The NT5CC256M16CP-DII is a DDR3 SDRAM (Synchronous Dynamic Random-Access Memory) component manufactured by Nanya. It's designed to provide high-speed data access for a variety of applications, including but not limited to desktops, laptops, embedded systems, and other devices requiring efficient memory operations. This particular module emphasizes a balance between speed, density, and power consumption.

Applications:

• Desktop PCs
• Laptop Computers
• Embedded Systems
• Industrial Computing Platforms
• Networking Devices

Features:

• Capacity: 256MB (256M x 16 configuration)
• DDR3 Technology: Utilizes DDR3 architecture for improved data transfer rates compared to previous generations.
• Data Transfer Rate: Supports data transfer rates of up to 1333 MT/s.
• Operating Voltage: Operates at a low voltage of 1.5V to minimize power consumption.
• Interface: Standard DDR3 interface for broad compatibility with supporting chipsets.
• Package: FBGA (Fine-pitch Ball Grid Array) package for optimized thermal performance and space utilization.
• RoHS Compliance: Manufactured in compliance with RoHS standards, limiting the use of hazardous substances.

Benefits:

• Increased System Performance: High data transfer rates improve overall system responsiveness and application performance.
• Reduced Power Consumption: Lower operating voltage contributes to energy efficiency, especially important in portable devices.
• Improved Reliability: Designed for reliable operation and consistent performance under various conditions.
• Wide Compatibility: Compatible with a range of platforms supporting DDR3 memory technology.
• Enhanced Thermal Management: FBGA package helps to dissipate heat effectively, contributing to system stability.

The NT5CC256M16CP-DII DDR3 SDRAM module is a reliable and efficient memory solution for a diverse set of applications. Its 256MB capacity, combined with DDR3 technology, provides a good balance between performance and power consumption. Its compliance with industry standards ensures its compatibility and reliability, making it a suitable choice for various computing devices where memory performance is a key consideration.