Nanopix is safe
educational
drone
- Educational program for 32 hours already included (presentations, program examples and assignments for each lesson)
- Program in Scratch, Arduino or Python via Wi-Fi
- Model your body and print on a 3D printer
- Has a built-in positioning system - your drone will not fly away without a command
- Precisely holds height and horizon
- Disables automatically on collision
- The control system is open for study and modification
- Collect from Nanopix and other robots. One platform - many devices
Quadcopter - which you build by yourself!
The drone is easy to assemble without a soldering or other tools , so any element can be easily replaced!
- 3D printed housing and protection
- Various battery sizes available
- Standard propellers – easy to buy and replace
- Can be charged from laptop or powerbank
Educational program for 32 hours is included
- Presentations, sample programs and assignments for each lesson
- Design, assembly without soldering
- Setting up and learning the principles of operation
- 3D modeling and 3D Printing
- Programming the drone in Arduino, Scratch or Python
- Additional topics and tasks for advanced
- Next step: local positioning system
FPV support: connect your camera with one swipe
To connect a FPV camera just plug the connector into the board and your Nanopix becomes a small racing drone with a camera with live video to goggles!
Nanopix Ground Station: engineering software tool for lessons
- analyze plots of sensor readings
-
adjust the PID parameters of the slides and filters
- output messages to the built-in console from the flight script
- launch and control the drone directly from the keyboard
Design your Nanopix frame or download original 3D-models
The body can be printed on a 3D printer.
Models for 3D printing
The body can be printed on a 3D printer.
Control from your smartphone via Wi-Fi: download Nanopix Pilot
connection instructionsNanopad remote control - great reception under any conditions
Completely replaces Wi-Fi connection between PC and drone during setup / programming / control.
Provides excellent data reception / transmission in any conditions, even with loaded Wi-Fi frequencies. Recommended for use with 2 or more drones indoors.
Increases control range up to 400 meters.
Program your quadcopter with Scratch, Arduino or Python
- Supports graphical or text-based programming
- Just connect Nanopix to your computer via Wi-Fi and download programs wirelessly!
- Always keep your drone under control thanks to two independent processors on board
- Full API to manage all the functions of the device
Additional equipment: actuators and sensors
Nanopix supports a variety of sensors and mechanisms. For example, you can add cargo grabbing or FPV cameras to your drone. And if you want him to be able to pass the maze – obstacle detection sensors.
Obstacle detection sensor
The Obstacle Sensing Sensor for Nanopix allows the drone to detect and fly around obstacles at a distance of up to 1.2 or 3 meters (depending on the sensor type).
The sensor readings can be used in programs when programming on Arduino or on graphic blocks (Roboton Studio).
Distance measurement frequency: 40 times per second.
Accuracy: 1-5 cm
Detection range: up to 120 cm (type 1) or up to 300 cm (type 2)
Programming language support : Arduino , Roboton Studio graphic blocks
Everything you need to assemble the drone included
For example, a propeller removal and board removal tool is standard on the Nanopix Education Kit.
Gift and practical packaging
You can conveniently organize storage of spare parts or assembled drones – a spacious and high-quality box will allow you to use it again and again.