The SPC5744BK1AVKU2 is a high-performance microcontroller unit (MCU) from the SPC57xxB family, designed by NXP Semiconductors. It is based on the Power Architecture® technology, offering a variety of features and capabilities suitable for applications in the automotive industry.
This IC component is built using a 32-bit Power Architecture VLE compliant CPU core, operating at a maximum frequency of 160MHz. It is fabricated using a 55nm embedded non-volatile memory (eNVM) process technology, ensuring high performance and durability.
Key features of the SPC5744BK1AVKU2 include an extensive set of peripherals, integrated memories, and advanced communication interfaces. It provides up to 768KB of flash memory, 48KB of data retention EEPROM, and 128KB of RAM, facilitating the storage and execution of complex automotive applications.
The MCU is equipped with a comprehensive range of I/O connectivity options, offering up to 145 general-purpose I/O pins, including GPIO, PWM, and dedicated communication ports. It also supports various communication protocols such as CAN, FlexRay, LIN, and Ethernet, enabling seamless integration with automotive networks.
To ensure reliable and secure operation, the SPC5744BK1AVKU2 incorporates hardware security modules (HSMs) and cryptographic accelerators. These features enhance the protection of data and intellectual property, making it suitable for safety-critical automotive applications.
The MCU also comes with advanced debugging and development tools, such as a built-in real-time trace unit and an on-chip emulator, facilitating efficient and rapid development cycles. Additionally, it operates at a wide temperature range (-40°C to +125°C) and offers comprehensive power management options, enabling efficient power consumption.
In summary, the SPC5744BK1AVKU2 is a high-performance MCU specifically designed for automotive applications. Its key features include a 32-bit Power Architecture VLE CPU core, significant amounts of memory, extensive I/O connectivity, support for various communication protocols, and robust security features.