Manufacturer Part Number
DRV8886RHRR
Manufacturer
Texas Instruments
Introduction
The DRV8886RHRR is a highly integrated motor driver solution designed for driving bipolar stepper motors with advanced control features.
Product Features and Performance
Fully Integrated H-Bridge Motor Driver
Supports Bipolar Stepper Motors
Flexible Step Resolution from Full-step to 1/16 Microstepping
Built-in Microstepping Indexer
2A Output Current Capability
Low RDS(ON) Power MOSFETs
8V to 37V Motor Operating Voltage Range
0V to 5.3V Logic Supply Voltage Range
Robust Thermal and Overcurrent Protection
Small 28-WFQFN Exposed Pad Package
Product Advantages
High Integration Simplifies Design
Advanced Current Regulation for Precise Control
Energy-efficient Low RDS(ON) MOSFETs
Programmable Decay Modes for Optimal Motor Performance
Smart Tuning of Guard Bands to Minimize Audible Motor Noise
Thermal Shutdown and Under-voltage Lockout for Safe Operation
Diagnostic Features for System Fault Protection
Key Technical Parameters
Motor Type Supported: Bipolar Stepper
Maximum Output Current: 2A
Supply Voltage Logic: 0V ~ 5.3V
Load Voltage Range: 8V ~ 37V
Step Resolution: Up to 1/16 Microstepping
Operating Temperature Range: -40°C ~ 125°C
Quality and Safety Features
Overtemperature Warning and Shutdown
Undervoltage Lockout (UVLO)
Overcurrent Protection (OCP)
Thermal Shutdown Circuitry
Compatibility
Compatible with a Wide Range of Microprocessors and Microcontrollers
Logic Interface for Simple Integration
Application Areas
Printers
Scanners
Office Automation Machines
Textile Machines
Gaming Machines
Factory Automation
Robotics
Product Lifecycle
The DRV8886RHRR is currently Active.
No Indication of Near Discontinuation.
Potential Future Replacements or Upgrades are Undetermined.
Several Key Reasons to Choose This Product
Increased System Efficiency and Performance due to Integrated Power MOSFETs.
Precise Motor Control with Built-in Microstepping Indexer.
Reduction in Printed Circuit Board (PCB) Space with Compact 28-WFQFN Package.
Extended Application Range Due to Wide Operating Temperature.
Simplified Design Process Due to High Integration.
Enhanced Reliability Enabled by Comprehensive Protection Features.