This remote E3D v5 3D printer head (0.4 mm nozzle, 1.75 mm filament) is...
This M3x12mm hexagon pillar nut fits perfectly with the M3 hexagon pillars.
Large power motor driver based on the integrated circuit VNH2SP30. This is a simple one, it can control only one engine.
This is a break out board for DRV8825 microstepping bipolar stepper motor drive. It can drive a bipolar stepper motor with an output current of up to up to 2.5 A per coil. It is suitable for driving motors at wide range of voltages from 8.2 V to 45 V.
This is the newest version of EasyDriver module that provides much more flexibility and control in driving stepper motor.
A dual motor driver capable of supplying currents up to 5 A for each channel, carrying the tension between 5 V and 40 V.
This is an Arduino compatible break out board for the A4988 microstepping stepper motor driver. It can drive a bipolar stepper motor with an output current of up to 2 A per coil.
The TB6612FNG driver can control one or two DC motors at a constant current of 1.2A (up to 3.2A per peak).
The board operates from 6 V to 30 V and can deliver up to approximately 1.8 A per phase without a heat sink or forced air flow (it is rated for 3 A per coil with sufficient additional cooling). See description for more details about the product. Add to cart now!
This compact expansion board plugs directly into the GPIO header on a Raspberry Pi B+, Pi A+, Pi 2, or Pi 3 and provides an easy and low-cost solution for driving a pair of small brushed DC motors. See description for more details about the product. Add to cart now!
TMC2208 Stepper Motor Driver
Dual CJMCU DRV8833 Engine Driver Module useful for controlling two brushed DC motors or a stepper motor.
This compact breakout board for Maxim’s MAX14870 motor driver offers a wide operating voltage range of 4.5 V to 36 V and can deliver a continuous 1.7 A (2.5 A peak) to a single brushed DC motor. See description for more details about the product. Add to cart now!
This small shield is an easy, economical way to control two small brushed DC motors with an Arduino or Arduino-compatible board. Its integrated DRV8835 dual motor driver allows it to operate from 1.5 V to 11 V, making it a great control option for low-voltage motors. See description for more details about the product. Add to cart now!
Adafruit DRV8871 DC Motor Driver Breakout Board - 3.6A Max
This tiny breakout board for TI’s DRV8833 dual motor driver can deliver 1.2 A per channel continuously (2 A peak) to a pair of DC motors. See description for more details about the product. Add to cart now!
This tiny breakout board for TI’s DRV8801 provides a modern alternative to classic motor drivers such as the L293D, SN754410, and L298N. It can deliver a continuous 1 A (2.8 A peak) to a single motor and offers a wide operating voltage range of 8 V to 36 V. See description for more details about the product. Add to cart now!
BTS7960 Motor Driver Module (43 A)
This compact breakout board for ROHM’s BD65496MUV motor driver offers an operating voltage range of 2 V to 16 V and can deliver a continuous 1.2 A (5 A peak for a few milliseconds) to a single brushed DC motor. See description for more details about the product. Add to cart now!
Engine driver with power supply between 2 and 10V, current 2.5A. It can control two motors or a 2-phase motor in both directions with variable speeds.
This tiny breakout board for TI’s DRV8838 motor driver can deliver a continuous 1.7 A (1.8 A peak) to a single brushed DC motor. See description for more details about the product. Add to cart now!
Dual Miniature Engine Driver Module is perfect for applications such as smart machines, toy cars, robots with 2V ~ 10V input voltage. It can control two DC motors or two-phase stepper motors.
The A4988 stepper motor driver is ideal for medium-sized stepper motors. This product is not manufactured by Pololu.
This tiny breakout board for TI’s DRV8835 dual motor driver can deliver 1.2 A per channel continuously (1.5 A peak) to a pair of DC motors, and it supports two possible control interfaces for added flexibility of use: IN/IN and PHASE/ENABLE. See description for more details about the product. Add to cart now!