Infineon SAK-XC2365A-104F80LR 32-Bit Microcontroller for High-Performance Automotive Applications
The evolution of automotive electronics demands microcontrollers that deliver exceptional performance, reliability, and integration. The Infineon SAK-XC2365A-104F80LR is a 32-bit microcontroller designed specifically to meet the rigorous requirements of modern high-performance automotive applications. Built on a powerful and efficient CPU core, this device operates at frequencies up to 80 MHz, providing the computational muscle needed for complex real-time processing tasks.
A key strength of this microcontroller lies in its robust peripheral set tailored for automotive systems. It features multiple CAN (Controller Area Network) interfaces, which are critical for communication between electronic control units (ECUs) in vehicles, such as in engine management, transmission control, and advanced driver-assistance systems (ADAS). The inclusion of a high-resolution capture/compare unit (CCU6) makes it ideal for precise motor control applications, including electric power steering and electronic throttle control. Furthermore, its enhanced on-chip memory resources, including flash memory and RAM, ensure sufficient space for sophisticated application code and data handling.
The device is engineered for resilience in harsh automotive environments. It supports a wide operating voltage range and is characterized for extended temperature ranges, typically from -40°C to 125°C, ensuring reliable operation under all vehicle conditions. Its enhanced safety and security features help manufacturers meet stringent automotive safety standards like ISO 26262, making it a suitable choice for safety-critical functions.
In summary, the Infineon SAK-XC2365A-104F80LR stands out as a comprehensive solution for developers building the next generation of automotive systems, from powertrain and chassis to safety and body electronics.
ICGOOODFIND: This microcontroller is a top-tier choice for engineers requiring a blend of high processing power, extensive automotive-specific peripherals, and robust reliability for demanding in-vehicle applications.
Keywords: Automotive Microcontroller, Real-Time Control, CAN Interface, ISO 26262, High-Performance
