The NXP MPC5200VR400 is a high-performance, low-power, integrated microprocessor that is designed to meet the needs of a wide range of embedded applications. This processor is part of NXP's MPC5200 series, known for its robust architecture, which is based on the PowerPC core. The MPC5200VR400 operates at a core speed of 400 MHz, delivering the optimal balance between processing power and energy efficiency.

Key Features

• High-Performance PowerPC Core: At its heart, the MPC5200VR400 features a PowerPC 603e core that provides a solid foundation for multitasking and computation-intensive tasks.
• Integrated Peripherals: The microprocessor comes with a wealth of integrated peripherals, including Ethernet, USB, and serial controllers, which reduces the need for external components and simplifies design complexity.
• Best-in-Class Power Efficiency: Designed with power-sensitive applications in mind, the MPC5200VR400 offers excellent computational performance per watt, making it ideal for portable and automotive applications where power efficiency is crucial.
• Advanced Bus Interface: It features a BestComm DMA controller and a Multi-Channel Buffered Serial Port (MCBSP), which enable fast and efficient data transfer and communication with other devices.

Applications

The versatility of the NXP MPC5200VR400 makes it suitable for a variety of applications, including but not limited to:

• Automotive control systems
• Industrial automation
• Networking equipment
• Consumer electronics
• Medical devices

Technical Specifications

The MPC5200VR400 boasts a comprehensive set of technical specifications that cater to demanding applications:

• CPU Speed: 400 MHz
• Architecture: PowerPC 603e core
• L1 Cache: 32 KB instruction cache and 32 KB data cache
• Temperature Range: -40°C to +85°C (industrial grade)
• Power Supply: 1.5V core voltage with 3.3V I/O

With its combination of performance, integrated features, and power efficiency, the NXP MPC5200VR400 is an exceptional choice for designers looking to create sophisticated systems with a compact footprint and lower power consumption.