-16%
Wiring Connections:
- Motor Connections:
- M1A and M1B: Connect to the terminals of Motor 1.
- M2A and M2B: Connect to the terminals of Motor 2.
- Power Connections:
- VCC: Connect to the power supply (6V to 24V).
- GND: Connect to the ground of the power supply.
- Control Connections:
- INA1 and INB1: Connect to the digital output pins of your microcontroller for Motor 1 direction control.
- INA2 and INB2: Connect to the digital output pins of your microcontroller for Motor 2 direction control.
- PWM1: Connect to a PWM output pin of your microcontroller for speed control of Motor 1.
- PWM2: Connect to a PWM output pin of your microcontroller for speed control of Motor 2.
- Feedback:
- SENSOR1 and SENSOR2: Optional connections for monitoring current and temperature if sensors are used.
Power:
- Operating Voltage: 6V to 24V DC
- Current Handling: Up to 30A per channel, with peak currents higher but not recommended for continuous operation.
- Power Consumption: Depends on the motor load and operating conditions.
Input and Output:
- Input:
- Control Signals: Requires digital signals for direction (INA and INB) and PWM signals for speed.
- Power Supply: Receives power for both the driver and motors.
- Output:
- Motor Drive Outputs: Provides power and control signals to the connected motors.
Physical Characteristics:
- Size: Approximately 10 x 6 cm
- Mounting: Designed for easy mounting on Arduino boards or other microcontroller platforms.
- Material: Durable PCB with robust connectors and heat sink for cooling.
Technical Specifications:
- Motor Driver Type: H-Bridge
- Max Continuous Current: 30A per channel
- Operating Voltage Range: 6V to 24V
- Heat Dissipation: Includes a heat sink for thermal management
- Protection Features: Overcurrent and overtemperature protection
- Control Signals: Digital and PWM control inputs
Additional Features:
- Ease of Integration: Designed to be easily integrated with Arduino and other microcontroller boards.
- Compact Design: Space-efficient design for use in various projects.
- Thermal Management: Effective heat dissipation through a large heat sink.
How to Use:
- Connect the Power Supply:
- VCC: Connect to your 6V to 24V power source.
- GND: Connect to the ground of your power supply.
- Wire the Motors:
- Connect the motor terminals to M1A and M1B for Motor 1, and M2A and M2B for Motor 2.
- Set Up Control Signals:
- Direction Control: Connect INA1 and INB1 to control pins for Motor 1, and INA2 and INB2 for Motor 2.
- Speed Control: Connect PWM1 to a PWM output pin for Motor 1 speed control, and PWM2 for Motor 2.
- Check Connections:
- Ensure all connections are secure and correctly made.
- Power On and Test:
- Power up your system and test motor operation by sending appropriate control signals from your microcontroller.
- Monitor Performance:
- Use the optional feedback pins for monitoring motor performance if needed.
The Monster Moto Shield Dual VNH2SP30 is a robust and versatile motor driver module, designed to handle high-current DC motors and provide reliable control for various robotic and automation applications. Its ease of use and high power capability make it suitable for demanding projects requiring precise motor control.
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