works so I could send my own commands to it with my own software. After alot of reverse engineering, I uncovered enough details that I was able to make my own fake climbing wall using a microcontroller with built in bluetooth capabilities. I could then use this fake wall to test other software intended for controlling a real one.

📫 You can reach me at [email protected].