Mx1616 Motor Driver Datasheet [WORKING]

Posted on: December 1, 2014
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This article provides an in-depth look at the , including technical specifications, pinout, truth tables, and application examples to help you integrate it into your projects. 1. Overview of the MX1616 Motor Driver

You are exceeding the 1.5A continuous current limit. Add a small heatsink to the top of the chip or lower the motor load.

Low quiescent current, typically < 0.1μ A when idle. Mx1616 Motor Driver Datasheet

Power and Ground lines are integrated depending on specific factory variants; typically, power is delivered shared through specific high-current paths or dedicated pins in modified SOP configurations. Always verify your specific manufacturer layout. 3. Control Logic and Truth Table

Less than 0.1 µA, maximizing battery longevity. This article provides an in-depth look at the

The MX1616 provides a compact and efficient solution for controlling two DC motors independently (or one 2-phase stepper motor) from a microcontroller like Arduino, ESP32, or Raspberry Pi. It is frequently found on small PCB modules designed for 2WD or 4WD robot chassis. Key Features (from Datasheet)

The is a remarkably capable little chip for its size and cost. It delivers up to 1.8 A continuous / 2.5 A peak per channel, works directly from 2 V to 11 V, and consumes almost no power when idle – all within a standard SOP‑16 footprint. Its integrated MOSFET H‑bridges, thermal protection, and built‑in freewheeling diodes make it a near‑complete solution for low‑voltage bidirectional motor control. Add a small heatsink to the top of

Additional details:

The truth table for a single H-bridge channel (IN1, IN2 for Motor A) is: