Manufacturer Part Number
DRV8353SMRTAT
Manufacturer
Texas Instruments
Introduction
DRV8353SMRTAT is a motor driver and controller designed for handling Brushless DC (BLDC) motors. It operates as a pre-driver with integrated gate drivers for three half-bridges.
Product Features and Performance
Operates with multiphase stepper and BLDC motors
Integrated controller for commutation and direction management
Output configuration features Pre-Driver for Half Bridge (3)
Utilizes SPI interface for control connectivity
Built on Power MOSFET technology
Capable of driving currents up to 25mA
Supports a wide voltage supply range from 7V to 75V
Load voltage range from 9V to 100V
Efficient operation enabled from -55°C to 125°C
Product Advantages
Designed for high temperature resilience
Wide voltage range compatibility provides flexibility in usage
Compact 40-WFQFN exposed pad package
Smooth interfacing with SPI communication protocol
Key Technical Parameters
Current Output: 25mA
Voltage Supply: 7V to 75V
Voltage Load: 9V to 100V
Temperature Operating Range: -55°C to 125°C
Package Type: 40-WFQFN Exposed Pad
Quality and Safety Features
Constructed to operate effectively within extreme temperature ranges for high reliability
Robust Power MOSFET technology ensures durability and performance stability
Compatibility
Specifically designed for Brushless DC (BLDC) motors
Compatible with multiphase stepper motors as well
Application Areas
Ideally suited for applications involving Brushless DC (BLDC) motors such as automation machinery, robotics, and electric vehicles
Product Lifecycle
Currently marked as Active
Continual production with no indication of discontinuation
Supports future system upgrades and replacements
Several Key Reasons to Choose This Product
High reliability and performance under extreme temperatures
Broad compatibility with various motor types, enhancing adaptability
Advanced communication through SPI interface adds to precise control and configurability
Strategic design in a compact package facilitating easy integration in space-constrained applications