The NT5TU64M16GG-3C is a DDR2 SDRAM (Double Data Rate 2 Synchronous Dynamic Random-Access Memory) chip manufactured by Nanya Technology. This memory chip is used in various computing devices to provide high-speed data access for applications, operating systems, and other processes. It is a volatile memory, meaning it requires continuous power to maintain the stored information.

Applications

• Desktop PCs
• Laptop computers
• Servers
• Graphics cards
• Embedded systems

Features

• DDR2 Technology
• 64Mb x 16 organization
• Double data rate architecture
• Clock frequency up to a certain maximum (dependent on speed grade)
• Low power consumption compared to previous generations
• 8 internal banks for concurrent operations

Benefits

• Increased memory bandwidth
• Improved system performance
• Reduced power consumption
• Higher memory density

Additional Details

The NT5TU64M16GG-3C is organized as 64 Meg x 16 bits, meaning it has a total capacity. The DDR2 architecture doubles the data transfer rate compared to DDR SDRAM by transferring data on both the rising and falling edges of the clock signal. The -3C designates a specific speed grade. The chip operates at a specific voltage level (typically 1.8V) and has various timing parameters, such as CAS latency (CL), RAS-to-CAS delay (tRCD), and RAS precharge time (tRP), which affect its performance. These parameters are crucial for proper system operation and compatibility. The datasheet from Nanya provides all the required information regarding timings, voltage levels, and other operational specifications. Proper thermal management is vital to ensure stable operation and prevent overheating.

DDR2 SDRAM chips like the NT5TU64M16GG-3C play a critical role in modern computing devices by providing fast and efficient memory access. Nanya's DDR2 chips offer enhanced performance and reduced power consumption compared to earlier memory technologies. When selecting and implementing memory modules, it is essential to ensure compatibility with the system's motherboard and chipset. Careful attention to timing parameters and voltage levels is crucial for optimal performance and system stability. Adhering to the manufacturer's guidelines helps to avoid potential problems and ensure reliable operation. This memory component improves data handling, application execution and overall system response times.