The FS32K146HRT0VLLT is a robust automotive-grade microcontroller from NXP Semiconductors, designed to meet the rigorous demands of modern vehicle electronics. This product is part of the S32K1 series, which is specifically engineered for automotive and industrial control systems that require reliable performance in challenging environments.

Key Features

• Core: ARM Cortex-M4F, operating at frequencies up to 80 MHz, providing high computational performance and efficient digital signal processing capabilities.
• Memory: Features 512 KB of flash memory and 64 KB of RAM, suitable for complex applications and multitasking.
• Temperature Range: Designed to operate within a wide temperature range from -40°C to +125°C, ensuring reliability and functionality under extreme conditions.
• Packages: Available in a 100-pin LQFP package, which is ideal for space-constrained applications.
• Connectivity: Includes a variety of communication interfaces such as CAN FD, LIN, and SPI, supporting the needs of complex automotive networks.
• Security: Equipped with a Cryptographic Services Engine (CSE) to ensure data protection and secure communication.
• Analog Interfaces: Comes with multiple ADC channels with high resolution, enabling precise measurement of analog signals.
• Timers: Offers a range of timing and control functions with multiple general-purpose timers, PWM modules, and Real-Time Clock.

Applications

The FS32K146HRT0VLLT is well-suited for a variety of automotive applications including body control modules, gateways, sensor fusion, and motor control units. Its robust feature set also makes it ideal for industrial applications that require high levels of precision and reliability, such as automation control systems and smart sensors.

Quality and Reliability

NXP's commitment to quality is evident in the FS32K146HRT0VLLT, which is designed to meet the stringent requirements of the automotive industry, including AEC-Q100 qualification. This ensures that the microcontroller performs reliably over its intended lifespan, even under the stress of continuous operation in harsh environments.