Manufacturer Part Number
A3967SLBTR
Manufacturer
Allegro Microsystems
Introduction
The A3967SLBTR is a motor driver specifically designed for balancing power management and control of bipolar stepping motors.
Product Features and Performance
Fully integrated driver with control and power stage
Half Bridge (4) output configuration
Supports full, half, quarter, and eighth step resolutions
Advanced technology designed for minimal power loss and efficient operation
High-temperature operational range
Product Advantages
Ability to drive bipolar stepper motors
Simplifies circuit design with integrated power stage
Multiple step resolutions provide flexibility for different applications
Support for voltages from 3V to 5.5V makes it adaptable for various power supplies
High current output capacity of up to 750mA
Key Technical Parameters
Motor Type: Bipolar stepper
Step Resolution: 1, 1/2, 1/4, 1/8
Current - Output: 750mA max
Voltage - Supply: 3V to 5.5V
Voltage - Load: 4.75V to 30V
Operating Temperature: -20°C to 150°C
Quality and Safety Features
The product is designed to endure high-temperature environments
Constructed following industry standards for safety and performance
Compatibility
Compatible with a range of bipolar stepper motors
Ideal for applications requiring a 3V to 5.5V power supply
Surface Mount technology compatible with standard 24-SOIC footprint
Application Areas
The A3967SLBTR is suitable for general-purpose stepper motor applications in various industries including robotics, automation, and precision control systems.
Product Lifecycle
Obsolete
Next-generation alternatives or replacements may be recommended by the manufacturer
Several Key Reasons to Choose This Product
Comprehensive integration reduces system complexity
Robust performance in a wide range of operating temperatures
Versatility in supporting multiple stepper motor resolutions
High output current suitable for more demanding applications
Reliable operation with advanced bipolar technology
Easily mountable surface-mount package facilitates compact design integration