NXP S912ZVML64F3MKH Microcontroller

The NXP S912ZVML64F3MKH is a sophisticated microcontroller designed for automotive and industrial applications requiring a high level of integration, performance, and reliability. This member of the S12 MagniV family is built on a 16-bit S12 core and integrates a voltage regulator, LIN physical layer, and a CAN transceiver to reduce system complexity and enhance overall system robustness.

Key Features

• Core: 16-bit S12 CPU core running at up to 25 MHz, offering a balanced mix of control capabilities and computational power.
• Memory: 64 KB of Flash memory and 4 KB of RAM, providing ample space for program storage and efficient data handling.
• Integrated Voltage Regulator: An on-chip voltage regulator simplifies power supply design and enhances power management.
• Communication Interfaces: Equipped with a LIN physical layer and a CAN 2.0B transceiver, the S912ZVML64F3MKH facilitates robust communication in automotive networks.
• Analog Modules: Features multiple analog modules including a 12-bit analog-to-digital converter (ADC) and analog comparators, making it suitable for sensor interfacing and signal conditioning.
• Timers: A variety of timers including PWM modules for precise motor control and timing operations.
• Package: Delivered in a 64-pin LQFP package, providing a compact footprint for space-constrained applications.
• Temperature Range: Operating temperature range from -40°C to 125°C, ensuring reliable operation in harsh environments.

Applications

The S912ZVML64F3MKH is ideal for a wide range of applications, particularly in the automotive sector, such as:

• Body control modules
• Automotive lighting systems
• Motor control units
• Automotive sensors and actuators

Its integration of critical features also makes it suitable for industrial applications that demand high reliability and low power consumption. With its robust feature set and integrated peripherals, the NXP S912ZVML64F3MKH microcontroller stands out as a comprehensive solution for complex control systems.