Bearings Canada
Dual Channel DC Motor Driver Board With H Bridge For DIY Projects 3 To 10V Input 1.5A Per Channel Drives Two DC Geared Motors With Built In Overcurrent Undervoltage And Overtemperature Protection Tiny Footprint 0.73 By 0.63 Inch
Title
$28.54 CAD
$57.11 CADyou save $28.57 CAD
SKU: VXB0DX6BNV53
UPC:
UPC:
Dual Channel H-Bridge Motor Driver for 3-10V DC Motors
✔️ 1 board, 2 channels, 1.5A per channel, 3-10V input, tiny footprint
✅ Input voltage: 3-10V
✅ Output current: 1.5A per channel
✅ Drives two DC geared motors
✅ Built-in overcurrent, undervoltage, and overtemperature protection
✅ Sleep mode reduces power draw when unused
✅ PWM-compatible with Arduino, Raspberry Pi, Jetson Nano, PCA9685
✅ Tiny footprint for compact DIY setups
- Provides independent per-channel drive for precise control of each motor
- Includes short-circuit, undervoltage, and overtemperature protection
✔️ 1 board, 2 channels, 1.5A per channel, 3-10V input, tiny footprint
This compact motor driver module houses two independent H-bridges and is ideal for DIY robots, RC cars, or small automation projects needing two DC geared motors powered from 3-10V. It includes built-in protections to guard against short circuits, undervoltage, and overheating, and supports PWM inputs from Arduino, Raspberry Pi, Jetson Nano, and PCA9685.
✅ Size: 18.5 mm x 16 mm (0.73" x 0.63")✅ Input voltage: 3-10V
✅ Output current: 1.5A per channel
✅ Drives two DC geared motors
✅ Built-in overcurrent, undervoltage, and overtemperature protection
✅ Sleep mode reduces power draw when unused
✅ PWM-compatible with Arduino, Raspberry Pi, Jetson Nano, PCA9685
✅ Tiny footprint for compact DIY setups
💡 What is a handy dual channel motor driver used for in DIY robotics?
It's a handy way to drive two small DC motors from a hobbyist microcontroller setup, with built-in safeguards that protect the system.
- Works with PWM signals from Arduino, Raspberry Pi, and other controllers- Provides independent per-channel drive for precise control of each motor
- Includes short-circuit, undervoltage, and overtemperature protection