₹24999.00Original price was: ₹24999.00.₹23199.00Current price is: ₹23199.00.
High-performance Dual-controller Structure: The host controller adopts Raspberry Pi 4B / 5 for AI vision and strategy planning, and the sub-controller uses ESP32 for motion PID control and sensor data processing.
Open-source Demo: The host system is based on the latest Raspberry Pi OS (Debian Bookworm), provides a WEB application based on Flask and Python, open-source for all demos, easier for users to get started quickly for learning and secondary development. The two-layer architecture makes the robot run more efficiently.
Rich Tutorials: Provides JupyterLab interactive tutorials, graphic tutorials, and video tutorials, and users can learn how to control the robot while programming.
Wide Viewing Angle: Optoinal for 2DOF high-torque flexible pan-tilt, providing 360° omnidirectional observing angle, all kits come with a 160° ultra-wide 5MP camera for capturing every detail.
Robot Computer Vision: Integrates robot computer vision functions such as color, object, gesture recognition, face recognition, and motion detection, supports expanding for more applications.
Abundant Interaction: Real-time video streaming, digital zoom, photo, video, and other functions, and WEB application of real-time video functions and robot information displayed on the screen to improve the user interaction experience.
Cross-platform Web APP Remote Control: Supports cross-platform remote control via a Web application, no App installation required. Supports using Tunneling Services such as Ngrok, Cpolar, or LocalTunnel to expose the local network service of the robot to the Internet so that you can control the robot from anywhere.
Expandability: Reserved space on the mounting plate and comes with a tactical rail, more convenient for expanding other tactical peripherals; Onboard 12V switch interfaces on the driver board for controlling other peripherals such as Electric Gel Ball Blaster Surge, supports installing 4G / 5G modules for more possibilities.
Durable Structure: 2mm thickness all aluminum alloy body, providing excellent rigid structure and durability.
High-performance Driving Motor: Equipped with 4x N20 encoder motors, enabling closed-loop speed control. With a maximum speed of 0.65m/s, it delivers robust power.
All-Drive and High-Quality Tires: The chassis is equipped with a four-wheel drive system with soft anti-skid rubber tires, ensuring stable performance in various terrains.
Lasting Power: Built-in 3S lithium UPS power supply module (the batteries are NOT included), supports charging and discharging at the same time to ensure continuous standby time.
Face Detection: Automatic picture or video capturing
based on OpenCV to achieve Face recognition, supports automatic photo taking or video recording once a face is recognized
The RaspRover is an open-source 4WD AI robot designed for exploration and creation and adopts the dual-controller structure design. The host controller adopts Raspberry Pi 4B / Raspberry Pi 5 for AI vision and strategy planning, and the sub-controller uses ESP32 for motor PID control, IMU sensor control, OLED screen control, servo control, LED on/off control, etc. effectively saving computing and IO resources for the host controller.
Adopts 2mm thickness all-aluminum metal body, durable and reliable. The chassis is equipped with soft anti-skid rubber tires with 4x N20 encoder motors, supports closed-loop speed control, provides excellent shock-absorbing performance, and the maximum speed is up to 0.65m/s. Built-in 3S lithium UPS power supply module (the batteries are NOT included) can provide powerful and lasting power, support charging, and discharging at the same time to ensure continuous standby time.
Comes with a CSI camera for the Raspberry Pi 4B version and a USB camera for the Raspberry Pi 5 version, Which supports real-time transmission of high-frame-rate video. No App installation is required, allowing users to connect and control the robot via mobile phones, tablets, and computers via a browser Web App, and obtain- real-time information feedback. Users can enjoy a smooth visual experience and can capture different wonderful moments through functions such as taking photos and videos. In addition, the robot’s various information feedbacks – including battery voltage, CPU usage, etc. – are displayed in real-time through the WEB application, allowing users to monitor the robot’s status in real-time.
The PT version is equipped with a 2-DOF high-torque flexible pan-tilt and a 5MP 160° wide-angle camera for various AI robot vision functions. With high-brightness LED light for ensuring clear images in low-light conditions. Also equipped with a tactical rail to easily install peripherals for more functions.
Provides complete tutorials and demos including JupyterLab WEB Application to help users get started quickly for learning and secondary development.
Specifications:
Chassis height
33.70mm
Pan-Tilt DOF
2
Pan-Tilt SERVO TORQUE
20KG.CM
Pan-Tilt SERVO
ST3215 Servo
Host System support
Debian Bookwrom
ROS2 Version
ROS2-HUMBLE-LTS
Camera FOV
160°
Power supply
3S UPS Module
Battery support
18650 lithium battery x 3 (NOT included)
Demo control methods
Web application / Jupyter Lab interactive programming
Default Max speed
0.65m/s
Number of Driving wheels
4
Tire diameter
80mm
Tire width
42.5mm
Features:
High-performance Dual-controller Structure: The host controller adopts Raspberry Pi 4B / 5 for AI vision and strategy planning, and the sub-controller uses ESP32 for motion PID control and sensor data processing.
Open-source Demo: The host system is based on the latest Raspberry Pi OS (Debian Bookworm), provides a WEB application based on Flask and Python, open-source for all demos, easier for users to get started quickly for learning and secondary development. The two-layer architecture makes the robot run more efficiently.
Rich Tutorials: Provides JupyterLab interactive tutorials, graphic tutorials, and video tutorials, and users can learn how to control the robot while programming.
Wide Viewing Angle: Optoinal for 2DOF high-torque flexible pan-tilt, providing 360° omnidirectional observing angle, all kits come with a 160° ultra-wide 5MP camera for capturing every detail.
Robot Computer Vision: Integrates robot computer vision functions such as color, object, gesture recognition, face recognition, and motion detection, supports expanding for more applications.
Abundant Interaction: Real-time video streaming, digital zoom, photo, video, and other functions, and WEB application of real-time video functions and robot information displayed on the screen to improve the user interaction experience.
Cross-platform Web APP Remote Control: Supports cross-platform remote control via a Web application, no App installation required. Supports using Tunneling Services such as Ngrok, Cpolar, or LocalTunnel to expose the local network service of the robot to the Internet so that you can control the robot from anywhere.
Expandability: Reserved space on the mounting plate and comes with a tactical rail, more convenient for expanding other tactical peripherals; Onboard 12V switch interfaces on the driver board for controlling other peripherals such as Electric Gel Ball Blaster Surge, supports installing 4G / 5G modules for more possibilities.
Durable Structure: 2mm thickness all aluminum alloy body, providing excellent rigid structure and durability.
High-performance Driving Motor: Equipped with 4x N20 encoder motors, enabling closed-loop speed control. With a maximum speed of 0.65m/s, it delivers robust power.
All-Drive and High-Quality Tires: The chassis is equipped with a four-wheel drive system with soft anti-skid rubber tires, ensuring stable performance in various terrains.
Lasting Power: Built-in 3S lithium UPS power supply module (the batteries are NOT included), supports charging and discharging at the same time to ensure continuous standby time.
Face Detection: Automatic picture or video capturing
based on OpenCV to achieve Face recognition, supports automatic photo taking or video recording once a face is recognized
Pin Description:
Multi-Functional driver board
Used as the sub-controller of the robot, the onboard ESP32 module can be controlled via serial port, HTTP request, ESP-NOW, and other communication protocols, providing a web application for some basic control of the robot.
ESP32 can handle low-level computations for the robot, such as a high-frequency PID controller for controlling wheel speed, high-frequency inverse kinematics calculations for robotic arm linkages, position interpolation calculation, Pan-Tilt angle control OLED screen control, etc.
ESP32 is also responsible for data reading of various sensors, such as IMU (9-axis attitude sensor) and INA219 (battery voltage detection), and can independently achieve the camera vertical stabilization function, effectively saving computing and IO resources for the host controller.
ESP32 module
ESP32 module antenna connector
Motor control interfaces
INA219
Battery voltage detection IC
Power supply
USB communication/downloading
Lidar USB connector
ESP32-IO0 button
ESP32-EN button
I2C device interface
Lidar UART interface
Bus servo control interfaces
TB6612FNG
Motor driver IC
Host controller 40PIN extended header
Host controller connection header
I2C device interface
ICM20948
9-axis IMU attitude sensor
12V switch controlled by ESP32-IO4
12V switch controlled by ESP32-IO5
Audio Driver Board
The audio driver board is designed for the robot host controller, and onboard USB interface, suitable for Raspberry Pi 4B / Raspberry Pi 5 and other motherboards, and multi-system compatible.
Adopts SSS1629A5 audio control chip, provides reliable audio input and output functions, supports USB interface communication, driver-free, plug and play. Onboard APA2068 audio amplifier chip, provides high-quality audio amplification to ensure clear and stable audio signal output.
Integrated FE1.1S USB 2.0 HUB and CH340 chips for sending data from serial peripherals such as Lidar to the host controller via USB cable without occupying too many resources of the host.
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