The MT47H64M16NF-25EAAT:MTR is a high-performance DDR2 SDRAM component manufactured by Micron Technology Inc. This memory chip is designed for applications demanding high bandwidth and low latency, such as graphics cards, embedded systems, and networking equipment.

Applications

• Graphics cards
• Embedded systems
• Networking equipment
• Gaming consoles
• High-performance computing

Features

• DDR2 Technology: Utilizes DDR2 architecture for enhanced data transfer rates.
• Capacity: 64 Meg x 16 configuration, providing a total capacity of 1 Gigabit (1024 Mbits).
• Speed Grade: -25E indicates a data transfer rate of up to 800 Mbps (DDR2-800).
• Operating Voltage: Operates at a standard DDR2 voltage of 1.8V.
• Interface: Industry-standard DDR2 interface for seamless integration.
• Package: Packaged in FBGA (Fine-pitch Ball Grid Array) for efficient board mounting and thermal performance.

Benefits

• High Bandwidth: Enables rapid data transfer, enhancing overall system performance.
• Low Latency: Optimized for minimal latency, ensuring fast data access and system responsiveness.
• Power Efficiency: 1.8V operation contributes to reduced power consumption.
• Reliability: Micron's stringent manufacturing ensures high reliability and stability.
• Compatibility: Conforms to JEDEC standards for DDR2 SDRAM, guaranteeing wide compatibility.

Additional Details

The MT47H64M16NF-25EAAT:MTR is engineered to fulfill the rigorous demands of contemporary computing environments. It includes features like on-die termination (ODT) and differential clock inputs to optimize signal integrity and minimize noise. The 'NF' likely refers to specific characteristics within the Micron product line, such as packaging or temperature range. The 'AAT:MTR' suffix likely indicates internal testing or production lot identifiers. Refer to the comprehensive Micron datasheet for precise timing parameters, power consumption specifications, and detailed package dimensions for the MT47H64M16NF series.

This component is particularly well-suited for applications that require both substantial memory capacity and high-speed data throughput. Its compliance with industry standards facilitates easy integration into diverse system architectures.