Details
Multi-functional driver board designed for robots, offering more possibilities
- Based on the ESP32-WROOM-32 module, supports wireless communication such as WIFI, Bluetooth and ESP-NOW
- Onboard motor control interfaces for 2x DC motor with encoder or 4x DC motor (2 groups) without encoder
- Onboard serial bus servos control interfaces for controlling up to 253 ST3215 serial bus servos and obtaining servos feedback
- Onboard 9-axis IMU to obtain attitude and heading information at any time
- Supports 7~13V power input, and can be powered directly by 2S or 3S lithium battery module
- Automatic download circuit for easy uploading programs
- Support input voltage/current monitoring
- Onboard TF card slot
- Onboard Laser Lidar interface and integrated UART to USB function
- I2C interface for connecting peripherals such as OLED, IMU, and other I2C devices
- Adapting Multi-functional extended header for additional functions, such as controlling servos or relays
- Onboard 40PIN GPIO header for connecting and powering the host computer (Raspberry Pi/Jetson Nano, etc), communicating via serial port or I2C
- Provides open-source demos and detailed tutorials for beginners, easy to get started
control module | ESP32-WROOM-32 | Control chip | ESP32 |
---|---|---|---|
Power supply | DC 7~13V | Power interface | XH2.54 |
Antenna connector | IPEX1 | Download interface | Type-C |
Wireless communication | WIFI, Bluetooth, ESP-NOW | Dimensions | 65 × 65mm |
mounting hole spacing | 49 × 58mm | Mounting hole diameter | 3mm |
Suitable for different types of robots
Rich Resources for secondary development
Built-in WiFi and Bluetooth, as well as ESP-NOW support, for wireless communication
The inner side 40PIN header is for directly connecting to the Raspberry Pi or other host boards. And extend the outer side 40PIN header for connecting with other HATs via cables
Allows controlling up to 253 ST3215 serial bus servos at the same time
Onboard voltage/current monitoring chip to obtain the power supply status
of the robot at any time
Onboard QMI8658C + AK09918, for detecting movement, orientation, and magnetic
Support Obtaining the heading angle of the robot anytime and anywhere
- ESP32-WROOM-32 controller module
Can be developed using Arduino IDE - IPEX1 WIFI connector
For connecting WIFI antenna to increase the wireless communication distance - LIDAR interface
Integrated radar adapter function - I2C peripheral expansion interface
For connecting with OLED screen or other I2C sensors - Reset Button
Press and release to reboot the ESP32 - Download button
The ESP32 will enter the download mode after powering on - DC-DC 5V voltage regulator circuit
Power supply for host computers such as Raspberry Pi or Jetson nano - Type-C port (LADAR)
LIDAR data transmission - Type-C port (USB)
ESP32 communication interface, for uploading programs to ESP32 - XH2.54 power port
Support DC 7~13V input, can directly power the serial bus servos and motors - INA219
voltage/current monitoring chip - Power ON/OFF
External power supply ON/OFF - ST3215 serial bus servo interface
For connecting with ST3215 serial bus servo - Motor interface PH2.0 6P
Group B interface for motor with encoder
- Motor interface PH2.0 6P
Group A interface for motor with encoder - Motor interface PH2.0 2P
Group A interface for motor without encoder - Motor interface PH2.0 2P
Group B interface for motor without encoder - AK09918C
3-axis electronic compass - QMI8658C
6-axis motion sensor - TB6612FNG
Motor Control Chip - Serial bus servo control circuit
for controlling multiple ST3215 serial bus servos and obtaining servos feedback - TF card slot
Can be used to store logs or WIFI configurations - 40PIN GPIO header
For connecting with Raspberry Pi or other host boards - 40PIN extended header
Easy to use the GPIO pins of Raspberry Pi or other host boards - CP-2102
UART to USB, for radar data transmission - CP-2102
UART to USB, for ESP32 communication - Automatic download circuit
For Uploading programs to the ESP32 without pressing the EN and BOOT buttons
and detailed tutorials
* Resources for different product may vary, please check the wiki page to confirm the actually provided resources.