Product information: It is one of the most cost-effective and up-to-date robot building robotic kits for programming and DIY. Electronic stick robot for kids and adults, made of building blocks; easy to install and expand at home, programmable and fully functional. The kit includes a free detailed tutorial (including video instructions, schematics and source code, and graphical programming). In this kit, a gesture-controlled robot is developed using ADXL335, 3-axis accelerometer and 3-axis gyroscope sensor, and CH340 nano main control board. Therefore, the movement of the robot is controlled by gestures, rather than using a remote control with buttons or joysticks. The project is based on wireless communication, where gesture data is transmitted to the smart cart via a radio frequency link (radio frequency transceiver). Environment: Main control: arduino Nano programming Software: arduino IDE\Mind+ Programming language: C\C++, graphical programming Car structure: high-quality building blocks motor Voltage range: 1-6V; motor shaft length: 10mm; speed: 6.0V 100 rpm drive Mode: Motor control adopts L298N drive Control method: gesture control Power supply mode: external 6~9V voltage (The body is powered by two 18650 lithium batteries, and the gesture control part is powered by 9V dry batteries.) Note: 18650 battery not included. Packing list:As show in picture:
Description
Product information: It is one of the most cost-effective and up-to-date robot building robotic kits for programming and DIY. Electronic stick robot for kids and adults, made of building blocks; easy to install and expand at home, programmable and fully functional. The kit includes a free detailed tutorial (including video instructions, schematics and source code, and graphical programming). In this kit, a gesture-controlled robot is developed using ADXL335, 3-axis accelerometer and 3-axis gyroscope sensor, and CH340 nano main control board. Therefore, the movement of the robot is controlled by gestures, rather than using a remote control with buttons or joysticks. The project is based on wireless communication, where gesture data is transmitted to the smart cart via a radio frequency link (radio frequency transceiver). Environment: Main control: arduino Nano programming Software: arduino IDE\Mind+ Programming language: C\C++, graphical programming Car structure: high-quality building blocks motor Voltage range: 1-6V; motor shaft length: 10mm; speed: 6.0V 100 rpm drive Mode: Motor control adopts L298N drive Control method: gesture control Power supply mode: external 6~9V voltage (The body is powered by two 18650 lithium batteries, and the gesture control part is powered by 9V dry batteries.) Note: 18650 battery not included. Packing list:As show in picture: