Manufacturer Part Number
IRMCF371TR
Manufacturer
Infineon Technologies
Introduction
The IRMCF371TR is an AC, synchronous motor controller that employs advanced control algorithms within Infineon’s MCE™ series.
Product Features and Performance
Pre-Driver configuration for half-bridge topology with three outputs
I2C, RS-232, SPI communication interfaces supported
Utilizes IGBT technology for efficient power transfer
Operates within a broad voltage supply range (1.62V ~ 1.98V, 3V ~ 3.6V)
Capable of handling harsh operating temperatures ranging from -40°C to 85°C
Available in a compact 48-LQFP surface mount package
Product Advantages
Versatile interface options cater to a variety of design requirements
IGBT tech ensures high-efficiency power management suitable for demanding applications
Suitable for integration in a wide array of appliance applications due to the temperature resilience and compact size
Provides comprehensive motor control functions including commutation and direction management
Key Technical Parameters
Motor Type Supported: AC, Synchronous
Control Functions: Commutation, Direction Management
Output Configuration: Pre-Driver Half Bridge (3)
Interface: I2C, RS-232, SPI
Supply Voltage Range: 1.62V ~ 1.98V, 3V ~ 3.6V
Operating Temperature: -40°C ~ 85°C
Quality and Safety Features
This component is suitable for applications requiring operations within a wide range of temperatures, ensuring reliability and performance under various environmental conditions.
Compatibility
The product interfaces well with systems using I2C, RS-232, or SPI communication protocols and is compatible with AC, synchronous motors.
Application Areas
Primarily designed for use within the appliance sector.
Product Lifecycle
The IRMCF371TR is marked as Obsolete, indicating that it may no longer be in production, and customers should look for replacement or upgrade options.
Several Key Reasons to Choose This Product
Infineon’s reputation for producing high-quality, efficient motor controllers
Broad voltage supply range supports the use in various electrical environments
Advanced IGBT technology for improved power efficiency
Durable and reliable in extreme temperature conditions
Support for multiple communication interfaces provides flexibility in system design
Obsolescence indicates the availability of newer, possibly more advanced replacements with improved features or performance.