Product Overview: NXP MC7448HX1000ND

The NXP MC7448HX1000ND is a high-performance, power-efficient microprocessor designed for a broad range of computing applications. This processor is part of the PowerPC family, which is renowned for its robust architecture and exceptional processing capabilities. It is ideally suited for embedded systems, networking equipment, and advanced computing devices that require reliable and consistent performance.

Key Features

• Core: The processor features a single-core PowerPC e600 core that provides a balance between performance and power consumption.
• Clock Speed: With a maximum clock speed of 1 GHz, the MC7448HX1000ND delivers the computational power needed for demanding applications.
• Cache: It includes integrated L1 and L2 caches, 32 KB instruction and 32 KB data for L1, and 1 MB L2 cache, which enhance the overall processing speed by reducing data access times.
• Power Efficiency: Designed with power efficiency in mind, this processor incorporates advanced power management features that help reduce overall energy consumption.
• Technology: Built on a 90nm silicon on insulator (SOI) technology, the processor offers improved performance per watt and reduced leakage currents.
• Package: The MC7448HX1000ND comes in a 360-pin CBGA package, ensuring a compact footprint and reliable connectivity for embedded solutions.

Applications

The versatility of the NXP MC7448HX1000ND allows it to be integrated into a variety of applications, including but not limited to:

• High-end embedded computing
• Networking and telecommunications
• Wireless infrastructure
• Industrial control systems
• Aerospace and defense

Why Choose the NXP MC7448HX1000ND?

For developers and engineers looking for a reliable processor that can handle complex tasks without compromising on power efficiency, the NXP MC7448HX1000ND is an excellent choice. Its robust PowerPC architecture, coupled with high-speed processing and energy-saving features, makes it a standout component for building sophisticated and durable systems.