Features
- Independent control of two DC motors
- Control of motor speed and rotation direction
- Support for one bipolar stepper motor up to 2 A
- Wide motor voltage support
- Direction indicator LEDs for each motor
- PWM-based speed control using Arduino PWM pins
- Compatible with Arduino Uno Duemilanove and Mega
- Simple pin layout for easy setup
Specifications
- Driver chip L293
- Logic control voltage 5 V from Arduino
- Motor voltage 6.5 to 12 V from VIN
- Motor voltage 4.8 to 35 V from an external power source only
- Maximum power consumption 5 W
- Total load current 2 A
- Maximum current per channel 1 A
Operation
Motor speed is controlled using PWM signals from the Arduino. By adjusting the duty cycle of the PWM signal, the motor speed can be increased or decreased smoothly.
Motor direction is controlled through digital input pins, and the current direction of each motor is shown using onboard indicator LEDs.
Applications
- Robotics projects
- Automated systems
- Educational motor control experiments
- Motion control platforms
- DIY electronic projects
Features
- Independent control of two DC motors
- Control of motor speed and rotation direction
- Support for one bipolar stepper motor up to 2 A
- Wide motor voltage support
- Direction indicator LEDs for each motor
- PWM-based speed control using Arduino PWM pins
- Compatible with Arduino Uno Duemilanove and Mega
- Simple pin layout for easy setup
Specifications
- Driver chip L293
- Logic control voltage 5 V from Arduino
- Motor voltage 6.5 to 12 V from VIN
- Motor voltage 4.8 to 35 V from an external power source only
- Maximum power consumption 5 W
- Total load current 2 A
- Maximum current per channel 1 A
Operation
Motor speed is controlled using PWM signals from the Arduino. By adjusting the duty cycle of the PWM signal, the motor speed can be increased or decreased smoothly.
Motor direction is controlled through digital input pins, and the current direction of each motor is shown using onboard indicator LEDs.
Applications
- Robotics projects
- Automated systems
- Educational motor control experiments
- Motion control platforms
- DIY electronic projects
