Ships to you between Fri. 26 Apr to Thu. 02 May
DUAL G2 HP MOTOR DRIVER 24V14 RPI Pololu
DC-motor driver; A4990; 26kHz; PWM; 0.7A; Uin mot:6÷32V; 50x14.2mm Stock : 3
Module: LED; Colour: RGB; 5VDC; No.of diodes:16; 0.8A; Shape: ring Stock : 5
Stepper motor controller; DRV8834; 2A; Uin mot:2.5÷10.8V Stock : 41
DC-motor driver; DRV8801; 50kHz; PWM; 1A; Uin mot:8÷36V Stock : 4
DC-motor driver; DRV8838; 250kHz; PWM; 1.7A; Uin mot:0÷11V Stock : 0
Shield Stock : 2
DC-motor driver; TB9051FTG; PWM; 2.6A; Uin mot:4.5÷28V Stock : 9
DC-motor driver; A4990; 26kHz; PWM; 0.7A; Uin mot:6÷32V Stock : 2
Stepper motor controller; STSPIN220; 1.1A; Uin mot:1.8÷10V Stock : 65
Stepper motor controller; TB67S279FTG; 1.1A; Uin mot:10÷47V Stock : 3
DC-motor driver; 21.77kHz; RC, TTL, USB, analog; 12A; Uin log:3.3V Stock : 2
Stepper motor controller; MP6500; 1.5A; Uin mot:4.5÷35V Stock : 10
Stepper motor controller; A4988; 1.2A; Uin mot:8÷35V Stock : 0
Stepper motor controller; DRV8834; I2C, PWM, RC, TTL, USB, analog Stock : 10
DC-motor driver; DUAL G2; 100kHz; PWM, TTL, analog; 6.5÷30V; shield Stock : 1
Stepper motor controller; A4988; 1A; Uin mot:8÷35V; Kit: module Stock : 10
Stepper motor controller; STSPIN820; 900mA; Uin mot:7÷45V Stock : 5
Stepper motor controller; TB6612FNG; 1.2A; Uin mot: 4.5÷13.5V Stock : 5
The Pololu Dual G2 High-Power Motor Driver 24v14 RPI is a robust and efficient dual H-bridge motor driver board designed to drive large DC motors with currents up to 14A continuous (30A peak). The board is available in several power supply configurations and can operate from 8V to 24V. The board features a robust protection circuitry, which features thermal shutdown, short-circuit protection, and a number of diagnostic pins to help users troubleshoot. An onboard Raspberry Pi compatible header allows for easy attachment to Raspberry Pi boards, providing a simple and convenient way to control the motor driver. The board also provides onboard connector that allows for connection to an optional current sensor, further increasing the robustness of the driver.