Manufacturer Part Number
MTS62C19A-LS105
Manufacturer
Microchip Technology
Introduction
The MTS62C19A-LS105 is a motor driver/controller from Microchip Technology designed for power management applications.
Product Features and Performance
Fully integrated driver with control and power stage
Half Bridge output configuration with four channels
CMOS technology for low-power operation
Step resolution down to 1/8 steps for precise motor control
Integrated on/off interface for direct control
Capable of driving Bipolar Stepper and Brushed DC motors
Product Advantages
High temperature operational range up to 150°C
Automotive grade product for robust use in vehicle applications
Compact 24-SOIC package suitable for space-constrained applications
Supports a wide range of supply and load voltages for versatile use
Key Technical Parameters
Motor Type Stepper: Bipolar
Motor Type AC, DC: Brushed DC
Current Output: 550mA
Voltage Supply: 4.5V to 5.5V
Voltage Load: 10V to 40V
Operating Temperature: -40°C to 150°C (TJ)
Quality and Safety Features
Automotive grade ensuring high reliability in vehicular environments
Stringent manufacturing and quality control standards typical of Microchip Technology products
Compatibility
Designed for easy surface mount integration on PCBs
Compatible with a range of Bipolar Stepper and Brushed DC motors
Application Areas
Suitable for automotive applications
Applies to power management systems requiring motor control
Product Lifecycle
Product status is active
No immediate discontinuation, ensuring continued availability
Future replacement or upgrade options are usually expected from Microchip Technology
Several Key Reasons to Choose This Product
Durable and reliable in extreme temperature conditions
Suitable for automotive applications with high-grade specifications
Supports various motor types providing design flexibility
High integration for a streamlined circuit design
Versatile power supply options to accommodate different system voltages
Tape and Reel packaging for efficient assembly processing during large-scale manufacturing