The ON Semiconductor LV8402GP-H is a versatile and high-performance motor driver integrated circuit (IC) designed to drive stepping motors and two-phase bipolar stepper motors. This IC is an ideal choice for a wide range of applications, including office automation machines, factory automation equipment, and consumer electronics that require precise motor control.

Key Features

• Output Current Capacity: The LV8402GP-H is capable of delivering an output current of up to 1.5A per channel, making it suitable for driving a wide range of motor sizes.
• Low Voltage Operation: With an operating voltage range from 9V to 32V, this motor driver IC is designed to work efficiently in low voltage scenarios, ensuring compatibility with various power supplies.
• High Efficiency: The IC incorporates a low on-resistance (Ron) of the output stage, which translates to lower heat generation and higher energy efficiency during operation.
• Micro-Stepping Support: It supports micro-stepping control, which allows for smoother and more precise motor movements, essential for applications demanding high-resolution positioning.
• Built-in Protection Features: The LV8402GP-H includes various protection features such as thermal shutdown (TSD), over-current protection (ISD), and under-voltage lockout (UVLO), ensuring the longevity and reliability of the motor and the IC itself.

Applications

The LV8402GP-H motor driver IC is suitable for a variety of applications, including:

• 3D Printers
• CNC Machines
• Robotics
• Surveillance Cameras
• Office Automation Equipment
• Medical Devices

Package and Quality

The IC comes in a compact HTSSOP package, which not only saves space but also offers excellent thermal performance. ON Semiconductor ensures the highest quality and reliability standards, providing customers with a robust and durable motor driver solution.

With its combination of performance, efficiency, and protection features, the ON Semiconductor LV8402GP-H motor driver IC stands out as a top choice for engineers and designers looking to enhance their motor control systems.