E-L6258EATR - STMicroelectronics

Manufacturer Part Number

E-L6258EATR

Manufacturer

stmicroelectronics

Introduction

E-L6258EATR is a motor driver specifically designed for powering and controlling bipolar stepper motors and brushed DC motors.

Product Features and Performance

Supports a variety of motor types: Bipolar and Brushed DC

Fully integrated driver with control and power stage

Half Bridge (4) output configuration

Utilizes DMOS technology for improved performance

Offers multiple step resolutions: 1, 1/2, 1/4, 1/8, 1/16

Capable of delivering current up to 1.5A

Operates with supply voltages from 4.75V to 5.25V

Load voltages range from 12V to 40V

Product Advantages

High integration simplifies circuit design

Wide motor type and voltage compatibility

Multiple step resolutions enhance motor control precision

High output current suitable for a range of applications

Key Technical Parameters

Motor Type: Bipolar, Brushed DC

Output Configuration: Half Bridge (4)

Step Resolution: 1, 1/2, 1/4, 1/8, 1/16

Current Output: 1.5A

Voltage Supply: 4.75V ~ 5.25V

Voltage Load: 12V ~ 40V

Operating Temperature: 150°C (TJ)

Quality and Safety Features

Built using robust DMOS technology

Over temperature protection due to high junction operating temperature capability of 150°C

Compatibility

Supports multiple motor types and a range of stepping resolutions for flexible application use

Compatible with general purpose motor driving applications due to its versatile features

Application Areas

General Purpose motor driving applications across various industries

Product Lifecycle

Currently active

No indication of nearing discontinuation, and replacements or upgrades should be available as needed

Several Key Reasons to Choose This Product

The ability to drive both bipolar stepper and brushed DC motors increases design flexibility

High current output capacity (1.5A) ideal for various power needs

High operating temperature range ensures reliability under thermal stress

Multiple step resolutions facilitate precise motor control

Integrated design reduces external component requirements, simplifying system design