Manufacturer Part Number
MC34GD3000EP
Manufacturer
NXP Semiconductors
Introduction
The MC34GD3000EP is a high-performance, highly integrated motor driver IC designed for brushless DC (BLDC) motor control applications. It features a complete motor control solution, including commutation logic, direction management, and half-bridge driver outputs, all in a compact VFQFN package.
Product Features and Performance
Operates from a supply voltage range of 6V to 58V
Supports BLDC motors with a voltage range of 6V to 58V
Integrated half-bridge driver outputs with high current capability
Commutation logic and direction management for BLDC motor control
SPI interface for configuration and control
Wide operating temperature range of -20°C to 105°C
Product Advantages
Highly integrated solution reduces system complexity and component count
Wide voltage range and high current capability enable a broad range of motor applications
Flexible SPI interface allows for easy configuration and control
Robust thermal and overcurrent protection features ensure reliable operation
Key Reasons to Choose This Product
Comprehensive motor control solution in a compact package
Optimized for BLDC motor applications with high efficiency and performance
Flexible configuration and control options through the SPI interface
Proven reliability and safety features for industrial and automotive applications
Quality and Safety Features
Overcurrent and thermal protection
Short-circuit protection
Undervoltage lockout
Compatibility
The MC34GD3000EP is compatible with a wide range of BLDC motors and can be used in a variety of general-purpose applications.
Application Areas
Industrial automation
Robotics
Household appliances
Medical equipment
Automotive systems
Product Lifecycle
The MC34GD3000EP is an active product in the NXP Semiconductors portfolio. There are no announced plans for discontinuation at this time. Customers are advised to contact our website's sales team for information on any potential equivalent or alternative models that may become available in the future.