L293D Module Motor Drive Shield Expansion Board Motor Control Board
The L293D Module Motor Drive Shield Expansion Board Motor Control Board is a high-performance motor driver board designed to control two DC motors or one stepper motor. It operates on a voltage range of 4.5V to 36V DC and features a current output of up to 600mA per channel.
Product Features:
- Drive up to two DC motors or one stepper motor
- Voltage range: 4.5V to 36V DC
- Current output: 600mA per channel
- Compact and easy-to-use design
- Compatible with Arduino and other microcontrollers
- Onboard voltage regulator provides a stable 5V output for powering the microcontroller
- Reverse polarity protection safeguards the board from accidental damage
The board is equipped with a variety of features that make it ideal for a wide range of applications, including robotics, automation, and hobby projects. The easy-to-use design makes it accessible to both beginners and experienced users, while the durable construction ensures reliable performance in demanding environments.
Applications:
- Robot locomotion
- Automated machinery
- Electric vehicle control
- Power tool speed control
- Industrial automation systems
The L293D Module Motor Drive Shield Expansion Board Motor Control Board is available in a variety of configurations to meet the specific requirements of your project. The standard version comes with a single L293D motor driver IC, while the expanded version features two L293D ICs for controlling up to four motors simultaneously.
Additional Features:
- Compact design (5.6cm x 4.5cm)
- Easy installation (requires only a few jumper wires)
- Heat dissipation fins for extended operation
Benefits:
- Enhanced motor control capabilities for your projects
- Simplified design and implementation
- Reliable and efficient performance
- Reduced development time and costs
Technical Specifications:
- Dimensions: 5.6cm x 4.5cm
- Weight: 15g
- Operating temperature: -20℃ to +85℃
- Storage temperature: -40℃ to +125℃
- Humidity: ≤85% RH
For more information, please refer to the following resources:
