The AMCC PPC405EX-NSC400T is an embedded processor based on the PowerPC 405EX core. It targets applications requiring a combination of processing power, energy efficiency, and integrated peripherals. As part of the PowerPC 400 series, it's frequently found in networking, storage, and industrial control systems.

Applications

• Network Routers and Switches
• Storage Controllers
• Industrial Automation Systems
• Embedded Control Systems
• Telecommunications Equipment

Features

• PowerPC 405EX Core: A 32-bit RISC processor optimized for embedded processing.
• 400 MHz Clock Speed: Provides high performance for computationally intensive tasks.
• Integrated Memory Controller: Simplifies interfacing with external memory.
• Peripheral Interfaces: Likely includes UARTs, Ethernet MAC, PCI, and other essential interfaces for embedded applications.
• On-Chip Caches: Instruction and data caches minimize memory access times and improve performance.
• Low Power Consumption: Designed for energy-efficient operation in embedded environments.

Benefits

• High Performance: The 400 MHz clock speed enables rapid execution of complex algorithms and processes.
• Reduced System Cost: Integrated peripherals minimize the need for external components, lowering the overall system cost.
• Low Power Consumption: Extends battery life in portable devices and reduces energy costs in fixed deployments.
• Simplified System Design: Integrated features streamline the design process and accelerate development.
• Increased Reliability: Fewer external components contribute to improved system reliability.

Additional Details

The 'NSC400T' portion of the product identifier likely specifies a particular configuration or packaging detail, with '400' indicating the 400 MHz clock speed. The 'T' likely designates the temperature grade. Complete specifications, including operating voltage, pin assignments, and detailed electrical and timing characteristics, can be found in the processor's datasheet. Referencing the datasheet is crucial for proper integration and achieving optimal performance.