Summary of Make a TINY Arduino Drone with FPV Camera - Will It Fly?

In this video, the creator demonstrates how to build a small Arduino-based FPV (First Person View) drone, emphasizing a DIY approach for both educational and recreational purposes. The project involves using common Arduino-compatible components, making it accessible for hobbyists on a budget.

Key Components Required

Brushed Coreless Motors: Essential for propulsion.
Motor Driver Board: Custom-built using electronic components like MOSFETs and diodes.
Flight Controller: Based on an Arduino Pro Mini, paired with an MPU 6050 gyro accelerometer for orientation detection.
FPV Camera: A 3G camera for live video feed.
Power Supply: A LiPo battery with appropriate connectors.
Frame Materials: Options for the frame include popsicle sticks or 3D printed parts.

Steps and Features Highlighted

Frame Construction: The creator provides a blueprint for cutting wood or using a 3D print design. Tips for reducing weight and increasing strength are included.
Motor Installation: Detailed instructions on securing motors and wiring them to the motor driver.
Transmitter Design: The transmitter is also built using Arduino, with modifications for better functionality.
Software Setup: The video covers how to upload code to the Arduino and configure the drone using software tools like Multi-E for PID tuning.
Troubleshooting: The creator shares challenges faced during testing, including issues with thrust and electrical noise, and how they were resolved by adjusting components and settings.

Additional Resources

Links to all parts and components used in the project are provided in the video description.
A free downloadable blueprint for the wooden frame.
Access to the transmitter design and wiring diagrams.
A written version of the tutorial is available on the Elector Labs project platform for those who prefer a summarized format with images.

Speakers/Sources

The main speaker is the creator of the video, who shares personal experiences and insights throughout the build process.
References to components and resources from DF Robot and Banggood for electronic parts and tools are included.
Code credits are given to Electronoobs for the adapted multi-e drone code.

Overall, the video serves as a comprehensive guide for enthusiasts looking to create their own FPV drone while addressing common challenges and solutions in the building process.

Notable Quotes

— 12:25 — « After weeks of going through toil and frustration with the Drone, I tried one more thing which was as simple as raising the gyro sensor farther from the source of electrical noise and that stopped the Arduino from resetting. »

— 19:35 — « Remember you can make anything you set your mind to. »