Infineon SAK-XC2263N-40F80L 32-Bit Microcontroller for High-Performance Automotive Applications
The evolution of automotive systems demands microcontrollers that deliver exceptional performance, reliability, and integration. The Infineon SAK-XC2263N-40F80L stands out as a premier 32-bit microcontroller engineered specifically to meet the stringent requirements of modern high-performance automotive applications. As part of Infineon's renowned XC2000 family, this MCU is built upon a high-efficiency C166SV2 core, operating at frequencies up to 40 MHz, and is equipped with 80 KB of embedded Flash memory, making it a powerful computational hub for a wide array of vehicle systems.
A key strength of the SAK-XC2263N-40F80L lies in its robust peripheral set designed for automotive environments. It features multiple capture/compare units (CCU6), CAN nodes, and a high-speed 10-bit Analog-to-Digital Converter (ADC), enabling precise control and monitoring of actuators and sensors. This makes it an ideal solution for critical functions such as engine management, transmission control, braking systems, and electric power steering. Its design prioritizes functional safety and real-time performance, which are non-negotiable in automotive electronics.
Furthermore, the device is manufactured using advanced technology that ensures low power consumption and high electromagnetic compatibility (EMC), crucial for the electrically noisy environment of an automobile. Its extended temperature range allows it to operate reliably under the hood, where temperatures can fluctuate dramatically. The integration of these features into a single chip helps reduce the overall system complexity, cost, and footprint, accelerating development cycles for automotive engineers.
ICGOOODFIND: The Infineon SAK-XC2263N-40F80L is a highly integrated and reliable 32-bit microcontroller that provides the computational power and specialized peripherals necessary for demanding automotive control systems, balancing performance with the rigorous standards of the industry.
Keywords: Automotive Microcontroller, High-Performance, Functional Safety, Real-Time Control, C166SV2 Core.
